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Contents
Foreword	40
1	Scope	41
2	References	41
3	Definitions and abbreviations	44
3.1	Definitions	44
3.2	Abbreviations	47
4	General	50
4.1	Overview of the specification	50
4.2	RRC Layer Model	51
4.3	Protocol specification principles	54
5	RRC Functions and Services provided to upper layers	54
5.1	RRC Functions	54
5.2	RRC Services provided to upper layers	55
5.3	Primitives between RRC and upper layers	55
6	Services expected from lower layers	55
6.1	Services expected from Layer 2	55
6.2	Services expected from Layer 1	55
6.3	Signalling Radio Bearers	55
7	Protocol states	56
7.1	Overview of RRC States and State Transitions including GSM and E-UTRA	56
7.2	Processes in UE modes/states	57
7.2.1	UE Idle mode	57
7.2.2	UTRA RRC Connected mode	57
7.2.2.1	URA_PCH or CELL_PCH state	57
7.2.2.2	CELL_FACH state	58
7.2.2.3	CELL_DCH state	60
8	RRC procedures	60
8.1	RRC Connection Management Procedures	61
8.1.1	Broadcast of system information	61
8.1.1.1	General	62
8.1.1.1.1	System information structure	62
8.1.1.1.2	System information blocks	62
8.1.1.1.3	Segmentation and concatenation of system information blocks	69
8.1.1.1.4	Re-assembly of segments	70
8.1.1.1.5	Scheduling of system information	71
8.1.1.2	Initiation	72
8.1.1.3	Reception of SYSTEM INFORMATION messages by the UE	72
8.1.1.4	Void	72
8.1.1.5	Actions upon reception of the Master Information Block and Scheduling Block(s)	72
8.1.1.6	Actions upon reception of system information blocks	77
8.1.1.6.1	System Information Block type 1	79
8.1.1.6.2	System Information Block type 2	79
8.1.1.6.3	System Information Block type 3	80
8.1.1.6.4	System Information Block type 4	85
8.1.1.6.5	System Information Block type 5 and 5bis	85
8.1.1.6.6	System Information Block type 6	91
8.1.1.6.7	System Information Block type 7	94
8.1.1.6.8	Void	94
8.1.1.6.9	Void	94
8.1.1.6.10	Void	94
8.1.1.6.11	System Information Block type 11	94
8.1.1.6.11a	System Information Block type 11bis	96
8.1.1.6.11b	System Information Block type 11ter	97
8.1.1.6.12	System Information Block type 12	97
8.1.1.6.13	System Information Block type 13	99
8.1.1.6.14	System Information Block type 14	99
8.1.1.6.15	System Information Block type 15	99
8.1.1.6.15.0	System Information Block type 15bis	99
8.1.1.6.15.1	System Information Block type 15.1	100
8.1.1.6.15.1a	System Information Block type 15.1bis	100
8.1.1.6.15.1b	System Information Block type 15.1ter	100
8.1.1.6.15.2	System Information Block type 15.2	100
8.1.1.6.15.2a	System Information Block type 15.2bis	101
8.1.1.6.15.2b	System Information Block type 15.2ter	101
8.1.1.6.15.3	System Information Block type 15.3	101
8.1.1.6.15.3a	System Information Block type 15.3bis	102
8.1.1.6.15.4	System Information Block type 15.4	103
8.1.1.6.15.5	System Information Block type 15.5	103
8.1.1.6.15.6	System Information Block type 15.6	103
8.1.1.6.15.7	System Information Block type 15.7	103
8.1.1.6.15.8	System Information Block type 15.8	103
8.1.1.6.16	System Information Block type 16	104
8.1.1.6.17	System Information Block type 17	104
8.1.1.6.18	System Information Block type 18	104
8.1.1.6.19	System Information Block type 19	106
8.1.1.6.20	System Information Block type 20	106
8.1.1.6.21	System Information Block type 21	107
8.1.1.6.22	System Information Block type 22	107
8.1.1.6.23	System Information Block type 23	107
8.1.1.6.24	System Information Block type 24	108
8.1.1.6.25	System Information Block type 25	108
8.1.1.7	Modification of system information	109
8.1.1.7.1	Modification of system information blocks using a value tag	109
8.1.1.7.2	Synchronised modification of system information blocks	110
8.1.1.7.3	Actions upon system information change	110
8.1.1.7.4	Actions upon expiry of a system information expiry timer	111
8.1.1.8	Reception of System Information Container by the UE	112
8.1.2	Paging	112
8.1.2.1	General	112
8.1.2.2	Initiation	113
8.1.2.3	Reception of a PAGING TYPE 1 message by the UE	113
8.1.3	RRC connection establishment	115
8.1.3.1	General	115
8.1.3.2	Initiation	115
8.1.3.3	RRC CONNECTION REQUEST message contents to set	116
8.1.3.4	Reception of an RRC CONNECTION REQUEST message by the UTRAN	119
8.1.3.5	Cell re-selection, T300 or T318 timeout	120
8.1.3.5a	Abortion of RRC connection establishment	121
8.1.3.6	Reception of an RRC CONNECTION SETUP message by the UE	121
8.1.3.7	Physical channel failure or cell re-selection	128
8.1.3.8	Invalid RRC CONNECTION SETUP message, unsupported configuration or invalid configuration	128
8.1.3.9	Reception of an RRC CONNECTION REJECT message by the UE	129
8.1.3.10	Invalid RRC CONNECTION REJECT message	133
8.1.3.11	Logging of failed RRC Connection Establishment	133
8.1.4	RRC connection release	134
8.1.4.1	General	135
8.1.4.2	Initiation	135
8.1.4.3	Reception of an RRC CONNECTION RELEASE message by the UE	135
8.1.4.4	Invalid RRC CONNECTION RELEASE message	137
8.1.4.5	Cell re-selection or radio link failure	137
8.1.4.6	Expiry of timer T308, unacknowledged mode transmission	138
8.1.4.7	Void	138
8.1.4.8	Reception of an RRC CONNECTION RELEASE COMPLETE message by UTRAN	139
8.1.4.9	Unsuccessful transmission of the RRC CONNECTION RELEASE COMPLETE message, acknowledged mode transmission	139
8.1.4.10	Detection of loss of dedicated physical channel by UTRAN in CELL_DCH state	139
8.1.4.11	Failure to receive RRC CONNECTION RELEASE COMPLETE message by UTRAN	139
8.1.4a	RRC connection release requested by upper layers	139
8.1.4a.1	General	139
8.1.4a.2	Initiation	139
8.1.5	Void	140
8.1.6	Transmission of UE capability information	140
8.1.6.1	General	140
8.1.6.2	Initiation	140
8.1.6.3	Reception of a UE CAPABILITY INFORMATION message by the UTRAN	143
8.1.6.4	Reception of the UE CAPABILITY INFORMATION CONFIRM message by the UE	144
8.1.6.5	Invalid UE CAPABILITY INFORMATION CONFIRM message	144
8.1.6.6	T304 timeout	145
8.1.7	UE capability enquiry	145
8.1.7.1	General	145
8.1.7.2	Initiation	145
8.1.7.3	Reception of a UE CAPABILITY ENQUIRY message by the UE	145
8.1.7.4	Invalid UE CAPABILITY ENQUIRY message	146
8.1.8	Initial Direct transfer	146
8.1.8.1	General	146
8.1.8.2	Initiation of Initial direct transfer procedure in the UE	146
8.1.8.2a	RLC re-establishment or inter-RAT change	149
8.1.8.2ab	Inter-RAT handover from UTRAN to GERAN Iu mode	149
8.1.8.2b	Abortion of signalling connection establishment	149
8.1.8.2c	Inter-RAT handover from UTRAN to E-UTRAN	149
8.1.8.3	Reception of INITIAL DIRECT TRANSFER message by the UTRAN	149
8.1.9	Downlink Direct transfer	150
8.1.9.1	General	150
8.1.9.2	Initiation of downlink direct transfer procedure in the UTRAN	150
8.1.9.3	Reception of a DOWNLINK DIRECT TRANSFER message by the UE	150
8.1.9.3a	No signalling connection exists	150
8.1.9.4	Invalid DOWNLINK DIRECT TRANSFER message	151
8.1.10	Uplink Direct transfer	151
8.1.10.1	General	151
8.1.10.2	Initiation of uplink direct transfer procedure in the UE	152
8.1.10.2a	RLC re-establishment or inter-RAT change	152
8.1.10.2b	Inter-RAT handover from UTRAN to GERAN Iu mode	153
8.1.10.2c	Inter-RAT handover from UTRAN to E-UTRAN	153
8.1.10.3	Reception of UPLINK DIRECT TRANSFER message by the UTRAN	153
8.1.11	UE dedicated paging	153
8.1.11.1	General	153
8.1.11.2	Initiation	153
8.1.11.3	Reception of a PAGING TYPE 2 message by the UE	154
8.1.11.4	Invalid PAGING TYPE 2 message	154
8.1.12	Security mode control	154
8.1.12.1	General	155
8.1.12.2	Initiation	155
8.1.12.2.1	Ciphering configuration change	155
8.1.12.2.2	Integrity protection configuration change	156
8.1.12.3	Reception of SECURITY MODE COMMAND message by the UE	158
8.1.12.3.1	New ciphering and integrity protection keys	162
8.1.12.4	Void	163
8.1.12.4a	Incompatible simultaneous security reconfiguration	163
8.1.12.4b	Cell update procedure during security reconfiguration	164
8.1.12.4c	Invalid configuration	165
8.1.12.5	Reception of SECURITY MODE COMPLETE message by the UTRAN	165
8.1.12.6	Invalid SECURITY MODE COMMAND message	167
8.1.13	Signalling connection release procedure	168
8.1.13.1	General	168
8.1.13.2	Initiation of SIGNALLING CONNECTION RELEASE by the UTRAN	168
8.1.13.3	Reception of SIGNALLING CONNECTION RELEASE by the UE	168
8.1.13.4	Invalid SIGNALLING CONNECTION RELEASE message	168
8.1.13.5	Invalid configuration	169
8.1.14	Signalling connection release indication procedure	169
8.1.14.1	General	169
8.1.14.2	Initiation	169
8.1.14.2a	RLC re-establishment or inter-RAT change	172
8.1.14.3	Reception of SIGNALLING CONNECTION RELEASE INDICATION by the UTRAN	172
8.1.14.4	Expiry of timer T323	172
8.1.15	Counter check procedure	172
8.1.15.1	General	173
8.1.15.2	Initiation	173
8.1.15.3	Reception of a COUNTER CHECK message by the UE	173
8.1.15.4	Reception of the COUNTER CHECK RESPONSE message by UTRAN	174
8.1.15.5	Cell re-selection	174
8.1.15.6	Invalid COUNTER CHECK message	174
8.1.16	Inter RAT handover information transfer	174
8.1.16.1	General	175
8.1.16.2	Initiation	175
8.1.16.3	INTER RAT HANDOVER INFO message contents to set	175
8.1.17	ETWS primary notification with security procedure	177
8.1.17.1	General	177
8.1.17.2	Initiation	177
8.1.17.3	Void	177
8.1.17.4	Reception of the ETWS PRIMARY NOTIFICATION WITH SECURITY message	177
8.1.17.5	Forward of the ETWS primary notification to the upper layers	177
8.1.17.6	Void	177
8.2	Radio Bearer control procedures	178
8.2.1	Radio bearer establishment	178
8.2.2	Reconfiguration procedures	178
8.2.2.1	General	180
8.2.2.2	Initiation	180
8.2.2.2a	Initiation of handover from GERAN Iu mode	182
8.2.2.3	Reception of RADIO BEARER SETUP or RADIO BEARER RECONFIGURATION or RADIO BEARER RELEASE or TRANSPORT CHANNEL RECONFIGURATION or PHYSICAL CHANNEL RECONFIGURATION message, TTI switch HS-SCCH order or Target cell HS-SCCH order by the UE	183
8.2.2.3a	Reception of RADIO BEARER RECONFIGURATION message by the UE performing handover from GERAN Iu mode	203
8.2.2.4	Transmission of a response message by the UE, normal case	204
8.2.2.5	Reception of a response message by the UTRAN, normal case	207
8.2.2.5a	Rejection by the UE	208
8.2.2.6	Unsupported configuration in the UE	208
8.2.2.7	Physical channel failure	209
8.2.2.8	Cell re-selection	210
8.2.2.9	Transmission of a response message by the UE, failure case	210
8.2.2.10	Reception of a response message by the UTRAN, failure case	211
8.2.2.11	Invalid configuration	211
8.2.2.12	Incompatible simultaneous reconfiguration	211
8.2.2.12a	Incompatible simultaneous security reconfiguration	212
8.2.2.12b	Cell update procedure during security reconfiguration	212
8.2.2.13	Invalid received message	213
8.2.2.14	Radio link failure	213
8.2.3	Radio bearer release	214
8.2.4	Transport channel reconfiguration	214
8.2.5	Transport format combination control	214
8.2.5.1	General	215
8.2.5.2	Initiation	215
8.2.5.3	Reception of a TRANSPORT FORMAT COMBINATION CONTROL message by the UE	215
8.2.5.4	Invalid configuration	217
8.2.5.5	Invalid TRANSPORT FORMAT COMBINATION CONTROL message	218
8.2.6	Physical channel reconfiguration	218
8.2.7	Physical Shared Channel Allocation [TDD only]	218
8.2.7.1	General	218
8.2.7.2	Initiation	219
8.2.7.3	Reception of a PHYSICAL SHARED CHANNEL ALLOCATION message by the UE	219
8.2.7.4	Invalid PHYSICAL SHARED CHANNEL ALLOCATION message	221
8.2.8	PUSCH capacity request [TDD only]	221
8.2.8.1	General	221
8.2.8.2	Initiation	222
8.2.8.3	PUSCH CAPACITY REQUEST message contents to set	222
8.2.8.4	Reception of a PUSCH CAPACITY REQUEST message by the UTRAN	223
8.2.8.5	T310 expiry	223
8.2.9	Void	223
8.2.10	Uplink Physical Channel Control [TDD only]	224
8.2.10.1	General	224
8.2.10.2	Initiation	224
8.2.10.3	Reception of UPLINK PHYSICAL CHANNEL CONTROL message by the UE	224
8.2.10.4	Invalid UPLINK PHYSICAL CHANNEL CONTROL message	224
8.2.11	Physical channel reconfiguration failure	225
8.2.11.1	General	225
8.2.11.2	Runtime error due to overlapping compressed mode configurations	225
8.2.11.3	Void	226
8.3	RRC connection mobility procedures	226
8.3.1	Cell and URA update procedures	226
8.3.1.1	General	228
8.3.1.2	Initiation	229
8.3.1.3	CELL UPDATE / URA UPDATE message contents to set	239
8.3.1.4	T305 expiry and the UE detects "out of service area"	243
8.3.1.4.1	Re-entering "in service area"	243
8.3.1.4.2	Expiry of timer T307	244
8.3.1.5	Reception of an CELL UPDATE/URA UPDATE message by the UTRAN	244
8.3.1.6	Reception of the CELL UPDATE CONFIRM/URA UPDATE CONFIRM message by the UE	245
8.3.1.7	Transmission of a response message to UTRAN	255
8.3.1.7a	Physical channel failure	259
8.3.1.8	Unsupported configuration by the UE	260
8.3.1.9	Invalid configuration	261
8.3.1.9a	Incompatible simultaneous reconfiguration	263
8.3.1.9b	Security reconfiguration during Cell update procedure	264
8.3.1.10	Confirmation error of URA ID list	264
8.3.1.11	Invalid CELL UPDATE CONFIRM/URA UPDATE CONFIRM message	265
8.3.1.12	T302 expiry or cell reselection	266
8.3.1.13	T314 expiry	270
8.3.1.14	T315 expiry	271
8.3.1.15	Reception of the UTRAN MOBILITY INFORMATION CONFIRM message by the UTRAN	271
8.3.1.16	T320 Expiry	271
8.3.2	URA update	272
8.3.3	UTRAN mobility information	272
8.3.3.1	General	272
8.3.3.2	Initiation	272
8.3.3.3	Reception of UTRAN MOBILITY INFORMATION message by the UE	273
8.3.3.4	Reception of an UTRAN MOBILITY INFORMATION CONFIRM message by the UTRAN	277
8.3.3.5	Cell re-selection	278
8.3.3.5a	Incompatible simultaneous security reconfiguration	278
8.3.3.6	Invalid UTRAN MOBILITY INFORMATION message	279
8.3.3.7	T322 expiry	279
8.3.4	Active set update	279
8.3.4.1	General	280
8.3.4.2	Initiation	280
8.3.4.3	Reception of an ACTIVE SET UPDATE message by the UE	281
8.3.4.3a	Handling of ACTIVE SET UPDATE message on secondary uplink frequency (FDD only)	284
8.3.4.4	Unsupported configuration in the UE	285
8.3.4.5	Invalid configuration	285
8.3.4.5a	Void	287
8.3.4.5b	Incompatible simultaneous reconfiguration	287
8.3.4.6	Reception of the ACTIVE SET UPDATE COMPLETE message by the UTRAN	287
8.3.4.7	Reception of the ACTIVE SET UPDATE FAILURE message by the UTRAN	287
8.3.4.8	Invalid ACTIVE SET UPDATE message	287
8.3.4.9	Reception of an ACTIVE SET UPDATE message in wrong state	288
8.3.5	Hard handover	288
8.3.5.1	Timing re-initialised hard handover	288
8.3.5.1.1	General	288
8.3.5.1.2	Initiation (FDD only)	289
8.3.5.2	Timing-maintained hard handover	290
8.3.5.2.1	General	290
8.3.5.2.2	Initiation (FDD only)	290
8.3.6	Inter-RAT handover to UTRAN	291
8.3.6.1	General	291
8.3.6.2	Initiation	291
8.3.6.3	Reception of Handover to UTRAN command message by the UE	292
8.3.6.4	Invalid Handover to UTRAN command message	298
8.3.6.4a	Unsupported configuration in HANDOVER TO UTRAN COMMAND message	298
8.3.6.5	UE fails to perform handover	298
8.3.6.6	Reception of message HANDOVER TO UTRAN COMPLETE by the UTRAN	298
8.3.7	Inter-RAT handover from UTRAN	299
8.3.7.1	General	299
8.3.7.2	Initiation	299
8.3.7.3	Reception of a HANDOVER FROM UTRAN COMMAND message by the UE	300
8.3.7.4	Successful completion of the inter-RAT handover	301
8.3.7.5	UE fails to complete requested handover	302
8.3.7.6	Invalid HANDOVER FROM UTRAN COMMAND message	303
8.3.7.7	Reception of an HANDOVER FROM UTRAN FAILURE message by UTRAN	303
8.3.7.8	Unsupported configuration in HANDOVER FROM UTRAN COMMAND message	303
8.3.7.8a	Reception of HANDOVER FROM UTRAN COMMAND message by UE in CELL_FACH	304
8.3.8	Inter-RAT cell reselection to UTRAN	304
8.3.8.1	General	304
8.3.8.2	Initiation	305
8.3.8.2a	Initiation of inter-RAT cell reselection from GERAN Iu mode	305
8.3.8.3	UE fails to complete an inter-RAT cell reselection	306
8.3.8.3a	UE fails to complete an inter-RAT cell reselection from GERAN Iu mode	306
8.3.9	Inter-RAT cell reselection from UTRAN	306
8.3.9.1	General	306
8.3.9.2	Initiation	306
8.3.9.2a	Initiation of inter-RAT cell reselection to GERAN Iu mode	306
8.3.9.3	Successful cell reselection	306
8.3.9.4	UE fails to complete an inter-RAT cell reselection	307
8.3.10	Inter-RAT cell change order to UTRAN	307
8.3.10.1	General	307
8.3.10.2	Initiation	307
8.3.10.3	UE fails to complete an inter-RAT cell change order	307
8.3.11	Inter-RAT cell change order from UTRAN	307
8.3.11.1	General	308
8.3.11.2	Initiation	308
8.3.11.3	Reception of an CELL CHANGE ORDER FROM UTRAN message by the UE	308
8.3.11.4	Successful completion of the cell change order	309
8.3.11.5	Expiry of timer T309 or UE fails to complete requested cell change order	309
8.3.11.6	Unsupported configuration in CELL CHANGE ORDER FROM UTRAN message	311
8.3.11.7	Invalid CELL CHANGE ORDER FROM UTRAN message	311
8.4	Measurement procedures	312
8.4.0	Measurement related definitions	312
8.4.1	Measurement control	314
8.4.1.1	General	314
8.4.1.2	Initiation	314
8.4.1.3	Reception of MEASUREMENT CONTROL by the UE	314
8.4.1.4	Unsupported measurement in the UE	327
8.4.1.4a	Configuration Incomplete	328
8.4.1.5	Invalid MEASUREMENT CONTROL message	328
8.4.1.6	Measurements after transition from CELL_DCH to CELL_FACH/CELL_PCH/URA_PCH state	328
8.4.1.6.1	Intra-frequency measurement	329
8.4.1.6.2	Inter-frequency measurement	329
8.4.1.6.3	Inter-RAT measurement	330
8.4.1.6.4	Quality measurement	331
8.4.1.6.5	UE internal measurement	331
8.4.1.6.6	Traffic volume measurement	331
8.4.1.6.7	UE positioning measurement	332
8.4.1.6.8	CSG Proximity detection measurement	334
8.4.1.6a	Actions in CELL_FACH/CELL_PCH/URA/PCH state upon cell re-selection	334
8.4.1.7	Measurements after transition from CELL_FACH to CELL_DCH state	335
8.4.1.7.1	Intra-frequency measurement	335
8.4.1.7.2	Inter-frequency measurement	335
8.4.1.7.3	Inter-RAT measurement	336
8.4.1.7.4	Traffic volume measurement	336
8.4.1.7.5	UE positioning measurement	336
8.4.1.7.6	CSG Proximity detection measurement	337
8.4.1.7.7	E-UTRA measurement for CELL_FACH	337
8.4.1.8	Measurements after transition from idle mode to CELL_DCH state	337
8.4.1.8.1	Intra-frequency measurement	337
8.4.1.8.2	Inter-frequency measurement	338
8.4.1.8.3	Inter-RAT measurement	338
8.4.1.8.4	Traffic volume measurement	338
8.4.1.8.5	UE positioning measurement	338
8.4.1.9	Measurements after transition from idle mode to CELL_FACH state	338
8.4.1.9.1	Intra-frequency measurement	338
8.4.1.9.2	Inter-frequency measurement	338
8.4.1.9.3	Inter-RAT measurement	339
8.4.1.9.4	Traffic volume measurement	340
8.4.1.9.5	UE positioning measurement	340
8.4.1.9a	Measurements after transition from connected mode to idle mode	340
8.4.1.9a.1	Intra-frequency measurement	340
8.4.1.9a.2	Inter-frequency measurement	340
8.4.1.9a.3	Inter-RAT measurement	341
8.4.1.9a.4	UE positioning measurement	341
8.4.1.9b	Measurements after transition from CELL_FACH to CELL_PCH/URA_PCH	341
8.4.1.9b.1	Traffic volume measurement	341
8.4.1.9b.2	UE positioning measurement	341
8.4.1.9b.3	Inter-RAT measurement	342
8.4.1.9b.4	Intra-frequency measurement	342
8.4.1.9b.5	Inter-frequency measurement	342
8.4.1.9b.6	E-UTRA measurement for CELL_FACH	342
8.4.1.9c	Measurements after transition from CELL_PCH/URA_PCH to CELL_FACH	343
8.4.1.9c.1	Traffic volume measurement	343
8.4.1.9c.2	UE positioning measurement	343
8.4.1.9c.3	Inter-RAT measurement	343
8.4.1.10	Changes in measurement objects	344
8.4.1.10.1	Traffic volume measurement	344
8.4.1.10.2	Quality measurement	345
8.4.1.10.3	Intra-frequency, Inter-frequency and Inter-RAT measurements	345
8.4.1.11	Cell Reselection (FDD only and 1.28 Mcps TDD only)	345
8.4.1.11.1	Traffic volume measurement	345
8.4.2	Measurement report	346
8.4.2.1	General	346
8.4.2.2	Initiation	346
8.4.3	Assistance Data Delivery	349
8.4.3.1	General	349
8.4.3.2	Initiation	349
8.4.3.3	Reception of ASSISTANCE DATA DELIVERY message by the UE	349
8.4.3.4	Invalid ASSISTANCE DATA DELIVERY message	349
8.5	General procedures	350
8.5.1	Selection of initial UE identity	350
8.5.2	Actions when entering idle mode from connected mode	350
8.5.3	Open loop power control upon establishment of DPCCH	352
8.5.4	Physical channel establishment criteria in CELL_DCH state	353
8.5.4A	Physical channel establishment criteria for Enhanced Uplink in CELL_FACH state and Idle mode	353
8.5.4B	Physical channel establishment criteria in CELL_DCH state on the secondary uplink frequency (FDD only)	353
8.5.5	Actions in "out of service area" and "in service area"	354
8.5.5.1	Detection of "out of service" area	354
8.5.5.1.1	Actions following detection of "out of service" area in URA_PCH or CELL_PCH state	354
8.5.5.1.2	Actions following detection of "out of service" area in CELL_FACH state	354
8.5.5.1.3	Actions following detection of "out of service" area on transition from CELL_DCH to URA_PCH or CELL_PCH	354
8.5.5.1.4	Actions following detection of "out of service" area on transition from CELL_DCH to CELL_FACH	354
8.5.5.2	Detection of "in service" area	355
8.5.5.2.1	Actions following Re-entry into "in service area" in URA_PCH or CELL_PCH state	355
8.5.5.2.2	Actions following re-entry into "in service area" in CELL_FACH state	355
8.5.5.3	T316 expiry	355
8.5.5.4	T317 expiry	356
8.5.6	Radio link failure criteria and actions upon radio link failure	356
8.5.6a	Radio link failure criteria and actions upon radio link failure on the secondary uplink frequency (FDD only)	357
8.5.7	Open loop power control	357
8.5.8	Maintenance of Hyper Frame Numbers	361
8.5.9	START value calculation	362
8.5.10	Integrity protection	363
8.5.10.1	Integrity protection in downlink	364
8.5.10.2	Integrity protection in uplink	365
8.5.10.3	Calculation of message authentication code	365
8.5.11	FACH measurement occasion calculation	366
8.5.11a	CELL_DCH measurement occasion calculation (1.28 Mcps TDD only)	368
8.5.12	Establishment of Access Service Classes	368
8.5.13	Mapping of Access Classes to Access Service Classes	369
8.5.14	PLMN Type Selection	369
8.5.14a	Neighbour cells list narrowing for cell reselection	370
8.5.15	CFN calculation	370
8.5.15.1	Initialisation for CELL_DCH state after state transition	370
8.5.15.2	Initialisation in CELL_DCH state at hard handover	370
8.5.15.3	Initialisation for CELL_FACH	371
8.5.15.4	Initialisation after intersystem handover to UTRAN	371
8.5.15.5	Initialisation for MTCH and/or MSCH carried on S-CCPCH that may be soft combined	371
8.5.16	Configuration of CTCH occasions	371
8.5.17	PRACH selection	372
8.5.18	Selection of RACH TTI	373
8.5.18.1	FDD	373
8.5.18.2	1.28 Mcps TDD	374
8.5.19	Secondary CCPCH selection	374
8.5.19a	Secondary CCPCH and FACH selection for MCCH reception	375
8.5.20	Unsupported configuration	375
8.5.21	Actions related to Radio Bearer mapping	375
8.5.22	Actions when entering another RAT from connected mode	383
8.5.23	Measured results on RACH	384
8.5.24	Change of PLMN while in RRC connected mode	387
8.5.25	Actions related to HS_DSCH_RECEPTION variable	388
8.5.26	Service prioritisation	390
8.5.27	MBMS frequency selection	390
8.5.28	Actions related to E_DCH_TRANSMISSION variable	392
8.5.29	MBMS modification period identity calculation	395
8.5.30	Detecting MBMS service reception inability	395
8.5.31	Actions related to DEFERRED_MEASUREMENT_STATUS variable	396
8.5.32	Actions related to MIMO_PARAMS variable	396
8.5.33	Actions related to MIMO_STATUS variable	397
8.5.34	Actions related to DTX_DRX_STATUS variable (FDD only)	398
8.5.35	Actions related to HS_SCCH_LESS_STATUS variable (FDD only)	399
8.5.36	Actions related to HS_DSCH_RECEPTION_CELL_FACH_STATE variable (FDD and 1.28 Mcps TDD only)	400
8.5.37	Actions related to HS_DSCH_RECEPTION_OF_CCCH_ENABLED variable (FDD and 1.28 Mcps TDD only)	402
8.5.37a	Actions related to HS_DSCH_RECEPTION_GENERAL	402
8.5.38	Common H-RNTI selection (FDD and 1.28 Mcps TDD only)	403
8.5.39	PICH selection for HSDPA based paging (FDD and 1.28 Mcps TDD only)	403
8.5.40	HS_DSCH Reception in CELL_PCH and URA_PCH (FDD only)	404
8.5.40a	HS_DSCH Reception in CELL_PCH and URA_PCH (1.28 Mcps TDD only)	405
8.5.41	HS-PDSCH channelisation codes selection for paging reception (FDD and 1.28 Mcps TDD only)	406
8.5.42	Autonomous UTRAN DRX Cycle length coefficient change	407
8.5.43	Reception of MBMS from a cell operating in MBSFN mode	407
8.5.44	HS-DSCH CQI reporting tables	407
8.5.45	Enhanced Uplink in CELL_FACH state and Idle mode (FDD only)	407
8.5.45a	Enhanced Uplink in CELL_FACH state and Idle mode (1.28 Mcps TDD only)	410
8.5.46	Actions related to COMMON_E_DCH_TRANSMISSION variable (FDD and 1.28 Mcps TDD only)	410
8.5.47	Actions related to READY_FOR_COMMON_EDCH variable (FDD and 1.28 Mcps TDD only)	413
8.5.48	Actions related to HS_DSCH_DRX_CELL_FACH_STATUS variable (FDD and 1.28 Mcps TDD only) and HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS variable (FDD only)	415
8.5.49	CELL_FACH HS-DSCH DRX operation (FDD only)	416
8.5.49a	CELL_FACH HS-DSCH DRX operation (1.28Mcps TDD only)	417
8.5.49b	CELL_FACH HS-DSCH DRX operation with second DRX cycle (FDD only)	417
8.5.50	Common E-RNTI selection (1.28 Mcps TDD only)	419
8.5.51	Actions related to SECONDARY_CELL_HS_DSCH_RECEPTION variable (FDD only)	420
8.5.52	Actions related to TARGET_CELL_PRECONFIGURATION variable (FDD only)	421
8.5.53	Actions related to CONTROL_CHANNEL_DRX_STATUS variable (1.28 Mcps TDD only)	422
8.5.54	Actions related to E_DCH_SPS_STATUS variable (1.28 Mcps TDD only)	423
8.5.55	Actions related to HS_DSCH_SPS_STATUS variable (1.28 Mcps TDD only)	423
8.5.56	Actions related to HSPA_RNTI_STORED_PCH variable (FDD and 1.28 Mcps TDD only)	424
8.5.57	Actions related to SECONDARY_CELL_MIMO_STATUS variable	425
8.5.58	Actions related to SECONDARY_CELL_E_DCH_TRANSMISSION variable (FDD only)	427
8.5.59	Actions related to reception of a HS-SCCH order for secondary uplink frequency activation/deactivation (FDD only)	429
8.5.60	Configuration of "TSN field extension" for MAC-ehs entity	429
8.5.61	Actions related to MU_MIMO_STATUS variable (1.28 Mcps TDD only)	430
8.5.62	Actions related to MULTI_CARRIER_ E_DCH_TRANSMISSION variable (1.28Mcps TDD only)	430
8.5.63	Logged Measurements Configuration	431
8.5.63.1	General	431
8.5.63.2	Initiation	432
8.5.63.3	Reception of LOGGING MEASUREMENT CONFIGURATION by the UE	432
8.5.63.4	T326 Expiry	432
8.5.63.5	T327 Expiry	432
8.5.64	UE INFORMATION	433
8.5.64.1	General	433
8.5.64.2	Initiation	433
8.5.64.3	Reception of the UE INFORMATION REQUEST message by the UE	433
8.5.64.4	Reception of the UE INFORMATION RESPONSE message by the UTRAN	434
8.5.65	Measurements logging	434
8.5.65.1	General	434
8.5.65.2	Initiation	434
8.5.66	 Release of Logged Measurements Configuration	435
8.5.66.1	General	435
8.5.66.2	Initiation	436
8.5.67	Measurements logging for ANR	436
8.5.67.1	General	436
8.5.67.2	Initiation	436
8.5.68	Release of ANR Logging Measurements Configuration	438
8.5.68.1	General	438
8.5.68.2	Initiation	438
8.5.69	Actions related to UPLINK_CLTD_TRANSMISSION variable (FDD only)	438
8.5.70	Actions related to UPLINK_OLTD_TRANSMISSION variable (FDD only)	439
8.5.71	Actions related to MULTIFLOW_STATUS variable (FDD only)	439
8.5.72	Selection of common E-DCH TTI (FDD only)	440
8.5.73	PRACH preamble control parameters selection with Concurrent Deployment of 2ms and 10ms TTI (for Enhanced Uplink, FDD only)	441
8.5.74	PRACH preamble control parameters selection without Concurrent Deployment of 2ms and 10ms TTI (for Enhanced Uplink, FDD only)	443
8.5.75	Actions related to READY_FOR_COMMON_ERGCH variable (FDD only)	444
8.5.76	Actions related to FALLBACK_R99_PRACH_ENABLED variable (FDD only)	445
8.5.77	Actions related to READY_FOR_FALLBACK_R99_PRACH variable (FDD only)	445
8.5.78	Actions related to MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable (FDD only)	446
8.5.79	Actions related to MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable(FDD only)	447
8.5.80	Actions related to SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable (FDD only)	448
8.5.81	Actions related to UPLINK_MIMO_TRANSMISSION variable (FDD only)	449
8.5.82	Actions related to NON_RECTANGULAR_RESOURCE_ALLOCATION_STATUS variable (1.28 Mcps TDD only)	450
8.5.83	Actions related to DPCCH2_TRANSMISSION variable (FDD only)	450
8.5.84	Actions related to DCH_ENHANCEMENTS_STATUS variable (FDD only)	451
8.5.85	Actions related to IMPLICIT_GRANT variable (FDD only)	452
8.5.86	Actions related to reception of a HS-SCCH order for TTI switching (FDD only)	452
8.5.87	Actions related to BLIND_HARQ_HSDPA variable (FDD only)	453
8.5.88	Actions related to HS_SCCH_DRX_CELL_FACH_STATUS variable (FDD only)	453
8.5.89	HS-SCCH DRX operation in CELL_FACH state (FDD only)	454
8.6	Generic actions on receipt and absence of an information element	455
8.6.1	CN information elements	455
8.6.1.1	Void	455
8.6.1.2	CN information info	455
8.6.1.3	Signalling connection release indication	455
8.6.1.4	Extended DRX in Idle mode	456
8.6.1.4.1	T331 expiry	456
8.6.1.4.2	T332 expiry	456
8.6.2	UTRAN mobility information elements	456
8.6.2.1	URA identity	456
8.6.2.2	Mapping info	457
8.6.2.3	RNC support for change of UE capability	457
8.6.2.4	CSG PSC Split Information	457
8.6.2.5	E-UTRA detection	458
8.6.3	UE information elements	458
8.6.3.1	Activation time	458
8.6.3.1a	CN domain specific DRX cycle length coefficient	459
8.6.3.1b	H-RNTI	459
8.6.3.2	UTRAN DRX Cycle length coefficient	460
8.6.3.3	Generic state transition rules depending on received information elements	461
8.6.3.4	Ciphering mode info	461
8.6.3.5	Integrity protection mode info	464
8.6.3.5.1	Initialisation of Integrity Protection	465
8.6.3.5.2	Integrity Protection Re-configuration for SRNS Relocation, intra-RAT SR-VCC and handover from GERAN Iu mode	466
8.6.3.5.3	Integrity Protection modification in case of new keys or initialisation of signalling connection	467
8.6.3.6	Void	468
8.6.3.7	Void	468
8.6.3.8	Integrity check info	468
8.6.3.9	New C-RNTI	468
8.6.3.9a	New DSCH-RNTI	468
8.6.3.10	New U-RNTI	469
8.6.3.11	RRC transaction identifier	469
8.6.3.12	Capability Update Requirement	474
8.6.3.13	Group release information	475
8.6.3.14	New E-RNTI	476
8.6.3.15	SR-VCC Info	477
8.6.3.16	rSR-VCC Info	477
8.6.3.17	Access Group identity	477
8.6.3.18	RNTI handling at cell re-selection	478
8.6.3.19	Actions related to dynamic activation time determination (FDD only)	478
8.6.4	Radio bearer information elements	479
8.6.4.1	Signalling RB information to setup list	479
8.6.4.2	RAB information for setup	480
8.6.4.2a	RAB information to reconfigure	482
8.6.4.3	RB information to setup	482
8.6.4.4	RB information to be affected	484
8.6.4.4a	Void	484
8.6.4.5	RB information to reconfigure	484
8.6.4.6	RB information to release	485
8.6.4.7	RB with PDCP information	486
8.6.4.8	RB mapping info	486
8.6.4.9	RLC Info	489
8.6.4.10	PDCP Info	492
8.6.4.11	PDCP SN Info	494
8.6.4.12	NAS Synchronisation Indicator	494
8.6.4.13	PDCP context relocation info	494
8.6.4.14	RLC Info MBMS	494
8.6.4.15	RAB information for MBMS ptp bearer	494
8.6.4.16	Retrievable configuration info	495
8.6.4.17	Other state configuration info	495
8.6.5	Transport channel information elements	496
8.6.5.1	Transport Format Set	496
8.6.5.2	Transport format combination set	498
8.6.5.3	Transport format combination subset	500
8.6.5.4	DCH quality target	501
8.6.5.5	Added or Reconfigured UL TrCH information	502
8.6.5.5a	Added or reconfigured MAC-d flow	502
8.6.5.6	Added or Reconfigured DL TrCH information	503
8.6.5.6a	Void	504
8.6.5.6b	HARQ Info	504
8.6.5.6c	Void	507
8.6.5.7	Deleted UL TrCH information	507
8.6.5.8	Deleted DL TrCH information	507
8.6.5.9	UL Transport channel information common for all transport channels	507
8.6.5.10	DL Transport channel information common for all transport channels	508
8.6.5.11	Void	509
8.6.5.12	TFCS Reconfiguration/Addition Information	509
8.6.5.12a	Additional RACH TFCS for CCCH	509
8.6.5.13	TFCS Removal Information	509
8.6.5.14	Void	510
8.6.5.15	TFCS Explicit Configuration	510
8.6.5.16	E-DCH Transmission Time Interval (FDD only)	510
8.6.5.17	HARQ Info for E-DCH	510
8.6.5.18	Added or reconfigured E-DCH MAC-d flow	510
8.6.5.19	SRB1 mapping info (FDD and 1.28 Mcps TDD only)	512
8.6.5.20	HARQ System Info (FDD and 1.28 Mcps TDD only)	512
8.6.5.21	CCCH mapping info (FDD and 1.28 Mcps TDD only)	513
8.6.5.22	Common MAC-ehs reordering queue (FDD and 1.28 Mcps TDD only)	513
8.6.5.23	Added or reconfigured MAC-ehs reordering queue	513
8.6.5.24	Common E-DCH MAC-d flows (FDD and 1.28 Mcps TDD only)	513
8.6.5.25	Early DCH quality target	514
8.6.6	Physical channel information elements	514
8.6.6.1	Frequency info	514
8.6.6.2	Void	515
8.6.6.2a	PNBSCH allocation	516
8.6.6.3	Void	516
8.6.6.3a	Downlink information per radio link list	516
8.6.6.3b	Downlink information per radio link list on secondary UL frequency (FDD only)	517
8.6.6.4	Downlink information for each radio link	518
8.6.6.4a	Downlink information for each radio link on secondary UL frequency (FDD only)	521
8.6.6.5	Void	522
8.6.6.6	Uplink DPCH info	522
8.6.6.7	Void	523
8.6.6.8	Maximum allowed UL TX power	523
8.6.6.9	Void	523
8.6.6.10	Void	524
8.6.6.11	Uplink DPCH power control info	524
8.6.6.12	Secondary CPICH info	525
8.6.6.13	Primary CPICH usage for channel estimation	525
8.6.6.14	DPCH frame offset (FDD Only)	526
8.6.6.15	DPCH Compressed mode info	527
8.6.6.16	Repetition period, Repetition length, Offset (TDD only)	531
8.6.6.16a	Repetition period, Repetition length, Offsetsub (1.28 Mcps TDD only)	531
8.6.6.17	Primary CCPCH info	532
8.6.6.18	Primary CPICH info	532
8.6.6.19	Void	532
8.6.6.20	Void	532
8.6.6.21	Void	533
8.6.6.22	Secondary Scrambling Code, Code Number	533
8.6.6.23	PDSCH Power Control info	533
8.6.6.24	Tx Diversity Mode	533
8.6.6.25	Void	534
8.6.6.26	UL Timing Advance Control (TDD only)	534
8.6.6.26a	Uplink synchronisation parameters (TDD only)	535
8.6.6.27	Downlink information common for all radio links	535
8.6.6.28	Downlink DPCH info common for all radio links	536
8.6.6.28a	Downlink F-DPCH info common for all radio links	538
8.6.6.29	ASC setting	538
8.6.6.30	SRB delay, PC preamble (FDD only)	540
8.6.6.31	Void	540
8.6.6.32	Void	540
8.6.6.33	HS-SCCH Info	540
8.6.6.34	Measurement Feedback Info	542
8.6.6.35	DPC Mode	542
8.6.6.36	Downlink HS-PDSCH Information	542
8.6.6.36a	DL Multi-carrier information (1.28 Mcps TDD only)	543
8.6.6.37	E-DCH Info	544
8.6.6.38	DTX-DRX timing information (FDD only)	545
8.6.6.39	DTX-DRX information (FDD only)	546
8.6.6.40	HS-SCCH less information (FDD only)	547
8.6.6.41	MIMO parameters	547
8.6.6.42	UL 16QAM settings	548
8.6.6.42b	UL 64QAM settings	548
8.6.6.43	Multi-frequency Info (1.28 Mcps TDD only)	548
8.6.6.44	Void	548
8.6.6.45	Downlink Secondary Cell Info FDD	548
8.6.6.46	Control Channel DRX information (1.28 Mcps TDD only)	550
8.6.6.47	SPS information (1.28 Mcps TDD only)	550
8.6.6.48	Secondary cell MIMO parameters	552
8.6.6.49	Uplink Secondary Cell Info FDD (FDD only)	552
8.6.6.50	Additional downlink secondary cell info list FDD	553
8.6.6.51	MU-MIMO info (1.28 Mcps TDD only)	553
8.6.6.52	Multi-carrier E-DCH Info for LCR TDD (1.28 Mcps TDD only)	553
8.6.6.53	Serving HS-DSCH cell information	554
8.6.6.54	E-DCH reconfiguration information	555
8.6.6.55	Additional downlink secondary cell info list FDD 2	556
8.6.6.56	Uplink CLTD info FDD	556
8.6.6.57	Uplink OLTD info FDD	556
8.6.6.58	F-TPICH reconfiguration info	556
8.6.6.59	Common E-RGCH info FDD	557
8.6.6.60	MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS parameters (FDD only)	557
8.6.6.61	Secondary cell MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS parameters (FDD only)	558
8.6.6.62	Uplink MIMO info FDD	558
8.6.6.63	DPCCH2 info FDD	559
8.6.6.64	DCH Enhancements info FDD	559
8.6.6.65	Other TTI E-DCH Configuration Information	559
8.6.6.66	Other TTI E-DCH Configuration Information on secondary UL Frequency	560
8.6.7	Measurement information elements	560
8.6.7.1	Measurement validity	561
8.6.7.2	Filter coefficient	561
8.6.7.3	Intra-frequency/Inter-frequency/Inter-RAT cell info list	563
8.6.7.3a	UTRA priority info list	572
8.6.7.3b	GSM priority info list	574
8.6.7.3c	E-UTRA frequency and priority info list	574
8.6.7.3d	E-UTRA frequency list	583
8.6.7.4	Intra-frequency measurement quantity	584
8.6.7.5	Inter-RAT measurement quantity	584
8.6.7.6	Inter-RAT reporting quantity	585
8.6.7.7	Cell Reporting Quantities	586
8.6.7.8	Periodical Reporting Criteria	587
8.6.7.9	Reporting Cell Status	588
8.6.7.10	Traffic Volume Measurement	589
8.6.7.11	Traffic Volume Measurement Reporting Criteria	589
8.6.7.12	FACH measurement occasion info	590
8.6.7.13	Measurement Reporting Mode	591
8.6.7.14	Inter-frequency measurement	592
8.6.7.15	Inter-RAT measurement	593
8.6.7.16	Intra-frequency measurement	593
8.6.7.17	Quality measurement	594
8.6.7.18	UE internal measurement	595
8.6.7.18a	Void	595
8.6.7.19	UE positioning	595
8.6.7.19.0	UE positioning reporting criteria	595
8.6.7.19.1	UE positioning reporting quantity	595
8.6.7.19.1a	UE positioning reporting for UE assisted methods	597
8.6.7.19.1b	UE positioning reporting for UE based methods	600
8.6.7.19.2	UE positioning OTDOA assistance data for UE-assisted	603
8.6.7.19.2a	UE positioning OTDOA assistance data for UE-based	603
8.6.7.19.3	UE positioning GPS assistance data	605
8.6.7.19.3.1	UE positioning GPS acquisition assistance	605
8.6.7.19.3.2	UE positioning GPS Almanac	606
8.6.7.19.3.3	UE positioning D-GPS Corrections	606
8.6.7.19.3.3a	UE positioning GPS Navigation Model	607
8.6.7.19.3.4	UE positioning GPS Ephemeris and Clock Correction Parameters	607
8.6.7.19.3.5	UE positioning GPS ionospheric model	607
8.6.7.19.3.6	UE positioning GPS real-time integrity	607
8.6.7.19.3.7	UE positioning GPS reference time	607
8.6.7.19.3.8	UE positioning GPS reference UE position	609
8.6.7.19.3.9	UE positioning UTC model	609
8.6.7.19.4	UE positioning Ciphering info	609
8.6.7.19.5	UE positioning Error	610
8.6.7.19.6	Void	611
8.6.7.19.7	UE positioning GANSS assistance data	611
8.6.7.19.7.1	UE positioning GANSS reference measurement information	612
8.6.7.19.7.2	UE positioning GANSS Almanac	612
8.6.7.19.7.3	UE positioning D-GANSS Corrections	613
8.6.7.19.7.4	UE positioning GANSS Navigation Model	613
8.6.7.19.7.4a	UE positioning GANSS Clock Model	613
8.6.7.19.7.4b	UE positioning GANSS Orbit Model	613
8.6.7.19.7.5	UE positioning GANSS ionospheric model	614
8.6.7.19.7.6	UE positioning GANSS real-time integrity	614
8.6.7.19.7.7	UE positioning GANSS reference time	614
8.6.7.19.7.8	UE positioning GANSS reference UE position	615
8.6.7.19.7.9	UE positioning GANSS time model	615
8.6.7.19.7.10	UE positioning GANSS UTC model	615
8.6.7.19.7.11	UE positioning GANSS data bit assistance	616
8.6.7.19.7.12	UE positioning GANSS additional ionospheric model	616
8.6.7.19.7.13	UE positioning GANSS Earth orientation parameters	616
8.6.7.19.7.14	UE positioning GANSS additional navigation models	616
8.6.7.19.7.14a	UE positioning GANSS additional clock models	616
8.6.7.19.7.14b	UE positioning GANSS additional orbit models	616
8.6.7.19.7.15	UE positioning GANSS additional UTC models	617
8.6.7.19.7.16	UE positioning GANSS auxiliary information	617
8.6.7.19.7.17	UE positioning DBDS corrections	617
8.6.7.19.7.18	UE positioning BDS Ionospheric Grid Model	617
8.6.7.20	Void	618
8.6.7.21	Intra-frequency reporting quantity for RACH reporting	618
8.6.7.22	Additional Measurement List	618
8.6.7.23	Dedicated Priority Information	619
8.6.7.24	Adjacent frequency index	620
8.6.7.24a	Inter-band frequency index	620
8.6.7.25	Idle Interval Information (TDD only)	620
8.6.7.26	CELL_DCH measurement occasion info LCR	621
8.6.7.27	Frequency index list for enhanced measurement	621
8.6.7.28	E-UTRA measurement for CELL_FACH	622
8.6.7.29	Dedicated WLAN Offload Information	623
8.6.7.30	T330 expiry	623
8.6.7.31	Filtered UE power headroom reporting information	623
8.6.7.32	Filtered UE power headroom reporting information on secondary UL frequency	623
8.6.8	Void	624
8.6.8a	Other Information elements	624
8.6.8a.1	ETWS information	624
8.6.9	MBMS specific information elements	624
8.6.9.1	Continue MCCH Reading	624
8.6.9.1a	MBMS dynamic persistence level	624
8.6.9.2	MBMS PL Service Restriction Information	624
8.6.9.3	MBMS L1 combining schedule	624
8.6.9.3a	MBMS Number of neighbour cells	625
8.6.9.4	MBMS Preferred frequency information	625
8.6.9.4a	Void	625
8.6.9.4b	MBMS p-t-m activation time	625
8.6.9.5	MBMS RB list released to change transfer mode	626
8.6.9.6	MBMS Required UE action	626
8.6.9.6a	MBMS re- acquire MCCH	627
8.6.9.7	MBMS Service transmissions info list	627
8.6.9.8	MBMS Short transmission ID	627
8.6.9.9	MBMS Transmission identity	628
8.6.9.9a	MBMS transmission time difference	628
8.6.9.9ab	MBSFN cluster frequency	628
8.6.9.9ac	MBSFN frequency list	628
8.6.9.9ad	MBSFN inter frequency neighbour list	629
8.6.9.9ae	MBSFN TDM Information	630
8.6.9.9b	MCCH configuration information	630
8.6.9.10	Next scheduling period	630
8.6.9.11	TDD MBSFN Information	630
8.6.9.12	Network Standard Time Information	630
8.7	MBMS specific procedures	631
8.7.1	Reception of MBMS control information	631
8.7.1.1	General	631
8.7.1.2	Initiation	632
8.7.1.3	UE requirements on reading of MCCH information	632
8.7.1.4	UE requirements on reading of MSCH information	633
8.7.2	MCCH acquisition	633
8.7.2.1	General	633
8.7.2.2	Initiation	634
8.7.2.3	MCCH information to be acquired by the UE	634
8.7.2.4	Reception of the MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION by the UE	634
8.7.2.5	Reception of the other MBMS messages by the UE	635
8.7.3	MBMS Notification	635
8.7.3.1	General	636
8.7.3.2	Initiation	636
8.7.3.3	Receiving the MBMS Notification information	636
8.7.3.3.1	Reception via MCCH	636
8.7.3.3.2	Void	637
8.7.3.3.3	Reception via DCCH	637
8.7.3.4	UE action upon receiving MBMS MODIFIED SERVICES INFORMATION message	637
8.7.3.5	UE fails to receive MBMS Notification information	639
8.7.4	MBMS counting	639
8.7.4.1	General	639
8.7.4.2	Initiation	639
8.7.4.3	Reception of the MBMS ACCESS INFORMATION	639
8.7.4.4	Termination of the MBMS counting procedure	641
8.7.4.5	Failure of the counting response procedure	641
8.7.5	MBMS p-t-m radio bearer configuration	641
8.7.5.1	General	641
8.7.5.2	Initiation	641
8.7.5.3	Reception of the MBMS Current Cell PTM RB information	642
8.7.5.4	Reception of the MBMS Neighbouring Cell PTM RB information	642
8.7.6	MBMS modification request	642
8.7.6.1	General	642
8.7.6.2	Initiation	643
8.7.6.2a	MBMS MODIFICATION REQUEST message contents to set	643
8.7.6.3	Reception of a MBMS MODIFICATION REQUEST message by the UTRAN	644
8.7.7	MBMS service scheduling	644
8.7.7.1	General	644
8.7.7.2	Initiation	644
8.7.7.3	Reception of the MBMS scheduling information	644
9	Handling of unknown, unforeseen and erroneous protocol data	645
9.1	General	645
9.2	ASN.1 violation or encoding error	645
9.3	Unknown or unforeseen message type	646
9.3a	Unsolicited received message	646
9.3b	Unexpected critical message extension	646
9.4	Unknown or unforeseen information element value, mandatory information element	647
9.5	Conditional information element error	647
9.6	Unknown or unforeseen information element value, conditional information element	648
9.7	Unknown or unforeseen information element value, optional information element	649
9.8	Unexpected non-critical message extension	649
9.9	Handling of errors in nested information elements	649
10	Message and information element functional definition and content	650
10.1	General	650
10.1.1	Protocol extensions	651
10.1.1.1	Non-critical extensions	653
10.1.1.1.1	Extension of an information element with additional values or choices	653
10.1.1.1.2	Extension of a message with additional information elements	653
10.1.1.2	Critical extensions	654
10.1.1.2.1	Extension of an information element with additional values or choices	654
10.1.1.2.2	Extension of a message with additional information elements	654
10.2	Radio Resource Control messages	654
10.2.1	ACTIVE SET UPDATE	654
10.2.2	ACTIVE SET UPDATE COMPLETE	658
10.2.3	ACTIVE SET UPDATE FAILURE	658
10.2.4	ASSISTANCE DATA DELIVERY	659
10.2.5	CELL CHANGE ORDER FROM UTRAN	660
10.2.6	CELL CHANGE ORDER FROM UTRAN FAILURE	661
10.2.7	CELL UPDATE	661
10.2.7a	CELL UPDATE FDD	664
10.2.8	CELL UPDATE CONFIRM	667
10.2.9	COUNTER CHECK	673
10.2.10	COUNTER CHECK RESPONSE	674
10.2.11	DOWNLINK DIRECT TRANSFER	674
10.2.12	Void	675
10.2.12a	ETWS PRIMARY NOTIFICATION WITH SECURITY	675
10.2.13	Void	675
10.2.14	Void	675
10.2.15	HANDOVER FROM UTRAN COMMAND	675
10.2.16	HANDOVER FROM UTRAN FAILURE	678
10.2.16a	HANDOVER TO UTRAN COMMAND	679
10.2.16b	HANDOVER TO UTRAN COMPLETE	683
10.2.16c	INITIAL DIRECT TRANSFER	683
10.2.16d	INTER RAT HANDOVER INFO	685
10.2.16da	LOGGING MEASUREMENT CONFIGURATION	686
10.2.16e	MBMS Access Information	687
10.2.16f	MBMS Common p-t-m rb Information	688
10.2.16g	MBMS Current Cell p-t-m rb Information	690
10.2.16h	MBMS General Information	692
10.2.16i	MBMS Modification request	694
10.2.16j	MBMS Modified services Information	694
10.2.16k	MBMS Neighbouring Cell p-t-m rb Information	697
10.2.16L	MBMS Scheduling Information	700
10.2.16m	MBMS Unmodified services Information	701
10.2.17	MEASUREMENT CONTROL	702
10.2.18	MEASUREMENT CONTROL FAILURE	704
10.2.19	MEASUREMENT REPORT	706
10.2.20	PAGING TYPE 1	707
10.2.21	PAGING TYPE 2	708
10.2.22	PHYSICAL CHANNEL RECONFIGURATION	708
10.2.23	PHYSICAL CHANNEL RECONFIGURATION COMPLETE	713
10.2.24	PHYSICAL CHANNEL RECONFIGURATION FAILURE	714
10.2.25	PHYSICAL SHARED CHANNEL ALLOCATION	715
10.2.26	PUSCH CAPACITY REQUEST	716
10.2.27	RADIO BEARER RECONFIGURATION	717
10.2.28	RADIO BEARER RECONFIGURATION COMPLETE	725
10.2.29	RADIO BEARER RECONFIGURATION FAILURE	726
10.2.30	RADIO BEARER RELEASE	727
10.2.31	RADIO BEARER RELEASE COMPLETE	732
10.2.32	RADIO BEARER RELEASE FAILURE	734
10.2.33	RADIO BEARER SETUP	735
10.2.34	RADIO BEARER SETUP COMPLETE	740
10.2.35	RADIO BEARER SETUP FAILURE	742
10.2.36	RRC CONNECTION REJECT	743
10.2.37	RRC CONNECTION RELEASE	744
10.2.38	RRC CONNECTION RELEASE COMPLETE	746
10.2.39	RRC CONNECTION REQUEST	746
10.2.40	RRC CONNECTION SETUP	751
10.2.41	RRC CONNECTION SETUP COMPLETE	755
10.2.41a	RRC FAILURE INFO	756
10.2.42	RRC STATUS	756
10.2.43	SECURITY MODE COMMAND	757
10.2.44	SECURITY MODE COMPLETE	758
10.2.45	SECURITY MODE FAILURE	758
10.2.46	SIGNALLING CONNECTION RELEASE	759
10.2.47	SIGNALLING CONNECTION RELEASE INDICATION	759
10.2.48	SYSTEM INFORMATION	760
10.2.48a	System Information Container	762
10.2.48b	SYSTEM INFORMATION 2	763
10.2.48.1	First Segment	764
10.2.48.1a	First Segment 2	765
10.2.48.2	First Segment (short)	765
10.2.48.2a	First Segment (short) 2	765
10.2.48.3	Subsequent Segment	765
10.2.48.3a	Subsequent Segment 2	766
10.2.48.4	Last Segment	766
10.2.48.4a	Last Segment 2	767
10.2.48.5	Last Segment (short)	767
10.2.48.5a	Last Segment (short) 2	767
10.2.48.6	Complete SIB	767
10.2.48.6a	Complete SIB 2	768
10.2.48.7	Complete SIB (short)	768
10.2.48.7a	Complete SIB (short) 2	768
10.2.48.8	System Information Blocks	769
10.2.48.8.1	Master Information Block	769
10.2.48.8.2	Scheduling Block 1	770
10.2.48.8.3	Scheduling Block 2	770
10.2.48.8.3a	Scheduling Block 3	770
10.2.48.8.4	System Information Block type 1	770
10.2.48.8.5	System Information Block type 2	771
10.2.48.8.6	System Information Block type 3	771
10.2.48.8.7	System Information Block type 4	774
10.2.48.8.8	System Information Block type 5 and 5bis	775
10.2.48.8.9	System Information Block type 6	780
10.2.48.8.10	System Information Block type 7	783
10.2.48.8.11	Void	783
10.2.48.8.12	Void	783
10.2.48.8.13	Void	783
10.2.48.8.14	System Information Block type 11	783
10.2.48.8.14a	System Information Block type 11bis	784
10.2.48.8.14b	System Information Block type 11ter	785
10.2.48.8.15	System Information Block type 12	785
10.2.48.8.16	System Information Block type 13	785
10.2.48.8.16.1	System Information Block type 13.1	786
10.2.48.8.16.2	System Information Block type 13.2	786
10.2.48.8.16.3	System Information Block type 13.3	786
10.2.48.8.16.4	System Information Block type 13.4	787
10.2.48.8.17	System Information Block type 14	787
10.2.48.8.18	System Information Block type 15	787
10.2.48.8.18.0	System Information Block type 15bis	788
10.2.48.8.18.1a	System Information Block type 15.1bis	788
10.2.48.8.18.1b	System Information Block type 15.1ter	789
10.2.48.8.18.2	System Information Block type 15.2	789
10.2.48.8.18.2a	System Information Block type 15.2bis	789
10.2.48.8.18.2b	System Information Block type 15.2ter	790
10.2.48.8.18.3	System Information Block type 15.3	790
10.2.48.8.18.3a	System Information Block type 15.3bis	791
10.2.48.8.18.4	System Information Block type 15.4	791
10.2.48.8.18.4a	System Information Block type 15.5	791
10.2.48.8.18.5	System Information Block type 15.6	792
10.2.48.8.18.6	System Information Block type 15.7	792
10.2.48.8.18.7	System Information Block type 15.8	792
10.2.48.8.19	System Information Block type 16	793
10.2.48.8.20	System Information Block type 17	793
10.2.48.8.21	System Information Block type 18	794
10.2.48.8.22	System Information Block type 19	794
10.2.48.8.23	System Information Block type 20	796
10.2.48.8.24	System Information Block type 21	796
10.2.48.8.25	System Information Block type 22	797
10.2.48.8.26	System Information Block type 23	799
10.2.48.8.27	System Information Block type 24	800
10.2.48.8.28	System Information Block type 25	801
10.2.49	SYSTEM INFORMATION CHANGE INDICATION	802
10.2.50	TRANSPORT CHANNEL RECONFIGURATION	803
10.2.51	TRANSPORT CHANNEL RECONFIGURATION COMPLETE	808
10.2.52	TRANSPORT CHANNEL RECONFIGURATION FAILURE	809
10.2.53	TRANSPORT FORMAT COMBINATION CONTROL	810
10.2.54	TRANSPORT FORMAT COMBINATION CONTROL FAILURE	811
10.2.55	UE CAPABILITY ENQUIRY	811
10.2.56	UE CAPABILITY INFORMATION	812
10.2.57	UE CAPABILITY INFORMATION CONFIRM	813
10.2.57a	UE INFORMATION REQUEST	813
10.2.57b	UE INFORMATION RESPONSE	814
10.2.58	UPLINK DIRECT TRANSFER	815
10.2.59	UPLINK PHYSICAL CHANNEL CONTROL	815
10.2.60	URA UPDATE	817
10.2.61	URA UPDATE CONFIRM	818
10.2.62	UTRAN MOBILITY INFORMATION	820
10.2.63	UTRAN MOBILITY INFORMATION CONFIRM	822
10.2.64	UTRAN MOBILITY INFORMATION FAILURE	823
10.3	Information element functional definitions	823
10.3.1	CN Information elements	823
10.3.1.1	CN domain identity	823
10.3.1.2	CN Domain System Information	823
10.3.1.3	CN Information info	824
10.3.1.3a	CN Information info full	824
10.3.1.3b	Domain Specific Access Restriction	825
10.3.1.3c	Domain Specific Access Restriction Parameters	825
10.3.1.3d	Domain Specific EAB Parameters	826
10.3.1.3e	EAB Configuration	826
10.3.1.4	IMEI	826
10.3.1.5	IMSI (GSM-MAP)	827
10.3.1.6	Intra Domain NAS Node Selector	827
10.3.1.7	Location Area Identification	829
10.3.1.7oa	Location/Registration Parameters	829
10.3.1.7a	Multiple PLMN List	829
10.3.1.8	NAS message	830
10.3.1.9	NAS system information (GSM-MAP)	830
10.3.1.10	Paging record type identifier	830
10.3.1.10a	Paging Permission with Access Control Parameters	831
10.3.1.11	PLMN identity	831
10.3.1.11a	PLMN identity with Optional MCC	831
10.3.1.12	PLMN Type	831
10.3.1.13	P-TMSI (GSM-MAP)	832
10.3.1.14	RAB identity	832
10.3.1.15	Routing Area Code	832
10.3.1.16	Routing Area Identification	833
10.3.1.17	TMSI (GSM-MAP)	833
10.3.1.18	Specific ACDC Barring Information	834
10.3.2	UTRAN mobility Information elements	834
10.3.2.1	Cell Access Restriction	834
10.3.2.2	Cell identity	835
10.3.2.3	Cell selection and re-selection info for SIB3/4	836
10.3.2.4	Cell selection and re-selection info for SIB11/12	840
10.3.2.5	 Mapping Info	841
10.3.2.6	URA identity	843
10.3.2.7	Dedicated priority Information	843
10.3.2.8	CSG Identity	845
10.3.2.9	CSG PSC Split Information	845
10.3.2.10	Dedicated WLAN Offload Information	846
10.3.3	UE Information elements	846
10.3.3.1	Activation time	846
10.3.3.2	Capability Update Requirement	847
10.3.3.3	Cell update cause	847
10.3.3.4	Ciphering Algorithm	848
10.3.3.5	Ciphering mode info	848
10.3.3.6	CN domain specific DRX cycle length coefficient	849
10.3.3.7	Void	849
10.3.3.7a	Common E-RNTI info	849
10.3.3.8	C-RNTI	849
10.3.3.8a	CSG proximity indication capability	850
10.3.3.9	Void	850
10.3.3.9a	DSCH-RNTI	850
10.3.3.10	Void	850
10.3.3.10a	E-RNTI	850
10.3.3.11	Establishment cause	851
10.3.3.12	Expiration Time Factor	852
10.3.3.12a	Extended Wait Time	852
10.3.3.12b	Expiration Time Factor 2	852
10.3.3.13	Failure cause	852
10.3.3.14	Failure cause and error information	853
10.3.3.14o	Group release information	854
10.3.3.14a	H-RNTI	854
10.3.3.14b	IMS Voice capability	854
10.3.3.15	Initial UE identity	854
10.3.3.16	Integrity check info	855
10.3.3.17	Integrity protection activation info	856
10.3.3.18	Integrity protection Algorithm	856
10.3.3.19	Integrity protection mode info	856
10.3.3.19a	Void	857
10.3.3.20	Void	857
10.3.3.21	Measurement capability	857
10.3.3.21a	Measurement capability extension	862
10.3.3.21b	Measurement capability TDD	866
10.3.3.21ba	Multiflow capability	867
10.3.3.21bb	Multiflow per band capability	868
10.3.3.21c	Neighbour Cell SI acquisition capability	870
10.3.3.22	Paging cause	870
10.3.3.23	Paging record	870
10.3.3.24	PDCP capability	871
10.3.3.25	Physical channel capability	872
10.3.3.25a	Pre-redirection info	882
10.3.3.26	Protocol error cause	882
10.3.3.27	Protocol error indicator	883
10.3.3.28	RB timer indicator	883
10.3.3.29	Redirection info	883
10.3.3.30	Re-establishment timer	884
10.3.3.31	Rejection cause	884
10.3.3.32	Release cause	884
10.3.3.32a	RF Capability Compressed	885
10.3.3.33	RF capability FDD	885
10.3.3.33a	RF capability FDD extension	886
10.3.3.33b	RF capability TDD	887
10.3.3.33c	RF capability TDD 1.28 Mcps	887
10.3.3.34	RLC capability	888
10.3.3.35	RLC re-establish indicator	888
10.3.3.35a	RRC State Indicator	888
10.3.3.35o	RRC connection release information	889
10.3.3.36	RRC transaction identifier	889
10.3.3.36a	rSR-VCC Info	889
10.3.3.37	Security capability	890
10.3.3.37a	Signalling Connection Release Indication Cause	890
10.3.3.38	START	890
10.3.3.39	Void	891
10.3.3.40	Transport channel capability	891
10.3.3.41	UE multi-mode/multi-RAT capability	893
10.3.3.42	UE radio access capability	894
10.3.3.42o	UE radio access capability compressed	907
10.3.3.42oa	UE radio access capability comp 2	908
10.3.3.42ob	UE radio access capability comp for 1.28 Mcps TDD	912
10.3.3.42a	UE radio access capability extension	913
10.3.3.42b	UE security information	917
10.3.3.42c	UE security information2	917
10.3.3.43	UE Timers and Constants in connected mode	917
10.3.3.44	UE Timers and Constants in idle mode	919
10.3.3.45	UE positioning capability	920
10.3.3.45a	GANSS Signal Id	922
10.3.3.46	URA update cause	923
10.3.3.47	U-RNTI	923
10.3.3.47a	U-RNTI group	924
10.3.3.48	U-RNTI Short	925
10.3.3.49	UTRAN DRX cycle length coefficient	925
10.3.3.50	Wait time	925
10.3.3.51	UE Specific Behaviour Information 1 idle	926
10.3.3.52	UE Specific Behaviour Information 1 interRAT	926
10.3.3.53	UE based network performance measurements parameters	926
10.3.4	Radio Bearer Information elements	926
10.3.4.oa	Common RB mapping info	926
10.3.4.0	Default configuration identity	926
10.3.4.0a	Default configuration for CELL_FACH	927
10.3.4.1	Downlink RLC STATUS info	927
10.3.4.1a	PDCP context relocation info	928
10.3.4.2	PDCP info	928
10.3.4.2a	PDCP ROHC target mode	930
10.3.4.3	PDCP SN info	931
10.3.4.4	Polling info	931
10.3.4.5	Predefined configuration identity	931
10.3.4.5a	Predefined configuration status information	931
10.3.4.5b	Predefined configuration status information compressed	932
10.3.4.6	Predefined configuration value tag	933
10.3.4.7	Predefined RB configuration	934
10.3.4.8	RAB info	934
10.3.4.9	RAB info Post	935
10.3.4.9a	RAB information for MBMS ptp bearers	935
10.3.4.10	RAB information for setup	936
10.3.4.11	RAB information to reconfigure	937
10.3.4.11a	RAB info to replace	937
10.3.4.12	NAS Synchronization indicator	937
10.3.4.13	RB activation time info	938
10.3.4.14	RB COUNT-C MSB information	938
10.3.4.15	RB COUNT-C information	938
10.3.4.16	RB identity	938
10.3.4.17	RB information to be affected	939
10.3.4.18	RB information to reconfigure	939
10.3.4.19	RB information to release	939
10.3.4.20	RB information to setup	939
10.3.4.21	RB mapping info	940
10.3.4.22	RB with PDCP information	943
10.3.4.23	RLC info	944
10.3.4.23a	RLC info MBMS	945
10.3.4.24	Signalling RB information to setup	946
10.3.4.24a	SR-VCC Info	946
10.3.4.25	Transmission RLC Discard	946
10.3.4.26	UM Duplication Avoidance and Reordering info	948
10.3.4.27	UM Out of sequence delivery info	948
10.3.5	Transport CH Information elements	948
10.3.5.1	Added or Reconfigured DL TrCH information	948
10.3.5.1a	Added or reconfigured MAC-d flow	949
10.3.5.1b	Added or reconfigured E-DCH MAC-d flow	950
10.3.5.1c	Added or reconfigured MAC-ehs reordering queue	952
10.3.5.2	Added or Reconfigured UL TrCH information	954
10.3.5.2a	Additional Dynamic Transport Format Information for CCCH	954
10.3.5.2b	Additional RACH TFCS for CCCH	955
10.3.5.3	Void	955
10.3.5.3a	Common MAC-ehs reordering queue list	955
10.3.5.3b	Common E-DCH MAC-d flows	956
10.3.5.4	Deleted DL TrCH information	957
10.3.5.5	Deleted UL TrCH information	957
10.3.5.6	DL Transport channel information common for all transport channels	958
10.3.5.7	Void	959
10.3.5.7a	HARQ Info	959
10.3.5.7b	Void	961
10.3.5.7c	MAC-d Flow Identity	961
10.3.5.7d	HARQ Info for E-DCH	961
10.3.5.7e	E-DCH MAC-d Flow Identity	962
10.3.5.7f	MAC-ehs Queue Id	962
10.3.5.8	Power Offset Information	962
10.3.5.9	Predefined TrCH configuration	964
10.3.5.10	Quality Target	964
10.3.5.11	Semi-static Transport Format Information	964
10.3.5.12	Void	965
10.3.5.13	TFCS Explicit Configuration	965
10.3.5.14	Void	965
10.3.5.15	TFCS Reconfiguration/Addition Information	966
10.3.5.16	TFCS Removal Information	968
10.3.5.17	Void	968
10.3.5.18	Transport channel identity	968
10.3.5.19	Transport Format Combination (TFC)	968
10.3.5.20	Transport Format Combination Set	968
10.3.5.21	Transport Format Combination Set Identity	968
10.3.5.22	Transport Format Combination Subset	969
10.3.5.23	Transport Format Set	969
10.3.5.24	UL Transport channel information common for all transport channels	971
10.3.5.25	Concurrent Deployment of 2ms and 10ms TTI	972
10.3.5.26	Common E-DCH MAC-d flow info for Concurrent TTI	973
10.3.5.27	Power Offset Information 10ms Mode	974
10.3.6	Physical CH Information elements	974
10.3.6.1	AC-to-ASC mapping	974
10.3.6.2	AICH Info	975
10.3.6.3	AICH Power offset	975
10.3.6.4	Allocation period info	975
10.3.6.5	Alpha	975
10.3.6.6	ASC setting	975
10.3.6.7	Void	977
10.3.6.8	CCTrCH power control info	978
10.3.6.8a	Cell and Channel Identity info	978
10.3.6.9	Cell parameters Id	978
10.3.6.9a	Common E-DCH system info	978
10.3.6.10	Common timeslot info	981
10.3.6.10a	Common timeslot info MBMS	981
10.3.6.11	Constant value	982
10.3.6.11a	Constant value TDD	982
10.3.6.12	Void	982
10.3.6.13	Void	982
10.3.6.14	Void	982
10.3.6.15	Void	982
10.3.6.16	Default DPCH Offset Value	983
10.3.6.17	Downlink channelisation codes	983
10.3.6.17a	Downlink channelisation codes VHCR	984
10.3.6.18	Downlink DPCH info common for all RL	985
10.3.6.19	Downlink DPCH info common for all RL Post	987
10.3.6.20	Downlink DPCH info common for all RL Pre	987
10.3.6.21	Downlink DPCH info for each RL	987
10.3.6.22	Downlink DPCH info for each RL Post	990
10.3.6.23	Downlink DPCH power control information	991
10.3.6.23oa	Downlink F-DPCH info common for all RL	991
10.3.6.23ob	Downlink F-DPCH info for each RL	992
10.3.6.23a	Downlink HS-PDSCH Information	993
10.3.6.24	Downlink information common for all radio links	994
10.3.6.25	Downlink information common for all radio links Post	996
10.3.6.26	Downlink information common for all radio links Pre	996
10.3.6.27	Downlink information for each radio link	997
10.3.6.28	Downlink information for each radio link Post	998
10.3.6.28a	DL Multi-Carrier Information (1.28 Mcps TDD only)	999
10.3.6.29	Void	1000
10.3.6.30	Void	1000
10.3.6.31	Downlink rate matching restriction information	1000
10.3.6.31a	Downlink secondary cell info FDD	1000
10.3.6.31b	Downlink secondary cell info FDD for Handover to UTRAN	1002
10.3.6.32	Downlink Timeslots and Codes	1003
10.3.6.32a	Downlink Timeslots and Codes VHCR	1004
10.3.6.33	DPCH compressed mode info	1004
10.3.6.34	DPCH Compressed Mode Status Info	1008
10.3.6.34a	DTX-DRX information	1008
10.3.6.34b	DTX-DRX timing information	1010
10.3.6.35	Dynamic persistence level	1010
10.3.6.35a	FPACH info	1010
10.3.6.35b	Frequency band indicator	1011
10.3.6.35c	Frequency band indicator 2	1011
10.3.6.35ca 	Frequency band indicator 3	1011
10.3.6.35d	Frequency band indicator for TDD	1011
10.3.6.36	Frequency info	1012
10.3.6.36oo	HS-PDSCH Midamble Configuration	1012
10.3.6.36o	HS-PDSCH Timeslot Configuration	1012
10.3.6.36oa	HS-PDSCH Timeslot Configuration VHCR	1013
10.3.6.36a	HS-SCCH Info	1015
10.3.6.36ab	HS-SCCH less information	1019
10.3.6.36b	HS-SICH Power Control Info	1019
10.3.6.36c	HS-DSCH common system information	1020
10.3.6.36ca	HS-DSCH common system information 1.28Mcps TDD	1020
10.3.6.36d	HS-DSCH paging system information	1021
10.3.6.36da	HS-DSCH paging system information 1.28Mcps TDD	1022
10.3.6.36e	HS-SCCH system info	1024
10.3.6.36ea	HS-SCCH system info 1.28Mcps TDD	1024
10.3.6.36f	Void	1026
10.3.6.36g	HS-DSCH DRX in CELL_FACH information	1026
10.3.6.36h	HS-DSCH DRX in CELL_FACH information 1.28Mcps TDD	1027
10.3.6.37	Individual timeslot info	1027
10.3.6.38	Individual Timeslot interference	1028
10.3.6.39	Maximum allowed UL TX power	1028
10.3.6.39a	Multi-frequency Info (1.28 Mcps TDD only)	1029
10.3.6.40	Void	1029
10.3.6.40a	Measurement Feedback Info	1029
10.3.6.41	Midamble shift and burst type	1030
10.3.6.41a	MIMO parameters	1032
10.3.6.41b	MIMO pilot configuration	1033
10.3.6.41c	Non-scheduled transmission grant info (TDD only)	1034
10.3.6.42	PDSCH Capacity Allocation info	1036
10.3.6.43	Void	1036
10.3.6.44	PDSCH info	1036
10.3.6.45	PDSCH Power Control info	1037
10.3.6.46	PDSCH system information	1037
10.3.6.47	Void	1038
10.3.6.48	Persistence scaling factors	1038
10.3.6.49	PICH Info	1038
10.3.6.50	PICH Power offset	1039
10.3.6.50a	PLCCH Info	1039
10.3.6.51	PRACH Channelisation Code List	1039
10.3.6.51a	PRACH Channelisation Code 1.28 Mcps TDD	1040
10.3.6.51b	PRACH Channelisation Code List VHCR	1040
10.3.6.52	PRACH info (for RACH)	1041
10.3.6.53	PRACH partitioning	1043
10.3.6.54	PRACH power offset	1043
10.3.6.54a	 PRACH preamble control parameters (for Enhanced Uplink)	1043
10.3.6.55	PRACH system information list	1046
10.3.6.56	Predefined PhyCH configuration	1047
10.3.6.57	Primary CCPCH info	1048
10.3.6.58	Primary CCPCH info post	1048
10.3.6.59	Primary CCPCH TX Power	1049
10.3.6.60	Primary CPICH info	1049
10.3.6.61	Primary CPICH Tx power	1049
10.3.6.62	Primary CPICH usage for channel estimation	1049
10.3.6.63	PUSCH info	1049
10.3.6.63a	PUSCH info VHCR	1049
10.3.6.64	PUSCH Capacity Allocation info	1050
10.3.6.65	PUSCH power control info	1050
10.3.6.66	PUSCH system information	1051
10.3.6.66a	PUSCH system information VHCR	1052
10.3.6.67	RACH transmission parameters	1053
10.3.6.68	Radio link addition information	1053
10.3.6.69	Radio link removal information	1054
10.3.6.69a	E-DCH reconfiguration information	1054
10.3.6.69b	E-DCH reconfiguration information same serving cell	1056
10.3.6.70	Void	1056
10.3.6.70a	SCTD indicator	1056
10.3.6.71	Secondary CCPCH info	1058
10.3.6.71a	Secondary CCPCH info MBMS	1060
10.3.6.71b	Secondary CCPCH info MBMS Diff	1062
10.3.6.72	Secondary CCPCH system information	1062
10.3.6.72a	Secondary CCPCH system information MBMS	1063
10.3.6.72b	Secondary cell MIMO parameters	1063
10.3.6.73	Secondary CPICH info	1064
10.3.6.74	Secondary scrambling code	1064
10.3.6.74a	Serving HS-DSCH cell information	1065
10.3.6.74b	Serving Cell Change Parameters	1065
10.3.6.75	SFN Time info	1066
10.3.6.75a	Special Burst Scheduling	1066
10.3.6.76	Void	1066
10.3.6.77	Void	1067
10.3.6.78	STTD indicator	1067
10.3.6.78o	SYNC_UL codes bitmap	1067
10.3.6.78a	SYNC_UL info	1067
10.3.6.78b	 TDD MBSFN Information	1068
10.3.6.78c	 LCR TDD MBSFN Information	1068
10.3.6.78d	SYNC_UL info for E-RUCCH	1068
10.3.6.79	TDD open loop power control	1069
10.3.6.79a	Target cell preconfiguration information	1071
10.3.6.80	TFC Control duration	1072
10.3.6.81	Void	1072
10.3.6.82	TGPSI	1072
10.3.6.83	Time info	1073
10.3.6.83a	Time Slot LCR Extension	1073
10.3.6.84	Timeslot number	1073
10.3.6.85	TPC combination index	1073
10.3.6.85a	TSTD indicator	1074
10.3.6.86	TX Diversity Mode	1074
10.3.6.86o	UL 16QAM configuration	1074
10.3.6.86a	UL 16QAM settings	1075
10.3.6.86b	UL 64QAM configuration	1075
10.3.6.86c	UL 64QAM settings	1076
10.3.6.87	UL interference	1076
10.3.6.87a	UL interference TDD	1076
10.3.6.87b	Uplink DPCH code info for Common E-DCH	1077
10.3.6.88	Uplink DPCH info	1078
10.3.6.89	Uplink DPCH info Post	1080
10.3.6.90	Uplink DPCH info Pre	1081
10.3.6.91	Uplink DPCH power control info	1081
10.3.6.91a	Uplink DPCH power control info for Common E-DCH	1083
10.3.6.92	Uplink DPCH power control info Post	1084
10.3.6.93	Uplink DPCH power control info Pre	1084
10.3.6.94	Uplink Timeslots and Codes	1085
10.3.6.94a	Uplink Timeslots and Codes LCR	1086
10.3.6.94b	Uplink Timeslots and Codes VHCR	1088
10.3.6.95	Uplink Timing Advance	1090
10.3.6.95a	Extended Uplink Timing Advance	1090
10.3.6.96	Uplink Timing Advance Control	1090
10.3.6.97	E-DCH Info	1093
10.3.6.97a	Multi-carrier E-DCH Info for LCR TDD	1095
10.3.6.98	E-DPCCH Info	1096
10.3.6.99	E-DPDCH Info	1097
10.3.6.100	E-AGCH Info	1098
10.3.6.100a	E-AGCH Info 1.28Mcps TDD	1101
10.3.6.101	E-HICH Info	1101
10.3.6.101a	E-HICH Info 1.28Mcps TDD	1103
10.3.6.102	E-RGCH Info (FDD only)	1103
10.3.6.103	E-RUCCH Info (TDD only)	1105
10.3.6.103a	E-RUCCH Info 1.28Mcps TDD	1108
10.3.6.104	 E-PUCH Info (TDD only)	1110
10.3.6.104a	 E-PUCH Info 1.28Mcps TDD	1114
10.3.6.104b	 E-PUCH Info for multi-carrier E-DCH 1.28Mcps TDD	1115
10.3.6.105	E-TFCS info (TDD only)	1116
10.3.6.106	E-TFC Boost Info	1116
10.3.6.107	Control Channel DRX information 1.28Mcps TDD	1116
10.3.6.108	HS-SCCH DRX information 1.28 Mcps TDD	1117
10.3.6.109	E-AGCH DRX information 1.28 Mcps TDD	1117
10.3.6.110	SPS information 1.28 Mcps TDD	1118
10.3.6.111	E-DCH SPS information 1.28 Mcps TDD	1118
10.3.6.112	HS-DSCH SPS information 1.28 Mcps TDD	1120
10.3.6.113	Downlink channelisation codes MBSFN IMB	1122
10.3.6.114	Secondary CCPCH frame type 2 info	1123
10.3.6.115	Uplink secondary cell info FDD	1123
10.3.6.116	Secondary serving E-DCH cell info	1123
10.3.6.117	Secondary E-DCH info common	1123
10.3.6.118	Downlink information per radio link list on secondary UL frequency	1126
10.3.6.119	Radio link addition information on secondary UL frequency	1127
10.3.6.120	Radio link removal information on secondary UL frequency	1128
10.3.6.121	E-DCH reconfiguration information on secondary UL frequency	1128
10.3.6.122	MU-MIMO info 1.28 Mcps TDD	1129
10.3.6.123	E-RGCH Info for Common E-DCH	1130
10.3.6.124	E-HICH Info for Common E-DCH	1131
10.3.6.125	Uplink CLTD info FDD	1131
10.3.6.126	Uplink OLTD info FDD	1132
10.3.6.127	F-TPICH info	1132
10.3.6.128	F-TPICH reconfiguration info	1132
10.3.6.129	Multiflow configuration info	1133
10.3.6.130	NodeB triggered HS-DPCCH Transmission	1134
10.3.6.131	Common E-DCH system info parameters for Concurrent TTI	1134
10.3.6.132	Uplink DPCH power control info for Concurrent TTI	1135
10.3.6.133	Measurement Feedback Info for Concurrent TTI	1136
10.3.6.134	 PRACH preamble control parameters extension list (for Enhanced Uplink)	1136
10.3.6.135	 PRACH preamble control parameters extension list for Type 1 (for Enhanced Uplink)	1137
10.3.6.136	 PRACH preamble control parameters extension (for Enhanced Uplink)	1137
10.3.6.137	AICH Info compressed	1138
10.3.6.138	Common E-RGCH info FDD	1138
10.3.6.139	HS-DSCH DRX in CELL_FACH with second DRX cycle information	1140
10.3.6.140	Common E-DCH Resource Configuration Information List Extension	1142
10.3.6.141	Fallback R99 PRACH info	1143
10.3.6.142	MIMO mode with four transmit antennas parameters	1144
10.3.6.143	MIMO mode with four transmit antennas pilot configuration	1144
10.3.6.144	Secondary cell MIMO mode with four transmit antennas parameters	1145
10.3.6.145	Uplink MIMO info FDD	1145
10.3.6.146	E-ROCH info FDD	1146
10.3.6.147	Radio Links without DPCH/F-DPCH info	1146
10.3.6.148	DPCCH2 info FDD	1146
10.3.6.149	DCH Enhancements info FDD	1147
10.3.6.150	Uplink Transmission Mode Switching Parameters	1149
10.3.6.151	DPCCH Power Reset after DTX on secondary uplink frequency	1149
10.3.6.152	Other TTI E-DCH Configuration Information	1150
10.3.6.153	Power Control Algorithm 3	1150
10.3.6.154	HS-SCCH DRX in CELL_FACH information	1150
10.3.6.155	Additional secondary cell info for mixed TTI configuration	1151
10.3.6.156	Other TTI E-DCH Configuration Information on secondary UL Frequency	1153
10.3.7	Measurement Information elements	1153
10.3.7.1	Additional measurements list	1153
10.3.7.2	Cell info	1153
10.3.7.3	Cell measured results	1155
10.3.7.4	Cell measurement event results	1156
10.3.7.5	Cell reporting quantities	1157
10.3.7.6	Cell synchronisation information	1157
10.3.7.6a	E-UTRA event results	1158
10.3.7.6b	E-UTRA frequency list	1159
10.3.7.6c	E-UTRA measured results	1162
10.3.7.7	Event results	1163
10.3.7.8	FACH measurement occasion info	1164
10.3.7.9	Filter coefficient	1164
10.3.7.9a	GSM cell group	1164
10.3.7.10	HCS Cell re-selection information	1165
10.3.7.11	HCS neighbouring cell information	1166
10.3.7.12	HCS Serving cell information	1166
10.3.7.12a	Idle Interval Information	1166
10.3.7.13	Inter-frequency cell info list	1166
10.3.7.14	Inter-frequency event identity	1170
10.3.7.15	Inter-frequency measured results list	1170
10.3.7.16	Inter-frequency measurement	1170
10.3.7.17	Inter-frequency measurement event results	1172
10.3.7.18	Inter-frequency measurement quantity	1172
10.3.7.19	Inter-frequency measurement reporting criteria	1173
10.3.7.20	Inter-frequency measurement system information	1176
10.3.7.20a	Inter-frequency RACH reporting information	1176
10.3.7.21	Inter-frequency reporting quantity	1177
10.3.7.22	Inter-frequency SET UPDATE	1177
10.3.7.23	Inter-RAT cell info list	1177
10.3.7.24	Inter-RAT event identity	1179
10.3.7.25	Inter-RAT info	1179
10.3.7.26	Inter-RAT measured results list	1180
10.3.7.27	Inter-RAT measurement	1181
10.3.7.28	Inter-RAT measurement event results	1181
10.3.7.29	Inter-RAT measurement quantity	1182
10.3.7.30	Inter-RAT measurement reporting criteria	1183
10.3.7.31	Inter-RAT measurement system information	1184
10.3.7.32	Inter-RAT reporting quantity	1185
10.3.7.33	Intra-frequency cell info list	1185
10.3.7.34	Intra-frequency event identity	1187
10.3.7.36	Intra-frequency measurement	1187
10.3.7.37	Intra-frequency measurement event results	1188
10.3.7.38	Intra-frequency measurement quantity	1188
10.3.7.39	Intra-frequency measurement reporting criteria	1189
10.3.7.40	Intra-frequency measurement system information	1193
10.3.7.41	Intra-frequency reporting quantity	1193
10.3.7.42	Intra-frequency reporting quantity for RACH reporting	1194
10.3.7.42a	Logged ANR Configuration Info	1194
10.3.7.42b	Logged ANR Report Info	1196
10.3.7.43	Maximum number of reported cells on RACH	1197
10.3.7.43a	MBMS preferred frequency information	1198
10.3.7.43b	MBSFN inter frequency neighbour list	1198
10.3.7.44	Measured results	1198
10.3.7.45	Measured results on RACH	1199
10.3.7.45a	Measured results on RACH FDD	1203
10.3.7.46	Measurement Command	1206
10.3.7.46a	Measurement release enhancement	1207
10.3.7.46b	Release some measurements	1207
10.3.7.47	Measurement control system information	1207
10.3.7.47a	Measurement control system information extension	1209
10.3.7.47b	Inter-frequency cell info list extension	1212
10.3.7.48	Measurement Identity	1213
10.3.7.49	Measurement reporting mode	1214
10.3.7.50	Measurement Type	1214
10.3.7.51	Measurement validity	1214
10.3.7.52	Void	1214
10.3.7.53	Periodical reporting criteria	1215
10.3.7.53aa	Periodical reporting info-1b	1215
10.3.7.53a	PLMN identities of neighbour cells	1215
10.3.7.53b	PLMN identities of neighbour cells for SIB 11ter	1216
10.3.7.54	Primary CCPCH RSCP info	1217
10.3.7.54a	Qhcs	1217
10.3.7.55	Quality measured results list	1219
10.3.7.56	Quality measurement	1219
10.3.7.57	Quality measurement event results	1220
10.3.7.58	Quality measurement reporting criteria	1220
10.3.7.59	Quality reporting quantity	1220
10.3.7.60	Reference time difference to cell	1221
10.3.7.61	Reporting Cell Status	1221
10.3.7.62	Reporting information for state CELL_DCH	1224
10.3.7.63	SFN-SFN observed time difference	1224
10.3.7.64	Time to trigger	1224
10.3.7.65	Timeslot ISCP info	1224
10.3.7.66	Traffic volume event identity	1225
10.3.7.67	Traffic volume measured results list	1225
10.3.7.68	Traffic volume measurement	1226
10.3.7.69	Traffic volume measurement event results	1226
10.3.7.70	Traffic volume measurement object	1227
10.3.7.71	Traffic volume measurement quantity	1227
10.3.7.72	Traffic volume measurement reporting criteria	1228
10.3.7.73	Traffic volume measurement system information	1229
10.3.7.74	Traffic volume reporting quantity	1229
10.3.7.75	UE internal event identity	1230
10.3.7.76	UE internal measured results	1230
10.3.7.77	UE internal measurement	1231
10.3.7.78	UE internal measurement event results	1231
10.3.7.79	UE internal measurement quantity	1232
10.3.7.80	UE internal measurement reporting criteria	1232
10.3.7.81	Void	1234
10.3.7.82	UE Internal reporting quantity	1234
10.3.7.83	UE Rx-Tx time difference type 1	1234
10.3.7.84	UE Rx-Tx time difference type 2	1234
10.3.7.85	UE Transmitted Power info	1235
10.3.7.86	UE positioning Ciphering info	1235
10.3.7.87	UE positioning Error	1236
10.3.7.88	UE positioning GPS acquisition assistance	1237
10.3.7.88a	UE positioning GPS Additional Assistance Data Request	1239
10.3.7.88b	 UE positioning GANSS reference measurement information	1241
10.3.7.88c	UE positioning GANSS additional assistance data request	1245
10.3.7.88d	DGANSS Signal Id	1249
10.3.7.89	UE positioning GPS almanac	1251
10.3.7.89a	 UE positioning GANSS almanac	1252
10.3.7.90	UE positioning GPS assistance data	1255
10.3.7.90a	Void	1256
10.3.7.90b	UE positioning GANSS assistance data	1256
10.3.7.91	UE positioning GPS DGPS corrections	1259
10.3.7.91a	UE positioning GPS Ephemeris and Clock Correction parameters	1260
10.3.7.91b	UE positioning DGANSS corrections	1261
10.3.7.91c	UE positioning GANSS orbit model	1263
10.3.7.91d	 UE positioning GANSS clock model	1265
10.3.7.91e	UE positioning GANSS additional orbit models	1265
10.3.7.91f	 UE positioning GANSS additional clock models	1270
10.3.7.92	UE positioning GPS ionospheric model	1271
10.3.7.92a	UE positioning GANSS ionospheric model	1272
10.3.7.92b	UE positioning GANSS additional ionospheric model	1272
10.3.7.92c	UE positioning GANSS Earth orientation parameters	1273
10.3.7.92d	UE positioning BDS Ionospheric Grid Model	1273
10.3.7.92e	UE positioning DBDS corrections	1273
10.3.7.93	UE positioning GPS measured results	1274
10.3.7.93a	 UE positioning GANSS measured results	1275
10.3.7.94	UE positioning GPS navigation model	1278
10.3.7.94a	 UE positioning GANSS navigation model	1279
10.3.7.94b	 UE positioning GANSS additional navigation models	1279
10.3.7.95	UE positioning GPS real-time integrity	1281
10.3.7.95a	Void	1281
10.3.7.95b	 UE positioning GANSS real-time integrity	1281
10.3.7.96	UE positioning GPS reference time	1281
10.3.7.96o	 UE positioning GANSS reference time	1283
10.3.7.96a	UE positioning GPS reference time uncertainty	1284
10.3.7.97	UE positioning GPS UTC model	1284
10.3.7.97a	 UE positioning GANSS time model	1285
10.3.7.97b	 UE positioning GANSS data bit assistance	1285
10.3.7.97c	UE positioning GANSS UTC model	1287
10.3.7.97d	UE positioning GANSS additional UTC models	1287
10.3.7.97e	UE positioning GANSS SBAS ID	1289
10.3.7.97f	UE positioning GANSS auxiliary information	1289
10.3.7.98	UE positioning IPDL parameters	1291
10.3.7.99	UE positioning measured results	1292
10.3.7.100	UE positioning measurement	1292
10.3.7.101	UE positioning measurement event results	1293
10.3.7.102	Void	1294
10.3.7.103	UE positioning OTDOA assistance data for UE-assisted	1294
10.3.7.103a	UE positioning OTDOA assistance data for UE-based	1294
10.3.7.104	Void	1294
10.3.7.105	UE positioning OTDOA measured results	1294
10.3.7.106	UE positioning OTDOA neighbour cell info	1295
10.3.7.106a	UE positioning OTDOA neighbour cell info for UE-based	1297
10.3.7.107	UE positioning OTDOA quality	1298
10.3.7.108	UE positioning OTDOA reference cell info	1299
10.3.7.108a	UE positioning OTDOA reference cell info for UE-based	1300
10.3.7.109	UE positioning position estimate info	1300
10.3.7.109a	UE positioning Relative Time Difference quality	1303
10.3.7.110	UE positioning reporting criteria	1303
10.3.7.111	UE positioning reporting quantity	1304
10.3.7.112	TADV info	1307
10.3.7.113	UTRA priority info list	1308
10.3.7.114	GSM priority info list	1310
10.3.7.115	E-UTRA frequency and priority info list	1310
10.3.7.116	 Intra-frequency cell info list on secondary UL frequency	1315
10.3.7.117	Cell measurement event results on secondary UL frequency	1316
10.3.7.118	 Measured results on secondary UL frequency	1317
10.3.7.119	Intra-frequency measurement reporting criteria on secondary UL frequency	1317
10.3.7.120	CSG Inter-frequency cell info	1319
10.3.7.121	CSG Intra-frequency cell info	1320
10.3.7.121a	CSG cell info	1320
10.3.7.122	CSG Proximity Indication	1320
10.3.7.123	CSG Proximity detection	1321
10.3.7.124	Inter-frequency SI Acquisition	1321
10.3.7.125	Intra-frequency SI Acquisition	1322
10.3.7.126	CELL_DCH measurement occasion info LCR	1322
10.3.7.127	E-UTRA SI Acquisition	1324
10.3.7.128	E-UTRA Results for SI Acquisition	1324
10.3.7.129	Logged Measurement Info-FDD	1325
10.3.7.129a	Logged Connection Establishment Failure Info-FDD	1329
10.3.7.130	Logged Measurement Info-TDD	1333
10.3.7.130a	Logged Connection Establishment Failure Info-TDD	1336
10.3.7.131	Logged Meas Report	1340
10.3.7.132	Logged Measurements Configuration Info	1340
10.3.7.132a	Connection Establishment Failure Report	1341
10.3.7.133	Trace Reference	1342
10.3.7.134	Trace Recording Session	1342
10.3.7.135	TCE Id	1342
10.3.7.136	Periodical reporting criteria on secondary UL frequency	1343
10.3.7.137	E-UTRA measurement for CELL_FACH	1343
10.3.7.138	E-UTRA results for CELL_FACH	1344
10.3.7.139	E-UTRA frequency RACH reporting information	1344
10.3.7.140	Filtered UE power headroom reporting information	1346
10.3.7.141	UE positioning AddPos measured results	1347
10.3.7.142	UE power headroom	1349
10.3.7.143	Application layer measurement configuration	1350
10.3.7.144	Application layer measurement reporting	1350
10.3.8	Other Information elements	1350
10.3.8.1	BCCH modification info	1350
10.3.8.2	BSIC	1350
10.3.8.3	CBS DRX Level 1 information	1351
10.3.8.4	Cell Value tag	1351
10.3.8.4o	Cell Value tag 2	1351
10.3.8.4a	Ellipsoid point	1351
10.3.8.4b	Ellipsoid point with Altitude	1351
10.3.8.4c	Ellipsoid point with Altitude and uncertainty ellipsoid	1352
10.3.8.4d	Ellipsoid point with uncertainty Circle	1353
10.3.8.4e	Ellipsoid point with uncertainty Ellipse	1353
10.3.8.4ea	ETWS information	1354
10.3.8.4eb	Void	1354
10.3.8.4f	GERAN system information	1354
10.3.8.4g	GSM Target Cell Info	1355
10.3.8.4h	Horizontal Velocity	1355
10.3.8.4i	Horizontal with Vertical Velocity	1355
10.3.8.4j	Horizontal Velocity with Uncertainty	1356
10.3.8.4k	Horizontal with Vertical Velocity and Uncertainty	1356
10.3.8.4L	E-UTRA Target Info	1357
10.3.8.4m	HNB Name	1358
10.3.8.5	Inter-RAT change failure	1358
10.3.8.6	Inter-RAT handover failure	1358
10.3.8.7	Inter-RAT UE radio access capability	1359
10.3.8.8	Void	1360
10.3.8.8a	Inter-RAT UE security capability	1360
10.3.8.9	MIB Value tag	1361
10.3.8.10	PLMN Value tag	1361
10.3.8.10a	PNBSCH allocation	1361
10.3.8.11	Predefined configuration identity and value tag	1361
10.3.8.12	Protocol error information	1361
10.3.8.13	References to other system information blocks	1363
10.3.8.13a	References to other system information blocks 2	1364
10.3.8.14	References to other system information blocks and scheduling blocks	1365
10.3.8.14a	SB3 information	1366
10.3.8.15	Rplmn information	1366
10.3.8.16	Scheduling information	1367
10.3.8.17	SEG COUNT	1368
10.3.8.18	Segment index	1368
10.3.8.18a	SIB and SB type	1369
10.3.8.18b	SIB type extension	1369
10.3.8.18c	SIB type extension2	1370
10.3.8.18ca	SIB type extension3	1370
10.3.8.18d	GANSS SIB type	1370
10.3.8.19	SIB data fixed	1371
10.3.8.19a	SIB data fixed 2	1371
10.3.8.20	SIB data variable	1371
10.3.8.20o	SIB data variable 2	1371
10.3.8.20a	SIB occurrence identity	1371
10.3.8.20b	SIB occurrence identity and value tag	1372
10.3.8.20c	SIB occurrence value tag	1372
10.3.8.21	SIB type	1372
10.3.8.22	SIB type SIBs only	1373
10.3.8.22ab	SIB and SB type 2	1374
10.3.8.22ac	SIB type SIBs only 2	1375
10.3.8.23	UE History Information	1377
10.3.8.24	Data volume history	1378
10.3.9	ANSI-41 Information elements	1381
10.3.9.1	ANSI-41 Core Network Information	1381
10.3.9.2	ANSI-41 Global Service Redirection information	1382
10.3.9.3	ANSI-41 NAS parameter	1382
10.3.9.4	ANSI-41 NAS system information	1382
10.3.9.5	ANSI-41 Private Neighbour List information	1382
10.3.9.6	ANSI-41 RAND information	1382
10.3.9.7	ANSI-41 User Zone Identification information	1383
10.3.9.8	MIN_P_REV	1383
10.3.9.9	NID	1383
10.3.9.10	P_REV	1383
10.3.9.11	SID	1383
10.3.9a	MBMS Information elements	1384
10.3.9a.1	MBMS Common CCTrCH identity	1384
10.3.9a.2	MBMS Common PhyCh identity	1384
10.3.9a.3	MBMS Common RB identity	1384
10.3.9a.4	MBMS Common TrCh identity	1384
10.3.9a.5	MBMS Current cell S-CCPCH identity	1385
10.3.9a.6	Void	1385
10.3.9a.7	MBMS L1 combining schedule	1385
10.3.9a.7o	MBMS p-t-m activation time	1386
10.3.9a.7a	MBMS p-t-m RB information	1386
10.3.9a.7b	MBMS Selected Service Info	1387
10.3.9a.7c	MBMS Selected Services Full	1388
10.3.9a.7d	MBMS Selected Services Short	1388
10.3.9a.8	MBMS Service identity	1388
10.3.9a.8a	 MBMS Service ID	1389
10.3.9a.9	MBMS Session identity	1389
10.3.9a.10	MBMS Short transmission identity	1389
10.3.9a.10a	MBMS Soft Combining Timing Offset	1389
10.3.9a.11	MBMS specific timers and counters	1390
10.3.9a.12	MBMS Transmission identity	1390
10.3.9a.12a	MBSFN frequency list	1390
10.3.9a.12b	MBSFN TDM Information List	1391
10.3.9a.13	MCCH configuration information	1391
10.3.9a.14	MICH configuration information	1392
10.3.9a.15	 MICH Power offset	1393
10.3.9a.16	MSCH configuration information	1394
10.3.9a.17	Network Standard Time Information	1394
10.3.9b	WLAN Information elements	1395
10.3.9b.1	WLAN Offload Configuration	1395
10.3.9b.2	WLAN Identifier	1396
10.3.9b.3	WLAN Offload Information	1396
10.3.9b.4	WLAN Threshold Backhaul Rate	1397
10.3.10	Multiplicity values and type constraint values	1397
10.3.11	Void	1403
11	Message and Information element abstract syntax (with ASN.1)	1403
11.0	General	1403
11.1	General message structure	1403
11.2	PDU definitions	1408
11.3	Information element definitions	1588
11.4	Constant definitions	1919
11.5	RRC information between network nodes	1921
12	Message transfer syntax	1954
12.1	Structure of encoded RRC messages	1954
12.1.1	Basic production	1955
12.1.2	Extension	1955
12.1.3	Padding	1955
12.2	ECN link module for RRC	1957
12.3	ECN modules for RRC	1958
12.4	RRC messages encoded otherwise	1958
12.4.1	Messages using tabular encoding specification	1958
12.4.1.1	TRANSPORT FORMAT COMBINATION CONTROL using transparent DCCH	1959
12.4.1.1.1	TRANSPORT FORMAT COMBINATION CONTROL, 3 bit format	1959
12.4.1.1.2	Void	1959
12.4.1.1.3	Void	1959
13	Protocol timers, counters, other parameters and default configurations	1960
13.1	Timers for UE	1960
13.2	Counters for UE	1964
13.3	UE constants and parameters	1964
13.4	UE variables	1965
13.4.ob	AM_RLC_ERROR_PENDING_RB234	1965
13.4.oc	AM_RLC_ERROR_PENDING_RB5_AND_UP	1965
13.4.0	CELL_INFO_LIST	1965
13.4.00	Void	1967
13.4.0a	CELL_UPDATE_STARTED	1967
13.4.1	CIPHERING_STATUS	1967
13.4.1a	COMMON_E_DCH_TRANSMISSION	1967
13.4.2	Void	1968
13.4.2a	CONFIGURATION_INCOMPLETE	1968
13.4.3	C_RNTI	1968
13.4.3a	DEFERRED_MEASUREMENT_STATUS	1968
13.4.3b	 DTX_DRX_PARAMS	1968
13.4.3c	DTX_DRX_STATUS	1969
13.4.3d	DSAC_PARAM	1969
13.4.3e	DSCH_RNTI	1969
13.4.3f	DOWNLINK_SECONDARY_CELL_INFO	1970
13.4.3g	EAB_PARAM	1970
13.4.3h	DSAC_PARAM_2	1970
13.4.3i	CONNECTED_MODE_ACCESS_CONTROL	1970
13.4.4	Void	1971
13.4.4o	E_DCH_TRANSMISSION	1971
13.4.4a	E_RNTI	1972
13.4.5	ESTABLISHED_RABS	1972
13.4.5a	ESTABLISHED_SIGNALLING_CONNECTIONS	1972
13.4.6	ESTABLISHMENT_CAUSE	1973
13.4.6a	EUTRA_FREQUENCY_INFO_LIST	1973
13.4.6b	Void	1975
13.4.6c	ETWS_INFO_IN_PROGRESS	1975
13.4.7	FAILURE_CAUSE	1975
13.4.7a	FREQUENCY_BAND_INDICATOR_SUPPORT	1975
13.4.8	FAILURE_INDICATOR	1975
13.4.8o	H_RNTI	1976
13.4.8oo	HS_DSCH_RECEPTION	1976
13.4.8oa	HS_DSCH_RECEPTION_CELL_FACH_STATE	1976
13.4.8ob	HS_DSCH_RECEPTION_OF_CCCH_ENABLED	1977
13.4.8oc	HS_DSCH_RECEPTION_GENERAL	1977
13.4.8od	SECONDARY_CELL_HS_DSCH_RECEPTION	1978
13.4.8oe	HS_DSCH_DRX_CELL_FACH_STATUS	1978
13.4.8of	HS_DSCH_RECEPTION_OF_ETWS_ENABLED	1979
13.4.8ooo	HS_SCCH_LESS_PARAMS	1979
13.4.8ooa	HS_SCCH_DRX_CELL_FACH_STATUS	1979
13.4.8oooo	HS_SCCH_LESS_STATUS	1980
13.4.8a	INCOMPATIBLE_SECURITY_RECONFIGURATION	1980
13.4.8b	Void	1981
13.4.8c	Void	1981
13.4.8d	HSPA_RNTI_STORED _PCH	1981
13.4.9	INITIAL_UE_IDENTITY	1981
13.4.9a	INTEGRITY_PROTECTION_ACTIVATION_INFO	1981
13.4.10	INTEGRITY_PROTECTION_INFO	1982
13.4.10a	INTER_RAT_HANDOVER_INFO_TRANSFERRED	1982
13.4.11	INVALID_CONFIGURATION	1984
13.4.11a	LATEST_CONFIGURED_CN_DOMAIN	1984
13.4.11b	LATEST_CONFIGURED_SRB_DELAY_AND_PC_PREAMBLE	1984
13.4.11c	MBMS_ACTIVATED_services	1984
13.4.11d	MBMS_PREV_FREQUENCY_INFO	1985
13.4.11e	 MBMS_PL_Service_Restriction_Info_dedicated	1985
13.4.12	MEASUREMENT_IDENTITY	1986
13.4.13	Void	1986
13.4.13a	MIMO_PARAMS	1986
13.4.13b	MIMO_STATUS	1987
13.4.14	ORDERED_RECONFIGURATION	1987
13.4.14o	OTHER_TTI_EDCH_CONFIGURATION	1987
13.4.14a	PDCP_ROHC_TARGET_MODE	1988
13.4.15	PDCP_SN_INFO	1988
13.4.15a	PHYSICAL_SHARED_CHANNEL_CONFIGURATION	1988
13.4.15b	PPAC_PARAM	1989
13.4.15c	PRIORITY_INFO_LIST	1990
13.4.15d	PPAC_PARAM_2	1993
13.4.16	PROTOCOL_ERROR_INDICATOR	1993
13.4.17	PROTOCOL_ERROR_INFORMATION	1993
13.4.18	PROTOCOL_ERROR_REJECT	1994
13.4.19	RB_TIMER_INDICATOR	1994
13.4.20	RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO	1994
13.4.20o	RNC_CAPABILITY_CHANGE_SUPPORT	1994
13.4.20oo	READY_FOR_COMMON_EDCH	1995
13.4.20a	SECURITY_MODIFICATION	1995
13.4.21	Void	1995
13.4.22	START_THRESHOLD	1995
13.4.23	START_VALUE_TO_TRANSMIT	1995
13.4.23a	TARGET_CELL_PRECONFIGURATION	1996
13.4.24	TFC_SUBSET	1996
13.4.25	TGPS_IDENTITY	1998
13.4.26	TGSN_REPORTED	1998
13.4.26a	TIMERS_AND_CONSTANTS	1998
13.4.27	TRANSACTIONS	1999
13.4.27o	Void	2000
13.4.27a	TRIGGERED_1A_EVENT	2000
13.4.27b	TRIGGERED_1B_EVENT	2000
13.4.27c	TRIGGERED_1C_EVENT	2001
13.4.27d	BEST_CELL_1D_EVENT	2001
13.4.27e	TRIGGERED_1E_EVENT	2002
13.4.27f	TRIGGERED_1F_EVENT	2002
13.4.27f1	TRIGGERED_1G_EVENT	2002
13.4.27f2	TRIGGERED_1H_EVENT	2003
13.4.27f3	TRIGGERED_1I_EVENT	2003
13.4.27f4	BEST_FREQUENCY_2A_EVENT	2003
13.4.27f5	TRIGGERED_2B_EVENT	2003
13.4.27f6	TRIGGERED_2C_EVENT	2004
13.4.27f7	TRIGGERED_2D_EVENT	2004
13.4.27f8	TRIGGERED_2E_EVENT	2004
13.4.27f9	TRIGGERED_2F_EVENT	2004
13.4.27f10	TRIGGERED_3A_EVENT	2004
13.4.27f11	TRIGGERED_3B_EVENT	2006
13.4.27f12	TRIGGERED_3C_EVENT	2006
13.4.27f13	BEST_CELL_3D_EVENT	2007
13.4.27f14	TRIGGERED_6A_EVENT	2008
13.4.27f15	TRIGGERED_6B_EVENT	2008
13.4.27f16	TRIGGERED_6C_EVENT	2008
13.4.27f17	TRIGGERED_6D_EVENT	2008
13.4.27f18	TRIGGERED_6E_EVENT	2009
13.4.27f19	TRIGGERED_6F_EVENT	2009
13.4.27f20	TRIGGERED_6G_EVENT	2009
13.4.27f21	TRIGGERED_1J_EVENT	2010
13.4.27f22	BEST_CELL_2G_EVENT	2010
13.4.27g	UE_CAPABILITY_REQUESTED	2010
13.4.28	UE_CAPABILITY_TRANSFERRED	2011
13.4.28a	UE_POSITIONING_GPS_DATA	2012
13.4.28b	UE_POSITIONING_OTDOA_DATA_UE_ASSISTED	2013
13.4.28c	UE_POSITIONING_OTDOA_DATA_UE_BASED	2014
13.4.28d	UE_POSITIONING_GANSS_DATA	2015
13.4.29	UNSUPPORTED_CONFIGURATION	2017
13.4.30	URA_IDENTITY	2017
13.4.31	U_RNTI	2017
13.4.32	VALUE_TAG	2017
13.4.33	CONTROL_CHANNEL_DRX_PARAMS	2021
13.4.34	CONTROL_CHANNEL_DRX_STATUS	2022
13.4.35	E_DCH_SPS_PARAMS	2022
13.4.36	E_DCH_SPS_STATUS	2022
13.4.37	HS_DSCH_SPS_PARAMS	2023
13.4.38	HS_DSCH_SPS_STATUS	2023
13.4.39	SECONDARY_CELL_MIMO_PARAMS	2023
13.4.40	SECONDARY_CELL_MIMO_STATUS	2024
13.4.41	SECONDARY_CELL_E_DCH_TRANSMISSION	2024
13.4.42	CELL_INFO_CSG_LIST	2024
13.4.43	DCH_MOPS_IDENTITY	2025
13.4.44	SYSTEM_INFORMATION_CONTAINER	2025
13.4.45	MU_MIMO_INFO	2025
13.4.46	MU_MIMO_STATUS	2025
13.4.47	MULTI_CARRIER_ E_DCH_TRANSMISSION	2026
13.4.48	LOGGED_MEAS_CONFIG	2026
13.4.49	LOGGED_MEAS_REPORT_VARIABLE	2026
13.4.50	LOG_ANR_CONFIG	2027
13.4.51	LOG_ANR_REPORT_VARIABLE	2028
13.4.52	UPLINK_CLTD_TRANSMISSION	2028
13.4.53	UPLINK_OLTD_TRANSMISSION	2028
13.4.54	LOGGED_CONNECTION_ESTABLISHMENT_FAILURE	2029
13.4.55	MULTIFLOW_STATUS	2029
13.4.56	CELL_RESELECTION_INFO_LCRTDD	2029
13.4.57	EUTRA_FREQUENCY_INFO_LIST_FACH	2030
13.4.58	FALLBACK_R99_PRACH_ENABLED	2030
13.4.59	HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS	2030
13.4.60	READY_FOR_COMMON_ERGCH	2031
13.4.61	READY_FOR_FALLBACK_R99_PRACH	2031
13.4.62	MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS	2031
13.4.63	MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS	2032
13.4.64	 SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS	2032
13.4.65	 SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS	2032
13.4.66	UPLINK_MIMO_TRANSMISSION	2033
13.4.67	BCCH_MODIFICATION_ACCESS_PROHIBITION	2033
13.4.68	NON_RECTANGULAR_RESOURCE_ALLOCATION_STATUS	2033
13.4.69	WLAN_OFFLOAD_INFO	2034
13.4.70	SYSTEM_INFO_WLAN_OFFLOAD_INFO	2034
13.4.71	DPCCH2_TRANSMISSION	2034
13.4.72	DCH_ENHANCEMENTS_INFO	2035
13.4.73	DCH_ENHANCEMENTS_STATUS	2035
13.4.74	RETRIEVABLE_CONFIGURATION	2035
13.4.75	RNTI_HANDLING_AT_CELL_RE-SELECTION	2037
13.4.76	DETERMINED_ACTIVATION_TIME	2037
13.4.77	OTHER_STATE_CONFIGURATION	2037
13.4.78	BLIND_HARQ_HSDPA	2038
13.4.79	ACDC_ACCESS_CONTROL	2038
13.4.80	OTHER_TTI_EDCH_CONFIGURATION_ON_SECONDARY_UL_FREQUENCY	2039
13.5	UE RRC Procedure Performance	2040
13.5.1	Definitions	2040
13.5.2	RRC procedure performance values	2040
13.6	RB information parameters for signalling radio bearer RB 0	2046
13.6a	RB information parameters for SHCCH	2046
13.6b	RB information parameters for BCCH mapped to FACH	2047
13.6c	RB information parameters for PCCH mapped to PCH	2047
13.6d	Parameters for BCCH mapped to BCH	2047
13.6e	RB information parameters for signalling radio bearer RB 0 mapped on HS-DSCH and RACH	2047
13.6f	RB information parameters for BCCH mapped to HS-DSCH	2048
13.6g	RB information parameters for PCCH mapped to HS-DSCH	2048
13.6h	RB information parameters for signalling radio bearer RB 0 mapped on HS-DSCH and common E-DCH	2048
13.6i	Parameters for BCCH mapped to BCH on SCCPCH	2049
13.7	Parameter values for default radio configurations	2049
13.7.1	Default configuration 3.4 kbps signalling	2049
13.7.2	Default configuration 13.6 kbps signalling	2052
13.7.3	Default configuration 12.2 kbps Speech & 3.4 kbps signalling	2055
13.7.4	Default configuration 28.8 kbps conv. CS- data & 3.4 kbps signalling	2059
13.7.5	Default configuration 32 kbps conversational CS- data & 3.4 kbps signalling	2062
13.7.6	Default configuration 64 kbps conversational CS- data & 3.4 kbps signalling	2066
13.7.7	Default configuration 14.4 kbps streaming CS- data & 3.4 kbps signalling	2069
13.7.8	Default configuration 28 kbps streaming CS- data & 3.4 kbps signalling	2073
13.7.9	Default configuration 57.6 kbps streaming CS- data & 3.4 kbps signalling	2077
13.7.10	Default configuration 12.2/7.95/5.9/4.75 kbps speech & 3.4 kbps signalling	2081
13.7.11	Default configuration 12.2/7.4/5.9/4.75 kbps speech & 3.4 kbps signalling (without SRB#5)	2086
13.7.12	Default configuration 10.2/6.7/5.9/4.75 kbps speech & 3.4 kbps signalling & 0.15 kbps SRB#5	2091
13.7.13	Default configuration 7.4/6.7/5.9/4.75 kbps speech & 3.4 kbps signalling & 0.15 kbps SRB#5	2097
13.7.14	Default configuration 12.65/8.85/6.6 kbps speech & 3.4 kbps signalling & 0.15 kbps SRB#5	2103
13.7.15	Default configuration 12.2/7.4/5.9/4.75 kbps speech & 3.4 kbps signalling & 0.15 kbps SRB#5	2108
13.7.16	Default configuration 7.95 kbps speech & 3.4 kbps signalling	2113
13.7.17	Default configuration 12.65/8.85/6.6 kbps speech & 3.4 kbps signalling (without SRB#5)	2118
13.7.18	Default configuration Signalling on E-DCH on UL depending based on minimum E-DCH UE category & Signalling on HS-DSCH based minimum HS-DSCH UE category	2122
13.7.19	Default configuration 12.2 kbps speech &13.6 kbps signalling	2123
13.7.20	Default configuration 12.2/7.95/5.9/4.75 kbps speech & 13.6 kbps signalling	2127
13.7.21	Default configuration 64 kbps conversation CS-data & 13.6 kbps signalling	2132
13.7.22	Default configuration 12.65/8.85/6.6 kbps speech & 13.6 kbps signalling (without SRB#5)	2137
13.7.23	Default configuration 13.6 kbps signalling	2142
13.7.24	Default configuration Signalling on E-DCH & HS-DSCH; Scheduled	2145
13.8	Parameter values for default radio configurations in CELL_FACH	2146
14	Specific functions	2148
14.1	Intra-frequency measurements	2148
14.1.1	Intra-frequency measurement quantities	2148
14.1.2	Intra-frequency reporting events for FDD	2149
14.1.2.1	Reporting event 1A: A Primary CPICH enters the reporting range	2149
14.1.2.2	Reporting event 1B: A primary CPICH leaves the reporting range	2152
14.1.2.3	Reporting event 1C: A non-active primary CPICH becomes better than an active primary CPICH	2154
14.1.2.4	Reporting event 1D: Change of best cell	2157
14.1.2.5	Reporting event 1E: A Primary CPICH becomes better than an absolute threshold	2159
14.1.2.6	Reporting event 1F: A Primary CPICH becomes worse than an absolute threshold	2161
14.1.2.7	Reporting event 1J: A non-active E-DCH but active DCH primary CPICH becomes better than an active E-DCH primary CPICH	2163
14.1.3	Intra-frequency reporting events for TDD	2166
14.1.3.1	Reporting event 1G: Change of best cell (TDD)	2166
14.1.3.2	Reporting event 1H: Timeslot ISCP below a certain threshold (TDD)	2167
14.1.3.3	Reporting event 1I: Timeslot ISCP above a certain threshold (TDD)	2168
14.1.4	Event-triggered periodic intra-frequency measurement reports (informative)	2170
14.1.4.1	Cell addition failure (FDD only)	2170
14.1.4.1a	Cell removal failure (FDD only)	2171
14.1.4.2	Cell replacement failure (FDD only)	2172
14.1.5	Mechanisms available for modifying intra-frequency measurement reporting behaviour (informative)	2172
14.1.5.1	Hysteresis	2172
14.1.5.2	Time-to-trigger	2173
14.1.5.3	Cell individual offsets	2174
14.1.5.4	Forbid a Primary CPICH to affect the reporting range (FDD only)	2175
14.1.6	Report quantities in intra-frequency measurements	2176
14.1.7	Intra-frequency Common E-RGCH RL Determination (FDD only)	2177
14.2	Inter-frequency measurements	2177
14.2.0a	Inter-frequency measurement quantities	2177
14.2.0b	Frequency quality estimate	2178
14.2.0b.1	FDD cells	2178
14.2.0b.2	TDD cells	2178
14.2.0c	Inter-frequency reporting quantities	2178
14.2.1	Inter-frequency reporting events	2179
14.2.1.1	Event 2a: Change of best frequency.	2180
14.2.1.2	Event 2b: The estimated quality of the currently used frequency is below a certain threshold and the estimated quality of a non-used frequency is above a certain threshold.	2181
14.2.1.3	Event 2c: The estimated quality of a non-used frequency is above a certain threshold	2183
14.2.1.4	Event 2d: The estimated quality of the currently used frequency is below a certain threshold	2184
14.2.1.5	Event 2e: The estimated quality of a non-used frequency is below a certain threshold	2185
14.2.1.6	Event 2 f: The estimated quality of the currently used frequency is above a certain threshold	2187
14.2.1.7	Event 2g: Change of best cell on a configured secondary downlink frequency (FDD only)	2188
14.3	Inter-RAT measurements	2189
14.3.0a	Inter-RAT measurement quantities	2189
14.3.0b	Frequency quality estimate of the UTRAN frequency	2190
14.3.0c	Inter-RAT reporting quantities	2190
14.3.1	Inter-RAT reporting events	2190
14.3.1.1	Event 3a: The estimated quality of the currently used UTRAN frequency is below a certain threshold and the estimated quality of the other system is above a certain threshold.	2191
14.3.1.2	Event 3b: The estimated quality of other system is below a certain threshold	2193
14.3.1.3	Event 3c: The estimated quality of other system is above a certain threshold	2195
14.3.1.4	Event 3d: Change of best cell in other system	2196
14.3.2	GSM measurements in compressed mode	2198
14.3.2.1	GSM RSSI measurements	2198
14.3.2.2	Initial BSIC identification	2198
14.3.2.3	BSIC re-confirmation	2198
14.3.3	E-UTRA measurements in compressed mode	2199
14.3.3.1	E-UTRA RSRP measurements	2199
14.3.3.2	E-UTRA RSRQ measurements	2199
14.4	Traffic Volume Measurements	2199
14.4.1	Traffic Volume Measurement Quantity	2199
14.4.2	Traffic Volume reporting triggers	2199
14.4.2.1	Reporting event 4 A: Transport Channel Traffic Volume becomes larger than an absolute threshold	2204
14.4.2.2	Reporting event 4 B: Transport Channel Traffic Volume becomes smaller than an absolute threshold	2204
14.4.3	Traffic volume reporting mechanisms	2205
14.4.3.1	Pending time after trigger	2205
14.4.3.2	Time-to-trigger	2205
14.4.4	Interruption of user data transmission	2206
14.5	Quality Measurements	2206
14.5.1	Quality reporting measurement quantities	2206
14.5.2	Quality reporting events	2206
14.5.2.1	Reporting event 5A: A predefined number of bad CRCs is exceeded	2206
14.6	UE internal measurements	2207
14.6.1	UE internal measurement quantities	2207
14.6.2	UE internal measurement reporting events	2207
14.6.2.1	Reporting event 6A: The UE Tx power becomes larger than an absolute threshold	2207
14.6.2.2	Reporting event 6B: The UE Tx power becomes less than an absolute threshold	2208
14.6.2.3	Reporting event 6C: The UE Tx power reaches its minimum value	2209
14.6.2.4	Reporting event 6D: The UE Tx power reaches its maximum value	2210
14.6.2.5	Reporting event 6E: The UE RSSI reaches the UE's dynamic receiver range	2211
14.6.2.6	Reporting event 6F (FDD): The UE Rx-Tx time difference for a RL included in the active set becomes larger than an absolute threshold	2211
14.6.2.6a	Reporting event 6F (1.28 Mcps TDD): The time difference indicated by TADV becomes larger than an absolute threshold	2212
14.6.2.7	Reporting event 6G: The UE Rx-Tx time difference for a RL included in the active set becomes less than an absolute threshold	2212
14.6.2.8	Reporting event 6H: The UE power headroom becomes larger than an absolute threshold	2213
14.6.2.9	Reporting event 6I: The UE power headroom becomes less than an absolute threshold	2214
14.7	UE positioning measurements	2216
14.7.1	UE positioning measurement quantities	2216
14.7.2	Void	2216
14.7.3	UE positioning reporting events	2216
14.7.3.1	Reporting Event 7a: The UE position changes more than an absolute threshold	2216
14.7.3.2	Reporting Event 7b: SFN-SFN measurement changes more than an absolute threshold	2216
14.7.3.3	Reporting Event 7c: GPS time and SFN time have drifted apart more than an absolute threshold	2217
14.7.3.4	Reporting Event 7d: GANSS time and SFN time have drifted apart more than an absolute threshold	2218
14.7a	Measurements related to CSG/Hybrid cells	2218
14.7a.1	Intra-frequency measurements for CSG/Hybrid cells	2218
14.7a.2	Inter-frequency measurements for CSG/Hybrid cells	2219
14.7a.3	CSG Proximity detection	2219
14.7a.4	CSG Proximity Indication	2219
14.7a.5	E-UTRA measurements for CSG/Hybrid cells	2220
14.8	Void	2220
14.9s	Downlink power control	2220
14.9.1	Generalities	2220
14.9.2	Downlink power control in compressed mode	2221
14.10	Calculated Transport Format Combination	2221
14.10.1	Default TFCS for MBMS	2222
14.10.1.1	S-CCPCH configuration including a FACH carrying MSCH	2222
14.10.1.2	S-CCPCH configuration not including a FACH carrying MSCH	2222
14.11	UE autonomous update of virtual active set on non-used frequency (FDD only)	2223
14.11.1	Initial virtual active set	2223
14.11.2	Virtual active set update during an inter-frequency measurement	2224
14.12	Provision and reception of RRC information between network nodes	2226
14.12.0	General	2226
14.12.0a	General error handling for RRC messages exchanged between network nodes	2226
14.12.1	RRC Information to target RNC	2227
14.12.2	RRC information, target RNC to source RNC	2228
14.12.3	Void	2229
14.12.4	RRC messages exchanged between network nodes	2229
14.12.4.0	HANDOVER TO UTRAN COMMAND	2229
14.12.4.0a	INTER RAT HANDOVER INFO	2229
14.12.4.1	INTER RAT HANDOVER INFO WITH INTER RAT CAPABILITIES	2229
14.12.4.2	SRNS RELOCATION INFO	2231
14.12.4.3	Void	2245
14.12.4.4	RFC 3095 CONTEXT INFO	2245
14.13	Void	2248
14.14	Void	2248
14.15	E-UTRA measurement for CELL_FACH (FDD only)	2248
14.15.1	E-UTRA measurement for CELL_FACH measurement quantities (FDD only)	2248
14.15.2	E-UTRA measurement for CELL_FACH reporting (FDD only)	2249
Annex A (informative): USIM parameters	2250
A.1	Introduction	2250
A.2	Ciphering information	2250
A.3	Frequency information	2250
A.4	Multiplicity values and type constraint values	2251
Annex B (informative): Description of RRC state transitions including GSM and E-UTRA	2252
B.1	RRC states and state transitions	2252
B.2	Transition from Idle Mode to UTRA RRC Connected Mode	2252
B.2.1	Transitions for Emergency Calls	2252
B.3	UTRA RRC Connected Mode States and Transitions	2252
B.3.1	CELL_DCH state	2252
B.3.1.1	Transition from CELL_DCH to Idle Mode	2253
B.3.1.2	Transition from CELL_DCH to CELL_FACH state	2253
B.3.1.3	Transition from CELL_DCH to CELL_PCH state	2253
B.3.1.4	Transition from CELL_DCH to URA_PCH state	2253
B.3.1.5	Radio Resource Allocation tasks (CELL_DCH)	2253
B.3.1.6	RRC Connection mobility tasks (CELL_DCH)	2254
B.3.1.7	UE Measurements (CELL_DCH)	2254
B.3.1.8	Acquisition of system information (CELL_DCH)	2254
B.3.2	CELL_FACH state	2254
B.3.2.1	Transition from CELL_FACH to CELL_DCH state	2255
B.3.2.2	Transition from CELL_FACH to CELL_PCH state	2255
B.3.2.3	Transition from CELL_FACH to Idle Mode	2255
B.3.2.4	Transition from CELL_FACH to URA_PCH State	2255
B.3.2.5	Radio Resource Allocation Tasks (CELL_FACH)	2255
B.3.2.6	RRC Connection mobility tasks (CELL_FACH)	2256
B.3.2.7	UE Measurements (CELL_FACH)	2256
B.3.2.8	Transfer and update of system information (CELL_FACH)	2256
B.3.3	CELL_PCH state	2256
B.3.3.1	Transition from CELL_PCH to CELL_FACH state	2257
B.3.3.2	Radio Resource Allocation Tasks (CELL_PCH)	2257
B.3.3.3	RRC Connection mobility tasks (CELL_PCH)	2257
B.3.3.4	UE Measurements (CELL_PCH)	2257
B.3.3.5	Transfer and update of system information (CELL_PCH)	2257
B.3.4	URA_PCH State	2257
B.3.4.1	Transition from URA_PCH State to CELL_FACH State (URA_PCH)	2258
B.3.4.2	Radio Resource Allocation Tasks (URA_PCH)	2258
B.3.4.3	RRC Connection mobility tasks (URA_PCH)	2258
B.3.4.4	UE Measurements (URA_PCH)	2258
B.3.4.5	Transfer and update of system information (URA_PCH)	2258
B.3.5	States and Transitions for Cell Reselection in URA_PCH, CELL_PCH, and CELL_FACH	2259
B.4	Inter-RAT handover with CS domain services	2259
B.5	Inter-RAT handover with PS domain services	2260
B.6	Inter-RAT handover with simultaneous PS and CS domain services	2260
B.6.1	Inter-RAT handover UTRAN to GSM / BSS	2260
B.6.2	Inter-RAT handover GSM / BSS to UTRAN	2260
Annex C (informative): Description for the Compressed Coding of Pre-defined configurations included in the INTER RAT HANDOVER INFO message	2261
C.1	Definitions	2261
C.2	Examples of the methodology	2261
Annex D (Normative): Implementation of Domain Specific Access Control (DSAC) in UEs of 3GPP Release 5	2264
Annex E (Normative): EUTRA Feature group indicators	2264
Annex F (Normative): Support of Multiple Frequency Band Indicators (Multiple FBI) in UE	2265
Annex G (informative): Signalling of Multiple Frequency Band Indicators (Multiple FBI)	2266
G.1	Mapping between "Frequency band indicator", "Frequency band indicator 2" or "Frequency band indicator 3" and "Multiple Frequency Info list"	2266
G.2	Mapping between "New Inter-frequency cells" and "Multiple Frequency Info List FDD"	2266
G.3	Mapping between "E-UTRA frequency and priority" and "Multiple E-UTRA Frequency Info list" or "Multiple E-UTRA Frequency Info extension list"	2267
Annex H (informative): Change history	2271

Foreword
This Technical Specification has been produced by the 3rd Generation Partnership Project (3GPP).
The contents of the present document are subject to continuing work within the TSG and may change following formal TSG approval. Should the TSG modify the contents of the present document, it will be re-released by the TSG with an identifying change of release date and an increase in version number as follows:
Version x.y.z
where:
x	the first digit:
1	presented to TSG for information;
2	presented to TSG for approval;
3	or greater indicates TSG approved document under change control.
y	the second digit is incremented for all changes of substance, i.e. technical enhancements, corrections, updates, etc.
z	the third digit is incremented when editorial only changes have been incorporated in the document.
1	Scope
The present document specifies the Radio Resource Control protocol for the UE-UTRAN radio interface.
The scope of the present document also includes:
-	the information to be transported in a transparent container between source RNC and target RNC in connection with SRNC relocation;
-	the information to be transported in a transparent container between a target RNC and another system.
2	References
The following documents contain provisions which, through reference in this text, constitute provisions of the present document.
-	References are either specific (identified by date of publication, edition number, version number, etc.) or non specific.
-	For a specific reference, subsequent revisions do not apply.
-	For a non-specific reference, the latest version applies. In the case of a reference to a 3GPP document (including a GSM document), a non-specific reference implicitly refers to the latest version of that document in the same Release as the present document.
 [1]	3GPP TR 21.905: "Vocabulary for 3GPP Specifications".
[2]	3GPP TS 25.301: "Radio Interface Protocol Architecture".
[3]	3GPP TS 25.303: "Interlayer Procedures in Connected Mode".
[4]	3GPP TS 25.304: "UE Procedures in Idle Mode and Procedures for Cell Reselection in Connected Mode".
[5]	3GPP TS 24.008: "Mobile radio interface layer 3 specification; Core Network Protocols; Stage 3".
[6]	3GPP TS 25.103: "RF parameters in support of RRM".
[7]	3GPP TS 25.215: "Physical layer – Measurements (FDD)".
[8]	3GPP TS 25.225: "Physical layer – Measurements (TDD)".
[9]	3GPP TS 25.401: "UTRAN overall description".
[10]	3GPP TS 25.402: "Synchronization in UTRAN; Stage 2".
[11]	3GPP TS 23.003: "Numbering, addressing and identification".
[12]	ICD-GPS-200: "Navstar GPS Space Segment/Navigation User Interface".
[13]	RTCM-SC104: "RTCM Recommended Standards for Differential GNSS Service (v.2.2)".
[14]	3GPP TR 25.921: "Guidelines and principles for protocol description and error handling".
[15]	3GPP TS 25.321: "Medium Access Control (MAC) protocol specification".
[16]	3GPP TS 25.322: "Radio Link Control (RLC) protocol specification".
[17]	3GPP TS 24.007: "Mobile radio interface signalling layer 3; General aspects".
[18]	3GPP TS 25.305: "Stage 2 Functional Specification of UE Positioning in UTRAN".
[19]	3GPP TS 25.133: "Requirements for Support of Radio Resource Management (FDD)".
[20]	3GPP TS 25.123: "Requirements for Support of Radio Resource Management (TDD)".
[21]	3GPP TS 25.101: "UE Radio Transmission and Reception (FDD)".
[22]	3GPP TS 25.102: "UE Radio Transmission and Reception (TDD)".
[23]	3GPP TS 23.060: "General Packet Radio Service (GPRS); Service description; Stage 2".
[24]	3GPP TS 23.032: "Universal Geographical Area Description (GAD)".
[25]	3GPP TS 23.122: "Non-Access-Stratum functions related to Mobile Station (MS) in idle mode".
[26]	3GPP TS 25.211: "Physical channels and mapping of transport channels onto physical channels (FDD)".
[27]	3GPP TS 25.212: "Multiplexing and channel coding (FDD)".
[28]	3GPP TS 25.213: "Spreading and modulation (FDD)".
[29]	3GPP TS 25.214: "Physical layer procedures (FDD)".
[30]	3GPP TS 25.221: "Physical channels and mapping of transport channels onto physical channels (TDD)".
[31]	3GPP TS 25.222: "Multiplexing and channel coding (TDD)".
[32]	3GPP TS 25.223: "Spreading and modulation (TDD)".
[33]	3GPP TS 25.224: "Physical Layer Procedures (TDD)".
[34]	3GPP TS 25.302: "Services provided by the physical layer ".
[35]	3GPP TS 25.306 "UE Radio Access Capabilities".
[36]	3GPP TS 25.323: "Packet Data Convergence Protocol (PDCP) Specification".
[37]	3GPP TS 25.324: "Broadcast/Multicast Control BMC".
[38]	3GPP TR 25.922: "Radio resource management strategies".
[39]	3GPP TR 25.925: "Radio interface for broadcast/multicast services".
[40]	3GPP TS 33.102: "3G Security; Security Architecture".
[41]	3GPP TS 34.108: "Common Test Environments for User Equipment (UE) Conformance Testing".
[42]	3GPP TS 34.123-2: "User Equipment (UE) conformance specification; Part 2: Implementation Conformance Statement (ICS) proforma specification".
[43]	3GPP TS 44.018: "Mobile radio interface layer 3 specification; Radio Resource Control Protocol".
[44]	3GPP TS 44.060: "General Packet Radio Service (GPRS); Mobile Station (MS) - Base Station System (BSS) interface; Radio Link Control/Medium Access Control (RLC/MAC) protocol".
[45]	3GPP TS 45.005: "Radio transmission and reception".
[46]	3GPP TS 45.008: "Radio subsystem link control".
[47]	ITU-T Recommendation X.680 (07/2002) "Information Technology - Abstract Syntax Notation One (ASN.1): Specification of basic notation".
[48]	ITU-T Recommendation X.681 (07/2002) "Information Technology - Abstract Syntax Notation One (ASN.1): Information object specification".
[49]	ITU-T Recommendation X.691 (07/2002) "Information technology - ASN.1 encoding rules: Specification of Packed Encoding Rules (PER)".
[50]	3GPP TS 31.102: "Characteristics of the USIM Application".
[51]	3GPP TS 25.308: "High Speed Downlink Packet Access (HSDPA): Overall Description; Stage 2".
[52]	IANA ROHC profile identifier definition (http://www.iana.org/assignments/rohc-pro-ids).
[53]	Void.
[54]	3GPP TS 23.246: "Multimedia Broadcast Multicast Service; Architecture and Functional Description".
[55]	3GPP TS 25.346: " Introduction of the Multimedia Broadcast Multicast Service (MBMS) in the Radio Access Network (Stage-2)".
[56]	3GPP TR 25.992: "Multimedia Broadcast Multicast Service (MBMS); UTRAN/GERAN Requirements".
[57]	3GPP TS 25.413: "UTRAN Iu Interface RANAP Signalling".
[58]	3GPP TS 25.309: "FDD Enhanced Uplink; Overall Description; Stage 2".
[59]	3GPP TS 25.319: "Enhanced Uplink; Overall Description; Stage 2".
[60]	3GPP TR 25.827: "1.28Mcps TDD Enhanced Uplink; Physical Layer Aspects".
[61]	Galileo OS Signal in Space ICD (OS SIS ICD), Issue 1.2,  February 2014, European Union.
[62]	3GPP TS 26.101: "Adaptive Multi-Rate (AMR) speech codec frame structure".
[63]	3GPP TS 26.201: "Adaptive Multi Rate – Wideband (AMR-WB) speech codec frame structure".
[64]	3GPP TS 36.101: "Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) radio transmission and reception".
[65]	3GPP TS 36.104: "Evolved Universal Terrestrial Radio Access (E-UTRA); Base Station (BS) radio transmission and reception".
[66]	3GPP TS 36.304: "Evolved Universal Terrestrial Radio Access (E-UTRA); User Equipment (UE) procedures in idle mode".
[67]	3GPP TS 36.331: "Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Resource Control (RRC); Protocol Specification".
[68]	IS-GPS-200, Revision D, Navstar GPS Space Segment/Navigation User Interfaces, March 7th, 2006. 
[69]	IS-GPS-705, Navstar GPS Space Segment/User Segment L5 Interfaces, September 22, 2005.
[70]	IS-GPS-800, Navstar GPS Space Segment/User Segment L1C Interfaces, March 31, 2008.
[71]	Specification for the Wide Area Augmentation System (WAAS), US Department of Transportation, Federal Aviation Administration, DTFA01-96-C-00025, 2001.
[72]	IS-QZSS, Quasi Zenith Satellite System Navigation Service Interface Specifications for QZSS, Ver.1.0, June 17, 2008.
[73]	Global Navigation Satellite System GLONASS Interface Control Document, Version 5.1, 2008.
[74]	3GPP TS 36.133: "Evolved Universal Terrestrial Radio Access (E-UTRA); Requirements for support of radio resource management".
[75]	3GPP TS 22.011: "Service accessibility".
[76]	3GPP TS 23.003: "Numbering, addressing and identification".
[77]	3GPP TS 23.041: "Technical realization of Cell Broadcast Service (CBS)".
[78]	3GPP TS 33.401: "3GPP System Architecture Evolution (SAE): Security architecture".
[79]	3GPP TS 24.301: " Non-Access-Stratum (NAS) protocol for Evolved Packet System (EPS)".
[80]	3GPP TS 37.320: "Universal Terrestrial Radio Access (UTRA) and Evolved Universal Terrestrial Radio Access (E-UTRA); Radio measurement collection for Minimization of Drive Tests (MDT); Overall description; Stage 2".
[81]	3GPP TS 32.422: "Telecommunication management; Subsriber and equipment trace; Trace control and confiuration management".
[82]	3GPP TS 22.368: "Service Requirements for Machine Type Communications; Stage 1".
[83]	RFC 3095: "RObust Header Compression (ROHC): Framework and four profiles".
[84]	RFC 4815: "RObust Header Compression (ROHC): Corrections and Clarifications to RFC 3095".
[85]	3GPP TS 25.307: "Requirement on User Equipments (UEs) supporting a release-independent frequency band".
[86]	BDS-SIS-ICD-2.0: "BeiDou Navigation Satellite System Signal In Space Interface Control Document Open Service Signal (Version 2.0), December 2013".
[87]	IEEE 802.11-2012, Part 11: "Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications, IEEE Std.".
[88]	3GPP TS 24.312: "Access Network Discovery and Selection Function (ANDSF) Management Object (MO)".
[89]	ATIS-0500027: "Recommendations for Establishing Wide Scale Indoor Location Performance,"  May 2015.
[90]	Bluetooth Special Interest Group: "Bluetooth Core Specification v4.2", December 2014.
[91]	3GPP TS 23.401: "General Packet Radio Service (GPRS) enhancements for Evolved Universal Terrestrial Radio Access Network (E-UTRAN) access".
[92]	3GPP TS 33.501: "Security Architecture and Procedures for 5G System".
3	Definitions and abbreviations
3.1	Definitions
For the purposes of the present document, the terms and definitions given in [1] apply, together as:
Activated uplink frequency (FDD only): For a specific UE, an uplink frequency is said to be activated if the UE is allowed to transmit on that frequency. The primary uplink frequency is always activated when configured while a secondary uplink frequency has to be activated by means of an HS-SCCH order in order to become activated.
Adjacent Frequency: A frequency whose centre is within 5 MHz of the centre of the currently used frequency and belongs to the same frequency band as that of the currently used frequency.
Assisting serving HS-DSCH Cell: In addition to the serving HS-DSCH cell, a cell in the same frequency, where the UE is configured to simultaneously monitor a HS-SCCH set and receive HS-DSCH if it is scheduled in that cell.
Assisting secondary serving HS-DSCH Cell: In addition to the serving HS-DSCH cell, a cell in the secondary downlink frequency, where the UE is configured to simultaneously monitor a HS-SCCH set and receive HS-DSCH if it is scheduled in that cell.
Blind HARQ retransmissions for HSDPA (FDD only): A HARQ operation where a UE in CELL_DCH state supports reception of  MAC-hs/ehs PDU within 5 sub-frames from the reception of the previous MAC-hs/ehs PDU intended for the same HARQ process.
Common E-DCH resource: In FDD, common E-DCH resources are under direct control of the Node B and are shared by UEs in CELL_FACH state and IDLE mode. In 1.28 Mcps TDD, common E-DCH resources used by UEs in CELL_FACH and IDLE mode are under direct control of Node B and are shared by UEs in the CELL_DCH state.
Common E-RGCH RL: Cell which is not the serving E-DCH radio link and from which the UE can receive one Relative Grant in CELL_FACH state. The UE can have zero, one or up to 3 Common E-RGCH RL(s).
Configured Uplink Frequency (FDD only): For a specific UE, an uplink frequency is said to be configured if the UE has received all relevant information from RRC in order to perform transmission on that frequency.
CSG member cell: a cell broadcasting the identity of the selected PLMN, registered PLMN or equivalent PLMN and for which the CSG whitelist of the UE includes an entry comprising the cell’s CSG ID and the respective PLMN identity.
Current Frequency (FDD only): The frequency that is currently used by the UE. In case of dual cell or dual band configured, the serving HS-DSCH cell frequency is treated as current frequency.
Data Description Indicator (DDI): MAC-e header field used to identify the logical channel, MAC-d flow and the size of the MAC-d PDUs concatenated into a MAC-es PDU.
Designated non-serving HS-DSCH cell: The non-serving HS-DSCH cell from which the UE estimates the F-DPCH quality for TPC derivation, when the UE is configured with DPCCH2 in the uplink or the Serving E-DCH cell decoupling is configured. This TPC is transmitted on UL DPCCH.
E-DCH active set (FDD only): The set of cells on the primary uplink frequency which carry the E-DCH for one UE. Only radio links for which an E-HICH configuration is stored are considered part of the E-DCH active set.
Enhanced Uplink in CELL_FACH state and Idle mode: In FDD, combines the REL99 random access power ramping phase with E-DCH transmission. The procedure can be started in idle mode and RRC Connected mode, but not in CELL_DCH state. In 1.28 Mcps TDD, the REL7 enhanced random access procedure for E-DCH in CELL_DCH is used in idle mode and CELL_FACH state.
HARQ profile: One HARQ profile consists of a power offset attribute and maximum number of transmissions.
Implicit Grant handling: A scheduling scheme where a UE’s Scheduling Grant on the Secondary Serving E-DCH cell may be revoked by means of an Absolute Grant addressed to another UE.
MBMS activated services: the MBMS multicast services the UE has joined as well as the broadcast services the UE is interested in.
MCCH acquisition: the procedure for acquiring all MCCH information relevant for the UE ie. includes reception of the RB information for the UE’s MBMS activated services.
MBMS controlling cell: the cell from which the UE receives MCCH.
MBMS notification: a notification provided by UTRAN indicating a change in the provision of one or more MBMS services.
MBMS Selected Services: a subset of the MBMS activated services of the Broadcast type for which the UE applies RRC procedures to inform UTRAN that the service has been selected (by upper layers).
MBMS transmission: a possibly repeated session of an MBMS service. An MBMS transmission is uniquely identified by the combination of the MBMS service identity and the MBMS session identity.
MBSFN cluster: Set of cells operating in MBSFN mode providing only MBMS service in PtM mode and seen as one cell by a UE.
MBSFN mode: Transmission mode where a set of synchronized cells transmit exactly the same data for provision of MBMS service.
Multiflow (FDD only):  A mode of operation with two simultaneous HS-DSCH transport channels per carrier frequency, where the HS-DSCH transport channels may belong to the same or different Node Bs.
NodeB triggered HS-DPCCH transmission: Transmission on a common E-DCH resource to provide HS-DPCCH feedback in CELL_FACH state, which is triggered by the reception of an HS-SCCH order as defined in [16].
Primary Absolute Grant (FDD only): Absolute Grant received with the primary E-RNTI.
Primary uplink frequency (FDD only): If a single uplink frequency is configured for the UE, then it is the primary uplink frequency. In case more than one uplink frequencies are configured for the UE, then the primary uplink frequency is the frequency on which E-DCH corresponding to the serving E-DCH cell associated with  the serving HS-DSCH cell is transmitted. The association between a pair of uplink and downlink frequencies is indicated by higher layers.
Radio Links without DPCH/F-DPCH operation (FDD only): An operation mode in which UE supports to not receive both DPCH and F-DPCH downlink channels from the indicated Non-serving E-DCH cell(s).
Secondary Absolute Grant (FDD only): Absolute Grant received with the secondary E-RNTI.
Secondary E-DCH Active Set (FDD only): The set of cells on the secondary uplink frequency where E-DCH is carried for one UE. Only radio links for which an E-HICH configuration is stored are considered part of the secondary E-DCH active set. The secondary E-DCH active set and the active set on the secondary uplink frequency are always the same set of cells.
Secondary Serving E-DCH cell (FDD only): Cell from which the UE receives Absolute Grants from the Node-B scheduler on the downlink frequency associated with secondary uplink frequency. A UE has one Secondary Serving E-DCH cell on the secondary uplink frequency.
Secondary Serving E-DCH RLS or Secondary Serving RLS (FDD only): In Dual Cell E-DCH operation, the set of cells which contains at least the Secondary Serving E-DCH cell and from which the UE can receive and combine one Relative Grant. A UE can have zero or one Secondary Serving E-DCH RLS.
Secondary serving HS-DSCH cell(s): In addition to the serving HS-DSCH cell, the set of cells where the UE is configured to simultaneously monitor an HS-SCCH set and receive the HS-DSCH if it is scheduled in that cell. There can be up to 7 secondary serving HS-DSCH cells. If the UE is configured with two uplink frequencies, the first secondary serving HS-DSCH cell is the secondary serving HS-DSCH cell that is associated with the secondary uplink frequency.
Secondary Non-serving E-DCH RL or Secondary Non-serving RL (FDD only): In Dual Cell E-DCH operation, the cell which belongs to the Secondary E-DCH active set but does not belong to the Secondary Serving E-DCH RLS and from which the UE in CELL_DCH can receive one Relative Grant. The UE can have zero, one or several Secondary Non-serving E-DCH RL(s).
Secondary uplink frequency (FDD only): A secondary uplink frequency is a frequency on which an E-DCH corresponding to a  serving E-DCH cell associated with a secondary serving HS-DSCH cell is transmitted. The association between a pair of uplink and downlink frequencies is indicated by higher layers.
Serving E-DCH cell: Cell from which the UE receives Absolute Grants from the Node-B scheduler.  In TDD, a UE has one Serving E-DCH cell. In FDD, a UE has one Serving E-DCH cell on the primary uplink frequency.
Serving E-DCH cell decoupling (FDD only): An E-DCH operation mode in which the Serving HS-DSCH cell and the Serving E-DCH cell are different.
Serving E-DCH RLS or Serving RLS (FDD only): Set of cells which contains at least the Serving E-DCH cell and from which the UE can receive and combine one Relative Grant. In TDD, the UE has only one Serving E-DCH RLS. In FDD, a UE has one Serving E-DCH cell on the primary uplink frequency.
Non-serving E-DCH RL or Non-serving RL (FDD only): Cell which belongs to the E-DCH active set but does not belong to the Serving E-DCH RLS and from which the UE in CELL_DCH can receive one Relative Grant. In TDD, the UE can have zero, one or several Non-serving E-DCH RL(s). In FDD, the UE can have zero, one or several Non-serving E-DCH RL(s) on the primary uplink frequency.
SR-VCC: Single Radio Voice Call Continuity, Voice call or Voice and Video call continuity between IMS over PS access and CS access for calls that are anchored in IMS when the UE is capable of transmitting/receiving on only one of those access networks at a given time. Single Radio Voice Call Continuity between CS access and IMS over PS access is referred to as Reverse SRVCC (rSR-VCC).
Target Cell Pre-Configuration (FDD only): HS-DSCH Cell configuration provided to UE in Active Set Update for which HS-DSCH serving Cell Change may be initiated by HS-SCCH order sent from target cell.
Target cell HS-SCCH order: A HS-DSCH serving cell change command signaled to an UE by using HS-SCCH order in the target cell:
- for which a measurement report was trigged by an Event 1d  intra frequency event; or
- for which a measurement report was trigged by an Event 1c intra frequency event on the primary frequency, which indicates the current serving HS-DSCH cell as the only active CPICH triggering this event 1c report, and the target cell is the best cell in the current active set reported in this Event 1c measurement report. If more than one cell in the active set share the same quality, the target cell will be the first one listed in the in "Intra-frequency measured results list" in the Event 1c measurement report.
Primary E-DCH carrier (1.28Mcps TDD only): If a single E-DCH carrier is configured for the UE, then it is the primary E-DCH carrier. In case more than one E-DCH carriers are configured for the UE, then the primary E-DCH carrier is the carrier on which the E-RUCCH will be transmitted.
Additional E-DCH carrier (1.28Mcps TDD only): An additional E-DCH carrier is an E-DCH carrier other than the primary E-DCH carrier . The UE can have zero, one or several additional E-DCH carrier(s).
3.2	Abbreviations
For the purposes of the present document, the following abbreviations apply:
ACDC	Application specific Congestion control for Data Communication
ACK	Acknowledgement
AG	Absolute Grant
AICH	Acquisition Indicator CHannel
AM	Acknowledged Mode
ANDSF	Access Network Discovery and Selection Function
ANR	Automatic Neighbour Relation
AP	Access Point
AS	Access Stratum
ASC	Access Service Class
ASN.1	Abstract Syntax Notation.1
BCCH	Broadcast Control Channel
BCD	Binary Coded Decimal
BCFE	Broadcast Control Functional Entity
BDS	BeiDou Navigation Satellite System
BER	Bit Error Rate
BLER	BLock Error Rate
BSS	Base Station Sub-system
CCCH	Common Control Channel
CCPCH	Common Control Physical CHannel
CH	Conditional on history
CLTD	Closed Loop Transmit Diversity
CM	Connection Management
CN	Core Network
C-RNTI	Cell RNTI
CSFB	CS Fallback
CSG	Closed Subscriber Group
CTCH	Common Traffic CHannel
CTFC	Calculated Transport Format Combination
CV	Conditional on value
DBDS	Differential BDS
DCA	Dynamic Channel Allocation
DCCH	Dedicated Control Channel
DCFE	Dedicated Control Functional Entity
DCH	Dedicated Channel
DCN	Dedicated Core Networks
DC-SAP	Dedicated Control SAP
DDI	Data Description Indicator
DGANSS	Differential GANSS
DGPS	Differential Global Positioning System
DL	Downlink
DPCCH2	Dedicated Physical Control Channel 2
DSCH	Downlink Shared Channel
DTCH	Dedicated Traffic Channel
DTM	Dual Transfer Mode
EAB	Extended Access Barring
E-AGCH	E-DCH Absolute Grant Channel
ECEF	Earth-Centered, Earth-Fixed
ECI	Earth-Centered-Inertial
E-DCH	Enhanced uplink DCH
E-DPCCH	E-DCH Dedicated Physical Control Channel (FDD Only)
E-DPDCH	E-DCH Dedicated Physical Data Channel (FDD Only)
EGNOS	European Geostationary Navigation Overlay Service
E-HICH	E-DCH HARQ Acknowledgement Indicator Channel
E-PUCH	Enhanced Uplink Physical Channel (TDD only)
E-RGCH	E-DCH Relative Grant Channel (FDD only)
E-RNTI	E-DCH RNTI
E-ROCH	E-DCH Rank and Offset Channel (FDD only)
E-RUCCH	E-DCH Random Access Uplink Control Channel (TDD only)
E-TFCI	E-DCH Transport Format Combination Indicator
ETWS	Earthquake and Tsunami Warning System
E-UCCH	E-DCH Uplink Control Channel (TDD only)
E-UTRA	Evolved Universal Terrestrial Radio Access
E-UTRAN	Evolved Universal Terrestrial Radio Access Network
FACH	Forward Access Channel
FDD	Frequency Division Duplex
F-DPCH	Fractional DPCH
F-TPICH	Fractional Transmitted Precoding Indicator Channel
GAGAN	GPS Aided Geo Augmented Navigation
GANSS	Galileo and Additional Navigation Satellite Systems
GC-SAP	General Control SAP
GERAN	GSM/EDGE Radio Access Network
GLONASS	GLObal'naya NAvigatsionnaya Sputnikovaya Sistema (Engl.: Global Navigation Satellite System)
GNSS	Global Navigation Satellite System
GRA	GERAN Registration Area
G-RNTI	Geran Radio Network Temporary Identity
HARQ	Hybrid Automatic Repeat Request
HCS	Hierarchical Cell Structure
HFN	Hyper Frame Number
H-RNTI	HS-DSCH RNTI
HS-DSCH	High Speed Downlink Shared Channel
ICD	Interface Control Document
ID	Identifier
IDNNS	Intra Domain NAS Node Selector
IE	Information element
IETF	Internet Engineering Task Force
IMB	Integrated Mobile Broadcast
IMEI	International Mobile Equipment Identity
IMSI	International Mobile Subscriber Identity
IP	Internet Protocol
ISCP	Interference on Signal Code Power
L1	Layer 1
L2	Layer 2
L3	Layer 3
LAI	Location Area Identity
MAC	Media Access Control
MBS	Metropolitan Beacon System
MBMS	Multimedia Broadcast Multicast Service
MBSFN	MBMS over a Single Frequency Network
MCC	Mobile Country Code
MCCH	MBMS point-to-multipoint Control Channel
MD	Mandatory default
MDT	Minimization of Drive Tests
MICH	MBMS notification Indicator Channel
MM	Mobility Management
MNC	Mobile Network Code
MP	Mandatory present
MTCH		MBMS point-to-multipoint Traffic Channel
MSAS	Multi-functional Satellite Augmentation System
MSCH	MBMS point-to-multipoint Scheduling Channel
NACC	Network Assisted Cell Change
NAS	Non Access Stratum
NR	NR Radio Access
Nt-SAP	Notification SAP
NW	Network
OLTD	Open Loop Transmit Diversity
OP	Optional
PCCH	Paging Control Channel
PCH	Paging Channel
PDCP	Packet Data Convergence Protocol
PDSCH	Physical Downlink Shared Channel
PDU	Protocol Data Unit
PLMN	Public Land Mobile Network
PNFE	Paging and Notification Control Functional Entity
PRACH	Physical Random Access CHannel
PRN	Pseudo-Random Noise
PSI	Packet System Information
p-t-m	Point-to-Multipoint
P-TMSI	Packet Temporary Mobile Subscriber Identity
p-t-p	Point-to-Point
PUSCH	Physical Uplink Shared Channel
QoE	Quality of Experience
QoS	Quality of Service
QZSS	Quasi-Zenith Satellite System
RAB	Radio access bearer
RACH	Random Access CHannel
RAI	Routing Area Identity
RAT	Radio Access Technology
RB	Radio Bearer
RFE	Routing Functional Entity
RG	Relative Grant
RL	Radio Link
RLC	Radio Link Control
RLS	Radio Link Set
RNC	Radio Network Controller
ROHC	RObust Header Compression
RNTI	Radio Network Temporary Identifier
RRC	Radio Resource Control
RSCP	Received Signal Code Power
RSN	Retransmission Sequence Number
RSRP	Reference Signal Received Power
RSRQ	Reference Signal Received Quality
RSSI	Received Signal Strength Indicator
SAP	Service Access Point
SBAS	Satellite Based Augmentation System
SCFE	Shared Control Function Entity
SCTD	Space Code Transmit Diversity
SCTO	Soft Combining Timing Offset (MBMS)
S-DPCCH	Secondary Dedicated Physical Control Channel
S-E-DPCCH	Secondary E-DPCCH (FDD only)
S-E-DPDCH	Secondary E-DPDCH (FDD only)
SF	Spreading Factor
SG	Serving grant
SHCCH	Shared Control Channel
SI	System Information
SIR	Signal to Interference Ratio
SPS	Semi-Persistent Scheduling
S-RNTI	SRNC - RNTI
SV		Space Vehicle
TDD	Time Division Duplex
TF	Transport Format
TFCS	Transport Format Combination Set
TFS	Transport Format Set
TM	Transparent Mode
TME	Transfer Mode Entity
TMSI	Temporary Mobile Subscriber Identity
Tr	Transparent
TSN	Transmission Sequence Number
Tx	Transmission
UE	User Equipment
UL	Uplink
UM	Unacknowledged Mode
URA	UTRAN Registration Area
U-RNTI	UTRAN-RNTI
USCH	Uplink Shared Channel
UTC	Universal Coordinated Time
UTRAN	Universal Terrestrial Radio Access Network
WAAS	Wide Area Augmentation System
WGS-84	World Geodetic System 1984
WLAN	Wireless Local Area Network
4	General
If not specified differently, descriptions are relevant for both FDD and TDD. Descriptions for TDD only are relevant for both 1.28 Mcps TDD and 3.84 Mcps TDD and 7.68 Mcps TDD if not specified differently.
4.1	Overview of the specification
This specification is organised as follows:
-	subclause 4.2 contains the description of the model of the RRC protocol layer;
-	clause 5 lists the RRC functions and the services provided to upper layers;
-	clause 6 lists the services expected from the lower layers and specifies the radio bearers available for usage by the RRC messages;
-	clause 7 specifies the UE states for the Access Stratum, and also specifies the processes running in the UE in the respective states;
-	clause 8 specifies RRC procedures, including UE state transitions;
-	clause 9 specifies the procedures for the handling of unknown, unforeseen, and erroneous protocol data by the receiving entity;
-	clause 10 describes the message in a Tabular format; these messages descriptions are referenced in clause 8;
-	clause 11 specifies the encoding of the messages of the RRC protocol. This is based on the Tabular description in clause 10.
-	clause 12 specifies the transfer syntax for RRC PDUs derived from the encoding definition;
-	clause 13 lists the protocol timers, counters, constants and variables to be used by the UE;
-	clause 14 specifies some of the processes applicable in UTRA RRC connected mode e.g. measurement processes, and also the RRC information to be transferred between network nodes. Note that not all the processes applicable in UTRA RRC connected mode are specified here i.e. some UTRA RRC connected mode processes are described in [4] e.g. cell re-selection;
-	Annex A contains recommendations about the network parameters to be stored on the USIM;
-	Annex B contains informative Stage 2 description of the RRC protocol states and state transitions.
The following figure summarises the mapping of UE states, including states in GSM and E-UTRA, to the appropriate UTRA, GSM and E-UTRA specifications that specify the UE behaviour.

Figure 4.1-1: Mapping of UE state to 3GPP Specifications
4.2	RRC Layer Model
The functional entities of the RRC layer are described below:
-	Routing of higher layer messages to different MM/CM entities (UE side) or different core network domains (UTRAN side) is handled by the Routing Function Entity (RFE).
-	Broadcast functions are handled in the broadcast control function entity (BCFE). The BCFE is used to deliver the RRC services, which are required at the GC-SAP. The BCFE can use the lower layer services provided by the Tr-SAP and UM-SAP.
-	Paging of UEs that do not have an RRC connection is controlled by the paging and notification control function entity (PNFE). The PNFE is used to deliver the RRC services that are required at the Nt-SAP. The PNFE can use the lower layer services provided by the Tr-SAP and UM-SAP.
-	The Dedicated Control Function Entity (DCFE) handles all functions specific to one UE. The DCFE is used to deliver the RRC services that are required at the DC-SAP and can use lower layer services of UM/AM-SAP and Tr-SAP depending on the message to be sent and on the current UE service state.
-	In TDD mode, the DCFE is assisted by the Shared Control Function Entity (SCFE) location in the C-RNC, which controls the allocation of the PDSCH and PUSCH using lower layers services of UM-SAP and Tr-SAP.
-	The Transfer Mode Entity (TME) handles the mapping between the different entities inside the RRC layer and the SAPs provided by RLC.
NOTE 1:	Logical information exchange is necessary also between the RRC sublayer functional entities. Most of that is implementation dependent and not necessary to present in detail in a specification.
Figure 4.2-1 shows the RRC model for the UE and Figure 4.2-2 and Figure 4.2-3 show the RRC model for the UTRAN.
NOTE 2:	The figure shows only the types of SAPs that are used. Multiple instances of Tr-SAP, UM-SAP and AM-SAP are possible. Especially, different functional entities usually use different instances of SAP types.

Figure 4.2-1: UE side model of RRC

Figure 4.2-2: UTRAN side RRC model (DS-MAP system)

Figure 4.2-3: UTRAN side RRC model (DS-41 System)
4.3	Protocol specification principles
This protocol specification is based on the applicable general guidelines given in [14].
In this specification, a notation of variables is used. The variables are defined in subclause 13.4. Variables are typically used to represent a status or a result of an action, such as reception of an information element in a message, which is used to specify a behaviour somewhere else in the specification, such as when setting the value of an information element in a transmitted message. The variables only serve the purpose of specifying the protocol, and do not therefore impose any particular implementation.
When specifying the UE behaviour at reception of messages, the behaviour that is tied to reception or non-reception of individual information elements, and in some cases combinations of information elements, is specified in one location (subclause 8.6).
5	RRC Functions and Services provided to upper layers
5.1	RRC Functions
The RRC performs the functions listed below. A more detailed description of these functions is provided in [2]:
-	Broadcast of information related to the non-access stratum (Core Network);
-	Broadcast of information related to the access stratum;
-	Establishment, maintenance and release of an RRC connection between the UE and UTRAN;
-	Establishment, reconfiguration and release p-t-p of Radio Bearers;
-	Establishment, reconfiguration and release of p-t-m Radio Bearers;
-	Assignment, reconfiguration and release of radio resources for the RRC connection;
-	RRC connection mobility functions;
-	Control of requested QoS;
-	UE measurement reporting and control of the reporting;
-	Outer loop power control;
-	Control of ciphering;
-	Slow DCA (TDD mode);
-	Paging;
-	Initial cell selection and cell re-selection;
-	Arbitration of radio resources on uplink DCH;
-	RRC message integrity protection;
-	Timing advance (TDD mode);
-	CBS control;
-	MBMS control.
5.2	RRC Services provided to upper layers
The RRC offers the following services to upper layers, a description and primitives of these services are provided in [2] and [17].
-	General Control;
-	Notification;
-	Dedicated control.
The RRC layer provides the UE-UTRAN portion of signalling connections to the upper layers to support the exchange of upper layer's information flow. The signalling connection is used between the user equipment and the core network to transfer upper layer information. For each core network domain, at most one signalling connection may exist at the same time. The RRC layer maps the signalling connections for one UE on a single RRC connection. For the upper layer data transfer on signalling connections, the RRC layer supports the discrimination between two different classes, named "High priority" (corresponding to "SAPI 0" for a GSM-MAP based core network) and "Low priority" (corresponding to "SAPI 3" for a GSM-MAP based core network).
5.3	Primitives between RRC and upper layers
The primitives between RRC and the upper layers are described in [17].
6	Services expected from lower layers
6.1	Services expected from Layer 2
The services provided by layer 2 are described in [2], [15] and [16].
6.2	Services expected from Layer 1
The services provided by layer 1 are described in [2].
6.3	Signalling Radio Bearers
The Radio Bearers (RB) available for transmission of RRC messages are defined as "signalling radio bearers" and are specified in the following. The UE and UTRAN shall select the signalling radio bearers for RRC messages using RLC-TM, RLC-UM or RLC-AM on the DCCH and CCCH, according to the following:
-	Signalling radio bearer RB0 shall be used for all messages sent on the CCCH (UL: RLC-TM, DL: RLC-UM).
-	Signalling radio bearer RB1 shall be used for all messages sent on the DCCH, when using RLC unacknowledged mode (RLC-UM).
-	Signalling radio bearer RB2 shall be used for all messages sent on the DCCH, when using RLC acknowledged mode (RLC-AM), except for the RRC messages carrying higher layer (NAS) signalling and the MEASUREMENT REPORT message carrying the IE "Application layer measurement reporting".
-	Signalling radio bearer RB3 and optionally Signalling radio bearer RB4 shall be used for the RRC messages carrying higher layer (NAS) signalling and sent on the DCCH in RLC acknowledged mode (RLC-AM), as specified in subclauses 8.1.8., 8.1.9 and 8.1.10.
-	Signalling radio bearer RB4 shall be used for UE INFORMATION RESPONSE message and the MEASUREMENT REPORT message carrying the IE "Application layer measurement reporting".
-	Additionally, RBs whose identities shall be set between 5 and 32 may be used as signalling radio bearer for the RRC messages on the DCCH sent in RLC transparent mode (RLC-TM).
-	RRC messages on the SHCCH are mapped either on RACH or on the USCH in the uplink using TM and either on FACH or on the DSCH using RLC-UM. These messages are only specified for TDD mode.
-	RRC messages on the MCCH are mapped on FACH using RLC-UM. The transport channel configuration for MCCH is indicated on BCCH. For this signalling radio bearer no identity is applied.
-	RRC messages on the MSCH are mapped on FACH using RLC-UM. The transport channel configuration for MSCH is indicated on MCCH. For this signalling radio bearer no identity is applied.
The Radio Bearer configuration for signalling radio bearer RB0, SHCCH, BCCH on FACH, PCCH on PCH, BCCH mapped to BCH, RB0 mapped on HS-DSCH (FDD only) and RACH, BCCH mapped on HS-DSCH (FDD and 1.28 Mcps TDD only), PCCH mapped to HS-DSCH (FDD and 1.28 Mcps TDD only) and RB0 mapped on HS-DSCH and common E-DCH (FDD and 1.28 Mcps TDD only) are specified in subclauses 13.6, 13.6a, 13.6b, 13.6c, 13.6e, 13.6f, 13.6g and 13.6h.
Ciphering is never applied to signalling radio bearer RB0 or signalling radio bearers using RLC TM.
7	Protocol states
7.1	Overview of RRC States and State Transitions including GSM and E-UTRA
Figure 7.1-1 shows the RRC states in UTRA RRC Connected Mode, including transitions between UTRA RRC connected mode and GSM connected mode for CS domain services, and between UTRA RRC connected mode and GSM/GPRS packet modes or E-UTRA RRC connected mode for PS domain services. It also shows the transitions between Idle Mode and UTRA RRC Connected Mode and furthermore the transitions within UTRA RRC connected mode. 

Figure 7.1-1: RRC States and State Transitions including GSM and E-UTRA
NOTE:	1: The indicated division within Idle Mode is only included for clarification and shall not be interpreted as states.
NOTE:	Transitions between GSM/GPRS and E-UTRA are not shown.
The RRC connection is defined as a point-to-point bi-directional connection between RRC peer entities in the UE and the UTRAN characterised by the allocation of a U-RNTI. A UE has either zero or one RRC connection.
If NAS informs AS about a new selected PLMN, registered PLMN or equivalent PLMN list while being in connected mode, the UE shall perform the actions according to subclause 8.5.24.
NOTE:	The state transitions are specified in clause 8.
7.2	Processes in UE modes/states
NOTE:	This subclause specifies what processes shall be active in the UE in the different RRC modes/states. The related procedures and the conditions on which they are triggered are specified either in clause 8 or elsewhere in the relevant process definition.
7.2.1	UE Idle mode
UE processes that are active in UE Idle mode are specified in [4].
The UE shall perform a periodic search for higher priority PLMNs as specified in [25], unless the UE is receiving MBMS services via p-t-m radio bearers.
The UE shall store available measurement results as specified in [4], when logged measurement is configured.
The UE shall perform ANR measurements and logging as specified in [4], when logged ANR measurement is configured.
A UE that is capable of receiving MBMS services on cells operating in MBSFN mode as specified in subclause 8.1.1.6.3 is operating in idle mode and acts on RRC messages and system information received from this cell operating in MBSFN mode independently from messages received from cells not operating in MBSFN mode. This implies that procedures executed based on messages and system information received from a cell operating in MBSFN mode shall not interact with messages and system information received from a cell not operating in MBSFN mode unless explicitely specified otherwise.
NOTE 1:	This implies that the UE is operating an independent stack for the reception of MBMS services on cells operating in MBSFN mode as specified in subclause 8.1.1.6.3.
NOTE 2:	For 1.28 Mcps TDD, if the cell is operating in MBSFN mode, system information and MCCH messages are transmitted on the MBSFN Special Timeslot [30].
7.2.2	UTRA RRC Connected mode
In this specification unless otherwise mentioned "connected mode" shall refer to "UTRA RRC connected mode".
7.2.2.1	URA_PCH or CELL_PCH state
In the URA_PCH or CELL_PCH state the UE shall perform the following actions:
NOTE:	For 3.84 Mcps TDD and 7.68 Mcps TDD, neither DCCH nor DTCH are available in these states. 
For FDD and 1.28 Mcps TDD, DCCH and DTCH reception on HS-DSCH may be configured in CELL_PCH state, if the UE supports HS-DSCH reception in CELL_PCH and URA_PCH state. Otherwise, neither DCCH nor DTCH are available in CELL_PCH state. In URA_PCH, neither DCCH nor DTCH are available.
1>	if the UE is "in service area":
2>	maintain up-to-date system information as broadcast by the serving cell as specified in the subclause 8.1.1;
2>	perform cell reselection process as specified in [4];
2>	perform a periodic search for higher priority PLMNs as specified in [25], unless the UE is receiving MBMS services via p-t-m radio bearers;
NOTE:	If the DRX cycle length is 80ms, then a search for higher priority PLMNs may not identify all the available PLMNs due to the paging occasion on the current serving cell coinciding with the MIB of the cell of interest.
2>	for 3.84 Mcps TDD and 7.68 Mcps TDD; or
2>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_PCH and URA_PCH state; or
2>	if the IE "HS-DSCH paging system information" is not included in System Information Block type 5 or System Information Block type 5bis; or
2>	for 1.28 Mcps TDD, if variable H_RNTI or variable C_RNTI is not set, and the IE "PICH info" is included in IE "Secondary CCPCH system information" in System Information Block type 5 or System Information Block type 6:
3>	monitor the paging occasions and PICH monitoring occasions determined according to subclauses 8.6.3.1a, 8.6.3.2 and 8.5.42 and receive paging information on the PCH mapped on the S-CCPCH selected by the UE according to the procedure in subclause 8.5.19;
2>	else:
3>	monitor the paging occasions and PICH monitoring occasions determined according to subclauses 8.6.3.1a, 8.6.3.2 and 8.5.39 and receive PCCH on the HS-DSCH mapped on the HS-PDSCH, or DCCH and DTCH on the HS-DSCH mapped on the HS-PDSCH and the associated HS-SCCH selected by the UE according to the procedure in subclause 8.5.40 for FDD and 8.5.40a for 1.28 Mcps TDD.
2>	act on RRC messages received on PCCH, BCCH, and DCCH (FDD only);
2>	perform measurements process according to measurement control information as specified in subclause 8.4 and in subclause 14.4;
2>	maintain up-to-date BMC data if it supports Cell Broadcast Service (CBS) as specified in [37];
2>	act on RRC messages received on MCCH if it supports MBMS and has activated an MBMS service as specified in subclause 8.7;
2>	run timer T305 for periodical URA update if the UE is in URA_PCH or for periodical cell update if the UE is in CELL_PCH.
2>	store available measurements if logged measurement is configured as specified in [4].
2>	perform ANR measurements and logging as specified in [4], when logged ANR measurement is configured.
1>	if the UE is "out of service area":
2>	perform cell selection process as specified in [4];
2>	run timer T316;
2>	run timer T305 or T307;
2>	if the cell selection process fails to find a suitable cell after a complete scan of all RATs and all frequency bands supported by the UE, the UE shall after a minimum of TimerOutOfService time (default value 30 s) of being "out of service area":
3>	indicate all available PLMNs to NAS to enable the selection of a new PLMN;
3>	if an acceptable cell is found then the UE shall camp on that cell to obtain limited service as defined in [4] and, perform actions according to subclause 8.5.24;
3>	else if no acceptable cell is found, the UE shall continue looking for an acceptable cell as defined in [4].
7.2.2.2	CELL_FACH state
In the CELL_FACH state the UE shall perform the following actions:
NOTE:	DCCH and, if configured, DTCH are available in this state.
1>	if the UE is "in service area":
2>	maintain up-to-date system information as broadcast by the serving cell as specified in subclause 8.1.1;
2>	perform cell reselection process as specified in [4];
2>	perform measurements process according to measurement control information as specified in subclause 8.4 and in subclause 14.4;
2>	run timer T305 (periodical cell update);
2>	select and configure the RB multiplexing options applicable for the transport channels to be used in this RRC state;
2>	store available measurements if logged measurement is configured as specified in [4] when second DRX cycle is used;
2>	for 3.84 Mcps and 7.68 Mcps TDD; or
2>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_FACH state; or
2>	if the IE "HS-DSCH common system information" is not included in System Information Block type 5 or System Information Block type 5bis; or
2>	for 1.28 Mcps TDD, if the IE "common E-DCH system info" is not included in System Information Block type 5:
3>	listen to all FACH transport channels mapped on the S-CCPCH selected by the UE according to the procedure in subclause 8.5.19.
2>	else:
3>	if variable H_RNTI is set:
4>	receive physical channels HS-SCCH(s) using the value of the variable H_RNTI as UE identity and parameters given by the IE(s) "HS-DSCH common system information" according to the procedure in subclause 8.5.36.
3>	else:
4>	if the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE:
5>	receive physical channel(s) of type HS-SCCH with selected common H-RNTI using parameters given by the IE(s) "HS-DSCH common system information" according to the procedure in subclause 8.5.37.
2>	act on RRC messages received on BCCH, CCCH and DCCH;
2>	act on RRC messages received on MCCH if it supports MBMS and has activated an MBMS service as specified in subclause 8.7;
2>	act on RRC messages received on, if available, SHCCH (TDD only).
1>	if the UE is "out of service area":
2>	perform cell selection process as specified in [4];
2>	run timers T305 (periodical cell update), and T317 (cell update when re-entering "in service") or T307 (transition to Idle mode), if started;
2>	run timers T314 and/or T315, if started;
2>	if the cell selection process fails to find a suitable cell after a complete scan of all RATs and all frequency bands supported by the UE, the UE shall after a minimum of TimerOutOfService time (default value 30 seconds) of being "out of service area":
3>	indicate all available PLMNs to NAS to enable the selection of a new PLMN;
3>	if an acceptable cell is found then the UE shall camp on that cell to obtain limited service as defined in [4] and perform actions according to subclause 8.5.24;
3>	else if no acceptable cell is found, the UE shall continue looking for an acceptable cell as defined in [4].
7.2.2.3	CELL_DCH state
In the CELL_DCH state the UE shall perform the following actions:
NOTE:	DCCH and, if configured, DTCH are available in this state.
1>	read the system information as specified in subclause 8.1.1 (for UEs in TDD mode);
1>	perform measurements process according to measurement control information as specified in subclause 8.4 and in clause 14;
1>	select and configure the RB multiplexing options applicable for the transport channels to be used in this RRC state;
1>	act on RRC messages received on DCCH;
1>	act on RRC messages received on BCCH (applicable only to UEs with certain capabilities and in FDD mode);
1>	act on RRC messages received on MCCH if it supports MBMS and has activated an MBMS service as specified in subclause 8.7 (applicable only to UEs supporting MBMS with certain capabilities);
1>	act on RRC messages received on BCCH (TDD only) and, if available, SHCCH (TDD only). 
NOTE:	If any of the above procedures results in different HS-DSCH and E-DCH serving cells, the UE behaviour is unspecified except when Serving E-DCH cell decoupling is configured.

8	RRC procedures
The UE shall be able to process several simultaneous RRC procedures. After the reception of a message which invoked a procedure, the UE shall be prepared to receive and act on another message which may invoke a second procedure. Whether this second invocation of a procedure (transaction) is accepted or rejected by the UE is specified in the subclauses of this clause, and in particular in subclause 8.6.3.11 (RRC transaction identifier).
On receiving a message the UE shall:
1>	check that the message is addressed to the UE (e.g. by checking the IE "Initial UE identity" or the IE "U-RNTI" for messages on CCCH);
1>	discard the messages addressed to other UEs.
and then the UE shall:
1>	apply integrity check as appropriate;
1>	proceed with error handling as specified in clause 9;
1>	act upon the IE "RRC transaction identifier";
1>	continue with the procedure as specified in the relevant subclause.
NOTE:	Due to an error in the Release '99 ASN.1, a Release '99 UE is unable to determine which UE is addressed by a downlink CCCH message corresponding to a protocol version later than Release '99. As a result, the Release '99 UE will not be able to return a protocol error according to subclause 9.3a. Therefore, the UTRAN should only send a Release '99 message version towards UEs that have indicated conformance to Release '99 in the IE "Access stratum release indicator".
The RRC entity in the UE shall consider PDUs to have been transmitted when they are submitted to the lower layers. If the RRC entity in the UE submits a message for transmission using AM RLC, it shall consider the message successfully transmitted when UTRAN reception of all relevant PDUs is acknowledged by RLC. In the UE, timers are started when the PDUs are sent on the radio interface in the case of the transmission using the CCCH.
8.1	RRC Connection Management Procedures
8.1.1	Broadcast of system information

Figure 8.1.1-1: Broadcast of system information

Figure 8.1.1-1a: Broadcast of system information with system information broadcast channel (BCH on PCCPCH) and second system information broadcast channel (BCH on SCCPCH)

Figure 8.1.1-2: Notification of system information modification for UEs in idle mode,
CELL_PCH state and URA_PCH state

Figure 8.1.1-3: Notification of system information modification for UEs in CELL_FACH and CELL_DCH (TDD only) state

Figure 8.1.1-4: Reception of System Information Container
8.1.1.1	General
The purpose of this procedure is to broadcast system information from the UTRAN to UEs in a cell.
8.1.1.1.1	System information structure
The system information elements are broadcast in system information blocks. A system information block groups together system information elements of the same nature. Different system information blocks may have different characteristics, e.g. regarding their repetition rate and the requirements on UEs to re-read the system information blocks.
The system information is organised as a tree. A master information block gives references and scheduling information to a number of system information blocks in a cell. The system information blocks contain the actual system information. The master information block may optionally also contain reference and scheduling information to one, two or three scheduling blocks, which give references and scheduling information for additional system information blocks. Scheduling information for a system information block may only be included in either the master information block or one of the scheduling blocks.
For all system information blocks except System Information Block types 15.2, 15.3 and 16, the content is the same in each occurrence for system information blocks using value tag. System Information Block types 15.2, 15.3 and 16 may occur more than once with different content. In this case scheduling information is provided for each such occurrence of the system information block. System information blocks that do not use value tag may have different content for each occurrence.
8.1.1.1.2	System information blocks
Table 8.1.1 specifies all system information blocks and their characteristics.
The area scope column in table 8.1.1 specifies the area where a system information block's value tag is valid. If the area scope is cell, the UE shall consider the system information block to be valid only in the cell in which it was read. If system information blocks have been previously stored for this cell, the UE shall check whether the value tag for the system information block in the entered cell is different compared to the stored value tag. If the area scope is PLMN or Equivalent PLMN, the UE shall check the value tag for the system information block when a new cell is selected. If the value tag for the system information block in the new cell is different compared to the value tag for the system information block stored in the UE, the UE shall re-read the system information block. If the area scope is PLMN, the UE shall consider the system information block to be valid only within the PLMN in which it was read. If the area scope is Equivalent PLMN, the UE shall consider the system information block to be valid within the PLMN in which it was received and all PLMNs which are indicated by higher layers to be equivalent.
For System information block types 15.2, 15.2bis, 15.2ter, 15.3, 15.3bis and 16, which may have multiple occurrences, each occurrence has its own independent value tag. The UE- shall re-read a particular occurrence if the value tag of this occurrence has changed compared to that stored in the UE.
The UE mode/state column when block is valid in Table 8.1.1 specifies in which UE mode or UE state the IEs in a system information block shall be regarded as valid by the UE. In other words, the indicated system information block becomes invalid upon change to a mode/state that is not included in this column. System Information Block Type 16 remains also valid upon transition to or from GSM/GPRS. In some cases, the states are inserted in brackets to indicate that the validity is dependent on the broadcast of the associated System Information Blocks by the network as explained in the relevant procedure subclause.
The UE mode/state column when block is read in Table 8.1.1 specifies in which UE mode or UE state the IEs in a system information block may be read by the UE. The UE shall have the necessary information prior to execution of any procedure requiring information to be obtained from the appropriate system information block. The requirements on the UE in terms of when to read the system information may therefore be derived from the procedure specifications that specify which IEs are required in the different UE modes/states in conjunction with the different performance requirements that are specified. 
The UE shall:
1>	if variable DEFERRED_MEASUREMENT_STATUS is set to FALSE:
2>	if System Information Block type 11 is referenced in the master information block or in the scheduling blocks:
3>	if System Information Block type 12 is not referenced in the master information block or in the scheduling blocks , or broadcast of System Information Block type 12 is not indicated in System Information Block type 11:
4>	have read and acted upon System Information Block type 11, System Information Block type 11bis and System Information Block type 11ter, if scheduled on BCH, in a cell when the UE transmits an RRC message on RACH. 
3>	else:
4>	have read and acted upon System Information Block type 11, System Information Block type 11bis and System Information Block type 11ter, if scheduled on BCH, in a cell before the UE transmits the RRC CONNECTION REQUEST message;
4>	have read and acted upon both System Information Block type 11, System Information Block type 11bis and System Information Block type 11ter, if scheduled on BCH, and System Information Block type 12 in a cell when:
5>	the UE transmits an RRC message on RACH in RRC connected mode; or
5>	the UE receives a message commanding to enter CELL_DCH state.
1>	else:
2>	the UE may transmit an RRC message on RACH before having read and acted upon System Information Block type 11, System Information Block type 11bis, System Information Block type 11ter, System Information Block type 12, System Information Block type 18 and System Information Block type 19, if scheduled on BCH.
NOTE 1:	There are a number of system information blocks that include the same IEs while the UE mode/state in which the information is valid differs. This approach is intended to allow the use of different IE values in different UE mode/states.
NOTE 2:	System Information Block Type 16 is also obtained by a UE while in GSM/GPRS. The details of this are not within the scope of this specification.
NOTE 3:	When DEFERRED_MEASUREMENT_STATUS variable is set TRUE, the E-UTRA capable UE should read SIB19 before initiating the RRC connection setup procedure except for the case when it is re-directed from E-UTRA.
NOTE 4:	A UE supporting RAN-assisted WLAN interworking may transmit an RRC message before having read and acted upon System Information Block type 23.
The Scheduling information column in table 8.1.1 specifies the position and repetition period for the System Information Block.
The modification of system information column in table 8.1.1 specifies the update mechanisms applicable for a certain system information block. For system information blocks with a value tag, the UE shall update the information according to subclause 8.1.1.7.1 or 8.1.1.7.2. For system information blocks with an expiration timer, the UE shall, when the timer expires, perform an update of the information according to subclause 8.1.1.7.4.
Table 8.1.1: Specification of system information block characteristics
System information block
Area scope
UE mode/state when block is valid
UE mode/state when block is read
Scheduling information
Modification of system information
Additional comment
Master information block
Cell
Idle mode,
CELL_FACH,
CELL_PCH, URA_PCH,
CELL_DCH
(TDD only)
Idle mode,
CELL_FACH,
CELL_PCH, URA_PCH,
CELL_DCH
(TDD only) 
SIB_POS = 0
SIB_REP = 8 (FDD)
 SIB_REP = 8, 16, 32 (TDD)
SIB_OFF=2 
Value tag
See Note 5
Scheduling block 1
Cell
Idle mode,
CELL_FACH,
CELL_PCH, URA_PCH,
CELL_DCH
(TDD only)
Idle mode,
CELL_FACH,
CELL_PCH, URA_PCH,
CELL_DCH
(TDD only)
Specified by the IE "Scheduling information" in MIB
Value tag
See Note 3
Scheduling block 2
Cell
Idle mode,
CELL_FACH,
CELL_PCH, URA_PCH,
CELL_DCH
(TDD only)
Idle mode,
CELL_FACH,
CELL_PCH, URA_PCH,
CELL_DCH
(TDD only)
Specified by the IE "Scheduling information" in MIB
Value tag
See Note 3
Scheduling block 3
Cell
Idle mode,
CELL_FACH,
CELL_PCH, URA_PCH
Idle mode,
CELL_FACH,
CELL_PCH, URA_PCH
Specified by the IE "SB3 information" in MIB 
SIB_POS = 4
SIB_OFF = 2
Value tag
See Note 3
System information block type 1
Cell
Idle mode
CELL_FACH,
CELL_PCH, URA_PCH,
CELL_DCH
Idle, CELL_FACH,
CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
Note: The area scope of SIB1 is Cell but for compliance to earlier versions of the specification the coding of the scheduling information for SIB1 contains the ‘PLMN value tag’ information element.
See Note 3
System information block type 2
Cell
URA_PCH
URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 3
Cell
Idle mode, (CELL_FACH, CELL_PCH, URA_PCH)
Idle mode, (CELL_FACH, CELL_PCH, URA_PCH)
Specified by the IE "Scheduling information"
Value tag
See Note 5
System information block type 4
Cell
CELL_FACH, CELL_PCH, URA_PCH
CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
If System information block type 4 is not broadcast in a cell, the connected mode UE shall apply information in System information block type 3 in connected mode.
See Note 3
System information block type 5 and 5bis
Cell
Idle mode, (CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH (TDD only))
Idle mode, (CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH (TDD only))
Specified by the IE "Scheduling information"
Value tag
System information block type 5bis is sent instead of system information block type 5 in cells that use Band IV or Band IX or Band X.
System information block type 6
Cell
CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH (TDD only)
CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH (TDD only)
Specified by the IE "Scheduling information"
Value tag
If system information block type 6 is not broadcast in a cell, the connected mode UE shall read System information block type 5 or System information block type 5bis.

If some of the optional IEs are not included in System information block type 6, the UE shall read the corresponding IEs in System information block type 5 or System information block type 5bis.

In TDD mode system information block 6 shall only be read in CELL_DCH if required for open loop power control as specified in subclause 8.5.7 and/or if shared transport channels are assigned to the UE. If in these cases system information block type 6 is not broadcast the UE shall read system information block type 5.
See Note 3
System information block type 7
Cell
Idle mode, CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH (TDD only)
Idle mode, CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH (TDD only)
Specified by the IE "Scheduling information"
Expiration timer = MAX(32 , SIB_REP * ExpirationTimeFactor)
In TDD mode system information block type 7 shall only be read in CELL_DCH if shared transport channels are assigned to the UE.
See Note 3
System information block type 11
Cell
Idle mode (CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH)
Idle mode (CELL_FACH, CELL_PCH, URA_PCH)
Specified by the IE "Scheduling information"
Value tag

System information block type 11bis
Cell
Idle mode (CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH)
Idle mode (CELL_FACH, CELL_PCH, URA_PCH)
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 11ter
Cell
Idle mode (CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH)
Idle mode (CELL_FACH, CELL_PCH, URA_PCH)
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 12
Cell
CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH
Idle mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
If system information block type 12 is not broadcast in a cell, the connected mode UE shall read System information block type 11.
If some of the optional IEs are not included in System information block type 12, the UE shall read the corresponding IEs in System information block type 11.
See Note 3
System information block type 13
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 13.1
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 13.2
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 13.3
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 13.4
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 14
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH
Specified by the IE "Scheduling information"
Expiration timer = MAX(32 , SIB_REP * ExpirationTimeFactor)
This system information block is used in 3.84 Mcps TDD and 7.68 Mcps TDD mode only.
System information block type 14 shall only be read in CELL_DCH if required for open loop power control as specified in subclause 8.5.7.
See Note 3
System information block type 15
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 15bis

Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 15.1
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 15.1bis

Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 15.1ter
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 15.2
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
For this system information block there may be multiple occurrences
See Note 3
System information block type 15.2bis
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
For this system information block there may be multiple occurrences
See Note 3
System information block type 15.2ter
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
For this system information block there may be multiple occurrences
See Note 3
System information block type 15.3
PLMN
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
For this system information block there may be multiple occurrences
See Note 3
System information block type 15.3bis
PLMN
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
For this system information block there may be multiple occurrences
See Note 3
System information block type 15.4
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 15.5
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 15.6
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 15.7
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 15.8
Cell
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 16
Equivalent PLMN
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH
Idle Mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
For this system information block there may be multiple occurrences. This system information block is also valid while in GSM/GPRS.
See Note 3
System information block type 17
Cell
CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH
CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH
Specified by the IE "Scheduling information"
Expiration timer = SIB_REP
This system information block is used in TDD mode only.
System information block type 17 shall only be read if shared transport channels are assigned to the UE.
See Note 3
System Information Block type 18
Cell
Idle mode, CELL_FACH, CELL_PCH, URA_PCH, CELL_DCH
Idle mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System Information Block type 19
Cell
Idle mode, CELL_FACH,CELL_PCH, URA_PCH
Idle mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System Information Block type 20
Cell
Idle mode, CELL_PCH, URA_PCH
Idle mode, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System Information Block type 21
Cell
Idle mode, CELL_FACH, CELL_PCH, URA_PCH
Idle mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
If System information block type 21 is broadcast in a cell, the EAB capable UE shall first apply the extended access barring information in System information block type 21. If as a result access to the cell is not barred, and if the UE is not ACDC capable then apply the access class barring information in System information block type 3, otherwise apply the ACDC barring information in System information block type 25.
See Note 3
System information block type 22
Cell
Idle mode, CELL_FACH, CELL_PCH, URA_PCH
Idle mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
If some of the optional IEs are not included in System information block type 22, the UE shall read the corresponding IEs in System information block type 5 or System information block type 5bis.
See Note 3
System information block type 23
Cell
Idle mode, CELL_FACH, CELL_PCH, URA_PCH
Idle mode, CELL_FACH, CELL_PCH, URA_PCH
Specified by the IE "Scheduling information"
Value tag
See Note 3
System information block type 24
Cell
CELL_FACH, CELL_PCH,
URA_PCH 
CELL_FACH, CELL_PCH,
URA_PCH

Specified by the IE "Scheduling information"
Expiration timer = MAX(32 , SIB_REP * 2n) 
where n = Expiration Time Factor 2)
See Note 3
System information block type 25
Cell
Idle mode
Idle mode
Specified by the IE "Scheduling information"
Expiration timer = MAX(32 , SIB_REP * 2n) 
where n = Expiration Time Factor 2)
If System information block type 25 is broadcast in a cell, the ACDC capable UE shall apply the ACDC barring information in System information block type 25.
See Note 3

NOTE 3:	The UE behaviour is unspecified if this system information block is received on a cell operating in MBSFN mode as indicated in subclause 8.1.1.6.3. A network should not send these system information blocks on a cell operating in MBSFN mode.
NOTE 4:	For 1.28 Mcps TDD, if a cell is operating in MBSFN mode, system information blocks are transmitted on the MBSFN Special Timeslot [30].
NOTE 5:	For FDD UEs supporting the Neighbour Cell SI acquisition capability, the UE can read the System Information Block type 3 and the Master Information Block of a neighbouring cell when in CELL_DCH state.
8.1.1.1.3	Segmentation and concatenation of system information blocks
A generic SYSTEM INFORMATION message and SYSTEM INFORMATION 2 message is used to convey the system information blocks on the BCCH. The SYSTEM INFORMATION message is sent on BCH mapped on PCCPCH, and SYSTEM INFORMATION 2 message is sent on BCH mapped on SCCPCH (second system information broadcast channel). A given BCCH may be mapped onto a BCH transport channel according to subclause 8.1.1.1.2. The size of the SYSTEM INFORMATION message, and also the size of SYSTEM INFORMATION 2 message, shall fit the size of a BCH transport block.
The RRC layer in UTRAN performs segmentation and concatenation of encoded system information blocks. If the encoded system information block is larger than the size of a SYSTEM INFORMATION message or SYSTEM INFORMATION 2 message, it will be segmented and transmitted in several messages. If the encoded system information block is smaller than a SYSTEM INFORMATION message or SYSTEM INFORMATION 2 message, UTRAN may concatenate several system information blocks, or the first segment or the last segment into the same message as specified in the remainder of this clause.
Four different segment types are defined:
-	First segment;
-	Subsequent segment;
-	Last segment;
-	Complete.
Each of the types - First, Subsequent and Last segment - is used to transfer segments of a master information block, scheduling block or a system information block. The segment type, Complete, is used to transfer a complete master information block, complete scheduling block or a complete system information block.
Each segment consists of a header and a data field. The data field carries the encoded system information elements. The header contains the following parameters:
-	The number of segments in the system information block (SEG_COUNT). This parameter is only included in the header if the segment type is "First segment".
-	SIB type. The SIB type uniquely identifies the master information block, scheduling block or a system information block.
-	Segment index. This parameter is only included in the header if the segment type is "Subsequent segment" or "Last segment".
UTRAN may combine one or several segments of variable length in the same SYSTEM INFORMATION message or SYSTEM INFORMATION 2 message. The following combinations are allowed:
1.	No segment;
2.	First segment;
3.	Subsequent segment;
4.	Last segment;
5.	Last segment + First segment;
6.	Last segment + one or several Complete;
7.	Last segment + one or several Complete + First segment;
8.	One or several Complete;
9.	One or several Complete + First segment;
10.	One Complete of size 215 to 226 (BCH on PCCPCH) or size 225 to 236 (BCH on SCCPCH);
11.	Last segment of size 215 to 222 (BCH on PCCPCH) or size 225 to 232 (BCH on SCCPCH).
The "No segment" combination is used when there is no master information block, scheduling block or system information block scheduled for a specific BCH transport block.
UEs are not required to support the reception of multiple occurrences of the same system information block type within one SYSTEM INFORMATION message or SYSTEM INFORMATION 2 message.
NOTE:	Since the SIB type is the same for each occurrence of the system information block, the UE does not know the order in which the occurrences, scheduled for this SYSTEM INFORMATION message or SYSTEM INFORMATION 2 message, appear. Therefore, the UE is unable to determine which scheduling information, e.g., value tag relates to which occurrence of the system information block.
8.1.1.1.4	Re-assembly of segments
The RRC layer in the UE shall perform re-assembly of segments. All segments belonging to the same master information block, scheduling block or system information block shall be assembled in ascending order with respect to the segment index. When all segments of the master information block, scheduling block or a system information block have been received, the UE shall perform decoding of the complete master information block, scheduling block or system information block. For System Information Block types 15.2, 15.3 and 16, which may have multiple occurrences, each occurrence shall be re-assembled independently.
The UE shall discard system information blocks of which segments were missing, of which segments were received out of sequence and/or for which duplicate segments were received. The only valid sequence is an ascending one with the sequence starting with the First Segment of the associated System Information Block. Alternatively to the re-assembly in strict ascending order without gaps and duplicates, the UE may also receive segments out of sequence and duplicates, provided that any stored segments are discarded when the value tag for that system information block type has changed. The UE is not required to re-assemble segments received from different system information broadcast channels (i.e. BCH on PCCPCH and BCH on SCCPCH).
If the UE receives a Subsequent segment or Last segment where the index in IE "Segment index" is equal to or larger than the number of segments stated in IE "SEG_COUNT" in the scheduling information for that scheduling block or system information block:
1>	the UE may:
2>	read all the segments to create a system information block as defined by the scheduling information read by the UE;
2>	store the content of the system information block with a value tag set to the value NULL; and
2>	consider the content of the scheduling block or system information block as valid:
3>	until it receives the same type of scheduling block or system information block in a position according to its scheduling information; or
3>	at most for 6 hours after reception.
1>	and the UE shall:
2>	re-read scheduling information for that scheduling block or system information block.
If the UE receives a Subsequent segment or Last segment where the index in IE "Segment index" is equal to or larger than the number of segments stated in IE "SEG_COUNT" in the First segment, the UE shall
1>	discard all segments for that master information block, scheduling block or system information block; and
1>	re-read the scheduling information for that system information block;
1>	then re-read all segments for that system information block.
8.1.1.1.5	Scheduling of system information
Scheduling of system information blocks is performed by the RRC layer in UTRAN. If segmentation is used, it should be possible to schedule each segment separately.
To allow the mixing of system information blocks with short repetition period and system information blocks with segmentation over many frames, UTRAN may multiplex segments from different system information blocks. Multiplexing and de-multiplexing is performed by the RRC layer.
The scheduling of each system information block broadcast on a BCH transport channel is defined by the following parameters:
-	the number of segments (SEG_COUNT);
-	the repetition period (SIB_REP). The same value applies to all segments;
-	the position (phase) of the first segment within one cycle of the Cell System Frame Number (SIB_POS(0)). Since system information blocks are repeated with period SIB_REP, the value of SIB_POS(i), i = 0, 1, 2, … SEG_COUNT-1 must be less than SIB_REP for all segments;
-	the offset of the subsequent segments in ascending index order (SIB_OFF(i), i = 1, 2, … SEG_COUNT-1)	
The position of the subsequent segments is calculated using the following: SIB_POS(i) = SIB_POS(i-1) + SIB_OFF(i).
The scheduling is based on the Cell System Frame Number (SFN). The SFN of a frame at which a particular segment, i, with i = 0, 1, 2, … SEG_COUNT-1 of a system information block occurs, fulfils the following relation:
	SFN mod SIB_REP = SIB_POS(i)
In FDD and TDD the scheduling of the master information block is fixed as defined in table 8.1.1. For TDD, UTRAN may apply one of the values allowed for the master information block's repetition period. The value that UTRAN is using in TDD is not signalled; UEs have to determine it by trial and error.
For scheduling block 3 (SB3) on the second system information broadcast channel:
-	SIB_POS(0) is 4;
-	SIB_OFF(i) is 2 (i = 1, 2, … SEG_COUNT-1), i.e. segments are transmitted consecutively. 
The number of segments (SEG_COUNT) and repetition period (SIB_REP) of SB3 are signalled in IE "SB3 information" in Master Information Block. 
In case the UE stores scheduling information in the variable SYSTEM_INFORMATION_CONTAINER, the information above is not used.
8.1.1.2	Initiation
The system information is continuously broadcast on a regular basis in accordance with the scheduling defined for each system information block.
8.1.1.3	Reception of SYSTEM INFORMATION messages by the UE
The UE shall read SYSTEM INFORMATION messages broadcast on a BCH transport channel in idle mode and in the connected mode in states CELL_FACH, CELL_PCH, URA_PCH and CELL_DCH (TDD only).
If the IE "SB3 information" is present in the Master Information Block and the UE supports second system information broadcast channel, the UE shall read SYSTEM INFORMATION 2 messages broadcast on a BCH transport channel in idle mode and in connected mode in states CELL_FACH, CELL_PCH and URA_PCH.
In idle mode and connected mode different combinations of system information blocks are valid. The UE shall acquire the system information blocks that are needed according to table 8.1.1. However, when the variable READY_FOR_COMMON_EDCH is set to TRUE and IE "UL interference for common E-DCH" is included in SIB 5/5bis, the UE shall acquire the system information block 7 upon entering a new cell and shall consider the content of the system information block 7 as always valid and ingore any system information expiry timer.
The UE may store system information blocks with cell, PLMN or Equivalent PLMN area scope (including their value tag if applicable) for different cells and different PLMNs, to be used if the UE returns to these cells.
The UE shall consider all stored system information blocks as invalid after it has been switched off. Some information obtained from system information may be stored by the UE or in the USIM for use in a stored information cell selection.
When selecting a new cell the UE shall consider all current system information blocks with area scope cell to be invalid. If the UE has stored valid system information blocks for the newly selected cell, the UE may set those as current system information blocks.
After selecting a new cell and this cell broadcasts an IE "PLMN Identity" in the MIB which is different from the IE "PLMN Identity" broadcast in the MIB in the previously selected cell, the UE shall consider all current system information blocks with area scope PLMN to be invalid. If the UE has previously stored valid system information blocks for the selected cell of the new PLMN, the UE may set those as current system information blocks.
When NAS informs AS about a new selected PLMN, the UE shall consider all stored system information blocks with area scope Equivalent PLMN to be invalid.
8.1.1.4	Void

8.1.1.5	Actions upon reception of the Master Information Block and Scheduling Block(s)
When selecting a new cell, the UE shall read the master information block. The UE may use the pre-defined scheduling information to locate the master information block in the cell.
Upon reception of the master information block, the UE shall:
1>	if the IE "Multiple PLMN List" is not present in the Master Information Block:
2>	consider the IE "PLMN identity" in the Master Information Block as the PLMN identity of the cell.
1>	else:
2>	consider the PLMN identities in the IE "Multiple PLMN List" as the PLMN identities of the cell;
2>	when reading the "Multiple PLMN List", read all the PLMN identities in the list as follows:
3>	if the IE "MIB PLMN Identity" is set to TRUE:
4>	read the "PLMN identity" IE in the MIB and consider it as a part of the "Multiple PLMN List".
3>	if the IE "MIB PLMN Identity" is set to FALSE:
4>	not consider the "PLMN identity" IE in the MIB as a part of the "Multiple PLMN List";
4>	not consider the IE "PLMN identity" in the MIB as a PLMN identity of the cell;
4>	not forward the PLMN in the IE "PLMN identity" of the MIB to upper layers.
3>	if the MCC is not present when reading a IE "PLMN identity with Optional MCC" in the IE "Multiple PLMN List":
4>	set the MCC of this PLMN identity equal to the MCC of the closest preceding "PLMN identity with Optional MCC" in the "Multiple PLMN List" that includes an MCC;
4>	or, if no such "PLMN identity with Optional MCC" exists, the UE shall set the MCC of this PLMN identity to the MCC of the "PLMN identity" IE in the Master Information Block irrespective of the value of the IE "MIB PLMN Identity".
1>	if the UE is operating in "ANSI-41 mode" and the IE "PLMN Type" has the value "ANSI-41" or "GSM-MAP and ANSI-41":
2>	store the ANSI-41 Information elements contained in the master information block and perform initial process for ANSI-41.
1>	compare the value tag in the master information block with the value tag stored for this cell and this PLMN in the variable VALUE_TAG;
1>	if the value tags differ, or if no IEs for the master information block are stored:
2>	store the value tag into the variable VALUE_TAG for the master information block;
2>	read and store scheduling information included in the master information block.
1>	if the value tags are the same the UE may use stored system information blocks and scheduling blocks using value tag that were stored for this cell and this PLMN as valid system information;
1>	if the IE "SB3 information" is present in the Master Information Block and the UE supports second system information broadcast channel:
2>	configure the second system information broadcast channel with the signalled channelization code value;
2>	acquire Scheduling Block 3 (SB3) on the second system information broadcast channel.
For all system information blocks or scheduling blocks (SB1, SB2 or SB3) that are supported by the UE referenced in the master information block or the scheduling blocks, the UE shall perform the following actions:
1>	for all system information blocks with area scope "PLMN" or "Equivalent PLMN" that use value tags:
2>	compare the value tag read in scheduling information for that system information block with the value stored within the variable VALUE_TAG for that system information block;
2>	if the value tags differ, or if no IEs for the corresponding system information block are stored:
3>	store the value tag read in scheduling information for that system information block into the variable VALUE_TAG;
3>	read and store the IEs of that system information block.
2>	if the value tags are the same the UE may use stored system information blocks using value tag that were stored in this PLMN as valid system information.
1>	for all system information blocks or scheduling blocks with area scope cell that use value tags:
2>	compare the value tag read in scheduling information for that system information block or scheduling block with the value stored within the variable VALUE_TAG for that system information block or scheduling block;
2>	if the value tags differ, or if no IEs for the corresponding system information block or scheduling block are stored:
3>	store the value tag read in scheduling information for that system information block or scheduling block into the variable VALUE_TAG;
3>	read and store the IEs of that system information block or scheduling block.
2>	if the value tags are the same the UE may use stored system information blocks using value tags that were stored for this cell and this PLMN as valid system information;
2>	for any of System Information Block type 11, System Information Block type 11bis, System Information Block type 11ter or System Information Block type 12, for FDD:
3>	if the value tag read in scheduling information for the system information block differs with the value stored within the variable VALUE_TAG for that system information block; and
3>	if the UE is reading the system information block as a result of receiving the IE "BCCH modification info":
4>	clear the stored IE "Common E-RGCH info FDD", if any;
4>	determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75.
1>	for system information blocks which may have multiple occurrences:
2>	compare the value tag and the configuration or multiple occurrence identity for the occurrence of the system information blocks read in scheduling information with the value tag and configuration or multiple occurrence identity stored within the variable VALUE_TAG:
3>	if the value tags differ, or if no IEs from the occurrence with that configuration or multiple occurrence identity of the system information block are stored:
4>	store the value tag read in scheduling information for that system information block and the occurrence with that configuration or multiple occurrence identity into the variable VALUE_TAG;
4>	read and store the IEs of that system information block.
3>	if the value tags and the configuration or multiple occurrence identity are identical to those stored, the UE may use stored occurrences of system information blocks that were stored for this cell and this PLMN as valid system information.
Upon reception of the master information block or scheduling blocks, the UE shall:
1>	if the variable BCCH_MODIFICATION_ACCESS_PROHIBITION is set to TRUE:
2>	if the value tag of the Master Information Block in the system information is different from the value tag stored in the variable VALUE_TAG; and
2>	the scheduling information of system information block type 3 is present in the master information block and the value tags for system information block type 3 in the master information block are the same:
3>	set the variable BCCH_MODIFICATION_ACCESS_PROHIBITION to FALSE and allow the access on the cell according to 8.1.8.2.
2>	else if the scheduling information of system information block type 3 is present in any of the scheduling blocks:
3>	if the value tags for system information block type 3 in any of the scheduling blocks received after the MIB value tag change are the same:
4>	set the variable BCCH_MODIFICATION_ACCESS_PROHIBITION to FALSE and allow the access on the cell according to 8.1.8.2.
For system information blocks, not supported by the UE, but referenced either in the master information block or in the scheduling blocks, the UE may:
1>	skip reading this system information block;
1>	skip monitoring changes to this system information block.
If the UE:
1>	receives a scheduling block at a position different from its position according to the scheduling information for the scheduling block; or
1>	receives a scheduling block for which scheduling information has not been received:
the UE may:
1>	store the content of the scheduling block with a value tag set to the value NULL; and
1>	consider the content of the scheduling block as valid until it receives the same type of scheduling block in a position according to its scheduling information or at most for 6 hours after reception.
If the UE does not find a scheduling block in a position where it should be according to its scheduling information, but a transport block with correct CRC was found at that position, the UE shall:
1>	read the scheduling information for this scheduling block.
If the UE does not find the master information block in a position fulfilling:
	SFN mod 32 = 0
but a transport block with correct CRC was found at that position, the UE shall:
1>	consider the master information block as not found; and
1>	consider the cell to be barred according to [4]; and
1>	consider the barred cell as using the value "allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
NOTE:	This permits a different repetition for the MIB in later versions for FDD. In TDD it allows for a variable SIB_REP in this and future releases.
If the cell is not operating in MBSFN mode (according to Section 8.1.1.6.3) then:
1>	If system information block type 1 is not scheduled on BCH, and system information block type 13 is not scheduled on BCH, the UE shall:
2>	consider the cell to be barred according to [4]; and
2>	consider the barred cell as using the value "allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
1>	If the UE only supports GSM-MAP but finds a cell that broadcasts System Information Block type 13 but not System Information Block type 1, the UE shall:
2>	consider the cell barred.
1>	If system information block type 1 is not scheduled on BCH; and
1>	if the UE is operating in "GSM-MAP mode"; and
1>	if the IE "PLMN type" in the Master Information Block has the value "GSM-MAP" or "GSM-MAP and ANSI-41", the UE shall:
2>	indicate to upper layers that no CN system information is available.
1>	If in idle mode and System Information Block type 3 is not scheduled on BCH, the UE shall:
2>	consider the cell to be barred according to [4]; and
2>	consider the barred cell as using the value "allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
1>	If in connected mode and System Information Block type 3 is not scheduled on BCH, and System Information Block type 4 is not scheduled on BCH, the UE shall:
2>	consider the cell to be barred according to [4]; and
2>	consider the barred cell as using the value "allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
1>	If in idle mode and neither System Information Block type 5 nor type 5bis is scheduled on BCH, or System Information Block type 5 or type 5bis is scheduled but IE "AICH info" (FDD) or IE "PICH info" is not present, the UE shall:
2>	consider the cell to be barred according to [4]; and
2>	consider the barred cell as using the value "allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
1>	If in connected mode and neither System Information Block type 5 nor type 5bis is scheduled on BCH, and System Information Block type 6 is not scheduled on BCH, or any of System Information Block type 5, type 5bis or type 6 is scheduled but IE "AICH info" (FDD) or IE "PICH info" is not present, the UE shall:
2>	consider the cell to be barred according to [4]; and
2>	consider the barred cell as using the value "allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
1>	If System Information Block type 7 is not scheduled on BCH, the UE shall:
2>	consider the cell to be barred according to [4]; and
2>	consider the barred cell as using the value "allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
1>	In 3.84 Mcps TDD and 7.68 Mcps TDD, if System Information Block type 14 is not scheduled on BCH, the UE shall:
2>	consider the cell to be barred according to [4]; and
2>	consider the barred cell as using the value "allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
If the cell is operating in MBSFN mode (according to section 8.1.1.6.3) then:
1>	If neither System Information block type 5 nor System Information Block type 5bis is scheduled on the BCH the UE shall:
2>	not consider this MBSFN cluster as candidate during the MBSFN cluster selection and MBSFN cluster re-selection procedures [4]. The UE may choose to not recheck the status of this MBSFN cluster during the time corresponding to the maximum value for Tbarred.
1>	If System Information Block type 11 is not scheduled on the BCH the UE shall:
2> 	not consider this MBSFN cluster as candidate during the MBSFN cluster selection and MBSFN cluster re-selection procedures [4]. The UE may choose to not recheck the status of this MBSFN cluster during the time corresponding to the maximum value for Tbarred.
If System Information Block type 5 and System Information Block type 5bis are both scheduled on BCH:
1>	the UE behaviour is unspecified.
8.1.1.6	Actions upon reception of system information blocks
The UE may use the scheduling information included within the master information block and the scheduling blocks to locate each system information block to be acquired. For System Information Block type 15.1bis, 15.2bis, 15.2ter, 15.3bis, 15.6, 15.7 and 15.8 the scheduling information shall be used to associate a system information block with a GNSS.
The UE should only expect one occurrence of the scheduling information for a system information block in the master information block and any of the scheduling blocks except for System Information Block type 16, System Information Block type 15.2 and System Information Block type 15.3, which may have multiple occurrences. System Information Blocks 15.1bis, 15.6, 15.7 and 15.8 have one occurrence for each GANSS supported while System Information Blocks 15.2bis, 15.2ter and 15.3bis may have multiple occurrences for each GANSS. However, to enable future introduction of new system information blocks, the UE shall also be able to receive system information blocks other than the ones indicated within the scheduling information. The UE may ignore contents of such system information block.
If the UE:
1>	receives a system information block in a position according to the scheduling information for the system information block; and
1>	this system information block uses a value tag; or
1>	this system information block uses a value tag and configuration or multiple occurrence identity:
the UE shall:
1>	store the content of the system information block together with the value of its value tag or the values of configuration and multiple occurrence identity and the associated value tag in the scheduling information for the system information block; and
1>	consider the content of the system information block valid until, if used, the value tag in the scheduling information for the system information block is changed or at most for 6 hours after reception.
If the UE:
1>	receives a system information block in a position according to the scheduling information for the system information block; and
1>	this system information block does not use a value tag according to the system information block type:
the UE shall:
1>	store the content of the system information block;
1>	if HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE and if the system information block corresponds to System Information Block type 7; or
1>	if HS_DSCH_DRX_CELL_FACH_STATUS is set to TRUE and if the system information block corresponds to System Information Block type 7; or
1>	if HS_SCCH_DRX_CELL_FACH_STATUS is set to TRUE and if the system information block corresponds to System Information Block type 7:
2>	start an expiration timer using a value set to 800.
1>	else:
2>	start an expiration timer using a value as defined in Table 8.1.1 for that system information block type.
1>	consider the content of the system information block valid until, the expiration timer expires.
If the UE:
1>	receives a system information block at a position different from its position according to the scheduling information for the system information block; or
1>	receives a system information block for which scheduling information has not been received; and
1>	this system information block uses a value tag:
the UE may:
1>	store the content of the system information block with a value tag set to the value NULL; and
1>	consider the content of the system information block as valid until it receives the same type of system information block in a position according to its scheduling information or at most for 6 hours after reception.
If the UE:
1>	receives a system information block with multiple occurrences at a position different from its position according to the scheduling information for the system information block; or
1>	receives a system information block with multiple occurrences for which scheduling information has not been received; and
1>	this system information block uses a value tag and configuration or multiple occurrence identity:
the UE shall:
1>	ignore this information.
If the UE does not find a system information block in a position where it should be according to its scheduling information, but a transport block with correct CRC was found at that position, the UE shall read the scheduling information for this system information block.
The UE shall act upon all received information elements as specified in subclause 8.6 unless specified otherwise in the following subclauses.
The UE behaviour is unspecified when the same system information block type with different content is transmitted on both BCH on PCCPCH (system information broadcast channel) and BCH on SCCPCH (second system information broadcast channel).
8.1.1.6.1	System Information Block type 1
The UE should store all relevant IEs included in this system information block if the UE is operating in "GSM-MAP mode" and the IE "PLMN type" in the Master Information Block has the value "GSM-MAP" or "GSM-MAP and ANSI-41". The UE shall also:
1>	check that the cell, according to information included in IE "CN common GSM-MAP NAS system information", is suitable [4];
1>	if in connected mode:
2>	not forward the content of the IE "CN common GSM-MAP NAS system information" to upper layers.
1>	if in idle mode:
2>	forward the content of the IE "CN common GSM-MAP NAS system information" to upper layers.
1>	for the IE "CN domain system information list":
2>	for each IE "CN domain system information" that is present:
3>	check that the cell, according to information included in IE "CN domain specific NAS system information", is suitable [4];
3>	if in connected mode:
4>	not forward the content of the IE "CN domain specific NAS system information" to upper layers.
3>	if in idle mode:
4>	forward the content of the IE "CN domain specific NAS system information" and the IE "CN domain identity" to upper layers;
4>	use the IE "CN domain specific DRX cycle length coefficient" to calculate frame number for the Paging Occasions as specified in [4];
4>	store the value of the IE "CN domain specific DRX cycle length coefficient" for use in connected mode.
2>	if an IE "CN domain system information" is not present for a particular CN domain:
3>	if in idle mode:
4>	indicate to upper layers that no CN system information is available for that CN domain.
1>	if the UE has not yet entered UTRA RRC connected mode:
2>	store the values of the IE "UE Timers and constants in connected mode" in the variable TIMERS_AND_CONSTANTS;
2>	if the IE "T323" is not present:
3>	clear any value of the timer T323 stored in the IE "UE Timers and constants in connected mode" in the variable TIMERS_AND_CONSTANTS.
1>	use the values stored in the variable TIMERS_AND_CONSTANTS for the relevant timers and constants.
8.1.1.6.2	System Information Block type 2
If in connected mode the UE should store all relevant IEs included in this system information block. The UE shall:
1>	if in state URA_PCH, start to perform URA updates using the information in the IE "URA identity".
If in idle mode, the UE shall not use the values of the IEs in this system information block.
8.1.1.6.3	System Information Block type 3
The UE should store all relevant IEs included in this system information block. The UE shall:
1>	if in connected mode, and System Information Block 4 is indicated as used in the cell:
2>	read and act on information sent in that block.
1>	if IE "Deferred measurement control reading support" is present:
2>	set variable DEFERRED_MEASUREMENT_STATUS to TRUE.
1>	else:
2>	set variable DEFERRED_MEASUREMENT_STATUS to FALSE.
With respect to Domain Specific Access Control and Paging Permission with Access Control, the UE shall:
1>	if the IE "Multiple PLMN List" is not included in the Master Information Block:
2>	apply the domain specific access restrictions as indicated by the IE "Domain Specific Access Restriction Parameters For PLMN Of MIB", and the paging permission with access control as indicated by the IE "Paging Permission with Access Control Parameters for PLMN Of MIB".
1>	else:
2>	if the PLMN specified by the IE "PLMN Identity" of the Master Information Block is chosen by the UE:
3>	apply the domain specific access restrictions as indicated by the IE "Domain Specific Access Restriction Parameters For PLMN Of MIB", and the paging permission with access control as indicated by the IE "Paging Permission with Access Control Parameters for PLMN Of MIB".
2>	else, if N-th (N=1..5) PLMN in the IE "Multiple PLMNs" contained in the IE "Multiple PLMN List" is chosen by the UE:
3>	if the IE "Domain Specific Access Restriction List" of the IE "Domain Specific Access Restriction For Shared Network" is indicated:
4>	if the IE "Domain Specific Access Restriction Parameters For OperatorN" is indicated:
5>	apply the domain specific access restrictions as indicated by the IE "Domain Specific Access Restriction Parameters For OperatorN".
3>	else:
4>	if the IE "Domain Specific Access Restriction Parameters For All" of the IE "Domain Specific Access Restriction For Shared Network" is indicated:
5>	apply the domain specific access restrictions as indicated by the IE "Domain Specific Access Restriction Parameters For All".
3>	if the IE "Paging Permission with Access Control List" of the IE "Paging Permission with Access Control For Shared Network" is indicated:
4>	if the IE "Paging Permission with Access Control Parameters For OperatorN" is indicated:
5>	apply the paging permission with access control as indicated by the IE "Paging Permission with Access Control Parameters For OperatorN".
3>	else:
4>	if the IE "Paging Permission with Access Control Parameters For All" of the IE "Paging Permission with Access Control For Shared Network" is indicated:
5>	apply the paging permission with access control as indicated by the IE "Paging Permission with Access Control Parameters For All".
The UE shall apply the following handling with respect to any Access Class Barring information:
1>	if in idle mode:
2>	if the IE "Paging Permission with Access Control Parameters For PLMN Of MIB", the IE "Paging Permission with Access Control Parameters For OperatorN" or the IE "Paging Permission with Access Control Parameters For All" to be applied according to the requirements above is included in System Information Block Type 3, the UE shall:
3>	if Paging Response Restriction Indication is set to "None":
4>	when sending a response to any PAGING TYPE 1 message, Paging message specified in [67] or CS SERVICE NOTIFICATION message specified in [79], act as if no Access Class is barred in the IE "Access Class Barred List" as specified in [4].
3>	if Paging Response Restriction Indication is set to "PS":
4>	when sending a response to any PAGING TYPE 1 message, Paging message specified in [67] from CS domain or CS SERVICE NOTIFICATION message specified in [79], act as if no Access Class is barred in the IE "Access Class Barred List" as specified in [4];
4>	when sending a response to any PAGING TYPE 1 message, Paging message specified in [67] from PS domain, act on the IE "Domain Specific Access Class Barred List" if indicated in the IE "PS Domain Specific Access Restriction" (or IE "Access Class Barred list" if IE "Domain Specific Access Class Barred List" is not present) as specified in [4].
3>	if Paging Response Restriction Indication is set to "CS":
4>	when sending a response to any PAGING TYPE 1 message, Paging message specified in [67] from PS domain, act as if no Access Class is barred in the IE "Access Class Barred List" as specified in [4];
4>	when sending a response to any PAGING TYPE 1 message, Paging message specified in [67] from CS domain or CS SERVICE NOTIFICATION message specified in [79], act on the IE "Domain Specific Access Class Barred List" if indicated in the IE "CS Domain Specific Access Restriction" (or IE "Access Class Barred list" if IE "Domain Specific Access Class Barred List" is not present) as specified in [4].
3>	else (if Paging Response Restriction Indication is set to "All"):
4>	when sending a response to any PAGING TYPE 1 message, Paging message specified in [67] from CS domain or CS SERVICE NOTIFICATION message specified in [79], act on the IE "Domain Specific Access Class Barred List" if indicated in the IE "CS Domain Specific Access Restriction" as specified in [4];
4>	when sending a response to any PAGING TYPE 1 message, Paging message specified in [67] from PS domain, act on the IE "Domain Specific Access Class Barred List" if indicated in the IE "PS Domain Specific Access Restriction" as specified in [4];
4>	when sending a response to any PAGING TYPE 1 message, Paging message specified in [67] or CS SERVICE NOTIFICATION message specified in [79] from PS or CS domain, act on the IE "Access Class Barred list" if the IE "Domain Specific Access Class Barred List" is not present.
3>	when initiating a Location/Registration procedure to CS domain, act on the IE "Location/Registration Access Class Barred List" if the IE "Location/Registration Restriction Indicator" is set to "All" or "CS", as specified in [4];
3>	when initiating an access to CS domain for any other reason, act on the IE "Domain Specific Access Class Barred List" if indicated in the IE "CS Domain Specific Access Restriction" (or IE "Access Class Barred list" if IE "Domain Specific Access Class Barred List" is not present) as specified in [4];
3>	when initiating a Location/Registration procedure to PS domain, act on the IE "Location/Registration Access Class Barred List" if the IE "Location/Registration Restriction Indicator" is set to "All" or "PS", as specified in [4];
3>	when initiating an access to PS domain for any other reason, act on the IE "Domain Specific Access Class Barred List" if indicated in the IE "PS Domain Specific Access Restriction" (or IE "Access Class Barred list" if IE "Domain Specific Access Class Barred List" is not present) as specified in [4];
3>	upon transition to UTRA RRC connected, the UE shall:
4>	store that Paging Permission with Access Control Parameters to the variable "PPAC_PARAM" and maintain the variable until it is cleared, the PLMN chosen by the UE is changed or the RRC connection is released;
4>	if the IE "Domain Specific Access Restriction Parameters For PLMN Of MIB", the IE "Domain Specific Access Restriction Parameters For OperatorN" or the IE "Domain Specific Access Restriction Parameters For All" to be applied according to the requirements above is included in System Information Block Type 3:
5>	store that Domain Specific Access Restriction Parameters to the variable "DSAC_PARAM" and maintain the variable until it is cleared, the PLMN chosen by the UE is changed or the RRC connection is released.
4>	act on the stored IE "Paging Response Restriction Indicator" when sending a response to any PAGING TYPE 1 or PAGING TYPE 2 message, Paging message specified in [67] or CS SERVICE NOTIFICATION message specified in [79];
4>	act on the stored IE "Location/Registration Access Class Barred List" if the IE "Location/Registration Restriction Indicator" is set to "All" or "CS", when initiating a Location/Registration procedure to the CS domain, as specified in [4];
4>	act on the stored IE "Location/Registration Access Class Barred List" if the IE "Location/Registration Restriction Indicator" is set to "All" or "PS", when initiating a Location/Registration procedure to the PS domain, as specified in [4];
4>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "CS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the CS domain for any other reason, as specified in [4];
4>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "PS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the PS domain, for any other reason ,as specified in [4].
2>	if neither the IE "Paging Permission with Access Control Parameters For PLMN Of MIB", the IE "Paging Permission with Access Control Parameters For OperatorN" nor the IE "Paging Permission with Access Control Parameters For All" to be applied according to the requirements above is included in System Information Block Type 3:
3>	if the IE "Domain Specific Access Restriction Parameters For PLMN Of MIB", the IE "Domain Specific Access Restriction Parameters For OperatorN" or the IE "Domain Specific Access Restriction Parameters For All" to be applied according to the requirements above is included in System Information Block Type 3 the UE shall:
4>	act on the IE "Domain Specific Access Class Barred List" if indicated in the IE "CS Domain Specific Access Restriction" when initiating RRC Connection establishment to send an INITIAL DIRECT TRANSFER message to the CS domain, as specified in [4]. If "no restriction" was indicated in restriction status, the UE shall act as if no Access Class is barred in the IE "Domain Specific Access Class Barred List", and ignore the IE "Access Class Barred List" in the IE "Cell Access Restriction";
4>	act on the IE "Domain Specific Access Class Barred List" if indicated in the IE "PS Domain Specific Access Restriction" when initiating RRC Connection establishment to send an INITIAL DIRECT TRANSFER message to the PS domain, as specified in [4]. If "no restriction" was indicated in restriction status, the UE shall act as if no Access Class is barred in the IE "Domain Specific Access Class Barred List", and ignore the IE "Access Class Barred List" in the IE "Cell Access Restriction";
4>	upon transition to UTRA RRC connected, the UE shall:
5>	store that Domain Specific Access Restriction Parameters to the variable "DSAC_PARAM" and maintain the variable until it is cleared, the PLMN chosen by the UE is changed or the RRC connection is released;
5>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "CS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the CS domain, as specified in [4];
5>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "PS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the PS domain, as specified in [4].
3>	else:
4>	act on the IE "Access Class Barred list" when initiating RRC Connection establishment as specified in [4].
1>	if in connected mode:
2>	for the variable "DSAC_PARAM":
3>	if the IE "Domain Specific Access Restriction Parameters For PLMN Of MIB", the IE "Domain Specific Access Restriction Parameters For OperatorN" or the IE "Domain Specific Access Restriction Parameters For All" to be applied according to the requirements above is included in the System Information Block Type 3:
4>	if the variable "DSAC_PARAM is not set, the UE shall:
5>	store that Domain Specific Access Restriction Parameters to the variable "DSAC_PARAM" and maintain the variable until it is cleared, the PLMN chosen by the UE is changed or the RRC connection is released.
4>	else (the access class barring information is stored) UE shall:
5>	update the variable "DSAC_PARAM" with that Domain Specific Access Restriction Parameters.
3>	else:
4>	if the variable "DSAC_PARAM" is set, the UE shall:
5>	clear the variable "DSAC_PARAM".
2>	for the variable "PPAC_PARAM":
3>	if the IE "Paging Permission with Access Control Parameters For PLMN Of MIB", the IE "Paging Permission with Access Control Parameters For OperatorN" or the IE "Paging Permission with Access Control Parameters For All" to be applied according to the requirements above is included in the System Information Block Type 3:
4>	if the variable "PPAC_PARAM" is not set, the UE shall:
5>	store that Paging Permission with Access Control Parameters to the variable "PPAC_PARAM" and maintain the variable until it is cleared, the PLMN chosen by the UE is changed or the RRC connection is released.
4>	else (the access class barring information is stored) UE shall:
5>	update the variable "PPAC_PARAM" with that Paging Permission with Access Control Parameters.
3>	else:
4>	if the variable "PPAC_PARAM" is set, the UE shall:
5>	clear the variable "PPAC_PARAM".
2>	the UE shall:
3>	if the variable "DSAC_PARAM" is set:
4>	if the variable "PPAC_PARAM" is set:
5>	act on the stored IE "Paging Response Restriction Indicator" when sending a response to any PAGING TYPE 1 or PAGING TYPE 2 message, Paging message specified in [67] or CS SERVICE NOTIFICATION message specified in [79]; 
5>	act on the stored IE "Location/Registration Access Class Barred List" if the IE "Location/Registration Restriction Indicator" is set to "All" or "CS", when initiating a Location/Registration procedure to the CS domain, as specified in [4];
5>	act on the stored IE "Location/Registration Access Class Barred List" if the IE "Location/Registration Restriction Indicator" is set to "All" or "PS", when initiating a Location/Registration procedure to the PS domain, as specified in [4];
5>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "CS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the CS domain for any other reason, as specified in [4];
5>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "PS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the PS domain, for any other reason ,as specified in [4].
4>	if the variable "PPAC_PARAM" is not set:
5>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "CS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the CS domain, as specified in [4];
5>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "PS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the PS domain, as specified in [4].
3>	else:
4>	act as if no Access Class is barred.
With respect to "CSG Identity" IE, the UE shall:
1>	if the IE "CSG Identity" is present:
2>	forward the content of IE "CSG Identity" to the upper layers.
If the IE "MBSFN only service" is set to TRUE the UE shall:
1>	consider this cell to operate in MBSFN mode;
1>	for TDD consider that all slots operate in MBSFN mode;
1>	for FDD, 3.84 Mcps TDD IMB and 3.84/7.68 Mcps TDD if the UE capabilities allow the reception of MBSFN in addition to the normal UE operation the UE may receive MBMS services from this cell in accordance with requirements for selection of a cell providing only MBSFN as specified in [4]. For 1.28 Mcps TDD, if the UE capabilities allow the reception of MBSFN in addition to the normal UE operation the UE may get synchronized to the MBSFN cluster as specified in [4].
With respect to "IMS Emergency Support Indicator" IE, the UE shall:
1>	if the IE "IMS Emergency Support Indicator" is present:
2>	forward the content of IE "IMS Emergency Support Indicator" to the upper layers.
For 1.28Mcps TDD, if the IE "Mapping Info" is present and the mapping info for 3.84 Mcps TDD is included, UE shall:
1>	acquire and store the TDD frequencies and PCCPCH RSCP threshold information in the variable CELL_RESELECTION_INFO_LCRTDD for cell reselection from GERAN to 1.28Mcps TDD.
else
1>	clear the variable CELL_RESELECTION_INFO_LCRTDD.
If the variable BCCH_MODIFICATION_ACCESS_PROHIBITION is set to TRUE, the UE shall:
1>	set the variable BCCH_MODIFICATION_ACCESS_PROHIBITION to FALSE and allow the access on the cell according to 8.1.8.2. 
8.1.1.6.4	System Information Block type 4
If in connected mode, the UE should store all relevant IEs included in this system information block. The UE shall:
1>	if in connected mode:
2>	read and act on information sent in this block;
2>	read the System Information Block Type 3 for any Access Class Barring information and act on that information as described in subclause 8.1.1.6.3.
If in idle mode, the UE shall not use the values of the IEs included in this system information block.
8.1.1.6.5	System Information Block type 5 and 5bis
The UE should store all relevant IEs included in this system information block. The UE shall:
1>	if the IE "Frequency band indicator" is included and set to a frequency band supported in the UE radio access capability, the IE "Frequency band indicator 2" is not included, and the IE "Frequency band indicator 3" is not included; or
1>	if the IE "Frequency band indicator" is included and set to "extension indicator", and the IE "Frequency band indicator 2" is included and set to a frequency band supported in the UE radio access capability, and the IE "Frequency band indicator 3" is not included; or
1>	if the IE "Frequency band indicator" is included and set to "extension indicator", and the IE "Frequency band indicator 2" is included and set to "extension indicator", and the IE "Frequency band indicator 3" is included and set to a frequency band supported in the UE radio access capability; or
1>	if the IE "Frequency band indicator" is not included in System Information Block type 5, the DL frequency is in between 2110MHz-2170MHz, and Band I is part of the frequency bands supported by the UE in the UE radio access capability, or
1>	if the IE "Frequency band indicator" is not included in System Information Block type 5, the DL frequency is in between 1930MHz – 1990MHz, and Band II is part of the frequency bands supported by the UE in the UE radio access capability, or
1>	if the IE "Frequency band indicator" is not included in System Information Block type 5, the DL frequency is in between 1805MHz-1880MHz, and Band III is part of the frequency bands supported by the UE in the UE radio access capability, or
1>	if the UE supports multi-band signaling and the IE "Multiple Frequency Band indicator list" is included and contains a frequency band supported in the UE radio access capability:
2>	consider the cell to be not barred according to [4].
1>	else if the IE "Frequency band indicator" is included and set to a frequency band not supported in the UE radio access capability, and the IE "Frequency band indicator 2" is not included, and the IE "Frequency band indicator 3" is not included; or
1>	if the IE "Frequency band indicator" is included and set to "extension indicator", if the IE "Frequency band indicator 2" is included and set to a frequency band not supported in the UE radio access capability, and the IE "Frequency band indicator 3" is not included; or
1>	if the IE "Frequency band indicator" is included and set to "extension indicator", and the IE "Frequency band indicator 2" is included and set to "extension indicator", and if the IE "Frequency band indicator 3" is included and set to "extension indicator" or to a frequency band not supported in the UE radio access capability; or
1>	if the IE "Frequency band indicator" is not included in System Information Block type 5, the DL frequency is in between 2110MHz-2170MHz, and Band I is not part of the frequency bands supported by the UE in the UE radio access capability, or
1>	if the IE "Frequency band indicator" is not included in System Information Block type 5, the DL frequency is in between 1930MHz-1990MHz, and Band II is not part of the frequency bands supported by the UE in the UE radio access capability, or
1>	if the IE "Frequency band indicator" is not included in System Information Block type 5, the DL frequency is in between 1805MHz-1880MHz, and Band III is not part of the frequency bands supported by the UE in the UE radio access capability; or
1>	if the UE supports multi-band signalling and the IE "Multiple Frequency Band indicator list" is included and does not contain a frequency band supported in the UE radio access capability:
2>	consider the cell to be barred according to [4]; and
2>	consider the barred cell as using the value "not allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
1>	else:
2>	the UE behaviour is not specified.
1>	if the IE "Frequency Bands Indicator Support" is included:
2>	if the first frequency band is one of the frequency bands supported in the UE radio access capability:
3>	set the "Support of the first Frequency Band" in variable FREQUENCY_BAND_INDICATOR_SUPPORT to TRUE.
2>	else:
3>	set the "Support of the first Frequency Band" in variable FREQUENCY_BAND_INDICATOR_SUPPORT to FALSE.
2>	if the second frequency band is present and the second frequency band is one of the frequency bands supported in the UE radio access capability:
3>	set the "Support of the second Frequency Band" in variable FREQUENCY_BAND_INDICATOR_SUPPORT to TRUE.
2>	else:
3>	set the "Support of the second Frequency Band" in variable FREQUENCY_BAND_INDICATOR_SUPPORT to FALSE.
1>	else:
2>	for FDD, clear the variable FREQUENCY_BAND_INDICATOR_SUPPORT.
2>	for 1.28Mcps TDD,
3>	if the frequency band e is one of the frequency bands supported in the UE radio access capability:
4>	set the "Support of the first Frequency Band" in variable FREQUENCY_BAND_INDICATOR_SUPPORT to TRUE.
3>	else:
4>	set the "Support of the first Frequency Band" in variable FREQUENCY_BAND_INDICATOR_SUPPORT to FALSE.
3>	if the frequency band f is one of the frequency bands supported in the UE radio access capability:
4>	set the "Support of the second Frequency Band" in variable FREQUENCY_BAND_INDICATOR_SUPPORT to TRUE.
3>	else:
4>	set the "Support of the second Frequency Band" in variable FREQUENCY_BAND_INDICATOR_SUPPORT to FALSE.
1>	for FDD, if the IE "Adjacent Channel Interference level" is included and UE supports DL interference mitigation:
2>	configure the lower layers with the IE "Adjacent Channel Interference level", which may be used to mitigate the DL interference, e.g. to apply an optimized Rx filtering.
1>	if in connected mode, and System Information Block type 6 is indicated as used in the cell:
2>	read and act on information sent in System Information Block type 6.
1>	if System Information Block type 22 is indicated as used in the cell:
2>	read and act on information sent in System Information Block type 22.
1>	if the UE is in CELL_PCH state, determine the value for the HSPA_RNTI_STORED_PCH variable and take the corresponding actions as described in subclause 8.5.56;
1>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
1>	if the UE is in CELL_FACH state or Idle mode; and
1>	if the UE does support E-DCH transmission in CELL_FACH state and Idle mode; and
1>	if the IE "HS-DSCH common system information" is included in system information block type 5 or 5bis; and
1>	if the IE "Common E-DCH system info" is included system information block type 5 or 5bis:
2>	for 1.28 Mcps TDD, 	if the IE "Frequency info" is included in system information block type 5:
3>	store and use the frequency indicated by the IE "Frequency info" as the secondary frequency for Enhanced Uplink transmission in CELL_FACH state and Idle mode;
3>	if the IE "E-RUCCH Access Service class" and/or "E-RUCCH persistence scaling factor list" and/or "SYNC_UL info" and/or IE " PRACH Information" are included in the IE "E-RUCCH Info" in system information block type 5:
4>	store and use the information contained in IE "E-RUCCH info".
3>	else:
4>	use the same configuration in the IE "PRACH system information list" on the secondary frequency indicated by the IE "Frequency info".
3>	if the IE "UpPCH Position Info" is included:
4>	store and use the UpPCH position indicated by the IE "UpPCH Position Info".
2>	for 1.28 Mcps TDD, 	if the IE "Frequency info" is not included in system information block type 5:
3>	use the primary frequency for Enhanced Uplink transmission in CELL_FACH state and Idle mode;
3>	use the same configuration in the IE "PRACH system information list" on the primary frequency for the IE "E-RUCCH Access Service class" and/or "E-RUCCH persistence scaling factor list" and/or "SYNC_UL info" and/or IE " PRACH Information".
2>	use the Enhanced Uplink in CELL_FACH state and Idle mode as specified in section 8.5.45 for FDD or 8.5.45a for 1.28 Mcps TDD and [15] for DTCH, DCCH and CCCH transmission;
2>	for 1.28 Mcps TDD, if the IE "Treset Usage Indicator" is included:
3>	store IE "Treset Usage Indicator".
2>	else:
3>	clear the stored IE.
1>	else:
2>	if the UE is in CELL_PCH state; and
2>	if the UE does support E-DCH transmission in CELL_FACH state and Idle mode; and
2>	if the IE "HS-DSCH paging system information" is included in system information block type 5 or 5bis; and
2>	if the IE "Common E-DCH system info" is included system information block type 5 or 5bis; and
2>	if the variables C_RNTI, E_RNTI and H_RNTI are set: 
3>	use the Enhanced Uplink in CELL_FACH state and Idle mode as specified in section 8.5.45 for FDD or 8.5.45a for 1.28 Mcps TDD and [15] for DTCH and DCCH transmission.
2>	else:
3>	replace the TFS of the RACH with the one stored in the UE if any;
3>	let the physical channel(s) of type PRACH given by the IE(s) "PRACH info" be the default in uplink for the PRACH if UE is in CELL_FACH state;
3>	start to receive the physical channel of type AICH using the parameters given by the IE "AICH info" (FDD only) when given allocated PRACH is used;
3>	if the IE "Additional Dynamic Transport Format Information for CCCH" is included for the selected PRACH:
4>	use this transport format for transmission of the CCCH.
3>	else:
4>	use the first instance of the list of transport formats as in the IE "RACH TFS" for the used RACH received in the IE "PRACH system information list" when using the CCCH.
1>	for 3.84 Mcps and 7.68 Mcps TDD; or
1>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_FACH state; or
1>	if the IE "HS-DSCH common system information" is not included; or
1>	for 1.28 Mcps TDD, if the IE "Common E-DCH system info" is not included:
2>	replace the TFS of the FACH/PCH with the one stored in the UE if any;
2>	select a Secondary CCPCH as specified in [4] and in subclause 8.5.19, and start to receive the physical channel of type PICH associated with the PCH carried by the selected Secondary CCPCH using the parameters given by the IE "PICH info" if UE is in Idle mode or in CELL_PCH or URA_PCH state;
2>	start to monitor its paging occasions on the selected PICH if UE is in Idle mode or in CELL_PCH or URA_PCH state;
2>	start to receive the selected physical channel of type Secondary CCPCH using the parameters given by the IE(s) "Secondary CCPCH info" if UE is in CELL_FACH state;
2>	in 3.84 Mcps TDD and 7.68 Mcps TDD:
3>	use the IE "TDD open loop power control" as defined in subclause 8.5.7 when allocated PRACH is used.
2>	in TDD:
3>	if the IE "PDSCH system information" and/or the IE "PUSCH system information" is included:
4>	store each of the configurations given there with the associated identity given in the IE "PDSCH Identity" and/or "PUSCH Identity" respectively. For every configuration, for which the IE "SFN Time info" is included, the information shall be stored for the duration given there.
2>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
1>	else:
2>	if the UE is in Idle mode:
3>	if the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE:
4>	for FDD, start to receive HS-DSCH according to the procedure in subclause 8.5.37;
4>	for 1.28 Mcps TDD, 	if the IE "Frequency info" is included in system information block type 5:
5>	start to receive HS-DSCH according to the procedure in subclause 8.5.37 at the frequency indicated by the IE "Frequency info".
4>	for 1.28 Mcps TDD, 	if the IE "Frequency info" is not included in system information block type 5:
5>	start to receive HS-DSCH according to the procedure in subclause 8.5.37 at the primary frequency.
3>	else:
4>	replace the TFS of the FACH/PCH with the one stored in the UE if any;
4>	select a Secondary CCPCH as specified in [4] and in subclause 8.5.19, and start to receive the physical channel of type PICH associated with the PCH carried by the selected Secondary CCPCH using the parameters given by the IE "PICH info";
4>	start to monitor its paging occasions on the selected PICH.
3>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
2>	if the UE is in CELL_FACH:
3>	if variable H_RNTI is set:
4>	start to receive HS-DSCH according to the procedure in subclause 8.5.36.
3>	else:
4>	if the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE:
5>	for FDD, start to receive HS-DSCH according to the procedure in subclause 8.5.37;
5>	for 1.28 Mcps TDD, 	if the IE "Frequency info" is included in system information block type 5:
6>	start to receive HS-DSCH according to the procedure in subclause 8.5.37 at the frequency indicated by the IE "Frequency info".
5>	for 1.28 Mcps TDD, 	if the IE "Frequency info" is not included in system information block type 5:
6>	start to receive HS-DSCH according to the procedure in subclause 8.5.37 at the primary frequency.
3>	if the IE "HS-DSCH DRX in CELL_FACH Information" is included:
4>	determine the value of the HS_DSCH_DRX_CELL_FACH_STATUS variable according to the procedure in subclause 8.5.48.
2>	if the UE is in CELL_PCH or URA_PCH state:
3>	for FDD and for 1.28 Mcps TDD, if the UE supports HS-DSCH reception in CELL_PCH and URA_PCH state; and
3>	if IE "HS-DSCH paging system information" is included:
4>	if this IE is not currently stored; and
4>	if the value of the IE "SRNC identity" in the variable U_RNTI is not equal to the 12 MSBs of the received IE "Cell identity" in System Information Block type 3; and
4>	if the UE is in URA_PCH state:
5>	initiate the URA update procedure as specified in subclause 8.3.1, using the cause "periodic URA update".
4>	for FDD; or
4>	for 1.28 Mcps TDD, if both variable H_RNTI and variable C_RNTI are set:
5>	start to monitor the paging occasions and PICH monitoring occasions determined according to subclauses 8.6.3.1a, 8.6.3.2 and 8.5.39 and receive PCCH on the HS-DSCH mapped on the HS-PDSCH, or DCCH and DTCH and BCCH on the HS-DSCH mapped on the HS-PDSCH and the associated HS-PDSCH selected by the UE according to the procedure in subclause 8.5.40 for FDD and 8.5.40a for 1.28 Mcps TDD.
3>	else:
4>	replace the TFS of the FACH/PCH with the one stored in the UE if any;
4>	select a Secondary CCPCH as specified in [4] and in subclause 8.5.19, and start to receive the physical channel of type PICH associated with the PCH carried by the selected Secondary CCPCH using the parameters given by the IE "PICH info";
4>	start to monitor its paging occasions on the selected PICH;
4>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
If a UE is a 12 kbps class UE according to [35] and the UE has a lower capability than required to support all transport channel configurations mapped on a specific Secondary CCPCH, the UE shall at a certain time instant still be able to decode those transport channels mapped on this Secondary CCPCH that do match the capability supported by the UE. The UE shall use the TFCI bits for that Secondary CCPCH, to distinguish a transport channel configuration that is supported by the UE from a transport channel configuration that is not supported by the UE.
In particular if the UE is a 12 kbps class UE according to [35] and it does not support the processing requirement at a given point in time for a Secondary CCPCH, it shall still be able to decode the same Secondary CCPCH when the processing requirement is consistent with the UE capability. Or if the UE does not support the number of TFs or the coding of a certain transport channel on a Secondary CCPCH, it shall still be able to decode other transport channels mapped on the same Secondary CCPCH that is consistent with what is supported by the UE.
The UE shall:
1>	if the IE "Secondary CCPCH system information MBMS" is included:
2>	apply the Secondary CCPCH and FACH indicated by the IE "FACH carrying MCCH" for receiving MCCH.
1>	otherwise, if the IE "Secondary CCPCH system information" includes the IE "MCCH configuration information":
2>	apply the Secondary CCPCH and FACH indicated by the IE “MCCH configuration information” for receiving MCCH.
1>	for TDD, if the IE "TDD MBSFN Information" is included:
2>	apply the scrambling codes (as referenced by the "Cell parameters ID") to each timeslot indicated by "TDD MBSFN Information".
8.1.1.6.6	System Information Block type 6
If in connected mode, the UE should store all relevant IEs included in this system information block. The UE shall:
1>	if the IE "Frequency band indicator" is included and set to a frequency band supported in the UE radio access capability, the IE "Frequency band indicator 2" is not included, and the IE "Frequency band indicator 3" is not included; or
1>	if the IE "Frequency band indicator" is included and set to "extension indicator", and the IE "Frequency band indicator 2" is included and set to a frequency band supported in the UE radio access capability, and the IE "Frequency band indicator 3" is not included; or
1>	if the IE "Frequency band indicator" is included and set to "extension indicator", and the IE "Frequency band indicator 2" is included and set to "extension indicator", and the IE "Frequency band indicator 3" is included and set to a frequency band supported in the UE radio access capability; or
1>	if the IE "Frequency band indicator" is not included, the DL frequency is in between 2110MHz-2170MHz, and Band I is part of the frequency bands supported by the UE in the UE radio access capability, or
1>	if the IE "Frequency band indicator" is not included, the DL frequency is in between 1930MHz – 1990MHz, and Band II is part of the frequency bands supported by the UE in the UE radio access capability, or
1>	if the IE "Frequency band indicator" is not included, the DL frequency is in between 1805MHz-1880MHz, and Band III is part of the frequency bands supported by the UE in the UE radio access capability; or
1>	if the UE supports multi-band signalling and the IE "Multiple Frequency Band indicator list" is included and contains a frequency band supported in the UE radio access capability:
2>	consider the cell to be not barred according to [4].
1>	else if the IE "Frequency band indicator" is included and set to a frequency band not supported in the UE radio access capability, and the IE "Frequency band indicator 2" is not included, and the IE "Frequency band indicator 3" is not included; or
1>	if the IE "Frequency band indicator" is included and set to "extension indicator", if the IE "Frequency band indicator 2" is included and set to a frequency band not supported in the UE radio access capability, and the IE "Frequency band indicator 3" is not included; or
1>	if the IE "Frequency band indicator" is included and set to "extension indicator", and the IE "Frequency band indicator 2" is included and set to "extension indicator", and if the IE "Frequency band indicator 3" is included and set to "extension indicator" or to a frequency band not supported in the UE radio access capability; or
1>	if the IE "Frequency band indicator" is not included, the DL frequency is in between 2110MHz-2170MHz, and Band I is not part of the frequency bands supported by the UE in the UE radio access capability, or
1>	if the IE "Frequency band indicator" is not included, the DL frequency is in between 1930MHz-1990MHz, and Band II is not part of the frequency bands supported by the UE in the UE radio access capability, or
1>	if the IE "Frequency band indicator" is not included, the DL frequency is in between 1805MHz-1880MHz, and Band III is not part of the frequency bands supported by the UE in the UE radio access capability; or
1>	if the UE supports multi-band signaling and the IE "Multiple Frequency Band indicator list" is included and does not contain a frequency band supported in the UE radio access capability:
2>	consider the cell to be barred according to [4]; and
2>	consider the barred cell as using the value "not allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
1>	else:
2>	the UE behaviour is not specified.
1>	for FDD, if the IE "Adjacent Channel Interference level" is included and UE supports DL interference mitigation:
2>	configure the lower layers with the IE "Adjacent Channel Interference level", which may be used to mitigate the DL interference, e.g. to apply an optimized Rx filtering.
1>	if the UE is in CELL_FACH state; and
1>	if the UE does support E-DCH transmission in CELL_FACH state and Idle mode; and
1>	if the IE "HS-DSCH common system information" is included in system information block type 5 or 5bis; and
1>	if the IE "Common E-DCH system info" is included system information block type 5 or 5bis:
2>	use the Enhanced Uplink in CELL_FACH state and Idle mode as specified in section 8.5.45 for FDD or 8.5.45a for 1.28 Mcps TDD and [15] for DTCH, DCCH and CCCH transmission.
1>	else:
2>	if the UE is in CELL_PCH state; and
2>	if the UE does support E-DCH transmission in CELL_FACH state and Idle mode; and
2>	if the IE "HS-DSCH paging system information" is included in system information block type 5 or 5bis; and
2>	if the IE "Common E-DCH system info" is included system information block type 5 or 5bis; and
2>	if the variables C_RNTI, E_RNTI and H_RNTI are set:
3>	use the Enhanced Uplink in CELL_FACH state and Idle mode as specified in section 8.5.45 for FDD or 8.5.45a for 1.28 Mcps TDD and [15] for DTCH and DCCH transmission.
2>	else:
3>	replace the TFS of the RACH with the one stored in the UE if any;
3>	let the physical channel(s) of type PRACH given by the IE(s) "PRACH info" be the default in uplink if UE is in CELL_FACH state. If the IE "PRACH info" is not included, the UE shall read the corresponding IE(s) in System Information Block type 5 or System Information Block type 5bis and use that information to configure the PRACH;
3>	start to receive the physical channel of type AICH using the parameters given by the IE "AICH info" when associated PRACH is used. If the IE "AICH info" is not included, the UE shall read the corresponding IE in System Information Block type 5 or System Information Block type 5bis and use that information (FDD only);
3>	if the IE "Additional Dynamic Transport Format Information for CCCH" is included for the selected PRACH:
4>	use this transport format for transmission of the CCCH (FDD only).
3>	else:
4>	use the first instance of the list of transport formats as in the IE "RACH TFS" for the used RACH received in the IE "PRACH system information list" when using the CCCH (FDD only).
1>	for 3.84 Mcps and 7.68 Mcps TDD; or
1>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_FACH state; or
1>	if the IE "HS-DSCH common system information" is not included in System Information Block type 5 or System Information Block type 5bis; or 
1>	for 1.28 Mcps TDD, if the IE "Common E-DCH system info" is not included:
2>	replace the TFS of the FACH/PCH with the one stored in the UE if any;
2>	select a Secondary CCPCH as specified in [4] and in subclause 8.5.19, and start to receive the physical channel of type PICH associated with the PCH carried by the selected Secondary CCPCH using the parameters given by the IE "PICH info" if the UE is in CELL_PCH or URA_PCH state. If the IE "PICH info" is not included, the UE shall read the corresponding IE in System Information Block type 5 or System Information Block type 5bis and use that information;
2>	start to monitor its paging occasions on the selected PICH if the UE is in CELL_PCH or URA_PCH state;
2>	start to receive the selected physical channel of type Secondary CCPCH using the parameters given by the IE(s) "Secondary CCPCH info" if the UE is in CELL_FACH state. If the IE "Secondary CCPCH info" is not included, the UE shall read the corresponding IE(s) in System Information Block type 5 or System Information Block type 5bis and use that information;
2>	in 3.84 Mcps TDD and 7.68 Mcps TDD: use the IE "TDD open loop power control" as defined in subclause 8.5.7;
2>	in TDD: if the IE "PDSCH system information" and/or the IE "PUSCH system information" is included, store each of the configurations given there with the associated identity given in the IE "PDSCH Identity" and/or "PUSCH Identity" respectively. For every configuration, for which the IE "SFN Time info" is included, the information shall be stored for the duration given there;
2>	take the corresponding actions as described in subclause 8.5.37a.
1>	else:
2>	if the UE is in CELL_FACH:
3>	read and use the IE "HS-DSCH common system information" in System Information Block type 5 or System Information Block type 5bis;
3>	if variable H_RNTI is set:
4>	start to receive HS-DSCH according to the procedure in subclause 8.5.36.
3>	else:
4>	if the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE:
5>	start to receive HS-DSCH according to the procedure in subclause 8.5.37.
2>	if the UE is in CELL_PCH or URA_PCH state:
3>	for FDD and for 1.28 Mcps TDD, if the UE supports HS-DSCH reception in CELL_PCH and URA_PCH state; and
3>	if IE "HS-DSCH paging system information" is included in System Information Block type 5 or System Information Block type 5bis:
4>	read and use the IE "HS-DSCH paging system information" in System Information Block type 5 or System Information Block type 5bis;
4>	for FDD; or
4>	for 1.28 Mcps TDD, if both variable H_RNTI and variable C_RNTI are set:
5>	start to monitor the paging occasions and PICH monitoring occasions determined according to subclauses 8.6.3.1a, 8.6.3.2 and 8.5.39 and receive PCCH or DCCH and DTCH according to the procedure in subclause 8.5.40 for FDD and 8.5.40a for 1.28 Mcps TDD.
3>	else:
4>	replace the TFS of the FACH/PCH with the one stored in the UE if any;
4>	select a Secondary CCPCH as specified in [4] and in subclause 8.5.19, and start to receive the physical channel of type PICH associated with the PCH carried by the selected Secondary CCPCH using the parameters given by the IE "PICH info". If the IE "PICH info" is not included, the UE shall read the corresponding IE in System Information Block type 5 or System Information Block type 5bis and use that information;
4>	start to monitor its paging occasions on the selected PICH;
4>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
If in idle mode, the UE shall not use the values of the IEs in this system information block.
If a UE is a 12 kbps class UE according to [35] and the UE has a lower capability than required to support all transport channel configurations mapped on a specific Secondary CCPCH, the UE shall at a certain time instant still be able to decode those transport channels mapped on this Secondary CCPCH that do match the capability supported by the UE. The UE shall use the TFCI bits for that Secondary CCPCH, to distinguish a transport channel configuration that is supported by the UE from a transport channel configuration that is not supported by the UE.
In particular if the UE is a 12 kbps class UE according to [35] and it does not support the processing requirement at a given point in time for a Secondary CCPCH, it shall still be able to decode the same Secondary CCPCH when the processing requirement is consistent with the UE capability. Or if the UE does not support the number of TFs or the coding of a certain transport channel on a Secondary CCPCH, it shall still be able to decode other transport channels mapped on the same Secondary CCPCH that is consistent with what is supported by the UE.
8.1.1.6.7	System Information Block type 7
The UE should store all relevant IEs included in this system information block.
8.1.1.6.8	Void

8.1.1.6.9	Void

8.1.1.6.10	Void

8.1.1.6.11	System Information Block type 11
If the cell is not operating in MBSFN mode according to subclause 8.1.1.6.3 the UE should store all relevant IEs included in this system information block. If the cell is not operating in MBSFN mode according to subclause 8.1.1.6.3 the UE shall:
1>	if in idle mode:
2>	clear the variable MEASUREMENT_IDENTITY.
1>	if IE "FACH measurement occasion info" is included:
2>	act as specified in subclause 8.6.7.
1>	else:
2>	may perform inter-frequency/inter-RAT measurements or inter-frequency/inter-RAT cell re-selection evaluation, if the UE capabilities permit such measurements while simultaneously receiving the S-CCPCH of the serving cell.
1>	clear the variable CELL_INFO_LIST;
1>	act upon the received IE "Intra-frequency cell info list"/"Inter-frequency cell info list"/"Inter-RAT cell info list" as described in subclause 8.6.7.3;
1>	if the IE "Inter-frequency RACH reporting information" is included in the system information block:
2>	read the IE and use that information for the inter-frequency measurements as specified in subclause 8.5.23.
1>	if in idle mode; or
1>	if in connected mode and if System Information Block type 12 is not broadcast in the cell:
2>	if no intra-frequency measurement stored in the variable MEASUREMENT_IDENTITY was set up or modified through a MEASUREMENT CONTROL message:
3>	if included, store the IE "Intra-frequency reporting quantity" and the IE "Intra-frequency measurement reporting criteria" or "Periodical reporting criteria" in order to activate reporting when state CELL_DCH is entered in the variable MEASUREMENT_IDENTITY. The IE "Cells for measurement" is absent for this measurement. The IE "Measurement Validity" is absent for this measurement after a state transition to CELL_DCH.
1>	if in connected mode and if System Information Block type 12 is not broadcast in the cell:
2>	read the IE "Traffic volume measurement system information";
2>	if no traffic volume measurement with the measurement identity indicated in the IE "Traffic volume measurement system information" was set up or modified through a MEASUREMENT CONTROL message:
3>	update the variable MEASUREMENT_IDENTITY with the measurement information received in that IE.
1>	if the IE "Cell selection and reselection info" is not included for a new neighbouring cell in the IE "intra-frequency cell info list", the IE "inter-frequency cell info list" or the IE "inter-RAT cell info list" in System Information Block type 11:
2>	use the default values specified for the IE "Cell selection and reselection info" for that cell except for the IE "HCS neighbouring cell information".
1>	if the IE "Use of HCS" is set to "used", indicating that HCS is used, do the following:
2>	if IE "HCS neighbouring cell information" is not included for the first new cell in the IE "Intra-frequency cell info list", the IE "Inter-frequency cell info list" or the IE "Inter-RAT cell info list" in System Information Block type 11:
3>	use the default values specified for the IE "HCS neighbouring cell information" for that cell.
2>	if IE "HCS neighbouring cell information" is not included for any other new cell in the IE "Intra-frequency cell info list", the IE "Inter-frequency cell info list" or the IE "Inter-RAT cell info list" in System Information Block type 11:
3>	for that cell use the same parameter values as used for the preceding cell in the same cell info list in System Information Block type 11.
1>	if the value of the IE "Cell selection and reselection quality measure" is different from the value of the IE "Cell selection and reselection quality measure" obtained from System Information Block type 3 or System Information Block type 4:
2>	use the value of the IE from this System Information Block and ignore the value obtained from System Information Block type 3 or System Information Block type 4.
1>	if in connected mode, and System Information Block type 12 is indicated as used in the cell:
2>	read and act on information sent in System Information Block type 12 as indicated in subclause 8.1.1.6.12.
1>	if IE "MBSFN frequency list" is included:
2>	act as specified in subclause 8.6.9.9ac.
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
For 1.28 Mcps TDD if the cell is operating in MBSFN only mode according to subclause 8.1.1.6.3 the UE shall:
1>	store the frequencies and their corresponding "cell parameter ID" indicated in the IE "MBSFN LCR TDD frequency list" included in the IE "MBSFN frequency list".
If the cell is operating in MBSFN mode according to subclause 8.1.1.6.3 the UE may:
1>	for FDD and 3.84/7.68 Mcps TDD consider the cells indicated in the IE "Intra-frequency cell info list" in the IE "Intra-frequency measurement system information" as candidates for the selection of the MBSFN cluster;
1> for 1.28 Mcps TDD consider there exist MBSFN clusters deployed with the frequencies and their corresponding "cell parameter ID" stored.
For 1.28 Mcps TDD if the cell is not operating in MBSFN only mode but associated with one or more MBSFN clusters the UE shall:
1>	store the frequencies and their corresponding "cell parameter ID" indicated in the IE "MBSFN LCR TDD frequency list" included in the IE "MBSFN frequency list";
1>	consider there exist MBSFN clusters deployed with the frequencies and their corresponding “cell parameter ID” stored;
1>	search an MBSFN cluster in MBSFN only mode with its frequency and corresponding "cell parameter ID" for monitoring the MBMS services delivered in dedicated MBSFN frequency layer.
NOTE:	The IE "Intra-frequency cell info list" may not include information about all neighbouring MBSFN clusters
8.1.1.6.11a	System Information Block type 11bis
The UE should store all relevant IEs included in this system information block. The UE shall:
1>	after reception of SIB 11 act upon the received IEs "Intra-frequency cell info list", "Inter-frequency cell info list" and "Inter-RAT cell info list" as described in subclause 8.6.7.3;
1>	if the IE "Cell selection and reselection info" is not included for a new neighbouring cell in the IEs "New Intra-frequency cells", "New Inter-frequency cells" or "New Inter-RAT cells" in System Information Block type 11bis:
2>	use the default values specified for the IE "Cell selection and reselection info" for that cell except for the IE "HCS neighbouring cell information".
1>	if the IE "Use of HCS" is set to "used", indicating that HCS is used, do the following:
2>	if IE "HCS neighbouring cell information" is not included for the first new cell in the IEs "New Intra-frequency cells", "New Inter-frequency cells" or "New Inter-RAT cells" in System Information Block type 11bis:
3>	use the default values specified for the IE "HCS neighbouring cell information" for that cell.
2>	if IE "HCS neighbouring cell information" is not included for any other new cell in the IEs "New Intra-frequency cells", "New Inter-frequency cells" or "New Inter-RAT cells" in System Information Block type 11bis:
3>	for that cell use the same parameter values as used for the preceding cell in the same cell info list in System Information Block type 11bis.
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75.
8.1.1.6.11b	System Information Block type 11ter
The UE should store all relevant IEs included in this system information block. The UE shall:
1>	after reception of SIB11 and SIB 11bis, if scheduled on BCH, act upon the received IE "Inter-frequency cell info list" as described in subclause 8.6.7.3;
1>	if the IE "Cell selection and reselection info" is not included for a new neighbouring cell in the IE "New Inter-frequency cells" in System Information Block type 11ter:
2>	use the default values specified for the IE "Cell selection and reselection info" for that cell except for the IE "HCS neighbouring cell information".
1>	if the IE "Use of HCS" is set to "used", indicating that HCS is used, do the following:
2>	if IE "HCS neighbouring cell information" is not included for the first new cell in the IE "New Inter-frequency cells" in System Information Block type 11ter:
3>	use the default values specified for the IE "HCS neighbouring cell information" for that cell.
2>	if IE "HCS neighbouring cell information" is not included for any other new cell in the IE "New Inter-frequency cells" in System Information Block type 11ter:
3>	for that cell use the same parameter values as used for the preceding cell in the same cell info list in System Information Block type 11ter.
8.1.1.6.12	System Information Block type 12
If in connected mode, the UE should store all relevant IEs included in this system information block. The UE shall:
1>	after reception of System Information Block type 11; and
1>	after reception of System Information Block type 11bis, if broadcast in the cell; and
1>	after reception of System Information Block type 11ter, if broadcast in the cell:
2>	update the variable MEASUREMENT_IDENTITY with the measurement information in the received IEs unless specified otherwise.
1>	if IE "FACH measurement occasion info" is included:
2>	act as specified in subclause 8.6.7.
1>	else:
2>	may perform inter-frequency/inter-RAT measurements or inter-frequency/inter-RAT cell re-selection evaluation, if the UE capabilities permit such measurements while simultaneously receiving the S-CCPCH of the serving cell.
1>	act upon the received IE "Intra-frequency cell info list"/"Inter-frequency cell info list"/"Inter-RAT cell info list" as described in subclause 8.6.7.3;
1>	if any of the IEs "Intra-frequency measurement quantity", "Intra-frequency reporting quantity for RACH reporting", "Maximum number of reported cells on RACH" or "Reporting information for state CELL_DCH" are not included in the system information block:
2>	read the corresponding IE(s) in system information block type 11 and use that information for the intra-frequency measurement.
1>	if the IE "Inter-frequency RACH reporting information" is included in this system information block or in System Information Block type 11:
2>	if the IE is not included in the system information block, read the corresponding IE(s) in System Information Block type 11;
2>	use the received information for the inter-frequency measurements as specified in subclause 8.5.23.
1>	if included in this system information block or in System Information Block type 11:
2>	if no intra-frequency measurement in the variable MEASUREMENT_IDENTITY was set up or modified through a MEASUREMENT CONTROL message:
3>	store the IE "Intra-frequency reporting quantity" and the IE "Intra-frequency measurement reporting criteria" or "Periodical reporting criteria" in order to activate reporting when state CELL_DCH is entered in the variable MEASUREMENT_IDENTITY. The IE "Cells for measurement" is absent for this measurement. The IE "Measurement Validity" is absent for this measurement after a state transition to CELL_DCH.
1>	if the IE "Traffic volume measurement system information" is not included in this system information block:
2>	read the corresponding IE in System Information Block type 11.
1>	if the IE "Traffic volume measurement system information" was received either in this system information block or in System Information Block type 11:
2>	if no traffic volume measurement with the measurement identity indicated in the IE "Traffic volume measurement system information" was set up or modified through a MEASUREMENT CONTROL message:
3>	update the variable MEASUREMENT_IDENTITY with the measurement information received in that IE.
1>	if in CELL_FACH state:
2>	start or continue the traffic volume measurements stored in the variable MEASUREMENT_IDENTITY that are valid in CELL_FACH state.
1>	if the IE "Cell selection and reselection info" is not included for a new neighbouring cell in the IE "Intra-frequency cell info list", the IE "Inter-frequency cell info list" or the IE "Inter-RAT cell info list" in System Information Block type 12:
2>	use the default values specified for the IE "Cell selection and reselection info" for that cell except for the IE "HCS neighbouring cell information".
1>	if the IE "Use of HCS" is set to "used", indicating that HCS is used, do the following:
2>	if IE "HCS neighbouring cell information" is not included for the first new cell in the IE "Intra-frequency cell info list", the IE "Inter-frequency cell info list" or the IE "Inter-RAT cell info list" in System Information Block type 12:
3>	use the default values specified for the IE "HCS neighbouring cell information" for that cell.
2>	if IE "HCS neighbouring cell information" is not included for any other new cell in the IE "Intra-frequency cell info list", the IE "Inter-frequency cell info list" or the IE "Inter-RAT cell info list" in System Information Block type 12:
3>	for that cell use the same parameter values as used for the preceding cell in the same cell info list in System Information Block type 12.
1>	if the value of the IE "Cell selection and reselection quality measure" is different from the value of the IE "Cell selection and reselection quality measure" obtained from System Information Block type 3 or System Information Block type 4:
2>	use the value of the IE from this System Information Block and ignore the value obtained from System Information Block type 3 or System Information Block type 4.
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75.
If in idle mode, the UE shall not use the values of the IEs in this system information block.
8.1.1.6.13	System Information Block type 13
If in idle or connected mode, the UE should store all relevant IEs included in this system information block except for the IEs "CN domain specific DRX cycle length coefficient", "UE timers and constants in idle mode" and "Capability update requirement" which shall be stored only in the idle mode case. The UE shall read System Information Block type 13 and the associated System Information Block types 13.1, 13.2, 13.3 and 13.4 only when the UE is operating in "ANSI-41 mode" and the IE "PLMN type" in the Master Information Block has the value "ANSI-41" or "GSM-MAP and ANSI-41". The UE shall also:
1>	forward the content of the IE "CN domain specific NAS system information" to the non-access stratum entity indicated by the IE "CN domain identity";
1>	use the IE "CN domain specific DRX cycle length coefficient" to calculate frame number for the Paging Occasions and Page indicator as specified in [4].
Refer to TIA/EIA/IS-2000.5-A for actions on information contained in System Information Block types 13.1, 13.2, 13.3 and 13.4.
8.1.1.6.14	System Information Block type 14
This system information block type is used only in 3.84 Mcps TDD and 7.68 Mcps TDD.
The UE should store all relevant IEs included in this system information block. The UE shall:
1>	use the IE "UL Timeslot Interference" to calculate PRACH, DPCH and PUSCH transmit power for TDD uplink open loop power control as defined in subclause 8.5.7.
8.1.1.6.15	System Information Block type 15
If the UE is in idle or connected mode, and supports GPS location services it should store all relevant IEs included in this system information block. The UE shall:
1>	if the IE "GPS Data ciphering info" is included:
2>	act as specified in the subclause 8.6.7.19.4.
1>	act upon the received IE "Reference position" as specified in subclause 8.6.7.19.3.8;
1>	act upon the received IE "GPS reference time" as specified in subclause 8.6.7.19.3.7;
1>	if IE "Satellite information" is included:
2>	act upon this list of bad satellites as specified in subclause 8.6.7.19.3.6.
NOTE:	For efficiency purposes, the UTRAN should broadcast System Information Block type 15 if it is broadcasting System Information Block type 15.2.
8.1.1.6.15.0	System Information Block type 15bis
If the UE is in idle or connected mode, and supports GANSS location services it should store all relevant IEs included in this system information block. The UE shall:
1>	act upon the received IE "Reference position" as specified in subclause 8.6.7.19.7.8;
1>	act upon the received IE "GANSS reference time" as specified in subclause 8.6.7.19.7.7;
1>	if IE "GANSS ionospheric model" is included:
2>	act upon the received IE "GANSS ionospheric model" as specified in subclause 8.6.7.19.7.5.
1>	if IE "GANSS additional ionospheric model" is included:
2>	act upon the received IE "GANSS additional ionospheric model" as specified in subclause 8.6.7.19.7.12.
1>	if IE "GANSS Earth orientation parameters" is included:
2>	act upon the received IE "GANSS Earth orientation parameters" as specified in subclause 8.6.7.19.7.13.
8.1.1.6.15.1	System Information Block type 15.1
The UE should store all the relevant IEs included in this system information block in variable UE_POSITIONING_GPS_DATA. The UE shall:
1>	act on "DGPS information" in the IE "DGPS Corrections" in a similar manner as specified in [13] except that the scale factors for PRC and RRC are different;
1>	act upon the received IE "UE Positioning GPS DGPS corrections" as specified in subclause 8.6.7.19.3.3.
In this version of the specification, the UE shall:
1>	ignore the following IEs: "Delta PRC2", "Delta RRC2", "Delta PRC3" and "Delta RRC3".
8.1.1.6.15.1a	System Information Block type 15.1bis
This SIB has one occurrence for each GANSS supported. To identify the different GANSSs, the scheduling information for System Information Block type 15.1bis is associated with IE "GANSS ID". The UE should store all the relevant IEs included in this system information block in variable UE_POSITIONING_GANSS_DATA. The UE shall:
1>	act on "DGANSS information" in the IE "DGANSS Corrections" in a similar manner as specified in [13] except that the scale factors for PRC and RRC are different;
1>	act upon the received IE "UE Positioning DGANSS corrections" as specified in subclause 8.6.7.19.7.3.
8.1.1.6.15.1b	System Information Block type 15.1ter
This SIB is for BDS only. If the UE supports BDS, then the UE shall:
1>	if IE "UE positioning DBDS corrections" is included:
2>	act upon the received IE "UE positioning DBDS corrections" as specified in subclause 8.6.7.19.7.17.
1>	if IE "UE positioning BDS Ionospheric Grid Model" is included:
2>	act upon the received IE "UE positioning BDS Ionospheric Grid Model" as specified in subclause 8.6.7.19.7.18.
8.1.1.6.15.2	System Information Block type 15.2
For System Information Block type 15.2 multiple occurrences may be used; one occurrence for one satellite. To identify the different occurrences, the scheduling information for System Information Block type 15.2 includes IE "SIB occurrence identity and value tag". The UE should store all the relevant IEs included in this system information block in variable UE_POSITIONING_GPS_DATA. The UE shall:
1>	compare for each occurrence the value tag of the stored occurrence, if any, with the occurrence value tag included in the IE "SIB occurrence identity and value tag" for the occurrence of the System Information Block with the same occurrence identity;
1>	in case the UE has no SIB occurrence stored with the same identity or in case the occurrence value tag is different:
2>	store the occurrence information together with its identity and value tag for later use.
1>	in case an occurrence with the same identity but different value tag was stored:
2>	overwrite this one with the new occurrence read via system information for later use.
1>	interpret IE "Transmission TOW" as a very coarse estimate of the current time, i.e., the approximate GPS time-of-week when the message is broadcast;
1>	interpret IE "SatID" as the satellite ID of the data from which this message was obtained;
1>	act upon the received IEs "Sat ID" and "GPS Ephemeris and Clock Corrections Parameter" as specified in subclause 8.6.7.19.3.4.
The IE "Transmission TOW" may be different each time a particular SIB occurrence is transmitted. The UTRAN should not increment the value tag of the SIB occurrence if the IE "Transmission TOW" is the only IE that is changed.
The UE may not need to receive all occurrences before it can use the information from any one occurrence.
8.1.1.6.15.2a	System Information Block type 15.2bis
For System Information Block type 15.2bis multiple occurrences may be used; one occurrence for one satellite. To identify for which GANSS the occurrence is related to, the scheduling information for System Information Block type 15.2bis is associated with IE "GANSS ID". To identify the different occurrences within each GANSS, the scheduling information for System Information Block type 15.2bis includes IE "SIB occurrence identity and value tag". The UE should store all the relevant IEs included in this system information block in variable UE_POSITIONING_GANSS_DATA. The UE shall:
1>	compare for each occurrence the value tag of the stored occurrence, if any, with the occurrence value tag included in the IE "SIB occurrence identity and value tag" for the occurrence of the System Information Block with the same occurrence identity;
1>	in case the UE has no SIB occurrence stored with the same identity or in case the occurrence value tag is different:
2>	store the occurrence information together with its identity and value tag for later use.
1>	in case an occurrence with the same identity but different value tag was stored:
2>	overwrite this one with the new occurrence read via system information for later use.
1>	act upon the received IEs "GANSS Navigation Model" as specified in subclause 8.6.7.19.7.4.
The UE may not need to receive all occurrences before it can use the information from any one occurrence.
8.1.1.6.15.2b	System Information Block type 15.2ter
For System Information Block type 15.2ter multiple occurrences may be used; one occurrence for one satellite. To identify for which GANSS the occurrence is related to, the scheduling information for System Information Block type 15.2ter is associated with IE "GANSS ID". To identify the different occurrences within each GANSS, the scheduling information for System Information Block type 15.2ter includes IE "SIB occurrence identity and value tag". The UE should store all the relevant IEs included in this system information block in variable UE_POSITIONING_GANSS_DATA. The UE shall:
1>	compare for each occurrence the value tag of the stored occurrence, if any, with the occurrence value tag included in the IE "SIB occurrence identity and value tag" for the occurrence of the System Information Block with the same occurrence identity;
1>	in case the UE has no SIB occurrence stored with the same identity or in case the occurrence value tag is different:
2>	store the occurrence information together with its identity and value tag for later use.
1>	in case an occurrence with the same identity but different value tag was stored:
2>	overwrite this one with the new occurrence read via system information for later use.
1>	act upon the received IE "GANSS additional navigation models" as specified in subclause 8.6.7.19.7.14.
The UE may not need to receive all occurrences before it can use the information from any one occurrence.
8.1.1.6.15.3	System Information Block type 15.3
For System Information Block type 15.3 multiple occurrences may be used; one occurrence for each set of satellite data. To identify the different occurrences, the scheduling information for System Information Block type 15.3 includes IE "SIB occurrence identity and value tag". The UE should store all the relevant IEs included in this system information block in variable UE_POSITIONING_GPS_DATA. The UE shall:
1>	compare for each occurrence the value tag of the stored occurrence, if any, with the occurrence value tag included in the IE "SIB occurrence identity and value tag" for the occurrence of the System Information Block with the same occurrence identity;
1>	in case the UE has no SIB occurrence stored with the same identity or in case the occurrence value tag is different:
2>	store the occurrence information together with its identity and value tag for later use.
1>	in case an occurrence with the same identity but different value tag was stored:
2>	overwrite this one with the new occurrence read via system information for later use.
1>	interpret IE "Transmission TOW" as a very coarse estimate of the current time, i.e., the approximate GPS time-of-week when the message is broadcast;
1>	if the IE "GPS Almanac and Satellite Health" is included:
2>	interpret IE "SatMask" as the satellites that contain the pages being broadcast in this message;
2>	interpret IE "LSB TOW" as the least significant 8 bits of the TOW [12];
2>	act upon the received IE "GPS Almanac and Satellite Health" as specified in subclause 8.6.7.19.3.2.
1>	if the IE "GPS ionospheric model" is included:
2>	act upon the received IE "GPS ionospheric model" as specified in subclause 8.6.7.19.3.5.
1>	if the IE "GPS UTC model" is included:
2>	act upon the received IE "GPS UTC model" as specified in subclause 8.6.7.19.3.9.
The IE "Transmission TOW" may be different each time a particular SIB occurrence is transmitted. The UTRAN should not increment the value tag of the SIB occurrence if the IE "Transmission TOW" is the only IE that is changed. One SIB occurrence value tag is assigned to the table of subclause 10.2.48.8.18.3.
The UE may not need to receive all occurrences before it can use the information for any one occurrence.
8.1.1.6.15.3a	System Information Block type 15.3bis
For System Information Block type 15.3bis multiple occurrences may be used; one occurrence for each set of satellite data. To identify for which GANSS the occurrence is related to, the scheduling information for System Information Block type 15.3bis is associated with IE "GANSS ID". To identify the different occurrences within each GANSS, the scheduling information for System Information Block type 15.3bis includes IE "SIB occurrence identity and value tag". The UE should store all the relevant IEs included in this system information block in variable UE_POSITIONING_GANSS_DATA. The UE shall:
1>	compare for each occurrence the value tag of the stored occurrence, if any, with the occurrence value tag included in the IE "SIB occurrence identity and value tag" for the occurrence of the System Information Block with the same occurrence identity;
1>	in case the UE has no SIB occurrence stored with the same identity or in case the occurrence value tag is different:
2>	store the occurrence information together with its identity and value tag for later use.
1>	in case an occurrence with the same identity but different value tag was stored:
2>	overwrite this one with the new occurrence read via system information for later use.
1>	if the IE "GANSS Almanac" is included:
2>	act upon the received IE "GANSS Almanac" as specified in subclause 8.6.7.19.7.2.
1>	if the IE "GANSS time model" is included:
2>	act upon the received IE "GANSS time model" as specified in subclause 8.6.7.19.7.9.
1>	if the IE "GANSS UTC model" is included:
2>	act upon the received IE "GANSS UTC model" as specified in subclause 8.6.7.19.7.10.
1>	if the IE "GANSS additional UTC models" is included:
2>	act upon the received IE "GANSS additional UTC models" as specified in subclause 8.6.7.19.7.15.
1>	if the IE "GANSS auxiliary information" is included:
2>	act upon the received IE "GANSS auxiliary information" as specified in subclause 8.6.7.19.7.16.
The UE may not need to receive all occurrences before it can use the information for any one occurrence.
8.1.1.6.15.4	System Information Block type 15.4
If the UE is in idle mode or connected mode, the UE shall:
1>	if the IE "OTDOA Data ciphering info" is included:
2>	act as specified in subclause 8.6.7.19.4.
If the UE is in connected mode, the UE shall:
1>	act as specified in subclause 8.6.7.19.2.
8.1.1.6.15.5	System Information Block type 15.5
If the UE is in idle or connected mode, the UE shall:
1>	if the UE supports UE-based OTDOA positioning:
2>	act as specified in subclause 8.6.7.19.2a.
8.1.1.6.15.6	System Information Block type 15.6
This SIB has one occurrence for each GANSS supported. To identify the different GANSSs, the scheduling information for System Information Block type 15.6 is associated with IE "GANSS ID". The UE should store all the relevant IEs included in this system information block in variable UE_POSITIONING_GANSS_DATA. The UE shall:
1>	use IE "GANSS TOD" as a reference time for the data in IE "GANSS reference measurement information";
1>	act upon the received IE "GANSS reference measurement information" as specified in subclause 8.6.7.19.7.1.
8.1.1.6.15.7	System Information Block type 15.7
This SIB has one occurrence for each GANSS supported. To identify the different GANSSs, the scheduling information for System Information Block type 15.7 is associated with IE "GANSS ID". The UE should store all the relevant IEs included in this system information block in variable UE_POSITIONING_GANSS_DATA. The UE shall:
1>	act upon the received IE "GANSS data bit assistance" as specified in subclause 8.6.7.19.7.11.
8.1.1.6.15.8	System Information Block type 15.8
This SIB has one occurrence for each GANSS supported. To identify the different GANSSs, the scheduling information for System Information Block type 15.8 is associated with IE "GANSS ID". The UE should store all the relevant IEs included in this system information block in variable UE_POSITIONING_GANSS_DATA. The UE shall:
1>	if the IE "GANSS Data ciphering info" is included:
2>	act as specified in the subclause 8.6.7.19.4.
1>	if the IE "GANSS real-time integrity" is included:
2>	act upon the received IE " GANSS real-time integrity" as specified in subclause 8.6.7.19.7.6.
8.1.1.6.16	System Information Block type 16
If the IE "Uplink DPCH info Pre" is included in the PhyCH Information Elements for a predefined configuration the UE shall:
1>	for FDD:
2>	if the IE "Number of TPC bits" is not included:
3>	use 2 TPC bits in the Uplink DPCH.
2>	else:
3>	if F-DPCH is not configured then the UE behaviour is unspecified.
For System Information Block type 16 multiple occurrences may be used; one occurrence for each predefined configuration. To identify the different predefined configurations, the scheduling information for System Information Block type 16 includes IE "Predefined configuration identity and value tag".
The UE should store all relevant IEs included in this system information block. The UE shall:
1>	compare for each predefined configuration the value tag of the stored predefined configuration with the preconfiguration value tag included in the IE "Predefined configuration identity and value tag" for the occurrence of the System Information Block with the same predefined configuration identity;
1>	in case the UE has no predefined configuration stored with the same identity:
2>	store the predefined configuration information together with its identity and value tag for later use e.g. during handover to UTRAN.
1>	in case a predefined configuration with the same identity but different value tag was stored:
2>	overwrite this one with the new configuration read via system information for later use e.g. during handover to UTRAN.
The above handling applies regardless of whether the previously stored predefined configuration information has been obtained via UTRA or via another RAT.
The UE is not required to complete reading of all occurrences of System Information Block type 16 before initiating RRC connection establishment.
The UE is not required to store more than maxPredefConfig preconfigurations even in the case of multiple equivalent PLMNs.
8.1.1.6.17	System Information Block type 17
This system information block type is used only for TDD.
If in connected mode, the UE should store all relevant IEs included in this system information block. The UE shall:
1>	if the IE "PDSCH system information" and/or the IE "PUSCH system information" is included, store each of the configurations given there with the associated identity given in the IE "PDSCH Identity" and/or "PUSCH Identity" respectively. This information shall become invalid after the time specified by the repetition period (SIB_REP) for this system information block.
If in idle mode, the UE shall not use the values of the IEs in this system information block.
8.1.1.6.18	System Information Block type 18
If the System Information Block type 18 is present, a UE shall obtain knowledge of the PLMN identity of the neighbour cells to be considered for cell reselection, and shall behave as specified in this subclause and in subclause 8.5.14a.
The UE should store all the relevant IEs included in this system information block.
A UE in idle mode shall act according to the following rules:
1>	if System Information Block type 11ter is scheduled on BCH and the IE "Idle mode PLMN identities for SIB 11ter" is present:
2>	any PLMN list of a given type (IEs "PLMNs of inter-frequency cells list" or "Multiple PLMNs of inter-frequency cells list") included in the IE "Idle mode PLMN identities for SIB 11ter" is paired with the list of cells of the same type derived from System Information Block type 11ter if scheduled on BCH.
1>	if System Information Block type 11bis is scheduled on BCH; and the IE "Idle mode PLMN identities for SIB 11bis" is present: 
2>	any PLMN list of a given type (IEs "PLMNs of intra-frequency cells list" or "Multiple PLMNs of intra-frequency cells list", "PLMNs of inter-frequency cells list" or "Multiple PLMNs of inter-frequency cells list", "PLMNs of inter-RAT cell lists") included in the IE "Idle mode PLMN identities for SIB 11bis" is paired with the list of cells of the same type derived from System Information Block type 11 and System Information Block type 11bisif scheduled on BCH.
1>	else:
2>	any PLMN list of a given type (IEs "PLMNs of intra-frequency cells list" or "Multiple PLMNs of intra-frequency cells list", "PLMNs of inter-frequency cells list" or "Multiple PLMNs of inter-frequency cells list", "PLMNs of inter-RAT cell lists") included in the IE "Idle mode PLMN identities" is paired with the list of cells of the same type derived from System Information Block type 11 and System Information Block type 11bis if scheduled on BCH.
1>	the PLMN identity located at a given rank in the PLMN list is that of the cell with the same ranking in the paired list of cells, the cells being considered in the increasing order of their associated identities ("Intra-frequency cell id", "Inter-frequency cell id", "Inter-RAT cell id");
1>	if no identity is indicated for the first PLMN in a list, the UE shall assume that the neighbouring cell broadcasts the same PLMN configuration (i.e. IE "PLMN Identity" and IE "Multiple PLMN List") as the current cell;
1>	if no identity is indicated for another entry in the list, the UE shall assume that the neighbouring cell broadcasts the same PLMN configuration (i.e. IE "PLMN Identity" and IE "Multiple PLMN List") as the previous cell in the list;
1>	if the number of identities in a PLMN list exceeds the number of neighbour cells in the paired list (if any), the extra PLMN identities are considered as unnecessary and ignored;
1>	if the number of identities in a PLMN list (if any) is lower than the number of neighbour cells in the paired list, the missing PLMN identities are replaced by the PLMN configuration for the last cell in the list.
A UE in connected mode shall act in the same manner as a UE in idle mode with the following modifications:
1>	if System Information Block type 11ter is scheduled on BCH:
2>	the PLMN lists to be considered are the ones included, when present, in the IE "Connected mode PLMN identities for SIB 11ter";
2>	otherwise, the UE shall use, in place of any missing list, when present, the corresponding one in the IE "Idle mode PLMN identities for SIB 11ter".
1>	if System Information Block type 11bis is scheduled on BCH:
2>	the PLMN lists to be considered are the ones included, when present, in the IE "Connected mode PLMN identities for SIB 11bis";
2>	otherwise, the UE shall use, in place of any missing list, when present, the corresponding one in the IE "Idle mode PLMN identities for SIB11bis";
2>	otherwise, the UE shall use, in place of any missing list, when present, the corresponding one in the IE "Connected mode PLMN identities";
2>	otherwise, the UE shall use, in place of any missing list, the corresponding one in the IE "Idle mode PLMN identities".
1>	else:
2>	the PLMN lists to be considered are the ones included, when present, in the IE "Connected mode PLMN identities";
2>	otherwise, the UE shall use, in place of any missing list, the corresponding one in the IE "Idle mode PLMN identities".
1>	the paired lists of cells are the ones derived from System Information Block type 11, System Information Block type 11bis and System Information Block type 11ter, if scheduled on BCH, and System Information Block type 12 if present.
If both the IEs "PLMNs of intra-frequency cells list" and "Multiple PLMNs of intra-frequency cells list" are included or if both the IEs "PLMNs of inter-frequency cells list" and "Multiple PLMNs of inter-frequency cells list" are included:
1>	the UE behaviour is not specified.
8.1.1.6.19	System Information Block type 19
If the cell is not operating in MBSFN mode according to subclause 8.1.1.6.3 the UE should store all relevant IEs included in this system information block. If the cell is not operating in MBSFN mode according to subclause 8.1.1.6.3 the UE shall:
1>	if the value of the IE "Priority status" in the variable PRIORITY_INFO_LIST equals "dedicated_priority":
2>	clear every stored value of "Threshx, high", "Threshx, low", "Threshx, high2", "Threshx, low2" , "EUTRA-RSRQ-offsetWB" and "EUTRA-RSRQOnAllSymbolsO ffset" in every occurrence of the IE "Priority Info List" in the variable PRIORITY_INFO_LIST.
1>	otherwise:
2>	clear the variable PRIORITY_INFO_LIST.
1>	clear the variable EUTRA_FREQUENCY_INFO_LIST;
1>	act upon the received IE "UTRA priority info list" as described in subclause 8.6.7.3a;
1>	if the IE "GSM priority info list" is present:
2>	act upon the received IE as described in subclause 8.6.7.3b.
1>	if the IE "E-UTRA frequency and priority info list" is present:
2>	act upon the received IE as described in subclause 8.6.7.3c.
1>	if the IE "E-UTRA frequency RACH reporting information" is present; and
1>	if the UE supports E-UTRA RACH reporting:
2>	store the IE "E-UTRA frequency RACH reporting information" into the variable EUTRA_FREQUENCY_INFO_LIST_FACH and act upon the received IE as described in subclause 8.5.23.
8.1.1.6.20	System Information Block type 20
If the cell is not operating in MBSFN mode according to subclause 8.1.1.6.3, the UE shall:
1>	if the IE "HNB Name" is present:
2>	forward the content of IE "HNB Name" to the upper layers.
8.1.1.6.21	System Information Block type 21
The EAB capable UE should store all relevant IEs included in this system information block. If the IE "EAB Parameters" is included, the EAB capable UE shall:
1>	if the IE "EAB Parameters For All" is included in the IE "EAB Parameters":
2>	select the IE "EAB Parameters For All".
1>	else:
2>	select the entry in the IE "EAB Parameters Per PLMN List" in the IE "EAB Parameters" corresponds to the PLMN chosen by the UE.
1>	if in idle mode:
2>	if the IE "CS Domain Specific EAB parameters" or the IE "Common EAB parameters" is included in the selected Domain Specific EAB Parameters:
3>	act on the IE "EAB Access Class Barred List" when initiating RRC Connection establishment to send an INITIAL DIRECT TRANSFER message to the CS domain, if upper layers indicate that the connection request is subject to EAB and the UE belongs to the category of UEs as indicated in the IE "EAB Category".
2>	if the IE "PS Domain Specific EAB parameters" or the IE "Common EAB parameters" is included in the selected Domain Specific EAB Parameters:
3>	act on the IE "EAB Access Class Barred List" when initiating RRC Connection establishment to send an INITIAL DIRECT TRANSFER message to the PS domain, if upper layers indicate that the connection request is subject to EAB and the UE belongs to the category of UEs as indicated in the IE "EAB Category".
1>	if in connected mode:
2>	store the selected Domain Specific EAB Parameters to the variable "EAB_PARAM" upon transition to RRC connected and maintain the variable until it is cleared, the PLMN chosen by the UE is changed or the RRC connection is released;
2>	if the IE "CS Domain Specific EAB parameters" or the IE "Common EAB parameters" is included in the stored Domain Specific EAB Parameters in variable "EAB_PARAM":
3>	act on the IE "EAB Access Class Barred List" when initiating an INITIAL DIRECT TRANSFER message to the CS domain, if upper layers indicate that the connection request is subject to EAB and the UE belongs to the category of UEs as indicated in the IE "EAB Category" and signalling connection to the PS domain is already established.
2>	if the IE "PS Domain Specific EAB parameters" or the IE "Common EAB parameters" is included in the stored Domain Specific EAB Parameters in variable "EAB_PARAM":
3>	act on the IE "EAB Access Class Barred List" when initiating an INITIAL DIRECT TRANSFER message to the PS domain, if upper layers indicate that the connection request is subject to EAB and the UE belongs to the category of UEs as indicated in the IE "EAB Category" and signalling connection to the CS domain is already established.
8.1.1.6.22	System Information Block type 22
The UE should store all relevant IEs included in this system information block.
8.1.1.6.23	System Information Block type 23
The UE that supports RAN-assisted WLAN interworking should store all relevant IEs included in this system information block. The UE that supports RAN-assisted WLAN interworking shall: 
1>	if the IE "WLAN Offload Information Per PLMN List" is included:
2>	select the instance in the IE "WLAN Offload Information Per PLMN List" corresponding to the PLMN chosen by the UE.
1>	else:
2>	select the instance in the IE "WLAN Offload Information common for all PLMN".
1>	store the received information elements of the selected instance in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO, clearing and replacing any previously stored information;
1>	if the UE is in Idle mode, CELL_PCH, URA_PCH, or CELL_FACH state; and
1>	if the variable WLAN_OFFLOAD_INFO is empty: 
2>	use the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO as specified in [4], and forward it to the upper layers.
8.1.1.6.24	System Information Block type 24
The UE should read and store all relevant IEs included in this system information block in the variable CONNECTED_MODE_ACCESS_CONTROL. 
The UE shall:
1>	if in CELL_FACH state:
2>	if the n-th Bit in the IE "DTCH transmission blocked" in the variable CONNECTED_MODE_ACCESS_CONTROL is changed from 0 to 1, where n is the value stored in the IE "Access Group identity" in the variable CONNECTED_MODE_ACCESS_CONTROL:
3>	configure RLC entities mapped onto the logical channel DTCH to not submit any data PDUs to lower layers.
2>	else:
3>	if the n-th Bit in the IE "DTCH transmission blocked" in the variable CONNECTED_MODE_ACCESS_CONTROL is changed from 1 to 0, where n is the value stored in the IE "Access Group identity" in the variable CONNECTED_MODE_ACCESS_CONTROL:
4>	configure RLC entities mapped onto the logical channel DTCH to allow submitting data PDUs to lower layers.
1>	if in CELL_PCH state or URA_PCH state:
2>	if the n-th Bit in the IE "DTCH transmission blocked" in the variable CONNECTED_MODE_ACCESS_CONTROL is changed from 0 to 1, where n is the value stored in the IE "Access Group identity" in the variable CONNECTED_MODE_ACCESS_CONTROL:
3>	not trigger a measurement report procedure or not initiate the cell update procedure with cell update cause "uplink data transmission".
NOTE:	Measurement report and cell update procedures that are triggered by uplink RLC control PDU are permitted.
8.1.1.6.25	System Information Block type 25
The ACDC capable UE should store all relevant IEs included in this system information block in the variable ACDC_ACCESS_CONTROL.
The ACDC capable UE shall:
1>	if the IE "ACDC Parameters For All" is included in the IE "ACDC Parameters":
2>	if the PLMN chosen by the UE is the Home PLMN; or
2> 	if the PLMN chosen by the UE is not the Home PLMN and the "ACDC applicable for Roamer" IE is present:
3>	in case of no ACDC category is indicated by upper layer, or in case that the ACDC category indicated by upper layers has no matching ACDC barring information in System Information Block type 25, act as if the ACDC category is equal to the lowest ACDC category broadcasted in System Information Block type 25;
3>	when initiating an RRC Connection establishment to the PS domain, if the access for the ACDC category indicated by upper layers is barred according to the IE "ACDC Information", as specified in [4], indicate to upper layers that the access barring is due to ACDC;
3>	if the access for the ACDC category indicated by upper layers is changed from barred to not barred, act on the IE "ACDC-ACB-barringBitmap" when initiating an RRC Connection establishment to the PS domain.
1>	else:
2>	select the entry in the IE "ACDC Parameters Per PLMN List" in the IE "ACDC Parameters" which corresponds to the PLMN chosen by the UE;
2>	if the chosen PLMN is the Home PLMN of the UE; or
2> if the PLMN chosen by the UE is not the Home PLMN and the "ACDC applicable for Roamer" IE is present:
3>	in case of no ACDC category is indicated by upper layer, or in case that the ACDC category indicated by upper layers has no matching ACDC barring information in System Information Block type 25, act as if the ACDC category is equal to the lowest ACDC category broadcasted in System Information Block type 25;
3>	when initiating an RRC Connection establishment to the PS domain, if the ACDC category indicated by upper layers is barred according to the IE "ACDC Information", as specified in [4], indicate to upper layers that the access barring is due to ACDC;
3>	if the access for the ACDC category indicated by upper layers is changed from barred to not barred, act on the IE "ACDC-ACB-barringBitmap" when initiating an RRC Connection establishment to the PS domain.
For the ACDC capable UE, if ACDC access barring is configured, DSAC (PS domain) and ACB will be ignored.
8.1.1.7	Modification of system information
For System Information Block type 15.2, 15.3 and 16 that may have multiple occurrences, the UE shall handle each occurrence independently as specified in the previous; that is each occurrence is handled as a separate system information block.
NOTE:	It should be noted that for the proper operation of the BCCH Modification Information sent on a PCH or on an HS-DSCH (FDD and 1.28 Mcps TDD only), the System Information should not be changed more frequently than can be accommodated by mobile stations operating at the maximum DRX cycle length supported by the UTRAN.
8.1.1.7.1	Modification of system information blocks using a value tag
Upon modifications of system information blocks using value tags on system information broadcast channel, UTRAN should notify the new value tag for the master information block in the IE "BCCH modification info". Upon modifications of system information blocks using value tags on second system information broadcast channel, UTRAN should notify the new value tag for the Scheduling Block 3 in the IE "BCCH modification info". The notification is transmitted in the following way:
1>	to reach UEs in idle mode, and in CELL_PCH state and URA_PCH state with S-CCPCH assigned, the IE "BCCH modification info" is contained in a PAGING TYPE 1 message transmitted on the PCCH in all paging occasions in the cell;
1>	to reach UEs in CELL_PCH state and URA_PCH state with HS-DSCH assigned and no dedicated H-RNTI assigned, the IE "BCCH modification info" is contained in a PAGING TYPE 1 message transmitted on the PCCH in all paging occasions in the cell;
1>	to reach UEs in CELL_FACH state or TDD UEs in CELL_DCH with S-CCPCH assigned, the IE "BCCH modification info" is contained in a SYSTEM INFORMATION CHANGE INDICATION message transmitted on the BCCH mapped on at least one FACH on every Secondary CCPCH in the cell;
1>	for FDD and 1.28 Mcps TDD, to reach UEs in CELL_FACH state with HS-DSCH assigned and in CELL_PCH with HS-DSCH and dedicated H-RNTI assigned, the IE "BCCH modification info" is contained in a SYSTEM INFORMATION CHANGE INDICATION message transmitted on the BCCH mapped on the HS-PDSCH indicated with the first indexed HS-SCCH code by the BCCH specific H-RNTI.
If both the IE "ETWS information" and the IE "BCCH modification info" are present in a PAGING TYPE 1, an ETWS capable UE in idle mode shall:
1>	if the value of IE "MIB value tag" in the IE "BCCH modification info" is different from the value tag stored in the variable VALUE_TAG:
2>	set the variable BCCH_MODIFICATION_ACCESS_PROHIBITION to TRUE;
2>	prohibit any RRC connection establishment attempt according to 8.1.8.2.
Upon reception of a PAGING TYPE 1 message or a SYSTEM INFORMATION CHANGE INDICATION message containing the IE "BCCH modification info" containing the IE "MIB value tag" but not containing the IE "BCCH modification time", the UE shall perform actions as specified in subclause 8.1.1.7.3.
If the IE "BCCH modification time" is included the UE shall perform actions as specified in subclause 8.1.1.7.2.
8.1.1.7.2	Synchronised modification of system information blocks
For modification of some system information elements, e.g. reconfiguration of the channels, it is important for the UE to know exactly when a change occurs. In such cases, the UTRAN should notify the SFN when the change will occur as well as the new value tag for the master information block or scheduling block 3 in the IE "BCCH modification info" transmitted in the following way:
1>	To reach UEs in idle mode, CELL_PCH state and URA_PCH state, the IE "BCCH modification info" is contained in a PAGING TYPE 1 message transmitted on the PCCH in all paging occasions in the cell;
1>	To reach UEs in CELL_FACH state or TDD UEs in CELL_DCH with SCCPCH assigned, the IE "BCCH modification info" is contained in a SYSTEM INFORMATION CHANGE INDICATION message transmitted on the BCCH mapped on at least one FACH on every Secondary CCPCH in the cell;
1>	for FDD and 1.28 Mcps TDD, to reach UEs in CELL_FACH state with HS-DSCH assigned and in CELL_PCH with HS-DSCH and dedicated H-RNTI assigned, the IE "BCCH modification info" is contained in a SYSTEM INFORMATION CHANGE INDICATION message transmitted on the BCCH mapped on the HS-PDSCH indicated with the first indexed HS-SCCH code by the BCCH specific H-RNTI. For 1.28 Mcps TDD, the BCCH is transmitted on frequencies where CELL_FACH state UEs stay and UE detects the BCCH specific H-RNTI on its working frequency.
Upon reception of a PAGING TYPE 1 message or a SYSTEM INFORMATION CHANGE INDICATION message containing the IE "BCCH modification info" containing the IE "MIB value tag" and containing the IE "BCCH modification time", the UE shall:
1>	perform the actions as specified in subclause 8.1.1.7.3 at the time, indicated in the IE "BCCH Modification Info".
8.1.1.7.3	Actions upon system information change
The UE shall:
1>	compare the value of IE "MIB value tag" in the IE "BCCH modification info" with the value tag stored for the master information block in variable VALUE_TAG:
1>	if the value tags differ:
2>	read the master information block on BCH;
2>	if the value tag of the master information block in the system information is the same as the value in IE "MIB value tag" in "BCCH modification info" but different from the value tag stored in the variable VALUE_TAG:
3>	perform actions as specified in subclause 8.1.1.5.
2>	if the value tag of the master information block in the system information is the same as the value tag stored in the variable VALUE_TAG:
3>	for the next occurrence of the master information block:
4>	perform actions as specified in subclause 8.1.1.7.3 again.
2>	if the value tag of the master information block in the system information is different from the value tag stored in the variable VALUE_TAG, and is different from the value in IE "MIB value tag" in "BCCH modification info":
3>	perform actions as specified in subclause 8.1.1.5;
3>	if (VTCI-VTMIB) mod 8 < 4, where VTCI is the value tag in the IE "MIB value tag" in "BCCH modification info" and VTMIB is the value tag of the master information block in the system information:
4>	for the next occurrence of the master information block:
5>	perform actions as specified in subclause 8.1.1.7.3 again.
1>	compare the value of IE "SB3 value tag" if present in the IE "BCCH modification info" with the value tag stored for the scheduling block 3 in variable VALUE_TAG;
1>	if the value tags differ:
2>	acquire Scheduling Block 3 (SB3) on the second system information broadcast channel.
8.1.1.7.4	Actions upon expiry of a system information expiry timer
When the expiry timer of a system information block not using a value tag expires
the UE shall:
1>	consider the content of the system information block invalid;
1>	re-acquire the system information block again before the content can be used.
In FDD for system information blocks other than System Information Block type 7, or in states other than CELL_FACH, or in state CELL_FACH and in the second DRX cycle after expiry of T329 as specified in subclause 8.5.49b; or
In TDD for system information blocks other than System Information Block type 14, or in states other than CELL_FACH or CELL_DCH:
the UE may:
1>	postpone reading the system information block until the content is needed.
In FDD for System Information Block type 24:
1>	if the UE in CELL_FACH state, CELL_PCH state or URA_PCH state:
2>	if the UE does not have a value stored in the IE "Access Group identity" in variable CONNECTED_MODE_ACCESS_CONTROL; or
2>	the UE does not have data to transmit:
3>	the UE shall not re-acquire the system information block.
2>	else
3>	if the UE has a value stored in the IE "Access Group identity" in variable CONNECTED_MODE_ACCESS_CONTROL; and
3>	if the UE is in CELL_FACH state, CELL_PCH state or URA_PCH state:
4>	the UE may postpone reading the system information block until it has data to transmit.
In FDD for System Information Block type 25:
1>	if the UE in Idle mode:
2>	the UE may postpone reading the system information block until upper layers requests the establishment of a signalling connection towards the PS domain.
1>	else:
2>	the UE shall not re-acquire the system information block.
In FDD for System Information Block type 7, while in state CELL_FACH and not in the second DRX cycle after expiry of T329 as specified in subclause 8.5.49b, and in TDD for System Information Block type 14, while in state CELL_FACH or CELL DCH the UE shall always keep an up to date version of the relevant IEs, unless this is not possible because system information can not be received due to bad radio conditions or the UE uses System Information Block type 7 in the variable SYSTEM_INFORMATION_CONTAINER.
8.1.1.8	Reception of System Information Container by the UE
If the UE was redirected from a different RAT:
1>	if the UE receives the System Information Container message corresponding to a cell, on which UE is camped after a cell selection procedure triggered by the redirection procedure:
2>	the UE may store the System Information Container message into variable SYSTEM_INFORMATION_CONTAINER and use the stored master information block, scheduling blocks and system information blocks in the variable SYSTEM_INFORMATION_CONTAINER until the variable is cleared, and act as if this system information was scheduled on BCCH of this cell.
NOTE:	The UE may assume that the System Information Container contains a set of system information, such that no reception of system information is needed on the cell where the UE is camped after a cell selection procedure triggered by the redirection procedure.
8.1.2	Paging

Figure 8.1.2-1: Paging
8.1.2.1	General
This procedure is used to transmit paging information to selected UEs in idle mode, CELL_PCH or URA_PCH state using the paging control channel (PCCH). Upper layers in the network may request paging, to e.g. establish a signalling connection. UTRAN may initiate paging for UEs in CELL_PCH or URA_PCH state to trigger a cell update procedure and for UEs in CELL_PCH when the variable HSPA_RNTI_STORED_PCH is set to TRUE to trigger a measurement report procedure. In addition, UTRAN may initiate paging for UEs in idle mode, CELL_PCH and URA_PCH state to trigger reading of updated system information. UTRAN may also initiate paging for UEs in CELL_PCH and URA_PCH state to release the RRC connection.
8.1.2.2	Initiation
UTRAN initiates the paging procedure by transmitting a PAGING TYPE 1 message on an appropriate paging occasion on the PCCH.
UTRAN may repeat transmission of a PAGING TYPE 1 message to a UE in several paging occasions to increase the probability of proper reception of a page.
UTRAN may page several UEs in the same paging occasion by including one IE "Paging record" for each UE in the PAGING TYPE 1 message.
For CN originated paging, UTRAN should set the IE "Paging cause" to the cause for paging received from upper layers. If no cause for paging is received from upper layers, UTRAN should set the value "Terminating – cause unknown".
UTRAN may also indicate that system information has been updated, by including the value tag of the master information block in the IE "BCCH modification info" in the PAGING TYPE 1 message. In this case, UTRAN may omit the IEs "Paging record".
UTRAN may also indicate to send Primary Notification for ETWS, by including in the IE "ETWS information" in the PAGING TYPE 1 message. In this case, UTRAN may omit the IEs "Paging record".
8.1.2.3	Reception of a PAGING TYPE 1 message by the UE
A UE in idle mode, CELL_PCH state or URA_PCH state shall receive the paging information for all its monitored paging occasions. For a UE in idle mode, the paging occasions are specified in [4] and depend on the IE "CN domain specific DRX cycle length coefficient", as specified in subclause 8.6.3.1a. For a UE in CELL_PCH state or URA_PCH state, the paging occasions depend also on the IE "UTRAN DRX cycle length coefficient" and the IE "RRC State Indicator", as specified in subclauses 8.6.3.2 and 8.6.3.3 respectively.
When the UE receives a PAGING TYPE 1 message, it shall perform the actions as specified below.
If the UE is in idle mode, for each occurrence of the IE "Paging record" included in the message the UE shall:
1>	if the IE "Used paging identity" is a CN identity:
2>	compare the IE "UE identity" with all of its allocated CN UE identities:
2>	if one match is found:
3>	indicate reception of paging; and
3>	forward the IE "CN domain identity", the IE "UE identity" and the IE "Paging cause" to the upper layers.
1>	otherwise:
2>	ignore that paging record.
If the UE is in connected mode, for each occurrence of the IE "Paging record" included in the message the UE shall:
1>	if the IE "Used paging identity" is a UTRAN single UE identity and if this U-RNTI is the same as the U-RNTI allocated to the UE stored in the UE variable U_RNTI:
2>	if the optional IE "CN originated page to connected mode UE" is included:
3>	indicate reception of paging; and
3>	forward the IE "CN domain identity", the IE "Paging cause" and the IE "Paging record type identifier" to the upper layers.
2>	if the IE "Release indicator" in the IE "RRC connection release information" has the value "Release":
3>	release all its radio resources;
3>	indicate the release of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to the upper layers;
3>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
3>	clear the variable ESTABLISHED_RABS;
3>	pass the value of the IE "Release cause" received in the IE "Release information" to upper layers;
3>	enter idle mode;
3>	perform the actions specified in subclause 8.5.2 when entering idle mode;
3>	and the procedure ends.
2>	otherwise:
3>	if variable HSPA_RNTI_STORED_PCH is set to TRUE:
4>	move to CELL_FACH state as specified in subclause 8.5.56.
3>	else:
4>	perform a cell update procedure with cause "paging response" as specified in subclause 8.3.1.2.
2>	ignore any other remaining IE "Paging record" that may be present in the message.
1>	if the IE "Used paging identity" is a UTRAN group identity and there is a group identity match according to subclause 8.6.3.13:
2>	if the IE "Release indicator" in the IE "RRC connection release information" has the value "Release":
3>	release all its radio resources;
3>	indicate the release of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to the upper layers;
3>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
3>	clear the variable ESTABLISHED_RABS;
3>	pass the value of the IE "Release cause" received in the IE “Release information” to upper layers;
3>	enter idle mode;
3>	perform the actions specified in subclause 8.5.2 when entering idle mode;
3>	and the procedure ends.
2>	otherwise:
3>	if variable HSPA_RNTI_STORED_PCH is set to TRUE:
4>	move to CELL_FACH state as specified in subclause 8.5.56.
3>	else:
4>	perform a cell update procedure with cause "paging response" as specified in subclause 8.3.1.2.
2>	ignore any other remaining IE "Paging record" that may be present in the message.
1>	otherwise:
2>	ignore that paging record.
If the IE "BCCH modification info" is included, any UE in idle mode, CELL_PCH or URA_PCH state shall perform the actions as specified in subclause 8.1.1 in addition to any actions caused by the IE "Paging record" occurrences in the message as specified above.
If the IE "ETWS information" is included and RRC is configured to receive ETWS, an ETWS capable UE in idle mode, CELL_PCH or URA_PCH state shall perform the actions as specified in subclause 8.6.8a.1 in addition to any actions caused by the IE "Paging record" or the IE "BCCH modification info" occurrences in the message as specified above.
8.1.3	RRC connection establishment

Figure 8.1.3-1: RRC Connection Establishment, network accepts RRC connection

Figure 8.1.3-2: RRC Connection Establishment, network rejects RRC connection
8.1.3.1	General
The purpose of this procedure is to establish an RRC connection.
8.1.3.2	Initiation
The UE shall initiate the procedure when upper layers in the UE requests the establishment of a signalling connection and the UE is in idle mode (no RRC connection exists), as specified in subclause 8.1.8.
Upon initiation of the procedure, the UE shall:
1>	set the variable PROTOCOL_ERROR_INDICATOR to FALSE;
1>	if the USIM is present:
2>	set the value of "THRESHOLD" in the variable "START_THRESHOLD" to the 20 MSBs of the value stored in the USIM [50] for the maximum value of START for each CN Domain.
1>	if the SIM is present:
2>	set the value of "THRESHOLD" in the variable "START_THRESHOLD" to the default value in [40] for each CN Domain.
1>	set the IE "Initial UE identity" in the variable INITIAL_UE_IDENTITY according to subclause 8.5.1;
1>	set the contents of the RRC CONNECTION REQUEST message according to subclause 8.1.3.3;
1>	set CFN in relation to SFN of current cell according to subclause 8.5.15;
1>	perform the mapping of the Access Class to an Access Service Class as specified in subclause 8.5.13, and apply the given Access Service Class when accessing the RACH or the common E-DCH (for the Enhanced Uplink in CELL_FACH state and Idle mode);
1>	submit the RRC CONNECTION REQUEST message for transmission on the uplink CCCH;
1>	set counter V300 to 1; and
1>	if the variable ESTABLISHMENT_CAUSE is set to "MBMS reception":
2>	when the MAC layer indicates success or failure to transmit the message:
3>	if the MAC layer indicates failure:
4>	enter idle mode;
4>	consider the procedure to be unsuccessful;
4>	perform other actions when entering idle mode from connected mode as specified in subclause 8.5.2;
4>	the procedure ends.
3>	else:
4>	start timer T318;
4>	apply value 0 for counter N300 regardless of the value included in IE "UE Timers and Constants in idle mode".
1>	otherwise:
2>	start timer T300 when the MAC layer indicates success or failure to transmit the message.
1>	for 3.84 Mcps and 7.68 Mcps TDD; or
1>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_FACH state; or
1>	if the IE "HS-DSCH common system information" is not included in System Information Block type 5 or System Information Block type 5bis; or
1>	for 1.28 Mcps TDD, if the IE "Common E-DCH system info" is not included in System Information Block type 5:
2>	select a Secondary CCPCH according to [4];
2>	start receiving all FACH transport channels mapped on the selected Secondary CCPCH.
1>	otherwise:
2>	set variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to TRUE; and
2>	start receiving the HS-DSCH according to the procedure in subclause 8.5.37.
8.1.3.3	RRC CONNECTION REQUEST message contents to set
The UE shall, in the transmitted RRC CONNECTION REQUEST message:
1>	set the IE "Establishment cause" to the value of the variable ESTABLISHMENT_CAUSE;
1>	set the IE "Initial UE identity" to the value of the variable INITIAL_UE_IDENTITY;
1>	set the IE "Protocol error indicator" to the value of the variable PROTOCOL_ERROR_INDICATOR; and
1>	include the IE "Predefined configuration status information" and set this IE to TRUE if  the UE has all pre- configurations stored with the same value tag as broadcast in the cell in which the RRC connection establishment is initiated;
1>	if the UE is attempting to establish the signalling connection to PS-domain:
2>	include the IE "Domain Indicator" and set it to "PS domain".
1>	else if the UE is attempting to establish the signalling connection to CS domain:
2>	include the IE "Domain Indicator" and set it to "CS domain";
2>	set the value of the IE "CS Call type" to "speech", "video" or "other" according to the call being initiated.
1>	if the UE only supports HS-DSCH but not E-DCH:
2>	include the IE "UE capability indication" and set it to the "HS-DSCH" value.
1>	if the UE supports HS-DSCH and E-DCH:
2>	include the IE "UE capability indication" and set it to the "HS-DSCH+E-DCH" value. 
1>	if, according to [4], the High-mobility state is applicable and it has been detected by the UE:
2>	include the IE "UE Mobility State Indicator" and set it to the "High-MobilityDetected" value.
1>	if the UE performs connection establishment for MBMS ptp radio bearer request as specified in subclause 8.6.9.6; and
1>	if one or more of the MBMS services for which the UE initiates the ptp radio bearer request concerns an MBMS Selected Service:
2>	for each MBMS Selected Service that is indicated on MCCH and for which the UE initiates the ptp radio bearer request:
3>	order the MBMS Selected Services such that those selected with a higher priority are listed in the IE "MBMS Selected Services Short" before those selected with a lower priority;
3>	include the IE "MBMS Selected Service ID" within the IE "MBMS Selected Services Short" and set it to a value in accordance with subclause 8.6.9.8.
1>	otherwise if the UE performs connection establishment for MBMS counting as specified in subclause 8.7.4; and
1>	if one or more of the MBMS services for which the UE initiates the counting response concerns an MBMS Selected Service:
2>	for each MBMS Selected Service that is indicated on MCCH and for which the UE initiates the counting response:
3>	order the MBMS Selected Services such that those selected with a higher priority are listed in the IE "MBMS Selected Services Short" before those selected with a lower priority;
3>	include the IE "MBMS Selected Service ID" within the IE "MBMS Selected Services Short" and set it to a value in accordance with subclause 8.6.9.8.
1>	if the UE included one or more "MBMS Selected Service ID" IEs:
2>	include the IE "MBMS Modification Period identity" and set it to a value in accordance with subclause 8.5.29.
1>	if the UE supports MAC-ehs:
2>	include the IE "MAC-ehs support" and set it to TRUE.
1>	if the UE supports HS-DSCH reception in CELL_FACH state:
2>	include the IE "HS-PDSCH in CELL_FACH" and set it to TRUE.
1>	if the UE supports Enhanced Uplink in CELL_FACH state and Idle mode:
2>	include the IE "Support of common E-DCH" and set it to TRUE.
NOTE:	In 1.28 Mcps TDD, UE supporting HS-DSCH reception in CELL_FACH state always supports Enhanced Uplink in CELL_FACH state and Idle mode, and vice versa.
1>	if the UE supports MAC-i/is:
2>	include the IE "Support of MAC-i/is" and set it to TRUE.
1>	if the UE supports E-UTRA:
2>	if the UE is attempting to establish the signalling connection as a result of being redirected by E-UTRA; and
2>	if this is the first attempt to establish the signalling connection:
3>	do not include the IE "Pre-Redirection info".
2>	else:
3>	if the variable EUTRA_FREQUENCY_INFO_LIST contains no E-UTRA frequencies:
4>	include the IE "Pre-Redirection info";
4>	if the UE supports E-UTRA FDD:
5>	set the IE "Support of E-UTRA FDD" to TRUE.
4>	if the UE supports E-UTRA TDD:
5>	set the IE "Support of E-UTRA TDD" to TRUE.
3>	if the UE supports any of the bands that the E-UTRA frequencies included in the variable EUTRA_FREQUENCY_INFO_LIST belong to:
4>	include the IE "Pre-Redirection info";
4>	if the UE supports any of the bands that the E-UTRA FDD frequencies included in the variable EUTRA_FREQUENCY_INFO_LIST belong to:
5>	set the IE "Support of E-UTRA FDD" to TRUE.
4>	if the UE supports any of the bands that the E-UTRA TDD frequencies included in the variable EUTRA_FREQUENCY_INFO_LIST belong to:
5>	set the IE "Support of E-UTRA TDD" to TRUE.
1>	if the variable SYSTEM_INFORMATION_CONTAINER is not empty:
2>	include the IE "System Information Container Stored Indication" and set it to TRUE.
1>	For FDD, if the UE supports dual cell operation on adjacent frequencies:
2>	include the IE "Multi cell support" and set it to TRUE;
2>	if the UE supports dual cell with MIMO operation on adjacent frequencies:
3>	include the IE "Dual cell MIMO support" and set it to TRUE.
2>	if the UE supports multi-cell operation on more than two cells:
3>	if the UE is of HS-DSCH category 30 or 32 or 34 or 35 or 36 or 38 according to [35]:
4>	include the IE "More than two cell or MIMO mode with four transmit antennas support" and set it to "higher rate".
3>	otherwise:
4>	include the IE "More than two cell or MIMO mode with four transmit antennas support" and set it to "lower rate".
2>	else if the UE supports multi-cell operation on two cells:
3>	if the UE is of HS-DSCH category 37 according to [35]:
4>	include the IE "More than two cell or MIMO mode with four transmit antennas support" and set it to "lower rate".
1>	For 1.28 Mcps TDD, if the UE supports MU-MIMO:
2>	if the UE supports uplink and downlink MU-MIMO:
3>	include the IE "More than two cell support" and set it to "higher rate".
2>	if the UE supports uplink MU-MIMO only:
3>	include the IE "More than two cell support" and set it to "lower rate".
1>	if the UE supports CS voice over HSPA:
2>	include the IE "Support for CS Voice over HSPA" and set it to TRUE.
1>	if the IE "Support of the first Frequency Band" in variable FREQUENCY_BAND_INDICATOR_SUPPORT is set to TRUE:
2>	include the IE "Support of the first Frequency Band" and set it to TRUE.
1>	if the IE "Support of the second Frequency Band" in variable FREQUENCY_BAND_INDICATOR_SUPPORT is set to TRUE:
2>	include the IE "Support of the second Frequency Band" and set it to TRUE.
1>	if the UE is attempting to establish the signalling connection to CS domain due to CSFB call initiated in E-UTRA:
2>	 include the IE "CSFB Indication" and set it to TRUE.
The UE shall not include the IE "UE Specific Behaviour Information 1 idle".
8.1.3.4	Reception of an RRC CONNECTION REQUEST message by the UTRAN
Upon receiving an RRC CONNECTION REQUEST message, UTRAN should either:
1>	accept the request and use a predefined or default radio configuration, in which case it should:
2> include the following information in the RRC CONNECTION SETUP message:
3> the IE "Predefined configuration identity", to indicate which pre-defined configuration of RB and, transport channel parameters shall be used; or
3>	the IE "Default configuration mode" and IE "Default configuration identity", to indicate which default configuration of RB and transport channel parameters shall be used;
3>	PhyCH information elements.
2> submit the RRC CONNECTION SETUP message to the lower layers for transmission on the downlink CCCH.
NOTE 1:	UTRAN should only apply a predefined radio configuration in case it orders the UE to enter CELL_DCH. This is because the predefined configuration information included in System Information Block 16 mandatorily includes information only required in CELL_DCH state.
1>	accept the request without using a predefined or default radio configuration, in which case it should:
2>	include in the RRC CONNECTION SETUP message the complete set of RB, TrCH and PhyCH information elements to be used;
2>	submit the RRC CONNECTION SETUP message to the lower layers for transmission on the downlink CCCH.
NOTE 2:	In R'99, the RRC CONNECTION SETUP message always includes the IEs "Added or Reconfigured TrCH information list", both for uplink and downlink transport channels, even if UTRAN orders the UE to move to CELL_FACH and hence need not configure any transport channels. In these cases, UTRAN may include a configuration that adds little to the encoded message size e.g. a DCH with a single zero size transport format. At a later stage, UTRAN may either remove or reconfigure this configuration.
1>	submit an RRC CONNECTION REJECT message on the downlink CCCH. In the RRC CONNECTION REJECT message, the UTRAN may direct the UE to another UTRA carrier or to another system. The UTRAN may direct the UE to E-UTRAN FDD only if the IE "Pre-Redirection info" is present in the RRC CONNECTION REQUEST message and the IE "Support of E-UTRA FDD" is set to TRUE; the UTRAN may direct the UE to E-UTRAN TDD only if the IE "Pre-Redirection info" is present in the RRC CONNECTION REQUEST message and the IE "Support of E-UTRA TDD" is set to TRUE. After the RRC CONNECTION REJECT message has been sent, all context information for the UE may be deleted in UTRAN.
NOTE 3:	UTRAN should not send RRC CONNECTION REJECT message to direct UE to E-UTRAN if there is no means for UTRAN to determine that UE subscription allows UE access to E-UTRAN.
8.1.3.5	Cell re-selection, T300 or T318 timeout
1>	if the UE has not yet received an RRC CONNECTION SETUP message with the value of the IE "Initial UE identity" equal to the value of the variable INITIAL_UE_IDENTITY; and
1>	if cell re-selection or expiry of timer T300 or timer T318 occurs:
the UE shall:
1>	if the UE performs cell reselection:
2>	clear the variable SYSTEM_INFORMATION_CONTAINER.
1>	check the value of V300; and
2>	if V300 is equal to or smaller than N300:
3>	if cell re-selection occurred:
4>	set CFN in relation to SFN of current cell according to subclause 8.5.15;
4>	for FDD and 1.28 Mcps TDD, if the UE supports HS-DSCH reception in CELL_FACH state and if IE: "HS-DSCH common system information" is included in System Information Block type 5 or System Information Block type 5bis:
5>	if variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE:
6>	reset the MAC-ehs entity [15].
5>	else:
6>	set the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to TRUE;
6>	start receiving the HS-DSCH according to the procedure in subclause 8.5.37.
3>	set the IEs in the RRC CONNECTION REQUEST message according to subclause 8.1.3.3;
3>	perform the mapping of the Access Class to an Access Service Class as specified in subclause 8.5.13; and
3>	apply the given Access Service Class when accessing the RACH or the common E-DCH (for the Enhanced Uplink in CELL_FACH state and Idle mode);
3>	submit a new RRC CONNECTION REQUEST message to lower layers for transmission on the uplink CCCH;
3>	increment counter V300;
3>	restart timer T300 when the MAC layer indicates success or failure to transmit the message.
2>	if V300 is greater than N300:
3>	if the UE supports logging of failed RRC Connection Establishment, perform the actions specified in subclause 8.1.3.11;
3>	if the UE supports RRC Connection Establishment failure temporary Qoffset and RRC Connection Establishment failure has occurred a consecutive "ConnEst Fail Count" times on the same cell for which "Tx Fail Params" is included in System Information Block Type 3:
4>	for a period as indicated by "Offset Validity":
5>	use "ConnEst Fail Qoffset,temp" for the parameter Qoffsettemp for the concerned cell when performing cell selection and reselection according to TS 25.304 [4] and TS 36.304 [66].
NOTE :	When performing cell selection, if no suitable or acceptable cell can be found, it is up to UE implementation whether to stop using "ConnEst Fail Qoffset,temp" for the parameter Qoffsettemp during "Offset Validity" for the concerned cell.
3>	enter idle mode;
3>	consider the procedure to be unsuccessful;
3>	Other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2;
3>	the procedure ends.
8.1.3.5a	Abortion of RRC connection establishment
If the UE has not yet entered UTRA RRC Connected mode and the RRC connection establishment is to be aborted as specified in subclause 8.1.8, the UE shall:
1>	consider the procedure to be unsuccessful;
1>	perform the actions when entering idle mode as specified in subclause 8.5.2.
The procedure ends.
8.1.3.6	Reception of an RRC CONNECTION SETUP message by the UE
The UE shall compare the value of the IE "Initial UE identity" in the received RRC CONNECTION SETUP message with the value of the variable INITIAL_UE_IDENTITY.
If the values are different, the UE shall:
1>	ignore the rest of the message.
If the values are identical, the UE shall:
1>	if IE "Specification mode" is set to "Preconfiguration" and IE "Preconfiguration mode" is set to "Predefined configuration":
2>	initiate the radio bearer and transport channel configuration in accordance with the predefined parameters identified by the IE "Predefined configuration identity" with the following exception:
3> ignore the IE "RB to setup list" and the IE "Re- establishment timer".
NOTE:	IE above IEs are mandatory to include in IE “Predefined RB configuration” that is included in System Information Block 16 but should be ignored since it is not possible to establish a RAB during RRC connection establishment.
2>	initiate the physical channels in accordance with the received physical channel information elements.
1>	if IE "Specification mode" is set to "Preconfiguration" and IE "Preconfiguration mode" is set to "Default configuration":
2>	initiate the radio bearer and transport channel configuration in accordance with the default parameters identified by the IE "Default configuration mode" and IE "Default configuration identity" with the following exception:
3>	ignore the radio bearers other than signalling radio bearers.
2>	initiate the physical channels in accordance with the received physical channel information elements.
NOTE:	IE "Default configuration mode" specifies whether the FDD or TDD version of the default configuration shall be used.
1>	if IE "Specification mode" is set to "Complete specification":
2>	initiate the radio bearer, transport channel and physical channel configuration in accordance with the received radio bearer, transport channel and physical channel information elements.
1>	if IE "Default configuration for CELL_FACH" is set:
2>	act in accordance with the default parameters according to section 13.8.
1>	clear the variable ESTABLISHMENT_CAUSE;
1>	for FDD and 1.28 Mcps TDD, if the HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE:
2>	set the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to FALSE.
1>	stop timer T300 or T318, whichever one is running, and act upon all received information elements as specified in subclause 8.6, unless specified otherwise in the following:
2>	if the UE, according to subclause 8.6.3.3, will be in the CELL_FACH state at the conclusion of this procedure:
3>	if the IE "Frequency info" is included:
4>	select a suitable UTRA cell according to [4] on that frequency;
4>	for 1.28Mcps TDD, decide the working frequency according to subclause 8.6.6.1.
3>	else:
4>	for 1.28Mcps TDD, continue to use the currently used frequency as working frequency.
3>	enter UTRA RRC connected mode;
3>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
3>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
3>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
3>	if variable READY_FOR_COMMON_EDCH is set to FALSE:
4>	select PRACH according to subclause 8.5.17.
3>	else:
4>	configure the Enhanced Uplink in CELL_FACH state and Idle mode as specified in subclause 8.5.45 for FDD and 8.5.45a for 1.28 Mcps TDD.
3>	for 3.84 Mcps and 7.68 Mcps TDD; or
3>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_FACH state; or
3>	if the IE "HS-DSCH common system information" is not included in System Information Block type 5 or System Information Block type 5bis; or
3> for 1.28 Mcps TDD, if the IE "Common E-DCH system info" is not included in System Information Block type 5:
4>	select Secondary CCPCH according to subclause 8.5.19.
3>	else:
4>	set variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to FALSE;
4>	For FDD if variable READY_FOR_COMMON_EDCH is set to FALSE:
5>	if the RBs have the multiplexing option with transport channel type "HS-DSCH" for the DL and transport channel type “RACH” in the UL; and
5>	if "new H-RNTI" and "new C-RNTI" are included:
6>	store the "new H-RNTI" according to subclause 8.6.3.1b;
6>	store the "new C-RNTI" according to subclause 8.6.3.9;
6>	and start to receive HS-DSCH according to the procedure in subclause 8.5.36.
5>	else:
6>	clear variable C_RNTI and delete any stored C-RNTI value;
6>	clear variable H_RNTI and delete any stored H-RNTI value;
6>	clear any stored IE "HARQ Info";
6>	set the variable INVALID_CONFIGURATION to TRUE.
4>	else:
5>	if the RBs have the multiplexing option with transport channel type "HS-DSCH" for the DL and transport channel type "E-DCH" in the UL; and
5>	if the IEs "new Primary E-RNTI", "new H-RNTI" and "new C-RNTI" are included:
6>	store the "new Primary E-RNTI" according to subclause 8.6.3.14;
6>	store the "new H-RNTI" according to subclause 8.6.3.1b;
6>	store the "new C-RNTI" according to subclause 8.6.3.9;
6>	configure Enhanced Uplink in CELL_FACH state and Idle mode according to subclause 8.5.45 for FDD and 8.5.45a for 1.28 Mcps TDD;
6>	and start to receive HS-DSCH according to the procedure in subclause 8.5.36.
5>	else:
6>	clear variable C_RNTI and delete any stored C-RNTI value;
6>	clear variable H_RNTI and delete any stored H-RNTI value;
6>	clear variable E_RNTI and delete any stored E-RNTI value; 
6>	clear any stored IE "HARQ Info";
6>	set the variable INVALID_CONFIGURATION to TRUE.
3>	ignore the IE "UTRAN DRX cycle length coefficient" and stop using DRX.
1>	if the UE, according to subclause 8.6.3.3, will be in the CELL_DCH state at the conclusion of this procedure:
2>	perform the physical layer synchronisation procedure A as specified in [29] (FDD only);
2>	enter UTRA RRC connected mode;
2>	ignore the IE "UTRAN DRX cycle length coefficient" and stop using DRX.
1>	submit an RRC CONNECTION SETUP COMPLETE message to the lower layers on the uplink DCCH after successful state transition per subclause 8.6.3.3, with the contents set as specified below:
2>	set the IE "RRC transaction identifier" to:
3>	the value of "RRC transaction identifier" in the entry for the RRC CONNECTION SETUP message in the table "Accepted transactions" in the variable TRANSACTIONS; and
3>	clear that entry.
2>	if the USIM or SIM is present:
3>	set the "START" for each CN domain in the IE "START list" in the RRC CONNECTION SETUP COMPLETE message with the corresponding START value that is stored in the volatile memory of the ME if the USIM [50], or the SIM is present.
2>	if neither the USIM nor SIM is present:
3>	set the "START" for each CN domain in the IE "START list" in the RRC CONNECTION SETUP COMPLETE message to zero;
3>	set the value of "THRESHOLD" in the variable "START_THRESHOLD" to the default value [40].
2>	retrieve its UTRA UE radio access capability information elements from variable UE_CAPABILITY_REQUESTED; and then
2>	include this in IE "UE radio access capability" and IE "UE radio access capability extension", provided this IE is included in variable UE_CAPABILITY_REQUESTED;
2>	retrieve its inter-RAT-specific UE radio access capability information elements from variable UE_CAPABILITY_REQUESTED; and then
2>	include this in IE "UE system specific capability";
2>	if the UE supports contiguous multi-cell operation on four cells in the same band, include the IE "Additional Secondary Cells" in the IE "UE radio access capability extension" and set it to 'a2' for the supported bands; otherwise, if the UE supports contiguous multi-cell operation on three cells in the same band, include the IE "Additional Secondary Cells" in the IE "UE radio access capability extension" and set it to 'a1' for the supported bands;
2>	if the UE supports contiguous multi-cell operation on eight cells in the same band, include the IE "Additional Secondary Cells 2" in the IE "UE radio access capability extension" and set it to 'a6' for the supported bands;
2>	if the UE supports contiguous multi-cell operation on seven cells in the same band, include the IE "Additional Secondary Cells 2" in the IE "UE radio access capability extension" and set it to 'a5' for the supported bands;
2>	if the UE supports contiguous multi-cell operation on six cells in the same band, include the IE "Additional Secondary Cells 2" in the IE "UE radio access capability extension" and set it to 'a4' for the supported bands;
2>	if the UE supports contiguous multi-cell operation on five cells in the same band, include the IE "Additional Secondary Cells 2" in the IE "UE radio access capability extension" and set it to 'a3' for the supported bands;
2>	if the UE supports non-contiguous multi-cell operation on two cells in the same band:
3>	set the IE "Aggregated cells" in IE "Non-contiguous multi-cell" in the IE "UE radio access capability extension" to 'nc-2c' for the supported band;
3>	set the IE "Gap size" in IE "Non-contiguous multi-cell" in the IE "UE radio access capability extension" for the supported band to 'fiveMHz' or 'tenMHz' or 'anyGapSize', or
2>	if the UE supports non-contiguous multi-cell operation on three cells in the same band:
3>		set the IE "Aggregated cells" in IE "Non-contiguous multi-cell" in the IE "UE radio access capability extension" to 'nc-3c' for the supported band;
3>	set the IE "Gap size" in IE "Non-contiguous multi-cell" in the IE "UE radio access capability extension" for the supported band to 'fiveMHz' or 'tenMHz' or 'anyGapSize', or
2>	if the UE supports non-contiguous multi-cell operation on four cells in the same band:
3>		set the IE "Aggregated cells" in IE "Non-contiguous multi-cell" in the IE "UE radio access capability extension" to 'nc-4c' for the supported band;
3>	set the IE "Gap size" in IE "Non-contiguous multi-cell" in the IE "UE radio access capability extension" for the supported band to 'fiveMHz' or 'tenMHz' or 'anyGapSize';
3>	if the UE supports an equal number of contiguous cells on each side of the gap, include the IE "Non-contiguous multi-cell Combination (2,2)";
3>	if the UE supports a different number of contiguous cells on each side of the gap, include the IE "Non-contiguous multi-cell Combination (3,1) (1,3)".
2>	if the UE supports Multiflow operation on two cells on one frequency:
3>	set the IE "Number of cells" in IE "Multiflow per band capability" to two cells;
3>	set the IE "Number of frequencies" in IE "Multiflow per band capability" to one frequency.
2>	if the UE supports Multiflow operation on three cells on two frequencies in the same band:
3>	set the IE "Number of cells" in IE "Multiflow per band capability" to three cells;
3>	set the IE "Number of frequencies" in IE "Multiflow per band capability" to two frequencies.
2>	if the UE supports Multiflow operation on four cells on two frequencies in the same band:
3>	set the IE "Number of cells" in IE "Multiflow per band capability" to four cells;
3>	set the IE "Number of frequencies" in IE "Multiflow per band capability" to two frequencies.
2>	if the UE supports Multiflow operation on four cells on three frequencies in the same band:
3>	set the IE "Number of cells" in IE "Multiflow per band capability" to four cells;
3>	set the IE "Number of frequencies" in IE "Multiflow per band capability" to three frequencies.
2>	if the UE support Multiflow operation on three or four non-contiguous cells in the same band:
3>	set the IE "Gap size" in IE "Multiflow per band capability".
2>	if the UE supports Multiflow operation with MIMO:
3>	set IE "MIMO support" in IE "Multiflow per band capability" to single or dual stream MIMO transmission in all the frequency bands where the Multiflow operation is supported;
3>	if the UE needs more processing to generate HARQ feedback for Multiflow with MIMO operation:
4>	set IE "Longer HARQ processing time" in IE "Multiflow capability".
2>	if the UE supports Multiflow operation on three or four cells on two frequencies in different bands:
3>	set the IE "Supported Multiflow Combination" in IE "Radio Access Capability Band Combination List";
3>	if the UE supports three cells on two frequencies in different bands:
4>	set the IE "Number of cells in band A" to two cells;
4>	set the IE "Number of cells in band B" to one cell;
4>	set the IE "Number of frequencies in band A" to one frequency;
4>	set the IE "Number of frequencies in band B" to one frequency.
3>	if the UE supports four cells on two frequencies in different bands:
4>	set the IE "Number of cells in band A" to two cells;
4>	set the IE "Number of cells in band B" to two cells;
4>	set the IE "Number of frequencies in band A" to one frequency;
4>	set the IE "Number of frequencies in band B" to one frequency. 
3>	if the UE supports four cells on three frequencies in different bands:
4>	set the IE "Number of cells in band A" to three cells;
4>	set the IE "Number of cells in band B" to one cell;
4>	set the IE "Number of frequencies in band A" to two frequencies;
4>	set the IE "Number of frequencies in band B" to one frequency.
3>	if the UE supports MIMO with Multiflow in different bands:
4>	set IE "Support for Multiflow with MIMO operation in different bands" in IE "Multiflow capability".
2>	if the variable DEFERRED_MEASUREMENT_STATUS is TRUE: 
3>	if System Information Block type 11 is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block; or
3>	if System Information Block type 11bis is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block; or
3>	if System Information Block type 11ter is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block; or
3>	if System Information Block type 12 is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block:
4>	include IE "Deferred measurement control reading".
2>	if an IE "Logged Measurement Info-FDD" or "Logged Measurement Info-TDD" in variable LOGGED_MEAS_REPORT_VARIABLE is present and registered PLMN is present in the IE "PLMN Identity List" stored in variable LOGGED_MEAS_REPORT_VARIABLE:
3>	include IE "Logged Meas Available".
2>	if an IE "Logged ANR Report Info" in variable LOG_ ANR_REPORT_VARIABLE is present and the registered PLMN is the same as one of the PLMNs in the IE "PLMN Identity" or IE "Equivalent PLMN Identity List" stored in variable LOG_ANR_REPORT_VARIABLE:
3>	include IE "ANR Logging Results Available".
2>	if an IE "Logged Connection Establishment Failure Info-FDD" or "Logged Connection Establishment Failure Info-TDD" in variable LOGGED_CONNECTION_ESTABLISHMENT_FAILURE is present and the current Registered PLMN is the same as the PLMN in IE "PLMN Identity" stored in variable LOGGED_CONNECTION_ESTABLISHMENT_FAILURE:
3>	include IE "Connection Establishment Failure Info Available".
NOTE:	If the "RRC State indicator" is set to the value "CELL_FACH", the UE continues to read and store the IEs in System Information Block type 11, System Information Block type 11bis, System Information Block type 11ter, System Information Block type 12, System Information Block type 18 and System Information Block type 19, if transmitted, after submitting the RRC Connection Setup Complete message to lower layers (see 8.5.31).
When the RRC CONNECTION SETUP COMPLETE message has been submitted to lower layers for transmission the UE shall:
1>	if the UE has entered CELL_DCH state:
2>	clear the variable SYSTEM_INFORMATION_CONTAINER;
2>	if the IE "Deferred measurement control reading" was included in the RRC CONNECTION SETUP COMPLETE message:
3>	clear variable MEASUREMENT_IDENTITY;
3>	clear the variable CELL_INFO_LIST.
2>	if the UE supports RAN-assisted WLAN interworking:
3>	stop the timer T330, if it is running;
3>	stop using the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO, and forward this indication to the upper layers;
3>	if the variable WLAN_OFFLOAD_INFO is not empty:
4>	use the information stored in the variable WLAN_OFFLOAD_INFO as specified in [4], and forward it to the upper layers.
1>	if the UE has entered CELL_FACH state:
2>	if the variable SYSTEM_INFORMATION_CONTAINER is not empty:
3>	the UE behaviour is unspecified.
2>	start timer T305 using its initial value if periodical update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity" in the variable TIMERS_AND_CONSTANTS;
2>	if the UE supports RAN-assisted WLAN interworking:
3>	stop the timer T330, if it is running;
3>	if the variable WLAN_OFFLOAD_INFO is not empty:
4>	use the information stored in the variable WLAN_OFFLOAD_INFO as specified in [4], and forward it to the upper layers.
3>	else:
4>	use the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO as specified in [4] and forward it to the upper layers.
1>	store the contents of the variable UE_CAPABILITY_REQUESTED in the variable UE_CAPABILITY_TRANSFERRED;
1>	initialise variables upon entering UTRA RRC connected mode as specified in subclause 13.4;
1>	consider the procedure to be successful.
And the procedure ends.
8.1.3.7	Physical channel failure or cell re-selection
1>	If the UE failed to establish, per subclause 8.5.4, the physical channel(s) indicated in the RRC CONNECTION SETUP message; or
1>	if the UE performs cell re-selection; or
1>	if the UE will be in the CELL_FACH state at the conclusion of this procedure; and
1>	if the received RRC CONNECTION SETUP message included the IE "Frequency info" and the UE could not find a suitable UTRA cell on that frequency but it could find a suitable UTRA cell on another frequency; or
1>	if the received RRC CONNECTION SETUP message included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selected another cell than indicated by this IE; or
1>	if the contents of the variable C_RNTI is empty;
1>	after having received an RRC CONNECTION SETUP message with the value of the IE "Initial UE identity" equal to the value of the variable INITIAL_UE_IDENTITY; and
1>	before the RRC CONNECTION SETUP COMPLETE message is delivered to lower layers for transmission:
the UE shall:
1>	clear the entry for the RRC CONNECTION SETUP message in the table "Accepted transactions" in the variable TRANSACTIONS;
1>	clear the variable SYSTEM_INFORMATION_CONTAINER;
1>	check the value of V300, and:
2>	if V300 is equal to or smaller than N300:
3>	set CFN in relation to SFN of current cell according to subclause 8.5.15;
3>	set the IEs in the RRC CONNECTION REQUEST message according to subclause 8.1.3.3;
3>	perform the mapping of the Access Class to an Access Service Class as specified in subclause 8.5.13, and apply the given Access Service Class when accessing the RACH or the common E-DCH (for the Enhanced Uplink in CELL_FACH and Idle mode);
3>	submit a new RRC CONNECTION REQUEST message to the lower layers for transmission on the uplink CCCH;
3>	increment counter V300; and
3>	restart timer T300 when the MAC layer indicates success or failure in transmitting the message.
2>	if V300 is greater than N300:
3>	if the UE supports logging of failed RRC Connection Establishment, perform the actions specified in subclause 8.1.3.11;
3>	enter idle mode;
3>	perform the actions specified in subclause 8.5.2 when entering idle mode from connected mode;
3>	consider the RRC establishment procedure to be unsuccessful;
3>	the procedure ends.
8.1.3.8	Invalid RRC CONNECTION SETUP message, unsupported configuration or invalid configuration
If the UTRAN instructs the UE to use a configuration, which it does not support e.g., the message includes a pre-defined configuration that the UE has not stored and/or if the received message causes the variable UNSUPPORTED_CONFIGURATION or the variable INVALID_CONFIGURATION to be set to TRUE the UE shall perform procedure specific error handling as specified in this subclause.
If the UE receives an RRC CONNECTION SETUP message which contains an IE "Initial UE identity" with a value which is identical to the value of the variable INITIAL_UE_IDENTITY, but the RRC CONNECTION SETUP message contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	stop timer T300 or T318, whichever one is running; and
1>	clear the entry for the RRC CONNECTION SETUP message in the table "Rejected transactions" in the variable TRANSACTIONS and proceed as below.
If the UE receives an RRC CONNECTION SETUP message which contains an IE "Initial UE identity" with a value which is identical to the value of the variable INITIAL_UE_IDENTITY:
1>	if the RRC CONNECTION SETUP message contained a configuration the UE does not support; and/or
1>	if the variable UNSUPPORTED_CONFIGURATION becomes set to TRUE due to the received RRC CONNECTION SETUP message; and/or
1>	if the variable INVALID_CONFIGURATION becomes set to TRUE due to the received RRC CONNECTION SETUP message:
the UE shall:
1>	stop timer T300 or T318, whichever one is running; and
1>	clear the entry for the RRC CONNECTION SETUP message in the table "Accepted transactions" in the variable TRANSACTIONS and proceed as below.
If V300 is equal to or smaller than N300, the UE shall:
1>	set the variable PROTOCOL_ERROR_INDICATOR to TRUE;
1>	set the IEs in the RRC CONNECTION REQUEST message according to subclause 8.1.3.3;
1>	perform the mapping of the Access Class to an Access Service Class as specified in subclause 8.5.13; and
1>	apply the given Access Service Class when accessing the RACH or the common E-DCH (for the Enhanced Uplink in CELL_FACH and Idle mode);
1>	submit a new RRC CONNECTION REQUEST message to the lower layers for transmission on the uplink CCCH;
1>	increment counter V300; and
1>	restart timer T300 when the MAC layer indicates success or failure in transmitting the message.
If V300 is greater than N300, the UE shall:
1>	if the UE supports logging of failed RRC Connection Establishment, perform the actions specified in subclause 8.1.3.11;
1>	enter idle mode;
1>	perform the actions specified in subclause 8.5.2 when entering idle mode from connected mode;
1>	consider the RRC establishment procedure to be unsuccessful;
1>	the procedure ends.
8.1.3.9	Reception of an RRC CONNECTION REJECT message by the UE
When the UE receives an RRC CONNECTION REJECT message on the downlink CCCH, it shall compare the value of the IE "Initial UE identity" in the received RRC CONNECTION REJECT message with the value of the variable INITIAL_UE_IDENTITY:
If the values are different, the UE shall ignore the rest of the message;
If the values are identical, the UE shall:
1>	stop timer T300 or T318, whichever one is running; and
1>	clear the entry for the RRC CONNECTION REJECT message in the table "Accepted transactions" in the variable TRANSACTIONS;
1>	if the UE has disabled cell reselection to a UTRA carrier due to an earlier RRC CONNECTION REJECT message, the UE shall resume cell reselection to that UTRA carrier;
1>	if the Rejection Cause is 'unspecified' and the IE "Counting Completion" is present, the UE shall terminate an ongoing MBMS counting procedure according to subclause 8.7.4.4;
1>	if the IE "wait time" <> '0'; and
1>	if the IE "frequency info" is present and:
2>	if V300 is equal to or smaller than N300:
3>	select a suitable UTRA cell according to [4] on that frequency;
3>	after having selected and camped on a suitable cell on the designated UTRA carrier:
4>	set CFN in relation to SFN of current cell according to subclause 8.5.15;
4>	set the contents of the RRC CONNECTION REQUEST message according to subclause 8.1.3.3;
4>	perform the mapping of the Access Class to an Access Service Class as specified in subclause 8.5.13, and apply the given Access Service Class when accessing the RACH or the common E-DCH (for the Enhanced Uplink in CELL_FACH and Idle mode);
4>	transmit an RRC CONNECTION REQUEST message on the uplink CCCH;
4>	reset counter V300;
4>	start timer T300 when the MAC layer indicates success or failure in transmitting the message;
4>	disable cell reselection to original UTRA carrier until the time stated in the IE "wait time" has elapsed or until the RRC connection establishment procedure ends, whichever occurs first.
3>	if no suitable cell on the designated UTRA carrier is found:
4>	wait for at least the time stated in the IE "wait time";
4>	set CFN in relation to SFN of current cell according to subclause 8.5.15;
4>	set the IEs in the RRC CONNECTION REQUEST message according to subclause 8.1.3.3;
4>	perform the mapping of the Access Class to an Access Service Class as specified in subclause 8.5.13, and apply the given Access Service Class when accessing the RACH or the common E-DCH (for the Enhanced Uplink in CELL_FACH and Idle mode);
4>	then submit a new RRC CONNECTION REQUEST message to the lower layers for transmission on the uplink CCCH of the original serving cell;
4>	increment counter V300;
4>	restart timer T300 when the MAC layer indicates success or failure to transmit the message.
2>	if V300 is greater than N300:
3>	if the UE supports logging of failed RRC Connection Establishment, perform the actions specified in subclause 8.1.3.11;
3>	enter idle mode;
3>	perform the actions specified in subclause 8.5.2 when entering idle mode from connected mode;
3>	consider the RRC establishment procedure to be unsuccessful;
3>	the procedure ends.
1>	if the IE "inter-RAT info" is present:
2>	if the IE "wait time" = '0':
3>	the UE behaviour is not specified.
2>	if V300 is equal to or smaller than N300:
3>	if the IE "GSM target cell info" is present:
4>	attempt to camp on a suitable cell of the list of cells indicated for that RAT;
4>	if the UE selects and camps on one of the cells indicated for that RAT:
5>	disable cell reselection to the original RAT until the time stated in the IE "wait time" has elapsed.
4>	if the UE cannot find any suitable cell from the indicated ones within 10s, the UE is allowed to camp on any suitable cell on that RAT.
5>	after having selected and camped on a suitable cell on the designated RAT:
6>	the UE may disable cell reselection to the original RAT until the time stated in the IE "wait time" has elapsed.
3>	if the IE "E-UTRA target info" is present:
4>	attempt to camp on a suitable cell on one of the frequencies indicated for that RAT, excluding any cell indicated in the list of not allowed cells for that RAT (i.e. the "blacklisted cells per freq list" for E-UTRA), if present;
4>	if the UE selects and camps on one such cell:
5>	disable cell reselection to the original RAT until the time stated in the IE "wait time" has elapsed.
4>	if the UE cannot find any suitable cell on the indicated frequencies within 10s, the UE is allowed to camp on any suitable cell on that RAT:
5>	after having selected and camped on a suitable cell on the designated RAT:
6>	disable cell reselection to the original RAT until the time stated in the IE "wait time" has elapsed.
3>	if neither the IE "GSM target cell info" nor the IE "E-UTRA target info" is present:
4>	select a suitable cell in the designated RAT;
4>	after having selected and camped on a suitable cell on the designated RAT:
5>	disable cell reselection to the original RAT until the time stated in the IE "wait time" has elapsed or until the UE successfully establishes a connection on the designated RAT, whichever occurs first.
3>	if no suitable cell in the designated RAT is found:
4>	wait at least the time stated in the IE "wait time";
4>	set CFN in relation to SFN of current cell according to subclause 8.5.15;
4>	set the IEs in the RRC CONNECTION REQUEST message according to subclause 8.1.3.2;
4>	perform the mapping of the Access Class to an Access Service Class as specified in subclause 8.5.13, and apply the given Access Service Class when accessing the RACH or the common E-DCH (for the Enhanced Uplink in CELL_FACH and Idle mode);
4>	then submit a new RRC CONNECTION REQUEST message to the lower layers for transmission on the uplink CCCH;
4>	increment counter V300;
4>	restart timer T300 when the MAC layer indicates success or failure to transmit the message.
2>	if V300 is greater than N300:
3>	if the UE supports logging of failed RRC Connection Establishment, perform the actions specified in subclause 8.1.3.11;
3>	enter idle mode;
3>	perform the actions specified in subclause 8.5.2 when entering idle mode from connected mode;
3>	consider the RRC establishment procedure to be unsuccessful;
3>	the procedure ends.
1>	if the IE "wait time" <> '0'; and
1>	if neither the IEs "frequency info" nor "inter-RAT info" are present:
2>	if V300 is equal to or smaller than N300:
3>	wait at least the time stated in the IE "wait time";
3>	set the IEs in the RRC CONNECTION REQUEST message according to subclause 8.1.3.2;
3>	perform the mapping of the Access Class to an Access Service Class as specified in subclause 8.5.13, and apply the given Access Service Class when accessing the RACH or the common E-DCH (for the Enhanced Uplink in CELL_FACH and Idle mode);
3>	submit a new RRC CONNECTION REQUEST message to the lower layers for transmission on the uplink CCCH;
3>	increment counter V300;
3>	restart timer T300 when the MAC layer indicates success or failure to transmit the message.
2>	if V300 is greater than N300:
3>	if the UE supports logging of failed RRC Connection Establishment, perform the actions specified in subclause 8.1.3.11;
3>	enter idle mode;
3>	perform the actions specified in subclause 8.5.2 when entering idle mode from connected mode;
3>	consider the RRC establishment procedure to be unsuccessful;
3>	the procedure ends.
1>	if the IE "wait time" = '0':
2>	if the IE "Extended Wait Time" is present and the UE supports "delay tolerant access":
3>	forward the IE "Extended Wait Time" to the upper layers.
2>	enter idle mode;
2>	perform the actions specified in subclause 8.5.2 when entering idle mode from connected mode;
2>	consider the RRC establishment procedure to be unsuccessful;
2>	the procedure ends.
8.1.3.10	Invalid RRC CONNECTION REJECT message
If the UE receives an RRC CONNECTION REJECT message which contains an IE "Initial UE identity" with a value which is identical to the value of the IE "Initial UE identity" in the most recent RRC CONNECTION REQUEST message sent by the UE; but the RRC CONNECTION REJECT message contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows:
The UE shall:
1>	stop timer T300 or T318, whichever one is running; and
1>	clear the entry for the RRC CONNECTION REJECT message in the table "Rejected transactions" in the variable TRANSACTIONS;
1>	if V300 is equal to or smaller than N300:
2>	set the variable PROTOCOL_ERROR_INDICATOR to TRUE;
2>	set the IEs in the RRC CONNECTION REQUEST message according to subclause 8.1.3.3;
2>	perform the mapping of the Access Class to an Access Service Class as specified in subclause 8.5.13, and apply the given Access Service Class when accessing the RACH or the common E-DCH (for the Enhanced Uplink in CELL_FACH and Idle mode);
2>	submit a new RRC CONNECTION REQUEST message to the lower layers for transmission on the uplink CCCH;
2>	increment counter V300;
2>	restart timer T300 when the MAC layer indicates success or failure to transmit the message.
1>	if V300 is greater than N300:
2>	if the UE supports logging of failed RRC Connection Establishment, perform the actions specified in subclause 8.1.3.11;
2>	enter idle mode;
2>	perform the actions specified in subclause 8.5.2 when entering idle mode from connected mode;
2>	consider the procedure to be successful;
2>	the procedure ends.
8.1.3.11	Logging of failed RRC Connection Establishment
If the RRC connection establishment fails and the UE supports logging of failed RRC Connection Establishment, the UE shall perform logging of information for later retrieval. The UE shall store connection establishment failure information in the variable LOGGED_CONNECTION_ESTABLISHMENT_FAILURE by setting its fields as follows:
1>	clear the information included in the variable LOGGED_CONNECTION_ESTABLISHMENT_FAILURE, if any;
1>	set the IE "PLMN Identity" to the same value as the selected PLMN [4];
1>	set the IE "Number Of RRC Msg Transmitted" to indicate the number of times the RRC CONNECTION REQUEST message was transmitted by the UE during the failed RRC Connection Establishment procedure;
1>	for TDD:
2>	set the IE "FPACH Received" to TRUE if FPACH was received during the failed RRC Connection Establishment procedure;
2>	if common E-DCH was used, include the IE "E-RUCCH Failure" and set it to TRUE if failure indication of the E-RUCCH transmission was received during the failed RRC Connection Establishment procedure.
1>	if detailed location information is available:
2>	if the UE has been able to calculate a 3-dimensional position:
3>	set the IE "Ellipsoid point with altitude" or the IE "Ellipsoid point with altitude and uncertainty ellipsoid" to include the location coordinates.
2>	else:
3>	set the IE "Ellipsoid point" or the IE "Ellipsoid point with uncertainty circle" or the IE  "Ellipsoid point with uncertainty ellipse" to include the location coordinates.
2>	if horizontal velocity information is available:
3>	set the IE "Horizontal velocity" to include the horizontal velocity.
2>	a value of the IE "Confidence", different from "0" should be calculated, as the probability that the UE is located within the uncertainty region of the one of the IEs "Ellipsoid point with uncertainty ellipse" or "Ellipsoid point with altitude and uncertainty ellipsoid".
1>	set the IE "PLMN Identity" of the Logged Measurements Failed Cell to indicate the IE "PLMN Identity" obtained from system information of the cell where the connection establishment failure was detected;
1>	set the IE "Cell ID" to indicate cell identity obtained from system information of the cell where the connection establishment failure was detected;
1>	set the IE "CPICH Ec/N0" and "CPICH RSCP" to include measured quantities of the cell where the connection establishment failure was detected for UTRA FDD;
1>	set the "P-CCPCH RSCP" to include measured quantities for the cell where the connection establishment failure was detected for UTRA 1.28 Mcps TDD;
1>	set the IE "Logged Measurements Intra Frequency Neighbouring Cells list", "Logged Measurements Inter Frequency list", "Logged Measurements E-UTRA frequency list", "Logged Measurements E-UTRA frequency extension list", in order of decreasing ranking quantity as used for cell re-selection in each frequency for at most the following number of neighbouring cells; 6 intra-frequency and 3 inter-frequency neighbours per frequency as well as 3 inter-RAT neighbours, per frequency per RAT;
1>	set the IE "Logged Measurements GSM Neighbouring Cells list" in order of decreasing RXLEV.
NOTE:	The UE includes the latest available results of the measurement performed for cell reselection, which are performed in accordance with the regular performance requirements as specified in [19].
8.1.4	RRC connection release

Figure 8.1.4-1: RRC Connection Release procedure on the DCCH

Figure 8.1.4-2: RRC Connection Release procedure on the CCCH
8.1.4.1	General
The purpose of this procedure is to release the RRC connection including all radio bearers and all signalling radio bearers between the UE and the UTRAN. By doing so, all established signalling connections will be released.
8.1.4.2	Initiation
When the UE is in state CELL_DCH or CELL_FACH or CELL_PCH (FDD only), the UTRAN may at anytime initiate an RRC connection release by transmitting an RRC CONNECTION RELEASE message using UM RLC.
When UTRAN transmits an RRC CONNECTION RELEASE message the downlink DCCH should be used, if available. If the downlink DCCH is not available in UTRAN and the UE is in CELL_FACH state, the downlink CCCH may be used.
UTRAN may transmit several RRC CONNECTION RELEASE messages to increase the probability of proper reception of the message by the UE. In such a case, the RRC SN for these repeated messages should be the same. The number of repeated messages and the interval between the messages is a network option.
8.1.4.3	Reception of an RRC CONNECTION RELEASE message by the UE
The UE shall receive and act on an RRC CONNECTION RELEASE message in states CELL_DCH and CELL_FACH and CELL_PCH (FDD only). Furthermore this procedure can interrupt any ongoing procedures with the UE in the above listed states.
When the UE receives the first RRC CONNECTION RELEASE message; and
1>	if the message is received on the CCCH, and IE "U-RNTI" is present and has the same value as the variable U_RNTI; or
1>	if the message is received on DCCH:
the UE shall perform the RRC connection release procedure as specified below.
When the UE receives the first RRC CONNECTION RELEASE message; and 
1>	if the message is received on the CCCH, the IE "UTRAN group identity" is present and there is a group identity match according to subclause 8.6.3.13:
the UE shall perform the RRC connection release procedure as specified below.
The UE shall:
1>	in state CELL_DCH:
2>	initialise the counter V308 to zero;
2>	set the IE "RRC transaction identifier" in the RRC CONNECTION RELEASE COMPLETE message to the value of "RRC transaction identifier" in the entry for the RRC CONNECTION RELEASE message in the table "Accepted transactions" in the variable TRANSACTIONS;
2>	submit an RRC CONNECTION RELEASE COMPLETE message to the lower layers for transmission using UM RLC on the DCCH to the UTRAN;
2>	if the IE "Rplmn information" is present:
3>	the UE may:
4>	store the IE on the ME together with the PLMN id for which it applies.
3>	the UE may then:
4>	utilise this information, typically indicating where a number of BCCH frequency ranges of a RAT may be expected to be found, during subsequent Rplmn selections of the indicated PLMN.
2>	if the IE "UE Mobility State Indicator" is present:
3>	consider the High-mobility state to have being detected when entering idle mode.
2>	start timer T308 when the RRC CONNECTION RELEASE COMPLETE message is sent on the radio interface;
2>	if the IE "Extended Wait Time" is present and the UE supports "delay tolerant access":
3>	forward the IE "Extended Wait Time" to the upper layers with the indication of the CN Domain used in RRC CONNECTION REQUEST message.
1>	in state CELL_FACH:
2>	if the RRC CONNECTION RELEASE message was received on the DCCH:
3>	set the IE "RRC transaction identifier" in the RRC CONNECTION RELEASE COMPLETE message to	the value of "RRC transaction identifier" in the entry for the RRC CONNECTION RELEASE message in the table "Accepted transactions" in the variable TRANSACTIONS;
3>	submit an RRC CONNECTION RELEASE COMPLETE message to the lower layers for transmission using AM RLC on the DCCH to the UTRAN;
3>	when the successful transmission of the RRC CONNECTION RELEASE COMPLETE message has been confirmed by the lower layers:
4>	release all its radio resources; and
4>	indicate the release of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers; and
4>	clear any entry for the RRC CONNECTION RELEASE message in the tables "Accepted transactions" and "Rejected transactions" in the variable TRANSACTIONS;
4>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
4>	clear the variable ESTABLISHED_RABS;
4>	pass the value of the IE "Release cause" received in the RRC CONNECTION RELEASE message to upper layers;
4>	if the IE "Extended Wait Time" is present and the UE supports "delay tolerant access":
5>	forward the IE "Extended Wait Time" to the upper layers with the indication of the CN Domain used in RRC CONNECTION REQUEST message.
4>	enter idle mode;
4>	perform the actions specified in subclause 8.5.2 when entering idle mode.
3>	and the procedure ends.
2>	if the RRC CONNECTION RELEASE message was received on the CCCH:
3>	release all its radio resources;
3>	indicate the release of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to the upper layers;
3>	clear any entry for the RRC CONNECTION RELEASE message in the tables "Accepted transactions" and "Rejected transactions" in the variable TRANSACTIONS;
3>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
3>	clear the variable ESTABLISHED_RABS;
3>	pass the value of the IE "Release cause" received in the RRC CONNECTION RELEASE message to upper layers;
3>	if the IE "Extended Wait Time" is present and the UE supports "delay tolerant access":
4>	forward the IE "Extended Wait Time" to the upper layers with the indication of the CN Domain used in RRC CONNECTION REQUEST message.
3>	enter idle mode;
3>	perform the actions specified in subclause 8.5.2 when entering idle mode;
3>	and the procedure ends.
8.1.4.4	Invalid RRC CONNECTION RELEASE message
If the RRC CONNECTION RELEASE message contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, and if the "protocol error cause" in PROTOCOL_ERROR_INFORMATION is set to any cause value except "ASN.1 violation or encoding error", the UE shall perform procedure specific error handling as follows:
The UE shall:
1>	ignore any IE(s) causing the error but treat the rest of the RRC CONNECTION RELEASE message as normal according to subclause 8.1.4.3, with an addition of the following actions:
2>	if the RRC CONNECTION RELEASE message was received on the DCCH:
3>	set the IE "RRC transaction identifier" in the RRC CONNECTION RELEASE COMPLETE message to	the value of "RRC transaction identifier" in the entry for the RRC CONNECTION RELEASE message in the table "Rejected transactions" in the variable TRANSACTIONS;
3>	include the IE "Error indication" in the RRC CONNECTION RELEASE COMPLETE message with:
4>	the IE "Failure cause" set to the cause value "Protocol error"; and
4>	the IE "Protocol error information" set to the value of the variable PROTOCOL_ERROR_INFORMATION.
8.1.4.5	Cell re-selection or radio link failure
If the UE performs cell re-selection or the radio link failure criteria in subclause 8.5.6 are met at any time during the RRC connection release procedure and the UE has not yet entered idle mode, the UE shall:
1>	if cell re-selection occurred (CELL_FACH state or CELL_PCH (FDD only)):
2>	perform a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection".
1>	if radio link failure occurred (CELL_DCH state):
2>	release all its radio resources;
2>	indicate the release of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	enter idle mode;
2>	perform the actions specified in subclause 8.5.2 when entering idle mode;
2>	and the procedure ends.
8.1.4.6	Expiry of timer T308, unacknowledged mode transmission
When in state CELL_DCH and the timer T308 expires, the UE shall:
1>	increment V308 by one;
1>	if V308 is equal to or smaller than N308:
2>	prior to retransmitting the RRC CONNECTION RELEASE COMPLETE message:
3>	if the IE "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Started":
4>	include the same IEs as in the last unsuccessful attempt of this message, except for the IE "Integrity check info", which is set as specified in subclause 8.5.10.
3>	else:
4>	include the same IEs as in the last unsuccessful attempt of this message.
2>	set the IE "RRC transaction identifier" in the RRC CONNECTION RELEASE COMPLETE message retransmitted below to the value of "RRC transaction identifier" in the entry for the RRC CONNECTION RELEASE message in the table "Accepted transactions" in the variable TRANSACTIONS;
2>	send the RRC CONNECTION RELEASE COMPLETE message on signalling radio bearer RB1;
2>	start timer T308 when the RRC CONNECTION RELEASE COMPLETE message is sent on the radio interface.
1>	if V308 is greater than N308:
2>	release all its radio resources;
2>	indicate the release of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear any entry for the RRC CONNECTION RELEASE message in the tables "Accepted transactions" and "Rejected transactions" in the variable TRANSACTIONS;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	enter idle mode;
2>	perform the actions specified in subclause 8.5.2 when entering idle mode;
2>	and the procedure ends.
8.1.4.7	Void

8.1.4.8	Reception of an RRC CONNECTION RELEASE COMPLETE message by UTRAN
When UTRAN receives an RRC CONNECTION RELEASE COMPLETE message from the UE, it should:
1>	release all UE dedicated resources and the procedure ends on the UTRAN side.
8.1.4.9	Unsuccessful transmission of the RRC CONNECTION RELEASE COMPLETE message, acknowledged mode transmission
When acknowledged mode was used and RLC does not succeed in transmitting the RRC CONNECTION RELEASE COMPLETE message, the UE shall:
1>	release all its radio resources;
1>	indicate the release of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
1>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
1>	clear the variable ESTABLISHED_RABS;
1>	enter idle mode;
1>	perform the actions specified in subclause 8.5.2 when entering idle mode;
1>	and the procedure ends.
8.1.4.10	Detection of loss of dedicated physical channel by UTRAN in CELL_DCH state
If the release is performed from the state CELL_DCH, and UTRAN detects loss of the dedicated physical channel according to subclause 8.5.6, UTRAN may release all UE dedicated resources, even if no RRC CONNECTION RELEASE COMPLETE message has been received.
8.1.4.11	Failure to receive RRC CONNECTION RELEASE COMPLETE message by UTRAN
If UTRAN does not receive any RRC CONNECTION RELEASE COMPLETE message, it should release all UE dedicated resources.
8.1.4a	RRC connection release requested by upper layers
8.1.4a.1	General
The purpose of this procedure is to release the RRC connection and bar the current cell or cells. The procedure is requested by upper layers when they determine that the network has failed an authentication check [5].
8.1.4a.2	Initiation
If the upper layers request the release of the RRC connection, the UE shall:
1>	release all its radio resources;
1>	enter idle mode;
1>	perform other actions when entering idle mode from connected mode as specified in subclause 8.5.2;
1>	if the UE was in CELL_DCH state prior to entering idle mode:
2>	consider all cells that were in the active set prior to entering idle mode to be barred according to [4]; and
2>	consider the barred cells as using the value "allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
1>	if the UE was in CELL_FACH or CELL_PCH or URA_PCH state prior to entering idle mode:
2>	consider the cell on which the UE was camped prior to entering idle mode to be barred according to [4]; and
2>	consider the barred cell as using the value "allowed" in the IE "Intra-frequency cell re-selection indicator", and the maximum value in the IE "Tbarred".
8.1.5	Void

8.1.6	Transmission of UE capability information

Figure 8.1.6-1: Transmission of UE capability information, normal flow
8.1.6.1	General
The UE capability update procedure is used by the UE to convey UE specific capability information to the UTRAN.
8.1.6.2	Initiation
The UE shall initiate the UE capability update procedure in the following situations:
1>	the UE receives a UE CAPABILITY ENQUIRY message from the UTRAN;
1>	while in CELL_DCH or CELL_FACH state, the UE capabilities change compared to those stored in the variable UE_CAPABILITY_TRANSFERRED, and the variable RNC_CAPABILITY_CHANGE_SUPPORT is set to TRUE.
If the UE CAPABILITY INFORMATION message is sent in response to a UE CAPABILITY ENQUIRY message, the UE shall:
1>	include the IE "RRC transaction identifier"; and
1>	set it to the value of "RRC transaction identifier" in the entry for the UE CAPABILITY ENQUIRY message in the table "Accepted transactions" in the variable TRANSACTIONS; 
1>	for the UE capabilities defined prior to REL-6:
2>	retrieve its UTRA UE radio access capability information elements from variable UE_CAPABILITY_REQUESTED; and
2>	include this in IE "UE radio access capability" and in IE "UE radio access capability extension", provided this IE is included in variable UE_CAPABILITY_REQUESTED;
2>	retrieve its inter-RAT-specific UE radio access capability information elements from variable UE_CAPABILITY_REQUESTED; and
2>	include this in IE "UE system specific capability".
1>	for the UE capabilities defined in REL-6 or later:
2>	include the information elements associated with the capabilities included in the variable UE_CAPABILITY_REQUESTED and the variable UE_CAPABILITY_TRANSFERRED.
If the UE CAPABILITY INFORMATION message is sent because one or more of the UE capabilities change compared to those stored in the variable UE_CAPABILITY_TRANSFERRED while in connected state, the UE shall:
1>	for the UE capabilities defined prior to REL-6, include the information elements associated with the capabilities that have changed in the UE CAPABILITY INFORMATION message; and
1>	for the UE capabilities defined in REL-6 or later, include the information elements associated with the capabilities included in the variable UE_CAPABILITY_TRANSFERRED.
If the UE is in CELL_PCH or URA_PCH state, the UE shall:
1>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
2>	move to CELL_FACH state by performing the actions as described in subclause 8.5.47, and continue as below.
1>	else:
2>	if variable HSPA_RNTI_STORED_PCH is set to TRUE:
3>	move to CELL_FACH state by performing the actions as described in subclause 8.5.56, and continue as below.
2>	else:
3>	if variable H_RNTI and variable C_RNTI are set:
4>	continue as below.
3>	else:
4>	first perform a cell update procedure using the cause "uplink data transmission", see subclause 8.3.1.
The UE RRC shall submit the UE CAPABILITY INFORMATION message to the lower layers for transmission on the uplink DCCH using AM RLC. When the message has been delivered to lower layers for transmission the UE RRC shall start timer T304 and set counter V304 to 1.
A UE in connected mode should only indicate changes of capability in the IEs "DL capability with simultaneous HS-DSCH configuration", "Transport channel capability", "Physical channel capability", "Device type", and the IE "UE power class extension" within "RF capability extension".
The UE should not request a changed capability that would render an existing CS configuration invalid.
A UE with HS-PDSCH configured should not request a changed capability that removes support for HSDPA or HSUPA entirely; it may request reduction of its capabilities to the lowest category, but not to "DCH only".
If the UE is MAC-ehs capable or supports dual cell operation on adjacent or non-contiguous frequencies or in different bands, the UE shall signal a value in the "HS-DSCH physical layer category extension" IE.
If the UE supports dual cell operation on adjacent frequencies, then the UE shall support this feature on all the frequency bands supported by the UE.
If the UE signals an "HS-DSCH physical layer category extension" of 13, 15, 17 or 19, it shall signal an "HS-DSCH physical layer category" of 9. 
If the UE signals an "HS-DSCH physical layer category extension" of 14, 16, 18 or 20, it shall signal an "HS-DSCH physical layer category" of 10.
If the UE supports dual cell operation on adjacent or non-contiguous frequencies or in different bands, the UE shall signal a value in the "HS-DSCH physical layer category extension 2" IE.
If the UE supports dual cell with MIMO operation on adjacent or non-contiguous frequencies or in different bands, the UE shall signal a value in the "HS-DSCH physical layer category extension 3" IE.
If the UE supports dual cell with MIMO operation in different bands, or multi-cell operation on three cells with MIMO in different bands, or multi-cell operation on four cells with MIMO in different bands, the UE shall include the IE "Support for dual cell with MIMO operation in different bands" and set it to TRUE.
If the UE supports non-contiguous multi-cell operation on two, three or four cells with single gap in one band with MIMO, the UE shall include the IE "Non-contiguous multi-cell with MIMO" and set it to TRUE.
If the UE supports multi-cell operation on three cells, the UE shall signal a value in the "HS-DSCH physical layer category extension 4" IE.
If the UE supports multi-cell operation on four cells, the UE shall signal a value in the "HS-DSCH physical layer category extension 5" IE.
If the UE supports multi-cell operation on six cells, the UE shall signal a value in the "HS-DSCH physical layer category extension 6" IE.
If the UE supports multi-cell operation on eight cells, the UE shall signal a value in the "HS-DSCH physical layer category extension 7" IE.
If the UE supports Multiflow operation on two cells, the UE shall signal a value in the "HS-DSCH physical layer category extension 2" IE.
If the UE supports Multiflow operation on three cells, the UE shall signal a value in the "HS-DSCH physical layer category extension 4" IE.
If the UE supports Multiflow operation on four cells, the UE shall signal a value in the "HS-DSCH physical layer category extension 5" IE.
If the UE supports MIMO mode with four transmit antennas operation, the UE shall signal a value in the "HS-DSCH physical layer category extension 8" IE.
If the UE signals an "HS-DSCH physical layer category extension 2" of 21, it shall signal an "HS-DSCH physical layer category extension" of 9, 10, 13, 14, 15, 16, 17 or 18.
If the UE signals an "HS-DSCH physical layer category extension 2" of 22, it shall signal an "HS-DSCH physical layer category extension" of 10, 14, 16 or 18.
If the UE signals an "HS-DSCH physical layer category extension 2" of 23, it shall signal an "HS-DSCH physical layer category extension" of 13, 14, 17, 18, 19 or 20.
If the UE signals an "HS-DSCH physical layer category extension 2" of 24, it shall signal an "HS-DSCH physical layer category extension" of 14, 18 or 20.
If the UE signals an "HS-DSCH physical layer category extension 4" of 29 or an "HS-DSCH physical layer category extension 5" of 31, it shall signal an "HS-DSCH physical layer category extension 2" of 24.
If the UE signals an "HS-DSCH physical layer category extension 4" of 30, it shall signal an "HS-DSCH physical layer category extension 3" of 28.
If the UE signals an "HS-DSCH physical layer category extension 5" of 32, it shall signal an "HS-DSCH physical layer category extension 4" of 30.
If the UE signals an "HS-DSCH physical layer category extension 6" of 33, it shall either signal an "HS-DSCH physical layer category extension 5" of 32 or an "HS-DSCH physical layer category extension 5" of 31.
If the UE signals an "HS-DSCH physical layer category extension 6" of 34, it shall signal an "HS-DSCH physical layer category extension 5" of 32.
If the UE signals an "HS-DSCH physical layer category extension 7" of 35, it shall either signal an "HS-DSCH physical layer category extension 5" of 32 or an "HS-DSCH physical layer category extension 5" of 31.
If the UE signals an "HS-DSCH physical layer category extension 7" of 36, it shall signal an "HS-DSCH physical layer category extension 6" of 34.
If the UE signals an "HS-DSCH physical layer category extension 8" of 37, it shall signal an "HS-DSCH physical layer category extension 3" of 28.
If the UE signals an "HS-DSCH physical layer category extension 8" of 38, it shall signal an "HS-DSCH physical layer category extension 5" of 32.
The UE shall use the "Total number of soft channel bits" (defined in Table 5.1a of [35]) for the category it has signalled, as follows:
1>	If MAC-hs is configured, the UE uses the category it has signalled in the IE "HS-DSCH physical layer category";
1>	If MAC-ehs is configured without dual cell operation, the UE uses the category it has signalled in the IE "HS-DSCH physical layer category extension";
1>	If dual cell operation is configured, the UE uses the category it has signalled in the IE "HS-DSCH physical layer category extension 2";
1>	If dual cell with MIMO operation is configured, the UE uses the category it has signalled in the IE "HS-DSCH physical layer category extension 3";
1>	If multi-cell operation on three cells is configured, the UE uses the category it has signalled in the IE "HS-DSCH physical layer category extension 4";
1>	If multi-cell operation on four cells is configured, the UE uses the category it has signalled in the IE "HS-DSCH physical layer category extension 5";
1>	If multi-cell operation on five or six cells is configured, the UE uses the category it has signalled in the IE "HS-DSCH physical layer category extension 6";
1>	If multi-cell operation on seven or eight cells is configured, the UE uses the category it has signalled in the IE "HS-DSCH physical layer category extension 7";
1>	If MIMO mode with four transmit antennas operation is configured, the UE uses the category it has signalled in the IE "HS-DSCH physical layer category extension 8".
If the UE supports 16QAM in the uplink, the UE shall signal a value in the "E-DCH physical layer category extension" IE.
If the UE supports Dual Cell E-DCH operation on adjacent frequencies or in different bands, the UE shall signal a value in the "E-DCH physical layer category extension 2" IE.
If the UE signals a value in the "E-DCH physical layer category extension 2" IE, it shall signal an "E-DCH physical layer category" of 6.
If the UE supports 64QAM in the uplink, the UE shall signal a value of 10 in the "E-DCH physical layer category extension 3" IE.
If the UE supports UL MIMO, the UE shall signal a value of 11 in the "E-DCH physical layer category extension 3" IE.
If the UE supports 64QAM in the uplink and UL MIMO, the UE shall signal a value of 12 in the "E-DCH physical layer category extension 3" IE 
If the UE signals a value in the "E-DCH physical layer category extension 3", it shall signal an "E-DCH physical layer category" of 7.
If the UE supports Dual Cell E-DCH transmission with the DPDCH channel, the UE shall include the IE "Dual cell E-DCH transmission with DPDCH" and set it to TRUE.
8.1.6.3	Reception of a UE CAPABILITY INFORMATION message by the UTRAN
Upon reception of a UE CAPABILITY INFORMATION message, the UTRAN should transmit a UE CAPABILITY INFORMATION CONFIRM message on the downlink DCCH using UM or AM RLC. After the UE CAPABILITY INFORMATION CONFIRM message has been submitted to the lower layers for transmission, the procedure is complete.
If the received UE CAPABILITY INFORMATION message indicates capabilities that would be insufficient for the UE to continue in an ongoing service, the UTRAN may reconfigure the bearers for the ongoing service. In such a case, if the UTRAN does not perform such a reconfiguration, it should set the IE "Acceptance of requested change of capability" to "Refused" in the UE CAPABILITY INFORMATION CONFIRM message.
8.1.6.4	Reception of the UE CAPABILITY INFORMATION CONFIRM message by the UE
Upon reception of a UE CAPABILITY INFORMATION CONFIRM message, the UE shall:
1>	stop timer T304;
1>	if there is an entry for the UE CAPABILITY ENQUIRY message is present in the table "Accepted transactions" in the variable TRANSACTIONS:
2>	clear that entry.
1>	if the IE "Acceptance of requested change of capability" is included and set to "Accepted":
2>	update its variable UE_CAPABILITY_TRANSFERRED with the UE capabilities it has last transmitted to the UTRAN during the current RRC connection.
1>	if the IE "Acceptance of requested change of capability" is included and set to "Accepted with reconfiguration to follow":
2>	when a reconfiguration message with the flag "Reconfiguration in response to requested change of UE capability" set to TRUE, update its variable UE_CAPABILITY_TRANSFERRED with the UE capabilities it has last transmitted to the UTRAN during the current RRC connection;
2>	if a reconfiguration message with the flag "Reconfiguration in response to requested change of UE capability" set to TRUE it is not received by the UE within a time determined by the implementation, the UE shall consider the change of capabilities to be refused by the UTRAN.
1>	if the IE "Acceptance of requested change of capability" is included and set to "Refused":
2>	consider the request for a change of capabilities to be refused;
2>	wait at least 300 seconds before transmitting another such request.
1>	clear the variable UE_CAPABILITY_REQUESTED;
1>	and the procedure ends.
8.1.6.5	Invalid UE CAPABILITY INFORMATION CONFIRM message
If the UE receives a UE CAPABILITY INFORMATION CONFIRM message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows:
1>	stop timer T304;
1>	transmit an RRC STATUS message on the uplink DCCH using AM RLC;
1>	include the IE "Identification of received message"; and
1>	set the IE "Received message type" to UE CAPABILITY INFORMATION CONFIRM; and
1>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the UE CAPABILITY INFORMATION CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	when the RRC STATUS message has been submitted to lower layers for transmission:
2>	restart timer T304 and continue with any ongoing procedures or processes as if the invalid UE CAPABILITY INFORMATION CONFIRM message has not been received.
8.1.6.6	T304 timeout
Upon expiry of timer T304, the UE shall check the value of V304 and:
1>	if V304 is smaller than or equal to N304:
2>	prior to retransmitting the UE CAPABILITY INFORMATION message:
3>	if the IE "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Started":
4>	include the same IEs as in the last unsuccessful attempt of this message, except for the IE "Integrity check info", which is set as specified in subclause 8.5.10.
3>	else:
4>	include the same IEs as in the last unsuccessful attempt of this message.
2>	send the UE CAPABILITY INFORMATION message on signalling radio bearer RB2;
2>	restart timer T304;
2>	increment counter V304.
1>	if V304 is greater than N304:
2>	initiate the Cell update procedure as specified in subclause 8.3.1, using the cause "Radio link failure".
8.1.7	UE capability enquiry

Figure 8.1.7-1: UE capability enquiry procedure, normal flow
8.1.7.1	General
The UE capability enquiry can be used to request the UE to transmit its capability information related to any radio access network that is supported by the UE.
8.1.7.2	Initiation
The UE capability enquiry procedure is initiated by the UTRAN by transmitting a UE CAPABILITY ENQUIRY message on the DCCH using UM or AM RLC.
8.1.7.3	Reception of a UE CAPABILITY ENQUIRY message by the UE
Upon reception of a UE CAPABILITY ENQUIRY message, the UE shall act on the received information elements as specified in subclause 8.6 and initiate the transmission of UE capability information procedure, which is specified in subclause 8.1.6.
8.1.7.4	Invalid UE CAPABILITY ENQUIRY message
If the UE receives a UE CAPABILITY ENQUIRY message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows:
1>	transmit an RRC STATUS message on the uplink DCCH using AM RLC;
1>	include the IE "Identification of received message"; and
1>	set the IE "Received message type" to UE CAPABILITY ENQUIRY; and
1>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the UE CAPABILITY ENQUIRY message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	when the RRC STATUS message has been submitted to lower layers for transmission:
2>	continue with the ongoing processes and procedures as if the invalid UE CAPABILITY ENQUIRY message has not been received.
8.1.8	Initial Direct transfer

Figure 8.1.8-1: Initial Direct transfer in the uplink, normal flow
8.1.8.1	General
The initial direct transfer procedure is used in the uplink to establish a signalling connection. It is also used to carry an initial upper layer (NAS) message over the radio interface.
8.1.8.2	Initiation of Initial direct transfer procedure in the UE
In the UE, the initial direct transfer procedure shall be initiated, when the upper layers request establishment of a signalling connection. This request also includes a request for the transfer of a NAS message.
Upon initiation of the initial direct transfer procedure the UE shall:
1>	set the variable ESTABLISHMENT_CAUSE to the cause for establishment indicated by upper layers.
Upon initiation of the initial direct transfer procedure when the UE is in idle mode, the UE shall:
1>	if the variable BCCH_MODIFICATION_ACCESS_PROHIBITION is set to FALSE; or
1>	if the establishment of a signalling connection is requested for CS domain; or
1>	if the variable ESTABLISHMENT_CAUSE is set to "Emergency Call":
2>	perform an RRC connection establishment procedure, according to subclause 8.1.3.
NOTE:	If an RRC connection establishment is ongoing, this procedure continues unchanged, i.e. it is not interrupted.
1>	else:
2>	consider the RRC connection establishment procedure to be unsuccessful.
1>	if the RRC connection establishment procedure was not successful:
2>	if the establishment cause for the failed RRC connection establishment was set to "MBMS reception" and a different cause value is stored in the variable "ESTABLISHMENT_CAUSE":
3>	UE-AS (RRC) initiates a new RRC connection establishment procedure, using the establishment cause as contained in the variable ESTABLISHMENT_CAUSE.
2>	otherwise:
3>	indicate failure to establish the signalling connection to upper layers and end the procedure.
1>	when the RRC connection establishment procedure is completed successfully:
2>	continue with the initial direct transfer procedure as below.
Upon initiation of the initial direct transfer procedure when the UE is in CELL_PCH or URA_PCH state, the UE shall:
1>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
2>	move to CELL_FACH state by performing the actions as described in subclause 8.5.47, and continue with the initial direct transfer procedure as below.
1>	else:
2>	if variable HSPA_RNTI_STORED_PCH is set to TRUE:
3>	move to CELL_FACH state by performing the actions as described in subclause 8.5.56, and continue with the initial direct transfer procedure as below.
2>	else:
3>	if variable H_RNTI and variable C_RNTI are set: 
4>	continue with the initial direct transfer procedure as below.
3>	else:
4>	perform a cell update procedure, according to subclause 8.3.1, using the cause "uplink data transmission";
4>	when the cell update procedure completed successfully:
5>	continue with the initial direct transfer procedure as below.
The UE shall, in the INITIAL DIRECT TRANSFER message:
1>	set the IE "NAS message" as received from upper layers; and
1>	set the IE "CN domain identity" as indicated by the upper layers; and
1>	set the IE "Intra Domain NAS Node Selector" as follows:
2>	derive the IE "Intra Domain NAS Node Selector" from TMSI/PMTSI, IMSI, or IMEI; and
2>	provide the coding of the IE "Intra Domain NAS Node Selector" according to the following priorities:
1.	base the routing parameter for IDNNS on TMSI (CS domain) or on PTMSI (PS domain)  according to the TMSI/PTMSI provided by upper layers, where the PTMSI may be mapped from a valid GUTI;
2.	base the routing parameter for IDNNS on IMSI when no TMSI/PTMSI is provided by upper layers;
3.	base the routing parameter for IDNNS on IMEI only if no (U)SIM is inserted in the UE.
1>	if the UE, on the existing RRC connection, has received a dedicated RRC message containing the IE "Primary PLMN Identity" in the IE "CN Information Info":
2>	set the IE "PLMN identity" in the INITIAL DIRECT TRANSFER message to the latest PLMN information received via dedicated RRC signalling. If NAS has indicated the PLMN towards which a signalling connection is requested, and this PLMN is not in agreement with the latest PLMN information received via dedicated RRC signalling, then the initial direct transfer procedure shall be aborted, and NAS shall be informed.
1>	if the UE, on the existing RRC connection, has not received a dedicated RRC message containing the IE "CN Information Info" , and if the IE "Multiple PLMN List" was broadcast in the cell where the current RRC connection was established:
2>	set the IE "PLMN identity" in the INITIAL DIRECT TRANSFER message to the PLMN chosen by higher layers [5, 25] amongst the PLMNs in the IE "Multiple PLMN List" broadcast in the cell where the RRC connection was established.
1>	if the IE "Activated service list" within variable MBMS_ACTIVATED_SERVICES includes one or more MBMS services with the IE "Service type" set to "Multicast" and;
1>	if the IE "CN domain identity" as indicated by the upper layers is set to "CS domain" and;
1>	if the variable ESTABLISHED_SIGNALLING_CONNECTIONS does not include the CN domain identity 'PS domain':
2>	include the IE "MBMS joined information";
2>	include the IE "P-TMSI" within the IE "MBMS joined information" if a valid PTMSI is available.
1>	if the UE is in CELL_FACH state and the IE "CN domain identity" as indicated by the upper layers is set to "CS domain":
2>	if the value of the variable ESTABLISHMENT_CAUSE is set to "Originating Conversational Call" or "Emergency Call":
3>	set the value of the IE "CS Call type" to "speech", "video" or "other" according to the call being initiated.
1>	if the variable ESTABLISHMENT_CAUSE is initialised:
2>	set the IE "Establishment cause" to the value of the variable ESTABLISHMENT_CAUSE;
2>	clear the variable ESTABLISHMENT_CAUSE.
1>	include the IE "DCN Identity" if a DCN value [91] was received from upper layers;
1>	calculate the START according to subclause 8.5.9 for the CN domain as set in the IE "CN Domain Identity"; and
1>	include the calculated START value for that CN domain in the IE "START".
The UE shall:
1>	transmit the INITIAL DIRECT TRANSFER message on the uplink DCCH using AM RLC on signalling radio bearer RB3;
1>	when the INITIAL DIRECT TRANSFER message has been submitted to lower layers for transmission:
2>	confirm the establishment of a signalling connection to upper layers; and
2>	add the signalling connection with the identity indicated by the IE "CN domain identity" in the variable ESTABLISHED_SIGNALLING_CONNECTIONS.
1>	when the successful delivery of the INITIAL DIRECT TRANSFER message has been confirmed by RLC:
2>	the procedure ends.
When not stated otherwise elsewhere, the UE may also initiate the initial direct transfer procedure when another procedure is ongoing, and in that case the state of the latter procedure shall not be affected.
A new signalling connection request may be received from upper layers during transition to idle mode. In those cases, from the time of the indication of release to upper layers until the UE has entered idle mode, any such upper layer request to establish a new signalling connection shall be queued. This request shall be processed after the UE has entered idle mode.
8.1.8.2a	RLC re-establishment or inter-RAT change
If a re-establishment of the transmitting side of the RLC entity on signalling radio bearer RB3 occurs before the successful delivery of the INITIAL DIRECT TRANSFER message has been confirmed by RLC, the UE shall:
1>	retransmit the INITIAL DIRECT TRANSFER message on the uplink DCCH using AM RLC on signalling radio bearer RB3.
If an Inter-RAT handover from UTRAN to other RAT than E-UTRAN procedure occurs before the successful delivery of the INITIAL DIRECT TRANSFER message has been confirmed by RLC, for messages with the IE "CN domain identity" set to "CS domain", the UE shall:
1>	retransmit the NAS message as specified in subclause 8.3.7.4.
8.1.8.2ab	Inter-RAT handover from UTRAN to GERAN Iu mode
If an Inter-RAT handover from UTRAN to GERAN Iu mode occurs before the successful delivery of the INITIAL DIRECT TRANSFER message has been confirmed by RLC, for messages for all CN domains, the UE shall:
1>	retransmit the NAS message as specified in subclause 8.3.7.4.
8.1.8.2b	Abortion of signalling connection establishment
If the UE receives a request from upper layers to release (abort) the signalling connection for the CN domain for which the initial direct transfer procedure is ongoing, the UE shall:
1>	if the UE has not yet entered UTRA RRC connected mode:
2>	abort the RRC connection establishment procedure as specified in subclause 8.1.3.
the procedure ends.
8.1.8.2c	Inter-RAT handover from UTRAN to E-UTRAN
If an Inter-RAT handover from UTRAN to E-UTRAN occurs before the successful delivery of the INITIAL DIRECT TRANSFER message has been confirmed by RLC, the UE shall:
1>	discard the NAS message.
8.1.8.3	Reception of INITIAL DIRECT TRANSFER message by the UTRAN
On reception of the INITIAL DIRECT TRANSFER message the NAS message should be routed using the IE "CN Domain Identity". UTRAN may also use the IE "Intra Domain NAS Node Selector" and the IE "PLMN identity" for routing among the CN nodes for the addressed CN domain.
If no signalling connection exists towards the chosen node, then a signalling connection is established.
When the UTRAN receives an INITIAL DIRECT TRANSFER message, it shall not affect the state of any other ongoing RRC procedures, when not stated otherwise elsewhere.
The UTRAN should:
1>	set the START value for the CN domain indicated in the IE "CN domain identity" to the value of the IE "START".
8.1.9	Downlink Direct transfer

Figure 8.1.9-1: Downlink Direct transfer, normal flow
8.1.9.1	General
The downlink direct transfer procedure is used in the downlink direction to carry upper layer (NAS) messages over the radio interface.
8.1.9.2	Initiation of downlink direct transfer procedure in the UTRAN
In the UTRAN, the direct transfer procedure is initiated when the upper layers request the transfer of a NAS message after the initial signalling connection is established. The UTRAN may also initiate the downlink direct transfer procedure when another RRC procedure is ongoing, and in that case the state of the latter procedure shall not be affected. The UTRAN shall transmit the DOWNLINK DIRECT TRANSFER message on the downlink DCCH using AM RLC on signalling radio bearer RB3 or signalling radio bearer RB4. The UTRAN should:
1>	if upper layers indicate "low priority" for this message:
2>	select signalling radio bearer RB4, if available. Specifically, for a GSM-MAP based CN, signalling radio bearer RB4 should, if available, be selected when "SAPI 3" is requested;
2>	select signalling radio bearer RB3 when signalling radio bearer RB4 is not available.
1>	if upper layers indicate "high priority" for this message:
2>	select signalling radio bearer RB3. Specifically, for a GSM-MAP based CN, signalling radio bearer RB3 should be selected when "SAPI 0" is requested.
The UTRAN sets the IE "CN Domain Identity" to indicate, which CN domain the NAS message is originated from.
8.1.9.3	Reception of a DOWNLINK DIRECT TRANSFER message by the UE
Upon reception of the DOWNLINK DIRECT TRANSFER message, the UE RRC shall, using the IE "CN Domain Identity", route the contents of the IE "NAS message" and the value of the IE"CN Domain Identity" to upper layers.
The UE shall clear the entry for the DOWNLINK DIRECT TRANSFER message in the table "Accepted transactions" in the variable TRANSACTIONS.
When the UE receives a DOWNLINK DIRECT TRANSFER message, it shall not affect the state of any other ongoing RRC procedures when not stated otherwise elsewhere.
8.1.9.3a	No signalling connection exists
If the UE receives a DOWNLINK DIRECT TRANSFER message, and the signalling connection identified with the IE "CN domain identity" does not exist according to the variable ESTABLISHED_SIGNALLING_CONNECTIONS, the UE shall:
1>	ignore the content of the DOWNLINK DIRECT TRANSFER message;
1>	transmit an RRC STATUS message on the uplink DCCH using AM RLC;
1>	include the IE "Identification of received message"; and
1>	set the IE "Received message type" to DOWNLINK DIRECT TRANSFER; and
1>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the DOWNLINK DIRECT TRANSFER message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	include the IE "Protocol error information" with the IE "Protocol error cause" set to "Message not compatible with receiver state".
When the RRC STATUS message has been submitted to lower layers for transmission, the UE shall:
1>	continue with any ongoing processes and procedures as if the DOWNLINK DIRECT TRANSFER message has not been received.
8.1.9.4	Invalid DOWNLINK DIRECT TRANSFER message
If the UE receives a DOWNLINK DIRECT TRANSFER message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows:
1>	transmit an RRC STATUS message on the uplink DCCH using AM RLC;
1>	include the IE "Identification of received message"; and
1>	set the IE "Received message type" to DOWNLINK DIRECT TRANSFER; and
1>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the DOWNLINK DIRECT TRANSFER message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION.
When the RRC STATUS message has been submitted to lower layers for transmission, the UE shall:
1>	continue with any ongoing processes and procedures as if the invalid DOWNLINK DIRECT TRANSFER message has not been received.
8.1.10	Uplink Direct transfer

Figure 8.1.10-1: Uplink Direct transfer, normal flow
8.1.10.1	General
The uplink direct transfer procedure is used in the uplink direction to carry all subsequent upper layer (NAS) messages over the radio interface belonging to a signalling connection.
8.1.10.2	Initiation of uplink direct transfer procedure in the UE
In the UE, the uplink direct transfer procedure shall be initiated when the upper layers request a transfer of a NAS message on an existing signalling connection. When not stated otherwise elsewhere, the UE may initiate the uplink direct transfer procedure when another procedure is ongoing, and in that case the state of the latter procedure shall not be affected.
Upon initiation of the uplink direct transfer procedure in CELL_PCH or URA_PCH state, the UE shall:
1>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
2>	move to CELL_FACH state by performing the actions as described in subclause 8.5.47, and continue with the uplink direct transfer procedure as below.
1>	else:
2>	if variable HSPA_RNTI_STORED_PCH is set to TRUE:
3>	move to CELL_FACH state by performing the actions as described in subclause 8.5.56, and continue with the uplink direct transfer procedure as below.
2>	else:
3>	if variable H_RNTI and variable C_RNTI are set:
4>	continue with the uplink direct transfer procedure as below.
3>	else:
4>	perform a cell update procedure, according to subclause 8.3.1, using the cause "uplink data transmission";
4>	when the cell update procedure has been completed successfully:
5>	continue with the uplink direct transfer procedure as below.
The UE shall transmit the UPLINK DIRECT TRANSFER message on the uplink DCCH using AM RLC on signalling radio bearer RB3 or signalling radio bearer RB4. The UE shall:
1>	if upper layers indicate "low priority" for this message:
2>	select signalling radio bearer RB4, if available. Specifically, for a GSM-MAP based CN, signalling radio bearer RB4 shall, if available, be selected when "SAPI 3" is requested;
2>	select signalling radio bearer RB3 when signalling radio bearer RB4 is not available.
1>	if upper layers indicate "high priority" for this message:
2>	select signalling radio bearer RB3. Specifically, for a GSM-MAP based CN, signalling radio bearer RB3 shall be selected when "SAPI 0" is requested.
The UE shall set the IE "NAS message" as received from upper layers and set the IE "CN domain identity" as indicated by the upper layers.
When the successful delivery of the UPLINK DIRECT TRANSFER message has been confirmed by RLC the procedure ends.
8.1.10.2a	RLC re-establishment or inter-RAT change
If signalling radio bearer RB n (where n equals to 3 or 4) was used when transmitting the UPLINK DIRECT TRANSFER message and a re-establishment of the transmitting side of the RLC entity on the same signalling radio bearer RB n occurs before the successful delivery of the UPLINK DIRECT TRANSFER message has been confirmed by RLC, the UE shall:
1>	retransmit the UPLINK DIRECT TRANSFER message on the uplink DCCH using AM RLC on signalling radio bearer RB n.
If an Inter-RAT handover from UTRAN to other RAT than E-UTRAN procedure occurs before the successful delivery of the UPLINK DIRECT TRANSFER message has been confirmed by RLC, for messages with the IE "CN domain identity" set to "CS domain", the UE shall:
1>	retransmit the NAS message as specified in subclause 8.3.7.4.
8.1.10.2b	Inter-RAT handover from UTRAN to GERAN Iu mode
If an Inter-RAT handover from UTRAN to GERAN Iu mode occurs before the successful delivery of the UPLINK DIRECT TRANSFER message has been confirmed by RLC, for messages for all CN domains, the UE shall:
1>	retransmit the NAS message as specified in subclause 8.3.7.4.
8.1.10.2c	Inter-RAT handover from UTRAN to E-UTRAN
If an Inter-RAT handover from UTRAN to E-UTRAN occurs before the successful delivery of the UPLINK DIRECT TRANSFER message has been confirmed by RLC, the UE shall:
1>	discard the NAS message.
8.1.10.3	Reception of UPLINK DIRECT TRANSFER message by the UTRAN
On reception of the UPLINK DIRECT TRANSFER message the NAS message should be routed using the value indicated in the IE "CN domain identity".
When the UTRAN receives an UPLINK DIRECT TRANSFER message, it shall not affect the state of any other ongoing RRC procedures, when not stated otherwise elsewhere.
8.1.11	UE dedicated paging

Figure 8.1.11-1: UE dedicated paging
8.1.11.1	General
This procedure is used to transmit dedicated paging information to one UE in connected mode in CELL_DCH , CELL_FACH or CELL_PCH (FDD and 1.28 Mcps TDD only) state. Upper layers in the network may request initiation of paging.
8.1.11.2	Initiation
For a UE in CELL_DCH, CELL_FACH or CELL_PCH (FDD and 1.28 Mcps TDD only) state, UTRAN initiates the procedure by transmitting a PAGING TYPE 2 message on the DCCH using AM RLC. When not stated otherwise elsewhere, the UTRAN may initiate the UE dedicated paging procedure also when another RRC procedure is ongoing, and in that case the state of the latter procedure shall not be affected.
UTRAN should set the IE "Paging cause" to the cause for paging received from upper layers. If no cause for paging is received from upper layers, UTRAN should set the value "Terminating – cause unknown".
8.1.11.3	Reception of a PAGING TYPE 2 message by the UE
When the UE receives a PAGING TYPE 2 message, it shall not affect the state of any other ongoing RRC procedures, when not stated otherwise elsewhere.
The UE shall:
1>	indicate reception of paging; and
1>	forward the IE "Paging cause" and the IE "Paging record type identifier" to upper layers.
The UE shall:
1>	clear the entry for the PAGING TYPE 2 message in the table "Accepted transactions" in the variable TRANSACTIONS.
8.1.11.4	Invalid PAGING TYPE 2 message
If the UE receives a PAGING TYPE 2 message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows:
1>	transmit an RRC STATUS message on the uplink DCCH using AM RLC;
1>	include the IE "Identification of received message"; and
1>	set the IE "Received message type" to PAGING TYPE 2; and
1>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the PAGING TYPE 2 message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	when the RRC STATUS message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid PAGING TYPE 2 message has not been received.
8.1.12	Security mode control

Figure 8.1.12-1: Security mode control procedure
8.1.12.1	General
The purpose of this procedure is to trigger the start of ciphering or to command the restart of the ciphering with a new ciphering configuration, for the radio bearers of one CN domain and for all signalling radio bearers.
It is also used to start integrity protection or to modify the integrity protection configuration for all signalling radio bearers.
8.1.12.2	Initiation
8.1.12.2.1	Ciphering configuration change
To start/restart ciphering, UTRAN sends a SECURITY MODE COMMAND message on the downlink DCCH in AM RLC using the most recent ciphering configuration. If no such ciphering configuration exists then the SECURITY MODE COMMAND is not ciphered. UTRAN should not transmit a SECURITY MODE COMMAND to signal a change in ciphering algorithm.
When configuring ciphering, UTRAN should ensure that the UE needs to store at most two different ciphering configurations (keyset and algorithm) per CN domain, in total over all radio bearers at any given time. For signalling radio bearers the total number of ciphering configurations that need to be stored is at most three. Prior to sending the SECURITY MODE COMMAND, for the CN domain indicated in the IE "CN domain identity" in the SECURITY MODE COMMAND, UTRAN should:
1>	suspend all radio bearers using RLC-AM or RLC-UM and all signalling radio bearers using RLC-AM or RLC-UM, except the signalling radio bearer used to send the SECURITY MODE COMMAND message on the downlink DCCH in RLC-AM, and except signalling radio bearer RB0, according to the following:
2>	not transmit RLC PDUs with sequence number greater than or equal to the number in IE "Radio bearer downlink ciphering activation time info" on all suspended radio bearers and all suspended signalling radio bearers.
1>	set, for the signalling radio bearer used to send the SECURITY MODE COMMAND, the "RLC sequence number" in IE "Radio bearer downlink ciphering activation time info" in the IE "Ciphering mode info", at which time the new ciphering configuration shall be applied;
NOTE:	The UTRAN should avoid the situation that the UE is aware of more than one pending downlink ciphering activation times for SRB2. In such a case the UE behaviour is unspecified.
1>	if a transparent mode radio bearer for this CN domain exists:
2>	include the IE "Ciphering activation time for DPCH" in IE "Ciphering mode info", at which time the new ciphering configuration shall be applied and specify a CFN value for this IE that is a multiple of 8 frames (CFN mod 8 = 0).
NOTE:	UTRAN should chose the value for the IE "Ciphering activation time for DPCH" such that the new ciphering configuration will occur after all the pending ciphering activation times have been reached for the transparent mode radio bearers of this CN domain.
1>	consider a ciphering activation time in downlink to be pending until the RLC sequence number of the next RLC PDU to be transmitted for the first time is equal to or larger than the selected activation time;
1>	set, for each suspended radio bearer and signalling radio bearer that has no pending ciphering activation time set by a previous security mode control procedure, an "RLC sequence number" in IE "Radio bearer downlink ciphering activation time info" in the IE "Ciphering mode info", at which time the new ciphering configuration shall be applied;
1>	set, for each suspended radio bearer and signalling radio bearer that has a pending ciphering activation time set by a previous security mode control procedure, the "RLC sequence number" in IE "Radio bearer downlink ciphering activation time info" in the IE "Ciphering mode info" to the value used in the previous security mode control procedure, at which time the latest ciphering configuration shall be applied;
1>	if Integrity protection has already been started for the UE:
2>	if for the CN domain indicated in the IE "CN domain identity" in the SECURITY MODE COMMAND, a new security key set (new ciphering and integrity protection keys) has been received from upper layers since the transmission of the last SECURITY MODE COMMAND message for that CN domain:
3>	include the IE "Integrity protection mode info" in the SECURITY MODE COMMAND.
2>	if the IE "CN domain identity" in the SECURITY MODE COMMAND is different from the IE "CN domain identity" that was sent in the previous SECURITY MODE COMMAND message to the UE:
3>	include the IE "Integrity protection mode info" in the SECURITY MODE COMMAND.
1>	transmit the SECURITY MODE COMMAND message on RB2.
8.1.12.2.2	Integrity protection configuration change
To start or modify integrity protection, UTRAN sends a SECURITY MODE COMMAND message on the downlink DCCH in AM RLC using the new integrity protection configuration. UTRAN should not "modify" integrity protection for a CN domain to which a SECURITY MODE COMMAND configuring integrity protection has been previously sent for an ongoing signalling connection unless the application of new integrity keys needs to be signalled to the UE. UTRAN should not transmit a SECURITY MODE COMMAND to signal a change in integrity protection algorithm.
In case of Inter-RAT handover to UTRAN, after the reception of the HANDOVER TO UTRAN COMPLETE message and a key set is received, UTRAN should transmit a SECURITY MODE COMMAND message containing IE "Integrity protection mode info" in order to initiate integrity protection with the integrity key of the key set used in the other RAT (see subclause 8.3.6.3).
When configuring Integrity protection, UTRAN should:
1>	ensure that the UE needs to store at most three different Integrity protection configurations (keysets) at any given time. This includes the total number of Integrity protection configurations for all signalling radio bearers;
1>	if Ciphering has already been started for the UE for the CN domain to be set in the IE "CN domain identity" in the SECURITY MODE COMMAND:
2>	if for the CN domain indicated in the IE "CN domain identity" in the SECURITY MODE COMMAND, a new security key set (new ciphering and integrity protection keys) has been received from upper layers since the transmission of the last SECURITY MODE COMMAND message for that CN domain:
3>	include the IE "Ciphering mode info" in the SECURITY MODE COMMAND.
1>	if Ciphering has already been configured for the UE for a CN domain different from the CN domain to be set in the IE "CN domain identity" in the SECURITY MODE COMMAND:
2>	include the IE "Ciphering mode info" in the SECURITY MODE COMMAND.
Prior to sending the SECURITY MODE COMMAND, for the CN domain indicated in the IE "CN domain identity" in the SECURITY MODE COMMAND, UTRAN should:
1>	if this is the first SECURITY MODE COMMAND sent for this RRC connection:
2>	if new keys have been received:
3>	initialise the hyper frame numbers as follows:
4>	set all bits of the hyper frame numbers of the COUNT-I values for all signalling radio bearers to zero.
2>	else (if new keys have not been received):
3>	use the value "START" in the most recently received IE "START list" or IE "START" that belongs to the CN domain indicated in the IE "CN domain identity" to initialise all hyper frame numbers of COUNT-I for all the signalling radio bearers by:
4>	setting the 20 most significant bits of the hyper frame numbers for all signalling radio bearers to the value "START" in the most recently received IE "START list" or IE "START" for that CN domain;
4>	setting the remaining bits of the hyper frame numbers equal to zero.
1>	else (this is not the first SECURITY MODE COMMAND sent for this RRC connection):
2>	if new keys have been received:
3>	initialise the hyper frame number for COUNT-I for RB2 as follows:
4>	set all bits of the HFN of the COUNT-I value for RB2 to zero.
2>	if new keys have not been received:
3>	initialise the hyper frame number for COUNT-I for RB2 as follows:
4>	set the 20 most significant bits of the HFN of the downlink and uplink COUNT-I to the value of the most recently received IE "START" or IE "START list" for the CN domain to be set in the IE "CN Domain Identity";
4>	set the remaining bits of the HFN of the downlink and uplink COUNT-I to zero.
1>	if the IE "Integrity protection mode command" has the value "Start":
2>	prohibit the transmission of signalling messages with any RRC SN on all signalling radio bearers, except RB2;
2>	set the FRESH value in the IE "Integrity protection initialisation number", included in the IE "Integrity protection mode info".
1>	if the IE "Integrity protection mode command" has the value "Modify":
2>	for each signalling radio bearer RBn, except RB2:
3>	prohibit the transmission of signalling messages with RRC SN greater or equal to the RRC sequence number in entry for signalling radio bearer n in the "RRC message sequence number list" in the IE "Downlink integrity protection activation info", included in the IE "Integrity protection mode info".
2>	consider an integrity protection activation time in downlink to be pending until the selected activation time is equal to the next RRC sequence number to be used, which means that the last RRC message using the old integrity protection configuration has been submitted to lower layers;
2>	set, for each signalling radio bearer RBn, that has no pending integrity protection activation time set by a previous security mode control procedure, an RRC sequence number in entry for signalling radio bearer n in the "RRC message sequence number list" in the IE "Downlink integrity protection activation info", included in the IE "Integrity protection mode info", at which time the new integrity protection configuration shall be applied;
2>	set, for each signalling radio bearer RBn, that has a pending integrity protection activation time set by a previous security mode control procedure, the RRC sequence number in entry for signalling radio bearer n in the "RRC message sequence number list" in the IE "Downlink integrity protection activation info", included in the IE "Integrity protection mode info", to the value used in the previous security mode control procedure, at which time the latest integrity protection configuration shall be applied.
1>	transmit the SECURITY MODE COMMAND message on RB2 using the new integrity protection configuration.
NOTE1:	In the case of re-initialisation of Integrity Protection at HFN wrap around, the network should take into account the UE actions as described in subclauses 8.5.10.1 and 8.5.10.2.
NOTE2:	After the SECURITY MODE COMMAND message is transmitted, the network should ensure that it can revert back to old integrity protection until it receives the SECURITY MODE COMPLETE message, to take into account the UE actions when security mode control procedure is unsuccessful. The network should also be aware that the UE may revert to old configuration when waiting for the acknowledgement from L2 for the SECURITY MODE COMPLETE message, and act accordingly.
NOTE3:	In the case of the first SECURITY MODE COMMAND message following an SRNS relocation, the network should set the IE "Downlink integrity protection activation info" for SRB3 and SRB4 to at least "the current downlink RRC sequence number +2". As a consequence, at least the first message sent on SRB3 and SRB4 by the Target RNC will use the old integrity protection configuration.
8.1.12.3	Reception of SECURITY MODE COMMAND message by the UE
Upon reception of the SECURITY MODE COMMAND message, the UE shall:
1>	if neither IE "Ciphering mode info" nor IE "Integrity protection mode info" is included in the SECURITY MODE COMMAND:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the IE "Security capability" is the same as indicated by variable UE_CAPABILITY_TRANSFERRED, and the IE "GSM security capability" (if included in the SECURITY MODE COMMAND) is the same as indicated by the variable UE_CAPABILITY_TRANSFERRED:
2>	set the variable LATEST_CONFIGURED_CN_DOMAIN equal to the IE "CN domain identity";
2>	set the IE "Status" in the variable SECURITY_MODIFICATION for the CN domain indicated in the IE "CN domain identity" in the received SECURITY MODE COMMAND to the value "Affected";
2>	set the IE "Status" in the variable SECURITY_MODIFICATION for all CN domains other than the CN domain indicated in the IE "CN domain identity" to "Not affected";
2>	set the IE "RRC transaction identifier" in the SECURITY MODE COMPLETE message to the value of "RRC transaction identifier" in the entry for the SECURITY MODE COMMAND message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	if the SECURITY MODE COMMAND message contained the IE "Ciphering mode info":
3>	perform the actions as specified in subclause 8.6.3.4.
2>	if the SECURITY MODE COMMAND message contained the IE "Integrity protection mode info":
3>	perform the actions as specified in subclause 8.6.3.5.
1>	prior to sending the SECURITY MODE COMPLETE message:
2>	use the old ciphering configuration for this message;
2>	if the SECURITY MODE COMMAND message contained the IE "Ciphering mode info":
3>	include and set the IE "Radio bearer uplink ciphering activation time info" to the value of the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
3>	for each radio bearer and signalling radio bearer that belongs to the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN:
4>	start or continue incrementing the COUNT-C values for all RLC-AM and RLC-UM signalling radio bearers at the ciphering activation time as specified in the procedure;
4>	start or continue incrementing the COUNT-C values common for all transparent mode radio bearers for this CN domain at the ciphering activation time as specified in the procedure;
4>	continue incrementing the COUNT-C values for all RLC-AM and RLC-UM radio bearers.
3>	if no new security key set (new ciphering and integrity protection keys) has been received from the upper layers [40] for the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN:
4>	for ciphering on signalling radio bearers using RLC-AM and RLC-UM in the downlink, at the RLC sequence number indicated in IE "Radio bearer downlink ciphering activation time info" in the IE "Ciphering mode info" included in the SECURITY MODE COMMAND, for each signalling radio bearer:
5>	set the 20 most significant bits of the HFN component of the downlink COUNT-C to the value "START" in the most recently transmitted IE "START list" or IE "START", at the reception of the SECURITY MODE COMMAND, that belongs to the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN;
5>	set the remaining bits of the hyper frame numbers to zero.
3>	if new keys have been received:
4>	perform the actions in subclause 8.1.12.3.1.
2>	if the SECURITY MODE COMMAND message contained the IE "Integrity protection mode info":
3>	include and set the IE "Uplink integrity protection activation info" to the value of the variable INTEGRITY_PROTECTION_ACTIVATION_INFO for each signalling radio bearer;
3>	if no new security key set (new ciphering and integrity protection keys) has been received from the upper layers [40] for the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN, for RB2:
4>	in the downlink, for the received SECURITY MODE COMMAND message:
5>	set the 20 most significant bits of the IE "Downlink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the downlink COUNT-I to the value "START" in the most recently transmitted IE "START list" or IE "START", at the reception of the SECURITY MODE COMMAND, that belongs to the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN;
5>	set the remaining bits of the IE "Downlink RRC HFN" to zero.
4>	in the uplink, for the transmitted response message, SECURITY MODE COMPLETE:
5>	set the 20 most significant bits of the IE "Uplink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the uplink COUNT-I to the value "START" in the most recently transmitted IE "START list" or IE "START", at the reception of the SECURITY MODE COMMAND, that belongs to the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN;
5>	set the remaining bits of the IE "Uplink RRC HFN" to zero.
3>	if no new security key set (new ciphering and integrity protection keys) has been received from the upper layers [40] for the CN domain indicated in the variable LATEST_CONFIGURED_CN_DOMAIN, for each signalling radio bearer other than RB2:
4>	if the IE "Integrity protection mode command" has the value "start":
5>	in the downlink, for this signalling radio bearer:
6>	set the 20 most significant bits of IE "Downlink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the downlink COUNT-I to the value START transmitted in the most recently transmitted IE "START list" or IE "START", at the reception of the SECURITY MODE COMMAND, that belongs to the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN;
6>	set the remaining bits of the IE "Downlink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the downlink COUNT-I to zero.
4>	else:
5>	in the downlink, for the first message for which the RRC sequence number in a received RRC message for this signalling radio bearer is equal to or greater than the activation time as indicated in IE "Downlink integrity protection activation info" as included in the IE "Integrity protection mode info", for this signalling radio bearer:
6>	set the 20 most significant bits of the IE "Downlink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the downlink COUNT-I to the value "START" in the most recently transmitted IE "START list" or IE "START", at the reception of the SECURITY MODE COMMAND, that belongs to the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN;
6>	set the remaining bits of the IE "Downlink RRC HFN" to zero.
3>	if new keys have been received:
4>	perform the actions in subclause 8.1.12.3.1.
2>	start applying the new integrity protection configuration in the uplink for signalling radio bearer RB2 from and including the transmitted SECURITY MODE COMPLETE message;
2>	transmit the SECURITY MODE COMPLETE message on RB2.
NOTE 1:	After submission of the SECURITY MODE COMPLETE message to the lower layers, the UE should accept messages received in the DL which require the new security configuration to be applied on them. If the received message is successfully integrity checked, the UE should not discard the message due to lack of completion of the security procedure, caused by the successful delivery of the SECURITY MODE COMPLETE not having yet been confirmed by lower layers, unless the security configuration to be applied has been aborted and the message received requires integrity protection [5].
NOTE 2:	After submission of the SECURITY MODE COMPLETE message to the lower layers, if the UE successfully integrity checks an RRC message received on SRB3 using the new integrity protection configuration, the UE may behave as if the successful delivery of the SECURITY MODE COMPLETE message has been confirmed by RLC.
1>	when the successful delivery of the SECURITY MODE COMPLETE message has been confirmed by RLC:
2>	if the SECURITY MODE COMMAND message contained the IE "Ciphering mode info":
3>	if no new security key set (new ciphering and integrity protection keys) has been received from the upper layers [40] for the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN:
4>	for ciphering on signalling radio bearers using RLC-AM and RLC-UM in the uplink, at the RLC sequence number indicated in IE "Radio bearer uplink ciphering activation time info" included in the SECURITY MODE COMPLETE, for each signalling radio bearer:
5>	set the 20 most significant bits of the HFN component of the uplink COUNT-C to the value "START" in the most recently transmitted IE "START list" or IE "START", at the reception of the SECURITY MODE COMMAND, that belongs to the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN;
5>	set the remaining bits of the hyper frame numbers to zero.
3>	if new keys have been received:
4>	perform the actions in subclause 8.1.12.3.1.
3>	resume data transmission on any suspended radio bearer and signalling radio bearer mapped on RLC-AM or RLC-UM;
3>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
3>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
2>	if the SECURITY MODE COMMAND message contained the IE "Integrity protection mode info":
3>	if no new security key set (new ciphering and integrity protection keys) has been received from the upper layers [40] for the CN domain indicated in the variable LATEST_CONFIGURED_CN_DOMAIN, for each signalling radio bearer other than RB2:
4>	if the IE "Integrity protection mode command" has the value "start":
5>	in the uplink, for this signalling radio bearer:
6>	set the 20 most significant bits of IE "Uplink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the uplink COUNT-I to the value START transmitted in the most recently transmitted IE "START list" or IE "START", at the reception of the SECURITY MODE COMMAND, that belongs to the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN;
6>	set the remaining bits of the IE "Uplink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the uplink COUNT-I to zero.
4>	else:
5>	in the uplink, for the first transmitted RRC message for this signalling radio bearer with RRC sequence number equal to the activation time as indicated in IE "Uplink integrity protection activation info" included in the transmitted SECURITY MODE COMPLETE, for this signalling radio bearer:
6>	set the 20 most significant bits of the IE "Uplink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the uplink COUNT-I to the value "START" in the most recently transmitted IE "START list" or IE "START", at the reception of the SECURITY MODE COMMAND, that belongs to the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN;
6>	set the remaining bits of the IE "Uplink RRC HFN" to zero.
3>	if new keys have been received:
4>	perform the actions in subclause 8.1.12.3.1.
3>	allow the transmission of RRC messages on all signalling radio bearers with any RRC SN;
3>	set "Uplink RRC Message sequence number" for signalling radio bearer RB0 in the variable INTEGRITY_PROTECTION_INFO to a value such that next RRC message to be sent on uplink RB0 will use the new integrity protection configuration and the "RRC Message sequence number" in the IE "Integrity check info" in the next RRC message will equal to the activation time for RB0 as indicated in IE "Uplink integrity protection activation info" included in the transmitted SECURITY MODE COMPLETE;
3>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
3>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
2>	clear the variable SECURITY_MODIFICATION;
2>	notify upper layers upon change of the security configuration;
2>	and the procedure ends.
1>	if the IE "Security capability" is not the same as indicated by the variable UE_CAPABILITY_TRANSFERRED, or the IE "GSM security capability" (if included in the SECURITY MODE COMMAND) is not the same as indicated by the variable UE_CAPABILITY_TRANSFERRED, or if the IE "GSM security capability" is not included in the SECURITY MODE COMMAND and is included in the variable UE_CAPABILITY_TRANSFERRED:
2>	release all its radio resources;
2>	indicate the release of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	clear the variable SECURITY_MODIFICATION;
2>	enter idle mode;
2>	perform actions when entering idle mode as specified in subclause 8.5.2;
2>	and the procedure ends.
8.1.12.3.1	New ciphering and integrity protection keys
NOTE:	The actions in this subclause are to be performed only if the new keys were received for an ongoing RRC connection while in UTRA.
If a new security key set (new ciphering and integrity protection keys) has been received from the upper layers [40] for the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN, the UE shall:
1>	set the START value for the CN domain indicated in the variable LATEST_CONFIGURED_CN_DOMAIN to zero;
1>	if the SECURITY MODE COMMAND message contained the IE "Integrity protection mode info":
2>	for integrity protection in the downlink on each signalling radio bearer except RB2:
3>	if IE "Integrity protection mode command" has the value "start":
4>	for the first received message on this signalling radio bearer:
5>	start using the new integrity key;
5>	for this signalling radio bearer:
6>	set the IE "Downlink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the downlink COUNT-I to zero.
3>	else:
4>	for the first message for which the RRC sequence number in a received RRC message for this signalling radio bearer is equal to or greater than the activation time as indicated in IE "Downlink integrity protection activation info" as included in the IE "Integrity protection mode info":
5>	start using the new integrity key;
5>	for this signalling radio bearer:
6>	set the IE "Downlink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the downlink COUNT-I to zero.
2>	for integrity protection in the uplink on each signalling radio bearer except RB2:
3>	for the first message for which the RRC sequence number in a to be transmitted RRC message for this signalling radio bearer is equal to the activation time as indicated in IE "Uplink integrity protection activation info" included in the transmitted SECURITY MODE COMPLETE message:
4>	start using the new integrity key;
4>	for this signalling radio bearer:
5>	set the IE "Uplink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the uplink COUNT-I to zero.
2>	for integrity protection in the downlink on signalling radio bearer RB2:
3>	at the received SECURITY MODECOMMAND:
4>	start using the new integrity key;
4>	set the IE "Downlink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the downlink COUNT-I to zero.
2>	for integrity protection in the uplink on signalling radio bearer RB2 :
3>	at the transmitted SECURITY MODE COMPLETE:
4>	start using the new integrity key;
4>	set the IE "Uplink RRC HFN" in the variable INTEGRITY_PROTECTION_INFO of the uplink COUNT-I to zero.
1>	if the SECURITY MODE COMMAND message contained the IE "Ciphering mode info":
2>	for each signalling radio bearer and for each radio bearer for the CN domain indicated in the variable LATEST_CONFIGURED_CN_DOMAIN:
3>	if the IE "Status" in the variable CIPHERING_STATUS has the value "Started" for this CN domain, then for ciphering on radio bearers using RLC-TM:
4>	at the CFN as indicated in the IE "Ciphering activation time for DPCH" in the IE "Ciphering mode info":
5>	start using the new key in uplink and downlink;
5>	set the HFN component of the COUNT-C to zero.
3>	if the IE "Status" in the variable CIPHERING_STATUS has the value "Started" for this CN domain, then for ciphering on radio bearers and signalling radio bearers using RLC-AM and RLC-UM:
4>	in the downlink, at the RLC sequence number indicated in IE "Radio bearer downlink ciphering activation time info" in the IE "Ciphering mode info":
5>	start using the new key;
5>	set the HFN component of the downlink COUNT-C to zero.
4>	in the uplink, at the RLC sequence number indicated in IE "Radio bearer uplink ciphering activation time info":
5>	start using the new key;
5>	set the HFN component of the uplink COUNT-C to zero.
1>	consider the value of the latest transmitted START value to be zero.
8.1.12.4	Void

8.1.12.4a	Incompatible simultaneous security reconfiguration
If the variable INCOMPATIBLE_SECURITY_RECONFIGURATION becomes set to TRUE of the received SECURITY MODE COMMAND message, the UE shall:
1>	transmit a SECURITY MODE FAILURE message on the uplink DCCH using AM RLC, using the ciphering and integrity protection configurations prior to the reception of this SECURITY MODE COMMAND;
1>	set the IE "RRC transaction identifier" in the SECURITY MODE FAILURE message to the value of "RRC transaction identifier" in the entry for the SECURITY MODE COMMAND message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the IE "failure cause" to the cause value "incompatible simultaneous reconfiguration";
1>	when the response message has been submitted to lower layers for transmission:
2>	set the variable INCOMPATIBLE_SECURITY_RECONFIGURATION to FALSE;
2>	continue with any ongoing processes and procedures as if the invalid SECURITY MODE COMMAND message has not been received;
2>	only accept a message on SRB 2, with a COUNT-I that:
3>	is higher than the COUNT-I used prior to receiving the  SECURITY MODE COMMAND message incremented by one; and
3>	does not take into account the HFN from the received SECURITY MODE COMMAND message.
2>	and the procedure ends.
8.1.12.4b	Cell update procedure during security reconfiguration
If:
-	a cell update procedure according to subclause 8.3.1 is initiated; and
-	the received SECURITY MODE COMMAND message causes either,
-	the IE "Reconfiguration" in the variable CIPHERING_STATUS to be set to TRUE; and/or
-	the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to be set to TRUE:
the UE shall:
1>	abort the ongoing integrity and/or ciphering reconfiguration;
1>	resume data transmission on any suspended radio bearer and signalling radio bearer mapped on RLC-AM or RLC-UM;
1>	allow the transmission of RRC messages on all signalling radio bearers with any RRC SN;
1>	when the CELL UPDATE message has been submitted to lower layers for transmission:
2>	if the SECURITY MODE COMMAND message contained the IE "Ciphering mode info":
3>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
3>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
2>	if the SECURITY MODE COMMAND message contained the IE "Integrity protection mode info":
3>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
3>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
2>	continue with any ongoing processes and procedures as if the SECURITY MODE COMMAND message has not been received;
2>	only accept a message on SRB 2, with a COUNT-I that:
3>	is higher than the COUNT-I used prior to receiving the  SECURITY MODE COMMAND message incremented by one; and
3>	does not take into account the HFN from the received SECURITY MODE COMMAND message.
2>	if the UE has already submitted the SECURITY MODE COMPLETE message, use a COUNT-I value for transmission of the next message on SRB2 as stated below:
3>	take the COUNT-I used prior to the transmission of  the SECURITY MODE COMPLETE message;
3>	increment  that COUNT-I with 2;
3>	apply that COUNT-I on the next message to transmit.
2>	clear the variable SECURITY_MODIFICATION;
2>	the procedure ends.
8.1.12.4c	Invalid configuration
If the variable INVALID_CONFIGURATION is set to TRUE due to the received SECURITY MODE COMMAND message, the UE shall:
1>	transmit a SECURITY MODE FAILURE message on the DCCH using AM RLC after setting the IEs as specified below:
2>	set the IE "RRC transaction identifier" in the SECURITY MODE FAILURE message to the value of "RRC transaction identifier" in the entry for the SECURITY MODE COMMAND message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "failure cause" to the cause value "invalid configuration".
1>	when the response message has been submitted to lower layers for transmission:
2>	set the variable INVALID_CONFIGURATION to FALSE;
2>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE;
2>	continue with any ongoing processes and procedures as if the invalid SECURITY MODE COMMAND message has not been received;
2>	only accept a message on SRB 2, with a COUNT-I that:
3>	is higher than the COUNT-I used prior to receiving the  SECURITY MODE COMMAND message incremented by one; and
3>	does not take into account the HFN from the received SECURITY MODE COMMAND message.
2>	and the procedure ends.
8.1.12.5	Reception of SECURITY MODE COMPLETE message by the UTRAN
UTRAN should apply integrity protection on the received SECURITY MODE COMPLETE message and all subsequent messages with the new integrity protection configuration, if changed. When UTRAN has received a SECURITY MODE COMPLETE message and the integrity protection has successfully been applied, UTRAN should:
1>	if the IE "Ciphering mode info" was included in the SECURITY MODE COMMAND message:
2>	if new keys were received for the CN domain set in the IE "CN Domain Identity" in the SECURITY MODE COMMAND:
3>	set, at the downlink and uplink activation time, all the bits of the hyper frame numbers of the downlink and uplink COUNT-C values respectively for all radio bearers for this CN domain and all signalling radio bearers to zero.
2>	else (if new keys were not received):
3>	use, at the downlink and uplink activation time, the value "START" in the most recently received IE "START list" or IE "START" that belongs to the CN domain as indicated in the IE "CN domain identity" to initialise all hyper frame numbers of the downlink and uplink COUNT-C values respectively for all the signalling radio bearers as follows:
4>	set the 20 most significant bits of the hyper frame numbers of the COUNT-C for all signalling radio bearers to the value "START" in the most recently received IE "START list" or IE "START" for that CN domain;
4>	set the remaining bits of the hyper frame numbers equal to zero.
1>	if the IE "Integrity protection mode info" was included in the SECURITY MODE COMMAND message:
2>	if this was not the first SECURITY MODE COMMAND message for this RRC connection:
3>	if new keys have been received for the CN domain set in the IE "CN Domain Identity" included in the transmitted SECURITY MODE COMMAND message:
4>	initialise, at the downlink and uplink activation time, all hyper frame numbers of the downlink and uplink COUNT-I values respectively for all the signalling radio bearers other than RB2 as follows:
5>	set all bits of the hyper frame numbers of the uplink and downlink COUNT-I to zero.
3>	if no new keys have been received for the CN domain set in the IE "CN Domain Identity" included in the transmitted SECURITY MODE COMMAND message:
4>	use, at the downlink and uplink activation time, the value "START" in the most recently received IE "START list" or IE "START" that belongs to the CN domain as indicated in the IE "CN domain identity" to initialise all hyper frame numbers of the downlink and uplink COUNT-I values respectively for all the signalling radio bearers other than RB2 as follows:
5>	set the 20 most significant bits of the hyper frame numbers of the downlink and uplink COUNT-I respectively for all signalling radio bearers to the value "START" in the most recently received IE "START list" or IE "START" for that CN domain;
5>	set the remaining bits of the hyper frame numbers equal to zero.
1>	send an indication to upper layers that the new security configuration has been activated;
1>	resume, in the downlink, all suspended radio bearers and all signalling radio bearers;
1>	allow the transmission of RRC messages on all signalling radio bearers with any RRC SN;
1>	if the IE "Integrity protection mode command" included in the SECURITY MODE COMMAND had the value "Start":
2>	start applying integrity protection in the downlink for all signalling radio bearers.
1>	if the IE "Integrity protection mode command" included in the SECURITY MODE COMMAND had the value "Modify":
2>	start applying the new integrity protection configuration in the downlink at the RRC sequence number, for each signalling radio bearers RBn, except for signalling radio bearer RB2, indicated by the entry for signalling radio bearer n in the "RRC message sequence number list" in the IE "Downlink integrity protection activation info";
2>	continue applying the new integrity configuration for signalling radio bearer RB2;
2>	apply the new integrity protection configuration on the received signalling messages with RRC SN greater than or equal to the number associated with the signalling radio bearer in IE "Uplink integrity protection activation info".
1>	apply the old ciphering configuration for the transmission of RLC PDUs with RLC sequence number less than the number indicated in the IE "Radio bearer downlink ciphering activation time info" included in the IE "Ciphering mode info";
1>	apply the new ciphering configuration for the transmission of RLC PDUs with RLC sequence number greater than or equal to the number indicated in IE "Radio bearer downlink ciphering activation time info" included in the IE "Ciphering mode info";
1>	apply the old integrity protection configuration on the received signalling messages with RRC SN smaller than the number associated with the signalling radio bearer in IE "Uplink integrity protection activation info";
1>	for radio bearers using RLC-AM or RLC-UM:
2>	use the old ciphering configuration for received RLC PDUs with RLC sequence number less than the RLC sequence number indicated in the IE "Radio bearer uplink ciphering activation time info" sent by the UE;
2>	use the new ciphering configuration for received RLC PDUs with RLC sequence number greater than or equal to the RLC sequence number indicated in the IE "Radio bearer uplink ciphering activation time info" sent by the UE;
2>	if an RLC reset or re-establishment of the transmitting side of an RLC entity occurs after the SECURITY MODE COMPLETE message has been received by UTRAN before the downlink activation time for the new ciphering configuration has been reached, ignore the activation time and apply the new ciphering configuration in downlink immediately after the RLC reset or RLC re-establishment;
2>	if an RLC reset or re-establishment of the receiving side of an RLC entity occurs after the SECURITY MODE COMPLETE message has been received by UTRAN before the uplink activation time for the new ciphering configuration has been reached, ignore the activation time and apply the new ciphering configuration in uplink immediately after the RLC reset or RLC re-establishment.
1>	for radio bearers using RLC-TM:
2>	use the old ciphering configuration for the received RLC PDUs before the CFN as indicated in the IE "Ciphering activation time for DPCH" in the IE "Ciphering mode info" as included in the SECURITY MODE COMMAND;
2>	use the new ciphering configuration for the received RLC PDUs at the CFN as indicated in the IE "Ciphering activation time for DPCH" in the IE "Ciphering mode info" as included in the SECURITY MODE COMMAND.
1>	and the procedure ends.
8.1.12.6	Invalid SECURITY MODE COMMAND message
If the SECURITY MODE COMMAND message contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows:
1>	transmit a SECURITY MODE FAILURE message on the uplink DCCH using AM RLC;
1>	set the IE "RRC transaction identifier" in the SECURITY MODE FAILURE message to the value of "RRC transaction identifier" in the entry for the SECURITY MODE COMMAND message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the IE "failure cause" to the cause value "protocol error";
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	when the response message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid SECURITY MODE COMMAND message has not been received;
2>	only accept a message on SRB 2, with a COUNT-I that:
3>	is higher than the COUNT-I used prior to receiving the  SECURITY MODE COMMAND message incremented by one; and 
3>	does not take into account the HFN from the received SECURITY MODE COMMAND message.
2>	and the procedure ends.
8.1.13	Signalling connection release procedure

Figure 8.1.13-1: Signalling connection release procedure, normal case
8.1.13.1	General
The signalling connection release procedure is used to notify to the UE that one of its ongoing signalling connections has been released. The procedure does not initiate the release of the RRC connection.
8.1.13.2	Initiation of SIGNALLING CONNECTION RELEASE by the UTRAN
To initiate the procedure, the UTRAN transmits a SIGNALLING CONNECTION RELEASE message on DCCH using AM RLC.
8.1.13.3	Reception of SIGNALLING CONNECTION RELEASE by the UE
Upon reception of a SIGNALLING CONNECTION RELEASE message, the UE shall:
1>	indicate the release of the signalling connection and pass the value of the IE "CN domain identity" to upper layers;
1>	if the IE "Extended Wait Time" is present and the UE supports "delay tolerant access":
2>	forward the IE "Extended Wait Time" to the upper layers.
1>	remove the signalling connection with the identity indicated by the IE "CN domain identity" from the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
1>	clear the entry for the SIGNALLING CONNECTION RELEASE message in the table "Accepted transactions" in the variable TRANSACTIONS;
1>	the procedure ends.
8.1.13.4	Invalid SIGNALLING CONNECTION RELEASE message
If the UE receives a SIGNALLING CONNECTION RELEASE message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows:
1>	include the IE "Identification of received message"; and
2>	set the IE "Received message type" to SIGNALLING CONNECTION RELEASE;
2>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the SIGNALLING CONNECTION RELEASE message in the table "Rejected transactions" in the variable TRANSACTIONS; and
2>	clear that entry.
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	transmit an RRC STATUS message on the uplink DCCH using AM RLC;
1>	when the RRC STATUS message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid SIGNALLING CONNECTION RELEASE message has not been received.
8.1.13.5	Invalid configuration
If radio access bearers for the CN domain indicated by the IE "CN domain identity" exist in the variable ESTABLISHED_RABS, the UE shall:
1>	transmit an RRC STATUS message on the uplink DCCH using AM RLC;
1>	include the IE "Identification of received message"; and
1>	set the IE "Received message type" to SIGNALLING CONNECTION RELEASE; and
1>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the SIGNALLING CONNECTION RELEASE message in the table "Accepted transactions" in the variable TRANSACTIONS and clear that entry;
1>	include the IE "Protocol error information" with contents set to the value "Message not compatible with receiver state";
1>	when the RRC STATUS message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid SIGNALLING CONNECTION RELEASE message has not been received.
8.1.14	Signalling connection release indication procedure

Figure 8.1.14-1: Signalling connection release indication procedure, normal case
8.1.14.1	General
The signalling connection release indication procedure is used by the UE to indicate to the UTRAN that one of its signalling connections has been released or it is used by the UE to request UTRAN to initiate a state transition to a battery efficient RRC state. The procedure may in turn initiate the RRC connection release procedure.
8.1.14.2	Initiation
The UE shall, on receiving a request to release (abort) the signalling connection from upper layers for a specific CN domain:
1>	if a signalling connection in the variable ESTABLISHED_SIGNALLING_CONNECTIONS for the specific CN domain identified with the IE "CN domain identity" exists:
2>	initiate the signalling connection release indication procedure.
1>	otherwise:
2>	abort any ongoing establishment of signalling connection for that specific CN domain as specified in 8.1.3.5a.
Upon initiation of the signalling connection release indication procedure in CELL_PCH or URA_PCH state, the UE shall:
1>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
2>	move to CELL_FACH state by performing the actions as described in subclause 8.5.47, and continue with the signalling connection release indication procedure as below.
1>	else:
2>	if variable HSPA_RNTI_STORED_PCH is set to TRUE:
3>	move to CELL_FACH state by performing the actions as described in subclause 8.5.56, and continue with the signalling connection release indication procedure as below.
2>	else:
3>	if variable H_RNTI and variable C_RNTI are set: 
4>	continue with the signalling connection release indication procedure as below.
3>	else:
4>	perform a cell update procedure, according to subclause 8.3.1, using the cause "uplink data transmission";
4>	when the cell update procedure completed successfully:
5>	continue with the signalling connection release indication procedure as below.
The UE shall:
1>	set the IE "CN Domain Identity" to the value indicated by the upper layers. The value of the IE indicates the CN domain whose associated signalling connection the upper layers are indicating to be released;
1>	if the UE includes the IE "Signalling Connection Release Indication Cause" and does not set it to "UE Requested PS Data session end";
2>	set the IE "Signalling Connection Release Indication Cause" to "any other cause";
1>	transmit a SIGNALLING CONNECTION RELEASE INDICATION message on DCCH using AM RLC;
1>	if the SIGNALLING CONNECTION RELEASE INDICATION message did not include the IE "Signalling Connection Release Indication Cause" set to "UE Requested PS Data session end".
2>	remove the signalling connection with the identity indicated by upper layers from the variable ESTABLISHED_SIGNALLING_CONNECTIONS.
When the successful delivery of the SIGNALLING CONNECTION RELEASE INDICATION message has been confirmed by RLC the procedure ends.
In addition, if the timer T323 value is stored in the IE "UE Timers and constants in connected mode" in the variable TIMERS_AND_CONSTANTS, and if there is no CS domain connection indicated in the variable ESTABLISHED_SIGNALLING_CONNECTIONS, the UE may: 
1>	if the upper layers indicate that there is no more PS data for a prolonged period:
2>	if timer T323 is not running:
3>	if the UE is in CELL_DCH state; or
3>	if the UE is in CELL_FACH state and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to FALSE; or
3>	if the UE is in CELL_FACH state and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE and HS-DSCH second DRX cycleFACH is shorter than the shorter CN domain specific DRX cycle length for the PS domain and CS domain; or
3>	if the UE is in CELL_FACH state and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE and HS-DSCH second DRX cycleFACH is equal to or longer than the shorter CN domain specific DRX cycle length for the PS domain and CS domain, and V316 < 1; or
3>	if the UE is in CELL_PCH state or URA_PCH state and the DRX cycle length in use is shorter than the shorter CN domain specific DRX cycle length for the PS domain and CS domain; or
3>	if the UE is in CELL_PCH state or URA_PCH state and the DRX cycle length in use is equal to or longer than the shorter CN domain specific DRX cycle length for the PS domain and CS domain, and V316 < 1:
4>	if the UE is in CELL_PCH state or URA_PCH state and the DRX cycle length in use is equal to or longer than the shorter CN domain specific DRX cycle length for the PS domain and CS domain:
5>	increment V316 by 1.
4>	if the UE is in CELL_FACH state and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE and HS-DSCH second DRX cycleFACH is equal to or longer than the shorter CN domain specific DRX cycle length for the PS domain and CS domain:
5>	increment V316 by 1.
4>	set the IE "CN Domain Identity" to PS domain;
4>	set the IE "Signalling Connection Release Indication Cause" to "UE Requested PS Data session end";
4>	if the UE has a stored configuration in the variable OTHER_STATE_CONFIGURATION with a value of IE "Source RRC state indicator" corresponding to the UE current UE RRC state, and the variable ORDERED_RECONFIGURATION is FALSE:
5>	transmit a SIGNALLING CONNECTION RELEASE INDICATION message on DCCH using AM RLC;
5>	start the timer T323;
5>	when the successful transmission of the SIGNALLING CONNECTION RELEASE INDICATION message has been confirmed by the lower layers:
6>	act on sub-clause 8.2.2.3 and move to the RRC state indicated by IE "Target RRC state indicator" in the corresponding configuration in variable OTHER_STATE_CONFIGURATION.
4>	else:
5>	transmit a SIGNALLING CONNECTION RELEASE INDICATION message on DCCH using AM RLC;
5>	start the timer T323.
3>	the procedure ends.
The UE shall be inhibited from sending the SIGNALLING CONNECTION RELEASE INDICATION message with the IE "Signalling Connection Release Indication Cause" set to "UE Requested PS Data session end" whilst timer T323 is running.
The UE shall not locally release the PS signalling connection after it has sent the SIGNALLING CONNECTION RELEASE INDICATION message with the IE "Signalling Connection Release Indication Cause" set to "UE Requested PS Data session end".
At transmission or reception of PS data or signalling on SRB3 or upwards, or entering RRC Connected mode, or successful SRNS relocation, the UE shall set V316 to zero.
8.1.14.2a	RLC re-establishment or inter-RAT change
If a re-establishment of the transmitting side of the RLC entity on signalling radio bearer RB2 occurs before the successful delivery of the SIGNALLING CONNECTION RELEASE INDICATION message, without the IE "Signalling Connection Release Indication Cause" or with the IE "Signalling Connection Release Indication Cause" set to a value other than "UE Requested PS Data session end", has been confirmed by RLC, the UE shall:
1>	retransmit the SIGNALLING CONNECTION RELEASE INDICATION message on the uplink DCCH using AM RLC on signalling radio bearer RB2.
If an Inter-RAT handover from UTRAN procedure occurs before the successful delivery of the SIGNALLING CONNECTION RELEASE INDICATION message without the IE "Signalling Connection Release Indication Cause" or with the IE "Signalling Connection Release Indication Cause" set to a value other than "UE Requested PS Data session end", has been confirmed by RLC, the UE shall:
1>	abort the signalling connection while in the new RAT.
8.1.14.3	Reception of SIGNALLING CONNECTION RELEASE INDICATION by the UTRAN
Upon reception of a SIGNALLING CONNECTION RELEASE INDICATION message, if the IE "Signalling Connection Release Indication Cause" is not included or the IE "Signalling Connection Release Indication Cause" is set to "any other cause", the UTRAN requests the release of the signalling connection from upper layers. Upper layers may then initiate the release of the signalling connection.
If the IE "Signalling Connection Release Indication Cause" is set to "UE Requested PS Data session end" in the SIGNALLING CONNECTION RELEASE INDICATION message the UTRAN may initiate a state transition to efficient battery consumption RRC state such as IDLE, CELL_PCH, URA_PCH or CELL_FACH state.
8.1.14.4	Expiry of timer T323
When timer T323 expires: 
1>	the UE may determine whether any subsequent indications from upper layers that there is no more PS data for a prolonged period in which case it triggers the transmission of a single SIGNALLING CONNECTION RELEASE INDICATION message according with clause 8.1.14.2;
1>	the procedure ends.
NOTE:	If the UE is in CELL_PCH state or URA_PCH state and the DRX cycle length in use is shorter than the shorter of the CN domain specific DRX cycle lengths for the PS domain and CS domain or the UE is in CELL_FACH state and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE and HS-DSCH second DRX cycleFACH is shorter than the shorter of the CN domain specific DRX cycle length for the PS domain and CS domain the UE should limit the number of subsequent SIGNALLING CONNECTION RELEASE INDICATION messages with IE "Signalling Connection Release Indication Cause" set to "UE Requested PS Data session end" in order to not adversely impact the battery lifetime or network signalling load. 
8.1.15	Counter check procedure

Figure 8.1.15-1: Counter check procedure
8.1.15.1	General
The counter check procedure is used by the UTRAN to perform a local authentication. The purpose of the procedure is to check that the amount of data sent in both directions (uplink and downlink) over the duration of the RRC connection is identical at the UTRAN and at the UE (to detect a possible intruder – a 'man-in-the-middle' – from operating).
This procedure is only applicable to radio bearers, and only to radio bearers using RLC-AM or RLC-UM. It should be noted that this requires that the COUNT-C values for each UL and DL radio bearers using RLC-AM or RLC-UM continue to be incremented even if ciphering is not used. This procedure is not applicable to signalling radio bearers.
8.1.15.2	Initiation
The UTRAN monitors the COUNT-C value associated with each radio bearer using UM or AM RLC. The procedure is triggered whenever any of these values reaches a critical checking value. The granularity of these checking values and the values themselves are defined to the UTRAN by the visited network. The UTRAN initiates the procedure by sending a COUNTER CHECK message on the downlink DCCH.
8.1.15.3	Reception of a COUNTER CHECK message by the UE
When the UE receives a COUNTER CHECK message it shall compare the COUNT-C MSB values received in the IE "RB COUNT-C MSB information" in the COUNTER CHECK message to the COUNT-C MSB values of the corresponding radio bearers.
The UE shall:
1>	set the IE "RRC transaction identifier" in the COUNTER CHECK RESPONSE message to the value of "RRC transaction identifier" in the entry for the COUNTER CHECK message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry.
If:
-	there is one or more radio bearer(s) using UM or AM RLC mode stored in the variable ESTABLISHED_RABS, which is (are) not included in the IE "RB COUNT-C MSB information"; or
-	there is one or more radio bearer(s) included in the IE "RB COUNT-C MSB information", which is (are) not stored in the variable ESTABLISHED_RABS; or
-	for any radio bearer (excluding signalling radio bearers) using UM or AM RLC mode stored in the variable ESTABLISHED_RABS and included in the IE "RB COUNT-C MSB information" with COUNT-C MSB values different from the MSB part of the COUNT-C values in the UE:
the UE shall:
1>	include these radio bearers in the IE "RB COUNT-C information" in the COUNTER CHECK RESPONSE message. For any RB which is included in the IE "RB COUNT-C MSB information" in the COUNTER CHECK message but not stored in the variable ESTABLISHED_RABS in the UE, the MSB part of COUNT-C values in the COUNTER CHECK RESPONSE message shall be set identical to COUNT-C-MSB values in the COUNTER CHECK message. The LSB part shall be filled with zeroes.
The UE shall:
1>	if no COUNT-C exists for a radio bearer for a given direction (uplink or downlink) because:
2>	it is a uni-directional radio bearer configured only for the other direction (downlink or uplink respectively); or
2>	it has been configured to RLC-TM mode in one direction (uplink or downlink) and RLC-UM in the other (downlink or uplink respectively):
3>	set the COUNT-C in the IE "RB COUNT-C information" in the COUNTER CHECK RESPONSE message, to any value.
1>	submit a COUNTER CHECK RESPONSE message to lower layers for transmission on the uplink DCCH using AM RLC.
When the COUNTER CHECK RESPONSE message has been submitted to lower layers for transmission the procedure ends.
8.1.15.4	Reception of the COUNTER CHECK RESPONSE message by UTRAN
If the UTRAN receives a COUNTER CHECK RESPONSE message that does not contain any COUNT-C values, the procedure ends.
If the UTRAN receives a COUNTER CHECK RESPONSE message that contains one or several COUNT-C values the UTRAN may release the RRC connection.
8.1.15.5	Cell re-selection
If the UE performs cell re-selection anytime during this procedure it shall, without interrupting the procedure:
1>	initiate the cell update procedure according to subclause 8.3.1.
8.1.15.6	Invalid COUNTER CHECK message
If the UE receives a COUNTER CHECK message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	transmit an RRC STATUS message on the uplink DCCH using AM RLC;
1>	include the IE "Identification of received message"; and
1>	set the IE "Received message type" to COUNTER CHECK; and
1>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the UE COUNTER CHECK message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	when the RRC STATUS message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid COUNTER CHECK message has not been received.
8.1.16	Inter RAT handover information transfer

Figure 8.1.16-1: Inter RAT handover information transfer, normal flow
8.1.16.1	General
The inter RAT handover information transfer procedure is used by the UE to convey RRC information needed for inter RAT handover to UTRAN.
8.1.16.2	Initiation
If:
-	a radio access technology other than UTRA, e.g. GSM or E-UTRA, using radio access technology-specific procedures, orders the UE to provide the INTER RAT HANDOVER INFO message; or
-	a radio access technology other than UTRA, e.g. GSM or E-UTRA, using radio access technology-specific procedures, configures the UE to send the INTER RAT HANDOVER INFO message upon system specific conditions not involving an explicit order e.g. early classmark sending upon entering connected mode; or
-	while in connected mode using another radio access technology, the inter RAT handover info changes compared to what has previously been sent via the other radio access technology:
the UE shall:
1>	initiate the inter RAT handover information transfer procedure.
To determine if the inter RAT handover info has changed compared to what has previously been sent, the UE shall:
1>	store the information last sent in the variable INTER_RAT_HANDOVER_INFO_TRANSFERRED;
1>	if this variable has not yet been set:
2>	not initiate the inter RAT handover information transfer procedure due to change of inter RAT handover info.
NOTE:	Currently neither the UE security information nor the predefined configuration status information change while in connected mode using GSM radio access technology.
8.1.16.3	INTER RAT HANDOVER INFO message contents to set
The UE shall:
1>	if the UE supports both UMTS TDD and FDD:
2>	determine whether capabilities are being requested for FDD or TDD mode; and 
2>	use the capabilities associated with that mode for the remainder of this procedure.
1>	include the IE "UE security information", and the IE "UE security information2" if inter-RAT PS handover is supported by the UE; and
1>	not include the IE "UE Specific Behaviour Information 1 interRAT";
1>	in case support for the compressed version of the inter RAT handover info is indicated via the other radio access technology:
	2>	if the other radio access technology is not E-UTRA:
3>	include of the following IEs the IE that after encoding has the smallest size: IE "Predefined configuration status information compressed" or the IE "Predefined configuration status information".
2>	else:
3>	exclude the IE "Predefined configuration status information" and "Predefined configuration status information compressed".
2>	include the IE "UE radio access capability compressed". 
1>	else:
2>	if the other radio access technology is not E-UTRA:
3>	include the IE "Predefined configuration status information".
2>	else:
3>	exclude the IE "Predefined configuration status information".
2>	include the IE "UE capability container", containing the IE "UE radio access capability" and the IE "UE radio access capability extension", in accordance with the following:
3>	if the UE supports multiple UTRA FDD Frequency Bands; or
3>	if the UE supports a single UTRA FDD Frequency Band different from Band I [21]; or
3>	if the UE supports E-UTRA:
4>	include the IE "UE radio access capability", excluding IEs "RF capability FDD" and "Measurement capability" for FDD and including the IE "Measurement capability TDD" for TDD;
4>	include the IE "UE radio access capability extension", including the IEs "RF capability FDD extension", the "Measurement capability extension", the "Additional Secondary Cells", the "Additional Secondary Cells 2", the "Non-contiguous multi-cell", the "Support of uplink closed loop transmit diversity" and the "Support of uplink open loop transmit diversity" associated with each supported UTRA FDD frequency band indicated in the IE "Frequency band", but may omit all or part of these IEs for supported inter-RAT bands.
3>	else:
4>	include the IE "UE radio access capability", including the IEs "RF capability FDD" and "Measurement capability" associated with the Band I [21] for FDD and excluding the IE "Measurement capability TDD" for TDD;
4>	include the IE "UE radio access capability extension", including the IEs "RF capability FDD extension", the "Measurement capability extension", the "Additional Secondary Cells", the "Additional Secondary Cells 2", the "Non-contiguous multi-cell", the "Support of uplink closed loop transmit diversity" and the "Support of uplink open loop transmit diversity"  associated with each supported UTRA FDD frequency band indicated in the IE "Frequency band".
1>	For FDD, include the IE "UE radio access capability comp 2";
1>	For 1.28 Mcps TDD, include the IE "UE radio access capability comp for 1.28 Mcps TDD";
1>	initiate the transfer of the INTER RAT HANDOVER INFO message via the other radio access technology, using radio access technology-specific procedures;
1>	store the following in the variable INTER_RAT_HANDOVER_INFO_TRANSFERRED if they were included in the INTER RAT HANDOVER INFO message:
2>	the IE "Predefined configuration status information";
2>	the IE "Predefined configuration status information compressed";
2>	the IE "UE security information";
2>	the IE "UE security information2";
2>	the IE "UE radio access capability";
2>	the IE "UE radio access capability extension"; and
2>	the IE "UE radio access capability compressed";
2>	if the IE "UE radio access capability compressed" were included in the INTER RAT HANDOVER INFO message:
3>	set the IE "Security Capability" to the mandatory R99 algorithms.
1>	and the procedure ends.
8.1.17	ETWS primary notification with security procedure

Figure 8.1.17-1: ETWS primary notification with security
8.1.17.1	General
The ETWS primary notification with security procedure is used to transfer an ETWS primary notification to the UE. The ETWS PRIMARY NOTIFICATION WITH SECURITY message is received via the dedicated control channel (DCCH).
The UE may receive the ETWS PRIMARY NOTIFICATION WITH SECURITY message via DCCH, when the UE is in a state where it is configured to receive DCCH. The UTRAN may use this option to send an ETWS primary notification to the UE when RRC is configured from upper layers to receive the ETWS primary notification either. The UE behaviour is specified in subclause 8.1.17.4.
8.1.17.2	Initiation
The UTRAN may initiate the ETWS primary notification with security procedure towards UEs in connected mode CELL_DCH state by sending the ETWS PRIMARY NOTIFICATION WITH SECURITY message on DCCH using UM or AM RLC.
8.1.17.3	Void
8.1.17.4	Reception of the ETWS PRIMARY NOTIFICATION WITH SECURITY message
If the UE receives the ETWS PRIMARY NOTIFICATION WITH SECURITY message on DCCH, the ETWS capable UE shall:
1>	forward the ETWS primary notification to upper layers as specified in subclause 8.1.17.5.
If the UE receives the ETWS PRIMARY NOTIFICATION WITH SECURITY message, an ETWS incapable UE shall ignore this message.
8.1.17.5	Forward of the ETWS primary notification to the upper layers
If the UE has received the ETWS PRIMARY NOTIFICATION WITH SECURITY message on DCCH, the ETWS capable UE shall:
1>	forward the content of the IE "ETWS information" received in the ETWS PRIMARY NOTIFICATION WITH SECURITY message to upper layers.
8.1.17.6	Void

8.2	Radio Bearer control procedures
8.2.1	Radio bearer establishment
See subclause 8.2.2 Reconfiguration procedures.
8.2.2	Reconfiguration procedures

Figure 8.2.2-1: Radio Bearer Establishment, normal case

Figure 8.2.2-2: Radio Bearer Establishment, failure case

Figure 8.2.2-3: Radio bearer reconfiguration, normal flow

Figure 8.2.2-4: Radio bearer reconfiguration, failure case

Figure 8.2.2-5: Radio Bearer Release, normal case

Figure 8.2.2-6: Radio Bearer Release, failure case

Figure 8.2.2-7: Transport channel reconfiguration, normal flow

Figure 8.2.2-8: Transport channel reconfiguration, failure case

Figure 8.2.2-9: Physical channel reconfiguration, normal flow

Figure 8.2.2-10: Physical channel reconfiguration, failure case
8.2.2.1	General
Reconfiguration procedures include the following procedures:
-	the radio bearer establishment procedure;
-	radio bearer reconfiguration procedure;
-	the radio bearer release procedure;
-	the transport channel reconfiguration procedure; and
-	the physical channel reconfiguration procedure.
The radio bearer establishment procedure is used to establish new radio bearer(s).
The radio bearer reconfiguration procedure is used to reconfigure parameters for a radio bearer, to establish new radio bearer(s) or to release radio bearer(s).
The radio bearer release procedure is used to release radio bearer(s).
The transport channel reconfiguration procedure is used to reconfigure transport channel parameters.
The physical channel reconfiguration procedure is used to establish, reconfigure and release physical channels.
While performing any of the above procedures, these procedures may perform a hard handover (subclause 8.3.5) and/or an HS-DSCH cell change and/or a serving E-DCH cell change. The reconfiguration procedures are also used to change the feedback configuration for HS-DSCH.
8.2.2.2	Initiation
To initiate any one of the reconfiguration procedures, UTRAN should:
1>	configure new radio links in any new physical channel configuration;
1>	start transmission and reception on the new radio links;
1>	for a radio bearer establishment procedure:
2>	transmit a RADIO BEARER SETUP or a RADIO BEARER RECONFIGURATION message on the downlink DCCH using AM or UM RLC;
2>	if signalling radio bearer RB4 is setup with this procedure and signalling radio bearers RB1-RB3 were already established prior to the procedure:
3>	if the variable "LATEST_CONFIGURED_CN_DOMAIN" has been initialised:
4>	connect any radio bearers setup by the same message as signalling radio bearer RB4 to the CN domain indicated in the variable "LATEST CONFIGURED CN DOMAIN".
1>	for a radio bearer reconfiguration procedure:
2>	transmit a RADIO BEARER RECONFIGURATION message on the downlink DCCH using AM or UM RLC.
1>	for a radio bearer release procedure:
2>	transmit a RADIO BEARER RELEASE or a RADIO BEARER RECONFIGURATION message on the downlink DCCH using AM or UM RLC.
1>	for a transport channel reconfiguration procedure:
2>	transmit a TRANSPORT CHANNEL RECONFIGURATION message on the downlink DCCH using AM or UM RLC.
1>	for a physical channel reconfiguration procedure:
2>	transmit a PHYSICAL CHANNEL RECONFIGURATION message on the downlink DCCH using AM or UM RLC.
1>	if the reconfiguration procedure is simultaneous with SRNS relocation procedure:
2>		if the transmitted message is a RADIO BEARER RECONFIGURATION:
3>	include the IE "New U-RNTI".
2>	else:
3>	include the IE "Downlink counter synchronisation info".
2>	if ciphering and/or integrity protection are activated:
3>	include new ciphering and/or integrity protection configuration information to be used after reconfiguration.
2>	use the downlink DCCH using AM RLC.
1>	if transport channels are added, reconfigured or deleted in uplink and/or downlink:
2>	set TFCS according to the new transport channel(s).
1>	if transport channels are added or deleted in uplink and/or downlink, and RB Mapping Info applicable to the new configuration has not been previously provided to the UE, the UTRAN should:
2>	send the RB Mapping Info for the new configuration.
1>	if the UE supports the UM RLC re-establishment via reconfiguration; and
1>	if one or more UM RLC radio bearers are re-established:
2>	transmit a reconfiguration message on the downlink DCCH using AM or UM RLC;
2>	include the IE "UM RLC re-establishment RB List" and include the Radio Bearer ID encountered the error in the list.
In the Radio Bearer Reconfiguration procedure UTRAN may indicate that uplink transmission shall be stopped or continued on certain radio bearers. Uplink transmission on a signalling radio bearer used by the RRC signalling (signalling radio bearer RB1 or signalling radio bearer RB2) should not be stopped.
NOTE 1:		The Release '99 RADIO BEARER RECONFIGURATION message always includes the IE "RB information to reconfigure", even if UTRAN does not require the reconfiguration of any RB. In these cases, UTRAN may include only the IE "RB identity" within the IE "RB information to reconfigure".
NOTE 2:		The Release '99 RADIO BEARER RECONFIGURATION message always includes the IE "Downlink information per radio link list", even if UTRAN does not require the reconfiguration of any RL. In these cases, UTRAN may re-send the currently assigned values for the mandatory IEs included within the IE "Downlink information per radio link list ".
NOTE 3:	The Release '99 RADIO BEARER RECONFIGURATION message always includes the IE "Primary CPICH Info" (FDD) or IE "Primary CCPCH Info" (TDD) within IE "Downlink information per radio link list". This implies that in case UTRAN applies the RADIO BEARER RECONFIGURATION message to move the UE to CELL_FACH state, it has to indicate a cell. However, UTRAN may indicate any cell; the UE anyhow performs cell selection and notifies UTRAN if it selects another cell than indicated by UTRAN. 
NOTE 4:	If any combination of setup, reconfiguration and release of the same radio bearer is included in the same RADIO BEARER RECONFIGURATION message, the UE behavior is unspecified.
If the IE "Activation Time" is included, UTRAN should set it to a value taking the UE performance requirements into account.
UTRAN should take the UE capabilities into account when setting the new configuration.
If the message is used to initiate a transition from CELL_DCH to CELL_FACH state, the UTRAN may assign a C-RNTI to be used in that cell by the UE. In FDD and 1.28 Mcps TDD, if a C-RNTI is assigned, then UTRAN may additionally assign an H-RNTI and an E-RNTI to be used in that cell by the UE.
For FDD and 1.28 Mcps TDD, if the message is used to initiate a transition to CELL_PCH state, the UTRAN may assign a C-RNTI, an H-RNTI and an E-RNTI to be used in that cell by the UE.
For FDD, if the message is used to initiate a transition to URA_PCH state, the UTRAN may assign a C-RNTI, an H-RNTI and an E-RNTI to be used by the UE.
8.2.2.2a	Initiation of handover from GERAN Iu mode
To initiate the handover from GERAN Iu mode, UTRAN should:
1>	provide a RADIO BEARER RECONFIGURATION message to be encapsulated in INTERSYSTEM HANDOVER TO UTRAN COMMAND message, sent on the downlink SRB2 in GERAN Iu mode;
1>	in case UTRAN decides to use a predefined or default radio configuration that is stored in the UE, it should include the following information in the RADIO BEARER RECONFIGURATION message:
-	PhyCH information elements; and
-	either:
-	the IE "Predefined configuration identity", to indicate which pre-defined configuration of RB, transport channel and physical channel parameters shall be used; or
-	the IE "Default configuration mode" and IE "Default configuration identity", to indicate which default configuration of RB, transport channel and physical channel parameters shall be used.
8.2.2.3	Reception of RADIO BEARER SETUP or RADIO BEARER RECONFIGURATION or RADIO BEARER RELEASE or TRANSPORT CHANNEL RECONFIGURATION or PHYSICAL CHANNEL RECONFIGURATION message, TTI switch HS-SCCH order or Target cell HS-SCCH order by the UE
The UE shall:
1>	be able to receive any of the following messages:
2>	RADIO BEARER SETUP message; or
2>	RADIO BEARER RECONFIGURATION message; or
2>	RADIO BEARER RELEASE message; or
2>	TRANSPORT CHANNEL RECONFIGURATION message; or
2>	PHYSICAL CHANNEL RECONFIGURATION message;
1>	be able to perform a hard handover and apply physical layer synchronisation procedure A as specified in [29], even if no prior UE measurements have been performed on the target cell and/or frequency.
For FDD: in case a measurement report was triggered by intra frequency event 1d and if the table "Target cell preconfigurations" in the variable TARGET_CELL_PRECONFIGURATION includes the cell that triggered the event, or in case a measurement report was triggered by intra frequency event 1c requesting the serving HS-DSCH cell change and if the table "Target cell preconfigurations" in the variable TARGET_CELL_PRECONFIGURATION includes the target cell, as per the definition of Target cell HS-SCCH order
the UE shall be able to receive:
1>	Target cell HS-SCCH order.
For FDD: in case a filtered UPH report [15] was triggered the UE shall be able to receive:
1>	TTI switch HS-SCCH order.
In case the reconfiguration procedure is used to remove all existing RL(s) in the active set while new RL(s) are established the UE shall:
1>	For FDD:
2>	if the UE has a pending "TGPS reconfiguration CFN" at the activation time received in the reconfiguration message and the reconfiguration requests a timing re-initialised hard handover (see subclause 8.3.5.1), the UE may:
3>	abort the pending CM activation;
3>	set the CM_PATTERN_ACTIVATION_ABORTED to TRUE.
2>	otherwise:
3>	set the CM_PATTERN_ACTIVATION_ABORTED to FALSE.
If the UE will enter a target RRC state as defined in the OTHER_STATE_CONFIGURATION variable after successful transmission of the SIGNALLING CONNECTION RELEASE INDICATION message; or
If the UE receives:
-	a RADIO BEARER SETUP message; or
-	a RADIO BEARER RECONFIGURATION message; or
-	a RADIO BEARER RELEASE message; or
-	a TRANSPORT CHANNEL RECONFIGURATION message; or
-	a PHYSICAL CHANNEL RECONFIGURATION message; or
-	a TTI switch HS-SCCH order; or
-	a Target cell HS-SCCH order
it shall:
1>	stop and reset timer T324 if running;
1>	stop monitoring target cell HS-SCCH;
1>	set the variable ORDERED_RECONFIGURATION to TRUE;
1>	if the UE will enter the CELL_DCH state from any state other than CELL_DCH state at the conclusion of this procedure:
2>	if COMMON_E_DCH_TRANSMISSION is set to FALSE before entering CELL_DCH state or IE "E-DCH info" is not included in the reconfiguration message:
3>	perform the physical layer synchronisation procedure A as specified in [29] (FDD only).
1>	if the UE has received a Target cell HS-SCCH order:
2>	if the IE "Serving Cell Change MAC reset" in the target cell preconfiguration is set to TRUE:
3>	reset the MAC-hs/ehs entity [15].
2>	else:
3>	determine the value for the "TPC combination index" for current cell and the cell in which the Target cell HS-SCCH order is received; 
3>	if the values of the IE "TPC combination index" for current cell and the cell in which the Target cell HS-SCCH order is received are different:
4>	reset the MAC-hs/ehs entity [15].
1>	act upon all received information elements, or Target cell preconfiguration information in the case of received Target cell HS-SCCH order, as specified in subclause 8.6, unless specified in the following and perform the actions below;
1>	in the case of received TTI switch HS-SCCH order, perform the actions as described in 8.5.86.
The UE may:
1>	maintain a list of the set of cells to which the UE has Radio Links if the IE "Cell ID" is present.
The UE may first release the physical channel configuration used at reception of the reconfiguration message. The UE shall then:
1>	enter a state according to subclause 8.6.3.3.
In case the UE receives a RADIO BEARER RECONFIGURATION message including the IE "RB information to reconfigure" that only includes the IE "RB identity", the UE shall:
1>	handle the message as if IE "RB information to reconfigure" was absent.
NOTE:		The ASN.1 "r3" version of the RADIO BEARER RECONFIGURATION message always includes the IE "RB information to reconfigure". UTRAN has to include it even if it does not require the reconfiguration of any RB.
In case the UE receives a RADIO BEARER RECONFIGURATION message with the IE "Specification mode" set to "Preconfiguration" while the message is not sent through GERAN Iu mode, the UE behaviour is unspecified.
In case the UE receives a RADIO BEARER SETUP message with the IE "Specification mode" not set to "Complete Specification", the UE behaviour is unspecified.
The UE shall:
1>	if IE "Default configuration for CELL_FACH" is set:
2>	if  the message is RADIO BEARER RECONFIGURATION:
3>	if IE "new U-RNTI" is included:
4>	act in accordance with the default parameters according to section 13.8.
3>	else:
4>	the UE behaviour is unspecified.
For FDD: in CELL_DCH state, in case the UE receives a Target cell HS-SCCH order the UE shall:
1>	ignore RADIO BEARER SETUP, RADIO BEARER RECONFIGURATION, TRANSPORT CHANNEL RECONFIGURATION or PHYSICAL CHANNEL RECONFIGURATION messages as described in subclause 8.6.3.11.
If after state transition the UE enters CELL_DCH state, the UE shall, after the state transition:
1>	in FDD; or
1>	in TDD when "Primary CCPCH Info" is included indicating a new target cell and "New C-RNTI" is not specified:
2>	remove any C-RNTI from MAC;
2>	clear the variable C_RNTI.
1>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
1>	if the IE "E-DCH info" was not included in the message:
2>	for FDD:
3>	stop any E-AGCH, E-RGCH and E-HICH reception procedures;
3>	stop any E-DPCCH and E-DPDCH transmission procedures;
3>	act as if the IE "MAC-es/e reset indicator" was received and set to TRUE;
3>	release all E-DCH HARQ resources;
3>	no longer consider any radio link to be the serving E-DCH radio link.
2>	for 1.28 Mcps TDD:
3>		stop any E-AGCH and E-HICH reception procedures;
3> stop any E-RUCCH and E-PUCH transmission procedure;
3>	act as if the IE "MAC-es/e reset indicator" was received and set to TRUE;
3>	release all E-DCH HARQ resources;
3>	no longer consider any radio link to be the serving E-DCH radio link.
If after state transition the UE leaves CELL_DCH state, the UE shall, before state transition:
1>	clear any stored IE "E-DCH info";
1>	for FDD, clear any stored IE "Secondary serving E-DCH cell info" and IE "Secondary E-DCH info common";
1>	for 1.28Mcps TDD, clear any stored IE "Multi-carrier E-DCH Info for LCR TDD";
1>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
If after state transition the UE leaves CELL_DCH state, the UE shall, after the state transition:
1>	if any IEs related to HS-DSCH are stored in the UE:
2>	clear any stored IE "Downlink HS-PDSCH information";
2>	clear any stored IE "Downlink Secondary Cell Info FDD";
2>	clear all the entries from the variable TARGET_CELL_PRECONFIGURATION;
2>	for 1.28Mcps TDD, clear the IE "HS-PDSCH Midamble Configuration" and the IE "HS-SCCH Set Configuration" in the IE "DL Multi Carrier Information";
2>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25.
1>	if any IEs related to E-DCH are stored in the UE:
2>	clear any stored IE "E-DCH info";
2>	for FDD, clear any stored IE "Secondary serving E-DCH cell info" and IE "Secondary E-DCH info common";
2>	for 1.28Mcps TDD, clear any stored IE "Multi-carrier E-DCH Info for LCR TDD";
2>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
1>	if any of the IEs "DTX-DRX timing information" or "DTX-DRX information" are stored in the UE:
2>	determine the value for the DTX_DRX_STATUS variable and take the corresponding actions as described in subclause 8.5.34.
1>	if the IE "HS-SCCH less information" is stored in the UE:
2>	determine the value for the HS_SCCH_LESS_STATUS variable and take the corresponding actions as described in subclause 8.5.35.
1>	if any IEs related to MIMO are stored in the UE:
2>	determine the value for the MIMO_STATUS variable and take the corresponding actions as described in subclause 8.5.33.
1>	if the IE "MIMO mode with four transmit antennas" is stored in the UE:
2>	determine the value for the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable and take the corresponding actions as described in subclause 8.5.79.
1>	if the IE "UE Mobility State Indicator" was present in the reconfiguration message:
2>	consider the High-mobility state to have being detected.
1>	for 1.28 Mcps TDD, if the IEs "Control Channel DRX Information" is stored in the UE:
2>	determine the value for the CONTROL_CHANNEL_DRX_STATUS variable and take the corresponding actions as described in subclause 8.5.53.
1>	for 1.28 Mcps TDD, if the IE "SPS information" is stored in the UE:
2>	determine the value for the E_DCH_SPS_STATUS variable and take the corresponding actions as described in subclause 8.5.54;
2>	determine the value for the HS_DSCH_SPS_STATUS variable and take the corresponding actions as described in subclause 8.5.55.
1>	for 1.28 Mcps TDD, if the IE "MU-MIMO info" is stored in the UE:
2>	determine the value for the MU_MIMO_STATUS variable and take the corresponding actions as described in subclause 8.5.61.
1>	for FDD, if the IE "Uplink CLTD info FDD" is stored in the UE:
2>	determine the value for the UPLINK_CLTD_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.69.
1>	for FDD, if the IE "Uplink OLTD info FDD" is stored in the UE:
2>	determine the value for the UPLINK_OLTD_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.70.
1>	for FDD, clear the IE "Radio Links without DPCH/F-DPCH info", if stored;
1>	for FDD, if the IE "DPCCH2 info FDD" is stored in the UE:
2>	determine the value for the DPCCH2_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.83.
For 1.28 Mcps TDD, if the UE supports the non-rectangular resource allocation, the UE shall:
1>	determine the value for the NON_RECTANGULAR_RESOURCE_ALLOCATION_STATUS variable and take the corresponding actions as described in subclause 8.5.82.
If the UE was in CELL_DCH state upon reception of the reconfiguration message and remains in CELL_DCH state, the UE shall:
1>	if the IE "Uplink DPCH Info" is absent, not change its current UL Physical channel configuration;
1>	for FDD:
2>	determine the value for the SECONDARY_CELL_HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.51;
2>	determine the value for the SECONDARY_CELL_E_DCH_TRANSMISSION and take the corresponding actions as described in subclause 8.5.58;
2>	if the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to TRUE:
3>	if the IE "Secondary E-DCH info common" is included and the IE "Frequency info" is different from the stored "Frequency info" in the IE "Secondary E-DCH info common"; or
3>	if the IE "Frequency info" is included in an IE other than the IE "Uplink secondary cell info FDD":
4>	consider the secondary uplink frequency as not activated and take the corresponding actions as described in subclause 8.5.58.
3>	else:
4>	if the IE "Downlink information per radio link list on secondary UL frequency" is not included in the received message:
5>	keep the current activation status of the secondary uplink frequency and take the corresponding actions as described in subclause 8.5.58.
2>	determine the value for the UPLINK_CLTD_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.69;
2>	determine the value for the UPLINK_OLTD_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.70;
2>	determine the value for the DPCCH2_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.83.
1>	in TDD:
2>	if "Primary CCPCH Info" is included indicating a new target cell and "New C-RNTI" is not specified:
3>	remove any C-RNTI from MAC;
3>	clear the variable C_RNTI.
2>	if "Primary CCPCH Info" is included indicating a new target cell and "New H-RNTI" is not specified:
3>	remove any H-RNTI from MAC;
3>	clear the variable H_RNTI;
3>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25.
2>	if the reconfiguration message caused a change from FDD mode to 3.84/7.68 Mcps TDD mode and provides for E-DCH/HS-DSCH operation without an uplink DPCH:
3>	the UE shall obtain timing advance for the 3.84/7.68 Mcps TDD cell according to [15].
1>	if "DPCH frame offset" is included for one or more RLs in the active set, and the reconfiguration procedure does not request a timing reinitialized hard handover (see subclause 8.3.5.1):
2>	use its value to determine the beginning of the DPCH or F-DPCH frame in accordance with the following:
3>	if the received IE "DPCH frame offset" is across the value range border compared to the DPCH or F-DPCH frame offset currently used by the UE:
4>	consider it to be a request to adjust the timing with 256 chips across the frame border (e.g. if the UE receives value 0 while the value currently used is 38144 consider this as a request to adjust the timing with +256 chips).
3>	if after taking into account value range borders, the received IE "DPCH frame offset" corresponds to a request to adjust the timing with a step exceeding 256 chips:
4>	set the variable INVALID_CONFIGURATION to TRUE.
3>	and the procedure ends.
2>	adjust the radio link timing accordingly.
If after state transition the UE enters CELL_FACH state, the UE shall, after the state transition:
1>	if the UE was in CELL_DCH state upon reception of the reconfiguration message:
2>	clear the variable E_RNTI.
1>	if the IE "new Primary E-RNTI" is included in the received reconfiguration message:
2>	store the "new Primary E-RNTI" according to subclause 8.6.3.14.
1>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
1>	for 1.28 Mcps TDD, determine the value for the MU_MIMO_STATUS variable and take the corresponding actions as described in subclause 8.5.61;
1>	determine the value for the HS_SCCH_DRX_CELL_FACH_STATUS variable and take the corresponding actions as described in subclause 8.5.88;
1>	if the IE "Frequency info" is included in the received reconfiguration message:
2>	select a suitable UTRA cell according to [4] on that frequency;
2>	if the UE finds a suitable UTRA cell on that frequency:
3>	if the received reconfiguration message included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selects another cell than indicated by this IE or the received reconfiguration message did not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD):
4>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
4>	when the cell update procedure completed successfully:
5>	if the UE is in CELL_PCH or URA_PCH state:
6>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
7>	move to CELL_FACH state and proceed as below.
6>	else:
7>	if variable H_RNTI and variable C_RNTI are set:
8>	proceed as below.
7>	else:
8>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Uplink data transmission" and proceed as below.
3>	else:
4>	for 1.28Mcps TDD, decide the working frequency according to subclause 8.6.6.1.
2>	else, if the UE can not find a suitable UTRA cell on that frequency but it finds a suitable UTRA cell on another frequency:
3>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
3>	when the cell update procedure completed successfully:
4>	if the UE is in CELL_PCH or URA_PCH state:
5>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
6>	move to CELL_FACH state and proceed as below.
5>	else:
6>	if variable H_RNTI and variable C_RNTI are set:
7>	proceed as below.
6>	else:
7>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Uplink data transmission" and proceed as below.
1>	if the IE "Frequency info" is not included in the received reconfiguration message:
2>	select a suitable UTRA cell according to [4];
2>	if the UE finds a suitable UTRA cell on the current frequency:
3>	if the received reconfiguration message included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selects another cell than indicated by this IE or the received reconfiguration message did not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD):
4>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
4>	when the cell update procedure completed successfully:
5>	if the UE is in CELL_PCH or URA_PCH state:
6>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
7>	move to CELL_FACH state and proceed as below.
6>	else:
7>	if variable H_RNTI and variable C_RNTI are set:
8>	proceed as below.
7>	else:
8>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Uplink data transmission" and proceed as below.
3>	else:
4>	for 1.28Mcps TDD, decide the working frequency according to subclause 8.6.6.1.
2>	else, if the UE can not find a suitable UTRA cell on the current frequency but it finds a suitable UTRA cell on another frequency:
3>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
3>	when the cell update procedure completed successfully:
4>	if the UE is in CELL_PCH or URA_PCH state:
5>	if variable READY_FOR_COMMON_EDCH is set to TRUE: 
6>	move to CELL_FACH state and proceed as below.
5>	else:
6>	if variable H_RNTI and variable C_RNTI are set:
7>	proceed as below.
6>	else:
7>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Uplink data transmission" and proceed as below.
1>	start timer T305 using its initial value if timer T305 is not running and if periodical update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity" in the variable TIMERS_AND_CONSTANTS;
1>	if variable READY_FOR_COMMON_EDCH is set to FALSE:
2>	select PRACH according to subclause 8.5.17.
1>	else:
2>	configure the Enhanced Uplink in CELL_FACH state and Idle mode as specified in subclause 8.5.45 for FDD and 8.5.45a for 1.28 Mcps TDD.
1>	for 3.84 Mcps and 1.28 Mcps TDD; or 
1>	for FDD, if the UE does not support HS-DSCH reception in CELL_FACH state; or
1>	if the IE "HS-DSCH common system information" is not included in System Information Block type 5 or System Information Block type 5bis; or
1>	for 1.28 Mcps TDD, if the IE "Common E-DCH system info" is not included in System Information Block type 5:
2>	select Secondary CCPCH according to subclause 8.5.19;
2>	use the transport format set given in system information;
2>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
1>	else:
2>	for FDD if variable READY_FOR_COMMON_EDCH is set to FALSE:
3>	if the RBs have the multiplexing option with transport channel type "HS-DSCH" for the DL and transport channel type "RACH" in the UL; and
3>	if variable H_RNTI and variable C_RNTI are set:
4>	start to receive HS-DSCH according to the procedure in subclause 8.5.36.
3>	else:
4>	clear variable C_RNTI and delete any stored C-RNTI value;
4>	clear variable H_RNTI and delete any stored H-RNTI value;
4>	clear any stored IE "HARQ Info".
2>	else:
3>	if the RBs have the multiplexing option with transport channel type "HS-DSCH" for the DL and transport channel type "E-DCH" in the UL; and
3>	if variable E_RNTI, variable H_RNTI and variable C_RNTI are set:
4>	start to receive HS-DSCH according to the procedure in subclause 8.5.36.
3>	else:
4>	clear variable C_RNTI and delete any stored C-RNTI value;
4>	clear variable H_RNTI and delete any stored H-RNTI value;
4>	clear variable E_RNTI and delete any stored E-RNTI value; 
4>	clear any stored IE "HARQ Info".
1>	if the IE "UTRAN DRX cycle length coefficient" is included in the same message:
2>	ignore that IE and stop using DRX.
1>	if the UE supports RAN-assisted WLAN interworking:
2>	stop the timer T330 if it is running;
2>	if the variable WLAN_OFFLOAD_INFO is not empty:
3>	use the information stored in the variable WLAN_OFFLOAD_INFO as specified in [4], and forward it to the upper layers.
2>	else:
3>	use the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO as specified in [4] and forward it to the upper layers.
1>	if the contents of the variable C_RNTI is empty:
2>	perform a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
2>	when the cell update procedure completed successfully:
3>	if the UE is in CELL_PCH or URA_PCH state:
4>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Uplink data transmission";
4>	proceed as below.
If the UE was in CELL_FACH state upon reception of the reconfiguration message and remains in CELL_FACH state, the UE shall:
1>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
1>	for 1.28 Mcps TDD, determine the value for the MU_MIMO_STATUS variable and take the corresponding actions as described in subclause 8.5.61;
1>	determine the value for the HS_SCCH_DRX_CELL_FACH_STATUS variable and take the corresponding actions as described in subclause 8.5.88;
1>	if the IE "Frequency info" is included in the received reconfiguration message:
2>	select a suitable UTRA cell according to [4] on that frequency;
2>	if the UE finds a suitable UTRA cell on that frequency:
3>	if the received reconfiguration message included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selected another cell than indicated by this IE or the received reconfiguration message did not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD):
4>	initiate a cell update procedure according to subclause 8.3.1 using the cause "cell reselection";
4>	when the cell update procedure completed successfully:
5>	if the UE is in CELL_PCH or URA_PCH state:
6>	if variable READY_FOR_COMMON_EDCH is set to TRUE: 
7>	move to CELL_FACH state and proceed as below.
6>	else:
7>	if variable H_RNTI and variable C_RNTI are set:
8>	proceed as below.
7>	else:
8>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Uplink data transmission" and proceed as below.
2>	else, if the UE can not find a suitable UTRA cell on that frequency but it finds a suitable UTRA cell on another frequency:
3>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
3>	when the cell update procedure completed successfully:
4>	if the UE is in CELL_PCH or URA_PCH state:
5>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
6>	move to CELL_FACH state and proceed as below.
5>	else:
6>	if variable H_RNTI and variable C_RNTI are set:
7>	proceed as below.
6>	else:
7>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Uplink data transmission" and proceed as below.
1>	if the IE "Frequency info" is not included in the received reconfiguration message:
2>	if the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD) is included the UE shall either:
3>	ignore the content of the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD) and proceed as below.
2>	or:
3>	if the received reconfiguration message included the IE "Primary CPICH info" (for FDD) or "Primary CPCH info" (for TDD), and it is different from the current cell:
4>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
4>	when the cell update procedure completed successfully:
5>	if the UE is in CELL_PCH or URA_PCH state:
6>	if variable READY_FOR_COMMON_EDCH is set to TRUE: 
7>	move to CELL_FACH state and proceed as below.
6>	else:
7>	if variable H_RNTI and variable C_RNTI are set:
8>	proceed as below.
7>	else:
8>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Uplink data transmission" and proceed as below.
If after state transition the UE leaves CELL_FACH state, the UE shall:
1>	stop timer T305.
If after state transition the UE enters CELL_PCH or URA_PCH state, the UE shall:
1>	if the UE enters CELL_PCH or URA_PCH state:
2>	if the UE supports E-DCH transmission in CELL_FACH state and Idle mode and the IE "Common E-DCH system info" is included in system information block type 5 or 5bis:
3>	if variable H_RNTI or variable C_RNTI or variable E_RNTI is not set:
4>	clear variable C_RNTI and delete any stored C-RNTI value;
4>	clear variable H_RNTI and delete any stored H-RNTI value;
4>	clear variable E_RNTI and delete any stored E-RNTI value;
4>	clear any stored IE "HARQ Info";
4>	reset the MAC-ehs entity [15];
4>	reset the MAC-i/is entity [15].
1>	determine the value for the HSPA_RNTI_STORED_PCH variable and take the corresponding actions as described in subclause 8.5.56;
1>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
1>	if the IE "UTRAN DRX cycle length coefficient" is not included in the same message:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the UE supports RAN-assisted WLAN interworking:
2>	if timer T330 is not configured:
3>	clear the variable WLAN_OFFLOAD_INFO;
3>	use the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO as specified in [4], and forward it to the upper layers.
2>	else:
3>	if timer T330 is not running:
4>	start the timer T330;
4>	use the information stored in the variable WLAN_OFFLOAD_INFO as specified in [4], and forward it to the upper layers.
The UE shall transmit a response message as specified in subclause 8.2.2.4, setting the information elements as specified below. The UE shall:
1>	if the received reconfiguration message included the IE "Downlink counter synchronisation info"; or
1>	if the received reconfiguration message is a RADIO BEARER RECONFIGURATION and the IE "New U-RNTI" is included; or
1>	if the received reconfiguration message included the IE "SR-VCC Info":
2>	if the variable PDCP_SN_INFO is empty:
3>	configure the corresponding RLC entity for all AM and UM radio bearers and AM and UM signalling radio bearers except RB2 to "stop".
2>	else:
3>	configure the RLC entity for signalling radio bearers RB1, RB3 and RB4 to "stop";
3>	configure the RLC entity for UM and AM radio bearers for which the IE "PDCP SN Info" is not included to "stop".
2>	re-establish the RLC entity for RB2;
2>	clear all entries in the table "Processed transactions" in the variable TRANSACTIONS;
2>	for the downlink and the uplink, apply the ciphering configuration as follows:
3>	if the received re-configuation message included the IE "Ciphering Mode Info":
4> use the ciphering configuration in the received message when transmitting the response message.
3>	if the ciphering configuration for RB2 from a previously received SECURITY MODE COMMAND has not yet been applied because the activation times not having been reached:
4>	if the previous SECURITY MODE COMMAND was received due to new keys being received:
5>	consider the new ciphering configuration to include the received new keys;
5>	initialise the HFN component of the uplink COUNT-C and downlink COUNT-C of SRB2 as indicated in subclause 8.1.12.3.1.
4>	else if the ciphering configuration for RB2 from a previously received SECURITY MODE COMMAND has not yet been applied because of the corresponding activation times not having been reached and the previous SECURITY MODE COMMAND caused a change in LATEST_CONFIGURED_CN_DOMAIN:
5>	consider the new ciphering configuration to include the keys associated with the LATEST_CONFIGURED_CN_DOMAIN;
5>	initialise the HFN component of the uplink COUNT-C and downlink COUNT-C of SRB2 to the most recently transmitted IE "START list" or IE "START" for the LATEST_CONFIGURED_CN_DOMAIN at the reception of the previous SECURITY MODE COMMAND.
4>	apply the new ciphering configuration immediately following RLC re-establishment.
3>	else:
4>	continue using the current ciphering configuration.
2>	set the new uplink and downlink HFN component of COUNT-C of RB2 to MAX(uplink HFN component of COUNT-C of RB2, downlink HFN component of COUNT-C of RB2);
2>	increment by one the downlink and uplink values of the HFN of COUNT-C for RB2;
2>	calculate the START value according to subclause 8.5.9;
2>	include the calculated START values for each CN domain in the IE "START list" in the IE "Uplink counter synchronisation info";
2>		For any measurement of type CSG Proximity detection or any measurement associated with CELL_INFO_CSG_LIST (i.e.CSG Proximity detection, CSG intra-frequency measurement, CSG inter-frequency measurement and/or SI acquisition): 
3>	stop all measurements of type CSG Proximity detection and all measurements associated with CELL_INFO_CSG_LIST (i.e.CSG Proximity detection, CSG intra-frequency measurement, CSG inter-frequency measurement and/or SI acquisition);
3>	delete measurement control information for all measurements of type CSG Proximity detection and all measurements associated with CELL_INFO_CSG_LIST (i.e.CSG Proximity detection, CSG intra-frequency measurement, CSG inter-frequency measurement and/or SI acquisition);
3>	clear the variable CELL_INFO_CSG_LIST.
2>	if timer T323 value is stored in the IE "UE Timers and constants in connected mode" in the variable TIMERS_AND_CONSTANTS:
3>	stop and reset timer T323;
3>	clear any value of the timer T323 stored in the IE "UE Timers and constants in connected mode" in the variable TIMERS_AND_CONSTANTS.
2>	if after state transition the UE enters CELL_DCH state:
3>	clear the variable DSAC_PARAM, the variable PPAC_PARAM, the variable EAB_PARAM, the variable DSAC_PARAM_2, the variable PPAC_PARAM_2, the variable CONNECTED_MODE_ACCESS_CONTROL and the stored IE "Access Class Barred List" if stored.
1>	else if the received reconfiguration message included the IE "UM RLC re-establishment RB List":
2>	for each radio bearer included in the IE "UM RLC re-establishment RB List"
3>	if the radio bearer uses UM RLC:
4>	calculate the START value according to subclause 8.5.9;
4>	include the calculated START values for the CN domain associated with the radio bearer in the IE "START list" in the IE "Uplink counter synchronisation info";
3>	re-establish the UM RLC entities for the radio bearer and set the first 20 bits of all the HFN component of the respective COUNT-C values to the latest transmitted START value for the CN domain associated with the radio bearer;
3>	set the remaining bits of the HFN component of COUNT-C values of all the re-established UM RLC entities to zero.
1>	if the received reconfiguration message did not include the IE "Downlink counter synchronisation info":
2>	if the variable START_VALUE_TO_TRANSMIT is set:
3>	include and set the IE "START" to the value of that variable.
2>	if the variable START_VALUE_TO_TRANSMIT is not set and the IE "New U-RNTI" is included:
3>	calculate the START value according to subclause 8.5.9;
3>	include the calculated START values for each CN domain in the IE "START list" in the IE "Uplink counter synchronisation info".
2>	if the received reconfiguration message caused a change in the RLC PDU size, a change from flexible to fixed RLC PDU size or a change from fixed to flexible DL RLC PDU size with RLC length indicator set to 15 bits or a change of the RLC LI size for any RB using RLC-AM:
3>	calculate the START value according to subclause 8.5.9;
3>	include the calculated START values for the CN domain associated with the corresponding RB identity in the IE "START list" in the IE "Uplink counter synchronisation info".
1>	if the received reconfiguration message contained the IE "Ciphering mode info" or contained the IE "Integrity protection mode info":
2>	set the IE "Status" in the variable SECURITY_MODIFICATION for all the CN domains in the variable SECURITY_MODIFICATION to "Affected".
1>	if the received reconfiguration message contained the IE "Ciphering mode info":
2>	if the reconfiguration message is not used to perform an SRNS relocation, an SR-VCC or a handover from GERAN Iu mode with change of ciphering algorithm:
3>	the UE behaviour is not specified.
2>	if the message is used to perform a timing re-initialised hard handover:
3>	if IE "Ciphering activation time for DPCH" is included:
4>	the UE behaviour is not specified.
2>	else:
3>	if the reconfiguration message is used to setup radio bearer(s) using RLC-TM; or
3>	if radio bearer(s) using RLC-TM already exist:
4>	if IE "Ciphering activation time for DPCH" is not included:
5>	the UE behaviour is not specified.
1>	if the received reconfiguration message contained the IE "Integrity Protection mode info":
2>	if the reconfiguration message is not used to perform an SRNS relocation, an SR-VCC or a handover from GERAN Iu mode:
3>	the UE behaviour is not specified.
1>	if the received reconfiguration message did not contain the IE "Ciphering activation time for DPCH" in IE "Ciphering mode info":
2>	if prior to this procedure there exist no transparent mode RLC radio bearers:
3>	if, at the conclusion of this procedure, the UE will be in CELL_DCH state; and
3>	if, at the conclusion of this procedure, at least one transparent mode RLC radio bearer exists:
4>	include the IE "COUNT-C activation time" and specify a CFN value for this IE that is a multiple of 8 frames (CFN mod 8 = 0) and lies at least 200 frames ahead of the CFN in which the response message is first transmitted.
NOTE:	UTRAN should not include the IE "Ciphering mode info" in any reconfiguration message unless it is also used to perform an SRNS relocation with change of ciphering algorithm or it is also used to perform an SR-VCC.
1>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the received message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	if the variable PDCP_SN_INFO is not empty:
2>	include the IE "RB with PDCP information list" and set it to the value of the variable PDCP_SN_INFO.
1>	in TDD, if the procedure is used to perform a handover to a cell where timing advance is enabled, and the UE can calculate the timing advance value in the new cell (i.e. in a synchronous TDD network):
2>	set the IE "Uplink Timing Advance" according or the IE "Extended UL Timing Advance" to subclause 8.6.6.26.
1>	if the IE "Integrity protection mode info" was present in the received reconfiguration message:
2>	start applying the new integrity protection configuration in the uplink for signalling radio bearer RB2 from and including the transmitted response message.
1>	if IE "RRC state indicator" is set to "CELL_DCH":
2>	if the variable DEFERRED_MEASUREMENT_STATUS is set to TRUE:
3>		if System Information Block type 11 is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block, or
3>	if System Information Block type 11bis is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block, or
3>	if System Information Block type 11ter is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block, or
3>	if System Information Block type 12 is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block:
4>	include IE "Deferred measurement control reading".
If after state transition the UE enters CELL_DCH state, the UE shall, after the state transition:
1>	if the IE "Deferred measurement control reading" was included in the response message:
2>	clear the variable CELL_INFO_LIST.
1>	if the UE supports RAN-assisted WLAN interworking:
2>	stop the timer T330 if it is running;
2>	stop using the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO, and forward this indication to the upper layers;
2>	if the variable WLAN_OFFLOAD_INFO is not empty:
3>	use the information stored in the variable WLAN_OFFLOAD_INFO as specified in [4], and forward it to the upper layers.
If after state transition the UE enters URA_PCH state, the UE shall, after the state transition and transmission of the response message:
1>	if the state transition was not triggered by the SIGNALLING CONNECTION RELEASE INDICATION message:
2>	transmit the response message.
1>	enter a state according to subclause 8.6.3.3;
1>	determine the value for the HSPA_RNTI_STORED_PCH variable and take the corresponding actions as described in subclause 8.5.56;
1>	if the IE "Frequency info" is included in the received reconfiguration message:
2>	select a suitable UTRA cell according to [4] on that frequency.
2>	if the UE can not find a suitable UTRA cell on that frequency but it finds a suitable UTRA cell on another frequency:
3>	proceed as below.
1>	if the IE "Frequency info" is not included in the received reconfiguration message:
2>	select a suitable UTRA cell according to [4].
1>	prohibit periodical status transmission in RLC;
1>	start timer T305 using its initial value if timer T305 is not running and if periodical update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity" in the variable TIMERS_AND_CONSTANTS;
1>	if the variables H_RNTI, E_RNTI and C_RNTI are not set:
2>	for 3.84 Mcps and 7.68 Mcps TDD; or
2>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_PCH or URA_PCH state; or
2>	if the IE "HS-DSCH paging system information" is not included in System Information Block type 5 or System Information Block type 5bis:
3>	remove any C-RNTI from MAC;
3>	clear the variable C_RNTI;
3>	select Secondary CCPCH according to subclause 8.5.19;
3>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
2>	else:
3>	clear variable C_RNTI and delete any stored C-RNTI value;
3>	clear variable H_RNTI and delete any stored H-RNTI value;
3>	clear any stored IE "HARQ Info";
3>	reset the MAC-ehs entity [15];
3>	for FDD; or
3>	for 1.28 Mcps TDD, if the IE "PICH info" isn’t included in IE "Secondary CCPCH system information" in System Information Block type 5 or System Information Block type 6:
4>	monitor its paging occasions on the selected PICH determined according to subclauses 8.6.3.1a, 8.6.3.2 and 8.5.39 and receive paging on the HS-DSCH mapped on the HS-PDSCH selected by the UE according to the procedures in subclause 8.5.40 for FDD and 8.5.40a for 1.28 Mcps TDD.
1>	else:
2>	if the UE does support HS-DSCH reception in CELL_PCH and URA_PCH state and the IE "HS-DSCH paging system information" is included in System Information Block type 5 or System Information Block type 5bis:
3>	clear any stored IE "HARQ Info";
3>	reset the MAC-ehs entity [15];
3>	reset the MAC-i/is entity [15];
3>	monitor its paging occasions on the selected PICH determined according to subclauses 8.6.3.1a, 8.6.3.2 and 8.5.39 and receive paging on the HS-DSCH mapped on the HS-PDSCH selected by the UE according to the procedures in subclause 8.5.40 for FDD and 8.5.40a for 1.28 Mcps TDD.
2>	else:
3>	select Secondary CCPCH according to subclause 8.5.19;
3>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
1>	determine the value for the HSPA_RNTI_STORED_PCH variable and take the corresponding actions as described in subclause 8.5.56;
1>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
1>	if the IE "UTRAN DRX cycle length coefficient" is included in the same message:
2>	use the values in the IE "UTRAN DRX Cycle length coefficient" for calculating Paging occasion and PICH Monitoring Occasion as specified in subclause 8.6.3.2.
1>	if the criteria for URA update caused by "URA reselection" according to subclause 8.3.1 are fulfilled after cell selection:
2>	initiate a URA update procedure according to subclause 8.3.1 using the cause "URA reselection";
2>	when the URA update procedure is successfully completed:
3>	the procedure ends.
If after state transition the UE enters CELL_PCH state from CELL_DCH state, the UE shall, after the state transition and transmission of the response message:
1>	if the state transition was not triggered by the SIGNALLING CONNECTION RELEASE INDICATION message:
2>	transmit the response message.
1>	enter a state according to subclause 8.6.3.3;
1>	determine the value for the HSPA_RNTI_STORED_PCH variable and take the corresponding actions as described in subclause 8.5.56;
1>	if the IE "Frequency info" is included in the received reconfiguration message:
2>	select a suitable UTRA cell according to [4] on that frequency.
2> 	if the UE finds a suitable UTRA cell on that frequency:
3>	if the received reconfiguration message included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selects another cell than indicated by this IE or the received reconfiguration message did not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD):
4>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
4>	proceed as below.
2>	else, if the UE can not find a suitable UTRA cell on that frequency but it finds a suitable UTRA cell on another frequency:
3>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
3>	proceed as below.
1>	if the IE "Frequency info" is not included in the received reconfiguration message:
2>	select a suitable UTRA cell according to [4].
2> 	if the UE finds a suitable UTRA cell on the current frequency:
3>	if the received reconfiguration message included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selects another cell than indicated by this IE or the received reconfiguration message did not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD):
4>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
4>	proceed as below.
2> else, if the UE can not find a suitable UTRA cell on the current frequency but it finds a suitable UTRA cell on another frequency:
3>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
3>	proceed as below.
1>	prohibit periodical status transmission in RLC;
1>	start timer T305 using its initial value if timer T305 is not running and if periodical update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity" in the variable TIMERS_AND_CONSTANTS;
1>	for 3.84 Mcps and 7.68 Mcps TDD; or
1>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_PCH or URA_PCH state; or
1>	if the IE "HS-DSCH paging system information" is not included in System Information Block type 5 or System Information Block type 5bis and the variable HSPA_RNTI_STORED_PCH is set to FALSE:
2>	remove any C-RNTI from MAC;
2>	clear the variable C_RNTI;
2>	select Secondary CCPCH according to subclause 8.5.19;
2>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
1>	else:
2>	if IE "New C-RNTI" is not included:
3>	clear variable H_RNTI and delete any stored H-RNTI value;
3>	clear any stored IE "HARQ Info";
3>	reset the MAC-ehs entity [15].
2>	if the variable HSPA_RNTI_STORED_PCH is set to TRUE:
3>	select Secondary CCPCH according to subclause 8.5.19;
3>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
2>	else:
3>	for FDD; or
3>	for 1.28 Mcps TDD, if both variable H_RNTI and variable C_RNTI are set:
4>	monitor its paging occasions on the selected PICH determined according to subclauses 8.6.3.1a, 8.6.3.2 and 8.5.39 and receive PCCH or DCCH and DTCH on the HS-DSCH according to the procedures in subclause 8.5.40 for FDD and 8.5.40a for 1.28 Mcps TDD.
1>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
1>	if the IE "UTRAN DRX cycle length coefficient" is included in the same message:
2>	use the values in the IE "UTRAN DRX Cycle length coefficient" for calculating Paging occasion and PICH Monitoring Occasion as specified in subclause 8.6.3.2.
1>	the procedure ends.
If after state transition the UE enters CELL_DCH state from CELL_FACH or from CELL_PCH state:
1>	if the IE "Default DPCH Offset Value" is not included:
2>	the UE behaviour is not specified.
If after state transition the UE enters CELL_PCH state from CELL_FACH state, the UE shall, after the state transition and transmission of the response message:
1>	if the state transition was not triggered by the SIGNALLING CONNECTION RELEASE INDICATION message:
2>	transmit the response message.
1>	enter a state according to subclause 8.6.3.3;
1>	if the IE "Frequency info" is included in the received reconfiguration message:
2>	select a suitable UTRA cell according to [4] on that frequency;
2> 	if the UE finds a suitable UTRA cell on that frequency:
3>	if the received reconfiguration message included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selected another cell than indicated by this IE or the received reconfiguration message did not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD):
4>	initiate a cell update procedure according to subclause 8.3.1 using the cause "cell reselection";
4>	proceed as below.
2> else, if the UE can not find a suitable UTRA cell on that frequency but it finds a suitable UTRA cell on another frequency:
3>	initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
3>	proceed as below.
1>	if the IE "Frequency info" is not included in the received reconfiguration message:
2>	if the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD) is included the UE shall either:
3>	ignore the content of the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD) and proceed as below.
2>	or:
3>	if the received reconfiguration message included the IE "Primary CPICH info" (for FDD) or "Primary CPCH info" (for TDD), and it is different from the current cell:
4> initiate a cell update procedure according to subclause 8.3.1 using the cause "Cell reselection";
4> proceed as below.
1>	prohibit periodical status transmission in RLC;
1>	start timer T305 using its initial value if timer T305 is not running and if periodical update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity" in the variable TIMERS_AND_CONSTANTS;
1>	for 3.84 Mcps and 7.68 Mcps TDD; or
1>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception; or
1>	if the IE "HS-DSCH paging system information" is not included in System Information Block type 5 or System Information Block type 5bis and the variable HSPA_RNTI_STORED_PCH is set to FALSE:
2>	remove any C-RNTI from MAC;
2>	clear the variable C_RNTI;
2>	select Secondary CCPCH according to subclause 8.5.19;
2>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
1>	else:
2>	if IE "New C-RNTI" is not included:
3>	clear variable C_RNTI and delete any stored C-RNTI value;
3>	clear variable H_RNTI and delete any stored H-RNTI value;
3>	clear any stored IE "HARQ Info";
3>	reset the MAC-ehs entity [15].
2>	if the variable HSPA_RNTI_STORED_PCH is set to TRUE:
3>	select Secondary CCPCH according to subclause 8.5.19;
3>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
2>	else:
3>	for FDD; or
3>	for 1.28 Mcps TDD, if both variable H_RNTI and variable C_RNTI are set:
4>	monitor its paging occasions on the selected PICH determined according to subclauses 8.6.3.1a, 8.6.3.2 and 8.5.39 and receive PCCH or DCCH and DTCH on the HS-DSCH according to the procedures in subclause 8.5.40 for FDD and 8.5.40a for 1.28 Mcps TDD.
1>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
1>	if the IE "UTRAN DRX cycle length coefficient" is included in the same message:
2>	use the values in the IE "UTRAN DRX Cycle length coefficient" for calculating Paging occasion and PICH Monitoring Occasion as specified in subclause 8.6.3.2.
1>	the procedure ends.
8.2.2.3a	Reception of RADIO BEARER RECONFIGURATION message by the UE performing handover from GERAN Iu mode
If the UE is performing handover from GERAN Iu mode, the UE shall, in addition to the actions in 8.2.2.3:
1>	if the IE "Specification mode" is set to "Preconfiguration" and the IE "Preconfiguration mode" is set to "Predefined configuration":
2>	initiate the radio bearer and transport channel configuration in accordance with the predefined parameters identified by the IE "Predefined configuration identity";
2>	initiate the physical channels in accordance with the predefined parameters identified by the IE "Predefined radio configuration identity" and the received physical channel information elements;
2>	store information about the established radio access bearers and radio bearers according to the IE "Predefined configuration identity".
1>	if the IE "Specification mode" is set to "Preconfiguration" and the IE "Preconfiguration mode" is set to "Default configuration":
2>	initiate the radio bearer and transport channel configuration in accordance with the default parameters identified by the IE "Default configuration mode" and the IE "Default configuration identity";
2>	initiate the physical channels in accordance with the default parameters identified by the IE "Default configuration mode" and IE "Default configuration identity" and the received physical channel information elements.
NOTE:	The IE "Default configuration mode" specifies whether the FDD or TDD version of the default configuration shall be used.
1>	if IE "Specification mode" is set to "Complete specification":
2>	initiate the radio bearer, transport channel and physical channel configuration in accordance with the received radio bearer, transport channel and physical channel information elements.
1>	if IE "Default configuration for CELL_FACH" is set:
2>	act in accordance with the default parameters according to section 13.8.
1>	perform an open loop estimation to determine the UL transmission power according to subclause 8.5.3;
1>	set the following variables equal to the corresponding variables in GERAN Iu mode:
CIPHERING_STATUS
ESTABLISHED_RABS
ESTABLISHED_SIGNALLING_CONNECTIONS
INTEGRITY_PROTECTION_INFO
INTER_RAT_HANDOVER_INFO_TRANSFERRED
LATEST_CONFIGURED_CN_DOMAIN
START_THRESHOLD
UE_CAPABILITY_TRANSFERRED.
1>	set the new uplink and downlink HFN of RB2 to MSB20(MAX(uplink HFN of RB2, downlink HFN of RB2));
NOTE:	MSB20() operation provides the HFN mapping from GERAN Iu mode to UTRAN. In GERAN Iu mode the length of HFN component of the COUNT-C of RB2 is longer than 20 bits.
1>	initialise the variable TIMERS_AND_CONSTANTS to the default values and start to use those timer and constants values.
8.2.2.4	Transmission of a response message by the UE, normal case
In case the procedure was triggered by reception of a RADIO BEARER SETUP message, the UE shall:
1>	transmit a RADIO BEARER SETUP COMPLETE as response message on the uplink DCCH using AM RLC.
In case the procedure was triggered by reception of a RADIO BEARER RECONFIGURATION message, the UE shall:
1>	transmit a RADIO BEARER RECONFIGURATION COMPLETE as response message on the uplink DCCH using AM RLC.
In case the procedure was triggered by reception of a RADIO BEARER RELEASE message, the UE shall:
1>	transmit a RADIO BEARER RELEASE COMPLETE as response message on the uplink DCCH using AM RLC.
In case the procedure was triggered by reception of a TRANSPORT CHANNEL RECONFIGURATION message, the UE shall:
1>	transmit a TRANSPORT CHANNEL RECONFIGURATION COMPLETE as response message on the uplink DCCH using AM RLC.
In case the procedure was triggered by reception of a PHYSICAL CHANNEL RECONFIGURATION message, the UE shall:
1>	transmit a PHYSICAL CHANNEL RECONFIGURATION COMPLETE as response message on the uplink DCCH using AM RLC.
In case the procedure was triggered by reception of a Target cell HS-SCCH order, the UE shall:
1>	determine the corresponding RADIO BEARER SETUP COMPLETE or RADIO BEARER RECONFIGURATION COMPLETE or TRANSPORT CHANNEL RECONFIGURATION COMPLETE  or PHYSICAL CHANNEL RECONFIGURATION COMPLETE response message that shall be used given by the IE "Serving Cell Change Message Type" in the stored HS-DSCH cell configuration;
1>	set the IE "RRC transaction identifier" in the corresponding  response message to the value of "RRC Transaction Identifier" in the entry for the corresponding response message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	transmit the corresponding  RADIO BEARER SETUP COMPLETE or RADIO BEARER RECONFIGURATION COMPLETE or TRANSPORT CHANNEL RECONFIGURATION COMPLETE  or PHYSICAL CHANNEL RECONFIGURATION COMPLETE response message on the uplink DCCH using AM RLC;
1>	store the IE "Serving Cell Change Message Type" and the IE "Serving Cell Change Transaction Id" in the table "Processed transactions" in the variable TRANSACTIONS.
If the new state is CELL_DCH or CELL_FACH, the response message shall be transmitted using the new configuration after the state transition, and the UE shall:
1>	if the IE "Downlink counter synchronisation info" was included in the reconfiguration message; or
1>	if the received reconfiguration message is a RADIO BEARER RECONFIGURATION and the IE "New U-RNTI" is included; or
1>	if the received reconfiguration message included the IE "SR-VCC Info":
2>	when RLC has confirmed the successful transmission of the response message:
3>	if the variable PDCP_SN_INFO is empty:
4>	configure the RLC entity for all AM and UM radio bearers and AM and UM signalling radio bearers except RB2 to "continue".
3>	else:
4>	configure the RLC entity for signalling radio bearers RB1, RB3 and RB4 to "continue";
4>	configure the RLC entity for UM and AM radio bearers for which the IE "PDCP SN Info" is not included to "continue".
3>	re-establish all AM and UM RLC entities with RB identities larger than 4 and set the first 20 bits of all the HFN component of the respective COUNT-C values to the START value included in the response message for the corresponding CN domain;
3>	re-establish the RLC entities with RB identities 1, 3 and 4 and set the first 20 bits of all the HFN component of the respective COUNT-C values to the START value included in the response message for the CN domain stored in the variable LATEST_CONFIGURED_CN_DOMAIN;
3>	set the remaining bits of the HFN component of COUNT-C values of all UM RLC entities to zero;
3>		if the IE "PDCP context relocation info" is not present:
4>	re-initialise the PDCP header compression entities of each radio bearer in the variable ESTABLISHED_RABS as specified in [36].
3>		if the IE "PDCP context relocation info" is present:
4>	perform the actions as specified in subclause 8.6.4.13.
1>	if the variable PDCP_SN_INFO is empty:
2>	if the received reconfiguration message contained the IE "Ciphering mode info":
3>	when RLC has confirmed the successful transmission of the response message:
4>	notify upper layers upon change of the security configuration;
4>	perform the actions below.
2>	if the received reconfiguration message did not contain the IE "Ciphering mode info":
3>	when RLC has been requested to transmit the response message:
4>	perform the actions below.
1>	if the variable PDCP_SN_INFO is non-empty:
2>	when RLC has confirmed the successful transmission of the response message:
3>	for each radio bearer in the variable PDCP_SN_INFO:
4>	if the IE "RB started" in the variable ESTABLISHED_RABS is set to "started":
5>	configure the RLC entity for that radio bearer to "continue".
3>	perform the actions below.
If the new state is CELL_PCH or URA_PCH, the response message shall be transmitted using the old configuration before the state transition, but the new C-RNTI shall be used if the IE "New C-RNTI" was included in the received reconfiguration message, and the UE shall:
1>	when RLC has confirmed the successful transmission of the response message:
2>	for each radio bearer in the variable PDCP_SN_INFO:
3>	if the IE "RB started" in the variable ESTABLISHED_RABS is set to "started":
4>	configure the RLC entity for that radio bearer to "continue".
2>	enter the new state (CELL_PCH or URA_PCH, respectively);
2>	perform the actions below.
The UE shall:
1>	set the variable ORDERED_RECONFIGURATION to FALSE;
1>	if the received reconfiguration message contained the IE "Ciphering mode info":
2>	resume data transmission on any suspended radio bearer and signalling radio bearer mapped on RLC-AM or RLC-UM;
2>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
1>	if the received reconfiguration message contained the IE "Integrity protection mode info":
2>	allow the transmission of RRC messages on all signalling radio bearers with any RRC SN;
2>	set "Uplink RRC Message sequence number" for signalling radio bearer RB0 in the variable INTEGRITY_PROTECTION_INFO to a value such that next RRC message to be sent on uplink RB0 will use the new integrity protection configuration;
2>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
1>	clear the variable PDCP_SN_INFO;
1>	clear the variable START_VALUE_TO_TRANSMIT;
1>	clear the variable SECURITY_MODIFICATION.
8.2.2.5	Reception of a response message by the UTRAN, normal case
When UTRAN has received
-	the RADIO BEARER SETUP COMPLETE message; or
-	the RADIO BEARER RECONFIGURATION COMPLETE message; or
-	the RADIO BEARER RELEASE COMPLETE message; or
-	the TRANSPORT CHANNEL RECONFIGURATION COMPLETE message; or
-	the PHYSICAL CHANNEL RECONFIGURATION COMPLETE message.
UTRAN may:
1>	delete the old configuration.
If the procedure caused the UE to leave the CELL_FACH state, UTRAN may:
1>	delete the C-RNTI of the UE.
If the IE "UL Timing Advance" or the IE "Extended UL Timing Advance" is included in TDD, UTRAN should:
1>	evaluate the timing advance value that the UE has to use in the new cell after handover.
If the IE "START" or the IE "START list " is included, UTRAN should:
1>	set the START value for each CN domain with the corresponding values as received in this response message;
1>	consequently, then use the START values to initialise the hyper frame numbers, in the same way as specified for the UE in subclause 8.2.2.3, for any new radio bearers that are established.
If UTRAN has ordered a ciphering reconfiguration by including the IE "Ciphering mode info", UTRAN should:
1>	for radio bearers using RLC-AM or RLC-UM:
2>	on the receiving side of an RLC entity apply the new ciphering configuration in uplink immediately;
2>	on the transmitting side of an RLC entity apply the new ciphering configuration in downlink immediately.
1>	for radio bearers using RLC-TM:
2>	begin incrementing the COUNT-C at the CFN only as indicated in:
3>	the IE "Ciphering activation time for DPCH" in the IE "Ciphering mode info", if included in the message that triggered the radio bearer control procedure; or
3>	the IE "COUNT-C activation time", if included in the response message for this procedure.
1>	and the procedure ends on the UTRAN side.
8.2.2.5a	Rejection by the UE
If the UTRAN establishes one or more p-t-p radio bearer(s) for the transmission of a session of an MBMS service, identified by the IE "MBMS Session identity", for which upper layers indicate that it has already been received correctly, the UE shall:
1>	transmit a failure response as specified in subclause 8.2.2.9, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier";
2>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Accepted transactions" in the variable TRANSACTIONS;
2>	clear that entry; and
2>	set the IE "failure cause" to "MBMS session already received correctly".
1>	set the variable UNSUPPORTED_CONFIGURATION to FALSE;
1>	continue with any ongoing processes and procedures as if the reconfiguration message was not received;
1>	the procedure ends.
If the UTRAN establishes one or more p-t-p radio bearer(s) for the transmission of a session of an MBMS service, which will inhibit reception of one or more MBMS services which according to upper layers are of higher priority, the UE may:
1>	transmit a failure response as specified in subclause 8.2.2.9, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier";
2>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Accepted transactions" in the variable TRANSACTIONS;
2>	clear that entry; and
2>	set the IE "failure cause" to "Lower priority MBMS service".
1>	set the variable UNSUPPORTED_CONFIGURATION to FALSE;
1>	continue with any ongoing processes and procedures as if the reconfiguration message was not received;
1>	the procedure ends.
8.2.2.6	Unsupported configuration in the UE
If the UTRAN instructs the UE to use a configuration, which it does not support and/or if the received message causes the variable UNSUPPORTED_CONFIGURATION to be set to TRUE, the UE shall:
1>	transmit a failure response as specified in subclause 8.2.2.9, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier"; and
2>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "failure cause" to "configuration unsupported".
1>	set the variable UNSUPPORTED_CONFIGURATION to FALSE;
1>	continue with any ongoing processes and procedures as if the reconfiguration message was not received.
The procedure ends.
8.2.2.7	Physical channel failure
If the received message caused the UE to be in CELL_DCH state and the UE according to subclause 8.5.4 failed to establish the dedicated physical channel(s) indicated in the received message or for 3.84 Mcps TDD or 7.68 Mcps TDD failed to establish the physical channel(s) indicated in the received message to which DCCH(s) are mapped the UE shall:
1>	For TDD or for FDD if the CM_PATTERN_ACTIVATION_ABORTED flag is not set to TRUE:
2>	revert to the configuration prior to the reception of the message (old configuration), including any HS-DSCH, E-DCH, DTX and DRX configuration if existing. If there exists any DTX or DRX configuration, the UE shall instruct the physical layer to consider only the HS-SCCH orders which were acknowledged prior to the activation time of the received message;
2>	For FDD: if the UE was in Cell DCH state prior to the reconfiguration:
3>	if the variable DTX_DRX_STATUS is set to TRUE, re-configure the physical layer to perform discontinuous uplink DPCCH transmission and enable or disable discontinuous downlink reception operations according to the variable DTX_DRX_PARAMS at the CFN corresponding to the frame boundary that is offset by the stored value of the IE "Enabling Delay" from the frame boundary where uplink transmission resumes with the old configuration;
3>	if the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to TRUE:
4>	consider the secondary uplink frequency as not activated.
3>	perform the physical layer synchronisation procedure A as specified in [29];
3>	apply power control preamble according to [26] during the number of frames indicated in the IE "PC preamble" in the variable LATEST_CONFIGURED_SRB_DELAY_AND_PC_PREAMBLE; and
3>	then not send any data on signalling radio bearers RB0 to RB4 during the number of frames indicated in the IE "SRB delay" in the variable LATEST_CONFIGURED_SRB_DELAY_AND_PC_PREAMBLE or while the physical channel is not considered established.
1>	if the old configuration includes dedicated physical channels (CELL_DCH state) and the UE is unable to revert to the old configuration or for FDD if the CM_PATTERN_ACTIVATION_ABORTED flag is set to TRUE:
2>	initiate a cell update procedure according to subclause 8.3.1, using the cause "radio link failure";
2>	after the cell update procedure has completed successfully:
3>	proceed as below.
1>	if the old configuration does not include dedicated physical channels (CELL_FACH state):
2>	select a suitable UTRA cell according to [4];
2>	if the UE selects another cell than the cell the UE camped on upon reception of the reconfiguration message:
3>	initiate a cell update procedure according to subclause 8.3.1, using the cause "Cell reselection";
3>	after the cell update procedure has completed successfully:
4>	proceed as below.
1>	transmit a failure response message as specified in subclause 8.2.2.9, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier"; and
2>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "failure cause" to "physical channel failure".
1>	set the variable ORDERED_RECONFIGURATION to FALSE;
1>	continue with any ongoing processes and procedures as if the reconfiguration message was not received.
The procedure ends.
8.2.2.8	Cell re-selection
If the UE performs cell re-selection during the reconfiguration procedure, the UE shall:
1>	initiate a cell update procedure, as specified in subclause 8.3.1;
1>	continue with the reconfiguration procedure.
NOTE:	After the completion of the cell update procedure and completion of the reconfiguration procedure within the UE, the UE will move to the RRC state as indicated in the reconfiguration message.
8.2.2.9	Transmission of a response message by the UE, failure case
The UE shall:
1>	in case of reception of a RADIO BEARER SETUP message:
2>	if the radio bearer establishment procedure affects several radio bearers:
3>	(may) include the identities of the radio bearers for which the procedure would have been successful into the RADIO BEARER SETUP FAILURE message.
2>	transmit a RADIO BEARER SETUP FAILURE as response message on the DCCH using AM RLC.
1>	in case of reception of a RADIO BEARER RECONFIGURATION message:
2>	if the radio bearer reconfiguration procedure affects several radio bearers:
3>	(may) include the identities of the radio bearers for which the procedure would have been successful into the RADIO BEARER RECONFIGURATION FAILURE message.
2>	transmit a RADIO BEARER RECONFIGURATION FAILURE as response message on the DCCH using AM RLC.
1>	in case of reception of a RADIO BEARER RECONFIGURATION message encapsulated in INTERSYSTEM HANDOVER TO UTRAN COMMAND message in GERAN Iu mode:
2>	perform the actions.
1>	in case of reception of a RADIO BEARER RELEASE message:
2>	if the radio bearer release procedure affects several radio bearers:
3>	(may) include the identities of the radio bearers for which the procedure would have been successful into the RADIO BEARER RELEASE FAILURE message.
2>	transmit a RADIO BEARER RELEASE FAILURE as response message on the DCCH using AM RLC.
1>	in case of reception of a TRANSPORT CHANNEL RECONFIGURATION message:
2>	transmit a TRANSPORT CHANNEL RECONFIGURATION FAILURE as response message on the DCCH using AM RLC.
1>	in case of reception of a PHYSICAL CHANNEL RECONFIGURATION message:
2>	transmit a PHYSICAL CHANNEL RECONFIGURATION FAILURE as response message on the DCCH using AM RLC.
1>	when the response message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if no reconfiguration attempt had occurred.
8.2.2.10	Reception of a response message by the UTRAN, failure case
When the UTRAN has received:
-	the RADIO BEARER SETUP FAILURE message; or
-	the RADIO BEARER RECONFIGURATION FAILURE message; or
-	the RADIO BEARER RELEASE FAILURE message; or
-	the TRANSPORT CHANNEL RECONFIGURATION FAILURE message; or
-	the PHYSICAL CHANNEL RECONFIGURATION FAILURE message:
the UTRAN may restore the old and delete the new configuration. Upper layers should be notified of the failure.
The procedure ends on the UTRAN side.
8.2.2.11	Invalid configuration
If the variable INVALID_CONFIGURATION is set to TRUE the UE shall:
1>	keep the configuration existing before the reception of the message;
1>	transmit a failure response message as specified in subclause 8.2.2.9, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier"; and
3>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Accepted transactions" in the variable TRANSACTIONS; and
3>	clear that entry.
2>	set the IE "failure cause" to "invalid configuration".
1>	set the variable INVALID_CONFIGURATION to FALSE;
1>	continue with any ongoing processes and procedures as if the reconfiguration message was not received.
The procedure ends.
8.2.2.12	Incompatible simultaneous reconfiguration
If the table "Rejected transactions" in the variable TRANSACTIONS is set due to the received message and the variable PROTOCOL_ERROR_REJECT is set to FALSE, the UE shall:
1>	not apply the configuration contained in the received reconfiguration message;
1>	transmit a failure response message as specified in subclause 8.2.2.9, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier"; and
2>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Rejected transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "failure cause" to "incompatible simultaneous reconfiguration".
1>	continue with any ongoing processes and procedures as if the reconfiguration message was not received.
The procedure ends.
8.2.2.12a	Incompatible simultaneous security reconfiguration
If the variable INCOMPATIBLE_SECURITY_RECONFIGURATION is set to TRUE due to the received reconfiguration message, the UE shall:
1>	transmit a failure response message as specified in subclause 8.2.2.9, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier"; and
2>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "failure cause" to the cause value "incompatible simultaneous reconfiguration".
1>	set the variable INCOMPATIBLE_SECURITY_RECONFIGURATION to FALSE;
1>	continue with any ongoing processes and procedures as if the reconfiguration message was not received.
The procedure ends.
8.2.2.12b	Cell update procedure during security reconfiguration
If:
-	a cell update procedure according to subclause 8.3.1 is initiated; and
-	the received reconfiguration message causes either:
-	the IE "Reconfiguration" in the variable CIPHERING_STATUS to be set to TRUE; and/or
-	the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to be set to TRUE:
the UE shall:
1>	release all radio resources;
1>	indicate the release of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers; and
1>	clear any entry for the RRC CONNECTION RELEASE message in the tables "Accepted transactions" and "Rejected transactions" in the variable TRANSACTIONS;
1>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
1>	clear the variable ESTABLISHED_RABS;
1>	if the received reconfiguration message contained the IE "Ciphering mode info":
2>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable SECURITY_MODIFICATION.
1>	if the received reconfiguration message contained the IE "Integrity protection mode info":
2>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
1>	enter idle mode;
1>	perform the actions specified in subclause 8.5.2 when entering idle mode;
1>	and the procedure ends.
NOTE:	UTRAN should use RB Control messages to perform an SRNS relocation only in case of state transitions from CELL_DCH to CELL_DCH.
8.2.2.13	Invalid received message
If the received reconfiguration message contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	transmit a failure response message as specified in subclause 8.2.2.9, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier"; and
2>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Rejected transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "failure cause" to the cause value "protocol error";
2>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION.
The procedure ends.
8.2.2.14	Radio link failure
If the criteria for radio link failure are met in the old configuration during the reconfiguration procedure as specified in subclause 8.5.6, the UE shall:
1>	if UE would have entered CELL_PCH or URA_PCH as a result of this reconfiguration procedure and UE has already submitted a response message to lower layers:
2>	act as if the reconfiguration message was not received;
2>	initiate a cell update procedure according to subclause 8.3.1, using the cause "radio link failure";
2>	the procedure ends.
NOTE:	UTRAN should consider the reconfiguration procedure as unsuccessful in this case even if a success response message had been received.
1>	if the UE would have remained in CELL_DCH state as a result of this reconfiguration procedure:
2>	initiate a cell update procedure according to subclause 8.3.1, using the cause "radio link failure";
2>	after the cell update procedure has completed successfully:
3>	transmit a failure response message as specified in subclause 8.2.2.9, setting the information elements as specified below:
4>	include the IE "RRC transaction identifier"; and
4>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Accepted transactions" in the variable TRANSACTIONS; and
4>	clear that entry;
4>	set the IE "failure cause" to "physical channel failure".
3>	act as if the reconfiguration message was not received;
3>	the procedure ends.
In case of SRNS relocation, if the criteria for radio link failure are met in the new configuration during the reconfiguration procedure (i.e. while UE is waiting for RLC acknowledgement for a response message.) as specified in subclause 8.5.6, the UE shall:
1>	if the received reconfiguration causes either:
-	the IE "Reconfiguration" in the variable CIPHERING_STATUS to be set to TRUE; and/or
-	the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to be set to TRUE:
2>	perform the actions specified in subclause 8.2.2.12b.
1>	else:
2>	release all its radio resources;
2>	indicate the release of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear any entry for the RRC CONNECTION RELEASE message in the tables "Accepted transactions" and "Rejected transactions" in the variable TRANSACTIONS;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	enter idle mode;
2>	perform the actions specified in subclause 8.5.2 when entering idle mode; and
2>	the procedure ends.
8.2.3	Radio bearer release
See subclause 8.2.2 (Reconfiguration procedures).
8.2.4	Transport channel reconfiguration
See subclause 8.2.2 (Reconfiguration procedures).
8.2.5	Transport format combination control

Figure 8.2.5-1: Transport format combination control, normal flow

Figure 8.2.5-2: Transport format combination control, failure case
8.2.5.1	General
The transport format combination control procedure is used to control the allowed uplink transport format combinations within the transport format combination set.
8.2.5.2	Initiation
To initiate the transport format combination control procedure, the UTRAN transmits the TRANSPORT FORMAT COMBINATION CONTROL message on the downlink DCCH using AM, UM or TM RLC. When not stated otherwise elsewhere, the UTRAN may initiate the transport format combination control procedure also when another procedure is ongoing, and in that case the state of the latter procedure shall not be affected.
To change the sub-set of allowed transport format combinations, the UTRAN should:
1>	set the allowed TFCs in the IE "Transport Format Combination subset" ("TFC subset"). The UTRAN may specify the duration for which a new TFC sub-set applies by using the IE "TFC Control duration" and independently may specify the time at which a new TFC sub-set shall be applied using the IE "Activation time for TFC subset".
To remove completely the previous restrictions of allowed transport format combinations, the UTRAN should:
1>	set the IE "full transport format combination set " in the IE "TFC subset".
8.2.5.3	Reception of a TRANSPORT FORMAT COMBINATION CONTROL message by the UE
If the TRANSPORT FORMAT COMBINATION CONTROL message was received on AM RLC or UM RLC, the UE shall:
1>	act upon all received information elements as specified in 8.6, unless specified otherwise in the following;
1>	perform the actions for the transport format combination subset specified in the IE "DPCH/PUSCH TFCS in uplink" according to subclause 8.6.5.3;
1>	if the IE "UL AMR rate" is included in the message:
2>	forward the content of the IE "UL AMR rate" to upper layers.
1>	if the message is received in CELL_FACH state, and the IE "TFC Control duration" or the IE "Activation time for TFC subset" is present in the message:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the variable INVALID_CONFIGURATION is set to FALSE:
2>	if the IE "TFC Control duration" is included in the message:
3>	store the value of the IE "TFC Control duration" in the IE "Duration" in the variable TFC_SUBSET;
3>	set the IE "Current TFC subset" (for the CCTrCH indicated by the IE "TFCS Id" in case of TDD) in the variable TFC_SUBSET to the value of the IE "Transport format combination subset";
3>	at the CFN indicated by IE "Activation time for TFC subset" apply the transport format combination subset in the IE "Current TFC subset" stored in the variable TFC_SUBSET for the number of (10 ms) frames specified in the IE "Duration";
3>	at the end of the time period defined by the IE "Duration"in the variable TFC_SUBSET:
4>	if the IE "Current TFC subset" (for the CCTrCH indicated by the IE "TFCS Id" in case of TDD) in the variable TFC_SUBSET has not subsequently been changed by another message:
5>	set the value of the IE "Current TFC subset" to the value of the IE "Default TFC subset" in the variable TFC_SUBSET;
5>	clear the IE "Duration" in the variable TFC_SUBSET;
5>	apply the transport format combination subset in the IE "Current TFC subset" stored in the variable TFC_SUBSET.
2>	if the IE "TFC Control duration" is not included in the message:
3>	clear the value of the IE "Duration" in the variable TFC_SUBSET;
3>	set both the IE "Current TFC subset" and the IE "Default TFC subset" ( for the CCTrCH indicated by the IE "TFCS Id" in case of TDD) in the variable TFC_SUBSET to the value of the IE "Transport format combination subset";
3>		at the CFN indicated by the IE "Activation time for TFC subset" apply the transport format combination subset in the IE "Current TFC subset" stored in the variable TFC_SUBSET.
2>	when the UE enters a state other than CELL_DCH state after the reception of the message:
3>	if the CFN indicated by IE "Activation time for TFC subset" has been reached and the time period defined by the IE "Duration" in the variable TFC_SUBSET has not been reached:
4>	if the IE "Current TFC subset" (for the CCTrCH indicated by the IE "TFCS Id" in case of TDD) in the variable TFC_SUBSET has not subsequently been changed by another message:
5>	set the value of the IE "Current TFC subset" to the value of the IE "Default TFC subset" in the variable TFC_SUBSET;
5>	clear the IE "Duration" in the variable TFC_SUBSET;
5>	apply the transport format combination subset in the IE "Current TFC subset" stored in the variable TFC_SUBSET.
3>	if the CFN indicated by IE "Activation time for TFC subset" has not been reached:
4>	if the IE "TFC Control duration" is not included in the message:
5>	apply the transport format combination subset in the IE "Current TFC subset" stored in the variable TFC_SUBSET.
4>	if the IE "TFC Control duration" is included in the message, and if the IE "Current TFC subset" (for the CCTrCH indicated by the IE "TFCS Id" in case of TDD) in the variable TFC_SUBSET has not subsequently been changed by another message:
5>	set the value of the IE "Current TFC subset" to the value of the IE "Default TFC subset" in the variable TFC_SUBSET;
5>	clear the IE "Duration" in the variable TFC_SUBSET;
5>	apply the transport format combination subset in the IE "Current TFC subset" stored in the variable TFC_SUBSET.
If the TRANSPORT FORMAT COMBINATION CONTROL message was received on TM RLC, the UE shall:
1>	if the IE "TFC subset identity" identifies one of the TFC subsets stored in the IE "TFC subset list" in the variable TFC_SUBSET:
2>	perform the actions as specified in subclause 8.6.5.3;
2>	if the variable INVALID_CONFIGURATION is set to FALSE:
3>	in the variable TFC_SUBSET, set the IE "Current TFC subset" and the IE "default TFC subset" to the value of the IE "TFC subset" in "TFC subset list" which is identified by the IE "TFC subset identity";
3>	clear the IE "Duration" in the variable TFC_SUBSET;
3>	apply the transport format combination subset in the IE "Current TFC subset" stored in the variable TFC_SUBSET.
1>	if the IE "TFC subset identity" is greater than the maximum number of TFC subsets stored in the IE "TFC subset list" in the variable TFC_SUBSET:
2>	set the variable INVALID_CONFIGURATION to TRUE. 
NOTE:	The UTRAN should only send the TRANSPORT FORMAT COMBINATION CONTROL message on TM RLC in order to control the rate of TM RBs (for example, carrying multi-rate AMR or WB-AMR) otherwise the UE behaviour is not specified.
The UE shall:
1>	clear the entry for the TRANSPORT FORMAT COMBINATION CONTROL message in the table "Accepted transactions" in the variable TRANSACTIONS;
1>	and the procedure ends.
8.2.5.4	Invalid configuration
If the variable INVALID_CONFIGURATION is set to TRUE due to the received TRANSPORT FORMAT COMBINATION CONTROL message the UE shall:
1>	if the TRANSPORT FORMAT COMBINATION CONTROL message was received on AM RLC:
2>	keep the TFC subset existing before the TRANSPORT FORMAT COMBINATION CONTROL message was received;
2>	transmit a TRANSPORT FORMAT COMBINATION CONTROL FAILURE message on the DCCH using AM RLC;
2>	set the IE "RRC transaction identifier" in the TRANSPORT FORMAT COMBINATION CONTROL FAILURE message to the value of "RRC transaction identifier" in the entry for the TRANSPORT FORMAT COMBINATION CONTROL message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "failure cause" to "invalid configuration";
2>	when the TRANSPORT FORMAT COMBINATION CONTROL FAILURE message has been submitted to lower layers for transmission the procedure ends.
1>	if the TRANSPORT FORMAT COMBINATION CONTROL message was received on UM RLC or TM RLC:
2>	ignore the TRANSPORT FORMAT COMBINATION CONTROL message;
2>	clear the entry for the TRANSPORT FORMAT COMBINATION CONTROL message in the table "Accepted transactions" in the variable TRANSACTIONS.
8.2.5.5	Invalid TRANSPORT FORMAT COMBINATION CONTROL message
If the TRANSPORT FORMAT COMBINATION CONTROL message was received on AM RLC or UM RLC and contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	transmit a TRANSPORT FORMAT COMBINATION CONTROL FAILURE message on the uplink DCCH using AM RLC setting the information elements as specified below:
2>	set the IE "RRC transaction identifier" in the TRANSPORT FORMAT COMBINATION CONTROL FAILURE message to the value of "RRC transaction identifier" in the entry for the TRANSPORT FORMAT COMBINATION CONTROL message in the table "Rejected transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "failure cause" to the cause value "protocol error";
2>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION.
1>	when the TRANSPORT FORMAT COMBINATION CONTROL FAILURE message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid TRANSPORT FORMAT COMBINATION CONTROL message has not been received;
2>	and the procedure ends.
If the TRANSPORT FORMAT COMBINATION CONTROL message was received on TM RLC and contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	ignore the invalid TRANSPORT FORMAT COMBINATION CONTROL message as if it has not been received;
1>	the procedure ends.
8.2.6	Physical channel reconfiguration
See subclause 8.2.2 Reconfiguration procedures.
8.2.7	Physical Shared Channel Allocation [TDD only]

Figure 8.2.7-1: Physical Shared Channel Allocation
8.2.7.1	General
The purpose of this procedure is to allocate radio resources to USCH and/or DSCH transport channels in TDD mode, for use by a UE. This procedure can also be used to indicate to the UE, that a PUSCH allocation is pending, in order to prevent further capacity requests from the UE.
UEs are not required to receive FACH and DSCH simultaneously, i.e. if resources are allocated to DSCH the FACH reception may be suspended.
8.2.7.2	Initiation
To initiate the Physical Shared Channel Allocation procedure, the UTRAN sends the "PHYSICAL SHARED CHANNEL ALLOCATION" message on the downlink SHCCH or on the downlink DCCH using UM RLC. The DSCH-RNTI shall be included for UE identification, if the message is sent on the SHCCH.
8.2.7.3	Reception of a PHYSICAL SHARED CHANNEL ALLOCATION message by the UE
Upon reception of a "PHYSICAL SHARED CHANNEL ALLOCATION" message, if the message is received on the downlink SHCCH the UE shall:
1>	check the DSCH-RNTI to see if the UE is addressed by the message;
1>	if the UE is addressed by the message, or if the message is received on the downlink DCCH:
2>	perform the following actions.
1>	otherwise:
2>	ignore the message.
1>	act upon all received information elements as specified in subclause 8.6, unless specified otherwise in the following:
1>	if the IE "ISCP Timeslot list" is included:
2>	store the timeslot numbers given there for future Timeslot ISCP measurements and reports in the variable PHYSICAL_SHARED_CHANNEL_CONFIGURATION.
1>	if the IE "PDSCH capacity allocation info" is included:
2>	configure the physical resources used for the downlink CCTrCH given by the IE "TFCS ID" according to the following:
3>	if the CHOICE "Configuration" has the value "Old configuration":
4>	if the UE has stored a PDSCH configuration in the variable PHYSICAL_SHARED_CHANNEL_CONFIGURATION with the identity given by the IE "PDSCH Identity":
5>	configure the physical resources according to that configuration.
4>	otherwise:
5>	ignore the IE "PDSCH capacity allocation info".
3>	if the CHOICE "Configuration" has the value "New configuration":
4>	configure the physical resources according to the information given in IE "PDSCH Info". If IE "Common timeslot info" or IE "PDSCH timeslots and codes" IE are not present in IE "PDSCH Info":
5>	reuse the configuration stored in the variable PHYSICAL_SHARED_CHANNEL_CONFIGURATION for this CCTrCH.
4>	if the IE "PDSCH Identity" is included:
5>	store the new configuration in the variable PHYSICAL_SHARED_CHANNEL_CONFIGURATION using that identity.
2>	start using the new configuration at the CFN specified by the IE "Allocation activation time", and use that for the duration given by the IE "Allocation duration";
2>	if the IE "Confirm request" has the value "Confirm PDSCH" and IE "PDSCH Identity" is included in IE "PDSCH capacity allocation info":
3>	initiate the PUSCH CAPACITY REQUEST procedure as described in subclause 8.2.8.
1>	if the IE "PUSCH capacity allocation info" is included:
2>	stop the timer T310, if running;
2>	if the CHOICE "PUSCH allocation" has the value "PUSCH allocation pending":
3>	start the timer T311.
2>	if the CHOICE "PUSCH allocation" has the value "PUSCH allocation assignment":
3>	stop the timer T311, if running;
3>	configure the physical resources used for the uplink CCTrCH given by the IE "TFCS ID" according to the following:
4>	if the CHOICE "Configuration" has the value "Old configuration":
5>	if the UE has stored a PUSCH configuration with the identity given by the IE "PUSCH Identity" in the variable PHYSICAL_SHARED_CHANNEL_CONFIGURATION:
6>	configure the physical resources according to that configuration.
5>	otherwise:
6>	ignore the IE "PUSCH capacity allocation info".
4>	if the CHOICE "Configuration" has the value "New configuration", the UE shall:
5>	configure the physical resources according to the information given in IE "PUSCH Info". If IE "Common timeslot info" or IE "PUSCH timeslots and codes" is not present in IE "PUSCH Info":
6>	reuse the configuration stored in the variable PHYSICAL_SHARED_CHANNEL_CONFIGURATION for this CCTrCH.
5>	if the IE "PUSCH Identity" is included:
6>	store the new configuration in the variable PHYSICAL_SHARED_CHANNEL_CONFIGURATION using that identity.
3>	if the IE "PUSCH power control info" is present in this message and includes the parameter "UL target SIR" for 3.84 Mcps TDD or 7.68 Mcps TDD, or the parameters "PRXPUSCHdes" and "Beacon PL Est. " and "TPC Step Size" for 1.28 Mcps TDD, or the parameters are stored in the variable PHYSICAL SHARED CHANNEL CONFIGURATION for this CCTrCH:
4>	start using the new configuration at the CFN specified by the IE "Allocation activation time", and use that for the duration given by the IE "Allocation duration".
3>	otherwise:
4>	ignore the IE "PUSCH capacity allocation info".
3>	if the IE "PUSCH power control info" is present in this message and includes the parameter "UL target SIR" for 3.84 Mcps TDD or 7.68 Mcps TDD, or the parameters "PRXPUSCHdes" and/or "Beacon PL Est. " and/or "TPC Step Size" for 1.28 Mcps TDD:
4>	replace the parameters "UL target SIR" or "PRXPUSCHdes" or "TPC Step Size" stored in the variable PHYSICAL SHARED CHANNEL CONFIGURATION for this CCTrCH with the signalled values.
3>	if the IE "Traffic volume report request " is included:
4>	initiate the PUSCH CAPACITY REQUEST procedure as described in subclause 8.2.8 at the time indicated by the IE "Traffic volume report request".
3>	if the IE "Confirm request" has the value "Confirm PUSCH" and IE "PUSCH Identity" is included in IE "PUSCH capacity allocation info":
4>	initiate the PUSCH CAPACITY REQUEST procedure as described in subclause 8.2.8.
3>	determine the TFCS subset and hence the TFCI values which are possible given the PUSCH allocation for that CCTrCH;
3>	configure the MAC-c/sh in the UE with this TFCS restriction if necessary;
3>	transmit USCH Transport Block Sets as required, within the TFCS limits given by the PUSCH allocation.
NOTE:	If the UE has just entered a new cell and System Information Block Type 6 has not yet been scheduled, PUSCH/PDSCH information should be specified in the allocation message.
The UE shall:
1>	clear the entry for the PHYSICAL SHARED CHANNEL ALLOCATION message in the table "Accepted transactions" in the variable TRANSACTIONS;
1>	and the procedure ends.
8.2.7.4	Invalid PHYSICAL SHARED CHANNEL ALLOCATION message
If the UE receives a PHYSICAL SHARED CHANNEL ALLOCATION message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	ignore the invalid PHYSICAL SHARED CHANNEL ALLOCATION message;
1>	submit the PUSCH CAPACITY REQUEST message for transmission on the uplink SHCCH, setting the information elements in the message as specified in subclause 8.2.8.3;
1>	reset counter V310;
1>	start timer T310;
1>	proceed as described in subclause 8.2.8.
8.2.8	PUSCH capacity request [TDD only]

Figure 8.2.8-1: PUSCH Capacity request procedure
8.2.8.1	General
With this procedure, the UE transmits its request for PUSCH resources to the UTRAN. In the normal case, the UTRAN responds with a PHYSICAL SHARED CHANNEL ALLOCATION message, which either allocates the requested PUSCH resources, and/or allocates a PDSCH resource, or may just serve as an acknowledgement, indicating that PUSCH allocation is pending.
This procedure can also be used to acknowledge the reception of a PHYSICAL SHARED CHANNEL ALLOCATION message, or to indicate a protocol error in that message.
With the PUSCH CAPACITY REQUEST message, the UE can request capacity for one or more USCH.
8.2.8.2	Initiation
This procedure is initiated:
1>	in the CELL_FACH or CELL_DCH state;
1>	and when at least one RB using USCH has been established;
1>	and when the UE sees the requirement to request physical resources (PUSCH) for an USCH channel or there is the need to reply to a PHYSICAL SHARED CHANNEL ALLOCATION message as described in clause 8.2.7 (i.e. to confirm the reception of a message, if requested to do so, or to indicate a protocol error).
The procedure can be initiated if:
-	Timer T311 is not running.
-	The timer T310 (capacity request repetition timer) is not running.
The UE shall:
1>	set the IEs in the PUSCH CAPACITY REQUEST message according to subclause 8.2.8.3;
1>	if the procedure is triggered to reply to a previous PHYSICAL SHARED CHANNEL ALLOCATION message by the IE "Confirm request" set to "Confirm PUSCH" and the IE "PUSCH capacity allocation info" is not present:
2>	transmit the PUSCH CAPACITY REQUEST message on RACH.
1>	else:
2>	transmit the PUSCH CAPACITY REQUEST message on the uplink SHCCH.
1>	set counter V310 to 1;
1>	start timer T310.
8.2.8.3	PUSCH CAPACITY REQUEST message contents to set
With one PUSCH CAPACITY REQUEST message, capacity for one or more USCH can be requested. It shall include these information elements:
1>	DSCH-RNTI to be used as UE identity if the message is sent on RACH;
1>	Traffic volume measured results for each radio bearer satisfying the reporting criteria as specified in the MEASUREMENT CONTROL procedure (if no radio bearer satisfies the reporting criteria, traffic volume measured results shall not be included). These results shall include:
2>	Radio Bearer ID of the Radio Bearer being reported;
2>	RLC buffer payload for these radio bearers, as specified by the MEASUREMENT CONTROL procedure.
The UE shall:
1>	if the initiation of the procedure is triggered by the IE "Traffic volume report request" in a previously received PHYSICAL SHARED CHANNEL ALLOCATION message:
2>	report the traffic volume measurement result for the radio bearer mapped on USCH transport channel specified in the received message. These results shall include:
3>	Radio Bearer ID of the Radio Bearer being reported;
3>	RLC buffer payload for this radio bearer.
1>	if the initiation of the procedure is triggered by the IE "Confirm request" set to "Confirm PDSCH" in a previously received PHYSICAL SHARED CHANNEL ALLOCATION message and the IE "PUSCH capacity allocation info" is present in this message:
2>	set the CHOICE "Allocation confirmation" to "PDSCH Confirmation" with the value given in the IE "PDSCH Identity" stored in the variable PHYSICAL_SHARED_CHANNEL_CONFIGURATION.
1>	if the initiation of the procedure is triggered by the IE "Confirm request" set to "Confirm PUSCH" in a previously received PHYSICAL SHARED CHANNEL ALLOCATION message:
2>	set the CHOICE "Allocation confirmation" to "PUSCH Confirmation" with the value given in the IE "PUSCH Identity" stored in the variable PHYSICAL_SHARED_CHANNEL_CONFIGURATION.
1>	if the variable PROTOCOL_ERROR_REJECT is set to TRUE:
2>	include the IE "RRC transaction identifier" in the response message transmitted below; and
2>	set it to the value of "RRC transaction identifier" in the entry for the PHYSICAL SHARED CHANNEL ALLOCATION message in the table "Rejected transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "protocol error indicator" to TRUE;
2>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION.
1>	if the value of the variable PROTOCOL_ERROR_ REJECT is FALSE:
2>	set the IE "Protocol error indicator" to FALSE.
As an option, the message may include IE "Timeslot ISCP" and IE "Primary CCPCH RSCP".
The timeslots for which "Timeslot ISCP" may be reported shall have been configured with a previous PHYSICAL SHARED CHANNEL ALLOCATION message and stored in the variable PHYSICAL_SHARED_CHANNEL_CONFIGURATION.
"Primary CCPCH RSCP" is reported when requested with a previous PHYSICAL SHARED CHANNEL ALLOCATION message.
8.2.8.4	Reception of a PUSCH CAPACITY REQUEST message by the UTRAN
Upon receiving a PUSCH CAPACITY REQUEST message with traffic volume measurement included for at least one radio bearer, the UTRAN should initiate the PHYSICAL SHARED CHANNEL ALLOCATION procedure, either for allocating PUSCH or PDSCH resources as required, or just as an acknowledgement, indicating a pending PUSCH allocation, as described in subclause 8.2.7.
8.2.8.5	T310 expiry
Upon expiry of timer T310, the UE shall:
1>	if V310 is smaller than N310:
2>	transmit a new PUSCH CAPACITY REQUEST message on the Uplink SHCCH;
2>	restart timer T310;
2>	increment counter V310;
2>	set the IEs in the PUSCH CAPACITY REQUEST message as specified in subclause 8.2.8.3.
1>	if V310 is greater than or equal to N310:
2>	the procedure ends.
8.2.9	Void

8.2.10	Uplink Physical Channel Control [TDD only]

Figure 8.2.10-1: Uplink Physical Channel Control
8.2.10.1	General
The uplink physical channel control procedure is used in TDD to control the uplink outer loop power control and timing advance running in the UE.
8.2.10.2	Initiation
The UTRAN initiates the procedure by transmitting the UPLINK PHYSICAL CHANNEL CONTROL message on the downlink DCCH using AM or UM RLC in order to update parameters for uplink open loop power control in the UE for one CCTrCH or to inform the UE about a new timing advance value to be applied. Especially, uplink interference information measured by the UTRAN can be included for the uplink timeslots used for the CCTrCH.
8.2.10.3	Reception of UPLINK PHYSICAL CHANNEL CONTROL message by the UE
Upon reception of the UPLINK PHYSICAL CHANNEL CONTROL message, the UE shall:
1>	act upon all received information elements as specified in subclause 8.6.
In 1.28 Mcps TDD, if the IE "Uplink DPCH Power Control Info" and IE "PRXHS-SICH" and IE "TPC step size" are transmitted, this information shall be taken into account by the UE for uplink open loop power control and for uplink closed loop power control as described in subclause 8.6.6.11, and the"PRXHS-SICH" shall be taken into account by the UE for open loop power control as described in subclause 8.5.7 and the "TPC step size" for closed loop power control on HS-SICH.
In 3.84 Mcps TDD or 7.68 Mcps TDD, if the IEs "Uplink DPCH Power Control Info", "PRACH Constant Value", "PUSCH Constant Value",  "HS-SICH Power Control Info", "Alpha" or IE group "list of UL Timeslot Interference" are transmitted, this information shall be taken into account by the UE for uplink open loop power control as specified in subclause 8.5.7. If the UE is capable of using IPDLs for UE positioning, the IE "IPDL-Alpha" shall be used instead of the IE "Alpha". If the IE "IPDL-Alpha" parameter is not present, the UE shall use IE "Alpha".
If the IE Special Burst Scheduling is transmitted the UE shall:
1>	use the new value for the "Special Burst Generation Period".
The UE shall:
1>	clear the entry for the UPLINK PHYSICAL CHANNEL CONTROL message in the table "Accepted transactions" in the variable TRANSACTIONS;
1>	and the procedure ends.
8.2.10.4	Invalid UPLINK PHYSICAL CHANNEL CONTROL message
If the UE receives a UPLINK PHYSICAL CHANNEL CONTROL message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	transmit an RRC STATUS message on the uplink DCCH using AM RLC, setting the information elements as specified below:
2>	include the IE "Identification of received message"; and
2>	set the IE "Received message type" to UPLINK PHYSICAL CHANNEL CONTROL; and
2>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the UPLINK PHYSICAL CHANNEL CONTROL message in the table "Rejected transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION.
1>	when the RRC STATUS message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid UPLINK PHYSICAL CHANNEL CONTROL message has not been received.
8.2.11	Physical channel reconfiguration failure

Figure 8.2.11-1: Physical channel reconfiguration failure in case of runtime configuration error
8.2.11.1	General
The physical channel reconfiguration failure procedure is used to indicate to the network a runtime configuration error in the UE.
8.2.11.2	Runtime error due to overlapping compressed mode configurations
When the UE has received from the UTRAN the configurations of several compressed mode transmission gap pattern sequences, and if several of these patterns are to be simultaneously active, the UE shall check to see if these simultaneously active transmission gap pattern sequences create transmission gaps in the same frame. An illegal overlap is created if two or more transmission gap pattern sequences create transmission gaps in the same frame, irrespective of the gaps are created in uplink or downlink.
If the parallel transmission gap pattern sequences create an illegal overlap, the UE shall:
1>	delete the overlapping transmission gap pattern sequence configuration stored in the variable TGPS_IDENTITY, which is associated with the highest value of IE "TGPSI";
1>	transmit a PHYSICAL CHANNEL RECONFIGURATION FAILURE message on the DCCH using AM RLC, setting the information elements as specified below:
2>	not include the IE "RRC transaction identifier";
2>	set the cause value in IE "failure cause" to value "compressed mode runtime error".
1>	terminate the inter-frequency and/or inter-RAT measurements corresponding to the deleted transmission gap pattern sequence;
1>	when the PHYSICAL CHANNEL RECONFIGURATION FAILURE message has been submitted to lower layers for transmission:
2>	the procedure ends.
8.2.11.3	Void

8.3	RRC connection mobility procedures
8.3.1	Cell and URA update procedures

Figure 8.3.1-1: Cell update procedure, basic flow

Figure 8.3.1-2: Cell update procedure with update of UTRAN mobility information

Figure 8.3.1-3: Cell update procedure with physical channel reconfiguration

Figure 8.3.1-4: Cell update procedure with transport channel reconfiguration

Figure 8.3.1-5: Cell update procedure with radio bearer release

Figure 8.3.1-6: Cell update procedure with radio bearer reconfiguration

Figure 8.3.1-6a: Cell update procedure with radio bearer setup

Figure 8.3.1-7: Cell update procedure, failure case

Figure 8.3.1-8: URA update procedure, basic flow

Figure 8.3.1-9: URA update procedure with update of UTRAN mobility information

Figure 8.3.1-10: URA update procedure, failure case
8.3.1.1	General
The URA update and cell update procedures serve several main purposes:
-	to notify UTRAN after re-entering service area in the URA_PCH or CELL_PCH state;
-	to notify UTRAN of an RLC unrecoverable error [16] on an AM RLC entity;
-	to be used as a supervision mechanism in the CELL_FACH, CELL_PCH, or URA_PCH state by means of periodical update.
In addition, the URA update procedure also serves the following purpose:
-	to retrieve a new URA identity after cell re-selection to a cell not belonging to the current URA assigned to the UE in URA_PCH state.
In addition, the cell update procedure also serves the following purposes:
-	to update UTRAN with the current cell the UE is camping on after cell reselection;
-	to act on a radio link failure in the CELL_DCH state;
-	to act on the transmission failure of the UE CAPABILITY INFORMATION message;
-	for FDD and 1.28 Mcps TDD, if the variable H_RNTI is not set, and for 3.84 Mcps TDD and 7.68 Mcps TDD:
when triggered in the URA_PCH or CELL_PCH state, to notify UTRAN of a transition to the CELL_FACH state due to the reception of UTRAN originated paging or due to a request to transmit uplink data;
-	to count the number of UEs in URA_PCH, CELL_PCH and CELL_FACH that are interested to receive an MBMS transmission;
-	when triggered in the URA_PCH, CELL_PCH and CELL_FACH state, to notify UTRAN of the UEs interest to receive an MBMS service;
-	to request the MBMS P-T-P RB setup by the UE in CELL_PCH, URA_PCH and CELL_FACH state.
The URA update and cell update procedures may:
1>	include an update of mobility related information in the UE;
1>	cause a state transition from the CELL_FACH state to the CELL_DCH, CELL_PCH or URA_PCH states or idle mode.
The cell update procedure may also include:
-	a re-establish of AM RLC entities;
-	a re-establish of UM RLC entities;
-	a radio bearer release, radio bearer reconfiguration, transport channel reconfiguration or physical channel reconfiguration.
8.3.1.2	Initiation
A UE shall initiate the cell update procedure in the following cases:
1>	Uplink data transmission:
2>	for FDD and 1.28 Mcps TDD, if the variable H_RNTI is not set, and for 3.84 Mcps TDD and 7.68 Mcps TDD:
3>	if the UE is in URA_PCH or CELL_PCH state; and
3> if timer T320 is not running:
4>	if the UE has uplink RLC data PDU or uplink RLC control PDU on RB1 or upwards to transmit:
5>	perform cell update using the cause "uplink data transmission".
3>	else:
4>	if the variable ESTABLISHMENT_CAUSE is set:
5>	perform cell update using the cause "uplink data transmission".
1>	Paging response:
2>	if the criteria for performing cell update with the cause specified above in the current subclause are not met; and
2>	if the UE in URA_PCH or CELL_PCH state, receives a PAGING TYPE 1 message fulfilling the conditions for initiating a cell update procedure specified in subclause 8.1.2.3:
3>	perform cell update using the cause "paging response".
1>	Radio link failure:
2>	if none of the criteria for performing cell update with the causes specified above in the current subclause is met:
3>	if the UE is in CELL_DCH state and the criteria for radio link failure are met as specified in subclause 8.5.6; or
3>	if the transmission of the UE CAPABILITY INFORMATION message fails as specified in subclause 8.1.6.6; or
3>	if the UE detects PDCP Unrecoverable Error [36] in a PDCP entity:
4>	perform cell update using the cause "radio link failure".
1>	MBMS ptp RB request:
2>	if none of the criteria for performing cell update with the causes specified above in the current subclause is met; and
2>	if the UE is in URA_PCH, CELL_PCH or CELL_FACH state; and
2>	if timer T320 is not running; and
2>	if the UE should perform cell update for MBMS ptp radio bearer request as specified in subclause 8.6.9.6:
3>	perform cell update using the cause "MBMS ptp RB request".
1>	Re-entering service area:
2>	if none of the criteria for performing cell update with the causes specified above in the current subclause is met; and
2>	if the UE is in CELL_FACH or CELL_PCH state; and
2>	if the UE has been out of service area and re-enters service area before T307 or T317 expires:
3>	perform cell update using the cause "re-entering service area".
1>	RLC unrecoverable error:
2>	if none of the criteria for performing cell update with the causes specified above in the current subclause is met; and
2>	if the UE detects RLC unrecoverable error [16] in an AM RLC entity:
3>	perform cell update using the cause "RLC unrecoverable error".
1>	Cell reselection:
2>	if none of the criteria for performing cell update with the causes specified above in the current subclause is met:
3>	if the UE is in CELL_FACH or CELL_PCH state and the UE performs cell re-selection; or
3>	if the UE is in CELL_FACH state and the variable C_RNTI is empty:
4>	perform cell update using the cause "cell reselection".
1>	Periodical cell update:
2>	if none of the criteria for performing cell update with the causes specified above in the current subclause is met; and
2>	if the UE is in CELL_FACH or CELL_PCH state; and
2>	if the timer T305 expires; and
2>	if the criteria for "in service area" as specified in subclause 8.5.5.2 are fulfilled; and
2>	if periodic updating has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity":
3>	for FDD:
4>	if the variable COMMON_E_DCH_TRANSMISSION is set to FALSE:
5>	perform cell update using the cause "periodical cell update".
4>	else:
5>	restart the timer T305;
5>	and end the procedure.
3>	for 1.28 Mcps TDD and 3.84/7.68 Mcps TDD:
4>	perform cell update using the cause "periodical cell update".
1>	MBMS reception:
2>	if none of the criteria for performing cell update with the causes specified above in the current subclause is met; and
2>	if the UE is in URA_PCH, CELL_PCH or CELL_FACH state; and
2>	if the UE should perform cell update for MBMS counting as specified in subclause 8.7.4:
3>	perform cell update using the cause "MBMS reception".
1>	Transfer of application layer measurement report:
2>	if the UE is in URA_PCH, CELL_PCH or CELL_FACH state; and
2>	if the UE has received a "Container for application layer measurement reporting" which has not yet been sent:
3>	perform cell update using the cause "application layer measurement report available".
NOTE:	If the UE is not transferred to CELL_DCH after having successfully performed cell update using the cause "application layer measurement report available", the UE shall discard the application layer measurement report.
A UE in URA_PCH state shall initiate the URA update procedure in the following cases:
1>	URA reselection:
2>	if the UE detects that the current URA assigned to the UE, stored in the variable URA_IDENTITY, is not present in the list of URA identities in system information block type 2; or
2>	if the list of URA identities in system information block type 2 is empty; or
2>	if the system information block type 2 can not be found:
3>	perform URA update using the cause "change of URA".
1>	Periodic URA update:
2>	if the criteria for performing URA update with the causes as specified above in the current subclause are not met:
3>	if the timer T305 expires and if periodic updating has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity"; or
3>	if the conditions for initiating an URA update procedure specified in subclause 8.1.1.6.5 are fullfilled:
4>	perform URA update using the cause "periodic URA update".
When initiating the URA update or cell update procedure, the UE shall:
1>	if timer T320 is running:
2>	stop timer T320;
2>	if the UE has uplink RLC data PDU or uplink RLC control PDU on RB1 or upwards to transmit:
3>	perform cell update using the cause "uplink data transmission".
2>	else:
3>	if the cell update procedure is not triggered due to Paging response or Radio link failure; and
3>	if the UE should perform cell update for MBMS ptp radio bearer request as specified in subclause 8.6.9.6:
4>	perform cell update using the cause "MBMS ptp RB request".
1>	stop timer T319 if it is running;
1>	stop timer T305;
1>	for FDD and 1.28 Mcps TDD:
2>	if the UE is in CELL_FACH state; and
2>	if the IE "HS-DSCH common system information" is included in System Information Block type 5 or System Information Block type 5bis; and
2>	for 1.28 Mcps TDD, if IE "Common E-DCH system info" in System Information Block type 5; and
2>	if the UE does support HS-DSCH reception in CELL_FACH state:
3>	if variable H_RNTI is not set or variable C_RNTI is not set; or
3>	for FDD, an unrecoverable error [16] in an AM RLC entity detected:
4>	clear variable H_RNTI;
4>	clear variable C_RNTI;
4>	clear variable E_RNTI;
4>	clear any stored IEs "HARQ info";
4>	set variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to TRUE;
4>	and start receiving the HS-DSCH transport channels mapped physical channel(s) of type HS-SCCH and HS-PDSCH, by using parameters given by the IE(s) "HS-DSCH common system information" according to the procedure in subclause 8.5.37.
3>	else:
4>	receive the HS-DSCH transport channels mapped physical channel(s) of type HS-SCCH and HS-PDSCH, by using parameters given by the IE(s) "HS-DSCH common system information" according to the procedure in subclause 8.5.36;
4>	determine the value for the HSPA_RNTI_STORED_PCH variable and take the corresponding actions as described in subclause 8.5.56;
4>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
4>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
4>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
4>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
5>	configure the Enhanced Uplink in CELL_FACH state and Idle mode as specified in subclause 8.5.45 for FDD and 8.5.45a for 1.28 Mcps TDD.
1>	if the UE is in CELL_DCH state:
2>	in the variable RB_TIMER_INDICATOR, set the IE "T314 expired" and the IE "T315 expired" to FALSE;
2>	if the stored values of the timer T314 and timer T315 are both equal to zero; or
2>	if the stored value of the timer T314 is equal to zero and there are no radio bearers associated with any radio access bearers for which in the variable ESTABLISHED_RABS the value of the IE "Re-establishment timer" is set to "useT315" and signalling connection exists only to the CS domain:
3>	release all its radio resources;
3>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
3>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
3>	clear the variable ESTABLISHED_RABS;
3>	enter idle mode;
3>	perform other actions when entering idle mode from connected mode as specified in subclause 8.5.2;
3>	and the procedure ends.
2>	if the stored value of the timer T314 is equal to zero:
3>	release all radio bearers, associated with any radio access bearers for which in the variable ESTABLISHED_RABS the value of the IE "Re-establishment timer" is set to "useT314";
3>	in the variable RB_TIMER_INDICATOR set the IE "T314 expired" to TRUE;
3>	if all radio access bearers associated with a CN domain are released:
4>	release the signalling connection for that CN domain;
4>	remove the signalling connection for that CN domain from the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
4>	indicate release (abort) of the signalling connection to upper layers.
2>	if the stored value of the timer T315 is equal to zero:
3>	release all radio bearers associated with any radio access bearers for which in the variable ESTABLISHED_RABS the value of the IE "Re-establishment timer" is set to "useT315";
3>	in the variable RB_TIMER_INDICATOR set the IE "T315 expired" to TRUE;
3>	if all radio access bearers associated with a CN domain are released:
4>	release the signalling connection for that CN domain;
4>	remove the signalling connection for that CN domain from the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
4>	indicate release (abort) of the signalling connection to upper layers.
2>	if the stored value of the timer T314 is greater than zero:
3>	if there are radio bearers associated with any radio access bearers for which in the variable ESTABLISHED_RABS the value of the IE "Re-establishment timer" is set to "useT314":
4>	start timer T314.
3>	if there are no radio bearers associated with any radio access bearers for which in the variable ESTABLISHED_RABS the value of the IE "Re-establishment timer" is set to "useT314" or "useT315" and the signalling connection exists to the CS domain:
4>	start timer T314.
2>	if the stored value of the timer T315 is greater than zero:
3>	if there are radio bearers associated with any radio access bearers for which in the variable ESTABLISHED_RABS the value of the IE "Re-establishment timer" is set to "useT315"; or
3>	if the signalling connection exists to the PS domain:
4>	start timer T315.
2>	for the released radio bearer(s):
3>	delete the information about the radio bearer from the variable ESTABLISHED_RABS;
3>	when all radio bearers belonging to the same radio access bearer have been released:
4>	indicate local end release of the radio access bearer to upper layers using the CN domain identity together with the RAB identity stored in the variable ESTABLISHED_RABS;
4>	delete all information about the radio access bearer from the variable ESTABLISHED_RABS.
2>	if the variable E_DCH_TRANSMISSION is set to TRUE:
3>	set the variable E_DCH_TRANSMISSION to FALSE;
3>	stop any E-AGCH and E-HICH reception procedures;
3>	for FDD, stop any E-RGCH reception procedures;
3>	for FDD, stop any E-DPCCH and E-DPDCH transmission procedures;
3>	for 1.28 Mcps TDD, stop any E-PUCH transmission procedure;
3>	clear the variable E_RNTI;
3>	act as if the IE "MAC-es/e reset indicator" was received and set to TRUE;
3>	release all E-DCH HARQ resources;
3>	no longer consider any radio link to be the serving E-DCH radio link.
2>	move to CELL_FACH state;
2>	select a suitable UTRA cell on the current frequency according to [4];
2>	clear variable E_RNTI and:
3>	determine the value for the HSPA_RNTI_STORED_PCH variable and take the corresponding actions as described in subclause 8.5.56;
3>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
3>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46.
3>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
2>	for 3.84 Mcps TDD and 7.68Mcps TDD; or
2>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_FACH state; or
2>	if the IE "HS-DSCH common system information" is not included in System Information Block type 5 or System Information Block type 5bis; or
2>	for 1.28 Mcps TDD, if the IE "Common E-DCH system info" is not included in System Information Block type 5:
3>	select PRACH according to subclause 8.5.17;
3>	select Secondary CCPCH according to subclause 8.5.19;
3>	use the transport format set given in system information as specified in subclause 8.6.5.1;
3>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
2>	else:
3>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
4>	configure the Enhanced Uplink in CELL_FACH state and Idle mode as specified in subclause 8.5.45.
3>	else:
4>	select PRACH according to subclause 8.5.17 and:
5>	use for the PRACH the transport format set given in system information as specified in subclause 8.6.5.1.
3>	clear variable H_RNTI;
3>	clear any stored IEs "HARQ info";
3>	reset the MAC-ehs entity [15];
3>	set variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to TRUE;
3>	and start receiving the HS-DSCH according to the procedure in subclause 8.5.37.
2>	for FDD, if the IE "Uplink CLTD info FDD" is stored in the UE:
3>	determine the value for the UPLINK_CLTD_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.69.
2>	for FDD, if the IE "Uplink OLTD info FDD" is stored in the UE:
3>	determine the value for the UPLINK_OLTD_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.70.
2>	set the variable ORDERED_RECONFIGURATION to FALSE.
1>	set the variables PROTOCOL_ERROR_INDICATOR, FAILURE_INDICATOR, UNSUPPORTED_CONFIGURATION and INVALID_CONFIGURATION to FALSE;
1>	set the variable CELL_UPDATE_STARTED to TRUE;
1>	if any IEs releated to HS-DSCHare stored in the UE:
2>	clear any stored IE "Downlink HS-PDSCH information";
2>	clear any stored IE "Downlink Secondary Cell Info FDD";
2>	clear all the entries from the variable TARGET_CELL_PRECONFIGURATION;
2>	for 1.28Mcps TDD, clear the IE "HS-PDSCH Midamble Configuration" and the IE "HS-SCCH Set Configuration" in the IE "DL Multi Carrier Information";
2>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25;
2>	determine the value for the SECONDARY_CELL_HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.51.
1>	if any IEs related to E-DCH are stored in the UE:
2>	clear any stored IE "E-DCH info";
2>	for FDD, clear any stored IE "Secondary serving E-DCH cell info" and IE "Secondary E-DCH info common";
2>	for 1.28Mcps TDD, clear any stored IE "Multi-carrier E-DCH Info for LCR TDD";
2>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
1>	if any of the IEs "DTX-DRX timing information" or "DTX-DRX information" are stored in the UE:
2>	determine the value for the DTX_DRX_STATUS variable and take the corresponding actions as described in subclause 8.5.34.
1>	if the IE "HS-SCCH less information" is stored in the UE:
2>	determine the value for the HS_SCCH_LESS_STATUS variable and take the corresponding actions as described in subclause 8.5.35.
1>	if any IEs related to MIMO are stored in the UE:
2>	determine the value for the MIMO_STATUS variable and take the corresponding actions as described in subclause 8.5.33.
1>	if the IE "MIMO mode with four transmit antennas" is stored in the UE:
2>	determine the value for the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable and take the corresponding actions as described in subclause 8.5.79.
1>	for 1.28 Mcps TDD, if the IEs "Control Channel DRX Information" is stored in the UE:
2>	determine the value for the CONTROL_CHANNEL_DRX_STATUS variable and take the corresponding actions as described in subclause 8.5.53.
1>	for 1.28 Mcps TDD, if the IE "SPS information" is stored in the UE:
2>	determine the value for the E_DCH_SPS_STATUS variable and take the corresponding actions as described in subclause 8.5.54;
2>	determine the value for the HS_DSCH_SPS_STATUS variable and take the corresponding actions as described in subclause 8.5.55.
1>	for 1.28 Mcps TDD, if the IE "MU-MIMO info" is stored in the UE:
2>	determine the value for the MU_MIMO_STATUS variable and take the corresponding actions as described in subclause 8.5.61.
1>	if the UE is not already in CELL_FACH state:
2>	move to CELL_FACH state;
2>	determine the value for the HSPA_RNTI_STORED_PCH variable and take the corresponding actions as described in subclause 8.5.56;
2>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
2>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
2>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
2>	for 1.28 Mcps TDD, determine the value for the MU_MIMO_STATUS variable and take the corresponding actions as described in subclause 8.5.61;
2>	for 3.84 Mcps TDD and 7.68 Mcps TDD; or
2>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_FACH state; or
2>	if the IE "HS-DSCH common system information" is not included in System Information Block type 5 or System Information Block type 5bis; or
2>	for 1.28 Mcps TDD, if the IE "Common E-DCH system info" is not included in System Information Block type 5:
3>	select PRACH according to subclause 8.5.17;
3>	select Secondary CCPCH according to subclause 8.5.19;
3>	use the transport format set given in system information as specified in subclause 8.6.5.1;
3>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
2>	else:
3>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
4>	configure the Enhanced Uplink in CELL_FACH state and Idle mode as specified in subclause 8.5.45.
3>	else:
4>	select PRACH according to subclause 8.5.17 and:
5>	use for the PRACH the transport format set given in system information as specified in subclause 8.6.5.1.
3>	if variable H_RNTI is not set or variable C_RNTI is not set:
4>	clear variable C_RNTI;
4>	clear variable H_RNTI;
4>	clear any stored IEs "HARQ info";
4>	set variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to TRUE;
4>	and start receiving the HS-DSCH according to the procedure in subclause 8.5.37.
3>	else:
4>	receive the HS-DSCH according to the procedure in subclause 8.5.36.
1>	if the UE performs cell re-selection in CELL_PCH or CELL_FACH state; or
1>	if the UE performs cell re-selection in URA_PCH state and the  URA_PCH_SEAMLESS_TRANSITION_RNTI_HANDLING_MODE variable is set to TRUE; or
1>	if the UE performs URA re-selection in URA_PCH; or
1>	if the UE re-enters service area and the UE supports HS-DSCH reception in CELL_FACH state and System Information Block type 5 or System Information Block type 5bis includes IE "HS-DSCH common system information", and for 1.28 Mcps TDD, System Information Block type 5 includes IE "Common E-DCH system info":
2>	clear the variable C_RNTI; and
2>	stop using that C_RNTI just cleared from the variable C_RNTI in MAC;
2>	for FDD and 1.28 Mcps TDD, if the variable H_RNTI is set:
3>	clear the variable H_RNTI; and
3>	stop using that H_RNTI just cleared from the variable H_RNTI in MAC;
3>	clear any stored IEs "HARQ info";
2>	for FDD and 1.28 Mcps TDD, if the variable E_RNTI is set:
3>	clear the variable E_RNTI.
2>	determine the value for the HSPA_RNTI_STORED_PCH variable and take the corresponding actions as described in subclause 8.5.56;
2>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
2>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
2>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
2>	for FDD and 1.28 Mcps TDD, if the UE does support HS-DSCH reception in CELL_FACH state and IE "HS-DSCH common system information" is included in System Information Block type 5 or System Information Block type 5bis:
3>	reset the MAC-ehs entity [15];
3>	set variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to TRUE;
3>	and start receiving the HS-DSCH according to the procedure in subclause 8.5.37.
2>	else:
3>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
1>	set CFN in relation to SFN of current cell according to subclause 8.5.15;
1>	in case of a cell update procedure:
2>	set the contents of the CELL UPDATE message according to subclause 8.3.1.3;
2>	submit the CELL UPDATE message for transmission on the uplink CCCH.
1>	in case of a URA update procedure:
2>	set the contents of the URA UPDATE message according to subclause 8.3.1.3;
2>	submit the URA UPDATE message for transmission on the uplink CCCH.
1>	set counter V302 to 1;
1>	start timer T302 when the MAC layer indicates success or failure in transmitting the message.
8.3.1.3	CELL UPDATE / URA UPDATE message contents to set
In case of cell update procedure the UE shall transmit a CELL UPDATE message.
In case of URA update procedure the UE shall transmit a URA UPDATE message.
The UE shall set the IEs in the CELL UPDATE message as follows:
1>	for FDD, if the UE supports the IE "Cell Update message with optimised encoding" and this IE is included in system information block type 5 or 5bis:
2>	use "CELL UPDATE FDD" defined in subclause 10.2.7a to signal IEs;
1>	else:
2>	use "CELL UPDATE" defined in subclause 10.2.7 to signal IEs;
1>	set the IE "Cell update cause" corresponding to the cause specified in subclause 8.3.1.2 that is valid when the CELL UPDATE message is submitted to lower layers for transmission;
NOTE:	During the time period starting from when a cell update procedure is initiated by the UE until when the procedure ends, additional CELL UPDATE messages may be transmitted by the UE with different causes.
1>	if the IE "Cell update cause" is set to "uplink data transmission" and if an event triggered traffic volume measurement has been configured:
2>	if the TCTV is larger than the threshold in the IE "Reporting threshold" for a traffic volume measurement stored in the MEASUREMENT_IDENTITY variable and that traffic volume measurement has "measurement identity" equal to 4, "Traffic volume event identity" equal to "4a", "Measurement validity" equal to "all states" or "all states except CELL_DCH":
3>	set the IE "Traffic volume indicator" to TRUE.
1>	set the IE "U-RNTI" to the value of the variable U_RNTI;
1>	if the value of the variable PROTOCOL_ERROR_INDICATOR is TRUE:
2>	include the IE "RRC transaction identifier"; and
3>	set it to the value of "RRC transaction identifier" in the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	include and set the IE "failure cause" to the cause value "protocol error";
2>	set the IE "Protocol error information" set to the value of the variable PROTOCOL_ERROR_INFORMATION.
1>	if the value of the variable FAILURE_INDICATOR is TRUE:
2>	include the IE "RRC transaction identifier"; and
3>	set it to the value of "RRC transaction identifier" in the entry for the CELL UPDATE CONFIRM message in the table "Accepted transactions" in the variable TRANSACTIONS.
2>	include and set the IE "failure cause" to the value of the variable FAILURE_CAUSE.
1>	if the variable "LATEST_CONFIGURED_CN_DOMAIN" has been initialised:
2>	for each CN domain for which an entry exists in the variable ESTABLISHED_RABS or which is indicated in the variable LATEST CONFIGURED CN DOMAIN:
3>	include the START value calculated according to subclause 8.5.9.
1>	else:
2>	include the START value for either the CS domain or the PS domain, calculated according to subclause 8.5.9.
1>	if an unrecoverable error [16] in any of the AM RLC entities for the signalling radio bearers RB2, RB3 or RB4 is detected:
2>	set the IE "AM_RLC error indication (RB2, RB3 or RB4)" to TRUE;
2>	set the variable AM_RLC_ERROR_PENDING_RB234 to TRUE.
1>	otherwise:
2>	if the value of the variable AM_RLC_ERROR_PENDING_RB234 is TRUE:
3>	set the IE "AM_RLC error indication (RB2, RB3 or RB4)" to TRUE.
2>	otherwise:
3>	set the IE "AM_RLC error indication (RB2, RB3 or RB4)" to FALSE.
1>	if an unrecoverable error [16] in any of the AM RLC entities for the RB5 or upward is detected:
2>	set the IE "AM_RLC error indication (RB>4)" to TRUE;
2>	set the variable AM_RLC_ERROR_PENDING_RB5_AND_UP to TRUE.
1>	otherwise:
2>	if the value of the variable AM_RLC_ERROR_PENDING_RB5_AND_UP is TRUE:
3>	set the IE "AM_RLC error indication (RB>4)" to TRUE.
2>	otherwise:
3>	set the IE "AM_RLC error indication (RB>4)" to FALSE.
1>	set the IE "RB Timer indicator" to the value of the variable RB_TIMER_INDICATOR;
1>	if the variable ESTABLISHMENT_CAUSE is initialised:
2>	include the IE "Establishment cause" and set it to the value of the variable ESTABLISHMENT_CAUSE;
2>	if the value of the variable ESTABLISHMENT_CAUSE is set to "Originating Conversational Call" or "Emergency Call" and a CS call is being initiated:
3>	set the value of the IE "CS Call type" to "speech",  "video" or "other" according to the call being initiated.
1>	if the variable ORDERED_RECONFIGURATION is set to TRUE:
2>	include the IE "Reconfiguration Status Indicator" and set it to TRUE.
1>	if the IE "Cell update cause" is set to "radio link failure" or "RLC Unrecoverable error" and the UE has submitted a reconfiguration response message to RLC and the UE has not received the RLC acknowledgement for the response message:
2>	include the IE "Reconfiguration Status Indicator" and set it to TRUE.
1>	if the UE supports HS-DSCH reception in CELL_FACH state:
2>	include the IE "HS-PDSCH in CELL_FACH" and set it to TRUE.
1>	if the UE supports Enhanced Uplink in CELL_FACH state and Idle mode:
2>	include the IE "Support of common E-DCH" and set it to TRUE.
1>	if the UE supports reporting of the IE "Security Revert Status Indicator":
2>	if the UE has reverted back old security configuration by aborting ongoing security mode command as cell update procedure was initiated:
3>	include the IE "Security Revert Status Indicator" and set it to "Reverted Back".
2>	otherwise:
3>	include the IE "Security Revert Status Indicator" and set it to "Normal Operation".
1>	if the UE supports Two DRX schemes in URA_PCH and CELL_PCH
2>	include the IE "Support for Two DRX schemes in URA_PCH and CELL_PCH" and set it to TRUE.
NOTE:	In 1.28 Mcps TDD, UE supporting HS-DSCH reception in CELL_FACH state always supports Enhanced Uplink in CELL_FACH state and Idle mode, and vice versa.
1>	if the UE supports MAC-i/is:
2>	include the IE "Support of MAC-i/is" and set it to TRUE.
1>	if the UE supports HS-DSCH DRX operation in CELL_FACH state:
2>	include the IE "Support of HS-DSCH DRX operation" and set it to TRUE.
1>	if the UE supports SPS operation:
2>	include the IE "Support of SPS operation" and set it to TRUE.
1>	if the UE supports control channel DRX operation:
2>	include the IE "Support of control channel DRX operation" and set it to TRUE.
1>	if the UE performs cell update for MBMS ptp radio bearer request as specified in subclause 8.6.9.6; and
1>	if one or more of the MBMS services for which the UE initiates the ptp radio bearer request concerns an MBMS Selected Service:
2>	for each MBMS Selected Service that is indicated on MCCH and for which the UE initiates ptp radio bearer request:
3>	order the MBMS Selected Services such that those selected with a higher priority are listed in the IE "MBMS Selected Services Short" before those selected with a lower priority;
3>	include the IE "MBMS Selected Service ID" within the IE "MBMS Selected Services Short" and set it to a value in accordance with subclause 8.6.9.8.
1>	otherwise, if the UE performs cell update for MBMS counting as specified in subclause 8.7.4; and
1>	if one or more of the MBMS services for which the UE initiates the counting response concerns an MBMS Selected Service:
2>	for each MBMS Selected Service that is indicated on MCCH and for which the UE initiates the counting response:
3>	order the MBMS Selected Services such that those selected with a higher priority are listed in the IE "MBMS Selected Services Short" before those selected with a lower priority;
3>	include the IE "MBMS Selected Service ID" within the IE "MBMS Selected Services Short" and set it to a value in accordance with subclause 8.6.9.8.
1>	if the UE included one or more "MBMS Selected Service ID" IEs:
2>	include the IE "MBMS Modification Period identity" and set it to a value in accordance with subclause 8.5.29.
1>	if, according to [4], the High-mobility state is applicable and it has been detected by the UE:
2>	include the IE "UE Mobility State Indicator" and set it to the "High-MobilityDetected" value.
1>	if an IE "Logged Measurement Info-FDD" or "Logged Measurement Info-TDD" in variable LOGGED_MEAS_REPORT_VARIABLE is present and registered PLMN is present in the IE "PLMN Identity List" stored in variable LOGGED_MEAS_REPORT_VARIABLE:
2>	include IE "Logged Meas Available".
1>	if an IE "Logged ANR Report Info" in variable LOG_ ANR_REPORT_VARIABLE is present and the registered PLMN is the same as one of the PLMNs in the IE "PLMN Identity" or IE "Equivalent PLMN Identity List" stored in variable LOG_ ANR_REPORT_VARIABLE:
2>	include IE "ANR Logging Results Available".
The UE shall:
1>	if the UE capability has changed compared to the value stored in the variable UE_CAPABILITY_TRANSFERRED and the variable RNC_CAPABILITY_CHANGE_SUPPORT is set to TRUE:
2>	include the IE "Capability change indicator".
NOTE:	Transmitting the IE "Capability change indicator" does not trigger any actual changed behaviour on the part of the UE. It serves only to inform the network that the UE is requesting an opportunity to send a UE CAPABILITY INFORMATION message.
If the UE needs to include the IE "Failure Cause" and the Cell Update message size exceeds the used transport format size, then the UE may omit the IE "Support for Two DRX schemes in URA_PCH and CELL_PCH" (i.e. omit the cellUpdate-r3-add-ext), the UE may omit IE "MBMS Selected Services" (i.e. omit the mbmsSelectedServices) and the UE may omit the Rel-10 non-critical extensions (i.e. omit the cellUpdate-va40ext).
If the UE does not need to include the IE "Failure Cause" and the Cell Update message size exceeds the used transport format size, then the UE may omit the IE "Support for Two DRX schemes in URA_PCH and CELL_PCH" (i.e. omit the cellUpdate-r3-add-ext), and the UE may omit IE "MBMS Selected Services" (i.e. omit the mbmsSelectedServices) to be able to include the Rel-10 non-critical extensions (i.e. include the cellUpdate-va40ext), or to be able to include IE "Measured results on RACH". The UE should first omit the IEs before applying the prioritization rules in section 8.5.23 to include the IE "Measured results on RACH".
The UE shall set the IEs in the URA UPDATE message as follows:
1>	set the IE "U-RNTI" to the value of the variable U_RNTI;
1>	set the IE "URA update cause" corresponding to which cause as specified in subclause 8.3.1.2 that is valid when the URA UPDATE message is submitted to lower layers for transmission;
NOTE:	During the time period starting from when a URA update procedure is initiated by the UE until when the procedure ends, additional URA UPDATE messages may be transmitted by the UE with different causes, depending on which causes are valid for the respective URA UPDATE message.
1>	if the value of the variable PROTOCOL_ERROR_INDICATOR is TRUE:
2		>	include the IE "RRC transaction identifier"; and
3>	set it to the value of "RRC transaction identifier" in the entry for the URA UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	set the IE "Protocol error indicator" to TRUE;
2>	include the IE "Protocol error information" set to the value of the variable PROTOCOL_ERROR_INFORMATION.
1>	if the value of the variable PROTOCOL_ERROR_INDICATOR is FALSE:
2>	if the value of the variable INVALID_CONFIGURATION is TRUE:
3>	include the IE "RRC transaction identifier"; and
3>	set it to the value of "RRC transaction identifier" in the entry for the URA UPDATE CONFIRM message in the table "Accepted transactions" in the variable TRANSACTIONS;
3>	set the IE "Protocol error indicator" to TRUE;
3>	include the IE "Protocol error information" set to "Information element value not comprehended".
2>	if the value of the variable INVALID_CONFIGURATION is FALSE:
3>	set the IE "Protocol error indicator" to FALSE.
1>	if the UE supports HS-DSCH reception in CELL_FACH state:
2>	include the IE "HS-PDSCH in CELL_FACH" and set it to TRUE.
1>	if the UE supports HS-DSCH reception CELL_PCH and URA_PCH state:
2>	include the IE "HS-PDSCH in CELL_PCH and URA_PCH" and set it to TRUE.
1>	if the UE supports Enhanced Uplink in CELL_FACH state and Idle mode:
2>	include the IE "Support of common E-DCH" and set it to TRUE.
1>	if an IE "Logged Measurement Info-FDD" or "Logged Measurement Info-TDD" in variable LOGGED_MEAS_REPORT_VARIABLE is present and registered PLMN is present in the IE "PLMN Identity List" stored in variable LOGGED_MEAS_REPORT_VARIABLE:
2>	include IE "Logged Meas Available".
1>	if IE "Logged ANR report" in variable LOG_ANR_REPORT_VARIABLE is present and registered PLMN is the same as one of the PLMNs in the IE "PLMN Identity" or IE "Equivalent PLMN Identity List" stored in variable LOG_ ANR_REPORT_VARIABLE:
2>	include IE "ANR Logging Results Available".
8.3.1.4	T305 expiry and the UE detects "out of service area"
When the T305 expires and the UE detects that it is "out of service area" as specified in subclause 8.5.5.1, the UE shall
1>	start timer T307;
1>	act according to subclause 7.2.2.
8.3.1.4.1	Re-entering "in service area"
If the UE detects "in service area" according to subclause 8.5.5.2 and timer T307 or T317 is running, the UE shall:
1>	check the value of V302; and
1>	if V302 is equal to or smaller than N302:
2>	in case of a cell update procedure:
3>	set the contents of the CELL UPDATE message according to subclause 8.3.1.3;
3>	submit the CELL UPDATE message for transmission on the uplink CCCH.
2>	in case of a URA update procedure:
3>	set the contents of the URA UPDATE message according to subclause 8.3.1.3;
3>	submit the URA UPDATE message for transmission on the uplink CCCH.
2>	increment counter V302;
2>	restart timer T302 when the MAC layer indicates success or failure to transmit the message.
1>	if V302 is greater than N302:
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	in case of a cell update procedure:
3>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	in case of a URA update procedure:
3>	clear the entry for the URA UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	release all its radio resources;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	enter idle mode;
2>	perform other actions when entering idle mode from connected mode as specified in subclause 8.5.2;
2>	and the procedure ends.
8.3.1.4.2	Expiry of timer T307
When the T307 expires, the UE shall:
1>	move to idle mode;
1>	release all dedicated resources;
1>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
1>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
1>	clear the variable ESTABLISHED_RABS;
1>	perform other actions when entering idle mode from connected mode as specified in subclause 8.5.2;
1>	and the procedure ends.
8.3.1.5	Reception of an CELL UPDATE/URA UPDATE message by the UTRAN
When the UTRAN receives a CELL UPDATE/URA UPDATE message, the UTRAN should:
1>	in case the procedure was triggered by reception of a CELL UPDATE:
2>	if SRNS relocation was performed:
3>	transmit a CELL UPDATE CONFIRM message on the downlink DCCH.
2>	otherwise:
3>	update the START value for each CN domain as maintained in UTRAN (refer to subclause 8.5.9) with "START" in the IE "START list" for the CN domain as indicated by "CN domain identity" in the IE "START list";
3>	transmit a CELL UPDATE CONFIRM message on the downlink DCCH or optionally on the CCCH but only if ciphering is not required; and
3>	optionally set the IE "RLC re-establish indicator (RB2, RB3 and RB4)" and/or the IE "RLC re-establish indicator (RB5 and upwards)" to TRUE to request a RLC re-establishment in the UE, in which case the corresponding RLC entities should also be re-established in UTRAN; or
1>	in case the procedure was triggered by reception of a URA UPDATE:
2>	if SRNS relocation was performed:
3>	transmit a URA UPDATE CONFIRM message on the downlink DCCH.
2>	otherwise:
3>	transmit a URA UPDATE CONFIRM message on the downlink CCCH or DCCH.
2>	include the IE "URA identity" in the URA UPDATE CONFIRM message in a cell where multiple URA identifiers are broadcast; or
1>	initiate an RRC connection release procedure (see subclause 8.1.4) by transmitting an RRC CONNECTION RELEASE message on the downlink CCCH. In particular UTRAN should:
2>	if the CELL UPDATE message was sent because of an unrecoverable error in RB2, RB3 or RB4:
3>	initiate an RRC connection release procedure (subclause 8.1.4) by transmitting an RRC CONNECTION RELEASE message on the downlink CCCH.
1>	if the radio bearer is connected to a CS domain radio access bearer and the radio bearer uses UM RLC:
2>	the UM RLC entity should be re-established in UTRAN.
UTRAN may transmit several CELL UPDATE CONFIRM/URA UPDATE CONFIRM messages to increase the probability of proper reception of the message by the UE. In such a case, the RRC SN for these repeated messages should be the same.
8.3.1.6	Reception of the CELL UPDATE CONFIRM/URA UPDATE CONFIRM message by the UE
When the UE receives a CELL UPDATE CONFIRM/URA UPDATE CONFIRM message; and
-	if the message is received on the CCCH, and IE "U-RNTI" is present and has the same value as the variable U_RNTI; or
-	if the message is received on DCCH:
the UE may:
1>	maintain a list of the set of cells to which the UE has Radio Links if the IE "Cell ID" is present.
the UE shall:
1>	stop timer T302;
1>	set variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to FALSE;
1>	in case of a cell update procedure and the CELL UPDATE CONFIRM message:
2>	includes "RB information elements"; and/or
2>	includes "Transport channel information elements"; and/or
2>	includes "Physical channel information elements"; and
2>	if the variable ORDERED_RECONFIGURATION is set to FALSE:
3>	set the variable ORDERED_RECONFIGURATION to TRUE.
1>	act upon all received information elements as specified in subclause 8.6, unless specified otherwise in the following:
2>	if the IE "Frequency info" is included in the message:
3>	if the IE "RRC State Indicator" is set to the value "CELL_FACH":
4>	select a suitable UTRA cell according to [4] on that frequency;
4>	if the UE finds a suitable UTRA cell on that frequency:
5>	if the received CELL UPDATE CONFIRM message included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selects another cell than indicated by this IE or the received CELL UPDATE CONFIRM message did not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD):
6>	act as specified in subclause 8.3.1.12.
5>	else:
6>	for 1.28Mcps TDD, decide the working frequency according to subclause 8.6.6.1.
4>	else, if the UE can not find a suitable UTRA cell on the indicated frequency but it finds a suitable UTRA cell on another frequency:
5>	act as specified in subclause 8.3.1.12.
3>	if the IE "RRC State Indicator" is set to the value "CELL_PCH" or "URA_PCH":
4>	select a suitable UTRA cell according to [4] on that frequency;
4>	if the UE finds a suitable UTRA cell on that frequency:
5>	if the received CELL UPDATE CONFIRM message included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE in CELL_PCH state selects another cell than indicated by this IE or the received CELL UPDATE CONFIRM message did not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD); or
5>	if the received CELL UPDATE CONFIRM message included the IE "URA identity", and the UE in URA_PCH state selects cell being part of another URA than indicated by this IE or the received CELL UPDATE CONFIRM message did not include the IE "URA identity":
6>	act as specified in subclause 8.3.1.12.
4>	else, if the UE can not find a suitable UTRA cell on the indicated frequency but it finds a suitable UTRA cell on another frequency:
5>	act as specified in subclause 8.3.1.12.
3>	if the IE "RRC State Indicator" is set to the value "CELL_DCH":
4>	act on the IE "Frequency info" as specified in subclause 8.6.6.1.
2>	if the IE "RRC State Indicator" is set to the value "CELL_PCH" or "URA_PCH":
3>	if the IE "Wait time"<> 0 is included in the message and the UE supports timer T320:
4>	start timer T320 with value set to the time stated in the IE "wait time".
2>	use the transport channel(s) applicable for the physical channel types that is used; and
2>	if the IE "TFS" is neither included nor previously stored in the UE for that transport channel(s):
3>	use the TFS given in system information.
2>	if none of the TFS stored is compatible with the physical channel:
3>	delete the stored TFS;
3>	use the TFS given in system information.
2>	if the IE "RLC re-establish indicator (RB2, RB3 and RB4)" in the CELL UPDATE CONFIRM message is set to TRUE:
3>	re-establish the RLC entities for signalling radio bearer RB2, signalling radio bearer RB3 and signalling radio bearer RB4 (if established);
3>	clear all entries in the table "Processed transactions" in the variable TRANSACTIONS;
3>	if the value of the IE "Status" in the variable CIPHERING_STATUS of the CN domain stored in the variable LATEST_CONFIGURED_CN_DOMAIN is set to "Started":
4>	set the HFN component of the respective COUNT-C values for AM RLC entities with RB identity 2,RB identity 3 and RB identity 4 (if established) equal to the START value included in the latest transmitted CELL UPDATE message for the CN domain stored in the variable LATEST_CONFIGURED_CN_DOMAIN.
NOTE:	UTRAN should not send a CELL UPDATE CONFIRM message with a target state CELL_PCH or URA_PCH, and including C-RNTI, and setting the IE "RLC re-establish indicator (RB2, RB3 and RB4)" to TRUE, otherwise the UE behaviour is not specified.
2>	if the IE "RLC re-establish indicator (RB5 and upwards)" in the CELL UPDATE CONFIRM message is set to TRUE:
3>	for radio bearers with RB identity 5 and upwards:
4>	re-establish the AM RLC entities;
4>	if the value of the IE "Status" in the variable CIPHERING_STATUS of the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS is set to "Started":
5>	set the HFN component of the respective COUNT-C values for AM RLC entities equal to the START value included in this CELL UPDATE message for the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS.
NOTE:	UE actions, in case IE "Downlink counter synchronisation info" is included and either IE "RLC re-establish indicator (RB2, RB3 and RB4)" or IE "RLC re-establish indicator (RB5 and upwards)" are set to TRUE, are not defined.
1>	if the CELL UPDATE CONFIRM / URA UPDATE CONFIRM message contained the IE "Ciphering mode info" or contained the IE "Integrity protection mode info":
2>	set the IE "Status" in the variable SECURITY_MODIFICATION for all the CN domains in the variable SECURITY_MODIFICATION to "Affected".
1>	if the variable ESTABLISHMENT_CAUSE is set:
2>	clear the variable ESTABLISHMENT_CAUSE.
1>	enter a state according to subclause 8.6.3.3 applied on the CELL UPDATE CONFIRM / URA UPDATE CONFIRM message.
If the UE after state transition enters CELL_DCH, CELL_FACH, CELL_PCH or URA_PCH state, the UE shall, after state transition:
1>	determine the value for the HSPA_RNTI_STORED_PCH variable and take the corresponding actions as described in subclause 8.5.56;
1>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46.
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
1>	for 1.28 Mcps TDD, determine the value for the MU_MIMO_STATUS variable and take the corresponding actions as described in subclause 8.5.61;
1>	for 1.28 Mcps TDD, if the UE supports the non-rectangular resource allocation, the UE shall:
2>	determine the value for the NON_RECTANGULAR_ALLOCATION STATUS variable and take the corresponding actions as described in subclause 8.5.82.
1>	determine the value for the HS_SCCH_DRX_CELL_FACH_STATUS variable and take the corresponding actions as described in subclause 8.5.88.
If the UE after state transition enters CELL_DCH state, it shall:
1>	perform the physical layer synchronisation procedure A as specified in [29] (FDD only);
1>	not prohibit periodical status transmission in RLC;
1>	if the IE "Default DPCH Offset Value" is not included:
2>	the UE behaviour is not specified.
If the UE after state transition remains in CELL_FACH state, it shall
1>	determine the value for the HS_SCCH_DRX_CELL_FACH_STATUS variable and take the corresponding actions as described in subclause 8.5.88;
1>	start the timer T305 using its initial value if timer T305 is not running and periodical cell update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity";
1>	if variable READY_FOR_COMMON_EDCH is set to TRUE:
2>	configure the Enhanced Uplink in CELL_FACH state and Idle mode as specified in subclause 8.5.45 for FDD and 8.5.45a for 1.28 Mcps TDD.
1>	else:
2>	select PRACH according to subclause 8.5.17;
1>	for 3.84 Mcps TDD and 7.68 Mcps TDD; or
1>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_FACH state; or
1>	if the IE "HS-DSCH common system information" is not included in System Information Block type 5 or System Information Block type 5bis; or
1>	for 1.28 Mcps TDD, if the IE "Common E-DCH system info" is not included in System Information Block type 5:
2>	select Secondary CCPCH according to subclause 8.5.19;
2>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
1>	else:
2>	For FDD, if the RBs have the multiplexing option with transport channel type "HS-DSCH" for the DL and transport channel type "RACH" in the UL; and
2>	if the UE does not supports E-DCH transmission in CELL_FACH state and Idle mode or the IE "Common E-DCH system info" is not included system information block type 5 or 5bis; and
2>	if variable H_RNTI and variable C_RNTI are set:
3>	start to receive HS-DSCH according to the procedure in subclause 8.5.36.
2>	else:
3>	if the RBs have the multiplexing option with transport channel type "HS-DSCH" for the DL and transport channel type "E-DCH" in the UL; and
3>	if variable READY_FOR_COMMON_EDCH is set to TRUE; and
3>	if variable H_RNTI and variable C_RNTI and variable E_RNTI are set: 
4>	start to receive HS-DSCH according to the procedure in subclause 8.5.36.
3>	else:
4>	clear variable C_RNTI and delete any stored C-RNTI value;
4>	clear variable H_RNTI and delete any stored H-RNTI value;
4>	clear variable E_RNTI and delete any stored E-RNTI value;
4>	clear any stored IEs "HARQ info";
4>	set the variable INVALID_CONFIGURATION to TRUE.
1>	not prohibit periodical status transmission in RLC;
1>	if the IE "UTRAN DRX cycle length coefficient" is included in the same message:
2>	ignore that IE and stop using DRX.
If the UE after state transition enters URA_PCH or CELL_PCH state, it shall:
1>	if the UE enters URA_PCH state:
2>	if the UE supports HS-DSCH reception in CELL_PCH and URA_PCH state and the IE "HS-DSCH paging system information" is included in System Information Block type 5 or System Information Block type 5bis:
3>	clear any stored IE "HARQ Info";
3>	reset the MAC-ehs entity [15];
3>	reset the MAC-i/is entity [15].
1>	if the UE enters CELL_PCH state:
2>	if the UE supports E-DCH transmission in CELL_FACH state and Idle mode and the IE "Common E-DCH system info" is included in system information block type 5 or 5bis:
3>	if variable H_RNTI or variable C_RNTI or variable E_RNTI is not set:
4>	clear variable C_RNTI and delete any stored C-RNTI value;
4>	clear variable H_RNTI and delete any stored H-RNTI value;
4>	clear variable E_RNTI and delete any stored E-RNTI value;
4>	clear any stored IE "HARQ Info";
4>	reset the MAC-ehs entity [15];
4>	reset the MAC-i/is entity [15].
1>	prohibit periodical status transmission in RLC;
1>	for 3.84 Mcps TDD and 7.68 Mcps TDD; or
1>	for FDD and 1.28 Mcps TDD, if the variable HSPA_RNTI_STORED_PCH is set to FALSE and the variable READY_FOR_COMMON_EDCH is set to FALSE:
2>	clear the variable C_RNTI;
2>	stop using that C_RNTI just cleared from the variable C_RNTI in MAC.
1>	start the timer T305 using its initial value if timer T305 is not running and periodical update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity";
1>	for 3.84 Mcps TDD and 7.68 Mcps TDD; or
1>	for FDD and 1.28 Mcps TDD, if the UE does not support HS-DSCH reception in CELL_PCH and URA_PCH state; or
1>	if the IE "HS-DSCH paging system information" is not included in System Information Block type 5 or System Information Block type 5bis:
2>	select Secondary CCPCH according to subclause 8.5.19;
2>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
1>	else:
2>	if the UE is in CELL_PCH:
3>	if IE "New C-RNTI" is not included:
4>	clear the variable C_RNTI;
4>	clear the variable H_RNTI;
4>	clear any stored IEs "HARQ info";
4>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
4>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75.
2>	if the UE enters CELL_PCH state and the variable HSPA_RNTI_STORED_PCH is set to TRUE:
3>	select Secondary CCPCH according to subclause 8.5.19;
3>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
2>	else:
3>	for FDD; or
3>	for 1.28 Mcps TDD,	if both variable H_RNTI and variable C_RNTI are set:
4>	monitor its paging occasions on the selected PICH determined according to subclauses 8.6.3.1a, 8.6.3.2 and 8.5.39 and receive PCCH on the HS-DSCH mapped on the HS-PDSCH, or DCCH and DTCH mapped on the HS-PDSCH and the associated HS-SCCH selected by the UE according to the procedures in subclause 8.5.40 for FDD and 8.5.40a for 1.28 Mcps TDD.
1>	if the IE "UTRAN DRX cycle length coefficient" is included in the same message:
2>	use the values in the IE "UTRAN DRX Cycle length coefficient" for calculating Paging Occasion and PICH Monitoring Occasion as specified in subclause 8.6.3.2.
NOTE:	In the case of a cell update procedure during an ongoing reconfiguration procedure moving the UE into CELL_PCH/URA_PCH then the value of the IE "UTRAN DRX Cycle length coefficient" sent in the CELL UPDATE CONFIRM message should be the same as the value sent in the reconfiguration message.
1>	if the IE "UTRAN DRX cycle length coefficient" is not included in the same message:
2>	set the variable INVALID_CONFIGURATION to TRUE.
If the UE after the state transition remains in CELL_FACH state; and
1>	the contents of the variable C_RNTI are empty:
it shall check the value of V302; and:
1>	if V302 is equal to or smaller than N302:
2>	if, caused by the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message:
3>	the IE "Reconfiguration" in the variable CIPHERING_STATUS is set to TRUE; and/or
3>	the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO is set to TRUE:
4>	abort the ongoing integrity and/or ciphering reconfiguration;
4>	if the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message contained the IE "Ciphering mode info":
5>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
5>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
4>	if the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message contained the IE "Integrity protection mode info":
5>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
5>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
2>	in case of a URA update procedure:
3>	stop the URA update procedure;
3>	clear any entry for the URA UPDATE CONFIRM message in the table "Accepted transactions" in the variable TRANSACTIONS; and
3>	continue with a cell update procedure.
2>	set the contents of the CELL UPDATE message according to subclause 8.3.1.3, except for the IE "Cell update cause" which shall be set to "cell reselection";
2>	submit the CELL UPDATE message for transmission on the uplink CCCH;
2>	increment counter V302;
2>	restart timer T302 when the MAC layer indicates success or failure to transmit the message.
1>	if V302 is greater than N302:
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	in case of a cell update procedure:
3>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	in case of a URA update procedure:
3>	clear the entry for the URA UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	release all its radio resources;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	enter idle mode;
2>	other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2;
2>	and the procedure ends.
If the UE after the state transition remains in CELL_FACH state; and
-	a C-RNTI is stored in the variable C_RNTI;
or
-	the UE after the state transition moves to another state than the CELL_FACH state:
the UE shall:
1>	in case cell reselection interrupted an ongoing cell update procedure and a CELL UPDATE CONFIRM/URA UPDATE CONFIRM was received with the IE "Downlink counter synchronisation info" present and the response to which was not submitted to the lower layers due to the cell re-selection:
2>	include the IE "START list" in the response message transmitted according to subclause 8.3.1.7;
2>	if the CELL UPDATE CONFIRM/URA UPDATE CONFIRM, the response to which was not delivered to the lower layers, due to the cell re-selection, included the IE "RB with PDCP information list":
3>	include the IE "RB with PDCP information list" in the response message transmitted according to subclause 8.3.1.7.
1>	in case of a cell update procedure:
2>	set the IE "RRC transaction identifier" in any response message transmitted below to the value of "RRC transaction identifier" in the entry for the CELL UPDATE CONFIRM message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry.
1>	in case of a URA update procedure:
2>	set the IE "RRC transaction identifier" in any response message transmitted below to the value of "RRC transaction identifier" in the entry for the URA UPDATE CONFIRM message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
1>	if the variable PDCP_SN_INFO is non-empty:
2>	include the IE "RB with PDCP information list" in any response message transmitted below and set it to the value of the variable PDCP_SN_INFO.
1>	if the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message included the IE "Downlink counter synchronisation info":
2>	if the variable PDCP_SN_INFO is empty:
3>	configure the corresponding RLC entity for all AM and UM radio bearers and AM and UM signalling radio bearers except RB2 to "stop".
2>	else:
3>	configure the RLC entity for signalling radio bearers RB1, RB3 and RB4 to "stop";
3>	configure the RLC entity for UM and AM radio bearers for which the IE "PDCP SN Info" is not included to "stop".
2>	re-establish the RLC entity for RB2;
2>	clear all entries in the table "Processed transactions" in the variable TRANSACTIONS;
2>	for the downlink and the uplink, apply the ciphering configuration as follows:
3>	if the received re-configuration message included the IE "Ciphering Mode Info":
4>	use the ciphering configuration in the received message when transmitting the response message.
3>	if the ciphering configuration for RB2 from a previously received SECURITY MODE COMMAND has not yet been applied because the activation times not having been reached:
4>	if the previous SECURITY MODE COMMAND was received due to new keys being received:
5>	consider the new ciphering configuration to include the received new keys;
5>	initialise the HFN component of the uplink COUNT-C and downlink COUNT-C of SRB2 as indicated in subclause 8.1.12.3.1.
4>	else if the ciphering configuration for RB2 from a previously received SECURITY MODE COMMAND has not yet been applied because of the corresponding activation times not having been reached and the previous SECURITY MODE COMMAND caused a change in LATEST_CONFIGURED_CN_DOMAIN:
5>	consider the new ciphering configuration to include the keys associated with the LATEST_CONFIGURED_CN_DOMAIN;
5>	initialise the HFN component of the uplink COUNT-C and downlink COUNT-C of SRB2 to the most recently transmitted IE "START list" or IE "START" for the LATEST_CONFIGURED_CN_DOMAIN at the reception of the previous SECURITY MODE COMMAND.
4>	apply the new ciphering configuration immediately following RLC re-establishment.
3>	else:
4>	continue using the current ciphering configuration.
2>	set the new uplink and downlink HFN component of the COUNT-C of RB2 to MAX(uplink HFN component of the COUNT-C of RB2, downlink HFN component of the COUNT-C of RB2);
2>	increment by one the downlink and uplink values of the HFN component of the COUNT-C for RB2;
2>	calculate the START value according to subclause 8.5.9;
2>	include the calculated START values for each CN domain in the IE "START list" in the IE "Uplink counter synchronisation info" in any response message transmitted below;
2>		for any measurement of type CSG Proximity detection or any measurement associated with CELL_INFO_CSG_LIST (i.e. CSG Proximity detection, CSG intra-frequency measurement, CSG inter-frequency measurement and/or SI acquisition): 
3>	stop all measurements of type CSG Proximity detection and all measurements associated with CELL_INFO_CSG_LIST (i.e. CSG Proximity detection, CSG intra-frequency measurement, CSG inter-frequency measurement and/or SI acquisition);
3>	delete measurement control information for all measurements of type CSG Proximity detection and all measurements associated with CELL_INFO_CSG_LIST (i.e. CSG Proximity detection, CSG intra-frequency measurement, CSG inter-frequency measurement and/or SI acquisition);
3>	clear the variable CELL_INFO_CSG_LIST.
2>	if timer T323 value is stored in the IE "UE Timers and constants in connected mode" in the variable TIMERS_AND_CONSTANTS:
3>	stop and reset timer T323;
3>	clear any value of the timer T323 stored in the IE "UE Timers and constants in connected mode" in the variable TIMERS_AND_CONSTANTS.
1>	else if the radio bearer is connected to a CS domain radio access bearer and the radio bearer uses UM RLC:
2>	re-establish the UM RLC entity;
2>	if the value of the IE "Status" in the variable CIPHERING_STATUS of the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS is set to "Started":
3>	set the HFN component of the respective COUNT-C values for the UM RLC entity equal to the START value included in this CELL UPDATE message for the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS;
3>	set the remaining bits of the HFN component of the COUNT-C values of the UM RLC entity to zero.
1>	if the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message did not include the IE "Downlink counter synchronisation info":
2>	if the variable START_VALUE_TO_TRANSMIT is set:
3>	include the value of the variable START_VALUE_TO_TRANSMIT in the IE "START" in the response message transmitted below.
1>	if the variable DEFERRED_MEASUREMENT_STATUS is set to TRUE:
2>	if System Information Block type 11 is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block; or
2>	if System Information Block type 11bis is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block; or
2>	if System Information Block type 11ter is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block, or
2>	if System Information Block type 12 is scheduled on the BCCH and the UE has not read nor stored the IEs present in this System Information Block:
3>	include the IE "Deferred measurement control reading" in any response message transmitted.
1>	transmit a response message as specified in subclause 8.3.1.7;
1>	if the IE "Integrity protection mode info" was present in the CELL UPDATE CONFIRM or URA UPDATE CONFIRM message:
2>	start applying the new integrity protection configuration in the uplink for signalling radio bearer RB2 from and including the transmitted response message.
1>	if the variable ORDERED_RECONFIGURATION is set to TRUE caused by the received CELL UPDATE CONFIRM message in case of a cell update procedure:
2>	set the variable ORDERED_RECONFIGURATION to FALSE.
1>	clear the variable PDCP_SN_INFO;
1>	when the response message transmitted per subclause 8.3.1.7 to the UTRAN has been confirmed by RLC:
2>	if the CELL UPDATE CONFIRM / URA UPDATE CONFIRM message contained the IE "Ciphering mode info":
3>	resume data transmission on any suspended radio bearer and signalling radio bearer mapped on RLC-AM or RLC-UM;
3>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
3>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
2>	if the CELL UPDATE CONFIRM / URA UPDATE CONFIRM message contained the IE "Integrity protection mode info":
3>	set "Uplink RRC Message sequence number" for signalling radio bearer RB0 in the variable INTEGRITY_PROTECTION_INFO to a value such that next RRC message to be sent on uplink RB0 will use the new integrity protection configuration;
3>	allow the transmission of RRC messages on all signalling radio bearers with any RRC SN;
3>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE.
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
1>	in case of a cell update procedure:
2>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
1>	in case of a URA update procedure:
2>	clear the entry for the URA UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
1>	set the variable CELL_UPDATE_STARTED to FALSE;
1>	if the variable AM_RLC_ERROR_PENDING_RB234 is set to TRUE:
2>	set the variable AM_RLC_ERROR_PENDING_RB234 to FALSE.
1>	if the variable AM_RLC_ERROR_PENDING_RB5_AND_UP is set to TRUE:
2>	set the variable AM_RLC_ERROR_PENDING_RB5_AND_UP to FALSE.
1>	clear the variable SECURITY_MODIFICATION.
1>	stop timers T314 and/or T315 if they are running.
The procedure ends.
8.3.1.7	Transmission of a response message to UTRAN
If CELL UPDATE CONFIRM message:
-	includes the IE "RAB information to setup":
the UE shall:
1>	transmit a RADIO BEARER SETUP COMPLETE as response message using AM RLC.

If the CELL UPDATE CONFIRM message:
-	does not include the IE "RAB information for setup"; and
-	includes the IE "RB information to release list":
the UE shall:
1>	transmit a RADIO BEARER RELEASE COMPLETE as response message using AM RLC.

If the CELL UPDATE CONFIRM message:
-	does not include the IE "RAB information for setup", nor the IE "RB information to release list"; and
-	includes the IE "RB information to reconfigure list"; or
-	includes the IE "RB information to be affected list":
the UE shall:
1>	transmit a RADIO BEARER RECONFIGURATION COMPLETE as response message using AM RLC.

If the CELL UPDATE CONFIRM message:
-	includes the IE "Other state configuration info":
the UE shall:
1>	transmit a RADIO BEARER RECONFIGURATION COMPLETE as response message using AM RLC.

If the CELL UPDATE CONFIRM message:
-	does not include the IE "RAB information for setup", the IE "RB information to release list", the IE "RB information to reconfigure list", nor the IE "RB information to be affected list"; and
-	includes "Transport channel information elements":
the UE shall:
1>	transmit a TRANSPORT CHANNEL RECONFIGURATION COMPLETE as response message using AM RLC.

If the CELL UPDATE CONFIRM message:
-	does not include the IE "RAB information for setup", the IE "RB information to release list", the IE "RB information to reconfigure list", nor the IE "RB information to be affected list"; and
-	does not include "Transport channel information elements"; and
-	includes "Physical channel information elements":
the UE shall:
1>	transmit a PHYSICAL CHANNEL RECONFIGURATION COMPLETE as response message using AM RLC.

If the CELL UPDATE CONFIRM message:
-	does not include the IE "RAB information for setup", the IE "RB information to release list", the IE "RB information to reconfigure list", nor the IE "RB information to be affected list"; and
-	does not include "Transport channel information elements"; and
-	does not include "Physical channel information elements"; and
-	includes "CN information elements"; or
-	includes the IE "Ciphering mode info"; or
-	includes the IE "Integrity protection mode info"; or
-	includes the IE "New C-RNTI"; or
-	includes the IE "New U-RNTI"; or
-	includes the IE "Downlink counter synchronisation info" and the IE "New U-RNTI":
NOTE:	In the case of a cell update procedure during an ongoing reconfiguration procedure moving the UE into CELL_PCH/URA_PCH the CELL UPDATE CONFIRM message should include the IE "New C-RNTI".
the UE shall:
1>	transmit a UTRAN MOBILITY INFORMATION CONFIRM as response message using AM RLC.

If the CELL UPDATE CONFIRM message:
-	does not include "RAB information to setup": and
-	does not include "RB information elements"; and
-	does not include "Transport channel information elements"; and
-	does not include "Physical channel information elements"; and
-	does not include "CN information elements"; and
-	does not include the IE "Ciphering mode info"; and
-	does not include the IE "Integrity protection mode info"; and
-	does not include the IE "New C-RNTI"; and
-	does not include the IE "New U-RNTI":
the UE shall:
1>	transmit no response message.

If the URA UPDATE CONFIRM message:
-	includes "CN information elements"; or
-	includes the IE "Ciphering mode info"; or
-	includes the IE "Integrity protection mode info"; or
-	includes any one or both of the IEs "New C-RNTI" and "New U-RNTI"; or
-	includes the IE "Downlink counter synchronisation info" and the IE "New U-RNTI":
the UE shall:
1>	transmit a UTRAN MOBILITY INFORMATION CONFIRM as response message using AM RLC.

If the URA UPDATE CONFIRM message:
-	does not include "CN information elements"; and
-	does not include the IE "Ciphering mode info"; and
-	does not include the IE "Integrity protection mode info"; and
-	does not include the IE "New U-RNTI"; and
-	does not include the IE "New C-RNTI":
the UE shall:
1>	transmit no response message.

If the new state is CELL_DCH state, the UE shall, after the state transition:
1>	if the IE "Deferred measurement control reading" was included in the response message:
2>	 clear the variable CELL_INFO_LIST.
If the new state is CELL_DCH or CELL_FACH, the response message shall be transmitted using the new configuration after the state transition., and the UE shall:
1>	if the IE "Downlink counter synchronisation info" was included in the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message:
2>	when RLC has confirmed the successful transmission of the response message:
3>	if the variable PDCP_SN_INFO is empty:
4>	configure the RLC entity for all AM and UM radio bearers and AM and UM signalling radio bearers except RB2 to "continue".
3>	else:
4>	configure the RLC entity for signalling radio bearers RB1, RB3 and RB4 to "continue";
4>	configure the RLC entity for UM and AM radio bearers for which the IE " PDCP SN Info" is not included to "continue".
3>	re-establish all AM and UM RLC entities with RB identities larger than 4 and set the first 20 bits of all the HFN component of the respective COUNT-C values to the START value included in the response message for the corresponding CN domain;
3>	re-establish the RLC entities with RB identities 1, 3 and 4 and set the first 20 bits of all the HFN component of the respective COUNT-C values to the START value included in the response message for the CN domain stored in the variable LATEST_CONFIGURED_CN_DOMAIN;
3>	set the remaining bits of the HFN component of the COUNT-C values of all UM RLC entities to zero;
3>	if the IE "PDCP context relocation info" is not present:
>	re-initialise the PDCP header compression entities of each radio bearer in the variable ESTABLISHED_RABS as specified in [36].
3>		if the IE "PDCP context relocation info" is present:
4>	perform the actions as specified in subclause 8.6.4.13.
1>	if the variable PDCP_SN_INFO is empty:
2>	if the CELL UPDATE CONFIRM or URA UPDATE CONFIRM message contained the IE "Ciphering mode info":
3>	when RLC has confirmed the successful transmission of the response message:
4>	continue with the remainder of the procedure.
2>	if the CELL UPDATE CONFIRM or URA UPDATE CONFIRM message did not contain the IE "Ciphering mode info":
3>	when RLC has been requested to transmit the response message,
4>	continue with the remainder of the procedure.
1>	if the variable PDCP_SN_INFO is non-empty:
2>	when RLC has confirmed the successful transmission of the response message:
3>	for each radio bearer in the variable PDCP_SN_INFO:
4>	if the IE "RB started" in the variable ESTABLISHED_RABS is set to "started":
5>	configure the RLC entity for that radio bearer to "continue".
3>	continue with the remainder of the procedure.

If the new state is CELL_PCH or URA_PCH, the response message shall be transmitted in CELL_FACH state, and the UE shall:
1>	when RLC has confirmed the successful transmission of the response message:
2>	if the IE "Downlink counter synchronisation info" was included in the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message:
3>	re-establish all AM and UM RLC entities with RB identities larger than 4 and set the first 20 bits of all the HFN component of the respective COUNT-C values to the START value included in the response message for the corresponding CN domain;
3>	re-establish the RLC entities with RB identities 1, 3 and 4 and set the first 20 bits of all the HFN component of the respective COUNT-C values to the START value included in the response message for the CN domain stored in the variable LATEST_CONFIGURED_CN_DOMAIN;
3>	set the remaining bits of the HFN component of the COUNT-C values of all UM RLC entities to zero;
3>	re-initialise the PDCP header compression entities of each radio bearer in the variable ESTABLISHED_RABS as specified in [36].
2>	for each radio bearer in the variable PDCP_SN_INFO:
3>	if the IE "RB started" in the variable ESTABLISHED_RABS is set to "started":
4>	configure the RLC entity for that radio bearer to "continue".
2>	enter the new state (CELL_PCH or URA_PCH, respectively).
1>	continue with the remainder of the procedure.
8.3.1.7a	Physical channel failure
If the received CELL UPDATE CONFIRM message would cause the UE to transit to CELL_DCH state:
1>	if the UE failed to establish the physical channel(s) indicated in the received CELL UPDATE CONFIRM message according to the criteria defined in subclause 8.5.4 are not fulfilled;
1>	for FDD and 3.84/7.68 Mcps TDD, if the received CELL UPDATE CONFIRM message does not contain dedicated physical channels; or
1>	for 1.28 Mcps TDD, if the received CELL UPDATE CONFIRM message does not contain dedicated physical channels nor physical shared channels as defined in clause 8.5.4; or
1>	for 3.84 Mcps TDD or 7.68 Mcps TDD, if the received CELL UPDATE CONFIRM does not contain physical channels to which DCCH(s) are mapped:
the UE shall:
1>	if, caused by the received CELL UPDATE CONFIRM message
2>	the IE "Reconfiguration" in the variable CIPHERING_STATUS is set to TRUE; and/or
2>	the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO is set to TRUE:
3>	abort the ongoing integrity and/or ciphering reconfiguration;
3>	if the received CELL UPDATE CONFIRM message contained the IE "Ciphering mode info":
4>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
4>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
3>	if the received CELL UPDATE CONFIRM message contained the IE "Integrity protection mode info":
4>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
4>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
1>	if the variable ORDERED_RECONFIGURATION is set to TRUE caused by the received CELL UPDATE CONFIRM message:
2>	set the IE "failure cause" to "physical channel failure";
2>	set the variable ORDERED_RECONFIGURATION to FALSE.
1>	if V302 is equal to or smaller than N302:
2>	select a suitable UTRA cell according to [4];
2>	set the contents of the CELL UPDATE message according to subclause 8.3.1.3, except for the IE "Cell update cause" which shall be set to "Radio link failure";
2>	submit the CELL UPDATE message for transmission on the uplink CCCH;
2>	increment counter V302;
2>	restart timer T302 when the MAC layer indicates success or failure to transmit the message.
1>	if V302 is greater than N302:
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	in case of a cell update procedure:
3>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	release all its radio resources;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	set the variable CELL_UPDATE_STARTED to FALSE;
2>	enter idle mode.
8.3.1.8	Unsupported configuration by the UE
If the UE does not support the configuration in the CELL UPDATE CONFIRM message and/or the variable UNSUPPORTED_CONFIGURATION is set to TRUE, the UE shall:
1>	if V302 is equal to or smaller than N302, the UE shall:
2>	if, caused by the received CELL UPDATE CONFIRM message
3>	the IE "Reconfiguration" in the variable CIPHERING_STATUS is set to TRUE; and/or
3>	the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO is set to TRUE:
4>	abort the ongoing integrity and/or ciphering reconfiguration;
4>	if the received CELL UPDATE CONFIRM message contained the IE "Ciphering mode info":
5>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
5>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
4>	if the received CELL UPDATE CONFIRM message contained the IE "Integrity protection mode info":
5>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
5>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
2>	if the variable ORDERED_RECONFIGURATION is set to TRUE due to the received CELL UPDATE CONFIRM message in case of a cell update procedure:
3>	set the variable ORDERED_RECONFIGURATION to FALSE.
2>	set the variable FAILURE_INDICATOR to TRUE;
2>	set the variable FAILURE_CAUSE to "Unsupported configuration";
2>	set the content of the CELL UPDATE message according to subclause 8.3.1.3;
2>	submit the CELL UPDATE message for transmission on the uplink CCCH;
2>	increment counter V302;
2>	restart timer T302 when the MAC layer indicates success or failure to transmit the message.
1>	if V302 is greater than N302, the UE shall:
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	clear the variable PDCP_SN_INFO;
2>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS;
2>	release all its radio resources;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	set the variable CELL_UPDATE_STARTED to FALSE;
2>	enter idle mode;
2>	Other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2;
2>	and the procedure ends.
8.3.1.9	Invalid configuration
If the variable INVALID_CONFIGURATION is set to TRUE, the UE shall:
1>	if V302 is equal to or smaller than N302:
2>	if, caused by the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message
3>	the IE "Reconfiguration" in the variable CIPHERING_STATUS is set to TRUE; and/or
3>	the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO is set to TRUE:
4>	abort the ongoing integrity and/or ciphering reconfiguration;
4>	if the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message contained the IE "Ciphering mode info":
5>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
5>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
4>	if the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message contained the IE "Integrity protection mode info";
5>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
5>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
2>	if the variable ORDERED_RECONFIGURATION is set to TRUE caused by the received CELL UPDATE CONFIRM message in case of a cell update procedure:
3>	set the variable ORDERED_RECONFIGURATION to FALSE.
2>	in case of a cell update procedure:
3>	set the variable FAILURE_INDICATOR to TRUE;
3>	set the variable FAILURE_CAUSE to "Invalid configuration";
3>	set the contents of the CELL UPDATE message according to subclause 8.3.1.3;
3>	submit the CELL UPDATE message for transmission on the uplink CCCH.
2>	in case of a URA update procedure:
3>	set the contents of the URA UPDATE message according to subclause 8.3.1.3;
3>	submit the URA UPDATE message for transmission on the uplink CCCH.
2>	increment counter V302;
2>	restart timer T302 when the MAC layer indicates success or failure to transmit the message.
1>	if V302 is greater than N302:
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	clear the variable PDCP_SN_INFO;
2>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS;
2>	release all its radio resources;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	set the variable CELL_UPDATE_STARTED to FALSE;
2>	enter idle mode;
2>	Other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2;
2>	the procedure ends.
8.3.1.9a	Incompatible simultaneous reconfiguration
In case of a cell update procedure and if the received CELL UPDATE CONFIRM message
-	includes the IE "RB information to release list", and/or the IE "RB information to reconfigure list", and/or the IE "RB information to be affected list", and/or
-	includes "Transport channel information elements"; and/or
-	includes "Physical channel information elements"; and
-	the variable ORDERED_RECONFIGURATION is set to TRUE because of an ongoing Reconfiguration procedure;
or
If the variable INCOMPATIBLE_SECURITY_RECONFIGURATION is set to TRUE due to the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message:
the UE shall:
1>	if V302 is equal to or smaller than N302:
2>	if, caused by the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message
3>	the IE "Reconfiguration" in the variable CIPHERING_STATUS is set to TRUE; and/or
3>	the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO is set to TRUE:
4>	abort the ongoing integrity and/or ciphering reconfiguration;
4>	if the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message contained the IE "Ciphering mode info":
5>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
5>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
4>	if the received CELL UPDATE CONFIRM or URA UPDATE CONFIRM message contained the IE "Integrity protection mode info":
5>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
5>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
2>	if the variable ORDERED_RECONFIGURATION is set to TRUE due to the received CELL UPDATE CONFIRM message in case of a cell update procedure:
3>	set the variable ORDERED_RECONFIGURATION to FALSE.
2>	set the variable FAILURE_INDICATOR to TRUE;
2>	set the variable FAILURE_CAUSE to "Incompatible simultaneous reconfiguration";
2>	set the content of the CELL UPDATE message according to subclause 8.3.1.3;
2>	submit the CELL UPDATE message for transmission on the uplink CCCH;
2>	increment counter V302;
2>	restart timer T302 when the MAC layer indicates success or failure to transmit the message.
1>	if V302 is greater than N302:
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	clear the variable PDCP_SN_INFO;
2>	set the variable INCOMPATIBLE_SECURITY_RECONFIGURATION to FALSE;
2>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS;
2>	release all its radio resources;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	set the variable CELL_UPDATE_STARTED to FALSE;
2>	enter idle mode;
2>	Other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2;
2>	the procedure ends.
8.3.1.9b	Security reconfiguration during Cell update procedure
If:
-	the variable CELL_UPDATE_STARTED is set to TRUE; and
-	the UE receives a SECURITY MODE COMMAND message:
the UE shall
1>	ignore the received SECURITY MODE COMMAND and continue with any ongoing processes and procedures as if the SECURITY MODE COMMAND message has not been received.
8.3.1.10	Confirmation error of URA ID list
If the URA UPDATE CONFIRM message causes a confirmation error of URA identity list as specified in subclause 8.6.2.1 the UE shall:
1>	check the value of V302; and
1>	if V302 is smaller or equal than N302:
2>	if, caused by the received URA UPDATE CONFIRM message
3>	the IE "Reconfiguration" in the variable CIPHERING_STATUS is set to TRUE; and/or
3>	the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO is set to TRUE:
4>	abort the ongoing integrity and/or ciphering reconfiguration;
4>	if the received URA UPDATE CONFIRM message contained the IE "Ciphering mode info":
5>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
5>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
4>	if the received URA UPDATE CONFIRM message contained the IE "Integrity protection mode info"
5>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
5>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
2>	set the IEs in the URA UPDATE message according to subclause 8.3.1.3;
2>	submit the URA UPDATE message for transmission on the uplink CCCH;
2>	increment counter V302;
2>	restart timer T302 when the MAC layer indicates success or failure to transmit the message.
1>	if V302 is greater than N302:
2>	release all its radio resources;
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	clear the variable PDCP_SN_INFO;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	set the variable CELL_UPDATE_STARTED to FALSE;
2>	enter idle mode;
2>	perform the actions specified in subclause 8.5.2 when entering idle mode from connected mode;
2>	the procedure ends.
8.3.1.11	Invalid CELL UPDATE CONFIRM/URA UPDATE CONFIRM message
If the UE receives an CELL UPDATE CONFIRM/URA UPDATE CONFIRM message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows:
1>	If V302 is equal to or smaller than N302, the UE shall:
2>	set the variable PROTOCOL_ERROR_INDICATOR to TRUE;
2>	in case of a cell update procedure:
3>	set the contents of the CELL UPDATE message according to subclause 8.3.1.3;
3>	submit the CELL UPDATE message for transmission on the uplink CCCH.
2>	in case of a URA update procedure:
3>	set the contents of the URA UPDATE message according to subclause 8.3.1.3;
3>	submit the URA UPDATE message for transmission on the uplink CCCH.
2>	increment counter V302;
2>	restart timer T302 when the MAC layer indicates success or failure to transmit the message.
1>	if V302 is greater than N302, the UE shall:
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	in case of a cell update procedure:
3>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	in case of a URA update procedure:
3>	clear the entry for the URA UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	set the variable CELL_UPDATE_STARTED to FALSE;
2>	release all its radio resources;
2>	enter idle mode;
2>	Other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2;
2>	the procedure ends.
8.3.1.12	T302 expiry or cell reselection
If any or several of the following conditions are true:
-	expiry of timer T302;
-	reselection to another UTRA cell (including the previously serving cell) before completion of the cell update or URA update procedure;
the UE shall:
1>	stop T302 if it is running;
1>	if the UE was in CELL_DCH state prior to the initiation of the procedure; and
2>	if timers T314 and T315 have elapsed while T302 was running:
3>	enter idle mode.
3>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers. Other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2.
3>	and the procedure ends.
2>	if timer T314 has elapsed while T302 was running and,
3>	if "T314 expired" in the variable RB_TIMER_INDICATOR is set to FALSE and
3>	if T315 is still running:
4>	release locally all radio bearers which are associated with any radio access bearers for which in the variable ESTABLISHED_RABS the value of the IE "Re-establishment timer" is set to "useT314";
4>	indicate release of those radio access bearers to upper layers;
4>	delete all information about those radio access bearers from the variable ESTABLISHED_RABS;
4>	set "T314 expired" in the variable RB_TIMER_INDICATOR to TRUE;
4>	if all radio access bearers associated with a CN domain are released:
5>	release the signalling connection for that CN domain;
5>	remove the signalling connection for that CN domain from the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
5>	indicate release (abort) of the signalling connection to upper layers.
2>	if timer T315 has elapsed while T302 was running and,
3>	if "T315 expired" in the variable RB_TIMER_INDICATOR is set to FALSE and,
3>	if T314 is still running:
4>	release locally all radio bearers which are associated with any radio access bearers for which in the variable ESTABLISHED_RABS the value of the IE "Re-establishment timer" is set to "useT315";
4>	indicate release of those radio access bearers to upper layers;
4>	delete all information about those radio access bearers from the variable ESTABLISHED_RABS;
4>	set "T315 expired" in the variable RB_TIMER_INDICATOR to TRUE;
4>	if all radio access bearers associated with a CN domain are released:
5>	release the signalling connection for that CN domain;
5>	remove the signalling connection for that CN domain from the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
5>	indicate release (abort) of the signalling connection to upper layers.
2>	if timers T314 and T315 are not running:
3>	enter idle mode;
3>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers. Other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2;
3>	and the procedure ends.
1>	check whether it is still in "in service area" (see subclause 8.5.5.2);
1>	if the variable ORDERED_RECONFIGURATION is set to TRUE caused by the received CELL UPDATE CONFIRM message in case of a cell update procedure:
2>	set the variable ORDERED_RECONFIGURATION to FALSE.
1>	in case of a cell update procedure:
2>	clear any entry for the CELL UPDATE CONFIRM message in the table "Accepted transactions" in the variable TRANSACTIONS.
1>	in case of a URA update procedure:
2>	clear any entry for the URA UPDATE CONFIRM message in the table "Accepted transactions" in the variable TRANSACTIONS.
If the UE detects "in service area" if it has not entered idle mode, and:
1>	if V302 is equal to or smaller than N302, the UE shall:
2>	if the UE performed cell re-selection:
3>	delete its C-RNTI;
3>	for FDD and 1.28 Mcps TDD, if the variable H_RNTI is set:
4>	clear the variable H_RNTI;
4>	stop using that H_RNTI just cleared from the variable H_RNTI in MAC;
4>	clear any stored IEs "HARQ info".
3>	for FDD and 1.28 Mcps TDD, if the variable E_RNTI is set:
4>	clear the variable E_RNTI.
3>	for FDD and 1.28 Mcps TDD, if the UE does support HS-DSCH reception in CELL_FACH state and the IE "HS-DSCH common system information" is included in System Information Block type 5 or System Information Block type 5bis:
4>	reset the MAC-ehs entity [15];
4>	set variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to TRUE;
4>	and start receiving the HS-DSCH according to the procedure in subclause 8.5.37.
3>	else:
4>	take the actions related to the HS_DSCH_RECEPTION_GENERAL variable as described in subclause 8.5.37a.
3>	if the UE supports RAN-assisted WLAN interworking:
4>	stop the timer T330, if it is running;
4>	clear the variable WLAN_OFFLOAD_INFO;
4>	use the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO as specified in [4], and forward it to upper layers.
3>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
3>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46.
3>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
2>	in case of a cell update procedure:
3>	set the contents of the CELL UPDATE message according to subclauses 8.3.1.3 and 8.5.10;
3>	if a CELL UPDATE CONFIRM message was received and caused the IE "Reconfiguration" in the variable CIPHERING_STATUS to be set to TRUE and/or the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to be set to TRUE:
4>	if the IE "Downlink counter synchronisation info" was included in the received CELL UPDATE CONFIRM message:
5>	apply the new security (integrity protection) configuration received in the CELL UPDATE CONFIRM on the CELL UPDATE message.
3>	submit the CELL UPDATE message for transmission on the uplink CCCH.
2>	in case of a URA update procedure:
3>	if the UE supports RAN-assisted WLAN interworking and URA update is initiated due to a URA reselection:
4>	stop the timer T330, if it is running;
4>	clear the variable WLAN_OFFLOAD_INFO;
4>	use the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO as specified in [4], and forward it to upper layers.
3>	set the contents of the URA UPDATE message according to subclauses 8.3.1.3 and 8.5.10;
3>	if a URA UPDATE CONFIRM message was received and caused the IE "Reconfiguration" in the variable CIPHERING_STATUS to be set to TRUE and/or the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO is set to TRUE:
4>	if the IE "Downlink counter synchronisation info" was included in the received URA UPDATE CONFIRM message:
5>	apply the new security (integrity protection) configuration received in the URA UPDATE CONFIRM on the URA UPDATE message.
3>	submit the URA UPDATE message for transmission on the uplink CCCH.
2>	increment counter V302;
2>	restart timer T302 when the MAC layer indicates success or failure to transmit the message.
1>	if V302 is greater than N302, the UE shall:
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	clear the variable PDCP_SN_INFO;
2>	in case of a cell update procedure:
3>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	in case of a URA update procedure:
3>	clear the entry for the URA UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS.
2>	release all its radio resources;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	set the variable CELL_UPDATE_STARTED to FALSE;
2>	enter idle mode;
2>	other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2;
2>	and the procedure ends.
If the UE detects "out of service area", it shall:
1>	act according to subclause 7.2.2.
8.3.1.13	T314 expiry
Upon expiry of timer T314 the UE shall:
1>	if timer T302 is running:
2>	continue awaiting response message from UTRAN.
1>	if timer T302 is not running and timer T315 is running:
2>	set IE "T314 expired" in variable RB_TIMER_INDICATOR to TRUE;
2>	release locally all radio bearers which are associated with any radio access bearers for which in the variable ESTABLISHED_RABS the value of the IE "Re-establishment timer" is set to "useT314";
2>	indicate release of those radio access bearers to upper layers;
2>	delete all information about those radio access bearers from the variable ESTABLISHED_RABS;
2>	if all radio access bearers associated with a CN domain are released:
3>	release the signalling connection for that CN domain;
3>	remove the signalling connection for that CN domain from the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
3>	indicate release (abort) of the signalling connection to upper layers.
1>	if timers T302 and T315 are not running:
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	clear the variable PDCP_SN_INFO;
2>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS;
2>	release all its radio resources;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	set the variable CELL_UPDATE_STARTED to FALSE;
2>	enter idle mode;
2>	other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2;
2>	and the procedure ends.
8.3.1.14	T315 expiry
Upon expiry of timer T315 the UE shall:
1>	if timer T302 is running:
2>	continue awaiting response message from UTRAN.
1>	if timer T302 is not running and timer T314 is running:
2>	set IE "T315 expired" in variable RB_TIMER_INDICATOR to TRUE;
2>	release locally all radio bearers which are associated with any radio access bearers for which in the variable ESTABLISHED_RABS the value of the IE "Re-establishment timer" is set to "use T315";
2>	indicate release of those radio access bearers to upper layers;
2>	delete all information about those radio access bearers from the variable ESTABLISHED_RABS;
2>	if all radio access bearers associated with a CN domain are released:
3>	release the signalling connection for that CN domain;
3>	remove the signalling connection for that CN domain from the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
3>	indicate release (abort) of the signalling connection to upper layers.
1>	if timers T302 and T314 are not running:
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	clear the variable PDCP_SN_INFO;
2>	clear the entry for the CELL UPDATE CONFIRM message in the table "Rejected transactions" in the variable TRANSACTIONS;
2>	release all its radio resources;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS;
2>	set the variable CELL_UPDATE_STARTED to FALSE;
2>	enter idle mode;
2>	other actions the UE shall perform when entering idle mode from connected mode are specified in subclause 8.5.2;
2>	and the procedure ends.
8.3.1.15	Reception of the UTRAN MOBILITY INFORMATION CONFIRM message by the UTRAN
See subclause 8.3.3.4.
8.3.1.16	T320 Expiry
Upon expiry of timer T320, the UE shall:
1>	if the UE has uplink RLC data PDU or uplink RLC control PDU on RB1 or upwards to transmit:
2>	perform a cell update procedure according to subclause 8.3.1 using the cause corresponding to "uplink data transmission".
1>	else:
2>	if the UE should perform cell update for MBMS ptp radio bearer request as specified in subclause 8.6.9.6:
3>	perform a cell update procedure according to subclause 8.3.1 using the cause corresponding to "MBMS ptp RB request".
8.3.2	URA update
See subclause 8.3.1.
8.3.3	UTRAN mobility information

Figure 8.3.3-1: UTRAN mobility information procedure, normal flow

Figure 8.3.3-2: UTRAN mobility information procedure, failure case
8.3.3.1	General
The purpose of this procedure is to allocate any one or a combination of the following to a UE in connected mode:
-	a new C-RNTI;
-	a new U-RNTI;
-	a new H-RNTI (FDD, CELL_FACH state and 1.28 Mcps TDD only);
-	a new E-RNTI (FDD, CELL_FACH state and 1.28 Mcps TDD only);
-	other mobility related information;
-	DSAC and/or PPAC related information.
8.3.3.2	Initiation
To initiate the procedure UTRAN transmits a UTRAN MOBILITY INFORMATION message to the UE on the downlink DCCH using AM or UM RLC. In case of SRNS relocation, the message is sent using UM RLC only.
8.3.3.3	Reception of UTRAN MOBILITY INFORMATION message by the UE
When the UE receives a UTRAN MOBILITY INFORMATION message, it shall:
1>	act on received information elements as specified in subclause 8.6;
1>	if the IE "Dedicated Priority Information" is present:
2>	act upon the received IE as described in subclause 8.6.7.23.
1>	if the IE "Measurement Release Enhancement" is present:
2>	if the IE "Measurement Release Enhancement" is set to "Release some measurements", for each measurement indicated by IE "Measurement Identity" in the "Released measurements" list, the UE shall:
3>	terminate the corresponding measurement;
3>	clear corresponding measurement control information stored in variable MEASUREMENT_IDENTITY.
2>	else:
3>	terminate all measurements;
3>	clear all stored measurement control information in variable MEASUREMENT_IDENTITY.
1>	if the IE "UE Timers and constants in connected mode" is present:
2>	store the values of the IE "UE Timers and constants in connected mode" in the variable TIMERS_AND_CONSTANTS, replacing any previously stored value for each timer and constant; and
2>	if the IE "T323" is not present:
3>	clear any value of the timer T323 stored in the IE "UE Timers and constants in connected mode" in the variable TIMERS_AND_CONSTANTS; and
2>	for each updated timer value:
3>	start using the new value next time the timer is started;
NOTE:	If a new value of timer T305 is included in the IE "UE Timers and constants in connected mode", and the old value of timer T305 is "infinity", the new value may not be used immediately.
2>	for each updated constant value:
3>	start using the new value directly;
1>	if the IE "CN domain specific DRX cycle length coefficient" is present:
2>	store the value of the IE "CN domain specific DRX cycle length coefficient" for that CN domain, replacing any previously stored value; and
2>	use the value to determine the connected mode paging occasions according to [4].
1>	set the IE "RRC transaction identifier" in the UTRAN MOBILITY INFORMATION CONFIRM message to the value of "RRC transaction identifier" in the entry for the UTRAN MOBILITY INFORMATION message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	if the UTRAN MOBILITY INFORMATION message contained the IE "Ciphering mode info" or contained the IE "Integrity protection mode info":
2>	set the IE "Status" in the variable SECURITY_MODIFICATION for all the CN domains in the variable SECURITY_MODIFICATION to "Affected".
1>	if the variable PDCP_SN_INFO is non-empty:
2>	include the IE "RB with PDCP information list" in the UTRAN MOBILITY INFORMATION CONFIRM message and set it to the value of the variable PDCP_SN_INFO.
1>	if the received UTRAN MOBILITY INFORMATION message included the IE "Downlink counter synchronisation info":
2>	if the variable PDCP_SN_INFO is empty:
3>	configure the corresponding RLC entity for all AM and UM radio bearers and AM and UM signalling radio bearers except RB2 to "stop".
2>	else:
3>	configure the RLC entity for signalling radio bearers RB1, RB3 and RB4 to "stop";
3>	configure the RLC entity for UM and AM radio bearers for which the IE "PDCP SN Info" is not included to "stop".
2>	re-establish the RLC entity for RB2;
2>	clear all entries in the table "Processed transactions" in the variable TRANSACTIONS;
2>	for the downlink and the uplink, apply the ciphering configuration as follows:
3> if the received re-configuration message included the IE "Ciphering Mode Info":
4> use the ciphering configuration in the received message when transmitting the response message.
3>	if the ciphering configuration for RB2 from a previously received SECURITY MODE COMMAND has not yet been applied because the activation times not having been reached:
4>	if the previous SECURITY MODE COMMAND was received due to new keys being received:
5>	consider the new ciphering configuration to include the received new keys;
5>	initialise the HFN component of the uplink COUNT-C and downlink COUNT-C of SRB2 as indicated in subclause 8.1.12.3.1.
4>	else if the ciphering configuration for RB2 from a previously received SECURITY MODE COMMAND has not yet been applied because of the corresponding activation times not having been reached and the previous SECURITY MODE COMMAND caused a change in LATEST_CONFIGURED_CN_DOMAIN:
5>	consider the new ciphering configuration to include the keys associated with the LATEST_CONFIGURED_CN_DOMAIN;
5>	initialise the HFN component of the uplink COUNT-C and downlink COUNT-C of SRB2 to the most recently transmitted IE "START list" or IE "START" for the LATEST_CONFIGURED_CN_DOMAIN at the reception of the previous SECURITY MODE COMMAND.
4>	apply the new ciphering configuration immediately following RLC re-establishment.
3>	else:
4>	continue using the current ciphering configuration.
2>	set the new uplink and downlink HFN component of COUNT-C of RB2 to MAX(uplink HFN component of COUNT-C of RB2, downlink HFN component of COUNT-C of RB2);
2>	increment by one the downlink and uplink values of the HFN component of COUNT-C for RB2;
2>	calculate the START value according to subclause 8.5.9;
2>	include the calculated START values for each CN domain in the IE "START list" in the IE "Uplink counter synchronisation info" in the UTRAN MOBILITY INFORMATION CONFIRM message.
2>	if an IE "Logged Measurement Info-FDD" or "Logged Measurement Info-TDD" in variable LOGGED_MEAS_REPORT_VARIABLE is present and registered PLMN is present in the IE "PLMN Identity List" stored in variable LOGGED_MEAS_REPORT_VARIABLE:
3>	include IE "Logged Meas Available".
2>		for any measurement of type CSG Proximity detection or any measurement associated with CELL_INFO_CSG_LIST (i.e. CSG Proximity detection, CSG intra-frequency measurement, CSG inter-frequency measurement and/or SI acquisition):
3>	stop all measurements of type CSG Proximity detection and all measurements associated with CELL_INFO_CSG_LIST (i.e. CSG Proximity detection, CSG intra-frequency measurement, CSG inter-frequency measurement and/or SI acquisition);
3>	delete measurement control information for all measurements of type CSG Proximity detection and all measurements associated with CELL_INFO_CSG_LIST (i.e. CSG Proximity detection, CSG intra-frequency measurement, CSG inter-frequency measurement and/or SI acquisition);
3>	clear the variable CELL_INFO_CSG_LIST.
2>	if the UE is in CELL_DCH state:
3>	clear the variable DSAC_PARAM, the variable PPAC_PARAM, the variable EAB_PARAM, the variable DSAC_PARAM_2, the variable PPAC_PARAM_2, the variable CONNECTED_MODE_ACCESS_CONTROL and the stored IE "Access Class Barred List" if stored.
1>	if the UE is in CELL_DCH state:
2>	if the received UTRAN MOBILITY INFORMATION message included the IE "Domain Specific Access Restriction Parameters Update":
3>	for the variable "DSAC_PARAM_2":
4>	if the variable "DSAC_PARAM_2" is not set, the UE shall:
5>	store that Domain Specific Access Restriction Parameters to the variable "DSAC_PARAM_2" and maintain the variable until it is cleared or the PLMN is changed.
4>	else (DSAC_PARAM_2 is stored), the UE shall:
5>	update the variable "DSAC_PARAM_2" with that Domain Specific Access Restriction Parameters.
2>	if the received UTRAN MOBILITY INFORMATION message included the IE "Paging Permission with Access Control Parameters Update":
3>	for the variable "PPAC_PARAM_2":
4>	if the variable "PPAC_PARAM_2" is not set, the UE shall:
5>	store that Paging Permission with Access Control Parameters to the variable "PPAC_PARAM_2" and maintain the variable until it is cleared or the PLMN is changed.
4>	else (PPAC_PARAM_2 is stored) UE shall:
5>	update the variable "PPAC_PARAM_2" with that Paging Permission with Access Control Parameters.
2>	the UE shall:
3>	if the variable "DSAC_PARAM_2" is set:
4>	if the variable "PPAC_PARAM_2" is set:
5>	act on the stored IE "Paging Response Restriction Indication" when sending a response to any PAGING TYPE 2 message, Paging message specified in [67] or CS SERVICE NOTIFICATION message specifed in [79]; 
5>	act on the stored IE "Location/Registration Access Class Barred List" if the IE "Location/Registration Restriction Indicator" is set to "All" or "CS", when initiating a Location/Registration procedure to the CS domain, as specified in [4];
5>	act on the stored IE "Location/Registration Access Class Barred List" if the IE "Location/Registration Restriction Indicator" is set to "All" or "PS", when initiating a Location/Registration procedure to the PS domain, as specified in [4];
5>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "CS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the CS domain for any other reason, as specified in [4];
5>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "PS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the PS domain, for any other reason ,as specified in [4].
4>	if the variable "PPAC_PARAM_2" is not set:
5>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "CS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the CS domain, as specified in [4];
5>	act on the stored IE "Domain Specific Access Class Barred List" if indicated in the IE "PS Domain Specific Access Restriction" when initiating an INITIAL DIRECT TRANSFER message to the PS domain, as specified in [4].
3>	else:
4>	act as if no DSAC/PPAC restriction applies.
1>	transmit a UTRAN MOBILITY INFORMATION CONFIRM message on the uplink DCCH using AM RLC;
1>	if the IE "Integrity protection mode info" was present in the UTRAN MOBILITY INFORMATION message:
2>	start applying the new integrity protection configuration in the uplink for signalling radio bearer RB2 from and including the transmitted UTRAN MOBILITY INFORMATION CONFIRM message.
1>	if the IE "Downlink counter synchronisation info" was included in the received UTRAN MOBILITY INFORMATION message:
2>	when RLC has confirmed the successful transmission of the response message:
3>	if the variable PDCP_SN_INFO is empty:
4>	configure the RLC entity for all AM and UM radio bearers and AM and UM signalling radio bearers except RB2 to "continue".
3>	else:
4>	configure the RLC entity for signalling radio bearers RB1, RB3 and RB4 to "continue";
4>	configure the RLC entity for UM and AM radio bearers for which the IE "PDCP SN Info" is not included to "continue".
3>	re-establish all AM and UM RLC entities with RB identities larger than 4 and set the first 20 bits of all the HFN component of the respective COUNT-C values to the START value included in the response message for the corresponding CN domain;
3>	re-establish the RLC entities with RB identities 1, 3 and 4 and set the first 20 bits of all the HFN component of the respective COUNT-C values to the START value included in the response message for the CN domain stored in the variable LATEST_CONFIGURED_CN_DOMAIN;
3>	set the remaining bits of the HFN component of the COUNT-C values of all UM RLC entities to zero;
3>		if the IE "PDCP context relocation info" is not present:
4>	re-initialise the PDCP header compression entities of each radio bearer in the variable ESTABLISHED_RABS as specified in [36].
3>		if the IE "PDCP context relocation info" is present:
4>	perform the actions as specified in subclause 8.6.4.13.
1>	if the variable PDCP_SN_INFO is empty; and
2>	if the UTRAN MOBILITY INFORMATION message contained the IE "Ciphering mode info":
3>	when RLC has confirmed the successful transmission of the UTRAN MOBILITY INFORMATION CONFIRM message:
4>	perform the actions below:
2>	if the UTRAN MOBILITY INFORMATION message did not contain the IE "Ciphering mode info":
3>	when RLC has been requested to transmit the UTRAN MOBILITY INFORMATION CONFIRM message:
4>	perform the actions below.
1>	if the variable PDCP_SN_INFO is non-empty:
2>	when RLC has confirmed the successful transmission of the UTRAN MOBILITY INFORMATION CONFIRM message:
3>	for each radio bearer in the variable PDCP_SN_INFO:
4>	if the IE "RB started" in the variable ESTABLISHED_RABS is set to "started":
5>	configure the RLC entity for that radio bearer to "continue".
3>	clear the variable PDCP_SN_INFO; and
3>	perform the actions below.
The UE shall:
1>	if the UTRAN MOBILITY INFORMATION message contained the IE "Ciphering mode info":
2>	resume data transmission on any suspended radio bearer and signalling radio bearer mapped on RLC-AM or RLC-UM;
2>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to FALSE; and
2>	clear the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO.
1>	if the UTRAN MOBILITY INFORMATION message contained the IE "Integrity protection mode info":
2>	allow the transmission of RRC messages on all signalling radio bearers with any RRC SN;
2>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to FALSE; and
2>	clear the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
1>	clear the variable SECURITY_MODIFICATION.
The procedure ends.
8.3.3.4	Reception of an UTRAN MOBILITY INFORMATION CONFIRM message by the UTRAN
When the network receives UTRAN MOBILITY INFORMATION CONFIRM message, UTRAN may delete any old U-RNTI. The procedure ends.
8.3.3.5	Cell re-selection
If the UE performs cell re-selection, the UE shall:
1>	initiate a cell update procedure according to subclause 8.3.1;
1>	if the UTRAN MOBILITY INFORMATION message contains the IE "New C-RNTI"; and
1>	if the UE has not yet submitted the UTRAN MOBILITY INFORMATION CONFIRM message to lower layers for transmission; and
1>	if the IE "Downlink counter synchronisation info" was not included in the received UTRAN MOBILITY INFORMATION message:
2>	transmit a UTRAN MOBILITY INFORMATION FAILURE message on the uplink DCCH using AM RLC;
2>	set the IE "RRC transaction identifier" in the UTRAN MOBILITY INFORMATION FAILURE message to	the value of "RRC transaction identifier" in the entry for the UTRAN MOBILITY INFORMATION message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry.
2>	set the IE "failure cause" to the cause value "cell update occurred";
2>	when the UTRAN MOBILITY INFORMATION FAILURE message has been submitted to lower layers for transmission:
3>	continue with any ongoing processes and procedures as if the invalid UTRAN MOBILITY INFORMATION message has not been received and the procedure ends.
1>	otherwise:
2>	if a UTRAN MOBILITY INFORMATION message was received and caused the IE "Reconfiguration" in the variable CIPHERING_STATUS to be set to TRUE and/or the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to be set to TRUE; and
2>	if the IE "Downlink counter synchronisation info" was included in the received UTRAN MOBILITY INFORMATION message:
3>	apply the new security (integrity protection) configuration received in the UTRAN MOBILITY INFORMATION message on the CELL UPDATE message to be transmitted.
2>	continue the procedure normally.
8.3.3.5a	Incompatible simultaneous security reconfiguration
If the variable INCOMPATIBLE_SECURITY_RECONFIGURATION becomes set to TRUE of the received UTRAN MOBILITY INFORMATION message, the UE shall:
1>	transmit a UTRAN MOBILITY INFORMATION FAILURE message on the uplink DCCH using AM RLC;
1>	set the IE "RRC transaction identifier" in the UTRAN MOBILITY INFORMATION FAILURE message to the value of "RRC transaction identifier" in the entry for the UTRAN MOBILITY INFORMATION message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the IE "failure cause" to the cause value "incompatible simultaneous reconfiguration";
1>	when the UTRAN MOBILITY INFORMATION FAILURE message has been delivered to lower layers for transmission:
2>	set the variable INCOMPATIBLE_SECURITY_RECONFIGURATION to FALSE;
2>	continue with any ongoing processes and procedures as if the UTRAN MOBILITY INFORMATION message has not been received;
2>	and the procedure ends.
8.3.3.6	Invalid UTRAN MOBILITY INFORMATION message
If the UTRAN MOBILITY INFORMATION message contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	transmit a UTRAN MOBILITY INFORMATION FAILURE message on the uplink DCCH using AM RLC;
1>	set the IE "RRC transaction identifier" in the UTRAN MOBILITY INFORMATION FAILURE message to the value of "RRC transaction identifier" in the entry for the UTRAN MOBILITY INFORMATION message in the table "Rejected transactions" in the variable TRANSACTIONS, and;
1>	clear that entry.
1>	set the IE "failure cause" to the cause value "protocol error";
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	when the UTRAN MOBILITY INFORMATION FAILURE message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid UTRAN MOBILITY INFORMATION message has not been received;
2>	and the procedure ends.
8.3.3.7	T322 expiry
Upon expiry of timer T322 the UE shall:
1>	clear the stored IE "Dedicated Priority Information";
1>	clear the variable PRIORITY_INFO_LIST;
1>	set the value of IE "Priority status" in the variable PRIORITY_INFO_LIST to "sys_info_priority";
1>	if the UE is not in CELL_DCH state:
2>	take the actions as described in subclause 8.1.1.6.19 using stored System information Block type 19.
8.3.4	Active set update

Figure 8.3.4-1: Active Set Update procedure, successful case

Figure 8.3.4-2: Active Set Update procedure, failure case
8.3.4.1	General
The purpose of the active set update procedure is to update the active set of the connection between the UE and UTRAN. This procedure shall be used in CELL_DCH state. The UE should keep on using the old RLs while configuring the new RLs. Also the UE should keep the transmitter turned on during the procedure. This procedure is only used in FDD mode.
8.3.4.2	Initiation
The procedure is initiated when UTRAN orders a UE in CELL_DCH state, to make the following modifications of the active set of the connection:
a)	Radio link addition to the active set;
b)	Radio link removal from the active set;
c)	Combined radio link addition and removal on the active set; 
d)	Addition of a radio link to the E-DCH active set;
e)	Removal of a radio link from the E-DCH active set.
f)	Radio link addition to the secondary E-DCH active set;
g)	Radio link removal from the secondary E-DCH active set;
h)	Combined radio link addition and removal on the secondary E-DCH active set;
The procedure also allows the addition or removal of a radio link on the downlink frequencies associated with the secondary serving HS-DSCH cells. If the UE is not operating in Dual Cell E-DCH operation, radio links on the downlink frequencies associated with the secondary serving HS-DSCH cells are not part of the active set. Otherwise, radio links on the frequency associated with the first secondary serving HS-DSCH cell, are part of the secondary E-DCH active set.
Additionally, the procedure also allows the update of Target cell preconfiguration information for existing radio link(s).
In case a), c), f) and h), UTRAN should:
1>	prepare new additional radio link(s) in the UTRAN prior to the command to the UE.
In case a), b), c), d) and e), UTRAN should:
1>	send an ACTIVE SET UPDATE message on downlink DCCH using AM or UM RLC;
1>	create active sets that contain at least one common radio link across a DPCH or F-DPCH frame boundary as the result of one or multiple (parallel) active set update procedures.
In case f), g) and h), UTRAN should:
1>	send an ACTIVE SET UPDATE message on downlink DCCH using AM or UM RLC;
1>	create secondary E-DCH active sets that contain at least one common radio link across a F-DPCH frame boundary as the result of one or multiple (parallel) active set update procedures.
UTRAN should include the following information:
1>	IE "Radio Link Addition Information": Downlink DPCH information and other optional parameters relevant for the radio links to be added along with the IE "Primary CPICH info" used for the reference ID to indicate which radio link to add. This IE is needed in cases a) and c) listed above;
1>	IEs "Downlink Secondary Cell Info FDD": Downlink optional parameters relevant to the reception of secondary serving HS-DSCH cells;
1>	IE "Uplink Secondary Cell Info FDD": Uplink optional parameters relevant to transmission on secondary uplink frequency;
1>	IE "Radio Link Removal Information": IE "Primary CPICH info" used for the reference ID to indicate which radio link to remove. This IE is needed in cases b) and c) listed above;
1>	IE "Radio link addition information on secondary UL frequency": Downlink F-DPCH information and other optional parameters relevant for the radio links to be added along with the IE "Primary CPICH info" used for the reference ID to indicate which radio link to add on the secondary uplink frequency. This IE is needed in cases f) and h) listed above;
1>	IE "Radio link removal information on secondary UL frequency": IE "Primary CPICH info" used for the reference ID to indicate which radio link to remove on the secondary uplink frequency. This IE is needed in cases g) and h) listed above;
1>	IE "E-DCH reconfiguration information": IE "Primary CPICH info" used for the reference ID along with the IE "E-HICH information" to indicate which radio link to add to the E-DCH active set. This IE is needed in case d) above, when the RL added to the E-DCH active set is already in the DCH active set;
1>	IE "E-DCH reconfiguration information": IE "Primary CPICH info" used for the reference ID along with the IE "E-HICH release indicator" to indicate which radio link to remove from the E-DCH active set. This IE is needed in case e) above, when the RL removed from the E-DCH active set remains in the DCH active set.
NOTE:	The UE behaviour is unspecified if SRBs are mapped on E-DCH and the value for the E_DCH_TRANSMISSION variable is changed to FALSE via the Active Set Update procedure; or if SRBs are mapped on HS-DSCH and the value for the HS_DSCH_RECEPTION variable is changed to FALSE via the Active Set Update procedure.
8.3.4.3	Reception of an ACTIVE SET UPDATE message by the UE
Upon reception of an ACTIVE SET UPDATE message the UE shall act upon all received information elements as specified in 8.6, unless specified otherwise in the following.
The UE may:
1>	maintain a list of the set of cells to which the UE has Radio Links if the IE "Cell ID" is present.
The UE shall:
1>	first add the RLs indicated in the IE "Radio Link Addition Information" which are not yet contained in the UEs active set;
1>	remove the RLs indicated in the IE "Radio Link Removal Information". If the UE active set is full or becomes full, an RL, which is included in the IE "Radio Link Removal Information" for removal, shall be removed before adding RL, which is included in the IE "Radio Link Addition Information" for addition;
1>	if the IE "Radio Links without DPCH/F-DPCH info" is present:
2>	store this IE and indicate to lower layers to start operation with Radio Links without DPCH/F-DPCH.
1>	else:
2>	perform the physical layer synchronisation procedure B as specified in [29] for the radio links which are not yet contained in the UEs active set.
1>	if the IE "E-HICH information" is included:
2>	store this E-HICH configuration for the concerning radio link.
1>	if the IE "E-HICH information" is included:
2>	store this E-RGCH configuration for the concerning radio link, if included.
1>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28;
1>	stop and reset timer T324 if running;
1>	stop monitoring target cell HS-SCCH;
1>	if the IE "MAC-es/e reset indicator" is included in the IE "UL 16QAM configuration":
2>	reset the MAC-es/e / MAC-is/i entity [15].
1>	if the IE "MAC-is/i reset indicator" is included in the IE "UL 64QAM configuration":
2>	reset the MAC-is/i entity [15].
1>	if both "UL 16QAM configuration" and "UL 64QAM configuration" IEs are included:
2>	the UE behaviour is unspecified.
NOTE 1:	If the IE "MAC-es/e reset indicator" is not included in the IE "UL 16QAM configuration" and 16QAM operations starts or stops, the UE behaviour is unspecified.
NOTE 1a:	If the IE "MAC-is/i reset indicator" is not included in the IE "UL 64QAM configuration" and 64QAM operations starts or stops, the UE behaviour is unspecified.
1>	if the IE "UL 16QAM settings" is not included in the IE "16QAM configuration":
2>	indicate to lower layers to stop any operation in 16QAM mode.
1>	if the IE "UL 64QAM settings" is not included in the IE "UL 64QAM configuration":
2>	indicate to lower layers to stop any operation in 64QAM mode.
NOTE 2:	If the IE "UL 16QAM configuration" is not included and 16QAM mode operation is currently ongoing, the UE behaviour is unspecified.
NOTE 2a:	If the IE "UL 64QAM configuration" is not included and 64QAM mode operation is currently ongoing, the UE behaviour is unspecified.
1>	if the IEs "E-TFCI Boost Info" and/or "E-DPDCH power interpolation" are present, act on the received information elements;
1>	if the IEs "E-DPCCH/DPCCH power offset" and/or "Reference E-TFCI PO" are included in the IE "E-DCH reconfiguration information same serving cell", act on the received information elements;
NOTE 3:	If E-TFCI boost is signalled to the UE and a reference E-TFCI <= E-TFCI Boost is signalled to the UE with a Reference E-TFCI PO of value 30 or 31, the UE behaviour is unspecified.
1>	if the IE "Uplink MIMO Info FDD" is present, then act on the received information element as specified in 8.6.6.62;
1>	if the IE "Power Control Algorithm 3" is included in the IE "Radio Link Addition Information":
2>	if the variable DTX_DRX_STATUS is set to TRUE:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	else:
3>	indicate to lower layer to perform Power Control Algorithm 3 on the radio link indicated in this IE, as specified in [29].
NOTE 4:	As a result of ACTIVE SET UPDATE message, for those radio links on the same carrier configured with Power Control Algorithm 3, the same power control parameters shall be used; otherwise, the UE behaviour is unspecified.
1>	if the radio link currently considered to be the serving HS-DSCH radio link is indicated in the IE "Radio Link Removal Information":
2>	no longer consider any radio link as the serving HS-DSCH radio link;
2>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25.
1>	for each radio link in the IE "Radio Link Addition Information":
2>	take the actions related to TARGET_CELL_PRECONFIGURATION variable as described in subclause 8.5.52.
1>	if the radio link in the IE "Radio Link Addition Information" is already contained in the UE active set and the IE "Radio Link Addition Information" attempts to reconfigure parameters other than "Target cell preconfiguration information" IE for the radio link:
2>	the UE behaviour is unspecified.
NOTE 5:	To configure or reconfigure the "Target cell preconfiguration information" IE for the radio link already contained in the UE active set, UTRAN should provide the same value of the mandatory IEs in the IE "Radio Link Addition Information" as the one previously configured. Otherwise the UE behaviour is unspecified.

1>	if the table "Target cell preconfigurations" in the variable TARGET_CELL_PRECONFIGURATION included the RL indicated in IE "Radio Link Removal Information":
2>	clear the entry from the variable TARGET_CELL_PRECONFIGURATION.
1>	if the "E-DCH RL Info other cells" in the table "Target cell preconfiguration information" in the variable TARGET_CELL_PRECONFIGURATION included the RL indicated in the IE "Radio Link Removal Information":
2>	clear all "E-DCH RL Info other cells" entries in the variable TARGET_CELL_PRECONFIGURATION for the removed RL(s).
1>	if the radio link currently considered to be the serving E-DCH radio link is indicated in the IE "Radio Link Removal Information":
2>	no longer consider any radio link as the serving E-DCH radio link.
1>	if the IE "Uplink Secondary Cell Info FDD" is included; or
1>	if the IE "E-DCH reconfiguration information on secondary uplink frequency" is included; or
1>	if the IE "Radio link addition information on secondary UL frequency" is included; or
1>	if the IE "Radio link removal information on secondary UL frequency" is included:
2>	act as specified in 8.3.4.3a.
1>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28;
1>	if the IE "DPCCH2 info FDD" is present, determine the value for the DPCCH2_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.83;
1>	set the IE "RRC transaction identifier" in the ACTIVE SET UPDATE COMPLETE message to the value of "RRC transaction identifier" in the entry for the ACTIVE SET UPDATE message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	transmit an ACTIVE SET UPDATE COMPLETE message on the uplink DCCH using AM RLC without waiting for the completion of the Physical Layer synchronisation B, as specified in [29];
1>	the procedure ends on the UE side.
8.3.4.3a	Handling of ACTIVE SET UPDATE message on secondary uplink frequency (FDD only)
The UE shall:
1>	if the IE "Uplink Secondary Cell Info FDD" is included:
2>	act as specified in subclause 8.6.6.49.
2>	determine the value for the SECONDARY_CELL_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.58.
1>	if the IE "Radio link addition information on secondary UL frequency" or the IE "Radio link removal information on secondary UL frequency" is included:
2>	first add the RLs indicated in the IE "Radio link addition information on secondary UL frequency";
2>	remove the RLs indicated in the IE "Radio link removal information on secondary UL frequency". If the UE secondary E-DCH active set is full or becomes full, an RL, which is included in the IE "Radio link removal information on secondary UL frequency" for removal, shall be removed before adding RL, which is included in the IE "Radio link addition information on secondary UL frequency" for addition;
2>	store this E-HICH configuration for the concerning radio link to be added, if included;
2>	store this E-RGCH configuration for the concerning radio link to be added, if included;
2>	if the secondary uplink frequency is an activated uplink frequency after the active set update procedure:
3>	if the IE "Radio Links without DPCH/F-DPCH indicator" is present:
4>	store the IE "F-DPCH frame offset" and ignore all other IEs received in "Downlink F-DPCH info for each RL on secondary UL frequency";
4>	indicate to lower layers to start operation with Radio Links without DPCH/F-DPCH.
3>	else:
4>	perform the physical layer synchronisation procedure B as specified in [29] for the concerning radio link to be added if included.
2>	if the IE "Power Control Algorithm 3" is included in the IE "Radio link addition information on secondary UL frequency":
3>	if the variable DTX_DRX_STATUS is set to TRUE:
4>	set the variable INVALID_CONFIGURATION to TRUE.
3>	else:
4>	indicate to lower layer to perform Power Control Algorithm 3 on the radio link indicated in this IE, as specified in [29].
NOTE:	As a result of ACTIVE SET UPDATE message, for those radio links on the same carrier configured with Power Control Algorithm 3, the same power control parameters shall be used; otherwise, the UE behaviour is unspecified.
1>	if the IE "E-DCH reconfiguration information on secondary UL frequency" is included:
2>	if the IE "E-DCH RL Info for other cells" is present:
3>	if the IE "E-HICH Information" is present:
4>	store the E-HICH and E-RGCH information (if present), contained therein, for the indicated radio link.
3>	if the IE "E-RGCH release indicator" is present:
4>	delete the stored E-RGCH configuration for the indicated radio link.
2>	if the IE "E-DCH RL Info for new secondary serving E-DCH cell" is present:
3>	consider the radio link identified by the IE "Primary CPICH info" in the first IE "Downlink secondary cell info FDD" as the secondary serving E-DCH radio link, and no longer consider any other radio link as secondary serving E-DCH radio link except when Serving E-DCH cell decoupling is configured.
3>	store the E-HICH and E-RGCH information (if present), contained therein, for the new secondary serving E-DCH radio link;
3>	if the IE "E-RGCH release indicator" is present:
4>	delete the stored E-RGCH configuration for the new secondary serving E-DCH radio link.
3>	store the newly received E-AGCH configuration for the new secondary serving E-DCH radio link;
3>	if the old secondary serving E-DCH cell remains in the secondary E-DCH active set after the active set update, or if the new secondary serving E-DCH cell was already in the secondary E-DCH active set prior to the active set update:
4>	keep the current activation status of the secondary uplink frequency and take the corresponding actions as described in subclause 8.5.58.
3>	otherwise:
4>	consider the secondary uplink frequency as not activated and take the corresponding actions as described in subclause 8.5.58.
NOTE:	UTRAN should configure the same value of IE "F-DPCH frame offset" for the serving E-DCH radio link and the secondary serving E-DCH radio link, otherwise the UE behaviour is unspecified.

8.3.4.4	Unsupported configuration in the UE
If UTRAN instructs the UE to use a configuration that it does not support, the UE shall:
1>	keep the active set as it was before the ACTIVE SET UPDATE message was received;
1>	transmit an ACTIVE SET UPDATE FAILURE message on the DCCH using AM RLC;
1>	set the IE "RRC transaction identifier" in the ACTIVE SET UPDATE FAILURE message to the value of "RRC transaction identifier" in the entry for the ACTIVE SET UPDATE message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the IE "failure cause" to "configuration unsupported";
1>	when the ACTIVE SET UPDATE FAILURE message has been submitted to lower layers for transmission:
2>	the procedure ends on the UE side.
8.3.4.5	Invalid configuration
If any of the following conditions are valid:
-	a radio link indicated by the IE "Downlink DPCH info for each RL" in the IE "Radio link addition information" has a different spreading factor than the spreading factor for the radio links in the active set that will be established at the time indicated by the IE "Activation time"; and/or
-	a radio link in the IE "Radio link addition information" is also present in the IE "Radio Link Removal Information"; and/or
-	a radio link in the IE "Radio link addition information on secondary UL frequency" is also present in the IE "Radio link removal information on secondary UL frequency"; and/or
-	the IE "Radio Link Removal Information" contains all the radio links which are part of or will be part of the active set at the time indicated by the IE "Activation time"; and/or
-	the IE "Radio link removal information on secondary UL frequency" contains all the radio links which are part of or will be part of the secondary E-DCH active set at the time indicated by the IE "Activation time"; and/or
-	the IE "TX Diversity Mode" is not set to "none" and it indicates a diversity mode that is different from the one currently used (<STTD> or <closed loop mode1>) in all or part of the active set; and/or
-	the IE "TX Diversity Mode" is set to "closed loop mode1" and there are two configured uplink frequencies; and/or
-	a radio link indicated by the IE "Radio Link Removal Information" does not exist in the active set; and/or
-	a radio link indicated by the IE "Radio link removal information on secondary UL frequency" does not exist in the secondary E-DCH active set; and/or
-	after the removal of all radio links indicated by the IE "Radio Link Removal Information" and the addition of all radio links indicated by the IE "Radio Link Addition Information" the active set would contain more than the maximum allowed number of radio links; and/or
-	after the removal of all radio links indicated by the IE "Radio link removal information on secondary UL frequency" and the addition of all radio links indicated by the IE "Radio link addition information on secondary UL frequency" the secondary E-DCH active set would contain more than the maximum allowed number of radio links; and/or
-	after the addition of all radio links indicated by the IE "Radio Link Addition Information" the active set would contain radio links indicated by the IE "Downlink DPCH info for each RL" and radio links indicated by the IE "Downlink F-DPCH info for each RL"; and/or
-	after the addition of all radio links, the active set would contain a radio link configured with the IE "Downlink DPCH info for each RL" and the RL would be included in the table "Target cell preconfigurations" in the variable TARGET_CELL_PRECONFIGURATION; and/or
-	the IE "Downlink information per radio link list on secondary UL frequency" is present in the IE "Uplink Secondary Cell Info FDD" in the received message; and/or
-	the IE "Radio link addition information on secondary UL frequency" or the IE "Radio link removal information on secondary UL frequency" is included while the secondary E-DCH active set prior to the reception of the message do not contain any radio link; and/or
-	the variable INVALID_CONFIGURATION is set to TRUE:
the UE shall:
1>	keep the active set as it was before the ACTIVE SET UPDATE message was received;
1>	transmit an ACTIVE SET UPDATE FAILURE message on the DCCH using AM RLC;
1>	set the IE "RRC transaction identifier" in the ACTIVE SET UPDATE FAILURE message to the value of "RRC transaction identifier" in the entry for the ACTIVE SET UPDATE message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the IE "failure cause" to "Invalid configuration";
1>	When the ACTIVE SET UPDATE FAILURE message has been submitted to lower layers for transmission:
2>	the procedure ends on the UE side.
If the following condition is valid:
-	the active set update procedure results in active sets that do not contain at least one common radio link before and after a DPCH or F-DPCH frame boundary:
the UE behaviour is not specified.
8.3.4.5a	Void

8.3.4.5b	Incompatible simultaneous reconfiguration
If the variable ORDERED_RECONFIGURATION is set to TRUE, the UE may:
1>	if the activation time for the procedure that has set variable ORDERED_RECONFIGURATION and the activation time for the Active Set Update procedure are within a time window of 5 frames:
2>	transmit an ACTIVE SET UPDATE FAILURE message on the uplink DCCH using AM RLC;
2>	set the IE "RRC transaction identifier" in the ACTIVE SET UPDATE FAILURE message to the value of "RRC transaction identifier" in the entry for the ACTIVE SET UPDATE message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "failure cause" to the cause value "incompatible simultaneous reconfiguration";
2>	when the ACTIVE SET UPDATE FAILURE message has been delivered to lower layers for transmission:
3>	continue with any ongoing processes and procedures as if the ACTIVE SET UPDATE message has not been received.
3>	and the procedure ends.
8.3.4.6	Reception of the ACTIVE SET UPDATE COMPLETE message by the UTRAN
When the UTRAN has received the ACTIVE SET UPDATE COMPLETE message,
1>	the UTRAN may remove radio link(s) that are indicated to remove to the UE in case b), c), g) and h); and
1>	the procedure ends on the UTRAN side.
8.3.4.7	Reception of the ACTIVE SET UPDATE FAILURE message by the UTRAN
When the UTRAN has received the ACTIVE SET UPDATE FAILURE message, the UTRAN may delete radio links that were included in the IE "Radio Link Addition Information" and the IE "Radio link addition information on secondary UL frequency" for addition. The procedure ends on the UTRAN side.
8.3.4.8	Invalid ACTIVE SET UPDATE message
If the ACTIVE SET UPDATE message contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	transmit a ACTIVE SET UPDATE FAILURE message on the uplink DCCH using AM RLC;
1>	set the IE "RRC transaction identifier" in the ACTIVE SET UPDATE FAILURE message to the value of "RRC transaction identifier" in the entry for the ACTIVE SET UPDATE message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the IE "failure cause" to the cause value "protocol error";
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	when the ACTIVE SET UPDATE FAILURE message has been delivered to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid ACTIVE SET UPDATE message has not been received;
2>	and the procedure ends.
8.3.4.9	Reception of an ACTIVE SET UPDATE message in wrong state
If the UE is in another state than CELL_DCH state upon reception of the ACTIVE SET UPDATE message, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	transmit a ACTIVE SET UPDATE FAILURE message on the uplink DCCH using AM RLC;
1>	set the IE "RRC transaction identifier" in the ACTIVE SET UPDATE FAILURE message to the value of "RRC transaction identifier" in the entry for the ACTIVE SET UPDATE message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the IE "failure cause" to the cause value "protocol error";
1>	include the IE "Protocol error information" with the IE "Protocol error cause" set to "Message not compatible with receiver state";
1>	when the ACTIVE SET UPDATE FAILURE message has been delivered to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the ACTIVE SET UPDATE message has not been received;
2>	and the procedure ends.
8.3.5	Hard handover
When performing hard handover with change of frequency, the UE shall:
1>	clear the variable "Adjacent frequency info", "Inter-band frequency info" and "Frequency info list for enhanced measurement" if any of them is stored in CELL_INFO_LIST;
1>	stop all intra-frequency and inter-frequency measurement reporting on the cells listed in the variable CELL_INFO_LIST. Each stopped measurement is restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
8.3.5.1	Timing re-initialised hard handover
8.3.5.1.1	General
The purpose of the timing re-initialised hard handover procedure is to remove all the RL(s) in the active set and establish new RL(s) along with a change in the CFN in the UE according to the SFN of the target cell.(see subclause 8.5.15).
For TDD timing re-initialised hard handover is realised via CFN calculation (see subclause 8.5.15.2).
NOTE:	For FDD, during the hard-handover procedure, the UE will align the timing of the uplink transmission as specified in [26].
This procedure is initiated when UTRAN does not know the target SFN timing before hard handover.
8.3.5.1.2	Initiation (FDD only)
Timing re-initialised hard handover initiated by the UTRAN is normally performed by using the procedure "Physical channel reconfiguration" (subclause 8.2.6), but may also be performed by using either one of the following procedures:
-	"radio bearer establishment" (subclause 8.2.1);
-	"Radio bearer reconfiguration" (subclause 8.2.2);
-	"Radio bearer release" (subclause 8.2.3); or
-	"Transport channel reconfiguration" (subclause 8.2.4).
In this case of a timing re-initialised hard handover, UTRAN should include the IE "Default DPCH Offset Value" and:
1>	in FDD mode:
2>	if the UE is configured for DPCH:
3>	set "Default DPCH Offset Value" and "DPCH frame offset" respecting the following relation
	(Default DPCH Offset Value) mod 38400 = DPCH frame offsetj
-	where j indicates the first radio link listed in the message and the IE values used are the Actual Values of the IEs as defined in clause 11.
2>	if the UE is configured for F-DPCH:
3>	set "Default DPCH Offset Value" and "DPCH frame offsetj" respecting one of the following relations:
4>	(Default DPCH Offset Value) mod 38400 = DPCH frame offsetj; or
4>	(Default DPCH Offset Value+256) mod 38400 = DPCH frame offsetj,
-	where j indicates the first radio link listed in the message and the IE values used are the Actual Values of the IEs as defined in clause 11.
If the IE "Default DPCH Offset Value" is included, the UE shall:
1>	in FDD mode:
2>	if the UE is configured for DPCH:
3>	if (Default DPCH Offset Value) mod 38400 = DPCH frame offsetj,
-	where j indicates the first radio link listed in the message:
4>	set DOFF (see subclause 8.5.15.1) to Default DPCH Offset Value.
3>	else:
4>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if the UE is configured for F-DPCH:
3>	if (Default DPCH Offset Value) mod 38400 = DPCH frame offsetj,
-	where j indicates the first radio link listed in the message:
4>	set DOFF	(see subclause 8.5.15.1) to Default DPCH Offset Value.
3>	else if (Default DPCH Offset Value+256) mod 38400 = DPCH frame offsetj,
-	where j indicates the first radio link listed in the message:
4>	set DOFF (see subclause 8.5.15.1) to Default DPCH Offset Value + 256.
3>	else:
4>	set the variable INVALID_CONFIGURATION to TRUE.
If the IE "Default DPCH Offset Value" is not included, the UE shall:
1>	set the variable INVALID_CONFIGURATION to TRUE.
8.3.5.2	Timing-maintained hard handover
8.3.5.2.1	General
The purpose of the Timing-maintained hard handover procedure is to remove all the RL(s) in the active set and establish new RL(s) while maintaining the CFN in the UE.
For TDD timing re-initialised hard handover is realised via CFN calculation (see subclause 8.5.15.2).
NOTE:	For FDD, during the hard-handover procedure, the UE will align the timing of the uplink transmission as specified in [26].
This procedure can be initiated only if UTRAN knows the target SFN timing before hard handover. The target SFN timing can be known by UTRAN in the following 2 cases:
-	UE reads SFN when measuring "Cell synchronisation information" and sends it to the UTRAN in MEASUREMENT REPORT message.
-	UTRAN internally knows the time difference between the cells.
8.3.5.2.2	Initiation (FDD only)
Timing-maintained hard handover initiated by the network is normally performed by using the procedure "Physical channel reconfiguration" (subclause 8.2.6), but may also be performed by using either one of the following procedures:
-	"radio bearer establishment" (subclause 8.2.1);
-	"Radio bearer reconfiguration" (subclause 8.2.2);
-	"Radio bearer release" (subclause 8.2.3); or
-	"Transport channel reconfiguration" (subclause 8.2.4).
In this case of a timing maintained hard handover procedure the UTRAN should not include the IE "Default DPCH Offset Value".
If the IE "Default DPCH Offset Value" is included, the UE shall:
1>	ignore the IE "Default DPCH Offset Value".
8.3.6	Inter-RAT handover to UTRAN


Figure 8.3.6-1: Inter-RAT handover to UTRAN, successful case
8.3.6.1	General
The purpose of the inter-RAT handover procedure is to, under the control of the network, transfer a connection between the UE and another radio access technology (e.g. GSM, E-UTRA or NR) to UTRAN.
This procedure may be used to perform CS handover which applies when there is a signalling connection to the CS domain.
When the UE supports Inter-RAT PS handover, this procedure may be used to perform PS handover which applies when there is only a signalling connection to the PS domain.
This procedure may be used to perform simultaneous CS and PS handover (i.e. DTM Handover) which applies when there are signalling connections to both CS and PS domains.
This procedure may be used to perform PS to CS handover (i.e. SR-VCC Handover) which applies when there is a signalling connection in E-UTRA or NR PS domain to be transferred to UTRA CS domain. For E-UTRA, SR-VCC handover may be performed with a simultaneous PS handover. For NR, SR-VCC handover can only be performed without a simultaneous PS handover.
This procedure may be used to perform CS to PS handover (i.e. rSR-VCC Handover) which applies when there is a signalling connection in GSM CS domain to be transferred to UTRA PS domain. The rSR-VCC Handover may be performed with a simultaneous PS handover.
8.3.6.2	Initiation
The procedure is initiated when a radio access technology other than UTRAN, e.g. GSM, E-UTRA or NR, using radio access technology-specific procedures, orders the UE to make a handover to UTRAN.
A Handover to UTRAN command message is sent to the UE via the radio access technology from which inter- RAT handover is performed.
In case UTRAN decides to use a predefined or default radio configuration that is stored in the UE, it should include the following information in the Handover to UTRAN command message.
-	the IE "New U-RNTI" to be assigned;
-	the IE "Predefined configuration identity", to indicate which pre-defined configuration of RB, transport channel and physical channel parameters shall be used; or
-	the IE "Default configuration mode" and IE "Default configuration identity", to indicate which default configuration of RB, transport channel and physical channel parameters shall be used;
-	PhyCH information elements.
NOTE 1:	When using a predefined or default configuration during handover to UTRAN, UTRAN can only assign values of IEs "New U-RNTI" and "scrambling code" that are within the special subranges defined exclusively for this procedure. UTRAN may re- assign other values after completion of the handover procedure.
NOTE 2:	When using a predefined or default configuration during handover to UTRAN, fewer IEs are signalled; when using this signalling option some parameters e.g. concerning compressed mode, DSCH can not be configured. In this case, the corresponding functionality can not be activated immediately.
NOTE 3:	When using a predefined or default configuration, the HANDOVER TO UTRAN COMMAND should not include more than one radio link. If UTRAN includes more than one radio link in the HANDOVER TO UTRAN COMMAND using a predefined or default configuration, the UE behaviour is unspecified.
In case UTRAN does not use a predefined radio configuration that is stored in the UE, it should include the following information in the Handover to UTRAN command message.
-	the IE "New U-RNTI" to be assigned;
-	the complete set of RB, TrCH and PhyCH information elements to be used.
8.3.6.3	Reception of Handover to UTRAN command message by the UE
The UE shall be able to receive a HANDOVER TO UTRAN COMMAND message and perform an inter-RAT handover, even if no prior UE measurements have been performed on the target UTRAN cell and/or frequency.
The UE shall act upon all received information elements as specified in subclause 8.6, unless specified otherwise in the following.
The UE may:
1>	maintain a list of the set of cells to which the UE has Radio Links if the IE "Cell ID" is present.
The UE shall:
1>	store a U-RNTI value (32 bits), which is derived by the IEs "SRNC identity" and "S-RNTI 2" included in IE "U-RNTI-short". In order to produce a full size U-RNTI value, a full size "S-RNTI" (20 bits) shall be derived by padding the IE "S-RNTI 2" with 10 zero bits in the most significant positions; and
1>	if the HANDOVER TO UTRAN COMMAND message is used to perform anything other than CS handover from GERAN and the message does not contain at least one instance of the IE "RAB Info";
2>	the UE behaviour is unspecified.
1>	initialise the variable ESTABLISHED_SIGNALLING_CONNECTIONS with the signalling connections that remains after the handover according to the specifications of the source RAT;
NOTE 0:	The IE "CN domain identity" in IE "RAB Info" in the HANDOVER TO UTRAN COMMAND message determines towards which CN domain  signalling connections are established. The HANDOVER TO UTRAN COMMAND message contains at least one IE "RAB Info" except in the CS domain handover from GERAN case where it may not be present, in which case the UE behaviour is the same as if "CN domain identity" had been received and set to "CS Domain".
1>	initialise the variable UE_CAPABILITIES_TRANSFERRED with the UE capabilities that have been transferred to the network up to the point prior to the handover, if any;
1>	initialise the variable TIMERS_AND_CONSTANTS to the default values and start to use those timer and constants values;
1>	if IE "Specification mode" is set to "Preconfiguration" and IE "Preconfiguration mode" is set to "Predefined configuration":
2>	initiate the radio bearer and transport channel configuration in accordance with the predefined parameters identified by the IE "Predefined configuration identity";
2>	initiate the physical channels in accordance with the predefined parameters identified by the IE "Predefined radio configuration identity" and the received physical channel information elements;
2>	store information about the established radio access bearers and radio bearers according to the IE "Predefined configuration identity"; and
2>	set the IE "RAB Info Post" in the variable ESTABLISHED_RABS and the IE "Re-establishment timer" in the IE "RAB Info" in the variable ESTABLISHED_RABS to "useT314".
1>	if IE "Specification mode" is set to "Preconfiguration" and IE "Preconfiguration mode" is set to "Default configuration":
2>	initiate the radio bearer and transport channel configuration in accordance with the default parameters identified by the IE "Default configuration mode" and IE "Default configuration identity";
2>	initiate the physical channels in accordance with the default parameters identified by the IE "Default configuration mode" and IE "Default configuration identity" and the received physical channel information elements;
NOTE 1:	IE "Default configuration mode" specifies whether the FDD or TDD version of the default configuration shall be used.
2>	set the IE "RAB Info Post" in the variable ESTABLISHED_RABS and the IE "Re-establishment timer" in the IE "RAB Info" in the variable ESTABLISHED_RABS to "useT314".
1>	if IE "Specification mode" is set to "Preconfiguration":
2>	use the following values for parameters that are neither signalled within the HANDOVER TO UTRAN COMMAND message nor included within pre-defined or default configuration:
3>	0 dB for the power offset P Pilot-DPDCH bearer in FDD;
3>	calculate the Default DPCH Offset Value using the following formula:
3>	in FDD:
	Default DPCH Offset Value = (SRNTI 2 mod 600) * 512
3>	in TDD:
	Default DPCH Offset Value = (SRNTI 2 mod 7)
3>	handle the above Default DPCH Offset Value as if an IE with that value was included in the message, as specified in subclause 8.6.6.14.
1>	if IE "Specification mode" is set to "Complete specification":
2>	initiate the radio bearer, transport channel and physical channel configuration in accordance with the received radio bearer, transport channel and physical channel information elements.
1>	if IE "Default configuration for CELL_FACH" is set:
2>	act in accordance with the default parameters according to section 13.8.
1>	perform an open loop estimation to determine the UL transmission power according to subclause 8.5.3;
1>	set the IE "START" for each CN domain, in the IE "START list" in the HANDOVER TO UTRAN COMPLETE message equal to the START value for each CN domain as stored in the volatile memory of the ME for each CN domain if the USIM or the SIM is present;
NOTE 2:	Keys received while in another RAT (GERAN) or generated when coming from another RAT (EUTRAN) are not regarded as "new" (i.e.do not trigger the actions in subclause 8.1.12.3.1) in a subsequent security mode control procedure in UTRAN, irrespective of whether the keys are already being used in the other RAT or not. If the UE has received new keys in the other RAT before handover, then the START values in the USIM (sent in the HANDOVER TO UTRAN COMPLETE message and in the INTER_RAT_HANDOVER_INFO sent while in the other RAT) will not reflect the receipt of these new keys
If the source RAT is not E-UTRAN and the procedure is not an rSR-VCC handover, and it is not a SR-VCC handover from NR: If ciphering has been active for the CS domain in the source RAT, then during the first security mode control procedure following the Inter-RAT handover to UTRAN procedure, UE activates integrity protection using the integrity key of the key set used. The term "key set used" denotes the key set that was used in the last successfully completed RRC Security Mode Control (UTRAN), RR Cipher Mode Control procedure or GMM Authentication and Ciphering procedure (GERAN) after entering connected mode in UTRAN or GERAN. The term "if ciphering has been active for the CS domain" is defined by a successfully completed RRC Security Mode Control procedure with "Ciphering Mode Info" (UTRAN) or RR Cipher Mode Control  procedure (GERAN) for the CS domain. More specifically the state of ciphering refers to the establishment of a security context where the key is loaded from the (U)SIM to the ME even if the security command indicates NULL ciphering ("no ciphering" in GERAN or UEA0 in UTRAN).
If the source RAT is GERAN: Upon performing rSR-VCC(CS to PS), then during the first security mode control procedure following the Inter-RAT handover to UTRAN procedure, UE activates integrity protection using the integrity key of the key set as defined in [40].
If the source RAT is E-UTRAN: Upon performing SR-VCC (PS to CS) or PS handover, then during the first security mode control procedure following the Inter-RAT handover to UTRAN procedure, UE activates integrity protection using the integrity key of the key set used (see 8.1.12.2.2.). The term "key set used" denotes the CS (SR-VCC) or PS (PS handover) key set (KSI, CK, IK)  which was mapped using the current SECURITY CONTEXT in EUTRAN as defined in [78] and [79].
If the source RAT is NR: Upon performing SR-VCC (PS to CS), then during the first security mode control procedure following the Inter-RAT handover to UTRAN procedure, UE activates integrity protection using the integrity key of the key set used (see 8.1.12.2.2.). The term "key set used" denotes the CS (SR-VCC) key set (KSI, CK, IK) which is defined in [92].
1>	set the value of "THRESHOLD" in the variable "START_THRESHOLD" to the 20 MSBs of the value stored in the USIM [50] for the maximum value of START for each CN Domain, or to the default value in [40] if the SIM is present;
1>	if ciphering is indicated in the HANDOVER TO UTRAN COMMAND by the presence of the IE "Ciphering Algorithm":
2>	for the handover of CS domain, indicated by the IE "CN domain identity" of the IE "RAB info" of the IE "RAB information to setup" set to "CS domain" or absence of this IE, if ciphering was not active in the radio access technology from which inter-RAT handover is performed:
3>	the UE behaviour is unspecified.
NOTE 2a:	The handover of the CS domain from GERAN to UTRAN is particular because CS ciphering must be maintained across the inter-RAT handover procedure. For other inter-RAT handover procedures (SR-VCC, rSR-VCC and PS handover) ciphering in UTRAN is not dependent on previous ciphering status in the source radio access technology.
2>	if the handover is from EUTRAN and there is no current SECURITY CONTEXT in EUTRAN:
3>	the UE behaviour is unspecified.
NOTE 2b:	The current EUTRAN security context is defined in [78] and [79].  For EUTRA to UTRA key mapping, this context consists of a minimum of the current KASME, the associated key set identifier (KSI) and the associated downlink NAS COUNT values.
2>	set the variable LATEST_CONFIGURED_CN_DOMAIN to the value indicated in the IE "CN domain identity" of the IE "RAB info" of the IE "RAB information to setup" if all instances of the IE indicate the same CN domain, or to the CS domain when this IE is either not present or different instances indicate different CN domains;
2>	for the CN domain in variable LATEST_CONFIGURED_CN_DOMAIN set the IE "Status" in the variable CIPHERING_STATUS to "Started";
2>	if the variable LATEST_CONFIGURED_CN_DOMAIN is set to "CS domain":
3>	set the 20 MSB of the HFN component of the COUNT-C variable for all signalling radio bearers to the "START" value from the IE "UE security information" in the variable INTER_RAT_HANDOVER_INFO_TRANSFERRED.
2>	else if the variable LATEST_CONFIGURED_CN_DOMAIN is set to "PS domain":
3>	set the 20 MSB of the HFN component of the COUNT-C variable for all signalling radio bearers to the "START" value from the IE "UE security information2" in the variable INTER_RAT_HANDOVER_INFO_TRANSFERRED.
2>	if the CN domain indicated in the IE "CN domain identity" of any instance of the IE "RAB info" in the IE "RAB information to setup" is "CS domain":
3>	set the 20 MSB of the HFN component of the COUNT-C variable for all CS domain radio bearers to the "START" value included in the IE "UE security information" in the variable INTER_RAT_HANDOVER_INFO_TRANSFERRED;.
3>	set the IE "Status" in the variable CIPHERING_STATUS to "Started".
2>	if the CN domain indicated in the IE "CN domain identity" of any instance of the IE "RAB info" in the IE "RAB information to setup" is "PS domain":
3>	set the 20 MSB of the HFN component of the COUNT-C variable for all PS domain radio bearers to the "START" value included in the IE "UE security information2" in the variable INTER_RAT_HANDOVER_INFO_TRANSFERRED;
3>	set the IE "Status" in the variable CIPHERING_STATUS to "Started".
2>	set the remaining LSBs of the HFN component of COUNT-C for all radio bearers to zero;
2>	not increment the HFN component of COUNT-C for radio bearers using RLC-TM, i.e. keep the HFN value fixed without incrementing every CFN cycle;
2>	set the CFN component of the COUNT-C variable for radio bearers using RLC-TM to the value of the CFN as calculated in subclause 8.5.15;
2>	for all user radio bearers belonging to the "CS domain" and for signalling radio bearers when the variable LATEST_CONFIGURED_CN_DOMAIN is set to "CS domain":
3>	apply the algorithm according to IE "Ciphering Algorithm" with the ciphering key of the key set used and apply ciphering immediately upon reception of the HANDOVER TO UTRAN COMMAND.
2>	for all user radio bearers belonging to the "PS domain" and for signalling radio bearers when the variable LATEST_CONFIGURED_CN_DOMAIN is set to "PS domain":
3>	If the source RAT is E-UTRA; or
3> if the source RAT is GERAN and the procedure is an rSR-VCC handover:
4>	apply the algorithm according to IE "Ciphering Algorithm" with the ciphering key of the PS key set used and apply ciphering immediately upon reception of the HANDOVER TO UTRAN COMMAND.
3>	Otherwise:
4>	apply the algorithm according to IE "Ciphering Algorithm" with the ciphering key stored in the USIM/SIM and apply ciphering immediately upon reception of the HANDOVER TO UTRAN COMMAND.
NOTE 3:	If ciphering is indicated in the HANDOVER TO UTRAN COMMAND, UTRAN should not include the IE "Ciphering mode info" in the SECURITY MODE COMMAND message that starts Integrity protection. Upon performing simultaneous CS and PS handover (i.e. DTM Handover or SR-VCC with a simultaneous PS handover), UTRAN should start Integrity protection for the CS domain first then the PS domain. UTRAN should not include the IE "Ciphering mode info" in the SECURITY MODE COMMAND message that starts Integrity protection for the CS domain and UTRAN should include the IE "Ciphering mode info" in the SECURITY MODE COMMAND message that starts Integrity protection for the PS domain.
NOTE 4:	DTM Handover is not possible if the IE "specification mode" is set to "Preconfiguration" due to the existence of a single IE "RAB Info".
1>	if ciphering is not indicated in the HANDOVER TO UTRAN COMMAND:
2>	for the CN domain(s) included in the IE "CN domain identity" which is included in the IE "RAB info" of the IE "RAB information to setup", or the CS domain when these IEs are not present:
3>	set the IE "Status" in the variable CIPHERING_STATUS to "Not Started".
If the UE succeeds in establishing the connection to UTRAN, it shall:
1>	if "RAB Info" list contained only one CN domain identity in IE "CN domain identity":
2>	if CN domain is set to CS domain only indicate to upper layers that no CN system information is available for any domain other than the CS domain (see NOTE 5);
2>	if CN domain is set to PS domain only indicate to upper layers that no CN system information is available for any domain other than the PS domain (see NOTE 6).
1>	if "RAB Info" list contained RABs for the PS and CS domain:
2>	indicate to upper layers that CN system information is available for the PS and CS domain (see NOTE 7).
NOTE 5:	After CS handover or SR-VCC handover without a simultaneous PS handover has been completed, the UTRAN should provide the UE with the CN system information of the PS domain as soon as possible, in order not to delay access to the PS domain.
NOTE 6:	After PS handover or rSR-VCC handover has been completed, the UTRAN should provide the UE with the CN system information of the CS and PS domain as soon as possible in order not to delay access to the CS domain and trigger a NAS procedure for the PS domain.
NOTE 7:	After DTM handover or SR-VCC handover with a simultaneous PS handover has been completed, the UTRAN should provide the UE with the CN system information of the PS domain as soon as possible in order to trigger a NAS procedure for the PS domain.
1>	if the IE "Status" in the variable CIPHERING_STATUS of a CN domain is set to "Started" and transparent mode radio bearers have been established by this procedure for that CN domain:
2>	include the IE "COUNT-C activation time" in the response message and specify a CFN value for this IE other than the default, "Now", that is a multiple of 8 frames (CFN mod 8 =0) and lies at least 200 frames ahead of the CFN in which the response message is first transmitted;
2>	at the CFN value as indicated in the response message in the IE "COUNT-C activation time" for radio bearers using RLC-TM:
3>	set the 20 MSB of the HFN component of the COUNT-C variable common for all transparent mode radio bearers of this CN domain to the START value as indicated in the IE "START list" of the response message for the relevant CN domain; and
3>	set the remaining LSBs of the HFN component of COUNT-C to zero;
3>	increment the HFN component of the COUNT-C variable by one even if the "COUNT-C activation time" is equal to zero;
3>	set the CFN component of the COUNT-C to the value of the IE "COUNT-C activation time" of the response message. The HFN component and the CFN component completely initialise the COUNT-C variable;
3>	step the COUNT-C variable, as normal, at each CFN value. The HFN component is no longer fixed in value but incremented at each CFN cycle.
1>	if the IE "Status" in the variable CIPHERING_STATUS of a CN domain is set to "Not Started" and transparent mode radio bearers have been established by this procedure for that CN domain:
2>	initialise the 20 MSB of the HFN component of COUNT-C common for all transparent mode radio bearers of this CN domain with the START value as indicated in the IE "START list" of the response message for the relevant CN domain;
2>	set the remaining LSBs of the HFN component of COUNT-C to zero;
2>	do not increment the COUNT-C value common for all transparent mode radio bearers for this CN domain.
1>	for 3.84/7.68 Mcps TDD, if the HANDOVER TO UTRAN COMMAND provides for E-DCH/HS-DSCH operation without an uplink DPCH:
2>	the UE shall obtain timing advance for the 3.84/7.68 Mcps TDD cell according to [15] before transmitting on the uplink DCCH.
1>	if an IE "Logged Measurement Info-FDD" or "Logged Measurement Info-TDD" in variable LOGGED_MEAS_REPORT_VARIABLE is present and registered PLMN is present in the IE "PLMN Identity List" stored in variable LOGGED_MEAS_REPORT_VARIABLE:
2>	include IE "Logged Meas Available".
1>	if an IE "Logged Connection Establishment Failure Info-FDD" or "Logged Connection Establishment Failure Info-TDD" in variable LOGGED_CONNECTION_ESTABLISHMENT_FAILURE is present and the current Registered PLMN is the same as the PLMN in IE "PLMN Identity" stored in variable LOGGED_CONNECTION_ESTABLISHMENT_FAILURE:
2>	include IE "Connection Establishment Failure Info Available".
1>	transmit a HANDOVER TO UTRAN COMPLETE message on the uplink DCCH, using, if ciphering has been started, the new ciphering configuration;
1>	when the HANDOVER TO UTRAN COMPLETE message has been submitted to lower layers for transmission:
2>	if the source RAT was E-UTRA:
3>	store the CS "key set used" including the mapped KSI to the USIM CS security key if SR-VCC was performed;
3>	store the PS "key set used" including the mapped KSI to the USIM PS security key if PS handover was performed;
2>	if the source RAT was GERAN:
3>	store the PS "key set used" including the mapped KSI to the USIM PS security key if rSR-VCC was performed;
2>	if a SR-VCC handover is performed and the source RAT was NR:
3>	store the CS "key set used" including the mapped KSI to the USIM CS security key if SR-VCC was performed;
3>	indicate to the upper layer that SR-VCC handover from NR was completed successfully.
2>	if the UE supports voice and video SRVCC handover, and a SR-VCC handover is performed:
3>	if radio bearer configurations contain Conversational / speech CS RAB:
4>	indicate to the upper layer that voice-only SRVCC handover was completed successfully.
3>	if radio bearer configurations contain Conversational / unknown / UL:64 DL:64 kbps CS RAB:
4>	indicate to the upper layer that voice and video SRVCC handover was completed successfully.
2> if the UE supports rSRVCC handover, and an rSR-VCC handover is performed;
3>	indicate to the upper layer that rSR-VCC handover was completed successfully.
2>	enter UTRA RRC connected mode in state CELL_DCH;
2>	initialise variables upon entering UTRA RRC connected mode as specified in subclause 13.4;
2>	update the variable UE_CAPABILITY_TRANSFERRED with the UE capabilities stored in the variable INTER_RAT_HANDOVER_INFO_TRANSFERRED.
1>	and the procedure ends.
8.3.6.4	Invalid Handover to UTRAN command message
If the UE receives a Handover to UTRAN command message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling according to the source radio access technology. The UE shall:
1>	if allowed by the source RAT:
2>	transmit an RRC FAILURE INFO message to the source radio access technology; and
2>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	Other details may be provided in the specifications related to the source radio access technology.
NOTE:	The other RAT may include the above diagnostics information in a subsequent handover request towards the same RNC.
8.3.6.4a	Unsupported configuration in HANDOVER TO UTRAN COMMAND message
If the UE does not support the configuration included in the HANDOVER TO UTRAN COMMAND message, e.g., the message includes a pre-defined configuration that the UE has not stored, the UE shall:
1>	continue the connection using the other radio access technology; and
1>	indicate the failure to the other radio access technology.
8.3.6.5	UE fails to perform handover
If the UE does not succeed in establishing the connection to UTRAN, it shall:
1>	terminate the procedure including release of the associated resources;
1>	resume the connection used before the handover; and
1>	indicate the failure to the other radio access technology.
Upon receiving an indication about the failure from the other radio access technology, UTRAN should release the associated resources and the context information concerning this UE.
8.3.6.6	Reception of message HANDOVER TO UTRAN COMPLETE by the UTRAN
Upon receiving a HANDOVER TO UTRAN COMPLETE message, UTRAN should consider the inter-RAT handover procedure as having been completed successfully and indicate this to the Core Network.
8.3.7	Inter-RAT handover from UTRAN

Figure 8.3.7-1: Inter-RAT handover from UTRAN, successful case

Figure 8.3.7-2: Inter-RAT handover from UTRAN, failure case
8.3.7.1	General
The purpose of the inter-RAT handover procedure is to, under the control of the network, transfer a connection between the UE and UTRAN to another radio access technology (e.g. GSM or E-UTRA). This procedure may be used in CELL_DCH state.
This procedure may be used to perform CS handover which applies when the variable ESTABLISHED_SIGNALLING_CONNECTIONS includes at least the CN domain identity "CS Domain".
When the UE supports Inter-RAT PS handover, this procedure may be used to perform PS handover which applies when the variable ESTABLISHED_SIGNALLING_CONNECTIONS includes at least the CN domain identity "PS Domain".
When the UE supports PS to CS handover, this procedure may be used to perform PS to CS handover which applies when the variable ESTABLISHED_SIGNALLING_CONNECTIONS includes at least the CN domain identity "PS Domain".
When the UE supports CS to PS handover, this procedure may be used to perform CS to PS handover which applies when the variable ESTABLISHED_SIGNALLING_CONNECTIONS includes at least the CN domain identity "CS Domain".
This procedure may be used to perform simultaneous CS and PS handover, simultaneous CS to PS and PS handover or, simultaneous PS to CS and PS handover which applies when the variable ESTABLISHED_SIGNALLING_CONNECTIONS includes CN domain identities for both "CS Domain" and "PS Domain".
8.3.7.2	Initiation
The procedure is initiated when UTRAN orders a UE in CELL_DCH state, to make a handover to a radio access technology other than UTRAN, e.g. GSM or E-UTRA.
To initiate the procedure, UTRAN sends a HANDOVER FROM UTRAN COMMAND message.
8.3.7.3	Reception of a HANDOVER FROM UTRAN COMMAND message by the UE
The UE shall be able to receive a HANDOVER FROM UTRAN COMMAND message and perform an inter-RAT handover, even if no prior UE measurements have been performed on the target cell.
The UE shall:
1>	For FDD: 
2>	if the UE has a pending "TGPS reconfiguration CFN" at the activation time received in the HANDOVER FROM UTRAN COMMAND the UE may:
3>	abort the pending CM activation;
3>	set the CM_PATTERN_ACTIVATION_ABORTED to TRUE.
2>	otherwise:
3>	set the CM_PATTERN_ACTIVATION_ABORTED to FALSE.
1>	if the IE "NONCE" in IE "SR-VCC Info" is present:
2>	perform security configurations according to subclause 8.6.3.15.
1>	if the IE "rSR-VCC Info" is included:
2>	act as specified in subclause 8.6.3.16.
1>	establish the connection to the target radio access technology, by using the contents of the IE "Inter-RAT message". This IE contains a message specified in another standard, as indicated by the IE "System type", and carries information about the candidate/ target cell identifier(s) and radio parameters relevant for the target radio access technology. The correspondence between the value of the IE "System type", the standard to apply and the message contained within IE "Inter RAT message" is shown in the following:
Value of the IE "System type"
Standard to apply
Inter-RAT Message
GSM
GSM TS 04.18, version 8.5.0 or later, or 3GPP TS 44.018

3GPP TS 44.060, version 6.13.0 or later

3GPP TS 44.060, version 7.6.0 or later
HANDOVER COMMAND


PS HANDOVER COMMAND

DTM HANDOVER COMMAND
cdma2000
TIA/EIA/IS-2000 or later, TIA/EIA/IS-833 or later, TIA/EIQ/IS-834 or later

E-UTRA
3GPP TS 36.331
DL-DCCH-Message containing RRCConnectionReconfiguration

1>	if the IE "RAB info to replace" is present:
2>	indicate to the upper layers that the radio access bearer identified by the IE "RAB info to replace" is released as part of a SR-VCC procedure.
1>	if the IE "System type" has the value "GSM" or "GERAN Iu":
2>	if the IE "Frequency band" has the value "GSM /DCS 1800 band used":
3>	set the BAND_INDICATOR [45] to "ARFCN indicates 1800 band".
2>	if the IE "Frequency band" has the value " GSM /PCS 1900 band used":
3>	set the BAND_INDICATOR [45] to "ARFCN indicates 1900 band".
1>	apply the "Inter RAT Message" according to the "standard to apply" in the table above.
1>	if the IE "RAB information List" is included in the HANDOVER FROM UTRAN COMMAND message:
2>	if the IE "RAB information List" includes one IE "RAB Info" with the IE "CN domain Identity" set to "CS domain":
3>	connect upper layer entities corresponding to the indicated CS domain RAB to the radio resources indicated in the inter-RAT message.
2>	if the IE "RAB information List" includes one IE "RAB Info" with the IE "CN domain Identity" set to "PS domain":
3>	connect upper layer entities corresponding to the indicated PS domain RAB to the radio resources indicated in the inter-RAT message.
3>	if the "System type" is "GSM":
4>	use the contents of the IE "GERAN system information" as the system information to begin access on the target GERAN cell.
NOTE1:	In this version of the specification the maximum number of CS domain RABs which may be included in the IE "RAB information List" is limited to 1.
NOTE2:	In handover to GERAN Iu mode, the RAB information is included in the RADIO BEARER RECONFIGURATION message.
NOTE3:	Requirements concerning the establishment of the radio connection towards the other radio access technology and the signalling procedure are outside the scope of this specification.
NOTE4:	The UE may ignore the IE "NAS synchronisation indicator" if included in the HANDOVER FROM UTRAN COMMAND message;
NOTE5:	The UE behaviour is undefined if the IE "Re-establishment timer" in the IE "RAB info" indicates a timer different from the timer currently configured for this RAB.
NOTE6:	The IE "GERAN System Information" is constructed in the same way as in 2G to 2G PS Handover in [44].
8.3.7.4	Successful completion of the inter-RAT handover
Upon successfully completing the handover, UTRAN should:
1>	release the radio connection; and
1>	remove all context information for the concerned UE.
Upon successfully completing the handover, the UE shall:
1>	if inter-RAT handover to GERAN Iu mode is performed:
2>	perform the actions on reception of the RADIO BEARER RECONFIGURATION message.
1>	if inter-RAT handover to GERAN Iu mode is performed and if there are any NAS messages for which the successful delivery of the INITIAL DIRECT TRANSFER message or UPLINK DIRECT TRANSFER message on signalling radio bearer RB3 or signalling radio bearer RB4 has not yet been confirmed by RLC; or
1>	if inter-RAT handover to other RAT than GERAN Iu mode and E-UTRAN is performed and if there are any NAS messages with the IE "CN domain identity" set to "CS domain" for which the successful delivery of the INITIAL DIRECT TRANSFER message or UPLINK DIRECT TRANSFER message on signalling radio bearer RB3 or signalling radio bearer RB4 that have not yet been confirmed by RLC:
2>	retransmit those NAS messages to the network on the newly established radio connection to the target radio access technology.
1>	if inter-RAT handover or rSR-VCC to E-UTRAN is performed and if there are any NAS messages for which the successful delivery of the INITIAL DIRECT TRANSFER message or UPLINK DIRECT TRANSFER message on signalling radio bearer RB3 or signalling radio bearer RB4 has not yet been confirmed by RLC:
2>	discard those NAS messages.
1>	clear or set variables upon leaving UTRA RRC connected mode as specified in subclause 13.4;
NOTE:	The release of the UMTS radio resources is initiated from the target RAT.
8.3.7.5	UE fails to complete requested handover
If the UE does not succeed in establishing the connection to the target radio access technology, it shall:
1>	revert back to the UTRA configuration;
1>	For FDD:
2>	if the CM_PATTERN_ACTIVATION_ABORTED flag is not set to TRUE:
3>	establish the UTRA physical channel(s) (including HS-DSCH and E-DCH related channels. If there exists any DTX or DRX configuration, the UE shall instruct the physical layer to consider only the HS-SCCH orders which were acknowledged prior to the activation time of the received message) used at the time for reception of HANDOVER FROM UTRAN COMMAND;
3>	if the variable DTX_DRX_STATUS is set to TRUE, re-configure the physical layer to perform discontinuous uplink DPCCH transmission and enable or disable discontinuous downlink reception operations according to the variable DTX_DRX_PARAMS at the CFN corresponding to the frame boundary that is offset by the stored value of the IE "Enabling Delay" from the frame boundary where uplink transmission resumes with the old configuration;
3>	if the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to TRUE:
4>	consider the secondary uplink frequency as not activated.
3>	perform the physical layer synchronisation procedure A as specified in [29] (FDD only);
3>	apply power control preamble according to [26] during the number of frames indicated in the IE "PC preamble" in the variable LATEST_CONFIGURED_SRB_DELAY_AND_PC_PREAMBLE; and
3>	then not send any data on signalling radio bearers RB0 to RB4 during the number of frames indicated in the IE "SRB delay" in the variable LATEST_CONFIGURED_SRB_DELAY_AND_PC_PREAMBLE or while the physical channel is not considered established.
1>	if the UE does not succeed to establish the UTRA physical channel(s) or for FDD if the CM_PATTERN_ACTIVATION_ABORTED flag is set to TRUE:
2>	perform a cell update procedure according to subclause 8.3.1 with cause "Radio link failure";
2>	when the cell update procedure has completed successfully:
3>	proceed as below.
1>	transmit the HANDOVER FROM UTRAN FAILURE message setting the information elements as specified below:
2>	include the IE "RRC transaction identifier"; and
2>	set it to the value of "RRC transaction identifier" in the entry for the HANDOVER FROM UTRAN COMMAND message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "Inter-RAT handover failure" to "physical channel failure".
1>	When the HANDOVER FROM UTRAN FAILURE message has been submitted to lower layer for transmission:
2>	the procedure ends.
8.3.7.6	Invalid HANDOVER FROM UTRAN COMMAND message
If the IE "Inter-RAT message" received within the HANDOVER FROM UTRAN COMMAND message does not include a valid inter RAT handover message in accordance with the protocol specifications for the target RAT, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	set the IE "failure cause" to the cause value "Inter-RAT protocol error";
1>	include the IE "Inter-RAT message" in accordance with the specifications applicable to the other RAT;
1>	transmit a HANDOVER FROM UTRAN FAILURE message on the uplink DCCH using AM RLC;
1>	when the transmission of the HANDOVER FROM UTRAN FAILURE message has been confirmed by RLC:
2>	continue with any ongoing processes and procedures as if the invalid HANDOVER FROM UTRAN COMMAND message has not been received;
2>	and the procedure ends.
If the HANDOVER FROM UTRAN COMMAND message contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	set the IE "RRC transaction identifier" in the HANDOVER FROM UTRAN FAILURE message to the value of "RRC transaction identifier" in the entry for the HANDOVER FROM UTRAN COMMAND message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the IE "failure cause" to the cause value "protocol error";
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	transmit a HANDOVER FROM UTRAN FAILURE message on the uplink DCCH using AM RLC;
1>	when the HANDOVER FROM UTRAN FAILURE message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid HANDOVER FROM UTRAN COMMAND message has not been received;
2>	and the procedure ends.
8.3.7.7	Reception of an HANDOVER FROM UTRAN FAILURE message by UTRAN
Upon receiving an HANDOVER FROM UTRAN FAILURE message, UTRAN may initiate the release the resources in the target radio access technology.
8.3.7.8	Unsupported configuration in HANDOVER FROM UTRAN COMMAND message
If:
-	the UTRAN instructs the UE to perform a non-supported handover scenario; or
-	the UTRAN instructs the UE to use a non-supported configuration; or
-	the UE does not support PS Handover to GERAN, and the inter-RAT handover to GERAN A/Gb mode is performed and the IE "RAB information List" is included in the HANDOVER FROM UTRAN COMMAND message and this IE does not include any IE "RAB Info" with the IE "CN domain Identity" set to "CS domain"; or
-	the inter-RAT PS handover to GERAN is performed and the HANDOVER FROM UTRAN COMMAND message includes the IE "RAB information List" and includes at least one IE "RAB Info" with the IE "CN domain Identity" set to "PS domain", and the IE "GERAN System Information" is not present; or
-	the inter-RAT handover to E-UTRAN is performed and the HANDOVER FROM UTRAN COMMAND message includes the IE "RAB information List" and includes at least one IE "RAB Info" with the IE "CN domain Identity" set to "CS domain":
the UE shall:
1>	transmit a HANDOVER FROM UTRAN FAILURE message, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier"; and
2>	set it to the value of "RRC transaction identifier" in the entry for the HANDOVER FROM UTRAN COMMAND message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "Inter-RAT handover failure" to "configuration unacceptable";
2>	when the HANDOVER FROM UTRAN FAILURE message has been submitted to lower layers for transmission:
3>	resume normal operation as if the invalid HANDOVER FROM UTRAN COMMAND message has not been received;
3>	and the procedure ends.
8.3.7.8a	Reception of HANDOVER FROM UTRAN COMMAND message by UE in CELL_FACH
If the UE receives HANDOVER FROM UTRAN COMMAND while in CELL_FACH, the UE shall:
1>	transmit a HANDOVER FROM UTRAN FAILURE message, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier"; and
2>	set it to the value of "RRC transaction identifier" in the entry for the HANDOVER FROM UTRAN COMMAND message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "Inter-RAT handover failure" to "protocol error", include IE "Protocol error information"; and
2>	set the value of IE "Protocol error cause" to "Message not compatible with receiver state";
2>	when the HANDOVER FROM UTRAN FAILURE message has been submitted to lower layers for transmission:
3>	resume normal operation as if the invalid HANDOVER FROM UTRAN COMMAND message has not been received;
3>	and the procedure ends.
8.3.8	Inter-RAT cell reselection to UTRAN
8.3.8.1	General
The purpose of the inter-RAT cell reselection procedure to UTRAN is to transfer, under the control of the UE and to some extent the source radio access technology, a connection between the UE and another radio access technology (e.g. GSM/GPRS, but not UTRAN) to UTRAN.
8.3.8.2	Initiation
When the UE makes an inter-RAT cell reselection to UTRAN according to the criteria specified in [4], it shall initiate this procedure. The inter-RAT cell reselection made by the UE may use system information broadcast from the source radio access technology or UE dedicated information.
If the NAS procedures associated with inter-system change specified in [5] require the establishment of an RRC connection, the UE shall:
1>	set the variable ESTABLISHMENT_CAUSE to "Inter-RAT cell reselection";
NOTE:	This value of ESTABLISHMENT_CAUSE has priority over the cause requested by upper layers.
1>	initiate an RRC connection establishment procedure as specified in subclause 8.1.3;
1>	after initiating an RRC connection establishment:
2>	release all resources specific to the other radio access technology.
If the NAS procedures associated with inter-system change specified in [5] do not require the establishment of an RRC connection, the UE shall:
1>	enter idle mode in the target cell without accessing the cell; and
1>	release all resources specific to the other radio access technology.
8.3.8.2a	Initiation of inter-RAT cell reselection from GERAN Iu mode
When the UE performs an inter-RAT cell reselection from GERAN Iu mode Cell_Shared state, the UE shall:
1>	initiate the cell update procedure as specified for the cell reselection case in CELL_FACH and CELL_PCH states, using the cause "cell reselection"and setting the G-RNTI in the IE "U-RNTI".
When the UE performs an inter-RAT cell reselection from GERAN Iu mode GRA_PCH state, the UE shall:
1>	compare the GRA identity which the MS had been assigned to in GERAN against the URA identities which are broadcast in the UTRAN cell.
1>	If the assigned GRA identity is not present in the list of URA identities that are broadcast in the UTRAN cell:
2>	initiate the URA update procedure as specified for the URA reselection case in URA_PCH state, using the cause "change of URA" and setting the G-RNTI in the IE "U-RNTI".
The UE shall:
1>	set the following variables equal to the corresponding variables in GERAN Iu mode:
CIPHERING_STATUS
ESTABLISHED_RABS
ESTABLISHED_SIGNALLING_CONNECTIONS
INTEGRITY_PROTECTION_INFO
INTER_RAT_HANDOVER_INFO_TRANSFERRED
LATEST_CONFIGURED_CN_DOMAIN
START_THRESHOLD
UE_CAPABILITY_TRANSFERRED.
1>	set the new uplink and downlink HFN of RB2 to MSB20(MAX(uplink HFN of RB2, downlink HFN of RB2)).
NOTE: MSB20() operation provides the HFN mapping from GERAN Iu mode to UTRAN. In GERAN Iu mode the length of HFN component of the COUNT-C of RB2 is longer than 20 bits.
1>	initialise the variable TIMERS_AND_CONSTANTS to the default values and start to use those timer and constants values.
8.3.8.3	UE fails to complete an inter-RAT cell reselection
If the inter-RAT cell reselection fails before the UE has initiated the RRC connection establishment the UE may return back to the other radio access technology.
If the RRC connection establishment fails, the UE shall enter idle mode.
8.3.8.3a	UE fails to complete an inter-RAT cell reselection from GERAN Iu mode
When the UE performs an inter-RAT cell reselection from GERAN Iu mode to UTRAN, and the cell reselection fails:
1>	the UE may return back to the GERAN Iu mode state from which it initiated the inter-RAT cell reselection.
8.3.9	Inter-RAT cell reselection from UTRAN
8.3.9.1	General
The purpose of the inter-RAT cell reselection procedure from UTRAN is to transfer, under the control of the UE and to some extent the UTRAN, a connection between the UE and UTRAN to another radio access technology (e.g. GSM/GPRS or E-UTRA).
8.3.9.2	Initiation
This procedure is applicable in states CELL_FACH, CELL_PCH or URA_PCH.
When the UE based on received system information makes a cell reselection to a radio access technology other than UTRAN, e.g. GSM/GPRS or E-UTRA, according to the criteria specified in [4], the UE shall:
1>	If the NAS procedures associated with inter-system change specified in [5] require the establishment of a connection:
2>	initiate the establishment of a connection to the target radio access technology according to its specifications.
8.3.9.2a	Initiation of inter-RAT cell reselection to GERAN Iu mode
When the UE in CELL_PCH or CELL_FACH state performs an inter-RAT cell reselection to GERAN Iu mode, according to the criteria specified in [4], the UE shall:
1>	initiate the cell update procedure, setting the U-RNTI in the IE "G-RNTI".
When the UE in URA_PCH state performs an  inter-RAT cell reselection to GERAN Iu mode, according to the criteria specified in [4], the UE shall:
1>	compare the URA identity which the UE had been assigned to in UTRAN against the GRA identities which are broadcast in the GERAN cell;
1>	If the assigned URA identity is not present in the list of GRA identities that are broadcast in the GERAN cell:
2>	initiate the GRA update procedure, setting the U-RNTI in the IE "G-RNTI".
8.3.9.3	Successful cell reselection
When the UE has succeeded in reselecting a cell in the target radio access technology, the UE shall:

1>	release all UTRAN specific resources.
UTRAN should:
1>	release all UE dedicated resources upon indication that the UE has completed a connection establishment to the other radio access technology.
8.3.9.4	UE fails to complete an inter-RAT cell reselection
If the inter-RAT cell reselection fails, the UE shall:
1>	resume the connection to UTRAN using the resources used before initiating the inter-RAT cell reselection procedure.
8.3.10	Inter-RAT cell change order to UTRAN
8.3.10.1	General
The purpose of the inter-RAT cell change order to UTRAN procedure is to transfer, under the control of the source radio access technology, a connection between the UE and another radio access technology (e.g. GSM/GPRS) to UTRAN.
8.3.10.2	Initiation
The procedure is initiated when a radio access technology other than UTRAN, e.g. GSM/GPRS, using procedures specific for that RAT, orders the UE to change to a UTRAN cell.
NOTE:	Within the message used to order the UE to change to a UTRAN cell, the source RAT should specify the identity of the target UTRAN cell as specified in the specifications for that RAT.
The UE shall:
1>	set the variable ESTABLISHMENT_CAUSE to "Inter-RAT cell change order";
NOTE:	This value of ESTABLISHMENT_CAUSE has priority over the cause requested by upper layers.
1>	initiate an RRC connection establishment procedure as specified in subclause 8.1.3.
8.3.10.3	UE fails to complete an inter-RAT cell change order
If the inter-RAT cell reselection fails the UE shall return to the other radio access technology and proceed as specified in the appropriate specifications for that RAT.
NOTE 3:	The cell change was network ordered. Therefore, failure to change to the target cell should not cause the UE to move to UE- controlled cell selection.
8.3.11	Inter-RAT cell change order from UTRAN

Figure 8.3.11-1: Inter–RAT cell change order from UTRAN

Figure 8.3.11-2: Inter-RAT cell change order from UTRAN, failure case
8.3.11.1	General
The purpose of the inter-RAT cell change order procedure is to transfer, under the control of the network, a connection between the UE and UTRAN to another radio access technology (e.g. GSM). This procedure may be used in CELL_DCH and CELL_FACH state. This procedure may be used when no RABs are established or when the established RABs are only from PS domain. This procedure may not be used when there is no PS signalling connection.
8.3.11.2	Initiation
The procedure is initiated when UTRAN orders a UE in CELL_DCH or CELL_FACH state, to make a cell change to a radio access technology other than UTRAN, e.g. GSM.
To initiate the procedure, UTRAN sends a CELL CHANGE ORDER FROM UTRAN message.
8.3.11.3	Reception of an CELL CHANGE ORDER FROM UTRAN message by the UE
The UE shall be able to receive a CELL CHANGE ORDER FROM UTRAN message and perform a cell change order to another RAT, even if no prior UE measurements have been performed on the target cell.
If the variable ESTABLISHED_SIGNALLING_CONNECTIONS does not include the CN domain identity "PS domain", or if the variable ESTABLISHED_SIGNALLING_CONNECTIONS includes the CN domain identity "CS domain":
1>	the UE shall act as if the message was never received.
The UE shall:
1>	For FDD:
2>	if the UE has a pending "TGPS reconfiguration CFN" at the activation time received in the CELL CHANGE ORDER FROM UTRAN message the UE may:
3>	abort the pending CM activation;
3>	set the CM_PATTERN_ACTIVATION_ABORTED to TRUE.
2>	otherwise:
3>	set the CM_PATTERN_ACTIVATION_ABORTED to FALSE.
1>	start timer T309; and
1>	establish the connection to the other radio access technology, as specified within IE "Target cell description". This IE specifies the target cell identity, in accordance with the specifications for that other RAT. In case the target cell is a GSM/ GPRS cell, IE "Target cell description" may also include IE "NC mode", which specifies the cell selection mode to be applied in the target cell; and
1>	if IE "NC mode" is not included in the CELL CHANGE ORDER FROM UTRAN:
2>	retrieve it from the target cell as specified in [43];
2>	act upon IE "NC mode" as specified in [43].
1>	if the IE "RAB Information List" is included in the CELL CHANGE ORDER FROM UTRAN message:
2>	ignore the contents of the IE "RAB Information List".
NOTE:	Requirements concerning the establishment of the radio connection towards the other radio access technology and the signalling procedure are outside the scope of this specification. In case of GSM/GPRS proceed according to the procedure Network control cell reselection procedure as specified in [44].
1>	if the UE supports UTRAN to GERAN Network Assisted Cell Change, the IE "Geran System Information" is present and the UE is in CELL_DCH state:
2>	if according to [44] the IE "GERAN System Information" includes a correct and consistent set of SI or PSI messages:
3>	use this information as the system information to begin access on the target GERAN cell.
2>	otherwise:
3>	ignore the IE "GERAN System Information" and continue the Cell Change Order procedure.
NOTE:	The IE "GERAN System Information" is constructed in the same way as in 2G to 2G NACC, i.e. the PSI messages are encoded as such, whereas the SI messages exclude 2 octets of headers, see [44].
8.3.11.4	Successful completion of the cell change order
The UE regards the procedure as completed when it has received a successful response from the target RAT, e.g. in case of GSM when it received the response to a (PACKET) CHANNEL REQUEST in the new cell.
Upon successful completion of the cell change order, the UE shall:
1>	stop timer T309;
1>	clear or set variables upon leaving UTRA RRC connected mode as specified in subclause 13.4.
8.3.11.5	Expiry of timer T309 or UE fails to complete requested cell change order
If:
-	timer T309 expires prior to the successful establishment of a connection to the target RAT; or
-	if the establishment of the connection to the other RAT failed due to other reasons e.g. (random) access failure, rejection due to lack of resources:
the UE shall:
1>	if it received the CELL CHANGE ORDER FROM UTRAN message in state CELL_DCH:
2>	For TDD or for FDD if the CM_PATTERN_ACTIVATION_ABORTED flag is not set to TRUE:
3>	revert back to the UTRA configuration;
3>	establish the UTRA physical channel(s) (including HS-DSCH and E-DCH related channels) used at the time for reception of CELL CHANGE ORDER FROM UTRAN.
2>	For FDD:
3>	perform the physical layer synchronisation procedure A as specified in [29];
3>	if there exists any DTX or DRX configuration prior to the reception of the CELL CHANGE ORDER FROM UTRAN COMMAND, instruct the physical layer to consider only the HS-SCCH orders which were acknowledged prior to the activation time of the received message;
3>	if the variable DTX_DRX_STATUS is set to TRUE, re-configure the physical layer to perform discontinuous uplink DPCCH transmission and enable or disable discontinuous downlink reception operations according to the variable DTX_DRX_PARAMS at the CFN corresponding to the frame boundary that is offset by the stored value of the IE "Enabling Delay" from the frame boundary where uplink transmission resumes with the old configuration;
3>	if the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to TRUE:
4>	consider the secondary uplink frequency as not activated.
3>	apply power control preamble according to [26] during the number of frames indicated in the IE "PC preamble" in the variable LATEST_CONFIGURED_SRB_DELAY_AND_PC_PREAMBLE; and
3>	then not send any data on signalling radio bearers RB0 to RB4 during the number of frames indicated in the IE "SRB delay" in the variable LATEST_CONFIGURED_SRB_DELAY_AND_PC_PREAMBLE or while the physical channel is not considered established;
3>	if the CM_PATTERN_ACTIVATION_ABORTED flag is set to TRUE or if the UE does not succeed in establishing the UTRA physical channel(s):
4>	perform a cell update procedure according to subclause 8.3.1 with cause "Radio link failure";
4>	when the cell update procedure has completed successfully:
5>	proceed as below.
3>	transmit the CELL CHANGE ORDER FROM UTRAN FAILURE message setting the information elements as specified below:
4>	include the IE "RRC transaction identifier"; and
4>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Accepted transactions" in the variable TRANSACTIONS; and
4>	clear that entry;
4>	set the IE "Inter-RAT change failure" to "physical channel failure".
3>	When the CELL CHANGE ORDER FROM UTRAN FAILURE message has been submitted to lower layer for transmission, the procedure ends.
1>	if the UE receives the CELL CHANGE ORDER FROM UTRAN message in CELL_FACH state:
2>	revert to the cell it was camped on at the reception of the CELL CHANGE ORDER FROM UTRAN message;
2>	if the UE is unable to return to this cell:
3>	select a suitable UTRA cell according to [4];
3>	initiate the cell update procedure according to subclause 8.3.1 using the cause "cell re-selection";
3>	when the cell update procedure completed successfully:
4>	proceed as below.
2>	transmit the CELL CHANGE ORDER FROM UTRAN FAILURE message setting the information elements as specified below:
3>	include the IE "RRC transaction identifier"; and
3>	set it to the value of "RRC transaction identifier" in the entry for the CELL CHANGE ORDER FROM UTRAN message in the table "Accepted transactions" in the variable TRANSACTIONS; and
3>	clear that entry;
3>	set the IE "Inter-RAT change failure" to "physical channel failure".
2>	When the CELL CHANGE ORDER FROM UTRAN FAILURE message has been submitted to lower layer for transmission:
3>	the procedure ends.
8.3.11.6	Unsupported configuration in CELL CHANGE ORDER FROM UTRAN message
If the UTRAN instructs the UE to perform a non-supported cell change order scenario or to use a non-supported configuration, the UE shall:
1>	transmit a CELL CHANGE ORDER FROM UTRAN FAILURE message, setting the information elements as specified below:
2>	include the IE "RRC transaction identifier"; and
2>	set it to the value of "RRC transaction identifier" in the entry for the received message in the table "Accepted transactions" in the variable TRANSACTIONS; and
2>	clear that entry;
2>	set the IE "Inter-RAT change failure" to "configuration unacceptable";
2>	when the CELL CHANGE ORDER FROM UTRAN FAILURE message has been submitted to lower layers for transmission:
3>	resume normal operation as if the CELL CHANGE ORDER FROM UTRAN message has not been received;
3>	and the procedure ends.
8.3.11.7	Invalid CELL CHANGE ORDER FROM UTRAN message
If the CELL CHANGE ORDER FROM UTRAN message contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	set the IE "RRC transaction identifier" in the CELL CHANGE ORDER FROM UTRAN FAILURE message to the value of "RRC transaction identifier" in the entry for the CELL CHANGE ORDER FROM UTRAN message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the IE "Inter-RAT change failure" to the cause value "protocol error";
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	transmit a CELL CHANGE ORDER FROM UTRAN FAILURE message on the uplink DCCH using AM RLC;
1>	when the CELL CHANGE ORDER FROM UTRAN FAILURE message has been submitted to lower layers for transmission:
2>	resume normal operation as if the invalid CELL CHANGE ORDER FROM UTRAN message has not been received;
2>	and the procedure ends.
8.4	Measurement procedures
8.4.0	Measurement related definitions
UTRAN may control a measurement in the UE either by broadcast of SYSTEM INFORMATION and/or by transmitting a MEASUREMENT CONTROL message.
The following information is used to control the UE measurements and the measurement results reporting:
1.	Measurement identity: A reference number that should be used by the UTRAN when setting up, modifying or releasing the measurement and by the UE in the measurement report.
2.	Measurement command: One out of three different measurement commands.
-	Setup: Setup a new measurement.
-	Modify: Modify a previously defined measurement, e.g. to change the reporting criteria.
-	Release: Stop a measurement and clear all information in the UE that are related to that measurement.
3.	Measurement type: One of the types listed below describing what the UE shall measure.
Presence or absence of the following control information depends on the measurement type
4.	Measurement objects: The objects on which the UE shall measure measurement quantities, and corresponding object information.
5.	Measurement quantity: The quantity the UE shall measure on the measurement object. This also includes the filtering of the measurements.
6.	Reporting quantities: The quantities the UE shall include in the report in addition to the quantities that are mandatory to report for the specific event.
7.	Measurement reporting criteria: The triggering of the measurement report, e.g. periodical or event-triggered reporting.
8.	Measurement Validity: Defines in which UE states the measurement is valid.
9.	Measurement reporting mode: This specifies whether the UE shall transmit the measurement report using AM or UM RLC.
10.	Additional measurement identities: A list of references to other measurements. When this measurement triggers a measurement report, the UE shall also include the reporting quantities for the measurements referenced by the additional measurement identities.
All these measurement parameters depend on the measurement type and are described in more detail in clause 14.
The different types of measurements are:
-	Intra-frequency measurements: measurements on downlink physical channels at the same frequency as the active set and the secondary E-DCH active set. A measurement object corresponds to one cell. Detailed description is found in subclause 14.1.
-	Inter-frequency measurements: measurements on downlink physical channels at frequencies that differ from the frequency of the active set and on downlink physical channels in the active set. A measurement object corresponds to one cell. Detailed description is found in subclause 14.2.
-	Inter-RAT measurements: measurements on downlink physical channels belonging to another radio access technology than UTRAN, e.g. GSM or E-UTRA. A measurement object corresponds to one cell (e.g. GSM) or one frequency (e.g. E-UTRA). Detailed description is found in subclause 14.3.
-	Traffic volume measurements: measurements on uplink traffic volume. A measurement object corresponds to one cell. Detailed description is found in subclause 14.4.
-	Quality measurements: Measurements of downlink quality parameters, e.g. downlink transport block error rate. A measurement object corresponds to one transport channel in case of BLER. A measurement object corresponds to one timeslot in case of SIR (TDD only). Detailed description is found in subclause 14.5.
-	UE-internal measurements: Measurements of UE transmission power and UE received signal level. Detailed description is found in subclause 14.6.
-	UE positioning measurements: Measurements of UE position. Detailed description is found in subclause 14.7.
-	CSG Proximity detection: Detection of the UE’s proximity to one or more CSG member cells. Detailed description is found in subclause 14.7a.3.
-	E-UTRA measurement for CELL_FACH: measurements on downlink physical channels belonging to E-UTRA when UE is in CELL_FACH state. Detailed description is found in subclause 14.15.
The UE shall support a number of measurements running in parallel as specified in [19] and [20]. The UE shall also support that each measurement is controlled and reported independently of every other measurement.
Cells that the UE is monitoring are grouped in the UE into three mutually exclusive categories:
1.	Cells, which belong to the active set. User information is sent from all these cells. In FDD, the cells in the active set are involved in soft handover. In TDD the active set always comprises one cell only. The UE shall only consider active set cells and the secondary E-DCH active set cells included in the variable CELL_INFO_LIST for measurement; i.e. active set cells and the secondary E-DCH active set cells not included in the CELL_INFO_LIST shall not be considered in any event evaluation and measurement reporting.
2.	Cells, which are not included in the active set, but are included in the CELL_INFO_LIST belong to the monitored set.
3.	Cells detected by the UE, which are neither in the CELL_INFO_LIST nor in the active set belong to the detected set. Reporting of measurements of the detected set is only applicable to intra-frequency and inter-frequency measurements made by UEs in CELL_DCH state.
For CSG measurements, cells that the UE is monitoring are grouped in the UE into two mutually exclusive categories:
1.	Cells, which belong to the CSG set, i.e., the cells included in the variable CELL_INFO_CSG_LIST.  CSG set cells may also belong to the active set, monitored set, or detected set as defined above.
2.	Cells, which are not included in the CSG set, belong to the non-CSG set. Cells in the non-CSG set may also belong to the active set, monitored set, or detected set as defined above.
If a particular measurement has been configured with CSG Set cells, then the CSG Set cells are monitored. For the purpose of measurement and measurement reporting procedures, the CSG Set shall be considered as the monitored set, and the non-CSG Set shall be considered as the detected set, for the purpose of measurement and measurement reporting procedures. i.e. that CELL_INFO_CSG_LIST is used instead of CELL_INFO_LIST to determine what cells are in the monitored set and detected set for that measurement.
If the IE "Cells for measurement" has been included in a MEASUREMENT CONTROL message, only monitored set cells explicitly indicated for a given intra-frequency (resp. inter-frequency, interRAT) measurement by the IE "Cells for measurement" shall be considered for measurement. If the IE "Cells for measurement" has not been included in a MEASUREMENT CONTROL message, all of the intra-frequency (resp. inter-frequency, inter RAT) cells stored in the variable CELL_INFO_LIST shall be considered for measurement. The IE "Cells for measurement" is not applicable to active set cells e.g. when the triggering condition refers to active set cells, the UE shall consider all active set cells in the CELL_INFO_LIST for measurement irrespective if these cells are explicitly indicated by the IE "Cells for measurement".
8.4.1	Measurement control

Figure 8.4.1-1: Measurement Control, normal case

Figure 8.4.1-2: Measurement Control, failure case
8.4.1.1	General
The purpose of the measurement control procedure is to setup, modify or release a measurement in the UE.
In subclause 8.4.1 and its subclauses references to System Information Block type 11 mean the merge of System Information Block Type 11, System Information Block type 11bis and System Information Block type 11ter, if scheduled on BCH.
8.4.1.2	Initiation
The UTRAN may request a measurement by the UE to be setup, modified or released with a MEASUREMENT CONTROL message, which is transmitted on the downlink DCCH using AM RLC.
The UTRAN should take the UE capabilities into account when a measurement is requested from the UE.
When a new measurement is created, UTRAN should set the IE "Measurement identity" to a value, which is not used for other measurements. UTRAN may use several "Measurement identity" for the same "Measurement type". In case of setting several "Measurement identity" within a same "Measurement type", the measurement object or the list of measurement objects can be set differently for each measurement with different "Measurement identity ".
When a current measurement is modified or released, UTRAN should set the IE "Measurement identity" to the value, which is used for the measurement being modified or released. In case of modifying IEs within a "Measurement identity", it is not needed for UTRAN to indicate the IEs other than modified IEs, and the UE continues to use the current values of the IEs that are not modified. UTRAN should not use "modify" to change the type of measurement stored in the variable MEASUREMENT_IDENTITY for a given measurement identity.
For the frequency associated with the secondary serving HS-DSCH cell in IE "Inter-frequency measurement objects list", UTRAN should set the UARFCN to the same value as used for reception/transmission.
8.4.1.3	Reception of MEASUREMENT CONTROL by the UE
Upon reception of a MEASUREMENT CONTROL message the UE shall perform actions specified in subclause 8.6 unless otherwise specified below.
The UE shall:
1>	read the IE "Measurement command";
1>	if the IE "Measurement command" has the value "setup":
2>	store this measurement in the variable MEASUREMENT_IDENTITY according to the IE "measurement identity", first releasing any previously stored measurement with that identity if that exists;
2>	for FDD or 3.84/7.68 Mcps TDD, if the measurement type is quality, UE internal, intra-frequency, inter-frequency or inter-RAT:
3>	if the UE is in CELL_FACH state:
4>	the UE behaviour is not specified.
2>	for 1.28 Mcps TDD, if the measurement type is quality, UE internal, or inter-RAT:
3>	if the UE is in CELL_FACH state:
4>	the UE behaviour is not specified.
2>	for 1.28 Mcps TDD, if the measurement type is intra-frequency or inter-frequency:
3>	if the UE is in CELL_FACH state:
4>	if the UE is working on the secondary frequency: 
5>	begin measurements according to the stored control information for this measurement identity.
4>	else:
5>	may begin measurements according to the stored control information for this measurement identity.
2>	if the measurement type is "inter-frequency measurement" and the IE "Inter-frequency SI Acquisition" is included or if the measurement type is "inter-RAT measurement" and the IE "E-UTRA SI Acquisition" is included:
3>	if the IE "report criteria" is not set to "Periodical reporting criteria":
4>	the UE behaviour is not specified.
2>	for measurement types "inter-RAT measurement" or "inter-frequency measurement" that require measurements on a frequency other than the actually used frequency:
3>	if, according to its measurement capabilities, the UE requires compressed mode to perform that measurement type:
4>	if, according to its measurement capabilities in the IE “Frequency specific compressed mode”, the UE does not require the compressed mode on all the frequencies associated the serving HS-DSCH cell and the secondary serving HS-DSCH cells; and
4>	the frequency to measure is in the band other than the band of the frequency of the serving HS-DSCH cell; and
4	the frequency to measure is in the band for which there is at least one frequency associated with the entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION set to TRUE; and
4>	if after reception of this message, a compressed mode pattern sequence with the IE “Frequency specific compressed mode” set to TRUE is active according to the IE "Current TGPS Status Flag" in UE variable TGPS_IDENTITY:
5>	if the measurement is valid in the current RRC state of the UE:
6>	begin measurements according to the stored control information for this measurement identity by applying the compressed mode pattern only to the band where the frequency to measure is.
4>	if, according to its measurement capabilities in the IE "Frequency specific compressed mode for non-contiguous operation", the UE does not require the compressed mode on all the frequencies associated the serving HS-DSCH cell and the secondary serving HS-DSCH cells; and
4>	the frequency to measure is in the same band as the frequency of the serving HS-DSCH cell; and
4	the frequency to measure is not associated with the serving HS-DSCH cell or with any entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION, which is in the same block of contiguous HS-DSCH cells as the serving HS-DSCH cell; and
4>	if after reception of this message, a compressed mode pattern sequence with the IE "Frequency specific compressed mode" set to TRUE is active according to the IE "Current TGPS Status Flag" in UE variable TGPS_IDENTITY:
5>	if the measurement is valid in the current RRC state of the UE:
6>	begin measurements according to the stored control information for this measurement identity by applying the compressed mode pattern only to the block of contiguous secondary serving HS-DSCH cells, which does not contain the serving HS-DSCH cell.
4>	else:
5>	if after reception of this message a compressed mode pattern sequence with an appropriate measurement purpose is active according to the IE "Current TGPS Status Flag" in UE variable TGPS_IDENTITY
6>	if the measurement is valid in the current RRC state of the UE:
7>	begin measurements according to the stored control information for this measurement identity.
3>	if, according to its measurement capabilities in the IE "Inter-frequency measurements on configured carriers without compressed mode", the UE does not require compressed mode to perform the measurements on the frequencies configured for HS-DSCH operation:
4>	if at least one of the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE and the frequency to measure is same as the frequency of the secondary serving HS-DSCH cell; and
4>	if the measurement is valid in the current RRC state of the UE:
5>	begin measurements according to the stored control information for this measurement identity.
3>	if, according to its measurement capabilities, the UE does not require compressed mode to perform the measurements on at least one supported band of that measurement type:
4>	if the measurement is valid in the current RRC state of the UE:
5>	begin measurements according to the stored control information for this measurement identity.
3>	if, according to its measurement capabilities in the IE "Enhanced inter-frequency measurements without compressed mode", the UE does not require compressed mode to perform the measurements on two frequencies in addition to the downlink frequency in the IE "Frequency info" not included in the IE "Uplink secondary cell info FDD":
4>	if, the frequency to measure is same as the frequency derived from one of the entries in "Frequency info list for enhanced measurement" included in the variable CELL_INFO_LIST; and
4>	the frequency to measure along with all frequencies associated with entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION that are set to TRUE and the frequency of the serving HS-DSCH cell, corresponds to a valid configuration according to the number of additional secondary serving cells and the carrier combinations supported by the UE:
5>	if the measurement is valid in the current RRC state of the UE; and
5>	if the number of frequencies on which inter-frequency measurements without compressed mode are configured is less than or equal to two:
6>	begin measurements according to the stored control information for this measurement identity.
3>	if according to its measurement capabilities, the UE does not require compressed mode to perform measurement on adjacent frequency and the frequency derived from "Adjacent frequency info" included in the variable CELL_INFO_LIST is an adjacent frequency:
4>	if all the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION are set to FALSE; or 
4>	if at least one of the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE and the frequency derived from "Adjacent frequency info" included in the variable CELL_INFO_LIST is same as the frequency of the secondary serving HS-DSCH cell associated with such an entry:
5>	if the measurement is valid in the current RRC state of the UE; and
5>	inter-frequency measurements without compressed mode are not configured on any other frequency::
6>	begin measurements according to the stored control information for this measurement identity.
3>	if according to its measurement capabilities, the UE does not require compressed mode to perform measurement on a frequency in a different band from the band of the frequency of the serving HS-DSCH cell and these two bands form one of the band combinations reported in the IE "Radio Access Capability Band Combination List":
4>	if all the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION are set to FALSE, and the frequency derived from  "Inter-band frequency info" included in the variable CELL_INFO_LIST is in another band, and these two bands form one of the band combinations reported in the IE "Radio Access Capability Band Combination List"; or
4>	if at least one of the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE, and the frequency derived from "Inter-band frequency info" included in the variable CELL_INFO_LIST is in another band, and is same as the frequency of the secondary serving HS-DSCH cell associated with such an entry:
5>	if the measurement is valid in the current RRC state of the UE; and
5>	if inter-frequency measurements without compressed mode are not configured on any other frequency:
6>	begin measurements according to the stored control information for this measurement identity.
2>	for measurement type "inter-frequency measurement" that requires measurements on the downlink frequency associated with the secondary uplink frequency: 
3>	the UE shall not require compressed mode to perform the measurement, regardless of the activation status of secondary uplink frequency;
3>	if the measurement is valid in the current RRC state of the UE:
4>	begin measurements according to the stored control information for this measurement identity on the downlink frequency associated with the secondary uplink frequency.
NOTE:	The UE is not required to perform measurements on cells for which it needs compressed mode but a suitable compressed mode pattern is not activated.
2>	for measurement type "inter-frequency measurement" that requires measurements only on the same frequency as the actually used frequency:
3>	if the measurement is valid in the current RRC state of the UE:
4>	begin measurements according to the stored control information for this measurement identity.
2>	for measurement type "UE positioning measurement":
3>	if the UE is in CELL_FACH state:
4>	if IE "Positioning Method" is set to "OTDOA":
5>	if IE "Method Type" is set to "UE assisted":
6>	if IE "UE positioning OTDOA assistance data for UE assisted" is not included:
7>	if System Information Block type 15.4 is broadcast:
8>	read System Information Block type 15.4.
7>	act as specified in subclause 8.6.7.19.2.
5>	if IE "Method Type" is set to "UE based":
6>	if IE "UE positioning OTDOA assistance data for UE based" is not included:
7>	if System Information Block type 15.5 is broadcast:
8>	read System Information Block type 15.5.
7>	act as specified in subclause 8.6.7.19.2a.
2>	for measurement type "CSG Proximity detection":
3>	if the value of IE "UTRA CSG Proximity detection" is set to "enable":
4>	the UE shall perform CSG proximity detection function for UTRA CSG member cells;
4>	the UE shall include the detection result, if proximity is detected, in the IE "CSG Proximity Indication" of the corresponding MEASUREMENT REPORT message, as specified in subclause 14.7a.4.
3>	else:
4>	the UE shall disable the CSG proximity detection function for UTRA cells and not send measurement report containing the IE "CSG Proximity Indication" for any UTRA cells.
3>	if the value of IE "E-UTRA CSG Proximity detection" is set to "enable":
4>	the UE shall perform CSG proximity detection function for E-UTRA CSG member;
4>	the UE shall include the detection result, if proximity is detected, in the IE "CSG Proximity Indication" of the corresponding MEASUREMENT REPORT message, as specified in subclause 14.7a.4.
3>	else:
4>	the UE shall disable the CSG proximity detection function for E-UTRA cells and not send measurement report containing the IE "CSG Proximity Indication" for any E-UTRA cells.
2>	for measurement type "E-UTRA measurement for CELL_FACH":
3>	if the UE is not in CELL_FACH state:
4>	the UE behaviour is unspecified.
3>	else:
4>	act as specified in subclause 8.6.7.28.
2>	for measurement type "Application layer measurement configuration":
3>	if the UE is in CELL_DCH or CELL_FACH state:
4>	forward the content of the IE "Application layer measurement configuration" to upper layers considering the "Service Type".
3>	else:
4>	the UE behaviour is unspecified.
2>	for any other measurement type:
3>	if the measurement is valid in the current RRC state of the UE:
4>	begin measurements according to the stored control information for this measurement identity.
1>	if the IE "Measurement command" has the value "modify":
2>	for all IEs present in the MEASUREMENT CONTROL message:
3>	if a measurement was stored in the variable MEASUREMENT_IDENTITY associated to the identity by the IE "measurement identity":
4>	 for FDD or 3.84/7.68 Mcps TDD, if the measurement type is quality, UE internal, intra-frequency, inter-frequency or inter-RAT:
5>	if the UE is in CELL_FACH state:
6>	the UE behaviour is not specified.
4>	for 1.28 Mcps TDD, if the measurement type is quality, UE internal, or inter-RAT:
5>	if the UE is in CELL_FACH state:
6>	the UE behaviour is not specified.
4>	for 1.28 Mcps TDD, if the measurement type is intra-frequency or inter-frequency:
5>	 if the UE is in CELL_FACH state:
6>	perform the actions as specified below.
4>	if measurement type is set to "intra-frequency measurement", for any of the optional IEs "Intra-frequency measurement objects list", "Intra-frequency measurement objects list on secondary UL frequency", "Intra-frequency measurement quantity", "Intra-frequency reporting quantity", "Measurement Validity", "report criteria" and "parameters required for each event" (given "report criteria" is set to "intra-frequency measurement reporting criteria") that are present in the MEASUREMENT CONTROL message:
4>	if measurement type is set to "inter-frequency measurement", for any of the optional IEs "Inter-frequency measurement quantity", "Inter-frequency reporting quantity", "Measurement Validity", "Inter-frequency set update" and "parameters required for each event" (given "report criteria" is set to either "inter-frequency measurement reporting criteria" or "intra-frequency measurement reporting criteria") that are present in the MEASUREMENT CONTROL message:
4>	if measurement type is set to "inter-RAT measurement", for any of the optional IEs "Inter-RAT measurement objects list", "E-UTRA frequency list", "E-UTRA frequency extension list", "Inter-RAT measurement quantity", and "Inter-RAT reporting quantity" that are present in the MEASUREMENT CONTROL message:
4>	if measurement type is set to "UE positioning measurement" and the IE "UE positioning OTDOA assistance data" is present, for any of the optional IEs "UE positioning OTDOA neighbour cell info for UE-assisted", "UE positioning OTDOA reference cell info for UE-assisted", "UE positioning OTDOA reference cell info for UE-based", "UE positioning OTDOA neighbour cell info for UE-based" and "UE positioning" that are present in the MEASUREMENT CONTROL message:
4>	if measurement type is set to "UE positioning measurement" and the IE "UE positioning GPS assistance data" is present, for any of the optional IEs "UE positioning GPS reference time", "UE positioning GPS reference UE position", "UE positioning GPS DGPS corrections", "UE positioning GPS ionospheric model", "UE positioning GPS UTC model", "UE positioning GPS acquisition assistance", "UE positioning GPS real-time integrity" that are present in the MEASUREMENT CONTROL message:
4>	if measurement type is set to "UE positioning measurement" and the IE "UE positioning GANSS assistance data" is present, for any of the optional IEs "UE positioning GANSS reference time", "UE positioning GANSS reference UE position", "UE positioning DGANSS corrections", "UE positioning GANSS ionospheric model", "UE positioning GANSS additional ionospheric model", "UE positioning GANSS UTC model", "UE positioning GANSS additional UTC models", "UE positioning GANSS reference measurement information", "UE positioning GANSS data bit assistance", "UE positioning GANSS Time model", "UE positioning GANSS real-time integrity", "UE positioning GANSS Earth orientation parameters", "UE positioning GANSS auxiliary information", "UE positioning DBDS corrections", "UE positioning BDS Ionospheric Grid Model" that are present in the MEASUREMENT CONTROL message:
4>	if measurement type is set to "traffic volume measurement", for any of the optional IEs "Traffic volume measurement Object", "Traffic volume measurement quantity", "Traffic volume reporting quantity", and"Measurement Validity" that are present in the MEASUREMENT CONTROL message:
4>	if measurement type is set to "quality measurement", for the optional IE "Quality reporting quantity" if it is present in the MEASUREMENT CONTROL message:
4>	if measurement type is set to "UE internal measurement", for any of the optional IEs "UE internal measurement quantity", and "UE internal reporting quantity" that are present in the MEASUREMENT CONTROL message:
4>	if measurement type is set to "CSG Proximity detection", for any of the IEs "UTRA CSG Proximity detection", and "E-UTRA CSG Proximity detection" that are present in the MEASUREMENT CONTROL message:
4>	if measurement type is set to "Application layer measurement configuration":
5>	replace all instances of the IEs listed above (and all their children) stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IEs received in the MEASUREMENT CONTROL message;
5>	leave all other stored information elements unchanged in the variable MEASUREMENT_IDENTITY.
3>	otherwise:
4>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
2>	if measurement type is set to "inter-frequency measurement":
3>	if "report criteria" is set to "intra-frequency measurement reporting criteria" and "reporting criteria" in "inter-frequency measurement quantity" is set to "intra-frequency reporting criteria":
4>	for FDD, 3.84 Mcps TDD and 7.68 Mcps TDD; or
4>	for 1.28 Mcps TDD, if the UE only uses one frequency:
5>	leave the currently stored "inter-frequency measurement reporting criteria" within "report criteria" and "inter-frequency reporting criteria" within "inter-frequency measurement quantity" unchanged, and continue to act on the information stored in these variables.
NOTE:	If the UTRAN wants to modify the inter-frequency cell info list for an inter-frequency measurement configured with event based reporting without repeating any IEs related to the configured events, one possibility is to set the IE "report criteria" to "intra-frequency measurement reporting criteria", not include the IE "parameters required for each event", and set the IE "reporting criteria" in the IE "inter-frequency measurement quantity" to "intra-frequency reporting criteria".
4>	for 1.28 Mcps TDD, if the UE uses multiple frequencies:
5>	use the content of MEASUREMENT CONTROL to replace the IEs related to MEASUREMENT_IDENTITY which have stored;
5>	not delete the unchanged values.
2>	for measurement types "inter-frequency measurement" that require measurements on a frequency other than the actually used frequency, or that require measurements on another RAT:
3>	if, according to its measurement capabilities, the UE requires compressed mode to perform that measurement type:
4>	if, according to its measurement capabilities in the IE “Frequency specific compressed mode”, the UE does not require the compressed mode on all the frequencies associated the serving HS-DSCH cell and the secondary serving HS-DSCH cells; and
4>	the frequency to measure is in the band other than the band of the frequency of the serving HS-DSCH cell; and
4>	the frequency to measure is in the band for which there is at least one frequency associated with the entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION set to TRUE; and
4>	if after reception of this message, a compressed mode pattern sequence with the IE “Frequency specific compressed mode” set to TRUE is active according to the IE "Current TGPS Status Flag" in UE variable TGPS_IDENTITY:
5>	if the measurement is valid in the current RRC state of the UE:
6>	begin measurements according to the stored control information for this measurement identity by applying the compressed mode pattern only to the band where the frequency to measure is.
4>	if, according to its measurement capabilities in the IE "Frequency specific compressed mode for non-contiguous operation", the UE does not require the compressed mode on all the frequencies associated the serving HS-DSCH cell and the secondary serving HS-DSCH cells; and
4>	the frequency to measure is in the same band as the frequency of the serving HS-DSCH cell; and
4	the frequency to measure is not associated with the serving HS-DSCH cell or with any entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION, which is in the same block of contiguous HS-DSCH cells as the serving HS-DSCH cell; and
4>	if after reception of this message, a compressed mode pattern sequence with the IE "Frequency specific compressed mode" set to TRUE is active according to the IE "Current TGPS Status Flag" in UE variable TGPS_IDENTITY:
5>	if the measurement is valid in the current RRC state of the UE:
6>	begin measurements according to the stored control information for this measurement identity by applying the compressed mode pattern only to the block of contiguous secondary serving HS-DSCH cells, which does not contain the serving HS-DSCH cell.
4>	else:
5>	if after reception of this message a compressed mode pattern sequence with an appropriate measurement purpose is active according to the IE "Current TGPS Status Flag" in UE variable TGPS_IDENTITY
6>	if the measurement is valid in the current RRC state of the UE:
7>	begin measurements according to the stored control information for this measurement identity.
3>	if, according to its measurement capabilities in the IE "Inter-frequency measurements on configured carriers without compressed mode", the UE does not require compressed mode to perform the measurements on the frequencies configured for HS-DSCH operation:
4>	if at least one of the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE and the frequency to measure is same as the frequency of the secondary serving HS-DSCH cell; and
4>	if the measurement is valid in the current RRC state of the UE:
5>	begin measurements according to the stored control information for this measurement identity.
3>	if, according to its measurement capabilities, the UE does not require compressed mode, on at least one supported band of that measurement type, to perform the measurements:
4>	resume the measurements according to the new stored measurement control information.
3>	if, according to its measurement capabilities in the IE "Enhanced inter-frequency measurements without compressed mode", the UE does not require compressed mode to perform the measurements on two frequencies in addition to the downlink frequency in the IE "Frequency info" not included in the IE "Uplink secondary cell info FDD":
4>	if, the frequency to measure is same as the frequency derived from one of the entries in "Frequency info list for enhanced measurement" included in the variable CELL_INFO_LIST; and
4>	the frequency to measure along with all frequencies associated with entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION that are set to TRUE and the frequency of the serving HS-DSCH cell, corresponds to a valid configuration according to the number of additional secondary serving cells and the carrier combinations supported by the UE:
5>	if the number of frequencies on which inter-frequency measurements without compressed mode are configured is less than or equal to two:
6>	resume the measurements according to the new stored measurement control information.
3>	if according to its measurement capabilities, the UE does not require compressed mode to perform measurement on adjacent frequency and the frequency derived from "Adjacent frequency info" included in the variable CELL_INFO_LIST is an adjacent frequency:
4>	if all the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION are set to FALSE and inter-frequency measurements without compressed mode are not configured on any other frequency; or
4>	if at least one of the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE and the frequency derived from "Adjacent frequency info" included in the variable CELL_INFO_LIST is same as the frequency of the secondary serving HS-DSCH cell associated with such an entry and inter-frequency measurements without compressed mode are not configured on any other frequency:
5>	if inter-frequency measurements without compressed mode are not configured on any other frequency:
6>	resume the measurements according to the new stored measurement control information.
3>	if according to its measurement capabilities, the UE does not require compressed mode to perform measurement on a frequency in a different band from the band of the frequency of the serving HS-DSCH cell and these two bands for one of the band combinations reported in the IE "Radio Access Capability Band Combination List":
4>	if all the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION are set to FALSE, and the frequency derived from "Inter-band frequency info" included in the variable CELL_INFO_LIST is in another band, and these two bands form one of the band combinations reported in the IE "Radio Access Capability Band Combination List"; or
4>	if at least one of the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE, and the frequency derived from "Inter-band frequency info" included in the variable CELL_INFO_LIST is in another band, and is the same as the frequency of the secondary serving HS-DSCH cell associated with such an entry:
5>	if inter-frequency measurements without compressed mode are not configured on any other frequency: 
6>	resume the measurements according to the new stored measurement control information.
2>	for measurement type "inter-frequency measurement" that requires measurements on the downlink frequency associated with the secondary uplink frequency: 
3>	the UE shall not require compressed mode to perform the measurement, regardless of the activation status of secondary uplink frequency;
3>	if the measurement is valid in the current RRC state of the UE:
4>	resume the measurements according to the new stored control information for this measurement identity on the downlink frequency associated with the secondary uplink frequency.
2>	for measurement type "inter-frequency measurement" that requires measurements only on the same frequency as the actually used frequency:
3>	if the measurement is valid in the current RRC state of the UE:
4>	resume measurements according to the new stored control information for this measurement identity.
2>	for measurement type "E-UTRA measurement for CELL_FACH":
3>	if the UE is not in CELL_FACH state:
4>	the UE behaviour is unspecified.
3>	else:
4>	act as specified in subclause 8.6.7.28.
2>	for measurement type "Application layer measurement configuration":
3>	if the UE is in CELL_DCH or CELL_FACH state or if the IE "Container for application layer measurement configuration" is not included in the message:
4>	inform upper layers to clear the stored "Application layer measurement configuration" for the indicated "Service Type" and forward the content of the IE "Application layer measurement configuration" to upper layers.
3>	else:
4>	the UE behaviour is unspecified.
2>	for any other measurement type:
3>	resume the measurements according to the new stored measurement control information.
2>	for measurement type "inter-RAT measurement":
3>	if "report criteria" is set to "inter-RAT measurement reporting criteria":
4>	if the value of "report criteria" stored in the variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" is not "inter-RAT measurement reporting criteria"; or
4>	if the value of "report criteria" stored in the variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" is "inter-RAT measurement reporting criteria" and if the IE "Parameters required for each event" is present:
5>	replace the IE "report criteria" (and all its children) stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IE "reporting criteria" received in the MEASUREMENT CONTROL message.
3>	if "report criteria" is not set to "inter-RAT measurement reporting criteria":
4>	replace the IE "reporting criteria" (and all its children) stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IE "reporting criteria" received in the MEASUREMENT CONTROL message.
2>	for measurement type "UE positioning measurement":
3>	if "reporting criteria" is set to "UE positioning reporting criteria":
4>	if the value of "reporting criteria" stored in the variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" is not "UE positioning reporting criteria", or;
4>	if the value of "reporting criteria" stored in the variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" is "UE positioning reporting criteria" and if the IE "Parameters required for each event" is present:
5>	replace the IE "reporting criteria" (and all its children) stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IE "report criteria" received in the MEASUREMENT CONTROL message.
3>	if "reporting criteria" is not set to "UE positioning reporting criteria":
4>	replace the IE "report criteria" (and all its children) stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IE "report criteria" received in the MEASUREMENT CONTROL message.
2>	for measurement type "traffic volume measurement":
3>	replace the IE "report criteria" (and all its children) stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IE "report criteria" received in the MEASUREMENT CONTROL message.
2>	for measurement type "quality measurement":
3>	replace the IE "report criteria" (and all its children) stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IE "report criteria" received in the MEASUREMENT CONTROL message;
3>	if "report criteria" is set to "quality measurement reporting criteria":
4>	if the value of "BLER reporting" in any instance of the IE "Quality reporting quantity" stored in the variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IE "report criteria" received in the MEASUREMENT CONTROL message is set to TRUE:
5>	the UE behaviour is unspecified.
2>	for measurement type "UE internal measurement":
3>	if "report criteria" is set to "UE internal measurement reporting criteria":
4>	if the value of "report criteria" stored in the variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" is not "UE internal measurement reporting criteria"; or
4>	if the value of "report criteria" stored in the variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" is "UE internal measurement reporting criteria" and if the IE "Parameters sent for each UE internal measurement event" is present:
5>	replace the IE "report criteria" (and all its children) stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IE "report criteria" received in the MEASUREMENT CONTROL message.
3>	if "report criteria" is not set to "UE internal measurement reporting criteria":
4>	replace the IE "report criteria" (and all its children) stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IE "report criteria" received in the MEASUREMENT CONTROL message.
1>	if the IE "Measurement command" has the value "Release":
2>	terminate the measurement associated with the identity given in the IE "measurement identity";
2>	clear all stored measurement control information related associated to this measurement identity in variable MEASUREMENT_IDENTITY;
1> if any configured inter-frequency measurement is to be released; and
1>	if the UE supports Inter-frequency detected set measurements and Cells excluded from detected set measurements:
2>	for each non-used frequency, if "Cells to be excluded in non-used frequency detected cells" for a non-used frequency is stored, the UE shall:
3>	if the "measurement identity" corresponding with the stored "Cells to be excluded in non-used frequency detected cells" for that non-used frequency was released:
4>	clear the stored "Cells to be excluded in non-used frequency detected cells" for that non-used frequency.
1>	if any configured intra-frequency measurement is to be released; and
1>	if the UE supports Cells excluded from detected set measurements, and "Cells to be excluded in detected set cells" for the intra-frequency is stored, the UE shall:
2>	if the "measurement identity" corresponding with the stored "Cells to be excluded in detected set cells" for the intra-frequency was released:
3>	clear the stored "Cells to be excluded in detected set cells" for the intra-frequency.
1>	if the IE "Measurement command" has the value "ReleaseAll":
2>	terminate all measurements;
2>	clear corresponding measurement control information in variable MEASUREMENT_IDENTITY.
1>	if the IE "Measurement command" has the value "ReleaseSome":
2>	for each measurement indicated by IE "Measurement Identity" in the "Released measurements" list in IE "Release Some Measurements", the UE shall:
3>	terminate the corresponding measurement;
3>	clear corresponding measurement control information stored in variable MEASUREMENT_IDENTITY.
1>	if any configured application layer measurement configuration is to be released, the UE shall:
2>	inform upper layers to clear the stored "Application layer measurement configuration" for the indicated "Service Type".
1>	if the IE "DPCH Compressed Mode Status Info" is present:
2>	if, as the result of this message, UE will have more than one transmission gap pattern sequence with the same measurement purpose active (according to IEs "TGMP" and "Current TGPS Status Flag" in variable TGPS_IDENTITY):
3>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
2>	if there is any pending "TGPS reconfiguration CFN" or any pending "TGCFN":
3>	the UE behaviour is unspecified.
2>	if there is a pending "activation time" for a reconfiguration procedure that included the IE "DPCH Compressed mode info":
3>	the UE behaviour is unspecified.
2>	if pattern sequence corresponding to IE "TGPSI" is already active (according to "Current TGPS Status Flag") in the variable TGPS_IDENTITY):
3>	if the "TGPS Status Flag" in this message is set to "deactivate" for the corresponding pattern sequence:
4>	deactivate this pattern sequence at the beginning of the frame indicated by IE "TGPS reconfiguration CFN" received in the message;
4>	set the "Current TGPS Status Flag" for this pattern sequence in the variable TGPS_IDENTITY to "inactive" at the frame indicated by IE "TGPS reconfiguration CFN" received in the message.
3>	if the "TGPS Status Flag" in this message is set to "activate" for the corresponding pattern sequence:
4>	deactivate this pattern sequence at the beginning of the frame indicated by IE "TGPS reconfiguration CFN" received in the message.
NOTE1:	The temporary deactivation of pattern sequences for which the status flag is set to "activate" can be used by the network to align the timing of already active patterns with newly activated patterns.
NOTE2:	The deactivation of pattern sequences only occurs as a result of RRC messages received by the UE, i.e. the UE does not set the "Current TGPS Status Flag" to "inactive" after the final gap of a finite length pattern sequence.
2>	after the time indicated by IE "TGPS reconfiguration CFN" has elapsed:
3>	activate the pattern sequence corresponding to each IE "TGPSI" for which the "TGPS status flag" in this message is set to "activate" at the time indicated by IE "TGCFN"; and
3>	set the corresponding "Current TGPS status flag" for this pattern sequence in the variable TGPS_IDENTITY to "active"; and
3>	begin the inter-frequency and/or inter-RAT measurements corresponding to the pattern sequence measurement purpose of each activated pattern sequence;
3>	if the values of IE "TGPS reconfiguration CFN" and IE "TGCFN" are equal:
4>	start the concerned pattern sequence immediately at that CFN.
2>	not alter pattern sequences stored in variable TGPS_IDENTITY, if the pattern sequence is not identified in IE "TGPSI" in the received message.
1>	if the IE "CELL_DCH measurement occasion info LCR" is present:
2>	perform actions for the IE "CELL_DCH measurement occasion info LCR" as specified in subclause 8.6.7.26;
1>	if the UE in CELL_FACH state receives a MEASUREMENT CONTROL message, which indicates the same measurement identity as that stored in the variable MEASUREMENT_IDENTITY:
2>	update the stored information with the traffic volume measurement control information in variable MEASUREMENT_IDENTITY; and
2>	refrain from updating the traffic volume measurement control information associated with this measurement identity in the variable MEASUREMENT_IDENTITY with the information received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11) until this measurement is explicitly released with another MEASUREMENT CONTROL message.
1>	for FDD, if the IE "Read SFN indicator" included in the IE "Cell info" of an inter-frequency cell is set to TRUE and  according  to the UE's measurement capabilies, the UE requires DL compressed mode in order to perform measurements on the frequency for which the SFN is to be read:
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	clear the entry for the MEASUREMENT CONTROL message in the table "Accepted transactions" in the variable TRANSACTIONS.
The UE may:
1>	if the IE "Measurement command" has the value "setup":
2>	for measurement type "UE positioning measurement":
3>	if the UE is CELL_FACH state:
4>	if IE "Positioning Method" is set to "GPS":
5>	if IE "UE positioning GPS assistance data" is not included and variable UE_POSITIONING_GPS_DATA is empty:
6>	if System Information Block types 15, 15.1, 15.2 and 15.3 are broadcast:
7>	read System Information Block types 15, 15.1, 15.2 and 15.3.
6>	act as specified in subclause 8.6.7.19.3.
5>	if IE "GANSS Positioning Methods" is present:
6>	for each GNSS indicated in IE "GANSS Positioning Methods" and supported by UE:
7>	if IE "UE positioning GANSS assistance data" is not included and variable UE_POSITIONING_GANSS_DATA does not contain data for that GNSS:
8>	if System Information Block types 15bis, 15.1bis, 15.2bis, 15.2ter, 15.3bis, 15.6, 15.7 and 15.8 are broadcast:
9>	read System Information Block types 15bis, 15.1bis, 15.2bis, 15.2ter, 15.3bis, 15.6, 15.7 and 15.8.
8>	act as specified in subclause 8.6.7.19.7.
6>	if BDS is indicated in IE "GANSS Positioning Methods" and supported by UE:
7>	if IE "UE positioning GANSS assistance data" is not included:
8>	if System Information Block type 15.1ter is broadcast:
9>	read System Information Block type 15.1ter.
8>	act as specified in subclause 8.6.7.19.7.
1>	and the procedure ends.
8.4.1.4	Unsupported measurement in the UE
If UTRAN instructs the UE to perform a measurement that is not supported by the UE, or would cause the maximum number of reporting criteria supported by the UE [19] to be exceeded, the UE shall:
1>	retain the measurement configuration that was valid before the MEASUREMENT CONTROL message was received;
1>	if the UE supports inclusion of measurement identity, set the IE "Measurement Identity" in the MEASUREMENT CONTROL FAILURE message to the value of "Measurement identity" in the entry for the MEASUREMENT CONTROL message in the table "Accepted transactions" in the variable TRANSACTIONS;
1>	set the IE "RRC transaction identifier" in the MEASUREMENT CONTROL FAILURE message to the value of "RRC transaction identifier" in the entry for the MEASUREMENT CONTROL message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the cause value in IE "failure cause" to "unsupported measurement";
1>	submit the MEASUREMENT CONTROL FAILURE message to lower layers for transmission on the DCCH using AM RLC;
1>	continue with any ongoing processes and procedures as if the invalid MEASUREMENT CONTROL message has not been received;
1>	and the procedure ends.
8.4.1.4a	Configuration Incomplete
If the variable CONFIGURATION_INCOMPLETE is set to TRUE, the UE shall:
1>	retain the measurement configuration that was valid before the MEASUREMENT CONTROL message was received;
1>	if the UE supports inclusion of measurement identity, set the IE "Measurement Identity" in the MEASUREMENT CONTROL FAILURE message to the value of "Measurement identity" in the entry for the MEASUREMENT CONTROL message in the table "Accepted transactions" in the variable TRANSACTIONS;
1>	set the IE "RRC transaction identifier" in the MEASUREMENT CONTROL FAILURE message to the value of "RRC transaction identifier" in the entry for the MEASUREMENT CONTROL message in the table "Accepted transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	clear the variable CONFIGURATION_INCOMPLETE;
1>	set the cause value in IE "failure cause" to "Configuration incomplete";
1>	submit the MEASUREMENT CONTROL FAILURE message to lower layers for transmission on the DCCH using AM RLC;
1>	continue with any ongoing processes and procedures as if the invalid MEASUREMENT CONTROL message has not been received;
1>	and the procedure ends.
8.4.1.5	Invalid MEASUREMENT CONTROL message
If the MEASUREMENT CONTROL message contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	if the UE supports inclusion of measurement identity, set the IE "Measurement Identity" in the MEASUREMENT CONTROL FAILURE message to the value of "Measurement identity" in the entry for the MEASUREMENT CONTROL message in the table "Rejected transactions" in the variable TRANSACTIONS;
1>	set the IE "RRC transaction identifier" in the MEASUREMENT CONTROL FAILURE message to the value of "RRC transaction identifier" in the entry for the MEASUREMENT CONTROL message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	set the IE "failure cause" to the cause value "protocol error";
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION;
1>	submit the MEASUREMENT CONTROL FAILURE message to lower layers for transmission on the DCCH using AM RLC;
1>	continue with any ongoing processes and procedures as if the invalid MEASUREMENT CONTROL message has not been received;
1>	and the procedure ends.
8.4.1.6	Measurements after transition from CELL_DCH to CELL_FACH/CELL_PCH/URA_PCH state
The UE shall apply the following rules for different measurement types after transiting from CELL_DCH to CELL_FACH/CELL_PCH/URA_PCH state:
8.4.1.6.1	Intra-frequency measurement
Upon transition from CELL_DCH to CELL_FACH/CELL_PCH/URA_PCH state, the UE shall:
1>	stop intra-frequency type measurement reporting;
1>	if the transition is due to a reconfiguration message which included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selects a cell other than that indicated by this IE on the current frequency (in case the IE "Frequency info" is not received) or other than that indicated by this IE on the frequency indicated by the IE "Frequency info" (when the IE "Frequency info" is included); or
1>	if the transition is due to a reconfiguration message which does not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD); or
1>	if the transition is not due to a reconfiguration message:
2>	delete the measurements of type intra-frequency associated with the variable MEASUREMENT_IDENTITY.
1>	for FDD and 3.84/7.68 Mcps TDD:
2>	begin monitoring cells listed in the IE "intra-frequency cell info list" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11).
1>	for 1.28 Mcps TDD:
2>	if after state transition the UE enters CELL_FACH state and is working on the primary frequency:
3>	begin monitoring cells listed in the IE "intra-frequency cell info list" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11).
2>	else if after state transition the UE enters CELL_FACH state and is working on the secondary frequency:
3>	if the cell in which the UE transited from CELL_DCH state is not included in the active set for the CELL_FACH state; or
3>	if the working frequency changes after the state transition:
4>	the measurement shall be started when a MEASUREMENT CONTROL message is received with the measurements of type intra-frequency.
8.4.1.6.2	Inter-frequency measurement
Upon transition from CELL_DCH to CELL_FACH/ CELL_PCH/URA_PCH state, the UE shall:
1>	stop the inter-frequency type measurement reporting assigned in a MEASUREMENT CONTROL message;
1>	if the transition is due to a reconfiguration message which included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selects a cell other than that indicated by this IE on the current frequency (in case the IE "Frequency info" is not received) or other than that indicated by this IE on the frequency indicated by the IE "Frequency info" (when the IE "Frequency info" is included); or
1>	if the transition is due to a reconfiguration message which does not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD); or
1>	if the transition is not due to a reconfiguration message:
2>	delete the measurements of type inter-frequency associated with the variable MEASUREMENT_IDENTITY and delete the corresponding compressed mode pattern stored in the variable TGPS_IDENTITY.
1> for remaining compressed mode patterns, set the IE "TGPS Status Flag" to "deactivate" and the IE "Current TGPS Status Flag" to "inactive" in the variable TGPS_IDENTITY.
1>	for FDD and 3.84/7.68 Mcps TDD:
2>	begin monitoring cells listed in the IE "inter-frequency cell info list" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11 and System Information Block type 11bis, according to subclause 8.1.1.6.11a if scheduled on BCH);
1>	for FDD:
2>	begin monitoring cells listed in the IE "inter-frequency cell info list" received in System Information Block type 11ter, according to subclause 8.1.1.6.11b if scheduled on BCH).
1>	in CELL_FACH state:
2>	if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_SCCH_DRX_CELL_FACH_STATUS is set to TRUE:
3> perform measurements on other frequencies according to the requirements in [19], during the frames with SFN value not fulfiling the inequality specified in subclause 8.5.89.
2>	else if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_STATUS is set to TRUE:
3>	perform measurements on other frequencies according to the requirements in [19], during the frame(s) with the SFN value not fulfiling the inequality specified in subclause 8.5.49.
2>	else if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE:
3>	perform measurements on other frequencies according to the requirements in [19], during the frame(s) with the SFN value not fulfiling the inequality specified in subclause 8.5.49b.
2>	otherwise:
3>	perform measurements on other frequencies, according to the IE "FACH measurement occasion info", as specified in subclause 8.5.11.
2>	for TDD:
3>	perform measurements on other frequencies according to the IE "FACH measurement occasion info".
1>	for 1.28 Mcps TDD:
2>	if after state transition the UE enters CELL_FACH state and is working on the primary frequency:
3>	begin monitoring cells listed in the IE "inter-frequency cell info list" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11).
2>	else if after state transition the UE enters CELL_FACH state and is working on the secondary frequency:
3>	if the cell in which the UE transited from CELL_DCH state is not included in the active set for the CELL_FACH state; or
3>	if the working frequency changes after the state transition:
4>	the measurement shall be started when a MEASUREMENT CONTROL message is received with the measurements of type inter-frequency.
8.4.1.6.3	Inter-RAT measurement
Upon transition from CELL_DCH to CELL_FACH/CELL_PCH/URA_PCH state, the UE shall:
1>	stop the inter-RAT type measurement reporting assigned in a MEASUREMENT CONTROL message;
1>	delete the measurements of type inter-RAT associated with the variable MEASUREMENT_IDENTITY and delete the corresponding compressed mode pattern stored in the variable TGPS_IDENTITY;
1>	begin monitoring cells listed in the IE "inter-RAT cell info list" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11);
1>	in CELL_PCH or URA_PCH state:
2>	begin monitoring E-UTRA frequencies listed in the IE "E-UTRA frequency and priority info list" received in System Information Block type 19.
1>	in CELL_FACH state:
2>	if the IE "CELL_FACH Absolute Priority Measurement Indicator" is present in System Information Block type 19:
3>	begin monitoring E-UTRA frequencies listed in the IE "E-UTRA frequency and priority info list" received in System Information Block type 19.
2>	if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_SCCH_DRX_CELL_FACH_STATUS is set to TRUE:
3> perform measurements on other frequencies according to the requirements in [19], during the frames with SFN value not fulfiling the inequality specified in subclause 8.5.89.
2>	else if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_STATUS is set to TRUE:
3>	perform measurements on other systems according to the requirements in [19], during the frame(s) with the SFN value not fulfiling the inequality specified in subclause 8.5.49.
2>	else if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE:
3>	perform measurements on other systems according to the requirements in [19], during the frame(s) with the SFN value not fulfiling the inequality specified in subclause 8.5.49b.
2>	otherwise:
3>	perform measurements on other frequencies according to the IE "FACH measurement occasion info";
3>	perform measurements on other systems, according to the IE "FACH measurement occasion info", as specified in subclause 8.5.11.
8.4.1.6.4	Quality measurement
Upon transition from CELL_DCH to CELL_FACH/CELL_PCH/URA_PCH state, the UE shall:
1>	stop quality type measurement reporting;
1>	delete all measurement control information of measurement type "quality" stored in the variable MEASUREMENT_IDENTITY.
8.4.1.6.5	UE internal measurement
Upon transition from CELL_DCH to CELL_FACH/CELL_PCH/URA_PCH state, the UE shall:
1>	stop UE internal measurement type measurement reporting;
1>	delete all measurement control information of measurement type "UE internal" stored in the variable MEASUREMENT_IDENTITY.
8.4.1.6.6	Traffic volume measurement
Upon transition from CELL_DCH to CELL_FACH or CELL_PCH or URA_PCH state, the UE shall:
1>	retrieve each set of measurement control information of measurement type "traffic volume" stored in the variable MEASUREMENT_IDENTITY; and
2>	if the optional IE "measurement validity" for this measurement has not been included:
3>	delete the measurement associated with the variable MEASUREMENT_IDENTITY.
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "CELL_DCH":
3>	stop measurement reporting;
3>	store the measurement associated with the variable MEASUREMENT_IDENTITY to be used after the next transition to CELL_DCH state.
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "all states" or "all states except CELL_DCH", and if the state transition is from CELL_DCH to CELL_PCH or URA_PCH state:
3>	stop measurement reporting;
3>	store the measurement associated with the variable MEASUREMENT_IDENTITY to be used after the next transition to CELL_FACH state.
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "all states", and if the state transition is from CELL_DCH to CELL_FACH state:
3>	if variable READY_FOR_COMMON_EDCH is set to FALSE after state transition:
4>	continue measurement reporting.
3>	else:
4>	for FDD:
5>	stop measurement reporting;
5>	store the measurement associated with the variable MEASUREMENT_IDENTITY to be used after the next transition to CELL_DCH state, or after cell reselection.
4>	for 1.28 Mcps TDD:
5>	continue measurement reporting.
2>	if the IE "measurement validity" has been included and the IE "UE state" has been assigned to value "all states except CELL_DCH", and if the state transition is from CELL_DCH to CELL_FACH state:
3>	resume this measurement and associated reporting.
1>	if no traffic volume type measurement has been assigned to the UE with a MEASUREMENT CONTROL message that is valid in CELL_FACH or CELL_PCH or URA_PCH states (stored in the variable MEASUREMENT_IDENTITY), which has the same identity as the one indicated in the IE "Traffic volume measurement system information":
2>	store the measurement control information from the IE "Traffic volume measurement system information" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11) in the variable MEASUREMENT_IDENTITY;
2>	perform traffic volume measurement reporting according to the assigned information, when in CELL_FACH state.
8.4.1.6.7	UE positioning measurement
Upon transition from CELL_DCH to CELL_FACH and upon transition from CELL_DCH to CELL_PCH or URA_PCH for UE assisted GPS or GANSS measurements, the UE shall:
1>	retrieve each set of measurement control information of measurement type "UE positioning" stored in the variable MEASUREMENT_IDENTITY; and
2>	if the optional IE "measurement validity" for this measurement has not been included:
3>	delete the measurement associated with the variable MEASUREMENT_IDENTITY.
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "CELL_DCH":
3>	stop measurement reporting;
3>	store the measurement associated with the variable MEASUREMENT_IDENTITY to be used after the next transition to CELL_DCH state.
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "all states":
3>	upon transition from CELL_DCH to CELL_PCH or URA_PCH:
4>	if the choice in the IE "Reporting Criteria" included the IE "UE Positioning measurement" stored in the variable MEASUREMENT_IDENTITY is set to "UE positioning reporting criteria" and the value of the IE "Measurement interval" included in this IE is less than 64 seconds:
5>use a value of 64 seconds for the measurement interval associated with this measurement while the UE remains in CELL_PCH/URA_PCH.
4>	if the choice in the IE "Reporting Criteria" included the IE "UE Positioning measurement" stored in the variable MEASUREMENT_IDENTITY is set to "Periodical Reporting Criteria" and the value of the IE "Reporting interval" included in this IE is less than 64 seconds:
5>	use a value of 64 seconds for the reporting interval associated with this measurement while the UE remains in CELL_PCH/URA_PCH.
3>	continue measurement reporting according to its UE positioning measurement reporting capability.
2>	if the IE "measurement validity" has been included and the IE "UE state" has been assigned to value "all states except CELL_DCH":
3>	upon transition from CELL_DCH to CELL_PCH or URA_PCH:
4>	if the choice in the IE "Reporting Criteria" included the IE "UE Positioning measurement" stored in the variable MEASUREMENT_IDENTITY is set to "UE positioning reporting criteria" and the value of the IE "Measurement interval " included in this IE is less than 64 seconds:
5>	use a value of 64 seconds for the measurement interval associated with this measurement while the UE remains in CELL_PCH/URA_PCH.
4>	if the choice in the IE "Reporting Criteria" included the IE "UE Positioning measurement" stored in the variable MEASUREMENT_IDENTITY is set to "Periodical Reporting Criteria" and the value of the IE "Reporting interval" included in this IE is less than 64 seconds:
5>	 use a value of 64 seconds for the reporting interval associated with this measurement while the UE remains in CELL_PCH/URA_PCH.
3>	resume this measurement and associated reporting according to its UE Positioning measurement reporting capability.
1>	if the transition is due to a reconfiguration message which included the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD), and the UE selects a cell other than that indicated by this IE; or
1>	if the transition is due to a reconfiguration message which does not include the IE "Primary CPICH info" (for FDD) or "Primary CCPCH info" (for TDD); or
1>	if the transition is due to a reconfiguration message which included the IE "Frequency info", and the UE selects a cell on another frequency than that indicated by this IE; or
1>	if the transition is due to a reconfiguration message which does not include the IE "Frequency info", and the UE can not find a cell on the current frequency, but it selects a cell on another frequency; or
1>	if the transition is not due to a reconfiguration message:
2>	delete the assistance data included in the variable UE_POSITIONING_OTDOA_DATA_UE_BASED and UE_POSITIONING_OTDOA_DATA_UE_ASSISTED.
1>	if the IE "Positioning Methods" stored in the variable MEASUREMENT_IDENTITY is set to "OTDOA" or "OTDOA or GPS":
2>	if the IE "Method type" stored in the variable MEASUREMENT_IDENTITY is set to "UE-based" or "UE assisted preferred but UE-based allowed" or "UE-based preferred but UE-assisted allowed":
3>	begin monitoring assistance data received in System Information Block type 15.4 and System Information Block type 15.5 according to subclause 8.1.1.6.15.
2>	if the IE "Method type" stored in the variable MEASUREMENT_IDENTITY is set to "UE-assisted":
3>	begin monitoring assistance data received in System Information Block type 15.4 according to subclause 8.1.1.6.15.
1>	if the UE is in CELL_FACH state:
2>	if the IE "UE positioning OTDOA neighbour cell list for UE assisted" stored in the variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED or UE_POSITIONING_OTDOA_DATA_UE_BASED contains neighbour cells on other frequencies than the current frequency:
3>	perform measurements on other frequencies according to the IE "FACH measurement occasion info".
The UE may:
1>	if the IE "Positioning Methods" stored in the variable MEASUREMENT_IDENTITY is set to "GPS" or "OTDOA or GPS":
2>	begin monitoring assistance data received in System Information Block type 15 and/or System Information Block type 15.1 and/or System Information Block type 15.2 and/or System Information Block type 15.3 according to subclause 8.1.1.6.15.
2>	if the IE "GANSS Positioning Methods" is present:
3>	begin monitoring assistance data received in System Information Block type 15bis and/or System Information Block type 15.1bis and/or System Information Block type 15.2bis and/or System Information Block type 15.2ter and/or System Information Block type 15.3bis and/or System Information Block type 15.6 and/or System Information Block type 15.7 and/or System Information Block type 15.8 according to subclause 8.1.1.6.15.
3>	if BDS is indicated in IE "GANSS Positioning Methods" and supported by UE;
4>	begin monitoring assistance data received in System Information Block type 15.1ter according to subclause 8.1.1.6.15.1b.
NOTE:	In the case that the measurement or reporting intervals are modified to 64 seconds during a transition to CELL_PCH/URA_PCH as described above, the UE retains the previously used values of "Measurement interval" and "Reporting interval" for use after transition out of CELL_PCH/URA_PCH.
8.4.1.6.8	CSG Proximity detection measurement
Upon transition from CELL_DCH to CELL_FACH/CELL_PCH/URA_PCH state, the UE shall:
1>	stop CSG Proximity detection type measurement reporting.
8.4.1.6a	Actions in CELL_FACH/CELL_PCH/URA/PCH state upon cell re-selection
Upon cell reselection while in CELL_FACH/CELL_PCH/URA/PCH state and the cell reselection has occurred after the measurement control information was stored, the UE shall:
1>	delete all measurements of type intra-frequency, inter-frequency, inter-RAT and E-UTRA measurement for CELL_FACH associated with the variable MEASUREMENT_IDENTITY;
1>	delete all compressed mode patterns associated with inter-frequency and inter-RAT measurements stored in the variable TGPS_IDENTITY;
1>	delete the traffic volume measurements that have not been set up or modified through a MEASUREMENT CONTROL message.
8.4.1.7	Measurements after transition from CELL_FACH to CELL_DCH state
The UE shall apply the following rules for different measurement types after transiting from CELL_FACH to CELL_DCH state:
8.4.1.7.1	Intra-frequency measurement
Upon transition from CELL_FACH to CELL_DCH state:
1>	for FDD or 3.84/7.68 Mcps TDD; or
1>	for 1.28 Mcps TDD, if the UE is working on the same frequency after the state transition:
2>	if intra-frequency measurements applicable to CELL_DCH state are stored in the variable MEASUREMENT_IDENTITY:
3>	if the cell in which the UE transited from CELL_FACH state is included in the active set for the CELL_DCH state, the UE shall:
4>	resume the measurement reporting on that frequency;
4>	not resume the measurement reporting on the downlink frequency associated with the secondary uplink frequency. The measurement shall be restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
3>	otherwise, the UE shall:
4>	not resume the measurement reporting. The measurement shall be restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
1>	for 1.28 Mcps TDD, if the UE is working on the different frequency after the state transition:
2>	not resume the measurement reporting.
2>	delete the measurements of type intra-frequency associated with the variable MEASUREMENT_IDENTITY.
8.4.1.7.2	Inter-frequency measurement
Upon transition from CELL_FACH to CELL_DCH state:
1>	for FDD or 3.84/7.68 Mcps TDD; or
1>	for 1.28 Mcps TDD, if the UE is working on the same frequency after the state transition:
2>	if inter-frequency measurements applicable to CELL_DCH state are stored in the variable MEASUREMENT_IDENTITY:
3>	if the cell in which the UE transited from CELL_FACH state is included in the active set for the CELL_DCH state, the UE shall:
4>	resume the measurement reporting.
3>	otherwise, the UE shall:
4>		not resume the measurement reporting. The measurement shall be restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
1>	for 1.28 Mcps TDD, if the UE is working on the different frequency after the state transition:
2>	not resume the measurement reporting.
2>	delete the measurements of type inter-frequency associated with the variable MEASUREMENT_IDENTITY.
8.4.1.7.3	Inter-RAT measurement
Upon transition from CELL_FACH to CELL_DCH state, the UE shall:
1>	stop monitoring the list of cells assigned in the IE "inter-RAT cell info list" in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11).
1>	stop monitoring E-UTRA frequencies listed in the IE "E-UTRA frequency and priority info list" in System Information Block type 19.
8.4.1.7.4	Traffic volume measurement
Upon transition from CELL_FACH to CELL_DCH state, the UE shall:
1>	retrieve each set of measurement control information of measurement type "traffic volume" stored in the variable MEASUREMENT_IDENTITY;
2>	if the optional IE "measurement validity" for this measurement has not been included:
3>	delete the measurement associated with the variable MEASUREMENT_IDENTITY.
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "all states except CELL_DCH":
3>	stop measurement reporting; and
3>	save the measurement associated with the variable MEASUREMENT_IDENTITY to be used after the next transition to CELL_FACH/CELL_PCH/URA_PCH state.
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "all states":
3>	if variable READY_FOR_COMMON_EDCH is set to FALSE before state transition:
4>	continue measurement reporting.
3>	else:
4>	for FDD:
5>		resume this measurement and associated reporting.
4>	for 1.28 Mcps TDD:
5>	continue measurement reporting.
2>	if the IE "measurement validity" has been included and the IE "UE state" has been assigned to value "CELL_DCH":
3>	resume this measurement and associated reporting.
1>	if no traffic volume type measurement has been assigned to the UE with a MEASUREMENT CONTROL message that is valid in CELL_DCH and has the same identity as the one indicated in the IE "Traffic volume measurement system information":
2>	store the measurement control information from the IE "Traffic volume measurement system information" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11) in the variable MEASUREMENT_IDENTITY;
2>	begin traffic volume measurement reporting according to the assigned information.
8.4.1.7.5	UE positioning measurement
Upon transition from CELL_FACH to CELL_DCH state, the UE shall:
1>	retrieve each set of measurement control information of measurement type "UE positioning" stored in the variable MEASUREMENT_IDENTITY; and
2>	if the optional IE "Measurement validity" for this measurement has not been included:
3>	delete the measurement associated with the variable MEASUREMENT_IDENTITY.
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "all states except CELL_DCH":
3>	stop measurement reporting; and
3>	save the measurement associated with the variable MEASUREMENT_IDENTITY to be used after the next transition to CELL_FACH/CELL_PCH/URA_PCH state.
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "all states":
3>	continue measurement reporting.
2>	if the IE "measurement validity" has been included and the IE "UE state" has been assigned to value "CELL_DCH":
3>	resume this measurement and associated reporting.
1>	stop monitoring assistance data received in System Information Block type 15 or System Information Block type 15.1 or System Information Block type 15.2 or System Information Block type 15.3 or System Information Block type 15.4 or System Information Block 15.5 or System Information Block type 15bis or System Information Block type 15.1bis or System Information Block type 15.1ter or System Information Block type 15.2bis or System Information Block type 15.2ter or System Information Block type 15.3bis or System Information Block type 15.6 or System Information Block type 15.7 or System Information Block type 15.8.
8.4.1.7.6	CSG Proximity detection measurement
Upon transition from CELL_FACH to CELL_DCH state, the UE shall:
1>	resume CSG Proximity detection type measurement reporting, if configured.
8.4.1.7.7	E-UTRA measurement for CELL_FACH
Upon transition from CELL_FACH to CELL_DCH state, for FDD the UE shall:
1>	stop the E-UTRA measurement for CELL_FACH type measurement;
1>	delete the measurement of type E-UTRA measurement for CELL_FACH associated with the variable MEASUREMENT_IDENTITY.
8.4.1.8	Measurements after transition from idle mode to CELL_DCH state
The UE shall obey the following rules for different measurement types after transiting from idle mode to CELL_DCH state:
8.4.1.8.1	Intra-frequency measurement
Upon transition from idle mode to CELL_DCH state:
1>	if intra-frequency measurements applicable to CELL_DCH state are stored in the variable MEASUREMENT_IDENTITY:
2>	if the cell in which the UE transited from idle mode is included in the active set for the CELL_DCH state, the UE shall:
3>	begin measurement reporting.
2>	otherwise, the UE shall:
3>		not begin the measurement reporting. The measurement shall be restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
8.4.1.8.2	Inter-frequency measurement
Upon transition from idle mode to CELL_DCH state, the UE shall:
1>	stop monitoring the list of cells assigned in the IE "inter-frequency cell info list" in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11, and System Information Block type 11bis, according to subclause 8.1.1.6.11a if scheduled on BCH, and System Information Block type 11ter, according to subclause 8.1.1.6.11b if scheduled on BCH).
8.4.1.8.3	Inter-RAT measurement
Upon transition from idle mode to CELL_DCH state, the UE shall:
1>	stop monitoring the list of cells assigned in the IE "inter-RAT cell info list" in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11);
1>	stop monitoring the list of E-UTRA frequencies assigned in the IE "E-UTRA frequency and priority info list" in System Information Block type 19.
8.4.1.8.4	Traffic volume measurement
Upon transition from idle mode to CELL_DCH state, the UE shall:
1>	begin a traffic volume type measurement, assigned in System Information Block type 11 (or System Information Block type 12, according to subclause 8.1.1.6.11).
8.4.1.8.5	UE positioning measurement
Upon transition from idle mode to CELL_DCH state, the UE shall:
1>	stop monitoring assistance data received in System Information Block type 15 or System Information Block type 15.1 or System Information Block type 15.2 or System Information Block type 15.3 or System Information Block type 15.4 or System Information Block type 15.5 or System Information Block type 15bis or System Information Block type 15.1bis or System Information Block type 15.1ter or System Information Block type 15.2bis or System Information Block type 15.2ter or System Information Block type 15.3bis or System Information Block type 15.6 or System Information Block type 15.7 or System Information Block type 15.8.
8.4.1.9	Measurements after transition from idle mode to CELL_FACH state
The UE shall obey the follow rules for different measurement types after transiting from idle mode to CELL_FACH state:
8.4.1.9.1	Intra-frequency measurement
Upon transition from idle mode to CELL_FACH state, the UE shall:
1>	begin or continue monitoring cells listed in the IE "intra-frequency cell info list" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11).
8.4.1.9.2	Inter-frequency measurement
Upon transition from idle mode to CELL_FACH state, the UE shall:
1>	begin or continue monitoring cells listed in the IE "inter-frequency cell info list" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11, and System Information Block type 11bis, according to subclause 8.1.1.6.11a if scheduled on BCH, and System Information Block type 11ter, according to subclause 8.1.1.6.11b if scheduled on BCH); 
1>	if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_SCCH_DRX_CELL_FACH_STATUS is set to TRUE:
2> perform measurements on other frequencies according to the requirements in [19], during the frames with SFN value not fulfiling the inequality specified in subclause 8.5.89.
1>	else if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_STATUS is set to TRUE:
2>	perform measurements on other frequencies according to the requirements in [19], during the frame(s) with the SFN value not fulfiling the inequality specified in subclause 8.5.49.
1>	else if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE:
2>	perform measurements on other frequencies according to the requirements in [19], during the frame(s) with the SFN value not fulfiling the inequality specified in subclause 8.5.49b.
1>	otherwise:
2>	perform measurements on other frequencies, according to the IE "FACH measurement occasion info", as specified in subclause 8.5.11.
1>	for TDD:
2>	perform measurements on other frequencies according to the IE "FACH measurement occasion info".
8.4.1.9.3	Inter-RAT measurement
Upon transition from idle mode to CELL_FACH state, the UE shall:
1>	begin or continue monitoring cells listed in the IE "inter-RAT cell info list" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11);
1>	if the IE "CELL_FACH Absolute Priority Measurement Indicator" is present in System Information Block type 19:
2>	continue monitoring the list of E-UTRA frequencies assigned in the IE "E-UTRA frequency and priority info list" in System Information Block type 19.
1>	else:
2>	stop monitoring the list of E-UTRA frequencies assigned in the IE "E-UTRA frequency and priority info list" in System Information Block type 19; 
1>	if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_SCCH_DRX_CELL_FACH_STATUS is set to TRUE:
2> perform measurements on other frequencies according to the requirements in [19], during the frames with SFN value not fulfiling the inequality specified in subclause 8.5.89.
1>	else if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_STATUS is set to TRUE:
2>	perform measurements on other systems according to the requirements in [19], during the frame(s) with the SFN value not fulfiling the inequality specified in subclause 8.5.49.
1>	else if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE:
2>	perform measurements on other systems according to the requirements in [19], during the frame(s) with the SFN value not fulfiling the inequality specified in subclause 8.5.49b.
1>	otherwise:
2>	perform measurements on other systems, according to the IE "FACH measurement occasion info", as specified in subclause 8.5.11.
1>	for TDD:
2>	perform measurements on other frequencies according to the IE "FACH measurement occasion info".
8.4.1.9.4	Traffic volume measurement
Upon transition from idle mode to CELL_FACH state, the UE shall:
1>	store the measurement control information from the IE "Traffic volume measurement system information" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11) in the variable MEASUREMENT_IDENTITY;
1>	begin traffic volume measurement reporting according to the assigned information.
8.4.1.9.5	UE positioning measurement
Upon transition from idle mode to CELL_FACH state, the UE may:
1>	begin or continue monitoring assistance data received in System Information Block type 15 or System Information Block type 15.1 or System Information Block type 15.2 or System Information Block type 15.3 or System Information Block type 15.4 or System Information Block type 15.5 or System Information Block type 15bis or System Information Block type 15.1bis or System Information Block type 15.1ter or System Information Block type 15.2bis or System Information Block type 15.2ter or System Information Block type 15.3bis or System Information Block type 15.6 or System Information Block type 15.7 or System Information Block type 15.8 according to subclause 8.1.1.6.15;
1>	if the IE "UE positioning OTDOA neighbour cell list for UE assisted" stored in the variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED; or
1>	if the IE "UE positioning OTDOA neighbour cell list for UE based" stored in the variable UE_POSITIONING_OTDOA_DATA_UE_BASED contains neighbour cells on other frequencies than the current frequency:
2>	perform measurements on other frequencies according to the IE "FACH measurement occasion info".
8.4.1.9a	Measurements after transition from connected mode to idle mode
Upon transition from connected mode to idle mode the UE shall:
1>	stop measurement reporting for all measurements stored in the variable MEASUREMENT_IDENTITY;
1>	clear the variable MEASUREMENT_IDENTITY;
1>	apply the following rules for different measurement types.
8.4.1.9a.1	Intra-frequency measurement
Upon transition from connected mode to idle mode, the UE shall:
1>	stop monitoring intra-frequency cells listed in the IE "intra-frequency cell info list" received in System Information Block type 12 (if System Information Block type 12 is transmitted in the cell, according to subclause 8.1.1.6.11);
1>	begin monitoring intra-frequency cells listed in the IE "intra-frequency cell info list" received in System Information Block type 11.
8.4.1.9a.2	Inter-frequency measurement
Upon transition from connected mode to idle mode, the UE shall:
1>	stop monitoring inter-frequency cells listed in the IE "inter-frequency cell info list" received in System Information Block type 12 (if System Information Block type 12 is transmitted in the cell, according to subclause 8.1.1.6.11);
1>	begin monitoring inter-frequency cells listed in the IE "inter-frequency cell info list" received in System Information Block type 11 and System Information Block type 11bis, according to subclause 8.1.1.6.11a if scheduled on BCH, and System Information Block type 11ter, according to subclause 8.1.1.6.11b if scheduled on BCH.
8.4.1.9a.3	Inter-RAT measurement
Upon transition from connected mode to idle mode, the UE shall:
1>	stop monitoring inter-RAT cells listed in the IE "inter-RAT cell info list" received in System Information Block type 12 (if System Information Block type 12 is transmitted in the cell, according to 8.1.1.6.11);
1>	begin monitoring inter-RAT cells listed in the IE "inter-RAT cell info list" received in System Information Block type 11;
1>	begin or continue monitoring E-UTRA frequencies listed in the IE "E-UTRA frequency and priority info list" received in System Information Block type 19.
8.4.1.9a.4	UE positioning measurement
Upon transition from connected mode to idle mode, the UE may:
1>	begin or continue monitoring assistance data received in System Information Block type 15 or System Information Block type 15.1 or System Information Block type 15.2 or System Information Block type 15.3 or System Information Block type 15.4 or System Information Block type 15.5 or System Information Block type 15bis or System Information Block type 15.1bis or System Information Block type 15.1ter or System Information Block type 15.2bis or System Information Block type 15.2ter or System Information Block type 15.3bis or System Information Block type 15.6 or System Information Block type 15.7 or System Information Block type 15.8.
8.4.1.9b	Measurements after transition from CELL_FACH to CELL_PCH/URA_PCH
8.4.1.9b.1	Traffic volume measurement
Upon transition from CELL_FACH to CELL_PCH or URA_PCH, the UE shall:
1>	stop any ongoing traffic volume measurement, and associated traffic volume measurement reporting.
1>	store the measurement associated with the variable MEASUREMENT_IDENTITY to be used after the next transition to CELL_FACH state;
1>	if no traffic volume type measurement has been assigned to the UE with a MEASUREMENT CONTROL message that is valid in CELL_FACH or CELL_PCH or URA_PCH states (stored in the variable MEASUREMENT_IDENTITY), which has the same identity as the one indicated in the IE "Traffic volume measurement system information":
2>	store the measurement control information from the IE "Traffic volume measurement system information" received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11) in the variable MEASUREMENT_IDENTITY.
8.4.1.9b.2	UE positioning measurement
Upon transition from CELL_FACH to CELL_PCH or URA_PCH, the UE shall:
1>	retrieve each set of measurement control information of measurement type "UE positioning" stored in the variable MEASUREMENT_IDENTITY; and
2>	if the optional IE "measurement validity" for this measurement has not been included:
3>	delete the measurement associated with the variable MEASUREMENT_IDENTITY.
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "all states" or "all states except CELL_DCH":
3>	if the choice in the IE "Reporting Criteria" included in the IE "UE Positioning measurement" stored in the variable MEASUREMENT_IDENTITY is set to "UE positioning reporting criteria" and the value of the IE "Measurement interval" included in this IE is less than 64 seconds:
4>	use a value of 64 seconds for the measurement interval associated with this measurement while the UE remains in CELL_PCH/URA_PCH.
3>	if the choice in the IE "Reporting Criteria" included in the IE "UE Positioning measurement" stored in the variable MEASUREMENT_IDENTITY is set to "Periodical Reporting Criteria" and the value of the IE "Reporting interval" included in this IE is less than 64 seconds:
4>	use a value of 64 seconds for the reporting interval associated with this measurement while the UE remains in CELL_PCH/URA_PCH.
NOTE:	In the case that the measurement or reporting intervals are modified to 64 seconds as described above, the UE retains the previously used values of "Measurement interval" and "Reporting interval" for use after transition out of CELL_PCH/URA_PCH.
8.4.1.9b.3	Inter-RAT measurement
Upon transition from CELL_FACH to CELL_PCH or URA_PCH, the UE shall:
1>	begin or continue monitoring E-UTRA frequencies listed in the IE "E-UTRA frequency and priority info list" in System Information Block type 19.
8.4.1.9b.4	Intra-frequency measurement
Upon transition from CELL_FACH to CELL_PCH or URA_PCH, the UE shall:
1>	for 1.28 Mcps TDD, if the UE is working on the secondary frequency before state transition:
2>	delete the measurements of type intra-frequency associated with the variable MEASUREMENT_IDENTITY.
2>	the measurement shall be started when the IE "intra-frequency cell info list" is received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11).
8.4.1.9b.5	Inter-frequency measurement
Upon transition from CELL_FACH to CELL_PCH or URA_PCH, the UE shall:
1>	for 1.28 Mcps TDD, if the UE is working on the secondary frequency before state transition:
2>	delete the measurements of type inter-frequency associated with the variable MEASUREMENT_IDENTITY.
2>	the measurement shall be started when the IE "inter-frequency cell info list" is received in System Information Block type 12 (or System Information Block type 11, according to subclause 8.1.1.6.11).
8.4.1.9b.6	E-UTRA measurement for CELL_FACH
Upon transition from CELL_FACH to CELL_PCH or URA_PCH, for FDD the UE shall:
1>	stop the E-UTRA measurement for CELL_FACH type measurement;
1>	delete the measurement of type E-UTRA measurement for CELL_FACH associated with the variable MEASUREMENT_IDENTITY.
8.4.1.9c	Measurements after transition from CELL_PCH/URA_PCH to CELL_FACH
8.4.1.9c.1	Traffic volume measurement
Upon transition from CELL_PCH or URA_PCH to CELL_FACH and if variable READY_FOR_COMMON_EDCH is set to FALSE after state transition, the UE shall resume any traffic volume measurement stored in the variable MEASUREMENT_IDENTITY with measurement validity "all states" or "all states except CELL_DCH", and start the associated traffic volume measurement reporting.
For FDD, upon transition from CELL_PCH or URA_PCH to CELL_FACH and if variable READY_FOR_COMMON_EDCH is set to TRUE after state transition, the UE shall resume any traffic volume measurement stored in the variable MEASUREMENT_IDENTITY with measurement validity "all states except CELL_DCH" and Uplink transport channel type set to "DCH", and start the associated traffic volume measurement reporting. 
NOTE:	In FDD, if IE "measurement validity" is set to "all states except CELL_DCH" and IE "Uplink transport channel type" to "DCH", DCH refers as a matter of fact to E-DCH.
For 1.28 Mcps TDD, upon transition from CELL_PCH or URA_PCH to CELL_FACH and if variable READY_FOR_COMMON_EDCH is set to TRUE after state transition, the UE shall resume any traffic volume measurement stored in the variable MEASUREMENT_IDENTITY with measurement validity "all states" or "all states except CELL_DCH" and Uplink transport channel type set to "USCH" and the UL transport channel id is set to 32, and start the associated traffic volume measurement reporting.
NOTE:	In 1.28Mcps TDD, if IE "measurement validity" is set to "all states" or "all states except CELL_DCH" and IE "Uplink transport channel type" to "USCH" and the IE "UL Target Transport Channel ID" to 32, it refers as a matter of fact to E-DCH.
8.4.1.9c.2	UE positioning measurement
Upon transition from CELL_PCH or URA_PCH to CELL_FACH, the UE shall continue any UE positioning measurement stored in the variable MEASUREMENT_IDENTITY with measurement validity "all states" or "all states except CELL_DCH", and continue the associated UE positioning measurement reporting.
NOTE:	The UE's values of "Measurement interval" in the IE "UE positioning reporting criteria" and "Reporting interval" in the IE "Periodical Reporting Criteria" after this state transition revert to the values stored during the transition to CELL_PCH/URA_PCH (i.e., the 64-second interval specified in subclause 8.4.1.9b.2 is not retained).
8.4.1.9c.3	Inter-RAT measurement
Upon transition from CELL_PCH or URA_PCH to CELL_FACH, the UE shall:
1>	if the IE "CELL_FACH Absolute Priority Measurement Indicator" is present in System Information Block type 19:
2>	continue monitoring the list of E-UTRA frequencies assigned in the IE "E-UTRA frequency and priority info list" in System Information Block type 19.
1>	else:
2>	stop monitoring E-UTRA frequencies listed in the IE "E-UTRA frequency and priority info list" in System Information Block type 19. 
1>	if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_SCCH_DRX_CELL_FACH_STATUS is set to TRUE:
2> perform measurements on other frequencies according to the requirements in [19], during the frames with SFN value not fulfiling the inequality specified in subclause 8.5.89.
1>	else if for FDD, variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_STATUS is set to TRUE:
2>	perform measurements on other systems according to the requirements in [19], during the frame(s) with the SFN value not fulfiling the inequality specified in subclause 8.5.49.
1>	otherwise:
2>	perform measurements on other systems, according to the IE "FACH measurement occasion info", as specified in subclause 8.5.11.
8.4.1.10	Changes in measurement objects
8.4.1.10.1	Traffic volume measurement
When performing traffic volume event evaluation or reporting related to a certain transport channel, the UE shall consider all RBs which are mapped to the concerning transport channel e.g. if an additional RB is established on a transport channel used for event triggering or reporting, the new RB shall be taken into account.
NOTE:	In this subclause, an "existing" uplink transport channel refers to a configured uplink transport channel applicable in the current RRC state.
The UE shall:
1>	if variable READY_FOR_COMMON_EDCH is set to FALSE:
2>	if the IE "Traffic volume measurement object" is included for this measurement:
3>	while a transport channel that is referenced in the IE "Traffic volume measurement object" does not exist:
4>	not perform any reporting related to this transport channel.
2>	else:
3>	report on all existing uplink transport channels; e.g. if an additional transport channel is established while the measurement is ongoing, this new transport channel shall be taken into account in the traffic volume measurement reporting.
1>	else:
2>	if the UE is in CELL_FACH state:
3>	for FDD, if one transport channel that is referenced in the IE "Traffic volume measurement object" as "DCH" and IE "measurement validity" is set to "all states except CELL_DCH":
4>	report on the existing transport channel E-DCH.
3>	for 1.28 Mcps TDD, if one transport channel that is referenced in the IE "Uplink transport channel type" as "USCH" and the related IE "UL Target Transport Channel ID" is set to 32 and the IE "measurement validity" is set to "all states" or "all states except CELL_DCH":
4>	report on the existing transport channel E-DCH.
For every traffic volume event, the UE shall:
1>	if variable READY_FOR_COMMON_EDCH is set to FALSE:
2>	if the IE "Uplink transport channel type" is not included in the IE "Traffic volume measurement reporting criteria", or the "Uplink transport channel type" has the value "DCH" or "USCH" and the IE "UL transport channel id" is not included in the IE "Traffic volume measurement reporting criteria":
3>	if the IE "Traffic volume measurement object" is not included:
4>	take all existing UL transport channels into account for event triggering; e.g. if an additional transport channel is established while the measurement is ongoing, this new transport channel shall be taken into account in the traffic volume event triggering.
3>	else:
4>	while a transport channel that is referenced in the IE "Traffic Volume Measurement object" does not exist:
5>	not take this transport channel identity into account in the traffic volume measurement triggering.
2>	else:
3>	while a transport channel that is referenced in the IE "Traffic Volume Measurement Reporting Criteria" does not exist:
4>	not take this transport channel identity into account in the traffic volume event triggering.
8.4.1.10.2	Quality measurement
While a transport channel that is explicitly referenced with a transport channel identity in the IE "Quality Reporting Quantity" does not exist, the UE shall:
1>	not perform any reporting related to this transport channel identity.
If the IE "Quality Reporting Quantity" does not contain any explicit transport channel identities, the UE shall:
1>	report the quality of all existing downlink dedicated transport channels;
1>	if an additional transport channel is established while the measurement is ongoing:
2>	take into account this new transport channel in the quality measurement reporting.
While a transport channel that is explicitly referenced with a transport channel id in the IE "Quality Measurement Reporting Criteria" does not exist, the UE shall:
1>	not take this transport channel identity into account in the quality measurement event triggering.
8.4.1.10.3	Intra-frequency, Inter-frequency and Inter-RAT measurements
For measurements which include the IE "Cells for measurement" the UE shall:
1> while an IE "Intra-frequency cell id" or IE "Inter-frequency cell id" or IE "Inter-RAT cell id" in the IE "Cells for measurement" points to a position in the variable CELL_INFO_LIST which is marked as "vacant":
2>	not take this position into account for event triggering and reporting.
8.4.1.11	Cell Reselection (FDD only and 1.28 Mcps TDD only)
8.4.1.11.1	Traffic volume measurement
When performing cell reselection in CELL_FACH state, the UE shall:
1>	retrieve each set of measurement control information of measurement type "traffic volume" stored in the variable MEASUREMENT_IDENTITY:
2>	if the IE "measurement validity" for the measurement has been included, and the IE "UE state" has been assigned to value "all states":
3>	if variable READY_FOR_COMMON_EDCH is set to FALSE before state transition and set to TRUE after cell reselection:
4>	stop measurement reporting;
4>	store the measurement associated with the variable MEASUREMENT_IDENTITY to be used after the next transition to CELL_DCH state, or after cell reselection.
2>	if variable READY_FbOR_COMMON_EDCH is set to TRUE before state transition and set to FALSE after cell reselection:
3>	resume measurement reporting.
8.4.2	Measurement report

Figure 8.4.2-1: Measurement report, normal case
8.4.2.1	General
The purpose of the measurement reporting procedure is to transfer measurement results from the UE to UTRAN.
For intra frequency measurement, the UE shall do the measurement reporting procedure on each configured uplink frequency regrardless its activation status.
8.4.2.2	Initiation
In CELL_DCH state, the UE shall:
1>	transmit a MEASUREMENT REPORT message on the uplink DCCH when the reporting criteria stored in variable MEASUREMENT_IDENTITY are met for any ongoing measurements that are being performed in the UE.
In CELL_FACH state, the UE shall:
1>	transmit a MEASUREMENT REPORT message on the uplink DCCH when the reporting criteria stored in variable MEASUREMENT_IDENTITY are met for any ongoing traffic volume measurement or UE positioning measurement or E-UTRA measurement for CELL_FACH that is being performed in the UE.
In TDD, if the Radio Bearer associated with the MEASUREMENT_IDENTITY fulfilling the reporting criteria for an ongoing traffic volume measurement is mapped on transport channel of type USCH, the UE shall:
1>	initiate the "PUSCH CAPACITY REQUEST" procedure instead of transmitting a MEASUREMENT REPORT (TDD Only).
In CELL_PCH or URA_PCH state, the UE shall:
1>	if the measurement reporting is not initiated according to subclause 8.5.40, subclause 8.5.47 or subclause 8.5.56:
2>	if variable READY_FOR_COMMON_EDCH or HSPA_RNTI_STORED_PCH is set to TRUE:
3>	move to CELL_FACH; 
3>	transmit a MEASUREMENT REPORT message on the uplink DCCH when the reporting criteria stored in variable MEASUREMENT_IDENTITY are fulfilled for any ongoing UE positioning measurement which is being performed in the UE.
2>	else:
3>	first perform the cell update procedure according to subclause 8.3.1, using the cause "uplink data transmission", in order to transit to CELL_FACH state; and then
3>	transmit a MEASUREMENT REPORT message on the uplink DCCH when the reporting criteria stored in variable MEASUREMENT_IDENTITY are fulfilled for any ongoing UE positioning measurement which is being performed in the UE.
For FDD and 1.28 Mcps TDD, the UE in CELL_PCH or URA_PCH state shall:
1>	if variable H_RNTI is set:
2>	if the measurement reporting is initiated according to subclause 8.5.40 or subclause 8.5.47 or subclause 8.5.56:
3>	move to CELL_FACH;
3>	set the IE "measurement identity" to "16";
3>	not set the IE "measured results" or "E-UTRA measured results";
3>	include the IE "measured results on RACH";
3>	if an event triggered traffic volume measurement has been configured:
4>	if the TCTV is larger than the threshold in the IE "Reporting threshold" for a traffic volume measurement stored in the MEASUREMENT_IDENTITY variable and that traffic volume measurement has "measurement identity" equal to 4, "Traffic volume event identity" equal to "4a", "Measurement validity" equal to "all states" or "all states except CELL_DCH":
5>	set the IE "Traffic volume event identity" to "4a".
3>	if an IE "Logged Measurement Info-FDD" or "Logged Measurement Info-TDD" in variable LOGGED_MEAS_REPORT_VARIABLE is present and registered PLMN is present in the IE "PLMN Identity List" stored in variable LOGGED_MEAS_REPORT_VARIABLE:
4>	include IE "Logged Meas Available".
3>	if IE "Logged ANR Report" in variable LOG_ANR_REPORT_VARIABLE is present and registered PLMN is the same as one of the PLMNs in the IE “PLMN Identity” or IE "Equivalent PLMN Identity List" stored in variable LOG_ ANR_REPORT_VARIABLE:
4>	include IE "ANR Logging Results Available".
3>	and then transmit the MEASUREMENT REPORT message on the uplink DCCH using AM RLC; when the MEASUREMENT REPORT message has been submitted to lower layers for transmission the procedure ends.
The reporting criteria are fulfilled if either:
-	a periodic MEASUREMENT REPORT message shall be sent according to the IE "Periodical Reporting Criteria"; or
-	an event in stored IE "Measurement reporting criteria" was triggered. Events and triggering of reports for different measurement types are described in detail in clause 14.
-	a "Container for application layer measurement reporting" is received from upper layers.
For the measurement, which triggered the MEASUREMENT REPORT message, the UE shall:
1>	set the IE "measurement identity" to the measurement identity, which is associated with that measurement in variable MEASUREMENT_IDENTITY;
1>	set the IE "measured results" or "measured results on secondary UL frequency" or "E-UTRA measured results" to include measurements according to the IE "reporting quantity" of that measurement stored in variable MEASUREMENT_IDENTITY; and
2>	if all the reporting quantities are set to FALSE:
3>	not set the IE "measured results" or "measured results on secondary UL frequency".
1>	if measurement type "E-UTRA measurement for CELL_FACH" is configured:
2>		set the IE "E-UTRA results for CELL_FACH" to include measurements according to the IE "Measurement quantity" of that measurement stored in variable MEASUREMENT_IDENTITY.
1>	if measurement type "Application layer measurement configuration" is configured and the UE is in CELL_DCH state:
2>		set the IE "Application layer measurement reporting" to include measurements according to the IE "Application layer measurement configuration" of that measurement stored in variable MEASUREMENT_IDENTITY.
1>	set the IE "Measured results" in the IE "Additional measured results" or "Measured results" in the IE "Additional measured results on secondary UL frequency" according to the IE "reporting quantity" for all measurements associated with the measurement identities included in the "Additional measurements list" stored in variable MEASUREMENT_IDENTITY of the measurement that triggered the measurement report; and
2>	if one or more additional measured results are to be included:
3>	include only the available additional measured results, and sort them in ascending order according to their IE "measurement identity" in the MEASUREMENT REPORT message.
1>	if the measurement report is triggered by an intra frequency event; and
1>	if this intra frequency event type was configured for both primary and secondary uplink frequencies; and
1>	if the same measurement identity is used to configure the measurements for both primary and secondary uplink frequencies:
2>	set both the IE "measured results" and "measured results on secondary UL frequency" as specified above.
2>	set both the IE "Measured results" in the IE "Additional measured results" and in the IE "Additional measured results on secondary UL frequency" as specified above.
1>	if the MEASUREMENT REPORT message was triggered by an event (i.e. not a periodical report):
2>	set the IE "Event results" or "Event results on secondary UL frequency" or "E-UTRA event results" or "E-UTRA results for CELL_FACH" according to the event that triggered the report.
2>	if the measurement report is triggered by an intra frequency event and the same measurement identity is used to configure the measurements for both primary and secondary uplink frequencies:
3>	if the measurement report was triggered by an event in both primary and secondary uplink frequencies at the same time: 
4>	set both the IE "Event results" and "Event results on secondary UL frequency" according to the event that triggered the report.
1>	if the IE Inter-RAT measured results list or the IE Inter-RAT measurement event results is included in the measurement report:
2>	if the indication status of the IE "Inter-RAT cell info indication" in the variable CELL_INFO_LIST is marked "present" , include the stored value of the IE "Inter-RAT cell info indication" in the MEASUREMENT REPORT message.
1>	if the measurement report is triggered by intra frequency event 1d and the table "Target cell preconfigurations" in the variable TARGET_CELL_PRECONFIGURATION includes the radio link that triggered the event or,
1>	if the measurement report is triggered by intra frequency event 1c on the primary frequency which indicates the current serving HS-DSCH cell as the only active CPICH triggering this event 1c report and the table "Target cell preconfigurations" in the variable TARGET_CELL_PRECONFIGURATION includes the target cell which fulfils the definition of Target cell HS-SCCH order, and if the "Enhanced Serving Cell Change for Event 1c Support Indicator" is received:
2>	if an "Activation time offset" different from 0 is configured for the target cell, include the IE "Activation time" in MEASUREMENT REPORT message. The Activation time shall be calculated by adding the Activation time offset to the current CFN:
3>	start continuous monitoring of target cell HS-SCCH indexed as number 1 in IE "Serving HS-DSCH cell information" in the stored configuration;
3>	stop monitoring target cell HS-SCCH at Activation time.
2>	else:
3>	start if not running, or restart if running, timer T324;
3>	start continuous monitoring of target cell HS-SCCH indexed as number 1 in IE "Serving HS-DSCH cell information" in the stored configuration until the expiry of timer T324.
The UE shall:
1>	transmit the MEASUREMENT REPORT message on the uplink DCCH using either AM or UM RLC according to the stored IE "measurement reporting mode" associated with the measurement identity that triggered the report.
When the MEASUREMENT REPORT message has been submitted to lower layers for transmission:
1>	the procedure ends.
8.4.3	Assistance Data Delivery

Figure 8.4.3-1 Assistance Data Delivery
8.4.3.1	General
The purpose of the assistance data delivery procedure is to transfer UE positioning related assistance data from the UTRAN to the UE.
8.4.3.2	Initiation
When requested by the Core Network, the UTRAN may deliver UE positioning related assistance data with a ASSISTANCE DATA DELIVERY message, which is transmitted on the downlink DCCH using AM RLC
8.4.3.3	Reception of ASSISTANCE DATA DELIVERY message by the UE
Upon reception of a ASSISTANCE DATA DELIVERY message the UE shall:
1>	if IE "UE positioning OTDOA assistance data for UE-based" is included:
2>	act as specified in subclause 8.6.7.19.2a.
1>	if IE "UE positioning GPS assistance data" is included:
2>	act as specified in subclause 8.6.7.19.3.
1>	if IE "UE positioning GANSS assistance data" is included:
2>	act as specified in subclause 8.6.7.19.7.
8.4.3.4	Invalid ASSISTANCE DATA DELIVERY message
If the UE receives a ASSISTANCE DATA DELIVERY message, which contains a protocol error causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE according to clause 9, the UE shall perform procedure specific error handling as follows. The UE shall:
1>	transmit an RRC STATUS message on the uplink DCCH using AM RLC;
1>	include the IE "Identification of received message"; and
1>	set the IE "Received message type" to ASSISTANCE DATA DELIVERY; and
1>	set the IE "RRC transaction identifier" to the value of "RRC transaction identifier" in the entry for the ASSISTANCE DATA DELIVERY message in the table "Rejected transactions" in the variable TRANSACTIONS; and
1>	clear that entry;
1>	include the IE "Protocol error information" with contents set to the value of the variable PROTOCOL_ERROR_INFORMATION.
1>	when the RRC STATUS message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid ASSISTANCE DATA DELIVERY message has not been received.
8.5	General procedures
8.5.1	Selection of initial UE identity
The purpose of the IE "Initial UE identity" is to provide a unique UE identification at the establishment of an RRC connection. The type of identity shall be selected by the UE according to the following.
If the UE is operating in "GSM-MAP mode", the UE shall choose "UE id type" in the IE "Initial UE identity" with the following priority:
1.	TMSI (GSM-MAP): The TMSI (GSM-MAP) shall be chosen if provided by upper layers. The IE "LAI" in the IE "Initial UE identity" shall also be present when TMSI (GSM-MAP) is used, for making it unique.
2.	P-TMSI (GSM-MAP): The P-TMSI (GSM-MAP) shall be chosen if provided by upper layers and no TMSI (GSM-MAP) is available. The IE "RAI" in the IE "Initial UE identity" shall in this case also be present when P-TMSI (GSM-MAP) is used, for making it unique.
3.	IMSI (GSM-MAP): The IMSI (GSM-MAP) shall be chosen if provided by upper layers and no TMSI (GSM-MAP) or P-TMSI is available.
4.	IMEI: The IMEI shall be chosen when none of the above three conditions are fulfilled.
When being used, the IEs "TMSI (GSM-MAP)," "P-TMSI (GSM-MAP)", "IMSI (GSM-MAP)", "LAI" and "RAI" shall be set equal to the values provided by upper layers. The "P-TMSI (GSM-MAP)" and "RAI" may be mapped from a valid GUTI..
If the UE is operating in "ANSI-41 mode", the UE shall choose "UE id type" in the IE "Initial UE identity" according to the procedure specified in the 3GPP2 document "3GPP2 C.P0004-A".
8.5.2	Actions when entering idle mode from connected mode
When entering idle mode from connected mode, the UE shall:
1>	clear or set variables upon leaving UTRA RRC connected mode as specified in subclause 13.4;
1>	stop timer T323 if it is running;
1>	clear the variable SYSTEM_INFORMATION_CONTAINER;
1>	if the RRC CONNECTION RELEASE message was received and the IE "Redirection info" was present therein:
2>	if the IE "Frequency info" is present, attempt to camp on a suitable cell on the indicated UTRA carrier included in the RRC CONNECTION RELEASE message;
2>	if the IE "GSM target cell info" is present, attempt to camp on a suitable cell of the list of cells for the indicated RAT included in the RRC CONNECTION RELEASE message. If no cells were indicated for that RAT or no suitable cell of the indicated cells for that RAT is found within 10s, attempt to camp on any suitable cell of that RAT; or
2>	if the IE "E-UTRA target info" is present, attempt to camp on any of the frequencies for the indicated RAT included in the RRC CONNECTION RELEASE message, excluding any cell indicated in the list of not allowed cells for that RAT (i.e. the "blacklisted cells per freq list" for E-UTRA), if present. If no suitable cell on the indicated frequencies for that RAT is found in less than N seconds (where N is the number of E-UTRA frequencies listed in IE "E-UTRA target info"), attempt to camp on any suitable cell on any frequencies of that RAT in less than 4 seconds;
2>	if no suitable cell is found on the indicated UTRA carrier or RAT camp on any suitable cell.
1>	For UTRA TDD, if the RRC CONNECTION RELEASE message was received and the IE "Redirection info" was not present:
2>	if the to be released RRC connection was established due to CSFB call initiated in E-UTRA:
3>	attempt to camp on a suitable cell on an E-UTRA frequency. If no suitable cell is found on any of E-UTRA frequencies in less than 2 seconds, attempt to camp on any suitable cell.
1>	attempt to select a suitable cell to camp on.
When leaving connected mode according to [4], the UE shall:
1>	perform cell selection.
While camping on a cell, the UE shall:
1>	acquire system information according to the system information procedure in subclause 8.1;
1>	perform measurements according to the measurement control procedure specified in subclause 8.4; and
1>	if the UE is registered:
2>	be prepared to receive paging messages according to the paging procedure in subclause 8.2.
If the UE is operating in "GSM-MAP mode", the UE shall:
1>	delete any NAS system information received in connected mode;
1>	acquire the NAS system information in system information block type 1; and
1>	proceed according to subclause 8.6.1.2.
When entering idle mode, the UE shall:
1>	if the USIM is present, for each CN domain:
2>	if a new security key set was received for this CN domain but was not used either for integrity protection or ciphering during this RRC connection:
3>	set the START value for this domain to zero; and
3>	store this START value for this domain in the volatile memory of the ME.
2>	else:
3>	if the current "START" value, according to subclause 8.5.9 for a CN domain, is greater than or equal to the value "THRESHOLD" of the variable START_THRESHOLD:
4>	delete the ciphering and integrity keys that are stored in the USIM for that CN domain;
4>	set the "START" values for this CN domain to zero and store it in the volatile memory of the ME;
4>	inform the deletion of these keys to upper layers.
3>	else:
4>	store the current "START" value for this CN domain in the volatile memory of the ME.
NOTE:	Prior to storing the "START" value, the UE should calculate this "START" value according to subclause 8.5.9.
1>	else:
2>	if the SIM is present, for each CN domain:
3>	if a new security key set was received for this CN domain but was not used either for integrity protection or ciphering during this RRC connection:
4>	set the START value for this domain to zero; and
4>	store this START value for this domain in the volatile memory of the ME
3>	else:
4>	if the current "START" value, according to subclause 8.5.9 for this CN domain, is greater than or equal to the value "THRESHOLD" of the variable START_THRESHOLD:
5>	delete the Kc key for this CN domain;
5>	delete the ciphering and integrity keys that are stored in the UE for that CN domain;
5>	set the "START" values for this CN domain to zero and store it the volatile memory of the ME;
5>	inform the deletion of the key to upper layers.
4>	else:
5>	store the current "START" value for this CN domain in the volatile memory of the ME.
NOTE:	Prior to storing the "START" value, the UE should calculate this "START" value according to subclause 8.5.9.
1>	if the UE supports RAN-assisted WLAN interworking:
2>	if timer T330 is not configured:
3>	clear the variable WLAN_OFFLOAD_INFO;
3>	use the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO as specified in [4], and forward it to upper layers.
2>	else:
3>	if timer T330 is not running:
4>	start the timer T330;
4>	use the information stored in the variable WLAN_OFFLOAD_INFO as specified in [4], and forward it to upper layers.
8.5.3	Open loop power control upon establishment of DPCCH
This procedure is used in FDD mode only.
When establishing the first DPCCH in CELL_DCH the UE shall start the UL inner loop power control at a power level according to:
1>	DPCCH_Initial_power = DPCCH_Power_offset – CPICH_RSCP
Where
	DPCCH_Power_offset shall have the value of IE "DPCCH Power offset" in IE "Uplink DPCH power control info"
The value for the CPICH_RSCP shall be measured by the UE.
When establishing the DPCCH in CELL_FACH state or Idle mode the UE shall start the UL inner loop power control at a power level according to:
1>	DPCCH_Initial_power = Ppreamble + "Power offset Pp-e"
Where
-	Ppreamble is the power of the last transmitted preamble and "Power offset P p-e" power offset between the last transmitted preamble and the initial power of the DPCCH transmission in the Enhanced Uplink in CELL_FACH state and Idle mode.
8.5.4	Physical channel establishment criteria in CELL_DCH state
When a physical dedicated channel establishment on the downlink frequency associated with the primary uplink frequency is initiated by the UE, the UE shall start a timer T312 and wait for layer 1 to indicate N312 "in sync" indications. On receiving N312 "in sync" indications on the downlink frequency associated with the primary uplink frequency, the physical channel is considered established on the downlink frequency associated with the primary uplink frequency and the timer T312 is stopped and reset.
For 1.28Mcps TDD, when physical dedicated channel(s) are not configured, if a physical shared channel establishment is initiated by the UE, the UE shall start a timer T312 and wait for layer 1 to indicate N312 "in sync" indications. On receiving N312 "in sync" indications, the physical channel is considered established and the timer T312 is stopped and reset.
If the timer T312 expires before the physical channel is established on the downlink frequency associated with the primary uplink frequency, the UE shall consider this as a "physical channel failure".
NOTE:	The criteria defined in this subclause only apply in case the UE performs synchronisation procedure A (FDD only).
NOTE:	The physical shared channel defined in this subclause are HS-PDSCH, HS-SCCH or E-AGCH. (1.28 Mcps TDD only).
8.5.4A	Physical channel establishment criteria for Enhanced Uplink in CELL_FACH state and Idle mode
When the physical channel establishment for Enhanced Uplink in CELL_FACH state and Idle mode is initiated by the UE, the UE shall considered the physical channel being immediately established.
If the physical layer considers the post-verification of procedure AA failed [29, section 4.3.2.3A], the UE shall consider this as a "physical channel failure".
NOTE:	The criteria defined in this subclause only apply in case the UE performs synchronisation procedure AA (FDD only).
8.5.4B	Physical channel establishment criteria in CELL_DCH state on the secondary uplink frequency (FDD only)
When a physical dedicated channel establishment on the downlink frequency associated with the secondary uplink frequency is initiated by the UE, the UE shall for that downlink frequency start a timer T312 and wait for layer 1 to indicate N312 "in sync" indications. On receiving N312 "in sync" indications on the downlink frequency associated with the secondary uplink frequency, the physical channel is considered established on the downlink frequency associated with the secondary uplink frequency and the timer T312 is stopped and reset.
If the timer T312 expires before the physical channel is established on the downlink frequency associated with the secondary uplink frequency, the UE shall consider this as a "physical channel failure" on the downlink frequency associated with the secondary uplink frequency, and deactivate the secondary uplink frequency as if a HS-SCCH order to deactivate had been received.
NOTE:	The criteria defined in this subclause only apply in case the UE performs synchronisation procedure A (FDD only).
8.5.5	Actions in "out of service area" and "in service area"
This subclause specifies the general actions the UE shall perform when it detects "out of service" or "in service" area. The specific UE behaviour when it detects "out of service" or "in service area" and periodical update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity" is specified in subclause 8.3.1.
8.5.5.1	Detection of "out of service" area
The UE shall detect "out of service" area as defined in [19].
8.5.5.1.1	Actions following detection of "out of service" area in URA_PCH or CELL_PCH state
If the UE detects the "out of service area" and the UE is in URA_PCH or CELL_PCH state it shall perform the following actions:
1>	start timer T316;
1>	perform processes described in subclause 7.2.2.
8.5.5.1.2	Actions following detection of "out of service" area in CELL_FACH state
If the UE detects the "out of service area" and the UE is in CELL_FACH state it shall perform the following actions. The UE shall:
1>	start timer T317 if not already running;
1>	perform processes described in subclause 7.2.2.
8.5.5.1.3	Actions following detection of "out of service" area on transition from CELL_DCH to URA_PCH or CELL_PCH
If the UE detects the "out of service area" on transition from CELL_DCH to URA_PCH or CELL_PCH, it shall perform the following actions:
1>	start timer T316;
1>	start the timer T305 using its initial value if timer T305 is not running and periodical cell update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity";
1>	perform processes described in subclause 7.2.2.
8.5.5.1.4	Actions following detection of "out of service" area on transition from CELL_DCH to CELL_FACH
If the UE detects the "out of service area" on transition from CELL_DCH to CELL_FACH, it shall perform the following actions:
1>	if the transition is triggered by a reconfiguration procedure:
2>	start timer T317;
2>	start the timer T305 using its initial value if timer T305 is not running and periodical cell update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity";
2>	perform processes described in subclause 7.2.2.
1>	otherwise:
2>	perform processes described in subclause 7.2.2.
8.5.5.2	Detection of "in service" area
When a suitable cell is found based on the description in [4], the UE considers it as having detected "in service area".
8.5.5.2.1	Actions following Re-entry into "in service area" in URA_PCH or CELL_PCH state
If the UE re-enters "in service area" before T316 expiry the UE shall perform the following actions. The UE shall:
1>	stop T316;
1>	if T307 is active:
2>	stop T307.
1>	if the UE is in CELL_PCH state and the UE is camped on a cell different from the one where service was lost:
2>	for FDD and 1.28 Mcps TDD:
3>	clear the variables C_RNTI, H_RNTI and E_RNTI;
3>	stop using that C-RNTI, H-RNTI and E_RNTI just cleared from variables C_RNTI, H_RNTI and E_RNTI in MAC.
2>	initiate the cell update procedure using the cause "cell-reselection" as specified in subclause 8.3.1.
1>	perform processes described in subclause 7.2.2.
8.5.5.2.2	Actions following re-entry into "in service area" in CELL_FACH state
If the UE detects "in service area" before T317 expiry the UE shall perform the following actions. If no cell update procedure or URA update procedure is ongoing, the UE shall:
1>	stop T317;
1>	if T307 is active:
2>	stop T307.
1>	initiate the cell update procedure using as cause "Re-entering service area" as specified in subclause 8.3.1;
1>	perform processes described in subclause 7.2.2.
If a cell update procedure or URA update procedure is ongoing, the UE shall:
1>	stop T317;
1>	perform the actions as specified in 8.3.1.
8.5.5.3	T316 expiry
On T316 expiry the UE shall perform the following actions. The UE shall:
1>	if "out of service area" is detected:
2>	start timer T317;
2>	move to CELL_FACH state;
2>	perform processes described in subclause 7.2.2.
1>	if "in service area" is detected:
2>	initiate the cell update procedure using as cause "Re-entering service area" as specified in subclause 8.3.1;
2>	perform processes described in subclause 7.2.2.
8.5.5.4	T317 expiry
T317 shall never expire, i.e. all its values shall be assumed to be "infinity".
If T317 is running:
1>	the UE behaviour shall be as specified in subclause 7.2.2.2.
8.5.6	Radio link failure criteria and actions upon radio link failure
In CELL_DCH state, after receiving N313 consecutive "out of sync" indications from layer 1 for the established DPCCH or F-DPCH physical channel on the downlink frequency associated with the primary uplink frequency in FDD, and the physical channels associated with mapped DCCHs in TDD, the UE shall:
1>	start timer T313;
1>	upon receiving N315 successive "in sync" indications from layer 1 on the downlink frequency associated with the primary uplink frequency and upon change of UE state:
2>	stop and reset timer T313.
1>	if T313 expires:
2>	consider it as a "Radio link failure".
Periods in time where neither "in sync" nor "out of sync" is reported by layer 1 on the downlink frequency associated with the primary uplink frequency do not affect the evaluation of the number of consecutive (resp. successive) "in sync" or "out of sync" indications.
For 1.28 Mcps TDD, when the variable E_DCH_TRANSMISSION is set to TRUE (see subclause 8.5.28) and the UE has stored the IE "E-RUCCH info", a "Radio link failure" shall be triggered as below:
1>	if the E-RUCCH transmission counter is added greater than N_RUCCH, another hysteresis Timer with the value of N-RUCCH times of T-RUCCH period shall be started:
2>	upon the hysteresis Timer expires and still no Grant has been received for the whole time duration since the last E-RUCCH transmission:
3>	consider it as a "Radio link failure", refer to [59].
For FDD in CELL_DCH state and in TDD when a radio link failure occurs, the UE shall:
1>	clear the dedicated physical channel configuration;
1>	perform actions as specified for the ongoing procedure;
1>	if no procedure is ongoing or no actions are specified for the ongoing procedure:
2>	perform a cell update procedure according to subclause 8.3.1 using the cause "radio link failure".
For FDD, in CELL_FACH state and Idle mode, in conjunction with the Enhanced Uplink in CELL_FACH state, after receiving an indication from layer 1 that physical layer transmission stopped caused by an DL out-of-synchronisation, the UE shall:
1>	consider it as a "Radio link failure".
8.5.6a	Radio link failure criteria and actions upon radio link failure on the secondary uplink frequency (FDD only)
In CELL_DCH state, after receiving N313 consecutive "out of sync" indications from layer 1 for the established F-DPCH physical channel on the downlink frequency associated with the secondary uplink frequency in FDD, the UE shall for that downlink frequency:
1>	start timer T313;
1>	upon receiving N315 successive "in sync" indications from layer 1 on the downlink frequency associated with the secondary uplink frequency and upon change of UE state:
2>	stop and reset timer T313.
1>	if T313 expires:
2>	consider it as a "Radio link failure" on the downlink frequency associated with the secondary uplink frequency;
2>	deactivate the secondary uplink frequency, as if a HS-SCCH order to deactivate had been received.
Periods in time where neither "in sync" nor "out of sync" is reported by layer 1 on the downlink frequency associated with the secondary uplink frequency do not affect the evaluation of the number of consecutive (resp. successive) "in sync" or "out of sync" indications.
8.5.7	Open loop power control
For FDD, and prior to PRACH transmission or prior to a transmission in Enhanced Uplink in CELL_FACH state and Idle mode, the UE shall:
1>	acquire valid versions of the necessary System Information IEs as follows:
2>	if the UE has stored valid versions of the IEs "Primary CPICH Tx power" and "Constant value":
3>	use the stored content of the IEs.
2>	otherwise:
3>	read and store the IE "Primary CPICH Tx power" and "Constant value" in System Information Block type 6 (or System Information Block type 5 or System Information Block type 5bis, if System Information Block type 6 is not being broadcast).
2>	if variable READY_FOR_COMMON_EDCH is set to TRUE; and 
2>	if IE "UL interference for common E-DCH" is included in system information block type 5 or 5bis:
3>	use the stored value of IE "UL interference for common E-DCH".
2>	otherwise:
3>	if the UE has a valid version of the IE "UL interference" stored:
4>	use the stored content of the IE "UL interference".
3>	otherwise:
4>	read and store the IE "UL interference" in System Information Block type 7;
4>	if the UE fails to read the IE "UL interference" in System Information Block type 7 due to bad radio conditions, the UE shall use the last stored IE "UL interference".
1>	measure the value for the CPICH_RSCP;
1>	calculate the power for the first preamble as:
Preamble_Initial_Power = Primary CPICH TX power – CPICH_RSCP + UL interference + Constant Value
Where,
	Primary CPICH TX power shall have the value of IE "Primary CPICH Tx power",
	UL interference shall have the value of IE "UL interference for common E-DCH" if variable READY_FOR_COMMON_EDCH is set to TRUE and IE "UL interference for common E-DCH" is included in SIB 5/5bis; otherwise UL interference shal have the value of IE "UL interference"; and
	Constant Value shall have the value of IE "Constant value".
1>	as long as the physical layer is configured for PRACH transmission or the PRACH preamble part (as part of the Enhanced Uplink in CELL_FACH state and Idle mode):
2>	continuously recalculate the Preamble_Initial_Power when any of the broadcast parameters used in the above formula changes; and
2>	resubmit to the physical layer the new calculated Preamble_Initial_Power.
For 3.84 Mcps TDD or 7.68 Mcps TDD the UE shall:
1>	if in the IE "Uplink DPCH Power Control info" the "CHOICE UL OL PC info" has the value "Broadcast UL OL PC info":
2>	prior to DPCH transmission the UE shall:
3>	acquire valid versions of the necessary System Information IEs as follows:
4>	if the UE has stored valid versions of the IEs "Primary CCPCH Tx power" and "DPCH Constant value":
5>	use the stored content of the IEs.
4>	otherwise:
5>	read and store the IE "Primary CCPCH Tx power" and "DPCH Constant value" in System Information Block type 6 (or System Information Block type 5, if System Information Block type 6 is not being broadcast).
3>	if the UE has a valid version of the IE "UL interference" for each active UL timeslot stored:
4>	use the stored content of the IE "UL interference" for each active UL timeslot.
3>	otherwise:
4>	read and store the IE "UL Timeslot Interference" for each active UL timeslot in System Information Block type 14;
4>	if the UE fails to read the IE "UL Timeslot Interference" for each active UL time slot in System Information Block type 14 due to bad radio conditions, the UE shall use the last stored IE "UL Timeslot interference" for each active UL timeslot.
1>	otherwise:
2>	acquire Reference Power, Constant Values and IBTS for all active UL timeslots from the IE "Uplink DPCH Power Control info".
1>	for PUSCH, PRACH and HS-SICH power control:
2>	prior to PUSCH or PRACH transmission the UE shall:
3>	acquire valid versions of the necessary System Information IEs as follows:
4>	if the UE has stored valid versions of the IEs "Primary CCPCH Tx power" and "PUSCH Constant value" for PUSCH transmissions or "PRACH Constant value" for PRACH transmissions:
5>	use the stored content of the IEs.
4>	otherwise:
5>	read and store the IE "Primary CCPCH Tx power" and "PUSCH Constant value" for PUSCH transmissions or "PRACH Constant value" for PRACH transmissions in System Information Block type 6 (or System Information Block type 5, if System Information Block type 6 is not being broadcast).
3>	if the UE has a valid version of the IE "UL interference" for each active UL timeslot stored:
4>	use the stored content of the IE "UL interference" for each active UL timeslot.
3>	otherwise:
4>	read and store the IE "UL Timeslot Interference" for each active UL timeslot in System Information Block type 14;
4>	if the UE fails to read the IE "UL Timeslot Interference" for each active UL time slot in System Information Block type 14 due to bad radio conditions, the UE shall use the last stored IE "UL Timeslot interference" for each active UL timeslot.
	calculate the UL transmit power according to the following formula for the PRACH continuously while the physical channel is active:
	PPRACH = LPCCPCH + IBTS + PRACH Constant value,
2>	3dB shall be added to RACH Constant Value in the above equation for the case where RACH Spreading Factor = 8;
2>	for 7.68 Mcps TDD, 3dB shall be added to RACH Constant Value in the above equation for the case where RACH Spreading Factor = 16.
1>	calculate the UL transmit power according to the following formula for the DPCH continuously while the physical channel is active:
	PDPCH = LPCCPCH+(1-)L0 + IBTS + SIRTARGET+ DPCH Constant value
1>	calculate the UL transmit power according to the following formula for the PUSCH continuously while the physical channel is active:
	PPUSCH = LPCCPCH+(1-)L0 + IBTS + SIRTARGET+ PUSCH Constant value
1>	calculate the initial UL transmit power for HS-SICH according to the following formula:
	PHS-SICH = LPCCPCH+(1-)L0 + IBTS + SIRTARGET+ HS-SICH Constant value 
Where, for all the above equations for 3.84 Mcps TDD or 7.68 Mcps TDD the following apply:
-	PPRACH, PDPCH, PPUSCH  and PHS-SICH:	Transmitter power level in dBm;
-	Pathloss values:
-	LPCCPCH: Measurement representing path loss in dB based on beacon channels (the reference transmit power is signalled as the value of the IE "Primary CCPCH Tx Power" on BCH in System Information Block type 6 (or System Information Block type 5, according to subclause 8.1.1.6.5), or individually signalled in the IE" Uplink DPCH Power Control info").
-	L0: Long term average of path loss in dB;
-	If the midamble is used in the evaluation of LPCCPCH and L0, and the Tx diversity scheme used for the P-CCPCH involves the transmission of different midambles from the diversity antennas, the received power of the different midambles from the different antennas shall be combined prior to evaluation of the variables.
-	IBTS: Interference signal power level at cell's receiver in dBm. IBTS shall have the value of the IE "UL Timeslot Interference" (IE "UL Timeslot Interference" is broadcast on BCH in System Information Block type 14 or individually signalled to each UE in the IE "Uplink DPCH Power Control info" for each active uplink timeslot).
-	:	 is a weighting parameter, which represents the quality of path loss measurements.  may be a function of the time delay between the uplink time slot and the most recent down link PCCPCH time slot.  is calculated at the UE.  shall be smaller or equal to the value of the IE "Alpha". If the IE "Alpha" is not explicitly signalled to the UE  shall be set to 1. If UE is capable of estimating its position by using the OTDOA IPDL method, the UE shall use the IPDL- parameter.
-	SIRTARGET: Target SNR in dB. This value is individually signalled to UEs in IE "UL target SIR" in IE "Uplink DPCH Power Control Info" or in IE "PUSCH Power Control Info" or in IE "HS-SICH Power Control Info".
-	PRACH Constant value: PRACH Constant value shall have the value of the IE "PRACH Constant value".
-	DPCH Constant value: DPCH Constant value shall have the value of the IE "DPCH Constant value".
-	PUSCH Constant value: PUSCH Constant value shall have the value of the IE "PUSCH Constant value".
-	HS-SICH Constant value: HS-SICH Constant value shall have the value of the IE "HS-SICH Constant value".
-	Values received by dedicated signalling shall take precedence over broadcast values.
-	If IPDLs are applied, the UE may increase UL Tx power by the value given in the IE "Max power increase". This power increase is only allowed in the slots between an idle slot and the next beacon slot.
For 1.28 Mcps TDD the UE shall:
1>	acquire valid versions of the necessary System Information IEs as follows:
2>	if the UE has stored a valid version of the IE "Primary CCPCH Tx Power":
3>	use the stored content of the IE.
2>	otherwise:
3>	read and store the IE "Primary CCPCH Tx Power" from System Information Block type 6 (or System Information Block type 5, if System Information Block type 6 is not being broadcast).
1>	calculate the UL transmit power according to the following formula for each UpPCH code transmission:
	PUpPCH = LPCCPCH + PRXUpPCHdes + (i-1)* Pwrramp
NOTE:	When i equals 1, the initial signature power "Signature_Initial_Power" defined in [33] corresponds to PUpPCH with i set to 1.
1>	calculate the UL transmit power according to the following formula for each PRACH transmission:
	PPRACH = LPCCPCH + PRXPRACHdes + (iUpPCH-1) * Pwrramp
1>	calculate the initial UL transmit power according to the following formula for the PUSCH. Once the UE receives TPC bits relating to the PUSCH then it transitions to closed loop power control. If successive PUSCH resource allocations are contiguous then no return is made to open loop power control at the beginning of the succeeding resource allocation.
	PUSCH = PRXPUSCHdes + LPCCPCH
1>	calculate the initial UL transmit power for HS-SICH according to the following formula:
	PHS-SICH = PRXHS-SICH + LPCCPCH 
1>	calculate the initial UL transmit power according to the following formula for the DPCH. Once the UE receives TPC bits relating to the uplink DPCH then it transitions to closed loop power control.
	PDPCH = PRXDPCHdes + LPCCPCH
1>	calculate the initial UL transmit power for E-PUCH according to the following formula: 
PE-PUCH = PRXdes_base + LPCCPCH  +
Where:
-	PUpPCH, PPRACH, PDPCH, PHS-SICH, PUSCH, & PE-PUCH:	Transmitter power level in dBm.
-	LPCCPCH: Measurement representing path loss in dB (reference transmit power "Primary CCPCH Tx Power" is broadcast on BCH in System Information Block type 5 and System Information Block type 6, or individually signalled to each UE in the IE" Uplink DPCH Power Control info").
-	i is the number of transmission attempts on UpPCH, i=1…Max SYNC_UL Transmissions.
-	iUpPCH is the final value of i.
-	PRXPRACHdes: Desired PRACH RX power at the cell's receiver in dBm signalled to the UE by the network in the FPACH response to the UE's successful SYNC_UL transmission.
-	PRXUpPCHdes: Desired UpPCH RX power at the cell's receiver in dBm. The value is broadcast in "PRXUpPCHdes" in IE "SYNC_UL info" on BCH and shall be read on System Information Block type 5 and System Information Block type 6. It can also be signalled directly to the UE in IE "Uplink Timing Advance Control" contained in a protocol message triggering a hard handover or a transition from cell FACH to cell DCH state.
-	PRXPUSCHdes: Desired PUSCH RX power at the cell's receiver in dBm signalled to the UE in IE "PUSCH Power Control Info".
-	PRXDPCHdes: Desired DPCH RX power at the cell's receiver in dBm signalled to the UE in IE "Uplink DPCH Info" and IE "Uplink DPCH Power Control Info".
-	Pwrramp: The UE shall increase its transmission power by the value of the IE "Power Ramp step" by every UpPCH transmission. Its value is signalled in the IE "SYNC UL info" in System Information Block type 5 and System Information Block type 6 or is signalled to the UE in the IE "Uplink Timing Advance Control" contained in a protocol message triggering a hard handover or a transition from cell FACH state to cell DCH state.
-	PRXHS-SICH: Desired HS-SICH RX power at the cell's receiver in dBm signalled to the UE in IE "Downlink HS-PDSCH Information".
-	Ack-Nack Power Offset: Difference in the desired RX power between HS-SICH transmissions conveying an acknowledgement and transmissions conveying a negative acknowledgement signalled to the UE in IE "HS-SCCH Info".
-	PRXdes_base: Reference Desired E-PUCH RX power at the cell’s receiver in dBm signalled to the UE in CELL_DCH in IE "E-PUCH Info" via dedicated signalling; or via System Information Block 5 for UE in enhanced CELL_FACH and Idle mode.
-	: Gain factor for the selected E-TFC transport block size, the allocated E-PUCH physical resources, and the Modulation type and the HARQ power offset (see [33]).
8.5.8	Maintenance of Hyper Frame Numbers
The MSBs of both the ciphering sequence numbers (COUNT-C) and integrity sequence numbers (COUNT-I), for the ciphering and integrity protection algorithms, respectively [40], are called the Hyper Frame Numbers (HFN).
For integrity protection, the UE shall:
1>	maintain COUNT-I as specified in subclause 8.5.10.
The following hyper frame numbers types are defined:
	MAC-d HFN:
24 MSB of COUNT-C for data sent over RLC TM
	RLC UM HFN:
25 MSB of COUNT-C for data sent over RLC UM
	RLC AM HFN:
20 MSB of COUNT-C for data sent over RLC AM
	RRC HFN:
28 MSB of COUNT-I
For non-transparent mode RLC signalling radio bearers and radio bearers, the UE shall:
1>	maintain one uplink and one downlink COUNT-C per signalling radio bearer and per radio bearer and one uplink and one downlink COUNT-I per signalling radio bearer;
1>	increment the RLC UM HFN and RLC AM HFN in uplink and downlink by one each time the RLC sequence number wraps around in uplink and downlink respectively;
1>	if the activation time for a new ciphering configuration set by an RRC procedure is equal to zero:
2>	apply the configured RLC UM HFN or RLC AM HFN at this activation time, i.e. the configured HFN is not incremented.
NOTE:	On the receiver side it may happen that the RLC PDU with sequence number equal to the activation time is lost and the first received PDU after the activation time implies a wrap around of the sequence number compared to the activation time. In this case the configured HFN is incremented by one. This action is taken only when the activation time is set to a RLC PDU sequence number value other than zero.
For all transparent mode RLC signalling radio bearers and radio bearers of each CN domain, the UE shall:
1>	maintain one COUNT-C, common for all radio bearers in uplink and downlink;
1>	increment the MAC-d HFN by one each time the CFN wraps around;
1>	if the activation time for a new ciphering configuration set by an RRC procedure is equal to zero:
2>	apply the configured MAC-d HFN at this activation time, i.e. the configured HFN is not incremented.
1>	maintain one uplink and one downlink COUNT-I per signalling radio bearer.
NOTE:	In this release of the specification there is only an uplink transparent mode COUNT-I, which is used for signalling radio bearer RB0.
COUNT-C and COUNT-I are defined in [40], with the following supplement for COUNT-C: for transparent mode RLC radio bearers with a transmission time interval of x radio frames (x = 2, 4, 8), the MAC PDU is carried by L1 in x consecutive radio frames due to radio frame segmentation. In this case, the CFN of the first radio frame in the TTI shall be used as the CFN component of COUNT-C for ciphering of all data in the TTI [15].
8.5.9	START value calculation
In connected mode, if a security mode command procedure has been successfully completed for a CN domain during the current RRC connection, the START value for that CN domain is calculated as:
Let STARTX = the START value for CN domain 'X' prior to the calculation below:
	STARTX' = MSB20 ( MAX {COUNT-C, COUNT-I | radio bearers and signalling radio bearers using the most recently configured CKX and IKX}) + 2.
-	if STARTX'= the maximum value = 1048575 then STARTX = STARTX';
-	if the current STARTX < STARTX' then STARTX = STARTX', otherwise STARTX is unchanged.
NOTE:	Here, "most recently configured" means that if there is more than one key in use for a CN domain, due to non-expiry of the ciphering and/or integrity protection activation time for any signalling radio bearers and/or radio bearers, do not include the COUNT-I/COUNT-C for these signalling radio bearers and/or radio bearers in the calculation of the START X'.
COUNT-C corresponding to non-ciphered radio bearers (i.e. RBs with ciphering status set to "not started") shall not be included in the calculation of the STARTX'. If a radio bearer is released and the radio bearer was ciphered, the values of the COUNT-C at the time the radio bearer is released shall be taken into account in the calculation of the STARTX'.
If a security mode command procedure has not been successfully completed for a CN domain during the current RRC connection, the UE shall use the latest transmitted START value for this CN domain.
8.5.10	Integrity protection
If the "Status" in the variable INTEGRITY_ PROTECTION_INFO has the value "Started" then the UE shall:
1>	perform integrity protection (and integrity checking) on all RRC messages, with the following exceptions:
ETWS PRIMARY NOTIFICATION WITH SECURITY
HANDOVER TO UTRAN COMPLETE
MBMS ACCESS INFORMATION
MBMS COMMON P-T-M RB INFORMATION
MBMS CURRENT CELL P-T-M RB INFORMATION
MBMS GENERAL INFORMATION
MBMS MODIFIED SERVICES INFORMATION (MCCH only)
MBMS NEIGHBOURING CELL P-T-M RB INFORMATION
MBMS SCHEDULING INFORMATION
MBMS UNMODIFIED SERVICES INFORMATION
PAGING TYPE 1
PUSCH CAPACITY REQUEST
PHYSICAL SHARED CHANNEL ALLOCATION
RRC Connection Request
RRC Connection Setup
RRC Connection Setup Complete
RRC Connection Reject
RRC CONNECTION RELEASE (CCCH only)
SYSTEM INFORMATION
SYSTEM INFORMATION CHANGE INDICATION
TRANSPORT FORMAT COMBINATION CONTROL (TM DCCH only)
If the "Status" in the variable INTEGRITY_ PROTECTION_INFO has the value "Not started" then integrity protection (and integrity checking) shall not be performed on any RRC message.
For each signalling radio bearer, the UE shall use two RRC hyper frame numbers:
-	"Uplink RRC HFN";
-	"Downlink RRC HFN".
and two message sequence numbers:
-	"Uplink RRC Message sequence number";
-	"Downlink RRC Message sequence number".
The above information is stored in the variable INTEGRITY_PROTECTION_INFO per signalling radio bearer (RB0- RB4).
Upon the first activation of integrity protection for an RRC connection, UE and UTRAN initialise the "Uplink RRC Message sequence number" and "Downlink RRC Message sequence number" for all signalling radio bearers as specified in subclauses 8.6.3.5 and 8.5.10.1.
The RRC message sequence number (RRC SN) is incremented for every integrity protected RRC message.
If the IE "Integrity Protection Mode Info" is present in a received message, the UE shall:
1>	perform the actions in subclause 8.6.3.5 before proceeding with the integrity check of the received message.
8.5.10.1	Integrity protection in downlink
If the UE receives an RRC message on signalling radio bearer with RB identity n, the "Status" in the variable INTEGRITY_ PROTECTION_INFO has the value "Started" and the IE 'Integrity check info' is present the UE shall:
1>	check the value of the IE "RRC message sequence number" included in the IE "Integrity check info";
2>	if the "Downlink RRC Message sequence number" is not present in the variable INTEGRITY_PROTECTION_INFO:
3>	initialise the "Downlink RRC Message sequence number" for signalling radio bearer RBn in the variable INTEGRITY_PROTECTION_INFO with the value of the IE "RRC message sequence number" included in the IE "Integrity check info" of the received message.
2>	if the "Downlink RRC Message sequence number" is present in the variable INTEGRITY_PROTECTION_INFO:
3>	if the RRC message sequence number is lower than the "Downlink RRC Message sequence number" for signalling radio bearer RBn in the variable INTEGRITY_PROTECTION_INFO:
4>	increment "Downlink RRC HFN" for signalling radio bearer RBn in the variable INTEGRITY_PROTECTION_INFO with one.
NOTE:	The actions above imply that also for the case the "Downlink RRC HFN" is re-initialised by a security mode control procedure, this "Downlink RRC HFN" value is incremented by one before it is applied for the integrity protection of any received message if the conditions above are fulfilled.
3>	if the RRC message sequence number is equal to the "Downlink RRC Message sequence number" for signalling radio bearer RBn in the variable INTEGRITY_PROTECTION_INFO:
4>	discard the message.
1>	calculate an expected message authentication code in accordance with subclause 8.5.10.3;
1>	compare the expected message authentication code with the value of the received IE "message authentication code" contained in the IE "Integrity check info";
2>	if the expected message authentication code and the received message authentication code are the same, the integrity check is successful:
3>	update the "Downlink RRC Message sequence number" for signalling radio bearer RBn in the variable INTEGRITY_PROTECTION_INFO with the value of the IE "RRC message sequence number" included in the IE "Integrity check info" of the received RRC message.
2>	if the calculated expected message authentication code and the received message authentication code differ:
3>	act as if the message was not received.
If the UE receives an RRC message on signalling radio bearer with identity 0, 1, or 2, the "Status" in the variable INTEGRITY_ PROTECTION_INFO has the value "Started" and the IE 'Integrity check info' is not present the UE shall:
1>	discard the message.
If the UE receives an RRC message on signalling radio bearer with identity 3 or 4, the "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Started" and the IE 'Integrity check info' is not present:
1>	if a security mode command procedure has not been successfully completed during the current RRC connection for the CN domain indicated by IE "CN Domain Identity" in the received message:
2>	the UE shall forward the message to upper layer.
1>	else:
2>	the UE shall discard the message.
UTRAN may transmit several copies of the same message in the downlink to increase the probability of proper reception of the message by the UE. In such a case, the RRC SN for these repeated messages should be the same.
8.5.10.2	Integrity protection in uplink
Prior to sending an RRC message using the signalling radio bearer with radio bearer identity n, and the "Status" in the variable INTEGRITY_ PROTECTION_INFO has the value "Started" the UE shall:
1>	increment "Uplink RRC Message sequence number" for signalling radio bearer RBn in the variable INTEGRITY_PROTECTION_INFO with 1, even if the message is a retransmission of a previously transmitted message.
1>	if the "Uplink RRC Message sequence number" for signalling radio bearer RBn in the variable INTEGRITY_PROTECTION_INFO equals zero:
2>	increment "Uplink RRC HFN" for signalling radio bearer RBn in the variable INTEGRITY_PROTECTION_INFO by one.
NOTE 1:	The actions above imply that also for the case the "Uplink RRC HFN" is re-initialised by a security mode control procedure, this "Uplink RRC HFN" is incremented before it is applied in the integrity protection of any transmitted message if the conditions above are fulfilled.
NOTE 2:	For SRB0, this is also valid in case the Message Sequence Number has been increased by N302 +2 resulting in an MSN which equals 0 (i.e.: SRB0 UL activation time equals 0). Then the uplink RRC HFN is incremented by 1 after it is re-initialized and before it is applied in the integrity protection of any transmitted message.
1>	calculate the message authentication code in accordance with subclause 8.5.10.3;
1>	replace the "Message authentication code" in the IE "Integrity check info" in the message with the calculated message authentication code;
1>	replace the "RRC Message sequence number" in the IE "Integrity check info" in the message with contents set to the new value of the "Uplink RRC Message sequence number" for signalling radio bearer RBn in the variable INTEGRITY_PROTECTION_INFO.
In the response message for the procedure ordering the security reconfiguration, the UE indicates the activation time, for each signalling radio bearer. When the new integrity configuration is to be applied in uplink, UTRAN should start to apply the new integrity protection configuration according to the activation time for each signalling radio bearer (except for the signalling radio bearer which is used to send the message that is reconfiguring the security configuration where the new configuration is to be applied starting from and including reception of the response message).
8.5.10.3	Calculation of message authentication code
The UE shall calculate the message authentication code in accordance with [40]. The input parameter MESSAGE [40] for the integrity algorithm shall be constructed by:
1>	setting the "Message authentication code" in the IE "Integrity check info" in the message to the value of the IE "RB identity" for the signalling radio bearer;
1>	setting the "RRC Message sequence number" in the IE "Integrity check info" in the message to zero;
1>	encoding the message;
1>	appending RRC padding (if any) as a bit string to the encoded bit string as the least significant bits.
For usage on an RRC message transmitted or received on the radio bearer with identity n, the UE shall:
1>	construct the input parameter COUNT-I [40] by appending the following IEs from the IE "Signalling radio bearer specific integrity protection information" for radio bearer n in the variable INTEGRITY_PROTECTION_INFO:
2>	for uplink:
3>	"Uplink RRC HFN", as the MSB, and "Uplink RRC Message sequence number", as LSB.
2>	for downlink:
3>	"Downlink RRC HFN", as the MSB, and the IE "RRC message sequence number" included in the IE "Integrity check info", as LSB.
8.5.11	FACH measurement occasion calculation
For 3.84 Mcps TDD and 7.68 Mcps TDD, when in CELL_FACH state and when the variable C_RNTI is non-empty, or
for FDD and 1.28 Mcps TDD, when in CELL_FACH state, when the variable C_RNTI is non-empty and when variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to FALSE, 
then the UE shall perform measurements as specified in subclauses 8.4.1.6 and 8.4.1.9 during the frame(s) with the SFN value fulfilling the following equation:
	SFN div N = C_RNTI mod M_REP + n * M_REP
where
-	N is the TTI (in number of 10ms frames) of the FACH having the largest TTI on the SCCPCH selected by the UE according to the procedure in subclause 8.5.19.  FACHs that only carry MBMS logical channels (MTCH, MSCH, or MCCH) are excluded from measurement occasion calculations.
-	C_RNTI is the C-RNTI value of the UE stored in the variable C_RNTI
-	M_REP is the Measurement Occasion cycle length. According to the equation above, a FACH Measurement Occasion of N frames will be repeated every N * M_REP frame, and M_REP = 2k.
where,
-	k is the FACH Measurement occasion cycle length coefficient.
The value of the FACH Measurement occasion cycle length coefficient is read in system information in "System Information Block type 11" or "System Information Block type 12" in the IE "FACH measurement occasion info".
-	n = 0,1,2… as long as SFN is below its maximum value
The UE is allowed to measure on other occasions in case the UE moves "out of service" area or in case it can simultaneously perform the ordered measurements.
A UE in TDD mode shall use the frame(s) with the SFN value fulfilling the above equation for neighbour cells measurements.
For FDD when in CELL_FACH state, when the variable C_RNTI is non-empty, when variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE, when variable COMMON_E_DCH_TRANSMISSION is set to FALSE, when the variable HS_DSCH_DRX_CELL_FACH_STATUS is set to FALSE, when the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to FALSE and when the variable HS_SCCH_DRX_CELL_FACH_STATUS is set to FALSE then the UE in FDD mode shall perform measurements as specified in subclauses 8.4.1.6 and 8.4.1.9 during the frame(s) with the SFN value fulfilling the following equation:
	SFN = H-RNTI mod M_REP + n * M_REP
where
-	H-RNTI is the value stored in the variable H_RNTI. 
-	M_REP is the Measurement Occasion cycle length. According to the equation above, a FACH Measurement Occasion of 10ms-frame will be repeated every M_REP frame, and M_REP = 2k.
where,
-	k is the FACH Measurement occasion cycle length coefficient.
The value of the FACH Measurement occasion cycle length coefficient is read in system information in "System Information Block type 11" or "System Information Block type 12" in the IE "FACH measurement occasion info".
-	n = 0,1,2… as long as SFN is below its maximum value.
The UE is allowed to measure on other occasions in case the UE moves "out of service" area or in case it can simultaneously perform the ordered measurements.
NOTE:	For FDD, in order to meet the MBMS demodulation performance requirements [21], a UE receiving MBMS PTM may not be able use the entire measurement occasion.
For 1.28 Mcps TDD when in CELL_FACH state, when the variable C_RNTI is non-empty, when variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE, and when the HS-SCCH(s), E-AGCH(s) and HS-PDSCH are not configured in TS0, then UE can perform the ordered measurements on any occasions.
For 1.28 Mcps TDD when in CELL_FACH state, when the variable C_RNTI is non-empty, when variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE, and when the HS-SCCH(s), E-AGCH(s) or HS-PDSCH are configured in TS0, then the UE shall perform measurements as specified in subclauses 8.4.1.6 and 8.4.1.9 during the frame(s) with the SFN value fulfilling the following equation:
	SFN = H-RNTI mod M_REP + n * M_REP
where
-	H-RNTI is the value stored in the variable H_RNTI.
-	M_REP is the Measurement Occasion cycle length. According to the equation above, a FACH Measurement Occasion of 10ms-frame will be repeated every M_REP frame, and M_REP = 2k.
where,
-	k is the FACH Measurement occasion cycle length coefficient.
The value of the FACH Measurement occasion cycle length coefficient is read in system information in "System Information Block type 11" or "System Information Block type 12" in the IE "FACH measurement occasion info".
-	n = 0,1,2… as long as SFN is below its maximum value.
The UE is allowed to measure on other occasions in case the UE moves "out of service" area or in case it can simultaneously perform the ordered measurements.
8.5.11a	CELL_DCH measurement occasion calculation (1.28 Mcps TDD only)
In CELL_DCH state, when the CELL_DCH measurement occasion pattern sequence(s) is(are) configured and activated for the specified measurement purpose as specified in the subclause 8.6.7.26, then the UE shall perform corresponding measurements as specified in subclauses 8.4.1.7 and 8.4.1.8 during the timeslot(s) indicated by IE: "Timeslot Bitmap" within the frames from the frame SFNstart to SFNstart + M_Length -1 frame belong to the allocation with SFNstart fulfilling the following equation:
	SFNstart mod (2k) = offset
where
-	k is CELL_DCH measurement occasion cycle length coefficient and signalled by the IE "k" in the IE "CELL_DCH measurement occasion info LCR". The actual measurement occasion period equal to 2k radio frames.
-	Offset is the measurement occasion position in the measurement period. and signalled by the IE "Offset" in the IE "CELL_DCH measurement occasion info LCR".
-	M_Length is the actual measurement occasion length in frames starting from the Offset and signalled by the IE "M_Length" in the IE "CELL_DCH measurement occasion info LCR".
8.5.12	Establishment of Access Service Classes
The PRACH resources (i.e. access slots and preamble signatures for FDD), timeslot (with specific frame allocation and channelisation code for 3.84 Mcps TDD and 7.68 Mcps TDD, and SYNC_UL codes (with specific frame allocation) for 1.28 Mcps TDD) may be divided between different Access Service Classes in order to provide different priorities of RACH usage. It is possible for more than one ASC or for all ASCs to be assigned to the same access slot/signature space in FDD or frame allocation/channelisation codes in 3.84 Mcps TDD or 7.68 Mcps TDD, or frame allocation/SYNC_UL codes in 1.28 Mcps TDD.
Access Service Classes shall be numbered in the range 0  i  NumASC  7 (i.e. the maximum number of ASCs is 8). An ASC is defined by an identifier, i, that defines a certain partition of the PRACH resources (SYNC_UL resources in 1.28 Mcps TDD) and an associated persistence value Pi. A set of ASC parameters consists of "NumASC+1" such parameters (i, Pi), i = 0, …, NumASC.
PRACH partitions shall be established using the information element "PRACH partitioning". The persistence values Pi to be associated with each ASC shall be derived from the dynamic persistence level N = 1,…, 8 which is broadcast in System Information Block 7, and the persistence scaling factors si, broadcast in System Information Block Type 5 or System Information Block type 5bis and possibly also in System Information Block Type 6, as follows:
P(N) = 2(N  1)
ASC # i
0
1
2
3
4
5
6
7
Pi
1
P(N)
s2 P(N)
s3 P(N)
s4 P(N)
s5 P(N)
s6P(N)
s7 P(N)

In addition, MBMS specific persistence values may be provided within the MBMS MODIFIED SERVICES INFORMATION message. The UE behaviour upon receiving upon receiving an MBMS dynamic persistence value is specified in subclause 8.6.9.1a.
Scaling factors si are provided optionally for i = 2,…, NumASC, where NumASC+1 is the number of ASCs as defined by PRACH partitioning. If no scaling factors are broadcast, default value 1 shall be used if NumASC  2.
If k  1 scaling factors are broadcast and NumASC  k+2 then the last scaling factor sk+1 shall be used as default for the ASCs where i > k +1.
In the case of E-RUCCH operation (3.84/7.68 Mcps TDD only) a separate set of persistence values will be used. For E-RUCCH a single scaling factor Sr is signalled. If the E-RUCCH shares resource with a PRACH then dynamic perstistence levels of the PRACH are used and persistence values are determined using the table below:
ASC # i
0
1
2 – 7
Pi (E-RUCCH)
1
P(N)
Sr P(N)

Else if the E-RUCCH does not share resource with a PRACH then persistence values are determined using the table below:
ASC # i
0
1
2--7
Pi (E-RUCCH)
1
1
Sr

The establistment of Access Service Classes for E-RUCCH (1.28 Mcps TDD only) is similar as PRACH, differently Access Service Classes parameters and persistence scaling factors of E-RUCCH may be acquired from the information element "E-RUCCH info", e.g. in the case of E-DCH serving cell change. Only in the case that the UEs with E-DCH and E-RUCCH configured on the Primary Frequency of the multi-frequency cell, the E-DCH serving cell unchanged and the UEs can obtain the dynamic persistence level N from SIB7 according to the configuration of information element “E-RUCCH info”, the dynamic persistence value N shall be used. Otherwise, dynamic persistence level N=1 shall always be used. The persistence values are determined using the table below:
ASC # i
0
1
2
3
4
5
6
7
Pi (E-RUCCH)
1
P(N)
s2 P(N)
s3 P(N)
s4 P(N)
s5 P(N)
s6P(N)
s7 P(N)

The set of ASC parameters is provided to MAC with the CMAC-Config-REQ primitive (see [15]), the PRACH partitioning is provided to PHY using the CPHY-RL-Setup-REQ primitive (see [34]). For 3.84/7.68 Mcps TDD E-DCH operation the E-RUCCH persistence values will also be provided to MAC with the CMAC-Config-REQ primitive.
The ASC enumeration shall be such that it corresponds to the order of priority (ASC 0 = highest priority, ASC 7 = lowest priority). ASC 0 shall be used in case of Emergency Call or for reasons with equivalent priority.
ASCs are numbered according to the order in which the IEs "ASC Setting" appear in the IE "PRACH partitioning", where the first IE "ASC Setting" describes ASC 0, the second IE "ASC Setting" describes ASC 1, etc.
At radio bearer setup/reconfiguration each involved logical channel is assigned a MAC Logical channel Priority (MLP) in the range 1,…,8. When the MAC sublayer is configured for RACH transmission in the UE, these MLP levels shall be employed for ASC selection on MAC.
8.5.13	Mapping of Access Classes to Access Service Classes
Access Classes shall only be applied at initial access, i.e. when sending an RRC CONNECTION REQUEST message. A mapping between Access Class (AC) and Access Service Class (ASC) shall be indicated by the information element "AC-to-ASC mapping" in System Information Block type 5 or System Information Block type 5bis. The correspondence between AC and ASC shall be indicated as follows.
AC
0 - 9
10
11
12
13
14
15
ASC
1st IE
2nd IE
3rd IE
4th IE
5th IE
6th IE
7th IE

In the table, "nth IE" designates an ASC number i in the range 0 - 7 to AC. If the ASC indicated by the "nth IE" is undefined, the UE behaviour is unspecified.
For the random access and the Enhanced Uplink in CELL_FACH state and Idle mode, the parameters implied by the respective ASC shall be employed. In case the UE is member of several ACs it shall select the ASC for the highest AC number. In connected mode, AC shall not be applied.
8.5.14	PLMN Type Selection
Depending on UE configuration, the UE is operating in "ANSI-41 mode" or "GSM-MAP mode".
8.5.14a	Neighbour cells list narrowing for cell reselection
While a UE is camping on a suitable cell, a UE having performed the PLMN identification of the neighbour cells as specified in subclause 8.1.1.6.18 shall narrow the cell list to be used for cell reselection ([4]) to those neighbour cells for which:
The PLMN identity is part of the PLMNs that can make a cell suitable as defined in [4].
8.5.15	CFN calculation
The DOFF used in the formulas in this clause concerns the value of IE "Default DPCH Offset Value" received in the message that instructs the UE to enter CELL_DCH state or to perform timing re-initialised hard handover.
Subclause 8.5.15.5 is used in FDD to initialise the CFN for MTCH and/or MSCH if the IE "MBMS Soft Combining Timing Offset" is included for an S-CCPCH in MBMS CURRENT CELL P-T-M RB INFORMATION or MBMS NEIGHBOURING CELL P-T-M RB INFORMATION, and if only MTCH and/or MSCH are on the S-CCPCH. Otherwise, subclauses 8.5.15.1 through 8.5.15.4 are used to intialise the CFN.
8.5.15.1	Initialisation for CELL_DCH state after state transition
When the UE receives any of the messages causing the UE to perform a state transition to CELL_DCH, the UE shall set the CFN in relation to the SFN of the first radio link listed in the IE "Downlink information per radio link list" included in that message according to the following formula:
-	for FDD:
	CFN = (SFN - (DOFF div 38400)) mod 256
	where the formula gives the CFN of the downlink DPCH or F-DPCH frame which starts at the same time as or which starts during the PCCPCH frame with the given SFN. DOFF is determined according to subclause 8.6.6.14.
-	for TDD:
	CFN = (SFN - DOFF) mod 256.
8.5.15.2	Initialisation in CELL_DCH state at hard handover
When the UE is in CELL_DCH state and receives any of the messages causing the UE to perform a hard handover, the UE shall check the IE "Timing indication" in that message and:
1>	if IE "Timing indication" has the value "initialise" (i.e. timing re-initialised hard handover):
2>	read SFN on target cell identified by the first radio link listed in the IE "Downlink information per radio link list" included in that message;
2>	set the CFN according to the following formula:
3>	for FDD:
	CFN = (SFN - (DOFF div 38400)) mod 256
	where the formula gives the CFN of the downlink DPCH or F-DPCH frame which starts at the same time as or which starts during the PCCPCH frame with the given SFN.
3>	for TDD:
	CFN = (SFN - DOFF) mod 256.
1>	if IE "Timing indication" has the value "maintain" (i.e. timing-maintained hard handover), the UE shall keep CFN with no change due to the hard handover, and only increase CFN (mod 256) by 1 every frame.
8.5.15.3	Initialisation for CELL_FACH
Unless the conditions of subclause 8.5.15.5 are met, when the UE performs cell selection, re-selection or changes to CELL_FACH state the UE shall set CFN for all common or shared channels according to:
	CFN = SFN mod 256
	where the formula gives the CFN of the downlink common or shared channel frame which starts at the same time as or which starts during the PCCPCH frame with the given SFN.
After the initialisation, the CFN in the UE is increased (mod 256) by 1 every frame.
8.5.15.4	Initialisation after intersystem handover to UTRAN
Upon inter RAT handover to UTRAN the UE shall, regardless of the value received within IE "Timing indication" (if received):
1>	read SFN on target cell and set the CFN according to the following formula:
2>	for FDD:
	CFN = (SFN - (DOFF div 38400)) mod 256
	where the formula gives the CFN of the downlink DPCH frame which starts at the same time as or which starts during the PCCPCH frame with the given SFN.
2>	for TDD:
	CFN = (SFN - DOFF) mod 256.
8.5.15.5	Initialisation for MTCH and/or MSCH carried on S-CCPCH that may be soft combined
For FDD, if the IE "MBMS Soft Combining Timing Offset" is included for an S-CCPCH in MBMS CURRENT CELL P-T-M RB INFORMATION or MBMS NEIGHBOURING CELL P-T-M RB INFORMATION, and if only MTCH and/or MSCH are on the S-CCPCH, the UE shall set CFN for the S-CCPCH according to:
	CFN = (SFN  (SCTO div 10ms)) mod 256
	where the formula gives the CFN of the downlink S-CCPCH frame which starts at the same time as or which starts during the PCCPCH frame with the given SFN.
	the SCTO used in the formula is the IE "MBMS Soft Combining Timing Offset".
After the initialisation, the CFN in the UE is increased (mod 256) by 1 every frame.
8.5.16	Configuration of CTCH occasions
The CTCH, carrying CBS data is mapped onto only one S-CCPCH. If more than one CTCH is defined, the first CTCH that is configured in the list of S-CCPCHs is the one that is used for CBS data. If the UE is in connected mode it shall ignore any CTCH configuration contained in System Information Block type 6 and use the CTCH configuration contained in System Information Block type 5 or System Information Block type 5bis.
The CTCH occasions are identified by the first radio frame of the TTI that can contain CTCH data. The CTCH occasions are fixed on the system frame number cycle 0 .. 4095 (i.e. no modulo calculation) and thus repeated cyclically.
The CTCH occasions are determined by a set of parameters.
MTTI:	number of radio frames within the TTI of the FACH used for CTCH
N:	period of CTCH allocation on S-CCPCH, integer number of radio frames, 
MTTI £ N £ 256, where N is a multiple of MTTI (see [27] and [31]).
MaxSFN:	maximum system frame number = 4095 (see [10]).
K:	CBS frame offset, integer number of radio frames 0 £ K £ N-1 where K is a multiple of MTTI .
The CTCH occasions are calculated as follows:
	SFN = (K + m N), m = 0, 1,..., M, with M chosen that K+MN £ MaxSFN.
The parameters N and K are broadcast as system information.
If the IE "Period of BMC scheduling messages (P)" is included in System Information Block type 5 or System Information Block type 5bis then BMC Schedule Messages are transmitted periodically every P CTCH occasions. One BMC Schedule Message may be segmented across more than one CTCH occasion. The CTCH occasions that contain the start of the BMC Schedule Messages are calculated as follows:
SFN = (K + m P N), where m is an integer and 0 £ SFN £ MaxSFN
If the IE "Period of BMC scheduling messages (P)" is not included in system information block type 5 or System Information Block type 5bis then BMC Schedule Messages could be transmitted in any CTCH occasion.
8.5.17	PRACH selection
For this version of the specification, when a UE selects a cell, the uplink frequency to be used for the initial PRACH transmission shall have a default duplex frequency spacing offset from the downlink frequency that the cell was selected on. The default duplex frequency separation to be used by the UE is specified in [21] for each frequency band (for FDD only).
NOTE:	The PRACH selection scheme assumes that all PRACHs configured in System Information Block type 5, System Information Block type 5bis and System Information Block type 6 support all (implicitly or explicitly) configurable RLC sizes of the cell, i.e. at least the transport formats corresponding to a single transport block of each applicable RLC size of the cell must be defined for each PRACH.
The UE shall select a "PRACH system information" according to the following rule. The UE shall:
1>	select a "PRACH system information" from the ones indicated in the IE "PRACH system information list" in System Information Block type 5 or in System Information Block type 5bis (applicable in Idle Mode and Connected Mode) or System Information Block type 6 (applicable in Connected Mode only), as follows:
2>	if in connected mode and System Information Block type 6 is defined and includes PRACH info:
3>	compile a list of candidate PRACHs that consists of the PRACH system information listed in System Information Block 6, in the order of appearance as in System Information Block 6.
2>otherwise:
3>	compile a list of candidate PRACHs that consists of the PRACH system information listed in System Information Block 5 or in System Information Block 5bis, in the order of appearance as in System Information Block 5 or in System Information Block 5bis, respectively.
2>	in FDD:
3>	perform RACH TTI selection as specified in subclause 8.5.18.1.
2>	in 1.28 Mcps TDD:
3>	perform RACH TTI selection according to subclause 8.5.18.2.
2>	remove from the list of candidate PRACHs those PRACHs that have a TTI length different from the selected value;
2>	select a PRACH randomly from the list of candidate PRACHs as follows:
	"Index of selected PRACH" = floor (rand * K)
	where K is equal to the number of candidate PRACH system informations, "rand" is a random number uniformly distributed in the range 0  rand < 1 and "floor" refers to rounding down to nearest integer. The candidate PRACH system informations shall be indexed from 0 to K-1. The random number generator is left to implementation. The scheme shall be implemented such that one of the available PRACH system informations is randomly selected with uniform probability. At start-up of the random number generator in the UE the seed shall be dependent on the IMSI of the UE or time, thereby avoiding that all UEs select the same RACH;
2>	use the TFCS of the selected PRACH when performing TFC selection (see [15]);
2>	reselect the PRACH system information when a new cell is selected. RACH reselection may also be performed after each transmission of a Transport Block Set on RACH.
1>	for emergency call, the UE is allowed to select any of the available PRACH system informations.
After selecting a PRACH system information, the RRC in the UE shall configure the MAC and the physical layer for the RACH access according to the parameters included in the selected "PRACH system information" IE.
8.5.18	Selection of RACH TTI
8.5.18.1	FDD
In FDD mode, a RACH may employ either 10 or 20 ms TTI. The supported TTI is indicated as a semi-static parameter of the RACH Transport Format in system information. The UE shall select an appropriate TTI length from the RACHs included in the list of candidate PRACH(s) according to the following rule.
The UE shall:
1>	if only RACHs with one particular TTI length are included in the list of candidate PRACH(s):
2>	select this TTI length and proceed as specified in subclause 8.5.17.
1>	if both PRACHs with 10ms and 20ms TTI lengths are included in the list of candidate PRACH(s):
2>	perform TTI selection as follows:
3>	when the UE calculates the initial preamble transmit power ("Preamble_Initial_Power") as specified in subclause 8.5.7:
4>	select a TF to be employed for calculation of a transmit power margin as follows:
5>	from the TFs supported by all candidate PRACHs keep those which correspond to a single transport block of all configured RLC sizes (i.e., in idle mode, the RLC size applicable for RB0, in connected mode, the RLC sizes configured with explicit "RB mapping info"). If more than a single TF remain applicable, the UE may select any of these. Preferably the UE should select the TF which is intended to be used at the next transmission or, if such information is not available, the TF corresponding to the largest configured RLC size.
4>	calculate a transmit power margin,
	Margin = {min(Maximum allowed UL tx power, P_MAX) -	max(Preamble_Initial_Power, 
	Preamble_Initial_Power + DPp-m + 10*log10(1 + (bd /bc)2))
	where "Maximum allowed UL tx power" is the maximum allowed uplink transmit power indicated in system information (in dBm), and P_MAX is the maximum RF output power of the UE (dBm). The margin shall be calculated for the gain factors bd and bc of the TF selected in the step above, using 10ms TTI length.
NOTE 1:	the expression Preamble_Initial_Power + DPp-m + 10*log10(1 + (bd /bc)2) represents the total RACH message power if the message would be sent after the initial preamble.
NOTE 2:	For all PRACHs with the same TTI the UTRAN should set each of the IEs "Primary CPICH TX power", "Constant value" to the same value, and within these PRACH configurations, the UTRAN should, for all TFs including a single TB, set each of the IEs "Gain Factor c ", "Gain Factor d" and "Power offset P p-m" to the same value. If these guidelines are not followed, the UE behaviour is unspecified.
3>	if the resulting "Margin" value is less than 6 dB:
4>	select RACH with 20 ms TTI, and proceed as specified in subclause 8.5.17.
3>	otherwise, if the last L1 message transmission on PRACH failed (see [15]):
4>	the UE may select RACH with 20ms TTI length and proceed as specified in subclause 8.5.17.
3>	otherwise:
4>	select RACH with 10ms TTI length and proceed as specified in subclause 8.5.17.
8.5.18.2	1.28 Mcps TDD
In 1.28 Mcps TDD, a RACH may be assigned a 5, 10 or 20 ms TTI. If, in one cell, more than one RACH is defined a UE shall select the RACH that is to be used for each transmission according to the following rule:
1>	if only RACHs with one particular TTI length are assigned a transport format that is suitable for the transmission of the transport block set:
2>	select this RACH's TTI length.
1>	if more than one RACHs are assigned a transport format that is suitable for the transmission of the transport block set:
2>	select the longest of the TTI lengths of these RACHs.
8.5.19	Secondary CCPCH selection
In UTRAN Connected mode, the UE shall select the Secondary CCPCH according to the following rules:
1>	in CELL_DCH state:
2>	select Secondary CCPCH according to subclause 8.6.6.4.
1>	in CELL_FACH state:
2>	if System Information Block type 6 is defined and includes one or more SCCPCH that carry a FACH, compile a list of candidate SCCPCH that consists of these SCCPCH, in the order of appearance in System Information Block type 6.
NOTE 1:	An SCCPCH carries a FACH if the size of the "FACH/PCH information" list within the IE "Secondary CCPCH system information" exceeds 1 or if the size of this list equals 1 while IE "Secondary CCPCH system information" does not contain an IE "PICH info".
2>	otherwise:
3>	compile a list of candidate SCCPCH that consists of the SCCPCH(s) included in System Information Block type 5 or System Information Block type 5bis that carry a FACH, in the order of appearance in System Information Block type 5 or System Information Block type 5bis.
2>	select an SCCPCH from the list of candidate SCCPCHs based on U-RNTI as follows:
	"Index of selected SCCPCH" = U-RNTI mod K,
	where K is equal to the number of candidate SCCPCHs.
1>	in CELL_PCH and URA_PCH states:
2> if System Information Block type 6 is defined and includes one or more SCCPCH that carry a PCH, compile a list of candidate SCCPCH that consists of these SCCPCH, in the order of appearance in System Information Block type 6
NOTE 2:	An SCCPCH carries a PCH if the IE "Secondary CCPCH system information" contains IE "PICH info"
2>	otherwise compile a list of candidate SCCPCH that consists of the SCCPCH(s) included in System Information Block type 5 or System Information Block type 5bis that that carry a PCH , in the order of appearance in System Information Block type 5 or System Information Block type 5bis;
2>	select an SCCPCH from the list of candidate SCCPCHs based on U-RNTI as follows:
	"Index of selected SCCPCH" = U-RNTI mod K,
	where K is equal to the number of candidate SCCPCHs.
The UE shall set the CFN in relation to the SFN of the current cell according to subclause 8.5.15.
The UE shall decode all transport formats on all FACHs multiplexed on the selected S-CCPCH according to its UE capability, as defined in subclauses 8.1.1.6.5 and 8.1.1.6.6, to find blocks adressed to the UE.
8.5.19a	Secondary CCPCH and FACH selection for MCCH reception
The UE shall select the Secondary CCPCH for acquiring MCCH information according to the following rules:
1>	if System Information Block type 5 or System Information Block type 5bis  is defined and includes an S-CCPCH within the IE "Secondary CCPCH system information" including a FACH for which the IE "MCCH configuration information" is included:
2>	select that S-CCPCH and FACH for receiving MCCH.
1>	otherwise if System Information Block type 5 or System Information Block type 5bis is defined and includes an SCCPCH within the IE "Secondary CCPCH system information MBMS" for which the IE "FACH carrying MCCH" is included:
2>	select that S-CCPCH and FACH for receiving MCCH.
8.5.20	Unsupported configuration
The UE should set the variable UNSUPPORTED_CONFIGURATION to TRUE if the received message is not according to the UE capabilities.
8.5.21	Actions related to Radio Bearer mapping
When the UE receives the IEs "RB mapping info", "CCCH mapping info", "SRB1 mapping info" and/or the IE "Transport format set", when transport channels, MAC-d flows, MAC-ehs reordering queues or E-DCH MAC-d flows are added or deleted, when the UE performs a cell reselection or a state transition, or when the UE releases a RB, or when the value stored in the variable FALLBACK_R99_PRACH_ENABLED changes, the UE shall for each of the configured Radio Bearers:
1>	upon moving to CELL_FACH state from URA_PCH, CELL_PCH or CELL_DCH state to initiate a cell update procedure and upon subsequent cell reselections until the first successfully completed cell update procedure, only perform the actions defined in the remainder of this subclause after reception of the CELL UPDATE CONFIRM message;
1>	for FDD, select the multiplexing option according to the following:
2>		if the UE is in CELL_PCH or URA_PCH state:
3>	if the UE does support HS-DSCH reception in CELL_PCH and URA_PCH state and IE "HS-DSCH paging system information" is included in System Information Block type 5 or System Information Block type 5bis; or
3>	if the variable HSPA_RNTI_STORED_PCH is set to TRUE:
4>	if the UE does support Enhanced Uplink in CELL_FACH state and Idle mode and the IE "Common E-DCH system info" is included in System Information Block type 5 or System Information Block type 5bis and if C-RNTI, H-RNTI and primary E-RNTI are provided to the UE:
5>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-ehs reordering queue is configured, and transport channel type "E-DCH" for the UL and the corresponding common E-DCH MAC-d flow is configured:
6>	select this multiplexing option;
4>	else:
5>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-ehs reordering queue is configured, and transport channel type "RACH" for the UL:
6>	select this multiplexing option.
2>	if the UE is in CELL_FACH state:
3>	if the UE does not support HS-DSCH reception in CELL_FACH state; or
3>	if the IE "HS-DSCH common system information" is not included in System Information Block type 5 or System Information Block type 5bis:
4>	if the RB has a multiplexing option with transport channel type "FACH" for the DL, and transport channel type "RACH" for the UL:
5>	select this multiplexing option.
3>	else:
4>	if the UE does not support Enhanced Uplink in CELL_FACH state and Idle mode; or
4>	if the IE "Common E-DCH system info" is not included in System Information Block type 5 or System Information Block type 5bis:
5>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-ehs reordering queue is configured, and transport channel type "RACH" for the UL:
6>	select this multiplexing option.
4>	else:
5>	if either of the following conditions is met: and
6>	the radio bearer is mapped to CCCH and IE "CCCH Fallback" is set to TRUE;
6>	the radio bearer is mapped to DCCH and IE "DCCH Fallback" is set to TRUE.
5>	if the variable FALLBACK_R99_PRACH_ENABLED is set to TRUE:
6>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-ehs reordering queue is configured, and transport channel type "RACH" for the UL:
7>	select this multiplexing option.
5>	else:
6>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-ehs reordering queue is configured,  and transport channel type "E-DCH" for the UL and the corresponding common E-DCH MAC-d flow is configured:
6>	select this multiplexing option.
2>	if the UE is in CELL_DCH state:
3>	if the RB has a multiplexing option with transport channel type "DCH + HS-DSCH" for the DL, and both the corresponding DCH transport channel and the corresponding MAC-d flow or MAC-ehs reordering queue are configured, and with transport channel type "E-DCH" for the UL, and the corresponding E-DCH MAC-d flow is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH + HS-DSCH" for the DL, and both the corresponding DCH transport channel and the corresponding MAC-d flow or MAC-ehs reordering queue are configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH + DSCH" for the DL:
4>	the UE behaviour is unspecified; else
3>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-d flow or MAC-ehs reordering queue is configured, and with transport channel type "E-DCH" for the UL, and the corresponding E-DCH MAC-d flow is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-d flow or MAC-ehs reordering queue is configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DSCH" for the DL:
4>	the UE behaviour is unspecified; else
3>	if the RB has a multiplexing option with transport channel type "DCH" for the DL, and the corresponding DCH transport channel is configured, and with transport channel type "E-DCH" for the UL, and the corresponding E-DCH MAC-d flow is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH" for the DL, and the corresponding DCH transport channel is configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option.
1>	for 3.84 Mcps TDD and 7.68 Mcps TDD, select the multiplexing option according to the following:
2>	if the UE is in CELL_FACH state:
3>	if the RB has the multiplexing options with the transport channel types "FACH" and "DSCH" for the DL, and the corresponding FACH and DSCH transport channels are configured, and with the transport channel types "RACH" and "USCH" for the UL, and the corresponding RACH and USCH transport channels are configured:
4>	if both PUSCH and PDSCH are allocated:
5>	select the multiplexing option "DSCH" for DL and "USCH" for UL; else
4>	if only PUSCH is allocated:
5>	select the multiplexing option "FACH" for DL and "USCH" for UL; else
4>	if only PDSCH is allocated:
5>	select the multiplexing option "DSCH" for DL and "RACH" for UL; else 
4>	if neither PUSCH nor PDSCH is allocated:
5>	select the multiplexing option "FACH" for DL and "RACH" for UL.
3>	if the RB has a single multiplexing option with the transport channel type "FACH" for the DL and the transport channel type "RACH" for the UL:
4>	select this multiplexing option; else
3>	if the RB has a single multiplexing option with the transport channel type "DSCH" for the DL, and the corresponding DSCH transport channel is configured, and with the transport channel type "USCH" for the UL, and the corresponding USCH transport channel is configured:
4>	select this multiplexing option; else
2>	if the UE is in CELL_DCH state:
3>	if the RB has a multiplexing option with transport channel type "DCH + HS-DSCH" for the DL, and both the corresponding DCH transport channel and MAC-d flow are configured, and with transport channel type "E-DCH" for the UL, and the corresponding E-DCH MAC-d flow is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH + HS-DSCH" for the DL, and both the corresponding DCH transport channel and MAC-d flow are configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH + DSCH" for the DL, and both the corresponding DCH and DSCH transport channels are configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-d flow is configured, and with transport channel type "E-DCH" for the UL, and the corresponding E-DCH MAC-d flow is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-d flow is configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH" for the DL, and the corresponding DCH transport channel is configured, and with transport channel type "E-DCH" for the UL, and the corresponding E-DCH MAC-d flow is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH" for the DL, and the corresponding DCH transport channel is configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option; else
3>	if theRB has a multiplexing option with transport channel type "DSCH" for the DL, and the corresponding DSCH transport channel is configured, and with transport channel "USCH" for the UL, and the corresponding USCH transport channel is configured:
4>	select this multiplexing option.
1>	for 1.28 Mcps TDD, select the multiplexing option according to the following:
2>	if the UE is in CELL_PCH state:
3>	if the UE does support HS-DSCH reception in CELL_PCH and URA_PCH state and IE "HS-DSCH paging system information" is included in System Information Block type 5 and the IE "Common E-DCH system info" is included in System Information Block type 5 and if C-RNTI, H-RNTI and primary E-RNTI are provided to the UE:
4>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL and transport channel type "E-DCH" for the UL:
5>	select this multiplexing option.
2>	if the UE is in CELL_FACH state:
3>	if the UE does not support HS-DSCH reception in CELL_FACH state and Enhanced Uplink in CELL_FACH state and Idle mode; or
3>	if the IE "HS-DSCH common system information" is not included in System Information Block type 5; or
3>	if the IE "Common E-DCH system info" is not included in System Information Block type 5:
4>	if the RB has a multiplexing option with transport channel type "FACH" for the DL and transport channel type "RACH" for the UL:
5>	select this multiplexing option; else
4>	if the RB has the multiplexing options with the transport channel types "FACH" and "DSCH" for the DL, and the corresponding FACH and DSCH transport channels are configured, and with the transport channel types "RACH" and "USCH" for the UL, and the corresponding RACH and USCH transport channels are configured:
5>	if both PUSCH and PDSCH are allocated:
6>	select the multiplexing option "DSCH" for DL and "USCH" for UL; else
5>	if only PUSCH is allocated:
6>	select the multiplexing option "FACH" for DL and "USCH" for UL; else
5>	if only PDSCH is allocated:
6>	select the multiplexing option "DSCH" for DL and "RACH" for UL; else 
5>	if neither PUSCH nor PDSCH is allocated:
6>	select the multiplexing option "FACH" for DL and "RACH" for UL.
4>	if the RB has a single multiplexing option with the transport channel type "DSCH" for the DL, and the corresponding DSCH transport channel is configured, and with the transport channel type "USCH" for the UL, and the corresponding USCH transport channel is configured:
5>	select this multiplexing option; else
3>	else:
4>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL and transport channel type "E-DCH" for the UL:
5>	select this multiplexing option.
2>	if the UE is in CELL_DCH state:
3>	if the RB has a multiplexing option with transport channel type "DCH + HS-DSCH" for the DL, and both the corresponding DCH transport channel and the corresponding MAC-d flow or MAC-ehs reordering queue are configured, and with transport channel type "E-DCH" for the UL, and the corresponding E-DCH MAC-d flow is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH + HS-DSCH" for the DL, and both the corresponding DCH transport channel and the corresponding MAC-d flow or MAC-ehs reordering queue are configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH + DSCH" for the DL, and both the corresponding DCH and DSCH transport channels are configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-d flow or MAC-ehs reordering queue is configured, and with transport channel type "E-DCH" for the UL, and the corresponding E-DCH MAC-d flow is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-d flow or MAC-ehs reordering queue is configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH" for the DL, and the corresponding DCH transport channel is configured, and with transport channel type "E-DCH" for the UL, and the corresponding E-DCH MAC-d flow is configured:
4>	select this multiplexing option; else
3>	if the RB has a multiplexing option with transport channel type "DCH" for the DL, and the corresponding DCH transport channel is configured, and with transport channel type "DCH" for the UL, and the corresponding DCH transport channel is configured:
4>	select this multiplexing option; else
3>	if theRB has a multiplexing option with transport channel type "DSCH" for the DL, and the corresponding DSCH transport channel is configured, and with transport channel "USCH" for the UL, and the corresponding USCH transport channel is configured:
4>	select this multiplexing option.
1>	configure the MAC with the appropriate transport format set (with computed transport block sizes) for the transport channel used by that RB; or
1>	configure the MAC with the appropriate MAC-d flow or MAC-ehs reordering queue used by that RB;
1>	in case the selected multiplexing option is a multiplexing option on E-DCH:
2>	if the RLC PDU size is set to "fixed size", the set of RLC sizes that apply to the logical channel used by that RB consists of all RLC PDU sizes listed in the IE "RLC PDU size list" in the RB mapping info for E-DCH.
1>	else:
2>	determine the sets of RLC sizes that apply to the logical channels used by that RB, based on the IEs "RLC size list" and/or the IEs "Logical Channel List" included in the applicable "Transport format set" (either the ones received in the same message or the ones stored if none were received);
1>	in case the selected multiplexing option is a multiplexing option on RACH:
2>	ignore the RLC size indexes that do not correspond to any RLC size within the Transport Format Set stored for RACH.
2>	if there is no remaining RLC size index corresponding to an RLC size within the Transport Format Set stored for RACH:
3>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if RACH is the transport channel to be used on the uplink, if that RB has a multiplexing option on RACH and if it is using AM:
2>	apply the largest size amongst the ones derived according to the previous bullet for the RLC size (or RLC sizes in case the RB is realised using two logical channels) for the corresponding RLC entity.
NOTE:	The IE "RB mapping info" is only included in the IE "Predefined RB configurations" in system information when used for Inter-RAT handover to UTRAN and there is no AM RLC size change involved in this case.
1>	if the uplink RLC PDU size is set to "flexible size" and no uplink RLC PDU size is currently set in the RLC entity:
2>	if this radio bearer is a signalling radio bearer:
3>	the UE behaviour is unspecified.
2>	else, configure the corresponding RLC entity with the RLC length indicator size indicated in the IE "Length indicator size".
NOTE1:	In uplink, if the UTRAN has configured "Flexible size" RLC PDUs and 7-bit "Length indicator size" field and  "Largest UL RLC PDU size" > 126 octets, but the UTRAN has not configured "Use special value of HE field", then the UE behaviour is unspecified. 
NOTE2:	In uplink, if the UTRAN has configured "Flexible size" RLC PDUs and 7-bit "Length indicator size" field, but the UTRAN has also configured "Minimum UL RLC PDU" > 126 octets, then the UE behaviour is unspecified.
1>	if the uplink RLC PDU size is changed from "fixed" to "flexible size" and the RLC length indicator size is 7 bits:
2>	if this radio bearer is a signalling radio bearer:
3>	the UE behaviour is unspecified.
2>	else, configure the corresponding RLC entity with flexible RLC PDU size and the RLC length indicator size indicated in the IE "Length indicator size".
1>	if that RB is using AM and the RLC size applicable to the uplink logical channel transporting data PDUs is different from the one derived from the previously stored configuration; or
1>	if that RB is using AM and the RLC size applicable to the uplink logical channel transporting data PDUs changed from "flexible size" to "fixed size"; or
1>	if that RB is using AM and "flexible size" RLC PDUs and the Length Indicator size applicable to the uplink logical channel transporting data PDUs is different from the one derived from the previously stored configuration; or
1>	if that RB is using AM and the RLC PDU size applicable to the uplink logical channel transporting data PDUs changed from "fixed size" to "flexible size" and the indicated RLC length indicator size is 15 bits; and
1>	none of the following conditions is met:
-	the RLC size change is caused by a CELL UPDATE CONFIRM and the CELL UPDATE CONFIRM message includes the IE "Downlink counter synchronisation info".
-	the RLC size change is caused by a reconfiguration message, and a cell update procedure occurs during the reconfiguration procedure and the CELL UPDATE CONFIRM message includes the IE "Downlink counter synchronisation info".
-	the RLC size change is caused by a reconfiguration message, and a cell update procedure occurs during this reconfiguration procedure and the CELL UPDATE CONFIRM message includes the IE "RLC re-establish indicator" being set to TRUE for the corresponding radio bearer.
2>	if the RLC PDU size is set to "flexible size":
3>	if this radio bearer is a signalling radio bearer:
4>	the UE behaviour is unspecified.
2>	if the RLC size change is caused by a reconfiguration message or a CELL UPDATE CONFIRM and the IE "one sided RLC re-establishment" is included in that message and is set to TRUE; or
2>	the uplink RLC size change is caused by changing the multiplexing option with transport channel type "E-DCH" to transport channel type "RACH" during cell reselection or due to a system information modification, and the UE enters or remains in CELL_FACH state, or the UE enters CELL_PCH state and the H-RNTI is stored after the state transition into CELL_PCH state, the UE shall after receiving the CELL UPDATE CONFIRM:
3>	re-establish the transmitting side of the corresponding RLC entity.
2>	else:
3>	re-establish the corresponding RLC entity;
3>	if the RLC entity for SRB2 is re-established:
4>	clear all entries in the table "Processed transactions" in the variable TRANSACTIONS.
2>	if the RLC PDU size is set to "fixed size":
3>	configure the corresponding RLC entity with the new uplink RLC size.
2>	if the RLC PDU size is set to "flexible size":
3>	configure the corresponding RLC entity with the RLC length indicator size indicated in the IE "Length indicator size".
2>	for each AM RLC radio bearer in the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS whose RLC size is changed; and
2>	for each AM RLC signalling radio bearer in the CN domain as indicated in the IE "CN domain identity" in the variable LATEST_CONFIGURED_CN_DOMAIN whose RLC size is changed:
3>	if the IE "Status" in the variable CIPHERING_STATUS of this CN domain is set to "Started":
4>	if the information causing the RLC re-establishment was included in system information:
5>	set the HFN values for the corresponding RLC entity equal to the value of the IE "START" for this CN domain that will be included in the CELL UPDATE message following cell reselection.
NOTE:	Since the UE cannot predict the START value at the time of the next CELL UPDATE transmission in the future, UTRAN should desist from changing the RLC size for a signalling radio bearer within a cell. Other than this case the change in RLC size for a signalling radio bearer is known to the UE when reading system information following cell reselection.
4>	if the RLC re-establishment is caused by a CELL UPDATE CONFIRM:
5>	if the whole RLC entity was re-established:
6>	set the HFN values for the corresponding RLC entity in uplink and downlink equal to the value of the IE "START" included in the latest transmitted CELL UPDATE message for this CN domain.
5>	if only the transmitting side of the RLC entity was re-established:
6>	set the HFN value for the corresponding RLC entity in the uplink equal to the value of the IE "START" included in the latest transmitted CELL UPDATE message for this CN domain.
4>	if the RLC re-establishment is caused by a reconfiguration message:
5>	if the whole RLC entity was re-established:
6>	set the HFN values for the corresponding RLC entity in uplink and downlink equal to the value of the IE "START" that will be included in the reconfiguration complete message for this CN domain.
5>	if only the transmitting side of the RLC entity was re-established:
6>	set the HFN value for the corresponding RLC entity in the direction uplink equal to the value of the IE "START" that will be included in the reconfiguration complete message for this CN domain.
NOTE1:	If the UTRAN modifies the RLC size for RB2 on any reconfiguration message or Cell Update Confirm message, the UE behaviour is unspecified in this version of the specification.
NOTE2:	The UE cannot rely on the configured Transport Formats to determine the RLC sizes to be used in downlink for a particular logical channel. This size can be signalled explicitly in the RLC Info IE.
1>	if that RB is using AM or UM; and
1>	MAC-i/is is configured and the RLC PDU size is set to "flexible size":
2>	indicate the largest RLC size applicable for uplink to the corresponding RLC entity;
2>	indicate the minimum RLC size applicable for the uplink to the corresponding RLC entity.
1>	MAC-e/es is configured and the RLC PDU size is set to "flexible size":
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if that RB is using UM and MAC-i/is is not configured:
2>	indicate the largest RLC size applicable for uplink to the corresponding RLC entity.
1>	configure MAC multiplexing according to the selected multiplexing option (MAC multiplexing shall only be configured for a logical channel if the transport channel it is mapped on according to the selected multiplexing option is the same as the transport channel another logical channel is mapped on according to the multiplexing option selected for it);
1>	configure the MAC with the logical channel priorities according to selected multiplexing option;
1>	configure the MAC with the set of applicable RLC Sizes for each of the logical channels used for that RB;
1>	if there is no multiplexing option applicable for the transport channels, MAC-d flows and MAC-ehs reordering queues to be used:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if there is more than one multiplexing option applicable for the transport channels, MAC-d flows or MAC-ehs reordering queues to be used:
2>	set the variable INVALID_CONFIGURATION to TRUE.
If upon cell re-selection or upon moving to CELL_FACH state from URA_PCH, CELL_PCH or CELL_DCH state to initiate cell update procedure the UE sets variable INVALID_CONFIGURATION to TRUE as a result of the actions defined in this subclause, the UE should:
1>	move to idle mode;
1>	release (locally) the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and the established radio access bearers (as stored in the variable ESTABLISHED_RABS) and indicate this to upper layers;
1>	perform other actions when entering idle mode from connected mode as specified in subclause 8.5.2.
8.5.22	Actions when entering another RAT from connected mode
NOTE:	This section does not apply when entering GERAN Iu mode from UTRAN connected mode.
When entering another RAT from connected mode (due to Inter-RAT handover from UTRAN, Inter-RAT cell change order from UTRAN or Inter-RAT cell reselection from UTRAN), after successful completion of the procedure causing the transition to the other RAT, the UE shall:
1>	if the USIM is present, for each CN domain:
2>	if a new security key set was received for this CN domain but was not used either for integrity protection or ciphering during this RRC connection: 
3>	set the START value for this domain to zero and;
3>	store this START value for this domain in the volatile memory of the ME;
2>	else:
3>	store the current START value for every CN domain in the volatile memory of the ME.
NOTE:	Prior to storing the START value, the UE should calculate this START value according to subclause 8.5.9.
1>	if the SIM is present, for each CN domain:
2>	if a new security key was received for this CN domain but was not used either for integrity protection or ciphering during this RRC connection: 
3>	set the START value for this domain to zero and;
3>	store this START value for this domain in the volatile memory of the ME.
2>	else:
3>	store the current START value for this CN domain in the volatile memory of the ME.
NOTE:	Prior to storing the START value, the UE should calculate this START value according to subclause 8.5.9.
8.5.23	Measured results on RACH
When transmitting an uplink RRC message and System Information Block type 11, System Information Block type 11bis, System Information Block type 11ter and System Information Block type 12, if transmitted, have been received, the UE shall:
1>	if the uplink RRC message is an RRC CONNECTION REQUEST message:
2>	if the IE "Intra-frequency reporting quantity for RACH reporting" and the IE "Maximum number of reported cells on RACH" are included in System Information Block type 11:
3>	include a measurement report in the IE "Measured results on RACH", as specified in the IE "Intra-frequency reporting quantity for RACH reporting" and the IE "Maximum number of reported cells on RACH" in System Information Block type 11.
2>	if the IE "Inter-frequency RACH reporting information" is included in System Information Block type 11:
3>	if, at the time the message is to be sent, valid measurements are available; and
3>	there is one or more cells for which the quantity, indicated by the IE "Reporting quantity" in the IE "Inter-frequency RACH reporting information”, exceeds the threshold specified by the IE "Inter-frequency RACH reporting threshold":
4>	include a measurement report in the IE "Measured results on RACH";
4>	include the cells for which the quantity, indicated by the IE "Reporting quantity" in the IE "Inter-frequency RACH reporting information”, exceeds the threshold specified by the IE "Inter-frequency RACH reporting threshold";
4>	set the IE "Inter-frequency cell indication- SIB11" to the following value: Value_Tag MOD 2, with Value_Tag corresponding to the value tag of System Information Block Type 11;
4>	set the IE "Inter-frequency cell indication- SIB12" to any value.
2>	for FDD, if System Information Block type 19 has been received and if the IE "E-UTRA frequency RACH reporting information" is included in System Information Block type 19; and
2>	if the UE supports E-UTRA RACH reporting:
3>	if, at the time the message is to be sent, valid measurements are available; and
3>	there is one or more cells for which the Physical layer Cell Identity is not included in the blacklist of whose frequency and the quantity, indicated by the IE "E-UTRA frequency RACH Reporting quantity" in the IE "E-UTRA frequency RACH reporting information", exceeds the threshold specified by the IE "E-UTRA frequency RACH reporting threshold" according to the criteria specified in subclause 10.3.7.45:
4>	include a measurement report in the IE "Measured results on RACH";
4>	set the value of the IE "E-UTRA frequency indicator";
4>	set the IE "E-UTRA frequency indication-SIB19" to the following value: Value_Tag MOD 2, with Value_Tag corresponding to the value tag of System Information Block Type 19.
1>	for any other uplink RRC message which optionally includes the IE "Measured results on RACH":
2>	if the IE "Intra-frequency reporting quantity for RACH reporting" and the IE "Maximum number of reported cells on RACH" are included in System Information Block type 12 (or "System Information Block Type 11", if these IEs are not included in the broadcast "System Information Block Type 12" or "System Information Block Type 12" is not being broadcast).
3>	include a measurement report in the IE "Measured results on RACH", as specified in the IE "Intra-frequency reporting quantity for RACH reporting" and the IE "Maximum number of reported cells on RACH" in System Information Block type 12 (or "System Information Block Type 11" if these IEs are not included in the broadcast "System Information Block Type 12" or "System Information Block Type 12" is not being broadcast).
2>	if the IE "Inter-frequency RACH reporting information" is included in "System Information Block type 12" (or "System Information Block Type 11" if this IE is not included in the "System Information Block Type 12" or if "System Information Block Type 12" is not being broadcast):
3>	if, at the time the message is to be sent, valid measurements are available; and
3>	there is one or more cells for which the quantity, indicated by the IE "Reporting quantity" in the IE "Inter-frequency RACH reporting information”, exceeds the threshold specified by the IE "Inter-frequency RACH reporting threshold":
4>	include a measurement report in the IE "Measured results on RACH";
4>	include the cells for which the quantity, indicated by the IE "Reporting quantity" in the IE "Inter-frequency RACH reporting information", exceeds the threshold specified by the IE "Inter-frequency RACH reporting threshold";
4>	set the IE "Inter-frequency cell indication- SIB11" to the following value: Value_Tag MOD 2, with Value_Tag corresponding to the value tag of System Information Block Type 11;
4>	if "System Information Block Type 12" is being broadcast:
5>	set the IE "Inter-frequency cell indication- SIB12" to the following value: Value_Tag MOD 2, with Value_Tag corresponding to the value tag of System Information Block Type 12.
4>	else:
5>	set the IE "Inter-frequency cell indication- SIB12" to any value.
2>	for FDD, if System Information Block type 19 has been received and if the IE "E-UTRA frequency RACH reporting information" is included in System Information Block type 19; and
2>	if the UE supports E-UTRA RACH reporting:
3>	if, at the time the message is to be sent, E-UTRA measurement for CELL_FACH is not configured; and
3>	if, at the time the message is to be sent, valid measurements are available; and
3>	there is one or more cells for which the Physical layer Cell Identity is not included in the blacklist of whose frequency and the quantity, indicated by the IE "E-UTRA frequency RACH Reporting quantity" in the IE "E-UTRA frequency RACH reporting information", exceeds the threshold specified by the IE "E-UTRA frequency RACH reporting threshold" according to the criteria specified in subclause 10.3.7.45:
4>	include a measurement report in the IE "Measured results on RACH";
4>	set the value of the IE "E-UTRA frequency indicator";
4>	set the IE "E-UTRA frequency indication-SIB19" to the following value: Value_Tag MOD 2, with Value_Tag corresponding to the value tag of System Information Block Type 19.
1>	include in the IE "Measured results on RACH" all requested reporting quantities for cells for which measurements are reported. 
NOTE:	The UE only includes measurement results for neighbour cells for which valid measurements are available at the time the message is sent. At cell access following selection or reselection to a cell, the UE may not have had sufficient time to obtain valid measurement results for neighbour cells.
1>	for messages transmitted on CCCH, take care that the maximum allowed message size is not exceeded when forming the IE "Measured results on RACH", i.e. limit the number of included neighbour cells or if required omit the IE "Measured results on RACH" altogether. When limiting the number of included neighbouring cells, for UE’s not supporting E-UTRA RACH reporting, the number of inter-frequency cells should be limited first i.e. inter-frequency cells should be omitted before limiting  the number of intra- frequency cells. For UE's supporting E-UTRA RACH reporting, when limiting the number of included neighbouring cells:
2>	if the IE "RACH reporting priority" is not present:
3>	E-UTRA measurements shall be omitted first, followed by limiting the number of inter-frequency cells, before limiting the number of intra-frequency cells. Measurement result for the current cell shall be omitted last.
2>	if the IE "RACH reporting prirority" is present and set to "IntraEUTRAInter":
3>	the number of inter-frequency cells shall be limited first, followed by omitting E-UTRA measurements, before limiting the number of intra-frequency cells. Measurement result for the current cell shall be omitted last.
2>	if the IE "RACH reporting priority" is present and set to "InterEUTRAIntra":
3>	the number of intra-frequency cells shall be limited first, followed by omitting E-UTRA measurements, before limiting the number of inter-frequency cells. Measurement result for the current cell shall be omitted last.
2>	if the IE "RACH reporting priority" is present and set to "InterIntraEUTRA":
3>	E-UTRA measurements shall be omitted first, followed by limiting the number of intra-frequency cells, before limiting the number of inter-frequency cells. Measurement result for the current cell shall be omitted last.
2>	if the IE "RACH reporting priority" is present and set to "EUTRAIntraInter":
3>	the number of inter-frequency cells shall be limited first, followed by limiting the number of intra- frequency cells, before omitting E-UTRA measurements. Measurement result for the current cell shall be omitted last.
2>	if the IE "RACH reporting priority" is present and set to "EUTRAInterIntra":
3>	the number of intra-frequency cells shall be limited first, followed by limiting the number of inter- frequency cells, before omitting E-UTRA measurements. Measurement result for the current cell shall be omitted last.
When transmitting an uplink RRC message and the System Information Block type 11, System Information Block type 11bis, System Information Block type 11ter and System Information Block type 12, if transmitted, have not been received, the UE shall:
1>	for any uplink RRC message which optionally includes the IE "Measured results on RACH", include a measurement report in the IE "Measured results on RACH" according to the following rules:
2>	if the IE "Intra-frequency reporting quantity SIB3" was not present in System Information Block type 3:
3>	include a measurement report for the serving cell using CPICH RSCP as a measurement quantity;
3>	include measurement reports for cells on the used frequency for which measured results are available, using CPICH RSCP as measurement quantity for each cell;
3>	omit the IE "Measurement results for monitored cells on non-used frequencies";
3>	omit the IE "Measurement results for E-UTRA frequencies".
2>	if the IE "Intra-frequency reporting quantity SIB3" was present in System Information Block type 3:
3>	include a measurement report for the serving cell using as a measurement quantity given in IE "Intra-frequency reporting quantity SIB3";
3>	include measurement reports for cells on the used frequency for which measured results are available, using as a measurement quantity given in IE "Intra-frequency reporting quantity SIB3" for each cell;
3>	omit the IE "Measurement results for monitored cells on non-used frequencies";
3>	omit the IE "Measurement results for E-UTRA frequencies".
2>	for TDD, include measurement reports using the measurement quantities specified in the IE "Reporting quantity list".
If the IE "Measured results on RACH" is present in the message, the UTRAN should extract the contents to be used for radio resource control.
8.5.24	Change of PLMN while in RRC connected mode
If the UE camps on an acceptable cell to obtain limited service while in RRC connected mode the UE shall:
1>	keep the RRC connection and its behaviour, while camping on an acceptable cell as if in Idle mode in that PLMN;
1>	if the UE re-enters "in service area" in a suitable cell, or cannot maintain limited service (i.e. cannot find any acceptable cell of any PLMN), the UE shall resume its RRC Connected mode behaviour as if it had not camped on any cell whilst being in "out of service area".
The UE shall:
1>	if the NAS indicates the selection of a new PLMN resulting from manual- or automatic mode PLMN selection [25] while the UE is in RRC connected mode; or
1>	if the UE attempts transmission on an acceptable cell while the UE is in RRC connected mode (i.e. to initiate emergency call), the UE shall:
2>	move to idle mode;
2>	release all dedicated resources;
2>	indicate release (abort) of the established signalling connections (as stored in the variable ESTABLISHED_SIGNALLING_CONNECTIONS) and established radio access bearers (as stored in the variable ESTABLISHED_RABS) to upper layers;
2>	clear the variable ESTABLISHED_SIGNALLING_CONNECTIONS;
2>	clear the variable ESTABLISHED_RABS; and
2>	perform actions specified in subclause 8.5.2 when entering idle mode from connected mode.
NOTE:	NAS can inform AS about a new selected PLMN as a result of a PLMN selection (manual- or automatic mode PLMN selection (see [25])), or as a result of network signalling (after inter-RAT handover or inter-PLMN SRNS relocation). Only in the first case (manual- or automatic mode PLMN selection), this will result in an immediate RRC connection release.
8.5.25	Actions related to HS_DSCH_RECEPTION variable
The variable HS_DSCH_RECEPTION shall be set to TRUE only when all the following conditions are met:
1>	for FDD and 1.28 Mcps TDD:
2>	the UE is in CELL_DCH state.
1>	for 3.84 Mcps TDD or 7.68 Mcps TDD:
2>	a dedicated physical channel is allocated to the UE in the uplink.
1>	the variable H_RNTI is set;
1>	the UE has a stored IE "HS-SCCH info";
1>	the UE has a stored IE "HARQ info";
1>	for FDD:
2>	one of the radio links in the active set is configured as the serving HS-DSCH radio link;
2>	the UE has stored the following IEs:
-	IE "Measurement Feedback Info";
-	IE "Uplink DPCH Power Control Info" including stored ACK,  NACK  and Ack-NACK Repetition factor.
1>	for 3.84 Mcps TDD or 7.68 Mcps TDD, the UE has stored the IE "HS-PDSCH Timeslot Configuration" and either of the following conditions are met:
2>	a dedicated physical channel is allocated to the UE in the downlink;
2>	the UE has stored Dhs-sync.
1>	for 1.28 Mcps TDD, the UE has stored the IE "HS-PDSCH Midamble Configuration":
1>	there is at least one RB mapped to HS-DSCH;
1>	at least for one of the RBs mapped to HS-DSCH, there is either:
2>	at least one MAC-hs queue (including the IE "MAC-d PDU size Info") configured for the concerning MAC-d flow; or
2>	at least one MAC-ehs reordering queue configured for the associated logical channel.
NOTE 1:	In CELL_DCH, to enable or disable HS-DSCH reception, the UTRAN has the possibility to add/remove the concerning HS-DSCH related RB mapping options, add/remove the concerning MAC-d flows or, for FDD, add/remove the concerning MAC-ehs reordering queue, add/remove the serving HS-DSCH radio link or, for TDD add/remove H-RNTI upon hard handover.
NOTE 2:	In CELL_DCH, if HS_DSCH_RECEPTION is set to TRUE and a reconfiguration, an inter-RAT handover from UTRAN, or a cell change order procedure is initiated, the UE checks the conditions only when the reconfiguration, inter-RAT handover from UTRAN, or cell change order procedure is successfully completed. Doing so ensures that, in case of failure in the reconfiguration, inter-RAT handover from UTRAN, or cell change order procedure, the UE can return to the old configuration as if the message was not received, e.g. without performing a MAC-HS reset.
If any of the above conditions is not met and the variable HS_DSCH_RECEPTION is set to TRUE, the UE shall:
1>	set the variable HS_DSCH_RECEPTION to FALSE;
1>	for UE in CELL_DCH:
2>	set the variable HS_DSCH_RECEPTION_GENERAL to FALSE;
2>	stop any HS-SCCH reception procedures;
2>	stop any HS-DSCH reception procedures;
2>	clear the variable H_RNTI and remove any stored H-RNTI;
2>	reset the MAC-hs/ehs entity [15];
2>	release all HARQ resources;
2>	no long consider any radio link to be the HS-DSCH serving radio link.
1>	for 3.84 Mcps TDD or 7.68 Mcps TDD, if no downlink DPCH is assigned the UE shall clear the uplink DPCH configuration and initiate the Cell Update procedure according to subclause 8.3.1, cause "radio link failure".
NOTE 3:	If configured for HS-DSCH and not explicitly indicated as being cleared, the UE will have still stored the IEs "HARQ info", "Added or Reconfigured MAC-d flow", "Added or Reconfigured MAC-ehs reordering queue", "RB mapping Info", "Downlink HS-PDSCH information" and "Downlink secondary cell info FDD".
Whenever the variable HS_DSCH_RECEPTION is set to TRUE, the UE shall:
1>	set the variable HS_DSCH_RECEPTION_GENERAL to TRUE;
1>	perform HS-SCCH reception procedures according to the stored HS-SCCH configuration as stated in:
2>	subclause 8.6.6.33 for the IE "HS-SCCH Info".
2>	for 1.28 Mcps TDD, when performing reception on signalling radio bearer before RAB has been established, 
3>	if MAC-ehs is not configured,
4>	use the table of transport block size for the HS-DSCH physical layer category 1 as specified in [15], and consider the UE capability "Total number of soft channel bits in HS-DSCH" equal to that of the HS-DSCH physical layer category 1 as specified in [35].
3>	else,
4>	use the table of transport block size for the HS-DSCH physical layer category 9 as specified in [15], and consider the UE capability "Total number of soft channel bits in HS-DSCH" equal to that of the HS-DSCH physical layer category 9 as specified in [35].
NOTE 4:	For 1.28 Mcps TDD, when performing transmission on signalling radio bearer before RAB has been established, UTRAN should use the same rules with the UE as descibed above, when performing scheduling and signalling the control information on HS-SCCH, as it is not possible for Node B to be aware of the UE's HSDPA capability category during this period.
1>	perform HS-DSCH reception procedures according to the stored HS-PDSCH configuration as stated in:
2>	subclause 8.6.3.1b for the IE "H-RNTI";
2>	subclause 8.6.5.6b for the IE "HARQ info";
2>	subclause 8.6.6.34 for the IE "Measurement Feedback Info".
1>	use the relevant CQI reporting table as stated in subclause 8.5.44.
In CELL_DCH, whenever the variable HS_DSCH_RECEPTION is set to FALSE, the UE shall:
1>	not perform HS-SCCH reception procedures;
1>	not perform HS-DSCH reception procedures.
For FDD and CELL_DCH state, determine the value for the SECONDARY_CELL_HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.51.
8.5.26	Service prioritisation
If the UE detects an MBMS service reception inability as specified in subclause 8.5.30, the UE may:
1>	request upper layers to prioritise the services and to initiate release of non- prioritised services that may cause interruption in the reception of the prioritised services;
1>	if reception of the prioritised MBMS service is inhibited by one or more MBMS service(s) provided via a p-t-p radio bearer:
2>	request UTRAN to terminate these MBMS service(s) using the MBMS MODIFICATION REQUEST message as specified in subclause 8.7.6.
NOTE:	The termination of MBMS services is performed by RRC procedures, while clearing of non- MBMS services is performed by upper layers.
8.5.27	MBMS frequency selection
The UE shall perform the MBMS frequency layer selection procedure upon receiving the IE "MBMS Preferred frequency information", when specified explicitly e.g. as in subclause 8.6.9.2, or when the priority for an MBMS service as indicated by upper layers changes.
The UE shall:
1>	if there exist two or more preferred frequencies for services included in variable MBMS_ACTIVATED_SERVICES:
2>	request from upper layers the priorities of the different MBMS services included in variable MBMS_ACTIVATED_SERVICES for which a preferred frequency has been received.
1>	if the UE is in idle mode:
2>		if a preferred frequency layer applies for a service included in variable MBMS_ACTIVATED_SERVICES:
3>		select the preferred frequency indicated for the MBMS service(s) prioritised most by upper layers for which a preferred frequency exists as the preferred frequency.
1>	if the UE is in CELL_FACH, CELL_PCH or URA_PCH state; and
1>	if there exists one or more preferred frequencies for services included in variable MBMS_ACTIVATED_SERVICES and the variable MBMS_PL_SERVICE_RESTRICTION_INFO_DEDICATED is set to FALSE:
2>	if the IE "RAB information" in the variable ESTABLISHED_RABS is not empty:
3>	if the current frequency is the frequency corresponding with the preferred frequency indicated for the MBMS service(s) prioritised most by upper layers for which a preferred frequency exists:
4>	select the current frequency as the preferred frequency.
3>	else:
4>	if there exists one or more preferred frequencies for services included in variable MBMS_ACTIVATED_SERVICES for which the IE "MBMS PL Service Restriction Information" has not been received in the MBMS GENERAL INFORMATION message:
5>	select the preferred frequency indicated for the MBMS service(s) prioritised most by upper layers for which a preferred frequency exists for which the IE "MBMS PL Service Restriction Information" has not been received in the MBMS GENERAL INFORMATION message as the preferred frequency.
2>	else:
3>	select the preferred frequency indicated for the MBMS service(s) prioritised most by upper layers for which a preferred frequency exists as the preferred frequency.
1>	if the UE is in CELL_DCH:
2>	if there exists one or more preferred frequencies for services included in variable MBMS_ACTIVATED_SERVICES and the variable MBMS_PL_SERVICE_RESTRICTION_INFO_DEDICATED is set to FALSE:
3>	if the current frequency does not correspond to the preferred frequency indicated for the MBMS service(s) prioritised most by upper layers for which a preferred frequency exists:
4>	select as preferred frequency the preferred frequency indicated for the MBMS service(s) prioritised most by upper layers for which a preferred frequency exists for which the IE "MBMS PL Service Restriction Information" is not included in the MBMS GENERAL INFORMATION message;
4>	if a preferred frequency has been selected and the current frequency is different from the selected frequency:
5>	request UTRAN to be moved to the preferred frequency by means of the MBMS MODIFICATION REQUEST message as specified in subclause 8.7.6;
5>	if the variable MBMS_PREV_FREQUENCY_INFO is empty:
6>	upon receiving a request to move to the requested preferred frequency, store the frequency information of the frequency on which the UE was operating prior to the hard-handover to the preferred frequency in the variable MBMS_PREV_FREQUENCY_INFO.
1>	if a preferred frequency has been selected:
2>	if the UE is not in CELL_DCH state:
3>	apply the cell-reselection procedure as described in [4], using the received "MBMS Preferred frequency information" applicable to the selected frequency;
3>	if the UE re-selects to a cell on the indicated preferred frequency:
4>	if HCS is not used, and the IE "Qoffmbms" is not present for the MBMS preferred frequency:
5>	consider the cells on the MBMS preferred frequency having a Qoffmbms equal to "infinity".
4>	if HCS is used, and the IE "HCS_OFFmbms" is not present for the MBMS preferred frequency:
5>	consider the cells on the MBMS preferred frequency having the highest HCS priority level.
4>	if the UE is in CELL_FACH, CELL_PCH or URA_PCH:
5>	act according to subclause 8.3.1.2.
4>	if the selected frequency is different to the frequency on which the UE was previously operating; and
4>	if the variable MBMS_PREV_FREQUENCY_INFO is empty:
5>	store the frequency information of the frequency on which the UE was operating prior to cell-reselection to the preferred frequency in the variable MBMS_PREV_FREQUENCY_INFO.
4>	apply the MCCH acquisition procedure, as specified in subclause 8.7.2.
1>	else:
2>	if the UE is not in CELL_DCH state:
3>	stop applying any "MBMS Preferred frequency information".
3>	if the UE is not redirected to another frequency; and
3>	if the UE does not decide to receive an MBMS service; and
3>	if the variable MBMS_PREV_FREQUENCY_INFO is not empty:
4>	if any frequency in SIB11 or SIB12 has the same frequency stored in the variable MBMS_PREV_FREQUENCY_INFO:
5>	select a suitable UTRA cell in that frequency;
5>	if no suitable UTRA cell in that frequency is found:
6>	select a suitable UTRA cell in another frequency.
4>	if no frequency in SIB11 or SIB12 has the same frequency stored in the variable MBMS_PREV_FREQUENCY_INFO:
5>	select a frequency randomly among the inter-frequencies indicated in SIB11 or SIB12:
6>	select a suitable UTRA cell in the selected frequency;
6>	if no suitable UTRA cell in the selected frequency is found:
7>	select a suitable UTRA cell in another frequency.
4>	clear the variable MBMS_PREV_FREQUENCY_INFO.
NOTE:	The UE is only required to acquire the relevant SIB11 or SIB12, according to what is specified in subclauses 8.1.1.6.11 and 8.1.1.6.12.
8.5.28	Actions related to E_DCH_TRANSMISSION variable
The variable E_DCH_TRANSMISSION shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the variable E_RNTI includes either the Primary E-RNTI or the Secondary E-RNTI or both the Primary and the Secondary E-RNTI;
1>	For FDD:
2>	the UE has stored the following IEs:
-	IE "E-DCH Transmission Time Interval";
-	IE "HARQ info for E-DCH";
-	IE "E-DCH info", including the IE "E-DPCCH info" and the IE "E-DPDCH info";
-	one of the radio links in the active set is configured as the serving E-DCH radio link, and for this radio link the UTRAN has configured the IE "E-HICH configuration" and the IE "E-AGCH info".
1>	For TDD:
2>	for non-scheduled transmission, the UE has stored the following IEs:
-	IE "HARQ info for E-DCH";
-	IE "E-DCH information", including the IE "E-PUCH info";
-	IE "Non-scheduled transmission grant info".
2>	for scheduled transmission, the UE has stored the following IEs:
-	IE "HARQ info for E-DCH";
-	IE "E-DCH information", including the IE "E-RUCCH info" and the IE "E-PUCH info";
-	IE "E-HICH info";
-	IE "E-AGCH info".
1>	there is at least one logical channel mapped to E-DCH for which:
2>	the corresponding E-DCH MAC-d flow is configured, i.e. the IEs "E-DCH MAC-d flow power offset" and "E-DCH MAC-d flow maximum number of retransmissions", and the transmission grant type are configured.
If any of the above conditions is not met and the variable E_DCH_TRANSMISSION is set to TRUE, the UE in CELL_DCH state shall:
1>	set the variable E_DCH_TRANSMISSION to FALSE;
1>	stop any E-AGCH and E-HICH reception procedures;
1>	For FDD:
2>	stop any E-RGCH reception procedures.
1>	For FDD:
2>	stop any E-DPCCH and E-DPDCH transmission procedures.
1>	For TDD:
2>	stop any E-RUCCH and E-PUCH transmission procedures.
1>	clear the variable E_RNTI;
1>	act as if the IE "MAC-es/e reset indicator" was received and set to TRUE;
1>	release all E-DCH HARQ resources;
1>	no longer consider any radio link to be the serving E-DCH radio link.
Whenever the variable E_DCH_TRANSMISSION is set to TRUE, the UE shall:
1>	if MAC-i/is is configured:
2>	if MAC-hs is configured:
3>	the UE behaviour is not specified.
1>	For FDD:
2>	perform E-AGCH reception procedures according to the stored E-AGCH configuration as stated in:
3>	subclause 8.6.3.14 for the IE "New Primary E-RNTI" and the IE "New Secondary E-RNTI".
2>	perform E-HICH reception procedures for all radio links in the E-DCH active set;
2>	perform E-RGCH reception procedures for all radio links in the active set for which an E-RGCH configuration has been provided;
2>	perform E-DPCCH transmission procedures according to the stored E-DPCCH configuration as stated in:
3>	subclause 8.6.6.37 for the IE "E-DPCCH Info".
2>	perform E-DPDCH transmission procedures according to the stored E-DPDCH configuration as stated in:
3>	subclause 8.6.5.16 for the IE "E-DCH Transmission Time Interval";
3>	subclause 8.6.5.17 for the IE "HARQ info for E-DCH";
3>	subclause 8.6.6.37 for the IE "E-DPDCH Info".
2>	inclusion of MAC-d PDU's in a MAC-e or MAC-i PDU for logical channels belonging to a MAC-d flow for which the IE "Non-scheduled transmission grant info" is configured shall:
3>	obey the scheduling and size restrictions as specified for that MAC-d flow (see subclause  8.6.5.18).
2>	inclusion of MAC-d PDU's in a MAC-e or MAC-i PDU for logical channels belonging to a MAC-d flow for which the IE "Scheduled transmission grant info" is configured shall:
3>	be performed in accordance with the received scheduling grant on E-AGCH/E-RGCH (see [15]); and
3>	obey the scheduling restrictions as specified for scheduled transmissions (see subclause 8.6.6.37).
1>	For TDD:
2>		if scheduled transmission is configured, perform E-AGCH reception procedures according to the stored E-AGCH configuration as stated in:
3>	subclause 8.6.3.14 for the IE "New Primary E-RNTI".
2>	Perform E-HICH reception;
2>	for 3.84/7.68 Mcps TDD, perform E-RUCCH transmission  procedures according to the stored E-RUCCH configuration as stated in:
3>	subclause 8.6.6.37 for the IE "E-RUCCH Info".
2>	for 1.28 Mcps TDD, if scheduled transmission is configured, perform E-RUCCH transmission procedure according to the stored PRACH configuration (see [60]) and the stored E-RUCCH configuration as stated in:
3>	subclause 8.6.6.37 for the IE "E-RUCCH Info".
NOTE 1:	The PRACH configuration is signalled directly to the UE in "E-RUCCH Info" IE in case of E-DCH serving cell change.
2>	Perform E-PUCH transmission procedures according to the stored E-PUCH configuration as stated in:
3>	subclause 8.6.6.37 for the IE "E-PUCH Info".
2>	inclusion of MAC-d PDU's in a MAC-e or MAC-i PDU for logical channels belonging to a MAC-d flow for which the 	IE "Non-scheduled transmission grant info" is configured shall:
3>	obey the scheduling and size restrictions as specified for that MAC-d flow (see subclause 8.6.5.18).
2>	inclusion of MAC-d PDU's in a MAC-e or MAC-i PDU for logical channels belonging to a MAC-d flow for which the 	IE "Scheduled transmission grant info" is configured shall:
3>	be performed in accordance with the received scheduling grant on E-AGCH (see [15]); and
3>	obey the scheduling restrictions as specified for scheduled transmissions  (see subclause 8.6.6.37).
2>	obtain and format the appropriate information on E-UCCH (see [15]).
2>	for 1.28 Mcps TDD, when performing transmission on signalling radio bearer before RAB has been established,
3>	if MAC-i/is is not configured,
4>	use the tables of transport block size for the E-DCH physical layer category 1 as specified in [15].
3>	else,
4>	use the tables of transport block size for the E-DCH physical layer category 3 as specified in [15].
NOTE 2:	For 1.28 Mcps TDD, when performing transmission on signalling radio bearer before RAB has been established, UTRAN should use the same rules with the UE as described above, when performing configuration, scheduling and reading the control information on E-UCCH, as it is not possible for Node B to be aware of the UE's E-DCH capability category during this period.
1>	For FDD and CELL_DCH state, determine the value for the SECONDARY_CELL_E_DCH_TRANSMISSION and take the corresponding actions as described in subclause 8.5.58.
1>	For 1.28Mcps TDD and CELL_DCH state, determine the value for the MULTI_CARRIER_ E_DCH_TRANSMISSION and take the corresponding actions as described in subclause 8.5.62.
Whenever the variable E_DCH_TRANSMISSION is set to FALSE, the UE in CELL_DCH state shall:
1>	delete any stored E-AGCH, E-RGCH and E-HICH information for all radio links;
1>	not perform E-AGCH, E-HICH and/or E-RGCH reception procedures;
1>	not perform E-DPCCH, E-DPDCH, E-RUCCH and/or E-PUCH transmission procedures.
1>	For FDD, determine the value for the SECONDARY_CELL_E_DCH_TRANSMISSION and take the corresponding actions as described in subclause 8.5.58.
1>	For 1.28Mcps TDD, determine the value for the MULTI_CARRIER_ E_DCH_TRANSMISSION and take the corresponding actions as described in subclause 8.5.62.
8.5.29	MBMS modification period identity calculation
The UE shall calculate the identity of a Modification period as follows:
MP identity= (SFNMP div MPlen) mod 2
With	SFNMP being the SFN corresponding with the frame in which the concerned Modification Period starts
MPlen being the length of the Modification Period, that is indicated by the IE “Modification period coefficient” that is included in System Information Block type 5 and 5bis.
8.5.30	Detecting MBMS service reception inability
The UE may detect that it becomes incapable of receiving all services it is interested in at any time due to implementation specific constraints as well as upon state transitions, service / session start, service / session stop, service reconfiguration e.g. transfer mode change and preferred frequency layer changes or whenever there are changes concerning the subset of services that it has selected to receive.
When evaluating its MBMS service reception abilities, the UE shall:
1>	consider that MBMS services, for which a preferred frequency layer is specified, are available only on the concerned frequency;
1>	consider that MBMS services, for which no preferred frequency layer is specified are available on all frequencies;
1>	consider non- MBMS services to be available on all frequencies unless specified otherwise in the following;
1>	if the variable MBMS_PL_SERVICE_RESTRICTION_INFO_DEDICATED is set to TRUE:
2>	consider the established non-MBMS services not to be available on any MBMS preferred frequency.
1>	if  the IE "MBMS PL Service Restriction Information" is included in the MBMS GENERAL INFORMATION message for the MBMS preferred frequency the UE is considering to select to:
2>	consider non-MBMS services not to be available on the concerned MBMS preferred frequency.
If the UE is unable to receive the MBMS and the non-MBMS services it is interested in, the UE shall:
1>	detect an MBMS service reception inability.
8.5.31	Actions related to DEFERRED_MEASUREMENT_STATUS variable
If after state transition the UE remains in a state other than CELL_DCH state, the UE shall:
1>	if variable DEFERRED_MEASUREMENT_STATUS is set to TRUE:
2>	if System Information Block type 11 is referenced in the master information block or in the scheduling blocks:
3>	if the UE has not read and stored System Information Block type 11:
4>	read and store System Information Block type 11.
3>	if System Information Block type 11bis is referenced in the master information block or in the scheduling blocks:
4>	if the UE has not read and stored System Information Block type 11bis:
5>	read and store System Information Block type 11bis.
3>	if System Information Block type 11ter is referenced in the master information block or in the scheduling blocks:
4>	if the UE has not read and stored System Information Block type 11ter:
5>	read and store System Information Block type 11ter.
2>	if System Information Block type 12 is referenced in the master information block or in the scheduling blocks, or broadcast of System Information Block type 12 is indicated in System Information Block type 11:
3>	if the UE has not read and stored System Information Block type 12:
4>	read and store System Information Block type 12.
2>	if System Information Block type 18 is referenced in the master information block or in the scheduling blocks:
3>	if the UE has not read and stored System Information Block type 18:
4>	read and store System Information Block type 18.
2>	if System Information Block type 19 is referenced in the master information block or in the scheduling blocks:
3>	if the UE has not read and stored System Information Block type 19:
4>	read and store System Information Block type 19.
8.5.32	Actions related to MIMO_PARAMS variable
If the UE receives an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message:
1>	if the IE "MIMO parameters" is not included:
2>	clear the MIMO_PARAMS variable;
2>	trigger lower layers to stop operation in MIMO mode.
1>	otherwise:
2>	for FDD, if the IE "MIMO N_cqi_typeA/M_cqi ratio" is included:
3>	store the value of the IE "MIMO N_cqi_typeA/M_cqi ratio" in the MIMO_PARAMS variable.
2>	for FDD, if the IE "MIMO pilot configuration" is included:
3>	store the value of the IE "MIMO pilot configuration" in the MIMO_PARAMS variable.
2>	for 1.28 Mcps TDD, if the IE "MIMO SF Mode for HS-PDSCH dual stream" is included:
3>	store the value of the IE "MIMO SF Mode for HS-PDSCH dual stream" in the MIMO_PARAMS variable.
2>	if the IE "MIMO operation" is set to "start": 
3>	for FDD, if the IE "Precoding weight set restriction" is included:
4>	store the value of the IE "Precoding weight set restriction" in the MIMO_PARAMS variable. In addition, it shall be indicated to lower layers that precoding weight set restriction is configured.
3>	else:
4>	clear the value of the IE "Precoding weight set restriction" in the MIMO_PARAMS variable. In addition, it shall be indicated to lower layers that precoding weight set restriction is not configured.
2>	else if the IE "MIMO operation" is set to "continue":
3>	if the IE "Precoding weight set restriction" is included:
4>	if the IE "Precoding weight set restriction" is already stored in the variable MIMO_PARAMS before receiving this message:
5>	continue using "Precoding weight set restriction" for MIMO operation.
4>	else:
5>	UE behaviour is undefined.
3>	else:
4>	if the IE "Precoding weight set restriction" is already stored in the variable MIMO_PARAMS before receiving this message:
5>	continue using "Precoding weight set restriction" for MIMO operation.
4>	else:
5>	continue MIMO operation without using "Precoding weight set restriction".
NOTE:	This subclause applies to FDD and 1.28 Mcps TDD only.
8.5.33	Actions related to MIMO_STATUS variable
If the UE receives an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message, the UE shall:
1>	take actions related to the MIMO_PARAMS variable as specified in subclause 8.5.32;
1>	determine the value of the MIMO_STATUS variable.
The MIMO_STATUS variable shall be set to TRUE only when all the following conditions are met:
1>	The UE is in CELL_DCH state;
1>	the variable HS_DSCH_RECEPTION is set to TRUE;
1>	for FDD, if the UE does not support MIMO only with single stream restriction, or if UE that signalled an HS-DSCH physical layer category of 17 or 18 supports MIMO only with single stream restriction but 64QAM is not configured for downlink, the variable MIMO_PARAMS contains a value for the IE "MIMO N_cqi_typeA/M_cqi ratio"; and
1>	for FDD, the variable MIMO_PARAMS contains a value for the IE "MIMO pilot configuration".
1>	for 1.28 Mcps TDD, the variable MIMO_PARAMS contains a value for the IE "MIMO SF Mode for HS-PDSCH dual stream".
If any of the above conditions is not met and the MIMO_STATUS variable is set to TRUE, the UE shall:
1>	set the MIMO_STATUS variable to FALSE;
1>	clear the MIMO_PARAMS variable;
1>	trigger lower layers to stop operation in MIMO mode on the serving HS-DSCH cell.
If the MIMO_STATUS variable is set to FALSE:
1>	if prior to receiving an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message, the MIMO_STATUS variable was set to TRUE:
2>	if the IE "HARQ info" is not included in the received message:
3>	the UE behaviour is unspecified.
If the MIMO_STATUS variable is set to TRUE:
1>	if prior to receiving an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message, the MIMO_STATUS variable was set to FALSE:
2>	if the IE "HARQ info" is not included in the received message:
3>	the UE behaviour is unspecified.
NOTE:	This subclause applies to FDD and 1.28 Mcps TDD only.
8.5.34	Actions related to DTX_DRX_STATUS variable (FDD only)
If the UE receives RRC CONNECTION SETUP, ACTIVE SET UPDATE, CELL UPDATE CONFIRM, any reconfiguration message, or target cell HS-SCCH order:
1>	the UE shall determine the value for the DTX_DRX_STATUS variable. 
The variable DTX_DRX_STATUS shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	both variables HS_DSCH RECEPTION and E_DCH_TRANSMISSION are set to TRUE;
1>	if the variable DCH_ENHANCEMENTS_STATUS is set to FALSE:
2>	no DPDCH is present in uplink and F-DPCH is configured in downlink;
1>	the variable DTX_DRX_PARAMS is set;
1>	the IE "DTX-DRX timing information" is included in the received message or in the IE "Target cell preconfiguration information" stored in the variable TARGET_CELL_PRECONFIGURATION associated with the cell from which target cell HS-SCCH order is received.
If any of the above conditions is not met and the variable DTX_DRX_STATUS is set to TRUE, the UE shall:
1>	set the variable DTX_DRX_STATUS to FALSE;
1>	clear the variable DTX_DRX_PARAMS;
1>	stop DTX-DRX mode related activities.
NOTE:	If the uplink slot format is not changed by the received RRC message, the UE keeps using the same uplink slot format currently configured.
If the variable DTX_DRX_STATUS is set to TRUE and the serving HS-DSCH cell was changed as a result of the received message or HS-SCCH order from the target cell, the UE shall instruct the physical layer to consider that the HS-SCCH orders from the serving cell were never received.
If the variable DTX_DRX_STATUS is set to TRUE, the value of IE "DTX-DRX timing information" included in the message is not "Continue" and the serving HS-DSCH cell was not changed as a result of the received message, the UE shall instruct the physical layer to consider that the DTX, DRX related HS-SCCH orders were never received. 
If the variable DTX_DRX_STATUS is set to TRUE, the value of IE "DTX-DRX timing information" included in the message is "Continue" and the serving HS-DSCH cell was not changed as a result of the received message, the UE shall instruct the physical layer to consider that the DTX, DRX related HS-SCCH orders were received.
Whenever the variable DTX_DRX_STATUS is set to TRUE after receiving this message and the value of IE "DTX-DRX timing information" included in this message is not "Continue", the UE shall:
1>	if the variable DTX_DRX_STATUS was set to TRUE before receiving this message:
2>	re-configure the physical layer to perform discontinuous uplink DPCCH transmission and enable or disable discontinuous downlink reception operations according to the variable DTX_DRX_PARAMS at the CFN corresponding to the frame boundary that is offset by the value of the IE "Enabling Delay" from the frame boundary where uplink transmission starts with the new configuration;
2>	let the MAC layer continue any current restriction on E-DCH transmission and monitoring of absolute and relative grant channels from the frame boundary where the uplink transmission starts with the new configuration and for the duration of the IE "Enabling Delay".
1>	else:
2>	perform discontinuous uplink DPCCH transmission and enable discontinuous downlink reception operations by configuring the physical layer according to the variable  DTX_DRX_PARAMS at the CFN corresponding to the frame boundary that is offset by the value of the IE "Enabling Delay" from the frame boundary where the uplink transmission starts with the new configuration.
2>	configure the MAC layer to start restricting E-DCH transmissions and monitor absolute and relative grant channels at the CFN corresponding to the frame boundary that is offset by the value of IE "Enabling Delay" from the frame boundary where the uplink transmission starts with the new configuration taking into account the IEs "UE DTX DRX Offset", "MAC DTX Cycle", "MAC Inactivity Threshold" and "Inactivity Threshold for UE Grant Monitoring".
NOTE:	If a post-verification period is configured [29], then the uplink transmission starts when the physical channel establishment is initiated by the UE. If a post-verification period is configured and the post-verification procedure fails then uplink transmission (re)starts when the downlink physical channel is established and the enabling delay timer is (re)started. If a post-verification period is not configured, the uplink transmission starts when the downlink physical channel is established.
8.5.35	Actions related to HS_SCCH_LESS_STATUS variable (FDD only)
If the UE receives RRC CONNECTION SETUP, ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message;
1>	the UE shall determine the value for the HS_SCCH_LESS_STATUS variable.
The variable HS_SCCH_LESS_STATUS shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the variable HS_DSCH_RECEPTION is set to TRUE;
1>	no DPDCH is present in uplink and F-DPCH is configured in downlink;
1>	the UE is not configured in MIMO mode;
1>	the UE is not configured in MIMO mode with four transmit antennas;
1>	the variable HS_SCCH_LESS_PARAMS is set;
1>	the IE "HS-SCCH less information" is included in the received message.
If any of the above conditions is not met and the variable HS_SCCH_LESS_STATUS is set to TRUE the UE shall:
1>	set the variable HS_SCCH_LESS_STATUS to FALSE;
1>	clear the variable HS_SCCH_LESS_PARAMS;
1>	stop all HS-SCCH less related activities.
If variable HS_SCCH_LESS_STATUS is set to TRUE and the serving HS-DSCH cell was changed as a result of the received message or HS-SCCH order from the target cell, the UE shall instruct the physical layer to consider that the HS-SCCH orders from the serving cell were never received.
If the variable HS_SCCH_LESS_STATUS is set to TRUE, the value of IE "HS-SCCH less information" included in the message is not "Continue HS-SCCH less operation" and the serving HS-DSCH cell was not changed as a result of the received message, the UE shall instruct the physical layer to consider that the HS-SCCH less related HS-SCCH orders were never received. 
If the variable HS_SCCH_LESS_STATUS is set to TRUE, the value of IE "HS-SCCH less information" included in the message is "Continue HS-SCCH less operation" and the serving HS-DSCH cell was not changed as a result of the received message, the UE shall instruct the physical layer to consider that the HS-SCCH less related HS-SCCH orders were received.
Whenever the variable HS_SCCH_LESS_STATUS is set to TRUE, the UE shall:
1>	configure the physical and MAC layers to operate according to the HS_SCCH_LESS_PARAMS;
1>	configure the physical layer to use a virtual IR buffer size of at least 4536 bits for HS-SCCH less HS-DSCH transmissions.
8.5.36	Actions related to HS_DSCH_RECEPTION_CELL_FACH_STATE variable (FDD and 1.28 Mcps TDD only)
The variable HS_DSCH_RECEPTION_CELL_FACH_STATE shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_FACH;
1>	the UE supports HS-DSCH reception in CELL_FACH state;
1>	the variable H_RNTI is set;
1>	the variable C_RNTI is set;
1>	the UE has stored the IE "Added or reconfigured MAC-ehs reordering queue";
1>	System Information Block type 5 or System Information Block type 5bis includes IE "HS-DSCH common system information";
1>	for 1.28 Mcps TDD, System Information Block type 5 includes IE "Common E-DCH system info".
If any of the above conditions is not met and the variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE, the UE shall:
1>	set the variable HS_DSCH_RECEPTION_CELL_FACH_STATE to FALSE;
1>	if the UE is in CELL_FACH and variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to FALSE:
2>	set the variable HS_DSCH_RECEPTION_GENERAL to FALSE;
2>	stop any HS-SCCH reception procedures;
2>	stop any HS-DSCH reception procedures;
2>	clear the variable H_RNTI and remove any stored H-RNTI;
2>	reset the MAC-ehs entity [15];
2>	release all HARQ resources;
2>	clear any stored IEs "HARQ info";
Whenever the variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE, the UE shall:
1>	set the variable HS_DSCH_RECEPTION_GENERAL to TRUE;
1>	use the IE "HS-DSCH common system information" in System Information Block type 5 or System Information Block type 5bis;
1>	for FDD, receive the HS-SCCH(s) according to the IE "HS-SCCH channelisation code" on the serving cell applying the scrambling code as received in the IE "DL Scrambling code" as received in IE "HS-DSCH common system information";
1>	for 1.28 Mcps TDD, receive the HS-SCCH(s) according to the stored HS-SCCH configuration, applying the HS-PDSCH midamble code according to the stored HS-PDSCH midamble configuration;
1>	for FDD:
2>	determine the "Total number of soft channel bits" (defined in Table 5.1a of [35]) according to subclause 8.1.6.2 and use it in the physical layer;
2>	use the octet aligned HS-DSCH transport block table [15] in the MAC-ehs entity.
1>	perform HS-DSCH reception procedures for DCCH or DTCH:
2>	if the UE has a stored IE "HARQ info":
3>	act on subclause 8.6.5.6b for the stored IE "HARQ info".
2>	else:
3>	act on subclause 8.6.5.20 for the IE "HARQ System info" as received in IE "HS-DSCH common system information".
2>	and use the value of the variable H_RNTI as UE identity in the HS-SCCH reception procedure in the physical layer;
2>	configure the MAC-ehs reordering queues according to IE "Added or reconfigured MAC-ehs reordering queue" as defined in subclauses 8.6.5.23.
1>	and for FDD, for BCCH reception perform HS-DSCH reception procedures by listening to the first indexed HS-SCCH code listed in the IE "HS-SCCH channelisation code" with "BCCH specific H-RNTI" as received in IE "HS-DSCH common system information".
1>	and for 1.28 Mcps TDD, for BCCH reception perform HS-DSCH reception procedures by listening to the first indexed HS-SCCH according to the stored HS-SCCH configuration with "BCCH specific H-RNTI" as received in IE "HS-DSCH common system information".
NOTE :	For 1.28 Mcps TDD, when performing HS-DSCH reception in CELL_FACH state, the UE shall use the table of transport block size for the HS-DSCH physical layer category 9 as specified in [15].
Whenever the variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to FALSE, the UE shall:
1>	if the UE is in CELL_FACH and variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to FALSE:
2>	not perform HS-SCCH  reception procedures;
2>	not perform HS-DSCH reception procedures.
8.5.37	Actions related to HS_DSCH_RECEPTION_OF_CCCH_ENABLED variable (FDD and 1.28 Mcps TDD only)
When UE does not support HS-DSCH reception in CELL_FACH state or when the IE "HS-DSCH common system information" is not included in System Information Block type 5 or System Information Block type 5bis, the UE shall:
1>	set the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED to FALSE;
1>	set the variable HS_DSCH_RECEPTION_GENERAL to FALSE.
When the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE, the UE shall:
1>	set the variable HS_DSCH_RECEPTION_GENERAL to TRUE;
1>	use the IE "HS-DSCH common system information" in System Information Block type 5 or System Information Block type 5bis;
1>	for FDD:
2>	configure the physical layer to use the "Total number of soft channel bits" (defined in Table 5.1a of [35]) for category 12 for HS-DSCH reception;
2>	use the octet aligned HS-DSCH transport block table [15] in the MAC-ehs entity;
1>	configure the HARQ according to IE "HARQ System info" as defined in subclause 8.6.5.20;
1>	configure the common MAC-ehs reordering queues according to IE "Common MAC-ehs reordering queues" as defined in subclauses 8.6.5.22; and then
1>	receive the CCCH according to IE "CCCH mapping info" as defined in subclause 8.6.5.21;
1>	if the UE is RRC Connected mode:
2>	select a common H-RNTI as specified in 8.5.38;
2>	if the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE:
3>	receive the SRB1 according to IE "SRB1 mapping info" as defined in subclause 8.6.5.19.
1>	else:
2>	select a common H-RNTI as specified in [4].
1>	and for FDD, start to receive the HS-SCCH(s) with selected H-RNTI according to the IE "HS-SCCH channelisation code" on the selected cell applying the scrambling code as received in the IE "DL Scrambling code";
1>	and for 1.28 Mcps TDD, start to receive the HS-SCCH(s) with selected H-RNTI according to the IE "HS-SCCH system info" on primary frequency in the selected cell applying the midamble code as received in the IE "HS-PDSCH Midamble Configuration";
1>	configure the MAC flow for BCCH reception as specified in [15];
1>	and for FDD, start to receive the first indexed HS-SCCH code listed in the IE "HS-SCCH channelisation code" with "BCCH specific H-RNTI" as received in IE "HS-DSCH common system information".
1>	and for 1.28 Mcps TDD, for BCCH reception perform HS-DSCH reception procedures by listening to the first indexed HS-SCCH according to the IE "HS-SCCH system info" with "BCCH specific H-RNTI" as received in IE "HS-DSCH common system information".
NOTE :	For 1.28 Mcps TDD, when performing HS-DSCH reception in CELL_FACH state, the UE shall use the table of transport block size for the HS-DSCH physical layer category 9 as specified in [15].
8.5.37a	Actions related to HS_DSCH_RECEPTION_GENERAL
The UE shall:
1>	For CELL_FACH state, if the UE supports HS-DSCH reception in CELL_FACH state and the IE "HS-DSCH common system information" is not included in the System Information Block Type 5/5bis; or,  
1>	For CELL_PCH and URA PCH state, if the UE supports HS-DSCH reception in CELL_PCH and URA_PCH state and the IE "HS-DSCH paging system information" is not included in System Information Block type 5 or System Information Block type 5bis:
2>	if the variable HS_DSCH_RECEPTION_GENERAL is set to TRUE:
3>	set the variable HS_DSCH_RECEPTION_GENERAL to FALSE;
3>	stop any HS-SCCH reception procedures;
3>	stop any HS-DSCH reception procedures;
3>	if the variable HSPA_RNTI_STORED_PCH is set to FALSE:
4>	clear the variable H_RNTI and remove any stored H-RNTI.
3>	reset the MAC-ehs entity [15];
3>	release all HARQ resources;
8.5.38	Common H-RNTI selection (FDD and 1.28 Mcps TDD only)
When the IE "Common H-RNTI Information" is included in System Information Block type 5 or System Information Block type 5bis, the UE shall select the Common H-RNTI according to the following rules:
1>	compile a list of candidate Common H-RNTI IE(s) "Common H-RNTI" in the order of appearance in System Information Block type 5 or System Information Block type 5bis;
1>	select a Common H-RNTI from the list of candidate Common H-RNTIs based on U-RNTI as follows:
	"Index of selected Common H-RNTI" = U-RNTI mod K,
	where K is equal to the number of candidate Common H-RNTIs.
The UE shall set the CFN in relation to the SFN of the current cell according to subclause 8.5.15.
8.5.39	PICH selection for HSDPA based paging (FDD and 1.28 Mcps TDD only)
For FDD, when the IE "HS-DSCH paging system information" is included in System Information Block type 5 or System Information Block type 5bis and the UE is in UTRAN in CELL_PCH or URA_PCH state, the UE shall select the PICH according to the following rules:
1>	compile a list of candidate PICH for HSDPA from IE(s) "HSDPA associated PICH info" in the order of appearance in System Information Block type 5 or System Information Block type 5bis;
1>	select a PICH from the list of candidate PICHs based on U-RNTI as follows:
	"Index of selected HSDPA associated PICH" = U_RNTI value mod K,
	where K is equal to the number of candidate PICHs for HSDPA.
For 1.28 Mcps TDD, when the IE "PICH for HS-DSCH list" is included in the IE "HS-DSCH paging system information" in System Information Block type 5 and the UE is in CELL_PCH or URA_PCH state, and the variable HS_DSCH_RECEPTION_GENERAL is set to TRUE, the UE shall select the PICH according to the following rules:
1>	compile a list of candidate PICH for HSDPA from IE(s) "HSDPA associated PICH info" in the order of appearance in System Information Block type 5;
1>	select a PICH from the list of candidate PICHs based on U-RNTI as follows:
	"Index of selected HSDPA associated PICH" = U_RNTI value mod K,
where K is equal to the number of candidate PICHs for HSDPA.
8.5.40	HS_DSCH Reception in CELL_PCH and URA_PCH (FDD only)
When the IE "HS-DSCH paging system information" is included in System Information Block type 5 or System Information Block type 5bis and the UE supports HS-DSCH reception in CELL_PCH and URA_PCH state and the UE is in CELL_PCH or URA_PCH state, the UE shall:
1>	set the variable HS_DSCH_RECEPTION_GENERAL to TRUE;
1>	use the octet aligned HS-DSCH transport block table [15] in the MAC-ehs entity;
1>	if variable H_RNTI and variable C_RNTI are set and UE is in CELL_PCH state:
2>	determine the "Total number of soft channel bits" (defined in Table 5.1a of [35]) according to subclause 8.1.6.2 and use it in the physical layer;
2>	for DCCH or DTCH reception:
3>	use the value of the variable H_RNTI as UE identity in the HS-SCCH reception procedure in the physical layer.
2>	for BCCH reception:
3>	perform HS-DSCH reception procedures by listening to the first indexed HS-SCCH code listed in the IE "HS-SCCH channelisation code" with "BCCH specific H-RNTI" as received in IE "HS-DSCH common system information" from System Information Block type 5 or System Information Block type 5bis.
2>	if the UE detects the value of the variable H_RNTI in the HS-SCCH reception procedure; and
2>	if the value of the variable READY_FOR_COMMON_EDCH has not been changed due to a system information modification:
3>	move to CELL_FACH and initiate the measurement report procedure as specified in subclause 8.4.2;
3>	start to receive HS-DSCH according to the procedure in subclause 8.5.36;
3>	stop timer T319 if it is running;
3>	restart the timer T305 if it is set to any value other than "infinity".
2>	if the UE has uplink RLC data PDU or uplink RLC control PDU on RB1 or upwards to transmit; and
2>	if the value of the variable READY_FOR_COMMON_EDCH has not been changed due to a system information modification:
3>	move to CELL_FACH and initiate the measurement report procedure as specified in subclause 8.4.2;
3>	start to receive HS-DSCH according to the procedure in subclause 8.5.36;
3>	stop timer T319 if it is running;
3>	restart the timer T305 if it is set to any value other than "infinity".
1>	else:
2>	if variable H_RNTI or variable C_RNTI are set, or if the UE is in URA_PCH state and variable H_RNTI or variable C_RNTI or E-RNTI is not set:
3>	clear the variable H_RNTI;
3>	clear the variable C_RNTI;
3>	clear any stored IE "HARQ Info";
3>	reset the MAC-ehs entity [15].
2>	perform the HS-DSCH reception procedure according to IE "HS-DSCH paging system information" as received in System Information Block type 5 or System Information Block type 5bis, receive the HS-PDSCH applying:
3>	a scrambling code as received in the IE "DL Scrambling code";
3>	a channelisation code selected according to 8.5.41 in "Number of PCCH transmissions" consecutive TTIs;
3>	the Transport block sizes indexed in the IE "Transport Block Size List" for demultiplexing of upper layer PDUs from transport blocks delivered from the physical layer on HS-DSCH, as described in [29]; and
3>	configure the physical layer to use the "Total number of soft channel bits" (defined in Table 5.1a of [35]) for category 12 for HS-DSCH reception.
8.5.40a	HS_DSCH Reception in CELL_PCH and URA_PCH (1.28 Mcps TDD only)
When the IE "HS-DSCH paging system information" is included in System Information Block type 5 and the UE is in CELL_PCH or URA_PCH state, the UE shall:
1>	if variable H_RNTI and variable C_RNTI are set:
2>	if the UE is in CELL_PCH state:
3>	set the variable HS_DSCH_RECEPTION_GENERAL to TRUE;
3>	use the value of the variable H_RNTI as UE identity in the HS-SCCH reception procedure in the physical layer for DCCH or DTCH reception; and
3>	for BCCH reception perform HS-DSCH reception procedures by listening to the first indexed HS-SCCH code listed in the IE "HS-SCCH channelisation code" for FDD or first instance in the IE "HS-SCCH Set Configuration" for 1.28 Mcps TDD with "BCCH specific H-RNTI" as received in IE "HS-DSCH common system information" from System Information Block type 5 or System Information Block type 5bis;
3>	if the UE detects the value of the variable H_RNTI in the HS-SCCH reception procedure:
4>	initiate the enhanced uplink synchronization procedure;
4>	move to CELL_FACH;
4>	stop timer T319 if it is running.
3>	if the UE has uplink RLC data PDU or uplink RLC control PDU on RB1 or upwards to transmit:
4>	move to CELL_FACH state;
4>	stop timer T319 if it is running.
2>	if the UE is in URA_PCH state:
3>	clear the variable H_RNTI;
3>	clear the variable C_RNTI;
3>	clear any stored IE "HARQ Info";
3>	reset the MAC-ehs entity [15];
3>	if the IE "PICH info" isn’t included in IE "Secondary CCPCH system information" in System Information Block type 5 or System Information Block type 6:
4>	set the variable HS_DSCH_RECEPTION_GENERAL to TRUE;
4>	perform the HS-DSCH reception procedure according to IE "HS-DSCH paging system information" as received in System Information Block type 5:
5>	receive the HS-PDSCH applying the configuration according to 8.5.41 in "Paging Sub-Channel Size" * 2 consecutive TTIs and use the Transport block sizes indexed in the IE "Transport Block Size List" for demultiplexing of upper layer PDUs from transport blocks delivered from the physical layer on HS-DSCH, as described in [33].
1>	else:
2>	if variable H_RNTI or variable C_RNTI are set:
3>	clear the variable H_RNTI;
3>	clear the variable C_RNTI;
3>	clear any stored IE "HARQ Info";
3>	reset the MAC-ehs entity [15].
2>	if the IE "PICH info" isn’t included in IE "Secondary CCPCH system information" in System Information Block type 5 or System Information Block type 6:
3>	set the variable HS_DSCH_RECEPTION_GENERAL to TRUE;
3>	perform the HS-DSCH reception procedure according to IE "HS-DSCH paging system information" as received in System Information Block type 5, receive the HS-PDSCH applying:
4>	HS-PDSCH configuration selected according to 8.5.41 in "Paging Sub-Channel Size" * 2 consecutive TTIs;
4>	the Transport block sizes indexed in the IE "Transport Block Size List" for demultiplexing of upper layer PDUs from transport blocks delivered from the physical layer on HS-DSCH, as described in [33].
NOTE :	When performing HS-DSCH reception in CELL_PCH and URA_PCH state, the UE shall use the table of transport block size for the HS-DSCH physical layer category 9 as specified in [15].
8.5.41	HS-PDSCH channelisation codes selection for paging reception (FDD and 1.28 Mcps TDD only)
For FDD, when the IE "HS-DSCH paging system information" is included in System Information Block type 5 or System Information Block type 5bis and the UE is in UTRAN in CELL_PCH state with variable H_RNTI not set or in URA_PCH state, the UE shall select the channelisation code for HS-PDSCH reception according to the following rules:
1>	compile a list of candidate HS-PDSCH channelisation codes from the IE(s) "HS-PDSCH Channelisation Code" in the order of appearance in System Information Block type 5 or System Information Block type 5bis;
1>	select a HS-PDSCH channelisation codes from the list of candidate HS-PDSCH channelisation codes based on U-RNTI as follows:
	"Index of selected HS-PDSCH channelisation codes" = U_RNTI value mod K,
	where K is equal to the number of candidate HS-PDSCH channelisation codes.
For 1.28 Mcps TDD, when the IE "Paging associated HS-PDSCH info" is included in the IE "HS-DSCH paging system information" in System Information Block type 5 and the UE is in CELL_PCH or URA_PCH state, and the variable HS_DSCH_RECEPTION_GENERAL is set to TRUE, the UE shall select the HS-PDSCH according to the following rules:
1>	compile a list of candidate HS-PDSCH configuration from IE(s) "Paging associated HS-PDSCH info" in the order of appearance in System Information Block type 5;
1>	select an HS-PDSCH configuration from the list of candidate HS-PDSCHs based on U-RNTI as follows:
"Index of selected HS-PDSCH" = U_RNTI value mod K,
where K is equal to the number of candidate HS-PDSCH configuration.
8.5.42	Autonomous UTRAN DRX Cycle length coefficient change
If timer T319 expires:
1>	set k to the value of the stored IE "DRX cycle length coefficient";
1>	store the result of MAX(2k,PBP), where PBP is the Paging Block Periodicity, as the DRX cycle length; and
1>	determine its connected mode paging occasions and PICH monitoring occasions in the same way as for idle mode, according to [4].
NOTE:	The DRX cycle length to use in connected mode is defined in [4].
8.5.43	Reception of MBMS from a cell operating in MBSFN mode
A cell provides MBMS service in MBSFN mode if it is indicated so in system information, see subclause 8.1.1.6.3. A UE that supports MBSFN operation may receive MBMS services via a cell operating in MBSFN mode. For FDD, 3.84 Mcps TDD IMB and 3.84/7.68 Mcps TDD in order to receive an MBMS service via a MBSFN cluster the UE shall select the MBSFN cluster as specified in [4] in addition to selecting a cell for normal camping as specified in [4]. For 1.28 Mcps TDD in order to receive an MBMS service via an MBSFN cluster the UE shall at the first step camp on a unicast cell and get the frequency and "cell parameter ID" from the system information, and then get synchronized to the MBSFN cluster operating with that frequency and "cell parameter ID". For 3.84/7.68 Mcps  TDD a cell shall be considered to be operating in  MBSFN mode when individual scrambling codes are assigned to all  timeslots (via the IE "TDD MBSFN Information").
For 3.84 Mcps TDD IMB, MBMS reception is provided on a 3.84 Mcps TDD frequency [22]. The S-CCPCH frame type 2 format shall be used for the S-CCPCHs carrying MTCH. Unless specified otherwise, the RRC protocol is operated according to the FDD requirements applicable for MBSFN.
8.5.44	HS-DSCH CQI reporting tables
If the variable HS_DSCH_RECEPTION is set to "TRUE", the UE shall:
1>	if the UE has been configured with at least one MAC-ehs reordering queue:
2>	use the relevant CQI tables, as defined in [29], for the HS-DSCH category extension stored in the variable UE_CAPABILITY_TRANSFERRED. For 1.28 Mcps TDD, use the table of transport block size, as defined in [15], for the HS-DSCH category indicated by the IE "HS-DSCH physical layer category extension" stored in the variable UE_CAPABILITY_TRANSFERRED.
1>	otherwise:
2>	use the relevant CQI tables, as defined in [29], for the HS-DSCH category indicated by the IE "HS-DSCH physical layer category" stored in the variable UE_CAPABILITY_TRANSFERRED. For 1.28 Mcps TDD, use the table of transport block size, as defined in [15], for the HS-DSCH category indicated by the IE "HS-DSCH physical layer category" stored in the variable UE_CAPABILITY_TRANSFERRED.
8.5.45	Enhanced Uplink in CELL_FACH state and Idle mode (FDD only)
For this version of the specification, when a UE selects a cell, the uplink frequency to be used for the PRACH preamble (physical signal) and DPCCH/E-DPCCH/E-DPDCH transmission shall have a default duplex frequency spacing offset from the downlink frequency that the cell was selected on. The default duplex frequency separation to be used by the UE is specified in [21] for each frequency band.
If variable READY_FOR_COMMON_EDCH is set to TRUE the UE shall:
1>	if the UE supports concurrent deployment and System Information Block type 22 includes the IE’s "Concurrent deployment of 2ms and 10ms TTI" and "PRACH preamble control parameters extension list Type 2 (for Enhanced Uplink)"; or
1>	if the UE supports concurrent deployment and TTI alignment and Per HARQ process and System Information Block type 22 includes the IE’s "Concurrent deployment of 2ms and 10ms TTI", "PRACH preamble control parameters extension list Type 3 (for Enhanced Uplink)", and either of the IE’s "Coffset" or "Scheduled Transmission configuration":
2>	configure the lower layers for concurrent deployment of 2ms and 10ms TTI in a cell;
2>	perform common E-DCH TTI selection as described in subclause 8.5.72;
2>	configure and use the MAC and the physical layer for the PRACH preamble transmission for both 2ms and 10ms common E-DCH TTI as described in subclause 8.5.73.
1>	else if the IE "PRACH preamble control parameters extension list Type 1 (for Enhanced Uplink)" is included in System Information Block 22:
2>	if the UE supports NodeB triggered HS-DPCCH transmission and System Information Block type 22 includes IE "NodeB triggered HS-DPCCH transmission"; or
2>	if the UE supports HS-DSCH DRX operation with second DRX cycle and System Information Block type 22 includes IE "HS-DSCH DRX in CELL_FACH with second DRX cycle Information "; or
2>	if the UE supports Fallback to R99 PRACH and System Information Block type 22 includes IE "Fallback R99 PRACH info":
3>	configure and use the MAC and the physical layer for the PRACH preamble transmission as described in subclause 8.5.74.
2>	else:
3>	configure and use the MAC and the physical layer for the PRACH preamble transmission according to the parameters included in the selected "PRACH preamble control parameters (for Enhanced Uplink)" IE according to [15].
1>	else:
2>	configure and use the MAC and the physical layer for the PRACH preamble transmission according to the parameters included in the selected "PRACH preamble control parameters (for Enhanced Uplink)" IE according [15].
1>	compile a list of candidate common E-DCH resource configuration in the order of appearance as contained in IE "Common E-DCH Resource Configuration information list" and, if present, in IE "Common E-DCH Resource Configuration Information List Extension".
If variable READY_FOR_COMMON_EDCH is set to TRUE, then after receiving the "E-DCH resource index" by MAC with the CMAC-STATUS primitive, the UE shall:
1>	determine the value for the FALLBACK_R99_PRACH_ENABLED variable and take the corresponding actions as described in subclause 8.5.76.
1>	if variable FALLBACK_R99_PRACH_ENABLED is set to FALSE:
2>	the UE selects the Common E-DCH Resource Configuration from the list of candidate common E-DCH resource configuration as follows:
"Index of the selected Common E-DCH resource configuration" = "E-DCH resource index". 
2>	After selection of a common E-DCH resource configuration, the UE shall configure MAC and the physical layer for E-DCH and HSDPA transmission according to the following:
3>	configure Uplink DPCH in accordance with the uplink DPCCH slot format 1 [26], the IE "Uplink DPCH code info" and IE "Uplink DPCH power control info";
3>	if IE "ACK/NACK support on HS-DPCCH" is set to TRUE:
4>	if any of the IE "ACK", "NACK", or "Ack-Nack repetition factor" is not included in the IE "Uplink DPCH power control info":
5>	the UE behaviour is not specified.
4>	else:
5>	configure the HS-DPCCH in accordance with HS-DPCCH slot format [26], the HS-DPCCH code [28] and IE "Uplink DPCH power control info".
3>	for NodeB triggered HS-DPCCH transmission:
4>	if any of the IE "ACK", "NACK", or "Ack-Nack repetition factor" is not included in the IE "Uplink DPCH power control info", or if the IE "Measurement Feedback Info" is not included:
5>	the UE behaviour is not specified.
4>	else:
5>	configure the HS-DPCCH in accordance with HS-DPCCH slot format [26], the HS-DPCCH code [28], the IE "Uplink DPCH power control info" and the IE "Measurement Feedback Info".
3>	configure the common E-DCH MAC-d flows as described in subclause 8.6.5.24;
3>	configure the UL E-DPCCH in accordance with the IE "E-DPCCH info" configuration;
3>	if the UE supports concurrent deployment and System Information Block type 22 includes the IE’s "Concurrent deployment of 2ms and 10ms TTI" and "PRACH preamble control parameters extension list Type 2 (for Enhanced Uplink)"; or
3>	if the UE supports concurrent deployment and TTI alignment and Per HARQ process and System Information Block type 22 includes the IE’s "Concurrent deployment of 2ms and 10ms TTI", "PRACH preamble control parameters extension list Type 3 (for Enhanced Uplink)", and either of the IE’s "Coffset" or "Scheduled Transmission configuration":
4>	if the last selected common E-DCH TTI value in subclause 8.5.72 is 10ms TTI: 
5>	apply a TTI of 10ms on the E-DPDCH.
4>	else: 
5>	if the "Index of the selected Common E-DCH resource configuration" is less than "Concurrent TTI partition index":
6>	apply a TTI of 10ms on the E-DPDCH.
5>	else:
6>	apply a TTI of 2ms on the E-DPDCH.
6>	if the UE supports TTI alignment and Per HARQ process and System Information Block type 22 includes the IE "PRACH preamble control parameters extension list Type 3 (for Enhanced Uplink)", and either of the IE’s "Coffset" or "Scheduled Transmission configuration":
7>	if System Information Block type 22 includes the IE "Coffset":
8>	configure the lower layers with the IE "Coffset";
7>	if System Information Block type 22 includes the IE "Scheduled Transmission configuration":
8>	enable "Per HARQ process" scope in the MAC.
8>	configure the MAC with a list of HARQ processes on which grants are allowed using information contained in the IE "2ms HARQ process allocation".
3>	else:
4>	apply the TTI as signalled in the IE "E-DCH Transmission Time Interval" on the E-DPDCH;
3>	use a redundancy version for each HARQ transmission as configured by the IE "HARQ RV Configuration";
3>	use the same scrambling code for F-DPCH, E-RGCH, E-HICH and E-AGCH reception as configured for the Primary CPICH;
3>	use a channelization code for F-DPCH reception as configured by IE "F-DPCH Code number";
3>	configure F-DPCH with the F-DPCH slot format as specified in [26];
3>	apply the DPC_Mode=0 for F-DPCH according to [29];
3>	configure the MAC with the stored IE "E-DPDCH info" configuration;
3>	configure the E-HICH in accordance with the IE "E-HICH info" configuration;
3>	configure the E-AGCH in accordance with the IE "E-AGCH info" configuration;
3>	configure the E-RGCH in accordance with the IE "E-RGCH info" configuration if an E-RGCH configuration has been provided with the system information;
3>	configure the radio link as the serving E-DCH radio link;
3>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46.
3>	if variable READY_FOR_COMMON_ERGCH is set to TRUE:
4>	configure the E-RGCH for radio links other than the serving E-DCH radio link in accordance with the configuration in the stored IE "Common E-RGCH info FDD".
NOTE:	If according to the above procedure, the TTI applied on E-DPDCH is different from the TTI signalled in the IE "E-DCH Transmission Time Interval", then the IE’s "Uplink DPCH power control info" and "Measurement Feedback Info" in fact refer the IE’s "Uplink DPCH power control info for Concurrent TTI" and "Measurement Feedback Info for Concurrent TTI" respectively if present in the IE "Common E-DCH system info parameters for Concurrent TTI" of System Information Block type 22.
8.5.45a	Enhanced Uplink in CELL_FACH state and Idle mode (1.28 Mcps TDD only)
If variable READY_FOR_COMMON_EDCH is set to TRUE, the RRC in the UE shall configure MAC and the physical layer for E-DCH and HS-DSCH transmission, and the UE shall:
1>	configure the common E-DCH MAC-d flows as described in subclause 8.6.5.24;
1>	use a redundancy version for each HARQ transmission as configured by the IE "HARQ info for E-DCH";
1>	configure the PHY with the stored IE "E-PUCH info" configuration and the information contained in IE "E-RUCCH info";
1>	configure the E-HICH in accordance with the stored IE "E-HICH info" configuration;
1>	configure the E-AGCH in accordance with the stored IE "E-AGCH info" configuration;
1>	configure the radio link as the serving E-DCH radio link;
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46.
NOTE:	For 1.28 Mcps TDD, when performing E-DCH transmission in CELL_FACH state and Idle mode, the UE shall use the tables of transport block size for the E-DCH physical layer category 3 as specified in [15].
8.5.46	Actions related to COMMON_E_DCH_TRANSMISSION variable (FDD and 1.28 Mcps TDD only)
The variable COMMON_E_DCH_TRANSMISSION shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_FACH state or Idle mode;
1>	one radio link is configured as the serving E-DCH radio link, and for this radio link the UTRAN has configured the IE "E-HICH info" and the IE "E-AGCH info", and for 1.28Mcps TDD the IE "E-RUCCH Info" and "E-PUCH Info";
1>	all logical channels are mapped to E-DCH, and for each of which there is: 
2>	one E-DCH MAC-d flow is configured, i.e. the IEs "E-DCH MAC-d flow power offset", "E-DCH MAC-d flow maximum number of retransmissions", and for 1.28 Mcps TDD, the IEs "E-DCH MAC-d flow retransmission timer".
If any of the above conditions is not met and the variable COMMON_E_DCH_TRANSMISSION is set to TRUE, the UE shall:
1>	set the variable COMMON_E_DCH_TRANSMISSION to FALSE;
1>	if not in CELL_DCH state:
2>	stop any E-AGCH, E-RGCH (FDD only) and E-HICH reception procedures;
2>	for FDD, stop any E-DPCCH and E-DPDCH transmission procedures;
2>	for 1.28 Mcps TDD, stop any E-RUCCH and E-PUCH tranmission procedure;
2>	act as if the IE "MAC-es/e reset indicator" was received and set to TRUE;
2>	release all E-DCH HARQ resources;
2>	no longer consider any radio link to be the serving E-DCH radio link.
For FDD, whenever the variable COMMON_E_DCH_TRANSMISSION is set to TRUE, the UE shall:
1>	perform uplink DPCCH transmission; 
1>	if a CCCH message is submitted for transmission on the uplink:
2>	no E-AGCH and E-RGCH reception procedure is performed in the physical layer.
1>	if a DCCH and/or DTCH message is submitted for transmission on the uplink; or
1>	for NodeB triggered HS-DPCCH transmission:
2>	use the value stored in the variable E_RNTI as UE identity in the E-AGCH reception procedure in the physical layer; 
2>	perform E-RGCH reception procedure for the serving radio link if an E-RGCH configuration has been provided with the common E-DCH resource.
2>	if variable READY_FOR_COMMON_ERGCH is set to TRUE: 
3>	determine up to three common E-DCH RL(s) using the procedure specified in subclause 14.1.7 and perform E-RGCH reception on those radio links according to the performance requirements as specified in [19].
1>	perform E-HICH reception procedures for the serving E-DCH radio link;
1>	perform E-DPCCH transmission procedures for the serving E-DCH radio link;
1>	perform E-DPDCH transmission procedures for the serving E-DCH radio link;
1>	perform the inclusion of MAC-d PDUs or MAC-c PDUs in a MAC-i PDU for logical channels belonging to the MAC-d or MAC-c flows in accordance with the serving grant (see [15]); 
1>	if the transmission is a result of receiving an HS-SCCH order for NodeB triggered HS-DPCCH transmission:
2>	at the allowed start time of the E-DCH transmission, provide ACK/NACK feedback in accordance with [29] in the physical layer on the serving HS-DSCH radio link, using the information in the IE "Uplink DPCH power control info";
2>	at the allowed start time of the E-DCH transmission, use the information for the channel quality indication (CQI) procedure in the physical layer on the serving HS-DSCH radio link, to provide feedback using the information in the IE "Measurement Feedback Info".
1>	else:
2>	if transmitting DCCH or DTCH data:
3>	if IE "ACK/NACK support on HS-DPCCH" is set to TRUE:
4>	after collision resolution provide ACK/NACK feedback in accordance with [29] in the physical layer on the serving HS-DSCH radio link, using the information in the IE "Uplink DPCH power control info";
4>	after collision resolution use the information for the channel quality indication (CQI) procedure in the physical layer on the serving HS-DSCH radio link if the IE "Measurement Feedback Info" has been provided with the common E-DCH resource.
1>	if the UE received the "Enhanced Uplink in CELL_FACH and Idle mode process termination" by MAC with the CMAC-STATUS primitive; or
1>	if the UE according to subclause 8.5.4A failed to establish the physical channels; or
1>	if the criteria for radio link failure are met as specified in subclause 8.5.6:
2>	set the variable COMMON_E_DCH_TRANSMISSION to FALSE;
2>	stop any E-AGCH, E-RGCH and E-HICH reception procedures;
2>	stop any E-DPCCH and E-DPDCH transmission procedures;
2>	act as if the IE "MAC-es/e reset indicator" was received and set to TRUE;
2>	release all E-DCH HARQ resources;
2>	no longer consider any radio link to be the serving E-DCH radio link;
2>	if variable READY_FOR_COMMON_ERGCH is set to TRUE:
3>	not consider any radio link to be a Common E-RGCH radio link.
For 1.28 Mcps TDD, whenever the variable COMMON_E_DCH_TRANSMISSION is set to TRUE, the UE shall:
1>	if CCCH message is submitted for transmission on the uplink and if the variable E_RNTI is not set:
2>	select a common E-RNTI according to subclause 8.5.50;
2>	perform E-RUCCH transmission procedure, using the selected common E-RNTI as UE identity;
2>	use the selected common E-RNTI as UE identity in the E-AGCH reception procedure in the physical layer in the common E-RNTI scheduling window according to subclause 8.5.50.
1>	else:
2>	perform E-RUCCH transmission procedure according to the stored PRACH configuration (see [60]), using the value stored in the variable E_RNTI as UE identity;
2>	use the value stored in the variable E_RNTI as UE identity in the E-AGCH reception procedure in the physical layer.
1>	perform E-HICH reception procedures for the serving E-DCH radio link;
1>	perform E-PUCH transmission procedures according to the stored E-PUCH configuration;
1>	perform the inclusion of MAC-d PDUs and MAC-c PDUs in a MAC-i PDU for logical channels belonging to the MAC-d flows in accordance with the received scheduling grant on E-AGCH (see [15]).
NOTE:	For 1.28 Mcps TDD, when performing E-DCH transmission in CELL_FACH state and Idle mode, the UE shall use the tables of transport block size for the E-DCH physical layer category 3 as specified in [15].
Whenever the variable COMMON_E_DCH_TRANSMISSION is set to FALSE, the UE shall:
1>	if not in CELL_DCH state:
2>	for FDD, not perform uplink DPCCH transmission;
2>	not perform E-AGCH, E-RGCH (FDD only) and E-HICH reception procedures;
2>	for FDD, not perform E-DPCCH and/or E-DPDCH transmission procedures;
2>	for 1.28 Mcps TDD, not perform E-RUCCH and E-PUCH transmission procedures.
1>	for FDD, if variable READY_FOR_COMMON_ERGCH is set to TRUE:
2>	not consider any radio link to be a Common E-RGCH radio link.
NOTE:	For FDD, if according to subclause 8.5.45, the TTI applied on E-DPDCH is different from the TTI signalled in the IE "E-DCH Transmission Time Interval", then the IE’s "Uplink DPCH power control info" and "Measurement Feedback Info" in fact refer the IE’s "Uplink DPCH power control info for Concurrent TTI" and "Measurement Feedback Info for Concurrent TTI" respectively if present in the IE "Common E-DCH system info parameters for Concurrent TTI" of System Information Block type 22.
8.5.47	Actions related to READY_FOR_COMMON_EDCH variable (FDD and 1.28 Mcps TDD only)
The variable READY_FOR_COMMON_EDCH shall be set to TRUE only when all the following conditions are met: 
1>	if the UE is in CELL_FACH state or in Idle mode:
2>	the UE supports E-DCH transmission in CELL_FACH state and Idle mode;
2>	the IE "HS-DSCH common system information" is included in system information block type 5 or 5bis;
2>	the IE "Common E-DCH system info" is included system information block type 5 or 5bis.
1>	if the UE is in CELL_PCH state: 
2>	the UE supports E-DCH transmission in CELL_FACH state and Idle mode; 
2>	the UE supports HS-DSCH reception in CELL_PCH and URA_PCH state;
2>	the IE "HS-DSCH paging system information" is included in system information block type 5 or 5bis;
2>	the IE "Common E-DCH system info" is included system information block type 5 or 5bis;
2>	variable H_RNTI is set;
2>	variable E_RNTI is set;
2>	variable C_RNTI is set.
If any of the above conditions is not met and the variable READY_FOR_COMMON_EDCH is set to TRUE, the UE shall:
1>	set the variable READY_FOR_COMMON_EDCH to FALSE;
1>	if in CELL_FACH, CELL_PCH, URA_PCH state or in Idle mode:
2>	if the variable HSPA_RNTI_STORED_PCH is set to FALSE:
3>	clear variable E_RNTI.
2>	reset the MAC-is/i entity [15];
2>	if in connected mode and System Information Block type 6 is indicated in System Information Block type 5 or 5bis as used in the cell:
3>	replace the TFS of the RACH with the one stored in the UE if any;
3>	let the physical channel(s) of type PRACH given by the IE(s) "PRACH info" be the default in uplink if UE is in CELL_FACH state. If the IE "PRACH info" is not included in System Information Block type 6, the UE shall read the corresponding IE(s) in System Information Block type 5 or System Information Block type 5bis and use that information to configure the PRACH;
3>	start to receive the physical channel of type AICH using the parameters given by the IE "AICH info" when associated PRACH is used. If the IE "AICH info" is not included in System Information Block type 6, the UE shall read the corresponding IE in System Information Block type 5 or System Information Block type 5bis and use that information (FDD only);
3>	if the IE "Additional Dynamic Transport Format Information for CCCH" is included for the selected RACH:
4>	use this transport format for transmission of the CCCH (FDD only).
3>	else:
4>	use the first instance of the list of transport formats as in the IE "RACH TFS" for the used RACH received in the IE "PRACH system information list" when using the CCCH (FDD only).
2>	else:
3>	replace the TFS of the RACH with the one stored in the UE if any;
3>	let the physical channel(s) of type PRACH given by the IE(s) "PRACH info" in System Information Block type 5 or 5bis be the default in uplink for the PRACH if UE is in CELL_FACH state;
3>	start to receive the physical channel of type AICH using the parameters given by the IE "AICH info" in System Information Block type 5 or 5bis when given allocated PRACH is used;
3>	if the IE "Additional Dynamic Transport Format Information for CCCH" is included in System Information Block type 5 or 5bis for the selected PRACH:
4>	use this transport format for transmission of the CCCH.
3>	else:
4>	use the first instance of the list of transport formats as in the IE "RACH TFS" in System Information Block type 5 or 5bis for the used RACH received in the IE "PRACH system information list" in System Information Block type 5 or 5bis when using the CCCH.
1>	for FDD, if the UE supports NodeB triggered HS-DPCCH transmission:
2>	configure the lower layers to not perform NodeB triggered HS-DPCCH transmission.
1>	for FDD, determine the value of the variable READY_FOR_FALLBACK_R99_PRACH and take the corresponding actions as described in subclause 8.5.77.
If variable READY_FOR_COMMON_EDCH is set to TRUE:
1>	if the UE is in CELL_PCH state; and
1>	if the UE has uplink RLC data PDU or uplink RLC control PDU on RB1 or upwards to transmit:
2>	move to CELL_FACH state and initiate the measurement report procedure as specified in subclause 8.4.2;
2>	restart the timer T305 using its initial value if periodical cell update has been configured by T305 in the IE "UE Timers and constants in connected mode" set to any other value than "infinity".
1>	for 1.28 Mcps TDD, if the UE is in CELL_PCH state and if the UE initiates uplink synchronization:
2>	move the UE to CELL_FACH state.
1>	for FDD:
2>	if the UE supports NodeB triggered HS-DPCCH transmission;
3>	if System Information Block type 22 includes IE "NodeB triggered HS-DPCCH transmission":
4>	if variable H_RNTI, E_RNTI and C_RNTI is set:
5>	configure the lower layers to perform NodeB triggered HS-DPCCH transmission.
4>	else:
5>	configure the lower layers to not perform NodeB triggered HS-DPCCH transmission.
3>	else:
4>	configure the lower layers to not perform NodeB triggered HS-DPCCH transmission.
2>	determine the value of the variable READY_FOR_FALLBACK_R99_PRACH and take the corresponding actions as described in subclause 8.5.77.
2>	if the UE supports cell reselection indication reporting in CELL_FACH state:
3>	if System Information Block type 22 includes IE "Cell reselection indication reporting":
4>	configure the MAC layer to enable cell reselection indication reporting.
3>	else:
4>	configure the MAC layer to disable cell reselection indication reporting.
If the UE is in CELL_FACH state or CELL_PCH state and the value of the variable READY_FOR_COMMON_EDCH has changed due to a system information modification, the UE shall:
1>	when the UE has uplink RLC data PDU or uplink RLC control PDU on RB1 or upwards to transmit:
2>	clear the variable C_RNTI, variable H_RNTI and variable E_RNTI;
2>	if the UE is in CELL_FACH state:
3>	initiate the cell update procedure with cell update cause "cell reselection" as specified in subclause 8.3.1.2.
2>	if the UE is in CELL_PCH state:
3>	initiate the cell update procedure with cell update cause "uplink data transmission" as specified in subclause 8.3.1.2.
8.5.48	Actions related to HS_DSCH_DRX_CELL_FACH_STATUS variable (FDD and 1.28 Mcps TDD only) and HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS variable (FDD only)
The HS-DSCH_DRX_CELL_FACH_2CYCLE_STATUS variable shall be set to TRUE only when the following conditions are met:
1>	the UE supports HS-DSCH DRX operation with second DRX cycle in CELL_FACH state;
1>	the UE is in CELL_FACH state;
1>	the UE has a dedicated H-RNTI configured;
1>	the IE’s "HS-DSCH DRX in CELL_FACH Information" and "Common E-DCH system info" have been received from System Information Block Type 5 or System Information Block Type 5bis and the IE "HS-DSCH DRX in CELL_FACH with second DRX cycle Information" has been received from System Information Block Type 22.
If any of the above conditions is not met and the HS_DSCH_DRX_CELL_FACH_2CYCLE _STATUS variable is set to TRUE, the UE shall:
1>	stop any ongoing CELL_FACH HS-DSCH DRX operation with second DRX cycle;
1>	set the HS_DSCH_DRX_CELL_FACH_2CYCLE _STATUS to FALSE;
1>	stop the timer T328, if it is ongoing;
1>	stop the timer T329, if it is ongoing.
If the HS-DSCH_DRX_CELL_FACH_2CYCLE_STATUS variable is set to FALSE, the HS_DSCH_DRX_CELL_FACH_STATUS variable shall be set to TRUE only when the following conditions are met:
1>	the UE supports HS-DSCH DRX operation in CELL_FACH state;
1>	the UE is in CELL_FACH state;
1>	the UE has a dedicated H-RNTI configured;
1>	the IE "HS-DSCH DRX in CELL_FACH Information" for FDD or IE "HS-DSCH DRX in CELL_FACH Information 1.28 Mcps TDD" for 1.28 Mcps TDD has been received from System Information Block Type 5 or System Information Block Type 5bis;
1>	for 1.28 Mcps TDD, UE with dedicated H-RNTI configured, after transitting from CELL_PCH to CELL_FACH state, has detected its dedicated H-RNTI on HS-SCCH indicating HS-DSCH reception;
1>	for FDD, either of the following conditions is met:
2>	the value of the IE "DRX Interruption by HS-DSCH data" received from System Information Block Type 5 or System Information Block Type 5bis has been set to TRUE; or
2>	the UE supports common E-DCH transmission and the IE "Common E-DCH system info" is included in System Information Block type 5 or System Information Block Type 5bis.
If any of the above conditions is not met and the HS_DSCH_DRX_CELL_FACH_STATUS variable is set to TRUE, the UE shall:
1>	stop any ongoing CELL_FACH HS-DSCH DRX operation;
1>	set the HS_DSCH_DRX_CELL_FACH_STATUS to FALSE;
1>	stop the timer T321, if it is ongoing.
8.5.49	CELL_FACH HS-DSCH DRX operation (FDD only)
The CELL_FACH HS-DSCH DRX operation determines the occasions in which the UE is allowed to discontinuously receive HS-DSCH in CELL_FACH state.
If the variable HS_DSCH_DRX_CELL_FACH_STATUS is set to TRUE, the UE shall:
1>	if E-DCH resource index information is received from lower layers; and
1>	if "E-DCH resource index" received from MAC with the CMAC-STATUS primitive is not equal to -1:
2>	stop the timer T321, if it is ongoing;
2>	continuously receive HS-DSCH.
1>	if E-DCH enhanced random access process termination information is received from lower layers:
2>	start the timer T321.
1>	if the value of the IE "DRX Interruption by HS-DSCH data" received from System Information Block Type 5 or System Information Block Type 5bis is TRUE:
2>	if the UE does not have an E-DCH resource assigned and data on HS-DSCH or HS-SCCH order for NodeB triggered HS-DPCCH transmission is received:
3>	start or, if the timer is running, restart the timer T321 at the end of the HS-SCCH subframe addressed to this UE.
3>	continuously receive HS-DSCH.
Upon timer T321 expiry:
1>	the UE shall receive HS-DSCH during the frame(s) with the SFN value fulfilling the following inequality:
	(SFN  H-RNTI + 65536) mod DRX_cycle < Rx_burst
where:
-	H-RNTI is the value stored in the variable H_RNTI;
-	DRX_cycle is the length of the DRX cycle in radio frames, signalled by the IE "HS-DSCH DRX cycleFACH";
-	Rx burst is the period in frames within the DRX cycle, in which the UE receives HS-DSCH, signalled by the IE "HS-DSCH Rx burstFACH".
For FDD when in CELL_FACH state, when the variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_STATUS is set to TRUE, 
then the UE in FDD mode shall perform measurements as specified in subclauses 8.4.1.6 and 8.4.1.9, according to the requirements in [4] and [19].
8.5.49a	CELL_FACH HS-DSCH DRX operation (1.28Mcps TDD only)
The CELL_FACH HS-DSCH DRX operation determines the occasions in which the UE is allowed to discontinuously receive HS-DSCH in CELL_FACH state.
The HS-DSCH DRX pattern is the set of frames in which the UE shall receive on downlink during the frame(s) with the SFN value fulfilling the following inequality:
	(SFN  H-RNTI + 65536) mod DRX_cycle < Rx_burst
where:
-	H-RNTI is the value stored in the variable H_RNTI;
-	DRX_cycle is the length of the DRX cycle in radio frames, signalled by the IE "DRX cycleFACH";
-	Rx burst is the period in frames within the DRX cycle, in which the UE receives on downlink, signalled by the IE "Rx burstFACH".
8.5.49b	CELL_FACH HS-DSCH DRX operation with second DRX cycle (FDD only)
The CELL_FACH HS-DSCH DRX operation with second DRX cycle determines the occasions in which the UE is allowed to discontinuously receive HS-DSCH in CELL_FACH state.
If the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE, the UE shall:
1>	if E-DCH resource index information is received from lower layers and the "E-DCH resource index" received from MAC with the CMAC-STATUS primitive is not equal to -1; or
1>	if "Fallback transmission initiation" is received from MAC with the CMAC-STATUS primitive:
2>	stop the timer T328, if it is ongoing;
2> 	stop the timer T329, if it is ongoing;
2>	continuously receive HS-DSCH.
1>	if "Fallback transmission termination" is received from MAC with the CMAC-STATUS primitive; or
1>	if E-DCH enhanced random access process termination information is received from lower layers:
2>	if the CHOICE "DRX level" in the IE "HS-DSCH DRX in CELL_FACH with second DRX cycle Information" has the value "2-level DRX":
3>	start the timer T328.
2>	if the CHOICE "DRX level" in the IE "HS-DSCH DRX in CELL_FACH with second DRX cycle Information" has the value "1-level DRX":
3>	start the timer T329.
1>	if the UE does not have an E-DCH resource assigned and data on HS-DSCH or HS-SCCH order for NodeB triggered HS-DPCCH transmission is received:
2>	if the CHOICE "DRX level" in the IE "HS-DSCH DRX in CELL_FACH with second DRX cycle Information" has the value "2-level DRX":
3> 	stop the timer T329, if it is ongoing;
3>	start or, if the timer is running, restart the timer T328 at the end of the HS-SCCH subframe addressed to this UE.
2>	if the CHOICE "DRX level" in the IE "HS-DSCH DRX in CELL_FACH with second DRX cycle Information" has the value "1-level DRX":
3>	start or, if the timer is running, restart the timer T329 at the end of the HS-SCCH subframe addressed to this UE.
2>	continuously receive HS-DSCH.
Upon timer T328 expiry:
1>	start the timer T329:
1>	if the value used for IE "HS-DSCH first Rx burstFACH" is a multiple number of frames:
2>	the UE shall receive HS-DSCH during the frame(s) with the SFN value fulfilling the following inequality:
	(SFN  H-RNTI + 65536) mod DRX_cycle < Rx_burst
where:
-	H-RNTI is the value stored in the variable H_RNTI;
-	DRX_cycle is the length of the DRX cycle in radio frames, indicated by the IE "HS-DSCH first DRX cycleFACH";
-	Rx burst is the period in frames within the DRX cycle, in which the UE receives HS-DSCH, indicated by the IE "HS-DSCH first Rx burstFACH".
1>	else:
2>	the UE shall receive HS-DSCH during the subframe(s) with the Subframe_Number and SFN value fulfilling the following inequality:
	((SFN * 5 + Subframe_Number) - H-RNTI + 65536)  mod DRX_cycle < Rx_burst
where:
-	H-RNTI is the value stored in the variable H_RNTI;
-	DRX_cycle is the length of the DRX cycle in unit of subframes, indicated by the IE "HS-DSCH first DRX cycleFACH";
-	Rx burst is the period in unit of subframes within the DRX cycle, in which the UE receives HS-DSCH, indicated by the IE "HS-DSCH first Rx burstFACH".
Upon timer T329 expiry:
1>	the UE shall receive HS-DSCH during the frame(s) with the SFN value fulfilling the following inequality:
	(SFN  H-RNTI + 65536)  mod DRX_cycle < Rx_burst
where:
-	H-RNTI is the value stored in the variable H_RNTI;
-	DRX_cycle is the length of the DRX cycle in radio frames, indicated by the IE "HS-DSCH second DRX cycleFACH";
-	Rx burst is the period in frames within the DRX cycle, in which the UE receives HS-DSCH, indicated by the IE "HS-DSCH second Rx burstFACH".
For FDD when in CELL_FACH state, when the variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE, 
then the UE in FDD mode shall perform measurements as specified in subclauses 8.4.1.6 and 8.4.1.9, according to the requirements in [19].
8.5.50	Common E-RNTI selection (1.28 Mcps TDD only)
When the IE "Common E-RNTI Information" is included in System Information Block type 5, and if the UE is in CELL_FACH state or Idle mode, and if the variable E_RNTI is not set, UE shall use a common E-RNTI for CCCH transmission (i.e. the common E-RNTI identifies the initial access, including RRC connection request and cell update after cell re-selection):
1>	configure the MAC layer with the information in the IE(s) "Common E-RNTI information";
1>	when a CCCH message is to be sent, and if the variable E_RNTI is not set, the MAC layer operates as follows:
2>	select an E-RUCCH;
2>	select the instance of the IE(s) "Common E-RNTI information" which is related to the selected E-RUCCH;
2>	select a common E-RNTI which is related to the selected E-RUCCH according to the following procedure:
3>	compile a list of candidate common E-RNTI group from the selected instance of the IE(s) "Common E-RNTI information" in the order of appearance in System Information Block type 5, and select a common E-RNTI group from the list of candidate Common E-RNTI groups based on the E-RUCCH transmission occasion:
		"Index of selected Common E-RNTI group" = SFNE-RUCCH mod K, for TTI of E-RUCCH = 10ms;
or  "Index of selected Common E-RNTI group" = SFN’E-RUCCH mod K, for TTI of E-RUCCH = 5ms;
Where K is the number of E-RNTI groups related to the E-RUCCH; SFNE-RUCCH or SFN’E-RUCCH is the frame or sub-frame on which the E-RUCCH shall be sent [33].
3>	select a common E-RNTI randomly amongst the candidate  the candicate E-RNTIs in the selected group.
2>	use the value of the selected common E-RNTI as UE identity in current E-RUCCH transmission, and in the E-AGCH reception within the common E-RNTI scheduling window which is of K frames or K sub-frames length.
8.5.51	Actions related to SECONDARY_CELL_HS_DSCH_RECEPTION variable (FDD only)
An entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the corresponding IE "Downlink Secondary Cell Info FDD" is included;
1>	the variable HS_DSCH_RECEPTION is set to TRUE;
1>	either of the following conditions are met:
2>	the IE "Memory Partitioning" is set to 'Implicit' in the IE "HARQ Info"; or
2>	the IE "Memory Partitioning" is set to 'Explicit' in the IE "HARQ Info" and MIMO or MIMO mode with four transmit antennas is configured on all or none of the serving HS-DSCH cell and the secondary serving HS-DSCH cells.
If any of the above conditions is not met for a secondary serving HS-DSCH cell, and the corresponding entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE, the UE shall:
1>	set the corresponding entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION to FALSE;
1>	clear the corresponding entry in the variable DOWNLINK_SECONDARY_CELL_INFO;
1>	flush the HARQ buffers of the HARQ entity associated to that secondary serving HS-DSCH cell;
1>	release the HARQ resources associated to that secondary serving HS-DSCH cell.
1>	determine the configuration of "TSN field extension" for MAC-ehs entity as specified in subclause 8.5.60
If there are more than one entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION set to TRUE and the corresponding entries in the variable DOWNLINK_SECONDARY_CELL_INFO indicate that the network has configured non-contiguous multi-cell operation together with dual band operation:
1>	the UE behaviour is not specified.
If there is at least one entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION set to TRUE, the UE shall:
1>	apply the i-th entry in the variables DOWNLINK_SECONDARY_CELL_INFO, SECONDARY_CELL_HS_DSCH_RECEPTION, SECONDARY_CELL_MIMO_STATUS and SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS to the i-th secondary serving HS-DSCH cell. 
1>	After the new configuration is applied, the UE shall renumber the configured secondary serving HS-DSCH cells, starting from 1, contiguously, by skipping empty entries in the above variables. The secondary serving HS-DSCH cells are numbered in the order their configuration IEs appears in the message. The RRC Layer shall pass the new numbering of the secondary serving HS-DSCH cells to the lower layers.
NOTE:	Regardless of the renumbering, the IEs in the variable DOWNLINK_SECONDARY_CELL_INFO remain stored as specified in subclause 8.6.6.45.
1>	partition the soft memory buffer in the MAC-ehs, used for the secondary serving HS-DSCH cells reception, using the information in the IE "HARQ Info" of the serving HS-DSCH cell and performing the procedure described in subclause 8.6.5.6b;
1>	determine the value for the SECONDARY_CELL_E_DCH_TRANSMISSION and take the corresponding actions as described in subclause 8.5.58.
1>	determine the configuration of "TSN field extension" for MAC-ehs entity as specified in subclause 8.5.60.
For each entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION which is set to TRUE, the UE shall:
1>	receive the HS-SCCH(s) according to the corresponding IE "Downlink Secondary Cell Info FDD" on the serving HS-DSCH radio link applying the scrambling code as received in the corresponding IE "DL Scrambling code";
1>	perform HS-DSCH reception procedures for the corresponding secondary serving HS-DSCH cell according to the stored HS-PDSCH configuration as stated in:
2>	subclause 8.6.3.1b for the IE "H-RNTI";
2>	subclause 8.6.5.6b for the IE "HARQ info";
2>	subclause 8.6.6.34 for the IE "Measurement Feedback Info";
2>	subclause 8.6.6.45 for the IE "Downlink Secondary Cell Info FDD";
1>	use the relevant CQI reporting table as stated in subclause 8.5.44.
Whenever any entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to FALSE, the UE shall:
1>	not perform HS-SCCH reception procedures on the corresponding secondary serving HS-DSCH cell;
1>	determine the value for the SECONDARY_CELL_E_DCH_TRANSMISSION and take the corresponding actions as described in subclause 8.5.58.
If any entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE and the serving HS-DSCH cell was changed as a result of the received message or HS-SCCH order from the target cell, the UE shall instruct the physical layer to consider that the HS-SCCH orders from the serving cell were never received.
If prior to the reconfiguration and after the reconfiguration the i-th entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE, and the value of IE "Configuration info" contained in the corresponding IE "Downlink Secondary Cell Info FDD" is set to either "Continue" or "New configuration", and the serving HS-DSCH cell was not changed as a result of the received message, the UE shall instruct the physical layer to remember the corresponding secondary serving HS-DSCH cell activation/deactivation HS-SCCH orders that were received prior to the reconfiguration.
NOTE:	If any entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE and the IE "Tx Diversity Mode" is set to "closed loop mode1", the UE behaviour is unspecified.
If prior to the reconfiguration the i-th entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION was set to FALSE, and after the reconfiguration the i-th entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is  set to TRUE, the UE shall instruct the physical layer to activate the corresponding serving HS-DSCH cell.
If there is an ongoing inter-frequency measurement with the compressed mode for the frequency, which is not in the same frequency band as the serving HS-DSCH cell:
1>	if there is a compressed mode pattern sequence with the IE “Frequency specific compressed mode” set to TRUE in the IE "Current TGPS Status Flag" in UE variable TGPS_IDENTITY; and
1>	if there is no entry in the DOWNLINK_SECONDARY_CELL_INFO variable, associated frequency of which is in the same frequency band as the frequency to measure:
2>	the UE behaviour is unspecified.
8.5.52	Actions related to TARGET_CELL_PRECONFIGURATION variable (FDD only)
When all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the UE has indicated support of Target Cell Pre-Configuration; or
1>	the UE has indicated support of Enhanced Serving Cell Change for Event 1c;
1>	the IE "Target cell preconfiguration information" is included in the Radio link addition information in the Active Set Update message;
the UE shall:
1>	in case the "Target cell preconfiguration information" IE is present for more than one radio link in the received active set update message, if the IE "Secondary E-DCH info common" is included in the IE "Target cell preconfiguration information" for this radio link, and the IE "Secondary E-DCH info common" has already been stored in the variable TARGET_CELL_PRECONFIGURATION for other radio links, the UE behaviour is unspecified;
1>	if the variable TARGET_CELL_PRECONFIGURATION already contains the information for this radio link:
2>	clear the old entry from the variable TARGET_CELL_PRECONFIGURATION.
1>	store the "Target cell preconfiguration information" in the variable TARGET_CELL_PRECONFIGURATION so that the configurations are to be applied later once the Target cell HS-SCCH order has been read from the target cell;
1>	store the configuration given in the IEs "Serving Cell Change MAC reset", "Serving Cell Change Message Type" , "Serving Cell Change Transaction Id" and "Enhanced Serving Cell Change for Event 1c Support Indicator" in the variable TARGET_CELL_PRECONFIGURATION to be applied later once the Target cell HS-SCCH order has been read from the target cell.
NOTE:	If the IE "Primary CPICH info" is received in IE "Serving HS-DSCH cell information" as part of the IE "Target cell preconfiguration information" and is not the same value as the IE "Primary CPICH info" of the corresponding IE "Radio Link Addition Information" then the UE behaviour is unspecified.
If any of the above conditions is not met and the Radio Link is included in the table "Target cell preconfigurations" in the variable TARGET_CELL_PRECONFIGURATION, the UE shall:
1>	clear the entry from the variable TARGET_CELL_PRECONFIGURATION.
8.5.53	Actions related to CONTROL_CHANNEL_DRX_STATUS variable (1.28 Mcps TDD only)
If the UE receives RRC CONNECTION SETUP, CELL UPDATE CONFIRM, or any reconfiguration message:
1>	the UE shall determine the value for the CONTROL_CHANNEL_DRX_STATUS variable.
The variable CONTROL_CHANNEL_DRX_STATUS shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the variable HS_DSCH RECEPTION is set to TRUE;
1>	the IE "Control Channel DRX information" is included in the received message.
If any of the above conditions is not met and the variable CONTROL_CHANNEL_DRX_STATUS is set to TRUE, the UE shall:
1>	set the variable CONTROL_CHANNEL_DRX_STATUS to FALSE;
1>	clear the variable CONTROL_CHANNEL_DRX_PARAMS;
1>	disable the Control Channel DRX related activities.
If variable CONTROL_CHANNEL_DRX_STATUS is set to TRUE and the serving HS-DSCH cell was changed as a result of the received message, the UE shall instruct the physical layer to consider HS-SCCH orders were never received.
Whenever the variable CONTROL_CHANNEL_DRX_STATUS is set to TRUE after receiving this message and the value of IE "Control Channel DRX information" included in this message is "Continue Control Channel DRX operation ", the UE shall:
1>	continue the Control Channel DRX related activities with the IE in the variable CONTROL_CHANNEL_DRX_PARAMS.
8.5.54	Actions related to E_DCH_SPS_STATUS variable (1.28 Mcps TDD only)
If the UE receives RRC CONNECTION SETUP, CELL UPDATE CONFIRM, or any reconfiguration message:
1>	the UE shall determine the value for the E_DCH_SPS_STATUS variable.
The variable E_DCH_SPS_STATUS shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the variable E_DCH_TRANSMISSION is set to TRUE;
1>	the IE "E-DCH SPS information" is included in the received message and the UE has stored the following IEs in variable E_DCH_SPS_PARAMS:
2>	IE "Transmission Pattern List".
If any of the above conditions is not met and the variable E_DCH_SPS_STATUS is set to TRUE, the UE shall:
1>	set the variable E_DCH_SPS_STATUS to FALSE;
1>	clear the variable E_DCH_SPS_PARAMS;
1>	stop all E-DCH SPS related activities.
Whenever the variable E_DCH_SPS_STATUS is set to TRUE, the UE shall:
1>	configure the physical and MAC layers to operate according to the E_DCH_SPS_PARAMS.
If variable E_DCH_SPS_STATUS is set to TRUE and the serving E-DCH cell was changed as a result of the received message and the value of IE "E-DCH SPS Information" included in this message is "Continue E-DCH SPS operation", then UE behaviour is unspecified.
8.5.55	Actions related to HS_DSCH_SPS_STATUS variable (1.28 Mcps TDD only)
If the UE receives RRC CONNECTION SETUP, CELL UPDATE CONFIRM, or any reconfiguration message:
1>	the UE shall determine the value for the HS_DSCH_SPS_STATUS variable.
The variable HS_DSCH_SPS_STATUS shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the variable HS_DSCH_RECEPTION is set to TRUE;
1>	the IE "HS-DSCH SPS information" is included in the received message and the UE has stored the following IEs in variable HS_DSCH_SPS_PARAMS:
2>	IE "Transmission Pattern List";
2>	IE "Reception Pattern List";
2>	IE "HARQ Info for Semi-Persistent Scheduling".
If any of the above conditions is not met and the variable HS_DSCH_SPS_STATUS is set to TRUE, the UE shall:
1>	set the variable HS_DSCH_SPS_STATUS to FALSE;
1>	clear the variable HS_DSCH_SPS_PARAMS;
1>	stop all HS-DSCH SPS related activities.
Whenever the variable HS_DSCH_SPS_STATUS is set to TRUE, the UE shall:
1>	configure the physical and MAC layers to operate according to the HS_DSCH_SPS_PARAMS.
If variable HS_DSCH_SPS_STATUS is set to TRUE and the serving HS-DSCH cell was changed as a result of the received message and the value of IE "HS-DSCH SPS information" included in this message is "Continue HS-DSCH SPS operation", then UE behaviour is unspecified.
8.5.56	Actions related to HSPA_RNTI_STORED_PCH variable (FDD and 1.28 Mcps TDD only)
In CELL_PCH state, the variable HSPA_RNTI_STORED_PCH shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_PCH state or the UE after state transition enters CELL_PCH state if the variable HSPA_RNTI_STORED_PCH is determined according to subclause 8.2.2.3 or 8.3.1.6; and
1>	the UE supports E-DCH transmission in CELL_FACH state and Idle mode; and
1>	the UE supports HS-DSCH reception in CELL_FACH state; and
1>	the IE "HS-DSCH common system information" is included in system information block type 5 or 5bis; and
1>	the IE "Common E-DCH system info" is included in system information block type 5 or 5bis; and
1>	the IE "HS-DSCH paging system information" is not included in system information block type 5 or 5bis or the UE does not support HS-DSCH reception in CELL_PCH and URA_PCH state; and
1>	the RBs have the multiplexing option with transport channel type "HS-DSCH" for the DL and transport channel type "E-DCH" in the UL; and
1>	variable H_RNTI is set; and
1>	variable E_RNTI is set; and
1>	IE "New C-RNTI" is included in the received message if the variable HSPA_RNTI_STORED_PCH is determined according to subclause 8.2.2.3 or 8.3.1.6, or variable C_RNTI is set if the variable HSPA_RNTI_STORED_PCH is determined according to subclause 8.1.1.6.5.
In URA_PCH state, the variable HSPA_RNTI_STORED_PCH shall be set to TRUE only when all the following conditions are met:
1>	the UE supports URA_PCH with seamless transition; and
1>	the UE is in URA_PCH state or the UE after state transition enters URA_PCH state if the variable HSPA_RNTI_STORED_PCH is determined according to subclause 8.2.2.3 or 8.3.1.6; and
1>	the UE supports E-DCH transmission in CELL_FACH state and Idle mode; and
1>	the UE supports HS-DSCH reception in CELL_FACH state; and
1>	the IE "HS-DSCH common system information" is included in system information block type 5 or 5bis; and
1>	the IE "Common E-DCH system info" is included in system information block type 5 or 5bis; and
1>	the RBs have the multiplexing option with transport channel type "HS-DSCH" for the DL and transport channel type "E-DCH" in the UL; and
1>	variable H_RNTI is set; and
1>	variable E_RNTI is set; and
1>	IE "New C-RNTI" is included in the received message if the variable HSPA_RNTI_STORED_PCH is determined according to subclause 8.2.2.3 or 8.3.1.6.
If any of the above conditions is not met and the variable HSPA_RNTI_STORED_PCH is set to TRUE, the UE shall:
1>	set the variable HSPA_RNTI_STORED_PCH to FALSE.
If the variable HSPA_RNTI_STORED_PCH is set to TRUE:
1>	if the UE has uplink RLC data PDU or uplink RLC control PDU on RB1 or upwards to transmit: or
1>	if the UE is requested to move into CELL_FACH state by paging type 1 as described in subclause 8.1.2.3, UE shall:
2>	if in URA_PCH state (for FDD), the uplink RLC size has changed since the last time the UE entered URA_PCH state:
3>	perform a cell update procedure, according to subclause 8.3.1, using the cause "uplink data transmission".
2>	else:
3>	move to CELL_FACH state and initiate the measurement report procedure as specified in subclause 8.4.2;
3>	set the variable HSPA_RNTI_STORED_PCH to FALSE;
3>	stop timer T319 if it is running;
3>	restart the timer T305 if it is set to any value other than "infinity";
3>	determine the value for the READY_FOR_COMMON_EDCH variable and take the corresponding actions as described in subclause 8.5.47;
3>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46;
3>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and take the corresponding actions as described in subclause 8.5.75;
3>	not prohibit periodical status transmission in RLC;
3>	configure the Enhanced Uplink in CELL_FACH state and Idle mode as specified in subclause 8.5.45 for FDD and 8.5.45a for 1.28 Mcps TDD;
3>	start to receive HS-DSCH according to the procedure in subclause 8.5.36.

8.5.57	Actions related to SECONDARY_CELL_MIMO_STATUS variable
If the UE receives an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message which includes the IE "Downlink secondary cell info FDD" for any of the secondary serving HS-DSCH cells, the UE shall:
1>	if the IE "Secondary cell MIMO parameters" is not included in the IE "Downlink secondary cell info FDD":
2>	clear the corresponding entry in the SECONDARY_CELL_MIMO_PARAMS variable.
1>	if the CHOICE "Configuration Info" in the IE "Secondary cell MIMO parameters" has the value "Continue":
2>	continue using the stored parameters in the corresponding entry in the SECONDARY_CELL_MIMO_PARAMS variable.
1>	 otherwise:
2>	if the IE "MIMO N_cqi_typeA/M_cqi ratio" is included:
3>	store the value of the IE "MIMO N_cqi_typeA/M_cqi ratio" in the corresponding entry in the SECONDARY_CELL_MIMO_PARAMS variable.
2>	if the IE "MIMO pilot configuration" is included:
3>	store the value of the IE "MIMO pilot configuration" in the corresponding entry in the SECONDARY_CELL_MIMO_PARAMS variable.
2>	if the IE "Precoding weight set restriction" is included in the IE "Secondary cell MIMO parameters":
3>	store the value of the IE "Precoding weight set restriction" in the corresponding entry in the SECONDARY_CELL_MIMO_PARAMS variable.
2>	else if the IE "Precoding weight set restriction" is not included in the IE "Secondary cell MIMO parameters":
3>	if the IE "MIMO operation" is included in the IE "MIMO parameters" and it is set to "start":
4>	if the IE "Precoding weight set restriction" is included in the IE "MIMO parameters":
5>	store the value of the IE "Precoding weight set restriction" in the corresponding entry in the SECONDARY_CELL_MIMO_PARAMS variable.
4>	else if the IE "Precoding weight set restriction" is not included in the IE "MIMO parameters":
5>	clear the value of the IE "Precoding weight set restriction" in the corresponding entry in the SECONDARY_CELL_MIMO_PARAMS variable.
3>	else if the IE "MIMO operation" is included in the IE "MIMO parameters" and it is set to "continue" and if the IE "Precoding weight set restriction"is present in the variable MIMO_PARAMS:
4>	copy the value of the IE "Precoding weight set restriction" in the variable MIMO_PARAMS and store it in the IE "Precoding weight set restriction" in the corresponding entry in the SECONDARY_CELL_MIMO_PARAMS variable.
3>	else:
4>	clear the value of the IE "Precoding weight set restriction" in the corresponding entry in the SECONDARY_CELL_MIMO_PARAMS variable.
2>	RRC shall indicate to lower layers whether precoding weight set restriction is configured based on the value of the IE "Precoding weight set restriction" in the variable SECONDARY_CELL_MIMO_PARAMS.
1>	determine the value of the SECONDARY_CELL_MIMO_STATUS variable for the corresponding secondary serving HS-DSCH cell.
The SECONDARY_CELL_MIMO_STATUS variable shall be set to TRUE for a secondary serving HS-DSCH cell only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the corresponding entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE for that secondary serving HS-DSCH cell;
1>	if the UE does not support MIMO only with single stream restriction, the corresponding entry in the variable SECONDARY_CELL_MIMO_PARAMS contains a value for the IE "MIMO N_cqi_typeA/M_cqi ratio"; and
1>	the corresponding entry in the variable SECONDARY_CELL_MIMO_PARAMS contains a value for the IE "MIMO pilot configuration".
If any of the above conditions is not met and the SECONDARY_CELL_MIMO_STATUS variable is set to TRUE for that secondary serving HS-DSCH cell, the UE shall:
1>	set the entry in the SECONDARY_CELL_MIMO_STATUS variable corresponding to that secondary serving HS-DSCH cell to FALSE;
1>	clear the entry in the SECONDARY_CELL_MIMO_PARAMS variable corresponding to that secondary serving HS-DSCH cell;
1>	trigger lower layers to stop MIMO operation on that secondary serving HS-DSCH cell.
Whenever the entry in the variable SECONDARY_CELL_MIMO_STATUS is set to TRUE for a secondary serving HS-DSCH cell, the UE shall:
1>	if the UE supports MIMO only with single stream restriction (FDD only):
2>	indicate to lower layers to start operation in MIMO mode restricted to single stream transmission on that secondary serving HS-DSCH cell, using the parameter values stored in the corresponding entry in the variable SECONDARY_CELL_MIMO_PARAMS.
1>	else:
2>	indicate to lower layers to start operation in MIMO mode on that secondary serving HS-DSCH cell, using the parameter values stored in the corresponding entry in the variable SECONDARY_CELL_MIMO_PARAMS.
1>	for FDD, when MIMO only with single stream restriction is configured:
2>	if MAC-ehs is not configured:
3>	the UE behaviour is undefined.
NOTE:	This subclause applies to FDD only.

8.5.58	Actions related to SECONDARY_CELL_E_DCH_TRANSMISSION variable (FDD only)
The variable SECONDARY_CELL_E_DCH_TRANSMISSION shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the UE has stored IE "Secondary serving E-DCH cell info" and IE "Secondary E-DCH info common";
1>	one of the radio links in the secondary E-DCH active set is configured as the secondary serving E-DCH radio link, and for this radio link the UTRAN has configured the IE "E-HICH configuration" and the IE "E-AGCH info".
1>	either the Primary E-RNTI or the Secondary E-RNTI or both the Primary and the Secondary E-RNTI are included in the stored IE "Secondary serving E-DCH cell info";
1>	if the UE does not support dual cell E-DCH transmission with the DPDCH channel:
2>	the IE "Number of DPDCH" in the IE "Uplink DPCH info" is set to 0.
1>	the variable E_DCH_TRANSMISSION is set to TRUE;
1>	the i-th entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE, where the i-th entry is the position of the first non-empty entry in the variable DOWNLINK_SECONDARY_CELL_INFO;
If any of the above conditions are not met and the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to TRUE, the UE shall:
1>	set the variable SECONDARY_CELL_E_DCH_TRANSMISSION to FALSE;
1>	stop any F-DPCH, E-AGCH, E-HICH and E-RGCH reception procedures on the downlink frequency associated with the secondary uplink frequency;
1>	stop any DPCCH, E-DPCCH and E-DPDCH transmission procedures on the secondary uplink frequency;
1>	release all E-DCH HARQ resources for the secondary uplink frequency;
1>	do not configure "TSN field extension" for the MAC-i/is entity;
1>	reset the MAC-i/is entity [15];
1>	clear any stored IE "Secondary serving E-DCH cell info" and IE "Secondary E-DCH info common";
1>	remove all the radio links associated to the secondary E-DCH active set.
1>	for FDD, if the IE "Uplink CLTD info FDD" is stored in the UE:
2>	determine the value for the UPLINK_CLTD_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.69.
1>	for FDD, if the IE "Uplink OLTD info FDD" is stored in the UE:
2>	determine the value for the UPLINK_OLTD_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.70.
If all of the above conditions are met and the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to FALSE, the UE shall:
1>	set the variable SECONDARY_CELL_E_DCH_TRANSMISSION to TRUE;
1>	configure "TSN field extension" for the MAC-i/is entity;
1>	reset the MAC-i/is entity [15].
1>	for FDD, if the IE "Uplink CLTD info FDD" is stored in the UE:
2>	determine the value for the UPLINK_CLTD_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.69.
1>	for FDD, if the IE "Uplink OLTD info FDD" is stored in the UE:
2>	determine the value for the UPLINK_OLTD_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.70.
Whenever the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to TRUE, and the secondary uplink frequency is an activated uplink frequency, the UE shall:
1>	perform E_AGCH reception procedures on the secondary serving E-DCH cell according to the stored E_AGCH configuration as stated in:
2>	subclause 8.6.3.14 for the IE "Primary E-RNTI" and the IE "Secondary E-RNTI" for secondary serving E-DCH cell.
1>	perform E-HICH reception procedures for all radio links in the secondary E-DCH active set;
1>	perform E-RGCH reception procedures for all radio links in the secondary E-DCH active set for which an E-RGCH configuration has been provided;
1>	perform uplink DPCCH transmission on the secondary uplink frequency according to the stored uplink DPCH info configuration as stated in:
2>	subclause 8.6.6.6 for the IE "Uplink DPCH info";
2>	subclause 8.6.6.49 for the IE "Uplink Secondary Cell Info FDD".
1>	perform E-DPCCH transmission procedures on the secondary uplink frequency according to the stored E-DPCCH configuration as stated in:
2>	subclause 8.6.6.37 for the IE "E-DPCCH Info";
2>	subclause 8.6.6.49 for the IE "Uplink Secondary Cell Info FDD".
1>	perform E-DPDCH transmission procedures on the secondary uplink frequency according to the stored E-DPDCH configuration as stated in:
2>	subclause 8.6.5.16 for the IE "E-DCH Transmission Time Interval";
2>	subclause 8.6.5.17 for the IE "HARQ info for E-DCH";
2>	subclause 8.6.6.37 for the IE "E-DPDCH Info";
2>	subclause 8.6.6.49 for the IE "Uplink Secondary Cell Info FDD".
1>	inclusion of MAC-d PDU's in a MAC-i PDU for logical channels on the secondary uplink frequency shall:
2>	be performed in accordance with the received scheduling grant on E-AGCH/E-RGCH (see [15]) on the downlink frequency associated with the secondary uplink frequency; and
2>	obey the scheduling restrictions as specified for scheduled transmissions (see subclause 8.6.6.37).
Whenever the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to FALSE, or the secondary uplink frequency is not an activated uplink frequency, the UE shall:
1>	not perform F-DPCH, E-AGCH, E-HICH and E-RGCH reception procedures on the downlink frequency associated with the secondary uplink frequency;
1>	not perform DPCCH, E-DPCCH and E-DPDCH transmission procedures on the secondary uplink frequency.

8.5.59	Actions related to reception of a HS-SCCH order for secondary uplink frequency activation/deactivation (FDD only)
The UE shall:
1>	if the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to TRUE and the HS-SCCH order is to activate the secondary uplink frequency:
2>	consider the secondary uplink frequency as activated;
2>	initiate the physical dedicated channel establishment procedure on the downlink frequency associated with the secondary uplink frequency according to the stored configuration;
2>	configure the serving grant on the secondary uplink frequency in accordance with the IE "Serving Grant Value" configuration.
1>	if the HS-SCCH order is to deactivate the secondary uplink frequency:
2>	consider the secondary uplink frequency as not activated.
1>	determine the value for the SECONDARY_CELL_E_DCH_TRANSMISSION and take the corresponding actions as described in subclause 8.5.58.
8.5.60	Configuration of "TSN field extension" for MAC-ehs entity
The MAC-ehs shall be configured with "TSN field extension" only when all the following conditions are met:
1>	The UE is in CELL_DCH state;
1>	either one of the following conditions are met:
2>	two or more entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION are set to TRUE; or
2>	the variable MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS is set to TRUE, and "MIMO mode with four transmit antennas only with dual stream restriction" is not configured; or
2>	both of the following conditions are met:
3>	an entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE;
3>	and the variable MIMO_STATUS or an entry in the variable SECONDARY_CELL_MIMO_STATUS is set to TRUE or the variable MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS or an entry in the variable SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS is set to TRUE.
If all of the above conditions are met and "TSN field extension" is not configured for the MAC-ehs entity, the UE shall:
1>	configure the MAC-ehs entity with "TSN field extension";
1>	reset the MAC-ehs entity [15].
If any of the above conditions is not met and "TSN field extension" is configured for the MAC-ehs entity, the UE shall:
1>	configure the MAC-ehs entity without "TSN field extension";
1>	reset the MAC-ehs entity [15].
8.5.61	Actions related to MU_MIMO_STATUS variable (1.28 Mcps TDD only)
If the UE receives a CELL UPDATE CONFIRM, or any reconfiguration message, the UE shall:
1>	determine the value of the MU_MIMO_STATUS variable.
The MU_MIMO_STATUS variable shall be set to TRUE only when all the following conditions are met:
1>	the variable MU_MIMO_INFO is set;
1>	either of the following conditions is met:
2>	the UE is in CELL_DCH state:
3>	the variable HS_DSCH_RECEPTION or E_DCH_TRANSMISSION is set to TRUE;
2>	the UE is in CELL_FACH state:
3>	the variable HS_DSCH_RECEPTION_CELL_FACH_STATE and COMMON_E_DCH_TRANSMISSION is set to TRUE;
If any of the above conditions is not met and the MU_MIMO_STATUS variable is set to TRUE, the UE shall:
1>	set the MU_MIMO_STATUS variable to FALSE;
1>	if the variable HS_DSCH_RECEPTION_CELL_FACH_STATE and COMMON_E_DCH_TRANSMISSION is set to TRUE or HS_DSCH_RECEPTION or E_DCH_TRANSMISSION is set to TRUE and the UE will be in CELL_PCH state:
2>	leave the variable MU_MIMO_INFO unchanged;
1>	otherwise:
2>	clear the MU_MIMO_INFO variable.
1>	trigger lower layers to stop operation in MU-MIMO mode.
If only HS_DSCH_RECEPTION is set to TRUE and IE "MU-MIMO operation" has the value other than " Downlink " or if only E_DCH_TRANSMISSION is set to TRUE and IE "MU-MIMO operation" has the value other than "Uplink", the UE behaviour is unspecified.
8.5.62	Actions related to MULTI_CARRIER_ E_DCH_TRANSMISSION variable (1.28Mcps TDD only)
The variable MULTI_CARRIER_ E_DCH_TRANSMISSION shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the UE has stored IE "Multi-carrier E-DCH Info for LCR TDD";
1>	the variable E_DCH_TRANSMISSION is set to TRUE;
1>	the UE has not stored IE "Non-scheduled transmission grant info"
If any of the above conditions are not met and the variable MULTI_CARRIER_ E_DCH_TRANSMISSION is set to TRUE, the UE shall:
1>	set the variable MULTI_CARRIER_ E_DCH_TRANSMISSION to FALSE;
1>	stop any E-AGCH, E-HICH reception procedures on all additional E-DCH carriers;
1>	stop any E-PUCH transmission procedures on all additional E-DCH carriers;
1>	release all E-DCH HARQ resources for all additional E-DCH carriers;
1>	clear any stored IE "Multi-carrier E-DCH Info for LCR TDD";
If all of the above conditions are met and the variable MULTI_CARRIER_ E_DCH_TRANSMISSION is set to FALSE, the UE shall:
1>	set the variable MULTI_CARRIER_ E_DCH_TRANSMISSION to TRUE;
1>	reset the MAC-i/is entity [15].
Whenever the variable MULTI_CARRIER_ E_DCH_TRANSMISSION is set to TRUE, the UE shall:
1>	perform E-AGCH reception procedures on the additional E-DCH carrier according to the stored IE "Multi-carrier E-DCH Info for LCR TDD";
1>	perform E-HICH reception procedures on the additional E-DCH carrier according to the stored IE "Multi-carrier E-DCH Info for LCR TDD";
1>	perform uplink E-PUCH transmission on the additional E-DCH carrier according to the stored IE "Multi-carrier E-DCH Info for LCR TDD";
1>	inclusion of MAC-d PDU's in a MAC-i PDU for logical channels on the additional E-DCH carrier shall:
2>	be performed in accordance with the received scheduling grant on E-AGCH (see [15]) on the additional E-DCH carrier;
Whenever the variable MULTI_CARRIER_ E_DCH_TRANSMISSION is set to FALSE, the UE shall:
1>	not perform E-AGCH, E-HICH reception procedures on any additional E-DCH carrier;
1>	not perform E-PUCH transmission procedures on any additional E-DCH carrier.
8.5.63	Logged Measurements Configuration
8.5.63.1	General

Figure 8.5.63.1-1: Logged measurements configuration
The purpose of this procedure is to configure the UE to perform logging of measurement results while in IDLE mode, CELL_PCH, URA_PCH and CELL_FACH state when second DRX cycle is used.
NOTE:	UTRAN may retrieve stored logged measurement information by means of the UE Information procedure.
8.5.63.2	Initiation
UTRAN initiates the logged measurements configuration procedure to the UE by sending the LOGGING MEASUREMENT CONFIGURATION message.
8.5.63.3	Reception of LOGGING MEASUREMENT CONFIGURATION by the UE
Upon receiving the LOGGING MEASUREMENT CONFIGURATION message the UE shall:
1>	if IE "Logged Measurements Configuration Info" is present:
2>	if stored, discard the existing logged measurement configuration as well as the logged measurement information as specified in 8.5.66;
2>	store the received IEs "Logging Duration", "Logging Interval", "Area Configuration" if included in IE "Logged Measurements Configuration Info" in variable LOGGED_MEAS_CONFIG and IEs "Absolute Time Info", "Trace reference", "Trace recording session" and "TCE Id" in variable LOGGED_MEAS_REPORT_VARIABLE;
2>	if the IE "PLMN Identity List" is present, store it in variable LOGGED_MEAS_REPORT_VARIABLE;
2>	add the current Registered PLMN to the contents of the IE "PLMN Identity List" in variable LOGGED_MEAS_REPORT_VARIABLE;
2>	start timer T326 with the timer value set to the IE "Logging Duration".
NOTE:	The UE should not stop timer T326 unless explicitly stated when it moves to another RAT.
1>	if IE "Logged ANR configuration Info" is present:
2>	if variable LOG_ANR_CONFIG was already stored, discard the existing logged measurement configuration for ANR purpose as well as the associated logged measurement information as specified in 8.5.68;
2>	store the received IEs in the IE "Logged ANR configuration Info" in variable LOG_ANR_CONFIG;
2>	store the current Registered PLMN in the IE "PLMN Identity" in variable LOG_ANR_REPORT_VARIABLE;
2>	store the list of Equivalent PLMNs in the IE "Equivalent PLMN Identity List" in variable LOG_ANR_REPORT_VARIABLE;
2>	start timer T327 with the timer value set to the IE "Logging Duration" included in IE "Logged ANR configuration Info".
8.5.63.4	T326 Expiry
When timer T326 expires, the UE shall:
1>	release variable LOGGED_MEAS_CONFIG.
The UE is allowed to release stored logged measurements, i.e. to release LOGGED_MEAS_REPORT_VARIABLE 48 hours after T326 expiry.
8.5.63.5	T327 Expiry
When timer T327 expires, the UE shall:
1>	stop perfoming ANR measurement and logging, release the variable LOG_ANR_CONFIG.
NOTE:	The UE should not stop timer T327 upon transition to Idle mode, when it moves to another RAT or a PLMN not included in the IE "PLMN Identity" or IE "Equivalent PLMN Identity List" stored in variable LOG_ ANR_REPORT_VARIABLE. The UE is allowed to keep the stored logged ANR measurements, i.e. to store LOG_ANR_REPORT_VARIABLE 48 hours after T327 starts.
8.5.64	UE INFORMATION
8.5.64.1	General

Figure 8.5.64.1-1: UE INFORMATION Procedure
The purpose of this procedure is to to request the UE to report information.
8.5.64.2	Initiation
The procedure is initiated when the UTRAN sends a UE INFORMATION REQUEST to the UE.
8.5.64.3	Reception of the UE INFORMATION REQUEST message by the UE
UE Shall:
1>	if IE "Logged Measurements Report Request" is present:
2>	if Registered PLMN is present in the IE "PLMN Identity List" stored in variable LOGGED_MEAS_REPORT_VARIABLE:
3>	if an IE "Logged Measurement Info-FDD" or "Logged Measurement Info-TDD" in variable LOGGED_MEAS_REPORT_VARIABLE is present:
4>	set IE "Logged Meas Report" in the UE INFORMATION RESPONSE as follows:
5>	include the IE "Absolute Time Info" and set it to the value of the IE "Absolute Time Info" in the variable LOGGED_MEAS_REPORT_VARIABLE;
5>	include the IE "Trace reference" and set it to the value of IE "Trace reference" in the variable LOGGED_MEAS_REPORT_VARIABLE;
5>		include the IE "Trace recording session" and set it to the value of IE"Trace recording session" in the variable LOGGED_MEAS_REPORT_VARIABLE;
5>		include the IE "TCE Id" and set it to the value of IE "TCE Id" in the variable LOGGED_MEAS_REPORT_VARIABLE;
5>	include the IEs "Logged Measurement Info-FDD" or "Logged Measurement Info-TDD" and set it to include, in the same order as logged, one or more entries from LOGGED_MEAS_REPORT_VARIABLE;
5>	clear the logged measurement results included in the list of IEs "Logged Measurement Info-FDD" or "Logged Measurement Info-TDD" from LOGGED_MEAS_REPORT_VARIABLE;
5>	if the variable LOGGED_MEAS_REPORT_VARIABLE is not empty:
6>	include IE "Logged Meas Available";
1>	if IE "Logged ANR Report Request" is present:
2>	if Registered PLMN is the same as one of the PLMNs in the IE "PLMN Identity" or IE "Equivalent PLMN Identity List" stored in variable LOG_ANR_REPORT_VARIABLE:
3>	if IE "Logged ANR Report Info" in variable LOG_ANR_REPORT_VARIABLE is present:
4> set IEs "Logged ANR Report Info" in the UE INFORMATION RESPONSE as follows:
5>	include the IEs "Logged ANR Report Info List" and set it to include entries from LOG_ANR_REPORT_VARIABLE;
5>	clear the logged measurement results included in the list of IEs "Logged ANR Report Info List" from the LOG_ANR_REPORT_VARIABLE;
5>	clear the variable LOG_ANR_CONFIG and stop timer T327.
1>	if IE "Connection Establishment Failure Request" is present:
2>	if Registered PLMN is the same as the PLMN in the IE "PLMN Identity" stored in variable LOGGED_CONNECTION_ESTABLISHMENT_FAILURE:
3>	set IE "Connection Establishment Failure Report" in the UE INFORMATION RESPONSE as follows:
4>	include the IE "Logged Connection Establishment Failure Info-FDD" or "Logged Connection Establishment Failure Info-TDD" and set it to include the entry from the variable LOGGED_CONNECTION_ESTABLISHMENT_FAILURE;
4>	set the IE "Time Since Failure" to indicate the elapsed time starting from the Logging of the Connection establishment failure information that is stored in the variable LOGGED_CONNECTION_ESTABLISHMENT_FAILURE.
3>	clear the variable LOGGED_CONNECTION_ESTABLISHMENT_FAILURE;
1>	transmit a UE INFORMATION RESPONSE message on the uplink DCCH using AM RLC.
8.5.64.4	Reception of the UE INFORMATION RESPONSE message by the UTRAN
Upon receiving an UE INFORMATION RESPONSE message, UTRAN may:
1>	if the message includes the IE “Logged Meas Available” send a further UE INFORMATION REQUEST
8.5.65	Measurements logging
When in idle mode, CELL_PCH, URA_PCH states or CELL_FACH state when second DRX cycle is used and Logged Measurements has been configured, the UE shall:
1>	Store the available measurements according to the logged measurements configuration in LOGGED_MEAS_CONFIG variable as specified in subclause 8.5.65.2.
8.5.65.1	General
This procedure specifies the logging of available measurements by a UE in idle mode, CELL_PCH, URA_PCH states or CELL_FACH state when second DRX cycle is used that has logged measurements configuration
8.5.65.2	Initiation
While T326 is running, the UE shall:
1>	perform this logging in accordance with the following:
2>	perform the logging while camping normally on an UTRA cell and the RPLMN of the UE is present in the "PLMN Identity List" stored in LOGGED_MEAS_REPORT_VARIABLE and, if the IE "Area Configuration" is present in variable LOGGED_MEAS_CONFIG, that is part of the concerned area;
2>	perform the logging at regular intervals, as defined by the IE "Logging Interval"in variable LOGGED_MEAS_CONFIG;
2>	when adding a logged measurement entry in variable LOGGED_MEAS_REPORT_VARIABLE, include the fields in accordance with the following:
3>	set the IE "Relative Time Stamp" to indicate time relative to the moment at which the logged measurement configuration was received;
3>	if GNSS location information became available during the last logging interval:
4>	if the UE has been able to calculate a 3-dimensional position:
5>	set IE "Ellipsoid point with altitude" or the IE "Ellipsoid point with altitude and uncertainty ellipsoid" to include the location coordinates;
4>else:
5>	set IE "Ellipsoid point" or the IE "Ellipsoid point with uncertainty circle" or the IE "Ellipsoid point with uncertainty ellipse" to include the location coordinates:
4>	a value of the IE "Confidence", different from "0" should be calculated, as the probability that the UE is located within the uncertainty region of the one of the IEs "Ellipsoid point with uncertainty ellipse" or "Ellipsoid point with altitude and uncertainty ellipsoid".
3>	set the IE "PLMN Identity" of the Logged Measurements Serving Cell to indicate the PLMN Identity of the cell the UE is camping on obtained from system information;
3>	set the IE "Cell ID" to indicate cell identity of the cell the UE is camping on obtained from system information;
3>	set the IE "CPICH Ec/N0" and "CPICH RSCP" to include measured quantities of the cell that the UE is camping on for UTRA FDD;
3>	set the "P-CCPCH RSCP" to include measured quantities for the cell that the UE is camping on for UTRA 1.28 Mcps TDD;
3>	set the IE "Logged Measurements Intra Frequency Neighbouring Cells list", "Logged Measurements Inter Frequency list", "Logged Measurements E-UTRA frequency list", "Logged Measurements E-UTRA frequency extension list", in order of decreasing ranking quantity as used for cell re-selection in each frequency for at most the following number of neighbouring cells; 6 intra-frequency and 3 inter-frequency neighbours per frequency as well as 3 inter-RAT neighbours, per frequency per RAT;
3>	set the IE "Logged Measurements GSM Neighbouring Cells list" in order of decreasing RXLEV.
NOTE:	The UE includes, only once, the latest available results of the measurement performed for cell reselection, which are performed in accordance with the regular performance requirements as specified in [19].
2>	when the memory reserved for the logging of measurements becomes full, stop timer T326 and  performs the same actions as performed upon expiry of T326, as specified in 8.5.63.4.
8.5.66		Release of Logged Measurements Configuration
8.5.66.1	General
The purpose of this procedure is to release the configuration controlling the logging of measurement results while in IDLE mode, CELL_PCH, URA_PCH states and CELL_FACH state when second DRX cycle is used as well as the logged measurement information.
8.5.66.2	Initiation
The UE initiates the procedure upon receiving a logged measurement configuration in UTRAN or in another RAT. The UE also shall initiate the procedure upon switch off or detach.
The UE shall:
1>	if stored, discard the existing logged measurement configuration as well as the logged measurement information, i.e. release the UE variables LOGGED_MEAS_CONFIG and LOGGED_MEAS_REPORT_VARIABLE and stop timer T326.
8.5.67	Measurements logging for ANR
When in idle mode, CELL_PCH, URA_PCH state or CELL_FACH state when second DRX cycle is used and Logged Measurements for ANR has been configured, the UE shall:
1>	Store the available measurements according to the logged measurements configuration in variable LOG_ANR_CONFIG as specified in subclause 8.5.67.2.
8.5.67.1	General
This procedure specifies the logging of available measurements by a UE in idle mode, CELL_PCH, URA_PCH state or CELL_FACH state when second DRX cycle is used that has logged measurements configuration.
8.5.67.2	Initiation
While T327 is running, the UE shall:
1>	perform the ANR measurements and evaluation on UTRAN, E-UTRAN or GERAN cells in accordance with the following:
2>	if IE "Intra-UTRA ANR" is included in variable LOG_ANR_CONFIG:
3>	if the UE camps normally on an UTRA cell (serving) that is part of the PLMN which is the same as one of the PLMNs in the IE "PLMN Identity" or IE "Equivalent PLMN Identity List" stored in variable LOG_ANR_REPORT_VARIABLE; and
3>	if the serving cell and UTRA cell, not included in the neighbour cell list, together have not earlier been stored by UE in an entry of "Logged ANR Report Info" in the LOG_ANR_REPORT_VARIABLE; and
3>	if the quality of the UTRA cell, not included in the neighbour cell list, exceeds the quality of the serving cell with more than the value of "Logging Relative Threshold", if this IE is present in the Logging Measurement Configuration message; and
3>	if the quality of UTRA cell, not included in the neighbour cell list, is above the value of "Absolute Threshold"; and
3>	if both the camping UTRAN cell and UTRA cell, not included in the neighbour cell list, are not CSG cells:
4>	log the ANR information into the variable LOG_ANR_REPORT_VARIABLE as follows:
5>	set the IEs "Serving PLMN Identity" to indicate the IE "PLMN Identity" included in MIB and "Serving Cell" to indicate cell identity of the cell the UE is camping on;
5>	try to acquire the corresponding system information of the UTRA cell and set to the variable LOG_ANR_REPORT_VARIABLE as follows:
6>	set the IE "Cell Identity" to indicate cell identity of this UTRA cell;
6>	set the IE "PLMN Identity" to indicate the IE "PLMN Identity" included in MIB of this UTRA cell;
6>	set the IE "UARFCN" and "Cell parameter ID" for a TDD cell or "Primary Scrambling Code" for a FDD cell.
2>	if IE "Inter-RAT ANR for E-UTRA Indicator" is included in variable LOG_ANR_CONFIG:
3>	if the UE reselected from a E-UTRA cell to an UTRA cell (serving cell) that is part of the PLMN which is the same as one of the PLMNs in the IE "PLMN Identity" or IE "Equivalent PLMN Identity List" stored in variable LOG_ANR_REPORT_VARIABLE; and
3>	if the previously camped E-UTRAN cell is not included in the blacklist for the EUTRAN frequency in SIB19 of the serving cell; and
3>	if both the previously camped E-UTRAN cell and serving cell are not CSG cells; and
3>	if the serving cell and E-UTRAN cell together have not earlier been stored by UE in an entry of "Logged ANR Report Info" in the LOG_ANR_REPORT_VARIABLE:
4>	log the ANR information into the variable LOG_ANR_REPORT_VARIABLE as follows:
5>		set the IEs "Serving PLMN Identity" to indicate the IE "PLMN Identity" included in MIB and "Serving Cell" to indicate cell identity of the serving cell;
5>	set the IE "Cell Identity" to indicate cell identity of this previously camped E-UTRAN cell;
5>	set the IE "PLMN Identity" to indicate the Primary PLMN which this previously camped E-UTRAN cell belongs to;
5>	set the IE "Tracking Area Code" to indicate the TAC which this previously camped E-UTRAN cell belongs to;
5>	set the IE "EARFCN" and the IE "EARFCN extension" when applicable and "Physical Cell Identity" of this previously camped E-UTRAN cell.
2>	if IE "Inter-RAT ANR for GSM Indicator" is included in variable LOG_ANR_CONFIG:
3>	if the UE reselected from a GSM cell to an UTRA cell (serving cell) that is part of the PLMN which is the same as one of the PLMNs in the IE "PLMN Identity" or IE "Equivalent PLMN Identity List" stored in variable LOG_ANR_REPORT_VARIABLE; and
3>	if the previously camped GSM cell is not included in the neighbour cell list in SIB11/11bis/12 of the serving cell; and
3>	if the serving cell is not a CSG cell; and
3>	if the serving cell and GSM cell, not included in the neighbour cell list, together have not earlier been stored by UE in an entry of "Logged ANR Report Info" in the LOG_ANR_REPORT_VARIABLE:
4>	log the ANR information into the variable LOG_ANR_REPORT_VARIABLE, as follows: 
5>		set the IEs "Serving PLMN Identity" to indicate the IE "PLMN Identity" included in MIB and "Serving Cell" to indicate cell identity of the serving cell;
5>	set the IE "PLMN Identity", "Cell Identity" and "LAC"  to indicate global cell identity of this previously camped GSM set cell;
5> set the IE "BSIC", "BCCH ARFCN" and "Band Indicator" of this previously camped GSM set cell.
2>	when maximum number of entries for the ANR logging is reached, stop timer T327 and perform the same actions as upon expiry of T327, as specified in 8.5.63.5.
8.5.68	Release of ANR Logging Measurements Configuration
8.5.68.1	General
The purpose of this procedure is to release the Logged ANR Configuration controlling the logging of measurement results while in IDLE mode, CELL_PCH, URA_PCH states and CELL_FACH state when second DRX cycle is used as well as the logged measurement information.
8.5.68.2	Initiation
The UE initiates the procedure to release the existing logging measurements configuration upon receiving a new Logged ANR Configuration in UTRAN. The UE also shall initiate the procedure after sending UE INFORMATION RESPONSE message as well as upon switch off or detach.
The UE shall:
1>	if stored, discard the existing logged measurement configuration as well as the logged measurement information, i.e. release the UE variables LOG_ANR_CONFIG and LOG_ANR_REPORT_VARIABLE and stop timer T327.
8.5.69	Actions related to UPLINK_CLTD_TRANSMISSION variable (FDD only)
The variable UPLINK_CLTD_TRANSMISSION shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the UE has stored IE "Uplink CLTD info FDD";
1>	the UE has stored IE "F-TPICH info" for the radio link transmitted from the serving HS-DSCH cell if HS-DSCH is configured or from the cell identified by the IE "Primary CPICH info" in the IE "Uplink CLTD info FDD" if only DCH is configured;
1>	the UE is configured with MAC-i/is if E-DCH is configured;
1>	the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to FALSE if the UE supports Dual Cell E-DCH operation.
If any of the above conditions is not met and the variable UPLINK_CLTD_TRANSMISSION is set to TRUE, the UE shall:
1>	set the variable UPLINK_CLTD_TRANSMISSION to FALSE;
1>	stop the F-TPICH reception procedure;
1>	trigger lower layers to stop the uplink CLTD transmission;
1>	clear the stored IE "Uplink CLTD info FDD".
If all of the above conditions are met and the variable UPLINK_CLTD_TRANSMISSION is set to FALSE, the UE shall:
1>	set the variable UPLINK_CLTD_TRANSMISSION to TRUE;
1>	instruct the physical layer to switch to the uplink CLTD activation state as indicated by the IE "Initial CLTD activation state" (see [27]).
Whenever the variable UPLINK_CLTD_TRANSMISSION is set to TRUE, the UE shall:
1>	perform the F-TPICH reception procedure;
1>	trigger lower layers to perform the uplink CLTD transmission.
Whenever the variable UPLINK_CLTD_TRANSMISSION is set to FALSE, the UE shall:
1>	not perform the F-TPICH reception procedure;
1>	not perform the uplink CLTD transmission.
If the variable UPLINK_CLTD_TRANSMISSION is set to TRUE and the serving HS-DSCH cell was changed as a result of the received message or HS-SCCH order from the target cell, and the IE "Initial CLTD activation state" is included, the UE shall instruct the physical layer to switch to the uplink CLTD activation state as indicated by the IE "Initial CLTD activation state" (see [27]).
If the variable UPLINK_CLTD_TRANSMISSION is set to TRUE, and the serving HS-DSCH cell was changed as a result of the received message or HS-SCCH order from the target cell, and the IE "Uplink CLTD info FDD" is included, and the IE "Initial CLTD activation state" is not included, the UE shall instruct the physical layer to remember the received uplink CLTD activation state switching HS-SCCH orders.
If the variable UPLINK_CLTD_TRANSMISSION is set to TRUE, and the value of IE "Configuration info" contained in the IE "Uplink CLTD info FDD" is set to either "Continue" or "New configuration", and the serving HS-DSCH cell was not changed as a result of the received message, the UE shall instruct the physical layer to remember the received uplink CLTD activation state switching HS-SCCH orders.
8.5.70	Actions related to UPLINK_OLTD_TRANSMISSION variable (FDD only)
The variable UPLINK_OLTD_TRANSMISSION shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the UE has stored IE "Uplink OLTD info FDD";
1>	the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to FALSE if the UE supports Dual Cell E-DCH operation.
If any of the above conditions is not met and the variable UPLINK_OLTD_TRANSMISSION is set to TRUE, the UE shall:
1>	set the variable UPLINK_OLTD_TRANSMISSION to FALSE;
1>	trigger lower layers to stop the uplink OLTD transmission;
1>	clear the stored IE "Uplink OLTD info FDD".
Whenever the variable UPLINK_OLTD_TRANSMISSION is set to TRUE, the UE shall:
1>	trigger lower layers to perform the uplink OLTD transmission.
Whenever the variable UPLINK_OLTD_TRANSMISSION is set to FALSE, the UE shall:
1>	not perform the uplink OLTD transmission.
8.5.71	Actions related to MULTIFLOW_STATUS variable (FDD only)
The variable MULTIFLOW_STATUS shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the variable HS_DSCH_RECEPTION is TRUE;
1>	at least one of the entries in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is TRUE;
1>	the IE "Multiflow configuration" is present in all the entries in DOWNLINK_SECONDARY_CELL_INFO.
If any of the above conditions is not met and the variable MULTIFLOW_STATUS is set to TRUE, the UE shall:
1>	set the variable MULTIFLOW_STATUS to FALSE. 
Whenever the variable MULTIFLOW_STATUS is set to TRUE, the UE shall:
1>	perform Multiflow data reception as specified in [51];
1>	indicate to lower layers value of "Multiflow configuration" IE of each entry in DOWNLINK_SECONDARY_CELL_INFO;
1>	if Multiflow configuration is four cells on three frequencies, then indicate to lower layers numbering of the first (assisting) and second (assisting) secondary serving HS-DSCH cells;
1>	for every entry in DOWNLINK_SECONDARY_CELL_INFO:
2>	if the stored UARFCN downlink (Nd) in the entry is the same as the value of the serving HS-DSCH cell:
3>	if the IE "Multiflow time reference cell" is not present:
4>	indicate to lower layers that the serving HS-DSCH cell is time reference for HS-DPCCH;
3>	else:
4>	indicate to lower layers that the cell is a time reference for HS-DPCCH;
2>	else:
3>	if the IE "Multiflow time reference cell" is present:
4>	indicate to lower layers that the cell and the time reference cell are in the same cell group as specified in [27];
3>	else:
4>	indicate to lower layers that the cell and the non-time reference cell are in the same cell group as specified in [27];
1>	If there is at least one entry in DOWNLINK_SECONDARY_CELL_INFO with the IE "Multiflow cell", value of which is set to "inter-NodeB":
2>	configure two MAC-ehs entities;
2>	associate with the first MAC-ehs entity the serving HS-DSCH cell and all the HS-DSCH cells, entries of which in DOWNLINK_SECONDARY_CELL_INFO have the IE "Multiflow cell" set to "intra-NodeB";
2>	associate with the second MAC-ehs entity all the HS-DSCH cells, entries of which in DOWNLINK_SECONDARY_CELL_INFO have the IE "Multiflow cell" set to "inter-NodeB"; 
Whenever the variable MULTIFLOW_STATUS is set to FALSE, the UE shall:
1>	stop Multiflow operation;
1>	if Timer_Reordering was configured for the receiving RLC entity:
2>	configure the receiving RLC entity not to use the corresponding function;
1>	if two MAC-ehs entities were configured for the inter-Node B Multiflow operation:
2>	configure one MAC-ehs entity;
1>	indicate to lower layers that the serving HS-DSCH cell must be used as a time reference for HS-DPCCH.
8.5.72	Selection of common E-DCH TTI (FDD only)
A common E-DCH resource may employ either 2 or 10 ms TTI. The UE shall make the selection on an appropriate TTI length according to the procedure below and indicate the selection to the lower layers.
The UE shall:
1>	if the CHOICE "TTI selection" in the IE "Concurrent Deployment of 2ms and 10ms TTI" has the value "Fixed":
2>	if "Fixed common E-DCH TTI selection" is set to "10ms":
3>	indicate a selection of common E-DCH TTI of 10 ms to the physical layer for all preamble transmissions.
2>	if "Fixed common E-DCH TTI selection" is set to "2ms":
3>	indicate a selection of common E-DCH TTI of 2 ms to the physical layer for all preamble transmissions.
1>	if the CHOICE "TTI selection" in the IE "Concurrent Deployment of 2ms and 10ms TTI" has the value "Threshold based":
2>	perform TTI selection as follows: 
3>	for the first preamble transmission:
4>	when the UE calculates the initial preamble transmit power ("Preamble_Initial_Power") as specified in subclause 8.5.7:
5>	calculate a transmit power headroom,
	Headroom = {min(Maximum allowed UL tx power, P_MAX) -		(Preamble_Initial_Power + DPp-e )}
	where "Maximum allowed UL tx power" is the maximum allowed uplink transmit power indicated in system information (in dBm), P_MAX is the maximum RF output power of the UE (dBm) and DPp-e is the Power offset between the last transmitted preamble and the initial DPCCH transmission as defined in [26].
NOTE 1:	the expression Preamble_Initial_Power + DPp-e represents the DPCCH power if the common E-DCH transmission would be sent after the initial preamble.
3>	for preamble transmissions other than the first:
4>	when the UE calculates the preamble transmit power ("Commanded Preamble Power") as specified [29] subclause 6.1A:
5>	calculate a transmit power headroom,
	Headroom = {min(Maximum allowed UL tx power, P_MAX) -		(Commanded Preamble Power + DPp-e )}
	where "Maximum allowed UL tx power" is the maximum allowed uplink transmit power indicated in system information (in dBm), P_MAX is the maximum RF output power of the UE (dBm) and DPp-e is the Power offset between the last transmitted preamble and the initial DPCCH transmission as defined in [26].
3>	if the resulting "Headroom" value is less than "Common E-DCH TTI selection threshold":
4>	indicate a selection of common E-DCH TTI of 10 ms to the physical layer for the preamble transmission.
3>	else:
4>	indicate a selection of common E-DCH TTI of 2 ms to the physical layer for the preamble transmission.
2>	for emergency call, the UE is allowed to select a common E-DCH TTI of 10ms.
8.5.73	PRACH preamble control parameters selection with Concurrent Deployment of 2ms and 10ms TTI (for Enhanced Uplink, FDD only)
If the UE supports concurrent deployment and System Information Block type 22 includes the IE "Concurrent deployment of 2ms and 10ms TTI", the UE shall select PRACH preamble control parameters (for Enhanced Uplink) according to the following rule. The UE shall:
1>	for common E-DCH TTI value equal to 10ms:
2>	if the IE "PRACH preamble control parameters extension list Type 1 (for Enhanced Uplink)" is included in System Information Block 22:
3>	compile a list of candidate PRACH preamble control parameters from the IE "PRACH preamble control parameters extension list Type 1 (for Enhanced Uplink)" included in System Information Block 22, and if the TTI signalled in the IE "E-DCH Transmission Time Interval" is equal to 10ms, the IE "PRACH preamble control parameters (for Enhanced Uplink)" included in "Common E-DCH system info" in System Information Block 5/5bis, in the order of appearance as in System Information Block 22 followed by System Information Block 5/5bis, respectively;
3>	select PRACH preamble control parameters randomly from the candidate list as follows:
	"Index of selected PRACH preamble control parameters (for Enhanced Uplink)" = rand
	where "rand" is a random number taking integer values i, 0  i < K with probability given by the (i+1)th occurrence of the weight value in the list of candidate PRACH preamble control parameters and K is equal to the number of candidate PRACH preamble control parameters.

If any of the K-1 occurrences of the IE "Weight" is not present, "rand" is a random number taking integer values i, 0  i < K with equal probability. The candidate PRACH preamble control parameters shall be indexed from 0 to K-1. The random number generator is left to implementation. At start-up of the random number generator in the UE the seed shall be dependent on the IMSI of the UE or time, thereby avoiding that all UEs select the same parameters;
NOTE:	The Kth occurrence of the weight value is not explicitly given but calculated by UE, see 			10.3.6.134.
3>	configure and use the MAC and the physical layer for the PRACH preamble transmission according to the parameters included in the selected IE "PRACH preamble control parameters (for Enhanced Uplink)".
3>	for emergency call, the UE is allowed to select any of the PRACH preamble control parameters from the candidate list.
2>	else:
3>	configure and use the MAC and the physical layer for the PRACH preamble transmission according to the parameters included in the selected "PRACH preamble control parameters (for Enhanced Uplink)" IE according to [15] if the TTI signalled in the IE "E-DCH Transmission Time Interval" is equal to 10ms.
1>	for common E-DCH TTI value equal to 2ms:
2>	if the UE supports TTI alignment and Per HARQ process and System Information Block type 22 includes the IE "PRACH preamble control parameters extension list Type 3 (for Enhanced Uplink)", and either of the IE’s "Coffset" or "Scheduled Transmission configuration":
3>	compile a list of candidate PRACH preamble control parameters from the IE "PRACH preamble control parameters extension list Type 3 (for Enhanced Uplink)" included in System Information Block 22, in the order of appearance as in System Information Block 22.
2>	else if System Information Block type 22 includes the IE "PRACH preamble control parameters extension list Type 2 (for Enhanced Uplink)":
3>	compile a list of candidate PRACH preamble control parameters from the IE "PRACH preamble control parameters extension list Type 2 (for Enhanced Uplink)" included in System Information Block 22, in the order of appearance as in System Information Block 22.
2>	else:
3>	the UE behaviour is not specified.
2>	select PRACH preamble control parameters randomly from the candidate list as follows:
	"Index of selected PRACH preamble control parameters (for Enhanced Uplink)" = rand
	where "rand" is a random number taking integer values i, 0  i < L with probability given by the (i+1)th occurrence of the IE "Weight" in the list of candidate PRACH preamble control parameters and L is equal to the number of candidate PRACH preamble control parameters. If any of the first L-1 occurences of the IE "Weight" is not present, "rand" is a random number taking integer values i, 0  i < L with equal probability. The candidate PRACH preamble control parameters shall be indexed from 0 to L-1. The random number generator is left to implementation. At start-up of the random number generator in the UE the seed shall be dependent on the IMSI of the UE or time, thereby avoiding that all UEs select the same parameters;
NOTE:	The Lth occurrence of the weight value is not explicitly given but calculated by UE, see 10.3.6.135.
2>	configure and use the MAC and the physical layer for the PRACH preamble transmission according to the parameters included in the selected IE "PRACH preamble control parameters (for Enhanced Uplink)".
2>	for emergency call, the UE is allowed to select any of the PRACH preamble control parameters from the candidate list.
1>	reselect the PRACH preamble control parameters when a new cell is selected. PRACH preamble control parameter reselection may also be performed at the start of each Enhanced Uplink in CELL_FACH state and IDLE mode transmission.
8.5.74	PRACH preamble control parameters selection without Concurrent Deployment of 2ms and 10ms TTI (for Enhanced Uplink, FDD only)
The UE shall select PRACH preamble control parameters (for Enhanced Uplink) according to the following rule. The UE shall:
1>	if the TTI signalled in the IE "E-DCH Transmission Time Interval" is equal to 10ms:
2>	if the IE "PRACH preamble control parameters extension list Type 1 (for Enhanced Uplink)" is included in System Information Block 22:
3>	compile a list of candidate PRACH preamble control parameters from the IE "PRACH preamble control parameters extension list Type 1 (for Enhanced Uplink)" included in System Information Block 22 and the IE "PRACH preamble control parameters (for Enhanced Uplink)" included in "Common E-DCH system info" in System Information Block 5/5bis, in the order of appearance as in System Information Block 22 followed by System Information Block 5/5bis, respectively;
3>	select PRACH preamble control parameters randomly from the candidate list as follows:
	"Index of selected PRACH preamble control parameters (for Enhanced Uplink)" = rand
	where "rand" is a random number taking integer values i, 0  i < K with probability given by the (i+1)th occurrence of the weight value in the list of candidate PRACH preamble control parameters and K is equal to the number of candidate PRACH preamble control parameters. If any of the K-1 occurences of the IE "Weight" is not present, "rand" is a random number taking integer values i, 0  i < K with equal probability. The candidate PRACH preamble control parameters shall be indexed from 0 to K-1. The random number generator is left to implementation. At start-up of the random number generator in the UE the seed shall be dependent on the IMSI of the UE or time, thereby avoiding that all UEs select the same parameters;
NOTE:	The Kth occurrence of the weight value is not explicitly given but calculated by UE, see 					10.3.6.134.
3>	configure and use the MAC and the physical layer for the PRACH preamble transmission according to the parameters included in the selected IE "PRACH preamble control parameters (for Enhanced Uplink)".
3>	for emergency call, the UE is allowed to select any of the PRACH preamble control parameters from the candidate list.
2>	else:
3>	configure and use the MAC and the physical layer for the PRACH preamble transmission according to the parameters included in the selected "PRACH preamble control parameters (for Enhanced Uplink)" IE according to [15].
1>	else:
2>	configure and use the MAC and the physical layer for the PRACH preamble transmission according to the parameters included in the selected "PRACH preamble control parameters (for Enhanced Uplink)" IE according to [15].
1>	reselect the PRACH preamble control parameters when a new cell is selected. PRACH preamble control parameter reselection may also be performed at the start of each Enhanced Uplink in CELL_FACH state and IDLE mode transmission.
8.5.75	Actions related to READY_FOR_COMMON_ERGCH variable (FDD only)
The variable READY_FOR_COMMON_ERGCH shall be set to TRUE only when all the following conditions are met:
1>	if the UE is in CELL_FACH state:
2>	the UE supports Common E-RGCH Based Interference Control;
2>	the UE has stored IE "Common E-RGCH info FDD";
2>	if System Information Block type 11 is scheduled on the BCCH:
3>	the UE has read and stored the IEs present in this System Information Block.
2>	if System Information Block type 11bis is scheduled on the BCCH:
3>	the UE has read and stored the IEs present in this System Information Block.
2>	if System Information Block type 12 is scheduled on the BCCH:
3>	the UE has read and stored the IEs present in this System Information Block.
1>	if the UE is in CELL_PCH state: 
2>	the UE supports HS-DSCH reception in CELL_PCH and URA_PCH state;
2>	the IE "HS-DSCH paging system information" is included in system information block type 5 or 5bis;
2>	variable H_RNTI is set;
2>	variable E_RNTI is set;
2>	variable C_RNTI is set;
2>	the UE supports Common E-RGCH Based Interference Control;
2>	the UE has stored IE "Common E-RGCH info FDD";
2>	if System Information Block type 11 is scheduled on the BCCH:
3>	the UE has read and stored the IEs present in this System Information Block.
2>	if System Information Block type 11bis is scheduled on the BCCH:
3>	the UE has read and stored the IEs present in this System Information Block.
2>	if System Information Block type 12 is scheduled on the BCCH:
3>	the UE has read and stored the IEs present in this System Information Block.
If any of the above conditions is not met and the variable READY_FOR_COMMON_ERGCH is set to TRUE, the UE shall:
1>	set the variable READY_FOR_COMMON_ERGCH to FALSE;
1>	clear the stored IE "Common E-RGCH info FDD".
Whenever the variable READY_FOR_COMMON_ERGCH is set to FALSE, the UE shall:
1>	not consider any radio link to be a Common E-RGCH RL.
Whenever the variable READY_FOR_COMMON_ERGCH is set to TRUE, the UE shall:
1>	configure the MAC to use reference_ETPR2.
8.5.76	Actions related to FALLBACK_R99_PRACH_ENABLED variable (FDD only)
The variable FALLBACK_R99_PRACH_ENABLED shall be set to TRUE only when all the following conditions are met:
1>	the variable READY_FOR_FALLBACK_R99_PRACH is set to TRUE;
1>	"E-DCH resource index" received is equal to -1;
1>	either of the following conditions is met:
2>	the IE "CCCH Fallback" is set to TRUE and there is CCCH message(s) for transmission on the uplink;
2>	the IE "DCCH Fallback" is set to TRUE and there is DCCH message(s) for transmission on the uplink.
If any of the above conditions is not met and the variable FALLBACK_R99_PRACH_ENABLED is set to TRUE, the UE shall:
1>	set the variable FALLBACK_R99_PRACH_ENABLED to FALSE;
If the UE receives "Fallback transmission termination" from MAC with the CMAC-STATUS primitive, the UE shall:
1>	set the variable FALLBACK_R99_PRACH_ENABLED to FALSE.
If variable FALLBACK_R99_PRACH_ENABLED is set to TRUE:
1>	replace the TFS of the RACH with the one stored in the UE if any; 
1>	let the physical channel(s) of type PRACH given by the IE(s) "PRACH info" be the default in uplink for the PRACH if UE is in CELL_FACH state;
1>	start to receive the physical channel of type AICH using the parameters given by the IE "AICH info" (FDD only) when given allocated PRACH is used;
1>	if the IE "Additional Dynamic Transport Format Information for CCCH" is included for the selected PRACH:
2>	use this transport format for transmission of the CCCH.
1>	else:
2>	use the first instance of the list of transport formats as in the IE "RACH TFS" for the used RACH received in the IE "PRACH system information list" when using the CCCH.
1>	select PRACH according to subclause 8.5.17;
If the variable FALLBACK_R99_PRACH_ENABLED is set from TRUE to FALSE and the variable READY_FOR_COMMON_EDCH is set to TRUE:
1>	use the Enhanced Uplink in CELL_FACH state and Idle mode as specified in section 8.5.45.
8.5.77	Actions related to READY_FOR_FALLBACK_R99_PRACH variable (FDD only)
The variable READY_FOR_FALLBACK_R99_PRACH shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_FACH state or in Idle mode;
1>	the variable READY_FOR_COMMON_EDCH is set to TRUE;
1>	the IE "Fallback R99 PRACH info" is included in system information block type 22;
1>	UE supports fallback to R99 PRACH;
1>	the IE "E-AI Indication" is set to TRUE;
1>	for each configured radio bearer:
2>	if the radio bearer is mapped to CCCH and IE "CCCH Fallback" is set to TRUE; or
2>	if the radio bearer is mapped to DCCH and IE "DCCH Fallback" is set to TRUE:
3>	the RB has a multiplexing option with transport channel type "HS-DSCH" for the DL, and the corresponding MAC-ehs reordering queue is configured, and transport channel type "RACH" for the UL.
3>	if the radio bearer is mapped to DCCH and IE "DCCH Fallback" is set to TRUE, then for any logical channel(s) corresponding to that radio bearer:
4>	the RLC sizes that apply for the logical channel with transport channel type "RACH" for the UL are the same as the RLC sizes that apply for that logical channel with transport channel type "E-DCH" for the UL, as per subclause 8.5.21.
If any of the above conditions is not met and the variable READY_FOR_FALLBACK_R99_PRACH is set to TRUE, the UE shall:
1>	set the variable READY_FOR_FALLBACK_R99_PRACH to FALSE;
If variable READY_FOR_FALLBACK_R99_PRACH is set to TRUE:
1>	configure the MAC for CCCH and DCCH fallback according to the IE’s "CCCH Fallback" and "DCCH Fallback" respectively.
8.5.78	Actions related to MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable (FDD only)
If the UE receives an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message:
1>	if the IE "MIMO mode with four transmit antennas parameters" is not included:
2>	clear the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable;
2>	trigger lower layers to stop operation in MIMO mode with four transmit antennas.
1>	otherwise:
2>	if the IE "MIMO mode with four transmit antennas  N_cqi_typeA/M_cqi ratio" is included:
3>	store the value of the IE "MIMO mode with four transmit antennas  N_cqi_typeA/M_cqi ratio" in the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable.
2>	if the IE "MIMO mode with four transmit antennas pilot configuration" is included:
3>	store the value of the IE "MIMO mode with four transmit antennas pilot configuration" in the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable.
8.5.79	Actions related to MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable(FDD only)
If the UE receives an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message, the UE shall:
1>	take actions related to the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable as specified in subclause 8.5.78;
1>	determine the value of the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable.
The MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable shall be set to TRUE only when all the following conditions are met:
1>	The UE is in CELL_DCH state;
1>	the variable HS_DSCH_RECEPTION is set to TRUE;
1>	the variable MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS contains a value for the IE "MIMO mode with four transmit antennas  N_cqi_typeA/M_cqi ratio"; and
1>	the variable MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS contains a value for the IE "MIMO mode with four transmit antennas pilot configuration".
If any of the above conditions is not met and the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable is set to TRUE, the UE shall:
1>	set the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable to FALSE;
1>	clear the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable;
1>	trigger lower layers to stop operation in MIMO mode with four transmit antennas on the serving HS-DSCH cell.
If the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable is set to FALSE and the variable HS_DSCH_RECEPTION is set to TRUE:
1>	if prior to receiving an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message, the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable was set to TRUE:
2>	if the IE "HARQ info" is not included in the received message:
3>	the UE behaviour is unspecified.
If the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable is set to TRUE:
1>	if prior to receiving an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message, the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable was set to FALSE:
2>	if the IE "HARQ info" is not included in the received message:
3>	the UE behaviour is unspecified.
1>	when MIMO mode with four transmit antennas is configured:
2>	if MAC-ehs is not configured:
3>	the UE behaviour is undefined.
8.5.80	Actions related to SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable (FDD only)
If the UE receives an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message which includes the IE "Downlink secondary cell info FDD" for any of the secondary serving HS-DSCH cells, the UE shall:
1>	if the IE "Secondary cell MIMO mode with four transmit antennas parameters" is not included in the IE "Downlink secondary cell info FDD":
2>	clear the corresponding entry in the SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable.
1>	if the CHOICE "Configuration Info" in the IE "Secondary cell MIMO mode with four transmit antennas parameters" has the value "Continue":
2>	continue using the stored parameters in the corresponding entry in the SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable.
1>	otherwise:
2>	if the IE "MIMO mode with four transmit antennas  N_cqi_typeA/M_cqi ratio" is included:
3>	store the value of the IE "MIMO mode with four transmit antennas  N_cqi_typeA/M_cqi ratio" in the corresponding entry in the SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable.
2>	if the IE "MIMO mode with four transmit antennas pilot configuration" is included:
3>	store the value of the IE "MIMO mode with four transmit antennas pilot configuration" in the corresponding entry in the SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable.
1>	determine the value of the SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable for the corresponding secondary serving HS-DSCH cell.
The SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable shall be set to TRUE for a secondary serving HS-DSCH cell only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the corresponding entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE for that secondary serving HS-DSCH cell;
1>	the corresponding entry in the variable SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS contains a value for the IE "MIMO mode with four transmit antennas  N_cqi_typeA/M_cqi ratio"; and
1>	the corresponding entry in the variable SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS contains a value for the IE "MIMO mode with four transmit antennas pilot configuration".
If any of the above conditions is not met and the SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable is set to TRUE for that secondary serving HS-DSCH cell, the UE shall:
1>	set the entry in the SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable corresponding to that secondary serving HS-DSCH cell to FALSE;
1>	clear the entry in the SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS variable corresponding to that secondary serving HS-DSCH cell;
1>	trigger lower layers to stop MIMO mode with four transmit antennas operation on that secondary serving HS-DSCH cell;
1>	when MIMO mode with four transmit antennas is configured:
2>	if MAC-ehs is not configured:
3>	the UE behaviour is undefined.
Whenever the entry in the variable SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS is set to TRUE for a secondary serving HS-DSCH cell, the UE shall:
1>	if the UE supports MIMO mode with four transmit antennas only with dual stream restriction:
2>	indicate to lower layers to start operation in MIMO mode with four transmit antennas restricted to dual stream transmission on that secondary serving HS-DSCH cell, using the parameter values stored in the corresponding entry in the variable SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS.
1>	else:
2>	indicate to lower layers to start operation in MIMO mode with four transmit antennas on that secondary serving HS-DSCH cell, using the parameter values stored in the corresponding entry in the variable SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS.
1>	when MIMO mode with four transmit antennas only with dual stream restriction is configured:
2>	if MAC-ehs is not configured:
3>	the UE behaviour is undefined.
8.5.81	Actions related to UPLINK_MIMO_TRANSMISSION variable (FDD only)
The variable UPLINK_MIMO_TRANSMISSION shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the variable UPLINK _CLTD_TRANSMISSION is set to TRUE;
1>	the variable HS_DSCH_RECEPTION is set to TRUE;
1>	the variable E-DCH transmission is set to TRUE:
1>	the UE has stored IE "Uplink MIMO info FDD"; 
1>	the UE has stored IE "E-ROCH info FDD";
1>	the UE has stored "E-TFC Boost Info"; 
1>	the UE is configured with MAC-i/is.
If any of the above conditions is not met and the variable UPLINK_MIMO_TRANSMISSION is set to TRUE, the UE shall:
1>	set the variable UPLINK_MIMO_TRANSMISSION to FALSE;
1>	indicate to lower layers to stop the uplink MIMO transmission;
1>	do not configure "TSN field extension" for the MAC-i/is entity;
1>	reset the MAC-i/is entity;
1>	clear the stored IE "Uplink MIMO info FDD";
1>	if configured, clear the stored E-HICH configuration for the secondary stream.
If all of the above conditions are met and the variable UPLINK_MIMO_TRANSMISSION is set to FALSE, the UE shall:
1>	set the variable UPLINK_MIMO_TRANSMISSION to TRUE;
1>	reset MAC-i/is entity;
1>	configure "TSN field extension" for MAC-i/is entity;
1>	indicate to lower layers to start the uplink MIMO transmission in rank1.
Whenever the variable UPLINK_MIMO_TRANSMISSION is set to FALSE, the UE shall:
1>	stop the uplink MIMO transmission.
If the variable UPLINK_MIMO_TRANSMISSION is set to TRUE and the serving HS-DSCH cell was changed as a result of the received message or HS-SCCH order from the target cell, the UE shall instruct the physical layer to switch to the uplink MIMO transmission in rank1.
8.5.82	Actions related to NON_RECTANGULAR_RESOURCE_ALLOCATION_STATUS variable (1.28 Mcps TDD only)
The NON_RECTANGULAR_RESOURCE_ALLOCATION_STATUS variable shall be set to TRUE only when all the following conditions are met:
1>	the IE "Non-rectangular resource allocation indicator" is present;
1>	the UE is in CELL_DCH state;
1>	the variable HS_DSCH_RECEPTION or E_DCH_TRANSMISSION is set to TRUE;
If any of the above conditions is not met and the NON_RECTANGULAR_RESOURCE_ALLOCATION_STATUS variable is set to TRUE, the UE shall:
1>	set the NON_RECTANGULAR_RESOURCE_ALLOCATION_STATUS variable to FALSE;
1>	trigger lower layers to stop operation in non-rectangular resource allocation mode.
Whenever the variable NON_RECTANGULAR_RESOURCE_ALLOCATION_STATUS is set to TRUE, the UE shall:
1>	trigger lower layers to start operation in non-rectangular resource allocation mode.
8.5.83	Actions related to DPCCH2_TRANSMISSION variable (FDD only)
The DPCCH2_TRANSMISSION variable shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the UE has stored IE "DPCCH2 info FDD";
1>	the variable HS_DSCH_RECEPTION is set to TRUE.
If any of the above conditions is not met and the DPCCH2_TRANSMISSION variable is set to TRUE, the UE shall:
1>	set the DPCCH2_TRANSMISSION variable to FALSE;
1>	trigger lower layers to stop DPCCH2 transmission;
1>	clear the stored IE "DPCCH2 info FDD".
If all of the above conditions are met and the variable DPCCH2_TRANSMISSION is set to FALSE, the UE shall:
1>	set the variable DPCCH2_TRANSMISSION to TRUE;
1>	trigger lower layers to perform DPCCH2 transmission.
Whenever the variable DPCCH2_TRANSMISSION is set to TRUE, the UE shall:
1>	trigger lower layers to perform DPCCH2 transmission.
Whenever the variable DPCCH2_TRANSMISSION is set to FALSE, the UE shall:
1>	not perform DPCCH2 transmission.
8.5.84	Actions related to DCH_ENHANCEMENTS_STATUS variable (FDD only)
If the UE receives an ACTIVE SET UPDATE, CELL UPDATE CONFIRM, or any reconfiguration message, the UE shall:
1>	take actions related to the IE "DCH Enhancements info FDD" as specified in subclause 8.6.6.64;
1>	determine the value of the DCH_ENHANCEMENTS_STATUS variable.
The DCH_ENHANCEMENTS_STATUS variable shall be set to TRUE only when all the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the UE supports DCH Enhancements;
1>	the UE has stored IE "DCH Enhancements info FDD".
If any of the above conditions is not met and the DCH_ENHANCEMENTS_STATUS variable is set to TRUE, the UE shall:
1>	set the DCH_ENHANCEMENTS_STATUS variable to FALSE;
1>	trigger the lower layers to stop operation with DCH Enhancements.
Whenever the variable DCH_ENHANCEMENTS_STATUS is set to TRUE, the UE shall:
1>	if the UE indicates basic support for DCH Enhancements and choice "DL FET Mode" is set to Full; or
1>	if the IE "Power offset PTPC-DPDCH" is not included for any one or more of the radio links in the active set; or
1>	if the IE "Power offset POSRB" is not included for any one or more of the radio links in the active set; or
1>	if the IE "Number of bits for Pilot bits" is not set to 0; or
1>	if the variables HS_DSCH RECEPTION or E_DCH_TRANSMISSION are set to TRUE, the variable DTX_DRX_STATUS is set to FALSE, and DL FET Basic mode is indicated in the IE "DL FET Mode"; or
1>	if the variables HS_DSCH RECEPTION or E_DCH_TRANSMISSION are set to TRUE, the variable DTX_DRX_STATUS is set to FALSE, and DL FET Full mode is indicated in the IE "DL FET Mode" with choice "UL Transmission Mode" not set to 20ms; or
1>	if "UL Transmission Mode" is configured as "10ms only" and the IE "Power offset Information 10ms Mode" is not included for each CTFC in the received message; or
1>	if "UL Transmission Mode" is configured as "10ms only" and the "Power offset Information 10ms Mode" configuration is not available for each CTFC in the current TFCS; or
1>	if "UL Transmission Mode" is configured as "10ms or 20ms" and the IE "Power offset Information 10ms Mode" is not available for at least one CTFC in the received message; or
1>	if "UL Transmission Mode" is configured as "10ms or 20ms" and the IE "Power offset Information 10ms Mode" configuration is not available for at least one CTFC in the current TFCS:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	else:
2>	trigger the lower layers to operate with DCH Enhancements in DL FET Basic mode or DL FET Full mode as indicated in the IE "DL FET Mode".
Whenever the variable DCH_ENHANCEMENTS_STATUS is set to FALSE, the UE shall:
1>	if the IE "Number of bits for Pilot bits" is set to 0:
2>	if the UE is in CELL_DCH state:
3>	set the variable INVALID_CONFIGURATION to TRUE.
8.5.85	Actions related to IMPLICIT_GRANT variable (FDD only)
The variable IMPLICIT_GRANT shall be set to TRUE only when the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to TRUE;
1>	the IE "Implicit Grant handling" is included in the IE "Uplink Secondary Cell Info FDD" and is set to TRUE; or
1>	the IE "Uplink Secondary Cell Info FDD" is included in received message with the CHOICE "Configuration info" set to "Continue" and the variable IMPLICIT_GRANT is set to TRUE.
If the above conditions are not met and the variable IMPLICIT_GRANT is set to TRUE, the UE shall:
1>	set the variable IMPLICIT_GRANT to FALSE;
1>	configure the MAC layer to stop using Implicit Grant handling on the secondary UL frequency.
If all of the above conditions are met and the variable IMPLICIT_GRANT is set to FALSE, the UE shall:
1>	set the variable IMPLICIT_GRANT to TRUE;
1>	configure the MAC layer to use Implicit Grant handling on the secondary UL frequency.
8.5.86	Actions related to reception of a HS-SCCH order for TTI switching (FDD only)
If the UE receives a TTI switch HS-SCCH Order, the UE shall:
1>	if the variable SECONDARY_CELL_E_DCH_TRANSMISSION is not set to TRUE:
2>	calculate the activation time T, by adding the value of  the IE "Activation delay" in the variable OTHER_TTI_EDCH_CONFIGURATION to the CFN as specified in [29]. 
1>	else:
2>	if the HS-SCCH order indicates only TTI change on secondary uplink frequency:
3>	calculate the activation time T, by adding the value of the IE "Activation delay" in the variable OTHER_TTI_EDCH_CONFIGURATION_ON_SECONDARY_UL_FREQUENCY to the CFN as specified in [29].
2>	else:
3>	calculate the activation time T, by adding the value of the IE "Activation delay" in the variable OTHER_TTI_EDCH_CONFIGURATION to the CFN as specified in [29].
1>	at the activation time T:
2>	if the variable SECONDARY_CELL_E_DCH_TRANSMISSION is not set to TRUE:
3>	if the current configured TTI length is 2ms TTI:
4>	release the physical channel configuration for 2ms TTI which was present before T;
4>	apply the physical channel configuration for 10ms TTI as specified for the information elements in the IE "10ms TTI Configuration Information" in the variable OTHER_TTI_EDCH_CONFIGURATION, respecting the requirement in [29].
3>	else:
4>	release the physical channel configuration for 10ms TTI, which was present before T;
4>	apply the physical channel configuration for 2ms TTI as specified for the information elements in the IE "2ms TTI Configuration Information" in the variable OTHER_TTI_EDCH_CONFIGURATION, respecting the requirement in [29].
2>	else:
3>	if the value indicated by the HS-SCCH order is different than the current value on an uplink frequency:
4>	release the physical channel configuration on that frequency;
4>	apply the physical channel configuration as specified for the information elements in the variable OTHER_TTI_EDCH_CONFIGURATION or OTHER_TTI_EDCH_CONFIGURATION_ON_SECONDARY_UL_FREQUENCY.
2>	set the variable ORDERED_RECONFIGURATION to FALSE.
8.5.87	Actions related to BLIND_HARQ_HSDPA variable (FDD only)
If the UE receives a message which includes the IE "Blind HARQ retransmissions for HSDPA", the UE shall: 
1>	determine the BLIND_HARQ_HSDPA variable.
The variable BLIND_HARQ_HSDPA shall be set to TRUE only when the following conditions are met:
1>	the UE is in CELL_DCH state;
1>	the variable HS_DSCH_RECEPTION is set to TRUE;
1>	the IE "Blind HARQ retransmissions for HSDPA" is included and is set to TRUE.
If the above conditions are not met and the variable BLIND_HARQ_HSDPA is set to TRUE, the UE shall:
1>	set the variable BLIND_HARQ_HSDPA to FALSE;
1>	configure the MAC layer to stop blind HARQ retransmissions for HSDPA.
If all of the above conditions are met and the variable BLIND_HARQ_HSDPA is set to FALSE, the UE shall:
1>	set the variable BLIND_HARQ_HSDPA to TRUE;
1>	configure the MAC layer to start blind HARQ retransmissions for HSDPA.
8.5.88	Actions related to HS_SCCH_DRX_CELL_FACH_STATUS variable (FDD only)
The HS_SCCH_DRX_CELL_FACH_STATUS variable shall be set to TRUE only when all the following conditions are met:
1>	the UE supports HS-SCCH DRX operation in CELL_FACH state; and
1> the UE is in CELL_FACH state or the UE after state transition enters CELL_FACH state; and
1>	the UE has a dedicated H-RNTI configured; and
1>	the IE "HS-SCCH DRX in CELL_FACH Information" has been included in the received message.
If any of the above conditions is not met and the HS_SCCH_DRX_CELL_FACH_STATUS variable is set to TRUE, the UE shall:
1>	stop any ongoing HS-SCCH DRX operation in CELL_FACH state;
1>	set the HS_SCCH_DRX_CELL_FACH_STATUS to FALSE;
1>	stop the timer T333, if it is ongoing.
If the variable HS_SCCH_DRX_CELL_FACH_STATUS is set to TRUE the UE shall:
1>	perform the actions as specified in 8.5.89.
8.5.89	HS-SCCH DRX operation in CELL_FACH state (FDD only)
The HS-SCCH DRX operation in CELL_FACH state determines the occasions in which the UE is allowed to discontinuously receive only HS-SCCH orders and not have to decode HS-DSCH in CELL_FACH state. This is possible only in a UE that is capable of supporting HS-SCCH DRX operation in CELL_FACH state and HS_SCCH_DRX_CELL_FACH_STATUS is set to TRUE.

If the variable HS_SCCH_DRX_CELL_FACH_STATUS is set to TRUE, the UE shall:
1>	if E-DCH resource index information is received from lower layers and the "E-DCH resource index" received from MAC with the CMAC-STATUS primitive is not equal to -1; or
1>	if "Fallback transmission initiation" is received from MAC with the CMAC-STATUS primitive:
2>	stop the timer T333, if it is ongoing;
2>	continuously receive HS-DSCH.
1>	if "Fallback transmission termination" is received from MAC with the CMAC-STATUS primitive; or
1>	if E-DCH enhanced random access process termination information is received from lower layers:
2>	start the timer T333.
1>	if the UE does not have an E-DCH resource assigned and data on HS-DSCH or HS-SCCH order for NodeB triggered HS-DPCCH transmission is received:
2>	start or, if the timer is running, restart the timer T333 at the end of the HS-SCCH subframe addressed to this UE;
2>	if HS-SCCCH based DRX operation is active and received valid HS-SCCH order as defined by [27]:
3>	start receiving HS-SCCH/HS-DSCH continuously 8 ms after the end of the subframe carrying the HS-SCCH order.
2>	else:
3>	continue to receive HS-DSCH.
Upon timer T333 expiry:
1>	the UE shall only receive the HS-SCCH order during the subframe(s) with the Subframe_Number and SFN value fulfilling the following equation:

 ((5*SFN) + Subframe_Number - H-RNTI + 65536) mod (DRX_cycle) < Rx burst

Where:
-	H-RNTI is the value stored in the variable H_RNTI;
-	Rx burst is the period in subframes within the DRX_cycle, signalled by the IE "HS-SCCH RX burstFACH".
-	DRX_cycle is the length of the DRX cycle in subframes, signalled by the IE "HS-SCCH DRX cycleFACH"
For FDD when in CELL_FACH state, when the variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE and the variable HS_SCCH_DRX_CELL_FACH_STATUS is set to TRUE, then the UE in FDD mode shall perform measurements as specified in subclauses 8.4.1.6 and 8.4.1.9, according to the requirements in [4] and [19].
8.6	Generic actions on receipt and absence of an information element
8.6.1	CN information elements
8.6.1.1	Void

8.6.1.2	CN information info
If the IE "CN information info" is present in a message, the UE shall:
1>	if the IE "Primary PLMN Identity" is present:
2>	forward the content of the IE "Primary PLMN identity" to upper layers.
1>	else:
2>		if the IE "PLMN Identity" is present:
3>	forward the content of the IE "PLMN identity" to upper layers.
1>	if present, forward the content of the IE "CN common GSM-MAP NAS system information" to upper layers;
1>	if the IE "CN domain related information" is present:
2>	forward each occurrence of the IE "CN domain specific GSM-MAP NAS system info" together with the IE "CN domain identity" to upper layers.
2>	if an IE "CN domain specific GSM-MAP NAS system info" is not present for a particular CN domain:
3>	indicate to upper layers that no CN system information is available for that CN domain.
NOTE:	If UTRAN at SRNS relocation includes and sets the IE "Primary PLMN identity" to the PLMN identity signalled in RANAP RELOCATION REQUEST [57], the UTRAN should also set the IE "PLMN identity" to the PLMN identity in the IE "PLMN Identity" of the Master Information Block transmitted in the cell(s) used by the UE after completed SRNS relocation.
8.6.1.3	Signalling connection release indication
If the IE "Signalling Connection release indication" is present in a message, the UE shall:
1>	if all radio access bearers for the CN domain identified with the value of the IE "Signalling Connection release indication" would have been released in the variable ESTABLISHED_RABS after processing of the received message:
2>	indicate release of the signalling connection identified with the value of the IE "Signalling Connection release indication" to the upper layers;
2>	remove the signalling connection identified with the value of the IE "Signalling Connection release indication" from the variable ESTABLISHED_SIGNALLING_CONNECTIONS.
1>	if radio access bearers for the CN domain identified with the value of the IE "Signalling Connection release indication" would remain in the variable ESTABLISHED_RABS after processing of the received message:
2>	set the variable INVALID_CONFIGURATION to TRUE.
8.6.1.4	Extended DRX in Idle mode
If upper layers indicate that timer T331 (IE "eDRX value") and timer T332 (IE "Paging Time Window") have been configured, as specified in [5], the UE shall start or restart T331, and stop the timer T332, if running. 
If upper layers indicate that timer T331 (IE "eDRX value") and timer T332 (IE "Paging Time Window") have not been configured the UE shall stop the timers T331 and T332, if running.
8.6.1.4.1	T331 expiry
When the timer T331 expires the UE shall:
1>	start timer T332;
1>	if the UE is in Idle mode:
2>	read the master information block and perform actions as specified in subclause 8.1.1.5;
2>	start to monitor its paging occasions on the selected PICH.
1>	restart timer T331.
8.6.1.4.2	T332 expiry 
When the timer T332 expires the UE may:
1>	when in Idle mode stop to monitor its paging occasions on the selected PICH.
8.6.2	UTRAN mobility information elements
8.6.2.1	URA identity
The UE shall:
1>	if the IE "URA identity" is included in a received message:
2>	if the IE "RRC State Indicator" is included and set to "URA_PCH":
3>	store this URA identity in the variable URA_IDENTITY;
3>	after sending a possible message to UTRAN and entering URA_PCH state as specified elsewhere, read system information block type 2 in the selected cell;
3>	if the stored URA identity in the variable URA_IDENTITY is not included in the list of URA identities in System Information Block type 2 in the selected cell, the list of URA identities in system information block type 2 is empty or if the system information block type 2 can not be found, a confirmation error of URA identity list has occurred:
4>	if no URA update procedure is ongoing:
5>	initiate a URA update procedure after entering URA_PCH state; see subclause 8.3.1.2.
4>	if a URA update procedure is ongoing:
5>	take actions as specified in subclause 8.3.1.10.
1>	if the IE "URA identity" is not included in a received message:
2>	if the IE "RRC State Indicator" is included and set to " URA_PCH":
3>	after sending a possible message to UTRAN and entering URA_PCH state as specified elsewhere, read System Information Block type 2 in the selected cell;
3>	if System Information Block type 2 in the selected cell contains a single URA identity:
4>	store this URA identity in the variable URA_IDENTITY.
3>	if System Information Block type 2 of the selected cell contains more than one URA identity, the list of URA identities in system information block type 2 is empty or if the system information block type 2 can not be found, a confirmation error of URA identity list has occurred:
4>	if no URA update procedure is ongoing:
5>	initiate a URA update procedure after entering URA_PCH state, see subclause 8.3.1.2.
4>	if a URA update procedure is ongoing:
5>	take actions as specified in subclause 8.3.1.10.
8.6.2.2	Mapping info
For FDD, 3.84 Mcps TDD and 7.68 Mcps TDD, if the IE "Mapping info" is received, the UE shall in this version of the specification:
1>	ignore the contents of this IE.
For 1.28 Mcps TDD, if the IE "Mapping info" is received, the UE shall:
1>	if the IE "Map parameter 1" is included, interpret the IE "Map parameter 1" as IE "UpPCH Position Info":
2>	store and use the UpPCH position indicated by the IE "UpPCH Positon Info". The calculation of the uplink access position is described in [33].
1>	if the IE "Map parameter 1" is not included:
2>	use the UpPTS as the default UpPCH position.
1>	ignore other contents of the IE "Mapping info".
8.6.2.3	RNC support for change of UE capability
The UE shall:
1>	if the IE "RNC support for change of UE capability" is included in a received message:
2>	set the variable RNC_CAPABILITY_CHANGE_SUPPORT to the value of the IE "RNC support for change of UE capability".
8.6.2.4	CSG PSC Split Information
The UE shall:
1>	if the IE "CSG PSC Split Information" is included in a received message:
2>	consider the CSG PSC split information received on this cell to be valid for:
3>	the UARFCN of the carrier on which it was received;
3>	any cell not referenced in SIB18, or when SIB18 is not broadcast, while the cell the UE is camped on has a PLMN which is the same as the PLMN of the cell where the CSG PSC split information was received;
3>	any cell referenced in SIB18 that has the same PLMN as the PLMN of the cell in which the CSG PSC split information was received;
3>	while UE is not in Any Cell Selection state [4];
3>	24 hours from the time it was received.
NOTE 1:	If the IE "CSG PSC Split Information" is received in both SIB3 and SIB11bis in the same cell then UE behaviour is unspecified.
NOTE 2:	The PLMN of a cell in the above paragraph is the PLMN in IE ‘PLMN identity’ of that cell.
NOTE 3:	The 6 hour validity restriction (section 8.1.1.6) does not apply to this field.
8.6.2.5	E-UTRA detection
If the IE "E-UTRA detection" is included in a received message and set to TRUE and the UE is in CELL_PCH, URA_PCH state or idle mode, the UE may detect the presence of a E-UTRA cell on a frequency with a priority lower than the current UTRA cell and report the information to the NAS.
8.6.3	UE information elements
8.6.3.1	Activation time
If the UE receives a message in which presence is needed for the IE "Activation time", and the value is other than the default value "Now", or if the variable DETERMINED_ACTIVATION_TIME is set, the UE shall:
1>	let the "reference CCTrCH" be defined as the CCTrCh that includes any transport channel or is associated with any physical channel which is being added, re-configured or removed, or, in the case of HS-DSCH, the CCTrCh including the associated DCH;
1>	if the frame boundary immediately before the frame with the CFN (Connection Frame Number) value indicated by the IE "Activation Time" or the variable DETERMINED_ACTIVATION_TIME is at the TTI boundary common to all the transport channels that are multiplexed onto the reference CCTrCh:
2>	select that frame boundary as the activation time T.
1>	else:
2>	select the next TTI boundary, which is common to all the transport channels that are multiplexed onto the reference CCTrCh, after the frame with the CFN (Connection Frame Number) value indicated by the IE "Activation Time" or by the variable DETERMINED_ACTIVATION_TIME, as the activation time T.
1>	if the IE "Delay restriction flag" is received and activation time T is more than 128 frames from the CFN at which the message was received:
2>	choose an activation time T as soon as possible after reception of the message, respecting the performance requirements in subclause 13.5, which is common to all the transport channels that are multiplexed onto the reference CCTrCh.
NOTE:	If the UE receives a message containing the IE "Delay restriction flag" and that message causes a transport channel or physical channel reconfiguration of the reference CCTrCH then the UE behaviour is not specified.
1>	at the activation time T:
2>	for a physical channel reconfiguration other than an HS-DSCH related reconfiguration, caused by the received message:
3>	release the physical channel configuration, which was present before T;
3>	initiate the establishment of the physical channel configuration as specified for the physical channel information elements in the received message as specified elsewhere.
2>	for an HS-DSCH related reconfiguration in FDD or 1.28 Mcps TDD caused by the received message:
3>	select the HS-SCCH subframe boundary immediately before the first HS-SCCH subframe, which entirely falls within the 10 ms frame following T;
3>	start using, at that HS-SCCH subframe boundary, the new HS-DSCH configuration in the received message, replacing any old HS-DSCH configuration.
2>	for an HS-DSCH related reconfiguration in 3.84 Mcps TDD or 7.68 Mcps TDD caused by the received message:
3>	start using, at activation time T, the new HS-DSCH configuration in the received message, replacing any old HS-DSCH configuration.
2>	for actions, other than a physical channel reconfiguration, caused by the received message:
3>	perform the actions for the information elements in the received message as specified elsewhere.
2>	clear the variable DETERMINED_ACTIVATION_TIME.
NOTE:	In FDD an "HS-DSCH related reconfiguration" includes, in particular, reconfigurations that need to be time-aligned with the 2ms subframe of the HS-SCCH, HS-PDSCH and/or HS-DPCCH. For example, start and stop of HS-SCCH reception and serving HS-DSCH cell change.
If the UE receives a message in which presence is needed for the IE "Activation time", and the value is the default value "Now", the UE shall:
1> if the IE "Dynamic activation time" is received:
2> choose the value of the variable DETERMINED_ACTIVATION_TIME as the activation time T and acts as if the IE "Activation Time" had never been received.
1> else:
2>	choose an activation time T as soon as possible after the reception of the message, respecting the performance requirements in subclause 13.5;
1>	at the activation time T:
2>	perform the actions for the information elements in the received message as specified elsewhere.
2>	clear the variable DETERMINED_ACTIVATION_TIME.
NOTE:	In FDD, if the UE was in idle mode or CELL_FACH or CELL_PCH state upon reception of the message, regardless of the state the UE enters after reception of the message, and the value of the IE "Activation time" in the received message is different from "Now", the UE behaviour is unspecified. In TDD, if the UE was in idle mode or CELL_FACH state upon reception of the message, the value of the IE "Activation time" in the received message is relative to the CFN associated with the cell from which the message was received.
8.6.3.1a	CN domain specific DRX cycle length coefficient
The UE updates CN domain specific DRX cycle length coefficient as specified in [4]. The UE shall use it to calculate the CN domain specific DRX cycle length, according to the following:
1>	set k to the value of the IE "CN domain specific DRX cycle length coefficient".
1>	store the result of MAX(2k, PBP), where PBP is the Paging Block Periodicity, as the CN domain specific DRX cycle length for the CN domain indicated by the IE "CN domain identity". For FDD PBP=1.
The UE shall determine its idle mode paging occasions and PICH monitoring occasions for that CN domain, according to [4], based on the stored CN domain specific DRX cycle length, when using DRX in idle mode.
8.6.3.1b	H-RNTI
If an IE "New H-RNTI" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the IE "New H-RNTI" is received in a UTRAN MOBILITY INFORMATION message
2>	the UE behaviour is unspecified.
1>	store the value in the variable H_RNTI;
1>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25;
1>	determine the value for the SECONDARY_CELL_HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.51.
If the message that triggers the HS_DSCH_RECEPTION variable to change value from FALSE to TRUE does not contain the IE "New H-RNTI"; and
if, before receiving that message, the UE is not in CELL_FACH or CELL_PCH state or the variable H_RNTI is not set:
1>	the UE behaviour is not defined.
When the variable HS_DSCH_RECEPTION is set to TRUE the UE shall:
1>	use the value of the variable H_RNTI as UE identity in the HS-SCCH reception procedure in the physical layer. 
In FDD and 1.28 Mcps TDD, if the IE "New H-RNTI" is included and the UE will be in CELL_FACH state after completion of this procedure, the UE shall:
1>	store the value in the variable H_RNTI;
1>	determine the value for the HS_DSCH_RECEPTION_CELL_FACH_STATE variable and take the corresponding actions as described in subclause 8.5.36.
1>	for 1.28 Mcps TDD, If the IE "Treset Usage Indicator" has been stored:
2>	stop using all configured Treset timer [15].
When the variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE the UE shall:
1>	use the value of the variable H_RNTI as UE identity in the HS-SCCH reception procedure in the physical layer.
When an entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE the UE shall:
1>	use the value of the variable H_RNTI associated with the corresponding secondary serving HS-DSCH cell as UE identity in the HS-SCCH reception procedure in the physical layer on that cell.
In FDD and 1.28 Mcps TDD, if the IE "New H-RNTI" is included and the UE will be in CELL_PCH or URA_PCH state after completion of this procedure, the UE shall:
1>	store the value in the variable H_RNTI.
1>	for 1.28 Mcps TDD, If the IE "Treset Usage Indicator" has been stored:
2>	stop using all configured Treset timer [15].
8.6.3.2	UTRAN DRX Cycle length coefficient
If the IE "UTRAN DRX cycle length coefficient" is present, the UE shall use it to calculate the UTRAN DRX cycle length, according to the following:
1>	start timer T319 using the IE "Time for DRX cycle 2" value;
1>	store IE "DRX cycle length coefficient";
1>	set k to the value of the IE "DRX cycle length coefficient 2";
1>	store the result of MAX(2k,PBP), where PBP is the Paging Block Periodicity, as the DRX cycle length.
The UE shall determine its connected mode paging occasions and PICH monitoring occasions in the same way as for idle mode, according to [4].
The DRX cycle length to use in connected mode is defined in [4].
8.6.3.3	Generic state transition rules depending on received information elements
The IE "RRC State Indicator" indicates the state the UE shall enter. The UE shall enter the state indicated by the IE "RRC State Indicator" even if the received message includes other IEs relevant only for states other than indicated by the IE "RRC State Indicator". E.g. if the RRC state indicator is set to CELL_FACH while other IEs provide information about a configuration including dedicated channels, the UE shall enter CELL_FACH state. If however the UE has no information about the configuration corresponding to the state indicated by the IE "RRC State Indicator", it shall consider the requested configuration as invalid.
The UE shall, if the IE "RRC State Indicator" in the received message has the value:
1>	"CELL_FACH":
2>	enter CELL_FACH state as dictated by the procedure governing the message received.
1>	"CELL_DCH":
2>	if neither DPCH is assigned in the message nor is the UE in CELL_DCH:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	else:
3>	enter CELL_DCH state as dictated by the procedure governing the message received.
1>	"CELL_PCH":
2>	if the received message is RRC CONNECTION SETUP and IE "RRC State Indicator" is set to CELL_PCH:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	else:
3>	enter CELL_PCH state as dictated by the procedure governing the message received.
1>	"URA_PCH":
2>	if the received message is RRC CONNECTION SETUP and IE "RRC State Indicator" is set to URA_PCH:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	else:
3>	enter URA_PCH state as dictated by the procedure governing the message received.
8.6.3.4	Ciphering mode info
The IE "Ciphering mode info" defines the new ciphering configuration. At any given time, the UE needs to store at most two different ciphering configurations (keyset and algorithm) per CN domain at any given time in total for all radio bearers and three configurations in total for all signalling radio bearers.
If the IE "Ciphering mode info" is present and if the IE "Reconfiguration" in the variable CIPHERING_STATUS is set to TRUE, the UE shall:
1>	ignore this second attempt to change the ciphering configuration; and
1>	set the variable INCOMPATIBLE_SECURITY_RECONFIGURATION to TRUE.
If the IE "Ciphering mode info" is present and if the IE "Reconfiguration" in the variable CIPHERING_STATUS is set to FALSE, the UE shall:
1>	if none of the IE "Status" in the variable CIPHERING STATUS has the value "Started", and this IE "Ciphering mode info" was included in a message that is not the message SECURITY MODE COMMAND or this IE "Ciphering mode info" was included in a message that doesn’t include the IE "SR-VCC Info"; or
1>	if the IE "Ciphering Mode Info" was received in the message SECURITY MODE COMMAND and there does not exist exactly one ciphering activation time in the IE "Radio bearer downlink ciphering activation time info" for each established RLC-AM and RLC-UM radio bearers included in the IE "RB information" in the IE "ESTABLISHED_RABS" for the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN; or
1>	if the IE "Ciphering Mode Info" was received in the message SECURITY MODE COMMAND and the IE "Ciphering activation time for DPCH" is not included in the message, and there exist radio bearers using RLC-TM according to the IE "RB information" in the IE "ESTABLISHED_RABS" for the CN domain as indicated in the variable LATEST_CONFIGURED_CN_DOMAIN; or
1>	if the IE "Ciphering Mode Info" was received in the message SECURITY MODE COMMAND and there does not exist exactly one ciphering activation time in the IE "Radio bearer downlink ciphering activation time info" for each established signalling radio bearer included in the IE "Signalling radio bearer information" in the IE "ESTABLISHED_RABS":
2>	ignore this attempt to change the ciphering configuration;
2>	set the variable INVALID_CONFIGURATION to TRUE;
2>	perform the actions as specified in subclause 8.1.12.4c.
1>	set the IE "Reconfiguration" in the variable CIPHERING_STATUS to TRUE;
1>	set the IE "Status" in the variable CIPHERING_STATUS of the CN domains for which the IE "Status" of the variable SECURITY_MODIFICATION is set to "Affected" to "Started";
1>	apply the new ciphering configuration in the lower layers for all RBs that belong to a CN domain for which the IE "Status" of the variable SECURITY_MODIFICATION is set to "Affected" and all signalling radio bearers:
2>	using the ciphering algorithm (UEA [40]) indicated by the IE "Ciphering algorithm" as part of the new ciphering configuration;
2>	for each radio bearer that belongs to a CN domain for which the IE "Status" of the variable SECURITY_MODIFICATION is set to "Affected" and all signalling radio bearers:
3>	using the value of the IE "RB identity" in the variable ESTABLISHED_RABS minus one as the value of BEARER [40] in the ciphering algorithm.
1>	for the downlink and the uplink, apply the new ciphering configuration as follows:
2>	if the ciphering configuration for a AM or UM radio bearer or signalling radio bearer from a previously received SECURITY MODE COMMAND has not yet been applied because of the corresponding activation times not having been reached and the current received message includes the IE "DL Counter Synch Info" or the current received message is a RADIO BEARER RECONFIGURATION message and includes the IE "New U-RNTI":
3>	if the previous SECURITY MODE COMMAND was received due to new keys being received:
4>	consider the new ciphering configuration to include the received new keys.
3>	else if the previous SECURITY MODE COMMAND caused a change in LATEST_CONFIGURED_CN_DOMAIN:
4>	consider the new ciphering configuration to include the keys associated with the LATEST_CONFIGURED_CN_DOMAIN.
3>	apply the new ciphering configuration in uplink and downlink immediately following RLC re-establishment.
2>	if the IE "Ciphering activation time for DPCH" is present in the IE "Ciphering mode info" and the UE was in CELL_DCH state prior to this procedure:
3>	for radio bearers using RLC-TM:
4>	apply the old ciphering configuration for CFN less than the number indicated in the IE "Ciphering activation time for DPCH";
4>	apply the new ciphering configuration for CFN greater than or equal to the number indicated in IE "Ciphering activation time for DPCH".
2>	if the IE "Radio bearer downlink ciphering activation time info" is present:
3>	apply the following procedure for each radio bearer and signalling radio bearers using RLC-AM or RLC-UM indicated by the IE "RB identity":
4>	suspend uplink transmission on the radio bearer or the signalling radio bearer (except for the SRB where the response message is transmitted) according to the following:
5>	do not transmit RLC PDUs with sequence number greater than or equal to the uplink activation time, where the uplink activation time is selected according to the rules below.
4>	select an "RLC sequence number" at which (activation) time the new ciphering configuration shall be applied in uplink for that radio bearer according to the following:
5>	consider a ciphering activation time in uplink to be pending until the RLC sequence number of the next RLC PDU to be transmitted for the first time is equal to or larger than the selected activation time;
5>	for each radio bearer and signalling radio bearer that has no pending ciphering activation time in uplink as set by a previous procedure changing the security configuration:
6>	set a suitable value that would ensure a minimised delay in the change to the latest ciphering configuration.
5>	for each radio bearer and signalling radio bearer that has a pending ciphering activation time in uplink as set by a previous procedure changing the security configuration:
6>	for radio bearers and signalling radio bearers except SRB2:
7>	set the same value as the pending ciphering activation time.
6>	for signalling radio bearer SRB2:
7>	set a suitable value that would ensure a minimised delay in the change to the latest ciphering configuration.
4>	store the selected "RLC sequence number" for that radio bearer in the entry for the radio bearer in the variable RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO;
4>	switch to the new ciphering configuration according to the following:
5>	use the old ciphering configuration for the transmitted and received RLC PDUs with RLC sequence numbers smaller than the corresponding RLC sequence numbers indicated in the IE "Radio bearer uplink ciphering activation time info" sent to UTRAN and in the received IE "Radio bearer downlink ciphering activation time info" received from UTRAN, respectively;
5>	use the new ciphering configuration for the transmitted and received RLC PDUs with RLC sequence numbers greater than or equal to the corresponding RLC sequence numbers indicated in the IE "Radio bearer uplink ciphering activation time info" sent to UTRAN and in the received IE "Radio bearer downlink ciphering activation time info" received from UTRAN, respectively;
5>	for a radio bearer using RLC-AM, when the RLC sequence number indicated in the IE "Radio bearer downlink ciphering activation time info" falls below the RLC receiving window and the RLC sequence number indicated in the IE "Radio bearer uplink ciphering activation time info" falls below the RLC transmission window, the UE may release the old ciphering configuration for that radio bearer;
5>	if an RLC reset or re-establishment of the transmitting side of an RLC entity occurs before the activation time for the new ciphering configuration has been reached in uplink, ignore the activation time and apply the new ciphering configuration in uplink immediately after the RLC reset or RLC re-establishment;
5>	if an RLC reset or re-establishment of the receiving side of an RLC entity occurs before the activation time for the new ciphering configuration has been reached in downlink, ignore the activation time and apply the new ciphering configuration in downlink immediately after the RLC reset or RLC re-establishment.
2>	if the current received message includes the IE "Downlink counter synchronisation info" or the current received message is a RADIO BEARER RECONFIGURATION message and includes the IE "New U-RNTI"; or
2>	if the current received message includes the IE "SR-VCC Info":
3>	apply the new ciphering configuration in uplink and downlink immediately following RLC re-establishment.
If the IE "Radio bearer downlink ciphering activation time info" was received in another message than SECURITY MODE COMMAND:
1>	the UE behaviour is unspecified.
If the IE "Ciphering mode info" is not present, the UE shall:
1>	for the downlink and the uplink, apply the ciphering configuration as follows:
2>	if the ciphering configuration for a AM or UM radio bearer or signalling radio bearer from a previously received SECURITY MODE COMMAND has not yet been applied because of the corresponding activation times not having been reached and the current received message includes the IE "Downlink counter synchronisation info" or the current received message is a RADIO BEARER RECONFIGURATION message and includes the IE "New U-RNTI" or the current received message triggering SR-VCC:
3>	if the previous SECURITY MODE COMMAND was received due to new keys being received:
4>	consider the ciphering configuration to include the received new keys.
3>	else if the previous SECURITY MODE COMMAND caused a change in LATEST_CONFIGURED_CN_DOMAIN:
4>	consider the ciphering configuration to include the keys associated with the LATEST_CONFIGURED_CN_DOMAIN.
3>	apply the ciphering configuration in uplink and downlink immediately following RLC re-establishment.
2>	else:
3>	not change the ciphering configuration.
8.6.3.5	Integrity protection mode info
The IE "Integrity protection mode info" defines the new integrity protection configuration. At any given time, the UE needs to store at most three different integrity protection configurations (keysets) in total for all signalling radio bearers for all CN domains.
If the IE "Integrity protection mode info" is present and if the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO is set to TRUE, the UE shall:
1>	ignore this second attempt to change the integrity protection configuration; and
1>	set the variable INCOMPATIBLE_SECURITY_RECONFIGURATION to TRUE.
If the IE "Integrity protection mode command" has the value "Start", the IE "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Not started" and the IE "Integrity protection mode info" was not included in the message SECURITY MODE COMMAND and the IE "Integrity protection mode info" was not included in the message triggering SR-VCC and including the IE "NONCE"; or
If the IE "Integrity protection mode command" has the value "Start", the IE "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Not started", the IE "Integrity protection mode info" was included in the message SECURITY MODE COMMAND and the IE "Integrity protection algorithm" is not included or the IE "Integrity protection mode info" was included in the message triggering SR-VCC; or
If the IE "Integrity protection mode command" has the value "Modify" and the IE "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Not Started"; or
If the IE "Integrity protection mode command" has the value "Start", the IE "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Started" and the IE "Integrity protection mode command info" was included in the message SECURITY MODE COMMAND; or
If the IE "Integrity protection mode command" has the value "Modify" and there does not exist exactly one integrity protection activation time in the IE "Downlink integrity protection activation info" for each established signalling radio bearer included in the IE "Signalling radio bearer information" in the IE "ESTABLISHED_RABS"; or
If the IE "Integrity protection mode command" has the value "Modify", the IE "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Started" and the IE "Integrity protection mode info" was not included in the message SECURITY MODE COMMAND and the IE "Integrity protection mode info" was not included in the message triggering SR-VCC:
the UE shall:
1>	ignore this attempt to change the integrity protection configuration; and
1>	set the variable INVALID_CONFIGURATION to TRUE.
If the IE "Integrity protection mode info" is not present, the UE shall:
1>	not change the integrity protection configuration.
If the IE "Integrity protection mode info" is present and if the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO is set to FALSE, the UE shall:
1>	set the IE "Reconfiguration" in the variable INTEGRITY_PROTECTION_INFO to TRUE;
1>	perform the actions in accordance with subclauses 8.6.3.5.1, 8.6.3.5.2 and 8.6.3.5.3.
8.6.3.5.1	Initialisation of Integrity Protection
The UE shall:
1>	if the IE "Integrity protection mode command" has the value "start" and the IE "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Not started", and this IE was included in the message SECURITY MODE COMMAND or this IE was included in the message triggering SR-VCC and including the IE "NONCE":
2>	initialise the information for all signalling radio bearers in the variable INTEGRITY_PROTECTION_INFO according to the following:
3>	set the IE "Uplink RRC Message sequence number" in the variable INTEGRITY_PROTECTION_INFO to zero;
3>	do not set the IE "Downlink RRC Message sequence number" in the variable INTEGRITY_PROTECTION_INFO;
3>	set the variable INTEGRITY_PROTECTION_ACTIVATION_INFO to zero for each signalling radio bearer in the IE "ESTABLISHED_RABS".
NOTE:	The IEs "Integrity protection activation info" and "RRC Message sequence number"included in the IE "Integrity Check Info" in the transmitted message do not have identical values, but integrity protection is applied from the first transmitted message.
2>	set the IE "Status" in the variable INTEGRITY_PROTECTION_INFO to the value "Started";
2>	perform integrity protection on the received message, applying the new integrity protection configuration, as described in subclause 8.5.10.1 by:
3>	using the algorithm (UIA [40]) indicated by the IE "Integrity protection algorithm" contained in the IE "Integrity protection mode info";
3>	using the IE "Integrity protection initialisation number", contained in the IE "Integrity protection mode info" as the value of FRESH [40].
2>	start applying the new integrity protection configuration in the downlink for each signalling radio bearer in the IE "ESTABLISHED_RABS" except RB2 at the next received RRC message;
2>	start applying the new integrity protection configuration in the downlink for signalling radio bearer RB2 from and including the received SECURITY MODE COMMAND message or the message triggering SR-VCC;
2>	start applying the new integrity protection configuration in the uplink for signalling radio bearer RB2 from and including the transmitted SECURITY MODE COMPLETE message or the transmitted response message for the message triggering SR-VCC;
2>	start applying the new integrity protection configuration in the uplink for signalling radio bearers other than RB2 at the uplink activation time included in the IE "Uplink integrity protection activation info".
NOTE:	After Inter-RAT handover to UTRAN, and ciphering was activated in the other RAT, then during the first security mode control procedure following the handover, UE activates integrity protection using the integrity key of the same key set as used in the other RAT (see.subclause 8.3.6.3).
8.6.3.5.2	Integrity Protection Re-configuration for SRNS Relocation, intra-RAT SR-VCC and handover from GERAN Iu mode
The UE shall:
1>	if IE "Integrity protection mode command" has the value "start" and the IE "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Started" and this IE was not included SECURITY MODE COMMAND:
NOTE:	This case is used in SRNS relocation, in SR-VCC and in handover from GERAN Iu mode.
2>	perform integrity protection on the received message, applying the new integrity protection configuration, as described in subclause 8.5.10.1 by:
3>	using the algorithm (UIA [40]) indicated by the IE "Integrity protection algorithm" contained in the IE "Integrity protection mode info";
NOTE:	If the algorithm indicated by the IE "Integrity protection algorithm" is different from the one currently used by the UE, then this leads to a change of the integrity protection algorithm.
3>	using the IE "Integrity protection initialisation number", contained in the IE "Integrity protection mode info" as the value of FRESH [40].
2>	let RBm be the signalling radio bearer where the reconfiguration message was received and let RBn be the signalling radio bearer where the response message is transmitted;
2>	prohibit transmission of RRC messages on all signalling radio bearers in the IE "ESTABLISHED_RABS" except on RB0 and the radio bearer where the response message is transmitted;
2>	for the downlink, for each signalling radio bearer, if for the signalling radio bearer, a security configuration triggered by a previous SECURITY MODE COMMAND or a previous message triggering SR-VCC has not yet been applied, due to the activation time for the signalling radio bearer not having been reached:
3>	set "Down link RRC Message sequence number" for this signalling radio bearer in the variable INTEGRITY_PROTECTION_INFO to (activation time -1), where the activation time is the corresponding activation time for this signalling radio bearer; 
3>	if the previous SECURITY MODE COMMAND was received due to new keys being received:
4>	consider the new integrity protection configuration to include the received new keys. 
3>	else if the previous SECURITY MODE COMMAND or the previous message triggering SR-VCC caused a change in LATEST_CONFIGURED_CN_DOMAIN:
4>	consider the new Integrity Protection configuration to include the keys associated with the LATEST_CONFIGURED_CN_DOMAIN associated with the previously received SECURITY MODE COMMAND.
2>	start applying the new integrity protection configuration in the downlink for each signalling radio bearer in the IE "ESTABLISHED_RABS" except RBm at the next received RRC message for the corresponding signalling radio bearer;
2>	start applying the new integrity protection configuration in the downlink for signalling radio bearer RBm from and including the received configuration message;
2>	start applying the new integrity protection configuration in the uplink for signalling radio bearer RBn from and including the transmitted response message;
2>	start applying the new integrity protection configuration in the uplink for signalling radio bearers other than RBn from the first message onwards.
8.6.3.5.3	Integrity Protection modification in case of new keys or initialisation of signalling connection
The UE shall:
1>	if the IE "Integrity protection mode command" has the value "modify" and the IE "Status" in the variable INTEGRITY_PROTECTION_INFO has the value "Started" and this IE was included in SECURITY MODE COMMAND or this IE was included in a message triggering SR-VCC:
2>	store the (oldest currently used) integrity protection configuration until activation times have elapsed for the new integrity protection configuration to be applied on all signalling radio bearers;
2>	start applying the new integrity protection configuration in the downlink for each signalling radio bearer n, at the first received message with RRC Sequence number greater than or equal to the RRC sequence number indicated by the entry for signalling radio bearer n in the "RRC message sequence number list" in the IE "Downlink integrity protection activation info", included in the IE "Integrity protection mode info";
2>	perform integrity protection on the received message, applying the new integrity protection configuration, as described in subclause 8.5.10.1;
3>	if present, use the algorithm indicated by the IE "Integrity protection algorithm" (UIA [40]);
2>	set the content of the variable INTEGRITY_PROTECTION_ACTIVATION_INFO according to the following:
3>	for each established signalling radio bearer, stored in the variable ESTABLISHED_RABS:
4>	select a value of the RRC sequence number at which (activation) time the new integrity protection configuration shall be applied in uplink for that signalling radio bearer according to the following:
5>	for each signalling radio bearer except RB0:
6>	set the activation time for the new integrity protection configuration to the next RRC SN.
4>	for signalling radio bearer RB0:
5>	set the value of the included RRC sequence number to greater than or equal to the current value of the RRC sequence number for signalling radio bearer RB0 in the variable INTEGRITY_PROTECTION_INFO, plus the value of the constant N302 plus two.
4>	prohibit the transmission of RRC messages on all signalling radio bearers, except for RB2, with RRC SN greater than or equal to the value in the "RRC message sequence number list" for the signalling radio bearer in the IE "Uplink integrity protection activation info" of the variable INTEGRITY_PROTECTION_ACTIVATION_INFO.
2>	start applying the new integrity protection configuration in the uplink at the RRC sequence number, for each RBn, except for signalling radio bearer RB2, indicated by the entry for signalling radio bearer n in the "RRC message sequence number list" in the IE "Uplink integrity protection activation info", included in the variable INTEGRITY_PROTECTION_ACTIVATION_INFO;
2>	start applying the new integrity protection configuration in the uplink at the RRC sequence number for signalling radio bearer RB2, as specified for the procedure initiating the integrity protection reconfiguration;
2>	start applying the new integrity protection configuration in the downlink at the RRC sequence number, for each RBn, except for signalling radio bearer RB2, indicated by the entry for signalling radio bearer n in the "RRC message sequence number list" in the IE "Downlink integrity protection activation info";
NOTE:	For signalling radio bearers that have a pending activation time as set for integrity protection by a previous procedure changing the integrity protection configuration, UTRAN should set this value in IE "Downlink integrity protection activation info".
2>	start applying the new integrity protection configuration in the downlink at the RRC sequence number for signalling radio bearer RB2, as specified for the procedure initiating the integrity protection reconfiguration.
8.6.3.6	Void

8.6.3.7	Void

8.6.3.8	Integrity check info
If the IE "Integrity check info" is present the UE shall:
1>	act as described in subclause 8.5.10.1.
8.6.3.9	New C-RNTI
If the IE "New C-RNTI" is included, the UE shall:
1>	store the value in the variable C_RNTI, replacing any old stored value;
1>	use that C-RNTI when using common transport channels of type RACH and FACH in the current cell;
1>	for FDD and 1.28 Mcps TDD:
2>	if the UE is in CELL_FACH and CELL_PCH:
3>	use that C-RNTI when using the transport channel of type HS-DSCH.
8.6.3.9a	New DSCH-RNTI
In TDD if the IE "New DSCH-RNTI" is included, the UE shall:
1>	if the UE will be in CELL_DCH or CELL_FACH at the end of the procedure where the received message included this IE:
2>	if the UE supports DSCH or USCH as indicated in the IE "Physical Channel Capability" included in the IE "UE Radio Access Capability":
3>	store the value in the variable DSCH_RNTI, replacing any old stored value;
3>	use that DSCH-RNTI when using SHCCH signalling in the current cell.
8.6.3.10	New U-RNTI
If the IE "New U-RNTI" is included in a received message, the UE shall:
1>	store the value in the variable U_RNTI, replacing any old stored value.
8.6.3.11	RRC transaction identifier
The IE "RRC transaction identifier" may be used, together with the message type, for identification of an invocation of a downlink procedure (transaction). The UE behaviour for accepting or rejecting transactions based on the message type and the IE "RRC transaction identifier" is specified below.
If the IE "RRC transaction identifier" is included in a received message or if a Target cell HS-SCCH order is received, the UE shall perform the actions below. When a Target cell HS-SCCH order is received, the UE shall consider this as a received message with IE "RRC transaction identifier" and "Message Type" equivalent to the fields "Serving Cell Change Transaction Id" and "Serving Cell Change Message Type" stored in the variable TARGET_CELL_PRECONFIGURATION. The UE shall:
If the received message is any of the messages:
-	RADIO BEARER SETUP; or
-	RADIO BEARER RECONFIGURATION; or
-	RADIO BEARER RELEASE; or
-	TRANSPORT CHANNEL RECONFIGURATION; or
-	PHYSICAL CHANNEL RECONFIGURATION; or
-	a Target cell HS-SCCH order:
the UE shall:
1>	if the variable ORDERED_RECONFIGURATION is set to FALSE; and
1>	if the variable CELL_UPDATE_STARTED is set to FALSE; and
1>	if the received message does not contain a protocol error according to clause 9 and the variable PROTOCOL_ERROR_REJECT is set to FALSE; and
1>	if the table "Accepted transactions" in the variable TRANSACTIONS does not contain an entry with an IE "Message Type" set to ACTIVE SET UPDATE; and
1>	if the UE has received:
2>	a Target cell HS-SCCH order; or
2>	an RRC message and the table "Processed transactions" in the variable TRANSACTIONS does not contain an entry with the same "Message Type" and "Transaction identifier" as the received message, the UE shall:
3>	accept the transaction; and
3>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Accepted transactions" in the variable TRANSACTIONS. In case of the reception of a Target cell HS-SCCH order, the UE shall use the values received in the IEs "Serving Cell Change Message Type" and "Serving Cell Change Transaction Id" which were received in the Active Set Update; and
3>	if the received message is not a Target cell HS-SCCH order:
4>	clear all entries in the table "Processed transactions" in the variable TRANSACTIONS.
1>	else:
2>	if the variable ORDERED_RECONFIGURATION is set to TRUE; or
2>	if the variable CELL_UPDATE_STARTED is set to TRUE; or
2>	if the table "Accepted transactions" in the variable TRANSACTIONS contains an entry with an IE "Message Type" set to ACTIVE SET UPDATE; or
2>	if the received message contains a protocol error according to clause 9 causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE; or
2>	if the UE received an RRC message and the table "Processed transactions" in the variable TRANSACTIONS contains an entry with the same "Message Type" and "Transaction identifier" as the received message:
3>	if the UE received an RRC message and the table "Processed transactions" in the variable TRANSACTIONS contains an entry with the same "Message Type" and "Transaction identifier" as the received message:
4>	ignore the transaction; and
4>	continue with any ongoing processes and procedures as if the message was not received; and
4>	clear one entry which is identified by IE "Message Type" and "RRC transaction identifier" of the received message in "Processed transactions" in the variable TRANSACTIONS; and
4>	end the procedure.
3>	else if the IE "RRC transaction identifier" of the received message is identical to the "RRC transaction identifier" stored for the same "Message Type" as the received message in the table "Accepted transactions" in the variable TRANSACTIONS:
4>	ignore the transaction; and
4>	continue with any ongoing processes and procedures as if the message was not received; and
4>	end the procedure.
3>	else:
4>	reject the transaction; and
4>	if the IE "Message Type" of the received message is not present in the table "Rejected transactions" in the variable TRANSACTIONS:
5>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Rejected transactions" in the variable TRANSACTIONS.
Else:
If the received message is any of the messages:
-	RRC CONNECTION SETUP; or
-	CELL UPDATE CONFIRM; or
-	URA UPDATE CONFIRM; or
-	UE CAPABILITY ENQUIRY:
the UE shall:
1>	if the IE "Message Type" of the received message is not present in the table "Accepted transactions" in the variable TRANSACTIONS:
2>	if the received message does not contain a protocol error according to clause 9 and the variable PROTOCOL_ERROR_REJECT is set to FALSE:
3>	accept the transaction; and
3>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Accepted transactions" in the variable TRANSACTIONS.
2>	else:
3>	if the received message contains a protocol error according to clause 9 causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE:
4>	reject the transaction; and
4>	if the IE "Message Type" of the received message is not present in the table "Rejected transactions" in the variable TRANSACTIONS:
5>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Rejected transactions" in the variable TRANSACTIONS.
1>	else:
2>	if the IE "Message Type" of the received message is present in the table "Accepted transactions" in the variable TRANSACTIONS:
3>	if the IE "RRC transaction identifier" of the received message is identical to the "RRC transaction identifier" stored for the "Message Type" in the table "Accepted transactions" in the variable TRANSACTIONS:
4>	ignore the transaction; and
4>	continue with any ongoing processes and procedures as the message was not received; and
4>	end the procedure.
3>	else:
4>	if the IE "RRC transaction identifier" of the received message is different from the "RRC transaction identifier" stored for the "Message Type" in the table "Accepted transactions" in the variable TRANSACTIONS:
5>	if the received message does not contain a protocol error according to clause 9 and the variable PROTOCOL_ERROR_REJECT is set to FALSE:
6>	ignore the once accepted transaction and instead accept the new transaction; and
6>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Accepted transactions" in the variable TRANSACTIONS, replacing the previous entry.
NOTE 1:	The UE is expected to process the first RRC CONNECTION SETUP/CELL UPDATE CONFIRM/URA UPDATE COMFIRM message that it receives after transmitting an RRC CONNECTION REQUEST/CELL_UPDATE/URA_UPDATE message. If the UE receives further RRC CONNECTION SETUP/CELL UPDATE CONFIRM/URA UPDATE COMFIRM messages without having transmitted another RRC CONNECTION REQUEST/CELL_UPDATE/URA_UPDATE message, the UE is not required to process these messages.
NOTE 2:	If the previously accepted transaction was a CELL UPDATE CONFIRM/URA UPDATE CONFIRM that included the IE "Dowlink counter synchronisation info", rather than ignore the first accepted transaction the UE may continue with the first transaction in the case where a cell re-selection interrupted the on-going procedure causing a cell update procedure to be triggered. In this case the response message acts as an explicit acknowledgement of both the CELL UPDATE CONFIRM/URA UPDATE CONFIRM message signalling an SRNS relocation and the subsequent CELL UPDATE CONFIRM/URA UPDATE CONFIRM.
5>	else:
6>	if the received message contains a protocol error according to clause 9 causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE:
7>	reject the transaction; and
7>	if the IE "Message Type" of the received message is not present in the table "Rejected transactions" in the variable TRANSACTIONS:
8>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Rejected transactions" in the variable TRANSACTIONS.
Else:
If the received message is any of the messages:
-	HANDOVER FROM UTRAN COMMAND; or
-	CELL CHANGE ORDER FROM UTRAN:
the UE shall:
1>	if the variable ORDERED_RECONFIGURATION is set to TRUE;
2>	reject the transaction; and
2>	if the IE "Message Type" of the received message is not present in the table "Rejected transactions" in the variable TRANSACTIONS:
3>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Rejected transactions" in the variable TRANSACTIONS.
Else:
If the received message is:
-	MEASUREMENT CONTROL:
the UE shall:
1>	if the IE "Message Type" of the received message is not present in the table "Accepted transactions" in the variable TRANSACTIONS:
2>	if the received message does not contain a protocol error according to clause 9 and the variable PROTOCOL_ERROR_REJECT is set to FALSE:
3>	accept the transaction; and
3>	store the IE "Message type", the IE "RRC transaction identifier", and the IE "Measurement identity" of the received message in the table "Accepted transactions" in the variable TRANSACTIONS.
2>	else:
3>	if the received message contains a protocol error according to clause 9 causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE:
4>	reject the transaction; and
4>	store the IE "Message type", the IE "RRC transaction identifier", and the IE "Measurement identity" of the received message in the table "Rejected transactions" in the variable TRANSACTIONS.
1>	else:
2>	if the IE "Message Type" of the received message is present in the table "Accepted transactions" in the variable TRANSACTIONS:
3>	if the IE "RRC transaction identifier" of the received message is identical to the "RRC transaction identifier" stored in any entry for the "Message Type" in the table "Accepted transactions" in the variable TRANSACTIONS:
4>	ignore the transaction; and
4>	continue with any ongoing processes and procedures as the message was not received; and
4>	end the procedure.
3>	else:
4>	if the IE "RRC transaction identifier" of the received message is different from the "RRC transaction identifier" stored in all entries for the "Message Type" in the table "Accepted transactions" in the variable TRANSACTIONS:
5>	if the received message does not contain a protocol error according to clause 9 and the variable PROTOCOL_ERROR_REJECT is set to FALSE:
6>	accept the additional transaction; and
6>	store the IE "Message type", the IE "RRC transaction identifier", and the IE "Measurement identity" of the received message in the table "Accepted transactions" in the variable TRANSACTIONS, in addition to the already existing entries.
5>	else:
6>	if the received message contains a protocol error according to clause 9 causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE:
7>	reject the transaction; and
7>	store the IE "Message type", IE "RRC transaction identifier", and the IE "Measurement identity" of the received message in the table "Rejected transactions" in the variable TRANSACTIONS.
If the received message is any other message, the UE shall:
1>	if the IE "Message Type" of the received message is not present in the table "Accepted transactions" in the variable TRANSACTIONS:
2>	if the received message does not contain a protocol error according to clause 9 and the variable PROTOCOL_ERROR_REJECT is set to FALSE:
3>	accept the transaction; and
3>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Accepted transactions" in the variable TRANSACTIONS.
2>	else:
3>	if the received message contains a protocol error according to clause 9 causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE:
4>	reject the transaction; and
4>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Rejected transactions" in the variable TRANSACTIONS.
1>	else:
2>	if the IE "Message Type" of the received message is present in the table "Accepted transactions" in the variable TRANSACTIONS:
3>	if the IE "RRC transaction identifier" of the received message is identical to the "RRC transaction identifier" stored in any entry for the "Message Type" in the table "Accepted transactions" in the variable TRANSACTIONS:
4>	ignore the transaction; and
4>	continue with any ongoing processes and procedures as the message was not received; and
4>	end the procedure.
3>	else:
4>	if the IE "RRC transaction identifier" of the received message is different from the "RRC transaction identifier" stored in all entries for the "Message Type" in the table "Accepted transactions" in the variable TRANSACTIONS:
5>	if the received message does not contain a protocol error according to clause 9 and the variable PROTOCOL_ERROR_REJECT is set to FALSE:
6>	accept the additional transaction; and
6>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Accepted transactions" in the variable TRANSACTIONS, in addition to the already existing entries.
5>	else:
6>	if the received message contains a protocol error according to clause 9 causing the variable PROTOCOL_ERROR_REJECT to be set to TRUE:
7>	reject the transaction; and
7>	store the IE "Message type" and the IE "RRC transaction identifier" of the received message in the table "Rejected transactions" in the variable TRANSACTIONS.
8.6.3.12	Capability Update Requirement
If the IE "Capability Update Requirement" is included the UE shall:
1>	if the IE "UE radio access FDD capability update requirement" has the value TRUE:
2>	if the UE supports FDD mode:
3>	store its UTRA FDD capabilities and its UTRA capabilities common to FDD and TDD in the IE "UE radio access capability" and the IE "UE radio access capability extension" in variable UE_CAPABILITY_REQUESTED as specified below:
4>	if the UE supports any radio access capability included in IE "UE radio access capability extension" that is not included in IE "UE radio access capability":
NOTE:	This is valid e.g. for UE that supports multiple UTRA FDD Bands, UE that supports a single UTRA FDD Band different from Band I [21] or UE that supports E-UTRA.
5>	store the IE "UE radio access capability", excluding IEs "RF capability FDD" and "Measurement capability";
5>	store the IE "UE radio access capability extension", including the IEs "RF capability FDD extension", the "Measurement capability extension", the "Additional Secondary Cells"  and the "Non-contiguous multi-cell" associated with each supported UTRA FDD frequency band indicated in the IE "Frequency band".
4>	else:
5>	store the IE "UE radio access capability", including the IEs "RF capability FDD" and "Measurement capability" associated with the Band I [21]. 
1>	if the IE "UE radio access 3.84 Mcps TDD capability update requirement" has the value TRUE:
2>	if the UE supports 3.84 Mcps TDD mode:
3>	store its UTRAN-specific 3.84 Mcps TDD capabilities and its UTRAN–specific capabilities common to FDD and TDD in the variable UE_CAPABILITY_REQUESTED.
1>	if the IE "UE radio access 7.68 Mcps TDD capability update requirement" has the value TRUE:
2>	if the UE supports 7.68 Mcps TDD mode:
3>	store its UTRAN-specific 7.68 Mcps TDD capabilities and its UTRAN–specific capabilities common to FDD and TDD in the variable UE_CAPABILITY_REQUESTED.
1>	if the IE "UE radio access 1.28 Mcps TDD capability update requirement" has the value TRUE:
2>	if the UE supports 1.28 Mcps TDD mode:
3>	store its UTRAN-specific 1.28 Mcps TDD capabilities and its UTRAN–specific capabilities common to FDD and TDD in the variable UE_CAPABILITY_REQUESTED;
3>	if the UE supports E-UTRA:
4>	store the IE "UE radio access capability", including "Measurement capability TDD" associated with each supported E-UTRA band.
1>	if the IE "System specific capability update requirement list" is present:
2>	for each of the RAT requested in the IE "UE system specific capability":
3>	if the UE supports the listed RAT:
4>	include its inter-RAT radio access capabilities for the listed RAT in the IE "UE system specific capability" from the variable UE_CAPABILITY_REQUESTED;
4>	if the listed RAT is GSM and PS Handover to GPRS is supported:
5>	include the IE ''MS Radio Access Capability'' in the variable UE_CAPABILITY_REQUESTED.
4>	if the listed RAT is E-UTRA:
5>	if the IE "Requested E-UTRA Frequency Band list" is present and supported by the UE:
6>	include in IE "UE system specific capability" in the variable UE_CAPABILITY_REQUESTED all supported E-UTRA bands according to sub-clause 5.6.3.3 in [67];
6>	include in IE "UE system specific capability" in the variable UE_CAPABILITY_REQUESTED all supported non-CA bands according to sub-clause 5.6.3.3 in [67];
6>	include in IE "UE system specific capability" in the variable UE_CAPABILITY_REQUESTED CA band combinations according to sub-clause 5.6.3.3 in [67] as if the UE supports only those E-UTRA frequency bands signaled in IE "Requested E-UTRA Frequency Band list";
6>	include in IE "UE system specific capability" in the variable UE_CAPABILITY_REQUESTED other E-UTRA capabilities.
If the IE "Capability update requirement" is not present, the UE shall:
1>	assume the default values as specified in subclause 10.3.3.2 and act in accordance with the above.
8.6.3.13	Group release information
The UE shall apply the following procedure to compare the IE "U-RNTI group" with the U-RNTI allocated to the UE stored in the variable U_RNTI.
If the IE "group discriminator" is equal to "All":
1>	consider this as a group identity match.
If the IE "group discriminator" is equal to "U-RNTI mask":
1>	let N be the value of the IE "U-RNTI bit mask index";
1>	if N is equal to b20, b21, … or b31:
2>	compare pairs of bits, starting from bit b31 downto, and including, bit N of the "SRNC identity" of the IE "U-RNTI" with the corresponding bits stored in the variable U_RNTI;
2>	if all pairs of bits are equal:
3>	consider this as a group identity match.
1>	if N is equal to b1, b2, … or b19:
2>	compare pairs of bits, starting from bit b31 downto, and including, bit b20 of the "SRNC identity" in the IE "U-RNTI" with the corresponding bits of the "SRNC identity" stored in the variable U_RNTI;
2>	if all pairs of bits are equal:
3>	then compare pairs of bits, starting from bit b19 downto, and including, bit N of the "S-RNTI" in the IE "U-RNTI" with the corresponding bits of the "S-RNTI" stored in the variable U_RNTI;
3>	if all pairs of bits are equal:
4>	consider this as a group identity match.
NOTE 1:	The most significant bits of the U-RNTI, which indicate the "SRNC identity" must be unique among all RNC's, which support all the UEs in the group to be released, in order to obtain correct behaviour of group release.
8.6.3.14	New E-RNTI
If the IE "New Primary E-RNTI" and/or the IE "New Secondary E-RNTI" (FDD only) are/is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the IE "New Primary E-RNTI" is received in a UTRAN MOBILITY INFORMATION message:
2>	the UE behaviour is unspecified;
1>	store the new value(s) in the variable E_RNTI;
1>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
If, after state transition the UE enters CELL_PCH or URA_PCH state and the UE was in CELL_DCH state upon reception of the reconfiguration message the UE shall:
1>	if the UE supports E-DCH transmission in CELL_FACH state and Idle mode and the IE "Common E-DCH system info" is included in system information block type 5 or 5bis:
2>	clear the variable E_RNTI.
For FDD and 1.28 Mcps TDD, if the IE "New Primary E-RNTI" is included and the UE will be in CELL_FACH or CELL_PCH state after completion of this procedure, the UE shall:
1>	store the new value in the variable E_RNTI;
1>	determine the value for the READY_FOR_COMMON_EDCH variable and perform the corresponding actions as described in subclause 8.5.47.
1>	for FDD, determine the value for the READY_FOR_COMMON_ERGCH variable and perform the corresponding actions as described in subclause 8.5.75.
For FDD, if the IE "New Primary E-RNTI" is included and the UE will be in URA_PCH state after completion of this procedure, the UE shall:
1>	store the new value in the variable E_RNTI;
1>	for FDD, determine the value for the HSPA_RNTI_STORED_PCH variable and perform the corresponding actions as described in subclause 8.5.56.
If, after the completion of this procedure, the variable E_DCH_TRANSMISSION is set to FALSE, the UE in CELL_DCH state shall:
1>	clear the variable E_RNTI.
If, after the completion of this procedure, the variable READY_FOR_COMMON_EDCH is set to FALSE and the variable HSPA_RNTI_STORED_PCH is also set to FALSE, the UE shall:
1>	if not in CELL_DCH, or not in URA_PCH state and E_RNTI is set:
2>	clear the variable E_RNTI.
When the variable E_DCH_TRANSMISSION is set to TRUE the UE shall:
1>	for FDD:
2>	use the value of the Primary E-RNTI and/or Secondary E-RNTI stored in the variable E_RNTI as UE identities in the E-AGCH reception procedure in the physical layer.
1>	for TDD:
2>	use the value of New Primary E-RNTI stored in the variable E_RNTI as the UE identity in the E-AGCH reception procedure and the E-RUCCH transmission procedure in the physical layer.
When the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to TRUE and the secondary uplink frequency is an activated uplink frequency, the UE shall:
1>	use the primary E-RNTI and/or secondary E-RNTI stored in the IE "Secondary serving E-DCH cell info" as UE identities in the E-AGCH reception procedure in the physical layer on the downlink frequency associated with the secondary uplink frequency.
8.6.3.15	SR-VCC Info
The presence of the IE "NONCE" in the IE "SR-VCC Info" triggers the relevant actions for mapping keys from the PS domain to the CS domain. The IE "NONCE" is not included if ciphering is not active for PS domain prior to the reception of the IE "SR-VCC Info".
If the IE "SR-VCC Info" is included and the IE "NONCE" is present in the IE "SR-VCC Info", the UE shall:
1>	set the "Status" in the variable CIPHERING_STATUS of the CS domain to "Started";
1>	calculate the CK and IK for the CS domain as specified in [40];
1>	if the IE "SR-VCC Info" is included in a message other than HANDOVER FROM UTRAN COMMAND:
2>	set the variable LATEST_CONFIGURED_CN_DOMAIN to "CS domain";
2>	use the ciphering algorithm in use for the PS domain as part of the new ciphering configuration for the CS domain unless otherwise specified by the message triggering SR-VCC.
If the IE "SR-VCC Info" is included, the UE shall:
1>	add the signalling connection with the identity "CS domain" in the variable ESTABLISHED_SIGNALLING_CONNECTIONS.
8.6.3.16	rSR-VCC Info
If the IE "rSR-VCC Info" is received and contains the IE "IMS information", the UE shall:
1>	indicate the "IMS information" IE to the upper layers as part of rSR-VCC procedure.
If the IE "rSR-VCC Info" is received and contains the IE "NONCE", the UE shall:
1>	forward the IE "NONCE" to upper layers as specified in [79];
8.6.3.17	Access Group identity
If the IE "Access Group identity" is included, the UE shall:
1>	store the value in the variable CONNECTED_MODE_ACCESS_CONTROL, replacing any stored value of the IE "Access Group identity";
1>	if in CELL_FACH state:
2>	if System Information Block type 24 is scheduled on the broadcast channel:
3>	if the n-th Bit in the IE "DTCH transmission blocked" in the variable CONNECTED_MODE_ACCESS_CONTROL is set to 1, where n is the value stored in the IE "Access Group identity" in the variable CONNECTED_MODE_ACCESS_CONTROL:
4>	configure RLC entities mapped onto the logical channel DTCH to not submit any data PDUs to lower layers.
3>	else:
4>	configure RLC entities mapped onto the logical channel DTCH to allow submitting data PDUs to lower layers. 
1>	if in CELL_PCH state or URA_PCH state:
2>	if System Information Block type 24 is scheduled on the broadcast channel:
3>	if the n-th Bit in the IE "DTCH transmission blocked" in the variable CONNECTED_MODE_ACCESS_CONTROL is set to 1, where n is the value stored in the IE "Access Group identity" in the variable CONNECTED_MODE_ACCESS_CONTROL:
4>	not trigger a measurement report procedure or not initiate the cell update procedure with cell update cause "uplink data transmission".
NOTE:	Measurement report and cell update procedures that are triggered by uplink RLC control PDU are permitted.
8.6.3.18	RNTI handling at cell re-selection
If the IE "RNTI handling at cell re-selection" is included, the UE shall:
1>	set the variable RNTI_HANDLING_AT_CELL_RE-SELECTION  to TRUE.
else:
1>	set the variable RNTI_HANDLING_AT_CELL_RE-SELECTION to FALSE.
8.6.3.19	Actions related to dynamic activation time determination (FDD only)
If the IE "Dynamic activation time" is included, the UE shall:
1>	trigger lower layers to start operation of improved synchronized RRC procedures.
If the UE receives a lower layer ACK to an UL MAC Control Information for a Ready to Switch [15], the UE shall:
1>	calculate the determined activation time, by adding the value of the IE "Activation offset" included in the message to the CFN [29] of the latest ACK received;
1>	set the value of the determined activation time to the smaller of the determined activation time calculated above and the value of the IE "Activation Time" included in the message, taking possible CFN wrap-around into account;
1>	store the value of the determined activation time in the variable DETERMINED_ACTIVATION_TIME;
1>	perform the actions as specified in chapter 8.6.3.1 considering the determined activation time when selecting the activation time T.
NOTE 1:	If the UE has not received a lower layer ACK to an UL MAC Control Information for a Ready to Switch [15] before the activation time specified in the IE "Activation Time" if the value is not the default value "Now", the UE shall perform the actions as specified in chapter 8.6.3.1 considering the IE "Activation Time".
8.6.4	Radio bearer information elements
8.6.4.1	Signalling RB information to setup list
If the IE "Signalling RB information to setup list" is included the UE shall:
1>	use the same START value to initialise the COUNT-C and COUNT-I variables for all the signalling radio bearers in the list;
1>	if the IE "Signalling RB information to setup list" was included in the RADIO BEARER SETUP message:
2>	if the variable LATEST_CONFIGURED_CN_DOMAIN has been initialised:
3>	calculate the START value only once during this procedure according to subclause 8.5.9 for the CN domain indicated in the variable LATEST_CONFIGURED_CN_DOMAIN;
3>	store the calculated START value in the variable START_VALUE_TO_TRANSMIT.
1>	for each occurrence of the IE "Signalling RB information to setup":
2>	use the value of the IE "RB identity" as the identity of the signalling radio bearer to setup;
2>	if the signalling radio bearer identified with the IE "RB identity" does not exist in the variable ESTABLISHED_RABS:
3>	create a new entry for the signalling radio bearer in the variable ESTABLISHED_RABS.
2>	if the IE "Signalling RB information to setup list" was received in a message other than HANDOVER TO UTRAN COMMAND; and
2>	if the variable LATEST_CONFIGURED_CN_DOMAIN has been initialised and the value "STATUS" of the variable CIPHERING_STATUS of the CN domain stored in this variable is "Started":
3>	if the IE "Uplink RLC mode" or the IE "Downlink RLC mode" either in the IE "RLC info" or referenced by the RB identity in the IE "Same as RB" is set to "AM RLC" or "UM RLC":
4>	initialise the 20 MSB of the hyper frame number component of COUNT-C for this signalling radio bearer with the START value in the variable START_VALUE_TO_TRANSMIT;
4>	set the remaining LSB of the hyper frame number component of COUNT-C for this signalling radio bearer to zero;
4>	start to perform ciphering on this signalling radio bearer, using the value of the IE "RB identity" minus one as the value of BEARER in the ciphering algorithm.
2>	if the IE "Signalling RB information to setup list" was received in a message other than HANDOVER TO UTRAN COMMAND; and
2>	if the variable LATEST_CONFIGURED_CN_DOMAIN has been initialised and the value "Status" of the variable "INTEGRITY_PROTECTION_INFO" of the CN domain stored in this variable is "Started":
3>	initialise the 20 MSB of the hyper frame number component of COUNT-I for this signalling radio bearer with the START value in the variable START_VALUE_TO_TRANSMIT;
3>	set the remaining LSB of the hyper frame number component of COUNT-I for this signalling radio bearer to zero;
3>	for this signalling radio bearer, set the IE "Uplink RRC Message sequence number" in the variable INTEGRITY_PROTECTION_INFO to zero;
3>	start performing integrity protection according to subclauses 8.5.10.1 and 8.5.10.2.
2>	perform the actions for the IE "RLC info" as specified in subclause 8.6.4.9, applied for that signalling radio bearer;
2>	perform the actions for the IE "RB mapping info" as specified in subclause 8.6.4.8, applied for that signalling radio bearer.
1>	apply a default value of the IE "RB identity" equal to 1 for the first IE "Signalling RB information to setup"; and
1>	increase the default value by 1 for each occurrence.
NOTE:	The UTRAN should only use the default value of the IE "RB identity" within the RRC Connection Setup and Handover to UTRAN Command messages. If the default value of the IE "RB identity" is used in any other message then the UE behaviour is not specified.
8.6.4.2	RAB information for setup
If the IE "RAB information for setup" is included, the procedure is used to establish or establish/release (only if CS domain RAB mapping is reconfigured between DCH and EDCH/HSPA or IE "RAB info to replace" exists) radio bearers belonging to a radio access bearer, and the UE shall:
1>	if several IEs "RAB information for setup" are included in a message other than HANDOVER TO UTRAN COMMAND and the included IEs "CN domain identity" in the IE "RAB info" does not all have the same value:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the radio access bearer identified with the IE "RAB info" does not exist in the variable ESTABLISHED_RABS:
2>	create a new entry for the radio access bearer in the variable ESTABLISHED_RABS;
2>	store the content of the IE "RAB info" in the entry for the radio access bearer in the variable ESTABLISHED_RABS;
2>	indicate the establishment of each radio access bearer to the upper layer entity using the IE "CN domain identity", forwarding the content of the IE "RAB identity" and the IEs NAS Synchronization Indicator as well as the following IEs if included in the IE "RAB info": "MBMS Session identity" and/ or "MBMS Service Identity";
2>	if prior to this procedure there exists no transparent mode radio bearer for the CN domain included in the IE "CN domain identity" and at least one transparent mode radio bearer is included in the IE "RB information to setup"; or
2>	if at least one RLC-AM or RLC-UM radio bearer is included in the IE "RB information to setup":
3>	calculate the START value only once during this procedure (the same START value shall be used on all new radio bearers created for this radio access bearer) according to subclause 8.5.9 for the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" part of the IE "RAB information to setup";
NOTE:	For the case of SR-VCC the START value from the mapped CS key will be incremented and compared with the START value read from the (U)SIM at connection setup. The largest value will be used for the new CS START value. For the case of rSR-VCC the START value from the mapped PS key will be incremented and compared with the START value read from the (U)SIM at connection setup. The largest value will be used for the new PS START value. This operation is provided with the existing procedure in subclause 8.5.9.
3>	store the calculated START value in the variable START_VALUE_TO_TRANSMIT.
1>	if the radio access bearer identified with the IE "RAB identity" in the IE "RAB info" already exists in the variable ESTABLISHED_RABS:
2>	if prior to this procedure there exists no transparent mode radio bearer for the CN domain included in the IE "CN domain identity" and at least one transparent mode radio bearer is included in the IE "RB information to setup"; or
2>	if at least one RLC-AM or RLC-UM radio bearer is included in the IE "RB information to setup":
3>	calculate the START value only once during this procedure (the same START value shall be used on all new radio bearers created for this radio access bearer) according to subclause 8.5.9 for the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" part of the IE "RAB information to setup";
3>	store the calculated START value in the variable START_VALUE_TO_TRANSMIT.
2>	for each radio bearer in the variable ESTABLISHED_RABS for that radio access bearer:
3>	release the PDCP and RLC entities for that radio bearer;
3>	release the RAB subflow associated with the radio bearer;
3>	delete the information about the radio bearer from the variable ESTABLISHED_RABS.
NOTE:	When CS domain RAB mapping is reconfigured between DCH and E-DCH/HS-DSCH, UTRAN should change the radio bearer identity.
1>	if the radio access bearer identified with the IE "RAB info to replace" already exists in the variable ESTABLISHED_RABS:
2>	for each radio bearer in the variable ESTABLISHED_RABS for that radio access bearer:
3>	release the PDCP and RLC entities for that radio bearer;
3>	release the RAB subflow associated with the radio bearer;
3>	delete the information about the radio bearer from the variable ESTABLISHED_RABS.
NOTE:	When an SR-VCC procedure is initiated, if the received reconfiguration message attempts to configure RBs with the same RB Identity as an existing or about to be released radio bearer identity, the UE behaviour is not specified.
2>	indicate to the upper layers that the radio access bearer identified by the IE "RAB info to replace" is released as part of a SR-VCC procedure.
1>	for each radio bearer in the IE "RB information to setup":
2>	if the radio bearer identified with the IE "RB identity" does not exist in the variable ESTABLISHED_RABS:
3>	perform the actions specified in subclause 8.6.4.3;
3>	store information about the new radio bearer in the entry for the radio access bearer identified by "RAB info" in the variable ESTABLISHED_RABS;
3>	create a new RAB subflow for the radio access bearer;
3>	number the RAB subflow in ascending order, assigning the smallest number to the RAB subflow corresponding to the first radio bearer in the list;
3>	if the IE "CN domain identity" in the IE "RAB info" is set to "PS domain" and the number of RAB subflows for the radio access bearer is greater than 1:
4>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if the radio bearer identified with the IE "RB identity" already exists in the variable ESTABLISHED_RABS:
3>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the IE "CS-HSPA information" is included:
2>	forward the content of the IE "UL AMR rate" to upper layers;
2>	use the information in the IE "Max CS delay" to determine the maximum buffering of the voice frames (see [36]).
8.6.4.2a	RAB information to reconfigure
If the IE "RAB information to reconfigure" is included then the UE shall:
1>	if the entry for the radio access bearer identified by the IE "CN domain identity" together with the IE "RAB Identity" in the variable ESTABLISHED_RABS already exists:
2>	perform the action for the IE "NAS Synchronization Indicator", according to subclause 8.6.4.12.
1>	else:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the IE "CS-HSPA information" is included:
2>	forward the content of the IE "UL AMR rate" to upper layers;
2>	use the information in the IE "Max CS delay" to determine the maximum buffering of the voice frames (see [36]).
8.6.4.3	RB information to setup
If the IE "RB information to setup" is included, the UE shall apply the following actions on the radio bearer identified with the value of the IE "RB identity". The UE shall:
1>	use the same START value to initialise the hyper frame number components of COUNT-C variables for all the new radio bearers to setup;
1>	perform the actions for the IE "PDCP info", if present, according to subclause 8.6.4.10, applied for the radio bearer;
1>	perform the actions for the IE "RLC info", according to subclause 8.6.4.9, applied for the radio bearer;
1>	perform the actions for the IE "RB mapping info", according to subclause 8.6.4.8, applied for the radio bearer;
1>	if the IE "Downlink RLC mode" either in the IE "RLC info" or referenced by the RB identity in the IE "Same as RB" is set to "TM RLC":
2>	configure delivery of erroneous SDUs in lower layers according to indication from upper layer [5].
1>	if the IE "Downlink RLC mode" either in the IE "RLC info" or referenced by the RB identity in the IE "Same as RB" is set to "UM RLC" and if the radio bearer is connected to a CS domain radio access bearer:
2>	configure delivery of RLC sequence number in lower layers;
2>	if the IE "RB information to setup" was received in a message other than HANDOVER TO UTRAN COMMAND:
3>	if the IE "SR-VCC Info" is present and contains the IE "NONCE":
4>	initialise the 20 MSB of the hyper frame number component of COUNT-C for this radio bearer (including uplink and downlink) with zero for CS domain;
3>	else:
4>	initialise the 20 MSB of the hyper frame number component of COUNT-C for this radio bearer (including uplink and downlink) with the latest transmitted START for CS domain;
3>	set the remaining LSB of the hyper frame number component of COUNT-C for this radio bearer (including uplink and downlink) to zero;
3>	start incrementing the COUNT-C values.
1>	else if the IE "RB information to setup" was received in a message other than HANDOVER TO UTRAN COMMAND; and
1>	if the IE "Uplink RLC mode" or the IE "Downlink RLC mode" either in the IE "RLC info" or referenced by the RB identity in the IE "Same as RB" is set to "AM RLC" or "UM RLC":
2>	initialise the 20 MSB of the hyper frame number component of COUNT-C for this radio bearer with the START value in the variable START_VALUE_TO_TRANSMIT;
2>	set the remaining LSB of the hyper frame number component of COUNT-C for this radio bearer to zero;
2>	start incrementing the COUNT-C values.
1>	if the IE "RB information to setup" was received in a message other than HANDOVER TO UTRAN COMMAND; and
1>	if the IE "Uplink RLC mode" and the IE "Downlink RLC mode" either in the IE "RLC info" or referenced by the RB identity in the IE "Same as RB" is set to "TM RLC":
2>	if prior to this procedure there exists no transparent mode radio bearer for the CN domain included in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS and at least one transparent mode radio bearer is included in the IE "RB information to setup":
3>	if the IE "Status" in the variable CIPHERING_STATUS of the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS is set to "Not Started":
4>	at the activation time as specified in the IE "Ciphering activation time for DPCH" if included in the IE "Ciphering mode info" in the command message or, if this IE is not included, as specified in the IE "COUNT-C activation time" included in the response message:
5>	initialise the 20 most significant bits of the hyper frame number component of COUNT-C common for all transparent mode radio bearers of this CN domain with the START value in the variable START_VALUE_TO_TRANSMIT;
5>	set the remaining LSB of the hyper frame number component of COUNT-C to zero;
5>	do not increment the COUNT-C value common for all transparent mode radio bearers for this CN domain.
3>	if the IE "Status" in the variable CIPHERING_STATUS of the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS is set to " Started":
4>	at the activation time as specified in the IE "Activation Time" in the RADIO BEARER SETUP message:
5>	if the IE "CN domain identity" in the "IE RAB info" is set to CS; and
5>	if the IE "SR-VCC Info" is present and contains the IE "NONCE":
6>	initialise the 20 most significant bits of the HFN component of COUNT-C common for all transparent mode RLC radio bearers to zero.
5>	otherwise:
6>	initialise the 20 most significant bits of the HFN component of COUNT-C common for all transparent mode RLC radio bearer to the value of the latest transmitted START for this CN domain.
5>	while not incrementing the value of the HFN component of COUNT-C at each CFN cycle; and
5>	set the remaining LSB of the HFN component of COUNT-C to zero;
5>	start to perform ciphering on the radio bearer in lower layers while not incrementing the HFN.
4>	at the activation time as specified in the IE "Ciphering activation time for DPCH" if included in the IE "Ciphering mode info" in the command message or, if this IE is not included, as specified in the IE "COUNT-C activation time" included in the response message:
5>	initialise the 20 most significant bits of the HFN component of COUNT-C common for all transparent mode radio bearers of this CN domain with the START value in the variable START_VALUE_TO_TRANSMIT;
5>	set the remaining LSB of the HFN component of COUNT-C to zero;
5>	if the received message is used to perform a Timing re-initialised hard handover:
6>	increment the HFN component of the COUNT-C variable by one even if the "COUNT-C activation time" is set to zero.
5>	start incrementing the COUNT-C value common for all transparent mode radio bearers of this CN domain as normal, at each CFN value, i.e. the HFN component is no longer fixed in value but incremented at each CFN cycle.
2>	if prior to this procedure there exists at least one transparent mode radio bearer for the CN domain included in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS:
3>	if the IE "Status" in the variable CIPHERING_STATUS of the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS is set to "Not Started":
4>	do not increment the COUNT-C value common for all transparent mode radio bearers for this CN domain.
3>	if the IE "Status" in the variable CIPHERING_STATUS of the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS is set to "Started":
4>	use the COUNT-C value common for all transparent mode radio bearers of this CN domain.
1>	if the IE "Status" in the variable CIPHERING_STATUS of the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" in the variable ESTABLISHED_RABS is set to "Started":
2>	start to perform ciphering on the radio bearer in lower layers, using the value of the IE "RB identity" minus one as the value of BEARER in the ciphering algorithm.
NOTE:	UTRAN should not use the IE "RB information to setup" to setup radio bearers with RB identity in the range 1-4.
8.6.4.4	RB information to be affected
If the IE "RB information to be affected" is included, the UE shall apply the following actions on the radio bearer identified with the value of the IE "RB identity". The UE shall:
1>	perform the actions for the IE "RB mapping info", according to subclause 8.6.4.8, applied for the radio bearer.
8.6.4.4a	Void

8.6.4.5	RB information to reconfigure
If the IE "RB information to reconfigure" is included, the UE shall apply the following actions on the radio bearer identified with the value of the IE "RB identity". The UE shall:
1>	perform the actions for the IE "PDCP info", if present, according to subclause 8.6.4.10, applied for the radio bearer;
1>	if the IE "RLC info" is present:
2>	perform the actions for the IE "RLC info", according to subclause 8.6.4.9, applied for the radio bearer.
1>	else:
2>	continue using the current RLC configuration for the radio bearer.
1>	perform the actions for the IE "RB mapping info", according to subclause 8.6.4.8, applied for the radio bearer;
1>	if the IE "Downlink RLC mode" in the IE "RLC info" is set to "TM RLC":
2>	configure delivery of erroneous SDUs in lower layers according to indication from upper layer [5].
1>	if the IE "PDCP SN info" is included:
2>	perform the actions as specified in subclause 8.6.4.11 applied for the radio bearer.
1>	if the IE "RB stop/continue" is included; and
2>	if the "RB identity" has a value greater than 2; and
3>	if the value of the IE "RB stop/continue" is "stop":
4>	configure the RLC entity for the radio bearer to stop;
4>	set the IE "RB started" in the variable ESTABLISHED_RABS to "stopped" for that radio bearer.
3>	if the value of the IE "RB stop/continue" is "continue":
4>	configure the RLC entity for the radio bearer to continue;
4>	set the IE "RB started" in the variable ESTABLISHED_RABS to "started" for that radio bearer.
2>	if the IE "RB identity" is set to a value less than or equal to 2:
3>	set the variable INVALID_CONFIGURATION to TRUE.
8.6.4.6	RB information to release
If the IE "RB information to release" is included, the UE shall apply the following actions on the radio bearer identified with the value of the IE "RB identity". The UE shall:
1>	if the IE "RB identity" is set to a value less than 4:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the IE "RB identity" refers to a signalling radio bearer:
2>	release the RLC entity for the signalling radio bearer;
2>	delete the information about the signalling radio bearer from the variable ESTABLISHED_RABS.
1>	if the IE "RB identity" refers to a radio bearer:
2>	release the PDCP and RLC entities for that radio bearer;
2>	indicate release of the RAB subflow associated with the radio bearer to upper layers;
2>	delete the information about the radio bearer from the variable ESTABLISHED_RABS;
2>	when all radio bearers belonging to the same radio access bearer have been released:
3>	indicate release of the radio access bearer to upper layers providing the "CN domain identity" together with the "RAB identity" and the "MBMS Service Identity" if stored in the variable ESTABLISHED_RABS;
3>	delete all information about the radio access bearer from the variable ESTABLISHED_RABS.
The UE shall:
1>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25;
1>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
8.6.4.7	RB with PDCP information
If the IE "RB with PDCP information" is included, the UE shall apply the following actions on the radio bearer identified with the value of the IE "RB identity". The UE shall:
1>	for the IE "PDCP SN info":
2>	perform the actions as specified in subclause 8.6.4.11.
8.6.4.8	RB mapping info
If the IE "RB mapping info" is included, the UE shall:
1>	for each multiplexing option of the RB:
2>	if a multiplexing option that maps a logical channel corresponding to a TM-RLC entity onto RACH, FACH, USCH, DSCH (only for TDD), HS-DSCH or E-DCH is included:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if the multiplexing option realises the radio bearer on the uplink (resp. on the downlink) using two logical channels with different values of the IE "Uplink transport channel type" (resp. of the IE "Downlink transport channel type"):
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if that RB is using TM and the IE "Segmentation indication" is set to TRUE and, based on the multiplexing configuration resulting from this message, the logical channel corresponding to it is mapped onto the same transport channel as another logical channel:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if the transport channel considered in that multiplexing option is different from RACH and if that RB is using AM and the set of RLC sizes applicable to the uplink logical channel transferring data PDUs has more than one element not equal to zero:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if that RB is using UM or TM and the multiplexing option realises it using two logical channels:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	for each logical channel in that multiplexing option:
3>	if the value of the IE "RLC size list" is set to "Explicit list":
4>	if a "Transport format set" for the transport channel this logical channel is mapped on in this multiplexing option is included in the same message, and the value (index) of any IE "RLC size index" in the IE "Explicit list" does not correspond to an "RLC size" in the IE transport format set of that transport channel given in the message; or
4>	if the transport channel this logical channel is mapped on in this multiplexing option is different from RACH, and if a "Transport format set" for that transport channel is not included in the same message, and the value (index) of any IE "RLC size index" in the IE "Explicit list" does not correspond to an "RLC size" in the stored transport format set of that transport channel; or
4>	if a "Transport format set" for the transport channel this logical channel is mapped on in this multiplexing option is included in the same message, and the value of any IE "Logical channel list" in the transport format set is not set to "Configured"; or
4>	if a "Transport format set" for the transport channel this logical channel is mapped on in this multiplexing option is not included in the same message, and the value of any IE "Logical channel list" in the stored transport format set of that transport channel is not set to "Configured":
5>	set the variable INVALID_CONFIGURATION to TRUE.
3>	if the value of the IE "RLC size list" is set to "All":
4>	if the transport channel this logical channel is mapped on is RACH; or
4>	if a "Transport format set" for the transport channel this logical channel is mapped on in this multiplexing option is included in the same message, and the value of any IE "Logical channel list" in the transport format set is not set to "Configured"; or
4>	if a "Transport format set" for the transport channel this logical channel is mapped on in this multiplexing option is not included in the same message, and the value of any IE "Logical channel list" in the stored transport format set of that transport channel is not set to "Configured":
5>	set the variable INVALID_CONFIGURATION to TRUE.
3>	if the value of the IE "RLC size list" is set to "Configured":
4>	if the transport channel this logical channel is mapped on is RACH; or
4>	if a "Transport format set" for the transport channel this logical channel is mapped on in this multiplexing option is included in the same message, and for none of the RLC sizes defined for that transport channel in the "Transport format set", the "Logical Channel List" is set to "All" or given as an "Explicit List" which contains this logical channel; or
4>	if a "Transport format set" for the transport channel this logical channel is mapped on in this multiplexing option is not included in the same message, and for none of the RLC sizes defined in the transport format set stored for that transport channel, the "Logical Channel List" is set to "All" or given as an "Explicit List" which contains this logical channel:
5>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if, for the HS-DSCH transport channel, when MAC-hs is configured and as a result of the message this IE is included in, several radio bearers can be mapped onto the same MAC-d flow, and the IE "Logical Channel Identity" was not included in the RB mapping info of any of those radio bearers for a multiplexing option on that MAC-d flow or the same "Logical Channel Identity" was used more than once in the RB mapping info of those radio bearers for the multiplexing options on that MAC-d flow:
2>	the UE behaviour is not specified.
1>	if, for the HS-DSCH transport channel, when MAC-ehs is configured and as a result of the message this IE is included in, several radio bearers can be mapped onto the reordering queue(s), and the IE "Logical Channel Identity" was not included in the RB mapping info of any of those radio bearers for a multiplexing option on at least one reordering queue or the same "Logical Channel Identity" was used more than once in the RB mapping info of those radio bearers for the multiplexing options on any reordering queue:
2>	the UE behaviour is not specified.
1>	if, as a result of the message this IE is included in, several radio bearers can be mapped onto the E-DCH MAC-d flows(s), and the IE "Logical Channel Identity" was not included in the RB mapping info of any of those radio bearers for a multiplexing option on at least one E-DCH MAC-d flow or the same "Logical Channel Identity" was used more than once in the RB mapping info of those radio bearers for the multiplexing options on any MAC-d flow:
2>	the UE behaviour is not specified.
1>	if, for transport channels other than HS-DSCH and E-DCH, as a result of the message this IE is included in, several radio bearers can be mapped onto the same transport channel, and the IE "Logical Channel Identity" was not included in the RB mapping info of any of those radio bearers for a multiplexing option on that transport channel or the same "Logical Channel Identity" was used more than once in the RB mapping info of those radio bearers for the multiplexing options on that transport channel:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if, as a result of the message this IE is included in, there are several radio bearers configured with a multiplexing option mapped on "HS-DSCH", i.e., a downlink transport channel of type "HS-DSCH" or "DCH + HS-DSCH", and there is at least one radio bearer with a multiplexing option configured with the DL MAC header type set to "MAC-hs" and at least one radio bearer with a multiplexing option configured with the DL MAC header type set to "MAC-ehs":
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the "RB mapping info" is considered as valid according to the rules above:
2>	delete all previously stored multiplexing options for that radio bearer;
2>	store each new multiplexing option for that radio bearer;
2>	perform the actions as specified in subclause 8.5.21;
2>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25;
2>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
1>	if the IE "Uplink transport channel type" is set to the value "RACH":
2>	in FDD:
3>	refer the IE "RLC size index" to the RACH Transport Format Set of the first PRACH received in the IE "PRACH system information list" received in System Information Block 5, System Information Block 5bis or System Information Block 6.
2>	in TDD:
3>	use the first Transport Format of the PRACH of the IE "PRACH system information list" at the position equal to the value in the IE "RLC size index".
1>	if the IE "Downlink transport channel type" is set to the value "HS-DSCH" or "DCH + HS-DSCH";and
1>	the DL MAC header type is set to "MAC-ehs":
2>	if the IE "Logical channel identity" is present:
3>	configure the receiving MAC-ehs entity with the value of the IE "Logical channel identity" to be used in the "LCH-ID" field of the MAC-ehs header [15] associated with the MAC-ehs reordering queue identified by the value of the IE "DL HS-DSCH MAC-ehs Queue Id".
2>	else:
3>	set the variable INVALID_CONFIGURATION to TRUE.
In case IE "RLC info" includes IE "Downlink RLC mode" ("DL RLC logical channel info" is mandatory present) but IE "Number of downlink RLC logical channels" is absent in the corresponding IE "RB mapping info", the parameter values are exactly the same as for the corresponding UL logical channels. In case two multiplexing options are specified for the UL, the first options shall be used as default for the DL. As regards the IE "Channel type", the following rule should be applied to derive the DL channel type from the UL channel included in the IE:
Channel used in UL
DL channel type implied by "same as"
DCH
DCH
RACH
FACH
USCH
DSCH

If ciphering is applied, UTRAN should not map Transparent Mode RBs of different CN domains on the same transport channel and it should not map transparent mode SRBs and RBs onto the same transport channel. In such cases the UE behaviour is not specified.
For FDD the list of multiplexing options configured in the UE for each RB and SRB should comply with the following rules otherwise the UE behaviour is not specified:
-	at most one multiplexing option can contain the combination "FACH" for the DL and "RACH" for the UL;
-	for FDD, at most one multiplexing option can contain the combination "HS-DSCH" mapped on MAC-ehs for the DL and "RACH" for the UL;
-	at most one multiplexing option can contain the combination "DCH" or "DCH + HS-DSCH" for the DL together with "DCH" for he UL;
-	at most one multiplexing option can contain the combination "HS-DSCH" or "DCH + HS-DSCH" for the DL together with "DCH" for the UL;
-	at most one multiplexing option can contain the combination "DCH" or "DCH + HS-DSCH" for the DL together with "E-DCH" for the UL; and
-	at most one multiplexing option can contain the combination "HS-DSCH" or "DCH + HS-DSCH" for the DL together with "E-DCH" for the UL.
8.6.4.9	RLC Info
Upon reception of the IE "RLC Info", the UE shall:
1>	if both the IE "Uplink RLC mode" and the IE "Downlink RLC mode" are present in the IE "RLC info":
2>	configure the transmitting and receiving RLC entities in the UE for that radio bearer accordingly.
1>	else, if the IE "Uplink RLC mode" is present and the IE "Downlink RLC mode" is not present in the IE "RLC info":
2>	configure the transmitting RLC entity in the UE for that radio bearer accordingly and keep the configuration existing before the reception of the message for the receiving RLC entity.
1>	else, if the IE "Uplink RLC mode" is not present and the IE "Downlink RLC mode" is present in the IE "RLC info":
2>	configure the receiving RLC entity in the UE for that radio bearer accordingly and keep the configuration existing before the reception of the message for the transmitting RLC entity.
1>	if the IE "Polling info" is present in the IE "RLC info":
2>	for each present IE in the IE "Polling info":
3>	configure RLC to use the corresponding function according to the value of the IE.
2>	for each absent IE in the IE "Polling info":
3>	configure RLC to not use the corresponding function.
1>	if the IE "Polling info" is absent:
2>	configure RLC to not use the polling functionality.
1>	if the IE "Downlink RLC STATUS info" is present in the IE "RLC info" (this IE is present for AM RLC):
2>	for each present IE in the IE "Downlink RLC STATUS info":
3>	configure RLC to use the corresponding function according to value of the IE.
2>	for each absent IE in the IE "Downlink RLC STATUS info":
3>	configure RLC to not use the corresponding function.
1>	if the IE "Transmission RLC discard" is present:
2>	configure the discard procedure in RLC according to the IE "Transmission RLC discard".
1>	if the IE "Transmission RLC discard" is absent (only possible for TM RLC and UM RLC):
2>	do not configure SDU discard in RLC.
1>	if the IE "Uplink RLC mode" is present and is set to "AM RLC":
2>	if the IE "Use special value of HE field" is present:
3>	configure the uplink RLC entity to use the special value of the HE field to indicate the end of an SDU.
2>	if the IE "Use special value of HE field" is not present:
3>	configure the uplink RLC entity to not use the special value of the HE field to indicate the end of an SDU.
1>	if the IE "Uplink RLC mode" is present and is set to "UM RLC":
2>	if the IE "Alternative E-bit interpretation" is present:
3>	configure the uplink RLC entity to use the alternative E-bit interpretation and corresponding LI's.
2>	if the IE "Alternative E-bit interpretation" is not present:
3>	configure the uplink RLC entity to use the normal E-bit interpretation and corresponding LI's.
1>	if the IE "Downlink RLC mode" is present and is set to "AM RLC":
2>	if IE "DL RLC PDU size" is not present:
3>	determining the downlink RLC PDU size will be handled at RLC level as described in [16], without any configuration from RRC.
NOTE:	The case where this mandatory IE is not present is meant to handle the interaction with a network using an earlier release of the specification.
2>	else, if the IE "DL RLC PDU size" is present, the DL RLC PDU size is set to "fixed size" and no downlink RLC PDU size is currently set in the RLC entity:
3>	configure the corresponding RLC entity with the downlink RLC PDU size.
2>	else, if the DL RLC PDU size is set to "flexible size" and no downlink RLC PDU size is currently set in the RLC entity:
3>	if this radio bearer is a signalling radio bearer:
4>	the UE behaviour is unspecified.
3>	else, configure the corresponding RLC entity with the RLC length indicator size indicated in the IE "Length indicator size".
2>	else, if the DL RLC PDU size is changed to "flexible size" from "fixed size" and the indicated RLC length indicator size is 7 bits:
3>	if this radio bearer is a signalling radio bearer:
4>	the UE behaviour is unspecified.
3>	else, configure the corresponding RLC entity with flexible RLC PDU size and the RLC length indicator size indicated in the IE "Length indicator size".
2>	else, if the IE "DL RLC PDU size" is present, the DL RLC PDU size is set to "fixed size" and DL RLC PDU size value is different from the one currently set in the RLC entity; or
2>	the DL RLC PDU size is set to "flexible size" and the indicated RLC length indicator size is different from the one currently set in the RLC entity; or
2>	the DL RLC PDU size is changed to "fixed size" from "flexible size"; or
2>	the DL RLC PDU size is changed to "flexible size" from "fixed size" and the indicated RLC length indicator size is 15 bits:
NOTE:	The downlink RLC PDU size set in the RLC entity should be explicitly configured in this release of the specification.
3>	if the DL RLC PDU size is set to "flexible size":
4>	if this radio bearer is a signalling radio bearer:
5>	the UE behaviour is unspecified.
3>	if the IE "one sided RLC re-establishment" is set to TRUE:
4>	re-establish the receiving side of the corresponding RLC entity.
3>	else:
4>	re-establish the corresponding RLC entity.
3>	if the RLC entity for SRB2 is re-established:
4>	clear all entries in the table "Processed transactions" in the variable TRANSACTIONS.
3>	if the DL RLC PDU size is set to "fixed size":
4>	configure the corresponding RLC entity with the new downlink RLC PDU size.
3>	if the DL RLC PDU size is set to "flexible size":
4>	configure the corresponding RLC entity with the RLC length indicator size indicated in the IE "Length indicator size".
3>	if the UE supports the lossless DL RLC PDU size change and PDCP was configured for that radio bearer with the IE "Support for lossless SRNS relocation or for lossless DL RLC PDU size change" set to TRUE:
4>	include the current DL PDCP receive sequence number and the radio bearer identity for that radio bearer in the variable PDCP_SN_INFO.
3>	if the IE "Status" in the variable CIPHERING_STATUS of the CN domain as indicated in the IE "CN domain identity" in the IE "RAB info" for this radio bearer is set to "Started":
4>	if the RLC re-establishment is caused by a CELL UPDATE CONFIRM:
5>	if only the receiving side of the RLC entity was re-established:
6>	set the HFN values for the corresponding RLC entity in downlink equal to the value of the IE "START" included in the latest transmitted CELL UPDATE message for this CN domain.
5>	if the whole RLC entity was re-established:
6>	set the HFN values for the corresponding RLC entity in uplink and downlink equal to the value of the IE "START" included in the latest transmitted CELL UPDATE message for this CN domain.
4>	if the RLC re-establishment is caused by a reconfiguration message:
5>	if only the receiving side of the RLC entity was re-established:
6>	set the HFN values for the corresponding RLC entity in downlink equal to the value of the IE "START" that will be included in the reconfiguration complete message for this CN domain.
5>	if the whole RLC entity was re-established:
6>	set the HFN values for the corresponding RLC entity in uplink and downlink equal to the value of the IE "START" that will be included in the reconfiguration complete message for this CN domain.
2>	if the UE supports MAC-ehs:
3>	configure the downlink RLC entity to use the special value of the HE field to indicate the end of an SDU.
2>	else:
3>	configure the downlink RLC entity to not use the special value of the HE field to indicate the end of an SDU.
1>	if the IE "Downlink RLC mode" is present and is set to "UM RLC":
2>	if the IE "DL UM RLC LI size" is not present:
3>	configure the corresponding RLC entity with an LI size of 7 bits.
NOTE:	The case where this mandatory IE is not present is meant to handle the interaction with a network using an earlier release of the specification.
2>	else:
3>	configure the corresponding RLC entity with the LI size indicated in the IE "DL UM RLC LI size".
2>	if the IE "DL Reception Window Size" is present:
3>	if the variable UE_CAPABILITY_TRANSFERRED indicates "Support of HS-PDSCH" as "Supported":
4>	configure the corresponding RLC entity to support out-of-sequence reception with the receive window size indicated in the IE.
3>	if the variable UE_CAPABILITY_TRANSFERRED indicates "Support of HS-PDSCH" as "Unsupported":
4>	the UE behaviour is not specified.
2>	else:
3>	configure the corresponding RLC entity without out-of-sequence reception.
NOTE:	If the "Uplink RLC mode" or the "Downlink RLC mode" of an existing radio bearer is modified by a reconfiguration message, the UE behaviour is unspecified.
2>	if the IE "Alternative E-bit interpretation" is present:
3>	configure the downlink RLC entity to use the alternative E-bit interpretation and corresponding LI's.
2>	if the IE "Alternative E-bit interpretation" is not present:
3>	configure the downlink RLC entity to use the normal E-bit interpretation and corresponding LI's.
8.6.4.10	PDCP Info
For ROHC, as specified in [83] and [84]:
1>	the chosen MAX_CID shall be less than the value "Maximum number of ROHC context sessions" as indicated in the IE "PDCP Capability".
If IE "PDCP info" is included, the UE shall:
1>	if the radio bearer is connected to a CS domain radio access bearer:
2>		if the IE "PDCP info" is included in any other message than the RADIO BEARER SETUP, CELL UPDATE CONFIRM or the HANDOVER TO UTRAN COMMAND message; or
2>	if the IE "PDCP PDU header" is set to the value "absent"; or
2>	if the IE "Support for lossless SRNS relocation or for lossless DL RLC PDU size change" is set to TRUE; or
2>	if the IE "Header compression information" is present; or
2>	if the UE does not support CS voice service over HSDPA and EDCH:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	else
3>	include PDCP headers in both uplink and downlink PDCP PDUs.
3>	configure "PDCP Unrecoverable Error Detection" in lower layer.
1>	else if the radio bearer is connected to a PS domain radio access bearer:
2>	if the IE "PDCP PDU header" is set to the value "absent":
3>	if the IE "Support for lossless SRNS relocation or for lossless DL RLC PDU size change" is TRUE:
4>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if the IE "PDCP PDU header" is set to the value "present":
3>	include PDCP headers in both uplink and downlink PDCP PDUs;
3>	if the IE "Support for lossless SRNS relocation or for lossless DL RLC PDU size change" is FALSE:
4>	if the IE "Header compression information" is absent:
5>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if the IE "Header compression information" is absent:
3>	not use Header compression after the successful completion of this procedure;
3>	remove any stored configuration for the IE "Header compression information".
2>	if the IE "Header compression information" is present:
3>	if the IE "Algorithm Type" is set to "RFC 2507":
4>	if the UE capability "Maximum header compression context space", as specified in [35], is exceeded with this configuration:
5>	set the variable INVALID_CONFIGURATION to TRUE.
4>	if the IE "PDCP PDU header" is set to the value "absent":
5>	the behaviour of the UE is unspecified.
3>	if the IE "Algorithm Type" is set to "RFC 3095":
4>	if the uplink RLC mode for this radio bearer is RLC-TM:
5>	the behaviour of the UE is unspecified.
1>	configure the PDCP entity for that radio bearer accordingly;
1>	configure the RLC entity for that radio bearer according to the value of the IE "Support for lossless SRNS relocation or for lossless DL RLC PDU size change";
1>	set the PROFILES parameter, used by inband ROHC profile negotiation, for this PDCP entity for both UL and DL equal to the list of ROHC profiles received in the IE "PDCP info". A UE complying to this version of the protocol shall support ROHC profiles 0x0000 (ROHC uncompressed), 0x0001 (ROHC RTP), 0x0002 (ROHC UDP) and 0x0003 (ROHC ESP) (see [52]).
1>	if the IE "PDCP ROHC target mode" is received:
2>	set the variable " PDCP_ROHC_TARGET_MODE " to the received value.
1>	if the IE "PDCP ROHC target mode" is not received in either of the CELL UPDATE CONFIRM, the RADIO BEARER RECONFIGURATION or the RADIO BEARER SETUP message:
2>	delete the variable "PDCD_ROHC_TARGET_MODE" and act according to actions specified in [36].
8.6.4.11	PDCP SN Info
If the IE "PDCP SN Info" is included, the UE shall:
1>	transfer the sequence number to the PDCP entity for the radio bearer;
1>	configure the RLC entity for the radio bearer to stop;
1>	include the current PDCP receive sequence number and the radio bearer identity for the radio bearer in the variable PDCP_SN_INFO.
8.6.4.12	NAS Synchronisation Indicator
If the IE "NAS Synchronisation Indicator" is present in a message, the UE shall:
1>	forward the content to upper layers along with the IE "CN domain identity" of the associated RAB stored in the variable ESTABLISHED_RABS at the CFN indicated in the IE "Activation time" in order to synchronise actions in NAS and AS.
8.6.4.13	PDCP context relocation info
If the IE "PDCP context relocation info" is included, the UE shall, for each radio bearer included in this IE:
1>	If the IE "Downlink RFC 3095 context relocation indication" is set to TRUE:
2>	perform the actions as specified in [36] for all ROHC contexts associated with that radio bearer in the downlink.
1>	If the IE "Uplink RFC 3095 context relocation indication" is set to TRUE:
2>	perform the actions as specified in [36] for all ROHC contexts associated with that radio bearer in the uplink.
8.6.4.14	RLC Info MBMS
Upon reception of the IE "RLC Info MBMS", the UE shall:
1>	configure the receiving RLC entity in the UE for that radio bearer accordingly;
1>	configure the corresponding RLC entity with the LI size indicated in the IE "DL UM RLC LI size".
1>	if the IE "DL Duplication Avoidance and Reordering info" is present:
2>	configure the corresponding RLC entity to use the UM duplication avoidance and reordering functionality.
1>	if the IE "DL Out of sequence delivery info" is present:
2>	configure the corresponding RLC entity to use the UM out of sequence delivery functionality.
8.6.4.15	RAB information for MBMS ptp bearer
If the IE "RAB information for MBMS ptp bearer" is included then the UE shall:
1>	if an entry for the radio access bearer identified by the IE "RB Identity" already exists in the variable ESTABLISHED_RABS and a value of the IE "MBMS Service Identity" is stored in this entry of the variable ESTABLISHED_RABS:
2>	notify upper layers that the radio access bearer characterised by the parameters currently stored in this entry of the variable ESTABLISHED_RABS is released;
2>	reuse this entry of the variable ESTABLISHED_RABS and update it with the received value of IE "MBMS Service Identity" and, if included, with the received value of IE "MBMS Session Identity";
2>	notify upper layers that the radio access bearer characterised by the updated parameters in this entry is established.
1>	else:
2>	set the variable INVALID_CONFIGURATION to TRUE.
8.6.4.16	Retrievable configuration info
If the IE "Retrievable configuration info" is included in the reconfiguration message:
1>	perform the actions below, and then act upon all other received information elements as specified in subclause 8.6.
If the IE "Retrievable configuration to be invoked" is included in the reconfiguration message:
1>	consider the IE "Retrievable configuration to be invoked" as the invoked id;
1>	act as if all parameters stored in the variable RETRIEVABLE_CONFIGURATION for the invoked id had been received in the reconfiguration message;
1>	if any of the parameters stored in the variable RETRIEVABLE_CONFIGURATION for the  invoked id are also included in the reconfiguration message or if the parameter has not been assigned a value in the variable RETRIEVABLE_CONFIGURATION:
2>	act upon the values received in the reconfiguration message for those parameters in the variable RETRIEVABLE_CONFIGURATION.
If the IE "Retrievable configuration to be stored" is included in the reconfiguration message:
1>	consider the IE "Retrievable configuration to be stored" as the stored id;
1>	after the IE "Retrievable configuration to be invoked", if included, has been acted upon above:
2>	store the values of the parameters of the resulting configuration with the stored id in the variable RETRIEVABLE_CONFIGURATION, replacing or clearing any previously stored information in this entry.
If the IE "Retrievable configuration to be removed" is included in the reconfiguration message:
1>	remove the retrievable configurations identified by the IE "Retrievable configuration identity".
If the IE "Retrievable configuration to be invoked" is included in the reconfiguration message and a retrievable configuration with the received identity is not stored in the variable RETRIEVABLE_CONFIGURATION:
1>	set the variable INVALID_CONFIGURATION to TRUE.
If other IEs than the IE "Preconfigured retrievable configuration" are also included in the message, the UE shall first act on those IEs, and then act on the IE "Preconfigured retrievable configuration". For each occurrence of the IE "Preconfigured retrievable configuration":
1>	consider the IE "Retrievable configuration identity" as the stored id;
1>	store all values of the parameters in IE "Retrievable configuration" with the stored id in the variable RETRIEVABLE_CONFIGURATION;
1>	if the same retrievable configuration identity has already been stored in the variable RETRIEVABLE_CONFIGURATION:
2> if any of the parameters stored in the variable RETRIEVABLE_CONFIGURATION for the IE "Retrievable configuration identity" are also included in IE "Retrievable configuration" in the reconfiguration message, or if the parameter has not been assigned a value in the variable RETRIEVABLE_CONFIGURATION:
3> overwrite the stored values with the values received in IE "Retrievable configuration"and store the new values  in the variable RETRIEVABLE_CONFIGURATION.
8.6.4.17	Other state configuration info
If the IE "Other state configuration info" is included in the reconfiguration message, the UE shall:
1>	if the IE "Other state configuration to be stored" is present, then for each configuration:
2>	set the variable INVALID_CONFIGURATION to TRUE if any of the following conditions are met
3>	there is already one stored configuration with the same value in IE "Source RRC State Indicator";
3>	if the IE "Source RRC state Indicator" is "CELL_DCH", and  the IE "Target RRC State Indicator" is other than "CELL_FACH", "CELL_PCH" or "URA_PCH";
3>	if the IE "Source RRC state Indicator" is "CELL_FACH", and the IE "Target RRC State Indicator" is other than "CELL_PCH" or "URA_PCH";
3>	if the RRC configuration in the IE "configuration" is not valid for the target state indicated by IE "Target RRC State Indicator".
2>	if variable OTHER_STATE_CONFIGURATION already contains a configuration with the same "Other state configuration identity":
3> overwrite the stored values with the values received in the reconfiguration message and store the new values in the UE variable OTHER_STATE_CONFIGURATION.
2>	else:
3>	store all values of applicable parameters with the associated identity in the variable OTHER_STATE_CONFIGURATION.
1>	if the IE "Other state configuration to be removed" is present:
2>	for each each occurance of the IE "Other state configuration identity":
3> remove the corresponding other state configuration in the variable OTHER_STATE_CONFIGURATION.
8.6.5	Transport channel information elements
8.6.5.1	Transport Format Set
If the IE "Transport format set" is included, the UE shall:
1>	if the transport format set is a RACH TFS received in System Information Block type 5 or System Information Block type 5bis or System Information Block type 6, and CHOICE "Logical Channel List" has a value different from "Configured":
2>	ignore that System Information Block.
NOTE:	The TFS added by the IE "Additional Dynamic Transport Format Information for CCCH" has no CHOICE "Logical Channel List" and can thus never be considered as different from "Configured".
1>	if the transport format set for a downlink transport channel is received in a System Information Block, and CHOICE "Logical Channel List" has a value different from 'ALL':
2>	ignore that System Information Block.
1>	if the transport format set for a downlink transport channel is received in a message on a DCCH, and CHOICE "Logical Channel List" has a value different from 'ALL':
2>	keep the transport format set if this exists for that transport channel;
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the value of any IE "RB identity" (and "Logical Channel" for RBs using two UL logical channels) in the IE "Logical channel list" does not correspond to a logical channel indicated to be mapped onto this transport channel in any RB multiplexing option (either included in the same message or previously stored and not changed by this message); or
1>	if the "Logical Channel List" for any of the RLC sizes defined for that transport channel is set to "Configured" while it is set to "All" or given as an "Explicit List" for any other RLC size; or
1>	if the "Logical Channel List" for any of the RLC sizes defined for that transport channel is set to "All" and for any logical channel mapped to this transport channel, the value of the "RLC size list" (either provided in the IE "RB mapping info" if included in the same message, or stored) is not set to "Configured"; or
1>	if the "Logical Channel List" for any of the RLC sizes defined for that transport channel is given as an "Explicit List" that contains a logical channel for which the value of the "RLC size list" (either provided in the IE "RB mapping info" if included in the same message, or stored) is not set to "Configured"; or
1>	if the "Logical Channel List" for all the RLC sizes defined for that transport channel are given as "Explicit List" and if one of the logical channels mapped onto this transport channel is not included in any of those lists; or
1>	if the "Logical Channel List" for the RLC sizes defined for that transport channel is set to "Configured" and for any logical channel mapped onto that transport channel, the value of the "RLC size list" (either provided in the IE "RB mapping info" if included in the same message, or stored) is also set to "Configured"; or
1>	if the IE "Transport Format Set" was not received within the IE "PRACH system information list" and if the "Logical Channel List" for the RLC sizes defined for that transport channel is set to "Configured" and for any logical channel mapped onto that transport channel, the "RLC size list" (either provided in the IE "RB mapping info" if included in the same message, or stored ) is given as an "Explicit List" that includes an "RLC size index" that does not correspond to any RLC size in this "Transport Format Set"; or
1>	if the IE "Transport Format Set" was not received within the IE "PRACH system information list", and if that RB is using AM and the set of RLC sizes applicable to the logical channel transferring data PDUs has more than one element not equal to zero:
2>	keep the transport format set if this exists for that transport channel;
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the total number of configured transport formats for the transport channel exceeds maxTF:
2>	keep the transport format set if this exists for that transport channel;
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the IE "Transport format set" is considered as valid according to the rules above:
2>	remove a previously stored transport format set if this exists for that transport channel;
2>	store the transport format set for that transport channel;
2>	consider the first instance of the parameter Number of TBs and TTI List within the Dynamic transport format information to correspond to transport format 0 for this transport channel, the second to transport format 1 and so on;
2>	if the IE "Transport format Set" has the choice "Transport channel type" set to "Dedicated transport channel":
3>	calculate the transport block size for all transport formats in the TFS using the following
	TB size = RLC size + MAC header size	if "RLC size" <> 0,
	TB size = 0		if "RLC size" = 0,
where:
-	MAC header size is calculated according to [15] if MAC multiplexing is used. Otherwise it is 0 bits;
-	'RLC size' reflects the RLC PDU size.
2>	if the IE "Transport format Set" has the choice "Transport channel type" set to "Common transport channel":
3>	calculate the transport block size for all transport formats in the TFS using the following:
	TB size = RLC size.
2>	if the IE "Number of Transport blocks" <> 0 and IE "RLC size" = 0, no RLC PDU data exists but only parity bits exist for that transport format;
2>	if the IE "Number of Transport blocks" = 0, neither RLC PDU neither data nor parity bits exist for that transport format;
2>		perform the actions as specified in subclause 8.5.21.
For configuration restrictions on Blind Transport Format Detection, see [27].
8.6.5.2	Transport format combination set
If the IE "Transport format combination set" is included for the uplink, the UE shall for that direction:
1>	store the new transport format combination set, or (if this exists) modify a previously stored transport format combination set according to IEs included in IE "Transport format combination set";
1>	start to respect those transport format combinations;
1>	if IE "Transport format combination subset" is received in this message:
2>	perform the actions as specified in subclause 8.6.5.3.
1>	if IE "Transport format combination subset" is not received in this message:
2>	clear the IE "Duration" in the variable TFC_SUBSET;
2>	set both the IE "Current TFC subset" and the IE "Default TFC subset" in the variable TFC_SUBSET to the value indicating "full transport format combination set".
If the IE "Transport format combination set" is included for the downlink, the UE shall for that direction:
1>	store the new transport format combination set, or (if this exists) modify a previously stored transport format combination set according to IEs included in IE "Transport format combination set";
1>	start to respect those transport format combinations.
If the IE "Transport format combination set" is not included for the uplink and if there is no addition, removal or reconfiguration of transport channels, the UE shall for that direction:
1>	use a previously stored transport format combination set if this exists.
If the IE "Transport format combination set" is not included for the downlink and if there is no addition, removal or reconfiguration of transport channels, the UE shall for that direction:
1>	use a previously stored transport format combination set if this exists.
If the IE "Transport format combination set" is not included for either the uplink or the downlink and for that direction after the reconfiguration there is one or more stored DCH configuration; and
1>	if no transport format combination set is stored in the UE; or
1>	if transport channels are added or removed in the message; or
1>	if any transport channel is reconfigured in the message such that the size of the transport format set is changed:
the UE shall:
1>	set the variable INVALID_CONFIGURATION to TRUE.
If the IE "Transport format combination set" is not included for either the uplink or the downlink and for that direction after the reconfiguration there is no stored DCH configuration, the UE shall:
1>	remove any stored transport format combination set for dedicated channels for that direction.
In the uplink TFCS the minimum set of TFCs is the set of TFCs that is needed for the TFC selection algorithm defined in [15] to give a predictable result. Any configured TFCS or TFC subset shall satisfy the requirements as specified by the minimum set. In the definition of the minimum set of TFCs below, only logical channels for which the TFCS or the TFC subset include at least one TFC with non-empty TF for the corresponding transport channel should be considered.
The minimum set of TFCs consists of the following:
1>	for each UM logical channel:
2>	a TFC with one transport block for this transport channel and empty TFs (see [34]) for all the others. If more than one TFC fulfils these criteria, only the TFC with the lowest number of bits should be included in the minimum set of TFCs.
1>	for each AM logical channel:
2>	a TFC with a non-empty TF for the corresponding transport channel and empty TFs for all other transport channels, where the non-empty TF includes one transport block with "Configured RLC Size" equal to the RLC PDU size.
1>	for each set of "synchronous" TM logical channels (see the definition below) and for each set of SDU sizes associated with it:
2>	a TFC with TFs corresponding to any combination of SDU sizes that can be received in a TTI from higher layers on the corresponding transport channels and empty TFs for all other transport channels. 
NOTE:	In case an adaptive rate codec is used and the TFCS has been restricted by the IE "TFC subset", the minimum set consists of the set of TFCs with TFs corresponding to any combination of SDU sizes that can be received in a TTI respecting the restricted TFCS.
1>	for each TM logical channel that is not part of a set of "synchronous" TM logical channels (see the definition below):
2>	a TFC with non-empty TFs for the corresponding transport channel, and empty TFs for all other transport channels, where
3>	for non-segmented mode TM-RLC logical channels the non-empty TFs include, for the smallest SDU size that can be received in a single TTI from higher layer:
4>	a TF with non-zero number of transport blocks with "Configured RLC Size" equal to the corresponding SDU size. If more than one TFC fulfils these criteria, only the TFC with the lowest number of bits in the TFC is included in the minimum set of TFCs.
3>	for segmented mode TM-RLC, the non-empty TFs include any TF such that the number of transport blocks multiplied by the "Configured RLC Size" is equal to the smallest SDU size that can be received in a single TTI from higher layer.
1>	an "empty" TFC (see [34]).
Furthermore, the UTRAN should ensure that the uplink TFCS and any configured TFC Subset satisfies the following rules:
1>	for each TTI length with which at least one transport channel is configured:
2>	for each combination of TFs for the transport channels configured with this TTI length included in the TFCS:
3>	a TFC with these TFs for the transport channels configured with this TTI length and empty TFs on all transport channels configured with shorter TTI lengths is also included in the TFCS.
For TDD, the TFCS of a CCTrCH should include those of the above combinations, which include a TF with one transport block for a transport channel used in that CCTrCH, and the "empty" TFC should be included in the TFCS of every CCTrCH.
Synchronous TM logical channels are logical channels on which higher layer traffic is generated in a perfectly correlated fashion (e.g. AMR RAB).
NOTE:	The "Configured RLC Size" is defined as the transport block size minus the MAC header size.
8.6.5.3	Transport format combination subset
When configuring a TFC Subset, the UTRAN should follow the guidelines defined in subclause 8.6.5.2.
If a DCH is configured on the uplink and the IE "Transport format combination subset"("TFC subset") is included, the UE shall:
1>	if the IE "Minimum allowed Transport format combination index" is included; and
2>	if the value of the IE "Minimum allowed Transport format combination index" is greater than the highest TFCI value in the current transport format combination set:
3>	consider the TFC subset to be incompatible with the current transport format combination set.
1>	if the IE "Allowed transport format combination list" is included; and
2>	if the value of any of the IEs "Allowed transport format combination" included in the IE "Allowed transport format combination list" does not match a TFCI value in the current transport format combination set:
3>	consider the TFC subset to be incompatible with the current transport format combination set.
1>	if the IE "Non-allowed transport format combination list" is included; and
2>	if the value of any of the IEs "Non-allowed transport format combination" included in the IE "Non-allowed transport format combination list" does not match a TFCI value in the current transport format combination set:
3>	consider the TFC subset to be incompatible with the current transport format combination set.
1>	if the IE "Restricted TrCH information" is included:
2>	if the value of any of the IEs "Uplink transport channel type" and "Restricted UL TrCH identity" included in the IE "Restricted TrCH information" do not correspond to any of the transport channels for which the current transport format combination set is valid:
3>	consider the TFC subset to be incompatible with the current transport format combination set.
2>	if the IE "Allowed TFIs" is included; and
3>	if the value of each of the IEs "Allowed TFI" included in the IE "Allowed TFIs" corresponds to a transport format for that transport channel within the current transport format combination set:
4>	allow all transport format combinations that include these transport formats for the transport channel;
4>	restrict all other transport format combinations.
3>	else:
4>	consider the TFC subset to be incompatible with the current transport format combination set.
2>	if the IE "Allowed TFIs" is not included:
3>	restrict all transport format combinations where the transport channel has a transport format of non-zero rate.
1>	if the UE considers the TFC subset to be incompatible with the current Transport format combination set according to the above:
2>	keep any previous restriction of the transport format combination set;
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the UE does not consider the TFC subset to be incompatible with the current Transport format combination set according to the above:
2>	if the IE "Transport format combination subset" is received in a message other than a TRANSPORT FORMAT COMBINATION CONTROL message:
3>	set both the IE "Current TFC subset" and the IE "Default TFC subset" in the variable TFC_SUBSET to the IE "Transport format combination subset" (in case of TDD for the uplink CCTrCH specified by the IE "TFCS Id");
3>	clear the IE "Duration" in the variable TFC_SUBSET;
3>	apply the transport format combination subset in the IE "Current TFC subset" stored in the variable TFC_SUBSET.
1>	if the IE "transport format combination subset" indicates the "full transport format combination set":
2>	set both the IE "Current TFC subset" and the IE "Default TFC subset" in the variable TFC_SUBSET to the value indicating "full transport format combination set";
2>	clear the IE "Duration" in the variable TFC_SUBSET;
2>	if the IE "Transport format combination subset" is received in a TRANSPORT FORMAT COMBINATION CONTROL message, then at the CFN indicated by the IE "Activation time for TFC subset" any restriction on transport format combination set is released and the UE may use the full transport format combination set;
2>	else:
3>	any restriction on transport format combination set is released and the UE may use the full transport format combination set.
8.6.5.4	DCH quality target
When not operating with DCH Enhancements, if the IE "DCH quality target" is included, the UE shall:
1>	set, at physical channel establishment, the initial downlink target SIR value based on the received IE "DCH quality target" for the transport channel with respect to all transport formats;
1>	adjust the target SIR for the downlink power control to meet the quality target received in the IE "DCH quality target" for the transport channel. The UE shall not compensate for the fact that the required SIR to achieve a target BLER for a particular transport format may be different from the required SIR to achieve the target BLER for another transport format..
NOTE 1:	Adjusting the target SIR is possible to do continuously by the UE if a CRC exists in all transport formats in the downlink TFS for a DCH. If a CRC does not exist in all transport formats, the UE can only adjust the target SIR when receiving transport formats containing a CRC and the UE has knowledge about the transport format according to [27].
NOTE 2:	If the UTRAN configures a UE to use blind transport format detection and configures a transport channel such that single transport format detection [27] must be used to detect the TF, then it is not possible for the UE to maintain a quality target for that transport channel.
When operating with DCH Enhancements in DL FET Basic mode, the UE shall:
1>	set, at physical channel establishment, the initial downlink target SIR value based on the received IE "DCH quality target" for the transport channel with respect to all transport formats;
1>	when the selected uplink TFC is in 10ms Mode, adjust the target SIR for the downlink power control to meet the quality target received in the IE "DCH quality target" for the transport channel at the end of slot number 14 in a TTI;
1>	when the selected uplink TFC is in 20ms Mode, adjust the target SIR for the downlink power control to meet the quality target received in the IE "DCH quality target" for the transport channel at the end of slot number 29 in a TTI;
1>	reduce the target SIR for the downlink power control by 3dB reduction when switching transmission from 10ms Mode to 20ms Mode;
1>	increase the target SIR for the downlink power control by 3dB reduction when switching transmission from 20ms Mode to 10ms Mode.
8.6.5.5	Added or Reconfigured UL TrCH information
If the IE "Added or Reconfigured UL TrCH information" is included then the UE shall:
1>	for the transport channel identified by the IE "UL Transport Channel Identity" and IE "Uplink transport channel type":
2>	perform the actions for the IE "Transport Format Set" as specified in subclause 8.6.5.1.
NOTE:	The UE stores the UL transport channel configuration until it is explicitly deleted by a message containing the IE "Deleted UL TrCH information" or the UE leaves RRC Connected mode.
1>	if the choice "UL parameters" is set to 'E-DCH':
2>	for FDD:
3>	if the IE "E-DCH Transmission Time Interval for secondary UL frequency" is not included:
4>	apply the values of the IE "E-DCH Transmission Time Interval" and the IE "HARQ info for E-DCH" to all E-DCH MAC-d flows.
3>	else:
4>	if the IE "E-DCH Transmission Time Interval for secondary UL frequency" has the same value as the IE "E-DCH Transmission Time Interval":
5>	the UE behaviour is unspecified.
4>	apply the value of the IE "HARQ info for E-DCH" to all E-DCH MAC-d flows, and apply the value of the IE "E-DCH Transmission Time Interval" on the primary UL frequency, and apply the value of the IE " E-DCH Transmission Time Interval for secondary UL frequency" on the secondary UL frequency.
2>	for TDD:
3>	apply the value of the IE "HARQ info for E-DCH" to all E-DCH MAC-d flows.
2>	for the IE "HARQ Info for E-DCH":
3>	perform the actions specified in subclause 8.6.5.17.
2>	if the IE "Added or Reconfigured E-DCH MAC-d Flow list " is included:
3>	for each MAC-d flow identified by the IE "Mac-d flow identity":
4>		perform the actions as specified in subclause 8.6.5.18.
2>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
NOTE:	In case of multiple E-DCH MAC-d flows, IE "Added or Reconfigured UL TrCH information" is only included once. If the IE "Added or Reconfigured UL TrCH information" is included more than once with the IE "Uplink transport channel type" set to 'E-DCH', the UE behaviour is unspecified.
NOTE:	In case the IE "Added or Reconfigured UL TrCH information" is included in a message that contains the IE "Deleted UL TrCH information" with a transport channel with the same identity as indicated by IE "UL Transport Channel Identity" and same type as indicated in the IE "Uplink transport channel type" then the UE behaviour is unspecified.
8.6.5.5a	Added or reconfigured MAC-d flow
If the IE "Added or reconfigured MAC-d flow" is included, the UE shall:
1>	if a MAC-hs queue (identified by the IE "MAC-hs queue Id") is included in both the IE "MAC-hs queue to add or reconfigure list" and the IE "MAC-hs queue to delete list":
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	for each MAC-hs queue included in the IE "MAC-hs queue to add or reconfigure" list:
2>	if the UE has previously stored a mapping between this MAC-hs queue and a MAC-d flow:
3>	delete the old mapping.
2>	map the MAC-d flow indicated in the current message to this MAC-hs queue;
2>	set the release timer for each of the MAC-hs queues in the MAC-hs entity to the value in the corresponding IE "T1";
2>	set the MAC-hs receiver window size for each of the MAC-hs queues in the MAC-hs entity to the value in the corresponding IE "MAC-hs window size"; and
2>	configure MAC-hs with the mapping between MAC-d PDU sizes index and allowed MAC-d PDU sizes as follows:
3>	if a MAC-d PDU size has been stored for a MAC-d PDU size index for the corresponding MAC-hs queue and no mapping is provided in the current message for this MAC-d PDU index:
4>	continue to use this mapping.
3>	if a MAC-d PDU size has been stored for a MAC-d PDU size index for the corresponding MAC-hs queue and a mapping is provided in the current message for this MAC-d PDU index:
4>	configure the MAC-hs entity with the mapping indicated in the current message.
1>	for each MAC-hs queue included in the IE "MAC-hs queue to delete" list:
2>	delete any information about the MAC-hs queue identified by the IE "MAC-hs queue Id".
1>	if the IE "Added or reconfigured MAC-d flow" is considered valid according to the rules above:
2>	perform the actions as specified in subclause 8.5.21.
8.6.5.6	Added or Reconfigured DL TrCH information
If the IE "Added or Reconfigured DL TrCH information" is included the UE shall:
1>	for the transport channel identified by the IE "DL Transport Channel Identity":
2>	if the choice "DL parameters" is set to 'explicit':
3>	perform the actions for the IE "Transport Format Set" as specified in subclause 8.6.5.1.
2>	if the choice "DL parameters" is set to 'same as uplink':
3>	if the IE "UL Transport Channel Identity" indicates an existing or a new UL Transport Channel:
4>	store as transport format for this transport channel the transport format associated with the transport channel identified by the IE "UL Transport Channel Identity".
3>	else:
4>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if the IE "DCH quality target" is included:
3>	perform the actions specified in subclause 8.6.5.4.
1>	if the choice "DL parameters" is set to "HSDSCH":
2>	if the IE "HARQ Info" is included:
3>	perform the actions specified in subclause 8.6.5.6b.
2>	if the IE "Added or Reconfigured MAC-d Flow" is included:
3>	perform the actions as specified in subclause 8.6.5.5a.
2>	if the IE "Added or Reconfigured MAC-ehs reordering queue" is included:
3>	if inter-Node B Multiflow operation is configured:
4>	perform the actions as specified in subclause 8.6.5.23 for both MAC-ehs entities.
3>	else:
4>	perform the actions as specified in subclause 8.6.5.23.
2>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25.
NOTE:	The UE stores the DL transport channel configuration until it is explicitly deleted by a message containing the IE "Deleted DL TrCH information" or the UE leaves RRC connected mode.
NOTE:	In case the IE "Added or Reconfigured DL TrCH information" is included in a message that contains the IE "Deleted DL TrCH information" with a transport channel with the same identity as indicated by IE "DL Transport Channel Identity" and same type as indicated in the IE "Downlink transport channel type" then the UE behaviour is unspecified.
8.6.5.6a	Void
8.6.5.6b	HARQ Info
If the IE "HARQ Info" is included, the UE shall:
1>	store the received configuration;
1>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25;
1>	determine the value for the HS_DSCH_RECEPTION_CELL_FACH_STATE variable and take the corresponding actions as described in subclause 8.5.36.
When the corresponding entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE, the number of processes for the secondary serving HS-DSCH cell is derived from Table 8.6.5.6b:
Table 8.6.5.6b: "Number of Processes for a secondary serving HS-DSCH cell"

The IE "Number of Processes" is set to a value between 1 and 5, inclusive
The IE "Number of Processes" is set to a value between 6 and 8, inclusive
The IE "Number of Processes" is set to 12,14 or 16
The IE "Number of Processes" is set to 24, 28 or 32
If MIMO or MIMO mode with four transmit antennas  with dual stream restriction is configured for this secondary serving HS-DSCH cell
If Memory Partitioning is set to implicit, the UE behaviour is not specified. Else, the number of processes for the secondary serving HS-DSCH cell is equal to twice the value of the IE "Number of Processes"
The number of processes for this secondary serving HS-DSCH cell is equal to twice the value of the IE "Number of Processes"
The number of processes for this secondary serving HS-DSCH cell is equal to the value of the IE "Number of Processes"
The number of processes for this secondary serving HS-DSCH cell is equal to half the value of the IE "Number of Processes"
If MIMO or MIMO mode with four transmit antennas is not configured for this secondary serving HS-DSCH cell
If Memory Partitioning is set to implicit, the UE behaviour is not specified. Else, the number of processes for the secondary serving HS-DSCH cell is equal to the value of the IE "Number of Processes"
The number of processes for this secondary serving HS-DSCH cell is equal to the value of the IE "Number of Processes"
The number of processes for this secondary serving HS-DSCH cell is equal to half the value of the IE "Number of Processes"
The number of processes for this secondary serving HS-DSCH cell is equal to quarter the value of the IE "Number of Processes"
If MIMO mode with four transmit antennas is configured for this secondary serving HS-DSCH cell
If Memory Partitioning is set to implicit, the UE behaviour is not specified. Else, the number of processes for the secondary serving HS-DSCH cell is equal to four times the value of the IE "Number of Processes"
The number of processes for this secondary serving HS-DSCH cell is equal to four times the value of the IE "Number of Processes"
The number of processes for this secondary serving HS-DSCH cell is equal to twice the value of the IE "Number of Processes"
The number of processes for this secondary serving HS-DSCH cell is equal to the value of the IE "Number of Processes"

When the variable HS_DSCH_RECEPTION or HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE, or the corresponding entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION is set to TRUE the UE shall:
1>	for 1.28 Mcps TDD, when variable HS_DSCH_RECEPTION_CELL_FACH_STATE is TRUE,
2>	consider the UE capability "Total number of soft channel bits in HS-DSCH" equal to that of the HS-DSCH physical layer category 9 as specified in [35];
1>	if inter-Node B Multiflow operation is configured:
2>	configure both MAC-ehs entities with the number of HARQ processes indicated in IE "Number of Processes" and in Table 8.6.5.6b.
1>	else:
2>	configure the MAC-hs/ehs entity with the number of HARQ processes indicated in IE "Number of Processes" and in Table 8.6.5.6b.
1>	assign to each of these HARQ processes IDs going from 0 to "Number of Processes" – 1 per HS-DSCH;
1>	if the IE "Memory Partitioning" is set to 'Implicit':
2>	partition the soft memory buffer equally among the HS-DSCH transport channels, assuming that the number of HS-DSCH transport channels is equal to the "Total Number of serving/secondary serving HS-DSCH cells" (defined in Table 5.1a of [35]) for the category used by the UE in accordance to subclause 8.1.6.2. In the event that the division of the soft memory buffer results in a non-Integer value the partition memory size is rounded down to the nearest Integer value.
2>	 if MIMO is configured on some but not all HS-DSCH transport channels:
3>	for each of the HS-DSCH transport channels configured with MIMO, partition the soft memory buffer equally among the processes configured above. In the event that the division of the soft memory buffer results in a non-Integer value the partition memory size is rounded down to the nearest Integer value. 
3>	for each of the HS-DSCH transport channels configured without MIMO, use the HARQ process memory buffer size calculated for the MIMO configured HS-DSCH transport channels above.
2>	 if MIMO mode with four transmit antennas is configured on some but not all HS-DSCH transport channels:
3>	for each of the HS-DSCH transport channels configured with MIMO mode with four transmit antennas, partition the soft memory buffer in the MAC-ehs entity equally among the processes configured above. In the event that the division of the soft memory buffer results in a non-Integer value the partition memory size is rounded down to the nearest Integer value. 
3>	for each of the HS-DSCH transport channels configured without MIMO mode with four transmit antennas, use the HARQ process memory buffer size calculated for the MIMO configured HS-DSCH transport channels above.
2>	else if multi-cell operation on more than two cells without MIMO is configured, and UE is capable of multi- cell MIMO operation on more than two cells:
3>	partition the soft memory buffer equally among the processes configured above, as if MIMO is configured. In the event that the division of the soft memory buffer results in a non-Integer value the partition memory size is rounded down to the nearest Integer value.
2>	else:
3>	partition the soft memory buffer per HS-DSCH transport channels equally among the processes configured above. In the event that the division of the soft memory buffer results in a non-Integer value the partition memory size is rounded down to the nearest Integer value.
1>	if the IE "Memory Partitioning" is set to 'Explicit':
2>	if the UE capability "Total number of soft channel bits in HS-DSCH", as specified in [35], is exceeded with this configuration; or
2>	if MIMO is not configured and if the IE "Process Memory size" is set to a value greater than the number of soft channel bits for an implicit memory partitioning with 6 processes per HS-DSCH transport channel, and the IE "Downlink secondary cell info FDD"  is included; or
2>	if MIMO is configured and the IE "Process Memory size" is set to a value greater than number of soft channel bits for an implicit memory partitioning with 12 processes per HS-DSCH transport channel, and the IE "Downlink secondary cell info FDD"  is included; or
2>	if MIMO mode with four transmit antennas is configured and the IE "Process Memory size" is set to a value greater than number of soft channel bits for an implicit memory partitioning with 24 processes per HS-DSCH transport channel, and the IE "Downlink secondary cell info FDD"  is included:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	else:
3>	partition the soft memory buffer equally among the HS-DSCH transport channels. In the event that the division of the soft memory buffer results in a non-Integer value the partition memory size is rounded down to the nearerst Integer value.
3>	partition the soft memory buffer per HS-DSCH transport channel according to the IE "Process memory size" assuming that the order in the list follows the order in the HARQ process IDs.
3>		if MIMO mode with four transmit antennas is configured partition the soft memory buffer per HS-DSCH transport channel in the MAC-ehs entity according to the IE "Process memory size" assuming that the order in the list follows the order in the HARQ process IDs.
3>	If the IE "Process memory size" included in the IE "Memory size" different from the IE "Process memory size" included in the IE "Additional memory sizes for 4th MIMO stream":
4>	set the variable INVALID_CONFIGURATION to TRUE.
3>	If the IE "Process memory size" included in the IE "Additional memory sizes for MIMO" different from the IE "Process memory size" included in the IE "Additional memory sizes for 3rd MIMO stream":
4>	set the variable INVALID_CONFIGURATION to TRUE.
8.6.5.6c	Void

8.6.5.7	Deleted UL TrCH information
If the IE "Deleted UL TrCH information" is included the UE shall:
1>	if an Uplink transport channel is requested to be deleted:
2>	delete any information about the transport channel identified by the IE "UL TrCH identity" and the IE "Uplink transport channel type".
1>	if an E-DCH MAC-d flow is requested to be deleted:
2>	delete any information about the E-DCH MAC-d flow identified by the IE "E-DCH MAC-d flow identity";
2>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
8.6.5.8	Deleted DL TrCH information
If the IE "Deleted DL TrCH information" is included the UE shall:
1>	if a Downlink transport channel is requested to be deleted:
2>	delete any information about the transport channel identified by the IE "DL TrCH identity".
1>	if a DL MAC-d flow is requested to be deleted:
2>	delete any information about the DL HS-DSCH MAC-d flow identified by the IE "MAC-d Flow Identity", i.e. delete any information about MAC-hs queue(s) mapped onto this MAC-d flow.
2>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25.
1>	if a DL MAC-ehs reordering queue is requested to be deleted:
2>	if inter-Node B Multiflow operation is configured:
3>	delete any information about the DL HS-DSCH DL MAC-ehs reordering queue identified by the IE "DL HS-DSCH MAC-ehs queue Id" from both MAC-ehs entities.
2>	else:
3>	delete any information about the DL HS-DSCH DL MAC-ehs reordering queue identified by the IE "DL HS-DSCH MAC-ehs queue Id".
2>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25.
8.6.5.9	UL Transport channel information common for all transport channels
If the IE "UL Transport channel information common for all transport channels" is included the UE shall:
1>	perform actions for the IE "TFC subset" as specified in subclause 8.6.5.3;
1>	if the IE "PRACH TFCS" is included:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the IE has the choice "mode" set to FDD:
2>	perform actions for the IE "UL DCH TFCS" as specified in subclause 8.6.5.2.
1>	if the IE has the choice "mode" set to TDD:
2>	if the IE "Individual UL CCTrCH information" is included:
3>	for each TFCS identified by IE "UL TFCS id":
4>	perform actions for the IE "UL TFCS" as specified in subclause 8.6.5.2.
1>	if the IE "TFC subset list" is included:
2>	remove a previously stored TFC subset list if this exists in the IE "TFC subset list" in the variable TFC_SUBSET;
2>	store the IE "TFC subset list" in the IE "TFC subset list" in the variable TFC_SUBSET;
2>	consider the first instance of the IE "TFC subset" in the IE "TFC subset list" as Transport Format Combination Subset 0 (TFC subset identity = 0), the second instance as Transport Format Combination Subset 1 (TFC subset identity = 1) and so on;
2>	if the IE"TFC subset list" contains greater than 8 elements then the UE behaviour is not specified.
NOTE:	The UTRAN should not modify the TFC subset list when a temporary restriction of the TFC set is being applied, due to the reception of the IE "TFC Control Duration" in a TRANSPORT FORMAT COMBINATION CONTROL message is still being applied.
8.6.5.10	DL Transport channel information common for all transport channels
If the IE "DL Transport channel information common for all transport channels" is included the UE shall:
1>	if the IE "SCCPCH TFCS" is included:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the IE choice "mode" is set to FDD:
2>	if the choice "DL parameters" is set to 'explicit':
3>	if the IE "DL DCH TFCS" is included:
4>	if the IE "SCCPCH TFCS" is included and the state the UE enters after handling the received information is other than CELL_DCH:
5>	ignore the received IE "DL DCH TFCS".
NOTE:	the IE "DL Transport channel information common for all transport channels" always includes a DL DCH TFCS configuration, either by including the IE "DL DCH TFCS " or by specifying that the TFCS is the same as in UL. If UTRAN does not require the reconfiguration of the concerned parameters, UTRAN may replace one TFC with the value that is already assigned for this IE.
4>	else:
5>	perform actions as specified in subclause 8.6.5.2.
1>	if the IE choice "mode" is set to TDD:
2>	if the IE "Individual DL CCTRCH information" is included:
3>	for each DL TFCS identified by the IE "DL TFCS identity":
4>	if the IE choice "DL parameters" is set to 'independent':
5>	perform actions for the IE "DL TFCS" as specified in subclause 8.6.5.2.
4>	if the IE choice "DL parameters" is set to 'same as UL':
5>	if the IE "UL DCH TFCS identity" indicates an existing or a new UL TFCS:
6>	store for that DL TFCS the TFCS identified by the IE "UL DCH TFCS identity".
5>	else:
6>	set the variable INVALID_CONFIGURATION to TRUE.
8.6.5.11	Void

8.6.5.12	TFCS Reconfiguration/Addition Information
If the IE "TFCS Reconfiguration/Addition Information" is included the UE shall:
1>	store the TFCs to be reconfigured/added indicated in the IE "CTFC information" as specified below;
1>	if the IE "Power offset information" is included:
2>	perform actions as specified in [29].
In order to identify the TFCs included in this IE the UE shall calculate the CTFC as specified in subclause 14.10.
1>	if the IE "Additional Dynamic Transport Format Information for CCCH" was included in the IE "RACH TFS":
2>	ignore for the CTFC calculation any TF added by the IE "Additional Dynamic Transport Format Information for CCCH".
If the IE "TFCS Reconfiguration/Addition Information" is used in case of TFCS "Complete reconfiguration" the UE shall:
1>	remove a previously stored transport format combination set if this exists;
1>	consider the first instance of the IE "CTFC information" as Transport Format Combination 0 in FDD (TFCI=0) and 1 in TDD (TFCI=1), the second instance as Transport Format Combination 1 in FDD (TFCI=1) and 2 in TDD (TFCI=2) and so on. In TDD the TFCI value = 0 is reserved for physical layer use.
If the IE "TFCS Reconfiguration/Addition Information" is used in case of TFCS "Addition" the UE shall insert the new additional(s) TFC into the first available position(s) in ascending TFCI order in the TFCS.
8.6.5.12a	Additional RACH TFCS for CCCH
If the IE "Additional RACH TFCS for CCCH " is included the UE shall:
1>	if the IE "Power offset information" is included:
2>	perform actions as specified in [29].
1>	add to the TFCS as calculated in 8.6.5.12 for the corresponding PRACH the TFC which consists of the TF added by the IE "Additional Dynamic Transport Format Information for CCCH" into the next position in ascending order after the highest TFCI value already used.
NOTE:	On PRACH only one transport channel can be multiplexed.
8.6.5.13	TFCS Removal Information
If the IE "TFCS Removal Information" is included the UE shall:
1>	remove the TFC indicated by the IE "TFCI" from the current TFCS, and regard this position (TFCI) in the TFCS as vacant.
8.6.5.14	Void

8.6.5.15	TFCS Explicit Configuration
If the IE " TFCS Explicit Configuration" is included the UE shall:
1>	if the IE choice "TFCS representation" is set to 'complete reconfiguration':
2>	perform the actions for the IE "TFCS Reconfiguration/Addition Information" as specified in subclause 8.6.5.12.
1>	if the IE choice "TFCS representation" is set to 'addition':
2>	perform the actions for the IE "TFCS Reconfiguration/Addition Information" as specified in subclause 8.6.5.12.
1>	if the IE choice "TFCS representation" is set to 'removal':
2>	perform the actions for the IE "TFCS Removal Information" as specified in subclause 8.6.5.13.
1>	if the IE choice "TFCS representation" is set to 'replace':
2>	perform first the actions for the IE "TFCS Removal Information" as specified in subclause 8.6.5.13; and then
2>	perform the actions for the IE "TFCS Reconfiguration/Addition Information" as specified in subclause 8.6.5.12.
8.6.5.16	E-DCH Transmission Time Interval (FDD only)
If the IE "E-DCH Transmission Time Interval" is included, the UE shall:
1>	store the received TTI;
1>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
When the variable E_DCH_TRANSMISSION is set to TRUE the UE shall:
1>	apply the TTI as signalled in the IE "E-DCH Transmission Time Interval" on the E-DPDCH.
If the received "E-DCH Transmission Time Interval" is 2 ms and the previously stored TTI was 10 ms:
1>	not send any data on E-DPDCH in first 8 TTIs after activation time of new TTI.
8.6.5.17	HARQ Info for E-DCH
If the IE "HARQ Info for E-DCH" is included, the UE shall:
1>	store the received configuration;
1>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
When the variable E_DCH_TRANSMISSION is set to TRUE the UE shall:
1>	use a redundancy version for each HARQ transmission as configured by the IE "HARQ RV Configuration".
8.6.5.18	Added or reconfigured E-DCH MAC-d flow
If the IE "Added or reconfigured E-DCH MAC-d flow" is included, the UE shall:
1>	if the IE "E-DCH MAC-d flow power offset" is included:
2>	configure the power offset indicated in the IE "E-DCH MAC-d flow power offset" for the E-DCH MAC-d flow identified by the IE "E-DCH MAC-d flow identity".
1>	if the IE "E-DCH MAC-d flow maximum number of retransmissions" is included:
2>	configure the maximum number of retransmissions indicated in the IE "E-DCH MAC-d flow maximum number of retransmissions" for the E-DCH MAC-d flow identified by the IE "E-DCH MAC-d flow identity".
1>	for 1.28 Mcps TDD, if the IE "E-DCH MAC-d flow retransmission timer" is included:
2>	configure the retransmission timer for the E-DCH MAC-d flow identified by the IE "E-DCH MAC-d flow identity".
1>	if the IE "E-DCH MAC-d flow multiplexing list" is included:
2>	only multiplex MAC-d PDU’s from the E-DCH MAC-d flow indicated in the IE "E-DCH MAC-d flow identity" with MAC-d PDU’s from E-DCH MAC-d flows with which multiplexing in the same MAC-e or MAC-i PDU is allowed in accordance to the IE "E-DCH MAC-d flow multiplexing list".
1>	else:
2>	if previously the IE "E-DCH MAC-d flow multiplexing list" was already received for this E-DCH MAC-d flow:
3>	continue to only multiplex E-DCH PDU’s from the E-DCH MAC-d flow indicated in the IE "E-DCH MAC-d flow identity" with MAC-d PDU’s from E-DCH MAC-d flows with which multiplexing in the same MAC-e or MAC-i PDU is allowed according to the previously received IE "E-DCH MAC-d flow multiplexing list".
2>	else (never received the IE "E-DCH MAC-d flow multiplexing list" for this E-DCH MAC-d flow):
3>	allow multiplexing of MAC-d PDU's from the E-DCH MAC-d flow indicated in the IE "E-DCH MAC-d flow identity" with MAC-d PDU's from any other E-DCH MAC-d flow in the same MAC-e or MAC-i PDU.
1>	for FDD:
2>	if the IE "Non-scheduled transmission grant info" is included:
3>	if the TTI configured on the E-DCH equals 2ms, and the IE "2ms non-scheduled transmission grant HARQ process allocation" is configured for this MAC-d flow:
4>	MAC-d PDU's for logical channels belonging to this MAC-d flow shall only be included in a MAC-e or MAC-i PDU transmitted by HARQ processes allowed by the IE "2ms non-scheduled transmission grant HARQ process allocation", with a total contribution from this MAC-d flow (i.e. including MAC-e/es or MAC-i/is headers) not exceeding the size as signalled by the IE "Max MAC-e PDU contents size".
3>	else:
4>	MAC-d PDU's for logical channels belonging to this MAC-d flow shall be included in a MAC-e or MAC-i PDU transmitted by any HARQ process, with a total contribution from this MAC-d flow (i.e. including MAC-e/es or MAC-i/is headers) not exceeding the size as signalled by the IE "Max MAC-e PDU contents size".
2>	if the IE "Scheduled transmission grant info" is included:
3>	transmission of MAC-d PDU's for logical channels belonging to this MAC-d flow shall be in accordance with the received scheduled grant on E-AGCH/E-RGCH (see [15]).
1>	for TDD:
2>	if the IE "Non-scheduled transmission grant info" is included:
3>	MAC-d PDU's for logical channels belonging to this MAC-d flow shall only be included in a MAC-e or MAC-i PDU transmitted by HARQ processes designated as non scheduled (Ids 4 – 7) in the TTIs indicated (for 3.84 Mcps TDD and 7.68 Mcps TDD, as determined from the IEs "Activation Time", "Resource Duration" and "Resource Periodicity"; for 1.28 Mcps TDD, as determined from the IEs "Activation Time", "Subframe number", "Resource Duration" and "Resource Periodicity", and the calculation of assigned  Non-scheduled transmission grant is specified in subclause 8.6.6.16a).
2>	if the IE "Scheduled transmission grant info" is included:
3>	transmission of MAC-d PDUs for logical channels belonging to this MAC-d flow shall be in accordance 	with the received scheduled grant on E-AGCH (see [15]).
1>	perform the actions as specified in subclause 8.5.21;
1>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
8.6.5.19	SRB1 mapping info (FDD and 1.28 Mcps TDD only)
When variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE and the UE is in CELL_FACH state, the UE shall:
1>	if no MAC-ehs queue with identified by the "MAC-ehs queue identity" value as received in IE "SRB1 mapping info" of System Information Block type 5 or System Information Block type 5bis is configured:
2>	the UE behaviour is unspecified.
1>	else:
2>	map the logical channel identified by the IE "Logical channel identity" to the MAC-ehs queue identified by the IE "MAC-ehs queue identity" as received in IE "SRB1 mapping info" of System Information Block type 5 or System Information Block type 5bis.
8.6.5.20	HARQ System Info (FDD and 1.28 Mcps TDD only)
When the UE is not in RRC Connected state and the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE, or when the UE is in CELL_FACH state or will be in CELL_FACH state at the completion of this procedure, the UE shall:
1>	if IE "HS-DSCH common system information" is included in System Information Block type 5 or System Information Block type 5bis:
2>	for 1.28 Mcps TDD, consider the UE capability "Total number of soft channel bits in HS-DSCH" equal to that of the HS-DSCH physical layer category 9 as specified in [35];
2>	configure the MAC-ehs entity with the number of HARQ processes indicated in IE "Number of Processes";
2>	assign to each of these HARQ processes IDs going from 0 to "Number of Processes" – 1;
2>	if the IE "Memory Partitioning" is set to 'Implicit':
3>	partition the soft memory buffer in the MAC-ehs entity equally among the processes configured above. In the event that the division of the soft memory buffer results in a non-Integer value the partition memory size is rounded down to the nearest Integer value.
2>	if the IE "Memory Partitioning" is set to 'Explicit':
3>	if the UE capability "Total number of soft channel bits in HS-DSCH", as specified in [35], is exceeded with this configuration:
4>	the UE behaviour is unspecified.
3>	else:
4>	partition the soft memory buffer in the MAC-ehs entity according to the IE "Process memory size" assuming that the order in the list follows the order in the HARQ process IDs.
8.6.5.21	CCCH mapping info (FDD and 1.28 Mcps TDD only)
When the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE, the UE shall:
1>	if no MAC-ehs queue with identified by the "MAC-ehs queue identity" value as received in IE "CCCH mapping info" of System Information Block type 5 or System Information Block type 5bis is configured:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	else:
2>	map the logical channel identified by the IE "Logical channel identity" to the MAC-ehs queue identified by the IE "MAC-ehs queue identity" as received in IE "CCCH mapping info" of System Information Block type 5 or System Information Block type 5bis.
1>	if there is more than one multiplexing option applicable for logical channels to be used:
2>	the UE behaviour is not specified.
8.6.5.22	Common MAC-ehs reordering queue (FDD and 1.28 Mcps TDD only)
When the variable HS_DSCH_RECEPTION_OF_CCCH_ENABLED is set to TRUE, the UE shall:
1>	set the release timer for the MAC-ehs queue in the MAC-ehs entity to the value in the corresponding IE "T1";
1>	set the reset timer for the MAC-ehs queue in the MAC-ehs entity to the value in te corresponding IE "Treset";
1>	set the MAC-ehs receiver window size for the MAC-ehs queues in the MAC-ehs entity to the value in the corresponding IE "MAC-ehs window size".
8.6.5.23	Added or reconfigured MAC-ehs reordering queue
If the IE "Added or reconfigured MAC-ehs reordering queue" is included, the UE shall:
1>	if the IE "Deleted DL TrCH information" is included in the received message; and
1>	if a MAC-ehs queue (identified by the IE "MAC-ehs queue Id") is included in both the IE "MAC-ehs queue to add or reconfigure list" and the IE "DL HS-DSCH MAC-ehs reordering queue" within the IE "Deleted DL TrCH information":
2>	the UE behaviour is unspecified.
1>	for each MAC-ehs queue included in the IE "MAC-ehs queue to add or reconfigure" list:
2>	set the release timer for each of the MAC-ehs queues in the MAC-ehs entity to the value in the corresponding IE "T1";
2>	set the reset timer for the MAC-ehs queue in the MAC-ehs entity to the value in te corresponding IE "Treset";
NOTE:	A UE that does not support reception of HS-DSCH in CELL_FACH state may ignore the IE "Treset".
2>	set the MAC-ehs receiver window size for each of the MAC-ehs queues in the MAC-ehs entity to the value in the corresponding IE "MAC-ehs window size".
1>	if the IE "Added or reconfigured MAC-ehs reordering queue" is considered valid according to the rules above:
2>	perform the actions as specified in subclause 8.5.21.
8.6.5.24	Common E-DCH MAC-d flows (FDD and 1.28 Mcps TDD only)
The UE shall:
1>	configure the power offset indicated in the IE "E-DCH MAC-d flow power offset" for the E-DCH MAC-d or MAC-c (for FDD) flow identified by the IE "E-DCH MAC-d flow identity";
1>	configure the maximum number of retransmissions indicated in the IE "E-DCH MAC-d flow maximum number of retransmissions" for the E-DCH MAC-d flow identified by the IE "E-DCH MAC-d flow identity";
1>	for 1.28 Mcps TDD, configure the maximum retransmission timer indicated in the IE "E-DCH MAC-d flow retransmission timer" for the E-DCH MAC-d or MAC-c (for FDD) flow identified by the IE "E-DCH MAC-d flow identity";
1>	if the IE "E-DCH MAC-d flow multiplexing list" is included:
2>	only multiplex MAC-d PDUs from the E-DCH MAC-d flow indicated in the IE "E-DCH MAC-d flow identity" with MAC-d PDUs from E-DCH MAC-d flows with which multiplexing in the same MAC-i PDU is allowed in accordance to the IE "E-DCH MAC-d flow multiplexing list".
1>	else (IE "E-DCH MAC-d flow multiplexing list" not included in the system information):
2>	allow multiplexing of MAC-d PDUs from the E-DCH MAC-d flow indicated in the IE "E-DCH MAC-d flow identity" with MAC-d PDUs from any other E-DCH MAC-d flow in the same MAC-i PDU.
2>	for FDD, prohibit multiplexing of MAC-c PDUs from the E-DCH MAC-c flow indicated in the IE "E-DCH MAC-d flow identity" with MAC-d PDUs from any other E-DCH MAC-d flow in the same MAC-i PDU.
1>	transmission of MAC-d PDUs or MAC-c PDUs for logical channels belonging to this MAC-d or MAC-c flow shall be in accordance with the serving grant (FDD only) (see [15]);
1>	perform the actions as specified in subclause 8.5.21.
NOTE	For FDD, if as per subclause 8.5.45, the TTI applied on E-DPDCH is different from the TTI signalled in the IE "E-DCH Transmission Time Interval" , then the IE’s "E-DCH MAC-d flow identity", "E-DCH MAC-d flow power offset" and "E-DCH MAC-d flow maximum number of  retransmissions" in fact refer to the corresponding IE’s, if present, in "Common E-DCH MAC-d flow info for Concurrent TTI" in the IE "Common E-DCH system info parameters for Concurrent TTI" of System Information Block type 22.
8.6.5.25	Early DCH quality target
When operating with DCH Enhancements in DL FET Full mode, the UE shall:
1>	set, at physical channel establishment, the initial downlink target SIR based on either the IE "Early DCH quality target" or the IE "DCH quality target" if included, whichever requires a higher value, for transport channel(s) undergoing concatenation at the physical layer as indicated in the IE "TrCh Concatenation Info";
1>	adjust the downlink target SIR for the downlink power control to meet either the early quality target received in the IE "Early DCH quality target" at the end of the slot number received in the IE "Early DCH quality target slot" or the quality target received in the IE "DCH qualiy target" at the end of slot number 29, whichever requires a higher value, for those transport channel(s).
8.6.6	Physical channel information elements
This subclause specifies the actions upon reception and/or non-reception of the physical channel information elements. The combination of the values of those information elements included in a given message shall follow the compatibility rules that are specified in the physical layer specifications. In case those rules are not followed, the UE shall set the variable INVALID_CONFIGURATION to TRUE.
8.6.6.1	Frequency info
If, after completion of the procedure, the UE will be in CELL_DCH state, the UE shall:
1>	for 3.84 Mcps TDD and 7.68 Mcps TDD, if the IE "Frequency info" is included; or
1>	for 1.28 Mcps TDD, if the IE "Frequency info" is included and the "Second Frequency info" is not included; or
1>	for FDD, if the IE "Frequency info" is included in an IE other than the IE "Uplink secondary cell info FDD":
2>	if the frequency is different from the currently used frequency:
3>	store and use the frequency indicated by the IE "Frequency Info";
3>	if the received message is used to perform a Timing-maintained hard handover (see subclause 8.3.5.2), and IE "Timing maintained Synchronization indicator" is included:
4>	not perform any physical layer synchronisation procedure (FDD only);
3>	else:
4>	perform the physical layer synchronisation procedure A as specified in [29] (FDD only).
2>	if the frequency is the same as the currently used frequency:
3>	continue to use the currently used frequency;
3>	perform the physical layer synchronisation procedure A as specified in [29] (FDD only).
1>	for 1.28 Mcps TDD, if both the IE "Frequency info" and the IE "Second Frequency info" are included:
2>	the frequency in IE "Frequency info" is used as the primary frequency, and the frequency in IE "Second Frequency info" is used as the secondary frequency;
2>	store the primary frequency;
2>	if the secondary frequency is different with the currently used frequency:
3>	store and use the secondary frequency.
2>	if the secondary frequency is the same as the currently used frequency:
3>	continue to use the currently used frequency.
1>	if the IE "Frequency info" is not included and the UE has a currently used frequency:
2>	continue to use the currently used frequency;
NOTE	If the received message is used to perform a Timing-reinitialised hard handover, and the IE "Frequency Info" is not included, the UE may perform the physical layer synchronisation procedure A as specified in [29] (FDD only).
For 1.28 Mcps TDD, if, after completion of the procedure, the UE will be in CELL_FACH state, the UE shall:
1>	if the IE "Frequency info" is included and the "Second Frequency info" is not included:
2>	store and use the frequency indicated by the IE "Frequency Info" as working frequency.
1>	if both the IE "Frequency info" and the IE "Second Frequency info" are included:
2>	the frequency in IE "Frequency info" is used as the primary frequency, and the frequency in IE "Second Frequency info" is used as the secondary frequency;
2>	store the primary frequency;
2>	if the secondary frequency is different with the currently used frequency:
3>	store and use the secondary frequency as working frequency.
2>	if the secondary frequency is the same as the currently used frequency:
3>	continue to use the currently used frequency as working frequency.
8.6.6.2	Void

8.6.6.2a	PNBSCH allocation
The UE shall consider the frame numbers fulfilling the following equation as "PRACH blocked frames" as specified in [33].
	SFN = k * Repetition period 
for an integer k with k {0, 1, 2, 3, 4, ... , value of IE "Number of repetitions per SFN period" - 1}, where:
Repetition period is: 4096 / value of IE "Number of repetitions per SFN period".
The UE shall configure the physical layer for the physical random access procedure accordingly.
8.6.6.3	Void

8.6.6.3a	Downlink information per radio link list
If the IE "Downlink information per radio link list" is included in a received message, the UE shall:
1>	if the active set resulting after the reception of the IE "Downlink information per radio link list" would contain radio links indicated by the IE "Downlink DPCH info for each RL" and radio links indicated by the IE "Downlink F-DPCH info for each RL":
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the active set resulting after the reception of the IE "Downlink information per radio link list" would contain radio links indicated by the IE "Downlink DPCH info for each RL" and the radio link is included in the table "Target cell preconfigurations" in the variable TARGET_CELL_PRECONFIGURATION:
2>	clear all the entries from the variable TARGET_CELL_PRECONFIGURATION.
1>	if the message was received in CELL_DCH state and the UE remains in CELL_DCH state according to subclause 8.6.3.3 applied on the received message:
2>	for FDD, check whether the radio links included in the IE "Downlink information per radio link list" are part of the current active set considering that a radio link is uniquely identified by the downlink UARFCN and the primary scrambling code;
2>	for TDD, check whether the radio links included in the IE "Downlink information per radio link list" are part of the current active set considering that a radio link is uniquely identified by the UARFCN and the primary CCPCH;
2>	if all radio links included in the IE "Downlink information per radio link list" are part of the current active set:
3>	for radio links part of the current active set, and present in the IE "Downlink information per radio link list":
4>	update the downlink physical channel configuration according to the IE "Downlink information for each radio link" as specified in subclause 8.6.6.4.
3>	for radio links part of the current active set, and absent in the IE "Downlink information per radio link list":
4>	not change its current downlink physical channel configuration;
4>	For FDD, in case the IE "Serving HS-DSCH radio link indicator" is set to 'TRUE' for another radio link, no longer consider any of these absent radio links as serving HS-DSCH radio link;
4>	For FDD, in case the IE "Serving E-DCH radio link indicator" is set to 'TRUE' for another radio link, no longer consider any of these absent radio links as serving E-DCH radio link.
2>	if all radio links included in the IE "Downlink information per radio link list" are not part of the current active set:
3>	perform a hard handover by replacing all the radio links in the current active set with the radio links in the IE "Downlink information per radio link list", each with a downlink physical channel configuration according to the IE "Downlink information for each radio link" as specified in subclause 8.6.6.4;
3>	perform the checks on the value of the IE "Default DPCH Offset Value" as specified in subclause 8.3.5.1.2 or 8.3.5.2.2;
3>	act on the IE "Timing indication" and the IE "Default DPCH Offset Value", if included, as specified in subclause 8.5.15.2;
NOTE:	UTRAN should not mix radio links which are part of the current active set and radio links which are not part of the current active set in the same IE "Downlink information per radio link list". In such cases the UE behaviour is unspecified.
1>	otherwise:
2>	if the message was received in CELL_FACH state and the UE would transit to CELL_DCH state according to subclause 8.6.3.3 applied on the received message:
3>	establish a downlink physical channel configuration for each of the included radio links according to the IE "Downlink information for each radio link" as specified in subclause 8.6.6.4.
8.6.6.3b	Downlink information per radio link list on secondary UL frequency (FDD only)
If the IE "Downlink information per radio link list on secondary UL frequency" is included in a received message, the UE shall:
1>	if the message was received in CELL_DCH state and the UE remains in CELL_DCH state according to subclause 8.6.3.3 applied on the received message; and 
1>	the secondary E-DCH active set prior to the reception of the message contains one or more radio links:
2>	check whether the radio links included in the IE "Downlink information per radio link list on secondary UL frequency" are part of the current secondary E-DCH active set considering that a radio link is uniquely identified by the primary scrambling code;
2>	if all radio links included in the IE "Downlink information per radio link list on secondary UL frequency" are part of the current secondary E-DCH active set:
3>	for radio links part of the current secondary E-DCH active set, and present in the IE "Downlink information per radio link list on secondary UL frequency":
4>	update the downlink physical channel configuration according to the downlink information for each radio link on secondary uplink frequency, as specified in subclause 8.6.6.4a.
3>	for radio links part of the current secondary E-DCH active set, and absent in the IE "Downlink information per radio link list on secondary UL frequency":
4>	not change its current downlink physical channel configuration;
3>	keep the current activation status of the secondary uplink frequency and take the corresponding actions as described in subclause 8.5.58.
2>	if all radio links included in the IE "Downlink information per radio link list on secondary UL frequency" are not part of the current secondary E-DCH active set:
3>	replace all the radio links in the current secondary E-DCH active set with the radio links in the IE "Downlink information per radio link list on secondary UL frequency", each with a downlink physical channel configuration according to the downlink information for each radio link on secondary uplink frequency, as specified in subclause 8.6.6.4a;
3>	consider the secondary uplink frequency as not activated and take the corresponding actions as described in subclause 8.5.58.
NOTE:	UTRAN should not mix radio links which are part of the current secondary E-DCH active set and radio links which are not part of the current secondary E-DCH active set in the same IE "Downlink information per radio link list on secondary UL frequency". In such cases the UE behaviour is unspecified.
1>	otherwise:
2>	if the message was received in CELL_FACH state and the UE would transit to CELL_DCH state according to subclause 8.6.3.3 applied on the received message; or 
2>	if the message was received in CELL_DCH state and the secondary E-DCH active set prior to the reception of the message do not contain any radio link:
3>	configure the downlink physical channel on the downlink frequency associated with the secondary uplink frequency for each of the included radio links as specified in subclause 8.6.6.4a;
3>	consider the secondary uplink frequency as not activated and take the corresponding actions as described in subclause 8.5.58.

8.6.6.4	Downlink information for each radio link
If the IE "Downlink information for each radio link" is included in a received message, the UE shall:
1>	if the UE would enter CELL_DCH state according to subclause 8.6.3.3 applied on the received message:
2>	if the UE is in TDD mode and shared transport channels are assigned to the UE:
3>	start to receive the indicated Secondary CCPCH.
2>	if the UE is in TDD mode and no shared transport channels are assigned to the UE:
3>	set the variable UNSUPPORTED_CONFIGURATION to TRUE.
2>	For FDD:
3>	if the IE "Serving HS-DSCH radio link indicator" is set to 'TRUE':
4>	consider this radio link as the serving HS-DSCH radio link and no longer consider any other radio link as serving HS-DSCH radio link.
2>	For FDD:
3>	if the IE "Serving E-DCH radio link indicator" is set to 'TRUE':
4>	consider this radio link as the serving E-DCH radio link and no longer consider any other radio link as serving E-DCH radio link.
3>	if the IE "E-AGCH Info" is included for the serving E-DCH radio link:
4>	store the newly received E-AGCH configuration.
NOTE:	The UTRAN should always include the IE "E-AGCH info" if the serving E-DCH radio link indicated in the message is another radio link than the serving E-DCH radio link prior to the procedure.
3>	if the IE "E-ROCH Info" is included for the serving E-DCH radio link:
4>	store the newly received E-ROCH configuration.
3>	if the IE "E-HICH information" is included:
4>	store this E-HICH configuration for the concerning radio link.
3>	if the IE "E-HICH information" is included or previously stored:
4>	store this E-RGCH configuration for the concerning radio link, if included.
3>	if the IE "E-HICH release indicator" is present:
4>	delete the stored E-HICH information;
4>	if variable UPLINK_MIMO_TRANSMISSION is set to TRUE:
5>	delete the stored E-HICH information for the secondary stream;
3>	if the “Secondary TB E-HICH release indicator” is present:
4>	delete the stored E-HICH information for the secondary stream;
3>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
3>	if the IE "F-TPICH info" is included:
4>	store this F-TPICH configuration for the concerning radio link.
3>	determine the value for the variable UPLINK_CLTD_TRANSMISSION and take the corresponding actions as described in subclause 8.5.69.
3>	if the IE "Radio Links without DPCH/F-DPCH info" is present:
4>	store this IE and indicate to lower layers to start operation with Radio Links without DPCH/F-DPCH.
3>	if the IE "Power Control Algorithm 3" is included in the IE "Downlink F-DPCH info for each RL":
4>	if the variable DTX_DRX_STATUS is set to TRUE:
5>	set the variable INVALID_CONFIGURATION to TRUE.
4>	else:
5>	indicate to lower layer to perform Power Control Algorithm 3 on the radio link indicated in this IE, as specified in [29].
NOTE:	As a result of CELL UPDATE CONFIRM or any reconfiguration message, for those radio links on the same carrier configured with Power Control Algorithm 3, the same power control parameters shall be used; otherwise, the UE behaviour is unspecified.
2>	for TDD:
3>	if the IE "E-AGCH Info" is included:
4>	store the newly received E-AGCH configuration.
3>	if the IE "E-HICH information" is included:
4>	store the E-HICH configuration.
3>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as 	described in subclause 8.5.28.
2>	act on the other IEs contained in the IE "Downlink information for each radio link" as specified in subclause 8.6 applied on this radio link.
1>	in addition, if the message was received in CELL_DCH state and the UE remains in CELL_DCH state according to subclause 8.6.3.3 applied on the received message:
2>	For FDD:
3>	if the IE "Serving HS-DSCH radio link indicator" is set to 'TRUE':
4>	consider this radio link as the serving HS-DSCH radio link;
4>	if the serving HS-DSCH radio link was another radio link than this radio link prior to reception of the message and the IE "H-RNTI" is not included:
5>	clear the variable H_RNTI.
3>	if the IE "Serving HS-DSCH radio link indicator" is set to ‘FALSE’ and this radio link was considered the serving HS-DSCH radio link prior to reception of this message:
4>	no longer consider this radio link as the serving HS-DSCH radio link.
3>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25;
3>	if the IE "Serving E-DCH radio link indicator" is set to 'TRUE':
4>	consider this radio link as the serving E-DCH radio link;
4>	if the serving E-DCH radio link was another radio link than this radio link prior to reception of the message:
5>	if the IE "New Primary E-RNTI" is not included:
6>	clear the Primary E-RNTI stored in the variable E_RNTI.
5>	if the IE "New Secondary E-RNTI" is not included:
6>	clear the Secondary E-RNTI stored in the variable E_RNTI.
3>	if the IE "Serving E-DCH radio link indicator" is set to ‘FALSE’ and this radio link was considered the serving E-DCH radio link prior to reception of this message:
4>	no longer consider this radio link as the serving E-DCH radio link.
3>	if the IE "E-HICH release indicator" is present:
4>	delete the stored E-HICH, E-AGCH and E-RGCH (if any) configurations.
3>	if the IE "E-RGCH release indicator" is present:
4>	delete the stored E-RGCH configuration for this RL.
3>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
3>	if the IE "F-TPICH release indicator" is present:
4>	delete the stored F-TPICH configuration for this RL.
3>	determine the value for the variable UPLINK_CLTD_TRANSMISSION and take the corresponding actions as described in subclause 8.5.69.
2>	For TDD:
3>	if the IE "H-RNTI" is not included and the primary CCPCH has changed:
4>	clear the variable H_RNTI.
3>	determine the value for the HS-DSCH_RECEPTION variable and take the corresponding actions as 	described in subclause 8.5.25.
2>	for TDD:
3>	if the IE "New Primary E-RNTI" is not included:
4>	clear the variable E_RNTI.
3>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as 	described in subclause 8.5.28.
2>	for each optional IE part of the IE "Downlink information for each radio link" that is not present:
3>	do not change its current downlink physical channel configuration corresponding to the IE, which is absent, if not stated otherwise elsewhere.
NOTE:	The Release '99 RADIO BEARER RECONFIGURATION message always includes at least one IE "Downlink information for each radio link" containing the mandatory IEs, even if UTRAN does not require the reconfiguration of any radio link.
1>	if the UE would enter either the CELL_FACH, CELL_PCH or URA_PCH state according to subclause 8.6.3.3 applied on the received message:
2>	if IEs other than the IE "Primary CPICH info" (for FDD) or the IE "Primary CCPCH info" (for TDD) are included in the IE "Downlink information for each radio link":
3>	ignore these IEs.
2>	act on the other IEs contained in the IE "Downlink information for each radio link" as specified in subclause 8.6 applied on this radio link.
2>	for 1.28Mcps TDD:
3>	if the IE "E-AGCH Info" is included:
4>	store the newly received E-AGCH configuration.
3>	if the IE "E-HICH information" is included:
4>		store the E-HICH configuration.
3>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46.

8.6.6.4a	Downlink information for each radio link on secondary UL frequency (FDD only)
For each of the IE "Downlink information for each radio link on secondary UL frequency" included in a received message, the UE shall:
1>	if the UE would enter CELL_DCH state according to subclause 8.6.3.3 applied on the received message:
2>	if the IE "Secondary serving E-DCH radio link indicator" is present:
3>	consider the radio link, identified by the IE "Primary CPICH info" as the secondary serving E-DCH radio link, and no longer consider any other radio link as secondary serving E-DCH radio link.
2>	else:
3>	consider the radio link, identified by the IE "Primary CPICH info" in the first IE "Downlink secondary cell info FDD" as the secondary serving E-DCH radio link, and no longer consider any other radio link as secondary serving E-DCH radio link.
2>	if the IE "E-AGCH Info" is included for the secondary serving E-DCH radio link:
3>	store the newly received E-AGCH configuration.
NOTE:	The UTRAN should always include the IE "E-AGCH info" if the secondary serving E-DCH radio link indicated in the message is another radio link than the secondary serving E-DCH radio link prior to the procedure.
2>	if the IE "E-HICH information" is included:
3>	store the E-HICH configuration for the concerning radio link.
2>	if the IE "E-RGCH information" is included:
3>	store the E-RGCH configuration for the concerning radio link.
2>	if the IE "Radio Links without DPCH/F-DPCH indicator" is present:
3>	store the IE "F-DPCH frame offset" and ignore all other IEs received in "Downlink F-DPCH info for each RL on secondary UL frequency";
3>	indicate to lower layers to start operation with Radio Links without DPCH/F-DPCH.
2>	if the IE "Power Control Algorithm 3" is included in the IE "Downlink F-DPCH info for each RL on secondary UL frequency":
3>	if the variable DTX_DRX_STATUS is set to TRUE:
4>	set the variable INVALID_CONFIGURATION to TRUE.
3>	else:
4>	indicate to lower layer to perform Power Control Algorithm 3 on the radio link indicated in this IE, as specified in [29].
NOTE:	As a result of CELL UPDATE CONFIRM or any reconfiguration message, for those radio links on the same carrier configured with Power Control Algorithm 3, the same power control parameters shall be used; otherwise, the UE behaviour is unspecified.
2>	act on the other IEs contained in the IE "Downlink information for each radio link on secondary UL frequency" as specified in subclause 8.6 applied on this radio link, according to the rules for primary uplink frequency.
1>	in addition, if the message was received in CELL_DCH state and the UE remains in CELL_DCH state according to subclause 8.6.3.3 applied on the received message and the secondary E-DCH active set prior to reception of this message contains one or more radio links:
2>	if the IE "E-RGCH release indicator" is present:
3>	delete the stored E-RGCH configuration for this RL.
2>	for each optional IE part of the IE "Downlink information for each radio link on secondary UL frequency", except the IE "Radio Links without DPCH/F-DPCH indicator", that is not present:
3>	do not change its current downlink physical channel configuration corresponding to the IE, which is absent, if not stated otherwise elsewhere.
NOTE:	UTRAN should configure the same value of IE "F-DPCH frame offset" for the serving E-DCH radio link and the secondary serving E-DCH radio link, otherwise the UE behaviour is unspecified.

8.6.6.5	Void

8.6.6.6	Uplink DPCH info
If the IE "Uplink DPCH info" is included, the UE shall:
For FDD:
1>	release any active uplink physical channels and activate the given physical channels;
1>	if the IE "Number of FBI bits" is not included:
2>	use 0 FBI bits in the Uplink DPCH.
1>	if the IE "Number of TPC bits" is not included:
2>	use 2 TPC bits in the Uplink DPCH.
1>	else:
2>	if F-DPCH is not configured then the UE behaviour is unspecified.
1>	use an SF equal to or greater than the minimum SF indicated in the IE "Spreading Factor" during uncompressed frames or compressed frames by HL scheduling;
1>	use an SF equal to or greater than the minimum SF divided by 2 during compressed frames by SF reduction.
For TDD:
1>	release the uplink physical channels associated with any CCTrCH that is removed or reconfigured and activate the physical channels assigned to any CCTrCH that is added or reconfigured;
1>	for 3.84 Mcps TDD or 7.68 Mcps TDD use the IE "UL target SIR" specified for each added or reconfigured CCTrCH as described in subclause 8.5.7. For 1.28 Mcps TDD use the value of IE “UL target SIR” specified for each added or reconfigured CCTrCH for parameter PRXDPCHdes as described in subclause 8.5.7;
1>	for 1.28 Mcps TDD:
2>	if "PLCCH Info" is included then store PLCCH Info parameters with respect to this uplink DPCH (overwriting  parameter values previously stored);
	2>	if "PLCCH Info" is not included then delete the PLCCH Info stored with respect to this uplink DPCH.
1>	use the parameters of the IE "Time info" for each added or reconfigured CCTrCH;
1>	if present, use the IE "Uplink Timing Advance Control" as specified in subclause 8.6.6.26.
8.6.6.7	Void

8.6.6.8	Maximum allowed UL TX power
If the IE "Maximum allowed UL TX power" is included in the Handover to UTRAN Command, in any other dedicated message or in System Information Block type 3 or in System Information Block 4, the UE shall:
1>	store and use the value until it is updated.
If the IE "Maximum allowed UL TX power" was not included in any dedicated message, the UE shall:
1>	use the value previously stored, when received in an earlier dedicated message, Handover to UTRAN Command message or received in System Information Block type 3 or in System Information Block 4.
For all cases, the UE shall:
1>	keep the UE uplink transmit power at or below the indicated power value;
1>	if the current UE uplink transmit power is above the indicated power value:
2>	decrease the power to a level at or below the power value.
The maximum UE TX power is defined as the lower of the maximum output power of the UE power class and the maximum allowed UL TX power indicated in this IE. The maximum UE TX power shall not be exceeded.
8.6.6.9	Void

8.6.6.10	Void

8.6.6.11	Uplink DPCH power control info
The UE shall:
1>	in FDD:
2>	if the IE "Uplink DPCH power control info" is included:
3>	if a synchronisation procedure A in CELL_DCH is performed according to [29]; or
3>	if a synchronisation procedure AA for Enhanced Uplink in CELL_FACH state or Idle mode is performed according to [29]:
4>	calculate and set an initial uplink transmission power;
4>	start inner loop power control as specified in subclause 8.5.3;
4>	for the UL inner loop power control:
5>	use the parameters specified in the IE.
3>	else:
4>	ignore the IEs "DPCCH Power offset", "PC Preamble" and "SRB delay";
4>	act on the IE "Power control algorithm" and the IE "TPC step size", if included.
3>	act on the IEs "ACK", "NACK" and "Ack-Nack repetition factor", if included;
3>	if the IE "Ack-Nack repetition factor for Multiflow assisting cells" is included:
4>	if Multiflow operation on two frequencies and three cells with MIMO or Multiflow operation on two frequencies and four cells (with or without MIMO) is configured:
5>	act on the IE "Ack-Nack repetition factor for Multiflow assisting cells" for configured multiflow assisting cell(s).
4>	else:
5>	if the value in the IE "Ack-Nack repetition factor for Multiflow assisting cells" is not set to 1:
6>	the UE behavior is unspecified.
5>	else:
6>	act on the IE "Ack-Nack repetition factor for Multiflow assisting cells" for configured multiflow assisting cell(s).
3>	else:
4>	act on the IE "Ack-Nack repetition factor" for configured Multiflow assisting cell(s).
3>	use the procedure for transmitting HS-DPCCH preamble and postamble according to [29], if the IE "HARQ_preamble_mode" is set to 1.
1>	in 3.84 Mcps TDD or 7.68 Mcps TDD:
2>	if the IE "Uplink DPCH power control info" is included:
3>	use the parameters specified in the IE for open loop power control as defined in subclause 8.5.7.
2>	else:
3>	use the current uplink transmission power.
1>	in 1.28 Mcps TDD:
2>	if the CHOICE UL OL PC info is set to 'Broadcast UL OL PC info':
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if the IE "Uplink DPCH power control info"is included in the UPLINK PHYSICAL CHANNEL CONTROL message:
3>	use "Beacon PL Est. " and the TPC step size for the closed loop power control of the CCTrCH identified in the message, replacing the existing value used for the CCTrCH.
3>	if the IE " UL target SIR " is included:
4>	use this value for parameter PRXDPCHdes for open loop power control of the CCTrCH identified in the message in the case of a transition from closed loop to open loop power control as specified in [33].
2>	if the IE "Uplink DPCH power control info" is included in the IE "Uplink DPCH info":
3>	use the "Beacon PL Est. " and TPC step size for the closed loop power control of all CCTrCH added or reconfigured by the IE replacing any existing values used for the CCTrCHs;
3>	if the IE " UL target SIR " is included ignore the parameter.
1>	both in FDD and TDD;
2>	if the IE "Uplink DPCH power control info" is not included in a message used to enter CELL_DCH:
3>	set the variable INVALID_CONFIGURATION to TRUE.
1>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25.
8.6.6.12	Secondary CPICH info
If the IE Secondary CPICH info is included, the UE may:
1>	use the channelisation code according to IE "channelisation code", with scrambling code according to IE "DL scrambling code" in the IE "Secondary CPICH info", for channel estimation of that radio link;
1>	use the pilot bits on DPCCH for channel estimation.
If the IE Secondary CPICH info is not included, the UE shall:
1>	not use any previously stored configuration corresponding to the usage of the Secondary CPICH info.
8.6.6.13	Primary CPICH usage for channel estimation
If the IE "Primary CPICH usage for channel estimation" is included and has the value "Primary CPICH may be used" the UE:
1>	may use the Primary CPICH for channel estimation;
1>	may use the pilot bits on DPCCH for channel estimation.
NOTE:	If the IE "Primary CPICH usage for channel estimation" has the value "Primary CPICH shall not be used" and the IE "Secondary CPICH info" is not included for that radio link then the UE behaviour is not specified.
If the IE "Primary CPICH usage for channel estimation" is included and has the value "Primary CPICH shall not be used" the UE:
1>	shall not use the Primary CPICH for channel estimation;
1>	may use the Secondary CPICH for channel estimation;
1>	may use the pilot bits on DPCCH for channel estimation.
8.6.6.14	DPCH frame offset (FDD Only)
If "DPCH frame offset" is included in a message that instructs the UE to enter CELL_DCH state:
1>	UTRAN should:
2>	if only one Radio Link is included in the message:
3>	if the UE is configured for DPCH:
4>	set "Default DPCH Offset Value" and "DPCH frame offset" respecting the following relation:
	(Default DPCH Offset Value) mod 38400 = DPCH frame offset
-	where the IE values used are the Actual Values of the IEs as defined in clause 11.
3>	if the UE is configured for F-DPCH:
4>	set "Default DPCH Offset Value" and "DPCH frame offset" respecting one of the following relations:
5>	(Default DPCH Offset Value) mod 38400 = DPCH frame offset; or
5>	(Default DPCH Offset Value+256) mod 38400 = DPCH frame offset, 
-	where the IE values used are the Actual Values of the IEs as defined in clause 11.
2>	if more than one Radio Link are included in the message:
3>	if the UE is configured for DPCH:
4>	set "Default DPCH Offset Value" and "DPCH frame offset" respecting the following relation:
	(Default DPCH Offset Value) mod 38400 = DPCH frame offsetj
-	where j indicates the first radio link listed in the message and the IE values used are the Actual Values of the IEs as defined in clause 11.
3>	if the UE is configured for F-DPCH:
4>	set "Default DPCH Offset Value" and "DPCH frame offsetj" respecting one of the following relations:
5>	(Default DPCH Offset Value) mod 38400 = DPCH frame offsetj; or
5>	(Default DPCH Offset Value+256) mod 38400 = DPCH frame offsetj,
-	where j indicates the first radio link listed in the message and the IE values used are the Actual Values of the IEs as defined in clause 11.
1>	The UE shall:
2>		if only one Radio Link is included in the message:
3>	if the UE is configured for DPCH:
4>	if (Default DPCH Offset Value) mod 38400 = DPCH frame offset:
5>	set DOFF (see subclause 8.5.15.1) to Default DPCH Offset Value.
4>	else:
5>	set the variable INVALID_CONFIGURATION to TRUE.
3>	if the UE is configured for F-DPCH:
4>	if (Default DPCH Offset Value) mod 38400 = DPCH frame offset:
5>	set DOFF (see subclause 8.5.15.1) to Default DPCH Offset Value.
4>	else if (Default DPCH Offset Value+256) mod 38400 = DPCH frame offset:
5>	set DOFF (see subclause 8.5.15.1) to Default DPCH Offset Value + 256.
4>	else:
5>	set the variable INVALID_CONFIGURATION to TRUE.
2>	if more than one Radio Links are included in the message:
3>	if the UE is configured for DPCH:
4>	if (Default DPCH Offset Value) mod 38400 = DPCH frame offsetj,
-	where j indicates the first radio link listed in the message:
5>	set DOFF	(see subclause 8.5.15.1) to Default DPCH Offset Value.
4>	else:
5>	set the variable INVALID_CONFIGURATION to TRUE.
3>	if the UE is configured for F-DPCH:
4>	if (Default DPCH Offset Value) mod 38400 = DPCH frame offsetj,,
-	where j indicates the first radio link listed in the message:
5>	set DOFF	(see subclause 8.5.15.1) to Default DPCH Offset Value.
4>	else if (Default DPCH Offset Value+256) mod 38400 = DPCH frame offsetj ,
-	where j indicates the first radio link listed in the message:
5>	set DOFF (see subclause 8.5.15.1) to Default DPCH Offset Value + 256.
4>	else:
5>	set the variable INVALID_CONFIGURATION to TRUE.
If the IE "DPCH frame offset" is included the UE shall:
1>	use its value to determine the beginning of the DPCH or F-DPCH frame.
8.6.6.15	DPCH Compressed mode info
If the IE "DPCH compressed mode info" is included, and if the IE group "transmission gap pattern sequence configuration parameters" is included, the UE shall for each transmission gap pattern sequence perform the following consistency checks:
1>	if the UE, according to its measurement capabilities, and for all supported bands of the UTRA mode or RAT associated with the measurement purpose indicated by IE "TGMP", requires UL compressed mode, and CHOICE 'UL/DL mode' indicates 'DL only':
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the UE, according to its measurement capabilities, and for all supported bands of the UTRA mode or RAT associated with the measurement purpose indicated by IE "TGMP", requires DL compressed mode, and CHOICE 'UL/DL mode' indicates 'UL only':
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the UE, according to its measurement capabilities, does not require UL compressed mode for any of supported band of the UTRA mode or RAT associated with the measurement purpose indicated by the IE "TGMP", and CHOICE 'UL/DL mode' indicates 'UL only' or 'UL and DL':
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if the UE, according to its measurement capabilities, does not require DL compressed mode for any supported band of the UTRA mode or RAT associated with the measurement purpose indicated by the IE "TGMP", and CHOICE 'UL/DL mode' indicates 'DL only' or 'UL and DL':
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if UE already has an active transmission gap pattern sequence that, according to IE "TGMP", has the same measurement purpose, and both patterns will be active (according to the IE "Current TGPS Status Flag" in variable TGPS_IDENTITY) after the new configuration has been taken into use:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	if there is any pending "TGPS reconfiguration CFN" or any pending "TGCFN":
2>	the UE behaviour is unspecified.
If variable INVALID_CONFIGURATION has value FALSE after UE has performed the checks above, the UE shall:
1>	if pattern sequence corresponding to IE "TGPSI" is already active (according to "Current TGPS Status Flag") in the variable TGPS_IDENTITY):
2>	if the "TGPS Status Flag" in this message is set to "deactivate" for the corresponding pattern sequence:
3>	deactivate this pattern sequence at the beginning of the frame, indicated by IE "Activation time" (see subclause 8.6.3.1) received in this message, when the new configuration received in this message is taken into use.
3>	set the "Current TGPS Status Flag" for this pattern sequence in the variable TGPS_IDENTITY to "inactive" at the frame, indicated by IE "Activation time" (see subclause 8.6.3.1) received in this message, when the new configuration received in this message is taken into use.
2>	if the "TGPS Status Flag" in this message is set to "activate" for the corresponding pattern sequence:
3>	deactivate this pattern sequence at the beginning of the frame, indicated by IE "Activation time"(see subclause 8.6.3.1) received in this message, when the new configuration received in this message is taken into use.
NOTE1:	The temporary deactivation of pattern sequences for which the status flag is set to "activate" can be used by the network to align the timing of already active patterns with newly activated patterns.
NOTE2:	The deactivation of pattern sequences only occurs as a result of RRC messages received by the UE, i.e. the UE does not set the "Current TGPS Status Flag" to "inactive" after the final gap of a finite length pattern sequence.
1>	update each pattern sequence to the variable TGPS_IDENTITY according to the IE "TGPSI";
1>	update into the variable TGPS_IDENTITY the configuration information defined by IE group" transmission gap pattern sequence configuration parameters ";
1>	if an F-DPCH is configured:
2>	not use the IEs "Downlink compressed mode method", "Downlink frame type", "DeltaSIR1", "DeltaSIRafter1", and if included, the IEs "DeltaSIR2", "DeltaSIRafter2".
1>	after the instant in which the message is to be executed, as specified in subclause 8.6.3.1:
2>	activate the stored pattern sequence corresponding to each IE "TGPSI" for which the "TGPS status flag" in the variable TGPS_IDENTITY is set to "activate" at the time indicated by IE "TGCFN"; and
2>	set the "Current TGPS Status Flag" for this pattern sequence in the variable TGPS_IDENTITY to "active".
NOTE1:	If the pattern is activated with a message that includes the IE "Activation time", and if the CFN value indicated by the IE "Activation Time" and the CFN value indicated by the TGCFN are included in the same TTI (but not at the TTI boundary) common to all the transport channels that are multiplexed onto the reference CCTrCh (as defined in subclause 8.6.3.1), and if the CFN value indicated by the TGCFN is equal or higher than the CFN value indicated by the IE "Activation Time" (as defined in subclause 8.6.3.1) value, the UE behaviour is not specified.
NOTE2:	If the pattern is activated with a message used to perform timing re-initialised hard handover, the UE can start evaluating the activation of the pattern (i.e. compare the value of the CFN in the new configuration with the value of the TGCFN) at any time between the message activation time and the completion of the synchronisation procedure A.
2>	if the IE "DPCH compressed mode info" is included in a message used to perform a Hard Handover with change of frequency (see subclause 8.3.5); or
2>	if the IE "DPCH compressed mode info" is included in a message used to transfer the UE from CELL_FACH to CELL_DCH, and the cell in which the UE transited from CELL_FACH state is not included in the active set for the CELL_DCH state (see subclause 8.4.1.7.2):
3>	not begin the inter-frequency measurement reporting corresponding to the pattern sequence measurement purpose of each activated pattern sequence.
2>	else:
3>	begin the inter-frequency measurement reporting corresponding to the pattern sequence measurement purpose of each activated pattern sequence.
2>	begin the inter-RAT measurement reporting corresponding to the pattern sequence measurement purpose of each activated pattern sequence;
2>	if the new configuration is taken into use at the same CFN as indicated by IE "TGCFN":
3>	start the concerned pattern sequence immediately at that CFN.
1>	monitor if the parallel transmission gap pattern sequences create an illegal overlap, and in case of overlap, take actions as specified in subclause 8.2.11.2.
If the IE "DPCH compressed mode info" is included, and if the IE group "transmission gap pattern sequence configuration parameters" is not included, the UE shall:
1>	if, as the result of this message, UE will have more than one transmission gap pattern sequence with the same measurement purpose active (according to IEs "TGMP" and "Current TGPS Status Flag" in variable TGPS_IDENTITY):
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if there is any pending "TGPS reconfiguration CFN" or any pending "TGCFN":
2>	the UE behaviour is unspecified.
1>	if pattern sequence corresponding to IE "TGPSI" is already active (according to "Current TGPS Status Flag" in the variable TGPS_IDENTITY):
2>	if the "TGPS Status Flag" in this message is set to "deactivate" for the corresponding pattern sequence:
3>	deactivate this pattern sequence at the beginning of the frame, indicated by IE "Activation time"(see subclause 8.6.3.1) received in this message, when the new configuration received in this message is taken into use;
3>	set the "Current TGPS Status Flag" for this pattern sequence in the variable TGPS_IDENTITY to "inactive" at the frame, indicated by IE "Activation time"(see subclause 8.6.3.1) received in this message, when the new configuration received in this message is taken into use.
2>	if the "TGPS Status Flag" in this message is set to "activate" for the corresponding pattern sequence:
3>	deactivate this pattern sequence at the beginning of the frame, indicated by IE "Activation time"(see subclause 8.6.3.1) received in this message, when the new configuration received in this message is taken into use.
NOTE1:	The temporary deactivation of pattern sequences for which the status flag is set to "activate" can be used by the network to align the timing of already active patterns with newly activated patterns.
NOTE2:	The deactivation of pattern sequences only occurs as a result of RRC messages received by the UE, i.e. the UE does not set the "Current TGPS Status Flag" to "inactive" after the final gap of a finite length pattern sequence.
1>	after the instant in which the message is to be executed, as specified in subclause 8.6.3.1:
2>	activate the stored pattern sequence corresponding to each IE "TGPSI" for which the "TGPS status flag" is set to "activate" at the time indicated by IE "TGCFN"; and
NOTE1:	If the pattern is activated with a message that includes the IE "Activation time", and if the CFN value indicated by the IE "Activation Time" and the CFN value indicated by the TGCFN are included in the same TTI (but not at the TTI boundary) common to all the transport channels that are multiplexed onto the reference CCTrCh (as defined in subclause 8.6.3.1), and if the CFN value indicated by the TGCFN is equal or higher than the CFN value indicated by the IE "Activation Time" (as defined in subclause 8.6.3.1) value, the UE behaviour is not specified. 
NOTE2:	If the pattern is activated with a message used to perform timing re-initialised hard handover, the UE can start evaluating the activation of the pattern (i.e. compare the value of the CFN in the new configuration with the value of the TGCFN) at any time between the message activation time and the completion of the synchronisation procedure A.
2>	set the "Current TGPS Status Flag" for this pattern sequence in the variable TGPS_IDENTITY to "active";
2>	if the IE "DPCH compressed mode info" is included in a message used to perform a Hard Handover with change of frequency (see subclause 8.3.5); or
2>	if the IE "DPCH compressed mode info" is included in a message used to transfer the UE from CELL_FACH to CELL_DCH, and the cell in which the UE transited from CELL_FACH state is not included in the active set for the CELL_DCH state (see subclause 8.4.1.7.2):
3>	not begin the inter-frequency measurement reporting corresponding to the pattern sequence measurement purpose of each activated pattern sequence.
2>	else:
3>	begin the inter-frequency measurement reporting corresponding to the pattern sequence measurement purpose of each activated pattern sequence.
2>	begin the inter-RAT measurement reporting corresponding to the pattern sequence measurement purpose of each activated pattern sequence;
2>	if the new configuration is taken into use at the same CFN as indicated by IE "TGCFN":
3>	start the concerned pattern sequence immediately at that CFN.
For transmission gap pattern sequences stored in variable TGPS_IDENTITY, but not identified in IE "TGPSI" (either due to the absence of the IE "DPCH compressed mode info" in the received message or due to not receiving the corresponding TGPSI value in the IE "DPCH compressed mode info"), the UE shall:
1>	if the received message implies a timing re-initialised hard handover (see subclause 8.3.5.1):
2>	deactivate such transmission gap pattern sequences at the beginning of the frame, indicated by IE "Activation time" (see subclause 8.6.3.1) received in this message; and
2>	set IE "Current TGPS Status Flag" in corresponding UE variable TGPS_IDENTITY to 'inactive'.
1>	if the received message not implies a timing re-initialised hard handover (see subclause 8.3.5.1):
2>	continue such transmission gap pattern sequence according to IE "Current TGPS Status Flag" in the corresponding UE variable TGPS_IDENTITY.
Uplink and downlink compressed mode methods are described in [27]. For UL "higher layer scheduling" compressed mode method and transport format combination selection, see [15].
8.6.6.16	Repetition period, Repetition length, Offset (TDD only)
In case the physical allocations of different channels overlap the following priority rules shall apply for common channels and shall be taken into account by the UE:
1>	PICH takes precedence over Primary CCPCH;
1>	PICH takes precedence over Secondary CCPCH;
1>	MICH takes precedence over Primary CCPCH;
1>	MICH takes precedence over Secondary CCPCH;
1>	Secondary CCPCH takes precedence over Primary CCPCH.
The frame allocation can be derived by following rules:
If no IE "Offset" is explicitly given, the parameter "Offset" to be used is calculated by the following equation:
	Activation time mod Repetition period = Offset.
Frames from CFN CFNoff to CFNoff + Repetition length - 1 belong to the allocation with CFNoff fulfilling the following equation:
	CFNoff mod Repetition period = Offset.
Repetition length is always a multiple of the largest TTI within the CCTrCH fulfilling the following equation:
	(largest TTI within CCTrCH) * X = Repetition Length
Example of usage:

Figure 8.6.6.16-1: Examples for frame allocations in TDD
8.6.6.16a	Repetition period, Repetition length, Offsetsub (1.28 Mcps TDD only)
The subframes, i.e. TTI in 5ms, of non-scheduled E-PUCH allocated can be determined from "Activation Time", "Subframe number", "Resource Duration" and "Resource Periodicity", or of initial SPS E-PUCH and HS-PDSCH or Standalone midamble allocated can be determined from "Activation time","Subframe number", " Repetition period " and " Repetition length" as below:
The parameter "Offset sub" is defined to denote the offset of assigned E-PUCH or HS-PDSCH physical resource within each Repetition period and numerated in subframe number.
"Offset sub" to be used is calculated by the following equation:
(Activation time* 2+ Subframe number) mod Repetition period = Offset sub.
Here, a new term subCFN is defined to represent the Subframe within a specified CFN, and subCFN within a specified CFN is counted as below:
CFN* 2+ Subframe number = subCFN.
SubFrames from subCFNoff to subCFNoff + Repetition length - 1 belong to the allocation with subCFNoff fulfilling the following equation:
	subCFNoff mod Repetition period = Offset sub.
Example of usage:

Figure 8.6.6.16a-1: Examples for subframe allocations in TDD
8.6.6.17	Primary CCPCH info
If the IE "Primary CCPCH info" is included, the UE shall:
1>	use the information elements in this IE.
8.6.6.18	Primary CPICH info
If the IE "Primary CPICH info" in FDD is included, the UE shall:
1>	use the value of this IE as the primary scrambling code for the downlink radio link.
8.6.6.19	Void

8.6.6.20	Void

8.6.6.21	Void

8.6.6.22	Secondary Scrambling Code, Code Number
The following description applies to FDD.
Code Number can be assigned by following rules:
1>	When more than one DL DPDCH is assigned per RL, the segmented physical channel shall be mapped on to DL DPDCHs according to [27]. When p number of DL DPDCHs are assigned to each RL, the first pair of Secondary Scrambling Code and Code Number corresponds to "PhCH number 1", the second to "PhCH number 2", and so on until the pth to "PhCH number p".
8.6.6.23	PDSCH Power Control info
The UE shall:
1>	if the IE "PDSCH Power Control info" is included:
2>	configure PDSCH power control with the received values.
1>	if the IE "PDSCH Power Control info" is not included:
2>	continue to use the stored values.
8.6.6.24	Tx Diversity Mode
If the IE "Tx Diversity Mode" is included the UE shall:
1>	if the value of the IE "Tx Diversity Mode" is STTD:
2>	configure the Layer 1 to use the Tx diversity mode indicated in the IE "Tx Diversity Mode" for the radio links for which the IE "Closed loop timing adjustment mode" is included, ignoring the actual value of IE "Closed loop timing adjustment mode".
1>	if the value of the IE "Tx Diversity Mode" is closed loop mode 1:
2>	configure the Layer 1 to use the Tx diversity mode indicated in the IE "Tx Diversity Mode" for the radio links for which the IE "Closed loop timing adjustment mode" is included, using the actual value of the IE "Closed loop timing adjustment mode".
1>	if the value of the IE "Tx Diversity Mode" is "none":
2>	configure the Layer 1 not to use Tx diversity for all radio links in the active set.
If the IE "Tx Diversity Mode" is not included, the UE shall:
1>	continue to use the already configured Tx diversity mode;
1>	in case no Tx diversity mode has been configured:
2>	do not apply Tx diversity.
For F-DPCH the UE shall:
1>	if the IE "STTD indication" is included in the IE "Downlink F-DPCH info for each RL":
2>	use STTD for F-DPCH on the radio links for which the IE "STTD indication" is set to TRUE.
For HS-SCCH, the UE shall:
1>	if the DPCH associated with a HS-SCCH is using either open or closed loop transmit diversity on the radio link transmitted from the HS-DSCH serving cell:
2>	use STTD for this HS-SCCH;
1>	if the F-DPCH associated with an HS-SCCH is using open loop transmit diversity on the radio link transmitted from the HS-DSCH serving cell:
2>	use STTD for this HS-SCCH.
1>	otherwise:
2>	not use Tx diversity for this HS-SCCH.
For E-AGCH, E-RGCH, and E-HICH from the same cell, the UE shall:
1>	for each radio link:
2>	if the DPCH associated with E-AGCH, E-RGCH, and E-HICH from the same cell is using either open or closed loop transmit diversity:
3>	use STTD for these E-AGCH, E-RGCH, and E-HICH.
2>	if the F-DPCH associated with E-AGCH, E-RGCH, and E-HICH from the same cell is using open loop transmit diversity:
3>	use STTD for these E-AGCH, E-RGCH, and E-HICH.
2>	otherwise: 
3>	not use Tx diversity for these E-AGCH, E-RGCH, and E-HICH.
For F-TPICH, the UE shall:
1>	for each radio link:
2>	if the DPCH associated with the F-TPICH is using either open or closed loop transmit diversity:
3>	use STTD for the F-TPICH.
2>	if the F-DPCH associated with the F-TPICH is using open loop transmit diversity:
3>	use STTD for the F-TPICH.
2>	otherwise:
3>	not use Tx diversity for the F-TPICH.
NOTE:	The IE "Tx Diversity Mode" shall be ignored with respect to the radio links that are in the secondary E-DCH active set.
8.6.6.25	Void

8.6.6.26	UL Timing Advance Control (TDD only)
If the IE "UL Timing Advance Control" is present, the UE shall:
1>	if the IE "Uplink Timing Advance Control" has the value "disabled":
2>	reset timing advance to 0;
2>	disable calculated timing advance following handover;
2>	in case of handover:
3>	start uplink transmissions in the target cell without applying timing advance.
1>	if the IE "Uplink Timing Advance Control" has the value "enabled":
2>	in 3.84 Mcps TDD or 7.68 Mcps TDD:
3>	in case of no cell change:
4>	evaluate and apply the timing advance value for uplink transmission as indicated in the IE "Uplink Timing Advance" or the IE "Extended Uplink Timing Advance" at the CFN indicated in the IE "Activation Time".
3>	in case of cell change:
4>	use the IE "Uplink Timing Advance" or the IE "Extended UL Timing Advance" as TAold and apply TAnew for uplink transmission in the target cell at the CFN indicated in the IE "Activation Time" as specified in [33];
4>	include the value of the applied timing advance in the IE "Timing Advance" or the IE "Extended UL Timing Advance" in the COMPLETE message.
2>	in 1.28 Mcps TDD:
3>	if the IE "Synchronisation parameters" is included:
4>	initiate a sequence of UpPCH SYNC_UL code transmissions using a code selected from the set specified and continue until a timing correction is received in the specified FPACH (received for WT sub-frames following the sub-frame in which the transmission was made) or until Max SYNC_UL transmissions have been completed. The power used for each SYNC_UL transmission is as specified in subclause 8.5.7. Each transmission is made in the first sub-frame possible following the end of each FPACH reception interval using the timing specified in [33]. A new code is selected for each transmission. The detection that the FPACH relates to the transmitted SYNC_UL code is described in [33];
4>	if a timing correction is received within Max SYNC_UL transmissions the procedure is completed. The assigned uplink resources may then be used, commencing at the first possible TTI boundary or the SFN in which the assignment commences, whichever is the later. The timing of the uplink transmission is described in [33];
4>	if no timing correction has been received within Max SYNC_UL transmissions, the synchronisation procedure has failed. If the assigned resources are DCH, the UE should not transmit using these resources and should respond as if a physical channel failure has occurred as specified in subclauses 8.1.3.7 or 8.2.2.7 or 8.3.1.7, or 8.3.6.5. If the assigned resources are USCH then the UE should ignore the USCH allocation.
3>	if the IE "Synchronisation parameters" is not included:
4>	in case of no cell change:
5>	continue to use the current uplink timing.
4>	in case of cell change:
5>	evaluate and apply the timing correction TAnew for uplink transmissions using the procedure as specified in [33].
8.6.6.26a	Uplink synchronisation parameters (TDD only)
The UE shall apply uplink synchronisation using the values of the IEs "Uplink synchronisation step size" and "Uplink synchronisation frequency" as specified in [33].
8.6.6.27	Downlink information common for all radio links
If the IE "Downlink information common for all radio links " is included the UE shall:
1>	if the IE "Downlink DPCH info common for all RL" is included:
2>	perform actions as specified in subclause 8.6.6.28.
1>	if the IE "Downlink F-DPCH info common for all RL" is included:
2>	perform actions as specified in subclause 8.6.6.28a.
1>	if the IE choice "mode" is set to 'FDD':
2>	perform actions for the IE "DPCH compressed mode info" as specified in subclause 8.6.6.15;
2>	perform actions for the IE "Tx Diversity mode" as specified in subclause 8.6.6.24.
1>	if the IE "MAC-hs reset indicator" is included:
2>	if the serving HS-DSCH radio link is the same radio link as prior to the reception of the message; and
2>	if, as a result of the reconfiguration message where this IE is received, the MAC header type (i.e., either MAC-hs or MAC-ehs) is unchanged; and
2>	if, as a result of the reconfiguration message where this IE is received, the UE does not perform a state transition between CELL_FACH state and CELL_DCH state:
3>	the UE behaviour is unspecified.
2>	if inter-Node B Multiflow operation is not configured:
3>	reset the MAC-hs/ehs entity [15].
2>	else:
3>	reset the MAC-hs/ehs entity related to the serving cell [15].
1>	if the IE "MAC-hs reset indicator for Multiflow assisting cells" is included:
2>	if inter-Node B Multiflow operation is configured:
3>	reset the MAC-hs/ehs entity related to the configured assisting cells [15].
2>	else:
3>	the UE behaviour is unspecified.
NOTE:	If the MAC header type is changed, either from MAC-hs to MAC-ehs or from MAC-ehs to MAC-hs, UTRAN should include the IE "MAC-hs reset indicator" in order to ensure a reset of the MAC-hs/ehs entity in the UE prior to MAC-hs/ehs reconfiguration, otherwise the UE behaviour is unspecified.
8.6.6.28	Downlink DPCH info common for all radio links
If the IE "Downlink DPCH info common for all RL" is included the UE shall:
1>	if:
2>	the IE "Downlink DPCH info common for all RL" is included in a reconfiguration message; and
2>	the UE was in CELL_DCH state upon reception of the message and remains in CELL_DCH state; and
2>	the message is not used to perform a hard handover (as specified in subclause 8.6.6.3a) and the IE "Timing indication" is set to "initialise":
3>	the UE behaviour is not specified.
1>	if the IE "Downlink DPCH power control information" is included:
2>	in the case of FDD:
3>	perform actions for the IE "DPC Mode" according to [29].
2>	in the case of TDD:
3>	perform actions for the IE "TPC Step Size" according to [33].
1>	if the IE choice "mode" is set to 'FDD':
2>	if the IE "Downlink rate matching restriction information" is included:
3>	set the variable INVALID_CONFIGURATION to TRUE.
2>	perform actions for the IE "spreading factor";
2>	perform actions for the IE "Fixed or Flexible position";
2>	perform actions for the IE "TFCI existence";
2>	if the IE choice "SF" is set to 256:
3>	store the value of the IE "Number of bits for pilot bits".
2>	if the IE choice "SF" is set to 128:
3>	store the value of the IE "Number of bits for pilot bits".
If the IE "Downlink DPCH info common for all RL" is included in a message used to perform a Timing re-initialised hard handover or the IE "Downlink DPCH info common for all RL" is included in a message other than RB SETUP used to transfer the UE from a state different from CELL_DCH to CELL_DCH, and ciphering is active for any radio bearer using RLC-TM, the UE shall, after having activated the dedicated physical channels indicated by that IE:
1>	if any ciphering configuration for a radio bearer using RLC-TM has not been applied, due to that the activation time from a previous procedure has not elapsed:
2>	apply the ciphering configuration immediately and consider the activation time from the previous procedure to be elapsed.
1>	if the IE "MAC-d HFN initial value" is included in the IE "Downlink DPCH info common for all RL":
2>	set the HFN component of COUNT-C for TM-RLC to the value of the IE "MAC-d HFN initial value", while not incrementing the value of the HFN component of COUNT-C at each CFN cycle.
NOTE:	The UTRAN should choose a value for the IE "MAC-d HFN initial value" using the COUNT-C value of the RBs using RLC-TM indicated by the Source RNC to the Target RNC in the IE "SRNS Relocation Info" and include some margin in such a way that no values of COUNT-C are repeated after the handover.
1>	else:
2>	set the 20 MSB of the HFN component of COUNT-C for TM-RLC to the value of the latest transmitted IE "START" or "START List" for this CN domain, while not incrementing the value of the HFN component of COUNT-C at each CFN cycle; and
2>	set the remaining LSBs of the HFN component of COUNT-C to zero.
1>	start to perform ciphering on the radio bearer in lower layers while not incrementing the HFN;
1>	include the IE "COUNT-C activation time" in the response message and specify a CFN value for this IE other than the default, "Now", that is a multiple of 8 frames (CFN mod 8 =0) and lies at least 200 frames ahead of the CFN in which the response message is first transmitted;
1>	calculate the START value according to subclause 8.5.9;
1>	include the calculated START values for each CN domain in the IE "START list" in the IE "Uplink counter synchronisation info" in the response message;
1>	at the CFN value as indicated in the response message in the IE "COUNT-C activation time":
2>	set the 20 MSB of the HFN component of the COUNT-C variable common for all transparent mode radio bearers of this CN domain to the START value as indicated in the IE "START list" of the response message for the relevant CN domain; and
2>	set the remaining LSBs of the HFN component of COUNT-C to zero;
2>	increment the HFN component of the COUNT-C variable by one even if the "COUNT-C activation time" is equal to zero;
2>	set the CFN component of the COUNT-C to the value of the IE "COUNT-C activation time" of the response message. The HFN component and the CFN component completely initialise the COUNT-C variable;
2>	step the COUNT-C variable, as normal, at each CFN value, i.e. the HFN component is no longer fixed in value but incremented at each CFN cycle.
8.6.6.28a	Downlink F-DPCH info common for all radio links
If the IE "Downlink F-DPCH info common for all RL" is included the UE shall:
1>	if the IE "Downlink F-DPCH info common for all RL" is included in a message used to perform a hard handover:
2>	perform actions for the IE "Timing indication" as specified in subclause 8.5.15.2, and subclause 8.3.5.1 or 8.3.5.2.
1>	if the IE "Downlink DPCH power control information" is included:
2>	perform actions for the IE "DPC Mode" according to [29].
8.6.6.29	ASC setting
If the IE "ASC setting" is included, the UE shall:
1>	establish the available signatures for this ASC as specified in the following:
2>	separately renumber the list of available signatures specified in the IE "Available signature" included in the IE "PRACH info" and the IE "PRACH preamble control parameters (for Enhanced Uplink)" contained in the IE "Common E-DCH system info" from signature index 0 to signature index N-1, where N is the number of available signatures, starting with the lowest available signature number and continuing in sequence, in the order of increasing signature numbers;
2>	for each occurrence in the IE "PRACH preamble control parameters extension list Type 1 (for Enhanced Uplink)", IE "PRACH preamble control parameters extension list Type 2 (for Enhanced Uplink)", and IE "PRACH preamble control parameters extension list Type 3 (for Enhanced Uplink)"
3>	separately renumber the list of available signatures specified in the IE "Available signature" included in the IE "PRACH preamble control parameters (for Enhanced Uplink)" from signature index 0 to signature index N-1, where N is the number of available signatures, starting with the lowest available signature number and continuing in sequence, in the order of increasing signature numbers;
2>	consider as available signatures for this ASC the signatures included in this renumbered list from the index specified by the IE "Available signature Start Index" to the index specified by the IE "Available signature End Index".
1>	establish the available access slot sub-channels for this ASC as specified in the following:
2>	if the IE "AICH transmission timing" included in the IE "AICH Info" is set to '0';
3>	ignore the leftmost (most significant) bit (bit b3) of the bit string specified by the IE "Assigned Sub-Channel Number";
3>	repeat 4 times the 3 rightmost (least significant) bits (bits b2-b0) of the bit string specified by the IE "Assigned Sub-Channel Number" to form a resulting bit string 'b2 b1 b0 b2 b1 b0 b2 b1 b0 b2 b1 b0' of length 12 bits, where the leftmost bit is the most significant.
2>	if the IE "AICH transmission timing" included in the IE "AICH Info" is set to '1':
3>	repeat 3 times the bit string (bits b3-b0) specified by the IE "Assigned Sub-Channel Number" to form a bit string 'b3 b2 b1 b0 b3 b2 b1 b0 b3 b2 b1 b0' of length 12 bits, where the leftmost bit is the most significant.
2>	perform in both cases, for the resulting bit string (that includes the repetitions) bit-wise logical AND operation separately with the IE "Available Sub Channel number" included in IE "PRACH info (for RACH)" and "PRACH preamble control parameters (for Enhanced Uplink)";
2>	consider as available sub-channels for this ASC the available sub-channels indicated in the resulting bit string, after logical AND operation i.e. each bit set to 1 or 0 indicates availability or non-availability, respectively, of sub-channel number x, with x from 0 to 11, for the respective ASC.
NOTE 1:	In FDD, the list of available signatures is renumbered from signature index 0 to signature index N-1, where N is the number of available signatures, starting with the lowest available signature number and continuing in sequence, in the order of increasing signature numbers.

	- List of available signatures: 16 or fewer signatures are available.
	- Example: only signatures 0, 5, 10 and 15 are available, then :
	- Signature 0 is: available signature index 0
	- Signature 5 is: available signature index 1
	- Signature 10 is: available signature index 2
- Signature 15 is: available signature index 3
NOTE 2:	In 3.84 Mcps TDD, the list of available channelisation codes (defined in PRACH info) is renumbered from channelisation code index 0 to channelisation code index N-1, where N is the number of available channelisation codes, starting with the lowest available channelisation code number and continuing in sequence, in the order of increasing channelisation code numbers

List of available channelisation codes : 8 or less channelisation codes are available.

The i-th bit of the bitmap defined in the IE "Available Channelisation Code indices" defines whether the channelisation code with the available channelisation code index i is to be used for this ASC (bit set means used, bit unset means not used). Only the low N bits shall be used in the bitmap, where N is the number of available channelisation codes defined in PRACH info.

Ex : spreading factor 16, channelisation codes 16/1, 16/2, 16/5, 16/8 are available :

Channelisation code 16/1 is: available channelisation code index 0
Channelisation code 16/2 is: available channelisation code index 1
Channelisation code 16/5 is: available channelisation code index 2
Channelisation code 16/8 is: available channelisation code index 3

Available Channelisation Code indices has the value '00001100' means: Channelisation Codes 16/5 and 16/8 are available for this ASC.
NOTE 2a:	In 7.68 Mcps TDD, the list of available channelisation codes (defined in PRACH info) is renumbered from channelisation code index 0 to channelisation code index N-1, where N is the number of available channelisation codes, starting with the lowest available channelisation code number and continuing in sequence, in the order of increasing channelisation code numbers

List of available channelisation codes : 16 or less channelisation codes are available.

The i-th bit of the bitmap defined in the IE "Available Channelisation Code indices" defines whether the channelisation code with the available channelisation code index i is to be used for this ASC (bit set means used, bit unset means not used). Only the low N bits shall be used in the bitmap, where N is the number of available channelisation codes defined in PRACH info.

Ex : spreading factor 32, channelisation codes 32/1, 32/2, 32/5, 32/8 are available :

Channelisation code 32/1 is: available channelisation code index 0
Channelisation code 32/2 is: available channelisation code index 1
Channelisation code 32/5 is: available channelisation code index 2
Channelisation code 32/8 is: available channelisation code index 3

Available Channelisation Code indices has the value '0000000000001100' means: Channelisation Codes 32/5 and 32/8 are available for this ASC.
NOTE 3:	In TDD, the subchannel description is found in [33].
NOTE 4:	In 1.28 Mcps TDD, the list of available SYNC_UL codes (defined in PRACH info) is numbered from SYNC_UL code index 0 to SYNC_UL code index N-1, where N is the number of available SYNC_UL codes, starting with the lowest available SYNC_UL code number and continuing in sequence, in the order of increasing SYNC_UL code numbers

The i-th bit of the bitmap defined in the IE "Available SYNC_UL codes indices" defines whether the SYNC_UL code with the available SYNC_UL code index i is to be used for this ASC (bit set means used, bit unset means not used). Only the low N bits shall be used in the bitmap, where N is the number of available SYNC_UL codes defined in PRACH info.

- List of available SYNC_UL codes: 8 or fewer SYNC_UL codes are available.

	Example: only signatures 0, 5, 6 and 7 are available, then:

	- SYNC_UL codes 0 is: available SYNC_UL codes index 0
	- SYNC_UL codes 5 is: available SYNC_UL codes index 1
	- SYNC_UL codes 6 is: available SYNC_UL codes index 2
- SYNC_UL codes 7 is: available SYNC_UL codes index 3

Available SYNC_UL codes indices has the value '00001100' means: SYNC_UL codes 6 and 7 are available for this ASC.
8.6.6.30	SRB delay, PC preamble (FDD only)
When the IE "SRB delay" and IE "PC preamble" is received in a message that results in a configuration of uplink DPCH or E-DPCH, and synchronisation procedure A is being used as specified in [29], the UE shall:
1>	store the received IE "SRB delay" and IE "PC preamble" in the variable LATEST_CONFIGURED_SRB_DELAY_AND_PC_PREAMBLE;
1>	apply power control preamble according to [26] during the number of frames indicated in the IE "PC preamble"; and
1>	then not send any data on signalling radio bearers RB0 to RB4 during the number of frames indicated in the IE "SRB delay" or while the physical channel is not considered established.
8.6.6.31	Void

8.6.6.32	Void

8.6.6.33	HS-SCCH Info
If the IE "HS-SCCH Info" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	store the received configuration.
1>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25.
When the variable HS_DSCH_RECEPTION is set to TRUE the UE shall:
1>	in the case of FDD:
2>	receive the HS-SCCH(s) according to the IE "HS-SCCH channelisation code" on the serving HS-DSCH radio link applying the scrambling code as received in the IE "DL Scrambling code".
1>	in the case of TDD:
2>	receive the HS-SCCH(s) according to the IEs "Timeslot Number", "Channelisation Code" and Midamble configuration IEs.
2>	transmit the HS-SICH according to the IEs "Timeslot Number", "Channelisation Code" and Midamble configuration IEs.
2>	for HS-SCCH power control the UE shall use the "BLER target" signalled in the first occurrence of the "HS-SCCH Set Configuration", and the UE shall also use the IE "Power Control GAP" for 1.28 Mcps TDD.
2>	in 3.84 Mcps TDD and 7.68 Mcps TDD:
3>	use the parameters specified in the IE "HS-SICH power control info" for open loop power control as defined in subclause 8.5.7.
2>	in 1.28 Mcps TDD:
3>	use the IE " PRXHS-SICH " to calculate and set an initial uplink transmission power;
3>	use the IE " TPC step size" upon reception of TPC commands for closed loop power control;
3>	perform closed loop power control on HS-SICH within the interval indicated in the IE "Power Control GAP";
3>	use the IE "Pathloss compensation switch" to determine if the pathloss compensation from the beacon channel estimation should be taken into account for closed loop power control on HS-SICH;
3>	use default value of "Uplink synchronisation frequency" and same value of "Uplink synchronisation step size" in "Uplink DPCH info" for HS-SICH upon reception of SS commands for closed loop uplink synchronisation on HS-SICH.
For 1.28 Mcps TDD, if the IE "HS-SCCH Info" is included and the UE will be in CELL_FACH state after completion of this procedure, the UE shall:
1>	store the received configuration;
1>	determine the value for the HS_DSCH_RECEPTION_CELL_FACH_STATE variable and take the corresponding actions as described in subclause 8.5.36.
For 1.28 Mcps TDD, when the variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE the UE shall:
1>	receive the HS-SCCH(s) according to the IEs "Timeslot Number", "Channelisation Code" and Midamble configuration IEs;
1>	transmit the HS-SICH according to the IEs "Timeslot Number", "Channelisation Code" and Midamble configuration IEs;
1>	for HS-SCCH power control the UE shall use the "BLER target" signalled in the first occurrence of the "HS-SCCH Set Configuration", and the UE shall also use the IE "Power Control GAP" for 1.28 Mcps TDD;
1>	use the IE "PRXHS-SICH" to calculate and set an initial uplink transmission power;
1>	use the value of "TPC step size" in the IE "E-AGCH info" for HS-SCCH closed loop power control;
1>	use the IE "TPC step size" upon reception of TPC commands for closed loop power control;
1>	perform closed loop power control on HS-SICH within the interval indicated in the IE "Power Control GAP";
1>	use the IE "Pathloss compensation switch" to determine if the pathloss compensation from the beacon channel estimation should be taken into account for closed loop power control on HS-SICH;
1>	use default value of "Uplink synchronisation frequency" and same value of "Uplink synchronisation step size" in "Uplink DPCH info" for HS-SICH upon reception of SS commands for closed loop uplink synchronisation on HS-SICH.
8.6.6.34	Measurement Feedback Info
If the IE "Measurement Feedback Info" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	store the received configuration;
1>	determine the value for the HS_DSCH_RECEPTION variable  and take the corresponding actions as described in subclause 8.5.25.
1>	if the IE "CQI repetition factor for Multiflow assisting cells" is included:
2>	if Multiflow operation on single frequency and two cells without MIMO is configured:
3>	if the value in the IE "CQI repetition factor for Multiflow assisting cells" is the same as the value in the IE "CQI repetition factor":
4>	act on the IE "CQI repetition factor for Multiflow assisting cells" for configured multiflow assisting cell(s).
3>	else:
4>	the UE behavior is unspecified.
2>	else:
3>	act on the IE "CQI repetition factor for Multiflow assisting cells" for configured multiflow assisting cell(s).
1>	else:
2>	act on the IE "CQI repetition factor" for configured multiflow assisting cell(s).
When the variable HS_DSCH_RECEPTION is set to TRUE the UE shall:
1>	use the information for the channel quality indication (CQI) procedure in the physical layer on the serving HS-DSCH radio link.
8.6.6.35	DPC Mode
If the IE "DPC Mode" is included, the UE shall:
1>	apply the indicated DPC mode according to [29].
If the IE "DPC Mode" is not included, the UE shall:
1>	continue with the currently used DPC mode.
8.6.6.36	Downlink HS-PDSCH Information
If the IE "Downlink HS-PDSCH Information" is included and the UE would be in CELL_DCH state after completion of this procedure, the UE shall:
1>	for 1.28 Mcps TDD, if the HS-PDSCH has been configured by the IE "DL Multi-carrier information":
2>	clear other stored carriers configuration in the IE "DL Multi-carrier information".
1>	if the IE "HS-SCCH Info" is included:
2>	act as specified in subclause 8.6.6.33.
1>	if the IE "Measurement Feedback Info" is included:
2>	act as specified in subclause 8.6.6.34.
1>	if the IE "HS-DSCH Timeslot Configuration" or "HS-PDSCH Midamble Configuration" is included:
2>	store the received configuration;
2>	determine the value for the HS_DSCH_RECEPTION variable and take actions as described in subclause 8.5.25.
For 1.28 Mcps TDD, if the IE "Downlink HS-PDSCH Information" is included and the UE would be in CELL_FACH state after completion of this procedure, the UE shall:
1>	if the IE "HS-SCCH Info" is included:
2>	act as specified in subclause 8.6.6.33.
1>	if the IE "HS-PDSCH Midamble Configuration" is included:
2>	store the received configuration.
1>	determine the value for the HS_DSCH_RECEPTION_CELL_FACH_STATE variable and take the corresponding actions as described in subclause 8.5.36.
8.6.6.36a	DL Multi-carrier information (1.28 Mcps TDD only)
The IE "DL Multi-carrier information" is used in multiple carriers system.
NOTE:	When only one frequency is configured to the UE, either the IE "DL Multi-carrier information" or the IE "Downlink HS-PDSCH Information" may be used but should use only one of them and the DPCH frequency shall be aligned with the IE "DL Multi-carrier information".
If the IE "DL Multi-carrier information" is included, the UE shall:
1>	if the IE "TSN-Length" is included:
2>	store the new TSN length indicated by the IE "TSN-Length".
1>	if the IE "TSN-Length" is not included:
2>	if the UE has stored TSN length:
3>	use the stored content of the IE.
2>	else:
3>	set the TSN length to 6bits.
1>	if the IE "Multi-Carrier number" is included:
2>	store the new multiple carriers number indicated by the IE "Multi-Carrier number";
2>	start reception procedure on the HS-SCCHs (refer to [33]).
1>	if the IE "DL-HSPDSCH-MultiCarrier-Information" is included:
2>	if the IE "HS-SCCH Set Configuration" is included:
3>	perform processes described in subclause 8.6.6.33.
2>	if the IE "HARQ-Info" is included:
3>	perform processes described in subclause 8.6.5.6b.
2>	if the IE "HS-PDSCH Midamble Configuration" is included:
3>	store the HS-PDSCH midamble configureation indicated by the IE "HS-PDSCH Midamble Configuration";
3>	perform processes described in subclause 8.5.25.
1>	if the carrier which has been stored by the UE is not included in the IE "DL-HSPDSCH-MultiCarrier-Information", the UE should delete all the configurations related to this carrier.
8.6.6.37	E-DCH Info
If the IE "E-DCH Info" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	for FDD:
2>	if the IE "E-DPCCH Info" is included:
3>	store the newly received E-DPCCH configuration.
2>	if the IE "E-DPDCH Info" is included:
3>	store the newly received E-DPDCH configuration.
2>	if the IE "Uplink MIMO info FDD" is included:
3>	store the newly received UL MIMO configuration and perform actions as specified in sub-clause 8.5.81.
2>	if the IE "UL 16QAM settings" is not included:
3>	indicate to lower layers to stop any operation in 16QAM mode.
2>	if the IE "UL 64QAM settings" is not included:
3>	indicate to lower layers to stop any operation in 64QAM mode.
2>	if both the IE "UL 16QAM settings" and IE "UL 64QAM settings" are included:
3>	the UE behaviour is unspecified.
1>	for TDD:
2>	if the IE "E-RUCCH Info" is included:
3>	store the newly received E-RUCCH configuration.
2>	if the IE "E-PUCH Info" is included:
3>	store the newly received E-PUCH configuration.
NOTE 1:	The UTRAN should ensure the ordering of the E-TFCI table in strictly increasing order of transmission power prior to quantization, by correct setting of the reference E-TFCI power offsets otherwise the UE behaviour is unspecified.
NOTE 2:	If a reference E-TFCI signalled to the UE is outside the UE physical channel capability, the UE behaviour is unspecified.
NOTE 2a:	If E-TFCI boost is signalled to the UE and a reference E-TFCI <= E-TFCI Boost is signalled to the UE with a Reference E-TFCI PO of value 30 or 31, the UE behaviour is unspecified.
NOTE 2b:	If the UE is configured with E-TFCI table 0 and 2ms TTI, and a reference E-TFCI =120 has been configured, the UE behavior is unspecified.
NOTE 2c:	If the UE is configured with E-TFCI table 1 and 2ms TTI, and a reference E-TFCI =115 has been configured, the UE behavior is unspecified.
NOTE 2d:	If the UE is configured with E-TFCI table 2 and 2ms TTI, and a reference E-TFCI =121 has been configured, the UE behavior is unspecified.
NOTE 2e:	If the UE is configured with E-TFCI table 3 and 2ms TTI, and a reference E-TFCI =101 or a reference E-TFCI = 102 has been configured, the UE behavior is unspecified.
1>	if the IE "MAC-es/e reset indicator" is included:
2>	reset the MAC-es/e or MAC-i/is entity [15].
NOTE 3:	If the IE "MAC-es/e reset indicator" is not set to TRUE in case the IE "E-DCH Transmission Time Interval" is reconfigured, the UE behaviour is unspecified.
NOTE 4:	If the IE "MAC-es/e reset indicator" is not set to TRUE in case the UL MAC header type is reconfigured from MAC-es/e to MAC-is/i or from MAC-is/i to MAC-e/es, the UE behaviour is unspecified.
NOTE 5:	If the IE "MAC-es/e reset indicator" is not included in the IE "E-DCH Info" and 16QAM or 64QAM operation starts or stops, the UE behaviour is unspecified.
1>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
When the variable E_DCH_TRANSMISSION is set to TRUE the UE shall:
1>	for FDD:
2>	configure the UL E-DPCCH in accordance with the stored IE "E-DPCCH" configuration;
2>	configure the MAC with the stored IE "E-DPDCH" configuration and/or the information contained in IE "Scheduled Transmission configuration".
1>	for TDD:
2>	configure the E-RUCCH with the stored E-RUCCH configuration;
2>	configure the MAC with the stored E-PUCH configuration.
For 1.28 Mcps TDD, If the IE "E-DCH Info" is included and the UE will be in CELL_FACH state after completion of this procedure, the UE shall:
1>	if the IE "E-RUCCH Info" is included:
2>	store the newly received E-RUCCH configuration.
1>	if the IE "E-PUCH Info" is included:
2>	store the newly received E-PUCH configuration.
1>	if the IE "MAC-es/e reset indicator" is included:
2>	reset the MAC-es/e or MAC-i/is entity [15].
1>	determine the value for the COMMON_E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.46.
For 1.28 Mcps TDD, when the variable COMMON_E_DCH_TRANSMISSION is set to TRUE the UE shall:
1>	configure the E-RUCCH with the stored E-RUCCH configuration;
1>	configure the MAC with the stored E-PUCH configuration.
8.6.6.38	DTX-DRX timing information (FDD only)
If the IE "DTX-DRX timing information" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the CHOICE "timing" is set to "New timing":
2>	use the newly received DTX-DRX timing configuration.
1>	if the CHOICE "timing" is set to "Continue", and the message is used to perform a hard handover (as specified in subclause 8.6.6.3a); or
1>	if the received message does not include the IE "DTX–DRX information" and this message will perform E-DCH TTI reconfiguration:
2>	the UE behaviour is unspecified.
1>	determine the value for the DTX_DRX_STATUS variable and take the corresponding actions as described in subclause 8.5.34.
8.6.6.39	DTX-DRX information (FDD only)
If the IE "DTX–DRX information" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	store the contents of the IE in the variable DTX_DRX_PARAMS, replacing or clearing any previously stored "DTX Information" or "DRX Information";
1>	determine the value for the DTX_DRX_STATUS variable and take the corresponding actions as described in subclause 8.5.34;
1>	if the value of the IE "UE DTX cycle 2" is not an integer multiple of the value of the IE "UE DTX cycle 1"; or
1>	if the value of the IE "UE DTX cycle 2" is not an integer multiple or a divisor of the value of the IE "CQI Feedback cycle, k" divided by 2; or
1>	if the value of the IE "UE DPCCH burst 1" is greater than the value of the IE "UE DTX cycle 1"; or
1>	if the value of the IE "UE DPCCH burst 2" is greater than the value of the IE "UE DTX cycle 2"; or
1>	if the IE "UE DTX long preamble length" is set to 4 or 15 slots and the value of the IE "Inactivity Threshold for UE DTX cycle 2" is less than 4 TTIs (for 10ms E-DCH TTI) or 8 TTIs (for 2ms E-DCH TTI); or
1>	if the IE "UE DRX cycle" is not an integer multiple or a divisor of the value of the IE "UE DTX cycle 1"; or
1>	if the IE "UE DRX cycle 2" is not an integer multiple or a divisor of the value of the IE "UE DTX cycle 2"; or
1>	if the value of the IE "UE DTX cycle 1" is not an integer multiple or a divisor of the value of the IE "MAC DTX cycle"; or
1>	if the IE "UE DTX cycle 2 secondary" is present and the value of the IE "UE DTX cycle 2 secondary" is not an integer multiple of the value of the IE "UE DTX cycle 1 secondary"; or
1>	if the IE "UE DPCCH burst 1 secondary" is present and the value of the IE "UE DPCCH burst 1 secondary" is greater than the value of the IE "UE DTX cycle 1 secondary"; or
1>	if the IE "UE DPCCH burst 2 secondary" is present and the value of the IE "UE DPCCH burst 2 secondary" is greater than the value of the IE "UE DTX cycle 2 secondary"; or
1>	if the IE "UE DTX long preamble length secondary" is present and set to 4 or 15 slots and the value of the IE "Inactivity Threshold for UE DTX cycle 2 secondary" is less than 8 TTIs (for 2ms E-DCH TTI); or
1>	if the IE "UE DRX cycle" is present and is not an integer multiple or a divisor of the value of the IE "UE DTX cycle 1 secondary"; or
1>	if the IE "UE DRX cycle 2" is present and is not an integer multiple or a divisor of the value of the IE "UE DRX cycle 2 secondary"; or
1>	if the IE "UE DTX cycle 1 secondary" is present and is not an integer multiple or a divisor of the value of the IE "MAC DTX cycle"; or
1>	if the IE "DTX-DRX timing information" is included in this message and if the CHOICE "timing" is set to "continue"; or
1>	if the IE "Uplink DPCCH slot format information" is received in an ACTIVE SET UPDATE message and indicates different uplink DPCCH slot format from the one currently configured, and neither the indicated uplink DPCCH slot format nor the currently configured uplink DPCCH slot format are uplink DPCCH slot format 4; or
1>	if the IE "E-DCH Transmission Time Interval for secondary UL frequency" is received and the IE "UE DTX cycle 1" or the IE "UE DTX cycle 2", or the IE "MAC DTX cycle" for E-DCH TTI length set to "2ms" is included in this message; or
1>	if the IE "DTX Information" is not included in this message:
2>	the UE behaviour is unspecified.
NOTE:	If the IE "Uplink DPCH info" is included in this message, the UTRAN should ensure that the configuration of the uplink DPCH does not contradict the uplink DPCH configuration indicated in the IE "Uplink DPCCH slot format information".
8.6.6.40	HS-SCCH less information (FDD only)
If the IE "HS-SCCH less information" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the CHOICE "HS-SCCH less operation" is set to "New HS-SCCH less operation":
2>	store the contents of the IE in the variable HS_SCCH_LESS_PARAMS.
1>	determine the value for the HS_SCCH_LESS_STATUS variable and take the corresponding actions as described in subclause 8.5.35.
8.6.6.41	MIMO parameters
If the IE "MIMO parameters" is included, the UE shall:
1>	act as specified in clauses 8.5.32 and 8.5.33;
1>	If the IE "MIMO operation" is set to "start":
2>	If the MIMO_STATUS variable is set to FALSE:
3>	the UE behaviour is undefined.
2>	otherwise:
3>	if the UE supports MIMO only with single stream restriction (FDD only); and
3>	if the UE signalled HS-DSCH physical layer category 17 or 18 [35] and 64QAM is configured for downlink, or if the UE signalled other HS-DSCH physical layer category than 17 and 18:
4>	indicate to lower layers to start operation in MIMO mode restricted to single stream transmission, using the parameter values stored in the variable MIMO_PARAMS.
3>	else:
4>	indicate to lower layers to start operation in MIMO mode, using the parameter values stored in the variable MIMO_PARAMS.
1>	If the IE "MIMO operation" is set to "continue":
2>	If the MIMO_STATUS variable is set to FALSE:
3>	the UE behaviour is undefined.
1>	for FDD, if the IE "Primary CPICH usage for Channel Estimation" is set to "Primary CPICH shall not be used":
2>	the UE behavior is undefined.
1>	for FDD, if the IE "Secondary CPICH Info" is included and if  the IE "Channelisation code" in MIMO pilot configuration is different from the IE "Channelisation Code" in Secondary CPICH info:
2>	the UE behavior is undefined.
1>	for FDD, if the IE "Secondary CPICH Info" is included and if the IE "Power Offset for S-CPICH for MIMO" is provided, then pass the offset value received in the IE "Power Offset for S-CPICH for MIMO" to the lower layers.
1>	determine the configuration of "TSN field extension" for MAC-ehs entity as specified in subclause 8.5.60.
1>	for FDD, when MIMO only with single stream restriction is configured:
2>	if MAC-ehs is not configured:
3>	the UE behaviour is undefined.
NOTE:	This subclause applies to FDD and 1.28 Mcps TDD only.
8.6.6.42	UL 16QAM settings
If the IE "UL 16QAM settings" is included, the UE shall:
1>	indicate to lower layers to operate in 16QAM mode, using the parameters contained in the IE.
8.6.6.42b	UL 64QAM settings
If the IE "UL 64QAM settings" is included, the UE shall:
1>	indicate to lower layers to operate in 64QAM mode, using the parameters contained in the IE;
1>	if MAC-i/is not configured:
2>	the UE behaviour is unspecified.
8.6.6.43	Multi-frequency Info (1.28 Mcps TDD only)
Upon reception of the IE "Multi-frequency info", the UE shall:
1>	If the IE "Second Frequency info" is included:
2>	act as specified in section 8.6.6.1.
1>	If the IE "FPACH Frequency info" is included:
2>	store the FPACH frequency indicated in the IE "FPACH Frequency info".
1>	else:
2>	use the primary frequency as FPACH frequency.
1>	If the IE "UpPCH Position Info" is included:
2>	store and use the UpPCH position indicated by the IE "UpPCH Positon Info ". The calculation of the uplink access position is described in [33].
1>	else:
2>	use the UpPTS as the default UpPCH position.
8.6.6.44	Void

8.6.6.45	Downlink Secondary Cell Info FDD
In the following, any information in the "Downlink Secondary Cell Info FDD" is stored in the first entry of the variable DOWNLINK_SECONDARY_CELL_INFO.  Any first (respectively second) IE "Downlink Secondary Cell Info FDD" in the "Additional downlink secondary cell info list FDD" IE, is stored in the second (respectively third) entry of the variable DOWNLINK_SECONDARY_CELL_INFO. Any first (respectively second, third and fourth) IE "Downlink secondary Cell Info FDD" in the "Additional downlink secondary cell info list FDD 2" IE, is stored in the fourth (respectively fifth, sixth and seventh) entry of the variable DOWNLINK_SECONDARY_CELL_INFO.
If the i-th IE "Downlink Secondary Cell Info FDD" is not included and the UE has a stored i-th entry in the DOWNLINK_SECONDARY_CELL_INFO variable, the UE shall:
1>	clear the stored i-th entry in the DOWNLINK_SECONDARY_CELL_INFO variable.
For each included  IE "Downlink Secondary Cell Info FDD", if the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the CHOICE "Configuration info" is set to "New configuration":
2>	store the i-th IE "Downlink Secondary Cell Info FDD", replacing any stored i-th entry in the DOWNLINK_SECONDARY_CELL_INFO variable.
1>	if the CHOICE "Configuration info" is set to "Continue" and the UE has a stored i-th entry in the DOWNLINK_SECONDARY_CELL_INFO:
2>	keep the stored i-th entry in the DOWNLINK_SECONDARY_CELL_INFO.
The UE shall:
1>	determine the value for the SECONDARY_CELL_HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.51.
1>	if the UE supports Multiflow operation:
2>	determine the value for the MULTIFLOW_STATUS variable and take the corresponding actions as described in subclause 8.5.71.
For each entry in the variable SECONDARY_CELL_HS_DSCH_RECEPTION which is set to TRUE, the UE shall:
1>	if the IE "Different Tx diversity mode configuration from serving HS-DSCH cell" is present in the i-th entry in the DOWNLINK_SECONDARY_CELL_INFO variable, and Tx diversity is configured in the serving HS-DSCH cell,
2>	not configure Tx diversity for the i-th secondary serving HS-DSCH cell.
1>	if the IE "Different Tx diversity mode configuration from serving HS-DSCH cell" is present in the i-th entry in the DOWNLINK_SECONDARY_CELL_INFO variable and Tx diversity is not configured in the serving HS-DSCH cell,
2>	configure Tx diversity in the i-th secondary serving HS-DSCH cell.
1>	if the IE "Different Tx diversity mode configuration from serving HS-DSCH cell" is not present in the i-th entry in the DOWNLINK_SECONDARY_CELL_INFO variable,
2>	the Tx diversity mode configured in the i-th secondary serving HS-DSCH cell shall be the same as the Tx diversity mode configured in the serving HS-DSCH cell.
For each of the variables "Adjacent frequency info" and "Inter-band frequency info" that are stored in CELL_INFO_LIST, and for which the "UARFCN downlink (Nd)" is different from the "UARFCN downlink (Nd)" of any stored entry in the DOWNLINK_SECONDARY_CELL_INFO variable:
1>	stop all inter-frequency measurement reporting on the cells that belong to the frequency derived from the stored variable. Each stopped measurement is restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
1>	clear the stored variable.
If the variable "Frequency info list for enhanced measurement" is stored in CELL_INFO_LIST, then for each of the variable "Frequency info for enhanced measurement" included in the variable "Frequency info list for enhanced measurement":
1>	if the "UARFCN downlink (Nd)" in the variable "Frequency info for enhanced measurement" is different from the "UARFCN downlink (Nd)" of any stored entry in the DOWNLINK_SECONDARY_CELL_INFO variable:
2>	stop all inter-frequency measurement reporting on the cells that belong to the frequency derived from the variable "Frequency info for enhanced measurement". Each stopped measurement is restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
2>	clear the variable "Frequency info for enhanced measurement".
8.6.6.46	Control Channel DRX information (1.28 Mcps TDD only)
If the IE "Control Channel DRX information" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the CHOICE "Control Channel DRX operation" is set to "New Control Channel DRX operation":
2>	store the contents of the IE in the variable CONTROL_CHANNEL_DRX_PARAMS, replacing or clearing any previously stored "Control Channel DRX operation";
2>	use the newly received Control Channel DRX configuration.
2>	if the IE "E-AGCH DRX Information" is not included:
3>	not perform E-AGCH discontinuous reception.
1>	if the CHOICE "Control Channel DRX operation" is set to "Continue", and the message is used to perform a hard handover (as specified in subclause 8.6.6.3a):
2>	the UE behaviour is unspecified.
1>	determine the value for the CONTROL_CHANNEL_DRX_STATUS variable and take the corresponding actions as described in subclause 8.5.53.
1>	if the IE "E-AGCH DRX Information" is included, and the variable E_DCH_TRANSMISSION is set to FALSE:
2>	the UE behaviour is unspecified.
8.6.6.47	SPS information (1.28 Mcps TDD only)
If the IE "SPS information" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the IE "E-DCH SPS Information" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
2>	if the CHOICE "E-DCH SPS operation" is set to "New E-DCH SPS operation":
3>	after the UE has received IE "E-HICH Information":
4>	if the CHOICE "Configuration Mode" is set to "Implicit":
5>	if the IE "EI" is included:
6>	consider the E-HICH has the same configuration as that in the IE "E-HICH Info" for 1.28Mcps TDD which has the same value of EI indicated by the IE "EI" in this message.
5>	else:
6>	use the same configuration as the E-HICH for non-schedule transmission.
4>	else:
5>		store the E-HICH configuration according to the IEs "Timeslot Number", "Channelisation Code" and midamble configuration IEs.
4>	store and use the Signature Sequence indicated by the IE "Signature Sequence Group Index".
3>	if the IE "Transmission Pattern List" is included:
4>	store the contents of the IE in the variable E_DCH_SPS_PARAMS.
3>	if the IE "Initial SPS info for E-DCH" is included:
4>	perform E-DCH SPS operation on the semi-persistent E-PUCH resource configured by the IE at the CFN determined by the IE "Activation Time" and the IE "Subframe number".
2>	determine the value for the E_DCH_SPS_STATUS variable and take the corresponding actions as described in subclause 8.5.54.
2>	if the IE "Initial SPS info for E-DCH" is included, the calculation of assigned initial E-DCH SPS transmission grant is specified in subclause 8.6.6.16a
1>	else if the IE "E-DCH SPS Information" is not included, the UE shall:
2>	set the variable E_DCH_SPS_STATUS to FALSE;
2>	clear the variable E_DCH_SPS_PARAMS;
2>	stop all E-DCH SPS related activities.
1>	if the IE "HS-DSCH SPS Information" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
2>	if the CHOICE "HS-DSCH SPS operation" is set to "New HS-DSCH SPS operation":
3>	if the IE "Transport Block Size List" or the IE "Reception Pattern List" is included:
4>	store the contents of the IE in the variable HS_DSCH_SPS_PARAMS.
3>	if the IE "HARQ Info for Semi-Persistent Scheduling" is included:
4>	calculate the size of each virtual IR buffer according to following equation:
Size of virtual IR soft buffer = Total buffer for HS-SCCH SPS operation / NIR
where
-	Total buffer for HS-SCCH SPS operation is signalled in the IE "Process Memory size", and the IE is the total size of the virtual IR buffers which could be used in HS-SCCH SPS operation;
-	NIR is the value of the IE "Number of Processes", and the IE is the number of HARQ processes which could be used in HS-SCCH SPS operation.
3>	after the UE has received IE "HS-SICH List":
4>	if the CHOICE "Configuration Mode" is set to "Implicit":
5>	transmit the HS-SICH according to the configuration in the IE "HS-SCCH Configuration" for 1.28Mcps TDD, of which the position listed in the IE "HS-SCCH Set Configurationin" in acsending order is indicated by the IE "HS-SCCH Index" in this message.
4>	else:
5>	transmit the HS-SICH according to the IEs "Timeslot Number", "Channelisation Code" and Midamble configuration IEs.
3>	if the IE "Initial SPS info for HS-DSCH" is included:
4>	perform HS-SCCH SPS operation on the semi-persistent HS-PDSCH resource configured by the IE at the CFN determined by the IE "Activation Time" and the IE "Subframe number".
2>	determine the value for the HS_DSCH_SPS_STATUS variable and take the corresponding actions as described in subclause 8.5.55.
2>	if the IE "Initial SPS info for HS-DSCH" is included, the calculation of assigned initial HS-DSCH SPS transmission grant is specified in subclause 8.6.6.16a
1>	else if the IE "HS-DSCH SPS Information" is not included, the UE shall:
2>	set the variable HS_DSCH_SPS_STATUS to FALSE;
2>	clear the variable HS_DSCH_SPS_PARAMS;
2>	stop all HS-DSCH SPS related activities.
8.6.6.48	Secondary cell MIMO parameters
If the IE "Secondary cell MIMO parameters" is included, the UE shall:
1>	Determine the value for the corresponding SECONDARY_CELL_MIMO_STATUS variable and take the corresponding actions as described in subclause 8.5.57;
1>	determine the configuration of "TSN field extension" for MAC-ehs entity as specified in subclause 8.5.60.
NOTE:	This subclause applies to FDD only.
8.6.6.49	Uplink Secondary Cell Info FDD (FDD only)
If the IE "Uplink Secondary Cell Info FDD" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the CHOICE "Configuration info" is set to "New configuration":
2>	if the IE "Secondary serving E-DCH cell info" is included in the IE "Uplink Secondary Cell Info FDD":
3>	if the IE "Frequency info" included in the IE "Secondary E-DCH info common" is different from the stored frequency info:
4>	stop intra-frequency and inter-frequency measurement reporting on the downlink frequency associated with the current secondary uplink frequency. Each stopped measurement is restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
3>	store the IE "Secondary serving E-DCH cell info", replacing any stored IE "Secondary serving E-DCH cell info".
2>	if the IE "Secondary E-DCH info common" is included in the IE "Uplink Secondary Cell Info FDD":
3>	store the IE "Secondary E-DCH info common", replacing any stored IE "Secondary E-DCH info common";
3>	if the IE "Additional secondary cell info for mixed TTI configuration" is included in the IE "Secondary E-DCH info common" and the TTIs configured on the primary and secondary uplink frequencies are different:
4>	store the IE "Additional secondary cell info for mixed TTI configuration".
2>	if the IE "Downlink information per radio link list on secondary UL frequency" is included in the IE "Uplink Secondary Cell Info FDD":
3>	act as specified in subclause 8.6.6.3b.
2>	determine the value for the IMPLICIT_GRANT variable and take the corresponding actions as described in subclause 8.5.85;
1>	if the CHOICE "Configuration info" is set to "Continue" and the UE has any stored IE "Secondary E-DCH info common":
2>	keep the stored IE "Secondary serving E-DCH cell info" and IE "Secondary E-DCH info common".
1>	if SECONDARY_CELL_E_DCH_TRANSMISSION variable is set to TRUE:
2>	if the IE "UARFCN downlink (Nd)" is present in the first IE "Downlink Secondary Cell Info FDD" and is different from the stored "Frequency info" in the IE "Secondary E-DCH info common":
3>	UE behaviour is unspecified.
2>	if the variable SECONDARY_CELL_E_DCH_TRANSMISSION was previously set to FALSE; or
2>	if the IE "Frequency info" included in the IE "Secondary E-DCH info common" is different from the previously stored frequency info:
3>	continue inter-frequency measurement reporting on the downlink frequency associated with the new secondary uplink frequency. The UE shall not require compressed mode to perform the measurement, regardless of the activation status of secondary uplink frequency.
If the IE "Uplink Secondary Cell Info FDD" is not included and the UE has any stored IE "Secondary E-DCH info common", the UE shall:
1>	clear the stored IE "Secondary serving E-DCH cell info" and IE "Secondary E-DCH info common";
1>	stop intra-frequency and inter-frequency measurements reporting on the downlink frequency associated with the current secondary uplink frequency. Each stopped measurement is restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
8.6.6.50	Additional downlink secondary cell info list FDD
If the IE "Additional downlink secondary cell info list FDD" is included, the UE shall process its parameters as specified in 8.6.6.45.
If the IE "Additional downlink secondary cell info list FDD" is not included, the UE shall clear the second and third entries in the variables DOWNLINK_SECONDARY_CELL_INFO, SECONDARY_CELL_HS_DSCH_RECEPTION, SECONDARY_CELL_MIMO_STATUS and SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS.
8.6.6.51	MU-MIMO info (1.28 Mcps TDD only)
If the IE "MU-MIMO info" is included, the UE shall:
1>	act as specified in clauses 8.5.61;
1>	if the CHOICE "Configuration MU-MIMO info" has the value "Continue":
2>	continue using the stored parameters in the MU_MIMO_INFO variable;
1>	otherwise:
2>	store and perform MU-MIMO in the direction indicated by IE "MU-MIMO operation";
2>	store and use the midamble indicated by IE "Midamble configuration", IE "Midamble shift" and IE "Timeslot information", the calculation of assigned Standalone midamble transmission grant is specified in subclause 8.6.6.16a.
8.6.6.52	Multi-carrier E-DCH Info for LCR TDD (1.28 Mcps TDD only)
The IE "Multi-carrier E-DCH Info for LCR TDD" is used in multiple carriers system.
If the IE "Multi-carrier E-DCH Info for LCR TDD" is included, the UE shall:
1>	if a serving cell change will be caused by the received message:
2>	clear the stored IE "Multi-carrier E-DCH Info for LCR TDD";
1>	if the CHOICE "Configuration info" is set to "New configuration":
2>	if the IE "TSN-Length" is included:
3>	store and set the TSN length to 14bits.
2>	else:
3>	store and set the TSN length to 6bits.
2>	for each carrier in the IE "UL-Multicarrier-EDCH- Information List":
3>	store the value of "UARFCN" in the IE "UARFCN" for the additional E-DCH carrier:
3>	store the E-PUCH configuration in the IE "E-PUCH info" for the additional E-DCH carrier;
3>	store the E-AGCH configuration in the IE "E-AGCH Info" for the additional E-DCH carrier;
3>	store the E-HICH configuration in the IE "E-HICH Info" for the additional E-DCH carrier;
2>	for each carrier in the IE "UL-Multicarrier-EDCH-DeleteList":
3>	delete the stored additional E-DCH carrier information indicated by the IE "UARFCN" ;
1>	if the CHOICE "Configuration info" is set to "Continue" and the UE has any stored IE "Multi-carrier E-DCH Info for LCR TDD":
2>	keep the stored IE "Multi-carrier E-DCH Info for LCR TDD".
If the IE "Multi-carrier E-DCH Info for LCR TDD" is not included and the UE has any stored IE "Multi-carrier E-DCH Info for LCR TDD", the UE shall:
1>	clear the stored IE "Multi-carrier E-DCH Info for LCR TDD";
8.6.6.53	Serving HS-DSCH cell information
If "Serving HS-DSCH cell information" IE is present, the UE shall:
1>	act on received information elements as specified in subclause 8.6:
1>	if the IEs "ACK", "NACK", and "HARQ_preamble_mode" are present, act on the received information elements;
2>	if the new H-RNTI and "Primary CPICH info" are included:
3>	consider the cell indicated in Primary CPICH as serving HS-DSCH cell and no longer consider any other radio link as serving HS-DSCH cell. If any IE "Downlink Secondary Cell Info FDD" is included for a cell associated with a serving HS-DSCH cell, consider that cell a secondary serving HS-DSCH cell on the appropriate frequency.
1>	if the IE "MAC-hs reset indicator" is included:
2>	if inter-Node B Multiflow operation is not configured:
3>	reset the MAC-hs/ehs entity [15].
2>	else:
3>	reset the MAC-hs/ehs entity related to the serving cell [15].
1>	if the IE "MAC-hs reset indicator for Multiflow assisting cells" is included:
2>	if inter-Node B Multiflow operation is configured:
3>	reset the MAC-hs/ehs entity related to the configured assisting cells [15].
2>	else:
3>	the UE behaviour is unspecified.
1>	determine the value for the HS_DSCH_RECEPTION variable and take the corresponding actions as described in subclause 8.5.25.
8.6.6.54	E-DCH reconfiguration information
If the IE "E-DCH reconfiguration information" is included, the UE shall:
1>	if the IE "E-DCH RL Info other cells" is present:
2>	if the IE "E-HICH Information" is present:
3>	store the E-HICH and E-RGCH information (if present), contained therein, for the indicated radio link.
2>	if the IE "E-HICH release indicator" is present:
3>	delete the stored E-HICH, E-AGCH and E-RGCH (if any) configurations;
3>	if variable UPLINK_MIMO_TRANSMISSION is set to TRUE:
4>	delete the stored E-HICH configuration for the secondary stream.
2>	if the IE "Secondary TB E-HICH release indicator" is present:
3>	delete the stored E-HICH configuration for the secondary stream.
2>	if the IE "E-RGCH release indicator" is set present:
3>	delete the stored E-RGCH configuration for this RL.
1>	if the IE "E-DCH RL Info new serving cell" is present:
2>	consider the cell indicated in "Primary CPICH info" as serving E-DCH radio link and no longer consider any other radio link as serving E-DCH radio link;
2>	store the E-HICH and E-RGCH information (if present), contained therein, for the new serving E-DCH radio link;
2>	if the IE "E-RGCH release indicator" is present:
3>	delete the stored E-RGCH configuration for this RL.
2>	store the newly received E-AGCH configuration;
2>	if the IE "E-ROCH Info" is present:
3>	store the newly received E-ROCH configuration;
2>	if the IE "Serving Grant" is included, and if the IE "Serving Grant Value" is not included:
3>	the UE behaviour is not specified.
1>	if the IEs "E-DPCCH/DPCCH power offset" and/or "Reference E-TFCI PO" and/or "Power offset for scheduling info" are present, act on the received information elements.
1>	if the serving E-DCH radio link was another radio link than this radio link prior to reception of the message:
2>	if the IE "New Primary E-RNTI" is not included:
3>	clear the Primary E-RNTI stored in the variable E_RNTI.
2>	if the IE "New Secondary E-RNTI" is not included:
3>	clear the Secondary E-RNTI stored in the variable E_RNTI.
1>	determine the value for the E_DCH_TRANSMISSION variable and take the corresponding actions as described in subclause 8.5.28.
8.6.6.55	Additional downlink secondary cell info list FDD 2
If the IE "Additional downlink secondary cell info list FDD 2" is included, the UE shall process its parameters as specified in 8.6.6.45.
If the IE "Additional downlink secondary cell info list FDD 2" is not included, the UE shall clear the fourth, the fifth, the sixth and the seventh entries in the variables DOWNLINK_SECONDARY_CELL_INFO, SECONDARY_CELL_HS_DSCH_RECEPTION, and SECONDARY_CELL_MIMO_STATUS.
8.6.6.56	Uplink CLTD info FDD
If the IE "Uplink CLTD info FDD" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the CHOICE "Configuration info" is set to "New configuration":
2>	store the IE "Uplink CLTD info FDD", replacing any stored IE "Uplink CLTD info FDD";
2>	if the IE "Primary CPICH Info" is present: 
3>	if variable MULTIFLOW_STATUS is TRUE, but the value of IE "Primary CPICH Info" does not correspond to the assisting serving HS-DSCH cell:
4>	the UE behaviour is unspecified.
1>	if the CHOICE "Configuration info" is set to "Continue" and the UE has any stored IE "Uplink CLTD info FDD":
2>	keep the stored IE "Uplink CLTD info FDD".
If the IE "Uplink CLTD info FDD" is not included and the UE has any stored IE "Uplink CLTD info FDD", the UE shall:
1>	clear the stored IE "Uplink CLTD info FDD".
Determine the value for the variable UPLINK_CLTD_TRANSMISSION and take the corresponding actions as described in subclause 8.5.69.
8.6.6.57	Uplink OLTD info FDD
If the IE "Uplink OLTD info FDD" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	store the IE "Uplink OLTD info FDD".
If the IE "Uplink OLTD info FDD" is not included and the UE has any stored IE "Uplink OLTD info FDD", the UE shall:
1>	clear the stored IE "Uplink OLTD info FDD".
Determine the value for the variable UPLINK_OLTD_TRANSMISSION and take the corresponding actions as described in subclause 8.5.70.
8.6.6.58	F-TPICH reconfiguration info
If the IE "F-TPICH reconfiguration info" is included, the UE shall:
1>	if the IE "F-TPICH info other cells" is present:
2>	for each radio link:
3>	if the IE "F-TPICH info" is present:
4>	store the F-TPICH configuration, contained therein, for the indicated radio link.
3>	if the IE "F-TPICH release indicator" is present:
4>	delete the stored F-TPICH configuration, for the indicated radio link.
1>	if the IE "F-TPICH info new cell that determines the precoding weights" is present:
2>	store the F-TPICH configuration, contained therein, for the radio link transmitted from the serving HS-DSCH cell if HS-DSCH is configured or from the cell identified by the IE "Primary CPICH info" in the IE "Uplink CLTD info FDD" if only DCH is configured.
1>	determine the value for the variable UPLINK_CLTD_TRANSMISSION and take the corresponding actions as described in subclause 8.5.69.
8.6.6.59	Common E-RGCH info FDD
If the IE "Common E-RGCH info FDD" is included and the UE will be in CELL_FACH or CELL_PCH state after completion of this procedure, the UE shall:
1>	if the CHOICE "Configuration info" is set to "New configuration":
2>	store the IE "Common E-RGCH info FDD", replacing any stored IE "Common E-RGCH info FDD".
1>	if the CHOICE "Configuration info" is set to "Continue" and the UE has any stored IE " Common E-RGCH info FDD":
2>	keep the stored IE "Common E-RGCH info FDD".
If the IE "Common E-RGCH info FDD" is not included and the UE has any stored IE "Common E-RGCH info FDD", the UE shall:
1>	clear the stored IE "Common E-RGCH info FDD".
Determine the value for the variable READY_FOR_COMMON_ERGCH and take the corresponding actions as described in subclause 8.5.75.
8.6.6.60	MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS parameters (FDD only)
If the IE "MIMO mode with four transmit antennas parameters" is included, the UE shall:
1>	act as specified in clauses 8.5.78 and 8.5.79;
1>	If the IE "MIMO mode with four transmit antennas parameters " is set to "New configuration":
2>	If the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable is set to FALSE:
3>	the UE behaviour is undefined.
2>	otherwise:
3>	if the UE supports MIMO mode with four transmit antennas only with dual stream restriction:
4>	indicate to lower layers to start operation in MIMO mode with four transmit antennas restricted to dual stream transmission, using the parameter values stored in the variable MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS.
3>	else:
4>	indicate to lower layers to start operation in MIMO mode with four transmit antennas, using the parameter values stored in the variable MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS.
1>	If the IE "MIMO mode with four transmit antennas parameters" is set to "continue":
2>	If the MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable is set to FALSE:
3>	the UE behaviour is undefined.
1>	when MIMO mode with four transmit antennas is configured:
2>	if MAC-ehs is not configured:
3>	the UE behaviour is undefined.
1>	if the IE "Primary CPICH usage for Channel Estimation" is set to "Primary CPICH shall not be used":
2>	the UE behavior is undefined.
1>	if the IE "Secondary CPICH Info" is included and if  the IE "Channelisation code" in MIMO mode with four transmit antennas pilot configuration is different from the IE "Channelisation Code" in Secondary CPICH info:
2>	the UE behavior is undefined.
1>	if the IE "Secondary CPICH Info" is included and if the IEs "Power Offset for S-CPICH for MIMO mode with four transmit antennas on Antenna2", "Common Power Offset for S-CPICH for MIMO mode with four transmit antennas on Antenna3 and 4" and "Common Power Offset for D-CPICH for MIMO mode with four transmit antennas on Antenna3 and 4" are  provided, then pass the offset value received in the IEs "Power Offset for S-CPICH for MIMO mode with four transmit antennas on Antenna2", "Common Power Offset for S-CPICH for MIMO mode with four transmit antennas on Antenna3 and 4",  and  "Common Power Offset for D-CPICH for MIMO mode with four transmit antennas on Antenna3 and 4"  to the lower layers.
1>	determine the configuration of "TSN field extension" for MAC-ehs entity as specified in subclause 8.5.60.
1>	when MIMO mode with four transmit antennas only with dual stream restriction is configured:
2>	if MAC-ehs is not configured:
3>	the UE behaviour is undefined.
8.6.6.61	Secondary cell MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS parameters (FDD only)
If the IE "Secondary cell MIMO mode with four transmit antennas parameters" is included, the UE shall:
1>	Determine the value for the corresponding SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS variable and take the corresponding actions as described in subclause 8.5.80;
1>	determine the configuration of "TSN field extension" for MAC-ehs entity as specified in subclause 8.5.60.
8.6.6.62	Uplink MIMO info FDD
If the IE "Uplink MIMO info FDD" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the CHOICE "Configuration info" is set to "New configuration":
2>	store the IE "Uplink MIMO info FDD", replacing any stored IE "Uplink MIMO info FDD".
1>	if the CHOICE "Configuration info" is set to "Continue" and the UE has any stored IE "Uplink MIMO info FDD":
2>	keep the stored IE "Uplink MIMO info FDD".
If the IE "Uplink MIMO info FDD" is not included and the UE has any stored IE "Uplink MIMO info FDD", the UE shall:
1>	clear the stored IE "Uplink MIMO info FDD".
Determine the value for the variable UPLINK_MIMO_TRANSMISSION and take the corresponding actions as described in subclause 8.5.81.
8.6.6.63	DPCCH2 info FDD
If the IE "DPCCH2 info FDD" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the CHOICE "Configuration info" is set to "New configuration":
2>	store the IE "DPCCH2 info FDD", replacing any stored IE "DPCCH2 info FDD";
2>	if the IE "TPC command error rate target" is present:
3>	store the TPC command error rate target for F-DPCH.
2>	if the IE "Extended E-DPCCH/DPCCH power offset" is present:
3>	store the Extended E-DPCCH/DPCCH power offset.
2>	if the IE "Designated non-serving HS-DSCH cell info" is present:
3>	store the Designated non-serving HS-DSCH cell information;
3>	if the Serving E-DCH cell decoupling is configured and the Designated non-serving HS-DSCH cell is not the serving E-DCH cell:
4>	the UE behaviour is unspecified.
1>	if the CHOICE "Configuration info" is set to "Continue" and the UE has any stored IE "DPCCH2 info FDD":
2>	keep the stored IE "DPCCH2 info FDD".
If the IE "DPCCH2 info FDD" is not included and the UE has any stored IE "DPCCH2 info FDD", the UE shall:
1>	clear the stored IE "DPCCH2 info FDD".
Determine the value for the variable DPCCH2_TRANSMISSION and take the corresponding actions as described in subclause 8.5.83.
8.6.6.64	DCH Enhancements info FDD
If the IE "DCH Enhancements info FDD" is included, the UE shall:
1>	if the CHOICE "Configuration info" is set to "New configuration":
2>	store the IE "DCH Enhancements info FDD", replacing any stored IE "DCH Enhancements info FDD".
1>	if the CHOICE "Configuration info" is set to "Continue" and the UE has any stored IE "DCH Enhancements info FDD":
2>	keep the stored IE "DCH Enhancements info FDD".
If the IE "DCH Enhancements info FDD" is not included and the UE has any stored IE "DCH Enhancements info FDD", the UE shall:
1>	clear the stored IE "DCH Enhancements info FDD".
8.6.6.65	Other TTI E-DCH Configuration Information
If the IE "Other TTI E-DCH Configuration Information" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the information received would result in a configuration which is considered to be invalid:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	else
2>	if the current configured TTI length is 2ms TTI:
3>	store the relevant information for the current TTI configuration in the IE "2ms TTI Configuration Information" in the variable OTHER_TTI_EDCH_CONFIGURATION;
3>	store the received preconfiguration information in the IE "10ms TTI Configuration Information" in the variable OTHER_TTI_EDCH_CONFIGURATION.
2>	else:
3>	store the relevant information for the current TTI configuration in the IE "10ms TTI Configuration Information" in the variable OTHER_TTI_EDCH_CONFIGURATION;
3>	store the received preconfiguration information in the IE "2ms TTI Configuration Information" in the variable OTHER_TTI_EDCH_CONFIGURATION.
2>	if the IE "Activation delay" is included:
3>	store the received value in the variable OTHER_TTI_EDCH_CONFIGURATION.
2>	else:
3>	set the value of the IE "Activation delay" in the variable OTHER_TTI_EDCH_CONFIGURATION to 0.
8.6.6.66	Other TTI E-DCH Configuration Information on secondary UL Frequency
If the IE "Other TTI E-DCH Configuration Information on secondary UL Frequency" is included and the UE will be in CELL_DCH state after completion of this procedure, the UE shall:
1>	if the information received would result in a configuration which is considered to be invalid:
2>	set the variable INVALID_CONFIGURATION to TRUE.
1>	else:
2>	if the current configured TTI length is 2ms TTI on the secondary UL frequency:
3>	store the relevant information for the current TTI configuration in the IE "2ms TTI Configuration Information" in the variable OTHER_TTI_EDCH_CONFIGURATION_ON_SECONDARY_UL_FREQUENCY;
3>	store the received preconfiguration information in the IE "10ms TTI Configuration Information" in the variable OTHER_TTI_EDCH_CONFIGURATION_ON_SECONDARY_UL_FREQUENCY.
2>	else:
3>	store the relevant information for the current TTI configuration in the IE "10ms TTI Configuration Information" in the variable OTHER_TTI_EDCH_CONFIGURATION_ON_SECONDARY_UL_FREQUENCY;
3>	store the received preconfiguration information in the IE "2ms TTI Configuration Information" in the variable OTHER_TTI_EDCH_CONFIGURATION_ON_SECONDARY_UL_FREQUENCY.
8.6.7	Measurement information elements
On reception of measurement information elements the UE shall:
1>	store the received information in the variable MEASUREMENT_IDENTITY and CELL_INFO_LIST as specified;
1>	perform further actions as specified in subclause 8.6.7 and subclause 8.4, based on the content of the variable MEASUREMENT_IDENTITY.
If a configuration is considered to be invalid the UE may:
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
8.6.7.1	Measurement validity
If the IE "measurement validity" for a given measurement has not been included in measurement control information, the UE shall delete the measurement associated with the variable MEASUREMENT_IDENTITY after the UE makes a transition to a new state.
If the IE "measurement validity" for this measurement has been included in measurement control information, the UE shall save the measurement associated with the variable MEASUREMENT_IDENTITY. The IE "UE state" defines the scope of resuming the measurement.
If the "UE state" is defined as "all states", the UE shall continue the measurement after making a transition to a new state. This scope is assigned for traffic volume measurement type and UE positioning measurement type. For traffic volume measurement type this scope can only be applied by the UE if the IE " traffic volume measurement object" has been included in measurement control information. If the IE " traffic volume measurement object" has not been included in measurement control information, the UE shall not save the measurement control information in variable MEASUREMENT_IDENTITY, but shall send a MEASUREMENT CONTROL FAILURE message to the UTRAN with failure cause "Configuration incomplete". For 1.28 Mcps TDD, this scope is also assigned for intra-frequency measurement type and inter-frequency measurement type.
If the "UE state" is defined as "all states except CELL_DCH", the UE shall store the measurement to be resumed after a subsequent transition from CELL_DCH state to any of the other states in connected mode. This scope is assigned for traffic volume measurement type or UE positioning measurement type. For 1.28 Mcps TDD, this scope is also assigned for intra-frequency measurement type and inter-frequency measurement type.
If the "UE state" is defined as "CELL_DCH", the UE shall store the measurement to be resumed after a subsequent transition to CELL_DCH state.
For FDD, 3.84/7.68 Mcps TDD, if the IE "measurement type" received in a MEASUREMENT CONTROL message is set to "inter-frequency measurement" or "intra-frequency measurement" and the IE "measurement validity" is present and is set to a value other than "CELL_DCH", the UE behaviour is unspecified.
8.6.7.2	Filter coefficient
If the IE "Filter coefficient" is received the UE shall, depending on the measurement quantity (see Table 8.6.7.2), apply filtering of the measurements for that measurement quantity according to the formula below. This filtering shall be performed by the UE before UE event evaluation. The UE shall depending on the reporting quantity (see Table 8.6.7.2), also filter the measurements reported in the IE "Measured results" and "Measured results on secondary UL frequency", or "E-UTRA measured results". The filtering shall not be performed for the measurements reported in the IE "Measured results on RACH" and for cell-reselection in connected or idle mode.
The filtering shall be performed according to the following formula.
	
The variables in the formula are defined as follows:
Fn is the updated filtered measurement result
Fn-1 is the old filtered measurement result
Mn is the latest received measurement result from physical layer measurements, the unit used for Mn is the same unit as the reported unit in the MEASUREMENT REPORT message or the unit used in the event evaluation.
a = 1/2(k/2), where k is the parameter received in the IE "Filter coefficient".
NOTE:	if k is set to 0 that will mean no layer 3 filtering.
In order to initialise the averaging filter, F0 is set to M1 when the first measurement result from the physical layer measurement is received.
The physical layer measurement results are sampled once every measurement period. The measurement period and the accuracy for a certain measurement is defined in [19] and [20].
Table 8.6.7.2 lists for all measurement quantities and reporting quantities if L3-filtering is applicable or not and used L3-filtering type for each measurement quantity. 
Table 8.6.7.2: L3 filtering applicable for each measurement quantity and reporting quantity
Measurement- / Reporting quantity
L3-filtering applicable
Linear or logarithmic filtering
Comment
Pathloss 
Yes
Log

Cell synchronisation information
No
-

Cell Identity
No
-

Frequency quality estimate
No
-
Although the frequency quality estimate itself is not filtered, the inputs to the frequency quality estimate calculation (CPICH Ec/N0 or CPICH RSCP or P-CCPCH RSCP) are filtered
UTRA carrier RSSI
Yes
Log

GSM carrier RSSI
Yes
Log

UE transmitted power
Yes
Log

FDD



> UE Rx-Tx time difference
No
-

> CPICH Ec/N0 
Yes
Log

> CPICH RSCP
Yes
Log

> UE Power Headroom
Yes
Log

TDD



> Primary CCPCH RSCP 
Yes
Log

> Proposed TGSN
No
-

> Timeslot ISCP 
Yes
Log

> TADV (1.28 Mcps TDD)
No
-

> Applied TA (3.84 Mcps TDD)
No
-

> Applied TA (7.68 Mcps TDD)
No
-

E-UTRA RSRP
Yes
Log

E-UTRA RSRQ
Yes
Log


The UE shall support 2 different layer 3 filters per measurement type defined in subclause 8.4.0 (i.e. the UE shall be capable to apply at least 2 different L3 filters to intra-frequency measurement results – see NOTE, at least 2 different L3 filters to inter-frequency measurement results, etc.). If a MEASUREMENT CONTROL message is received that would require the UE to configure more than 2 different layer 3 filters, the UE may:
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
NOTE:	Any L3 filter applied to a measurement configured with measurement quantity and/or reporting quantity that evaluates or reports measurement results for the current used frequency, is counted as one intra-frequency L3 filter, and is therefore included in the count of used intra-frequency filters.
8.6.7.3	Intra-frequency/Inter-frequency/Inter-RAT cell info list
If the IE "Intra-frequency cell info list" is received in System Information Block Type 11, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	if the IE "Intra-frequency cell removal" is received:
2>	ignore the IE.
1>	if the IE "New Intra-frequency cells" is received, for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Intra-frequency cell id" is received:
4>	store received cell information at this position in the Intra-frequency cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Intra-frequency cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Intra-frequency cell info list in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
If the IE "Intra-frequency cell info list" is received in System Information Block Type 11bis, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Intra-frequency cell id" is received:
4>	store received cell information at this position in the Intra-frequency cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Intra-frequency cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Intra-frequency cell info list in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
If the IE "Intra-frequency cell info list" is received in System Information Block Type 12, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	if the IE "Intra-frequency cell removal" is received:
2>	if it has the value "Remove some intra-frequency cells", at the position indicated by the IE "Intra-frequency cell id":
3>	clear the cell information stored in the variable CELL_INFO_LIST; and
3>	mark the position "vacant".
2>	if it has the value "Remove all intra-frequency cells":
3>	for each position referring to an intra-frequency cell in the variable CELL_INFO_LIST:
4>	clear the cell information stored in the variable CELL_INFO_LIST; and
4>	mark the position "vacant".
2>	if it has the value "Remove no intra-frequency cells":
3>	leave the variable CELL_INFO_LIST unchanged.
1>	if the IE "New Intra-frequency cells" is received, for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Intra-frequency cell id" is received:
4>	store received cell information at this position in the Intra-frequency cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Intra-frequency cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Intra-frequency cell info list in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
If the IE "Intra-frequency cell info list" is received in a MEASUREMENT CONTROL message, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	if the CHOICE "Intra-frequency cell removal" is received:
2>	if it has the value "Remove some intra-frequency cells", at the position indicated by the IE "Intra-frequency cell id":
3>	clear the cell information stored in the variable CELL_INFO_LIST; and
3>	mark the position "vacant".
2>	if it has the value "Remove all intra-frequency cells":
3>	for each position referring to an intra-frequency cell in the variable CELL_INFO_LIST:
4>	clear the cell information stored in the variable CELL_INFO_LIST; and
4>	mark the position "vacant".
2>	if it has the value "Remove no intra-frequency cells":
3>	leave the variable CELL_INFO_LIST unchanged.
1>	if the IE "New Intra-frequency cells" is received, for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Intra-frequency cell id" is received:
4>	store received cell information at this position in the Intra-frequency cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Intra-frequency cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Intra-frequency cell info list in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
1>	if the IE "Cells for measurement" is received, in the measurement configured by this message only:
2>	consider Intra-frequency cells whose cell information is stored at the position indicated by the IE "Intra-frequency cell id" in the variable CELL_INFO_LIST.
1>	if the IE "Cells for measurement" is not received, in the measurement configured by this message:
2>	consider all Intra-frequency cells whose cell information is stored in CELL_INFO_LIST.
1>	if the IE "CSG Intra-frequency cell info" is received:
2>	store the received information in the CSG Intra-frequency cell info in the variable CELL_INFO_CSG_LIST;
2>	consider the cells in CSG Intra-frequency cell info in variable CELL_INFO_CSG_LIST as monitored set and consider the cells not included in the CSG Intra-frequency cell info as detected set for the associated measurement.
If the IE "Intra-frequency cell info list on secondary UL frequency" is received in a MEASUREMENT CONTROL message, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	if the variable SECONDARY_CELL_E_DCH_TRANSMISSION is set to FALSE:
2>	the UE behaviour is unspecified.
1>	if the CHOICE "Intra-frequency cell removal" is received:
2>	if it has the value "Remove some intra-frequency cells", at the position indicated by the IE "Intra-frequency cell id":
3>	clear the cell information stored in the Intra-frequency cell info on secondary UL frequency list in the variable CELL_INFO_LIST; and
3>	mark the position "vacant".
2>	if it has the value "Remove all intra-frequency cells":
3>	for each position referring to an intra-frequency cell on secondary UL frequency in the variable CELL_INFO_LIST:
4>	clear the cell information stored in the Intra-frequency cell info on secondary UL frequency list in the variable CELL_INFO_LIST;
4>	mark the position "vacant".
2>	if it has the value "Remove no intra-frequency cells":
3>	leave the variable CELL_INFO_LIST unchanged.
1>	if the IE "New Intra-frequency cells" is received, for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Intra-frequency cell id" is received:
4>	store received cell information at this position in the Intra-frequency cell info on secondary UL frequency list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Intra-frequency cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Intra-frequency cell info on secondary UL frequency list in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
1>	if the IE "Cells for measurement" is received, in the measurement configured by this message only:
2>	consider Intra-frequency cells whose cell information is stored at the position indicated by the IE "Intra-frequency cell id" in the Intra-frequency cell info on secondary UL frequency list in the variable CELL_INFO_LIST.
1>	if the IE "Cells for measurement" is not received, in the measurement configured by this message:
2>	consider all Intra-frequency cells whose cell information is stored in the Intra-frequency cell info on secondary UL frequency list in the variable CELL_INFO_LIST.
If the IE "Inter-frequency cell info list" is received in System Information Block Type 11 update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	if the IE "Inter-frequency cell removal" is received:
2>	ignore the IE.
1>	if the IE "New Inter-frequency cells" is received, for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Inter-frequency cell id" is received:
4>	store received cell information at this position in the Inter-frequency cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Inter-frequency cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Inter-frequency cell info list in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
If the IE "Inter-frequency cell info list" is received in System Information Block Type 11bis, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Inter-frequency cell id" is received:
4>	store received cell information at this position in the Inter-frequency cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Inter-frequency cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Inter-frequency cell info list in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
If the IE "Inter-frequency cell info list extension" is received in System Information Block Type 11ter, and the UE supports SIB11ter, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. If the UE supports SIB11ter, the UE shall:
1>	for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Inter-frequency cell id" is received:
4>	store received cell information at this position in the Inter-frequency cell info list extension in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Inter-frequency cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Inter-frequency cell info list extension in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
If the IE "Inter-frequency cell info list" is received in System Information Block Type 12, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	if the CHOICE "Inter-frequency cell removal" is received:
2>	if it has the value "Remove some inter-frequency cells", at the position indicated by the IE "Inter-frequency cell id":
3>	clear the cell information stored in the variable CELL_INFO_LIST; and
3>	mark the position "vacant".
2>	if it has the value "Remove all inter-frequency cells":
3>	for each position referring to an inter-frequency cell in the variable CELL_INFO_LIST:
4>	clear the cell information stored in the variable CELL_INFO_LIST; and
4>	mark the position "vacant".
2>	if it has the value "Remove no inter-frequency cells":
3>	leave the variable CELL_INFO_LIST unchanged.
1>	if the IE "New Inter-frequency cells" is received, for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Inter-frequency cell id" is received:
4>	store received cell information at this position in the Inter-frequency cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Inter-frequency cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Inter-frequency cell info list in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
If the IE "Inter-frequency cell info list" is received in a MEASUREMENT CONTROL message, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order:
1>	if the CHOICE "Inter-frequency cell removal" is received:
2>	if it has the value "Remove some inter-frequency cells", at the position indicated by the IE "Inter-frequency cell id":
3>	clear the cell information stored in the variable CELL_INFO_LIST; and
3>	mark the position "vacant".
2>	if it has the value "Remove all inter-frequency cells":
3>	for each position referring to an inter-frequency cell in the variable CELL_INFO_LIST:
4>	clear the cell information stored in the variable CELL_INFO_LIST; and
4>	mark the position "vacant".
2>	if it has the value "Remove no inter-frequency cells":
3>	leave the variable CELL_INFO_LIST unchanged.
1>	if the IE "New Inter-frequency cells" is received, for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Inter-frequency cell id" is received:
4>	store received cell information at this position in the Inter-frequency cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Inter-frequency cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Inter-frequency cell info list in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
1>	if the IE "Cells for measurement" is received, in the measurement configured by this message only:
2>	consider Inter-frequency cells whose cell information is stored at the position indicated by the IE "Inter-frequency cell id" in the variable CELL_INFO_LIST.
1>	if the IE "Cells for measurement" is not received, in the measurement configured by this message:
2>	consider all Inter-frequency cells whose cell information is stored in CELL_INFO_LIST.
1>	if the IE "CSG Inter frequency cell info" is received:
2>	store the received information in the CSG Inter-frequency cell info in the variable CELL_INFO_CSG_LIST;
2>	consider the cells in CSG Inter-frequency cell info in variable CELL_INFO_CSG_LIST as monitored set for the associated measurement.
If the UE supports multi-band signaling and the IE "Multiple Frequency Info List FDD" is received in System Information Block Type 11 or System Information Block Type 11bis or System Information Block Type 11ter or System Information Block Type 12, the UE shall update the variable CELL_INFO_LIST accordingly. The UE shall:
1>	for each entry in the IE "New Inter-frequency cells":
2>	if the IE "Frequency info" is included:
3>	if the UE does not support the Frequency Band associated with the UARFCN downlink (Nd) in the IE "Frequency info", but does understand the UARFCN downlink (Nd):
4>	if the IE "Multiple Frequency Bands Indicator List FDD" is present in the n-th entry in the IE "Multiple Frequency Info List FDD", where n corresponds to this occurrence of IE "Frequency info" in "New Inter-frequency cells":
5>	for the first entry in the IE "Multiple Frequency Bands Indicator List FDD" corresponding to a UE supported band:
6>	extract the band and compute the corresponding UARFCN downlink (Nd) and UARFCN uplink (Nu) values;
6>	overwrite the corresponding Frequency Info in the CELL_INFO_LIST variable with the new computed UARFCN downlink (Nd) and UARFCN uplink (Nu) values.
2>	else:
3>	if the UE does not support the Frequency Band associated with the UARFCN downlink (Nd) in the previous occurrence of the IE "Frequency info" in "New Inter-frequency cells", but does understand the UARFCN downlink (Nd):
4>	overwrite the corresponding Frequency Info in the CELL_INFO_LIST variable with the UARFCN downlink (Nd) and UARFCN uplink (Nu) values which were computed for the previous instance of the IE "Frequency info" in the IE "New Inter-frequency cells".
If the IE "Inter-RAT cell info list" is received in System Information Block Type 11, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	ignore the IE "Inter-RAT cell removal";
1>	if the IE "New Inter-RAT cells" is received, for each cell, and in the same order as the cells appear in the IE:
2>	if the IE "Radio Access Technology" is set to "None":
3>	ignore the cell.
2>	otherwise:
3>	update the variable CELL_INFO_LIST as follows:
4>	if the IE "Inter-RAT cell id" is received:
5>	store received cell information at this position in the Inter-RAT cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
5>	mark the position "occupied".
4>	if the IE "Inter-RAT cell id" is not received:
5>	store the received cell information at the first vacant position in ascending order in the Inter-RAT cell info list in the variable CELL_INFO_LIST; and
5>	mark the position as "occupied".
1>	if the IE "Cells for measurement" is received:
2>	ignore the IE.
1>	set the "Inter-RAT cell info indication" to the value "0" and mark the indication status "present" in the variable CELL_INFO_LIST.
If the IE "Inter-RAT cell info list" is received in System Information Block Type 11bis, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	for each cell, and in the same order as the cells appear in the IE:
2>	update the variable CELL_INFO_LIST as follows:
3>	if the IE "Inter-RAT cell id" is received:
4>	store received cell information at this position in the Inter-RAT cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
4>	mark the position "occupied".
3>	if the IE "Inter-RAT cell id" is not received:
4>	store the received cell information at the first vacant position in ascending order in the Inter-RAT cell info list in the variable CELL_INFO_LIST; and
4>	mark the position as "occupied".
If the IE "Inter-RAT cell info list" is received in System Information Block Type 12, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	if the IE "Inter-RAT cell removal" is received:
2>	if it has the value "Remove some inter-RAT cells", at the position indicated by the IE "Inter-RAT cell id":
3>	clear the cell information stored in the variable CELL_INFO_LIST; and
3>	mark the position "vacant".
2>	if it has the value "Remove all inter-RAT cells":
3>	for each position referring to an inter-RAT cell in the variable CELL_INFO_LIST:
4>	clear the cell information stored in the variable CELL_INFO_LIST; and
4>	mark the position "vacant".
2>	if it has the value "Remove no inter-RAT cells":
3>	leave the variable CELL_INFO_LIST unchanged.
1>	if the IE "New Inter-RAT cells" is received, for each cell, and in the same order as the cells appear in the IE:
2>	if the IE "Radio Access Technology" is set to "None":
3>	ignore the cell.
2>	otherwise:
3>	update the variable CELL_INFO_LIST as follows:
4>	if the IE "Inter-RAT cell id" is received:
5>	store received cell information at this position in the Inter-RAT cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
5>	mark the position "occupied".
4>	if the IE "Inter-RAT cell id" is not received:
5>	store the received cell information at the first vacant position in ascending order in the Inter-RAT cell info list in the variable CELL_INFO_LIST; and
5>	mark the position as "occupied".
1>	if the IE "Cells for measurement" is received:
2>	ignore the IE.
1>	set the "Inter-RAT cell info indication" to the value "0" and mark the indication status "present" in the variable CELL_INFO_LIST.
If the IE "Inter-RAT cell info list" is received in a MEASUREMENT CONTROL message, the UE shall update the variable CELL_INFO_LIST accordingly and in the following order. The UE shall:
1>	if the IE "Inter-RAT cell removal" is received:
2>	if it has the value "Remove some inter-RAT cells", at the position indicated by the IE "Inter-RAT cell id":
3>	clear the cell information stored in the variable CELL_INFO_LIST; and
3>	mark the position "vacant".
2>	if it has the value "Remove all inter-RAT cells":
3>	for each position referring to an inter RAT cell in the variable CELL_INFO_LIST:
4>	clear the cell information stored in the variable CELL_INFO_LIST; and
4>	mark the position "vacant".
2>	if it has the value "Remove no inter-RAT cells":
3>	leave the variable CELL_INFO_LIST unchanged.
1>	if the IE "New Inter-RAT cells" is received, for each cell, and in the same order as the cells appear in the IE:
2>	if the IE "Radio Access Technology" is set to "None":
3>	ignore the cell.
2>	otherwise:
3>	update the variable CELL_INFO_LIST as follows:
4>	if the IE "Inter-RAT cell id" is received:
5>	store received cell information at this position in the Inter-RAT cell info list in the variable CELL_INFO_LIST, possibly overwriting any existing information in this position; and
5>	mark the position "occupied".
4>	if the IE "Inter-RAT cell id" is not received:
5>	store the received cell information at the first vacant position in ascending order in the Inter-RAT cell info list in the variable CELL_INFO_LIST; and
5>	mark the position as "occupied".
1>	if the IE "Cells for measurement" is received, in the measurement configured by this message only:
2>	consider Inter-RAT cells whose cell information is stored at the position indicated by the IE "Inter-RAT cell id" in the variable CELL_INFO_LIST.
1>	if the IE "Cells for measurement" is not received, in the measurement configured by this message:
2>	consider all Inter-RAT cells whose cell information is stored in CELL_INFO_LIST.
1>	if the IE "Cell selection and re-selection info for SIB11/12" is present:
2>	ignore the IE.
1>	if the IE "Inter-RAT cell info indication" is present:
2>	store the received value of the IE "Inter-RAT cell info indication" and mark the indication status "present" in the variable CELL_INFO_LIST.
1>	if the IE "Inter-RAT cell info indication" is not present:
2>	clear the "Inter-RAT cell info indication" and mark the indication status "not present" in the variable CELL_INFO_LIST.
For 1.28 Mcps TDD, if the IE "Intra-frequency cell info list" or "Inter-frequency cell info list" is received in a MEASUREMENT CONTROL message, the UE shall:
1>	if the IE "SNPL Monitor Set Indicator" is received:
2>	consider E-DCH carriers whose neighbour cells are the same for SNPL caculation into a SNPL carrier group;
2>	configure the MAC-i/is entity with the SNPL carrier groups information.
NOTE:	If UTRAN signalling would result in more than "maxCellMeas" cells for the Intra-frequency cell information list on primary uplink frequency, Inter-frequency cell information list (in SIB11 and SIB11bis) or Inter-RAT cell information list the UE behaviour is unspecified.
NOTE:	If UTRAN signalling would result in more than "maxCellMeas-ext" cells for the Inter-frequency cell information list (in SIB11, SIB11bis and SIB11ter) the UE behaviour is unspecified.
NOTE:	If UTRAN signalling would result in more than "maxCellMeasOnSecULFreq" cells for the Intra-frequency cell information list on secondary uplink frequency the UE behaviour is unspecified.
8.6.7.3a	UTRA priority info list
If the IE "UTRA priority info list" is received in System Information Block Type 19, the UE shall:
1>	if the value of the IE "Priority status" in the variable PRIORITY_INFO_LIST equals "dedicated_priority":
2>	store the value of the IEs "Sprioritysearch1", "Sprioritysearch2", "Threshserving,low" and "Threshserving,low2" in the IE "UTRA Serving Cell" in the variable PRIORITY_INFO_LIST;
2>	if any of the values in any of the occurrences of the  IE "Frequency List" in any occurrence of the IE "Priority Info List" within the variable PRIORITY_INFO_LIST  is the frequency of the serving cell:
3>	store the value of the IE "priority" in the IE "UTRA Serving Cell" in the variable PRIORITY_INFO_LIST.
2>	otherwise:
3>	clear the value of the IE "priority" in the IE "UTRA Serving Cell" in the variable PRIORITY_INFO_LIST.
2>	for each occurrence of the IE "UTRAN FDD Frequencies":
3>	if the value of the IE "UARFCN" exists in the list of UTRA FDD priorities in the PRIORITY_INFO_LIST; or
3>	if the UE supports multi-band signalling and a UARFCN exists in the list of UTRA FDD priorities in the PRIORITY_INFO_LIST which has overlap with the frequency band associated with the IE "UARFCN":
4> then in the corresponding occurrence of IE "Frequency List" within the variable PRIORITY_INFO_LIST:
5>	store the value of the IEs "Threshx, high", "Threshx, low", "QqualminFDD" and "QrxlevminFDD".
2>	for each occurrence of the IE "UTRAN TDD Frequencies":
3>	if the value of the IE "UARFCN" exists in the list of UTRA TDD priorities in the PRIORITY_INFO_LIST then, in the occurrence of IE "Frequency List" within the variable PRIORITY_INFO_LIST with that value of the IE "UARFCN":
4>	store the value of the IEs "Threshx, high", "Threshx, low" and "QrxlevminTDD".
1>	otherwise:
2>	update the PRIORITY_INFO_LIST IE "Priority status" to cause "sys_info_priority".
2>	store information in the IE "UTRA Serving Cell" in the IE "UTRA Serving Cell" within the variable PRIORITY_INFO_LIST;
2>		for each occurrence of the IE "UTRAN FDD Frequencies":
3>	if an entry already exists in the IE "Priority Info List" in the variable PRIORITY_INFO_LIST with the same priority value as indicated in the IE "priority" and has the CHOICE "Radio Access Technology" set to "UTRA FDD":
4>	create a new entry in the IE "Frequency List" in that occurrence of IE "Priority Info List":
5>	if the UE supports multi-band signalling and the UE does not support the frequency band associated with the IE "UARFCN", but does understand the value of "UARFCN"; and
5>	if the UARFCN downlink (Nd) of a frequency band, which has overlap with the band associated with the IE "UARFCN", is stored in the variable CELL_INFO_LIST:
6>	store the UARFCN downlink (Nd) value from the variable CELL_INFO_LIST in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST, and in that new entry:
7>	store the IEs "Threshx, high", "Threshx, low", "QqualminFDD" and "QrxlevminFDD".
5>	else:
6>	store the value of "UARFCN" in the IE "UARFCN" in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST, and in that new entry:
7>	store the IEs "Threshx, high", "Threshx, low", "QqualminFDD" and "QrxlevminFDD".
3>	otherwise:
4>	create a new entry in the IE "Priority Info List" and store the value of "priority" in the IE "priority" in this occurrence of the IE "Priority Info List" within the variable PRIORITY_INFO_LIST, and in that new entry:
5>	set the CHOICE "Radio Access Technology" to "UTRA FDD";
5>	if the UE supports multi-band signalling and the UE does not support the frequency band associated with the IE "UARFCN", but does understand the value of "UARFCN"; and
5>	if the UARFCN downlink (Nd) of a frequency band, which has overlap with the band associated with the IE "UARFCN", is stored in the variable CELL_INFO_LIST:
6>	store the UARFCN downlink (Nd) value from the variable CELL_INFO_LIST in the first occurrence of the IE "Frequency List", and in that occurrence of the IE "Frequency List";
7>	store the IEs "Threshx, high", "Threshx, low", "QqualminFDD" and "QrxlevminFDD".
5>	else:
6>	 store the value of "UARFCN" in the IE "UARFCN" in the first occurrence of the IE "Frequency List", and in that occurrence of the IE "Frequency List";
7>	store the IEs "Threshx, high", "Threshx, low", "QqualminFDD" and "QrxlevminFDD".
2>	for each occurrence of the IE "UTRAN TDD Frequencies":
3>	if an entry already exists in the IE "Priority Info List" in the variable PRIORITY_INFO_LIST with the same priority value as indicated in the IE "priority" and has the CHOICE "Radio Access Technology" set to "UTRA TDD":
4>	create a new entry in the IE "Frequency List" in that occurrence of IE "Priority Info List", and store the value of "UARFCN" in the IE "UARFCN" in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST, and in that new entry:
5>	store the IEs "Threshx, high", "Threshx, low" and "QrxlevminTDD". 
3>	otherwise:
4>	create a new entry in the IE "Priority Info List" and store the value of "priority" in the IE "priority" in this occurrence of the IE "Priority Info List" within the variable PRIORITY_INFO_LIST, and in that new entry:
5>	set the CHOICE "Radio Access Technology" to "UTRA TDD" and store the value of "UARFCN" in the IE "UARFCN" in the first occurrence of the IE "Frequency List";
5>	store the IEs "Threshx, high", "Threshx, low" and "QrxlevminTDD" in that occurrence of the IE "Frequency List".
8.6.7.3b	GSM priority info list
If the IE "GSM priority info list" is received in System Information Block Type 19, the UE shall:
1>	if the value of the IE "Priority status" in the variable PRIORITY_INFO_LIST equals "dedicated_priority":
2>	for each occurrence of the IE "GSM Priority Info":
3>	store the IEs "QrxlevminGSM", "Threshx, high" and "Threshx, low" in every entry of PRIORITY_INFO_LIST with CHOICE "Radio Access Technology" set to "GSM", which contains an IE "BCCH ARFCN" matching a BCCH ARFCN indicated in the IE "GSM cell group".
1>	otherwise:
2>	for each occurrence of the IE "GSM Priority Info":
3>	create a new entry in the IE "Priority Info List" in the variable PRIORITY_INFO_LIST, and in this new entry:
4>	store the value of IE "priority" from the IE "GSM Priority Info", and set the CHOICE "Radio Access Technology" to "GSM";
4>	for each of the BCCH ARFCNs indicated by the IE "GSM cell group":
5>	create a new entry in the IE "Frequency List" and store the IEs "Band Indicator", "QrxlevminGSM", "Threshx, high" and "Threshx, low" and store the indicated BCCH ARFCN in the IE "BCCH ARFCN".
8.6.7.3c	E-UTRA frequency and priority info list
If the IE "E-UTRA frequency and priority info list" is received in System Information Block Type 19, the UE shall:
1>	for each occurrence of the IE "E-UTRA frequency and priority":
2>	create a new entry in the IE "Frequency Info List" in the variable EUTRA_FREQUENCY_INFO_LIST, and in that new entry:
3>	store the IEs "EARFCN" and "Measurement bandwidth";
3>	if the IE "Blacklisted cells per freq list" is present in the IE "E-UTRA frequency and priority":
4>	store the blacklisted cells information.
2>	if the UE supports multi-band signalling and the UE does not support the E-UTRA Frequency Band associated with the EARFCN in the IE "EARFCN", but does understand the EARFCN downlink (Nd):
3>	if the IE "Multiple E-UTRA frequency info list" is present for this occurrence of "E-UTRA frequency and priority":
4>	for the first entry in the IE "Multiple E-UTRA frequency band indicator list" which the UE supports, the UE shall:
5>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value;
5>	overwrite the previously stored EARFCN value with the computed EARFCN downlink (Nd) value.
3>	if the UE did not find a band which it supports in the IE "Multiple E-UTRA frequency band indicator list" and the IE "Multiple E-UTRA frequency info extension list" is present for this occurrence of "E-UTRA frequency and priority":
4>	for the first entry in the IE "Multiple E-UTRA frequency band extension indicator list" which the UE supports, the UE shall:
5>	extract the supported band and compute the corresponding EARFCN downlink(Nd) value;
5>	overwrite the previously stored EARFCN value with the computed EARFCN downlink (Nd) value.
1>	for each occurrence of the IE "E-UTRA frequency and priority extension":
2>	create a new entry in the IE "Frequency Info List" in the variable EUTRA_FREQUENCY_INFO_LIST, and in that new entry:
3>	store the IE "EARFCN extension" in "EARFCN";
3>	store the IE "Measurement bandwidth";
3>	if the IE "Blacklisted cells per freq list" is present in the IE "E-UTRA frequency and priority extension":
4>	store the blacklisted cells information.
2>	if the UE supports multi-band signalling and the UE does not support the E-UTRA Frequency Band associated with the EARFCN in the IE "EARFCN extension", but does understand the EARFCN downlink (Nd):
3>	if the i-th entry in the IE "Multiple E-UTRA frequency info list" is present for this occurrence of "E-UTRA frequency and priority extension":
where i = (index of this occurrence of "E-UTRA frequency and priority extension" + the value in IE "Number of applicable EARFCN")
4>	for the first entry in the IE "Multiple E-UTRA frequency band indicator list" which the UE supports, the UE shall:
5>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value;
5>	overwrite the previously stored EARFCN value with the computed EARFCN downlink (Nd) value.
3>	if the UE did not find a band which it supports in the IE "Multiple E-UTRA frequency band indicator list" and the i-th entry in the IE "Multiple E-UTRA frequency info extension list" is present for this occurrence of "E-UTRA frequency and priority extension":
where i = (index of this occurrence of "E-UTRA frequency and priority extension" + the value in IE "Number of applicable EARFCN") 
4>	for the first entry in the IE "Multiple E-UTRA frequency band indicator extension list" which the UE supports, the UE shall:
5>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value;
5>	overwrite the previously stored EARFCN value with the computed EARFCN downlink (Nd) value.
1>	if the value of the IE "Priority status" in the variable PRIORITY_INFO_LIST equals "dedicated_priority":
2>	for each occurrence of the IE "E-UTRA frequency and priority":
3>	if the value of IE "EARFCN" exists in the list of E-UTRA priorities in the variable PRIORITY_INFO_LIST, then in that occurrence of the IE "Priority Info List":
4>	store the IEs "Threshx, high", "Threshx, low", "QrxlevminEUTRA" and "QqualminEUTRA" from the IE "E-UTRA frequency and priority" occurrence;
4>	store the IEs "Threshx, high2" and "Threshx, low2" from the IE "E-UTRA frequency and priority" occurrence if the IEs are present;
4>	if the UE supports RSRQ measurement on all OFDM symbols and the IE’s "QqualminRSRQ -OnAllSymbols" and "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority" occurrence are both present:
5>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
5>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
5>	calculate the value of the received IE "QqualminRSRQ-OnAllSymbols" minus the value of the "EUTRA-RSRQ-offsetWB" and store it in "QqualminEUTRA".
4>	else if the UE supports RSRQ measurement on all OFDM symbols and the IE "QqualminRSRQ -OnAllSymbols" from the IE "E-UTRA frequency and priority" occurrence is present:
5>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsO ffset";
5>	store the value of the received IE "QqualminRSRQ-OnAllSymbols" in "QqualminEUTRA".
4>	else if the IE "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority" occurrence is present:
5>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
5>	store the value of the received IE "QqualminEUTRA-WB" in "QqualminEUTRA".
3>	if the UE supports multi-band signalling and the UE does not support the E-UTRA Frequency Band associated with the EARFCN in the IE "EARFCN", but does understand the EARFCN downlink (Nd):
4>	if the IE "Multiple E-UTRA frequency info list" is present for this occurrence of "E-UTRA frequency and priority":
5>	for the first entry in the IE "Multiple E-UTRA frequency band indicator list" which the UE supports, the UE shall:
6>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value.
4>	if the UE did not find a band which it supports in the IE "Multiple E-UTRA frequency band indicator list" and the IE "Multiple E-UTRA frequency info extension list" is present for this occurrence of "E-UTRA frequency and priority":
5>	for the first entry in the IE "Multiple E-UTRA frequency band extension indicator list" which the UE supports, the UE shall:
6>	extract the supported band and compute the corresponding EARFCN downlink(Nd) value.
4>	if the computed EARFCN value exists in the list of E-UTRA priorities in the variable PRIORITY_INFO_LIST, then in that occurrence of the IE "Priority Info List":
5>	store the IEs "Threshx, high", "Threshx, low", "QrxlevminEUTRA" and "QqualminEUTRA" from the IE "E-UTRA frequency and priority" occurrence;
5>	store the IEs "Threshx, high2" and "Threshx, low2" from the IE "E-UTRA frequency and priority" occurrence if the IEs are present;
5>	if the UE supports RSRQ measurement on all OFDM symbol and the IE’s "QqualminRSRQ-OnAllSymbols" and "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority" occurrence are both present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	calculate the value of the received IE "QqualminRSRQ-OnAllSymbols" minus the value of the "EUTRA-RSRQ-offsetWB" and store it in "QqualminEUTRA".
5>	else if the UE supports RSRQ measurement on all OFDM symbols and the IE "QqualminRSRQ-OnAllSymbols" from the IE "E-UTRA frequency and priority" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	store the value of the received IE "QqualminRSRQ-OnAllSymbols" in "QqualminEUTRA".
5>	else if the IE "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	store the value of the received IE "QqualminEUTRA-WB" in "QqualminEUTRA".
2>	for each occurrence of the IE "E-UTRA frequency and priority extension":
3>	if the value of IE "EARFCN extension" exists in the list of E-UTRA priorities in the variable PRIORITY_INFO_LIST, then in that occurrence of the IE "Priority Info List":
4>	store the IEs "Threshx, high", "Threshx, low", "QrxlevminEUTRA" and "QqualminEUTRA" from the IE "E-UTRA frequency and priority extension" occurrence;
4>	store the IEs "Threshx, high2" and "Threshx, low2" from the IE "E-UTRA frequency and priority extension" occurrence if the IEs are present;
4>	if the UE supports RSRQ measurement on all OFDM symbols and the IE’s "QqualminRSRQ-OnAllSymbols" and "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority extension" occurrence are both present:
5>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
5>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
5>	calculate the value of the received IE "QqualminRSRQ-OnAllSymbols" minus the value of the "EUTRA-RSRQ-offsetWB" and store it in "QqualminEUTRA".
4>	else if the UE supports RSRQ measurement on all OFDM symbols and the IE "QqualminRSRQ-OnAllSymbols" from the IE "E-UTRA frequency and priority extension" occurrence is present:
5>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
5>	store the value of the received IE "QqualminRSRQ-OnAllSymbols" in "QqualminEUTRA".
4>	else if the IE "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority extension" occurrence is present:
5>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
5>	store the value of the received IE "QqualminEUTRA-WB" in "QqualminEUTRA".
3>	if the UE supports multi-band signalling and the UE does not support the E-UTRA Frequency Band associated with the EARFCN in the IE "EARFCN extension", but does understand the EARFCN downlink (Nd):
4>	if i-th entry in the IE "Multiple E-UTRA frequency info list" is present for this occurrence of "E-UTRA frequency and priority extension":
where i = (index of this occurrence of "E-UTRA frequency and priority extension" + the value in IE "Number of applicable EARFCN")
5>	for the first entry in the IE "Multiple E-UTRA frequency band indicator list" which the UE supports, the UE shall:
6>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value.
4>	if the UE did not find a band which it supports in the IE "Multiple E-UTRA frequency band indicator list" and the i-th entry in the IE "Multiple E-UTRA frequency info extension list" is present for this occurrence of "E-UTRA frequency and priority extension":
where i = (index of this occurrence of "E-UTRA frequency and priority extension" + the value in IE "Number of applicable EARFCN")
5>	for the first entry in the IE "Multiple E-UTRA frequency band indicator extension list" which the UE supports, the UE shall:
6>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value.
4>	if the computed EARFCN value exists in the list of E-UTRA priorities in the variable PRIORITY_INFO_LIST, then in that occurrence of the IE "Priority Info extension List":
5>	store the IEs "Threshx, high", "Threshx, low", "QrxlevminEUTRA" and "QqualminEUTRA" from the IE "E-UTRA frequency and priority extension" occurrence;
5>	store the IEs "Threshx, high2" and "Threshx, low2" from the IE "E-UTRA frequency and priority extension" occurrence if the IEs are present;
5>	if the UE supports RSRQ measurement on all OFDM symbols and the IE’s "QqualminRSRQ-OnAllSymbols" and "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority extension" occurrence are both present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	calculate the value of the received IE "QqualminRSRQ-OnAllSymbols" minus the value of the "EUTRA-RSRQ-offsetWB" and store it in "QqualminEUTRA".
5>	else if the UE supports RSRQ measurement on all OFDM symbols and the IE "QqualminRSRQ-OnAllSymbols" from the IE "E-UTRA frequency and priority extension" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	store the value of the received IE "QqualminRSRQ-OnAllSymbols" in "QqualminEUTRA".
5>	else if the IE "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority extension" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	store the value of the received IE "QqualminEUTRA-WB" in "QqualminEUTRA".
1>	otherwise:
2>	for each occurrence of the IE "E-UTRA frequency and priority":
3>	if an entry already exists in the IE "Priority Info List" in the variable PRIORITY_INFO_LIST with the same priority value as indicated in the IE "priority", and if present in the IE "subpriority", and has the CHOICE "Radio Access Technology" set to "E-UTRA":
4>	create a new entry in the IE "Frequency List" in that occurrence of IE "Priority Info List", and store the value of "EARFCN" in the IE "EARFCN" in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST, and:
5>	store the IEs "Threshx, high", "Threshx, low", "QrxlevminEUTRA" and "QqualminEUTRA" in that occurrence of the IE "Frequency List";
5>	store the IEs "Threshx, high2" and "Threshx, low2" in that occurrence of the IE "Frequency List" if the IEs are present;
5>	if the UE supports RSRQ measurement on all OFDM symbols and the IE’s "QqualminRSRQ-OnAllSymbols" and "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority" occurrence are both present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	calculate the value of the received IE "QqualminRSRQ-OnAllSymbols" minus the value of the "EUTRA-RSRQ-offsetWB" and store it in "QqualminEUTRA".
5>	else if the UE supports RSRQ measurement on all OFDM symbols and the IE "QqualminRSRQ-OnAllSymbols" from the IE "E-UTRA frequency and priority" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	store the value of the received IE "QqualminRSRQ-OnAllSymbols" in "QqualminEUTRA".
5>	else if the IE "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	store the value of the received IE "QqualminEUTRA-WB" in "QqualminEUTRA".
4>	if the UE supports multi-band signalling and if the UE does not support the E-UTRA Frequency Band associated with the EARFCN in the IE "EARFCN", but does understand the EARFCN downlink (Nd):
5>	if the IE "Multiple E-UTRA frequency info list" is present for this occurrence of "E-UTRA frequency and priority":
6>	for the first entry in the IE "Multiple E-UTRA frequency band indicator list" which the UE supports, the UE shall:
7>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value;
7>	overwrite the previously stored EARFCN value in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST with the computed EARFCN downlink (Nd) value.
5>	if the UE did not find a band which it supports in the IE "Multiple E-UTRA frequency band indicator list" and the IE "Multiple E-UTRA frequency info extension list" is present for this occurrence of "E-UTRA frequency and priority":
6>	for the first entry in the IE "Multiple E-UTRA frequency band extension indicator list" which the UE supports, the UE shall:
7>	extract the supported band and compute the corresponding EARFCN downlink(Nd) value;
7>	overwrite the previously stored EARFCN value in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST with the computed EARFCN downlink (Nd) value.
3>	otherwise:
4>	create a new entry in the IE "Priority Info List" and store the value of "priority" in the IE "priority", and if present the value of "subpriority" in the IE "subpriority", in this occurrence of the IE "Priority Info List" within the variable PRIORITY_INFO_LIST, and in that new entry:
5>	set the CHOICE "Radio Access Technology" to "E-UTRA" and store the value of "EARFCN" in the IE "EARFCN" in the first occurrence of the IE "Frequency List";
5>	store the IEs "Threshx, high", "Threshx, low", "QrxlevminEUTRA" and "QqualminEUTRA" in that occurrence of the IE "Frequency List";
5>	store the IEs "Threshx, high2" and "Threshx, low2" in that occurrence of the IE "Frequency List" if the IEs are present;
5>	if the UE supports RSRQ measurement on all OFDM symbols and the IE’s "QqualminRSRQ-OnAllSymbols" and "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority" occurrence are both present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	calculate the value of the received IE "QqualminRSRQ-OnAllSymbols" minus the value of the "EUTRA-RSRQ-offsetWB" and store it in "QqualminEUTRA".
5>	else if the UE supports RSRQ measurement on all OFDM symbols and the IE "QqualminRSRQ-OnAllSymbols" from the IE "E-UTRA frequency and priority" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	store the value of the received IE "QqualminRSRQ-OnAllSymbols" in "QqualminEUTRA".
5>	else if the IE "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	store the value of the received IE "QqualminEUTRA-WB" in "QqualminEUTRA".
5>	if the UE supports multi-band signalling and if the UE does not support the E-UTRA Frequency Band associated with the EARFCN in the IE "EARFCN", but does understand the EARFCN downlink (Nd):
6>	if the IE "Multiple E-UTRA frequency info list" is present for this occurrence of "E-UTRA frequency and priority":
7>	for the first entry in the IE "Multiple E-UTRA frequency band indicator list" which the UE supports, the UE shall:
8>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value;
8>	overwrite the previously stored EARFCN value in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST with the computed EARFCN downlink (Nd) value.
6>	if the UE did not find a band which it supports in the IE "Multiple E-UTRA frequency band indicator list" and the IE "Multiple E-UTRA frequency info extension list" is present for this occurrence of "E-UTRA frequency and priority":
7>	for the first entry in the IE "Multiple E-UTRA frequency band extension indicator list" which the UE supports, the UE shall:
8>	extract the supported band and compute the corresponding EARFCN downlink(Nd) value;
8>	overwrite the previously stored EARFCN value in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST with the computed EARFCN downlink (Nd) value.
3>	store the IE "E-UTRA detection".
2>	for each occurrence of the IE "E-UTRA frequency and priority extension":
3>	if an entry already exists in the IE "Priority Info List" in the variable PRIORITY_INFO_LIST with the same priority value as indicated in the IE "priority", and if present in the IE "subpriority", and has the CHOICE "Radio Access Technology" set to "E-UTRA":
4>	create a new entry in the IE "Frequency List" in that occurrence of IE "Priority Info List", and store the value of "EARFCN extension" in the IE "EARFCN" in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST, and:
5>	store the IEs "Threshx, high", "Threshx, low", "QrxlevminEUTRA" and "QqualminEUTRA" in that occurrence of the IE "Frequency List";
5>	store the IEs "Threshx, high2" and "Threshx, low2" in that occurrence of the IE "Frequency List" if the IEs are present:
5>	if the UE supports RSRQ on all OFDM symbols measurement and the IE’s "QqualminRSRQ-OnAllSymbols" and "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority extension" occurrence are both present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	calculate the value of the received IE "QqualminRSRQ-OnAllSymbols" minus the value of the "EUTRA-RSRQ-offsetWB" and store it in "QqualminEUTRA".
5>	else if the UE supports RSRQ measurement on all OFDM symbols and the IE "QqualminRSRQ-OnAllSymbols" from the IE "E-UTRA frequency and priority extension" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsffset";
6>	store the value of the received IE "QqualminRSRQ-OnAllSymbols" in "QqualminEUTRA".
5>	else if the IE "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority extension" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	store the value of the received IE "QqualminEUTRA-WB" in "QqualminEUTRA".
4>	if the UE supports multi-band signalling and the UE does not support the E-UTRA Frequency Band associated with the EARFCN in the IE "EARFCN extension", but does understand the EARFCN downlink (Nd):
5>	if the i-th entry in the IE "Multiple E-UTRA frequency info list" is present for this occurrence of "E-UTRA frequency and priority extension":
where i = (index of this occurrence of "E-UTRA frequency and priority extension" + the value in IE "Number of applicable EARFCN")
6>	for the first entry in the IE "Multiple E-UTRA frequency band indicator list" which the UE supports, the UE shall:
7>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value;
7>	overwrite the previously stored EARFCN value in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST with the computed EARFCN downlink (Nd) value.
5>	if the UE did not find a band which it supports in the IE "Multiple E-UTRA frequency band indicator list" and the i-th entry in the IE "Multiple E-UTRA frequency info extension list" is present for this occurrence of "E-UTRA frequency and priority extension":
where i = (index of this occurrence of "E-UTRA frequency and priority extension" + the value in IE "Number of applicable EARFCN") 
6>	for the first entry in the IE "Multiple E-UTRA frequency band indicator extension list" which the UE supports, the UE shall:
7>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value;
7>	overwrite the previously stored EARFCN value in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST with the computed EARFCN downlink (Nd) value.
3>	otherwise:
4>	create a new entry in the IE "Priority Info List" and store the value of "priority" in the IE "priority", and if present the value of "subpriority" in IE "subpriority", in this occurrence of the IE "Priority Info List" within the variable PRIORITY_INFO_LIST, and in that new entry:
5>	set the CHOICE "Radio Access Technology" to "E-UTRA" and store the value of "EARFCN extension" in the IE "EARFCN extension" in the first occurrence of the IE "Frequency List";
5>	store the IEs "Threshx, high", "Threshx, low", "QrxlevminEUTRA" and "QqualminEUTRA" in that occurrence of the IE "Frequency List";
5>	store the IEs "Threshx, high2" and "Threshx, low2" in that occurrence of the IE "Frequency List" if the IEs are present;
5>	if the UE supports RSRQ measurement on all OFDM symbols and the IE’s "QqualminRSRQ-OnAllSymbols" and "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority extension" occurrence are both present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	calculate the value of the received IE "QqualminRSRQ-OnAllSymbols" minus the value of the "EUTRA-RSRQ-offsetWB" and store it in "QqualminEUTRA".
5>	else if the UE supports RSRQ measurement on all OFDM symbols and the IE "QqualminRSRQ-OnAllSymbols" from the IE "E-UTRA frequency and priority extension" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminRSRQ-OnAllSymbols" and store it in "EUTRA-RSRQ-OnAllSymbolsOffset";
6>	store the value of the received IE "QqualminRSRQ-OnAllSymbols" in "QqualminEUTRA".
5>	else if the IE "QqualminEUTRA-WB" from the IE "E-UTRA frequency and priority extension" occurrence is present:
6>	calculate the value of the received IE "QqualminEUTRA" minus the value of the received IE "QqualminEUTRA-WB" and store it in "EUTRA-RSRQ-offsetWB";
6>	store the value of the received IE "QqualminEUTRA-WB" in "QqualminEUTRA".
5>	if the UE supports multi-band signalling and the UE does not support the E-UTRA Frequency Band associated with the EARFCN in the IE "EARFCN extension", but does understand the EARFCN downlink (Nd):
6>	 if the i-th entry in the IE "Multiple E-UTRA frequency info list" is present for this occurrence of "E-UTRA frequency and priority extension":
where i = (index of this occurrence of "E-UTRA frequency and priority extension" + the value in IE "Number of applicable EARFCN")
7>	for the first entry in the IE "Multiple E-UTRA frequency band indicator list" which the UE supports, the UE shall:
8>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value;
8>	overwrite the previously stored EARFCN value in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST with the computed EARFCN downlink (Nd) value.
5>	if the UE did not find a band which it supports in the IE "Multiple E-UTRA frequency band indicator list" and the i-th entry in the IE "Multiple E-UTRA frequency info extension list" is present for this occurrence of "E-UTRA frequency and priority extension":
where i = (index of this occurrence of "E-UTRA frequency and priority extension" + the value in IE "Number of applicable EARFCN") 
6>	for the first entry in the IE "Multiple E-UTRA frequency band indicator extension list" which the UE supports, the UE shall:
7>	extract the supported band and compute the corresponding EARFCN downlink (Nd) value;
7>	overwrite the previously stored EARFCN value in this occurrence of the IE "Frequency List" within the variable PRIORITY_INFO_LIST with the computed EARFCN downlink (Nd) value.
3>	store the IE "E-UTRA detection".
8.6.7.3d	E-UTRA frequency list
If the "E-UTRA frequency list" IE is received in a MEASUREMENT CONTROL message, the UE shall update the variable EUTRA_FREQUENCY_INFO_LIST accordingly and in the following order. The UE shall:
1>	if the IE "E-UTRA frequency removal" is received:
2>	if it has the value "Remove some frequencies", for all the frequencies indicated by the IE "Removed frequencies":
3>	clear the information stored in the variable EUTRA_FREQUENCY_INFO_LIST for the indicated frequencies in "E-UTRA frequency list" IE and "E-UTRA frequency extension list" IE.
2>	if it has the value "Remove all frequencies":
3>	clear the information stored in the variable EUTRA_FREQUENCY_INFO_LIST for all frequencies.
2>	if it has the value "Remove no frequencies":
3>	leave the variable EUTRA_FREQUENCY_INFO_LIST unchanged.
1>	if the IE "New frequencies" is received, for each frequency:
2>	update the variable EUTRA_FREQUENCY_INFO_LIST as follows:
3>	if the frequency is not present in the variable EUTRA_FREQUENCY_INFO_LIST:
4>	store the information for the received frequency, including measurement bandwidth, blacklist and wideband RSRQ measurements, in the variable EUTRA_FREQUENCY_INFO_LIST.
3>	otherwise, if the frequency is already included in the variable EUTRA_FREQUENCY_INFO_LIST:
4>	store the information for the received frequency, including measurement bandwidth, blacklist and wideband RSRQ measurements, in the variable EUTRA_FREQUENCY_INFO_LIST, overwriting the existing information for the frequency.
8.6.7.4	Intra-frequency measurement quantity
If the IE "Intra-frequency measurement quantity" is received in a MEASUREMENT CONTROL message, the UE shall:
1>	if the IE "Measurement quantity" is set to "pathloss"; and
2>	for any intra-frequency cell indicated by the IE "Cells for measurement", if the IE "Primary CPICH Tx power" in FDD or the IE "Primary CCPCH TX Power" in TDD in the intra frequency cell info list in the variable CELL_INFO_LIST is not present, or;
2>	for any intra-frequency cell indicated by the IE "Cells for measurement", if the IE "Primary CPICH Tx power" in FDD in the intra-frequency cell info on secondary UL frequency list in the variable CELL_INFO_LIST is not present:
3>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
2>	else:
3>	configure the measurement quantity accordingly.
1>	else:
2>	configure the measurement quantity accordingly.
8.6.7.5	Inter-RAT measurement quantity
If the IE "Inter-RAT measurement quantity" is received in a MEASUREMENT CONTROL message and CHOICE system is GSM, the UE shall:
1>	if IE "BSIC verification required" is set to "required", for cells that match any of the BCCH ARFCN and BSIC combinations in the list of inter-RAT cells that the UE has received in IE "Inter-RAT cell info list", and that has a "verified" BSIC:
2>	report measurement quantities according to IE "inter-RAT reporting quantity" taking into account the restrictions defined in subclause 8.6.7.6;
2>	trigger inter-RAT events according to IE "inter-RAT measurement reporting criteria"; and
2>	perform event evaluation for event-triggered reporting after BSIC has been verified for a GSM cell as defined in [19]; and
2>	trigger periodical reports according to the given "Reporting interval"; and
2>	when a periodical measurement report is triggered, include only BSIC verified GSM cells in the IE "Inter-RAT measured results list"; and
3>	indicate verified BSIC for a GSM cell in the IE "Inter-RAT measured results list" as defined in subclause 8.6.7.6.
2>	when an event triggered measurement report is triggered, include only BSIC verified GSM cells in the IE "Inter-RAT measured results list"; and
3>	indicate verified BSIC for a GSM cell in the IE "Inter-RAT measured results list" as defined in subclause 8.6.7.6.
1>	if IE "BSIC verification required" is set to "not required", for cells that match any of the BCCH ARFCN in the list of inter-RAT cells that the UE has received in IE "Inter-RAT cell info list", regardless if the BSIC is "verified" or "non-verified":
2>	report measurement quantities according to IE "inter-RAT reporting quantity";
2>	trigger inter-RAT events according to IE "inter-RAT measurement reporting criteria";
2> when an event triggered or periodical measurement report is triggered, include GSM cells in the IE "Inter-RAT measured results list" regardless of whether the BSIC of the GSM cell has been verified or not; and
3>	for any GSM cell that has not been verified, indicate non-verified BSIC for a GSM cell in the "Inter-RAT measured results list" IE as defined in subclause 8.6.7.6.
3>	for any GSM cell that has been verified, indicate verified BSIC for a GSM cell in the "Inter-RAT measured results list" IE as defined in subclause 8.6.7.6.
1>	if the IE "Measurement quantity" is set to "pathloss":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
NOTE:	The requirements for a cell to be considered "verified" or "non-verified" can be found in [19].
If the IE "Inter-RAT measurement quantity" is received in a MEASUREMENT CONTROL message and CHOICE system is E-UTRA, the UE shall:
1>	for cells whose carrier frequency matches any of the EARFCNs or extended EARFCNs in the list of E-UTRA frequencies that the UE has stored in the variable "EUTRA_FREQUENCY_INFO_LIST", and for which the Physical Cell Identity is not included in the blacklist for that frequency:
2>	report measurement quantities according to IE "inter-RAT reporting quantity" taking into account the restrictions defined in subclause 8.6.7.6;
2>	trigger inter-RAT events according to IE "inter-RAT measurement reporting criteria"; and
2>	perform event evaluation for event-triggered reporting; and:
2>	trigger periodical reports according to the given "Reporting interval"; and
2>	when a periodical measurement report is triggered, for each frequency include in the IE "E-UTRA measured results list" only E-UTRA cells for which the Physical layer Cell Identity has been identified and is not included in the blacklist for that frequency; and
3>	include the Physical layer Cell Identity for a E-UTRA cell in the IE "E-UTRA measured results list" as defined in subclause 8.6.7.6.
2>	when an event triggered measurement report is triggered, include in the IE "E-UTRA measured results list" only E-UTRA cells for which the Physical layer Cell Identity has been identified and is not included in the blacklist for that frequency; and
3>	include the Physical layer Cell Identity for a E-UTRA cell in the IE "E-UTRA measured results list" as defined in subclause 8.6.7.6.
8.6.7.6	Inter-RAT reporting quantity
If the IE "Inter-RAT reporting quantity" is received by the UE, the UE shall:
1>	store the content of the IE to the variable MEASUREMENT_IDENTITY.
If the IE "Inter-RAT measurement quantity" is received and CHOICE system is GSM, the UE shall check each quantity in the GSM choice. The UE shall include measured results in MEASUREMENT REPORT as specified in the IE "Inter-RAT reporting quantity" with the following restrictions:
1>	if the UE has not confirmed the BSIC of the measured cell:
2>	if no compressed mode pattern sequence specified with measurement purpose "Initial BSIC identification" is active and according to its capabilities the UE requires compressed mode to measure this, the UE is not required to include the "inter-RAT cell id" in the IE "Inter-RAT measured results list", when a MEASUREMENT REPORT is triggered.
1>	if the UE has confirmed the BSIC of the measured cell, then:
2>	if no compressed mode pattern sequence specified with measurement purpose "Initial BSIC identification" nor "BSIC re-confirmation" is active and according to its capabilities the UE requires compressed mode to measure this, the UE is not required to include the "inter-RAT cell id" in the IE "Inter-RAT measured results", when a MEASUREMENT REPORT is triggered. If no compressed mode pattern sequence with measurement purpose "GSM carrier RSSI measurements" is active and according to its capabilities the UE requires compressed mode to measure this, the UE may include "inter-RAT cell id" in MEASUMENT REPORT without "GSM carrier RSSI" even if it is defined in the IE "Inter-RAT reporting quantity".
1>	if the IE "UTRAN estimated quality" is set to TRUE:
2>	ignore that IE.
1>	if IE "GSM Carrier RSSI" is set to TRUE:
2>	include optional IE "GSM Carrier RSSI" with a value set to the measured RXLEV to that GSM cell in IE "Inter-RAT measured results list". If no compressed mode pattern sequence specified with measurement purpose "GSM carrier RSSI measurements" is active and according to its capabilities the UE requires compressed mode to measure this, the UE is not required to include the "GSM carrier RSSI" in the IE "Inter-RAT measured results list", when a MEASUREMENT REPORT is triggered.
1>	if the BSIC of reported GSM cell is "verified":
2>	set the CHOICE BSIC to "Verified BSIC" and IE "inter-RAT cell id" to the value that GSM cell had in the IE "Inter-RAT cell info list".
1>	if the BSIC of reported GSM cell is "non-verified":
2>	set the CHOICE BSIC to "Non verified BSIC" and the IE "BCCH ARFCN" to the value of that GSM cells ARFCN.
The requirements for a cell to be considered "verified" or "non-verified" can be found in [19].
If the IE "Inter-RAT reporting quantity" is received and CHOICE system is E-UTRA, the UE shall check each quantity in the E-UTRA choice. The UE shall include measured results in MEASUREMENT REPORT as specified in the IE "Inter-RAT reporting quantity".
8.6.7.7	Cell Reporting Quantities
If the IE "Cell Reporting Quantities" is received by the UE, the UE shall store the content of the IE "Cell Reporting Quantities" to the variable MEASUREMENT_IDENTITY.
The UE shall include measured results in MEASUREMENT REPORT as specified in the IE "Cell Reporting Quantities", except for the following cases:
If the IE "Cell Identity reporting indicator " is set to TRUE, the UE shall in this version of the specification:
1>	treat the IE as if the IE "Cell Identity reporting indicator" is set to FALSE, except when configured for CSG related measurements, as described in sections 14.7a.1 and 14.7a.2.
If the IE "Cell synchronisation information reporting indicator" is set to TRUE, the UE shall:
1>	include the IE "Cell synchronisation information" in MEASUREMENT REPORT as specified in the IE "Cell Reporting Quantities":
2>	if the measurement is performed on another frequency; or
2>	if the IE "Read SFN indicator" included in the IE "Cell info" of the measured cell is set to FALSE:
3>	the UE may omit the information group "COUNT-C-SFN frame difference" in the IE "Cell synchronisation information".
2>	if the measurement is performed on the same frequency and no RLC Transparent Mode COUNT-C exists in the UE:
3>	set the IE "COUNT-C-SFN high" to 0.
2>	otherwise:
3>	include the information group "COUNT-C-SFN frame difference" with IE "COUNT-C-SFN high" set to:
	COUNT-C-SFN high = (((SFN - (COUNT-C mod 4096)) mod 4096) div 256) * 256;
3>	if RLC Transparent Mode COUNT-Cs exist in both CN domains:
4>	use the COUNT-C of CS domain in this measurement.
If the IE "Proposed TGSN Reporting required" is set to TRUE, the UE shall:
1>	if compressed mode was used to monitor a TDD cell and the variable TGSN_REPORTED is set to FALSE:
2>	report the IE "Proposed TGSN" indicating the TGSN that suits best to the measured cell;
2>	set the variable TGSN_REPORTED to TRUE.
1>	otherwise
2>	omit the IE "Proposed TGSN".
8.6.7.8	Periodical Reporting Criteria
If the IE "Periodical Reporting Criteria" is received by the UE, the UE shall:
1>	store the contents of the IE "Amount of Reporting" and IE "Reporting interval" in the variable MEASUREMENT_IDENTITY.
For the first MEASUREMENT REPORT message, the UE shall:
1>	send the MEASUREMENT REPORT as soon as all requested reporting quantities are available according to the requirements and the measurement capabilities set in [19] and [20] and in the case of SI acquisition as soon as SI is available, for at least one measurement object stored in the variable MEASUREMENT_IDENTITY, but never later than one reporting interval after measurement initiation.
Following the first MEASUREMENT REPORT message, the UE shall:
1>	send a MEASUREMENT REPORT message one reporting interval after the previous MEASUREMENT REPORT message;
The first and subsequent  periodic MEASUREMENT REPORT messages shall only include measured results for reporting quantities that are available according to the requirements and the measurement capabilities set in [19] and [20] and available SI reading results for cells included in the IEs "Intra-frequency SI Acquisition", "Inter-frequency SI Acquisition" or "E-UTRA SI Acquisition", i.e. if no measured results are available and the measurement type is not UE positioning, the IE "Measured Results" shall not be included in the MEASUREMENT REPORT message. If no measured results are available and the measurement type is UE positioning, the UE shall include the IE "Measured Results" in the MEASUREMENT REPORT message in order to include the IE "UE positioning error" as specified in 8.6.7.19a and 8.6.7.19b.
After the UE has sent a total number of MEASUREMENT REPORT messages, which equal the value indicated in the IE "Amount of reporting", the UE shall:
1>	terminate measurement reporting; and
1>	delete all measurement information linked with the "Measurement identity" of the ongoing measurement from the variable MEASUREMENT_IDENTITY.
If according to subclause 8.6.7.19.1a or 8.6.7.19.1b, a UE configured with a UE positioning measurement is unable to report the requested measurement results due to missing GPS or GANSS assistance data and sends a MEASUREMENT REPORT containing the IE "UE positioning error" and the IE "Error reason" is set to "Assistance Data Missing", then this is not counted in the total number of MEASUREMENT REPORT messages sent.
If the IE "Periodical reporting criteria on secondary UL frequency" is received by the UE, the UE shall:
1>	store the contents of the IE in the variable MEASUREMENT_IDENTITY; and
1>	apply the configurations given by the IE for the downlink frequency indicated by the IE "Frequency info" in the IE "Periodical reporting criteria on secondary UL frequency" and associated with the secondary uplink frequency as described above.
8.6.7.9	Reporting Cell Status
If the IE "Reporting Cell Status" is received, the UE shall set the IE "Measured Results" in MEASUREMENT REPORT as follows. The UE shall:
1>	for intra-frequency measurement and inter-frequency measurement:
2>	include the IE "Cell Measured Results" for cells (excluding cells of another RAT) that satisfy the condition (such as "Report cells within active set") specified in the IE "Reporting Cell Status", in descending order by the measurement quantity.
2>	the maximum number of the IE "Cell Measured Results" to be included in the IE "Measured Results" per reported frequency is the number specified in the IE "Reporting Cell Status".
1>	for periodic inter-frequency measurement:
2>	include in the IE "Inter-frequency measured results list" the measured results for all non-used frequencies.
1>	for inter-RAT measurement:
2>	include the measurement results for cells of other RAT (e.g., GSM or E-UTRA) that satisfy the condition specified in the IE "Reporting Cell Status", in descending order by the measurement quantity.
2>	the maximum number of the IE "Measured GSM Cells" to be included in the IE "Measured Results" is the number specified in the IE "Reporting Cell Status"; or:
2>	the maximum number of the IE "Measured E-UTRA Cells" to be included in the IE "E-UTRA measured results" is the number specified in the IE "Reporting Cell Status".
If the IE "Reporting Cell Status" in the IE "Intra-frequency measurement reporting criteria on secondary UL frequency" is received, the UE shall set the IE "Measured Results on Secondary UL frequency" in MEASUREMENT REPORT as follows. The UE shall:
1>	for intra-frequency measurement:
2>	include the IE "Cell Measured Results" in the IE "Measured results on secondary UL frequency" for cells (excluding cells of another RAT) that satisfy the condition (such as "Report cells within active set") specified in the IE "Reporting Cell Status" in the IE "Intra-frequency measurement reporting criteria on secondary UL frequency", in descending order by the measurement quantity.
2>	the maximum number of the IE "Cell Measured Results" in the IE "Measured results on secondary UL frequency" to be included in the IE "Measured Results on Secondary UL frequency" per reported frequency is the number specified in the IE "Reporting Cell Status" in the IE "Intra-frequency measurement reporting criteria on secondary UL frequency".
If the IE "Reporting Cell Status" in the IE "Periodical reporting criteria on secondary UL frequency" is received, the UE shall set the IE "Measured Results on Secondary UL frequency" in MEASUREMENT REPORT as follows. The UE shall:
1>	include the IE "Cell Measured Results" in the IE "Measured results on secondary UL frequency" for cells (excluding cells of another RAT) that satisfy the condition (such as "Report cells within active set") specified in the IE "Reporting Cell Status" in the IE "Periodical reporting criteria on secondary UL frequency", in descending order by the measurement quantity.
1>	the maximum number of the IE "Cell Measured Results" in the IE "Measured results on secondary UL frequency" to be included in the IE "Measured Results on Secondary UL frequency" per reported frequency is the number specified in the IE "Reporting Cell Status" in the IE "Periodical reporting criteria on secondary UL frequency".
If the IE "Reporting Cell Status" is not received for intra-frequency, inter-frequency measurement, or inter-RAT measurement, the UE shall:
1>	for intra-frequency measurement, inter-frequency measurement and inter-RAT measurement:
2>	exclude the IE "Measured Results" in MEASUREMENT REPORT.
NOTE:	The IE "Reporting Cell Status" within "Event Criteria List" defines whether "Cell Measured Results" is present for event-based reporting.
If the IE "Reporting Cell Status" in the IE "Intra-frequency measurement reporting criteria on secondary UL frequency" is not received for intra-frequency, the UE shall:
1>	for intra-frequency measurement:
2>	exclude the IE "Measured Results on Secondary UL frequency" in MEASUREMENT REPORT.
If the IE "Reporting Cell Status" in the IE “Periodical reporting criteria on secondary UL frequency” is not received, the UE shall:
1>	exclude the IE "Measured Results on Secondary UL frequency" in MEASUREMENT REPORT.
The IE "Reporting Cell Status" is not included in System Information Block 11/12 for periodic intra-frequency measurements. In this case the UE shall assume the default values "Report cells within active set and/or monitored set on used frequency" and "6".
8.6.7.10	Traffic Volume Measurement
If the IE "Traffic Volume Measurement" is received by the UE, the UE shall:
1>	store the content of the IE to the variable MEASUREMENT_IDENTITY.
If IE "Traffic volume measurement" is received by the UE in a MEASUREMENT CONTROL message, where IE "Measurement command" has the value "setup", and if the IE "traffic volume reporting quantity" is included, the UE shall:
1>	if the parameter "Average of RLC Buffer Payload for each RB" or the parameter "Variance of RLC Buffer payload for each RB" is set to TRUE:
2>	if the IE "Traffic volume measurement quantity" is not included:
3>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
2>	if the IE "Traffic volume measurement quantity" is included:
3>	if the parameter "time interval to take an average or a variance" is not included:
4>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
If IE "Traffic volume measurement" is received by the UE in a MEASUREMENT CONTROL message, where IE "Measurement command" has the value "setup", but IE "Traffic volume reporting quantity" or is not received, the UE shall:
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
8.6.7.11	Traffic Volume Measurement Reporting Criteria
If the IE "Traffic Volume Measurement Reporting Criteria" is received by the UE, the UE shall:
1>	if the IE "Parameters sent for each transport channel" is absent:
2>	set the variable PROTOCOL_ERROR_REJECT to TRUE;
2>	set the IE "Protocol error cause" in the variable PROTOCOL_ERROR_INFORMATION to "Information element missing".
1>	for each IE "Parameters sent for each transport channel":
2>	if the IE "Parameters required for each Event" is absent:
3>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
8.6.7.12	FACH measurement occasion info
IE "FACH measurement occasion info" is used to control UE measurement activities in inter-frequency and inter-RAT cells in CELL_FACH state.
For FDD and 1.28 Mcps TDD when variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to FALSE, or for 3.84Mcps TDD and 7.68Mcps TDD: if IE "FACH measurement occasion info" is received, UE shall, when in CELL_FACH state:
1>	if IE "FACH Measurement occasion cycle length coefficient" is included:
2>	if, according to its measurement capabilities, UE is not able to perform some of the indicated measurements in this IE simultaneously as receiving the SCCPCH of serving cell:
3>	perform those measurements during FACH measurement occasions, see subclause 8.5.11.
2>	if, according to its measurement capabilities, UE is able to perform some of the indicated measurements in this IE simultaneously as receiving the SCCPCH of serving cell:
3>	UE may perform measurements also on other occasions.
2>	if, according to its measurement capabilities, UE is able to perform the measurements and indicated in this IE simultaneously as receiving the SCCPCH of serving cell:
3>	perform the measurements simultaneously as receiving the SCCPCH of serving cell.
1>	if IE "FACH Measurement occasion cycle length coefficient" is not included:
2>	perform those indicated measurements indicated in this IE that UE, according to its measurement capabilities, is able to perform simultaneously as receiving the SCCPCH of serving cell.
1>	if IE "Inter-frequency FDD measurement indicator" is set to TRUE:
2>	perform measurements and evaluate cell re-selection criteria according to [4] on inter-frequency FDD cells listed in "System Information Block type 11", "System Information Block type 11bis", "System Information Block type 11ter", if scheduled on BCH, and "System Information Block type 12", if scheduled on BCH.
1>	if IE "Inter-frequency FDD measurement indicator" is set to FALSE:
2>	neither perform measurements nor evaluate cell re-selection criteria on inter-frequency FDD cells.
1>	if IE "Inter-frequency TDD measurement indicator" is set to TRUE:
2>	perform measurements and evaluate cell re-selection criteria according to [4] on inter-frequency TDD cells listed in "System Information Block type 11", "System Information Block type 11bis", "System Information Block type 11ter", if scheduled on BCH, and "System Information Block type 12", if scheduled on BCH.
1>	if IE "Inter-frequency TDD measurement indicator" is set to FALSE:
2>	neither perform measurements nor evaluate cell re-selection criteria on inter-frequency TDD cells.
1>	if IE "Inter-RAT measurement indicators" is included:
2>	perform measurements and evaluate cell re-selection criteria according to [4] on those cells of listed Inter-RAT types/layers that are present in "System Information Block type 11", "System Information Block type 11bis", if scheduled on BCH, "System Information Block type 12", if scheduled on BCH, and "System Information Block type 19", if scheduled on BCH.
For FDD and 1.28 Mcps TDD when variable HS_DSCH_RECEPTION_CELL_FACH_STATE is set to TRUE: if IE "FACH measurement occasion info" is received, UE shall:
1>	if IE "FACH Measurement occasion cycle length coefficient" is included:
2>	if, according to its measurement capabilities, the UE is not able to perform some of the indicated measurements in this IE simultaneously as receiving the HS-DSCH and its associated physical channels of serving cell:
3>	perform those measurements during FACH measurement occasions, see subclause 8.5.11.
2>	if, according to its measurement capabilities, the UE is able to perform some of the indicated measurements in this IE simultaneously as receiving the HS-DSCH and its associated physical channels of serving cell:
3>	the UE may perform measurements also on other occasions.
2>	if, according to its measurement capabilities, the UE is able to perform the measurements and indicated in this IE simultaneously as receiving the HS-DSCH and its associated physical channels of serving cell:
3>	perform the measurements simultaneously as receiving the HS-DSCH and its associated physical channels of serving cell.
1>	if IE "FACH Measurement occasion cycle length coefficient" is not included:
2>	perform those indicated measurements indicated in this IE that UE, according to its measurement capabilities, is able to perform simultaneously as receiving the HS-DSCH and its associated physical channels of serving cell.
1>	if IE "Inter-frequency FDD measurement indicator" is set to TRUE:
2>	perform measurements and evaluate cell re-selection criteria according to [4] on inter-frequency FDD cells listed in "System Information Block type 11", "System Information Block type 11bis", "System Information Block type 11ter", if scheduled on BCH, and "System Information Block type 12", if scheduled on BCH.
1>	if IE "Inter-frequency FDD measurement indicator" is set to FALSE:
2>	neither perform measurements nor evaluate cell re-selection criteria on inter-frequency FDD cells.
1>	if IE "Inter-RAT measurement indicators" is included:
2>	perform measurements and evaluate cell re-selection criteria according to [4] on those cells of listed Inter-RAT types/layers that are present in "System Information Block type 11", "System Information Block type 11bis", if scheduled on BCH, "System Information Block type 12", if scheduled on BCH, and "System Information Block type 19", if scheduled on BCH.
8.6.7.13	Measurement Reporting Mode
If IE "Measurement Reporting Mode" is received by the UE, the UE shall:
1>	store the contents of the IE "Measurement Report Transfer Mode" in the variable MEASUREMENT_IDENTITY;
1>	use the indicated RLC mode when sending MEASUREMENT REPORT message(s) related to this measurement;
1>	ignore IE "Periodical Reporting / Event Trigger Reporting Mode".
If IE "Measurement Reporting Mode" is not received by the UE in MEASUREMENT CONTROL message, where IE "Measurement command" has the value "setup", the UE shall:
1>	clear all stored measurement control information related associated to this measurement identity in variable MEASUREMENT_IDENTITY;
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
8.6.7.14	Inter-frequency measurement
If the Inter-frequency cell info list, included in the variable CELL_INFO_LIST, includes a number (M) of frequencies that is larger than the number (N) considered in a UE performance requirement defined in [19] and [20]:
1>	the UE shall:
2>	meet this performance requirement on the first relevant (N) frequencies, according to the order defined by the position of the frequencies in the Inter-frequency cell info list, included in the variable CELL_INFO_LIST.
1>	the UE may:
2>	ignore the remaining (M-N) frequencies.
NOTE:	If the variable SECONDARY_CELL_E_DCH_TRANSMISSION is TRUE, the relevant (N) frequencies do not include the downlink frequency associated with the secondary uplink frequency.
If IE "Inter-frequency measurement" is received by the UE in a MEASUREMENT CONTROL message, where IE "Measurement command" has the value "setup", but IE "Inter-frequency measurement quantity", IE "Inter-frequency reporting quantity" or IE "parameters required for each event" (given "CHOICE Report criteria" is set to "inter-frequency measurement reporting criteria") is not received, the UE shall:
1>	clear all stored measurement control information related associated to this measurement identity in variable MEASUREMENT_IDENTITY;
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
If IE "Inter-frequency measurement" is received by the UE in a MEASUREMENT CONTROL message, where IE "Measurement command" has the value "modify":
1>	if CHOICE "Report criteria" in IE "Inter-frequency measurement" is set to "intra-frequency measurement reporting criteria" and IE "parameters required for each event" is present:
2>	for FDD, 3.84 Mcps TDD and 7.68 Mcps TDD; or
2>	for 1.28 Mcps TDD, if the UE uses only one frequency:
3>	the UE behaviour is unspecified.
If IE "Inter-frequency measurement" is received by the UE in a MEASUREMENT CONTROL message, where IE "Measurement command" has the value "setup" and CHOICE "Report criteria" in IE "Inter-frequency measurement" is set to "intra-frequency measurement reporting criteria":
1>	for FDD, 3.84 Mcps TDD and 7.68 Mcps TDD; or
1>	for 1.28 Mcps TDD, if the UE uses only one frequency:
2>	the UE behaviour is unspecified.
In the case of an inter-frequency measurement for FDD, the UE shall:
1>	if IE "Inter-frequency measurement" is received by the UE in a MEASUREMENT CONTROL message, where IE "Measurement command" has the value "setup", if an inter-frequency event is configured that is different from event 2d or 2f, and if at least one frequency other than the downlink frequency associated with the secondary uplink frequency is configured, and if the IE "Inter-frequency SET UPDATE" is not received in that same message:
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
NOTE:	The UTRAN should include the IE "Inter-frequency SET UPDATE" in the MEASUREMENT CONTROL message with the IE "Measurement command" set to "modify" when event 2a, 2b, 2c 2e or 2g is first configured, and when the UE is requested to measure a frequency other than the downlink frequency associated with the secondary uplink frequency that has not been previously measured. Otherwise the UE behaviour is unspecified.
If IE "Inter-frequency measurement" is received by the UE in a MEASUREMENT CONTROL message:
1>	if CHOICE "Report criteria" is set to "inter-frequency measurement reporting criteria" and CHOICE "reporting criteria" in "inter-frequency measurement quantity" is not set to "inter-frequency reporting criteria"; or
1>	if CHOICE "Report criteria" is set to "intra-frequency measurement reporting criteria" and CHOICE "reporting criteria" in "inter-frequency measurement quantity" is not set to "intra-frequency reporting criteria":
2>	for FDD, 3.84 Mcps TDD and 7.68 Mcps TDD; or
2>	for 1.28 Mcps TDD, if the UE uses only one frequency:
3>	the UE behaviour is not specified.
1>	for FDD, if CHOICE "Report criteria" is set to "inter-frequency measurement reporting criteria" and "Cells to be excluded in non-used frequency detected cells" is received, and if the UE supports Inter-frequency detected set measurements and Cells excluded from detected set measurements,
2>	for each non-used frequency, the UE shall:
3>	if there is no stored "Cells to be excluded in non-used frequency detected cells" for the indicated non-used frequency:
4>	store the "Cells to be excluded in non-used frequency detected cells" for that non-used frequency and the associated "measurement identity" of the received message.
3>	else, if the "Cells to be excluded in non-used frequency detected cells" for the indicated non-used frequency has been stored:
4>	overwrite the stored value with the newly received "Cells to be excluded in non-used frequency detected cells" for that non-used frequency and corresponding "measurement identity".
If the variable CONFIGURATION_INCOMPLETE is set to TRUE, the UE shall:
1>	act as described in subclause 8.4.1.4a.
8.6.7.15	Inter-RAT measurement
If the Inter-RAT cell info list, included in the variable CELL_INFO_LIST, includes a number (M) of frequencies that is larger than the number (N) considered in a UE performance requirement defined in [19] and [20]:
1>	the UE shall:
2>	meet this performance requirement on the first relevant (N) frequencies, according to the order defined by the position of the frequencies in the Inter-RAT cell info list, included in the variable CELL_INFO_LIST.
1>	the UE may:
2>	ignore the remaining (M-N) frequencies.
If IE "Inter-RAT measurement" is received by the UE in a MEASUREMENT CONTROL message, where IE "Measurement command" has the value "setup", but IE "Inter-RAT measurement quantity", IE "Inter-RAT reporting quantity" or "parameters required for each event" (given "CHOICE Report criteria" is set to "inter-RAT measurement reporting criteria") is not received, the UE shall:
1>	clear all stored measurement control information related associated to this measurement identity in variable MEASUREMENT_IDENTITY;
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
8.6.7.16	Intra-frequency measurement
If IE "Intra-frequency measurement" is received by the UE in a MEASUREMENT CONTROL message, where IE "Measurement command" has the value "setup", but IE "Intra-frequency measurement quantity", IE "Intra-frequency reporting quantity", "CHOICE Report criteria" or "parameters required for each event" (given "CHOICE report criteria" is set to "intra-frequency measurement reporting criteria") is not received, the UE shall:
1>	clear all stored measurement control information related associated to this measurement identity in variable MEASUREMENT_IDENTITY;
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
In case of 1a or 1e event-triggered reporting:
1>	if the IE "Intra-frequency measurement quantity" is set to "pathloss", the UE shall:
2>	if detected set cells are indicated as possibly triggering the event within the IEs "Triggering condition 2":
3>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
In case of 1a or 1e event-triggered reporting on the secondary uplink frequency:
1>	if the IE "Intra-frequency measurement quantity" is set to "pathloss", the UE shall:
2>	if detected set cells are indicated as possibly triggering the event within the IEs "Triggering condition 2" in the IE "Intra-frequency measurement reporting criteria on secondary UL frequency":
3>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
If the IE "Intra-frequency measurement" is received by the UE in a MEASUREMENT CONTROL message:
1>	for FDD, if CHOICE "Report criteria" is set to "Intra-frequency measurement reporting criteria" and "Cells to be excluded in detected set cells" is received, and if the UE supports Cells excluded from detected set measurements, the UE shall:
2>	if there is no stored "Cells to be excluded in detected set cells" for the intra-frequency:
3>	store the "Cells to be excluded in detected set cells" for the intra-frequency and the associated "measurement identity" of the received message.
2>	else, if the "Cells to be excluded in detected set cells" has been stored for the intra-frequency:
3>	overwrite the stored value with the newly received "Cells to be excluded in detected set cells" for the intra-frequency and corresponding "measurement identity".
8.6.7.17	Quality measurement
If IE "Quality measurement" is received by the UE in a MEASUREMENT CONTROL message, where IE "Measurement command" has the value "setup", but IE "Quality reporting quantity" is not received, the UE shall:
1>	clear all stored measurement control information related associated to this measurement identity in variable MEASUREMENT_IDENTITY;
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
If Transport Channel BLER reporting is requested in IE "Quality Reporting Quantity", but no transport channels are explicitly referenced with transport channel identities, the UE shall
1>	report BLER for all downlink transport channels, for which Transport Channel BLER is defined and can be requested [7, 8].
If a transport channel, for which Transport Channel BLER is not defined and can not be requested [7, 8], is referenced with a transport channel identity in IE "Quality Reporting Quantity" and/or IE "Quality Measurement Reporting Criteria":
1>	the UE behaviour is not specified.
8.6.7.18	UE internal measurement
If IE "UE internal measurement" is received by the UE in a MEASUREMENT CONTROL message, where IE "Measurement command" has the value "setup", but IE "UE internal measurement quantity", IE "UE internal reporting quantity" or "parameters sent for each UE internal measurement event" (given "CHOICE report criteria" is set to "UE internal measurement reporting criteria") is not received, the UE shall:
1>	clear all stored measurement control information related associated to this measurement identity in variable MEASUREMENT_IDENTITY;
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
8.6.7.18a	Void

8.6.7.19	UE positioning
8.6.7.19.0	UE positioning reporting criteria
If IE "UE positioning reporting criteria" is included, the UE shall:
1>	perform the necessary measurements and evaluate the event in the interval indicated in IE "Measurement Interval";
1>	if IE "Event ID" is set to "7a" and if IE "Report first fix" is set to TRUE:
2>	if the IE "Method Type" included in the variable MEASUREMENT_IDENTITY is set to "UE based":
3>	act as specified in subclause 8.6.7.19.1b.
8.6.7.19.1	UE positioning reporting quantity
The UE shall:
1>	ignore IE "Multiple Sets";
1>	ignore IE "Response Time";
1>	if IE "Horizontal Accuracy" and/or IE "Vertical Accuracy" is included:
2>	should try to achieve the requested level(s) of positioning accuracy with 67% confidence.
1>	if IE "Positioning Methods" is set to "Cell ID":
2>	act as specified in subclause 8.6.7.19.1a.
1>	if the IE "Method Type" is set to "UE based":
2>	if the IE "Positioning Methods" is set to "GPS"; and 
2>	if the IE "Additional Assistance Data Request" is set to FALSE; and
2>	if the IE "UE positioning GPS assistance data" is not received in the MEASUREMENT CONTROL message; and
2>	if, according to its UE positioning capabilities, the UE supports a standalone positioning method:
3>	use the standalone positioning method.
2>	if the IE "Additional Positioning Methods" is present indicating any Additional Positioning methods allowed; and
2>	if, according to its UE positioning capabilities, the UE supports a standalone positioning method:
3>	use the standalone positioning method.
2>	act as specified in subclause 8.6.7.19.1b.
1>	if the IE "Method Type" is set to "UE assisted":
2>	act as specified in subclause 8.6.7.19.1a.
1>	if the IE "Method Type" is set to "UE-assisted preferred but UE-based allowed" or "UE-based preferred but UE-assisted allowed":
2>	act either according to subclause 8.6.7.19.1a or 8.6.7.19.1b depending on the method type chosen by the UE.
If UE according to its capabilities supports Rx-Tx time difference type 2 measurement and if IE "Positioning Methods" is set to "Cell ID" and the IE "Method Type" is set to "UE-based", the UE shall:
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
If UE according to its capabilities supports Rx-Tx time difference type 2 measurement and if IE "Positioning Methods" is set to "Cell ID" and the IE "Measurement validity" stored in the variable MEASUREMENT_IDENTITY is other than "CELL_DCH", the UE shall:
1>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
The UE shall perform the following consistency check:
1>	if UE, according to its capabilities, does not support UE-based OTDOA and if IE "Positioning Methods" is set to "OTDOA" and if IE "Method Type" is set to "UE-based":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support UE-assisted OTDOA and if IE "Positioning Methods" is set to "OTDOA" and if IE "Method Type" is set to "UE-assisted":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support UE-based GPS and does not support a standalone positioning method and if IE "Positioning Methods" is set to "GPS" and if the IE "GANSS Positioning Methods" is not present and if IE "Method Type" is set to "UE-based":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support UE-assisted GPS and if the IE "GANSS Positioning Methods" is not present and if IE "Positioning Methods" is set to "GPS" and if IE "Method Type" is set to "UE-assisted":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support UE-based positioning and if IE "Positioning Methods" is set to "OTDOAorGPS" and if IE "Method Type" is set to "UE-based":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support UE-based GANSS and if IE "Positioning Methods" is set to "GPS" and if IE "GANSS Positioning Methods" is present and if IE "Method Type" is set to "UE-based":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support UE-assisted GANSS and if IE "Positioning Methods" is set to "GPS" and if IE "GANSS Positioning Methods" is present and if IE "Method Type" is set to "UE-assisted":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if IE "Positioning Methods" is set to "GPS" and if IE "GANSS Positioning Methods" is present and if UE, according to its capabilities, does not support any GNSS indicated in  IE "GANSS Positioning Methods:
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support Rx-Tx time difference type 2 measurement and if IE "Positioning Methods" is set to "Cell ID":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support UE GPS timing of cell frames measurement and if IE "GPS timing of Cell wanted" is set to TRUE:
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support the standalone Barometric Pressure positioning method and if IE "Additional Positioning Methods"  is present and has the bit set to ‘1’ for "Barometric Pressure" and if the "Method Type" is set to "UE-based":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support the UE-Assisted Barometric Pressure positioning method and if IE "Additional Positioning Methods"  is present and has the bit set to ‘1’ for "Barometric Pressure" and if the "Method Type" is set to "UE-assisted":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support the standalone WLAN positioning method and if IE "Additional Positioning Methods"  is present and has the bit set to ‘1’ for "WLAN" and if the "Method Type" is set to "UE-based":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support the UE-Assisted WLAN positioning method and if IE "Additional Positioning Methods"  is present and has the bit set to ‘1’ for "WLAN" and if the "Method Type" is set to "UE-assisted":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support the standalone Bluetooth positioning method and if IE "Additional Positioning Methods"  is present and has the bit set to ‘1’ for "Bluetooth" and if the "Method Type" is set to "UE-based":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support the UE-Assisted Bluetooth positioning method and if IE "Additional Positioning Methods"  is present and has the bit set to ‘1’ for "Bluetooth" and if the "Method Type" is set to "UE-assisted":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support the standalone MBS positioning method and if IE "Additional Positioning Methods"  is present and has the bit set to ‘1’ for "MBS" and if the "Method Type" is set to "UE-based":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if UE, according to its capabilities, does not support the UE-Assisted MBS positioning method and if IE "Additional Positioning Methods"  is present and has the bit set to ‘1’ for "MBS" and if the "Method Type" is set to "UE-assisted":
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
8.6.7.19.1a	UE positioning reporting for UE assisted methods
The UE shall:
1>	when a measurement report is triggered:
2>	if the UE was able to perform measurements on at least one neighbour cell included in the variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED in case of OTDOA or one satellite included in the variable UE_POSITIONING_GPS_DATA in case of GPS positioning or one satellite included in the variable UE_POSITIONING_GANSS_DATA in case of GANSS positioning or one cell from the active set in case of CELL ID or if the UE was able to perform measurements for at least one additional positioning method from the IE "Additional Positioning Methods":
3>	if the IE "Vertical Accuracy" is included:
4>	interpret the presence of this IE to indicate that the UTRAN desires to compute a 3-dimensional position estimate.
3>	if the IE "Positioning Methods" is set to "GPS" and if the IE "GANSS Positioning Methods" is not present or if the IE "GANSS Positioning Methods" is present indicating GPS allowed:
4>	include the IE "UE positioning GPS measured results" in the measurement report and set the contents of the IE as follows:
5>	if the UE supports the capability to provide the GPS timing of the cell frames measurement:
6>	if the IE "GPS timing of Cell wanted" is set to TRUE:
7>	perform the UE GPS timing of cell frames measurement on the serving cell or on one cell of the active set.
7>	include the IE "Primary CPICH Info" for FDD or the IE "cell parameters id" for TDD; and
7>	include the IE "Reference SFN", the IE "UE GPS timing of cell frames" and the IE "UE Positioning GPS Reference Time Uncertainty".
6>	if the IE "GPS timing of Cell wanted" is set to FALSE:
7>	include the IE "GPS TOW msec" and set it to the GPS TOW when the measurements included in the MEASUREMENT REPORT were valid;
7>	include the IE "UE Positioning GPS Reference Time Uncertainty" and set it to the uncertainty of the GPS TOW when the measurements included in the MEASUREMENT REPORT were valid.
5>	if the UE does not support the capability to provide the GPS timing of the cell:
6>	include the IE "GPS TOW msec" and set it to the GPS TOW when the measurements included in the MEASUREMENT REPORT were valid;
6>	include the IE "UE Positioning GPS Reference Time Uncertainty" and set it to the uncertainty of the GPS TOW when the measurements included in the MEASUREMENT REPORT were valid.
3>	if the IE "Positioning Methods" is set to "GPS" and the IE "GANSS Positioning Methods" is present indicating other GNSS than GPS allowed and if any of these other GNSSs is measured:
4>	include the IE "UE positioning GANSS measured results" in the measurement report and set the contents of the IE as follows:
5>	if the UE supports the capability to provide the GANSS timing of the cell frames measurement:
6>	if the IE "GANSS timing of Cell wanted" is included with one bit set to value one for a supported GANSS and if IE "UE GPS timing of cell frames" is not present:
7>	perform the UE GANSS timing of cell frames measurement on the serving cell or on one cell of the active set;
7>	include the IE "Primary CPICH Info" for FDD or the IE "cell parameters id" for TDD; and
7>	include the IE "Reference SFN" and the IE "UE GANSS timing of cell frames".
6>	if the IE "GANSS timing of Cell wanted" is not included, or included with each bit set to value zero and if IE “UE positioning GPS measured results” is not present:
7>	include the IE "GANSS TOD msec" and set it to the GANSS TOD when the measurements included in the MEASUREMENT REPORT were valid.
5>	if the UE does not support the capability to provide the GANSS timing of the cell and if IE "UE positioning GPS measured results" is not present:
6>	include the IE "GANSS TOD msec" and set it to the GANSS TOD when the measurements included in the MEASUREMENT REPORT were valid.
5>	if the UE supports the capability to provide the GANSS carrier-phase measurements:
6>	if the IE "GANSS Carrier-Phase Measurement Requested" is included with one bit set to value one for a supported GANSS:
7>	include the IE "Carrier Quality Indication” and include the IE "ADR".
5>	if the UE supports the capability to perform GANSS measurements on multiple GANSS frequencies:
6>	if the IE "GANSS Multi-frequency Measurement Requested" is included with one bit set to value one for a supported GANSS, and if any of these GANSS signals are measured:
7>	include the IE "GANSS Signal Measurement Information" for each measured GANSS signal.
3>	if the IE "Positioning Methods" is set to "OTDOA":
4>	include the IE "UE positioning OTDOA measured results " in the measurement report and set the contents of the IE as follows:
5>	set IE "SFN" to the SFN when the last measurement was performed;
5>	if the UE supports the capability to perform the Rx-Tx time difference type 2 measurement:
6>	if the UE is in CELL_DCH state:
7>	if the measured value is equal to "1279.9375":
8>	set the IE "Rx-Tx time difference type 2" in IE "UE positioning OTDOA measured results" for the reference cell to "1279.8750".
7>	otherwise:
8>	set the IE "Rx-Tx time difference type 2" in IE "UE positioning OTDOA measured results" for the reference cell to the measured value.
7>	include the IE group "Rx-Tx time difference type 2 info" for the reference cell and for each neighbour cell listed in variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED that belongs to the active set.
5>	if the UE does not support the capability to perform the Rx-Tx time difference type 2 measurement:
6>	set the IE "Rx-Tx time difference type 2" in IE "UE positioning OTDOA measured results" for the reference cell to value "1279.9375" to indicate that the measurement is not supported.
4>	include IE group "Neighbour" for all neighbour cells listed in variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED on which the SFN-SFN observed time difference type 2 measurement could be performed.
3>	if IE "Positioning Methods" in the MEASUREMENT CONTROL message has been assigned to value "OTDOA or GPS":
4>	the UE may choose to either act as if IE "Positioning Methods" is set to "GPS" or "OTDOA" depending on the method chosen by the UE.
3>	if the IE "Positioning Methods" is set to "CELL ID":
4>	if the UE supports the capability to perform the Rx-Tx time difference type 2 measurement; and
4>	if the UE is in CELL_DCH state:
5>	perform the Rx-Tx time difference type 2 measurement on the cells in the active set; and
5>	report the measurement results back to the network in the MEASUREMENT REPORT by using IE "UE positioning OTDOA measured results" including measurements on the cells in the active set; and
5>	report Rx-Tx time difference type 2 measurement of the reference cell (as designated by the UE); and
5>	for all reported neighbour cells:
6>	report Rx-Tx time difference type 2 measurement; and
6>	set the IE "SFN-SFN observed time difference type 2" and all IEs within the corresponding IE "UE positioning OTDOA quality" in IE "UE positioning OTDOA measured results" to value "0".
3>	if the IE "Additional Positioning Methods" is present indicating any Additional Positioning method allowed and if any of these Additional Positioning methods is measured:
4>	include the IE "UE positioning AddPos measured results" in the measurement report and set the contents of the IE according to the measured Additional Positioning method(s).
2>	if the UE is not able to report the requested measurement results:
3>	include IE "UE positioning error" in the MEASUREMENT REPORT and set the contents of this IE as specified in subclause 8.6.7.19.5.
1>	if the UE is unable to report the requested measurement results due to missing GPS assistance data:
2>	the UE may at anytime send a measurement report containing the IE "UE positioning error" and set the contents of this IE as specified in subclause 8.6.7.19.5.
2>	after sending the measurement report, the UE shall not send another measurement report to request the same GPS assistance data for at least 20s. This requirement does not apply after release of the current RRC connection. 
1>	if the UE is unable to report the requested measurement results due to missing GANSS assistance data:
2>	the UE may at anytime send a measurement report containing the IE "UE positioning error" and set the contents of this IE as specified in subclause 8.6.7.19.5;
2>	after sending the measurement report, the UE shall not send another measurement report to request the same GANSS assistance data for at least 20s. This requirement does not apply after release of the current RRC connection.
8.6.7.19.1b	UE positioning reporting for UE based methods
The UE shall:
1>	when a measurement report is triggered:
2>	if the UE has been able to calculate a position after performing measurements on the cells included in the variable UE_POSITIONING_OTDOA_DATA_UE_BASED in case of OTDOA or the UE has been able to calculate a position in case of GPS or GANSS positioning or the UE has been able to calculate a position using a standalone positioning method:
3>	include IE "UE positioning Position Estimate Info" in the MEASUREMENT REPORT and set the contents of the IE as follows:
4>	if the UE supports the capability to perform the UE GPS timing of cell frames measurement:
5>	if the IE "GPS timing of Cell wanted" is set to TRUE:
6>	perform the UE GPS timing of cell frames measurement on the serving cell or on one cell of the active set.
6>	include the IE "Primary CPICH Info" for FDD or the IE "cell parameters id" for TDD;
6>	include the SFN when the position was determined;
6>	include the IE "UE GPS timing of cell frames";
6>	include the IE "UE Positioning GPS Reference Time Uncertainty".
5>	if the IE "GPS timing of Cell wanted" is set to FALSE:
6>	include the IE "GPS TOW msec" and set it to the GPS TOW when the position estimate was valid.
4>	if the position was calculated with GPS; and
4>	the UE does not support the capability to provide the GPS timing of the cell:
5>	include the IE "GPS TOW msec" and set it to the GPS TOW when the position estimate was valid.
4>	if the UE supports the capability to provide the GANSS timing of the cell frames measurement:
5>	if the IE "GANSS timing of Cell wanted" is included with one bit set to value one for a supported GANSS:
6>	perform the UE GANSS timing of cell frames measurement on the serving cell or on one cell of the active set;
6>	include the IE "GANSS Time ID" to identify the GNSS system time;
6>	include the IE "Primary CPICH Info" for FDD or the IE "cell parameters id" for TDD; and
6>	include the IE "Reference SFN" and the IE "UE GANSS timing of cell frames".
5>	if the IE "GANSS timing of Cell wanted" is not included, or included with each bit set to value zero:
6>	include the IE "GANSS TOD msec" and set it to the GANSS TOD when the position estimate was valid.
4>	if the UE does not support the capability to provide the GANSS timing of the cell:
5>	include the IE "GANSS TOD msec" and set it to the GANSS TOD when the position estimate was valid;
5>	include the IE "GANSS Time ID" to identify the GNSS system time.
4>	if IE "Vertical Accuracy" has been included in IE "UE positioning reporting quantity":
5>	if the IE "Vertical Accuracy" has been assigned to value "0":
6>	if the IE "Horizontal Accuracy" has been assigned a value "0":
7>	may include IE "Ellipsoid point with altitude".
6>	if the IE "Horizontal Accuracy" has been assigned a value unequal to "0"; and
6>	if the UE has been able to calculate a 3-dimensional position
7>	include IE "Ellipsoid point with altitude" or IE "Ellipsoid point with altitude and uncertainty ellipsoid" as the position estimate.
6>	if the UE has not been able to calculate a 3-dimensional position:
7>	may act as if IE "Vertical Accuracy" was not included in IE "UE positioning reporting quantity".
5>	if the IE "Vertical Accuracy" has been assigned to a value unequal to "0":
6>	if the UE has been able to calculate a 3-dimensional position:
7>	include IE "Ellipsoid point with altitude and uncertainty ellipsoid" as the position estimate.
6>	if the UE has not been able to calculate a 3-dimensional position:
7>	act as if IE "Vertical Accuracy" has not been included in IE "UE positioning reporting quantity".
4>	if IE "Vertical Accuracy" has not been included in IE "UE positioning reporting quantity":
5>	if IE "Horizontal Accuracy" in IE "UE positioning reporting quantity" has been assigned to value "0":
6>	may include IE "Ellipsoid point".
5>	if IE "Horizontal Accuracy" in IE "UE positioning reporting quantity" has been assigned to a value unequal to 0:
6>	include either IE "Ellipsoid point with uncertainty circle" or IE "Ellipsoid point with uncertainty ellipse" or IE "Ellipsoid point with altitude and uncertainty ellipsoid" as the position estimate.
4>	if any of the IEs "Ellipsoid point with uncertainty ellipse" or "Ellipsoid point with altitude and uncertainty ellipsoid" is reported:
5>	should calculate a value of the IE "Confidence", different from "0", as the probability that the UE is located within the uncertainty region of the one of the IEs "Ellipsoid point with uncertainty ellipse" or "Ellipsoid point with altitude and uncertainty ellipsoid" that is reported.
NOTE:	The value "0" of the IE "Confidence" is interpreted as "no information" by the UTRAN [57].
4>	if IE "Velocity Requested"  has been included in IE "UE positioning reporting quantity":
5>	include IE "Velocity estimate" if supported and available.
4>	may include the IE "Location Time Stamp" set to the UTC Time when the position estimate was valid.
2>	if the UE was not able to calculate a position:
3>	include IE "UE positioning error" in the MEASUREMENT REPORT and set the contents of this IE as specified in subclause 8.6.7.19.5.
1>	if the UE is unable to calculate a position due to missing GPS assistance data:
2>	the UE may at any time send a measurement report containing the IE "UE positioning error" and set the contents of this IE as specified in subclause 8.6.7.19.5;
2>	after sending the measurement report, the UE shall not send another measurement report to request the same GPS assistance data for at least 20s. This requirement does not apply after release of the current RRC connection.
1>	if the UE is unable to report the requested measurement results due to missing GANSS assistance data:
2>	the UE may at anytime send a measurement report containing the IE "UE positioning error" and set the contents of this IE as specified in subclause 8.6.7.19.5;
2>	after sending the measurement report, the UE shall not send another measurement report to request the same GANSS assistance data for at least 20s. This requirement does not apply after release of the current RRC connection.
8.6.7.19.2	UE positioning OTDOA assistance data for UE-assisted
If IE "UE positioning OTDOA reference cell info for UE-assisted" is received in System Information Block type 15.4 or in the MEASUREMENT CONTROL message, the UE shall update the variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED accordingly. The UE shall:
1>	store received cell information in the UE positioning reference cell info in the variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED, overwriting any existing information.
If IE "UE positioning OTDOA neighbour cell list for UE-assisted" is received in System Information Block type 15.4 or in the MEASUREMENT CONTROL message, the UE shall update the variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED accordingly. The UE shall:
1>	store received cell information in the neighbour cell info list in the variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED, overwriting any existing information.
If, according to its capabilities, UE does not support IPDLs and if IE "IPDL parameters" is received for the reference or any of the neighbour cells, the UE shall:
1>	ignore this IE.
In 1.28 Mcps TDD, if the IE "IPDL parameters" is received and the UE supports IPDLs, the UE shall:
1>	ignore the IE IP_Slot;
1>	if the IE "IP_PCCPCH" is set to FALSE:
2>	configure the physical layer with IP_Sub to be first subframe according to [33].
1>	if the IE "IP_PCCPCH" is set to TRUE:
2>	configure the physical layer with IP_Sub to be second subframe according to [33].
1>	if the IE "IP_PCCPCH" is absent:
2>	configure the physical layer with IP_Sub to use both subframes according to [33].
If IE "SFN offset validity" is set to FALSE, the UE shall:
1>	ignore the IE "SFN offset".
If IE "UE positioning measurement" is received in the MEASUREMENT CONTROL message, the UE shall also perform the following consistency checks:
1>	if IE "Positioning Methods" is set to "OTDOA":
2>	if IE "UE positioning OTDOA reference cell info for UE-assisted" is not included and if UE positioning OTDOA reference cell info for UE-assisted in variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED is empty:
3>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if IE "Positioning Methods" is set to "OTDOA":
2>	if IE "UE positioning OTDOA neighbour cell list for UE-assisted" is not included and if less than two neighbour cells are stored in UE positioning OTDOA neighbour cell info list for UE-assisted in variable UE_POSITIONING_OTDOA_DATA_UE_ASSISTED:
3>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
8.6.7.19.2a	UE positioning OTDOA assistance data for UE-based
The UE shall:
1>	if IE "UE positioning OTDOA reference cell info for UE-based" is received in System Information Block type 15.5 or in the MEASUREMENT CONTROL message or in the ASSISTANCE DATA DELIVERY:
2>	update the variable UE_POSITIONING_OTDOA_DATA_UE_BASED accordingly;
2>	store received cell information in the UE positioning reference cell info for UE-based in the variable UE_POSITIONING_OTDOA_DATA_UE_BASED, overwriting any existing information.
1>	if IE "UE positioning OTDOA neighbour cell list for UE-based" is received in System Information Block type 15.5 or in the MEASUREMENT CONTROL message or in the ASSISTANCE DATA DELIVERY:
2>	update the variable UE_POSITIONING_OTDOA_DATA_UE_BASED accordingly;
2>	store received cell information in the neighbour cell info list for UE-based in the variable UE_POSITIONING_OTDOA_DATA_UE_BASED, overwriting any existing information.
1>	if, according to its capabilities, UE does not support IPDLs and if IE "IPDL parameters" is received for the reference or any of the neighbour cells:
2>	ignore this IE.
1>	in 1.28 Mcps TDD:
2>	if the IE "IPDL parameters" is received and the UE supports IPDLs:
3>	ignore the IE IP_Slot;
3>	if the IE "IP_PCCPCH" is set to FALSE:
4>	configure the physical layer with IP_Sub to be first subframe according to [33].
3>	if the IE "IP_PCCPCH" is set to TRUE:
4>	configure the physical layer with IP_Sub to be second subframe according to [33].
3>	if the IE "IP_PCCPCH" is absent:
4>	configure the physical layer with IP_Sub to use both subframes according to [33].
1>	if IE "SFN offset validity" is set to FALSE:
2>	ignore the IE "SFN offset".
1>	if IE "UE positioning measurement" is received in the MEASUREMENT CONTROL message:
2>	also perform the following consistency checks:
3>	if IE "Positioning Methods" is set to "OTDOA":
4>	if IE "UE positioning OTDOA reference cell info for UE-based" is not included and if UE positioning OTDOA reference cell info for UE-based in variable UE_POSITIONING_OTDOA_DATA_UE_BASED is empty:
5>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
3>	if IE "Positioning Methods" is set to "OTDOA":
4>	if IE "UE positioning OTDOA neighbour cell list for UE-based" is not included and if less than two neighbour cells are stored in UE positioning OTDOA neighbour cell info list for UE-based in variable UE_POSITIONING_OTDOA_DATA_UE_BASED:
5>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
4>	if IE "Method Type" is set to "UE based":
5>	if IE "UE positioning OTDOA reference cell info for UE-based" is included and if IE "Cell Position" for the reference cell is not included:
6>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
5>	if the IE "UE positioning OTDOA neighbour cell list for UE-based" is included and if cell position of less than two neighbour cells of the cells included in this IE and stored in variable UE_POSITIONING_OTDOA_DATA_UE_BASED are different; or
5>	if the IE "UE positioning OTDOA neighbour cell list for UE-based" is included and if cell position of only two neighbour cells of the cells included in this IE and stored in variable UE_POSITIONING_OTDOA_DATA_UE_BASED are different and if those cell positions are not different to the one of the reference cell stored in variable UE_POSITIONING_OTDOA_DATA_UE_BASED:
6>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
5>	if the IE "Round Trip Time" is neither included for the neighbour cells nor for the reference cell info; and
6>	if the IE "UE positioning OTDOA neighbour cell list for UE-based" is included and if cell position of only two neighbour cells of the cells included in this IE and stored in variable UE_POSITIONING_OTDOA_DATA_UE_BASED are different; or
6>	if the IE "UE positioning OTDOA neighbour cell list for UE-based" is included and if cell position of only three neighbour cells of the cells included in this IE and stored in variable UE_POSITIONING_OTDOA_DATA_UE_BASED are different and if those cell positions are not different to the one of the reference cell stored in variable UE_POSITIONING_OTDOA_DATA_UE_BASED:
7>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
8.6.7.19.3	UE positioning GPS assistance data
The UE may receive GPS assistance data in System Information Block types 15, 15.1, 15.2, or 15.3, or in the ASSISTANCE DATA DELIVERY message, or in the MEASUREMENT CONTROL message.
8.6.7.19.3.1	UE positioning GPS acquisition assistance
If the IE "UE positioning GPS acquisition assistance" is included, the UE shall:
1>	update the variable UE_POSITIONING_GPS_DATA as follows:
2>	delete all information currently stored in the IE "UE positioning GPS acquisition assistance" in the variable UE_POSITIONING_GPS_DATA;
2>	store the received acquisition assistance information in the IE "UE positioning GPS acquisition assistance" in the variable UE_POSITIONING_GPS_DATA;
2>	store the IE "GPS TOW msec" in the IE "UE positioning GPS acquisition assistance" in variable UE_POSITIONING_GPS_DATA and use it as an estimate of the GPS Time-of-Week at the time of reception of the complete message containing the IE "GPS TOW msec";
NOTE:	The UE does not need to apply any compensation on the GPS Time-of-Week.
1>	if the IEs "SFN" and "UTRAN GPS timing of cell frames" are included:
2>	if the UE is able to utilise these IEs:
3>	store these IEs in the IE "UE positioning GPS acquisition assistance" in variable UE_POSITIONING_GPS_DATA;
3>	if the IE "Primary CPICH Info" for FDD or IE "cell parameters id" for TDD is not included:
4>	if the UE is not in CELL_DCH state:
5>	use IEs "SFN" and "UTRAN GPS timing of cell frames" to estimate the relationship between GPS time and radio interface timing of the NODE B transmission in the serving cell.
5>	if the IE "UE Positioning GPS ReferenceTime Uncertainty" is included:
6>	store this IE in the IE "UE Positioning GPS acquisition assistance" in variable UE_POSITIONING_GPS_DATA and use it to determine the relationship between GPS time and air-interface timing of the NODE B transmission.
4>	if the UE is in CELL_DCH state:
5>	ignore IEs "SFN" and "UTRAN GPS timing of cell frames".
3>	if the IE "Primary CPICH Info" for FDD or IE "cell parameters id" for TDD is also included:
4>	store this IE in the IE "UE positioning acquisition assistance" in variable UE_POSITIONING_GPS_DATA;
4>	use IEs "SFN" and "UTRAN GPS timing of cell frames" to estimate the relationship between GPS time and air-interface timing of the NODE B transmission in the cell indicated by "Primary CPICH info" or "cell parameters id".
4>	if the IE "UE Positioning GPS ReferenceTime Uncertainty" is included:
5>	store this IE in the IE "UE Positioning GPS acquisition assistance" in variable UE_POSITIONING_GPS_DATA and use it to determine the relationship between GPS time and air-interface timing of the NODE B transmission.
1>	if the IE "Confidence" is included:
2>	store this IE in the IE "UE Positioning GPS acquisition assistance" in variable UE_POSITIONING_GPS_DATA and use it to determine the confidence level of the reference location area or volume used to calculate the acquisition assistance parameters (search windows).
1>	if the IE "Azimuth and Elevation LSB" is included:
2>	use the IEs "Azimuth" and "Azimuth LSB" to determine the visible satellites azimuth angles;
2>	use the IEs "Elevation" and "Elevation LSB" to determine the visible satellites elevation angles.
8.6.7.19.3.2	UE positioning GPS Almanac
If the IE "UE positioning GPS Almanac" is included, the UE shall:
1>	if the IE "SV Global Health" is included:
1>	store this IE in the IE in the IE "SV Global Health" in the IE "UE positioning GPS Almanac" in variable UE_POSITIONING_GPS_DATA.
1>	for each satellite:
2>	store received GPS almanac information at the position indicated by the IE "Sat ID" in the IE "UE positioning GPS Almanac" in the variable UE_POSITIONING_GPS_DATA, possibly overwriting any existing information in this position.
2>	interpret IE "Data ID" as the Data ID field contained in the indicated subframe, word 3, most significant 2 bits, as defined by [12];
2>	act on the rest of the IEs in a similar manner as specified in [12].
1>	if the IE "Complete Almanac Provided" is included:
2>	store this IE in the IE "Complete Almanac Provided" in the IE "UE positioning GPS Almanac" in variable UE_POSITIONING_GPS_DATA;
2>	use the IE "Complete Almanac Provided" to determine whether almanac is provided for all satellites in the GPS constellation (TRUE) or not (FALSE).
8.6.7.19.3.3	UE positioning D-GPS Corrections
If the IE "UE positioning GPS DGPS corrections" is included, the UE shall:
1>	update the variable UE_POSITIONING_GPS_DATA as follows:
2>	delete all information currently stored in the IE "UE positioning GPS DGPS corrections" in the variable UE_POSITIONING_GPS_DATA;
2>	store the received DGPS corrections in the IE "UE positioning GPS DGPS corrections" in the variable UE_POSITIONING_GPS_DATA.
1>	use IE "GPS TOW sec" to determine when the differential corrections were calculated;
1>	use IE "Status/Health" to determine the status of the differential corrections.
8.6.7.19.3.3a	UE positioning GPS Navigation Model
If the IE "UE positioning GPS Navigation Model" is included, for each satellite, the UE shall:
1>	use IE "Satellite Status" to determine if an update of IE "UE positioning GPS Ephemeris and Clock Correction parameters" has been provided for the satellite indicated by the IE "SatID";
1>	if an update has been provided for this satellite:
2>	act as specified in subclause 8.6.7.19.3.4.
8.6.7.19.3.4	UE positioning GPS Ephemeris and Clock Correction Parameters
If the IE "UE positioning GPS Ephemeris and Clock Correction parameters" is included, for each satellite, the UE shall:
1>	update the variable UE_POSITIONING_GPS_DATA as follows:
2>	store this IE at the position indicated by the IE "Sat ID" in the IE "UE positioning GPS Navigation Model" in the variable UE_POSITIONING_GPS_DATA, possibly overwriting any existing information in this position.
1>	act on these GPS ephemeris and clock correction parameters in a manner similar to that specified in [12].
8.6.7.19.3.5	UE positioning GPS ionospheric model
If IE "UE positioning GPS ionospheric model" is included, the UE shall:
1>	store this IE in the IE "UE positioning GPS ionospheric model" in variable UE_POSITIONING_GPS_DATA;
1>	act on these GPS ionospheric model parameters in a manner similar to that specified in [12].
8.6.7.19.3.6	UE positioning GPS real-time integrity
If this list of bad satellites is included, the UE shall:
1>	update the variable UE_POSITIONING_GPS_DATA as follows:
2>	add the Sat IDs that are not yet included in the list of satellites in the IE "UE positioning GPS real time integrity" in the variable UE_POSITIONING_GPS_DATA;
2>	remove all Sat IDs in the list of satellites in the IE "UE positioning GPS real time integrity" in the variable UE_POSITIONING_GPS_DATA that are not included in IE UE positioning GPS real time integrity.
1>	consider the data associated with the satellites identified in the variable UE_POSITIONING_GPS_DATA as invalid.
8.6.7.19.3.7	UE positioning GPS reference time
If the IE "UE positioning GPS reference time" is included, the UE shall:
1>	store the IE "GPS Week" in "UE positioning GPS reference time" in variable UE_POSITIONING_GPS_DATA and use it as the current GPS week;
1>	if the IE "GPS Week Cycle Number" is included:
2>	store the IE "GPS Week Cycle Number" in "UE positioning GPS reference time" in variable UE_POSITIONING_GPS_DATA and use it to determine the number of 1024 GPS week cycles occurred since the GPS zero time-point.
1>	store the IE "GPS TOW msec" in the IE "UE positioning GPS reference time" in variable UE_POSITIONING_GPS_DATA and use it as an estimate of the GPS Time-of-Week at the time of reception of the complete message containing the IE "GPS TOW msec";
NOTE:	The UE does not need to apply any compensation on the GPS Time-of-Week.
1>	if the IE "SFN" and IE "UTRAN GPS timing of cell frames" are included:
2>	if the UE is able to utilise the IEs:
3>	store these IEs in the IE "UE positioning GPS reference time" in variable UE_POSITIONING_GPS_DATA;
3>	if the IE "Primary CPICH Info" for FDD or IE "cell parameters id" for TDD is not included:
4>	if the UE is not in CELL_DCH state:
5>	use IEs "SFN" and "UTRAN GPS timing of cell frames" to estimate the relationship between GPS time and air-interface timing of the NODE B transmission in the serving cell;
5>	if the IE "UE Positioning GPS ReferenceTime Uncertainty" is included:
6>	store this IE in the IE "UE positioning GPS reference time" in variable UE_POSITIONING_GPS_DATA and use it to determine the relationship between GPS time and air-interface timing of the NODE B transmission.
4>	if the UE is in CELL_DCH state:
5>	ignore IEs "SFN" and "UTRAN GPS timing of cell frames".
3>	if the IE "Primary CPICH Info" for FDD or IE "cell parameters id" for TDD is also included:
4>	store this IE in the IE "UE positioning GPS reference time" in variable UE_POSITIONING_GPS_DATA;
4>	use IEs "SFN" and "UTRAN GPS timing of cell frames" to estimate the relationship between GPS time and air-interface timing of the NODE B transmission in the cell indicated by "Primary CPICH info" or "cell parameters id";
4>	if the IE "UE Positioning GPS ReferenceTime Uncertainty" is included:
5>	store this IE in the IE "UE positioning GPS reference time" in variable UE_POSITIONING_GPS_DATA and use it to determine the relationship between GPS time and air-interface timing of the NODE B transmission.
1>	if the IE "UE Positioning GPS ReferenceTime Uncertainty" is not included; and
1>	if the IE "SFN-TOW Uncertainty" is included:
2>	store this IE in the IE "UE positioning GPS reference time" in variable UE_POSITIONING_GPS_DATA and use it to determine if the relationship between GPS time and air-interface timing of the NODE B transmission is known to within at least 10ms.
1>	if the IE "TUTRAN-GPS drift rate" is included:
2>	store this IE in the IE "UE positioning GPS reference time" in variable UE_POSITIONING_GPS_DATA; and
2>	may use it as an estimate of the drift rate of the NODE B clock relative to GPS time.
1>	if the IE "GPS TOW Assist" is included:
2>	for each satellite:
3>	delete all information currently stored in the IE "GPS TOW Assist" in the IE "UE positioning GPS reference time" in the variable UE_POSITIONING_GPS_DATA;
3>	store the received GPS TOW Assist information in the IE "UE positioning GPS reference time" in the variable UE_POSITIONING_GPS_DATA.
8.6.7.19.3.8	UE positioning GPS reference UE position
If the IE "UE positioning GPS reference UE position" is included, the UE shall:
1>	store this IE in the IE "UE positioning GPS reference UE position" in variable UE_POSITIONING_GPS_DATA; and
1>	use it as a priori knowledge of the approximate location of the UE.
8.6.7.19.3.9	UE positioning UTC model
If the IE "UE positioning GPS UTC model" is included, the UE shall:
1>	store this IE in the IE "UE positioning GPS UTC model" in variable UE_POSITIONING_GPS_DATA.
8.6.7.19.4	UE positioning Ciphering info
The UE shall:
1>	if deciphering information is received from higher layers for deciphering of GPS assistance data broadcast on system information:
2>	store the current key in IE "Current deciphering key" in variable UE_POSITIONING_GPS_DATA;
2>	store the next key in IE "Next deciphering key" in variable UE_POSITIONING_GPS_DATA;
2>	store the ciphering key flag in UE_POSITIONING_GPS_DATA.
1>	if deciphering information is received from higher layers for deciphering of GANSS assistance data broadcast on system information:
2>	store the current key in IE "Current deciphering key" in variable UE_POSITIONING_GANSS_DATA;
2>	store the next key in IE "Next deciphering key" in variable UE_POSITIONING_GANSS_DATA;
2>	store the ciphering key flag in UE_POSITIONING_GANSS_DATA.
1>	if deciphering information is received from higher layers for deciphering of OTDOA assistance data broadcast on system information:
2>	store the current key in IE "Current deciphering key" in variable UE_POSITIONING_OTDOA_DATA_UE_BASED;
2>	store the next key in IE "Next deciphering key" in variable UE_POSITIONING_OTDOA_DATA_UE_BASED;
2>	store the ciphering key flag in UE_POSITIONING_OTDOA_DATA_UE_BASED.
1>	if the IE "GPS Data ciphering info" is included in System Information Block type 15:
2>	select one of the two deciphering keys received and stored it in UE_POSITIONING_GPS_DATA according to the following:
3>	if the value of the received IE "Ciphering Key Flag" is the same as the value of the IE "Ciphering Key Flag" stored in the variable UE_POSITIONING_GPS_DATA:
4>	select the current deciphering key.
3>	if the value of the received IE "Ciphering Key Flag" is different from the value of the IE "Ciphering Key Flag" stored in the variable UE_POSITIONING_GPS_DATA:
4>	select the next deciphering key.
2>	store the received IE in the variable UE_POSITIONING_GPS_DATA;
2>	use the selected deciphering key to decipher the broadcast UE positioning GPS information contained within the System Information Block types 15.1, 15.2 and 15.3.
1>	if the IE "GANSS Data ciphering info" is included in System Information Block type 15.8:
2>	select one of the two deciphering keys received and stored it in UE_POSITIONING_GANSS_DATA according to the following:
3>	if the value of the received IE "Ciphering Key Flag" is the same as the value of the IE "Ciphering Key Flag" stored in the variable UE_POSITIONING_GANSS_DATA:
4>	select the current deciphering key.
3>	if the value of the received IE "Ciphering Key Flag" is different from the value of the IE "Ciphering Key Flag" stored in the variable UE_POSITIONING_GANSS_DATA:
4>	select the next deciphering key.
2>	store the received IE in the variable UE_POSITIONING_GANSS_DATA;
2>	use the selected deciphering key to decipher the broadcast UE positioning GANSS information contained within the System Information Block types 15.1bis, 15.1ter, 15.2bis, 15.2ter, 15.3bis, 15.6 and 15.7.
1>	if the IE "OTDOA positioning ciphering info" is included in System Information Block type 15.4:
2>	select one of the two deciphering keys and stored it in UE_POSITIONING_OTDOA_DATA_UE_BASED according to the following:
3>	if the value of the received IE "Ciphering Key Flag" is the same as the value of the IE "Ciphering Key Flag" stored in the variable UE_POSITIONING_OTDOA_DATA_UE_BASED:
4>	select the current deciphering key.
3>	if the value of the received IE "Ciphering Key Flag" is different from the value of the IE "Ciphering Key Flag" stored in the variable UE_POSITIONING_OTDOA_DATA_UE_BASED:
4>	select the next deciphering key.
2>	store the received IE in the variable UE_POSITIONING_OTDOA_DATA_UE_BASED;
2>	use the selected deciphering key to decipher the IE "OTDOA assistance data" included in the System Information Block types 15.4.
8.6.7.19.5	UE positioning Error
The UE shall set the contents of the IE "UE positioning Error" as follows:
1>	if the IE "Positioning Methods" in IE "UE positioning reporting quantity" has been assigned to value "OTDOA" and no neighbour cells could be received,
2>	set IE "Error reason" to "Not Enough OTDOA Cells";
1>	if the IE "Positioning Methods" in IE "UE positioning reporting quantity" has been assigned to value "GPS":
2>	if there were not enough GPS satellites to be received:
3>	set IE "Error reason" to "Not Enough GPS Satellites".
2>	if some GPS assistance data was missing:
3>	set IE "Error reason" to "Assistance Data Missing"; and
3>	if the IE "Additional Assistance Data Request" included in the IE "UE positioning reporting quantity" stored in the variable MEASUREMENT_IDENTITY is set to TRUE:
4>	include the IE "GPS Additional Assistance Data Request".
3>	if the IE "Additional Assistance Data Request" included in the IE "UE positioning reporting quantity" stored in the variable MEASUREMENT_IDENTITY is set to FALSE:
4>	not include the IE "GPS Additional Assistance Data Request", and use the assistance data available for doing a positioning estimate.
2>	if the UE was not able to read the SFN of the reference cell included in the IE "UE positioning GPS reference time" or in the IE "UE positioning acquisition assistance":
3>	set IE "Error reason" to "Reference Cell Not Serving Cell".
2>	if the UE was not able to measure the requested GPS timing of cell frames measurement:
3>	set IE "Error reason" to "Not Accomplished GPS Timing Of Cell Frames".
1>	if the IE "Positioning Methods" in IE "UE positioning reporting quantity" has been assigned to value "GPS" and the IE "GANSS Positioning Methods"is present:
2>	if there were not enough GANSS satellites to be received:
3>	set IE "Error reason" to "Not Enough GANSS Satellites".
2>	if some GANSS assistance data was missing:
3>	set IE "Error reason" to "Assistance Data Missing"; and
3>	if the IE "Additional Assistance Data Request" included in the IE "UE positioning reporting quantity" stored in the variable MEASUREMENT_IDENTITY is set to TRUE:
4>	include the IE "GANSS Additional Assistance Data Request".
3>	if the IE "Additional Assistance Data Request" included in the IE "UE positioning reporting quantity" stored in the variable MEASUREMENT_IDENTITY is set to FALSE:
4>	not include the IE "GANSS Additional Assistance Data Request", and use the assistance data available for doing a positioning estimate.
2>	if the UE was not able to read the SFN of the reference cell included in the IE "UE positioning GANSS reference time":
3>	set IE "Error reason" to "Reference Cell Not Serving Cell".
2>	if the UE was not able to measure the requested GANSS timing of cell frames measurement:
3>	set IE "Error reason" to "Not Accomplished GANSS Timing Of Cell Frames".
1>	if none of the conditions above are fulfilled:
2>	set IE "Error reason" to "Undefined Error".
The UE shall not set the IE "Error reason" to "Request Denied By User" or "Not Processed and Timeout".
8.6.7.19.6	Void
8.6.7.19.7	UE positioning GANSS assistance data
The UE may receive GANSS assistance data in System Information Block types 15bis, 15.1bis, 15.1ter, 15.2bis, 15.2ter, 15.3bis, 15.6, 15.7 or 15.8 or in the ASSISTANCE DATA DELIVERY message, or in the MEASUREMENT CONTROL message. IE "UE positioning GANSS assistance data" is divided into a common part which is applicable to any GNSS and a generic part which contains assistance data separately for each supported GNSS.
8.6.7.19.7.1	UE positioning GANSS reference measurement information
If the IE "UE positioning GANSS reference measurement information" is included, the UE shall:
1>	update the variable UE_POSITIONING_GANSS_DATA as follows:
2>	for each GANSS the IE "UE positioning GANSS reference measurement information" is included:
3>	delete all information currently stored in the IE "UE positioning GANSS reference measurement information" in the variable UE_POSITIONING_GANSS_DATA;
3>	store the received information in the IE "UE positioning GANSS reference measurement information" in the variable UE_POSITIONING_GANSS_DATA.
1>	for each GANSS:
2>	if the IE "Confidence" is included:
3>	store this IE in the IE "UE Positioning GANSS reference measurement information" in variable UE_POSITIONING_GANSS_DATA and use it to determine the confidence level of the reference location area or volume used to calculate the acquisition assistance parameters (search windows).
2>	if the IE "Azimuth and Elevation LSB" is included:
3>	use the IEs "Azimuth" and "Azimuth LSB" to determine the visible satellites azimuth angles;
3>	use the IEs "Elevation" and "Elevation LSB" to determine the visible satellites elevation angles.
1>	perform the following consistency check:
2>	if the IE "UE positioning GANSS reference time" is included and the IE "UE positioning GPS acquisition assistance" is not included, the UE shall interpret the IE "Satellite information" to be valid at the time provided in IE "UE positioning GANSS reference time";
2>	if the IE "UE positioning GPS acquisition assistance" is included, the UE shall interpret the IE "Satellite information" to be valid at the time provided in the IE "UE positioning GPS acquisition assistance";
2>	if neither the IE "UE positioning GANSS reference time" nor the IE "UE positioning GPS acquisition assistance" is included:
3>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
8.6.7.19.7.2	UE positioning GANSS Almanac
If the IE "UE positioning GANSS Almanac" is included, the UE shall:
1>	for each GANSS:
2>	for each satellite:
3>	store received GANSS almanac information at the position indicated by the IE "SV ID" in the IE "UE positioning GANSS Almanac" in the variable UE_POSITIONING_GANSS_DATA, possibly overwriting any existing information in this position;
3>	act on the information in a similar manner as specified in [61], [68], [69], [70], [71], [72], [73], [86] for a particular GANSS.
2>	if the IE "Complete Almanac Provided" is included:
3>	store this IE in the IE "Complete Almanac Provided" in the IE "UE positioning GANSS Almanac" in variable UE_POSITIONING_GANSS_DATA;
3>	use the IE "Complete Almanac Provided" to determine whether almanac is provided for all satellites in the GANSS constellation (TRUE) or not (FALSE).
8.6.7.19.7.3	UE positioning D-GANSS Corrections
If the IE "UE positioning DGANSS corrections" is included, the UE shall:
1>	for each GANSS:
2>	update the variable UE_POSITIONING_GANSS_DATA as follows:
3>	delete all information currently stored in the IE "UE positioning DGANSS corrections" in the variable UE_POSITIONING_GANSS_DATA;
3>	store the received DGANSS corrections in the IE "UE positioning DGANSS corrections" in the variable UE_POSITIONING_GANSS_DATA.
2>	use IE "DGANSS Reference Time" to determine when the differential corrections were calculated;
2>	use IE "Status/Health" to determine the status of the differential corrections.
8.6.7.19.7.4	UE positioning GANSS Navigation Model
If the IE "UE positioning GANSS Navigation Model" is included, the UE shall:
1>	for each GANSS:
2>	for each satellite, the UE shall:
3>	for IE "UE positioning GANSS clock model":
4>	act as specified in subclause 8.6.7.19.7.4a.
3>	for IE "UE positioning GANSS orbit model":
4>	act as specified in subclause 8.6.7.19.7.4b.
8.6.7.19.7.4a	UE positioning GANSS Clock Model
If the IE "UE positioning GANSS clock model" is included, the UE shall:
1>	for each GANSS:
2>	update the variable UE_POSITIONING_GANSS_DATA as follows:
3>	store this IE at the position indicated by the IE "Sat ID" in the IE "UE positioning GANSS Navigation Model" in the variable UE_POSITIONING_GANSS_DATA, possibly overwriting any existing information in this position.
2>	act on these GANSS clock models in a manner similar to that specified in a relevant ICD.
8.6.7.19.7.4b	UE positioning GANSS Orbit Model
If the IE "UE positioning GANSS orbit model" is included, for each satellite of each supported GNSS, the UE shall:
1>	update the variable UE_POSITIONING_GANSS_DATA as follows:
2>	store this IE at the position indicated by the IE "Sat ID" in the IE "UE positioning GANSS Navigation Model" in the variable UE_POSITIONING_GANSS_DATA, possibly overwriting any existing information in this position..
1>	act on these GANSS orbit models in a manner similar to that specified in a relevant ICD.
8.6.7.19.7.5	UE positioning GANSS ionospheric model
If the IE "UE positioning GANSS ionospheric model" is included, the UE shall:
1>	store this IE in the IE "UE positioning GANSS ionospheric model" in variable UE_POSITIONING_GANSS_DATA;
1>	act on these GANSS ionospheric model parameters in a manner similar to that specified in [61].
8.6.7.19.7.6	UE positioning GANSS real-time integrity
If this list of bad satellites is included, the UE shall for each GANSS:
1>	update the variable UE_POSITIONING_GANSS_DATA as follows:
2>	for each satellite included in the list:
3>	add the Sat IDs that are not yet included in the list of satellites in the IE "UE positioning GANSS real time integrity" in the variable UE_POSITIONING_GANSS_DATA;
3>	if the IE "Bad GNSS Signal ID" is included in the satellite information:
4>	store this IE at the position indicated by the IE "Bad GNSS SatID" in the variable UE_POSITIONING_GANSS_DATA, possibly overwriting any existing information in this position.
3>	remove all Sat IDs in the list of satellites in the IE "UE positioning GANSS real time integrity" in the variable UE_POSITIONING_GANSS_DATA that are not included in IE "UE positioning GANSS real time integrity".
1>	consider the data associated with the satellites or signals identified in the variable UE_POSITIONING_GANSS_DATA as invalid.
8.6.7.19.7.7	UE positioning GANSS reference time
If the IE "UE positioning GANSS reference time" is included, the UE shall:
1>	if the IE "GANSS Day" is included:
2>	store this IE in "UE positioning GANSS reference time" in variable UE_POSITIONING_GANSS_DATA and use it as the current GANSS day.
1>	if the IE "GANSS Day Cycle Number" is included:
2>	store the IE "GANSS Day Cycle Number" in "UE positioning GANSS reference time" in variable UE_POSITIONING_GANSS_DATA and use it to determine the number of 8192 GANSS day cycles occurred since the GANSS zero time-point;
1>	store the IE "GANSS TOD" in the IE "UE positioning GANSS reference time" in variable UE_POSITIONING_GANSS_DATA and use it as an estimate of the GANSS Time-of-Day at the time of reception of the complete message containing the IE "GANSS TOD";
NOTE:	The UE does not need to apply any compensation on the GANSS Time-of-Day.
1>	if the IE "GANSS TOD Uncertainty" is included:
2>	store this IE in the IE "UE positioning GANSS reference time" in variable UE_POSITIONING_GANSS_DATA and use it to determine the uncertainty of the relationship between GANSS time and air-interface timing of the NODE B transmission.
1>	if the IE "GANSS Time ID" is not included:
2>	use Galileo system time as a reference for GANSS-Time-of-Day.
1>	if the IE "GANSS Time ID" is included:
2>	use the system time indicated by this IE as a reference for GANSS-Time-of-Day.
1>	if the IE "SFN" and IE "UTRAN GANSS timing of cell frames" are included:
2>	if the UE is able to utilise the IEs:
3>	store these IEs in the IE "UE positioning GANSS reference time" in variable UE_POSITIONING_GANSS_DATA;
3>	if the IE "Primary CPICH Info" for FDD or IE "cell parameters id" for TDD is not included:
4>	if the UE is not in CELL_DCH state:
5>	use IEs "SFN" and "UTRAN GANSS timing of cell frames" to estimate the relationship between GANSS time and air-interface timing of the NODE B transmission in the serving cell.
4>	if the UE is in CELL_DCH state:
5>	ignore IEs "SFN" and "UTRAN GANSS timing of cell frames".
3>	if the IE "Primary CPICH Info" for FDD or IE "cell parameters id" for TDD is also included:
4>	store this IE in the IE "UE positioning GANSS reference time" in variable UE_POSITIONING_GANSS_DATA;
4>	use IEs "SFN" and "UTRAN GANSS timing of cell frames" to estimate the relationship between GANSS time and air-interface timing of the NODE B transmission in the cell indicated by "Primary CPICH info" or "cell parameters id".
1>	if the IE "TUTRAN-GANSS drift rate" is included:
2>	store this IE in the IE "UE positioning GANSS reference time" in variable UE_POSITIONING_GANSS_DATA; and
2>	may use it as an estimate of the drift rate of the NODE B clock relative to GANSS time.
8.6.7.19.7.8	UE positioning GANSS reference UE position
If the IE "UE positioning GANSS reference UE position" is included, the UE shall:
1>	store this IE in the IE "UE positioning GANSS reference UE position" in variable UE_POSITIONING_GANSS_DATA; and
1>	use it as a priori knowledge of the approximate location of the UE.
8.6.7.19.7.9	UE positioning GANSS time model
If the IE "UE positioning GANSS time model" is included, the UE shall for each GANSS:
1>	store the information in "UE positioning GANSS time model" in variable UE_POSITIONING_GANSS_DATA;
1>	use the stored parameters to relate GANSS time for the GANSS indicated by "GANSS ID" to time reference indicated by IE "GNSS_TO_ID".
NOTE : 	The UTRAN should include a "UE positioning GANSS time model" for the same "GANSS ID" as the "GANSS Time ID" in IE "UE positioning GANSS reference time". If the UTRAN does not include a "UE positioning GANSS time model" for the same "GANSS ID" as the "GANSS Time ID" in IE "UE positioning GANSS reference time" or if "UE positioning GANSS reference time" is not included the UE assumes "TA1" and "TA2" are equal to zero.
8.6.7.19.7.10	UE positioning GANSS UTC model
If the IE "UE positioning GANSS UTC model" is included, the UE shall for each GANSS:
1>	store this IE in the IE "UE positioning GANSS UTC model" in variable UE_POSITIONING_GANSS_DATA.
8.6.7.19.7.11	UE positioning GANSS data bit assistance
If the IE "UE positioning GANSS data bit assistance" is included, the UE shall for each GANSS:
1>	store this IE in the IE "UE positioning GANSS data bit assistance" in variable UE_POSITIONING_GANSS_DATA;
1>	use the data in IE "Data Bits" for data wipe-off of satellite signal indicated by IEs "Satellite ID" and "GANSS Signal ID".
8.6.7.19.7.12	UE positioning GANSS additional ionospheric model
If the IE "UE positioning GANSS additional ionospheric model" is included, the UE shall:
1>	store this IE in the IE "UE positioning GANSS additional ionospheric model" in variable UE_POSITIONING_GANSS_DATA;
1>	act on these GANSS additional ionospheric model parameters in a manner similar to that specified in [72], [86].
8.6.7.19.7.13	UE positioning GANSS Earth orientation parameters
If the IE "UE positioning GANSS Earth orientation parameters" is included, the UE shall:
1>	store this IE in the IE "UE positioning GANSS Earth orientation parameters" in variable UE_POSITIONING_GANSS_DATA;
1>	act on these GANSS Earth orientation parameters in a manner similar to that specified in [68].
8.6.7.19.7.14	UE positioning GANSS additional navigation models
If the IE "UE positioning GANSS additional navigation models" is included, the UE shall:
1>	for each GANSS:
2>	for each satellite, the UE shall:
3>	for IE "UE positioning GANSS additional clock models":
4>	act as specified in subclause 8.6.7.19.7.14a.
3>	for IE "UE positioning GANSS additional orbit models":
4>	act as specified in subclause 8.6.7.19.7.14b.
8.6.7.19.7.14a	UE positioning GANSS additional clock models
If the IE "UE positioning GANSS additional clock models" is included, the UE shall:
1>	for each GANSS:
2>	update the variable UE_POSITIONING_GANSS_DATA as follows:
3>	store this IE at the position indicated by the IE "Sat ID" in the IE "UE positioning GANSS additional navigation models" in the variable UE_POSITIONING_GANSS_DATA, possibly overwriting any existing information in this position.
2>	act on these GANSS additional clock models in a manner similar to that specified in the ICD for the particular model.
8.6.7.19.7.14b	UE positioning GANSS additional orbit models
If the IE "UE positioning GANSS additional orbit models" is included, for each satellite of each supported GANSS, the UE shall:
1>	update the variable UE_POSITIONING_GANSS_DATA as follows:
2>	store this IE at the position indicated by the IE "Sat ID" in the IE "UE positioning GANSS additional navigation models" in the variable UE_POSITIONING_GANSS_DATA, possibly overwriting any existing information in this position.
1>	act on these GANSS additional orbit models in a manner similar to that specified in the ICD for the particular model.
8.6.7.19.7.15	UE positioning GANSS additional UTC models
If the IE "UE positioning GANSS additional UTC models" is included, the UE shall for each GANSS:
1>	store this IE in the IE "UE positioning GANSS additional UTC models" in variable UE_POSITIONING_GANSS_DATA;
1>	act on these GANSS additional UTC models in a manner similar to that specified in the ICD for the particular model.
8.6.7.19.7.16	UE positioning GANSS auxiliary information
If the IE "UE positioning GANSS auxiliary information" is included, the UE shall for each GANSS:
1>	store this IE in the IE "UE positioning GANSS auxiliary information" in variable UE_POSITIONING_GANSS_DATA;
1>	if the IE "GANSS-ID-1" is included:
2>	use the IE "Signals Available" as an indication of ranging signals supported on the satellite identified by the IE "Sat ID" for the GANSS "Modernized GPS".
1>	if the IE "GANSS-ID-3" is included:
2>	use the IE "Signals Available" as an indication of ranging signals supported on the satellite identified by the IE "Sat ID" for the GANSS "GLONASS";
2>	use the IE "Channel Number" as an indication of the carrier frequency number of the satellite identified by the IE "Sat ID" for the GANSS "GLONASS".
8.6.7.19.7.17	UE positioning DBDS corrections
If the IE "UE positioning DBDS corrections" is included, the UE shall:
1>	if the UE supports DBDS:
2>	update the variable UE_POSITIONING_GANSS_DATA as follows:
3>	delete all information currently stored in the IE "UE positioning DBDS corrections" in the variable UE_POSITIONING_GANSS_DATA;
3>	store the received DBDS corrections in the IE "UE positioning DBDS corrections" in the variable UE_POSITIONING_GANSS_DATA.
2>	act on these DBDS corrections parameters as specified in [86].
8.6.7.19.7.18	UE positioning BDS Ionospheric Grid Model
If the IE "UE positioning BDS Ionospheric Grid Model" is included, the UE shall:
1>	if the UE supports BDS:
2>	store this IE in the IE "UE positioning BDS Ionospheric Grid Model" in variable UE_POSITIONING_GANSS_DATA;
2>	act on these BDS ionospheric grid model parameters as specified in [86].
8.6.7.20	Void
8.6.7.21	Intra-frequency reporting quantity for RACH reporting
If the IE "Intra-frequency reporting quantity for RACH reporting" is included, the UE shall:
1>	if the IE "SFN-SFN observed time difference reporting indicator" has the value "type 2":
2>	act as if the value of the IE "SFN-SFN observed time difference reporting indicator" is "no reporting".
1>	if the IE "Reporting quantity" (FDD) or all IEs "Reporting quantity" (TDD) have the value "no report":
2>	the UE behaviour is unspecified.
8.6.7.22	Additional Measurement List
If the IE "Additional Measurement List" is received in a MEASUREMENT CONTROL message, the UE shall:
1>	if the received measurement configuration in this MEASUREMENT CONTROL message, or any measurement referenced in the "Additional Measurement List" do not all have the same validity (for this consistency check the UE shall assume "CELL_DCH" as the measurement validity for measurements of type "inter-RAT", "UE internal", and "quality"):
2>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
1>	if any of the measurements referenced in the "Additional Measurement List" is an intra-frequency, inter-frequency or inter-RAT measurement, and this measurement is configured with event based reporting:
2>	the UE behaviour is not specified.
1>	if any of the "intra-frequency", "inter-frequency", "traffic volume" or "UE positioning" measurements referenced in the "Additional Measurement List" has been setup without including the IE "measurement validity":
2>	the UE behaviour is not specified.
1>	if the result of this MEASUREMENT CONTROL message is such that more than one additional measurement of the same type will be referenced in the IE "Additional Measurement List" in the MEASUREMENT_IDENTITY variable:
2>	the UE behaviour is not specified.
1>	if the UE has no IE "Additional Measurement List" stored the in variable MEASUREMENT_IDENTITY associated with the identity indicated by the IE "measurement identity":
2>	store the received IE "Additional Measurement List" in the variable MEASUREMENT_IDENTITY.

If the IE "Additional Measurement List" is received in a MEASUREMENT CONTROL message with the IE "Measurement command" value set to "modify", and the UE has an IE "Additional Measurement List" stored in the variable MEASUREMENT_IDENTITY associated with the identity indicated by the IE "measurement identity", the UE shall:
1>	replace the information stored in "Additional Measurement List" in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the one received in the MEASUREMENT CONTROL message.
If the IE "Additional Measurement List" is not received in a MEASUREMENT CONTROL message and the IE "Measurement command" has the value "modify" and the UE has an IE "Additional Measurement List" stored in the variable MEASUREMENT_IDENTITY associated with the identity indicated by the IE "measurement identity", the UE shall:
1>	leave the IE "Additional Measurement List" stored in the variable MEASUREMENT_IDENTITY associated with the identity indicated by the IE "measurement identity" unchanged.
If, at any time during the life-time of a measurement, any measurement referenced in the Additional Measurement List does not exist, the UE shall:
1>	remove this measurement identity from the Additional Measurement List.
NOTE:	A measurement referenced in the Additional Measurement List which is updated with a measurement command set to "modify", or replaced with a measurement command set to "setup", continues to exist.
If the measurement configured with the MEASUREMENT CONTROL message triggers a measurement report, the UE shall:
1>	also include the reporting quantities for the measurements referenced by the additional measurement identities. The contents of the IE "Additional Measured results" are completely determined by the measurement configuration of the referenced additional measurement.
8.6.7.23	Dedicated Priority Information
The UE shall:
1>	store IE "Dedicated Priority Information";
If the CHOICE "Action" has the value "Clear dedicated priorities", the UE shall:
1>	clear the variable PRIORITY_INFO_LIST;
1>	stop timer T322, if it is running;
1>	set the value of IE "Priority status" in the variable PRIORITY_INFO_LIST to "sys_info_priority".
1>	if the UE is not in CELL_DCH state:
2>	take the actions as described in subclause 8.1.1.6.19 using stored System information Block type 19.
If the CHOICE "Action" has the value "Configure dedicated priorities", the UE shall:
1>	clear the variable PRIORITY_INFO_LIST;
1>	stop timer T322, if it is running;
1>	set the value of IE "Priority status" in the variable PRIORITY_INFO_LIST to "dedicated_priority";
1>	for each occurrence of the IE "Priority Level List":
2>	create a new entry in the IE "Priority Info List" in the variable PRIORITY_INFO_LIST, and in that new entry:
3>	set the CHOICE "Radio Access Technology" to the value received in the IE "Priority Level List";
3>	set the IE "priority" to the value received in the IE "Priority Level List";
3>	set the IE "subpriority" to the value received in the IE "Priority Level List";
3>	set the values in IE "Frequency List" or "BCCH ARFCN" to the values received in the IE "Priority Level List".
NOTE:	If the "Priority Level List" IEs contain, more than 16 UARFCNs corresponding to UTRAN FDD frequencies, more than 16 UARFCNs corresponding to UTRAN TDD frequencies, more than 32 EARFCNs or more than 3 occurrences of "GSM cell group", the UE behaviour is undefined.
1>	set the IE "E-UTRA detection" to the value received in the IE "Priority Level List".
1>	if the IE "T322" is present:
2>	start timer T322 using the value signalled in this IE.
1>	if the UE is not in CELL_DCH state:
2>	take the actions as described in subclause 8.1.1.6.19 using stored System information Block type 19.
8.6.7.24	Adjacent frequency index
If the IE "Adjacent frequency index" is received by the UE, the UE shall:
1>	if prior to the reception of the message, any of the variables "Adjacent frequency info", "Inter-band frequency info" or "Frequency info list for enhanced measurement" are stored in CELL_INFO_LIST, then for each of the stored variables:
2>	stop all inter-frequency measurement reporting on the cells that belong to the frequency derived from the stored variable. Each stopped measurement is restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
2>	clear the stored variable.
1>	Extract the frequency information of the element contained in the IE “New inter-frequency cells” that is indexed by the IE "Adjacent frequency index".
1>	Store this frequency information in the variable "Adjacent frequency info" in CELL_INFO_LIST.
If the IE "Adjacent frequency index" is received by the UE and the UE does not support adjacent frequency measurements without compressed mode:
1>	The UE behaviour is unspecified.
If any two or more of the IE "Adjacent frequency index", the IE "Inter-band frequency index" or the IE "Frequency index list for enhanced measurement" are received in the same message:
1>	The UE behaviour is unspecified.
8.6.7.24a	Inter-band frequency index
If the IE "Inter-band frequency index" is received by the UE, the UE shall:
1>	if prior to the reception of the message, any of the variables "Adjacent frequency info", "Inter-band frequency info" or "Frequency info list for enhanced measurement" are stored in CELL_INFO_LIST, then for each of the stored variables:
2>	stop all inter-frequency measurement reporting on the cells that belong to the frequency derived from the stored variable. Each stopped measurement is restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
2>	clear the stored variable.
1>	Extract the frequency information of the element contained in the IE “New inter-frequency cells” that is indexed by the IE "Inter-band frequency index".
1>	Store this frequency information in the variable "Inter-band frequency info" in CELL_INFO_LIST.
If the IE "Inter-band frequency index" is received by the UE and the UE does not support inter-band frequency measurements without compressed mode:
1>	The UE behaviour is unspecified.
If any two or more of the IE "Adjacent frequency index", the IE "Inter-band frequency index" or the IE "Frequency index list for enhanced measurement" are received in the same message:
1>	The UE behaviour is unspecified.
8.6.7.25	Idle Interval Information (TDD only)
If the IE "Idle Interval Information" is received by the UE, the UE shall:
1>	store this information and execute the inter-RAT measurement during the idle interval, if needed;
1>	the SFN that the idle interval exists should fulfil the following equation:
	Offset = SFN mod (2^k)
Where:
-	k is the coefficient parameter to calculate the idle interval period;
-	Offset is the idle interval position in a period.
8.6.7.26	CELL_DCH measurement occasion info LCR
If the IE "CELL_DCH measurement occasion info LCR" is included in a Radio Bearer Control message or a CELL UPDATE CONFIRM message or a MEASUREMENT CONTROL message, the UE shall:
1>	if pattern sequence corresponding to IE "Pattern sequence identifier" is already active (according to "Status Flag") in the variable DCH_MOPS_IDENTITY) and the "Status Flag" in this message is set to "deactivate" for the corresponding pattern sequence:
2>	if the IE "Activation time" is included in the message:
3>	deactivate this pattern sequence at the beginning of the frame, indicated by IE "Activation time" (see subclause 8.6.3.1) received in this message, when the new configuration received in this message is taken into use.
2>	else
3>	deactivate the pattern sequence as soon as possible after the reception of the message.
1>	set each pattern sequence to the variable DCH_MOPS_IDENTITY according to the IE "Pattern sequence identifier";
1>	update into the variable DCH_MOPS_IDENTITY the configuration information defined by IE group" Measurement occasion pattern sequence parameters";
1>	after the instant in which the message is to be executed without the IE "Activation time", or at the beginning of the frame indicated by IE “Activation time” as specified in subclause 8.6.3.1:
2>	activate the stored pattern sequence corresponding to each IE "Pattern sequence identifier" for which the "Status Flag" in the variable DCH_MOPS_IDENTITY is set to "activate"; and
2>	calculate the concerned CELL_DCH measurement occasion as specified in subclause 8.5.11a, and start the measurement at the frame calculated CELL_DCH measurement occasion.
8.6.7.27	Frequency index list for enhanced measurement
If the IE "Frequency index list for enhanced measurement" is received by the UE, the UE shall:
1>	if prior to the reception of the message, any of the variables "Adjacent frequency info", "Inter-band frequency info" or "Frequency info list for enhanced measurement" is stored in CELL_INFO_LIST, then for each of the stored variables:
2>	stop all inter-frequency measurement reporting on the cells that belong to the frequency derived from the stored variable. Each stopped measurement is restarted when a MEASUREMENT CONTROL message is received with the corresponding measurement identity.
2>	clear the stored variable.
1>	for each of the IE "Frequency index for enhanced measurement" included in the IE "Frequency index list for enhanced measurement":
2>	extract the frequency information of the element contained in the IE "New inter-frequency cells" that is indexed by the IE "Frequency index for enhanced measurement";
2>	store this frequency information in the variable "Frequency info list for enhanced measurement" in CELL_INFO_LIST.
If the IE "Frequency index list for enhanced measurement" is received by the UE and the UE does not support enhanced inter-frequency measurements without compressed mode:
1>	The UE behaviour is unspecified.
If any two or more of the IE "Adjacent frequency index", the IE "Inter-band frequency index" or the IE "Frequency index list for enhanced measurement" are received in the same message:
1>	The UE behaviour is unspecified.
8.6.7.28	E-UTRA measurement for CELL_FACH
The IE "E-UTRA measurement for CELL_FACH" is used to control the E-UTRA measurements and reporting in CELL_FACH state.
For FDD if the IE "E-UTRA measurement for CELL_FACH" is received by the UE in a MEASUREMENT CONTROL message, UE shall:
1>	if the IE "Measurement command" has the value "setup":
2>	if any of the IE’s "Report criteria", "Measurement quantity", "E-UTRA frequencies for measurement" or "Reporting Threshold" is not received, the UE shall:
3>	clear all stored measurement control information related associated to this measurement identity in variable MEASUREMENT_IDENTITY;
3>	set the variable CONFIGURATION_INCOMPLETE to TRUE.
2>	if the IE "Report criteria" is set to "Periodical reporting":
3>	the UE shall assume "Amount of reporting" is set to 1.
2>	for each occurrence of the IE "E-UTRA frequencies for measurement":
3>	create a new entry in the IE "E-UTRA Frequency Info List" in the variable EUTRA_FREQUENCY_INFO_LIST_FACH, and in that new entry:
4>	store the IE "EARFCN".
4>	if the value of the IE "EARFCN" is 65535, the UE shall:
5>	overwrite the previously stored value in the IE "EARFCN" with the value received in the IE "EARFCN extension".
2>	begin measurements according to the stored control information for this measurement identity.
1>	if the IE "Measurement command" has the value "modify":
2>	if the IE "Report criteria" is set to "Periodical reporting":
3>	the UE shall assume "Amount of reporting" is set to 1.
2>	replace the IEs "Report criteria" and "Measurement quantity" stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IEs "Report criteria" and "Measurement quantity" received in the MEASUREMENT CONTROL message.
2>	for each of the IEs "Measurement quantity",  "E-UTRA frequencies for measurement" and "Reporting Threshold", the UE shall:
3>	replace all instances of the IEs listed above (and all their children) stored in variable MEASUREMENT_IDENTITY associated to the identity indicated by the IE "measurement identity" with the IEs received in the MEASUREMENT CONTROL message;
2>	update the variable EUTRA_FREQUENCY_INFO_LIST_FACH according to the received IE "E-UTRA frequencies for measurement".
1>	if the UE is in CELL_FACH state:
2>	if the measurements of type E-UTRA measurement for CELL_FACH associated with the variable MEASUREMENT_IDENTITY has been stored:
3>	UE shall begin the measurements and reporting on the E-UTRA frequencies stored in the variable EUTRA_FREQUENCY_INFO_LIST;
8.6.7.29	Dedicated WLAN Offload Information
If the IE "Dedicated WLAN Offload Information" is included and the UE will be in CELL_FACH or CELL_DCH state after completion of this procedure, the UE shall:
1>	if the CHOICE "Configuration info" is set to "Continue", the UE shall:
2>	keep the stored information in the variable WLAN_OFFLOAD_INFO and use the stored information as specified in [4].
1>	if the CHOICE "Configuration info" is set to "New Configuration", the UE shall:
2>	store the IE "Dedicated WLAN Offload Information" in the variable WLAN_OFFLOAD_INFO, replacing any previously stored information; 
2>	use the information stored in the variable WLAN_OFFLOAD_INFO as specified in [4], and forward it to the upper layers.
If the IE "Dedicated WLAN Offload Information" is not included and the UE will be in CELL_FACH or CELL_DCH state, after completion of this procedure, the UE shall:
1>	clear the variable WLAN_OFFLOAD_INFO;
1>	if the UE will be in another state than CELL_DCH state:
2>	use the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO as specified in [4], and forward it to the upper layers.
8.6.7.30	T330 expiry 
The UE shall: 
1>	if T330 expires:
2>	clear the variable WLAN_OFFLOAD_INFO;
2>	use the information stored in the variable SYSTEM_INFO_WLAN_OFFLOAD_INFO as specified in [4], and forward it to the upper layers.
8.6.7.31	Filtered UE power headroom reporting information
If the IE "Filtered UE power headroom reporting information" is included, the UE shall:
1>	pass the received reporting information to the lower layers.
8.6.7.32	Filtered UE power headroom reporting information on secondary UL frequency
If the IE "Filtered UE power headroom reporting information on secondary UL frequency" is included, the UE shall:
1>	pass the received reporting information to the lower layers.
8.6.8	Void
8.6.8a	Other Information elements
8.6.8a.1	ETWS information
If RRC is configured from upper layers to receive primary notification for ETWS, and if the IE "ETWS information" is received in a PAGING TYPE 1 or a SYSTEM INFORMATION CHANGE INDICATION message, an ETWS capable UE shall:
1>	forward the IE "ETWS information" to upper layers.
NOTE:	The UE may receive the IE "ETWS information" also in an ETWS PRIMARY NOTIFICATION WITH SECURITY message. The UE behaviour is specified in subclause 8.1.17.4.
8.6.9	MBMS specific information elements
The UE shall perform the generic actions defined in this subclause only for the information elements corresponding with services that are included in variable MBMS_ACTIVATED_SERVICES.
8.6.9.1	Continue MCCH Reading
If the "Continue MCCH Reading " is included the UE shall:
1>	if the IE "Continue MCCH reading " is set to 'TRUE':
2>	continue receiving the MBMS MODIFIED SERVICES INFORMATION from MCCH in the next modification period and act upon it as specified in subclause 8.7.3.4.
8.6.9.1a	MBMS dynamic persistence level
If the IE "MBMS dynamic persistence level" is included the UE shall:
1>	Apply the dynamic persistence level in place of that broadcast in SIB 7 for MBMS related PRACH transmissions that are made within the modification period in which this IE was received.
8.6.9.2	MBMS PL Service Restriction Information
The UE shall:
1>	if the UE receives a Radio Bearer Control message or a CELL UPDATE CONFIRM message:
2>	if the IE "MBMS PL Service Restriction Information" is included:
3>	set the variable MBMS_PL_SERVICE_RESTRICTION_INFO_DEDICATED to TRUE.
2>	else:
3>	set the variable MBMS_PL_SERVICE_RESTRICTION_INFO_DEDICATED to FALSE.
1>	if the UE receives a Radio Bearer Control message or a CELL UPDATE CONFIRM message or an MBMS GENERAL INFORMATION message:
2>	perform the MBMS frequency selection procedure as specified in subclause 8.5.27.
8.6.9.3	MBMS L1 combining schedule
If the IE "MBMS L1 combining schedule" is included the UE may:
1>	apply L1 combining between the concerned neighbouring cell' S-CCPCH and the corresponding current cell’s S-CCPCH for the periods indicated by this IE.
8.6.9.3a	MBMS Number of neighbour cells
The UE may:
1>	apply the number of neighbour cells to identify if all MBMS NEIGHBOURING CELL P-T-M RB INFORMATION messages have been received from MCCH.
8.6.9.4	MBMS Preferred frequency information
If the IE "MBMS Preferred frequency information" is included the UE shall:
1>	if HCS is not used, and the IE "Qoffmbms" is not present for the MBMS preferred frequency:
2>	consider the cells on the MBMS preferred frequency having a Qoffmbms equal to "infinity".
1>	if HCS is used, and the IE "HCS_OFFmbms" is not present for the MBMS preferred frequency:
2>	consider the cells on the MBMS preferred frequency having the highest HCS priority level.
1>	perform the MBMS frequency selection procedure as specified in subclause 8.5.27.
8.6.9.4a	Void

8.6.9.4b	MBMS p-t-m activation time
Upon reception of the IE "MBMS p-t-m activation time", for the services included in the IE "Modified service list" in the MBMS MODIFIED SERVICES INFORMATION message, and, if the IE "MBMS all unmodified p-t-m services" is included in the MBMS MODIFIED SERVICES INFORMATION message, for the services included in the IE "Unmodified services list" included in the MBMS UNMODIFIED SERVICES INFORMATION message, the UE shall:
1>	if the IE "MBMS required UE action" for this service is set to "Acquire PTM RB info":
2>	for the current cell:
3>	stop using any old configuration on TTIs that are after or contain the time instant as indicated by the IE "MBMS p-t-m activation time";
3>	start using the configuration for the S-CCPCH received for that p-t-m bearer in the same modification period as the IE "MBMS p-t-m activation time" on TTIs that are after or that contain the time instant as indicated by the IE "MBMS p-t-m activation time".
2>	for neighbouring cells:
3>	for the neighbouring cells for which the IE "MBMS transmission time difference" is included:
4>	stop using any old configuration on TTIs corresponding to the TTIs of the cell wherein the UE is reading the MCCH from and where the new p-t-m radio bearer information is valid according to the above;
4>>	start using the configuration for the S-CCPCH received for that p-t-m bearer in the same modification period as the IE "MBMS p-t-m activation time" on TTIs corresponding to the TTIs of the cell wherein the UE is reading the MCCH from and where the new p-t-m radio bearer information is valid according to the above.
3>	for the neighbouring cells for which the IE "MBMS transmission time difference" is not included:
4>	stop using any old configuration on TTIs that are after or contain the time instant as indicated by the IE "MBMS p-t-m activation time".
4>	start using the configuration for the S-CCPCH received for that p-t-m bearer in the same modification period as the IE "MBMS p-t-m activation time" on TTIs that are after the time instant as indicated by the IE "MBMS p-t-m activation time".
8.6.9.5	MBMS RB list released to change transfer mode
If the IE "MBMS RB list released to change transfer mode" is included the UE shall:
1>	perform the service prioritisation procedure as specified in subclause 8.5.26, taking into account that the MBMS service(s) for which the radio bearers are released will be provided via p-t-m radio bearer(s).
8.6.9.6	MBMS Required UE action
If the IE "MBMS required UE action" is included and concerns an MBMS activated service the UE shall:
1>	if the "MBMS required UE action" is set to 'None':
2>	take no action with respect to this IE.
1>	if the IE "MBMS required UE action" is set to 'Acquire counting info' or set to 'Acquire counting info– PTM RBs unmodified':
2>	perform the MBMS counting procedure as specified in subclause 8.7.4;
NOTE:	If upper layers indicate that an MBMS transmission has already been received correctly, the UE will continue as if the information about the concerned MBMS transmission was not included in the message. This implies that the UE does not respond to counting for a transmission already received correctly.
1>	if the IE "MBMS required UE action" is set to 'Acquire PTM RB info'; or
1>	if the IE "MBMS required UE action" is set to 'Acquire counting info– PTM RBs unmodified' and the UE is not receiving a p-t-m RB for the concerned service:
2>	continue acquiring the MBMS COMMON P-T-M RB INFORMATION, MBMS CURRENT CELL P-T-M RB INFORMATION and the MBMS NEIGHBOURING CELL P-T-M RB INFORMATION messages without delaying reading of MCCH until the next modification period and without stopping at the end of the modification period, in accordance with subclause 8.7.1.3
2>	act upon the MBMS COMMON P-T-M RB INFORMATION, MBMS CURRENT CELL P-T-M RB INFORMATION and the MBMS NEIGHBOURING CELL P-T-M RB INFORMATION message, if received,  in accordance with subclause 8.7.5;
1>	if the IE "MBMS required UE action" is set to 'Request PTP RB':
2>	if the UE is in idle mode:
3>	indicate to upper layers that establishment of a PS signalling connection is required to receive the concerned MBMS [5], unless the UE has already requested p-t-p RB establishment in the current modification period, and use the establishment cause set to 'MBMS ptp RB request' in the RRC connection establishment procedure.
2>	if the UE is in URA_PCH, CELL_PCH or CELL_FACH states:
3>	indicate to upper layers to initiate a service request procedure [5] to receive the concerned MBMS service;
3>	perform the cell update procedure with cause "MBMS ptp RB request", as specified in subclause 8.3.1.2, unless the UE has already requested p-t-p RB establishment in the current modification period.
2>	if the UE is in CELL_DCH:
3>	indicate to upper layers to initiate a service request procedure [5] to receive the concerned MBMS service.
1>	if the IE "MBMS required UE action" is set to 'Release PTM RB':
2>	stop receiving the concerned MBMS service;
2>	for 1.28 Mcps TDD, if the IE "MBMS PTM RB Release Cause" is present to indicate the actual MBMS PTM RB release cause to UE:
3>	pass the value of the IE "MBMS PTM RB Release Cause" to upper layers.
2>	if the UE is in a state other than CELL_DCH (for FDD) or if the UE is in Idle mode, URA_PCH or CELL_PCH state (for TDD); and
2>	if the UE decides not to receive an MBMS service indicated on the MCCH; and
2>	if the variable MBMS_PREV_FREQUENCY_INFO is not empty:
3>	if any frequency in SIB11 or SIB12 has the same frequency stored in the variable MBMS_PREV_FREQUENCY_INFO:
4>	select a suitable UTRA cell in that frequency.
4>	if no suitable UTRA cell in that frequency is found:
5>	select a suitable UTRA cell in another frequency.
3>	if no frequency in SIB11 or SIB12 has the same frequency stored in the variable MBMS_PREV_FREQUENCY_INFO.
4>	select a frequency randomly among the inter-frequencies indicated in SIB11 or SIB12.
5>	select a suitable UTRA cell in the selected frequency 
5>	if no suitable UTRA cell in the selected frequency is found:
6>	select a suitable UTRA cell in another frequency.
3>	clear the variable MBMS_PREV_FREQUENCY_INFO.
2>	clear all service specific information applicable for the concerned service.
NOTE:	The UE is only required to acquire the relevant SIB11 or SIB12, according to what is specified in subclauses 8.1.1.6.11 and 8.1.1.6.12.
8.6.9.6a	MBMS re- acquire MCCH
If the UE receives the IE " MBMS re- acquire MCCH", the UE shall:
1>	perform the MCCH acquisition procedure as specified in subclause 8.7.2.
8.6.9.7	MBMS Service transmissions info list
If the UE receives the IE "MBMS Service transmissions info list", the UE may:
1>	discontinue reception of the S-CCPCH on which the IE was received, except for the service transmissions indicated by this IE for the concerned scheduling period.
8.6.9.8	MBMS Short transmission ID
If the IE "MBMS short transmission ID" is included the UE shall:
1>	if the value of the "MBMS short transmission ID" is less than or equal to the number of services identified by the IE "Modified services list" included in the MBMS MODIFIED SERVICES INFORMATION message acquired in the same modification period as the one in which the "MBMS short transmission ID" is received:
2>	consider the "MBMS short transmission ID" to be an index to the list of services contained in the IE "Modified services list" and apply the MBMS transmission identity specified for this entry.
1>	otherwise:
2>	compile a list of available MBMS services, as included in the MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION messages acquired in the same modification period as the one in which the "MBMS short transmission ID" is received:
3>	concatenate the services contained in IE "Modified services list" included in the MBMS MODIFIED SERVICES INFORMATION and the services contained in IE "Unmodified services list" included in the MBMS UNMODIFIED SERVICES INFORMATION.
2>	consider the 'MBMS short transmission ID' to be the index of the entry in the list of available services and apply the MBMS transmission identity specified for this entry.
8.6.9.9	MBMS Transmission identity
If the IE "MBMS transmission identity" is included the UE shall:
1>	if upper layers indicate that the MBMS transmission has already been received correctly:
2>	ignore the information about this MBMS transmission i.e. continue as if the information about the concerned MBMS transmission was not included in the message.
1>	otherwise:
2>	act upon the information about the concerned MBMS transmission as specified elsewhere.
The UE behaviour is unspecified if an MBMS transmission identity appears more than once in the combined list of transmissions i.e. the IE is included more than once in the MBMS MODIFIED SERVICES INFORMATION or in the MBMS UNMODIFIED SERVICES INFORMATION, or once in both message.
8.6.9.9a	MBMS transmission time difference
The IE "MBMS transmission time difference" indicates the time difference between the transmissions on the current and the neighbour cell i.e. indicating the TTIs that can be L1- combined. The UE shall:
1>	derive the parameter Neighbor_Start from the IE MBMS transmission time difference as follows:
	MBMS transmission time difference = (Neighbor_Start / Max_TTI_Size) mod 4
where Neighbor_Start is the CFN of the first radio frame in a TTI on the neighbour cell that may be combined with the TTI on the current cell of which the CFN of the first radio frame equals 0 while Max_TTI_Size is the largest TTI size on the S-CCPCHs to be soft combined;
1>	in case of partial soft combining, derive the CFN of the first radio frame in a TTI on the neighbour cell that may be combined assuming the same time difference applies.
The maximum delay between S-CCPCH clusters that the UE may combine is set by UE performance requirements.
NOTE:	The MBMS transmission time difference is semi-static; it does not vary within or between L1 combining periods nor when full combining is used.
8.6.9.9ab	MBSFN cluster frequency
If the cell is operating in MBSFN mode according to subclause 8.1.1.6.3 the UE shall:
1>	if for two or more services included in variable MBMS_ACTIVATED_SERVICES the IE "MBSFN cluster frequency" is available:
2>	request from upper layers the priorities of the different MBMS services included in variable MBMS_ACTIVATED_SERVICES for which the IE "MBSFN cluster frequency" is available;
2>		if the IE "MBSFN cluster frequency" is available for the service with the highest priority included in variable MBMS_ACTIVATED_SERVICES:
3>		tune to the frequency indicated in the IE "MBSFN cluster frequency" of that service.
8.6.9.9ac	MBSFN frequency list
For FDD and 3.84/7.68 Mcps TDD this IE may be included in system information block 11 in a cell which is not providing MBMS service in MBSFN mode in order to provide information about frequencies providing MBMS service in MBSFN mode. For 1.28 Mcps TDD this IE shall be included in system information block 11 in a cell which is not providing MBMS service in MBSFN only mode but is associated with one or more cells in MBSFN only mode, in order to provide information about frequencies providing MBMS service in MBSFN only mode, and this IE also provides information about the secondary frequencies providing MBMS service in non-MBSFN only mode of current multi-frequency cell.
If the IE "MBSFN frequency list" is included in system information block 11, a UE may consider that all frequencies on which FDD or 3.84/7.68 Mcps TDD cells providing MBMS service in MBSFN mode are listed in the IE "MBSFN frequency list". If the IE "IMB indication" is included in the IE "MBSFN frequency list", the UE shall consider that the cells on the corresponding frequencies are 3.84 Mcps TDD IMB cells providing MBMS service in MBSFN mode.
If the IE "MBSFN frequency list" is included in system information block 11 and no frequency is included in the IE "MBSFN frequency list" a UE may consider that no cell operating in MBSFN mode is available.
For FDD and 3.84/7.68 Mcps TDD if the IE "MBSFN frequency list" is not included in system information block 11 and if services are listed in the variable MBMS_ACTIVATED_services a UE supporting reception of MBMS service in MBSFN mode shall search for cells providing MBMS service in MBSFN mode.
For 1.28 Mcps TDD the IE "Cell parameter ID" in the IE "MBSFN frequency list" included in system information block 11 indicates the cell which is providing MBMS service in MBSFN only mode on the corresponding frequency; if the IE "Cell parameter ID" is not included in the IE "MBSFN frequency list", a UE may consider that the corresponding frequency is the secondary frequency providing MBMS service in non-MBSFN only mode of current multi-frequency cell.
8.6.9.9ad	MBSFN inter frequency neighbour list
For FDD, 3.84 Mcps TDD IMB and 3.84/7.68 Mcps TDD, this IE may be signalled in the "MBMS GENERAL INFORMATION" message received in the cells providing MBMS service in MBSFN mode. If the IE "MBSFN inter frequency neighbour list" is included and the UE does not receive a service from this MBSFN cluster, the UE shall:
1>	consider that MBMS services transmitted in MBSFN mode are available on these frequencies;
1>	if IE "IMB indication" is included:
2>	consider that the cells on the corresponding frequencies are 3.84 Mcps TDD IMB cells providing MBMS service in MBSFN mode.
1>	if "MBSFN services notified" is indicated for a frequency listed in the IE "MBSFN inter frequency neighbour list":
2>	consider that available services provided on this frequency are notified on the current frequency.
1>	if at least one frequency is listed for which "MBSFN services not notified" is indicated in the IE "MBSFN inter frequency neighbour list":
2>	if the IE "All MBSFN services notified" is included for one frequency, as defined in [21] for FDD and [22] for TDD, on which the UE supports reception in MBSFN mode:
3>	attempt to receive notifications on one of the frequencies for which the IE "All MBSFN services notified" is included according to subclause 8.7.3.
2>	else:
3>	attempt to receive notifications on all frequencies for which the IE “MBSFN services not notified” is indicated as specified in subclause 8.7.3 on that band.
NOTE 1:	The UE may not be able to receive frequencies listed in the IE "MBSFN inter frequency neighbour list" on a different band compared to the band on which the information is sent (this depends on UE capabilities).
NOTE 2:	The indications for different frequencies (i.e. "MBSFN services notified", "MBSFN services not notified", "All MBSFN services notified") in the MBMS GENERAL INFORMATION message can be different depending on the frequency in which the MBMS GENERAL INFORMATION message has been received.
8.6.9.9ae	MBSFN TDM Information
If the IE "MBSFN TDM Information List" is included, the UE shall:
1>	assume that the MBMS service identitfied in IE "MBMS short transmission ID" can be received only in frame(s) with the CFN fulfilling the following equation:
(CFN div N) mod TDM_Rep = TDM_Offset + i, i = 0 to TDM_Length - 1 
where
-	N is the TTI (in number of 10ms frames) of the FACH
-	TDM_Rep is the repetition period
-	TDM_Offset is the offset
-	TDM_Length is the number of TTIs the MBMS Service is transmitted, starting from TDM _Offset
-	CFN is set according to subclause 8.5.15.3 (Initialisation for CELL_FACH).
8.6.9.9b	MCCH configuration information
If the IE "MCCH configuration information" is included the UE shall:
1>	Consider an access information period to start from the frame with the SFN value fulfilling the following equation (where m is the modification period coefficient and a is the access info period coefficient):
	SFN mod 2(m – a)  = 0
1>	Consider a repetition period to start from the frame with the SFN value fulfilling the following equation (where m is the modification period coefficient and r is the repetition period coefficient):
	SFN mod 2(m – r)  = 0
1>	Consider a modification period to start from the frame with the SFN value fulfilling the following equation (where m is the modification period coefficient):
	SFN mod 2m = 0
1>	configure the RLC entity in the UE used for receiving MCCH in accordance with 8.6.4.9;
1>	configure the MAC entity in the UE, used for receiving MCCH, for receiving TCTF field unless the IE 'TCTF presence' is received;
8.6.9.10	Next scheduling period
If the IE "Next scheduling period" is included for an MBMS service the UE may:
1>	discontinue reception of the given MBMS service for the number of scheduling periods indicated by this IE.
8.6.9.11	TDD MBSFN Information
For TDD if the UE receives "TDD MBSFN Information" (via System Information Block type 5) then the UE shall assume that any CCTrCH configured to use the timeslots indicated by this IE shall use MBSFN Burst Type.
8.6.9.12	Network Standard Time Information
For 1.28Mcps TDD, when UE receives "Network Standard Time Information" via MBMS general information, the UE can adjust its local time settings according to the values in "Network Standard Time Information". The adjustment process is as following:
1)	Compare currently SFN and "Correlative SFN", get a difference; 
2)	Add this difference to "Network Standard Time"
The result is the precise standard time in currently SFN, and then UE can maintain this standard time. How often does UE do this adjustment is a UE implementation.
8.7	MBMS specific procedures
8.7.1	Reception of MBMS control information
8.7.1.1	General
The procedure for receiving MBMS control information is used by a UE to receive information from UTRAN concerning the way it provides MBMS services the UE has activated. The procedure applies to all UEs supporting MBMS, irrespective of its state (idle, URA_PCH, CELL_PCH, CELL_FACH and CELL_DCH).
Most MBMS control information is provided on the MCCH. The information on MCCH is transmitted using a fixed schedule, which is common for all services. MCCH information other than MBMS Access Information message is transmitted periodically based on a repetition period. This MCCH information is repeated a configurable number of times with exactly the same content; the period in which the content of MCCH information other than MBMS Access Information message remains unchanged is called the modification period. MBMS Access Information message may be transmitted more frequently, based on the Access Info period. The transmissions of MBMS Access Information message within a modification period need not have exactly the same content (the value of some parameters eg. IE 'Access probability factor – Idle' may change). Nevertheless, the transmissions of MBMS Access Information message within a modification period should concern the same MBMS service(s), although information for a service may be removed eg. upon completion of the counting for that service.
The general principles are illustrated in figure 8.7.1-1, in which different colours indicate potentially different content of the MCCH information.

Figure 8.7.1-1: Scheduling of MCCH Information 
For services provided via a p-t-m radio bearer scheduling information may be provided on an MSCH mapped on the same S-CCPCH as the p-t-m radio bearer(s). For some of the services provided p-t-m this scheduling information may be provided by signalling an MBMS Scheduling Information message at every scheduling period, while for others the MBMS Scheduling Information message may be signalled less frequently i.e. after a multiple of the scheduling period. In general, the UE is neither required to acquire MSCH information nor to act on it.
In case the UE shall acquire MCCH information that is scheduled at the same time as MSCH information, the reception of the MCCH information shall take precedence.
In order to minimise the time the UE needs to read MCCH upon notification as specified in 8.7.3 to acquire the required information, UTRAN should schedule the MCCH messages in a specific order ie. any message that needs to be read by any UE due to the reception of the MBMS MODIFIED SERVICES INFORMATION message should be scheduled prior to the remaining messages. More specifically, the UE may assume that UTRAN schedules the MCCH messages in the following order:
MBMS MODIFIED SERVICES INFORMATION,
followed by messages that needs to be read by any UE due to the content of the MBMS MODIFIED SERVICES INFORMATION message  in the following order: MBMS General Information, MBMS Common p-t-m rb InformatioN, MBMS Current Cell p-t-m rb Information, one or more MBMS Neighbouring Cell p-t-m rb Information,
MBMS Unmodified services Information,
followed by messages that do not need to be read by any UE due to the content of the MBMS MODIFIED SERVICES INFORMATION message  in the following order: MBMS General Information, MBMS Common p-t-m rb InformatioN, MBMS Current Cell p-t-m rb Information, one or more MBMS Neighbouring Cell p-t-m rb Information
8.7.1.2	Initiation
The requirements concerning which MBMS control information the UE shall acquire in the different cases is specified in other subclauses. This section specifies common requirements concerning the reception of MCCH information and MSCH information.
8.7.1.3	UE requirements on reading of MCCH information
When requested to acquire MBMS control information other than the MBMS Access Information message , the UE shall:
1>	if requested to start reading MCCH at the next modification period:
2>	start reading MCCH at the beginning of the next modification period.
1>	otherwise
2>	start reading MCCH at the beginning of the next repetition period.
1>	if requested to stop reading MCCH at the end of the modification period:
2>	continue reading MCCH until the required MBMS control information is received or until the UE detects a TTI in which no MCCH information is transmitted, whichever is first;
2>	continue reading MCCH in this manner at every subsequent repetition period, until the information is received correctly or until the end of the modification period.
1>	otherwise:
2>	continue reading MCCH until the required MBMS control information is received or until the UE detects a TTI in which no MCCH information is transmitted, whichever is first;
2>	continue reading MCCH in this manner at every subsequent repetition period, until the information is received correctly.
NOTE 1:	The UE may combine information received at different repetition periods within a modification period.
When requested to acquire the MBMS Access Information message, the UE shall:
1>	if requested to start reading MCCH at the next modification period:
2>	start reading MCCH at the beginning of the next modification period.
1>	otherwise:
2>	start reading MCCH at the beginning of the next access info period.
1>	continue reading MCCH in this manner at every subsequent access info period, until the message is received correctly or until the end of the modification period.
If the UE is CELL_DCH and has a compressed mode pattern that overlaps with the period in which it needs to read MCCH, the UE may temporarily refrain from receiving MCCH unless it is capable of simultaneous operation. If the UE is CELL_FACH and has a measurement occasion that overlaps with the period in which it needs to read MCCH, the UE may temporarily refrain from receiving MCCH unless it is capable of simultaneous operation. A UE in CELL_FACH may omit performing measurements during a measurement occasion in order to receive MCCH provided that this does not prevent it from fulfilling the measurement performance requirements as specified in [19]. In Idle mode as well as in CELL_PCH and URA_PCH states the UE may temporarily refrain from receiving MCCH if needed to fulfil the measurements performance requirements as specified in [19].
NOTE 2:	The UTRAN should endeavour to ensure that for each UE in CELL_FACH the assigned measurement occasions do not overlap constantly with the periodic MCCH transmissions.
If the UE selects to another cell, the UE shall re-establish the RLC entity used for MCCH reception.
8.7.1.4	UE requirements on reading of MSCH information
If the UE supports reception of MSCH, UE shall:
1>	if the UE needs to acquire MCCH information that is transmitted at the same time as the MSCH information and the UE does not support simultaneous reception:
2>	refrain from reading MSCH.
If the UE supports reception of MSCH, UE should:
1>	start reading MSCH at the beginning of the next scheduling period;
1>	continue reading MSCH until the required MBMS control information is received or until the UE detects a TTI in which no MSCH information is transmitted, whichever is first.
8.7.2	MCCH acquisition

Figure 8.7.2-1: MCCH acquisition, normal
8.7.2.1	General
The UE applies the MCCH acquisition procedure to determine the MBMS services available in the cell and to initiate reception of the services that the UE has activated. The procedure applies to all UEs supporting MBMS, irrespective of their state (idle, URA_PCH, CELL_PCH, CELL_FACH and CELL_DCH). The UE may also apply the MCCH acquisition procedure to inform NAS of other available services that are not activated.
For 1.28 Mcps TDD, if the cell is operating in MBSFN mode, the MCCH will be deployed on the MBSFN Special Timeslot [30].
8.7.2.2	Initiation
If the variable MBMS_ACTIVATED_services is not empty, the UE shall apply the MCCH acquisition procedure upon selecting (eg. upon power on) or re- selecting a cell supporting MBMS or an MBSFN cluster, upon change of MBMS controlling cell (eg. due to an active set update or hard handover), upon entering UTRA from another RAT, upon release of a MBMS PTP RB for the purpose of changing transfer mode, upon return from loss of coverage and upon receiving an indication from upper layers that the set of activated services has changed.
8.7.2.3	MCCH information to be acquired by the UE
The UE shall detect the available MBMS services by acquiring the MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION messages without delaying reading of MCCH until the next modification period and without stopping at the end of the modification period, in accordance with subclause 8.7.1.3.
For cells not operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE shall immediately acquire the MBMS ACCESS INFORMATION and the MBMS GENERAL INFORMATION messages ie. it shall not delay reception of these messages until it has completed the acquisition of the MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION messages. Likewise for cells not operating in MBSFN mode as indicated in subclause 8.1.1.6.3, the UE should immediately acquire the MBMS CURRENT CELL P-T-M RB INFORMATION and MBMS NEIGHBOURING CELL P-T-M RB INFORMATION messages. 
For cells operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE shall immediately acquire the MBMS GENERAL INFORMATION messages ie. it shall not delay reception of these messages until it has completed the acquisition of the MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION messages. Likewise for cells operating in MBSFN mode as indicated in subclause 8.1.1.6.3, the UE should immediately acquire the MBMS CURRENT CELL P-T-M RB INFORMATION.
The UE shall continue acquiring the above messages until it has received a consistent set of MCCH information eg. both the MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION message should be acquired in the same modification period.
8.7.2.4	Reception of the MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION by the UE
If the UE is receiving an MBMS service that is not included in variable MBMS_ACTIVATED_SERVICES and that is using a p-t-m radio bearer, the UE shall:
1>	stop receiving the concerned MBMS service and clear all service specific information applicable for the concerned service.
1>	if the UE is in a state other than CELL_DCH (for FDD) or if the UE is in Idle mode, URA_PCH or CELL_PCH state (for TDD); and
1>	if the UE does not decide to receive an MBMS service; and
1>	if the variable MBMS_PREV_FREQUENCY_INFO is not empty:
2>	if any frequency in SIB11 or SIB12 has the same frequency stored in the variable MBMS_PREV_FREQUENCY_INFO:
3>	select a suitable UTRA cell in that frequency;
3>	if no suitable UTRA cell in that frequency is found:
4>	select a suitable UTRA cell in another frequency.
2>	if no frequency in SIB11 or SIB12 has the same frequency stored in the variable MBMS_PREV_FREQUENCY_INFO:
3>	select a frequency randomly among the inter-frequencies indicated in SIB11 or SIB12:
4>	select a suitable UTRA cell in the selected frequency;
4>	if no suitable UTRA cell in the selected frequency is found:
5>	select a suitable UTRA cell in another frequency.
2>	clear the variable MBMS_PREV_FREQUENCY_INFO.
NOTE:	The UE is only required to acquire the relevant SIB11 or SIB12, according to what is specified in subclauses 8.1.1.6.11 and 8.1.1.6.12.
Upon completing the reception of the MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION messages, the UE shall
1>	act as follows for each of the services included in these messages provided that the service is included in variable MBMS_ACTIVATED_SERVICES and upper layers indicate that the session has not yet been received correctly (referred to as 'applicable services');
1>	act upon all received information elements as specified in subclause 8.6, unless specified otherwise in the following;
1>	if one or more preferred frequency applies for the applicable services:
2>	delay acting upon the "MBMS Preferred frequency information" until receiving  the relevant MCCH information i.e. the MBMS GENERAL INFORMATION message;
2>	act upon the "MBMS Preferred frequency information" as specified in subclause 8.6.9.4 for the service(s) that upper layers indicate to have highest priority.
1>	perform the MBMS frequency selection procedure as specified in subclause 8.5.27;
1>	if the UE receives an MBMS service using a p-t-m radio bearer and the received messages do not contain an IE "MBMS required UE action" set to "Acquire PTM RB info" or set to "Acquire counting info– PTM RBs unmodified" for that service then the UE shall:
2>	stop receiving the concerned MBMS service and clear all service specific information applicable for the concerned service.
8.7.2.5	Reception of the other MBMS messages by the UE
For cells not operating in MBSFN mode as indicated in subclause 8.1.1.6.3, upon receiving the MBMS ACCESS INFORMATION message, the UE shall act as specified in subclause 8.7.4.3.
Upon receiving the MBMS GENERAL INFORMATION message, the UE should store all relevant IEs included in this message. The UE shall also:
1>	act upon all received information elements as specified in subclause 8.6, unless specified otherwise in the following.
For cells not operating in MBSFN mode as indicated in subclause 8.1.1.6.3, upon receiving the MBMS CURRENT CELL P-T-M RB INFORMATION and MBMS NEIGHBOURING CELL P-T-M RB INFORMATION messages, the UE shall act as specified in subclauses 8.7.5.3 and subclause 8.7.5.4 respectively.
For cells operating in MBSFN mode as indicated in subclause 8.1.1.6.3 upon receiving the MBMS CURRENT CELL P-T-M RB INFORMATION message, the UE shall act as specified in subclauses 8.7.5.3.
The procedure ends.
8.7.3	MBMS Notification


Figure 8.7.3-1: MBMS notification on MCCH

Figure 8.7.3-2: MBMS notification on DCCH
8.7.3.1	General
The MBMS notification procedure is used by the UE to respond to a notification provided by UTRAN, indicating a change applicable for one or more MBMS services the UE has activated. The procedure applies to all UEs supporting MBMS, irrespective of their state (idle and connected mode: URA_PCH, CELL_PCH, CELL_FACH and CELL_DCH). The actual notification mechanism to be used depends on the UE state.
Reception of the MBMS MODIFIED SERVICES INFORMATION message on DCCH is optional for a UE capable of reading MCCH in CELL_DCH.
8.7.3.2	Initiation
UTRAN initiates the notification procedure to inform UEs about a change applicable for one or more MBMS services available in a cell. Some types of MBMS service changes e.g. the establishment of a p-t-m radio bearer, involve a modification of MCCH messages other than the MBMS MODIFIED SERVICES INFORMATION message.
NOTE 1:	On MCCH, the MBMS MODIFIED SERVICES INFORMATION as well as the MBMS UNMODIFIED SERVICES INFORMATION messages are signalled even if no services are contained in the message.
NOTE 2:	A service remains in the MBMS MODIFIED SERVICES INFORMATION message until it enters a 'steady state', upon which it moves to the MBMS UNMODIFIED SERVICES INFORMATION message. In case counting is used, the service remains in the MBMS MODIFIED SERVICES INFORMATION message through the moment UTRAN has decided the transfer mode.
8.7.3.3	Receiving the MBMS Notification information
8.7.3.3.1	Reception via MCCH
The UE may:
1>	monitor the MBMS notification Indicator Channel (MICH);
1>	if a notification on the MICH for one or more of the MBMS services included in the variable MBMS_ACTIVATED_SERVICES is detected:
2>	acquire the MBMS MODIFIED SERVICES INFORMATION message with delaying the reading of MCCH until the next modification period and with stopping at the end of the modification period, in accordance with subclause 8.7.1.3;
2>	handle the MBMS MODIFIED SERVICES INFORMATION message as specified in subclause 8.7.3.4.
The UE shall:
1>	if in idle mode, URA_PCH, CELL_PCH or CELL_FACH state:
2>	if not monitoring MICH during the current or the previous modification period:
3>	acquire the MBMS MODIFIED SERVICES INFORMATION message from MCCH at the start of every modification period, in accordance with subclause 8.7.1.3;
3>	handle the MBMS MODIFIED SERVICES INFORMATION message as specified in subclause 8.7.3.4.
1>	if in CELL_DCH state:
2>	if receiving an MBMS service that is provided via a p-t-m radio bearer and not monitoring MICH:
3>	acquire the MBMS MODIFIED SERVICES INFORMATION message from MCCH at the start of every modification period, in accordance with subclause 8.7.1.3;
3>	handle the MBMS MODIFIED SERVICES INFORMATION message as specified in subclause 8.7.3.4.
8.7.3.3.2	Void

8.7.3.3.3	Reception via DCCH
Notification via DCCH is used to notify the UE about the start of a session for which a PL applies, to notify the UE about the establishment of a p-t-m radio bearer and to request a UE in PMM_idle state to establish a PMM connection to enable reception of a service provided via a p-t-p radio bearer.
Upon receiving the MBMS MODIFIED SERVICES INFORMATION message via DCCH, a UE in CELL_DCH shall:
1>	handle the MBMS MODIFIED SERVICES INFORMATION message as specified in subclause 8.7.3.4.
8.7.3.4	UE action upon receiving MBMS MODIFIED SERVICES INFORMATION message
Upon receiving the MBMS MODIFIED SERVICES INFORMATION message, if the IE "MIB Value tag" is present, the UE should check it to ensure that the stored system information blocks are up to date. If the received IE "MIB Value tag" does not match the value tag stored in the variable VALUE_TAG for the master information block the UE should not consider any MBMS configuration stored or received to be valid, until the stored system information blocks are up to date.
Upon receiving the MBMS MODIFIED SERVICES INFORMATION message, the UE shall act as follows for each of the services included in this messages provided that the service is included in variable MBMS_ACTIVATED_SERVICES and upper layers indicate that the session has not yet been received correctly (referred to as 'applicable services'):
1>	if the IE "MBMS all unmodified p-t-m services" is included in the MBMS MODIFIED SERVICES INFORMATION messages:
2>	for all services listed in the message UNMODIFIED SERVICES INFORMATION, provided that the service is included in variable MBMS_ACTIVATED_SERVICES, upper layers indicate that the session has not yet been received correctly (referred to as 'applicable services') and the IE "MBMS required UE action" in the message MBMS Unmodified services Information is set to "Acquire PTM RB info":
3>	continue acquiring the MBMS Unmodified services Information, MBMS COMMON P-T-M RB INFORMATION, MBMS CURRENT CELL P-T-M RB INFORMATION, and for FDD and 3.84/7.68 Mcps TDD cells not operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the MBMS NEIGHBOURING CELL P-T-M RB INFORMATION messages without delaying reading of MCCH until the next modification period and without stopping at the end of the modification period, in accordance with subclause 8.7.1.3;
3>	act upon the MBMS Unmodified services Information MBMS COMMON P-T-M RB INFORMATION, MBMS CURRENT CELL P-T-M RB INFORMATION and for FDD and 3.84/7.68 Mcps TDD cells not operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the MBMS NEIGHBOURING CELL P-T-M RB INFORMATION message, if received, in accordance with subclause 8.7.5, and assuming the p-t-m configuration indicated in these messages is valid immediately, unless the IE "MBMS p-t-m activation time" is included in the MBMS MODIFIED SERVICES INFORMATION message.
2>	if the UE receives an MBMS service using a p-t-m radio bearer and the messages MBMS UNMODIFIED SERVICES INFORMATION and MBMS MODIFIED SERVICES INFORMATION do not contain an IE "MBMS required action" set to "Acquire PTM RB info" or set to "Acquire counting info – PTM RBs unmodified" for that service then the UE shall:
3>	stop receiving the concerned MBMS service and clear all service specific information applicable for the concerned service.
3>	if the UE is in a state other than CELL_DCH (for FDD) or if the UE is in Idle mode, URA_PCH or CELL_PCH state (for TDD); and
3>	if the UE does not decide to receive an MBMS service; and
3>	if the variable MBMS_PREV_FREQUENCY_INFO is not empty:
4>	if any frequency in SIB11 or SIB12 has the same frequency stored in the variable MBMS_PREV_FREQUENCY_INFO:
5>	select a suitable UTRA cell in that frequency;
5>	if no suitable UTRA cell in that frequency is found:
6>	select a suitable UTRA cell in another frequency.
4>	if no frequency in SIB11 or SIB12 has the same frequency stored in the variable MBMS_PREV_FREQUENCY_INFO:
5>	select a frequency randomly among the inter-frequencies indicated in SIB11 or SIB12:
6>	select a suitable UTRA cell in the selected frequency;
6>	if no suitable UTRA cell in the selected frequency is found:
7>	select a suitable UTRA cell in another frequency.
4>	clear the variable MBMS_PREV_FREQUENCY_INFO.
NOTE:	The UE is only required to acquire the relevant SIB11 or SIB12, according to what is specified in subclauses 8.1.1.6.11 and 8.1.1.6.12.
1>	act upon all received information elements as specified in subclause 8.6, unless specified otherwise in the following
1>	if one or more preferred frequency applies for the applicable services:
2>	acquire the MBMS GENERAL INFORMATION message.
1>	perform the MBMS frequency selection procedure as specified in subclause 8.5.27;
1>	the procedure ends.
8.7.3.5	UE fails to receive MBMS Notification information
If the UE fails to receive the MBMS MODIFIED SERVICES INFORMATION message within the current modification period,  the UE shall:
1>	Acquire the MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION messages without delaying reading of MCCH until the next modification period and with stopping at the end of that modification period, in accordance with subclause 8.7.1.3;
1>	act upon the received MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION messages as specified in subclause 8.7.2.4.
8.7.4	MBMS counting

Figure 8.7.4-1: MBMS counting, normal
8.7.4.1	General
The MBMS counting procedure is used by the UE to inform UTRAN about its interest to receive an MBMS transmission. The procedure applies to UEs supporting MBMS that are in idle mode or in connected mode for cells not operating in MBSFN mode as indicated in subclause 8.1.1.6.3. In connected mode the procedure applies to the URA_PCH, CELL_PCH and/ or CELL_FACH states dependent upon the value of the IE "Connected mode counting scope".
8.7.4.2	Initiation
The UE initiates the MBMS counting procedure for an MBMS transmission upon receiving an MBMS MODIFIED SERVICES message including IE "MBMS required UE action" with the value set to 'Acquire counting info' or set to "Acquire counting info– PTM RBs unmodified".
8.7.4.3	Reception of the MBMS ACCESS INFORMATION
For cells not operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE shall acquire the MBMS ACCESS INFORMATION message without delaying reading of MCCH until the next modification period in accordance with subclause 8.7.1.3. If the procedure the UE would apply to respond to counting (Idle mode: RRC connection establishment,  connected mode: Cell update) is ongoing, the UE may defer acquiring the MBMS ACCESS INFORMATION message until this procedure has completed.
The UE behaviour upon receiving an MBMS ACCESS INFORMATION message that is contained in more than one TTI is not specified.
Upon receiving the MBMS ACCESS INFORMATION message for cells not operating in MBSFN mode as indicated in subclause 8.1.1.6.3 including one or more MBMS service(s) it has joined and/or including one or more MBMS Selected Services, the UE shall for each joined and/or selected service:
1>	if the UE is in idle mode:
2>	draw a random number, "rand", uniformly distributed in the range: 0 ≤ rand < 1
2>	if 'rand' is lower than the value indicated by the IE 'Access probability factor-Idle' for the concerned service:
3>	indicate to upper layers that establishment of an RRC connection is required to receive the concerned MBMS service, with the establishment cause set to 'MBMS reception';
3>	if the above condition applies for more than one service, initiate a single indication to upper layers;
3>	if the RRC connection establishment succeeds, the procedure ends.
2>	otherwise:
3>	if the message triggering the MBMS counting procedure included the IE "Continue MCCH reading" with a value set to TRUE:
4>	continue acquiring further MBMS ACCESS INFORMATION messages without delaying reading of MCCH until the next modification period and without stopping at the end of the modification period, in accordance with subclause 8.7.1.3.
3>	otherwise:
4>	continue acquiring further MBMS ACCESS INFORMATION messages without delaying reading of MCCH until the next modification period and with stopping at the end of the modification period, in accordance with subclause 8.7.1.3.
1>	if the UE is in URA_PCH state, CELL_PCH or CELL_FACH state and the IE "Connected mode counting scope" indicates that counting is applicable for this UE state:
2>	draw a random number, "rand", uniformly distributed in the range: 0 ≤ rand < 1.
2>	if 'rand' is lower than the value indicated by the IE 'Access probability factor-connected' for the concerned service:
3>	if a cell update has not been successfully transmitted for this service in the current modification period:
4>	initiate the cell update procedure with 'Cell update cause' set to "MBMS reception", in accordance with subclause 8.3.1;
4>	if the above condition applies for more than one service, initiate a single cell update;
4>	if the cell update procedure succeeds, 
5>	the procedure ends.
2>	otherwise:
3>	if the message triggering the MBMS counting procedure included the IE "Continue MCCH reading" with a value set to TRUE:
4>	continue acquiring further MBMS ACCESS INFORMATION messages without delaying reading of MCCH until the next modification period and without stopping at the end of the modification period, in accordance with subclause 8.7.1.3.
3>	otherwise:
4>	continue acquiring further MBMS ACCESS INFORMATION messages without delaying reading of MCCH until the next modification period and with stopping at the end of the modification period, in accordance with subclause 8.7.1.3.
1>	otherwise:
2>	the procedure ends;
Upon receiving the MBMS ACCESS INFORMATION message not including an MBMS service(s) the UE has joined or selected:
1>	the procedure ends;
8.7.4.4	Termination of the MBMS counting procedure
If the UE detects that the MBMS ACCESS INFORMATION message is not provided at an access info period; OR
If the UE receives an MBMS ACCESS INFORMATION message not including an MBMS service the UE has joined or selected, the UE shall:
1>	terminate the MBMS counting procedure.
If the UE receives an RRC CONNECTION REJECT message with Rejection Cause 'unspecified' and including the MBMS "Counting completion" IE, the UE shall:
1>	consider the MBMS counting procedure ended for the MBMS service(s) for which the UE has initiated the MBMS counting response;
1>	indicate to upper layers that the establishment of an RRC connection with the establishment cause set to 'MBMS reception' shall be aborted.
8.7.4.5	Failure of the counting response procedure
If the counting response procedure (RRC connection establishment or Cell update) fails, the UE shall:
1>	if the failure occurs in the same modification period as the one in which the UE initiated the counting response procedure; or
1>	if the message triggering the MBMS counting procedure included the IE "Continue MCCH reading" with a value set to TRUE that is applicable in the modification period in which the UE detects the failure:
2>	continue acquiring further MBMS ACCESS INFORMATION messages without delaying reading of MCCH until the next modification period and without stopping at the end of the modification period, in accordance with subclause 8.7.1.3.
1>	otherwise:
2>	the procedure ends.
8.7.5	MBMS p-t-m radio bearer configuration

Figure 8.7.5-1: MBMS p-t-m radio bearer modification, normal
8.7.5.1	General
The MBMS p-t-m radio bearer configuration procedure is used by the UE to acquire the (modified) radio bearer configuration for one or more activated MBMS services. The procedure applies to all UEs supporting MBMS, irrespective of their state (idle and connected mode: URA_PCH, CELL_PCH, CELL_FACH and CELL_DCH).
8.7.5.2	Initiation
The UE applies the MBMS p-t-m radio bearer configuration procedure whenever it detects that one of the activated services is provided by means of a p-t-m radio bearerer. This may occur as part of the MCCH acquisition or the MBMS Notification procedure.
8.7.5.3	Reception of the MBMS Current Cell PTM RB information
Upon completing the reception of the MBMS COMMON P-T-M RB INFORMATION and the MBMS CURRENT CELL P-T-M RB INFORMATION messages for an activated MBMS service, the UE shall:
1>	if the UE is already receiving an MTCH and does not have the capability to receive the new service in addition:
2>	the UE behaviour is undefined.
NOTE:	In this case, the UE may request upper layers to prioritise the services and only receive the service(s) prioritised by upper layers.
1>	act upon all received information elements as specified in subclause 8.6, unless specified otherwise in the following;
1>	if the UE previously received the service by means of a p-t-m radio bearer from a cell belonging to another MBMS cell group:
2>	re-establish RLC;
2>	re-initialise PDCP.
1>	start immediately to use the indicated configuration unless specified otherwise;
1>	start or continue receiving the indicated p-t-m radio bearers depending on its UE capabilities.
The UE shall continue acquiring the above messages until it has received a consistent set of MCCH information i.e. the MBMS Modified services Information message, MBMS Unmodified services Information message, MBMS COMMON P-T-M RB INFORMATION and the MBMS CURRENT CELL P-T-M RB INFORMATION message should be acquired in the same modification period.
8.7.5.4	Reception of the MBMS Neighbouring Cell PTM RB information
Upon receiving the MBMS NEIGHBOURING CELL P-T-M RB INFORMATION message for an activated MBMS service for a cell not operating in MBSFN mode as indicated in subclause 8.1.1.6.3, the UE shall:
1>	start immediately to use the indicated neighbouring cells and configuration, or a subset of them, for L1- or L2 combining or Chip combining (1.28Mcps TDD only) unless specified otherwise;
1>	start or continue receiving the indicated p-t-m radio bearers from the selected neighbouring cells depending on its UE capabilities.
The UE shall apply MBMS NEIGHBOURING CELL P-T-M RB INFORMATION only in combination with an MBMS Modified services Information message, MBMS Unmodified services Information message, MBMS COMMON P-T-M RB INFORMATION and MBMS CURRENT CELL P-T-M RB INFORMATION message acquired in the same modification period.
8.7.6	MBMS modification request

Figure 8.7.6-1: MBMS modification request, normal
8.7.6.1	General
The MBMS modification request procedure is used by the UE to request UTRAN to release the p-t-p radio bearers ofone or more MBMS services the UE is receiving. The procedure is also used to request to be moved to a preferred frequency applicable for one or more (prioritised) activated MBMS services the UE, and to indicate the UE MBMS Selected Services. The procedure applies to all UEs supporting MBMS, that are in CELL_DCH, CELL_PCH, URA_PCH or CELL_FACH state.
8.7.6.2	Initiation
A UE entering CELL_DCH shall initiate the MBMS modification request procedure in the following cases:
1>	if the UE has any MBMS Selected Service; and
1>	if the IE "MCCH configuration information" was received in System Information Block Type 5 or System Information Block Type 5bis prior to entering CELL_DCH.
A UE completing an RRC Connection Setup procedure shall initiate the MBMS modification request procedure in the following cases:
1>	if the UE has any MBMS Selected Service; and
1>	if the IE "MCCH configuration information" was received in System Information Block Type 5 or System Information Block Type 5bis prior to completing the RRC Connection Setup procedure.
A UE in CELL_DCH shall initiate the MBMS modification request procedure in the following cases:
1>	the preferred frequency applicable for the  MBMS service prioritised by upper layers is different from the currently used frequency;
1>	upper layers request to discontinue reception of an MBMS service provided via a p-t-p radio bearer e.g. because this inhibits reception of a higher priority service;
1>	upon a change in selection of the MBMS Selected Services.
NOTE:	The above case may occur upon receiving a dedicated notification or in other cases eg. a change of transfer mode from p-t-p to p-t-m for the UE's highest priority MBMS service.
A UE in CELL_FACH, CELL_PCH or URA_PCH state shall initiate the MBMS modification request procedure in the following cases:
1>	upon a change in selection of the MBMS Selected Services that are indicated on MCCH; and
1>	if the IE "Indicate changes in MBMS Selected Services" that is included in the MBMS GENERAL INFORMATION message is set to TRUE.
If the UE is required to initiate the MBMS modification request procedure as specified in the conditions above, the UE shall:
1>	transmit an MBMS MODIFICATION REQUEST message with the contents as specified in subclause 8.7.6.2a.
If applicable, the UE shall use a single MBMS MODIFICATION REQUEST message to request a move to the preferred frequency and/or to request release of radio bearers corresponding with lower priority MBMS services provided p-t-p and/or to report the MBMS Selected Services.
8.7.6.2a	MBMS MODIFICATION REQUEST message contents to set
The UE shall set the contents of the MBMS MODIFICATION REQUEST message as follows:
1>	if the preferred frequency applicable for the  MBMS service prioritised by upper layers is different from the currently used frequency:
2>	include the IE "MBMS preferred frequency request" and set it to the prioritised MBMS service identity;
1>	if upper layers request to discontinue reception of an MBMS service provided via a p-t-p radio bearer:
2>	include the p-t-p radio bearers used for the corresponding MBMS services within the IE "MBMS RB list requested to be released".
1>	if the UE enters CELL_DCH; or
1>	if the UE completes the RRC connection establishment procedure; or
1>	if there is a change in selection of one or more of the MBMS Selected Services:
2>	if the UE has not selected any MBMS Selected Service:
3>	include the IE "MBMS Selected Service Info" and set the Status to 'None'.
2>	otherwise:
3>	include the IE "MBMS Selected Service Info" and set the Status to 'Some';
3> include the IE "Support of MBMS service change for a ptp RB";
3>	for each MBMS Selected Service:
4>	order the MBMS Selected Services such that those selected with a higher priority are listed in the IE "MBMS Selected Services Full" before those selected with a lower priority;
4>	include the IE "MBMS Selected Service ID" within the IE "MBMS Selected Services Full".
8.7.6.3	Reception of a MBMS MODIFICATION REQUEST message by the UTRAN
Upon reception of a MBMS MODIFICATION REQUEST message, the UTRAN may take further action depending on the contents of the received message.
The procedure ends.
8.7.7	MBMS service scheduling

Figure 8.7.7-1: MBMS service scheduling, normal
8.7.7.1	General
The MBMS service scheduling procedure is used by the UE that is receiving one or more activated MBMS services to acquire the MBMS scheduling information for the MBMS services. The procedure applies to all UEs that are receiving an MBMS service provided via a p-t-m radio bearer, irrespective of their state (idle and connected mode: URA_PCH, CELL_PCH, CELL_FACH and CELL_DCH).
8.7.7.2	Initiation
The UE may initiate the MBMS service scheduling procedure for any scheduling period of the concerned MBMS service while receiving an SCCPCH carrying an MBMS service.
8.7.7.3	Reception of the MBMS scheduling information
Upon receiving the MBMS SCHEDULING INFORMATION message, the UE should:
1>	act as follows for each of the services included in these messages provided that the service is included in variable MBMS_ACTIVATED_SERVICES;
1>	act upon all received information elements as specified in subclause 8.6, unless specified otherwise in the following.
The procedure ends.
9	Handling of unknown, unforeseen and erroneous protocol data
9.1	General
This subclause specifies procedures for the handling of unknown, unforeseen, and erroneous protocol data by the receiving entity. These procedures are called "error handling procedures", but in addition to provide recovery mechanisms for error situations they define a compatibility mechanism for future extensions of the protocol.
The error handling procedures specified in this subclause shall apply to all RRC messages. When there is a specific handling for messages received on different logical channels this is specified.
For system information received on the BCCH, the error handling procedures are applied on the BCCH message SYSTEM INFORMATION, the re-assembled system information segments as well as the system information blocks (including the master information block and the scheduling blocks), with specific error handling as specified below.
When the UE receives an RRC message, it shall set the variable PROTOCOL_ERROR_REJECT to FALSE and then perform the checks in the order as defined below.
The error cases specified in the following include the handling upon reception of spare values. This behaviour also applies in case the actual value of the IE results from mapping the originally sent IE value. Moreover, in certain error cases, as specified in the following, default values apply. In this case, the default values specified within the ASN.1, the tabular and the procedure specifications apply.
9.2	ASN.1 violation or encoding error
If the UE receives an RRC message on the DCCH for which the encoded message does not result in any valid abstract syntax value [49] (or "encoding error"), it shall perform the following. The UE shall:
1>	set the variable PROTOCOL_ERROR_REJECT to TRUE;
1>	transmit an RRC STATUS message on the uplink DCCH. The IE "Protocol error information" shall contain an IE "Protocol error cause" set to "ASN.1 violation or encoding error";
1>	when RRC STATUS message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid message had not been received.
NOTE	In this case, the UE does not perform procedure specific error handling according to clause 8.
If the UE receives an RRC message sent via a radio access technology other than UTRAN, for which the encoded message does not result in any valid abstract syntax, the UE shall:
1>	set the variable PROTOCOL_ERROR_REJECT to TRUE;
1>	set the IE "Protocol error cause" in the variable PROTOCOL_ERROR_INFORMATION to "ASN.1 violation or encoding error";
1>	perform procedure specific error handling according to clause 8.
If a reassembled set of system information segments received in messages on the BCCH does not result in any valid abstract syntax value, the UE shall:
1>	ignore the reassembled set of system information segments;
1>	treat the rest of each message containing the ignored system information segments as if those segments were not present.
If the UE receives an RRC message on the BCCH, PCCH, CCCH, MCCH, MSCH or SHCCH for which the encoded message does not result in any valid abstract syntax value, it shall ignore the message.
9.3	Unknown or unforeseen message type
If a UE receives an RRC message on the DCCH with a message type not defined for the DCCH it shall:
1>	set the variable PROTOCOL_ERROR_REJECT to TRUE;
1>	transmit an RRC STATUS message on the uplink DCCH. The IE "Protocol error information" shall contain an IE "Protocol error cause" set to "Message type non-existent or not implemented";
1>	when the RRC STATUS message has been submitted to lower layers for transmission:
2>	continue with any ongoing processes and procedures as if the invalid message had not been received.
If the UE receives an RRC message on the BCCH, PCCH, CCCH, MCCH, MSCH or SHCCH with a message type not defined for the logical channel type the message was received on, it shall ignore the message.
9.3a	Unsolicited received message
If the UE receives any of the following messages:
-	an RRC CONNECTION SETUP message addressed to the UE on the CCCH; or
-	an RRC CONNECTION REJECT message addressed to the UE on the CCCH; or
-	a UE CAPABILITY INFORMATION CONFIRM message on the DCCH; or
-	a CELL UPDATE CONFIRM message addressed to the UE on the CCCH or on the DCCH; or
-	a URA UPDATE CONFIRM message addressed to the UE on the CCCH or on the DCCH
and no procedure is ongoing according to clause 8 which expects the message to be received:
the UE shall:
1>	ignore the received message.
9.3b	Unexpected critical message extension
If the UE receives an RRC message on the DCCH, or addressed to the UE on the CCCH or on the SHCCH, or sent via a radio access technology other than UTRAN, containing an undefined critical message extension, the UE shall:
1>	set the variable PROTOCOL_ERROR_REJECT to TRUE;
1>	set the IE "Protocol error cause" in the variable PROTOCOL_ERROR_INFORMATION to "Message extension not comprehended";
1>	if the IE "Message Type" of the received message is not present in the table "Rejected transactions" in the variable TRANSACTIONS:
2>	store the IE "Message type" of the received message in the table "Rejected transactions" in the variable TRANSACTIONS; and
2>	set the IE "RRC transaction identifier" to zero in that table entry.
1>	perform procedure specific error handling according to clause 8.
If the UE receives an RRC message on the BCCH, MCCH, MSCH or PCCH, containing an undefined critical message extension, the UE shall:
1>	ignore the message.
9.4	Unknown or unforeseen information element value, mandatory information element
If the UE receives an RRC message on the DCCH, or addressed to the UE on the CCCH or on the SHCCH, or sent via a radio access technology other than UTRAN, with a mandatory IE having a value, including choice, reserved for future extension (spare) or a value not used in this version of the specification (e.g. a dummy value), the UE shall:
1>	if a default value of the IE is defined:
2>	treat the rest of the message using the default value of the IE.
1>	if no default value of the IE is defined:
2>	set the variable PROTOCOL_ERROR_REJECT to TRUE;
2>	set the IE "Protocol error cause" in the variable PROTOCOL_ERROR_INFORMATION to "Information element value not comprehended";
2>	perform procedure specific error handling according to clause 8.
If the UE receives a system information block on the BCCH with a mandatory IE having a value reserved for future extension (spare)or a value not used in this version of the specification (e.g. a dummy value), the UE shall:
1>	if a default value of the IE is defined:
2>	treat the rest of the system information block using the default value of the IE.
1>	if no default value of the IE is defined:
2>	ignore the system information block.
If the UE receives an RRC message on the BCCH, MCCH, MSCH or PCCH with a mandatory IE having a value reserved for future extension (spare) or a value not used in this version of the specification (e.g. a dummy value), the UE shall:
1>	if a default value of the IE is defined:
2>	treat the rest of the message using the default value of the IE.
1>	if no default value of the IE is defined:
2>	ignore the message.
9.5	Conditional information element error
If the UE receives an RRC message on the DCCH, BCCH, PCCH, MCCH, MSCH or addressed to the UE on the CCCH or on the SHCCH, or sent via a radio access technology other than UTRAN, for which the specified conditions for absence of a conditional IE are met and that IE is present, the UE shall:
1>	ignore the IE;
1>	treat the rest of the message as if the IE was not present.
If the UE receives an RRC message on the DCCH, or addressed to the UE on the CCCH or on the SHCCH, or sent via a radio access technology other than UTRAN, for which the specified conditions for presence of a conditional IE are met and that IE is absent, the UE shall:
1>	set the variable PROTOCOL_ERROR_REJECT to TRUE;
1>	set the IE "Protocol error cause" in the variable PROTOCOL_ERROR_INFORMATION to " Information element missing";
1>	perform procedure specific error handling according to clause 8.
If the UE receives a system information block on the BCCH for which the specified conditions for presence of a conditional IE are met and that IE is absent, the UE shall:
1>	ignore the system information block.
If the UE receives an RRC message on the BCCH, MCCH, MSCH or PCCH for which the specified conditions for presence of a conditional IE are met and that IE is absent, the UE shall:
1>	ignore the message.
9.6	Unknown or unforeseen information element value, conditional information element
If the UE receives an RRC message on the DCCH, or addressed to the UE on the CCCH or on the SHCCH, or sent via a radio access technology other than UTRAN, for which the specified conditions for presence of a conditional IE are met, that IE is present, and that IE has a value, including choice, reserved for future extension (spare) or a value not used in this version of the specification (e.g. a dummy value), the UE shall:
1>	if a default value of the IE is defined:
2>	treat the rest of the message using the default value of the IE.
1>	if no default value of the IE is defined:
2>	set the variable PROTOCOL_ERROR_REJECT to TRUE;
2>	set the IE "Protocol error cause" in the variable PROTOCOL_ERROR_INFORMATION to "Information element value not comprehended";
2>	perform procedure specific error handling according to clause 8.
If the UE receives a system information block on the BCCH for which the specified conditions for presence of a conditional IE are met, that IE is present, and that IE has a value, including choice, reserved for future extension (spare) or a value not used in this version of the specification (e.g. a dummy value), the UE shall:
1>	if a default value of the IE is defined:
2>	treat the rest of the system information block using the default value of the IE.
1>	if no default value of the IE is defined:
2>	ignore the system information block.
If the UE receives an RRC message on the BCCH, MCCH, MSCH or PCCH for which the specified conditions for presence of a conditional IE are met, that IE is present, and that IE has a value, including choice, reserved for future extension (spare) or a value not used in this version of the specification (e.g. a dummy value), the UE shall:
1>	if a default value of the IE is defined:
2>	treat the rest of the message using the default value of the IE.
1>	if no default value of the IE is defined:
2>	ignore the message.
9.7	Unknown or unforeseen information element value, optional information element
If the UE receives an RRC message on the DCCH, or addressed to the UE on the CCCH or on the SHCCH, or sent via a radio access technology other than UTRAN, with an optional IE having a value, including choice, reserved for future extension (spare) or a value not used in this version of the specification (e.g. a dummy value), it shall:
1>	ignore the value of the IE;
1>	treat the rest of the message as if the IE was not present.
If the UE receives a system information block on the BCCH with an optional IE having a value, including choice, reserved for future extension (spare) or a value not used in this version of the specification (e.g. a dummy value), it shall:
1>	ignore the value of the IE;
1>	treat the rest of the system information block as if the IE was not present.
If the UE receives an RRC message on the BCCH, MCCH or MSCH or PCCH with an optional IE having a value, including choice, reserved for future extension (spare) or a value not used in this version of the specification (e.g. a dummy value), it shall:
1>	ignore the value of the IE;
1>	treat the rest of the message as if the IE was not present.
9.8	Unexpected non-critical message extension
If the UE receives an RRC message on the DCCH, or addressed to the UE on the CCCH or on the SHCCH, or sent via a radio access technology other than UTRAN, containing an undefined non-critical message extension, the UE shall:
1>	if the non critical extension is included in the "Variable Length Extension Container":
2>	ignore the content of the extension and the contents of this container after the not comprehended extension, and continue decoding the rest of the message.
1>	otherwise:
2>	ignore the content of the extension and the message contents after the extension, but treat the parts of the message up to the extension normally.
If the UE receives a system information block on the BCCH containing an undefined non-critical message extension, the UE shall:
1>	ignore the content of the extension and the system information block contents after the extension, but treat the parts of the system information block up to the extension normally.
If the UE receives an RRC message on the BCCH, MCCH or MSCH or PCCH, containing an undefined non-critical message extension, the UE shall:
1>	ignore the content of the extension and the message contents after the extension, but treat the parts of the message up to the extension normally.
9.9	Handling of errors in nested information elements
An erroneous IE may be included in another IE, which may be included in another IE and so on. This subclause specifies the handling of errors in mandatory IEs as well as for conditional IEs for which the specified conditions for presence are met, that are nested in another IE.
In case the UE receives an IE (IE1) that includes a mandatory IE (IE1-1) having a value, including choice, reserved for future extension (spare) or a value not used in this version of the specification (e.g. a dummy value), the UE shall:
1>	consider IE1 to have an undefined value; and
1>	apply the corresponding generic error handling to IE1.
In case there are many IE nesting levels, in all of which the IE is mandatory while no default value is defined, this treatment may need to be repeated several times. The following example illustrates the general principle.
ExampleMessage ::=                  SEQUENCE {
    ie1                                 IE1                               OPTIONAL,
    ie2                                 IE2
}
IE1 ::=					             SEQUENCE {
    ie1-1							    INTEGER (1..16),
    -- ie1-1 values 13..16 are spare and should not be used in this version of the protocol
    ie1-2                               IE1-2                            OPTIONAL,
    ie1-3                               IE1-3
}

If in the above example, UTRAN would include ie1 and set ie1-1 to value 13, the UE experiences an error in a mandatory IE. The guideline outlined in the previous then means that the UE shall not discard the entire message but instead consider "ie1" to have an unknown value. Since IE1 is optional, the generic error handling would be to ignore "ie1".
In case the UE receives an IE (IE1) that includes a list of another IE (IE1-1) for which one or more entries in the list have a value, including choice, reserved for future extension (spare) or a value not used in this version of the specification (e.g. a dummy value), the UE shall:
1>	consider the list as if these entries were not included.
NOTE:	In case the above generic error handling procedures do not result in the desired behaviour, the introduction of spares may need to be reconsidered.
10	Message and information element functional definition and content
10.1	General
The function of each Radio Resource Control message together with message contents in the form of a list of information elements is defined in subclause 10.2.
Functional definitions of the information elements are then described in subclause 10.3.
Information elements are marked as either MP - Mandatory present, MD - Mandatory with default value, OP - Optional, CV - Conditional on value or CH - Conditional on history (see Table 10.1 with information extracted from [14]).
Table 10.1: Meaning of abbreviations used in RRC messages and information elements
Abbreviation
Meaning
MP
Mandatory present
A value for that information is always needed, and no information is provided about a particular default value. If ever the transfer syntax allows absence (e.g., due to extension), then absence leads to an error diagnosis.
MD
Mandatory with default value
A value for that information is always needed, and a particular default value is mentioned (in the 'Semantical information' column). This opens the possibility for the transfer syntax to use absence or a special pattern to encode the default value.
CV
Conditional on value
The need for a value for that information depends on the value of some other IE or IEs, and/or on the message flow (e.g., channel, SAP). The need is specified by means of a condition, the result of which may be that the information is mandatory present, mandatory with default value, not needed or optional.
If one of the results of the condition is that the information is mandatory present, the transfer syntax must allow for the presence of the information. If in this case the information is absent an error is diagnosed.
If one of the results of the condition is that the information is mandatory with default value, and a particular default value is mentioned (in the 'Semantical information' column), the transfer syntax may use absence or a special pattern to encode the default value.
If one of the results of the condition is that the information is not needed, the transfer syntax must allow encoding the absence. If in this case the information is present, it will be ignored. In specific cases however, an error may be diagnosed instead.
If one of the results of the condition is that the information is optional, the transfer syntax must allow for the presence of the information. In this case, neither absence nor presence of the information leads to an error diagnosis.
CH
Conditional on history
The need for a value for that information depends on information obtained in the past (e.g., from messages received in the past from the peer). The need is specified by means of a condition, the result of which may be that the information is mandatory present, mandatory with default value, not needed or optional.
The handling of the conditions is the same as described for CV.
OP
Optional
The presence or absence is significant and modifies the behaviour of the receiver. However whether the information is present or not does not lead to an error diagnosis.

10.1.1	Protocol extensions
RRC messages may be extended in future versions of this protocol, either by adding values for choices, enumerated and size constrained types or by adding information elements. An important aspect concerns the behaviour of a UE, conforming to this revision of the standard, upon receiving a not comprehended future extension. The details of this error handling behaviour are provided in clause 9.
NOTE 1:	By avoiding the need for partial decoding (skipping uncomprehended IEs to continue decoding the remainder of the message), the RRC protocol extension mechanism also avoids the overhead of length determinants for extensions. "Variable length extension containers" (i.e. non critical extension containers that have their abstract syntax defined using the ASN.1 type "BIT STRING") have been defined to support the introduction of extensions to a release after the subsequent release is frozen (and UEs based on that subsequent release may appear). For this container a length determinant is used, which facilitates partial decoding of the container as well as the decoding of the extensions included after the container.
Two kinds of protocol extensions are distinguished: non-critical and critical extensions. In general, a receiver shall process a message including not comprehended non-critical extensions as if the extensions were absent. However, a receiver shall entirely reject a message including not comprehended critical extensions (there is no partial rejection) and notify the sender, as specified in clause 9.
The general mechanism for adding critical extensions is by defining a new version of the message, which is indicated at the beginning of the message.
The UE shall always comprehend the complete transfer syntax specified for the protocol version it supports; if the UE comprehends the transfer syntax defined within protocol version A for message 1, it shall also comprehend the transfer syntax defined within protocol version A for message 2.
The following table shows for which messages only non-critical extensions may be added, for which messages both critical and non-critical extensions may be added and for which messages neither critical nor non-critical extensions may be added.
NOTE 2:	Critical extensions can only be added to certain downlink messages.
Extensions
Message
Critical and non-critical extensions
ACTIVE SET UPDATE 10.2.1
ASSISTANCE DATA DELIVERY 10.2.4
CELL CHANGE ORDER FROM UTRAN 10.2.5
CELL UPDATE CONFIRM 10.2.8
COUNTER CHECK 10.2.9
DOWNLINK DIRECT TRANSFER 10.2.11
HANDOVER TO UTRAN COMMAND 10.2.16a
HANDOVER FROM UTRAN COMMAND 10.2.15
LOGGING MEASUREMENT CONFIGURATION 10.2.16da
MEASUREMENT CONTROL 10.2.17
PHYSICAL CHANNEL RECONFIGURATION 10.2.22
PHYSICAL SHARED CHANNEL ALLOCATION 10.2.25
RADIO BEARER RECONFIGURATION 10.2.27
RADIO BEARER RELEASE 10.2.30
RADIO BEARER SETUP 10.2.33
RRC CONNECTION REJECT 10.2.36
RRC CONNECTION RELEASE 10.2.37
RRC CONNECTION SETUP 10.2.40
SECURITY MODE COMMAND 10.2.43
SIGNALLING CONNECTION RELEASE 10.2.46
TRANSPORT CHANNEL RECONFIGURATION 10.2.50
UE CAPABILITY ENQUIRY 10.2.55
UE CAPABILITY INFORMATION CONFIRM 10.2.57
UE INFORMATION REQUEST 10.2.57a
UPLINK PHYSICAL CHANNEL CONTROL 10.2.59
URA UPDATE CONFIRM 10.2.61
UTRAN MOBILITY INFORMATION 10.2.62
Non-critical extensions only
ACTIVE SET UPDATE COMPLETE 10.2.2
ACTIVE SET UPDATE FAILURE 10.2.3
CELL CHANGE ORDER FROM UTRAN FAILURE 10.2.6
CELL UPDATE 10.2.7
COUNTER CHECK RESPONSE 10.2.10
ETWS PRIMARY NOTIFICATION WITH SECURITY 10.2.12a
HANDOVER TO UTRAN COMPLETE 10.2.16b
INITIAL DIRECT TRANSFER 10.2.16c
HANDOVER FROM UTRAN FAILURE 10.2.16
MBMS Access Information 10.2.16e
MBMS Common p-t-m rb Information 10.2.16f
MBMS Current Cell p-t-m rb Information 10.2.16g
MBMS General Information 10.2.16h
MBMS Modification request 10.2.16i
MBMS Modified services Information 10.2.16j
MBMS Neighbouring Cell p-t-m rb Information 10.2.16k
MBMS Scheduling Information 10.2.16L
MBMS Unmodified services Information 10.2.16m
MEASUREMENT CONTROL FAILURE 10.2.18
MEASUREMENT REPORT 10.2.19
PAGING TYPE 1 10.2.20
PAGING TYPE 2 10.2.21
PHYSICAL CHANNEL RECONFIGURATION COMPLETE 10.2.23
PHYSICAL CHANNEL RECONFIGURATION FAILURE 10.2.24
PUSCH CAPACITY REQUEST 10.2.26
RADIO BEARER RECONFIGURATION COMPLETE 10.2.28
RADIO BEARER RECONFIGURATION FAILURE 10.2.29
RADIO BEARER RELEASE COMPLETE 10.2.31
RADIO BEARER RELEASE FAILURE 10.2.32
RADIO BEARER SETUP COMPLETE 10.2.34
RADIO BEARER SETUP FAILURE 10.2.35
RRC CONNECTION RELEASE COMPLETE 10.2.38
RRC CONNECTION REQUEST 10.2.39
RRC CONNECTION SETUP COMPLETE 10.2.41
RRC STATUS 10.2.42
SECURITY MODE COMPLETE 10.2.44
SECURITY MODE FAILURE 10.2.45
SIGNALLING CONNECTION RELEASE INDICATION 10.2.47
Master Information Block 10.2.48.8.1
System Information Block type 1 to
System Information Block type 25 10.2.48.8.4 to 10.2.48.8.28
SYSTEM INFORMATION CHANGE INDICATION 10.2.49
TRANSPORT CHANNEL RECONFIGURATION COMPLETE 10.2.51
TRANSPORT CHANNEL RECONFIGURATION FAILURE 10.2.52
TRANSPORT FORMAT COMBINATION CONTROL 10.2.53
TRANSPORT FORMAT COMBINATION CONTROL FAILURE 10.2.54
UE CAPABILITY INFORMATION 10.2.56
UE INFORMATION RESPONSE 10.2.57b
UPLINK DIRECT TRANSFER 10.2.58
URA UPDATE 10.2.60
UTRAN MOBILITY INFORMATION CONFIRM 10.2.63
UTRAN MOBILITY INFORMATION FAILURE 10.2.64
No extensions
CELL UPDATE FDD 10.2.7a
SYSTEM INFORMATION 10.2.48
SYSTEM INFORMATION 2 10.2.48b
First Segment 10.2.48.1
First Segment 2 10.2.48.1a
Subsequent or last Segment 10.2.48.3
Subsequent Segment 2 10.2.48.3a or last Segment 2 10.2.48.4a
Complete SIB 10.2.48.6
Complete SIB 2 10.2.48.6a

NOTE 3:	For the SYSTEM INFORMATION message protocol extensions are only possible at the level of system information blocks.
10.1.1.1	Non-critical extensions
10.1.1.1.1	Extension of an information element with additional values or choices
In future versions of this protocol, non-critical values may be added to choices, enumerated and size constrained types.
For choices, enumerated and size constrained types it is possible to indicate how many non-critical spare values need to be reserved for future extension. In this case, the tabular format should indicate the number of spare values that are needed. The value range defined in ASN.1 for the extensible IE should include the number of spares that are needed, since a value outside the range defined for this IE will result in a general ASN.1 violation error.
For downlink messages, spare values may be defined for non-critical information elements for which the need is specified to be MD or OP (or CV case leading to MD or OP). In this case, a receiver not comprehending the received spare value shall consider the information element to have the default value or consider it to be absent respectively.
For uplink messages spare values may be defined for all information elements, including those for which the need is specified to be MP (or CV case leading to MP).
In all cases at most one spare should be defined for choices. In this case, information elements applicable to the spare choices shall be added to the end of the message.
10.1.1.1.2	Extension of a message with additional information elements
In future versions of this protocol, non-critical information elements may be added to RRC messages. These additional information elements shall be normally appended at the end of the message; the transfer syntax specified in this revision of the standard facilitates this. A receiver conformant to this revision of the standard shall accept such extension, and proceed as if it was not included.
A transmitter conformant to this version of the standard shall not include an extension reserved for introducing non critical extensions in later versions of the standard; i.e. the corresponding parameter defined in the ASN.1 shall be absent.
NOTE:	If an extension, reserved for future non-critical extensions, is included (even if it is empty), this may result in transfer syntax errors when received by an implementation conforming to a later version of the standard.
Extensions to a release that are introduced after the subsequent release is frozen may however be inserted prior to the end of the message. To facilitate this, "variable length extension containers" have been introduced in most messages.
10.1.1.2	Critical extensions
10.1.1.2.1	Extension of an information element with additional values or choices
In versions of this protocol, choices, enumerated and size constrained types may be extended with critical values. For extension with critical values the general critical extension mechanism is used, i.e. for this no spare values are reserved since backward compatibility is not required.
10.1.1.2.2	Extension of a message with additional information elements
In future versions of this protocol, RRC messages may be extended with new information elements. Since messages including critical extensions are rejected by receivers not comprehending them, these messages may be modified completely, e.g. IEs may be inserted at any place and IEs may be removed or redefined.
10.2	Radio Resource Control messages
10.2.1	ACTIVE SET UPDATE
NOTE:	Only for FDD.
This message is used by UTRAN to add, replace or delete radio links in the active set of the UE.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Activation time
MD

Activation time 10.3.3.1
Default value is "now".

Dynamic activation time
OP

Dynamic activation time 10.3.3.1a

REL-13
New U-RNTI
OP

U-RNTI 10.3.3.47


New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-6
New Primary E-RNTI
OP

E-RNTI
10.3.3.10a

REL-6
New Secondary E-RNTI
OP

E-RNTI 10.3.3.10a

REL-6
CN information elements





CN Information info
OP

CN Information info 10.3.1.3


Phy CH information elements





DTX-DRX timing information
OP

DTX-DRX timing information 10.3.6.34b	

REL-7
DTX-DRX Information
OP

DTX-DRX Information 10.3.6.34a

REL-7
HS-SCCH less Information
OP

HS-SCCH less Information 10.3.6.36ab

REL-7
MIMO parameters
OP

MIMO parameters 10.3.6.41a

REL-7
MIMO mode with four transmit antennas parameters
OP

MIMO mode with four transmit antennas parameters 10.3.6.142

REL-11
DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149

REL-12
Uplink radio resources





Maximum allowed UL TX power
MD

Maximum allowed UL TX power 10.3.6.39
Default value is the existing "maximum UL TX power.

Uplink secondary cell info FDD
OP

Uplink secondary cell info FDD 10.3.6.115
FDD only
REL-9
E-DCH reconfiguration information on secondary UL frequency
OP

E-DCH reconfiguration information on secondary UL frequency
10.3.6.121
FDD only
REL-9
Uplink CLTD info FDD
OP

Uplink CLTD info FDD
10.3.6.125
FDD only
REL-11
F-TPICH reconfiguration info
OP

F-TPICH reconfiguration info
10.3.6.128
FDD only
REL-11
Uplink OLTD info FDD
OP

Uplink OLTD info FDD
10.3.6.126
FDD only
REL-11
Downlink radio resources





Radio link addition information
OP
1 to <maxRL-1>

Radio link addition information required for each RL to add

>Radio link addition information
MP

Radio link addition information 10.3.6.68


Radio link addition information on secondary UL frequency
OP

Radio link addition information on secondary UL frequency
10.3.6.119
FDD only
REL-9
Serving Cell Change Parameters
CV-TargetCellPreconf

Serving Cell Change Parameters 10.3.6.74b

REL-8
Radio link removal information
OP
1 to <maxRL>

Radio link removal information required for each RL to remove

>Radio link removal information
MP

Radio link removal information 10.3.6.69


Radio link removal information on secondary UL frequency
OP

Radio link removal information on secondary UL frequency
10.3.6.120
FDD only
REL-9
TX Diversity Mode
MD

TX Diversity Mode 10.3.6.86
Default value is the TX diversity mode currently used in all or part of the active set.

DPC Mode
OP

Enumerated (Single TPC, TPC triplet in soft)
"Single TPC" is DPC_Mode=0 and "TPC triplet in soft" is DPC_mode=1 in [29].
REL-5
Serving HS-DSCH cell information
OP

Serving HS-DSCH cell information 10.3.6.74a

REL-6
E-DCH reconfiguration information
OP

E-DCH reconfiguration information 10.3.6.69a

REL-6
UL 16QAM configuration
OP

UL 16QAM configuration 10.3.6.86o

REL-7
UL 64QAM configuration
OP

UL 64QAM configuration 10.3.6.86b

REL-11
Uplink MIMO info FDD
OP

Uplink MIMO info FDD 10.3.6.145
FDD only
REL-11
E-DCH reconfiguration information same serving cell
OP

E-DCH reconfiguration information same serving cell 10.3.6.69b
This IE is not present if the serving E-DCH cell is changed with this message.

REL-7
E-TFC Boost Info
OP

E-TFC Boost Info 10.3.6.106
Absence of this IE means that boosting of E-DPCCH is disabled
REL-7
E-DPDCH power interpolation
OP

Boolean
TRUE means E-DPDCH power interpolation formula is used, FALSE means E-DPDCH power extrapolation formula is used for the computation of the gain factor ed  according to [29].
Absence of this IE means that E-DPDCH power extrapolation formula is used for the computation of the gain factor ed according to [29].
REL-7
Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-8
Additional downlink secondary cell info list FDD
OP
2


REL-10
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-10
Additional downlink secondary cell info list FDD 2
OP
4


REL-11
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-11
DPCCH2 info FDD
OP

DPCCH2 info FDD 10.3.6.148
FDD only
REL-12

Condition
Explanation
TargetCellPreconf
This IE is mandatory present if Radio Links are added and at least one added Radio Link contains the IE Target cell preconfiguration. 

10.2.2	ACTIVE SET UPDATE COMPLETE
NOTE:	For FDD only.
This message is sent by UE when active set update has been completed.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16


10.2.3	ACTIVE SET UPDATE FAILURE
NOTE:	Only for FDD.
This message is sent by UE if the update of the active set has failed, e.g. because the radio link is not a part of the active set.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Failure cause
MP

Failure cause and error information 10.3.3.14


10.2.4	ASSISTANCE DATA DELIVERY
This message is sent by UTRAN to convey UE positioning assistance data to the UE.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Measurement Information elements





UE positioning OTDOA assistance data for UE-based
OP

UE positioning OTDOA assistance data for UE-based 10.3.7.103a


UE positioning GPS assistance data
OP

UE positioning GPS assistance data 10.3.7.90


UE positioning GANSS assistance data
OP

UE positioning GANSS assistance data
10.3.7.90b

REL-7

10.2.5	CELL CHANGE ORDER FROM UTRAN
This message is used to order a cell change from UTRA to another radio access technology, e.g., GSM.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Activation time
MD

Activation time 10.3.3.1
Default value is "now"

RB Information elements





RAB information list
OP
1 to <maxRABsetup>

This IE should not be included in this version of the protocol.

>RAB info
MP

RAB info 10.3.4.8


Other information elements





Target cell description
MP




>CHOICE Radio Access Technology
MP


Two spare values are needed.

>>GSM





>>>BSIC
MP

BSIC 10.3.8.2


>>>Band Indicator
MP

Enumerated (DCS 1800 band used, PCS 1900 band used)
Indicates how to interpret the BCCH ARFCN

>>>BCCH ARFCN
MP

Integer (0..1023)
[45]

>>>NC mode
OP

Bit string(3)
Includes bits b1-b3 of the NC mode IE specified in [43].
b1 is the least significant bit.
NOTE:	The Bit string should be extended to 4 bits in a later version of the message.

>>>CHOICE GERAN System Info type
OP



REL-5
>>>>SI


GERAN system information
10.3.8.4f
See [44]
REL-5
>>>>PSI


GERAN system information
10.3.8.4f
See [44]
REL-5
>>IS-2000






10.2.6	CELL CHANGE ORDER FROM UTRAN FAILURE
This message is sent on the RRC connection used before the Cell change order from UTRAN was executed. The message indicates that the UE has failed to seize the new channel in the other radio access technology.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Other information elements




Inter-RAT change failure
MP

Inter-RAT change failure 10.3.8.5 


10.2.7	CELL UPDATE
This message is used by the UE to initiate a cell update procedure.
	RLC-SAP: TM
	Logical channel: CCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





U-RNTI
MP

U-RNTI 10.3.3.47


RRC transaction identifier
CV-Failure

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


START list
MP
1 to <maxCNdomains>

START [40] values for all CN domains.

>CN domain identity
MP

CN domain identity 10.3.1.1


>START
MP

START 10.3.3.38
START value to be used in this CN domain.

AM_RLC error indication(RB2, RB3 or RB4)
MP

Boolean
TRUE indicates AM_RLC unrecoverable error [16] occurred on RB2, RB3 or RB4 in the UE

AM_RLC error indication(RB>4)
MP

Boolean
TRUE indicates AM_RLC unrecoverable error [16] occurred on RB>4 in the UE

Cell update cause
MP

Cell update cause 10.3.3.3


Traffic volume indicator
OP

Enumerated (TRUE)
This IE shall be set to TRUE when the criteria for event based traffic volume measurement reporting is fulfilled.
Absence of this element means not fulfilled.
REL-6
Failure cause
OP

Failure cause and error information 10.3.3.14


RB timer indicator
MP

RB timer indicator 10.3.3.28


Establishment cause
OP

Establishment cause 10.3.3.11

REL-5
CS Call Type
CV-ConversationalCS

Enumerated (speech, video, other)
One spare value is needed
REL-7
HS-PDSCH in CELL_FACH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-PDSCH reception in CELL_FACH state.
Note 1.
REL-7
Support of common E-DCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support E-DCH enhanced random access in CELL_FACH state and Idle mode.
Note 1.
REL-8
Support of HS-DSCH DRX operation
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-DSCH DRX operation in CELL_FACH state.
REL-8
Support of MAC-i/is
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support MAC-i/is operation.
REL-8
Support of SPS operation
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support SPS operation.
REL-8
Support of control channel DRX operation
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support control channel DRX operation.
REL-8
UE Mobility State Indicator
MD

Enumerated (High-mobilityDetected)
Absence of this IE implies that, according to [4] either the High mobility state is not applicable or it has not been detected by the UE.
REL-7
Capability change indicator
OP

Enumerated (TRUE)
TRUE indicates that the UE capability has changed compared to the value stored in the variable UE_CAPABILITY_TRANSFERRED.
REL-7
Reconfiguration Status Indicator
OP

Enumerated (TRUE)
TRUE indicates a reconfiguration procedure is ongoing within the UE or a response message has been submitted to RLC and the UE is waiting for the layer 2 ACK.
REL-6
MBMS Selected Services
OP

MBMS Selected Services Short 10.3.9a.7d

REL-6
Support for Two DRX schemes in URA_PCH and CELL_PCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Two DRX schemes in URA_PCH and CELL_PCH
REL-7
Security Revert Status Indicator
OP

Enumerated (Reverted Back, Normal Operation)
Reverted Back indicates this UE has reverted back to the old security configuration by aborting the ongoing security mode command. Normal Operation indicates this UE has not reverted back to the old security configuration by aborting an ongoing security mode command. The absence of this IE indicates that the UE does not support reporting of security revert status.
REL-10
Measurement information elements





Measured results on RACH
OP

Measured results on RACH 10.3.7.45


Other Information elements




REL-10
Logged Meas Available
OP

Enumerated (TRUE)
Indicates the UE has logged measurements to report to the network
REL-10
ANR Logging Results Available
OP

Enumerated (TRUE)
True indicates the UE has ANR logging results to report to the Network.
REL-10

NOTE 1:	For 1.28 Mcps TDD, UE supporting HS-PDSCH in CELL_FACH always supports E-DCH enhanced random access in CELL_FACH state and Idle mode, and vice versa. And UE supporting HS-PDSCH reception in CELL_FACH state always supports HS-DSCH reception in CELL_PCH and URA_PCH state and CELL_FACH HS-DSCH DRX operation.

Condition
Explanation
Failure
This IE is mandatory present if the IE "Failure cause" is present and not needed otherwise.
ConversationalCS
This IE is mandatory present if the IE "Establishment cause" has the value "Originating Conversational Call" or "Emergency Call" and a CS call is being initiated. Otherwise it is not needed.

10.2.7a	CELL UPDATE FDD
NOTE:	Only for FDD.
This message is used by the UE to initiate a cell update procedure.
	RLC-SAP: TM
	Logical channel: CCCH
	Direction: UEUTRAN

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Integrity check info
CH

Integrity check info 10.3.3.16


Message Type
MP

Message Type


UE information elements





U-RNTI
MP

U-RNTI 10.3.3.47


START list
MP
1 to <maxCNdomains>

START [40] values for all CN domains.

>CN domain identity
MP

CN domain identity 10.3.1.1


>START
MP

START 10.3.3.38
START value to be used in this CN domain.

AM_RLC error indication(RB2, RB3 or RB4)
MP

Boolean
TRUE indicates AM_RLC unrecoverable error [16] occurred on RB2, RB3 or RB4 in the UE

AM_RLC error indication(RB>4)
MP

Boolean
TRUE indicates AM_RLC unrecoverable error [16] occurred on RB>4 in the UE

Cell update cause
MP

Cell update cause 10.3.3.3


Failure cause
OP

Failure cause and error information 10.3.3.14


RRC transaction identifier
CV-Failure

RRC transaction identifier 10.3.3.36


RB timer indicator
MP

RB timer indicator 10.3.3.28


Establishment cause
OP

Establishment cause 10.3.3.11


Traffic volume indicator
OP

Enumerated (TRUE)
This IE shall be set to TRUE when the criteria for event based traffic volume measurement reporting is fulfilled.
Absence of this element means not fulfilled.

Reconfiguration Status Indicator
OP

Enumerated (TRUE)
TRUE indicates a reconfiguration procedure is ongoing within the UE or a response message has been submitted to RLC and the UE is waiting for the layer 2 ACK.

CS Call Type
CV-ConversationalCS

Enumerated (speech, video, other)
One spare value is needed

HS-PDSCH in CELL_FACH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-PDSCH reception in CELL_FACH state.

UE Mobility State Indicator
MD

Enumerated (High-mobilityDetected)
Absence of this IE implies that, according to [4] either the High mobility state is not applicable or it has not been detected by the UE.

Capability change indicator
OP

Enumerated (TRUE)
TRUE indicates that the UE capability has changed compared to the value stored in the variable UE_CAPABILITY_TRANSFERRED.

Support of common E-DCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support E-DCH enhanced random access in CELL_FACH state and Idle mode.

Support of HS-DSCH DRX operation
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-DSCH DRX operation in CELL_FACH state.

Support of MAC-i/is
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support MAC-i/is operation.

Security Revert Status Indicator
OP

Enumerated (Reverted Back, Normal Operation)
Reverted Back indicates this UE has reverted back to the old security configuration by aborting the ongoing security mode command. Normal Operation indicates this UE has not reverted back to the old security configuration by aborting an ongoing security mode command. The absence of this IE indicates that the UE does not support reporting of security revert status.

Measurement information elements





Measured results on RACH
OP

Measured results on RACH FDD 10.3.7.45a


Other Information elements





Logged Meas Available
OP

Enumerated (TRUE)
Indicates the UE has logged measurements to report to the network

ANR Logging Results Available
OP

Enumerated (TRUE)
True indicates the UE has ANR logging results to report to the Network.


Condition
Explanation
Failure
This IE is mandatory present if the IE "Failure cause" is present and not needed otherwise.
ConversationalCS
This IE is mandatory present if the IE "Establishment cause" has the value "Originating Conversational Call" or "EmergencyCall" and a CS call is being initiated. Otherwise it is not needed.

10.2.8	CELL UPDATE CONFIRM
This message confirms the cell update procedure and can be used to reallocate new RNTI information for the UE valid in the new cell.
	RLC-SAP: UM
	Logical channel: CCCH or DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information Elements





U-RNTI
CV-CCCH

U-RNTI 10.3.3.47


RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Integrity protection mode info
OP

Integrity protection mode info 10.3.3.19
The UTRAN should not include this IE unless it is performing an SRNS relocation or a cell reselection from GERAN Iu mode

Ciphering mode info
OP

Ciphering mode info 10.3.3.5
The UTRAN should not include this IE unless it is performing either an SRNS relocation or a cell reselection from GERAN Iu mode, and a change in ciphering algorithm.

Activation time
MD

Activation time 10.3.3.1
Default value is "now"

New U-RNTI
OP

U-RNTI 10.3.3.47


New C-RNTI
OP

C-RNTI 10.3.3.8


New DSCH-RNTI
OP

DSCH-RNTI 10.3.3.9a
Should not be set in FDD. If received, the UE behaviour is unspecified.

New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-5
New Primary E-RNTI
OP

E-RNTI 10.3.3.10a

REL-6
New Secondary E-RNTI
OP

E-RNTI 10.3.3.10a
FDD only
REL-6
RNTI handling at cell re-selection
CV-URA_PCH

Enumerated (TRUE)
The presence of this IE indicates that the UE shall clear the variable H_RNTI, C_RNTI and E_RNTI upon cell re-selection when operating in URA_PCH with seamless transition.
The absence indicates that the UE shall not clear the variable H_RNTI, C_RNTI and E_RNTI upon cell re-selection when operating in URA_PCH with seamless transition.
REL-13
RRC State Indicator
MP

RRC State Indicator 10.3.3.35a


UTRAN DRX cycle length coefficient
OP

UTRAN DRX cycle length coefficient 10.3.3.49


Wait time
OP

Wait time 10.3.3.50


RLC re-establish indicator (RB2, RB3 and RB4) 
MP

RLC re-establish indicator 10.3.3.35
Should not be set to TRUE if IE "Downlink counter synchronisation info" is included in message.

RLC re-establish indicator (RB5 and upwards) 
MP

RLC re-establish indicator 10.3.3.35
Should not be set to TRUE if IE "Downlink counter synchronisation info" is included in message.

CN Information Elements





CN Information info
OP

CN Information info 10.3.1.3


UTRAN Information Elements





URA identity
OP

URA identity 10.3.2.6


RNC support for change of UE capability
OP

Boolean
Should be included if the message is used to perform an SRNS relocation
REL-7
RB information elements





RAB information for setup
CV-CS

RAB information for setup 10.3.4.10
RAB identity shall be identical to the one currently configured and UE behaviour is unspecified otherwise.

RB information to release list
OP
1 to <maxRB>



>RB information to release
MP

RB information to release 10.3.4.19


RB information to reconfigure list
OP
1 to <maxRB>



>RB information to reconfigure
MP

RB information to reconfigure 10.3.4.18


RB information to be affected list
OP
1 to <maxRB>



>RB information to be affected
MP

RB information to be affected 10.3.4.17


Downlink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>



>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22
This IE is needed for each RB having PDCP in the case of lossless SRNS relocation


OP



REL-5
>>PDCP context relocation info
OP

PDCP context relocation info 10.3.4.1a
This IE is needed for each RB having PDCP and performing PDCP context relocation
REL-5
PDCP ROHC target mode
OP

PDCP ROHC target mode 10.3.4.2a

REL-5
Retrievable configuration





Retrievable configuration info
OP

Retrievable configuration info 10.3.8.25

REL-13
Other state configuration info
OP

Other state configuration info 10.3.8.27

REL-13
TrCH Information Elements





Uplink transport channels





UL Transport channel information common for all transport channels
OP

UL Transport channel information common for all transport channels 10.3.5.24


Deleted TrCH information list
OP
1 to <maxTrCH>



>Deleted UL TrCH information
MP

Deleted UL TrCH information 10.3.5.5


Added or Reconfigured TrCH 
information list
OP
1 to <maxTrCH>



>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2


Downlink transport channels





DL Transport channel information common for all transport channels
OP

DL Transport channel information common for all transport channels 10.3.5.6


Deleted TrCH information list
OP
1 to <maxTrCH>



>Deleted DL TrCH information
MP

Deleted DL TrCH information 10.3.5.4


Added or Reconfigured TrCH 
information list
OP
1 to <maxTrCH>



>Added or Reconfigured DL TrCH information
MP

Added or Reconfigured DL TrCH information 10.3.5.1


PhyCH information elements





Frequency info
OP

Frequency info 10.3.6.36


Multi-frequency Info
OP

Multi-frequency Info 10.3.6.39a
This IE is used for 1.28 Mcps TDD only
REL-7
DTX-DRX timing information
OP

DTX-DRX timing information 10.3.6.34b

REL-7
DTX-DRX Information 
OP

DTX-DRX Information 10.3.6.34a

REL-7
HS-SCCH less Information 
OP

HS-SCCH less Information 10.3.6.36ab

REL-7
MIMO parameters
OP

MIMO parameters 10.3.6.41a

REL-7
MIMO mode with four transmit antennas parameters
OP

MIMO mode with four transmit antennas parameters 10.3.6.142

REL-11
DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149

REL-12
Control Channel DRX information
OP

Control Channel DRX information 1.28 Mcps TDD 10.3.6.107
This IE is used for 1.28 Mcps TDD only
REL-8
SPS Information
OP

SPS information 1.28 Mcps TDD 10.3.6.110
This IE is used for 1.28 Mcps TDD only
REL-8
MU-MIMO info
OP

MU-MIMO info 1.28 Mcps TDD 10.3.6.122
This IE is used for 1.28 Mcps TDD only
REL-10
Non-rectangular resource allocation indicator

OP

Enumerated(TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
REL-12
Non-rectangular resource specific timeslots set
CV-Non-rectangularResourceAllocation

Bit string (7)
For 1.28 Mcps TDD only.

The value 1 of a bit indicates the corresponding timeslot in which the channelization codes are assigned by physical control channel. The value 0 of a bit indicates the corresponding timeslot in which all channelization codes are assigned when the timeslot is scheduled to the UE.

The first/leftmost bit of the bit string is for TS0.
REL-12
Uplink radio resources





Maximum allowed UL TX power
MD

Maximum allowed UL TX power 10.3.6.39
Default value is the existing maximum UL TX power

Uplink DPCH info 
OP

Uplink DPCH info 10.3.6.88


E-DCH Info
OP

E-DCH Info 10.3.6.97

REL-6
Uplink secondary cell info FDD
OP

Uplink secondary cell info FDD 10.3.6.115
FDD only
REL-9
Multi-carrier E-DCH Info for LCR TDD
OP

Multi-carrier E-DCH Info for LCR TDD 10.3.6.97a
1.28Mcps TDD only
REL-10
Uplink CLTD info FDD
OP

Uplink CLTD info FDD
10.3.6.125
FDD only
REL-11
Uplink OLTD info FDD
OP

Uplink OLTD info FDD
10.3.6.126
FDD only
REL-11
Other TTI E-DCH Configuration Information 

OP

Other TTI E-DCH Configuration Information
10.3.6.152
FDD only
REL-12
Filtered UE power headroom reporting information
OP

Filtered UE power headroom reporting information 10.3.7.140
FDD only
REL-12
Downlink radio resources





Downlink HS-PDSCH Information
OP

Downlink HS_PDSCH Information 10.3.6.23a

REL-5
Downlink information common for all radio links
OP

Downlink information common for all radio links 10.3.6.24


Downlink information per radio link list
OP
1 to <maxRL>

Send downlink information for each radio link to be set-up

>Downlink information for each radio link
MP

Downlink information for each radio link 10.3.6.27


Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-8
Additional downlink secondary cell info list FDD
OP
2


REL-10
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-10
Additional downlink secondary cell info list FDD 2
OP
4


REL-11
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-11
Common E-RGCH info FDD
OP

Common E-RGCH info FDD
10.3.6.138
FDD only
REL-11
MBMS PL Service Restriction Information
OP

Enumerated (TRUE)

REL-6
CELL_DCH measurement occasion info LCR
OP

CELL_DCH measurement occasion info LCR
10.3.7.126

REL-9
HS-SCCH DRX in CELL_FACH Information
CV-CELL_FACH

HS-SCCH DRX in CELL_FACH Information 10.3.6.154
FDD only
REL-14
WLAN Information Elements





Dedicated WLAN Offload Information
OP

Dedicated WLAN Offload Information 10.3.2.10

REL-12

Condition
Explanation
CCCH
This IE is mandatory present when CCCH is used and ciphering is not required and not needed otherwise.
CS
This IE is optionally present only if CS domain RAB mapping is reconfigured between DCH and E-DCH/HS-DSCH and shall not be present otherwise.
Non-rectangularResourceAllocation
This IE is optionally present if non-rectangular resource allocation is configured. Otherwise, it is not needed.
URA_PCH
This IE is optional present when IE "RRC State Indicator" is set to URA_PCH. Otherwise it is not needed.
CELL_FACH
This IE is optional present when IE "RRC State Indicator" is set to CELL_FACH. Otherwise it is not needed.

10.2.9	COUNTER CHECK
This message is used by the UTRAN to indicate the current COUNT-C MSB values associated to each radio bearer utilising UM or AM RLC mode and to request the UE to compare these to its COUNT-C MSB values and to report the comparison results to UTRAN.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Presence
Multi
IE type and reference
Semantics description
Message Type
MP



UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

RB information elements




RB COUNT-C MSB information 
MP
1 to < maxRBallRABs >

For each RB (excluding signalling radio bearers) using UM or AM RLC.
>RB COUNT-C MSB information
MP

RB COUNT-C MSB information 10.3.4.14


10.2.10	COUNTER CHECK RESPONSE
This message is used by the UE to respond to a COUNTER CHECK message.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Presence
Multi
IE type and reference
Semantics description
Message Type
MP



UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

RB information elements




RB COUNT-C information 
OP
1 to < maxRBallRABs >


>RB COUNT-C information
MP

RB COUNT-C information 10.3.4.15


10.2.11	DOWNLINK DIRECT TRANSFER
This message is sent by UTRAN to transfer higher layer messages.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRAN -> UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

CN information elements




CN Domain Identity
MP

Core Network Domain Identity 10.3.1.1

NAS message
MP

NAS message 10.3.1.8


10.2.12	Void

10.2.12a	ETWS PRIMARY NOTIFICATION WITH SECURITY
This message is used by UTRAN to send ETWS information to the UE.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type

REL-8
Other Information elements




REL-8
ETWS information
MP

ETWS information 10.3.8.4ea

REL-8

10.2.13	Void

10.2.14	Void

10.2.15	HANDOVER FROM UTRAN COMMAND
This message is used for handover from UMTS to another system e.g. GSM. One or several messages from the other system can be included in the Inter-RAT message information element in this message. These messages are structured and coded according to that systems specification.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


SR-VCC Info
CV-SRVCC

SR-VCC info 10.3.4.24a

REL-8
rSR-VCC info
CV-rSRVCC

rSR-VCC Info
10.3.3.36a

REL-11
Activation time
MD

Activation time 10.3.3.1
Default value is "now"

RB information elements





RAB information list
OP
1 to <maxRABsetup>

For each RAB to be handed over. In handover to GERAN Iu mode the RAB information is included in the GERAN Iu message below.

>RAB info
MP

RAB info 10.3.4.8


RAB info to replace
CV-SRVCC

RAB info to replace 10.3.4.11a

REL-8
Other information elements





CHOICE System type
MP


This IE indicates which specification to apply, to decode the transported messages

>GSM





>>Frequency band
MP

Enumerated (GSM/DCS 1800 band used), GSM/PCS 1900 band used)


>>CHOICE GSM message





>>>Single GSM message
MP

Bit string (no explicit size constraint)
Formatted and coded according to GSM specifications The first/leftmost/most significant bit of the bit string contains bit 8 of the first octet of the GSM message.

>>>GSM message List
MP
1.to.<maxInterSysMessages>
Bit string (1..512)
Formatted and coded according to GSM specifications. The first/leftmost/most significant bit of the bit string contains  bit 8 of the first octet of the GSM message.

>>CHOICE GERAN System Info type
OP



REL-6
>>>SI
MP

GERAN system information
10.3.8.4f
See [44]
REL-6
>>>PSI
MP

GERAN system information
10.3.8.4f
See [44]
REL-6
>GERAN Iu




REL-5
>>Frequency band
MP

Enumerated (GSM/DCS 1800 band used), GSM/PCS 1900 band used)

REL-5
>>CHOICE GERAN Iu message




REL-5
>>>Single GERAN Iu message
MP

Bit string (no explicit size constraint)
The first/leftmost/most significant bit of the bit string contains bit 8 of the first octet of the message.
REL-5
>>>GERAN Iu message List
MP
1 to <maxInterSysMessages>
Bit string (1..32768)
The first/leftmost/most significant bit of the bit string contains bit 8 of the first octet of the message.
REL-5
>cdma2000





>>cdma2000MessageList
MP
1.to.<maxInterSysMessages>



>>>MSG_TYPE(s)
MP

Bit string (8)
Formatted and coded according to cdma2000 specifications. The MSG_TYPE bits are numbered b0 to b7. The first/leftmost/most significant bit of the bit string contains bit 7 of the MSG_TYPE.

>>>cdma2000Messagepayload(s)
MP

Bit string (1..512)
Formatted and coded according to cdma2000 specifications. The first/leftmost/most significant bit of the bit string contains the bit 7 of the first octet of the cdma2000 message.

>E-UTRA




REL-8
>>E-UTRA message
MP

Octet string
Formatted and coded according to E-UTRA specifications The first/leftmost/most significant bit of the octet string contains bit 8 of the first octet of the E-UTRA message.
REL-8

Condition
Explanation
SRVCC
This IE is mandatory present when an SR-VCC procedure is initiated and not needed otherwise.
rSRVCC
This IE is mandatory present when an rSR-VCC procedure is initiated and not needed otherwise.

10.2.16	HANDOVER FROM UTRAN FAILURE
This message is sent on the RRC connection used before the Inter-RAT Handover was executed. The message indicates that the UE has failed to seize the new channel in the other system.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Other information elements





Inter-RAT handover failure
OP

Inter-RAT handover failure 10.3.8.6


CHOICE System type
OP


This IE indicates which specification to apply to decode the transported messages

>GSM





>>GSM message List
MP
1.to.<maxInterSysMessages>
Bit string (1..512)
Formatted and coded according to GSM specifications. The first/leftmost/most significant bit of the bit string contains bit 8 of the first octet of the GSM message.

>GERAN Iu




REL-5
>>GERAN Iu message List
MP
1 to <maxInterSysMessages>
Bit string (1..32768)
The first/leftmost/most significant bit of the bit string contains bit 8 of the first octet of the message.
REL-5
>cdma2000





>>cdma2000MessageList
MP
1.to.<maxInterSysMessages>



>>>MSG_TYPE(s)
MP

Bit string (8)
Formatted and coded according to cdma2000 specifications. The MSG_TYPE bits are numbered b0 to b7. The first/leftmost/most significant bit of the bit string contains bit 7 of the MSG_TYPE.

>>>cdma2000Messagepayload(s)
MP

Bit string (1..512)
Formatted and coded according to cdma2000 specifications. The first/leftmost/most significant bit of the bit string contains bit 7 of  the first octet of the cdma2000 message.

>E-UTRA




REL-8
>>E-UTRA message
OP

Octet string
Formatted and coded according to E-UTRA specifications. The first/leftmost/most significant bit of the octet string contains bit 8 of the first octet of the E-UTRA message.
REL-8

10.2.16a	HANDOVER TO UTRAN COMMAND
This message is sent to the UE via other system to make a handover to UTRAN.
	RLC-SAP: N/A (Sent through a different RAT)
	Logical channel: N/A (Sent through a different RAT)
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
New U-RNTI
MP

U-RNTI Short 10.3.3.48


Ciphering algorithm
OP

Ciphering algorithm 10.3.3.4


RNC support for change of UE capability
MP

Boolean

REL-7
New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-6
New Primary E-RNTI
OP

E-RNTI 10.3.3.10a

REL-6
New Secondary E-RNTI
OP

E-RNTI 10.3.3.10a
FDD only
REL-6
Specification mode information elements




REL-8
Default configuration for CELL_FACH
OP

Default configuration for CELL_FACH 10.3.4.0a

REL-8
CHOICE specification mode
MP




>Complete specification





RB information elements





>>Signalling RB information to setup list
MP
1 to <maxSRBsetup>

For each signalling radio bearer established

>>>Signalling RB information to setup
MP

Signalling RB information to setup 10.3.4.24


>>RAB information to setup list
OP
1 to <maxRABsetup>

For each RAB established

>>>RAB information for setup
MP

RAB information for setup 10.3.4.10


Uplink transport channels





>>UL Transport channel information common for all transport channels
MP

UL Transport channel information common for all transport channels 10.3.5.24


>>Added or Reconfigured TrCH information
MP
1 to <maxTrCH>



>>>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2


Downlink transport channels





>>DL Transport channel information common for all transport channels
MP

DL Transport channel information common for all transport channels 10.3.5.6


>>Added or Reconfigured TrCH information
MP
1 to <maxTrCH>



>>>Added or Reconfigured DL TrCH information
MP

Added or Reconfigured DL TrCH information
10.3.5.1


Uplink radio resources





>>Uplink DPCH info 
MP

Uplink DPCH info 10.3.6.88


>>E-DCH Info
OP

E-DCH Info 10.3.6.97

REL-6
>>Uplink secondary cell info FDD
OP

Uplink secondary cell info FDD 10.3.6.115
FDD only
REL-11
Downlink radio resources (Complete specification)





>>Downlink HS-PDSCH Information
OP

Downlink HS-PDSCH Information 10.3.6.23a

REL-6
>>Downlink information common for all radio links
MP

Downlink information common for all radio links
10.3.6.24


>>Downlink information per radio link
MP
1 to <maxRL>



>>>Downlink information for each radio link
MP

Downlink information for each radio link 10.3.6.27


>>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD for Handover to UTRAN 10.3.6.31b
FDD only
REL-11
>>Additional downlink secondary cell info list FDD
OP
2


REL-11
>>>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD for Handover to UTRAN 10.3.6.31b
FDD only
REL-11
PhyCH information elements (Complete specification)





>>DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149

REL-12
>Preconfiguration





>>CHOICE Preconfiguration mode
MP




>>>Predefined configuration 
MP

Predefined configuration identity 10.3.4.5
NOTE 1

>>>Default configuration





>>>>Default configuration mode
MP

Enumerated (FDD, TDD)
Indicates whether the FDD or TDD version of the default configuration shall be used

>>>>Default configuration identity
MP

Default configuration identity 10.3.4.0


>>RAB info
OP

RAB info Post 10.3.4.9
One RAB is established

>>CHOICE mode
MP




>>>FDD





>>>>Uplink DPCH info 
MP

Uplink DPCH info Post 10.3.6.89


>>>CHOICE tdd





>>>>1.28 Mcps TDD and 7.64 Mcps TDD





>>>>> Uplink DPCH info
MP

Uplink DPCH info 10.3.6.88


Downlink radio resources (Preconfiguration)





>>>>3.84 Mcps TDD





>>>>>Uplink DPCH info 
MP

Uplink DPCH info Post 10.3.6.89


>>Downlink information common for all radio links
MP

Downlink information common for all radio links Post 10.3.6.25


>>Downlink information per radio link
MP
1 to <maxRL>

Send downlink information for each radio link to be set-up.
In TDD MaxRL is 1.

>>>Downlink information for each radio link
MP

Downlink information for each radio link Post
10.3.6.28


>>CHOICE mode
MP




>>>FDD



(no data)

>>>TDD





>>>>Primary CCPCH Tx Power
MP

Primary CCPCH Tx Power 10.3.6.59


Frequency info
MP

Frequency info
10.3.6.36


Multi-frequency Info
OP

Multi-frequency Info 10.3.6.39a
This IE is used for 1.28 Mcps TDD only
REL-7
Maximum allowed UL TX power
MP

Maximum allowed UL TX power
10.3.6.39



NOTE 1:	Predefined configurations are not used in case of handover from E-UTRAN.

10.2.16b	HANDOVER TO UTRAN COMPLETE
This message is sent by the UE when a handover to UTRAN has been completed.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information elements





START list
CH
1 to <maxCNdomains>

START [40] values for all CN domains.

>CN domain identity
MP

CN domain identity 10.3.1.1


>START
MP

START 10.3.3.38


RB Information elements





COUNT-C activation time
OP

Activation time
10.3.3.1
Used for radio bearers mapped on RLC-TM.

Other Information elements




REL-10
Logged Meas Available
OP

Enumerated (TRUE)
Indicates the UE has logged measurements to report to the network
REL-10
Connection Establishment Failure Info Available
OP

Enumerated (TRUE)
True indicates the UE has logged measurements from a RRC connection establishment failure to report to the network
REL-11

10.2.16c	INITIAL DIRECT TRANSFER
This message is used to initiate a signalling connection based on indication from the upper layers, and to transfer a NAS message.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE -> UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





Integrity check info
CH

Integrity check info 10.3.3.16


PLMN identity
OP

PLMN identity 10.3.1.11
This IE indicates the PLMN to which the UE requests the signalling connection to be established.
REL-6
Support of CSG
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support access control based on CSG
REL-8
CN information elements





CN domain identity
MP

CN domain identity 10.3.1.1


Intra Domain NAS Node Selector
MP

Intra Domain NAS Node Selector 10.3.1.6


NAS message
MP

NAS message 10.3.1.8


START
OP

START 10.3.3.38
START value to be used in the CN domain as indicated in the IE "CN domain identity". This IE shall always be present in this version of the protocol.

Establishment cause
OP

Establishment cause 10.3.3.11

Rel-5
CS Call Type
CV-ConversationalCS

Enumerated (speech, video, other)
One spare value is needed
REL-7
DCN Identity
OP

Integer (0..65535)

REL-14
Measurement information elements





Measured results on RACH
OP

Measured results on RACH 10.3.7.45


MBMS joined information
OP



REL-6
>P-TMSI
OP

P-TMSI (GSM-MAP) 10.3.1.13

REL-6

Condition
Explanation
ConversationalCS
This IE is mandatory present if the IE "Establishment cause" has the value "Originating Conversational Call" or "Emergency Call", the IE "CN domain identity" has the value "CS domain" and the UE is in CELL_FACH state. Otherwise it is not needed.

10.2.16d	INTER RAT HANDOVER INFO
This message is sent by the UE via another radio access technology to provide information to the target RNC when preparing for a handover to UTRAN.
	RLC-SAP: N/A (Sent through a different RAT)
	Logical channel: N/A (Sent through a different RAT)
	Direction: UE  UTRAN
Information Element/Group Name
Need
Multi
Type and reference
Semantics description
Version
Radio Bearer IEs





Predefined configuration status information
OP

Predefined configuration status information 10.3.4.5a


Predefined configuration status information compressed
OP

Predefined configuration status information compressed 10.3.4.5b

REL-5
UE Information elements





UE security information
OP

UE security information 10.3.3.42b


UE security information2
OP

UE security information2
10.3.3.42c

REL-6
UE Specific Behaviour Information 1 interRAT
OP

UE Specific Behaviour Information 1 interRAT 10.3.3.52
This IE shall not be included in this version of the protocol

UE capability container
OP




>UE radio access capability
MP

UE radio access capability 10.3.3.42


>UE radio access capability extension
MP

UE radio access capability extension 10.3.3.42a
Although this IE is not always required, the need has been set to MP to align with the ASN.1

UE radio access capability compressed
OP

UE radio access capability compressed
10.3.3.42o

REL-5
UE radio access capability comp 2
CV-Fdd

UE radio access capability comp 2 10.3.3.42oa

REL-6
UE radio access capability comp for 1.28 Mcps 
CV-128Tdd

UE radio access capability comp for 1.28 Mcps TDD 10.3.3.42ob

REL-8
Support for F-DPCH
CV-SupportForHS

Enumerated (TRUE)
Presence of this information element indicates that F-DPCH is supported by the UE.
Absence of this information element indicates that F-DPCH is not supported
REL-12

Condition
Explanation
Fdd
This IE is mandatory present for FDD, otherwise it is not needed.
128Tdd
This IE is mandatory present for 1.28 Mcps TDD, otherwise it is not needed.
SupportForHS
This IE is mandatory present if the UE supports HS-PDSCH, otherwise it is not needed.

10.2.16da	LOGGING MEASUREMENT CONFIGURATION
This message is used to configure logged measurements
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type

REL-10
UE information elements




REL-10
RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

REL-10
Integrity check info
CH

Integrity check info 10.3.3.16

REL-10
Other Information Elements




REL-10
Logged Measurements Configuration Info

OP

Logged Measurements Configuration Info
10.3.7.132

REL-10
Logged ANR configuration Info
OP

Logged ANR Configuration Info
10.3.7.42a

REL-10

10.2.16e	MBMS Access Information
This message is transmitted periodically by UTRAN to inform UEs that have joined or selected a particular MBMS service about the need to establish an RRC connection or to perform a cell update. While the message contents may change within a modification period, all occurances of the information within a modification period concern the same MBMS service(s). If the cell on which this message is sent is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this message would not have been received.
	RLC-SAP: UM
	Logical channel: MCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message type
MP

Message Type

REL-6
Service list
MP
1 to <maxMBMSservCount>


REL-6
>MBMS short transmission ID
MP

MBMS Short transmission identity 10.3.9a.10
Reference/ index to a transmission listed in the MBMS Modified Services Information or MBMS Unmodified Services Information
REL-6
>Access probability factor - Idle
MP

Integer (0 to 960 by step of 32, 1000)
Access probability factor for UEs in idle mode. The actual Access Probability (AP) is a function of the Access Probability Factor (APF):
AP (APF) = 2-(APF/100)
REL-6
>Access probability factor – connected
MD

Integer (0 to 960 by step of 32, 1000)
Access probability factor for UEs in connected mode. The actual Access Probability (AP) is a function of the Access Probability Factor (APF):
AP (APF) = 2-(APF/100)

Default value is the value included in IE "Access probability factor - Idle"
REL-6
>Connected mode counting scope
MP



REL-6
>>URA_PCH
MP

BOOLEAN
TRUE means that UEs in URA_PCH state shall participate in counting
REL-6
>>CELL_PCH
MP

BOOLEAN
TRUE means that UEs in CELL_PCH state shall participate in counting
REL-6
>> CELL_FACH
MP

BOOLEAN
TRUE means that UEs in CELL_FACH state shall participate in counting
REL-6

10.2.16f	MBMS Common p-t-m rb Information
This message is transmitted periodically by UTRAN to inform UEs about the p-t-m RB configuration information that may be common between different services, applicable in the current and/ or in neighbouring cells. The message contents does not change within a modification period.
	RLC-SAP: UM
	Logical channel: MCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message type
MP

Message Type

REL-6
RB information list
MP
1 to <maxMBMS-CommonRB>


REL-6
>RB identity
MP

MBMS Common RB identity 10.3.9a.3

REL-6
>PDCP info
MP

PDCP info 10.3.4.2

REL-6
>RLC info
MP

RLC info MBMS 10.3.4.23a

REL-6
TrCh information for each TrCh
MP
1 to <maxMBMS-CommonTrCh>


REL-6
>Transport channel identity
MP

MBMS Common TrCh identity 10.3.9a.4

REL-6
>TFS
MP

Transport format set 10.3.5.23

REL-6
TrCh information for each CCTrCh
OP
1 to <maxMBMS-CommonCCTrCh>

The list needs not include the CCTrCh for which the default TFCS for MBMS applies, as specified in subclause 14.10.1.
REL-6
>CCTrCH identity
MP

MBMS Common CCTrCh identity 10.3.9a.1

REL-6
>TFCS
MP

Transport format combination set 10.3.5.20

REL-6
PhyCh information
MP
1 to <maxMBMS-CommonPhyCh>


REL-6
>PhyCh identity
MP

MBMS Common PhyCh identity 10.3.9a.2

REL-6
>CHOICE mode
MP



REL-8
>>FDD or TDD




REL-8
>>>Secondary CCPCH info MBMS
MP

Secondary CCPCH info MBMS 10.3.6.71a

REL-6
>>3.84 Mcps TDD IMB



3.84 Mcps TDD IMB is a subset of 3.84 Mcps TDD.
REL-8
>>>Secondary CCPCH frame type 2 info
MP

Secondary CCPCH frame type 2 info 10.3.6.114

REL-8
LCR TDD MBSFN information
OP

LCR TDD MBSFN Information 10.3.6.78c
1.28 Mcps TDD only: included only if some timeslots of the secondary frequency of a multi-frequency cell are designated to MBSFN.
REL-7

10.2.16g	MBMS Current Cell p-t-m rb Information
This message is transmitted periodically by UTRAN to inform UEs about the PTM RB configuration used to in a cell, in case one or more MBMS service is provided using p-t-m radio bearers. The message contents does not change within a modification period.
	RLC-SAP: UM
	Logical channel: MCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message type
MP

Message Type
Current cell PTM RB info
REL-6
S-CCPCH list
OP
1 to <maxSCCPCH>

Absent in case MTCH are only mapped to the S-CCPCH(s) included in SIB type 5 or 5bis
REL-6
>S-CCPCH identity
OP

MBMS Current cell S-CCPCH identity 10.3.9a.5
When L1- or L2 combining applies, this identity is used to refer to this S-CCPCH within the NEIGHBOURING CELL P-T-M RB INFORMATION message
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified. When Chip combining (1.28Mcps TDD only) applies, this identity is used to refer to the S-CCPCH within the NEIGHBOURING CELL P-T-M RB INFORMATION message
REL-6
>Secondary CCPCH info
MP

MBMS Common PhyCh identity 10.3.9a.2
Refers to a configuration in the common RB info
REL-6
>MBMS Soft Combining Timing Offset
CV-Soft-FDD

MBMS Soft Combining Timing Offset 10.3.9a.10a
Timing offset applied in the CFN calculation in sub-clause 8.5.15.5. The default value is 0 ms.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-6
>TrCh information common for all TrCh
MD

MBMS Common CCTrCh identity 10.3.9a.1
Refers to a (TFCS) configuration in the common RB info
The default value of the TFCS is specified in subclause 14.10.1
REL-6
>TrCH information list
MP
1 to <maxFACHPCH>

List of FACH transport channels carrying one or more MTCH and optionally one MSCH
REL-6
>>TrCh information
MP

MBMS Common TrCh identity 10.3.9a.4
Refers to a (TFS) configuration in the common RB info
REL-6
>>RB information list
OP
1 to <maxRBperTrCh>

The IE is absent if temporarily no RBs are mapped to this TrCh or if the TrCH only carries MSCH
REL-6
>>>RB information
MP

MBMS p-t-m RB information 10.3.9a.7a

REL-6
>>MSCH configuration information
OP

MSCH configuration information 10.3.9a.16

REL-6
S-CCPCH in SIB type 5
OP
1 to <maxSCCPCH>

Every S-CCPCH’s included in SIB type 5 or 5bis may carry MTCH
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-6
>S-CCPCH identity


Integer (1..maxSCCPCH)
Index of the S-CCPCH within the list included in SIB type 5 or 5bis
REL-6
>TrCH information list
MP
1 to <maxFACHPCH>

List of FACH transport channels carrying one or more MTCH and optionally one MSCH
REL-6
>>TrCh identity
MP

Integer (1..maxFACHPCH)
Index of the FACH within the list of TrChs defined for that S-CCPCH as included in SIB type 5 or 5bis
REL-6
>>RB information list
OP
1 to <maxRBperTrCh>

The IE is absent if this TrCh only carries MSCH
REL-6
>>>RB information
MP

MBMS p-t-m RB information 10.3.9a.7a

REL-6
>>MSCH configuration information
OP

MSCH configuration information 10.3.9a.16
Included if the TrCH carries MSCH
REL-6
MBSFN TDM Info List
CV-Mbsfn

MBSFN TDM Information List 10.3.9a.12b

REL-7

Condition
Explanation
Soft-FDD
This IE is used only for FDD. It is mandatory default for FDD if the IE "L1 combining" is included in MBMS NEIGHBOURING CELL P-T-M RB INFORMATION. Otherwise it is not needed.
Mbsfn
The IE is optionally present if the cell supports MBSFN, and not needed otherwise.

10.2.16h	MBMS General Information
This message is transmitted periodically by UTRAN to inform UEs about the general MBMS (configuration) information. The message contents does not change within a modification period.
	RLC-SAP: UM
	Logical channel: MCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message type
MP

Message Type

REL-6
MBMS preferred frequency information
OP

MBMS preferred frequency information 10.3.7.43a
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-6
MBMS timers and counters
MP

MBMS specific timers and counters 10.3.9a.11

REL-6
MICH configuration information
MP

MICH configuration information
10.3.9a.14

REL-6
Cell group identity
MP

Bit string (12)
Identifies the group of cells for which the same common RLC and PDCP entity is used as the current cell
REL-6
Default MSCH configuration information
OP

MSCH configuration information 10.3.9a.16
The default MSCH configuration
REL-6
Indicate changes in MBMS Selected Services
MP

Boolean
TRUE means the UE indicates changes in MBMS Selected Services while in URA_PCH, CELL_PCH or in CELL_FACH
Default value is FALSE.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE has the value FALSE.
NOTE 1.
REL-6
MBSFN inter frequency neighbour list
OP

MBSFN inter frequency neighbour list 10.3.7.43b
May be included for FDD and 3.84/7.68 Mcps TDD if the cell is operating in MBSFN mode
Rel-7
Network Standard Time Information
OP

Network standard time information 10.3.9a.17
Only for 1.28 Mcps TDD
Rel-8

NOTE 1:	The default value is used when the non-critical extension v6b0NonCriticalExtensions is not included.

10.2.16i	MBMS Modification request
The UE transmits this message to request UTRAN to take certain actions to improve the UE's ability to receive its (prioritised) activated MBMS services and/ or sessions.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message type
MP

Message Type

REL-6
UE information elements




REL-6
Integrity check info
CH

Integrity check info 10.3.3.16

REL-6
MBMS information elements




REL-6
MBMS preferred frequency request
OP

MBMS service identity 10.3.9a.8
The MBMS preferred frequency the UE would like to be moved to. The MBMS preferred frequency is identified by the identity of the MBMS service the UE would like to receive.
REL-6
MBMS RB list requested to be released
OP
1 to <maxRB>

RBs of lower priority MBMS services inhibiting reception of a higher priority service
REL-6
>RB information to release
MP

RB information to release 10.3.4.19

REL-6
MBMS Selected Service Info
MP

MBMS Selected Service Info 10.3.9a.7b
NOTE 1.
REL-6
Support of MBMS service change for a ptp RB
OP

Enumerated (TRUE)
In this version of the specification, this IE has no meaning but it shall be included upon the conditions specified in subclause 8.7.6.2a.
REL-6

NOTE 1:	The default value is used when the non-critical extension v6b0NonCriticalExtensions is not included.

10.2.16j	MBMS Modified services Information
This information is transmitted periodically by UTRAN to inform UEs about a change applicable for one or more MBMS services available in the current cell and possibly in neighbouring cells.
	RLC-SAP: AM (DCCH only) or UM
	Logical channel: MCCH, DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message type
MP

Message Type

REL-6
UE information elements




REL-6
Integrity check info
CV-DCCHCH

Integrity check info 10.3.3.16
Integrity check info is included if integrity protection is applied
REL-6
MBMS information elements




REL-6
Modified service list
OP
1.. <maxMBMSservModif>


REL-6
>MBMS Transmission identity
MP

MBMS Transmission identity
10.3.9a.12

REL-6
>MBMS required UE action
MP

Enumerated (None, Acquire counting info, Acquire counting info – PTM RBs unmodified, Acquire PTM RB info, RequestPTP RB, Release PTM RB)
Indicates required UE action upon receiving the message.
When sent on the DCCH, only the following values apply: None, Acquire PTM RB info, request PTP RB).
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 all values except “Acquire PTM RB info” and "Release PTM RB" are handled as if “None” was received.
REL-6
>MBMS PTM RB Release Cause
CV-PTM_RB_RELEASE_LCR_TDD

Enumerated (NormalRelease, Out of MBMS Service Coverage in RAN, Network Abnormal Release)
Indicates the PTM RB Release cause. For 1.28 Mcps TDD only.
REL-7
>MBMS preferred frequency
OP


Indicates the frequency that UEs shall consider as the preferred frequency.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-6
>>PFL index
CV-MCCH

Integer (1.. <maxMBMS-Freq>)
Index pointing to an entry in the list included in MBMS GENERAL INFORMATION.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-6
>>PFL info
CV- DCCH

Frequency info 10.3.6.36

REL-6
>Continue MCCH reading
MP

BOOLEAN
MCCH in- band notification. Indicates whether or not the UE should continue reading MCCH in the next modification period.
Not applicable when sent on the DCCH
REL-6
>MBSFN cluster frequency
CV-MBSFN

Integer (1..<maxMBSFNclusters>
For FDD and 3.84/7.68 Mcps TDD index pointing to a frequency indicated in the IE "MBSFN inter frequency neighbour list " in MBMS General Information. Default: the current MBSFN cluster.
For 1.28 Mcps TDD index pointing to a frequency indicated in the SIB 11. Default: the current MBSFN cluster.
REL-7
MBMS re- acquire MCCH
CV-MCCHOP

Enumerated (TRUE)

REL-6
MBMS dynamic persistence level
CV-MCCHOP

Dynamic persistence level 10.3.6.35
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified
REL-6
End of modified MCCH information
CV-MCCHOP

Integer (1..16)
If present: the UE may assume that, in each repetition period, all the MCCH information preceding the MBMS UNMODIFIED SERVICES INFORMATION message is transmitted within the indicated number of TTIs.
REL-6
MBMS number of neighbour cells
MP

Integer (0..32)
Indicates the number of MBMS NEIGHBOURING CELL P-T-M RB INFORMATION messages that are contained within the MCCH transmission.
Not applicable when sent on the DCCH.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if the value 0 was received.
REL-6
MBMS all unmodified p-t-m services
CV-MCCHOP

Enumerated (TRUE)
TRUE means that the UE should re-acquire the PtM information for all services listed in the message MBMS Unmodified services Information with the IE “MBMS required UE action” set to “Acquire PTM RB info” 
REL-6
MBMS p-t-m activation time
CV-MCCHOP

MBMS p-t-m activation time 10.3.9a.7o

REL-6
MIB Value tag
OP

MIB Value tag 10.3.8.9
Indicates the matching System Information.
REL-7

Condition
Explanation
MCCH
This IE is mandatory present if the message is sent via MCCH and not needed otherwise.
DCCH
This IE is mandatory present if the message is sent via DCCH and not needed otherwise.
MCCHOP
This IE is optionally present if the message is sent via MCCH and not needed otherwise.
DCCHCH
This IE is present conditionnaly on history if the message is sent via DCCH and not present otherwise.
MBSFN
This IE is mandatory default when the cell on which this IE is sent is operating in MBSFN mode according to subclause 8.1.1.6.3. Otherwise the IE is not needed.
PTM_RB_RELEASE_LCR_TDD
This IE is optionally present if the IE “MBMS required UE action” has the value “Release PTM RB”. Otherwise it is not needed. For 1.28 Mcps TDD only.

10.2.16k	MBMS Neighbouring Cell p-t-m rb Information
This message is transmitted periodically by UTRAN to inform UEs about the p-t-m RB configuration used to in neighbouring cells, indicating the UE may perform selection and/ or soft combining. The message content does not change within a modification period. If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this message is unspecified.
	RLC-SAP: UM
	Logical channel: MCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message type
MP

Message Type

REL-6
Neighbouring cell identity
MP

Integer (0..<maxCellMeas1>)
The intra-frequency cell id of the cell obtained from the IE 'Intra-frequency Cell Info list' in SIB 11/SIB 11bis. In case the intra-frequency cell id is omitted in the IE ‘Intra-frequency Cell Info list’ in SIB 11/SIB11bis, it refers to the index (starting at zero) in the CELL_INFO_LIST as if the CELL_INFO_LIST was constructed from SIB11/SIB11bis only, see 8.6.7.3.
REL-6
Neighbouring cell’s S-CCPCH list
MP
1 to <maxSCCPCH>


REL-6
>CHOICE PhyCh
MP



REL-7
>>By reference




REL-7
>>>Secondary CCPCH info
MP

MBMS Common PhyCh identity 10.3.9a.2
S-CCPCH configuration used in neighbouring cell. Refers to a configuration in the common RB info of the current cell
REL-6
>>Extended



FDD only
REL-7
>>>Secondary CCPCH info
OP

MBMS Common PhyCh identity 10.3.9a.2
Referenced S-CCPCH configuration used in neighbouring cell. Refers to a configuration in the common RB info of the current cell
REL-7
>>>Secondary CCPCH info MBMS Diff
MP

Secondary CCPCH info MBMS Diff 10.3.6.71b
Differential S-CCPCH configuration. Physical configuration parameters in this IE replace the corresponding parameters in the referenced S-CCPCH configuration.
If the referenced S-CCPCH configuration is absent, the full set of parameters is needed.
REL-7
>Secondary CCPCH Power Offset Difference 
MD

Integer 
(-6, -3, 3, 6)
Difference (Pn  Of) between the S-CCPCH power offset (Pn) of the neighboring cell S-CCPCH and the S-CCPCH power offset (Of) of the serving cell that is going to be combined to this neighbour cell S-CCPCH, in dB.
Default value is 0.
Note 3 and 4.
REL-6
>L1 combining
OP


L2- combining applies if the IE is absent
REL-6
>>CHOICE mode
MP



REL-6
>>>FDD




REL-6
>>>>MBMS Soft Combining Timing Offset
MP

MBMS Soft Combining Timing Offset 10.3.9a.10a
Timing offset applied in the CFN calculation in subclause 8.5.15.5
REL-6
>>>>MBMS transmission time difference
MP

Integer (0..3)
Indicates the time difference between the TTIs on the current and the neighbouring cell’s SCCPCH that can be L1- combined
REL-6
>>>>MBMS L1 combining schedule
OP

MBMS L1 combining schedule 10.3.9a.7
If included partial layer 1 combining applies, in which case this IE indicates when L1- combining applies. If the IE is absent, L1 combining applies continuously
REL-6
>>>TDD



(no data)
REL-6




If L1 combining is configured, for 1.28Mcps TDD UE, MBMS data reception shall be implemented by means of chip combine receiver [55].
REL-7
>CHOICE L23 configuration
MP



REL-6
>>SameAs Current cell



Apart from the physical channel configuration and the MSCH configuration information, the same configuration as for the indicated S-CCPCH used in the current cell applies. The MSCH is mapped on the same transport channel as in the current cell.
REL-6
>>>Current cell's S-CCPCH
MP

MBMS Current cell S-CCPCH identity 10.3.9a.5
Reference to the S-CCPCH in the current cell which uses  exaclty the same configuration (excluding MSCH configuration).
REL-6
>>>MSCH configuration information
OP

MSCH configuration information 10.3.9a.16

REL-6
>>Different




REL-6
>>>TrCh information for common for all TrCh
MD

MBMS Common CCTrCh identity 10.3.9a.1
Refers to a (TFCS) configuration in the common RB info
The default value of the TFCS is specified in subclause 14.10.1
REL-6
>>>TrCH information list
MP
1 to <maxFACHPCH>

List of FACH transport channels carrying one or more MTCH and optionally one MSCH
REL-6
>>>>TrCh information 
MP

MBMS Common TrCh identity 10.3.9a.4
Refers to a (TFS) configuration in the common RB info
REL-6
>>>>TrCh combining status
MP

BOOLEAN
Value TRUE means that TrCh combining is used for this transport channel (TDD only). Note 2.
The IE shall be ignored in FDD mode.
REL-6
>>>>RB information list
OP
1 to <maxRBperTrCh>

The IE is only present for the radio bearers for which selection (FDD) or transport channel (TDD) combining applies.
REL-6
>>>>>RB information
MP

MBMS p-t-m RB information 10.3.9a.7a

REL-6
>>>>MSCH configuration information
OP

MSCH configuration information 10.3.9a.16
Included if the TrCH carries MSCH
REL-6

NOTE 1:	The signalling supports the option that UTRAN maps one service to L1 combining slots for some neighbours and to the L2 combining slots for other neighbours ie. the use of different combining schemes for different neighbours
NOTE 2:	Transport combining can only be indicated when the complete L2 configuration is provided for the neighbouring cell (i.e. using L2 configuration choice “different”). Fortunately, a scenario in which the neighbouring cell configuration is different from the current cell is regarded as the typical scenario for using transport combining.
NOTE 3:	For FDD, an S-CCPCH power offset is defined as the offset between the transmitted power of the data part of one S-CCPCH and the transmitted power of the P-CPICH of a given cell (Ps-ccpch – Pp-cpich). For TDD, an S-CCPCH power offset is defined as the offset between one S-CCPCH and the P-CCPCH of a given cell (Ps-ccpch – Pp-ccpch).
NOTE 4:	The Secondary CCPCH Power Offset Difference IE gives the UE an indication of the S-CCPCH power on the neighbouring cells that may be used to complete the neighbouring cell ranking based on P-CPICH power for FDD or P-CCPCH for TDD.
10.2.16L	MBMS Scheduling Information
This message is transmitted periodically by UTRAN to inform UEs when the MBMS services, provided on the same S-CCPCH as the message is sent, are scheduled to be transmitted. The UE may use the scheduling information to discontinue receiving the concerned S-CCPCH. The message is transmitted in accordance with the MSCH configuration applicable for the corresponding S-CCPCH.
	RLC-SAP: UM
	Logical channel: MSCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message type
MP

Message Type

REL-6
Service scheduling info list
MP
1 to  < maxMBMSservSched>


REL-6
>MBMS Transmission identity
MP

MBMS Transmission identity
10.3.9a.12

REL-6
>MBMS Service transmissions info list
OP
1 to < maxMBMSTransmis>

One or more sets of scheduling information comprising of the beginning and duration of an MBMS service transmission for one scheduling period
REL-6
>>Start
MP

Integer (0..1020) by step of 4
Indicates the start of the transmission relative to the start of the TTI in which the MBMS SCHEDULING INFORMATION message was received. In number of radio frames (i.e. the value 0 would correspond to the start of the MBMS transmission being in the same TTI as the MBMS Scheduling Information message.)
See note 1.
REL-6
>>Duration
MP

Integer (4..1024)
by step of 4
In number of radio frames
REL-6
>Next scheduling period
MP

Integer (0..31)
Number of scheduling periods (see 10.3.9a.16), after the current scheduling period, in which no data will be transmitted for the concerned service. If the Next scheduling period is set to 0, data may be transmitted for the concerned service in the scheduling period immediately following the current scheduling period
REL-6

NOTE: 	If UTRAN sets the value of the IE "Start" to a value less than or equal to 16 then the UE may not successfully receive the start of the MTCH transmission.
10.2.16m	MBMS Unmodified services Information
This message is transmitted periodically by UTRAN to inform UEs about the MBMS services, available in the current cell and possibly in neighbouring cells, that have not changed if the IE "MBMS all unmodified p-t-m services" is not included in the MBMS MODIFIED SERVICES INFORMATION message in this modification period. The message is repeated every repetition period while its contents does not change within a modification period.
	RLC-SAP: UM
	Logical channel: MCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message type
MP

Message Type

REL-6
Unmodified services list
OP
1 to <maxMBMSservUnmodif>

If the IE “MBMS all unmodified p-t-m services” is included in the MBMS MODIFIED SERVICES INFORMATION message in this modification period, the services with the IE “MBMS required UE action” set to “Acquire PTM RB info” in the message MBMS Unmodified services Information should be considered as modified.
REL-6
>MBMS Transmission identity
MP

MBMS Transmission identity
10.3.9a.12

REL-6
>MBMS required UE action
MP

Enumerated (None, Acquire PTM RB info, Request PTP RB )
Indication of the UE action required to receive the service.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 all values except “Acquire PTM RB info” are handled as if “None” was received.
REL-6
>MBMS preferred frequency
OP

Integer (1.. <maxMBMS-Freq>)
Information about the frequency that UEs shall consider as the preferred frequency layer for cell re-selection during a session for an activated MBMS service, as specified in [25.304].
Index pointing to an entry in the list included in MBMS GENERAL INFORMATION.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-6
>MBSFN cluster frequency
CV-MBSFN

Integer (1..<maxMBSFNclusters>
For FDD and 3.84/7.68 Mcps TDD index pointing to a frequency indicated in the IE "MBSFN inter frequency neighbour list " in MBSFN General Information. Default: the current MBSFN cluster.
For 1.28 Mcps TDD index pointing to a frequency indicated in the SIB 11. Default: the current MBSFN cluster.
REL-7

Condition
Explanation
MBSFN
This IE is mandatory present when the cell on which this IE is sent is operating in MBSFN mode according to subclause 8.1.1.6.3. Otherwise the IE is not needed.

10.2.17	MEASUREMENT CONTROL
This message is sent by UTRAN to setup, modify or release a measurement in the UE.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Measurement Information elements





Measurement Identity
 CV-command2

Measurement Identity 10.3.7.48


Measurement Command
MP

Measurement Command 10.3.7.46


Release Some Measurements
CV-command3

Release some measurements 10.3.7.46b

REL-12
Measurement Reporting Mode
OP

Measurement Reporting Mode 10.3.7.49


Additional measurements list
OP

Additional measurements list 10.3.7.1


CHOICE Measurement type
CV-command




>Intra-frequency measurement


Intra-frequency measurement 10.3.7.36


>Inter-frequency measurement


Inter-frequency measurement 10.3.7.16


>Inter-RAT measurement


Inter-RAT measurement 10.3.7.27


>UE positioning measurement


UE positioning measurement 10.3.7.100


>Traffic Volume measurement


Traffic Volume measurement 10.3.7.68


>Quality measurement


Quality measurement 10.3.7.56


>UE internal measurement


UE internal measurement 10.3.7.77


>CSG Proximity detection


CSG Proximity detection 10.3.7.123

REL-9
>E-UTRA measurement for CELL_FACH


E-UTRA measurement for CELL_FACH 10.3.7.137

REL-11
>Application layer measurement configuration


Application layer measurement configuration 10.3.7.143

REL-14
CELL_DCH measurement occasion info LCR
OP

CELL_DCH measurement occasion info LCR
10.3.7.126

REL-9
Measurement Scaling Factor
CV_Measurement

Enumerated (SF_UTRA_CF1, SF_UTRA_CF2)
The Measurement Scaling Factor is used to scale the measurement performance for UTRA/E-UTRA frequencies configured in CELL_DCH as specified in [19]. Even if no UTRA or E-UTRA frequency is configured for reduced measurement performance, the network may configure a scaling factor and configure any of the scaling factor values [19].
REL-12
Physical channel information elements





DPCH compressed mode status info
OP 

DPCH compressed mode status info
10.3.6.34



Condition
Explanation
Command2
The IE is mandatory present if the IE "Measurement Command" is set to "Setup", "Modify" or "Release", otherwise the IE is not needed.
Command3
The IE is mandatory present if the IE "Measurement Command" is set to "ReleaseSome", otherwise the IE is not needed.
Command
The IE is mandatory present if the IE "Measurement command" is set to "Setup", optional if the IE "Measurement command" is set to "modify", otherwise the IE is not needed.
Measurement
The IE is optionally present if the IE "Inter-frequency measurement" and/or IE "Inter-RAT measurement" is present, otherwise the IE is not needed. 

10.2.18	MEASUREMENT CONTROL FAILURE
This message is sent by UE, if it cannot initiate a measurement as instructed by UTRAN.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Failure cause
MP

Failure cause and error information
10.3.3.14


Measurement identity 
OP

Measurement identity 10.3.7.48

REL-12

10.2.19	MEASUREMENT REPORT
This message is used by UE to transfer measurement results to the UTRAN.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





Integrity check info
CH

Integrity check info 10.3.3.16


Activation time
CV-PreConf

Activation time 10.3.3.1

REL-8
Measurement Information Elements





Measurement identity 
MP

Measurement identity 10.3.7.48


Measured Results
OP

Measured Results 10.3.7.44


Measured Results on secondary UL frequency
OP

Measured Results on secondary UL frequency 10.3.7.118

REL-9
Measured Results on RACH
OP

Measured Results on RACH 10.3.7.45


Additional Measured results
OP
1 to <maxAdditionalMeas>



>Measured Results
MP

Measured Results 10.3.7.44


Additional Measured results on secondary UL frequency
OP
1 to <maxAdditionalMeas>


REL-9
>Measured Results
MP

Measured Results on secondary UL frequency10.3.7.118


Event results
OP

Event results 10.3.7.7


Event results on secondary UL frequency
OP

Cell measurement event results on secondary UL frequency 10.3.7.117

REL-9
Inter-RAT cell info indication
CV-IRAT

Integer (0..3)

REL-5
E-UTRA Measured Results
OP

E-UTRA Measured Results
10.3.7.6c

REL-8
E-UTRA Event Results
OP

E-UTRA Event Results
10.3.7.6a

REL-8
E-UTRA results for CELL_FACH
OP

E-UTRA results for CELL_FACH
10.3.7.138

REL-11
CSG Proximity Indication
OP

10.3.7.122

REL-9
Other Information elements




Rel-10
Logged Meas Available
OP

Enumerated (TRUE)
Indicates the UE has logged measurements to report to the network
Rel-10
ANR Logging Results Available
OP

Enumerated (TRUE)
True indicates the UE has ANR logging results to report to the Network.
REL-10
Application layer measurement reporting
OP

Application layer measurement reporting 10.3.7.144

REL-14

Condition
Explanation
IRAT
The IE is optionally present if at least one of the IE "Inter-RAT measured results list" and the IE "Inter-RAT measurement event results" is included in the message. Otherwise, the IE is not needed.
PreConf
The IE is mandatory if the table “Target cell preconfigurations” in the variable includes the cell that triggered the event and the IE “Activation time offset” is different from 0. Otherwise, the IE is not needed.

10.2.20	PAGING TYPE 1
This message is used to send information on the paging channel. One or several UEs, in idle or connected mode, can be paged in one message, which also can contain other information.
	RLC-SAP: TM
	Logical channel: PCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information elements





Paging record list
OP
1 to <maxPage1>



>Paging record
MP

Paging record 10.3.3.23


Other information elements





BCCH modification info
OP

BCCH modification info 10.3.8.1


ETWS information
OP

ETWS information 10.3.8.4ea

REL-8

If the encoded message does not fill a transport block, the RRC layer shall add padding according to subclause 12.1.
10.2.21	PAGING TYPE 2
This message is used to page a UE in connected mode, when using the DCCH for CN originated paging.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Paging cause
MP

Paging cause 10.3.3.22

CN Information elements




CN domain identity
MP

CN domain identity 10.3.1.1

Paging Record Type Identifier
MP

Paging Record Type Identifier 10.3.1.10


10.2.22	PHYSICAL CHANNEL RECONFIGURATION
This message is used by UTRAN to assign, replace or release a set of physical channels used by a UE.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information Elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Integrity protection mode info
OP

Integrity protection mode info 10.3.3.19
The UTRAN should not include this IE unless it is performing an SRNS relocation

Ciphering mode info
OP

Ciphering mode info 10.3.3.5
The UTRAN should not include this IE unless it is performing an SRNS relocation and a change in ciphering algorithm

Activation time
MD

Activation time 10.3.3.1
Default value is "now"

Dynamic activation time
OP

Dynamic activation time 10.3.3.1a

REL-13
Delay restriction flag
OP

Enumerated (TRUE)
This IE is always set to TRUE and included if the activation time is restricted according to subclause 8.6.3.1
REL-6
New U-RNTI
OP

U-RNTI 10.3.3.47


New C-RNTI
OP

C-RNTI 10.3.3.8


New DSCH-RNTI
OP

DSCH-RNTI 10.3.3.9a
Should not be set in FDD. If received the UE behaviour is unspecified.

New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-5
New Primary E-RNTI
OP

E-RNTI
10.3.3.10a

REL-6
New Secondary E-RNTI
OP

E-RNTI 10.3.3.10a
FDD only
REL-6
RRC State Indicator
MP

RRC State Indicator 10.3.3.35a


UE Mobility State Indicator
CV-FACH_PCH

Enumerated (High-mobilityDetected)
Absence of this IE implies that, according to [4], the UE shall consider itself being in the mobility state the UE has maintained in CELL_DCH state or being not in high mobility state after the state transition, if applicable.
REL-7
UTRAN DRX cycle length coefficient
OP

UTRAN DRX cycle length coefficient 10.3.3.49


CN Information Elements





CN Information info
OP

CN Information info 10.3.1.3


UTRAN mobility information elements





URA identity
OP

URA identity 10.3.2.6


RNC support for change of UE capability
OP

Boolean
Should be included if the message is used to perform an SRNS relocation
REL-7
Reconfiguration in response to requested change of UE capability
OP

Enumerated (TRUE)

REL-7
RB information elements





Downlink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>



>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22
This IE is needed for each RB having PDCP in the case of lossless SRNS relocation


OP



REL-5
>>PDCP context relocation info
OP

PDCP context relocation info 10.3.4.1a
This IE is needed for each RB having PDCP and performing PDCP context relocation
REL-5
Retrievable configuration





Retrievable configuration info
OP

Retrievable configuration info 10.3.8.25

REL-13
Downlink transport channels




REL-8
HARQ Info
OP

HARQ info 10.3.5.7a

REL-7
PhyCH information elements





Frequency info
OP

Frequency info 10.3.6.36


Multi-frequency Info
OP

Multi-frequency Info 10.3.6.39a
This IE is used for 1.28 Mcps TDD only
REL-7
DTX-DRX timing information
OP

DTX-DRX timing information 10.3.6.34b

REL-7
DTX-DRX Information 
OP

DTX-DRX Information 10.3.6.34a

REL-7
HS-SCCH less Information 
OP

HS-SCCH less Information 10.3.6.36ab

REL-7
MIMO parameters
OP

MIMO parameters 10.3.6.41a

REL-7
MIMO mode with four transmit antennas parameters
OP

MIMO mode with four transmit antennas parameters 10.3.6.142

REL-11
DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149

REL-12
Control Channel DRX information
OP

Control Channel DRX information 1.28 Mcps TDD 10.3.6.107
This IE is used for 1.28 Mcps TDD only
REL-8
SPS Information
OP

SPS information 1.28 Mcps TDD 10.3.6.110
This IE is used for 1.28 Mcps TDD only
REL-8
MU-MIMO info
OP

MU-MIMO info 1.28 Mcps TDD 10.3.6.122
This IE is used for 1.28 Mcps TDD only
REL-10
Non-rectangular resource allocation indicator
OP

Enumerated(TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
REL-12
Non-rectangular resource specific timeslots set
CV-Non-rectangularResourceAllocation

Bit string (7)
For 1.28 Mcps TDD only.

The value 1 of a bit indicates the corresponding timeslot in which the channelization codes are assigned physical control channel.  The value 0 of a bit indicates the corresponding timeslot in which all channelization codes are assigned when the timeslot is scheduled to the UE.
The first/leftmost bit of the bit string is for TS0.
REL-12
Uplink radio resources





Maximum allowed UL TX power
MD

Maximum allowed UL TX power 10.3.6.39
Default value is the existing value of the maximum allowed UL TX power

Uplink DPCH info 
OP

Uplink DPCH info 10.3.6.88


E-DCH Info
OP

E-DCH Info 10.3.6.97

REL-6
Uplink secondary cell info FDD
OP

Uplink secondary cell info FDD 10.3.6.115
FDD only
REL-9
Multi-carrier E-DCH Info for LCR TDD
OP

Multi-carrier E-DCH Info for LCR TDD 10.3.6.97a
1.28Mcps TDD only
REL-10
Uplink CLTD info FDD
OP

Uplink CLTD info FDD
10.3.6.125
FDD only
REL-11
Uplink OLTD info FDD
OP

Uplink OLTD info FDD
10.3.6.126
FDD only
REL-11
Downlink radio resources





Downlink HS-PDSCH Information
OP

Downlink HS_PDSCH Information 10.3.6.23a

REL-5
Downlink information common for all radio links
OP

Downlink information common for all radio links 10.3.6.24


Downlink information per radio link list
OP
1 to <maxRL>

Send downlink information for each radio link

>Downlink information for each radio link
MP

Downlink information for each radio link 10.3.6.27


Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-8
Additional downlink secondary cell info list FDD
OP
2


REL-10
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-10
Additional downlink secondary cell info list FDD 2
OP
4


REL-11
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-11
Common E-RGCH info FDD
OP

Common E-RGCH info FDD
10.3.6.138
FDD only
REL-11
DPCCH2 info FDD
OP

DPCCH2 info FDD 10.3.6.148
FDD only
REL-12
MBMS PL Service Restriction Information
OP

Enumerated (TRUE)

REL-6
CELL_DCH measurement occasion info LCR
OP

CELL_DCH measurement occasion info LCR
10.3.7.126

REL-9

Condition
Explanation
FACH_PCH
This IE is mandatory default when a transition from CELL_DCH to CELL_FACH, URA_PCH or CELL_PCH is requested by the message and is not needed otherwise.
Non-rectangularResourceAllocation
This IE is optionally present if non-rectangular resource allocation is configured. Otherwise, it is not needed.

10.2.23	PHYSICAL CHANNEL RECONFIGURATION COMPLETE
This message is sent from the UE when a physical channel reconfiguration has been done.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Uplink integrity protection activation info
OP

Integrity protection activation info 10.3.3.17


CHOICE mode
MP




>FDD



(no data)

>TDD





>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>>>Uplink Timing Advance
OP

Uplink Timing Advance 10.3.6.95


>>>>Extended Uplink Timing Advance
OP

Extended Uplink Timing Advance 10.3.6.95a

REL-7
>>>7.68 Mcps TDD




REL-7
>>>>Extended Uplink Timing Advance
OP

Extended Uplink Timing Advance 10.3.6.95a

REL-7
>>>1.28 Mcps TDD



(no data)
REL-4
Other Information elements




REL-7
Deferred measurement control reading
OP

Enumerated (TRUE)
Indicates the UE has not read SIB11, SIB11bis, SIB11ter (if supported) and SIB12, if available.
REL-7
RB Information elements





COUNT-C activation time
OP

Activation time
10.3.3.1
Used for radio bearers mapped on RLC-TM.

Uplink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>



>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22


>START list
MP
1 to <maxCNdomains>

START [40] values for all CN domains.

>>CN domain identity
MP

CN domain identity 10.3.1.1


>>START
MP

START 10.3.3.38
START value to be used in this CN domain.


10.2.24	PHYSICAL CHANNEL RECONFIGURATION FAILURE
This message is sent by UE if the configuration given by UTRAN is unacceptable or if the UE failed to assign, replace or release a set of physical channel(s).
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message type
MP

Message type

UE information elements




RRC transaction identifier
OP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Failure cause
MP

Failure cause and error information
10.3.3.14


10.2.25	PHYSICAL SHARED CHANNEL ALLOCATION
NOTE:	Only for TDD.
This message is used by UTRAN to assign physical resources to USCH/DSCH transport channels in TDD, for temporary usage by the UE.
	RLC-SAP: UM on SHCCH, UM on DCCH
	Logical channel: SHCCH or DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message type

DSCH-RNTI
OP

DSCH-RNTI 10.3.3.9a

RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Uplink timing advance Control
MD

Uplink Timing Advance Control 10.3.6.96
Default value is the existing value for uplink timing advance
PUSCH capacity allocation info
OP

PUSCH Capacity Allocation info 10.3.6.64

PDSCH capacity allocation info
OP

PDSCH Capacity Allocation info 10.3.6.42

Confirm request
MD

Enumerated(No Confirm, Confirm PDSCH, Confirm PUSCH)
Default value is No Confirm
Traffic volume report request
OP

Integer (0 .. 255)
Indicates the number of frames between start of the allocation period and sending measurement report. The value should be less than the value for Allocation Duration.
ISCP Timeslot list
OP
1 to maxTS


>Timeslot number
MP

Timeslot number 10.3.6.84
Timeslot numbers, for which the UE shall report the timeslot ISCP in PUSCH CAPACITY REQUEST message.
Request P-CCPCH RSCP
MP

Boolean
TRUE indicates that a Primary CCPCH RSCP measurement shall be reported by the UE in PUSCH CAPACITY REQUEST message.

10.2.26	PUSCH CAPACITY REQUEST
NOTE:	Only for TDD.
This message is used by the UE for request of PUSCH resources to the UTRAN.
	RLC-SAP: TM
	Logical channel: SHCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

DSCH-RNTI
OP

DSCH-RNTI 10.3.3.9a

RRC transaction identifier
CV-ProtErr

RRC transaction identifier 10.3.3.36

Traffic Volume
OP

Traffic Volume, measured results list 10.3.7.67

Timeslot list
OP
1 to maxTS


>Timeslot number
MP

Timeslot number 10.3.6.84 

>Timeslot ISCP
MP

Timeslot ISCP info 10.3.7.65

Primary CCPCH RSCP
OP

Primary CCPCH RSCP info 10.3.7.54

CHOICE Allocation confirmation
OP



>PDSCH Confirmation


Integer(1..hiPDSCHidentities)

>PUSCH Confirmation


Integer(1..hiPUSCHidentities)

Protocol error indicator
MD

Protocol error indicator 10.3.3.27
Default value is FALSE
Protocol error information
CV-ProtErr

Protocol error information 10.3.8.12


Condition
Explanation
ProtErr
This IE is mandatory present if the IE "Protocol error indicator" has the value TRUE. Otherwise it is not needed.

10.2.27	RADIO BEARER RECONFIGURATION
This message is sent from UTRAN to reconfigure parameters related to a change of QoS or to release and setup a radio bearer used for ptp transmission of MBMS services of the broadcast type. This procedure can also change the multiplexing of MAC, reconfigure transport channels and physical channels. This message is also used to perform a handover from GERAN Iu mode to UTRAN.
	RLC-SAP: AM or UM or sent through GERAN Iu mode
	Logical channel: DCCH or sent through GERAN Iu mode
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Integrity protection mode info
OP

Integrity protection mode info 10.3.3.19
The UTRAN should not include this IE unless it is performing an SRNS relocation or a handover from GERAN Iu mode

Ciphering mode info
OP

Ciphering mode info 10.3.3.5
The UTRAN should not include this IE unless it is performing either an SRNS relocation or a handover from GERAN Iu mode and a change in ciphering algorithm

Activation time
MD

Activation time 10.3.3.1
Default value is "now"

Dynamic activation time
OP

Dynamic activation time 10.3.3.1a

REL-13
Delay restriction flag
OP

Enumerated (TRUE)
This IE is always set to TRUE and included if the activation time is restricted according to subclause 8.6.3.1
REL-6
New U-RNTI
OP

U-RNTI 10.3.3.47


New C-RNTI
OP

C-RNTI 10.3.3.8


New DSCH-RNTI
OP

DSCH-RNTI 10.3.3.9a
Should not be set in FDD. If received The UE behaviour is unspecified.

New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-5
New Primary E-RNTI
OP

E-RNTI
10.3.3.10a

REL-6
New Secondary E-RNTI
OP

E-RNTI 10.3.3.10a
FDD only
REL-6
RNTI handling at cell re-selection
CV-URA_PCH

Enumerated (TRUE)
The presence of this IE indicates that the UE shall clear the variable H_RNTI, C_RNTI and E_RNTI upon cell re-selection when operating in URA_PCH with seamless transition.
The absence indicates that the UE shall not clear the variable H_RNTI, C_RNTI and E_RNTI upon cell re-selection when operating in URA_PCH with seamless transition.
REL-13
RRC State Indicator
MP

RRC State Indicator 10.3.3.35a


UE Mobility State Indicator
CV-FACH_PCH

Enumerated (High-mobilityDetected)
Absence of this IE implies that, according to [4], the UE shall consider itself being in the mobility state the UE has maintained in CELL_DCH state or being not in high mobility state after the state transition, if applicable.
REL-7
UTRAN DRX cycle length coefficient
OP

UTRAN DRX cycle length coefficient 10.3.3.49


Access Group identity
OP

Integer (0..15)

REL-12
CN information elements





CN Information info
OP

CN Information info 10.3.1.3


Signalling Connection release indication
OP

CN domain identity 10.3.1.1

REL-14
UTRAN mobility information elements





RNC support for change of UE capability
OP

Boolean
Should be included if the message is used to perform an SRNS relocation
REL-7
Reconfiguration in response to requested change of UE capability
OP

Enumerated (TRUE)

REL-7
URA identity
OP

URA identity 10.3.2.6


Specification mode information elements




REL-8
Default configuration for CELL_FACH
CV-SRNS_RELOCATION

Default configuration for CELL_FACH 10.3.4.0a

REL-8
CHOICE specification mode
MP



REL-5
>Complete specification





RB information elements





>>RAB information to setup list
OP
1 to <maxRABsetup>

For each RAB established
REL-14
>>>RAB information for setup
MP

RAB information for setup 10.3.4.10

REL-14
>>RAB information to reconfigure list
OP
1 to < maxRABsetup >



>>>RAB information to reconfigure
MP

RAB information to reconfigure 10.3.4.11


>>RAB information for MBMS ptp bearer list
OP
1 to < maxMBMSservSelect >


REL-6
>>>RAB information for MBMS ptp bearer
MP

RAB information for MBMS ptp bearer 10.3.4.9a

REL-6
>>RB information to reconfigure list
MP
1to <maxRB>

Although this IE is not always required, need is MP to align with ASN.1


OP



REL-4
>>>RB information to reconfigure
MP

RB information to reconfigure 10.3.4.18


>>RB information to be affected list
OP
1 to <maxRB>



>>>RB information to be affected
MP

RB information to be affected 10.3.4.17


>>RB information to release list
OP
1 to <maxRB>


REL-14
>>>RB information to release
MP

RB information to release 10.3.4.19

REL-14
>>RB with PDCP context relocation info list
OP
1 to <maxRBallRABs>

This IE is needed for each RB having PDCP and performing PDCP context relocation
REL-5
>>>PDCP context relocation info
MP

PDCP context relocation info 10.3.4.1a

REL-5
>>PDCP ROHC target mode
OP

PDCP ROHC target mode 10.3.4.2a

REL-5
>>UM RLC re-establishment RB List
OP
1 to <maxRB>


REL-10
>>>RB bearer to be re-established
MP

RB identity, 10.3.4.16
UE behaviour is unspecified if RB identity in this IE indicates a value, which is less than or equal to 4 or indicates a radio bearer, which does not use UM RLC or is not associated with PS domain.
REL-10
>>Other state configuration info
OP

Other state configuration info 10.3.8.27

REL-13
TrCH Information Elements





Uplink transport channels





>>UL Transport channel information common for all transport channels
OP

UL Transport channel information common for all transport channels 10.3.5.24


>>Deleted TrCH information list
OP

1 to <maxTrCH>



>>>Deleted UL TrCH information
MP

Deleted UL TrCH information 10.3.5.5


>>Added or Reconfigured TrCH
 information list
OP

1 to <maxTrCH>



>>>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2


Downlink transport channels





>>DL Transport channel information common for all transport channels
OP

DL Transport channel information common for all transport channels 10.3.5.6


>>Deleted TrCH information list
OP

1 to <maxTrCH>



>>>Deleted DL TrCH information
MP

Deleted DL TrCH information 10.3.5.4


>>Added or Reconfigured TrCH
 information list
OP

1 to <maxTrCH>



>>>Added or Reconfigured DL TrCH information
MP

Added or Reconfigured DL TrCH information 10.3.5.1


Retrievable configuration





>>Retrievable configuration info
OP

Retrievable configuration info 10.3.8.25

REL-13
>Preconfiguration




REL-5
>>CHOICE Preconfiguration mode
MP


This value only applies in case the message is sent through GERAN Iu mode

>>>Predefined configuration identity
MP

Predefined configuration identity 10.3.4.5


>>>Default configuration





>>>>Default configuration mode
MP

Enumerated (FDD, TDD)
Indicates whether the FDD or TDD version of the default configuration shall be used

>>>>Default configuration identity
MP

Default configuration identity 10.3.4.0


PhyCH information elements





Frequency info
OP

Frequency info 10.3.6.36


Multi-frequency Info
OP

Multi-frequency Info 10.3.6.39a
This IE is used for 1.28 Mcps TDD only
REL-7
DTX-DRX timing information
OP

DTX-DRX timing information 10.3.6.34b

REL-7
DTX-DRX Information
OP

DTX-DRX Information 10.3.6.34a

REL-7
HS-SCCH less Information
OP

HS-SCCH less Information 10.3.6.36ab

REL-7
MIMO parameters
OP

MIMO parameters 10.3.6.41a

REL-7
MIMO mode with four transmit antennas parameters
OP

MIMO mode with four transmit antennas parameters 10.3.6.142

REL-11
DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149

REL-12
Control Channel DRX information
OP

Control Channel DRX information 1.28 Mcps TDD 10.3.6.107
This IE is used for 1.28 Mcps TDD only
REL-8
SPS Information
OP

SPS information 1.28 Mcps TDD 10.3.6.110
This IE is used for 1.28 Mcps TDD only
REL-8
MU-MIMO info
OP

MU-MIMO info 1.28 Mcps TDD 10.3.6.122
This IE is used for 1.28 Mcps TDD only
REL-10
Non-rectangular resource allocation indicator
OP

Enumerated(TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
REL-12
Non-rectangular resource specific timeslots set
CV-Non-rectangularResourceAllocation

Bit string (7)
For 1.28 Mcps TDD only.

The value 1 of a bit indicates the corresponding timeslot in which the channelization codes are assigned by physical control channel. The value 0 of a bit indicates the corresponding timeslot in which all channelization codes are assigned when the timeslot is scheduled to the UE.
The first/leftmost bit of the bit string is for TS0.
REL-12
HS-SCCH DRX in CELL_FACH Information
CV-CELL_FACH

HS-SCCH DRX in CELL_FACH Information 10.3.6.154
For FDD only
REL-14
Simplified HS-SCCH type 1 operation
OP

Enumerated (TRUE)
The presence of this IE indicates that Simplified HS-SCCH type 1 operation is applicable.
REL-15
Uplink radio resources





Maximum allowed UL TX power
MD

Maximum allowed UL TX power 10.3.6.39
Default value is the existing maximum UL TX power

Uplink DPCH info 
OP

Uplink DPCH info 10.3.6.88


E-DCH Info
OP

E-DCH Info 10.3.6.97

REL-6
Uplink secondary cell info FDD
OP

Uplink secondary cell info FDD 10.3.6.115
FDD only
REL-9
Multi-carrier E-DCH Info for LCR TDD
OP

Multi-carrier E-DCH Info for LCR TDD 10.3.6.97a
1.28Mcps TDD only
REL-10
Uplink CLTD info FDD
OP

Uplink CLTD info FDD
10.3.6.125
FDD only
REL-11
Uplink OLTD info FDD
OP

Uplink OLTD
info FDD
10.3.6.126
FDD only
REL-11
Other TTI E-DCH Configuration Information 

OP

Other TTI E-DCH Configuration Information
10.3.6.152
FDD only
REL-12
Filtered UE power headroom reporting information
OP

Filtered UE power headroom reporting information 10.3.7.140
FDD only
REL-12
Other TTI E-DCH Configuration Information on secondary UL Frequency
OP

Other TTI E-DCH Configuration Information on secondary UL Frequency 10.3.6.156
FDD only
REL-14
Filtered UE power headroom reporting information on secondary UL frequency
OP

Filtered UE power headroom reporting information 10.3.7.140
FDD only
REL-14
Downlink radio resources





Downlink HS-PDSCH Information
OP

Downlink HS-PDSCH Information 10.3.6.23a

REL-5
Downlink information common for all radio links
OP

Downlink information common for all radio links 10.3.6.24


Downlink information per radio link list
MP

1 to <maxRL>

Although this IE is not always required, need is MP to align with ASN.1


OP



REL-4
>Downlink information for each radio link
MP

Downlink information for each radio link 10.3.6.27


Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-8
Additional downlink secondary cell info list FDD
OP
2


REL-10
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-10
Additional downlink secondary cell info list FDD 2
OP
4


REL-11
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-11
Common E-RGCH info FDD
OP

Common E-RGCH info FDD
10.3.6.138
FDD only
REL-11
DPCCH2 info FDD
OP

DPCCH2 info FDD 10.3.6.148
FDD only
REL-12
MBMS PL Service Restriction Information
OP

Enumerated (TRUE)

REL-6
CELL_DCH measurement occasion info LCR
OP

CELL_DCH measurement occasion info LCR
10.3.7.126

REL-9

Condition
Explanation
FACH_PCH
This IE is mandatory default when a transition from CELL_DCH to CELL_FACH, URA_PCH or CELL_PCH is requested by the message and is not needed otherwise.
SRNS_RELOCATION
This IE is optional if the message is used to perform an SRNS relocation and is not needed otherwise.
Non-rectangularResourceAllocation
This IE is optionally present if non-rectangular resource allocation is configured. Otherwise, it is not needed.
URA_PCH
This IE is optional present when IE "RRC State Indicator" is set to URA_PCH. Otherwise it is not needed.
CELL_FACH
This IE is optional present when IE "RRC State Indicator" is set to CELL_FACH. Otherwise it is not needed.

10.2.28	RADIO BEARER RECONFIGURATION COMPLETE
This message is sent from the UE when a RB and signalling link reconfiguration has been done.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Uplink integrity protection activation info
OP

Integrity protection activation info 10.3.3.17


CHOICE mode
MP




>FDD



(no data)

>TDD





>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>>>Uplink Timing Advance
OP

Uplink Timing Advance 10.3.6.95


>>>>Extended Uplink Timing Advance
OP

Extended Uplink Timing Advance 10.3.6.95a

REL-7
>>>7.68 Mcps TDD




REL-7
>>>>Extended Uplink Timing Advance
OP

Extended Uplink Timing Advance 10.3.6.95a

REL-7
>>>1.28 Mcps TDD



(no data)
REL-4
Other Information elements




REL-7
Deferred measurement control reading
OP

Enumerated (TRUE)
Indicates the UE has not read SIB11, SIB11bis, SIB11ter (if supported) and SIB12, if available.
REL-7
RB Information elements





COUNT-C activation time
OP

Activation time
10.3.3.1
Used for radio bearers mapped on RLC-TM.

Uplink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>



>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22


>START list
MP
1 to <maxCNdomains>

START [40] values for all CN domains.

>>CN domain identity
MP

CN domain identity 10.3.1.1


>>START
MP

START 10.3.3.38
START value to be used in this CN domain.


10.2.29	RADIO BEARER RECONFIGURATION FAILURE
This message is sent by UE if the configuration given by UTRAN is unacceptable or if the UE failed to establish the physical channel(s).
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Failure cause
MP

Failure cause and error information
10.3.3.14

RB information elements




Radio bearers for which reconfiguration would have succeeded List
OP
1 to <maxRB>


>Radio bearer for which reconfiguration would have succeeded
MP

RB identity, 10.3.4.16


10.2.30	RADIO BEARER RELEASE
This message is used by UTRAN to release a radio bearer. It can also include modifications to the configurations of transport channels and/or physical channels. It can simultaneously indicate release of a signalling connection when UE is connected to more than one CN domain.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information Elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Integrity protection mode info
OP

Integrity protection mode info 10.3.3.19
The UTRAN should not include this IE unless it is performing an SRNS relocation.

Ciphering mode info
OP

Ciphering mode info 10.3.3.5
The UTRAN should not include this IE unless it is performing an SRNS relocation and a change in ciphering algorithm.

Activation time
MD

Activation time 10.3.3.1
Default value is "now"

Dynamic activation time
OP

Dynamic activation time 10.3.3.1a

REL-13
New U-RNTI
OP

U-RNTI 10.3.3.47


New C-RNTI
OP

C-RNTI 10.3.3.8


New DSCH-RNTI
OP

DSCH-RNTI 10.3.3.9a
Should not be set in FDD. If received the UE behaviour is unspecified.

New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-5
New Primary E-RNTI
OP

E-RNTI
10.3.3.10a

REL-6
New Secondary E-RNTI
OP

E-RNTI 10.3.3.10a
FDD only
REL-6
RRC State Indicator
MP

RRC State Indicator 10.3.3.35a


UE Mobility State Indicator
CV-FACH_PCH

Enumerated (High-mobilityDetected
Absence of this IE implies that, according to [4], the UE shall consider itself being in the mobility state the UE has maintained in CELL_DCH state or being not in high mobility state after the state transition, if applicable.
REL-7
UTRAN DRX cycle length coefficient
OP

UTRAN DRX cycle length coefficient 10.3.3.49


Access Group identity
OP

Integer (0..15)

REL-12
CN Information Elements





CN Information info
OP

CN Information info 10.3.1.3


Signalling Connection release indication
OP

CN domain identity 10.3.1.1


UTRAN mobility information elements





URA identity
OP

URA identity 10.3.2.6


RNC support for change of UE capability
OP

Boolean
Should be included if the message is used to perform an SRNS relocation
REL-7
RB Information Elements





RAB information to reconfigure list
OP
1 to < maxRABsetup >



>RAB information to reconfigure
MP

RAB information to reconfigure 10.3.4.11


RB information to release list
MP
1 to <maxRB>



>RB information to release
MP

RB information to release 10.3.4.19


RB information to reconfigure list
OP
1to <maxRB>


REL-6
>RB information to reconfigure
MP

RB information to reconfigure 10.3.4.18

REL-6
RB information to be affected list
OP
1 to <maxRB>



>RB information to be affected
MP

RB information to be affected 10.3.4.17


Downlink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>



>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22
This IE is needed for each RB having PDCP in the case of lossless SRNS relocation


OP



REL-5
>RB with PDCP context relocation info list
OP
1 to <maxRBallRABs>


REL-5
>>PDCP context relocation info
MP

PDCP context relocation info 10.3.4.1a
This IE is needed for each RB having PDCP and performing PDCP context relocation
REL-5
Retrievable configuration





Retrievable configuration info
OP

Retrievable configuration info 10.3.8.25

REL-13
TrCH Information Elements





Uplink transport channels





UL Transport channel information common for all transport channels
OP

UL Transport channel information common for all transport channels 10.3.5.24


Deleted TrCH information list
OP
1 to <maxTrCH>



>Deleted UL TrCH information
MP

Deleted UL TrCH information 10.3.5.5


Added or Reconfigured TrCH
 information list
OP
1 to <maxTrCH>



>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2


Downlink transport channels





DL Transport channel information common for all transport channels
OP

DL Transport channel information common for all transport channels 10.3.5.6


Deleted TrCH information list
OP
1 to <maxTrCH>



>Deleted DL TrCH information
MP

Deleted DL TrCH information 10.3.5.4


Added or Reconfigured TrCH
 information list
OP
1 to <maxTrCH>



>Added or Reconfigured DL TrCH information
MP

Added or Reconfigured DL TrCH information 10.3.5.1


PhyCH information elements





Frequency info
OP

Frequency info 10.3.6.36


Multi-frequency Info
OP

Multi-frequency Info 10.3.6.39a
This IE is used for 1.28 Mcps TDD only
REL-7
DTX-DRX timing information
OP

DTX-DRX timing information 10.3.6.34b

REL-7
DTX-DRX Information 
OP

DTX-DRX Information 10.3.6.34a

REL-7
HS-SCCH less Information 
OP

HS-SCCH less Information 10.3.6.36ab

REL-7
MIMO parameters
OP

MIMO parameters 10.3.6.41a

REL-7
MIMO mode with four transmit antennas parameters
OP

MIMO mode with four transmit antennas parameters 10.3.6.142

REL-11
DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149

REL-12
Control Channel DRX information
OP

Control Channel DRX information 1.28 Mcps TDD 10.3.6.107
This IE is used for 1.28 Mcps TDD only
REL-8
SPS Information
OP

SPS information 1.28 Mcps TDD 10.3.6.110
This IE is used for 1.28 Mcps TDD only
REL-8
MU-MIMO info
OP

MU-MIMO info 1.28 Mcps TDD 10.3.6.122
This IE is used for 1.28 Mcps TDD only
REL-10
Non-rectangular resource allocation indicator

OP

Enumerated(TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
REL-12
Non-rectangular resource specific timeslots set
CV-Non-rectangularResourceAllocation

Bit string (7)
For 1.28 Mcps TDD only.

The value 1 of a bit indicates the corresponding timeslot in which the channelization codes are assigned by physical control channel. The value 0 of a bit indicates the corresponding timeslot in which all channelization codes are assigned when the timeslot is scheduled to the UE.
The first/leftmost bit of the bit string is for TS0.

REL-12
Simplified HS-SCCH type 1 operation
OP

Enumerated (TRUE)
The presence of this IE indicates that Simplified HS-SCCH type 1 operation is applicable.
REL-15
Uplink radio resources





Maximum allowed UL TX power
MD

Maximum allowed UL TX power 10.3.6.39
Default value is the existing maximum UL TX power

Uplink DPCH info 
OP

Uplink DPCH info 10.3.6.88


E-DCH Info
OP

E-DCH Info 10.3.6.97

REL-6
Uplink secondary cell info FDD
OP

Uplink secondary cell info FDD 10.3.6.115
FDD only
REL-9
Multi-carrier E-DCH Info for LCR TDD
OP

Multi-carrier E-DCH Info for LCR TDD 10.3.6.97a
1.28Mcps TDD only
REL-10
Uplink CLTD info FDD
OP

Uplink CLTD info FDD
10.3.6.125
FDD only
REL-11
Uplink OLTD info FDD
OP

Uplink OLTD info FDD
10.3.6.126
FDD only
REL-11
Other TTI E-DCH Configuration Information 

OP

Other TTI E-DCH Configuration Information
10.3.6.152
FDD only
REL-12
Filtered UE power headroom reporting information
OP

Filtered UE power headroom reporting information 10.3.7.140
FDD only
REL-12
Downlink radio resources





Downlink HS-PDSCH Information
OP

Downlink HS-PDSCH Information 10.3.6.23a

REL-5
Downlink information common for all radio links
OP

Downlink information common for all radio links 10.3.6.24


Downlink information per radio link list
OP
1 to <maxRL>

Send downlink information for each radio link to be set-up

>Downlink information for each radio link
MP

Downlink information for each radio link 10.3.6.27


Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-8
Additional downlink secondary cell info list FDD
OP
2


REL-10
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-10
Additional downlink secondary cell info list FDD 2
OP
4


REL-11
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-11
Common E-RGCH info FDD
OP

Common E-RGCH info FDD
10.3.6.138
FDD only
REL-11
MBMS PL Service Restriction Information
OP

Enumerated (TRUE)

REL-6
MBMS RB list released to change transfer mode
OP
1 to <maxRB>


REL-6
>RB information to release
MP

RB information to release 10.3.4.19

REL-6
CELL_DCH measurement occasion info LCR
OP

CELL_DCH measurement occasion info LCR
10.3.7.126

REL-9

Condition
Explanation
FACH_PCH
This IE is mandatory default when a transition from CELL_DCH to CELL_FACH, URA_PCH or CELL_PCH is requested by the message and is not needed otherwise.
Non-rectangularResourceAllocation
This IE is optionally present if non-rectangular resource allocation is configured. Otherwise, it is not needed.

10.2.31	RADIO BEARER RELEASE COMPLETE
This message is sent from the UE when radio bearer release has been completed.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16
Integrity check info is included if integrity protection is applied

Uplink integrity protection activation info
OP

Integrity protection activation info 10.3.3.17


CHOICE mode
MP




>FDD



(no data)

>TDD





>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>>>Uplink Timing Advance
OP

Uplink Timing Advance 10.3.6.95
This information element shall be present in case of handover procedure if timing advance is enabled. Calculated timing advance value for the new cell after handover in a synchronous TDD network

>>>>Extended Uplink Timing Advance
OP

Extended Uplink Timing Advance 10.3.6.95a

REL-7
>>>7.68 Mcps TDD




REL-7
>>>>Extended Uplink Timing Advance
OP

Extended Uplink Timing Advance 10.3.6.95a
This information element shall be present in case of handover procedure if timing advance is enabled. Calculated timing advance value for the new cell after handover in a synchronous TDD network
REL-7
>>>1.28 Mcps TDD



(no data)
REL-4
Other Information elements




REL-7
Deferred measurement control reading
OP

Enumerated (TRUE)
Indicates the UE has not read SIB11, SIB11bis, SIB11ter (if supported) and SIB12, if available.
REL-7
RB Information elements





COUNT-C activation time
OP

Activation time
10.3.3.1
Used for radio bearers mapped on RLC-TM.

Uplink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>

This IE is needed for each RB having PDCP in the case of lossless SRNS relocation

>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22


>START list
MP
1 to <maxCNdomains>

START [40] values for all CN domains.

>>CN domain identity
MP

CN domain identity 10.3.1.1


>>START
MP

START 10.3.3.38
START value to be used in this CN domain.


10.2.32	RADIO BEARER RELEASE FAILURE
This message is sent by UE if the configuration given by UTRAN is unacceptable or if radio bearer cannot be released.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Failure cause
MP

Failure cause and error information
10.3.3.14

RB information elements




Radio bearers for which reconfiguration would have succeeded
OP
1 to <maxRB>


>Radio bearer for which reconfiguration would have been succeeded
MP

RB identity, 10.3.4.16


10.2.33	RADIO BEARER SETUP
This message is sent by UTRAN to the UE to establish new radio bearer(s). It can also include modifications to the configurations of transport channels and/or physical channels.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information Elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Integrity protection mode info
OP

Integrity protection mode info 10.3.3.19
The UTRAN should not include this IE unless it is performing an SRNS relocation or an SR-VCC

Ciphering mode info
OP

Ciphering mode info 10.3.3.5
The UTRAN should not include this IE unless it is performing an SRNS relocation and a change in ciphering algorithm or it is performing an SR-VCC

SR-VCC info
CV-SRVCC

SR-VCC info 10.3.4.24a

REL-8
Activation time
MD

Activation time 10.3.3.1
Default value is "now"

Dynamic activation time
OP

Dynamic activation time 10.3.3.1a

REL-13
New U-RNTI
OP

U-RNTI 10.3.3.47


New C-RNTI
OP

C-RNTI 10.3.3.8


New DSCH-RNTI
OP

DSCH-RNTI 10.3.3.9a
Should not be set in FDD. If received the UE behaviour is unspecified.

New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-5
New Primary E-RNTI
OP

E-RNTI
10.3.3.10a

REL-6
New Secondary E-RNTI
OP

E-RNTI 10.3.3.10a
FDD only
REL-6
RRC State Indicator
MP

RRC State Indicator 10.3.3.35a


UTRAN DRX cycle length coefficient
OP

UTRAN DRX cycle length coefficient 10.3.3.49


Access Group identity
OP

Integer (0..15)

REL-12
CN Information Elements





CN Information info
OP

CN Information info 10.3.1.3


UTRAN mobility information elements





URA identity
OP

URA identity 10.3.2.6


RNC support for change of UE capability
OP

Boolean
Should be included if the message is used to perform an SRNS relocation
REL-7
RB Information Elements





Signalling RB information to setup list
OP
1 to <maxSRBsetup>

For each signalling radio bearer established

>Signalling RB information to setup
MP

Signalling RB information to setup 10.3.4.24


RAB information to setup list
OP
1 to <maxRABsetup>

For each RAB established

>RAB information for setup
MP

RAB information for setup 10.3.4.10


RAB information to reconfigure list
OP
1 to < maxRABsetup >


REL-6
>RAB information to reconfigure
MP

RAB information to reconfigure 10.3.4.11

REL-6
RB information to reconfigure list
OP
1to <maxRB>


REL-6
>RB information to reconfigure
MP

RB information to reconfigure 10.3.4.18

REL-6
RB information to be affected list
OP
1 to <maxRB>



>RB information to be affected
MP

RB information to be affected 10.3.4.17


Downlink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>



>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22
This IE is needed for each RB having PDCP in the case of lossless SRNS relocation


OP



REL-5
>>PDCP context relocation info
OP

PDCP context relocation info 10.3.4.1a
This IE is needed for each RB having PDCP and performing PDCP context relocation
REL-5
PDCP ROHC target mode
OP

PDCP ROHC target mode 10.3.4.2a

REL-5
TrCH Information Elements





Uplink transport channels





UL Transport channel information common for all transport channels
OP

UL Transport channel information common for all transport channels 10.3.5.24


Deleted TrCH information list
OP
1 to <maxTrCH>



>Deleted UL TrCH information
MP

Deleted UL TrCH information 10.3.5.5


Added or Reconfigured TrCH
 information list
OP
1 to <maxTrCH>



>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2


Downlink transport channels





DL Transport channel information common for all transport channels
OP

DL Transport channel information common for all transport channels 10.3.5.6


Deleted TrCH information list
OP
1 to <maxTrCH>



>Deleted DL TrCH information
MP

Deleted DL TrCH information 10.3.5.4


Added or Reconfigured TrCH
 information list
OP
1 to <maxTrCH>



>Added or Reconfigured DL TrCH information
MP

Added or Reconfigured DL TrCH information 10.3.5.1


Retrievable configuration





Retrievable configuration info
OP

Retrievable configuration info 10.3.8.25

REL-13
PhyCH information elements





Frequency info
OP

Frequency info 10.3.6.36


Multi-frequency Info
OP

Multi-frequency Info 10.3.6.39a
This IE is used for 1.28 Mcps TDD only
REL-7
DTX-DRX timing information
OP

DTX-DRX timing information 10.3.6.34b

REL-7
DTX-DRX Information 
OP

DTX-DRX Information 10.3.6.34a

REL-7
HS-SCCH less Information 
OP

HS-SCCH less Information 10.3.6.36ab

REL-7
MIMO parameters
OP

MIMO parameters 10.3.6.41a

REL-7
MIMO mode with four transmit antennas parameters
OP

MIMO mode with four transmit antennas parameters 10.3.6.142

REL-11
DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149

REL-12
Control Channel DRX information
OP

Control Channel DRX information 1.28 Mcps TDD 10.3.6.107
This IE is used for 1.28 Mcps TDD only
REL-8
SPS Information
OP

SPS information 1.28 Mcps TDD 10.3.6.110
This IE is used for 1.28 Mcps TDD only
REL-8
MU-MIMO info
OP

MU-MIMO info 1.28 Mcps TDD 10.3.6.122
This IE is used for 1.28 Mcps TDD only
REL-10
Non-rectangular resource allocation indicator
OP

Enumerated(TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
REL-12
Non-rectangular resource specific timeslots set
CV-Non-rectangularResourceAllocation

Bit string (7)
For 1.28 Mcps TDD only.

The value 1 of a bit indicates the corresponding timeslot in which the channelization codes are assigned by physical control channel. The value 0 of a bit indicates the corresponding timeslot in which all channelization codes are assigned when the timeslot is scheduled to the UE.
The first/leftmost bit of the bit string is for TS0.
REL-12
Simplified HS-SCCH type 1 operation
OP

Enumerated (TRUE)
The presence of this IE indicates that Simplified HS-SCCH type 1 operation is applicable.
REL-15
Uplink radio resources





Maximum allowed UL TX power
MD

Maximum allowed UL TX power 10.3.6.39
Default value is the existing maximum UL TX power

Uplink DPCH info
OP

Uplink DPCH info 10.3.6.88


E-DCH Info
OP

E-DCH Info 10.3.6.97

REL-6
Uplink secondary cell info FDD
OP

Uplink secondary cell info FDD 10.3.6.115
FDD only
REL-9
Multi-carrier E-DCH Info for LCR TDD
OP

Multi-carrier E-DCH Info for LCR TDD 10.3.6.97a
1.28Mcps TDD only
REL-10
Uplink CLTD info FDD
OP

Uplink CLTD info FDD
10.3.6.125
FDD only
REL-11
Uplink OLTD info FDD
OP

Uplink OLTD info FDD
10.3.6.126
FDD only
REL-11
Other TTI E-DCH Configuration Information 

OP

Other TTI E-DCH Configuration Information
10.3.6.152
FDD only
REL-12
Filtered UE power headroom reporting information
OP

Filtered UE power headroom reporting information 10.3.7.140
FDD only
REL-12
Downlink radio resources





Downlink HS-PDSCH Information
OP

Downlink HS-PDSCH Information 10.3.6.23a

REL-5
Downlink information common for all radio links
OP

Downlink information common for all radio links 10.3.6.24


Downlink information per radio link list
OP
1 to <maxRL>

Send downlink information for each radio link 

>Downlink information for each radio link
MP

Downlink information for each radio link 10.3.6.27


Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-8
Additional downlink secondary cell info list FDD
OP
2


REL-10
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-10
Additional downlink secondary cell info list FDD 2
OP
4


REL-11
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-11
Common E-RGCH info FDD
OP

Common E-RGCH info FDD
10.3.6.138
FDD only
REL-11
MBMS PL Service Restriction Information
OP

Enumerated (TRUE)

REL-6
CELL_DCH measurement occasion info LCR
OP

CELL_DCH measurement occasion info LCR
10.3.7.126

REL-9

Condition
Explanation
SRVCC
This IE is mandatory if an SR-VCC procedure is initiated and not needed otherwise.
Non-rectangularResourceAllocation
This IE is optionally present if non-rectangular resource allocation is configured. Otherwise, it is not needed.

10.2.34	RADIO BEARER SETUP COMPLETE
This message is sent by the UE to confirm the establishment of the radio bearer.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Uplink integrity protection activation info
OP

Integrity protection activation info 10.3.3.17


CHOICE mode
OP




>FDD



(no data)

>TDD





>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>>>Uplink Timing Advance
OP

Uplink Timing Advance 10.3.6.95
This information element shall be present in case of handover procedure if timing advance is enabled. Calculated timing advance value for the new cell after handover in a synchronous TDD network

>>>>Extended Uplink Timing Advance
OP

Extended Uplink Timing Advance 10.3.6.95a

REL-7
>>>7.68 Mcps TDD




REL-7
>>>>Extended Uplink Timing Advance
OP

Extended Uplink Timing Advance 10.3.6.95a
This information element shall be present in case of handover procedure if timing advance is enabled. Calculated timing advance value for the new cell after handover in a synchronous TDD network
REL-7
>>>1.28 Mcps TDD



(No data)
REL-4
START
OP

START 10.3.3.38
This information element is not needed for transparent mode RBs if prior to this procedure there exists one RB using RLC-TM.

Other information elements




REL-7
Deferred measurement control reading
OP

Enumerated (TRUE)
Indicates the UE has not read SIB11, SIB11bis, SIB11ter (if supported) and SIB12, if available.
REL-7
RB Information elements





COUNT-C activation time
OP

Activation time
10.3.3.1
Used for radio bearers mapped on RLC-TM.

Uplink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>

This IE is needed for each RB having PDCP in the case of lossless SRNS relocation

>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22


>START list
MP
1 to <maxCNdomains>

START [40] values for all CN domains.

>>CN domain identity
MP

CN domain identity 10.3.1.1


>>START
MP

START 10.3.3.38
START value to be used in this CN domain.


10.2.35	RADIO BEARER SETUP FAILURE
This message is sent by UE, if it does not support the configuration given by UTRAN.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Failure cause
MP

Failure cause and error information
10.3.3.14

RB information elements




Radio bearers for which reconfiguration would have succeeded
OP
1 to <maxRB>


>Radio bearer for which reconfiguration would have succeeded
MP

RB identity, 10.3.4.16


10.2.36	RRC CONNECTION REJECT
The network transmits this message when the requested RRC connection cannot be accepted.
	RLC-SAP: UM
	Logical channel: CCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Initial UE identity
MP

Initial UE identity 10.3.3.15


Rejection cause
MP

Rejection cause 10.3.3.31


Wait time
MP

Wait time 10.3.3.50


Redirection info
OP

Redirection info 10.3.3.29
The UE shall ignore any unsupported frequencies included in this IE.

Counting completion
OP

Enumerated (TRUE)
This field may be present if the Rejection Cause is set to “unspecified” otherwise it shall be ignored.
REL-6
Extended Wait Time
OP

Extended Wait Time 10.3.3.12a

REL-10

10.2.37	RRC CONNECTION RELEASE
This message is sent by UTRAN to release the RRC connection. The message also releases the signalling connection and all radio bearers between the UE and UTRAN.
	RLC-SAP: UM
	Logical channel: CCCH or DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





CHOICE identity type
CV-CCCH



REL-5
>U-RNTI


U-RNTI 10.3.3.47


> Group identity

1 to <maxURNTIgroup>


REL-5
>>Group release information
MP

Group release information 10.3.3.14o

REL-5
RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CV-DCCH

Integrity check info 10.3.3.16
Integrity check info is included if integrity protection is applied

N308
CH-Cell_DCH

Integer(1..8)


Release cause
MP

Release cause 10.3.3.32


UE Mobility State Indicator
CV-DCCH_MD

Enumerated (High-mobilityDetected)
Absence of this IE implies that, according to [4] the UE shall consider itself being in the mobility state the UE has maintained in CELL_DCH state or being not in high-mobility state when entering in Idle Mode, if applicable.
REL-7
Extended Wait Time
OP

Extended Wait Time 10.3.3.12a

REL-10
Other information elements





Rplmn information
OP

Rplmn information
10.3.8.15


Redirection info
OP

Redirection info 10.3.3.29

REL-6

Condition
Explanation
CCCH
This IE is mandatory present when CCCH is used and not needed otherwise.
DCCH
This IE is mandatory present when DCCH is used and not needed otherwise.
DCCH_MD
This IE is mandatory default when DCCH is used and not needed otherwise.
Cell_DCH
This IE is mandatory present when UE is in CELL_DCH state and not needed otherwise.

10.2.38	RRC CONNECTION RELEASE COMPLETE
This message is sent by UE to confirm that the RRC connection has been released.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Error indication
OP

Failure cause and error information 10.3.3.14


10.2.39	RRC CONNECTION REQUEST
RRC Connection Request is the first message transmitted by the UE when setting up an RRC Connection to the network.
	RLC-SAP: TM
	Logical channel: CCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


Radio Bearer IEs





Predefined configuration status information
MP

Boolean
TRUE indicates the UE has all pre- configurations stored with the same value tag as broadcast in the cell in which the RRC connection establishment is initiated
REL-5
UE information elements





Initial UE identity
MP

Initial UE identity 10.3.3.15


Establishment cause
MP

Establishment cause 10.3.3.11


Protocol error indicator
MD

Protocol error indicator 10.3.3.27
Default value is FALSE

>UE Specific Behaviour Information 1 idle
OP

UE Specific Behaviour Information 1 idle
10.3.3.51
This IE shall not be included in this version of the protocol

Domain indicator
MP

CN domain identity 10.3.1.1

REL-6
CS Call type
CV-CS-Domain

Enumerated (speech, video, other)
One spare value is needed
REL-6
UE capability indication
OP

Enumerated (HS-DSCH, HS-DSCH+E-DCH)
Absence of this IE implies that neither HS-DSCH nor E-DCH are supported by the UE
REL-6
MBMS Selected Services
OP

MBMS Selected Services Short 10.3.9a.7d

REL-6
UE Mobility State Indicator
MD

Enumerated (High-mobilityDetected)
Absence of this IE implies that, according to [4] either the High mobility state is not applicable or it has not been detected by the UE.
REL-7
Support for F-DPCH
CV-SupportForHS

Enumerated (TRUE)
Presence of this information element indicates that F-DPCH is supported by the UE.
Absence of this information element indicates that F-DPCH is not supported
REL-6
Support for Enhanced F-DPCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support enhanced F-DPCH
REL-7
HS-PDSCH in CELL_FACH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-PDSCH reception in CELL_FACH state.
Note 1
REL-7
MAC-ehs support
OP

Enumerated (TRUE)
The presence of this IE indicates that UE supports MAC-ehs, octet aligned transport block table, the use of special value of HE field to indicate end of an SDU for RLC AM and different HS-SCCHs in contiguous TTIs. The absence of this IE indicates that the UE does not support either MAC-ehs, octet aligned transport block table or the use of special value of HE field to indicate end of an SDU for RLC AM or different HS-SCCHs in contiguous TTIs.
REL-7
DPCCH Discontinuous Transmission support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support DPCCH Discontinuous Transmission
REL-7
Support of common E-DCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support E-DCH enhanced random access in CELL_FACH state and Idle mode.
Note 1
REL-8
Multi cell support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support dual cell operations on adjacent frequencies
REL-8
Dual cell MIMO support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support dual cell with MIMO operation on adjacent frequencies.
REL-9
More than two cell or MIMO mode with four transmit antennas support
OP

Enumerated (higher rate, lower rate)
For FDD, the absence of this IE indicates that the UE does not support multi-cell operation on more than two cells.
For 1.28 Mcps TDD, the absence of this IE indicates that the UE does not support MU-MIMO. If present, higher rate indicates uplink and downlink MU-MIMO, lower rate indicates uplink MU-MIMO
REL-10




For FDD, the absence of this IE indicates that the UE does not support multi-cell operation on more than two cells or MIMO mode with four transmit antennas.
For 1.28 Mcps TDD, the absence of this IE indicates that the UE does not support MU-MIMO. If present, higher rate indicates uplink and downlink MU-MIMO, lower rate indicates uplink MU-MIMO
REL-11
Pre-redirection info
OP

Pre-redirection info
10.3.3.25a
The presence of this IE indicates the UE support of radio access technologies that the UE could be directed to, and that the UE was not redirected from EUTRA.
REL-8
Support of MAC-i/is
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support MAC-i/is operation. 
REL-8
Support of SPS operation
OP

Enumerated (TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the UE does not support SPS operation.
REL-8
Support for CS Voice over HSPA
OP

Enumerated (TRUE)
The IE indicates the UE’s support for CS Voice over HSPA, if set.
REL-8
System Information Container Stored Indicator
OP

Enumerated (TRUE)
The presence of this IE indicates that the UE is accessing the cell using System Information stored in the variable SYSTEM_INFORMATION_CONTAINER
REL-9
Support of the first Frequency Band
OP

Enumerated (TRUE)
The presence of this IE indicates the UE supports the 1st band broadcased in SIB5/5bis.
For 1.28 Mcps TDD, the IE also indicates support band e if no band is broadcasted in SIB5/5bis.
REL-10
Support of the second Frequency Band
OP

Enumerated (TRUE)
The presence of this IE indicates the UE supports the 2nd band broadcased in SIB5/5bis.
For 1.28 Mcps TDD, the IE also indicates support band f if no band is broadcasted in SIB5/5bis.
REL-10
CSFB Indication
OP

Enumerated (TRUE)
The presence of this IE indicates that the RRC Connection Request is due to CSFB call initiated in E-UTRA.

Measurement information elements





Measured results on RACH
OP

Measured results on RACH 10.3.7.45


Access stratum release indicator
MP

Enumerated (REL-4,
Absence of the IE implies R99.
The IE also indicates the release of the RRC transfer syntax supported by the UE.
3 spare values are needed.
REL-4



REL-5,

REL-5



REL-6,

REL-6



REL-7,

REL-7



REL-8,

REL-8



REL-9,

REL-9



REL-10,

REL-10



REL-11,

REL-11



REL-12,

REL-12



REL-13,

REL-13



REL-14,

REL-14



REL-15,

REL-15



REL-16)

REL-16


NOTE 1:	For 1.28 Mcps TDD, UE supporting HS-PDSCH in CELL_FACH always supports E-DCH enhanced random access in CELL_FACH state and Idle mode, and vice versa.

Condition
Explanation
CS-Domain
This IE is mandatory present if the IE "Domain indicator" has the value "CS domain". Otherwise it is not needed.
SupportForHS
This IE is mandatory present if the UE supports HS-PDSCH, otherwise it is not needed.

If the encoded message does not fill a transport block, the RRC layer shall insert padding according to subclause 12.1.

10.2.40	RRC CONNECTION SETUP
This message is used by the network to accept the establishment of an RRC connection for a UE, including assignment of signalling link information, transport channel information and optionally physical channel information.
	RLC-SAP: UM
	Logical channel: CCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information Elements





Initial UE identity
MP

Initial UE identity 10.3.3.15


RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Activation time
MD

Activation time 10.3.3.1
Default value is "now"

New U-RNTI
MP

U-RNTI 10.3.3.47


New C-RNTI
OP

C-RNTI 10.3.3.8


New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-6
New Primary E-RNTI
OP

E-RNTI 10.3.3.10a

REL-6
New Secondary E-RNTI
OP

E-RNTI 10.3.3.10a
FDD only
REL-6
RRC State Indicator
MP

RRC State Indicator 10.3.3.35a


UTRAN DRX cycle length coefficient
MP

UTRAN DRX cycle length coefficient 10.3.3.49


Capability update requirement
MD

Capability update requirement 10.3.3.2
Default value is defined in subclause 10.3.3.2

RNC support for change of UE capability
MP

Boolean

REL-7
Specification mode information elements




REL-8
Default configuration for CELL_FACH
OP

Default configuration for CELL_FACH 10.3.4.0a

REL-8
CHOICE specification mode
MP



REL-5
>Complete specification





RB Information Elements





>>Signalling RB information to setup list
MP
3 to 4



>>>Signalling RB information to setup
MP

Signalling RB information to setup 10.3.4.24


TrCH Information Elements





Uplink transport channels





>>UL Transport channel information common for all transport channels
OP

UL Transport channel information common for all transport channels 10.3.5.24


>>Added or Reconfigured TrCH information list
MP
1 to <maxTrCH>

Although this IE is not required when the IE "RRC state indicator" is set to "CELL_FACH", need is MP to align with ASN.1


OP



REL-4
>>>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2


Downlink transport channels





>>DL Transport channel information common for all transport channels
OP

DL Transport channel information common for all transport channels 10.3.5.6


>>Added or Reconfigured TrCH
 information list
MP
1 to <maxTrCH>

Although this IE is not required when the IE "RRC state indicator" is set to "CELL_FACH", need is MP to align with ASN.1


OP



REL-4
>>>Added or Reconfigured DL TrCH information
MP

Added or Reconfigured DL TrCH information
10.3.5.1


>Preconfiguration




REL-5
>>CHOICE Preconfiguration mode
MP



REL-5
>>>Predefined configuration identity
MP

Predefined configuration identity 10.3.4.5

REL-5
>>>Default configuration




REL-5
>>>>Default configuration mode
MP

Enumerated (FDD, TDD)
Indicates whether the FDD or TDD version of the default configuration shall be used
REL-5
>>>>Default configuration identity
MP

Default configuration identity 10.3.4.0

REL-5
PhyCH information elements





Frequency info
OP

Frequency info 10.3.6.36


Multi-frequency Info
OP

Multi-frequency Info 10.3.6.39a
This IE is used for 1.28 Mcps TDD only
REL-7
DTX-DRX timing information
OP

DTX-DRX timing information 10.3.6.34b

REL-7
DTX-DRX Information 
OP

DTX-DRX Information 10.3.6.34a

REL-7
HS-SCCH less Information 
OP

HS-SCCH less Information 10.3.6.36ab

REL-7
SPS Information
OP

SPS information 1.28 Mcps TDD 10.3.6.110
This IE is used for 1.28 Mcps TDD only
REL-8
MU-MIMO info
OP

MU-MIMO info 1.28 Mcps TDD 10.3.6.122
This IE is used for 1.28 Mcps TDD only
REL-10
Non-rectangular resource allocation indicator
OP

Enumerated(TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
REL-12
Non-rectangular resource specific timeslots set
CV-Non-rectangularResourceAllocation

Bit string (7)
For 1.28 Mcps TDD only.

The value 1 of a bit indicates the corresponding timeslot in which the channelization codes are assigned by physical control channel. The value 0 of a bit indicates the corresponding timeslot in which all channelization codes are assigned when the timeslot is scheduled to the UE.
The first/leftmost bit of the bit string is for TS0.
REL-12
Uplink radio resources





Maximum allowed UL TX power
MD

Maximum allowed UL TX power 10.3.6.39
Default value is the existing maximum UL TX power

Uplink DPCH info
OP

Uplink DPCH info 10.3.6.88


E-DCH Info
OP

E-DCH Info 10.3.6.97

REL-6
Downlink radio resources





Downlink HS-PDSCH Information
OP

Downlink HS-PDSCH information 10.3.6.23a

REL-6
Downlink information common for all radio links
OP

Downlink information common for all radio links 10.3.6.24


Downlink information per radio link list
OP
1 to <maxRL>

Send downlink information for each radio link to be set-up

>Downlink information for each radio link
MP

Downlink information for each radio link 10.3.6.27


Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-8
Additional downlink secondary cell info list FDD
OP
2


REL-10
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-10
Common E-RGCH info FDD
OP

Common E-RGCH info FDD
10.3.6.138
FDD only
REL-11

Condition
Explanation
Non-rectangularResourceAllocation
This IE is optionally present if non-rectangular resource allocation is configured. Otherwise, it is not needed.

10.2.41	RRC CONNECTION SETUP COMPLETE
This message confirms the establishment of the RRC Connection by the UE.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information Elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


START list
MP
1 to <maxCNdomains>

START [40] values for all CN domains.

>CN domain identity
MP

CN domain identity 10.3.1.1


>START
MP

START 10.3.3.38
START value to be used in this CN domain.

UE radio access capability
OP

UE radio access capability 10.3.3.42


UE radio access capability extension
OP

UE radio access capability extension 10.3.3.42a


Other information elements





UE system specific capability
OP
1 to <maxInterSysMessages>



>Inter-RAT UE radio access capability 
MP

Inter-RAT UE radio access capability 10.3.8.7


Deferred measurement control reading
OP

Enumerated (TRUE)
Indicates the UE has not read SIB11, SIB11bis, SIB11ter (if supported) and SIB12, if available.
REL-7
Logged Meas Available
OP

Enumerated (TRUE)
Indicates the UE has logged measurements to report to the network
REL-10
ANR Logging Results Available
OP

Enumerated (TRUE)
True indicates the UE has ANR logging results to report to the Network.
REL-10
Connection Establishment Failure Info Available
OP

Enumerated (TRUE)
True indicates the UE has logged measurements from a RRC connection establishment failure to report to the network.
REL-11

10.2.41a	RRC FAILURE INFO
This message is sent by the UE via another radio access technology to provide information about the cause for failure to perform the requested operation.
	RLC-SAP: N/A (Sent through a different RAT)
	Logical channel: N/A (Sent through a different RAT)
	Direction: UE  UTRAN
Information Element/Group Name
Need
Multi
Type and reference
Semantics description
Other Information elements




Failure cause
MP

Failure cause 10.3.3.13

Protocol error information
CV-ProtErr

Protocol error information 10.3.8.12


Condition
Explanation
ProtErr
Presence is mandatory if the IE "Failure cause" has the value "Protocol error"; otherwise the element is not needed in the message.

10.2.42	RRC STATUS
This message is sent to indicate a protocol error.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




Integrity check info
CH

Integrity check info 10.3.3.16
Integrity check info is included if integrity protection is applied
Identification of received message
CV-Message identified



>Received message type
MP

Message Type

>RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Other information elements




Protocol error information
MP

Protocol error information 10.3.8.12


Condition
Explanation
Message identified
This IE is mandatory present if the IE "Protocol error cause" in the IE "Protocol error information" has any other value than "ASN.1 violation or encoding error" or "Message type non-existent or not implemented" and not needed otherwise.

10.2.43	SECURITY MODE COMMAND
This message is sent by UTRAN to start or reconfigure ciphering and/or integrity protection parameters.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRAN to UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
MP

Integrity check info 10.3.3.16

Security capability
MP

Security capability 10.3.3.37

Ciphering mode info
OP

Ciphering mode info 10.3.3.5
Only present if ciphering shall be controlled
Integrity protection mode info
OP

Integrity protection mode info 10.3.3.19
Only present if integrity protection shall be controlled
CN Information elements




CN domain identity
MP

CN domain identity 10.3.1.1
Indicates which ciphering and integrity protection keys are applicable
Other information elements




UE system specific security capability
CH
1 to <maxInterSysMessages>

This IE is included if the IE "Inter-RAT UE radio access capability" was included in RRC CONNECTION SETUP COMPLETE message
>Inter-RAT UE security capability
MP

Inter-RAT UE security capability 10.3.8.8a


10.2.44	SECURITY MODE COMPLETE
This message is sent by UE to confirm the reconfiguration of ciphering and/or integrity protection.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE to UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
MP

Integrity check info 10.3.3.16

Uplink integrity protection activation info
OP

Integrity protection activation info 10.3.3.17

RB Information elements




Radio bearer uplink ciphering activation time info
OP

RB activation time info 10.3.4.13


10.2.45	SECURITY MODE FAILURE
This message is sent to indicate a failure to act on a received SECURITY MODE COMMAND message.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Failure cause
MP

Failure cause and error information 10.3.3.14


10.2.46	SIGNALLING CONNECTION RELEASE
This message is used to notify the UE that its ongoing signalling connection to a CN domain has been released.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16
Integrity check info is included if integrity protection is applied
Extended Wait Time
OP

Extended Wait Time 10.3.3.12a

CN information elements




CN domain identity
MP

CN domain identity 10.3.1.1


10.2.47	SIGNALLING CONNECTION RELEASE INDICATION
This message is used by the UE to indicate to UTRAN the release of an existing signalling connection.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message type


UE Information Elements





Integrity check info
CH

Integrity check info 10.3.3.16


CN information elements





CN domain identity
MP

CN domain identity 10.3.1.1


Signalling Connection Release Indication Cause
MP

Signalling Connection Release Indication Cause 10.3.3.37a
NOTE1
REL-8

NOTE1:	For the sake of backward compatibility, when the cause value is set to a value other than "UE Requested PS Data session end" according to 8.1.14.2: in this release of the specification, the UE may exclude this IE by not including the ASN.1 non-critical extension where it is referenced, alternatively, if the UE includes this IE it shall set it to "any Other Cause".
10.2.48	SYSTEM INFORMATION
This message is used by the UTRAN to convey system information blocks to the UE.
	RLC-SAP: TM
	Logical channel: BCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SFNprime
CV-channel2

Integer(0..4094 by step of 2)
SFN=SFNprime (for first 10ms frame of 20ms TTI), SFN=SFNprime+1 (for last 10ms frame of 20ms TTI)
CHOICE Segment combination
MP


Five spares are needed
>Combination 1



(no data)
>Combination 2




>>First Segment
MP

First Segment,
10.2.48.1

>Combination 3




>>Subsequent Segment
MP

Subsequent Segment,
10.2.48.3

>Combination 4




>>Last segment
MP

Last segment (short),10.2.48.5

>Combination 5



NOTE 2
>>Last segment
MP

Last Segment (short)10.2.48.5

>>First Segment
MP

First Segment (short),
10.2.48.2

>Combination 6



NOTE 2
>>Last Segment
MP

Last Segment (short),
10.2.48.5

>>Complete list
MP
1 to maxSIBperMsg

NOTE 1
>>>Complete 
MP

Complete SIB (short),10.2.48.7

>Combination 7



NOTE 2
>>Last Segment
MP

Last Segment (short),
10.2.48.5

>>Complete list
MP
1..< maxSIBperMsg>

NOTE 1
>>>Complete 
MP

Complete SIB (short),10.2.48.7

>>First Segment
MP

First Segment (short),
10.2.48.2

>Combination 8



NOTE 2
>>Complete list
MP
1 to maxSIBperMsg

NOTE 1
>>>Complete
MP

Complete SIB (short),10.2.48.7

>Combination 9



NOTE 2
>>Complete list
MP
1..MaxSIBperMsg

NOTE 1
>>>Complete
MP

Complete SIB (short),10.2.48.7

>>First Segment
MP

First Segment (short),
10.2.48.2

>Combination 10




>>>Complete SIB of size 215 to 226
MP

Complete SIB,10.2.48.6

>Combination 11




>>Last segment of size 215 to 222
MP

Last segment,10.2.48.4

NOTE 1:	If Combination 6 - 9 contains a Master information block, the Master information block shall be located as the first IE in the list.
NOTE 2:	If one of the combinations 5 to 9 is used, the IE "SIB type" = "Extension Type" should not occur more than once in that message, otherwise the UE behaviour is unspecified.

Condition
Explanation
channel2
This IE is mandatory present if the channel is BCH, otherwise it is not needed.

If the encoded message does not fill a transport block, the RRC layer shall insert padding according to subclause 12.1. Padding is needed e.g. if the remaining space is insufficient to start a new First Segment (which requires several bits for SIB type, SEG_COUNT and SIB data).
10.2.48a	System Information Container
This message is sent via another radio access technology to provide information to the UE.
-	RLC-SAP: N/A (Sent through a different RAT)
-	Logical channel: N/A (Sent through a different RAT)
-	Direction: A different RAT  UE
Information Element/Group Name
Need
Multi
Type and reference
Semantics description
Version
MIB
MP

Master Information Block 10.2.48.8.1

REL-9
SysInfoTypeSB1
OP

Scheduling Block 1 10.2.48.8.2

REL-9
SysInfoTypeSB2
OP

Scheduling Block 2 10.2.48.8.3

REL-9
SysInfoType1
MP

System Information Block type 1 10.2.48.8.4

REL-9
SysInfoType3
MP

System Information Block type 3 10.2.48.8.6

REL-9
SysInfoType5
MP

System Information Block type 5 or 5bis 10.2.48.8.8

REL-9
SysInfoType7
MP

System Information Block type 7 10.2.48.8.10

REL-9
SysInfoType11
OP

System Information Block type 11 10.2.48.8.14

REL-9
SysInfoType11bis
OP

System Information Block type 11bis 10.2.48.8.14a

REL-9
SysInfoType11ter
OP

System Information Block type 11ter 10.2.48.8.14b

REL-12
SysInfoType12
OP

System Information Block type 12 10.2.48.8.15

REL-9
SysInfoType22
OP

System Information Block type 22 10.2.48.8.25

REL-11

10.2.48b	SYSTEM INFORMATION 2
This message is used by the UTRAN to convey system information blocks to the UE. This message is used on the second system information broadcast channel (BCH on SCCPCH).
	RLC-SAP: TM
	Logical channel: BCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Segment combination
MP


Six spares are needed

>Combination 2





>>First Segment 2
MP

First Segment 2 10.2.48.1a

REL-12
>Combination 3





>>Subsequent Segment 2
MP

Subsequent Segment 2 10.2.48.3a

REL-12
>Combination 4





>>Last segment 2
MP

Last Segment (short) 2 10.2.48.5a

REL-12
>Combination 5





>>Last segment 2
MP

Last Segment (short) 2 10.2.48.5a

REL-12
>>First Segment 2
MP

First Segment (short) 2 10.2.48.2a

REL-12
>Combination 6





>>Last Segment 2
MP

Last Segment (short) 2 10.2.48.5a

REL-12
>>Complete list 2
MP
1 to maxSIBperMsg

NOTE 1

>>>Complete 2
MP

Complete SIB (short) 2 10.2.48.7a

REL-12
>Combination 7





>>Last Segment 2
MP

Last Segment (short) 2 10.2.48.5a

REL-12
>>Complete list 2
MP
1..< maxSIBperMsg>

NOTE 1

>>>Complete 2
MP

Complete SIB (short) 2 10.2.48.7a

REL-12
>>First Segment 2
MP

First Segment (short) 2 10.2.48.2a

REL-12
>Combination 8





>>Complete list 2
MP
1 to maxSIBperMsg

NOTE 1

>>>Complete 2
MP

Complete SIB (short) 2 10.2.48.7a

REL-12
>Combination 9





>>Complete list 2
MP
1..MaxSIBperMsg

NOTE 1

>>>Complete 2
MP

Complete SIB (short) 2 10.2.48.7a

REL-12
>>First Segment 2
MP

First Segment (short) 2 10.2.48.2a

REL-12
>Combination 10





>>Complete SIB of size 225 to 236
MP

Complete SIB 2 10.2.48.6a

REL-12
>Combination 11





>>Last segment of size 225 to 232
MP

Last Segment 2 10.2.48.4a

REL-12
NOTE 1:	If Combination 6 - 9 contains aScheduling Block 3, the Scheduling Block 3 shall be located as the first IE in the list.

If the encoded message does not fill a transport block, the RRC layer shall insert padding according to subclause 12.1. Padding is needed e.g. if the remaining space is insufficient to start a new First Segment (which requires several bits for SIB type, SEG_COUNT and SIB data).

10.2.48.1	First Segment
This segment type is used to transfer the first segment of a segmented system information block. The IE is used when the first segment fills the entire transport block (Combination 2).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB Type, 10.3.8.21

SEG_COUNT
MP

SEG COUNT, 10.3.8.17

SIB data fixed
MP

SIB data fixed, 10.3.8.19


10.2.48.1a	First Segment 2
This segment type is used to transfer the first segment of a segmented system information block. The IE is used when the first segment fills the entire transport block (Combination 2). This segment type is used on the second system information broadcast channel (BCH on SCCPCH).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB and SB type 2, 10.3.8.22ab

SEG_COUNT
MP

SEG COUNT, 10.3.8.17

SIB data fixed
MP

SIB data fixed 2, 10.3.8.19a


10.2.48.2	First Segment (short)
This segment type is used to transfer the first segment of a segmented system information block. The IE is used when the first segment is concatenated after other segments in a transport block (Combination 5, 7 and 9).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB Type, 10.3.8.21

SEG_COUNT
MP

SEG COUNT, 10.3.8.17

SIB data variable
MP

SIB data variable, 10.3.8.20


10.2.48.2a	First Segment (short) 2
This segment type is used to transfer the first segment of a segmented system information block. The IE is used when the first segment is concatenated after other segments in a transport block (Combination 5, 7 and 9). This segment type is used on the second system information broadcast channel (BCH on SCCPCH).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB and SB type 2, 10.3.8.22ab

SEG_COUNT
MP

SEG COUNT, 10.3.8.17

SIB data variable
MP

SIB data variable 2, 10.3.8.20o


10.2.48.3	Subsequent Segment
This segment type is used to transfer a subsequent segment of a segmented system information block.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB Type, 10.3.8.21

Segment index
MP

Segment Index, 10.3.8.18

SIB data fixed
MP

SIB data fixed, 10.3.8.19


10.2.48.3a	Subsequent Segment 2
This segment type is used to transfer a subsequent segment of a segmented system information block. This segment type is used on the second system information broadcast channel (BCH on SCCPCH).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB and SB type 2, 10.3.8.22ab

Segment index
MP

Segment Index, 10.3.8.18

SIB data fixed
MP

SIB data fixed 2, 10.3.8.19a


10.2.48.4	Last Segment
This segment type is used to transfer the last segment of a segmented system information block. The IE is used when the last segment has a length, excluding length denominator, from 215 through 222 (Combination 11).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB Type, 10.3.8.21

Segment index
MP

Segment Index, 10.3.8.18

SIB data fixed
MP

SIB data fixed, 10.3.8.19
In case the SIB data is less than 222 bits, padding shall be used. The same padding bits shall be used as defined in clause 12.1

10.2.48.4a	Last Segment 2
This segment type is used to transfer the last segment of a segmented system information block. The IE is used when the last segment has a length, excluding length denominator, from 225 through 232 (Combination 11). This segment type is used on the second system information broadcast channel (BCH on SCCPCH).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB and SB type 2, 10.3.8.22ab

Segment index
MP

Segment Index, 10.3.8.18

SIB data fixed
MP

SIB data fixed 2, 10.3.8.19a
In case the SIB data is less than 232 bits, padding shall be used. The same padding bits shall be used as defined in clause 12.1

10.2.48.5	Last Segment (short)
This segment type is used to transfer the last segment of a segmented system information block. The IE is used when the last segment has a length, excluding length denominator, of upto 214 bits (Combination 4, 5, 6 and 7).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB Type, 10.3.8.21

Segment index
MP

Segment Index, 10.3.8.18

SIB data variable
MP

SIB data variable, 10.3.8.20


10.2.48.5a	Last Segment (short) 2
This segment type is used to transfer the last segment of a segmented system information block. The IE is used when the last segment has a length, excluding length denominator, of upto 224 bits (Combination 4, 5, 6 and 7). This segment type is used on the second system information broadcast channel (BCH on SCCPCH).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB and SB type 2, 10.3.8.22ab

Segment index
MP

Segment Index, 10.3.8.18

SIB data variable
MP

SIB data variable 2, 10.3.8.20o


10.2.48.6	Complete SIB
This segment type is used to transfer a non-segmented system information block. The IE is used when the complete SIB has a length, excluding length denominator, from 215 through 226 (Combination 10).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB Type, 10.3.8.21

SIB data fixed
MP

Bit string (226)
The first/leftmost/most significant bit of the bit string contains the first bit of the segment. In case the SIB data is less than 226 bits, padding shall be used. The same padding bits shall be used as defined in clause 12.1

10.2.48.6a	Complete SIB 2
This segment type is used to transfer a non-segmented system information block. The IE is used when the complete SIB has a length, excluding length denominator, from 225 through 236 (Combination 10). This segment type is used on the second system information broadcast channel (BCH on SCCPCH).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB and SB type 2, 10.3.8.22ab

SIB data fixed
MP

Bit string (236)
The first/leftmost/most significant bit of the bit string contains the first bit of the segment. In case the SIB data is less than 236 bits, padding shall be used. The same padding bits shall be used as defined in clause 12.1

10.2.48.7	Complete SIB (short)
This segment type is used to transfer a non-segmented system information block. The IE is used when the complete SIB has a length, excluding length denominator, of upto 214 bits (Combination 6, 7, 8 and 9).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB Type, 10.3.8.21

SIB data variable
MP

SIB data variable, 10.3.8.20


10.2.48.7a	Complete SIB (short) 2
This segment type is used to transfer a non-segmented system information block. The IE is used when the complete SIB has a length, excluding length denominator, of upto 224 bits (Combination 6, 7, 8 and 9). This segment type is used on the second system information broadcast channel (BCH on SCCPCH).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




SIB type
MP

SIB and SB type 2, 10.3.8.22ab

SIB data variable
MP

SIB data variable 2, 10.3.8.20o


10.2.48.8	System Information Blocks
The IE "SIB data" within the IEs, "First Segment", "Subsequent or last Segment" and "Complete SIB" contains either complete system information block or a segment of a system information block. The actual system information blocks are defined in the following clauses.
10.2.48.8.1	Master Information Block
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Other information elements





MIB Value tag
MP

MIB Value tag 10.3.8.9


CN information elements





Supported PLMN types
MP

PLMN Type 10.3.1.12


PLMN Identity
CV-GSM

PLMN Identity 10.3.1.11


Multiple PLMN List
OP

Multiple PLMN List 10.3.1.7a
If present, this IE specifies the PLMNs of the cell. If absent, the IE “PLMN Identity” specifies the PLMN of the cell.
REL-6
ANSI-41 information elements





ANSI-41 Core Network Information
CV-ANSI-41

ANSI-41 Core Network Information 10.3.9.1


References to other system information blocks and scheduling blocks
MP

References to other system information blocks and scheduling blocks 10.3.8.14


CSG Indicator
OP

Enumerated (TRUE)
If present, the cell is a CSG cell (see [4]). If absent, the cell is not a CSG cell.
REL-8
SB3 information
OP

SB3  information 10.3.8.14a

REL-12

Condition
Explanation
GSM
The IE is mandatory present if the IE "Supported PLMN Types" is set to 'GSM-MAP' or 'GSM-MAP AND ANSI-41', and not needed otherwise
ANSI-41
The IE is mandatory present if the IE "Supported PLMN Types" is set to 'ANSI-41' or 'GSM-MAP AND ANSI-41', and not needed otherwise

10.2.48.8.2	Scheduling Block 1
Information Element/Group name
Need
Multi
Type and reference
Semantics description
References to other system information blocks
MP

References to other system information blocks 10.3.8.13


10.2.48.8.3	Scheduling Block 2
Information Element/Group name
Need
Multi
Type and reference
Semantics description
References to other system information blocks
MP

References to other system information blocks 10.3.8.13


10.2.48.8.3a	Scheduling Block 3
This segment type is used on the second system information broadcast channel (BCH on SCCPCH).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
SB3 value tag
MP

Cell Value tag 2 10.3.8.4o

REL-12
References to other system information blocks
MP

References to other system information blocks 2 10.3.8.13a

REL-12

10.2.48.8.4	System Information Block type 1
The system information block type 1 contains NAS system information as well as UE timers and counters to be used in idle mode and in connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CN information elements




CN common GSM-MAP NAS system information
MP

NAS system information (GSM-MAP) 10.3.1.9

CN domain system information list
MP
1 to <maxCNdomains>

Send CN information for each CN domain.
>CN domain system information
MP

CN domain system information 10.3.1.2

UE information 




UE Timers and constants in idle mode
MD

UE Timers and constants in idle mode 10.3.3.44
The UE behaviour is unspecified if this IE is absent.
UE Timers and constants in connected mode
MD

UE Timers and constants in connected mode 10.3.3.43
Default value means that for all timers and constants
- For parameters with need MD, the defaults specified in 10.3.3.43 apply and
- For parameters with need OP, the parameters are absent

10.2.48.8.5	System Information Block type 2
The system information block type 2 contains the URA identity.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UTRAN mobility information elements




URA identity list
MP
1 ..<maxURA>


>URA identity
MP

URA identity 10.3.2.6


10.2.48.8.6	System Information Block type 3
The system information block type 3 contains parameters for cell selection and re-selection.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
SIB4 Indicator
MP

Boolean
TRUE indicates that SIB4 is broadcast in the cell.
When the UE receives SIB3 in the System Information Container message, this IE is interpreted as FALSE.

UTRAN mobility information elements





Cell identity
MP

Cell identity 10.3.2.2


Cell selection and re-selection info
MP

Cell selection and re-selection info for SIB3/4 10.3.2.3


Cell Access Restriction
MP

Cell Access Restriction 10.3.2.1


Domain Specific Access Restriction Parameters For PLMN Of MIB
OP

Domain Specific Access Restriction Parameters
10.3.1.3c
This IE specifies the Domain Specific Access Restriction Parameters for UEs which has chosen the PLMN in the IE “PLMN identity” of the Master Information Block.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-6
Domain Specific Access Restriction For Shared Network
OP


If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-6
>CHOICE barring representation
MP



REL-6
>>Domain Specific Access Restriction List




REL-6
>>>Domain Specific Access Restriction Parameters For Operator1
OP

Domain Specific Access Restriction Parameters
10.3.1.3c
This IE specifies the Domain Specific Access  Restriction Parameters for UEs which has chosen the first PLMN in the IE  “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-6
>>>Domain Specific Access Restriction Parameters For Operator2
OP

Domain Specific Access Restriction Parameters
10.3.1.3c
This IE specifies the Domain Specific Access  Restriction Parameters for UEs which has chosen the second PLMN in the IE  “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-6
>>>Domain Specific Access Restriction Parameters For Operator3
OP

Domain Specific Access Restriction Parameters
10.3.1.3c
This IE specifies the Domain Specific Access  Restriction Parameters for UEs which has chosen the third PLMN in the IE  “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-6
>>>Domain Specific Access Restriction Parameters For Operator4
OP

Domain Specific Access Restriction Parameters
10.3.1.3c
This IE specifies the Domain Specific Access  Restriction Parameters for UEs which has chosen the fourth PLMN in the IE  “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-6
>>>Domain Specific Access Restriction Parameters For Operator5
OP

Domain Specific Access Restriction Parameters
10.3.1.3c
This IE specifies the Domain Specific Access  Restriction Parameters for UEs which has chosen the fifth PLMN in the IE  “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-6
>>Domain Specific Access Restriction Parameters For All




REL-6
>>>Domain Specific Access Restriction Parameters


Domain Specific Access Restriction Parameters 10.3.1.3c
This IE specifies the common Domain Specific Access  Restriction Parameters applied to all PLMNs in the IE “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-6
Deferred measurement control reading support
OP


If present, the UE may apply deferred reading of SIB11, SIB11bis, SIB11ter (if supported), SIB12, SIB18 and SIB19. If not present, deferred reading may not be applied.
REL-7
>CHOICE mode
OP


If absent, the default reporting quantities are: "CPICH RSCP" (FDD) and "Primary CCPCH RSCP" (TDD).
REL-7
>>FDD




REL-7
>>>Intra-frequency reporting quantity SIB3
MP

Enumerated(CPICH Ec/N0, CPICH RSCP)

REL-7
>>TDD




REL-7
>>>Reporting quantity list
MP
1 to 2


REL-7
>>>>Intra-frequency reporting quantity SIB3
MP

Enumerated (Primary CCPCH RSCP, Timeslot ISCP)

REL-7
MBSFN only service
OP

Enumerated (TRUE)
Indicates if the cell provides only MBMS services in MBSFN mode
REL-7
Paging Permission with Access Control Parameters For PLMN Of MIB
OP

Paging Permission with Access Control Parameters 10.3.1.10a
This IE specifies the Paging Permission With Access Control Parameters for UEs which has chosen the PLMN in the IE “PLMN identity” of the Master Information Block.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-8
Paging Permission with Access Control For Shared Network
OP


If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-8
>CHOICE barring representation
MP



REL-8
>>Paging Permission with Access Control List




REL-8
>>>Paging Permission with Access Control Parameters For Operator1
OP

Paging Permission with Access Control Parameters 10.3.1.10a
This IE specifies the Paging Permission with Access Control Parameters for UEs which has chosen the first PLMN in the IE “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-8
>>>Paging Permission with Access Control Parameters For Operator2
OP

Paging Permission with Access Control Parameters 10.3.1.10a
This IE specifies the Paging Permission with Access Control Parameters for UEs which has chosen the second PLMN in the IE “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-8
>>>Paging Permission with Access Control Parameters For Operator3
OP

Paging Permission with Access Control Parameters 10.3.1.10a
This IE specifies the Paging Permission with Access Control Parameters for UEs which has chosen the third PLMN in the IE “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-8
>>>Paging Permission with Access Control Parameters For Operator4
OP

Paging Permission with Access Control Parameters 10.3.1.10a
This IE specifies the Paging Permission with Access Control Parameters for UEs which has chosen the fourth PLMN in the IE “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-8
>>>Paging Permission with Access Control Parameters For Operator5
OP

Paging Permission with Access Control Parameters 10.3.1.10a
This IE specifies the Paging Permission with Access Control Parameters for UEs which has chosen the fifth PLMN in the IE “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-8
>>Paging Permission with Access Control Parameters For All




REL-8
>>>Paging Permission with Access Control Parameters
MP

Paging Permission with Access Control Parameters 10.3.1.10a
This IE specifies the common Paging Permission with Access Control Parameters applied to all PLMNs in the IE “multiplePLMNs” in the IE “Multiple PLMN List” of the Master Information Block.
REL-8
CSG Identity
OP

CSG Identity 10.3.2.8

REL-8
CSG PSC Split Information
OP

CSG PSC Split Information 10.3.2.9
This IE specifies the Primary Scrambling Code reservation information for CSG Cells. 
REL-8
IMS Emergency Support Indicator
OP

Enumerated (supported)
This IE specifies the support of IMS emergency call in the cell for limited service mode UE
REL-9

10.2.48.8.7	System Information Block type 4
The system information block type 4 contains parameters for cell selection and re-selection to be used in connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UTRAN mobility information elements




Cell identity
MP

Cell identity 10.3.2.2

Cell selection and re-selection info
MP

Cell selection and re-selection info for SIB3/4 10.3.2.3

Cell Access Restriction
MP

Cell Access Restriction 10.3.2.1


10.2.48.8.8	System Information Block type 5 and 5bis
The system information block type 5 contains parameters for the configuration of the common physical channels in the cell. System information block type 5bis uses the same structure as System information block type 5. System information block type 5bis is sent instead of system information block type 5 in cells that use Band IV or Band IX or Band X if it is broadcasted.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
SIB6 Indicator
MP

Boolean
TRUE indicates that SIB6 is broadcast in the cell.
When the UE receives SIB5 in the System Information Container message, this IE is interpreted as FALSE

SIB22 Indicator
MP

Boolean
TRUE indicates that SIB22 is broadcast in the cell.
REL-11
PhyCH information elements





PICH Power offset
MP

PICH Power offset 10.3.6.50
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received.

CHOICE mode
MP




>FDD





>>AICH Power offset
MP

AICH Power offset 10.3.6.3
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received.

>TDD





>>PUSCH system information
OP

PUSCH system information 10.3.6.66
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.

>>PUSCH system information VHCR
OP

PUSCH system information VHCR 10.3.6.66a
Only for 7.68 Mcps TDD
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
REL-7
>>PDSCH system information
OP

PDSCH system information 10.3.6.46
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.

>>TDD open loop power control
MP

TDD open loop power control 10.3.6.79
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received.

Primary CCPCH info
OP

Primary CCPCH info 10.3.6.57
Note 1

PRACH system information list
MP

PRACH system information list 10.3.6.55
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received.

Common E-DCH system info
OP

Common E-DCH system info 10.3.6.9a

REL-8
Secondary CCPCH system information
MP

Secondary CCPCH system information 10.3.6.72
Note 2
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received.

CBS DRX Level 1 information
CV-CTCH

CBS DRX Level 1 information 10.3.8.3


Frequency band indicator
OP

Frequency band indicator
10.3.6.35b

REL-6
Frequency band indicator 2
OP

Frequency band indicator 2
10.3.6.35c

REL-6
Frequency band indicator 3
OP

Frequency band indicator 3
10.3.6.35ca

REL-10
Frequency Bands Indicator Support
OP



REL-10
>CHOICE mode





>>FDD





>>>Frequency bands indicator for redirection
MP
1 to< maxFreqBandsIndicatorSupport>

The presence of this IE indicates one or two bands for redirection.
REL-10
>>>>CHOICE frequency bands indicator




REL-10
>>>>>Frequency bands indicator 1 for redirection


Frequency band indicator
10.3.6.35b

REL-10
>>>>>Frequency bands indicator 2 for redirection


Frequency band indicator 2
10.3.6.35c

REL-10
>>>>>Frequency bands indicator 3 for redirection


Frequency band indicator 3
10.3.6.35ca

REL-10
>>TDD





>>>Frequency bands indicator for 1.28Mcps TDD
MP
1 to< maxFreqBandsIndicatorSupport>

The presence of this IE indicates one or two bands for RF capability.
REL-10
>>>>Frequency bands indicator for TDD
MP

Frequency band indicator for TDD
10.3.6.35d

REL-10
Multiple Frequency Band indicator list
OP
1 to< maxMultipleFrequencyBandsFDD >

A list of additional frequency bands which the cell belong to.
The order of appearance of the additional supported frequency bands in the list indicates their priority i.e from higher to lower.
If the UE supports the frequency band indicated explicitly or implicitly in accordance with subclause 8.1.1.6.5, it shall apply that frequency band. Otherwise, the UE shall apply the first listed band which it supports in the IE "Multiple Frequency Band indicator list".
REL-10
>CHOICE frequency bands indicator
MP



REL-10
>>Frequency band indicator


Frequency band indicator
10.3.6.35b

REL-10
>>Frequency band indicator 2


Frequency band indicator 2
10.3.6.35c

REL-10
>>Frequency band indicator 3


Frequency band indicator 3
10.3.6.35ca

REL-10
HSDPA cell Indicator
MD

Enumerated (HSDPA Capable Cell)
Default is ’HSDPA capability not indicated’.

’HSDPA Capable Cell’ means that the UE may consider this cell as part of the HSDPA coverage area for display indication only.
This indication shall not be used for any other purpose.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received.
REL-6
E-DCH cell Indicator
MD

Enumerated (E-DCH Capable Cell)
Default is ’E-DCH capability not indicated’.

’E-DCH Capable Cell’ means that the UE may consider this cell as part of the E-DCH coverage area for display indication only.
This indication shall not be used for any other purpose.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received.
REL-6
Secondary CCPCH system information MBMS
OP

Secondary CCPCH system information MBMS 10.3.6.72a
Included if MCCH is on an S-CCPCH used only for MBMS. Note 2
REL-6
CHOICE mode 
OP



REL-7
>FDD




REL-7
>>HS-DSCH common system information
MP

HS-DSCH common system information 10.3.6.36c
Included if cell supports HS-DSCH reception in CELL_FACH and during IDLE to RRC Connection state transition. 
REL-7
>>HS-DSCH paging system information
OP

HS-DSCH paging system information 10.3.6.36d
Included if cell supports for UEs in RRC Connected state paging message reception on HS-DSCH. 
REL-7
>TDD




REL-7
>>HS-DSCH common system information
MP

HS-DSCH common system information 1.28Mcps TDD
10.3.6.36ca
Included if cell supports HS-DSCH reception in CELL_FACH and during IDLE to RRC Connection state transition.
REL-8
>>HS-DSCH paging system information
OP

HS-DSCH paging system information 1.28Mcps TDD 10.3.6.36da
Included if cell supports for UEs in RRC Connected state paging message reception on HS-DSCH.
REL-8
TDD MBSFN information
OP

TDD MBSFN Information 10.3.6.78b
TDD only: included only if some timeslots are designated to MBSFN.
REL-7
HS-DSCH DRX in CELL_FACH Information
OP

HS-DSCH DRX in CELL_FACH Information 10.3.6.36g

REL-8
HS-DSCH DRX in CELL_FACH Information 1.28 Mcps TDD
OP

HS-DSCH DRX in CELL_FACH Information 1.28 Mcps TDD 10.3.6.36h

REL-8
Second Frequency info
OP

Integer (0 .. 16383)
Note 3
REL-8
Treset Usage Indicator
OP

Enumerated (TRUE)
Only for 1.28 Mcps TDD. The presence of this IE means the timer Treset is not valid when the dedicated H-RNTI is configured in CELL_FACH and CELL_PCH.
REL-8
UpPCH Position Info
CV-Frequency

Integer (0 .. 127)
Only for 1.28 Mcps TDD.
REL-8
Cell Update message with optimised encoding
OP

Enumerated (TRUE)
Only for FDD.
The presence of this IE means that UE shall use the Rel-11 asn1 message type for Cell Update, if the UE supports this message type.
REL-11
Adjacent channel interference level
OP

Enumerated (MODERATE, HIGH)
Only for FDD.
This IE indicates the level of external adjacent channel interference. 
REL-14

NOTE 1:	DL scrambling code of the Primary CCPCH is the same as the one for Primary CPICH (FDD only).
NOTE 2:	There is only one MCCH in a cell, which may either be mapped on to an S-CCPCH also used for non- MBMS purposes or to an S-CCPCH dedicated to MBMS. In the first case the MCCH configuration is specified within the IE "Secondary CCPCH system information", in the latter case the MCCH configuration is provided within the IE "Secondary CCPCH system information MBMS".
NOTE 3:	This IE is used in 1.28 Mcps TDD multi-frequency cell to indicate the secondary frequency at which enhanced E-DCH transmission and HS-PDSCH reception for 1.28 Mcps TDD is supported and to indicate that corresponding IEs: "Common E-DCH system info", "HS-DSCH common system information" (TDD) and "HS-DSCH DRX in CELL_FACH Information 1.28 Mcps TDD" can apply for this frequency. The absense of "Frequency info" means that enhanced E-DCH access transmission and HS-PDSCH reception and above IEs apply for primary frequency. For 1.28 Mcps TDD only.
Condition
Explanation
CTCH
The IE is mandatory present if the IE "CTCH indicator" is equal to TRUE for at least one FACH, otherwise the IE is not needed in the message
Frequency
The IE is optional if the IE "Frequency info" is present, otherwise the IE is not needed.

10.2.48.8.9	System Information Block type 6
The system information block type 6 contains parameters for the configuration of the common and shared physical channels to be used in connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PhyCH information elements





PICH Power offset
MP

PICH Power offset 10.3.6.50


CHOICE mode
MP




>FDD





>>AICH Power offset
MP

AICH Power offset 10.3.6.3


>TDD





>>PUSCH system information
OP

PUSCH system information 10.3.6.66


>>PUSCH system information VHCR
OP

PUSCH system information VHCR 10.3.6.66a
Only for 7.68 Mcps TDD
REL-7
>>PDSCH system information
OP

PDSCH system information 10.3.6.46


>>TDD open loop power control
MP

TDD open loop power control 10.3.6.79


Primary CCPCH info
OP

Primary CCPCH info 10.3.6.57
Note 1

PRACH system information list
OP

PRACH system information list 10.3.6.55


Secondary CCPCH system information
OP

Secondary CCPCH system information 10.3.6.72


CBS DRX Level 1 information
CV-CTCH

CBS DRX Level 1 information 10.3.8.3


Frequency band indicator
OP

Frequency band indicator
10.3.6.35b

REL-6
Frequency band indicator 2
OP

Frequency band indicator 2
10.3.6.35c

REL-6
Frequency band indicator 3
OP

Frequency band indicator 3
10.3.6.35ca

REL-10
Multiple Frequency Band indicator list
OP
1 to< maxMultipleFrequencyBandsFDD >

A list of additional frequency bands which the cell belongs to.
The order of appearance of the additional supported frequency bands in the list indicates their priority i.e from higher to lower.
If the UE supports the frequency band indicated explicitly or implicitly in accordance with subclause 8.1.1.6.6, it shall apply that frequency band. Otherwise, the UE shall apply the first listed band which it supports in the IE "Multiple Frequency Band indicator list".
REL-10
>CHOICE frequency bands indicator
MP



REL-10
>>Frequency band indicator


Frequency band indicator
10.3.6.35b

REL-10
>>Frequency band indicator 2


Frequency band indicator 2
10.3.6.35c

REL-10
>>Frequency band indicator 3


Frequency band indicator 3
10.3.6.35ca

REL-10
Adjacent channel interference level
OP

Enumerated (MODERATE, HIGH)
Only for FDD.
This IE indicates the level of external adjacent channel interference. 
REL-14

NOTE 1:	DL scrambling code of the Primary CCPCH is the same as the one for Primary CPICH (FDD only).
Condition
Explanation
CTCH
The IE is mandatory present if the IE "CTCH indicator" is equal to TRUE for at least one FACH, otherwise the IE is not needed

10.2.48.8.10	System Information Block type 7
The system information block type 7 contains the fast changing parameters UL interference and Dynamic persistence level.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE mode
MP



>FDD




>>UL interference
MP

UL interference 10.3.6.87

>TDD



(no data)
PhyCH information elements




PRACHs listed in system information block type 5
MP
1 to<maxPRACH>

The order of the PRACHs is the same as in system information block type 5 or 5bis.
>Dynamic persistence level
MP

Dynamic persistence level 10.3.6.35

PRACHs listed in system information block type 6
OP
1 to <maxPRACH>

The order of the PRACHs is the same as in system information block type 6.
>Dynamic persistence level
MP

Dynamic persistence level 10.3.6.35

Expiration Time Factor
MD

Expiration Time Factor 10.3.3.12
Default is 1.

10.2.48.8.11	Void

10.2.48.8.12	Void

10.2.48.8.13	Void

10.2.48.8.14	System Information Block type 11
The system information block type 11 contains measurement control information to be used in the cell.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
SIB12 Indicator
MP

Boolean
TRUE indicates that SIB12 is broadcast in the cell.

Measurement information elements





FACH measurement occasion info
OP

FACH measurement occasion info 10.3.7.8
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.

Measurement control system information
MP

Measurement control system information 10.3.7.47
For 1.28 Mcps TDD if the cell is operating in MBSFN only mode the UE behaviour upon reception of this IE is unspecified.

Measurement Scaling Factor
OP

Enumerated( SF_UTRA_CF1, SF_UTRA_CF2)
The Measurement Scaling Factor is used to scale the measurement performance for UTRA/E-UTRA frequencies configured in CELL_FACH as specified in [19]. Even if no UTRA or E-UTRA frequency is configured for reduced measurement performance, the network may configure a scaling factor and configure any of the scaling factor values [19].
REL-12
MBSFN frequency list
OP

MBSFN frequency list 10.3.9a.12a
If present contains all neighbouring frequencies of MBSFN clusters operating in MBSFN mode as indicated in subclause 8.1.1.6.3.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.


10.2.48.8.14a	System Information Block type 11bis
The system information block type 11bis contains measurement control information to be used in the cell in addition to System Information Block type 11 and optionally UTRAN mobility information for CSG cells.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Measurement information elements




REL-6
Measurement control system information extension
OP

Measurement control system information extension 10.3.7.47a

REL-6
UTRAN mobility information elements




REL-8
CSG PSC Split Information
OP

CSG PSC Split Information 10.3.2.9
This IE specifies the Primary Scrambling Code reservation information for CSG Cells.
REL-8
Dedicated CSG frequency list
OP
1 to <maxDedicatedCSGFreq>

This IE specifies the frequencies dedicated for CSG cells only.
REL-8
>Dedicated CSG frequency
MP

Frequency Info 10.3.6.36

REL-8

10.2.48.8.14b	System Information Block type 11ter
The system information block type 11ter contains measurement control information to be used in the cell in addition to System Information Block type 11 and System Information Block type 11bis.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Measurement information elements




REL-12
Measurement control system information inter-frequency extension
OP

Inter-frequency cell info list extension 10.3.7.47b

REL-12

10.2.48.8.15	System Information Block type 12
The system information block type 12 contains measurement control information to be used in connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Measurement information elements




FACH measurement occasion info
OP

FACH measurement occasion info 10.3.7.8

Measurement control system information
MP

Measurement control system information 10.3.7.47


10.2.48.8.16	System Information Block type 13
The system information block type 13 contains ANSI-41 system information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Other information elements




CN Information Elements




CN Domain system information list
MP
1 to <maxCNdomains>

Send CN information for each CN domain.
>CN Domain system information
MP

CN Domain system information 10.3.1.2

UE Information




UE timers and constants in idle mode
MD

UE timers and constants in idle mode 10.3.3.44
The UE behaviour is unspecified if this IE is absent.
Capability update requirement
MD

Capability update requirement 10.3.3.2
Default value is defined in subclause 10.3.3.2

10.2.48.8.16.1	System Information Block type 13.1
The system information block type 13.1 contains the ANSI-41 RAND information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
ANSI-41 information elements




ANSI-41 RAND information
MP

ANSI-41 RAND information 10.3.9.6


10.2.48.8.16.2	System Information Block type 13.2
The system information block type 13.2 contains the ANSI-41 User Zone Identification information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
ANSI-41 information elements




ANSI-41 User Zone Identification information
MP

ANSI-41 User Zone Identification information 10.3.9.7


10.2.48.8.16.3	System Information Block type 13.3
The system information block type 13.3 contains the ANSI-41 Private Neighbour List information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
ANSI-41 information elements




ANSI-41 Private Neighbour List information
MP

ANSI-41 Private Neighbour List information 10.3.9.5


10.2.48.8.16.4	System Information Block type 13.4
The system information block type 13.4 contains the ANSI-41 Global Service Redirection information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
ANSI-41 information elements




ANSI-41 Global Service Redirection information
MP

ANSI-41 Global Service Redirection information 10.3.9.2


10.2.48.8.17	System Information Block type 14
NOTE:	Only for 3.84 Mcps TDD and 7.68 Mcps TDD.
The system information block type 14 contains parameters for common and dedicated physical channel uplink outer loop power control information to be used in both idle and connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
PhyCH information elements




Individual Timeslot interference list
MP
1 to <maxTS>


>Individual Timeslot interference
MP

Individual Timeslot interference 10.3.6.38

Expiration Time Factor
MD

Expiration Time Factor 10.3.3.12
Default is 1.

10.2.48.8.18	System Information Block type 15
The system information block type 15 contains information useful for UE-based or UE-assisted positioning methods.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
GPS Data ciphering info
OP

UE positioning Ciphering info 10.3.7.86
If this IE is present then the SIB types 15.1, 15.2 & 15.3 are ciphered in accordance with the Data Assistance Ciphering Algorithm specified in [18]
Reference position
MP

Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c
approximate position where the UE is located
GPS reference time
MP

UE positioning GPS reference time 10.3.7.96

Satellite information
OP
1 to <maxSat>

This IE is present whenever bad (failed/failing) satellites are detected by UTRAN [18].
>BadSatID
MP

Enumerated(0..63)


10.2.48.8.18.0	System Information Block type 15bis
The system information block type 15bis contains information useful for UE-based or UE-assisted positioning methods. The content of this SIB is common to all GANSS.
Information Element/Group name
Need
Type and Reference
Semantics description
Version
Reference position
MP
Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c
approximate position where the UE is located
REL-7
GANSS reference time
MP
UE positioning GANSS reference time 10.3.7.96o

REL-7
GANSS ionospheric model
OP
UE positioning GANSS ionospheric model 10.3.7.92a

REL-7
GANSS additional ionospheric model
OP
UE positioning GANSS additional ionospheric model 10.3.7.92b

REL-8
GANSS Earth orientation paramaters
OP
UE positioning GANSS Earth orientation parameters 10.3.7.92c

REL-8

10.2.48.8.18.1	System Information Block type 15.1
The system information block type 15.1 contains information useful for UE positioning DGPS Corrections. The DGPS Corrections message contents are based on a Type-1 message of DGPS specified in [13].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
DGPS corrections
MP

UE positioning GPS DGPS corrections 10.3.7.91 


10.2.48.8.18.1a	System Information Block type 15.1bis
The system information block type 15.1bis contains information useful for UE positioning DGANSS Corrections. The DGANSS Corrections message contents are based on a Type-1 message of DGANSS specified in [13]. The content of this SIB is GNSS specific.
Information Element/Group name
Need
Type and Reference
Semantics description
Version
DGANSS corrections
MP
UE positioning DGANSS corrections 10.3.7.91b 

REL-7

10.2.48.8.18.1b	System Information Block type 15.1ter
The system information block type 15.1ter contains information useful for UE positioning DBDS corrections and UE positioning BDS Ionospheric Grid Model. The content of DBDS Corrections and BDS Ionospheric Grid Model are based on the NAV message specified in [86]. The content of this SIB is for BDS only.
Information Element/Group name
Need
Type and Reference
Semantics description
Version
DBDS corrections
OP
UE positioning DBDS corrections 10.3.7.92e	

REL-12
BDS Ionospheric Grid Model
OP
UE positioning BDS Ionospheric Grid Model 10.3.7.92d

REL-12

10.2.48.8.18.2	System Information Block type 15.2
The system information block type 15.2 contains information useful for GPS Navigation Model. These IE fields are based on information extracted from the subframes 1 to 3 of the GPS navigation message [12].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Transmission TOW
MP

Integer (0..604799)
The approximate GPS time-of-week when the message is broadcast.
in seconds
SatID
MP

Integer (0..63)
Satellite ID
GPS Ephemeris and Clock Correction Parameters
MP

UE positioning GPS Ephemeris and Clock Correction parameters 10.3.7.91a


10.2.48.8.18.2a	System Information Block type 15.2bis
The system information block type 15.2bis contains information useful for GANSS Navigation Model. The content of this SIB is GNSS specific.
Information Element/Group name
Need
Type and Reference
Semantics description
Version
GANSS Navigation Model
MP
UE positioning GANSS navigation model 10.3.7.94a

REL-7

10.2.48.8.18.2b	System Information Block type 15.2ter
The system information block type 15.2ter contains information useful for GANSS Navigation Model. The content of this SIB is GNSS specific.
Information Element/Group name
Need
Type and Reference
Semantics description
Version
GANSS additional navigation models
MP
UE positioning GANSS additional navigation models 10.3.7.94b

REL-8

10.2.48.8.18.3	System Information Block type 15.3
The system information block type 15.3 contains information useful for ionospheric delay, UTC offset, and Almanac. These IEs contain information extracted from the subframes 4 and 5 of the GPS navigation message, [12].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Transmission TOW
MP

Integer (0..604799)
The approximate GPS time-of-week when the message is broadcast.
in seconds
GPS Almanac and Satellite Health
OP

UE positioning GPS almanac 10.3.7.89

GPS ionospheric model
OP

UE positioning GPS ionospheric model 10.3.7.92

GPS UTC model
OP

UE positioning GPS UTC model 10.3.7.97

SatMask
CV-Almanac

Bit string(1..32)
indicates the satellites that contain the pages being broadcast in this data set
LSB TOW
CV-Almanac

Bit string(8)


Condition
Explanation
Almanac
This IE is mandatory present if the IE "GPS Almanac and Satellite Health" is present

10.2.48.8.18.3a	System Information Block type 15.3bis
The system information block type 15.3bis contains information useful for GANSS time model, UTC offset and Almanac, as well as auxiliary information. The content of this SIB is GNSS specific.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GANSS Almanac
OP

UE positioning GANSS almanac 10.3.7.89a

REL-7
GANSS time models
OP
1 to <maxGANSS-1>


REL-7
>GANSS time model
OP

UE positioning GANSS time model 10.3.7.97a

REL-7
GANSS UTC model
OP

UE positioning GANSS UTC model 10.3.7.97c

REL-7
GANSS additional UTC models
OP

UE positioning GANSS additional UTC models 10.3.7.97d

REL-8
GANSS auxiliary information
OP

UE positioning GANSS auxiliary information 10.3.7.97f

REL-8

10.2.48.8.18.4	System Information Block type 15.4
The system information block type 15.4 contains ciphering information for System Information Block type 15.5 and information useful for OTDOA UE-assisted Positioning method.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
OTDOA Data ciphering info
OP

UE positioning Ciphering info 10.3.7.86
If this IE is present then the for UE-based the System Information Block type 15.5 is ciphered in accordance with the Data Assistance Ciphering Algorithm specified in [18]
OTDOA assistance data for UE-assisted
MP

UE positioning OTDOA assistance data for UE-assisted
10.3.7.103


10.2.48.8.18.4a	System Information Block type 15.5
The system information block type 15.5 contains information useful for OTDOA UE-based Positioning method.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
OTDOA assistance data for UE-based
MP

UE positioning OTDOA assistance data for UE-based 10.3.7.103a


10.2.48.8.18.5	System Information Block type 15.6
The system information block type 15.6 contains information useful for acquisition of GANSS signals. The content of this SIB is GNSS specific.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GANSS TOD
MP

Integer (0..86399)
GANSS Time of Day in seconds where GANSS reference measurement information is valid.
REL-7
GANSS reference measurement information
MP

UE positioning GANSS reference measurement information 10.3.7.88b

REL-7

10.2.48.8.18.6	System Information Block type 15.7
The system information block type 15.7 contains data bits which can be used for data wipe-off. The content of this SIB is GNSS specific.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GANSS data bit assistance 
MP

UE positioning GANSS data bit assistance 10.3.7.97b

REL-7

10.2.48.8.18.7	System Information Block type 15.8
The system information block type 15.8 contains ciphering information and real-time integrity information. The content of this SIB is GNSS specific.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GANSS Data ciphering info
OP

UE positioning Ciphering info 10.3.7.86
If this IE is present then the SIB types 15.1bis, 15.1ter, 15.2bis, 15.2ter, 15.3bis, 15.6 and 15.7 are ciphered in accordance with the Data Assistance Ciphering Algorithm specified in [18]
REL-7
GANSS real-time integrity
OP

UE positioning GANSS real-time integrity 10.3.7.95b

REL-7

10.2.48.8.19	System Information Block type 16
The system information block type 16 contains radio bearer, transport channel and physical channel parameters to be stored by UE in idle and connected mode for use during handover to UTRAN.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
RB information elements




Predefined RB configuration
MP

Predefined RB configuration
10.3.4.7

TrCH Information Elements




Predefined TrCH configuration
MP

Predefined TrCH configuration
10.3.5.9

PhyCH Information Elements




Predefined PhyCH configuration
MP

Predefined PhyCH configuration
10.3.6.56


10.2.48.8.20	System Information Block type 17
NOTE:	Only for TDD.
The system information block type 17 contains fast changing parameters for the configuration of the shared physical channels to be used in connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PhyCH information elements





PUSCH system information
OP

PUSCH system information 10.3.6.66


PUSCH system information VHCR
OP

PUSCH system information VHCR 10.3.6.66a
Only for 7.68 Mcps TDD
REL-7
PDSCH system information
OP

PDSCH system information 10.3.6.46



10.2.48.8.21	System Information Block type 18
The System Information Block type 18 contains PLMN identities of neighbouring cells to be considered in idle mode as well as in connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Idle mode PLMN identities
OP

PLMN identities of neighbour cells
10.3.7.53a


Connected mode PLMN identities
OP

PLMN identities of neighbour cells
10.3.7.53a


Idle mode PLMN identities for SIB 11bis
OP

PLMN identities of neighbour cells
10.3.7.53a

REL-6
Connected mode PLMN identities for SIB 11bis
OP

PLMN identities of neighbour cells
10.3.7.53a

REL-6
Idle mode PLMN identities for SIB 11ter
OP

PLMN identities of neighbour cells for SIB 11ter
10.3.7.53b

REL-12
Connected mode PLMN identities for SIB 11ter
OP

PLMN identities of neighbour cells for SIB 11ter
10.3.7.53b

REL-12

10.2.48.8.22	System Information Block type 19
The system information block type 19 contains Inter-RAT frequency and priority information to be used in the cell.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UTRA priority info list
MP

UTRA priority info list 10.3.7.113

REL-8
GSM priority info list
OP

GSM priority info list 10.3.7.114

REL-8
GSM ScalingFactor for Treselection
OP

Real (0.25..4 by step of 0.25)
If present, it is used by the UE as scaling factor for Treselections or Treselections,PCH or Treselections,FACH for inter-RAT absolute priority based cell reselection evaluation to GSM [4]. It replaces Inter-RAT ScalingFactor for Treselection in SIB3/4, if available.
REL-11
E-UTRA frequency and priority info list
OP

E-UTRA frequency and priority info list 10.3.7.115

REL-8
E-UTRA ScalingFactor for Treselection
OP

Real (0.25..4 by step of 0.25)
If present, it is used by the UE as scaling factor for Treselections or Treselections,PCH or  Treselections,FACH for inter-RAT absolute priority based cell reselection evaluation to E-UTRA [4]. It replaces Inter-RAT ScalingFactor for Treselection in SIB3/4, if available.
REL-11
E-UTRA frequency RACH reporting information
OP

E-UTRA frequency RACH reporting information
10.3.7.139

REL-11
CELL_FACH Absolute Priority Measurement Indicator
OP

Enumerated (High Priority Layers, All Layers)
High Priority Layers means that absolute priority measurements are only required in CELL_FACH state on higher priority layers when Srxlev and Squal of the serving cell are above Sprioritysearch1 and Sprioritysearch2.

All Layers means that absolute priority measurements are always required in CELL_FACH state according to the rules in [4] and requirements in [19]. A UE that indicates FGI3 but not FGI4 shall behave as if High priority Layers is indicated.
REL-11

10.2.48.8.23	System Information Block type 20
The system information block type20 contains HNBName.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HNB Name
OP

HNB Name 10.3.8.4m

REL-8

10.2.48.8.24	System Information Block type 21
The system information block type 21 contains parameters for EAB.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
EAB Parameters
OP


If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3, the UE behaviour upon reception of this IE is unspecified.
REL-11
>CHOICE barring representation
MP



REL-11
>>EAB Parameters Per PLMN List

1 to 6

The number of instances of this IE is the number of instances of the IE “Multiple PLMNs” in the IE “Multiple PLMN List” of the MIB plus one.
The first instance of this IE specifies the EAB Parameters for UEs which have chosen the PLMN in the IE “PLMN identity” of the MIB, the second instance specifies the EAB Parameters for UEs which have chosen the first PLMN in the IE “Multiple PLMNs” in the IE “Multiple PLMN List” of the MIB, the third instance specifies the EAB Parameters for UEs which have chosen the second PLMN in the IE “Multiple PLMNs” in the IE “Multiple PLMN List” of the MIB, and so on.
REL-11
>>>Domain Specific EAB Parameters
OP

Domain Specific EAB Parameters
10.3.1.3d
Absence of this IE means that no extended access barring applies for the corresponding PLMN
REL-11
>>EAB Parameters For All


Domain Specific EAB Parameters
10.3.1.3d
This IE specifies the common EAB Parameters applicable for all PLMNs, including the PLMN in the IE “PLMN identity” of the MIB and the PLMNs in the IE “Multiple PLMNs” in the IE “Multiple PLMN List” of the MIB.
REL-11

10.2.48.8.25	System Information Block type 22
NOTE:	Only for FDD.
The system information block type 22 contains information for Concurrent deployment of 2ms and 10ms TTI in a cell, NodeB triggered HS-DPCCH transmission, Fallback to R99 PRACH, TTI alignment, Per HARQ process activation and de-activation and HS-DSCH DRX operation with second DRX cycle in CELL_FACH. Further, it contains control parameters related to the PRACH access preamble.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PRACH preamble control parameters extension list Type 1 (for Enhanced Uplink)
OP

PRACH preamble control parameters extension list for Type 1 (for Enhanced Uplink)
10.3.6.135
Control parameters of the physical signal. This and/or parameters in IE "PRACH preamble control parameters (for Enhanced Uplink)" is used for access by UE’s supporting concurrent deployment when the outcome of the common E-DCH TTI selection is 10ms. Also used for access if "E-DCH Transmission Time Interval" is equal to 10ms when concurrent deployment is not used, by UEs that support either NodeB triggered HS-DPCCH transmission or HS-DSCH DRX operation with second DRX cycle or Fallback to R99 PRACH. See subclause 8.5.45, 8.5.73 and 8.5.74.
REL-11
PRACH preamble control parameters extension list Type 2 (for Enhanced Uplink)
OP

PRACH preamble control parameters extension list (for Enhanced Uplink)
10.3.6.134
Control parameters of the physical signal. Used for access by UE’s supporting only concurrent deployment, and by UEs supporting TTI alignment and Per HARQ process if the IE "Common E-DCH Resource Configuration Information List Extension" is not present, when the outcome of the common E-DCH TTI selection is 2ms. See subclause 8.5.45 and 8.5.73.
REL-11
PRACH preamble control parameters extension list Type 3 (for Enhanced Uplink)
OP

PRACH preamble control parameters extension list (for Enhanced Uplink)
10.3.6.134
Control parameters of the physical signal. Used for access by UE’s supporting TTI alignment and Per HARQ process if the IE 
"Common E-DCH Resource Configuration Information List Extension" is present, when the outcome of the common E-DCH TTI selection is 2ms. See subclause 8.5.45, and 8.5.73.
REL-11
Concurrent Deployment of 2ms and 10ms TTI
OP

Concurrent Deployment of 2ms and 10ms TTI 10.3.5.25

REL-11
NodeB triggered HS-DPCCH Transmission
OP

NodeB triggered HS-DPCCH Transmission
10.3.6.130

REL-11
Fallback R99 PRACH info
OP

Fallback R99 PRACH info
10.3.6.141

REL-11
Common E-DCH Resource Configuration Information List Extension
OP

Common E-DCH Resource Configuration Information List Extension
10.3.6.140

REL-11
HS-DSCH DRX in CELL_FACH with second DRX cycle Information
OP

HS-DSCH DRX in CELL_FACH with second DRX cycle Information 10.3.6.139

Rel-11
Cell reselection indication reporting
OP

Enumerated (TRUE)

REL-12

10.2.48.8.26	System Information Block type 23
The system information block type 23 contains information for RAN-assisted WLAN interworking. 
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE WLAN representation
MP



REL-12
>WLAN Offload Information Per PLMN List

1 to 6

The number of instances of this IE is the number of instances of the IE "Multiple PLMNs" in the IE "Multiple PLMN List" of the MIB plus one.
The first instance of this IE specifies the WLAN Offload Information for UEs which have chosen the PLMN in the IE "PLMN identity" of the MIB, the second instance specifies the WLAN Offload Information for UEs which have chosen the first PLMN in the IE "Multiple PLMNs" in the IE "Multiple PLMN List" of the MIB, the third instance specifies the WLAN Offload Information for UEs which have chosen the second PLMN in the IE "Multiple PLMNs" in the IE "Multiple PLMN List" of the MIB, and so on.
REL-12
>>WLAN Offload Information
OP

WLAN Offload Information
10.3.9b.3
Absence of this IE means that no WLAN Offload Information applies for the corresponding PLMN.
REL-12
>WLAN Offload Information common for all PLMN



This IE specifies the common WLAN Offload Information configuration applicable for all PLMNs, including the PLMN in the IE "PLMN identity" of the MIB and the PLMNs in the IE "Multiple PLMNs" in the IE "Multiple PLMN List" of the MIB.
REL-12
>>WLAN Offload Information
OP

WLAN Offload Information
10.3.9b.3
Absence of this IE means that no WLAN Offload Information applies for all PLMNs.
REL-12

10.2.48.8.27	System Information Block type 24
NOTE:	Only for FDD.
The system information block type 24 contains information for controlling access in CELL_FACH state, CELL_PCH state and URA_PCH state.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
DTCH transmission blocking
OP

Bit string(maxNumAccessGroups)

Bit 0 is the first/leftmost bit of the bit string. 
Bit n corresponds to the n-th defined Access Group. 
Value '1' for a bit means UEs in that Access Group are blocked for DTCH transmission in CELL_FACH state, and for DCCH/CCCH due to uplink DTCH transmission in CELL_PCH state and URA_PCH state.
REL-12
Expiration Time Factor 2
MD

Expiration Time Factor 2
10.3.3.12b
Default is 1.
REL-12

10.2.48.8.28	System Information Block type 25
NOTE:	Only for FDD.
The system information block type 25 contains parameters for ACDC barring information in Idle mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
ACDC Parameters
MP


If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3, the UE behaviour upon reception of this IE is unspecified.
REL-13
>CHOICE barring representation
MP



REL-13
>>ACDC Parameters Per PLMN List

1 to 6

The number of instances of this IE is the number of instances of the IE "Multiple PLMNs" in the IE "Multiple PLMN List" of the MIB plus one.
The first instance of this IE specifies the ACDC Parameters for UEs which have chosen the PLMN in the IE "PLMN identity" of the MIB, the second instance specifies the ACDC Parameters for UEs which have chosen the first PLMN in the IE "Multiple PLMNs" in the IE "Multiple PLMN List" of the MIB, the third instance specifies the ACDC Parameters for UEs which have chosen the second PLMN in the IE "Multiple PLMNs" in the IE "Multiple PLMN List" of the MIB, and so on.
REL-13
>>>PLMN specific ACDC Parameters
OP

Specific ACDC Barring Information 10.3.1.18

Absence of this IE means that no extended access barring applies for the corresponding PLMN
REL-13
>>>ACDC applicable for Roamer
OP

Enumerated (TRUE)
Absence of this IE means that no ACDC barring applies to roaming UE for the corresponding PLMN
REL-13
>>ACDC Parameters For All




REL-13
>>>ACDC Information
MP

Specific ACDC Barring Information 10.3.1.18

This IE specifies the common ACDC Parameters applicable for all PLMNs, including the PLMN in the IE "PLMN identity" of the MIB and the PLMNs in the IE "Multiple PLMNs" in the IE "Multiple PLMN List" of the MIB.
REL-13
>>>ACDC applicable for Roamer
OP

Enumerated (TRUE)
Absence of this IE means that no ACDC barring applies to roaming UE for all the PLMN.
REL-13

10.2.49	SYSTEM INFORMATION CHANGE INDICATION
This message is used to send information on FACH or HS-DSCH (FDD and 1.28 Mcps TDD only) to the UEs in state CELL_FACH, CELL_PCH (FDD and 1.28 Mcps TDD only), or CELL_DCH(TDD only) about coming modification of the system information.
	RLC-SAP: TM
	Logical channel: BCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


Other information elements





BCCH modification info
MP

BCCH modification info 10.3.8.1


ETWS information
OP

ETWS information 10.3.8.4ea

REL-8

If the encoded message does not fill a transport block, the RRC layer shall insert padding according to subclause 12.1.
10.2.50	TRANSPORT CHANNEL RECONFIGURATION
This message is used by UTRAN to configure the transport channel of a UE. This also includes a possible reconfiguration of physical channels. The message can also be used to assign a TFC subset and reconfigure physical channel.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information Elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Integrity protection mode info
OP

Integrity protection mode info 10.3.3.19
The UTRAN should not include this IE unless it is performing an SRNS relocation

Ciphering mode info
OP

Ciphering mode info 10.3.3.5
The UTRAN should not include this IE unless it is performing an SRNS relocation and a change in ciphering algorithm

Activation time
MD

Activation time 10.3.3.1
Default value is "now"

Dynamic activation time
OP

Dynamic activation time 10.3.3.1a

REL-13
Delay restriction flag
OP

Enumerated (TRUE)
This IE is always set to TRUE and included if the activation time is restricted according to subclause 8.6.3.1
REL-6
New U-RNTI
OP

U-RNTI 10.3.3.47


New C-RNTI
OP

C-RNTI 10.3.3.8


New DSCH-RNTI
OP

DSCH-RNTI 10.3.3.9a
Should not be set in FDD. If received the UE behaviour is unspecified.

New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-5
New Primary E-RNTI
OP

E-RNTI
10.3.3.10a

REL-6
New Secondary E-RNTI
OP

E-RNTI 10.3.3.10a
FDD only
REL-6
RRC State Indicator
MP

RRC State Indicator 10.3.3.35a


UE Mobility State Indicator
CV-FACH_PCH

Enumerated (High-mobilityDetected)
Absence of this IE implies that, according to [4], the UE shall consider itself being in the mobility state the UE has maintained in CELL_DCH state or being not in high mobility state after the state transition, if applicable.
REL-7
UTRAN DRX cycle length coefficient
OP

UTRAN DRX cycle length coefficient 10.3.3.49


CN Information Elements





CN Information info
OP

CN Information info 10.3.1.3


UTRAN mobility information elements





URA identity
OP

URA identity 10.3.2.6


RNC support for change of UE capability
OP

Boolean
Should be included if the message is used to perform an SRNS relocation
REL-7
Reconfiguration in response to requested change of UE capability
OP

Enumerated (TRUE)

REL-7
RB information elements





Downlink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>



>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22
This IE is needed for each RB having PDCP in the case of lossless SRNS relocation


OP



REL-5
>>PDCP context relocation info
OP

PDCP context relocation info 10.3.4.1a
This IE is needed for each RB having PDCP and performing PDCP context relocation
REL-5
Retrievable configuration





Retrievable configuration info
OP

Retrievable configuration info 
10.3.8.25

REL-13
TrCH Information Elements





Uplink transport channels





UL Transport channel information common for all transport channels
OP

UL Transport channel information common for all transport channels 10.3.5.24


Added or Reconfigured TrCH
 information list
OP
1 to <maxTrCH>



>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2


Downlink transport channels





DL Transport channel information common for all transport channels
OP

DL Transport channel information common for all transport channels 10.3.5.6


Added or Reconfigured TrCH
 information list
OP
1 to <maxTrCH>



>Added or Reconfigured DL TrCH information
MP

Added or Reconfigured DL TrCH information
10.3.5.1


PhyCH information elements





Frequency info
OP

Frequency info 10.3.6.36


Multi-frequency Info
OP

Multi-frequency Info 10.3.6.39a
This IE is used for 1.28 Mcps TDD only
REL-7
DTX-DRX timing information
OP

DTX-DRX timing information 10.3.6.34b

REL-7
DTX-DRX Information 
OP

DTX-DRX Information 10.3.6.34a

REL-7
HS-SCCH less Information 
OP

HS-SCCH less Information 10.3.6.36ab

REL-7
MIMO parameters
OP

MIMO parameters 10.3.6.41a

REL-7
MIMO mode with four transmit antennas parameters
OP

MIMO mode with four transmit antennas parameters 10.3.6.142

REL-11
DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149

REL-12
Control Channel DRX information
OP

Control Channel DRX information 1.28 Mcps TDD 10.3.6.107
This IE is used for 1.28 Mcps TDD only
REL-8
SPS Information
OP

SPS information 1.28 Mcps TDD 10.3.6.110
This IE is used for 1.28 Mcps TDD only
REL-8
MU-MIMO info
OP

MU-MIMO info 1.28 Mcps TDD 10.3.6.122
This IE is used for 1.28 Mcps TDD only
REL-10
Non-rectangular resource allocation indicator
OP

Enumerated(TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
REL-12
Non-rectangular resource specific timeslots set
CV-Non-rectangularResourceAllocation

Bit string (7)
For 1.28 Mcps TDD only.

The value 1 of a bit indicates the corresponding timeslot in which the channelization codes are assigned by physical control channel.  The value 0 of a bit indicates the corresponding timeslot in which all channelization codes are assigned when the timeslot is scheduled to the UE.
The first/leftmost bit of the bit string is for TS0.
REL-12
Uplink radio resources





Maximum allowed UL TX power
MD

Maximum allowed UL TX power 10.3.6.39
Default value is the existing maximum UL TX power

Uplink DPCH info
OP

Uplink DPCH info 10.3.6.88


E-DCH Info
OP

E-DCH Info 10.3.6.97

REL-6
Uplink secondary cell info FDD
OP

Uplink secondary cell info FDD 10.3.6.115
FDD only
REL-9
Multi-carrier E-DCH Info for LCR TDD
OP

Multi-carrier E-DCH Info for LCR TDD 10.3.6.97a
1.28Mcps TDD only
REL-10
Uplink CLTD info FDD
OP

Uplink CLTD info FDD
10.3.6.125
FDD only
REL-11
Uplink OLTD info FDD
OP

Uplink OLTD info FDD
10.3.6.126
FDD only
REL-11
Other TTI E-DCH Configuration Information 

OP

Other TTI E-DCH Configuration Information
10.3.6.152
FDD only
REL-12
Filtered UE power headroom reporting information
OP

Filtered UE power headroom reporting information 10.3.7.140
FDD only
REL-12
Downlink radio resources





Downlink HS-PDSCH Information
OP

Downlink HS-PDSCH Information 10.3.6.23a

REL-5
Downlink information common for all radio links
OP

Downlink information common for all radio links 10.3.6.24


Downlink information per radio link list
OP
1 to <maxRL>

Send downlink information for each radio link 

>Downlink information for each radio link
MP

Downlink information for each radio link 10.3.6.27


Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-8
Additional downlink secondary cell info list FDD
OP
2


REL-10
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-10
Additional downlink secondary cell info list FDD 2
OP
4


REL-11
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-11
Common E-RGCH info FDD
OP

Common E-RGCH info FDD
10.3.6.138
FDD only
REL-11
DPCCH2 info FDD
OP

DPCCH2 info FDD 10.3.6.148
FDD only
REL-12
MBMS PL Service Restriction Information
OP

Enumerated (TRUE)

REL-6
CELL_DCH measurement occasion info LCR
OP

CELL_DCH measurement occasion info LCR
10.3.7.126

REL-9

Condition
Explanation
FACH_PCH
This IE is mandatory default when a transition from CELL_DCH to CELL_FACH, URA_PCH or CELL_PCH is requested by the message and is not needed otherwise.
Non-rectangularResourceAllocation
This IE is optionally present if non-rectangular resource allocation is configured. Otherwise, it is not needed.

10.2.51	TRANSPORT CHANNEL RECONFIGURATION COMPLETE
This message is sent from the UE when a transport channel reconfiguration has been done.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Uplink integrity protection activation info
OP

Integrity protection activation info 10.3.3.17


CHOICE mode
OP




>FDD



(no data)

>TDD





>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>>>Uplink Timing Advance
OP

Uplink Timing Advance 10.3.6.95


>>>>Extended Uplink Timing Advance
OP

Extended Uplink Timing Advance 10.3.6.95a

REL-7
>>>7.68 Mcps TDD




REL-7
>>>>Extended Uplink Timing Advance
OP

Extended Uplink Timing Advance 10.3.6.95a

REL-7
>>>1.28 Mcps TDD



(no data)
REL-4
Other information elements




REL-7
Deferred measurement control reading
OP

Enumerated (TRUE)
Indicates the UE has not read SIB11, SIB11bis, SIB11ter (if supported) and SIB12, if available.
REL-7
RB Information elements





COUNT-C activation time
OP

Activation time
10.3.3.1
Used for radio bearers mapped on RLC-TM. Only applicable if the UE is moving to CELL_DCH state due to this procedure

Uplink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>



>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22


>START list
MP
1 to <maxCNdomains>

START [40] values for all CN domains.

>>CN domain identity
MP

CN domain identity 10.3.1.1


>>START
MP

START 10.3.3.38
START value to be used in this CN domain.


10.2.52	TRANSPORT CHANNEL RECONFIGURATION FAILURE
This message is sent by UE if the configuration given by UTRAN is unacceptable or if the UE failed to establish the physical channel(s).
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Failure cause
MP

Failure cause and error information
10.3.3.14


10.2.53	TRANSPORT FORMAT COMBINATION CONTROL
This message is sent by UTRAN to control the uplink transport format combination within the allowed transport format combination set. This message has different structures depending if the message is sent on transparent (TM) or non-transparent mode (AM or UM).
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


TrCH information elements





CHOICE mode
MP




>FDD



(no data)

>TDD





>>TFCS Id
OP

Transport Format Combination Set Identity 10.3.5.21


DPCH/PUSCH TFCS in uplink 
MP

Transport Format Combination subset 10.3.5.22
NOTE 1

Activation time for TFC subset
MD

Activation time
10.3.3.1
Default value is "now"

TFC Control duration
OP

TFC Control duration 10.3.6.80


UL AMR rate
OP

Enumerated(t0, t1, t2, t3, t4, t5, t6, t7, t8)
Indicates the bit rate as defined in [62] and [63].
REL-8
NOTE 1:	If the IE “UL AMR rate” is included, no DCH is configured on the uplink and the IE “DPCH/PUSCH TFCS in uplink” is not set to “Full transport format combination set” the UE behaviour is unspecified.

In case of transparent mode signalling the following message structure shall be used:
	RLC-SAP: TM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
TFC subset identity
MP

INTEGER (0..7)


The encoding of this message is specified in subclause 12.4.1.1.
10.2.54	TRANSPORT FORMAT COMBINATION CONTROL FAILURE
This message is sent to indicate that a received TRANSPORT FORMAT COMBINATION CONTROL message could not be handled by the UE.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Failure cause
MP

Failure cause and error information
10.3.3.14


10.2.55	UE CAPABILITY ENQUIRY
The UE CAPABILITY ENQUIRY is used by the UTRAN to enquire inter-RAT classmarks from the UE.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16
Integrity check info is included if integrity protection is applied
Capability update requirement
MP

Capability update requirement 10.3.3.2


10.2.56	UE CAPABILITY INFORMATION
This message is sent by UE to convey UE specific capability information to the UTRAN.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE  UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
OP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16
Integrity check info is included if integrity protection is applied
UE radio access capability
OP

UE radio access capability 10.3.3.42

UE radio access capability extension
OP

UE radio access capability extension 10.3.3.42a

Other information elements




UE system specific capability
OP
1 to <maxInterSysMessages>


>Inter-RAT UE radio access capability 
MP

Inter-RAT UE radio access capability 10.3.8.7


10.2.57	UE CAPABILITY INFORMATION CONFIRM
This message is sent by UTRAN to confirm that UE capability information has been received.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRAN  UE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16
Integrity check info is included if integrity protection is applied
Acceptance of requested change of capability
OP

Enumerated (Refused, Accepted, Accepted with reconfiguration to follow)
Included if the message was sent in response to a UE request for a capability change in connected mode

10.2.57a	UE INFORMATION REQUEST
This message is used by UTRAN to request data such as Logged Measurements from the UE.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type

REL-10
UE information elements




REL-10
RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

REL-10
Integrity check info
CH

Integrity check info 10.3.3.16

REL-10
Other Information Elements




REL-10
Logged Measurements Report Request
OP

Enumerated
(TRUE)
This IE indicates that the UE shall report logged measurements to the network if available.
REL-10
Logged ANR Report Request
OP

Enumerated (TRUE)

REL-10
Connection Establishment Failure Request
OP

Enumerated (TRUE)

REL-11

10.2.57b	UE INFORMATION RESPONSE
This message is used by the UE to transfer data such as Logged Measurements to the UTRAN.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type

REL-10
UE information elements




REL-10
RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

REL-10
Integrity check info
CH

Integrity check info 10.3.3.16

REL-10
Other Information Elements




REL-10
Logged Meas Report

OP

Logged Meas Report
10.3.7.131

REL-10
Logged ANR Report Info

OP

Logged ANR Report Info
10.3.7.42b

REL-10
Connection Establishment Failure Report
OP

Connection Establishment Failure Report
10.3.7.132a

REL-11

10.2.58	UPLINK DIRECT TRANSFER
This message is used to transfer NAS messages for an existing signalling connection.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UE ->UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




Integrity check info
CH

Integrity check info 10.3.3.16
Integrity check info is included if integrity protection is applied
CN information elements




CN domain identity
MP

CN domain identity 10.3.1.1

NAS message
MP

NAS message 10.3.1.8

Measurement information elements




Measured results on RACH
OP

Measured results on RACH 10.3.7.45


10.2.59	UPLINK PHYSICAL CHANNEL CONTROL
NOTE:	Only for TDD.
This message is used to transfer uplink physical channel parameters to the UE.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
OP

Integrity check info 10.3.3.16


PhyCH information elements





CCTrCH power control info
OP

CCTrCH power control info 10.3.6.8
Power control information for one CCTrCH

Special Burst Scheduling
OP

Special Burst Scheduling 10.3.6.75a
UL Special Burst generation period in radio frames

CHOICE TDD option
MP



REL-4
>3.84 Mcps TDD




REL-4
>>Alpha
OP

Alpha 10.3.6.5


>>Timing Advance Control
OP

UL Timing Advance Control 10.3.6.96


>>PRACH Constant Value
OP

Constant value TDD 10.3.6.11a
Operator controlled PRACH Margin

>>PUSCH Constant Value
OP

Constant value TDD 10.3.6.11a
Operator controlled PUSCH Margin

>>UE positioning related parameters
CV-IPDLs



REL-4
>>>IPDL-Alpha
MP

Alpha 10.3.6.5

REL-4
>>>Max power increase
MP

Integer (0..3)
In dB
REL-4
>> HS-SICH power control info 
OP

HS-SICH Power Control Info 10.3.6.36b
Only applies to  TDD 3.84 Mcps
REL-5
>7.68 Mcps TDD




REL-7
>>Alpha
OP

Alpha 10.3.6.5

REL-7
>>Timing Advance Control
OP

UL Timing Advance Control 10.3.6.96

REL-7
>>PRACH Constant Value
OP

Constant value TDD 10.3.6.11a
Operator controlled PRACH Margin
REL-7
>>PUSCH Constant Value
OP

Constant value TDD 10.3.6.11a
Operator controlled PUSCH Margin
REL-7
>>UE positioning related parameters
CV-IPDLs



REL-4
>>>IPDL-Alpha
MP

Alpha 10.3.6.5

REL-4
>>>Max power increase
MP

Integer (0..3)
In dB
REL-4
>> HS-SICH power control info
OP

HS-SICH Power Control Info 10.3.6.36b
Only applies to  TDD 7.68 Mcps
REL-5
>1.28 Mcps TDD




REL-4
>>Uplink synchronisation parameters
MD


Default: Uplink synchronisation step size 1.
Uplink synchronisation frequency 1.
REL-4
>>>Uplink synchronisation step size
MP

Integer(1..8)
This parameter specifies the step size to be used for the adjustment of the uplink transmission timing
REL-4
>>>Uplink synchronisation frequency
MP

Integer(1..8)
This parameter specifies the frequency of the adjustment of the uplink transmission timing
REL-4
>>PRXHS-SICH
OP

Integer
(-120..-58 by step of 1)
In dBm. Desired power level for HS-SICH. 
REL-6
>>TPC step size
OP

Integer
(1, 2, 3)
In dB. For HS-SICH
REL-6

Condition
Explanation
IPDLs
This IE is present only if idle periods are applied

10.2.60	URA UPDATE
This message is used by the UE to initiate a URA update procedure.
	RLC-SAP: TM
	Logical channel: CCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





U-RNTI
MP

U-RNTI 10.3.3.47


RRC transaction identifier
CV- ProtErr

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


URA update cause
MP

URA update cause 10.3.3.46


Protocol error indicator
MD

Protocol error indicator 10.3.3.27
Default value is FALSE

HS-PDSCH in CELL_PCH and URA_PCH
OP

Enumerated (TRUE)
This IE indicates whether the UE supports HS-PDSCH reception in CELL_PCH and URA_PCH states. The absence of this IE indicates that the UE does not support HS-PDSCH reception in CELL_PCH or URA_PCH states.
REL-7
HS-PDSCH in CELL_FACH
OP

Enumerated (TRUE)
This IE indicates whether the UE supports HS-PDSCH reception in CELL_FACH state. The absence of this IE indicates that the UE does not support HS-PDSCH reception in CELL_FACH state.
REL-7
Support of HS-DSCH DRX operation
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-DSCH DRX operation in CELL_FACH state.
REL-8
Support of common E-DCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support E-DCH enhanced random access in CELL_FACH state and Idle mode.
REL-8
Support of MAC-i/is
OP

Enumerated (TRUE)
This IE indicates whether the UE supports MAC-i/is operation.
REL-8
Support for Two DRX schemes in URA_PCH and CELL_PCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Two DRX schemes in URA_PCH and CELL_PCH
REL-7
Other information elements





Protocol error information
CV-ProtErr

Protocol error information 10.3.8.12


Other Information elements




Rel-10
Logged Meas Available
OP

Enumerated (TRUE)
Indicates the UE has logged measurements to report to the network
Rel-10
ANR Logging Results Available
OP

Enumerated (TRUE)
True indicates the UE has ANR logging results to report to the Network.
REL-10

Condition
Explanation
ProtErr
The IE is mandatory present if the IE "Protocol error indicator" has the value TRUE and not needed otherwise.

10.2.61	URA UPDATE CONFIRM
This message confirms the URA update procedure and can be used to reallocate new RNTI information for the UE valid after the URA update.
	RLC-SAP: UM
	Logical channel: CCCH or DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





U-RNTI
CV-CCCH

U-RNTI 10.3.3.47


RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16
Integrity check info is included if integrity protection is applied

Integrity protection mode info
OP

Integrity protection mode info 10.3.3.19
The UTRAN should not include this IE unless it is performing an SRNS relocation

Ciphering mode info
OP

Ciphering mode info 10.3.3.5
The UTRAN should not include this IE unless it is performing an SRNS relocation and a change in ciphering algorithm

New U-RNTI
OP

U-RNTI 10.3.3.47


New C-RNTI
OP

C-RNTI 10.3.3.8


New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-8
New Primary E-RNTI
OP

E-RNTI 10.3.3.10a

REL-8
RRC State Indicator
MP

RRC State Indicator 10.3.3.35a


UTRAN DRX cycle length coefficient
OP

UTRAN DRX cycle length coefficient 10.3.3.49


CN Information Elements





CN Information info
OP

CN Information info 10.3.1.3


UTRAN mobility information elements





URA identity
OP

URA identity 10.3.2.6


RNC support for change of UE capability
OP

Boolean
Should be included if the message is used to perform an SRNS relocation
REL-7
RB information elements





Downlink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>



>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22
This IE is needed for each RB having PDCP in the case of lossless SRNS relocation


OP



REL-5
>>PDCP context relocation info
OP

PDCP context relocation info 10.3.4.1a
This IE is needed for each RB having PDCP and performing PDCP context relocation
REL-5

Condition
Explanation
CCCH
This IE is mandatory present when CCCH is used and not needed otherwise.

10.2.62	UTRAN MOBILITY INFORMATION
This message is used by UTRAN to allocate a new RNTI and to convey other UTRAN mobility related information to a UE.
	RLC-SAP: AM or UM
	Logical channel: DCCH
	Direction: UTRANUE
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE Information Elements





Integrity check info
CH

Integrity check info 10.3.3.16


RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity protection mode info
OP

Integrity protection mode info 10.3.3.19
The UTRAN should not include this IE unless it is performing an SRNS relocation

Ciphering mode info
OP

Ciphering mode info 10.3.3.5
The UTRAN should not include this IE unless it is performing an SRNS relocation and a change in ciphering algorithm

New U-RNTI
OP

U-RNTI 10.3.3.47


New C-RNTI
OP

C-RNTI 10.3.3.8


New H-RNTI
OP

H-RNTI 10.3.3.14a

REL-7
New Primary E-RNTI
OP

E-RNTI 10.3.3.10a

REL-8
UE Timers and constants in connected mode
OP

UE Timers and constants in connected mode 10.3.3.43


Measurement Release Enhancement
OP

Measurement Release Enhancement 10.3.7.46a

REL-12
CN Information Elements





CN Information info
OP

CN Information info full 10.3.1.3a


Domain Specific Access Restriction Parameters Update
CV-Cell_DCH

Domain Specific Access Restriction Parameters Update10.3.1.3c

REL-12
Paging Permission with Access Control Parameters Update
CV-Cell_DCH

Paging Permission with Access Control Parameters Update
10.3.1.10a

REL-12
UTRAN Information Elements





URA identity
OP

URA identity 10.3.2.6


Dedicated priority information
OP

Dedicated priority information 10.3.2.7

REL-8
RNC support for change of UE capability
OP

Boolean
Should be included if the message is used to perform an SRNS relocation
REL-7
RB Information elements





Downlink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>



>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22
This IE is needed for each RB having PDCP in the case of lossless SRNS relocation


OP



REL-5
>>PDCP context relocation info
OP

PDCP context relocation info 10.3.4.1a
This IE is needed for each RB having PDCP and performing PDCP context relocation
REL-5
WLAN Information Elements





Dedicated WLAN Offload Information
OP

Dedicated WLAN Offload Information 10.3.2.10

REL-12

Condition
Explanation
Cell_DCH
This IE is optionally present when UE is in CELL_DCH state and not needed otherwise.

10.2.63	UTRAN MOBILITY INFORMATION CONFIRM
This message is used to confirm the new UTRAN mobility information for the UE.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Message Type
MP

Message Type


UE information elements





RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Integrity check info
CH

Integrity check info 10.3.3.16


Uplink integrity protection activation info
OP

Integrity protection activation info 10.3.3.17


Other Information Elements




REL-7
Deferred measurement control reading
OP

Enumerated (TRUE)
Indicates the UE has not read SIB11, SIB11bis, SIB11ter (if supported) and SIB12.
REL-7
Logged Meas Available
OP

Enumerated (TRUE)
Indicates the UE has logged measurements to report to the network
REL-10
RB Information elements





COUNT-C activation time
OP

Activation time
10.3.3.1
Used for radio bearers mapped on RLC-TM. Only applicable if the UE is moving to CELL_DCH state due to this procedure

Uplink counter synchronisation info
OP




>RB with PDCP information list
OP
1 to <maxRBallRABs>

This IE is needed for each RB having PDCP in the case of lossless SRNS relocation

>>RB with PDCP information
MP

RB with PDCP information
10.3.4.22


>START list
MP
1 to <maxCNdomains>

START [40] values for all CN domains.

>>CN domain identity
MP

CN domain identity 10.3.1.1


>>START
MP

START 10.3.3.38
START value to be used in this CN domain.


10.2.64	UTRAN MOBILITY INFORMATION FAILURE
This message is sent to indicate a failure to act on a received UTRAN MOBILITY INFORMATION message.
	RLC-SAP: AM
	Logical channel: DCCH
	Direction: UEUTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message Type
MP

Message Type

UE information elements




RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

Integrity check info
CH

Integrity check info 10.3.3.16

Failure cause
MP

Failure cause and error information
10.3.3.14


10.3	Information element functional definitions
10.3.1	CN Information elements
10.3.1.1	CN domain identity
Identifies the type of core network domain.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CN domain identity
MP

Enumerated (CS domain, PS domain)


10.3.1.2	CN Domain System Information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CN domain identity
MP

CN domain identity 10.3.1.1

CHOICE CN Type
MP



>GSM-MAP




>>CN domain specific NAS system information
MP

NAS system information (GSM-MAP) 10.3.1.9

>ANSI-41




>>CN domain specific NAS system information
MP

ANSI-41 NAS system information, 10.3.9.4

CN domain specific DRX cycle length coefficient
MP

CN domain specific DRX cycle length coefficient, 10.3.3.6


10.3.1.3	CN Information info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PLMN identity
OP

PLMN identity 10.3.1.11


CN common GSM-MAP NAS system information
OP

NAS system information (GSM-MAP) 10.3.1.9


CN domain related information
OP
1 to <maxCNdomains>



>CN domain identity
MP

CN domain identity 10.3.1.1


>CN domain specific GSM-MAP NAS system info
MP


NAS system information (GSM-MAP) 10.3.1.9


Primary PLMN identity
OP

PLMN identity 10.3.1.11

REL-6

10.3.1.3a	CN Information info full
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PLMN identity
OP

PLMN identity 10.3.1.11


CN common GSM-MAP NAS system information
OP

NAS system information (GSM-MAP) 10.3.1.9


CN domain related information
OP
1 to <maxCNdomains>



>CN domain identity
MP

CN domain identity 10.3.1.1


>CN domain specific GSM-MAP NAS system info
MP

NAS system information (GSM-MAP) 10.3.1.9


>CN domain specific DRX cycle length coefficient
MP

CN domain specific DRX cycle length coefficient, 10.3.3.6


Primary PLMN identity
OP

PLMN identity 10.3.1.11

REL-6

10.3.1.3b	Domain Specific Access Restriction
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE restriction status
MP



REL-6
>no restriction



(no data)
This means ‘no Access Class is barred’
REL-6
>restriction




REL-6
>>Domain Specific Access Class Barred List
MD
<MaxAC>

The first instance of the parameter corresponds to Access Class 0, the second to Access Class 1 and so on up to Access Class 15. UE reads this IE of its access class stored in SIM.
The default value is the IE "Access Class Barred list" contained in the IE "Cell Access Restriction" of the System Information Block Type 3.
REL-6
>>>Access Class Barred
MP

Enumerated(barred, not barred) 

REL-6

10.3.1.3c	Domain Specific Access Restriction Parameters
This IE specifies domain specific access class restriction parameters for CS and PS domain.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CS Domain Specific Access Restriction
MP

Domain Specific Access Restriction
10.3.1.3b

This IE contains Domain Specific Access Restriction Parameters for CS domain.

REL-6
PS Domain Specific Access Restriction
MP

Domain Specific Access Restriction
10.3.1.3b
This IE contains Domain Specific Access Restriction Parameters for PS domain.

REL-6

10.3.1.3d	Domain Specific EAB Parameters
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CS Domain Specific EAB Parameters
OP

EAB Configuration
10.3.1.3e
This IE contains Domain Specific EAB Parameters for CS domain.
REL-11
PS Domain Specific EAB Parameters
OP

EAB Configuration
10.3.1.3e
This IE contains Domain Specific EAB Parameters for PS domain.
REL-11
Common EAB Parameters
CV-Common

EAB Configuration
10.3.1.3e
This IE contains Domain Specific EAB Parameters for both CS domain and PS domain.
REL-11

Condition
Explanation
Common
The IE is mandatory present if neither the IE "CS Domain Specific EAB Parameters" nor the IE "PS Domain Specific EAB Parameters" is present. Otherwise, the IE is not needed.

10.3.1.3e	EAB Configuration
Information Element/ Group name
Need
Multi
Type and reference
Semantics description
Version
EAB Category
MP

Enumerated(a, b, c)
This IE identifies the category of UEs for which EAB applies. Value ‘a’ corresponds to all UEs, value ‘b’ corresponds to the UEs that are neither in their HPLMN nor in a PLMN that is equivalent to it, and value ‘c’ corresponds to the UEs that are neither in the PLMN listed as most preferred PLMN of the country where the UEs are roaming in the operator-defined PLMN selector list on the SIM, nor in their HPLMN nor in a PLMN that is equivalent to their HPLMN, see [75].
REL-11
EAB Access Class Barred List
MP
10

The first instance of this IE corresponds to Access Class 0, the second instance corresponds to Access Class 1, and so on up to Access Class 9. UE reads its Access Class stored in the SIM.
REL-11
>Access Class Barred
MP

Enumerated(barred, not barred)

REL-11

10.3.1.4	IMEI
This IE contains an International Mobile Equipment Identity. Setting specified in [11].
Information Element/Group name
Need
Multi
Type and reference
Semantics description
IMEI
MP
15

The first element contains the first IMEI digit, the second element the second IMEI digit and so on.
>IMEI digit
MP

INTEGER(0..15)


10.3.1.5	IMSI (GSM-MAP)
This IE contains an International Mobile Subscriber Identity, used towards a GSM-MAP type of PLMN. Setting specified in [11].
Information Element/Group name
Need
Multi
Type and reference
Semantics description
IMSI
MP
6 to 21

The first element contains the first IMSI digit, the second element the second IMSI digit and so on.
Although normally upto 15 digits are used for this IE, a bigger length is used to support future extension.
>IMSI digit
MP

INTEGER(0..9)


10.3.1.6	Intra Domain NAS Node Selector
This IE carries information to be used to route the establishment of a signalling connection to a CN node within a CN domain.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE version
MP



>R99



This choice shall also be used by mobiles that are compliant to this version of the protocol
>>CHOICE CN type 
MP



>>>GSM-MAP




>>>>CHOICE Routing basis
MP



>>>>>local (P)TMSI



TMSI allocated in the current LA or PTMSI allocated in the current RA
>>>>>>Routing parameter
MP

Bit string (10)
The TMSI/ PTMSI consists of 4 octets (32bits). This can be represented by a string of bits numbered from b0 to b31, with bit b0 being the least significant
The "Routing parameter" bit string consists of bits b14 through b23 of the TMSI/ PTMSI. The first/leftmost/most significant bit of the bit string contains bit b23 of the TMSI/PTMSI.
>>>>>(P)TMSI of same PLMN, different (RA)LA; or, PTMSI mapped from a valid GUTI allocated by same PLMN



TMSI allocated in another LA of this PLMN or PTMSI allocated in another RA this PLMN; or, PTMSI mapped from a valid GUTI [11] (GUTI allocated in same PLMN)
>>>>>>Routing parameter
MP

Bit string (10)
The TMSI/ PTMSI consists of 4 octets (32bits). This can be represented by a string of bits numbered from b0 to b31, with bit b0 being the least significant
The "Routing parameter" bit string consists of bits b14 through b23 of the TMSI/ PTMSI. The first/leftmost/most significant bit of the bit string contains bit b23 of the TMSI/ PTMSI.
>>>>>(P)TMSI of different PLMN; or, PTMSI mapped from a valid GUTI allocated by a different PLMN



TMSI or a PTMSI allocated in another PLMN; or, PTMSI mapped from a valid GUTI [11] (GUTI allocated in another PLMN)
>>>>>>Routing parameter
MP

Bit string (10)
The TMSI/ PTMSI consists of 4 octets (32bits). This can be represented by a string of bits numbered from b0 to b31, with bit b0 being the least significant.
The "Routing parameter" bit string consists of bits b14 through b23 of the TMSI/ PTMSI. The first/leftmost/most significant bit of the bit string contains bit b23 of the TMSI/ PTMSI.
>>>>>IMSI(response to IMSI paging)



NAS identity is IMSI
>>>>>>Routing parameter
MP

Bit string (10)
The "Routing parameter" bit string consists of DecimalToBinary [(IMSI div 10) mod 1000]. The first/leftmost bit of the bit string contains the most significant bit of the result.
>>>>>IMSI(cause UE initiated event)



NAS identity is IMSI
>>>>>>Routing parameter
MP

Bit string (10)
The "Routing parameter" bit string consists of DecimalToBinary [(IMSI div 10) mod 1000]. The first/leftmost bit of the bit string contains the most significant bit of the result.
>>>>>IMEI



NAS parameter is IMEI
>>>>>>Routing parameter
MP

Bit string (10)
The "Routing parameter" bit string consists of DecimalToBinary [(IMEI div 10) mod 1000]. The first/leftmost bit of the bit string contains the most significant bit of the result.
>>>>>Spare 1


Bit string (10)
This choice shall not be used in this version
>>>>>Spare 2


Bit string (10)
This choice shall not be used in this version
>>>ANSI-41


Bit string (14)
All bits shall be set to 0
>Later


Bit string(15)
This bit string shall not be sent by mobiles that are compliant to this version of the protocol.

10.3.1.7	Location Area Identification
Identifies uniquely a location area for a GSM-MAP type of PLMN. Setting specified in [5].
Information Element/Group name
Need
Multi
Type and reference
Semantics description
PLMN identity
MP

PLMN identity 10.3.1.11

LAC
MP

Bit string(16)
 The first/leftmost bit of the bit string contains the most significant bit of the LAC..

10.3.1.7oa	Location/Registration Parameters
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE restriction status
MP



REL-8
>no restriction



(no data)
This means ‘no Access Class is barred’
REL-8
>restriction




REL-8
>>Location/Registration Access Class Barred List
MP
15

The first ten instance of the parameter corresponds to Access Class 0 to 9, and eleventh to fifteenth instance of the parameter corresponds to Access Class 11 to 15, respectively. UE reads this IE of its access class stored in SIM (except for Access Class 10).
REL-8
>>>Access Class Barred
MP

Enumerated(barred, not barred) 

REL-8

10.3.1.7a	Multiple PLMN List
This information element identifies the multiple Public Land Mobile Networks (for a GSM-MAP type of PLMN) of a cell in a shared network.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIB PLMN Identity
MP

Boolean
The PLMN identity IE 10.3.1.11, broadcasted in the MIB, shall be included in the multiple PLMN list if and only if this IE is TRUE. 
REL-6
Multiple PLMNs
MP
1 to 5


REL-6
>PLMN identity with Optional MCC


PLMN identity with Optional MCC 10.3.1.11a

REL-6

10.3.1.8	NAS message
A non-access stratum message to be transferred transparently through UTRAN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
NAS message
MP

Octet string (1..4095)
The first octet contains octet 1 [17] of the NAS message, the second octet contains octet 2 of the NAS message and so on.

10.3.1.9	NAS system information (GSM-MAP)
This information element contains system information that belongs to the non-access stratum for a GSM-MAP type of PLMN. This information is transparent to RRC. It may contain either information specific to one CN domain (CS or PS) or information common for both CN domains.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
GSM-MAP NAS system information
MP

Octet string(1..8 )
The first octet contains octet 1 [5] of the NAS system information element, the second octet contains octet 2 of the NAS system information element and so on.

10.3.1.10	Paging record type identifier
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Paging record type identifier
MP

Enumerated (IMSI (GSM-MAP), TMSI (GSM-MAP)/ P-TMSI, IMSI (DS-41), TMSI (DS-41))


10.3.1.10a	Paging Permission with Access Control Parameters
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Paging Response Restriction Indication
MP

Enumerated (All, CS, PS, None)

REL-8
Location/Registration Restriction Indicator
MP

Enumerated (All, CS, PS)

REL-8
Location/Registration
MP

Location /Registration Parameters 10.3.1.7oa

REL-8

10.3.1.11	PLMN identity
This information element identifies a Public Land Mobile Network for a GSM-MAP type of PLMN. Setting of digits is defined in [11].
Information Element/Group name
Need
Multi
Type and reference
Semantics description
MCC
MP
3

The first element contains the first MCC digit, the second element the second MCC digit and so on.
>MCC digit
MP

INTEGER(0..9)

MNC
MP
2 to 3

The first element contains the first MNC digit, the second element the second MNC digit and so on.
>MNC digit
MP

INTEGER(0..9)


10.3.1.11a	PLMN identity with Optional MCC
This information element is a PLMN identity in subclause 10.3.1.11 where MCC is optional. It is used in a shared network and inserted in the Multiple PLMN List in subclause 10.3.1.7a. 
Information Element/ Group name
Need
Multi
Type and reference
Semantics description
Version
MCC
MD
3

The first element contains the first MCC digit, the second element the second MCC digit and so on.
REL-6
>MCC digit
MP

Integer (0..9)

REL-6
MNC
MP
2 to 3

The first element contains the first MNC digit, the second element the second MNC digit and so on.
REL-6
>MNC digit
MP

Integer (0..9)

REL-6

10.3.1.12	PLMN Type
Identifies the type of Public Land Mobile Network (PLMN). This IE shall be used to control the interpretation of network dependent messages and information elements in the RRC protocol.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
PLMN Type
MP

Enumerated (GSM-MAP, ANSI-41, GSM-MAP and ANSI-41)
One spare value is needed.

10.3.1.13	P-TMSI (GSM-MAP)
This IE contains a Packet Temporary Mobile Subscriber Identity, used towards a GSM-MAP type of PLMN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
P-TMSI
MP

Bit string (32)
Setting specified in [11]. The first/leftmost bit of the bit string contains the most significant bit of the P-TMSI.

10.3.1.14	RAB identity
This information element uniquely identifies a radio access bearer within a CN domain.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE RAB identity type
MP



>RAB identity (GSM-MAP)


Bit string (8)
Formatted according to [5].  The first/leftmost bit of the bit string contains the most significant bit of the RAB identity.
In case of a radio bearer setup for an MBMS selected service, the RAB identity is set to the value reserved for ‘MBMS Broadcast mode’, see [5].
>RAB identity (ANSI-41)


Bit string (8)
 The first/leftmost bit of the bit string contains the most significant bit of the RAB identity.

CHOICE NAS binding info type
Condition under which the given RAB identity type is chosen
RAB identity (GSM-MAP)
PLMN is of type GSM-MAP
RAB identity (ANSI-41)
PLMN is of type ANSI-41

10.3.1.15	Routing Area Code
Identifies a routing area within a location area for a GSM-MAP type of PLMN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Routing Area Code
MP

Bit string(8)
Setting specified in [11].  The first/leftmost bit of the bit string contains the most significant bit of the Routing Area Code.

10.3.1.16	Routing Area Identification
Identifies uniquely a routing area for a GSM-MAP type of PLMN. Setting specified in [11].
Information Element/Group name
Need
Multi
Type and reference
Semantics description
LAI
MP

Location area identification 10.3.1.7

RAC
MP

Routing area code 10.3.1.15


10.3.1.17	TMSI (GSM-MAP)
This IE contains a Temporary Mobile Subscriber Identity, used towards a GSM-MAP type of PLMN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
TMSI (GSM-MAP)

MP

Bit string (32)
Setting specified in [11]. The first/leftmost bit of the bit string contains the most significant bit of the TMSI.

10.3.1.18	Specific ACDC Barring Information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
ACDC Barring
OP
1 to < maxNumAcdcCategory >

The first entry represents the ACDC category 1 and so on. 1 is the highest ranked ACDC category value and 16 is the lowest ranked ACDC category value, refer to [75]
REL-13
>CHOICE ACDC per Category
OP




>>ACDC-Barred


Enumerated (TRUE, FALSE)
Value of TRUE indicates access for this ACDC category is barred.
Value of FALSE indicates access for this ACDC category is not barred.
REL-13
>>ACDC-ACB-barringBitmap


Bit string(SIZE (10))
Bit 0 is the first/leftmost bit of the bit string. 
Bit 0 corresponds to Access Class 0, bit 1 to Access Class 1 and so on up to Access Class 9. The value 1 of a bit indicates that the corresponding Access Class is blocked. The value 0 of a bit indicates that the corresponding Access Class is not blocked.
REL-13
>Expiration Time Factor 2
MD

Expiration Time Factor 2
10.3.3.12b
Default is 1.
REL-13
Note: Empty entry indicates the corresponding ACDC category is not configured in the SIB.

10.3.2	UTRAN mobility Information elements
10.3.2.1	Cell Access Restriction
Indicates the restrictions to cell access.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Cell Barred
MP

Enumerated(not barred, barred)
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 and the value in this IE is different from “barred” the UE behaviour is unspecified.

Intra-frequency cell re-selection indicator
CV-Barred

Enumerated(not allowed, allowed)


Tbarred
CV-Barred

Integer (10,20,40,80,160,320,640,1280) 
[4]
[s]

Cell Reserved for operator use
MP

Enumerated(reserved, not reserved)


Cell Reservation Extension
MP

Enumerated(reserved, not reserved)


Cell Reserved for CSG
CV-CSG

Enumerated(TRUE)

REL-8
Access Class Barred list
CV-SIB3-MD
maxAC

Default is no access class barred is applied.
The first instance of the parameter corresponds to Access Class 0, the second to Access Class 1 and so on up to Access Class 15. UE reads this IE of its access class stored in SIM.

>Access Class Barred
MP

Enumerated (barred, not barred) 




Condition
Explanation
Barred
The IE is mandatory present if the IE "Cell Barred" has the value "Barred"; otherwise the element is not needed in the message.
SIB3-MD
The IE is mandatory and has a default value if the IE "Cell Access Restriction" is included in SIB 3. Otherwise the IE is not needed.
CSG
The IE is optional present if the cell is a CSG cell and the IE “Cell Reservation Extension” has the value "reserved". Otherwise the IE is not needed. The IE is not included in System Information Block type 4.

10.3.2.2	Cell identity
This information element identifies a cell unambiguously within a PLMN.
NOTE:	This information element may carry any implementation dependent identity that unambiguously identifies a cell within a PLMN. For GAN to UTRAN HO the Cell id is encoded as required in [9].
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cell identity
MP

bit string(28)


10.3.2.3	Cell selection and re-selection info for SIB3/4
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Mapping Info
OP

Mapping info 10.3.2.5
For FDD, 3.84 Mcps TDD and 7.68 Mcps TDD, this IE should not be sent.

Cell selection and reselection quality measure
MP

Enumerated (CPICH Ec/N0, CPICH RSCP)
Choice of measurement (CPICH Ec/N0 or CPICH RSCP) to use as quality measure Q for FDD cells.
This IE is also sent to the UE in SIB11/12. Both occurrences of the IE should be set to the same value.

CHOICE mode
MP




>FDD





>>Sintrasearch
OP

Integer (-32..20 by step of 2)
If a negative value is received the UE shall consider the value to be 0.
[4]
[dB]

>>Sintersearch
OP

Integer (-32..20 by step of 2)
If a negative value is received the UE shall consider the value to be 0.
[4]
[dB]

>>SsearchHCS
OP

Integer (-105..91 by step of 2)
If a negative value is received the UE shall consider the value to be 0.
[4]
[dB]

>>RAT List
OP
1 to <maxOtherRAT>



>>>RAT identifier
MP

Enumerated (GSM, cdma2000)


>>>Ssearch,RAT
MP

Integer (-32..20 by step of 2)
In case the value 20 is received the UE shall consider this IE as if it was absent according to [4]
If a negative value is received the UE shall consider the value to be 0.
[dB]

>>>SHCS,RAT
OP

Integer (-105..91 by step of 2)
If a negative value is received the UE shall consider the value to be 0.
[4]
[dB]

>>>Slimit,SearchRAT
MP

Integer (-32..20 by step of 2)
If a negative value is received the UE shall consider the value to be 0.
[4]
[dB]

>>Qqualmin
MP

Integer (-24..0)
Ec/N0, [dB]


>>Qrxlevmin
MP

Integer (-115..-25 by step of 2)
RSCP, [dBm]


>> DeltaQrxlevmin
CV-Delta

Integer(-4..-2 by step of 2)
If present, the actual value of Qrxlevmin = Qrxlevmin + DeltaQrxlevmin
REL-5
>>Qqualmin-offset
CV-SIB3

Integer (1..16)
Ec/N0, [dB]
The default value is 0
REL-7
>>Qrxlevmin-offset
CV-SIB3

Integer (2..16 by step of 2)
RSCP, [dB]
The default value is 0
REL-7
>>Tx Fail Params
CV-SIB3op



REL-12
>>>ConnEst Fail Count
MP

Enumerated (1, 2, 3, 4)
Number of times that the UE detects RRC Connection Establishment failure on the same cell before applying ConnEst Fail Qoffset,temp.
[4]
REL-12
>>>Offset Validity
MP

Enumerated (30, 60, 120, 240, 300, 420, 600, 900)
Length of time UE uses the ConnEst Fail Qoffset,temp before the offset is removed from the cell.
[4]
[s]
REL-12
>>>ConnEst Fail Qoffset,temp
OP

Integer (0..15)
Temporary cell selection/reselection offset used for this cell if RRC Connection Establishment fails. Absence of the IE means that the UE shall apply the value of infinity.
[4]
[dB]
REL-12
>TDD





>>Sintrasearch
OP

Integer (-105..91 by step of 2)
If a negative value is received the UE shall consider the value to be 0.
[4]
[dB]

>>Sintersearch
OP

Integer (-105..91 by step of 2)
If a negative value is received the UE shall consider the value to be 0.
[4]
[dB]

>>SsearchHCS
OP

Integer (-105..91 by step of 2)
If a negative value is received the UE shall consider the value to be 0.
[4]
[dB]

>>RAT List
OP
1 to <maxOtherRAT>



>>>RAT identifier
MP

Enumerated (GSM, cdma2000)


>>>Ssearch,RAT
MP

Integer (-105..91 by step of 2)
In case the value 91 is received the UE shall consider this IE as if it was absent according to [4]
If a negative value is received the UE shall consider the value to be 0.
[dB]

>>>SHCS,RAT
OP

Integer (-105..91 by step of 2)
If a negative value is received the UE shall consider the value to be 0.
[4]
[dB]

>>>Slimit,SearchRAT
MP

Integer (-105..91 by step of 2)
If a negative value is received the UE shall consider the value to be 0.
[4]
[dB]

>>Qrxlevmin
MP

Integer (-115..-25 by step of 2)
RSCP, [dBm]


>>DeltaQrxlevmin
CV-Delta

Integer(-4..-2 by step of 2)
If present, the actual value of Qrxlevmin = Qrxlevmin + DeltaQrxlevmin
REL-5
>>Qrxlevmin-offset
CV-SIB3

Integer (2..16 by step of 2)
RSCP, [dB]
The default value is 0
REL-7
Qhyst1s
MP

Integer (0..40 by step of 2)
[4]
[dB]

Qhyst1s,PCH
CV-SIB4

Integer (0..40)
If present, it is used as Qhyst1s for UE in CELL_PCH or URA_PCH state [4]
[dB]
REL-5
Qhyst1s,FACH
CV-SIB4

Integer (0..40)
If present, it is used as Qhyst1s for UE in CELL_FACH state [4]
[dB]
REL-5
Qhyst2s
CV-FDD-Quality-Measure

Integer (0..40 by step of 2)
Default value is Qhyst1s
[4]
[dB]

Qhyst2s,PCH
CV-SIB4-FDD-Quality-Measure

Integer (0..40)
If present, it is used as Qhyst2s for UE using CPICH Ec/No quality measure in CELL_PCH or URA_PCH state. Default value is Qhyst1s,PCH
[4]
[dB]
REL-5
Qhyst2s,FACH
CV-SIB4-FDD-Quality-Measure

Integer (0..40)
If present, it is used as Qhyst2s for UE using CPICH Ec/No quality measure in CELL_FACH state. Default value is Qhyst1s,FACH
[4]
[dB]
REL-5
Treselections
MP

Integer (0..31)
[s]

Treselections,PCH
CV-SIB4

Integer (0..31)
If present, it is used as Treselections for UE in CELL_PCH or URA_PCH state [4]
[s]
REL-5
Treselections,FACH
CV-SIB4

Real (0..6.2 by step of 0.2)
If present, it is used as Treselections for UE in CELL_FACH state [4]
[s]
REL-5
Speed dependent ScalingFactor for Treselection
OP

Real (0..1 by step of 0.1)
This IE is used by the UE in high mobility state as scaling factor for Treselections or Treselections,PCH  or Treselections,FACH  [4]. If present and HCS is used, the UE behaviour is unspecified.
REL-5
Inter-frequency ScalingFactor for Treselection
OP


Real (1..4.75 by step of 0.25)
If present, it is used by the UE as scaling factor for Treselections or Treselections,PCH or  Treselections,FACH  for inter-frequency cell reselection evaluation [4]. If present and HCS is used, the UE behaviour is unspecified.
REL-5
Inter-RAT ScalingFactor for Treselection
OP


Real (1..4.75 by step of 0.25)
If present, it is used by the UE as scaling factor for Treselections or Treselections,PCH or  Treselections,FACH for inter-RAT cell reselection evaluation [4]. If present and HCS is used, the UE behaviour is unspecified.
REL-5
Non-HCS_TCRmax
MD

Enumerated (not used, 30, 60, 120, 180, 240)
[s]
Default value is ‘not used’.
REL-5
Non-HCS_NCR
CV-UE speed detector_MD

Integer (1..16)
Default value = 8
REL-5
Non-HCS_TCRmaxHyst
CV-UE speed detector_MP

Enumerated (not used, 10, 20, 30, 40, 50, 60, 70)
[s]
REL-5
HCS Serving cell Information
OP

HCS Serving cell information 10.3.7.12


Maximum allowed UL TX power
MP

Maximum allowed UL TX power 10.3.6.39
[dBm] UE_TXPWR_MAX_RACH in [4].


Condition
Explanation
FDD-Quality-Measure
The IE is not needed if the IE "Cell selection and reselection quality measure" has the value CPICH RSCP, otherwise the IE is mandatory and has a default value.
Delta
This IE is optional if the value of Qrxlevmin is below –115dBm. It is not needed otherwise.
SIB3
This IE is mandatory default if the IE “Cell selection and re-selection info for SIB3/4” is included in SIB type 3. It is not needed otherwise.
SIB3op
This IE is optional if the IE "Cell selection and re-selection info for SIB3/4" is included in SIB type 3. It is not needed otherwise.
SIB4
This IE is optional if the IE “Cell selection and re-selection info for SIB3/4” is included in SIB type 4. It is not needed otherwise.
SIB4-FDD-Quality-Measure
This IE is optional if the IE “Cell selection and re-selection info for SIB3/4” is included in SIB type 4, and the IE "Cell selection and reselection quality measure" has the value CPICH Ec/N0. It is not needed otherwise.
UE Speed detector_MD (non-HCS)
This IE is not needed if non-HCS_TCRmax equals 'not used', else it is mandatory default.
UE Speed detector_MP (non-HCS)
This IE is not needed if non-HCS_TCRmax equals 'not used', else it is mandatory present.

10.3.2.4	Cell selection and re-selection info for SIB11/12
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Qoffset1s,n
MD

Integer(-50..50)
Default value is 0.
[dB]

Qoffset2s,n
CV-FDD-Quality-Measure

Integer(-50..50)
Default value is 0.
[dB]

Maximum allowed UL TX power
MD

Maximum allowed UL TX power 10.3.6.39
According to UE_TXPWR_MAX_RACH in [4], [dBm].
If applied to FDD or TDD cells, the default is the Maximum allowed UL TX power for the serving cell.
If applied to a GSM cell, the default is the UE maximum output power applicable for this GSM cell, according to the UE's radio access capability.

HCS neighbouring cell information
OP

HCS Neighbouring cell information 10.3.7.11


CHOICE mode
MP




>FDD





>>Qqualmin
CV-FDD-Serving-Cell

Integer (-24..0)
Ec/N0, [dB]
Default value is Qqualmin for the serving cell

>>Qrxlevmin
MD

Integer (-115..-25 by step of 2)
RSCP, [dBm]
Default value is Qrxlevmin for the serving cell

>>DeltaQrxlevmin
CV-Delta

Integer(-4..-2 by step of 2)
If present, the actual value of Qrxlevmin = Qrxlevmin + DeltaQrxlevmin
REL-5
>TDD





>>Qrxlevmin
MD

Integer (-115..-25 by step of 2)
RSCP, [dBm]
Default value is Qrxlevmin for the serving cell

>> DeltaQrxlevmin
CV-Delta

Integer(-4..-2 by step of 2)
If present, the actual value of Qrxlevmin = Qrxlevmin + DeltaQrxlevmin
REL-5
>GSM





>>Qrxlevmin
MD

Integer (-115..-25 by step of 2)
GSM RSSI, [dBm]
Default value is Qrxlevmin for the serving cell


Condition
Explanation
FDD-Quality-Measure
This IE is mandatory and has a default value for Intra/Inter Frequency Cells if the IE "Cell selection and reselection quality measure" has the value CPICH Ec/No. Otherwise the IE is absent.
FDD-Serving-Cell
This IE is mandatory and has a default value if the serving cell is an FDD cell. Otherwise the IE is mandatory present.
Delta
This IE is optional if Qrxlevmin is present and the value of Qrxlevmin is below –115dBm. It is not needed otherwise.

10.3.2.5		Mapping Info
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Mapping List
MP
1 to <MaxRAT>



>RAT
MP

Enumerated (UTRA FDD, UTRA TDD 3.84 Mcps, UTRA TDD 1.28 Mcps, GSM, cdma2000)

UTRA TDD 1.28 Mcps is included for REL-4.
>Mapping Function Parameter List
MP
1 to <maxMeasIntervals>



>>Function type
MP

Enumerated (linear, function type 2, function type 3, function type 4)
Type of the function within the interval.





For 1.28Mcps TDD only. If IE “RAT”  is set to “UTRA TDD 3.84 Mcps”, the IE should be  interpreted as:
Enumerated (frequency scope1, frequency scope2, frequency scope3, RSCP threshold).
REL-11
>>Map_parameter_1
MD

Integer (0..99)
Parameter describing the mapping function between the quality measurement and the representing quality value, see [4].
Default value is zero for the first interval or otherwise the value of Map_parameter_2 of the interval before.





For 1.28Mcps TDD only.
See Note1/Note2
REL-11



Integer (0..127)
For 1.28 Mcps TDD, the parameter is used to indicate the uplink access location of the serving cell.
REL-7
>>Map_parameter_2
MP

Integer (0..99)
Parameter describing the mapping function between the quality measurement and the representing quality value, see [4].






For 1.28Mcps TDD only.
See Note1
REL-11
>>Upper_limit
CV-MaxInt

Integer (1..MaxMeas)
Upper limit of interval for which the Map_parameter_1 and Map_parameter_2 are valid.
MaxMeas = 25 if RAT = UTRA FDD / CPICH Ec/N0, 
MaxMeas = 91 if RAT = UTRA TDD 3.84 Mcps or if RAT = UTRA TDD 1.28 Mcps or if RAT = UTRA FDD/ CPICH RSCP, 
MaxMeas = 63 if RAT = GSM.

UTRA TDD 1.28 Mcps is included for REL-4.




For 1.28Mcps TDD only.
See Note1
REL-11

Condition
Explanation
MaxInt
This IE is mandatory present if Mapping Function Parameter List has not reached maxMeasIntervals and is not needed otherwise.
Note1:	If IE “function type” is set to “frequency scope1”, for “Map_parameter_1” and “Map_parameter_2”, this value is interpreted as the frequency which applys to the mapping relationship: (0, 99)-> (9400, 9499); for “Upper_limit”, this value is interpreted as the frequency which applys to the mapping relationship: (1, 91)-> (9400, 9490).
If IE “function type” is set to “frequency scope2”, for “Map_parameter_1” and “Map_parameter_2”, this value is interpreted as the frequency which applys to the mapping relationship: (0, 99)-> (9500, 9599); for “Upper_limit”, this value is interpreted as the frequency which applys to the mapping relationship: (1, 91)-> (9500, 9590).
If IE “function type” is set to “frequency scope3”, for “Map_parameter_1” and “Map_parameter_2”, only the value among (0, 75) is valid and interpreted as frequency which applys to the mapping relationship: (0, 75)-> (10050, 10125); for “Upper_limit”, only the value among (1, 75) is valid and interpreted as frequency which applys to the mapping relationship: (1, 75)-> (10050, 10124).
Note2:	If IE “function type” is set to “RSCP threshold”, only the value among (0, 90) is valid and interpreted as P-CCPCH RSCP value which applys to the mapping relationship: (0, 90)-> ( -115, -25);

10.3.2.6	URA identity
Gives the identity of the UTRAN Registration Area. It can be used to indicate to the UE which URA it shall use in case of overlapping URAs.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
URA identity
MP

bit string(16)


10.3.2.7	Dedicated priority Information
This IE indicates priority information for GERAN, UTRAN and E-UTRAN for reselections.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE Action
MP



REL-8
>Clear dedicated priorities


NULL

REL-8
>Configure dedicated priorities




REL-8
>>T322
OP

Integer (5, 10, 20, 30, 60, 120, 180)
Time in minutes for which the configured dedicated priorities are valid. When the timer expires the UE should revert to using the priorities signalled in system information. Absence of this IE means that the configured dedicated priorities are valid until the next update.
One spare value needed.
REL-8
>>Priority Level List
OP
1 to <maxPrio>


REL-8


1 to <maxPrio-ext>


REL-13
>>>priority
OP

Integer (0.. <maxPrio–1>)
If this IE is absent then the UE behaviour is unspecified. 0 is the lowest priority and maxPrio-1 is the highest.
REL-8
>>>subpriority
CV-E-UTRA-priority

Enumerated(oDot2, oDot4, oDot6, oDot8)
Fractional priority value. If present, this value is added to the value of IE "priority".
REL-13
>>>CHOICE Radio Access Technology
MP



REL-8
>>>>UTRA FDD




REL-8
>>>>>Frequency List
MP
1 to < maxNumFDDFreqs>


REL-8
>>>>>>UARFCN
MP

Integer(0 .. 16383)
UARFCN of the downlink carrier frequency [25.101]
REL-8
>>>>UTRA TDD




REL-8
>>>>>Frequency List
MP
1 to < maxNumTDDFreqs>


REL-8
>>>>>>UARFCN
MP

Integer(0 .. 16383)
UARFCN of the downlink carrier frequency [25.101]
REL-8
>>>>E-UTRA




REL-8
>>>>>Frequency List

1 to <maxNumEUTRAFreqs>


REL-8
>>>>>>EARFCN
MP

Integer(0 .. 65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension".
REL-8
>>>>>>EARFCN extension
OP

Integer(65536 …262143)
EARFCN of the downlink carrier frequency [64]. 
REL-11
>>>>GSM




REL-8
>>>>>GSM cell group
MP

GSM cell group 10.3.7.9a

REL-8
>>E-UTRA detection
MP

Boolean
‘TRUE’ means that the UE may detect the presence of a E-UTRA cell and report to NAS
REL-8

NOTE:	It is always ensured by the UTRAN that priorities for different Radio Access Technologies are always different (e.g. a GERAN group of cells cannot have the same priority as a UTRA or E-UTRA frequency).
NOTE:	It is always ensured by the UTRAN that priorities for which both Threshx,high2 and Threshx,low2 are provided are always different from the priorities for which both Threshx,high2 and Threshx,low2 are not provided.
Condition
Explanation
E-UTRA-priority
This IE is optionally present if IE "Radio Access Technology" is set to E-UTRA and if IE "priority" is present. Otherwise it is not needed.

10.3.2.8	CSG Identity

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CSG Identity
MP

Bit string(27)
As defined in [76]
REL-8

10.3.2.9	CSG PSC Split Information

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Start PSC
MP

Integer (0..504 by step of 8)
The value of this IE specifies the start PSC of the first PSC range (NOTE 1).
REL-8
Number of PSCs
MP

Enumerated (5, 10, 15, 20, 30, 40, 50, 64, 80, 120, 160, 256, alltheRest)
This IE specifies the number of PSCs reserved for CSG cells in each PSC range. “alltheRest” indicates all values from Start PSC to 511.
Three spare values are needed.
REL-8
PSC Range 2 Offset
CV-alltheRest

Integer (8..504 by step of 8)
If this IE is included, the UE shall calculate the second PSC range (NOTE 2).
If this IE is not included, the UE shall consider the second PSC range to be not present.
REL-8
NOTE 1:	Let the IE "Start PSC" = s. and "Number of PSCs" = n. The complete set of (n) PSC values in range 1 is defined as: {s, ((s + 1) mod 512), ((s + 2) mod 512) ... ((s + n-1) mod 512)}.
NOTE 2:	Let the IEs "Start PSC" + "Number of PSCs" – 1 + "PSC Range 2 Offset" = s. and "Number of PSCs" = n. The complete set of (n) PSC values in range 2 is defined as: {(s mod 512), ((s + 1) mod 512), ((s + 2) mod 512) ... ((s + n-1) mod 512)}.

Condition
Explanation
alltheRest
This IE is optionally present if the value of IE “Number of PSCs” is not set to “alltheRest”. Otherwise, it is not needed. 

10.3.2.10	Dedicated WLAN Offload Information
This IE indicates dedicated information for RAN-assisted WLAN interworking.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE Configuration info
MP



REL-12
>Continue  


(no data)

REL-12
>New configuration




REL-12
>>T330
OP

Integer (5, 10, 20, 30, 60, 120, 180)
Time in minutes. One spare value is needed.
REL-12
>>WLAN Offload Information
MP

WLAN Offload Information
10.3.9b.3

REL-12

10.3.3	UE Information elements
10.3.3.1	Activation time
Activation Time defines the frame number/time at which the operation/changes caused by the related message shall take effect. Values between 0 and 255 indicate the absolute value of CFN (Connection Frame Number) of that frame number/time.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Activation time
MP

Integer(0..
255)
CFN [10]

10.3.3.1a	Dynamic activation time
Activation offset is used to calculate the frame number/time at which the operation/changes caused by the related message shall take effect. The result is a value between 0 and 255 indicating the absolute value of CFN (Connection Frame Number) of that frame number/time.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Activation offset
MD

Integer (0..15)
In radio frames. Default value is 0.
REL-13

10.3.3.2	Capability Update Requirement
This IE indicates to the UE which specific capabilities to transfer to the network.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE radio access FDD capability update requirement
MP

Boolean
TRUE indicates update required

UE radio access 3.84 Mcps TDD capability update requirement
MP

Boolean
TRUE indicates update required
Name changed in REL-4
UE radio access 7.68 Mcps TDD capability update requirement
MP

Boolean
TRUE indicates update required
REL-7
UE radio access 1.28 Mcps TDD capability update requirement
MP

Boolean
TRUE indicates update required
REL-4
System specific capability update requirement list
OP
1 to <maxSystemCapability>

In this version, a maximum size of 4 of the list shall be applied and any items after the 4th item in the list shall be ignored.

>System specific capability update requirement
MP

Enumerated (GSM 
Five spare values needed.




, GERAN Iu

REL-5



, E-UTRA)

REL-8
Requested E-UTRA Frequency Band list
CV-BCHopt
1 to 16


REL-10
>E-UTRA Frequency band
MP

Integer (1..256)
As defined in [64]. The value of 64 is reserved and shall not be used
REL-10

Condition
Explanation
BCHopt
This IE is not needed when sent in SYSTEM INFORMATION. Otherwise, the IE is optional

Default value is:
"UE radio capability FDD update requirement" = FALSE
"UE radio capability 3.84 Mcps TDD update requirement" = FALSE
"UE radio capability 7.68 Mcps TDD update requirement" = FALSE
"UE radio capability 1.28 Mcps TDD update requirement" = FALSE
"System specific capability update requirement" not present
"Requested E-UTRA Frequency Band list" not present.
10.3.3.3	Cell update cause
Indicates the cause for cell update.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Cell update cause
MP

Enumerated (cell reselection, periodical cell update, uplink data transmission, paging response, re-entered service area, radio link failure, RLC unrecoverable error, cellUpdateCause-ext)


Cell update cause Ext
OP

Enumerated (MBMS reception, MBMS ptp RB request, dummy, cellUpdateCause-ext2)

REL-6
Cell update cause Ext2
OP

Enumerated (application layer measurement report available)
Three spare values are needed.
REL-14

10.3.3.4	Ciphering Algorithm
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Ciphering algorithm
MP

Enumerated (UEA0, UEA1





, UEA2)

REL-7

10.3.3.5	Ciphering mode info
This information element contains the ciphering specific security mode control information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Ciphering mode command
MP

Enumerated (start/restart)

Ciphering algorithm 
MP

Ciphering algorithm 10.3.3.4

Ciphering activation time for DPCH
OP

Activation time
10.3.3.1
Used for radio bearers mapped on RLC-TM. Only applicable if the UE is already in CELL_DCH state
Radio bearer downlink ciphering activation time info
OP

RB activation time info, 10.3.4.13
Used for radio bearers mapped on RLC-AM or RLC-UM
The UTRAN should not include this IE in a message other than a SECURITY MODE COMMAND

10.3.3.6	CN domain specific DRX cycle length coefficient
A coefficient in the formula to count the paging occasions to be used by a specific UE (specified in [4]) .
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CN domain specific DRX cycle length coefficient
MP

Integer(6...9)
Refers to 'k' in the formula as specified in [4], Discontinuous reception

10.3.3.7	Void

10.3.3.7a	Common E-RNTI info
NOTE:	For 1.28 Mcps TDD only.
This IE defines the common E-RNTI used in enhanced CELL_FACH and Idle mode. Each instance in the IE "Common E-RNTI information" is related to an E-RUCCH which is defined in the PRACH system information in System Information Block 5. The first instance in IE "Common E-RNTI information" is related to the first instance of E-RUCCH in the PRACH system information in System Information Block 5 in the order of their appearances, the second instance in IE "Common E-RNTI information" is related to the second instance of E-RUCCH in the PRACH system information in System Information Block 5 and so on.
From each intance in the IE "Common E-RNTI information", we can compile a common E-RNTI list which is related to a certain E-RUCCH. For each E-RUCCH, there are a number of common E-RNTI groups related to it; up to 2 common E-RNTIs allocated in each group. The common E-RNTI list related to a certain E-RUCCH is derived in incremental manner with start code indicated by IE "Starting E-RNTI". The "Starting E-RNTI" corresponds to the first E-RNTI in the first group; if the "Number of E-RNTI per group" is bigger than one, then the sencond E-RNTI in the first group is derived by the first E-RNTI plus 1; the first E-RNTI in the second group is derived by the last of E-RNTI of the first group plus 1… the whole common E-RNTI list related to the E-RUCCH is compiled in this manner.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Common E-RNTI information
MP
1 to <maxERUCCH>


REL-8
>Starting E-RNTI
MP

E-RNTI 10.3.3.10a
Indicates the starting code of E-RNTI related to a certain E-RUCCH.
REL-8
>Number of group
MP

Integer(1.. maxERNTIgroup)
Indicates the number of common E-RNTI groups related to the E-RUCCH.
REL-8
>Number of E-RNTI per group
MP

Integer
(1.. maxERNTIperGroup)
Indicates the number of common E-RNTIs in the group.
REL-8

10.3.3.8	C-RNTI
The cell RNTI (C-RNTI) identifies a UE having a RRC connection within a cell.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
C-RNTI
MP

bit string(16)


10.3.3.8a	CSG proximity indication capability
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Support of intra-frequency proximity indication
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support intra-frequency proximity indication
REL-9
Support of inter-frequency proximity indication
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support inter-frequency proximity indication
REL-9
Support of E-UTRA proximity indication
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support E-UTRA proximity indication
REL-9

10.3.3.9	Void

10.3.3.9a	DSCH-RNTI
In TDD, the DSCH-RNTI identifies a UE in CELL_DCH or CELL_FACH using a DSCH or USCH within the cell.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
DSCH-RNTI
MP

bit string(16)


10.3.3.10	Void

10.3.3.10a	E-RNTI
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-RNTI
MP

bit string(16)

REL-6

10.3.3.11	Establishment cause
Cause for an RRC connection establishment request.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Establishment cause
MP

Enumerated(
Originating Conversational Call,
Originating Streaming Call,
Originating Interactive Call,
Originating Background Call,
Originating Subscribed traffic Call,
Terminating Conversational Call,
Terminating Streaming Call,
Terminating Interactive Call,
Terminating Background Call,
Emergency Call,
Inter-RAT cell re-selection,
Inter-RAT cell change order,
Registration, Detach,
Originating High Priority Signalling,
Originating Low Priority Signalling,
Call re-establishment,
Terminating High Priority Signalling,
Terminating Low Priority Signalling,
Terminating – cause unknown, MBMS reception, MBMS ptp RB request,
Nine spare values are needed.




Delay Tolerant Access)

REL-10

10.3.3.12	Expiration Time Factor
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Expiration Time Factor
MP

Enumerated(
2times, 4times,
8times,
16times, 32times, 64times, 128times, 256times)


10.3.3.12a	Extended Wait Time
The field defines the wait time for Delay Tolerant access request, to be passed to the UE upper layers.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Extended Wait time
MP

Integer(1..
1800)
Value  in seconds 

10.3.3.12b	Expiration Time Factor 2
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Expiration Time Factor 2
MP

Integer (0..15)

REL-12

10.3.3.13	Failure cause
Cause for failure to perform the requested procedure.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Failure cause
MP

Enumerated (configuration unsupported, physical channel failure, incompatible simultaneous reconfiguration, protocol error, compressed mode runtime error, cell update occurred, invalid configuration, configuration incomplete, unsupported measurement, MBMS session already received correctly, lower priority MBMS service)
Five spare values are needed.

10.3.3.14	Failure cause and error information
Cause for failure to perform the requested procedure.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Failure cause
MP

Failure cause 10.3.3.13

Protocol error information
CV-ProtErr

Protocol error information 10.3.8.12

Deleted TGPSI
CV-CompModeErr

TGPSI
10.3.6.82


Condition
Explanation
ProtErr
The IE is mandatory present if the IE "Failure cause" has the value "Protocol error"; otherwise it is not needed in the message.
CompModeErr
The IE is mandatory present if the IE "Failure cause" has the value " Compressed mode runtime error"; otherwise it is not needed in the message

10.3.3.14o	Group release information
Contains addressing information to perform a release of a group of RRC connections.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
U-RNTI group
MP

U-RNTI group 10.3.3.47a

REL-5

10.3.3.14a	H-RNTI
The H-RNTI identifies an UE having a HS-PDSCH assignment within a cell.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
H-RNTI
MP

bit string(16)

REL-5

10.3.3.14b	IMS Voice capability
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Voice over UTRA PS HS Support
OP

Enumerated (TRUE)
Absence of this IE means that the UE does not support IMS voice
REL-9
SRVCC Support from UTRA to UTRA
OP

Enumerated (TRUE)
Absence of this IE means that the UE does not support SRVCC from UTRA PS HS to UTRA CS
REL-9
SRVCC Support from UTRA to GERAN
OP

Enumerated (TRUE)
Absence of this IE means that the UE does not support SRVCC from UTRA PS HS to GERAN CS
REL-9
rSRVCC support from UTRA CS  to E-UTRAN FDD
OP

Enumerated (TRUE)
Absence of this IE means that the UE does not support rSRVCC from UTRA CS to E-UTRAN FDD
REL-11
rSRVCC support from UTRA CS  to E-UTRAN TDD
OP

Enumerated (TRUE)
Absence of this IE means that the UE does not support rSRVCC from UTRA CS to E-UTRAN TDD
REL-11

10.3.3.15	Initial UE identity
This information element identifies the UE at a request of an RRC connection.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE UE id type
MP



>IMSI (GSM-MAP)


IMSI (GSM-MAP) 10.3.1.5

>TMSI and LAI (GSM-MAP)




>>TMSI (GSM-MAP)
MP

TMSI (GSM-MAP) 10.3.1.17

 >>LAI (GSM-MAP)
MP

Location Area Identification 10.3.1.7

>P-TMSI and RAI (GSM-MAP)




>>P-TMSI (GSM-MAP)
MP

P-TMSI (GSM-MAP) 10.3.1.13

>>RAI (GSM-MAP)
MP

Routing Area Identification 10.3.1.16

>IMEI


IMEI 10.3.1.4

>ESN (DS-41)


Bit string (SIZE (32))
TIA/EIA/IS-2000-4
>IMSI (DS-41)


Octet string (SIZE (5..7))
TIA/EIA/IS-2000-4
>IMSI and ESN (DS-41)



TIA/EIA/IS-2000-4
>>IMSI (DS-41)
MP

Octet string (SIZE (5..7))
TIA/EIA/IS-2000-4
>>ESN (DS-41)
MP

Bit string (SIZE (32))
TIA/EIA/IS-2000-4
>TMSI (DS-41)


Octet string (SIZE (2..17))
TIA/EIA/IS-2000-4
Although normally upto 12 digits are used for this IE, a bigger length is used to support future extension.

10.3.3.16	Integrity check info
The Integrity check info contains the RRC message sequence number needed in the calculation of XMAC-I [40] and the calculated MAC-I.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Message authentication code
MP

bit string(32)
MAC-I [40].  The first/leftmost bit of the bit string contains the most significant bit of the MAC-I. The 27 MSB of the IE shall be set to zero and the 5 LSB of the IE shall be set to the value of the IE "RB identity" for the used signalling radio bearer when the encoded RRC message is used as the MESSAGE parameter in the integrity protection algorithm.
RRC Message sequence number
MP

Integer (0..15)
The local RRC hyper frame number (RRC HFN) is concatenated with the RRC message sequence number to form the input parameter COUNT-I for the integrity protection algorithm.
The IE value shall be set to zero when the encoded RRC message is used as the MESSAGE parameter in the integrity protection algorithm.

10.3.3.17	Integrity protection activation info
This IE contains the time, in terms of RRC sequence numbers, when a new integrity protection configuration shall be activated for the signalling radio bearers.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RRC message sequence number list
MP
4 to 5

The RRC sequence number when a new integrity protection configuration shall be applied, for signalling radio bearers in the order RB0, RB1, RB2, RB3, RB4.

The value for RB1 shall be ignored if this IE was included in a RRC message sent on RB1.

The value for RB2 shall be ignored if this IE was included in a RRC message sent on RB2.
>RRC message sequence number
MP

Integer (0..
15)


10.3.3.18	Integrity protection Algorithm
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Integrity protection algorithm
MP

Enumerated (UIA1





, UIA2)

REL-7

10.3.3.19	Integrity protection mode info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Integrity protection mode command
MP

Enumerated(start, modify)

Downlink integrity protection activation info
CV-modify

Integrity protection activation info 10.3.3.17

Integrity protection algorithm 
OP

Integrity protection algorithm 10.3.3.18

Integrity protection initialisation number
CV-start

Bit string(32)
FRESH [40]. The first/leftmost bit of the bit string contains the most significant bit of the FRESH.

Condition
Explanation
Start
The IE is mandatory present if the IE "Integrity protection mode command" has the value "start ", otherwise it is not needed in the message.
Modify
The IE is mandatory present if the IE "Integrity protection mode command" has the value "modify" and not needed otherwise.

10.3.3.19a	Void

10.3.3.20	Void

10.3.3.21	Measurement capability
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Inter-frequency detected set measurements
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE is able to measure inter-frequency detected cells.
REL-10
Cells excluded from detected set measurements
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE is able to exclude cells from detected set measurements.
REL-11
Wideband RSRQ FDD measurements
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE is able to perform wideband RSRQ FDD measurements.
REL-11
Wideband RSRQ TDD measurements
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE is able to perform wideband RSRQ TDD measurements.
REL-11
Event 2g reporting on a configured secondary downlink frequency
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE is able to perform event 2g reporting on a configured secondary downlink frequency.
REL-12
Enhanced UPH reporting
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE is able to perform reporting of filtered UPH measurement.
REL-12
RRC measurement events for UPH reporting
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE is able to perform event 6h and 6i reporting.
REL-14
Increased UE carrier monitoring UTRA 
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE supports increased number of UTRA carrier monitoring in connected and idle mode as defined in [19].
REL-12
Increased UE carrier monitoring E-UTRA 
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE supports increased number of E-UTRA carrier monitoring in connected and idle mode as defined in [74].
REL-12
Extended RSRQ lower value range 
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE supports the extended RSRQ lower value range  from -34dB to -19.5dB.
REL-12
RSRQ measurement on all symbols
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE supports the RSRQ measurement on all OFDM symbols and the extended upper RSRQ value range from -3dB to 2.5dB.
REL-12
QoE Measurement Collection for streaming services
CV-not_iRAT_HoInfo

Enumerated (TRUE)
TRUE means that the UE supports QoE Measurement Collection for streaming services.
REL-14
QoE Measurement Collection for MTSI services
CV-not_iRAT_HoInfo

Enumerated (TRUE)
TRUE means that the UE supports QoE Measurement Collection for MTSI services.
REL-15
Need for downlink compressed mode





FDD measurements
MP

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on FDD

3.84 Mcps TDD measurements
CV-3.84_Mcps_tdd_sup

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on 3.84 Mcps TDD
Name changed in REL-4
7.68 Mcps TDD measurements
CV-7.68_Mcps_tdd_sup

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on 7.68 Mcps TDD
REL-7
1.28 Mcps TDD measurements
CV-1.28_Mcps_tdd_sup

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on 1.28 Mcps TDD
REL-4
GSM measurements
CV-gsm_sup




>GSM 900
MP

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on GSM 900

>DCS 1800
MP

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on DCS 1800

>GSM 1900
MP

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on GSM 1900

Multi-carrier measurement
CV-mc_sup

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on multi-carrier

Adjacent Frequency measurements without compressed mode
CV-not_iRAT_HoInfo

Enumerated (TRUE)
TRUE means that the UE does not require compressed mode for adjacent frequency measurements.
REL-8
Inter-band Frequency measurements without compressed mode
CV-not_iRAT_HoInfo

Enumerated (TRUE)
TRUE means that the UE does not require compressed mode for Inter-band measurements for the band combinations reported in the IE “Radio Access Capability Band Combination List”.
REL-9
Enhanced inter-frequency measurements without compressed mode
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE does not require compressed mode for measurements on two additional frequencies
REL-10
Frequency specific compressed mode
CV-not_iRAT_HoInfo

Enumerated (TRUE)
TRUE means that for the dual band operation the UE can apply compressed mode only to the configured frequencies, which belong to the frequency band other than the serving HS-DSCH cell.
REL-10
Inter-frequency measurements on configured carriers without compressed mode
CV-not_iRAT_HoInfo

Enumerated (TRUE)
TRUE means that the UE does not require compressed mode for measurements on the frequencies which are configured for HS-DSCH operation and associated with the secondary serving HS-DSCH cells.
REL-11
Need for uplink compressed mode





FDD measurements
MP

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on FDD

3.84 Mcps TDD measurements
CV-3.84_Mcps_tdd_sup

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on 3.84 Mcps TDD
Name changed in REL-4
7.68 Mcps TDD measurements
CV-7.68_Mcps_tdd_sup

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on 7.68 Mcps TDD
REL-7
1.28 Mcps TDD measurements
CV-1.28_Mcps_tdd_sup

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on 1.28 Mcps TDD
REL-4
GSM measurements
CV-gsm_sup




>GSM 900
MP

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on GSM 900

>DCS 1800
MP

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on DCS 1800

>GSM 1900
MP

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on GSM 1900

Multi-carrier measurement
CV-mc_sup

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on multi-carrier


Condition
Explanation
3.84_Mcps_tdd_sup
The IE is mandatory present if an IE "TDD RF capability" is present with the IE "Chip rate capability" set to "3.84 Mcps". Otherwise this field is not needed in the message.
7.68_Mcps_tdd_sup
The IE is mandatory present if an IE “TDD RF capability” is present with the IE “Chip rate capability” set to “7.68 Mcps”. Otherwise this field is not needed in the message.
1.28_Mcps_tdd_sup
The IE is mandatory present if an IE "TDD RF capability" is present with the IE "Chip rate capability" set to "1.28 Mcps". Otherwise this field is not needed in the message.
gsm_sup
The IE is mandatory present if the IE "Inter-RAT UE radio access capability" indicates support for GSM900, GSM1800 and/or GSM1900. Otherwise this field is not needed in the message.
mc_sup
The IE is mandatory present if the IE "Support of multi-carrier" has the value TRUE. Otherwise this field is not needed in the message.
not_iRAT_HoInfo
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is optionally present.

10.3.3.21a	Measurement capability extension
This IE may be used to replace the measurement capability information provided within IE "Measurement capability".
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
FDD measurements
MP
1 to <maxFreqBandsFDD>

The network should ignore the entry that includes the ‘extension indicator’.



1 to <maxFreqBandsFDD2>


REL-6


1 to <maxFreqBandsFDD3>


REL-10
>FDD Frequency band
CV-fdd2

Enumerated(Band I, Band II,
The default value is the same as indicated in the IE "Frequency band" included in the IE " UE radio access capability extension". Band numbering is defined in [21].




Band III,

REL-5



Band VI, Band IV, Band V, Band VII, extension indicator)
The default value is the same as R99, if the IE “FDD Frequency band 2” below is not included. The setting of the value ‘extension indicator’ by the UE is not specified in the specification.
REL-6
>FDD Frequency band 2
CV-fdd1

Enumerated(Band VIII, Band IX, Band X, Band XI, Band XII, Band XIII, Band XIV, Band XIX, Band XXI, Band XX, Band XXII, extension Indicator)
The default value is the same as indicated in the IE "Frequency band 2" included in the IE " UE radio access capability extension", if the IE “FDD Frequency band” above is not included. 
The setting of the value ‘extension indicator’ by the UE is not specified in the specification.
Four spare values are needed
REL-6
>FDD Frequency band 3
OP

Enumerated (Band XXV, Band XXVI, Band XXXII,
extension indicator)
If the IE is not present the value is the same as indicated in the IE "Frequency band 3" if included in the IE " UE radio access capability extension".
The setting of the value ‘extension indicator’ by the UE is not specified in the specification.
Sixty spare
values are needed
REL-10
>Need for DL compressed mode 
MP

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on the FDD frequency band indicated by the IE "FDD Frequency band"

>Need for UL compressed mode
MP

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on the FDD frequency band indicated by the IE "FDD Frequency band"

TDD measurements
CV-tdd_sup
1 to <maxFreqBandsTDD>



>TDD Frequency band
MP

Enumerated(a, b, c)





Enumerated(a, b, c, d)

REL-7
>Need for DL compressed mode
MP

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on TDD frequency band indicated by the IE "TDD Frequency band"

>Need for UL compressed mode
MP

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on TDD frequency band indicated by the IE "TDD Frequency band"

GSM measurements
CV-gsm_sup
1 to <maxFreqBandsGSM>



>GSM Frequency band
MP

Enumerated(GSM450, GSM480, GSM850, GSM900P, GSM900E, GSM1800, GSM1900)
as defined in [45].
Nine spare values are needed.

>Need for DL compressed mode
MP

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on GSM frequency band indicated by the IE "GSM Frequency band"

>Need for UL compressed mode
MP

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on GSM frequency band indicated by the IE "GSM Frequency band"

Multi-carrier measurement
CV-mc_sup




>Need for DL compressed mode
MP

Boolean
TRUE means that the UE requires DL compressed mode in order to perform measurements on multi-carrier

>Need for UL compressed mode
MP

Boolean
TRUE means that the UE requires UL compressed mode in order to perform measurements on multi-carrier

E-UTRA measurements
CV-eutra_sup
1 to <maxFreqBandsEUTRA>

Note 1
REL-8
>E-UTRA Frequency band
MP

Integer (1..64)
As defined in [64]. If the IE indicates a value of 64, then the E-UTRA Frequency band for this instance should be read from the corresponding instance of IE "E-UTRA Frequency band extension" in the E-UTRA measurements extension.
REL-8
>Need for compressed mode
MP

Boolean
TRUE means that the UE requires DL and UL compressed mode in order to perform measurements on E-UTRA frequency band indicated by the IE "E-UTRA Frequency band"
REL-8
E-UTRA measurements extension
CV-extended_eutra_sup
1 to <maxFreqBandsEUTRA>

Note 1
REL-11
>E-UTRA Frequency band extension
MP

Integer (65..256)
As defined in [64].
Note 2
REL-11
E-UTRA measurements extension 1
CV- extended_meas_eutra_sup
1 to <maxFreqBandsEUTRA-ext>

Note 1
REL-11
>E-UTRA Frequency band extension 1
MP

Integer (1..256)
As defined in [64]. The value of 64 is reserved and shall not be used.

REL-11

>Need for compressed mode
MP

Boolean
TRUE means that the UE requires DL and UL compressed mode in order to perform measurements on E-UTRA frequency band indicated by the IE "E-UTRA Frequency band extension 1"
REL-11
Note 1:	Indicates E-UTRA bands supported and the need for compressed mode, E-UTRAN measurement support may be separately indicated as specified in Annex E.
Note 2:	If the corresponding instance of IE "E-UTRA Frequency band" does not indicate the reserved value of 64, then the UE can signal any valid value of IE "E-UTRA Frequency band extension".

Condition
Explanation
tdd_sup
The IE is mandatory present if the IE "Multi-mode capability" has the value "TDD" or "FDD/TDD". Otherwise this field is not needed in the message.
gsm_sup
The IE is mandatory present if the IE "Support of GSM" has the value TRUE. Otherwise this field is not needed in the message.
mc_sup
The IE is mandatory present if the IE "Support of multi-carrier" has the value TRUE. Otherwise this field is not needed in the message.
eutra_sup
At least one of these IEs is mandatory present if the IE "Support of E-UTRA" has the value TRUE. Otherwise these fields are not needed in the message.
extended_eutra_sup
At least one of these IEs is mandatory present if the IE "Support of E-UTRA" has the value TRUE and the UE supports a E-UTRA frequency band greater than 64. Otherwise these fields are not needed in the message.
extended_meas_eutra_sup
At least one of these IEs is mandatory present if the IE "Support of E-UTRA" has the value TRUE and the UE needs to report E-UTRA measurement capability for more than 16 E-UTRA bands. Otherwise these fields are not needed in the message.
fdd1
The IE is mandatory default if the IE "FDD Frequency band" is not included in the message. Otherwise this field is not needed in the message.
fdd2
The IE is mandatory default if the IE "FDD Frequency band 2" is not included in the message. Otherwise this field is not needed in the message.

10.3.3.21b	Measurement capability TDD
This IE is only used for TDD if the UE is a multi-RAT capable which also supports E-UTRA.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-UTRA measurements
CV-eutra_sup
1 to <maxFreqBandsEUTRA>

Note 1
REL-8
>E-UTRA Frequency band
MP

Integer (1..64)
As defined in [64]. If the IE indicates a value of 64, then the E-UTRA Frequency band for this instance should be read from the corresponding instance of IE "E-UTRA Frequency band extension" in the E-UTRA measurements extension.
REL-8
>Need for Idle Interval
MP

Boolean
TRUE means that the UE requires idle interval in order to perform measurements on E-UTRA frequency band indicated by the IE "E-UTRA Frequency band"
REL-8
E-UTRA measurements extension
CV-extended_eutra_sup
1 to <maxFreqBandsEUTRA>

Note 1
REL-11
>E-UTRA Frequency band extension
MP

Integer (65..256)
As defined in [64].
Note 2
REL-11
Note 1:	Indicates E-UTRA bands supported and the need for idle interval, E-UTRAN measurement support may be separately indicated as specified in Annex E.
Note 2:	If the corresponding instance of IE "E-UTRA Frequency band" does not indicate the reserved value of 64, then the UE can signal any valid value of IE "E-UTRA Frequency band extension".

Condition
Explanation
eutra_sup
At least one of these IEs is mandatory present if the IE "Support of E-UTRA" has the value TRUE. Otherwise these fields are not needed in the message.
extended_eutra_sup
At least one of these IEs is mandatory present if the IE "Support of E-UTRA" has the value TRUE and the UE supports a E-UTRA frequency band greater than 64. Otherwise these fields are not needed in the message.

10.3.3.21ba	Multiflow capability
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Support for Multiflow with MIMO operation in different bands
OP

Enumerated(single-stream, dual-stream)
Absence of this IE means that a UE does not support MIMO with Multiflow in different bands. Otherwise, it indicates whether a UE support single-stream or dual-stream MIMO.
REL-11
Longer HARQ processing time 
OP

Enumerated(TRUE)
Presence of this IE indicates that a UE needs more time to generate the HARQ feedback with Multiflow and MIMO as described in [26], sub-clause 7.7.2.
REL-11

10.3.3.21bb	Multiflow per band capability
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Number of cells
MP

Integer(2..8)
Total number of cells that can be configured to a UE as a part of Multiflow configuration. In this version of the specification, the maximum value is 4.
REL-11
Number of frequencies
MP

Integer(1..4)
Total number of frequencies, across which the Multiflow can be configured.
In this version of the specification, the maximum value is 2.
REL-11




In this version of the specification, the maximum value is 3.
REL-13
MIMO support 
OP

Enumerated(single-stream, dual-stream)
Absence of this IE means that a UE does not support MIMO with Multiflow. Otherwise, it indicates whether a UE support single-stream or dual-stream MIMO.
REL-11
Non-contiguous multi-cell
OP


Presence of this IE indicates that a UE supports Multiflow operation with non-contiguous cells.
REL-11
>Gap size
MP

Enumerated(fiveMHz, tenMHz, anyGapSize)
This IE indicates the maximum gap size between the aggregated cells.
"fiveMHz" indicates that UE supports 5 MHz gap size.
"tenMHz" indicates that UE supports 10 MHz gap size and 5 MHz gap size.

"anyGapSize" indicates that UE supports any multiple of 5 MHz gap size.

5 spare values are required.
REL-11

10.3.3.21c	Neighbour Cell SI acquisition capability
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Support of intra-frequency SI acquisition for HO
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support intra-frequency SI acquisition for HO
REL-9
Support of inter-frequency SI acquisition for HO
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support inter-frequency SI acquisition for HO
REL-9
Support of E-UTRA SI acquisition for HO
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support E-UTRA SI acquisition for HO
REL-9

10.3.3.22	Paging cause
Cause for a CN originated page.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Paging cause
MP

Enumerated(
Terminating Conversational Call,
Terminating Streaming Call,
Terminating Interactive Call,
Terminating Background Call, Terminating High Priority Signalling,
Terminating Low Priority Signalling,
Terminating – cause unknown
)
One spare value is needed.

10.3.3.23	Paging record
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Used paging identity
MP




>CN identity





>>Paging cause
MP

Paging cause 10.3.3.22


>>CN domain identity
MP

CN domain identity 10.3.1.1


>>CHOICE UE Identity
MP


Three spare values are needed.

>>>IMSI (GSM-MAP)


IMSI (GSM-MAP) 10.3.1.5


>>>TMSI (GSM-MAP)


TMSI (GSM-MAP) 10.3.1.17


>>>P-TMSI (GSM-MAP)


P-TMSI (GSM-MAP) 10.3.1.13


>>>IMSI (DS-41)


Octet string (SIZE (5..7))
TIA/EIA/IS-2000-4

>>>TMSI (DS-41)


Octet string (SIZE (2..17))
TIA/EIA/IS-2000-4

>UTRAN single UE identity





>>U-RNTI
MP

U-RNTI 10.3.3.47


>>CN originated page to connected mode UE
OP




>>>Paging cause
MP

Paging cause 10.3.3.22


>>>CN domain identity
MP

CN domain identity 10.3.1.1



>>>Paging record type identifier
MP

Paging record type identifier
10.3.1.10


>>RRC connection release information
MP

RRC connection release information 10.3.3.35o

REL-5
>UTRAN group identity

1 to <maxURNTIgroup>


REL-5
>>RRC connection release information
MP

RRC connection release information 10.3.3.35o

REL-5
>>Group release information
MP

Group release information 10.3.3.14o

REL-5

Condition
Explanation
CHOICE Used paging identity
Condition under which the given used paging identity is chosen
CN identity
For CN originating pages (for idle mode UEs)
UTRAN single UE identity
For UTRAN originating pages (for connected mode UEs), addressing a single UE
UTRAN group identity
For UTRAN originating pages (for connected mode UEs), addressing a group of UEs

10.3.3.24	PDCP capability
Indicates which algorithms and which value range of their parameters are supported by the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Support for lossless SRNS relocation
MP

Boolean
TRUE means supported

Support for lossless DL RLC PDU size change
CV-not_iRAT_HoInfo2

Boolean
TRUE means supported Default value is FALSE
REL-5
Support for RFC2507
MP

Boolean
TRUE means supported

>Max HC context space
MP

Integer(1024, 2048, 4096, 8192, 





16384, 32768, 65536, 131072)
Note 1
REL-5
Support for RFC 3095
CV-not_iRAT_HoInfo

Boolean
TRUE means header compression according to IETF ROHC standard [83], [84] is supported
REL-4
>Maximum number of ROHC context sessions
MD

Integer( 2, 4, 8, 12, 16, 24, 32, 48, 64, 128, 256, 512, 1024, 16384)
Default value is 16.
REL-4
>Reverse decompression depth
MD

Integer (0..65535)
Default value is 0 (reverse decompression is not supported).
REL-4
>Support for RFC 3095 context relocation
MP

Boolean
TRUE means supported
REL-5
Support for CS Voice over HSPA
CV-not_iRAT_HoInfo3

Enumerated (TRUE)
The IE indicates the UE’s support for CS Voice over HSPA, if set.
REL-8
Note 1:	The IE "Max HC context space" values 16384, 32768, 65536 and 131072 are not used in the INTER 	RAT HANDOVER INFO message.

Condition
Explanation
not_iRAT_HoInfo
The IE is optionally present in the INTER RAT HANDOVER INFO message. Otherwise, it is mandatory present.
not_iRAT_HoInfo2
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is mandatory default.
not_iRAT_HoInfo3
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is optionally present.

10.3.3.25	Physical channel capability
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Downlink physical channel capability information elements





FDD downlink physical channel capability
CH-fdd_req_sup




>Max no DPCH codes
MP

Integer
(1..8)
Maximum number of DPCH codes to be simultaneously received

>Max no physical channel bits received
MP

Integer
(1200, 2400, 3600, 4800, 7200, 9600, 14400, 19200, 28800, 38400, 48000, 57600, 67200, 76800)
Maximum number of physical channel bits received in any 10 ms interval (DPCH, S-CCPCH)

>Support for SF 512 and 80 ms TTI for DPCH
MP

Boolean
TRUE means supported

>Support for DCH Enhancements
CV-not_iRAT_HoInfo2

Enumerated (Basic, Full)
The absence of this IE indicates that the UE does not support DCH Enhancements
REL-12
>Simultaneous support for DCH Enhancements and Compressed Mode operation
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support simultaneous operation of DCH Enhancements and Compressed Mode.
REL-12
>Simultaneous support for DCH Enhancements and DPCCH Discontinuous Transmission
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support simultaneous operation of DCH Enhancements and DPCCH Discontinuous Transmission.
REL-12
>Support of Enhanced Serving Cell Change for Event 1c
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Enhanced Serving Cell Change for Event 1c operation.
REL-12
>Support of DPCCH2
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support DPCCH2 transmission.
REL-12
>Support of power control algorithm 3
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support power control algorithm 3.
REL-13
>Support of blind HARQ retransmissions for HSDPA
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support blind HARQ retransmissions for HSDPA.
REL-13
>CHOICE Support of HS-PDSCH
CV-not_iRAT_HoInfo



REL-5
>>Supported




REL-5
>>>HS-DSCH physical layer category
MP

Integer
(1..64)
As defined in [35]. 
Values 13...64 are spares.
See Note 5.
REL-5
>>>HS-DSCH physical layer category extension
OP

Integer (1..20)
As defined in [35].
See Note 6.
REL-7
>>>HS-DSCH physical layer category extension 2
OP

Integer
(21..24)
As defined in [35].
See Note 12. Absence of this IE means that dual cell operation is not supported.
REL-8
>>>HS-DSCH physical layer category extension 3
OP

Integer
(25..28)
As defined in [35].
See Note 13. Absence of this IE means that dual cell operation is not supported with MIMO.
REL-9
>>>HS-DSCH physical layer category extension 4
OP

Integer (29,30)
As defined in [35].
See Note 16.
Absence of this IE means the multi-cell operation on three cells is not supported.
REL-10
>>>HS-DSCH physical layer category extension 5
OP

Integer (31,32)
As defined in [35].
See Note 17.
Absence of this IE means the multi-cell operation on four cells is not supported.
REL-10
>>>HS-DSCH physical layer category extension 6
OP

Integer (33,34)
As defined in [35].
See Note 18.
Absence of this IE means the multi-cell operation on five and /or six cells is not supported.
REL-11
>>>HS-DSCH physical layer category extension 7
OP

Integer (35,36)
As defined in [35].
See Note 19.
Absence of this IE means the multi-cell operation on seven and/or eight cells is not supported.
REL-11
>>>HS-DSCH physical layer category extension 8
OP

Integer (37,38)
As defined in [35].
See Note 20.
Absence of this IE means the MIMO mode with four transmit antennas operation is not supported.
REL-11
>>>HS-SCCHless HS-DSCH operation support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-SCCHless HS-DSCH operation.
REL-7
>>>Enhanced F-DPCH support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support enhanced F-DPCH
REL-7
>>>HS-PDSCH in CELL_FACH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-PDSCH reception in CELL_FACH
REL-7
>>>HS-PDSCH in CELL_PCH and URA_PCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-PDSCH in neither CELL_PCH nor URA_PCH states.
REL-7
>>>Target Cell Pre-Configuration
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-SCCH reception in target cell
REL-8
>>>Support of HS-DSCH DRX operation
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-DSCH DRX operation
REL-8
>>>Support of MIMO only with single stream restriction
OP

Enumerated (TRUE)
The presence of this IE means that the UE supports MIMO only with single stream restriction.
REL-9
>>> Non-contiguous multi-cell with MIMO
OP

Enumerated (TRUE)
The presence of this IE means that the UE supports non-contiguous multi-cell with MIMO in the frequency bands where it supports non-contiguous multi-cell operation.
REL-11
>>>Support of MIMO mode with four transmit antennas only with dual stream restriction
OP

Enumerated (TRUE)
The presence of this IE means that the UE supports MIMO mode with four transmit antennas operation only with dual stream restriction.
REL-11
>>>Support of NodeB triggered HS-DPCCH transmission
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support NodeB triggered HS-DPCCH transmission
REL-11
>>>Support of HS-DSCH DRX operation with second DRX cycle
OP 

Enumerated (TRUE) 
The absence of this IE indicates that the UE does not support HS-DSCH DRX operation with second DRX cycle in CELL_FACH state. 
REL-11 
>>>Support of Simplified HS-SCCH type 1 operation
OP 

Enumerated (TRUE) 
The presence of this IE indicates that Simplified HS-SCCH type 1 operation is applicable.
REL-15
>>Unsupported



(no data)
REL-5
>DRX enhancements
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support DRX enhancements.
REL-12
>HS-DPCCH overhead reduction
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-DPCCH overhead reduction for multi-RAB with DCH.
REL-12
>Support of HS-SCCH DRX operation
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-SCCH DRX operation
REL-14
3.84 Mcps TDD downlink physical channel capability
CH-3.84_Mcps_tdd_req_sup



Name changed in REL-4
>Maximum number of timeslots per frame
MP

Integer
(1..14)


>Maximum number of physical channels per frame
MP

Integer
(1..224)


>Minimum SF
MP

Integer (1, 16)


>Support of PDSCH
MP

Boolean
TRUE means supported

>CHOICE Support of HS-PDSCH
CV-not_iRAT_HoInfo



REL-5
>>Supported




REL-5
>>>HS-DSCH physical layer category
MP

Integer
(1..64)
As defined in [35]
REL-5
>>Unsupported



(no data)
REL-5
>Maximum number of physical channels per timeslot
MP

Integer (5..16)


7.68 Mcps TDD downlink physical channel capability
CH-7.68_Mcps_tdd_req_sup



REL-7
>Maximum number of timeslots per frame
MP

Integer
(1..14)

REL-7
>Maximum number of physical channels per frame
MP

Integer
(1..448)

REL-7
>Minimum SF
MP

Integer (1, 32)

REL-7
>Support of PDSCH
MP

Boolean
TRUE means supported
REL-7
>CHOICE Support of HS-PDSCH
CV-not_iRAT_HoInfo



REL-7
>>Supported




REL-7
>>>HS-DSCH physical layer category
MP

Integer
(1..64)
As defined in [35]
REL-7
>>Unsupported



(no data)
REL-7
>Maximum number of physical channels per timeslot
MP

Integer (1..32)

REL-7
1.28 Mcps TDD downlink physical channel capability
CH-1.28_Mcps_tdd_req_sup



REL-4
>Maximum number of timeslots per subframe
MP

Integer (1..6)

REL-4
>Maximum number of physical channels per subframe
MP

Integer (1..96)

REL-4
>Minimum SF
MP

Integer (1, 16)

REL-4
>Support of PDSCH
MP

Boolean
TRUE means supported
REL-4
>CHOICE Support of HS-PDSCH
CV-not_iRAT_HoInfo



REL-5
>>Supported




REL-5
>>>HS-DSCH physical layer category
MP

Integer
(1..64)
As defined in [35]. Values 16...64 are spares.
See Note 8.
REL-5
>>>HS-DSCH physical layer category extension
OP

Integer (1..64)
As defined in [35].
See Note 6.
REL-8
>>>Multi-carrier HS-DSCH physical layer category
OP

Integer
(1..64)
As defined in [35].
Absent if downlink multiple carrier is not supported. Values 45...64 are spares.
See Note 10.
REL-7
>>>Multi-carrier HS-DSCH physical layer category extension
OP

Integer (1..36)
As defined in [35].
Absent if downlink multiple carrier is not supported. 
See Note 11.
REL-8
>>>Multi-carrier HS-DSCH physical layer category extension2
OP

Integer (37..64)
This IE shall be used if the Multi-carrier HS-DSCH physical layer category is larger than 36. 
Values 45...64 are spares.
See Note 11.
REL-10
>>>Support of SF Mode For HS-PDSCH dual stream
OP

Enumerated (SF1, SF1/SF16)
For,1.28 Mcps TDD only
The absence of this IE indicates that the UE does not support MIMO.
REL-8
>>Unsupported



(no data)
REL-5
>Maximum number of physical channels per timeslot
MP

Integer (1..16)

REL-4
>Support of 8PSK
MP

Boolean
TRUE means supported
REL-4
>Support of non-rectangular resource allocation
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
For 1.28 Mcps TDD only.The absence of this IE indicates that the UE does not support the non-rectangular resource allocation.
REL-12
Uplink physical channel capability information elements





FDD uplink physical channel capability
CH-fdd_req_sup




>Maximum number of DPDCH bits transmitted per 10 ms
MP

Integer (600, 1200, 2400, 4800. 9600, 19200. 28800, 38400, 48000, 57600)


>Support of cell reselection indication reporting
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support the report of Cell Reselection Indication during common E-DCH transmission.
REL-12
>Support of Serving E-DCH cell decoupling
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Serving E-DCH cell decoupling operation.
REL-12
>Support of Radio Links without DPCH/F-DPCH
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Radio Links without DPCH/F-DPCH.
REL-12
>CHOICE Support of E-DCH
CV-not_iRAT_HoInfo



REL-6
>>Supported




REL-6
>>>E-DCH physical layer category
MP

Integer (1..16)
As defined in [35] in Rel-6
Values 7 to 16 are spares.
See Note 4.
REL-6
>>>E-DCH physical layer category extension
OP

Integer (7)
As defined in [35].
REL-7
>>>E-DCH physical layer category extension 2
OP

Integer
(8..9)
As defined in [35].
See Note 14. Absence of this IE means that Dual Cell E-DCH operation is not supported.
REL-9
>>>E-DCH physical layer category extension 3
OP

Integer
(10..12)
As defined in [35]. See Note 21.
Absence of this IE means that neither 64 QAM in the uplink nor UL MIMO operation is supported.
REL-11
>>>DPCCH Discontinuous Transmission support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support DPCCH Discontinuous Transmission
REL-7
>>>Slot Format #4 support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Slot Format #4
REL-7
>>Unsupported



(no data)
REL-6
>Access Groups based access control
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support control of DTCH transmissions in CELL_FACH and CELL_PCH.
REL-12
>Enhanced TTI switching
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Enhanced TTI switching.
REL-12
>Implicit Grant handling
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Implicit Grants on the Secondary Uplink frequency.
REL-12
>DTX enhancements
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support DTX enhancements.
REL-12
>Support of dual cell E-DCH transmission with DPDCH
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support dual cell E-DCH transmission with DPDCH.
REL-13
>Support of Dual Cell E-DCH operation enhancements
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Dual Cell E-DCH operation enhancements.
REL-14
3.84 Mcps TDD uplink physical channel capability
CH-3.84_Mcps_tdd_req_sup



Name changed in REL-4
>Maximum Number of timeslots per frame
MP

Integer
(1..14)


>Maximum number of physical channels per timeslot
MP

Integer
(1, 2)


>Minimum SF
MP

Integer
(1, 2, 4, 8)


>Support of PUSCH
MP

Boolean
TRUE means supported

>CHOICE Support of E-DCH
CV-not_iRAT_HoInfo



REL-7
>>Supported




REL-7
>>>E-DCH physical layer category
MP

Integer (1..16)
As defined in [35]
REL-7
>>Unsupported



(no data)
REL-7
7.68 Mcps TDD uplink physical channel capability
CH-7.68_Mcps_tdd_req_sup



REL-7
>Maximum Number of timeslots per frame
MP

Integer
(1..14)

REL-7
>Maximum number of physical channels per timeslot
MP

Integer
(1, 2)

REL-7
>Minimum SF
MP

Integer
(1, 2, 4, 8)

REL-7
>Support of PUSCH
MP

Boolean
TRUE means supported
REL-7
>CHOICE Support of E-DCH
CV-not_iRAT_HoInfo



REL-7
>>Supported




REL-7
>>>E-DCH physical layer category
MP

Integer (1..16)
As defined in [35]
REL-7
>>Unsupported



(no data)
REL-7
1.28 Mcps TDD uplink physical channel capability
CH-1.28_Mcps_tdd_req_sup



REL-4
>Maximum Number of timeslots per subframe
MP

Integer
(1..6)

REL-4
>Maximum number of physical channels per timeslot
MP

Integer
(1, 2,

REL-4



3, 4)

REL-7
>Minimum SF
MP

Integer
(1, 2, 4, 8, 16)

REL-4
>Support of PUSCH
MP

Boolean
TRUE means supported
REL-4
>Support of 8PSK
MP

Boolean
TRUE means supported
REL-4
>CHOICE Support of E-DCH
CV-not_iRAT_HoInfo



REL-7
>>Supported




REL-7
>>>E-DCH physical layer category
MP

Integer (1..6)
As defined in [35]
In case of multi-carrier E-DCH, this IE indicates the capability for each single carrier.
REL-7
>>>Multi-carrier E-DCH physical layer category
OP

Integer (1..8)
As defined in [35]
Absent if multiple carrier E-DCH is not supported.
See Note 15.
REL-10
>>>Maximum number of Carriers for Multi-carrier E-DCH 
OP

Enumerated (nf-2, nf-3, nf-6)
One spare value is needed.
REL-10
>>Unsupported



(no data)
REL-7
NOTE 1: 	Void.
NOTE 2: 	Void.
NOTE 3: 	Void.
NOTE 4: 	All UEs supporting E-DCH should signal a category between 1 and 6 for this IE even if the UE physical capability category is above 6.
NOTE 5:	All UEs supporting HS-DSCH should signal a category between 1 and 12 for this IE even if the UE physical capability category is above 12. This IE corresponds to the HS-DSCH category supported by the UE when MAC-ehs is not configured.
NOTE 6:	This IE corresponds to the HS-DSCH category supported by the UE when MAC-ehs is configured.
NOTE 7:	Void
NOTE 8:	All UEs supporting HS-DSCH should signal a category between 1 and 15 for this IE even if the UE physical capability category is above 15. This IE corresponds to the HS-DSCH category supported by the UE when MAC-ehs is not configured.
NOTE 9:	Void.
NOTE 10:	All UEs supporting multi-carrier HS-DSCH should signal a category between 1 and 18 or 39, 40, 43, 44 for this IE. This IE corresponds to the multi-carrier HS-DSCH category supported by the UE when MAC-ehs is not configured.
NOTE 11:	This IE corresponds to the multi-carrier HS-DSCH category supported by the UE when MAC-ehs is configured.
NOTE 12:	This IE corresponds to the HS-DSCH category supported by the UE when dual cell operation is configured.
NOTE 13:	This IE corresponds to the HS-DSCH category supported by the UE when dual cell operation is configured with MIMO.
NOTE 14:	This IE corresponds to the E-DCH category supported by the UE when Dual Cell E-DCH operation is configured.
NOTE 15:	This IE corresponds to the E-DCH category supported by the UE when Multi-carrier E-DCH operation is configured.
NOTE 16: This IE corresponds to the HS-DSCH category supported by the UE when it is configured with multi-cell operation on three cells.
NOTE 17: This IE corresponds to the HS-DSCH category supported by the UE when it is configured with multi-cell operation on four cells.
NOTE 18:	This IE corresponds to the HS-DSCH category supported by the UE when it is configured with multi-cell operation on five and/or six cells.
NOTE 19:	This IE corresponds to the HS-DSCH category supported by the UE when it is configured with multi-cell operation on seven and/or eight cells.
NOTE 20:	This IE corresponds to the HS-DSCH category supported by the UE when MIMO mode with four transmit antennas operation is configured.
NOTE 21:	This IE corresponds to the E-DCH category supported by the UE when MIMO mode and/or 64QAM is configured.

Condition
Explanation
3.84_Mcps_tdd_req_sup
The IE is mandatory present if the IE "TDD RF capability" is present with the IE "Chip rate capability" set to "3.84 Mcps" and a 3.84 Mcps TDD capability update has been requested in a previous message. Otherwise this field is not needed in the message.
7.68_Mcps_tdd_req_sup
The IE is mandatory present if the IE "TDD RF capability" is present with the IE "Chip rate capability" set to "7.68 Mcps" and a 7.68 Mcps TDD capability update has been requested in a previous message. Otherwise this field is not needed in the message.
1.28_Mcps_tdd_req_sup
The IE is mandatory present if the IE "TDD RF capability" is present with the IE "Chip rate capability" set to "1.28 Mcps" and a 1.28 Mcps TDD capability update has been requested in a previous message. Otherwise this field is not needed in the message.
fdd_req_sup
The IE is mandatory present if the IE "Multi-mode capability" has the value "FDD" or "FDD/TDD" and a FDD capability update has been requested in a previous message. Otherwise this field is not needed in the message.
not_iRAT_HoInfo
The CHOICE Support of HS-PDSCH is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is mandatory present.
not_iRAT_HoInfo
The CHOICE Support of E-DCH is not needed in the INTER RAT HANDOVER INFO message. 
Otherwise, it is mandatory present.
not_iRAT_HoInfo2
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is optional.

10.3.3.25a	Pre-redirection info
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Support of E-UTRA FDD
MP

Boolean

REL-8
Support of E-UTRA TDD 
MP

Boolean

REL-8

10.3.3.26	Protocol error cause
This IE indicates the cause for a message or information that was not comprehended.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Protocol error cause
MP

Enumerated (ASN.1 violation or encoding error, Message type non-existent or not implemented, Message not compatible with receiver state, Information element value not comprehended, Information element missing, Message extension not comprehended)
Two spare values are needed.

10.3.3.27	Protocol error indicator
This IE indicates whether a message was transmitted due to a protocol error or not.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Protocol error indicator
MP

Boolean
TRUE means a protocol error occurred. FALSE means a protocol error did not occur.

10.3.3.28	RB timer indicator
This IE is used to indicate to UTRAN if the timers T314 or T315 has expired in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
T314 expired
MP

Boolean
TRUE means that the timer has expired or the stored value is zero.
FALSE means that the timer has not expired.
T315 expired
MP

Boolean
TRUE means that the timer has expired or the stored value is zero.
FALSE means that the timer has not expired.

10.3.3.29	Redirection info
This IE is used to redirect the UE to another frequency or other system. With the Release 6 version a list of cells may be provided to the UE, where cell selection shall be started.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Redirection Information
MP




>Frequency info


Frequency info 10.3.6.36


>Inter-RAT info


Inter-RAT info 10.3.7.25



10.3.3.30	Re-establishment timer
This information element indicates which timer to associate with RAB.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Re-establishment timer
MP

Enumerated(useT314, useT315)


10.3.3.31	Rejection cause
Cause for rejection of RRC connection establishment request.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Rejection cause
MP

Enumerated(congestion, unspecified)


10.3.3.32	Release cause
Cause for release of RRC connection.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Release cause
MP

Enumerated
(normal event, unspecified, pre-emptive release, congestion, re-establishment reject, directed signalling connection re-establishment, user inactivity)
One spare value is needed.

10.3.3.32a	RF Capability Compressed
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE FDD
MP



REL-5
>Supported




REL-5
>>RF capability band FDD list Compressed
MP
1..<maxfreqbandsFDD>


REL-5


1..<maxfreqbandsFDD2>


REL-6


1..<maxfreqbandsFDD3>


REL-10
>>>RF Capability Band FDD Compressed
MP

Enumerated (not supported, default TxRx separation)
TX/RX frequency separation capability for the supported frequency band(s). Default is the TX/RX frequency separation defined in [21] for each frequency band.
Two spare values are needed.
REL-5
>Not supported


NULL

REL-5
CHOICE TDD-3.84Mcps
MP



REL-5
>Supported




REL-5
>>Radio Frequency Band TDD List
MP

Enumerated (a, b, c, a+b, a+c, b+c, a+b+c)
As defined in [22].
One spare value needed
REL-5



Enumerated (a, b, c, d, a+b, a+c, a+d, b+c, b+d, c+d, a+b+c, a+b+d, a+c+d, b+c+d, a+b+c+d)

REL-7
>Not supported


NULL

REL-5
CHOICE TDD-7.68Mcps
MP



REL-7
>Supported




REL-7
>>Radio Frequency Band TDD List
MP

Enumerated (a, b, c, d, a+b, a+c, a+d, b+c, a+b+c, a+b+d, a+c+d, b+c+d, a+b+c+d)
As defined in [22].
One spare value needed
REL-7
>Not supported


NULL

REL-7
CHOICE TDD-1.28Mcps
MP



REL-5
>Supported




REL-5
>>Radio Frequency Band TDD List
MP

Enumerated (a, b, c, a+b, a+c, b+c, a+b+c)
As defined in [22].
One spare value needed
REL-5



Enumerated (a, b, c, d, a+b, a+c, a+d, b+c, b+d, c+d, a+b+c, a+b+d, a+c+d, b+c+d, a+b+c+d)

REL-7
>Not supported


NULL

REL-5

10.3.3.33	RF capability FDD
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
UE power class
MP

Enumerated(1..4)
As defined in [21]

Tx/Rx frequency separation
MP

Enumerated(default TxRx separation)
Default is the TX/RX frequency separation defined in [21] for each frequency band.
Two spare values are needed.

Support of Multiple Frequency Band Indicators
CV-not_iRAT_HoInfo

Enumerated (TRUE)
FDD only.
Absence of this IE means that the UE does not support the signalling requirements of multiple radio frequency bands, as defined in [85], and the UE does not understand the UARFCN signalling for all bands, that overlap with the band(s) supported by the UE.
REL-10

Condition
Explanation
not_iRAT_HoInfo
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is optional.

10.3.3.33a	RF capability FDD extension
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
UE power class extension
MP

Enumerated(1..4)
As defined in [21]. A UE with UE power class 3bis signals the value 3. Four spare values are needed
Tx/Rx frequency separation
MP

Enumerated(default TxRx separation)
Default is the TX/RX frequency separation defined in [21] for each frequency band.
Two spare values are needed.

10.3.3.33b	RF capability TDD
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
UE power class
MP

Enumerated
(1..4) 
as defined in [22]

Radio frequency bands
MP

Enumerated(a, b, c, a+b, a+c, b+c, a+b+c)
as defined in [22].
One spare value needed.




Enumerated (a, b, c, d, a+b, a+c, a+d, b+c, b+d, c+d, a+b+c, a+b+d, a+c+d, b+c+d, a+b+c+d,

REL-7



Notabcd)
as defined in [22].
The value “Notabcd” indicate that the UE does not support neither one of the bands a, b, c nor d.
REL-8
Radio frequency bands extension list
OP
1 to <maxFreqBandsTDD-ext>

as defined in [22].
REL-8
>Radio frequency bands ext
MP

Enumerated (e, f, g, h, i, j, k, l, m, n, o, p)
as defined in [22].
Band g to band p are reserved for future use.
REL-8
Chip rate capability
MP

Enumerated (3.84Mcps, 1.28Mcps,
as defined in [22]




7.68 Mcps)

REL-7

10.3.3.33c	RF capability TDD 1.28 Mcps
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Radio frequency bands
MP

Enumerated(a, b, c, a+b, a+c, b+c, a+b+c)
as defined in [22].
One spare value needed.




Enumerated (a, b, c, d, a+b, a+c, a+d, b+c, b+d, c+d, a+b+c, a+b+d, a+c+d, b+c+d, a+b+c+d)

REL-7

10.3.3.34	RLC capability
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Total RLC AM buffer size
MP

Integer
(10, 50, 100, 150, 500, 1000, 
Total receiving and transmitting RLC AM buffer and MAC-hs/ehs reordering buffer capability in kBytes.
Note 1.
Note 2.




200, 300, 400, 750,

REL-5



1150, 1250,

REL-9



1500,
1800,
2300,
2550,
Total receiving and transmitting RLC AM buffer and MAC-hs/ehs reordering buffer capability in kBytes.
Note 2. Four Spare values are needed.

Rel-10



3400,
3500, 4400,
4500,
5000)

REL-11
Maximum RLC AM Window Size
MP

Integer(2047,4095)
Maximum supported RLC TX and RX window in UE

Maximum number of AM entities
MP

Integer
(4,5,6,8,16,30)


Support for Two logical channel Configuration
CV-not_iRAT_HoInfo

Boolean
TRUE means supported
REL-7
Note 1:	The IE "Total RLC AM buffer size" values 200, 300, 400 and 750 are not used in the 	INTER RAT HANDOVER INFO message.
Note 2:	The IE "Total RLC AM buffer size" values 1150, 1250, 1500, 1800, 2300, 2550, 3400, 3500, 4400, 4500 and 5000 are not used in the INTER RAT HANDOVER INFO message.

Condition
Explanation
not_iRAT_HoInfo
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is mandatory present.

10.3.3.35	RLC re-establish indicator
This IE is used to re-configure AM RLC on c-plane and u-plane.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RLC re-establish indicator
MP

Boolean
TRUE means re-establish required
FALSE means re-establish not required

10.3.3.35a	RRC State Indicator
Indicates to a UE the RRC state to be entered.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RRC State indicator
MP

Enumerated(CELL_DCH, CELL_FACH, CELL_PCH, URA_PCH)


10.3.3.35o	RRC connection release information
Indicates whether the UE shall perform a release of the RRC connection.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Release indicator
MD


Default value is “No release”
REL-5
>No release




REL-5
>Release




REL-5
>>Release cause
MP

Release cause 10.3.3.32

REL-5

10.3.3.36	RRC transaction identifier
This IE contains an identification of the RRC procedure transaction local for the type of the message this IE was included within.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE RRC Tr Id type
MP



REL-5
>Normal





>>RRC transaction identifier
MP

Integer (0..3)


>Extended




REL-5
>>RRC transaction identifier
MP

Integer (0..15)

REL-5

CHOICE RRC Tr Id type
Condition under which the given RRC Tr Id type is chosen
Normal
All cases where the RRC Tr Id type: Extended is not chosen.
Extended
Optional in the MEASUREMENT CONTROL message. Mandatory in the MEASUREMENT CONTROL FAILURE message.

10.3.3.36a	rSR-VCC Info
This IE contains information that allows the calculation of the CK and IK for the PS domain and the uplink traffic transmission information, due to an rSR-VCC procedure.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
NONCE
OP

Bit string (128)

REL-11
IMS information
MP

Octet String(SIZE(1..32))
Contains ATGW transfer details as defined in [24.237]
REL-11

10.3.3.37	Security capability
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Ciphering algorithm capability
MP




>UEA0
MP

Boolean


>UEA1
MP

Boolean


>UEA2
MP

Boolean
The value TRUE means that UEA2 is fully interoperability tested.
If fully interoperability tested, also "Security capability indication" of "UE radio access capability compressed" shall be set to TRUE.
REL-7
>Spare
MP
13
Boolean
Shall be set to FALSE by UEs complying with this version of the protocol.

Integrity protection algorithm capability
MP




>UIA1
MP

Boolean
The value TRUE means that UIA1, Kasumi, is supported

>UIA2
MP

Boolean
The value TRUE means that UIA2 is fully interoperability tested.
If fully interoperability tested, also "Security capability indication" of "UE radio access capability compressed" shall be set to TRUE.
REL-7
>Spare
MP
14
Boolean
Shall be set to FALSE by UEs complying with this version of the protocol.


10.3.3.37a	Signalling Connection Release Indication Cause
This IE is used to indicate to the UTRAN that there is no more PS data for a prolonged period.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Signallng Connection Release Indication Cause 
MP

Enumerated (UE Requested PS Data session end, any other cause)

REL-8

10.3.3.38	START
There is a START value per CN domain. The START is used to initialise the 20 MSBs of all hyper frame numbers (MAC-d HFN, RLC UM HFN, RLC AM HFN, RRC HFN) for a CN domain.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
START
MP

Bit string (20)
START [40]. The first/leftmost bit of the bit string contains the most significant bit of the START.

10.3.3.39	Void

10.3.3.40	Transport channel capability
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Downlink transport channel capability information elements




Max no of bits received
MP

Integer(640, 1280, 2560, 3840, 5120, 6400, 7680, 8960, 10240, 20480, 40960, 81920, 163840)
Maximum sum of number of bits of all transport blocks received at an arbitrary time instant
Max convolutionally coded bits received 
MP

Integer(640, 1280, 2560, 3840, 5120, 6400, 7680, 8960, 10240, 20480, 40960, 81920, 163840)
Maximum sum of number of bits of all convolutionally coded transport blocks received at an arbitrary time instant
Max turbo coded bits received
CV-turbo_dec_sup

Integer(640, 1280, 2560, 3840, 5120, 6400, 7680, 8960, 10240, 20480, 40960, 81920, 163840)
Maximum sum of number of bits of all turbo coded transport blocks received at an arbitrary time instant
Maximum number of simultaneous transport channels
MP

Integer(4, 8, 16, 32)

Maximum number of simultaneous CCTrCH
MP

Integer (1..8)

Max no of received transport blocks
MP

Integer(4, 8, 16, 32, 48, 64, 96, 128, 256, 512)
Maximum total number of transport blocks received within TTIs that end at within the same 10ms interval
Maximum number of TFC
MP

Integer(16, 32, 48, 64, 96, 128, 256, 512, 1024)

Maximum number of TF
MP

Integer(32, 64, 128, 256, 512, 1024)

Support for turbo decoding
MP

Boolean
TRUE means supported
Uplink transport channel capability information elements




Max no of bits transmitted
MP

Integer(640, 1280, 2560, 3840, 5120, 6400, 7680, 8960, 10240, 20480, 40960, 81920, 163840)
Maximum sum of number of bits of all transport blocks transmitted at an arbitrary time instant
Max convolutionally coded bits transmitted
MP

Integer(640, 1280, 2560, 3840, 5120, 6400, 7680, 8960, 10240, 20480, 40960, 81920, 163840)
Maximum sum of number of bits of all convolutionally coded transport blocks transmitted at an arbitrary time instant
Max turbo coded bits transmitted
CV-turbo_enc_sup

Integer(640, 1280, 2560, 3840, 5120, 6400, 7680, 8960, 10240, 20480, 40960, 81920, 163840)
Maximum sum of number of bits of all turbo coded transport blocks transmitted at an arbitrary time instant
Maximum number of simultaneous transport channels
MP

Integer(4, 8, 16, 32)

Maximum number of simultaneous CCTrCH of DCH type
CH-tdd_req_sup

Integer (1..8)

Max no of transmitted transport blocks
MP

Integer(4, 8, 16, 32, 48, 64, 96, 128, 256, 512)
Maximum total number of transport blocks transmitted within TTIs that start at the same time
Maximum number of TFC
MP

Integer(16, 32, 48, 64, 96, 128, 256, 512, 1024)

Maximum number of TF
MP

Integer(32, 64, 128, 256, 512, 1024)

Support for turbo encoding
MP

Boolean
TRUE means supported

Condition
Explanation
turbo_dec_sup
The IE is mandatory present if the IE "Support of turbo decoding" = TRUE. Otherwise this field is not needed in the message.
turbo_enc_sup
The IE is mandatory present if the IE "Support of turbo encoding" = TRUE. Otherwise this field is not needed in the message.
tdd_req_sup
The IE is mandatory present if the IE "Multi-mode capability" has the value "TDD" or "FDD/TDD" and a TDD capability update has been requested in a previous message. Otherwise this field is not needed in the message.

10.3.3.41	UE multi-mode/multi-RAT capability
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Multi-RAT capability 





Support of GSM
MP

Boolean


Support of multi-carrier
MP

Boolean


Multi-mode capability 
MP

Enumerated (TDD, FDD, FDD/TDD)


Support of UTRAN to GERAN NACC
CV-not_iRAT_HoInfo

Boolean

REL-5
Support of Handover to GAN
CV-not_iRAT_HoInfo2

Enumerated (DoesSupportHandoverToGAN)
Absence of this IE means that the UE does not support Handover to GAN.
REL-6
Support of Inter-RAT PS handover
CV-not_iRAT_HoInfo2

Enumerated (DoesSupportInter-RAT-PS-Handover)
Absence of this IE means that the UE does not support Inter-RAT PS Handover to GERAN
REL-6
Support of PS Handover to GAN
CV-not_iRAT_HoInfo2

Enumerated (DoesSupportPSHandoverToGAN)
Absence of this IE means that the UE does not support PS Handover to GAN.
REL-7
Support of E-UTRA FDD
CV-not_iRAT_HoInfo2

Enumerated (DoesSupportEUTRAFDD)
Absence of this IE means that the UE does not support E-UTRA FDD
REL-8
Support of Inter-RAT PS Handover to E-UTRA FDD
CV-not_iRAT_HoInfo2

Enumerated (DoesSupportInter-RATHOToEUTRAFDD)
Absence of this IE means that the UE does not support Inter-RAT PS Handover to E-UTRA FDD
REL-8
Support of E-UTRA TDD
CV-not_iRAT_HoInfo2

Enumerated (DoesSupportEUTRATDD)
Absence of this IE means that the UE does not support E-UTRA TDD
REL-8
Support of Inter-RAT PS Handover to E-UTRA TDD
CV-not_iRAT_HoInfo2

Enumerated (DoesSupportInter-RATHOToEUTRATDD)
Absence of this IE means that the UE does not support Inter-RAT PS Handover to E-UTRA TDD
REL-8
EUTRA Feature Group Indicators
CV-not_iRAT_HoInfo2

Bit string (4)
The definitions of the bits are described in Annex E
REL-8
Support of E-UTRA Multiple Frequency Band Indicators 
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
Absence of this IE means that the UE does not support the signalling requirements of multiple radio frequency bands in E-UTRA, as defined in [67], and the UE does not understand the EARFCN signalling for all bands, that overlap with the band(s) supported by the UE.
REL-10
Support of E-UTRA FDD measurements and reporting in CELL_FACH
CV-not_iRAT_HoInfo2

Enumerated (DoesSupportEUTRAmeasurementsandreportinginCELLFACH)
Absence of this IE means that the UE does not support E-UTRA measurement for CELL_FACH for E-UTRA FDD
REL-11
Support of E-UTRA TDD measurements and reporting in CELL_FACH
CV-not_iRAT_HoInfo2

Enumerated (DoesSupportEUTRAmeasurementsandreportinginCELLFACH)
Absence of this IE means that the UE does not support E-UTRA measurement for CELL_FACH for E-UTRA TDD
REL-11
Support of RAN-assisted WLAN interworking based on RAN rules
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
Absence of this IE means that the UE does not support RAN-assisted WLAN interworking based on access network selection and traffic steering rules.
REL-12
Support of RAN-assisted WLAN interworking based on ANDSF policies
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
Absence of this IE means that the UE does not support RAN-assisted WLAN interworking based on ANDSF policies.
REL-12
Support of extended E-UTRA frequency priority
CV-not_iRAT_HoInfo2

Enumerated (TRUE)
Absence of this IE means that the UE does not support extended E-UTRA priority.
REL-13

Condition
Explanation
not_iRAT_HoInfo
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is mandatory present.
not_iRAT_HoInfo2
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is optional.

NOTE:	The UE sets the capability of Inter-RAT PS Handover (by means of the IE "Support of Inter-RAT PS handover") to the same value as the corresponding GERAN capability in [5].

10.3.3.42	UE radio access capability
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Access stratum release indicator
MP

Enumerated (R99)
Indicates the release of the UE according to [35]. The IE also indicates the release of the RRC transfer syntax supported by the UE.


CV-not_rrc_connectionSetupComplete

Enumerated(REL-4,
3 spare values are needed.
REL-4



REL-5,

REL-5



REL-6,

REL-6



REL-7,

REL-7



REL-8,

REL-8



REL-9,

REL-9



REL-10,

REL-10



REL-11,

REL-11



REL-12,

REL-12



REL-13,

REL-13



REL-14,

REL-14



REL-15,

REL-15



REL-16)

REL-16
DL capability with simultaneous HS-DSCH configuration
CV-not_iRAT_HoInfo

Enumerated(32kbps, 64kbps, 128kbps, 384kbps)

REL-5
PDCP capability
MP

PDCP capability 10.3.3.24


RLC capability
MP

RLC capability 10.3.3.34


Transport channel capability
MP

Transport channel capability 10.3.3.40


RF capability FDD
OP

RF capability FDD 10.3.3.33


RF capability TDD
OP

RF capability TDD 10.3.3.33b
One "TDD RF capability" entity shall be included for every Chip rate capability supported.



1 to 2

Note 1
REL-4
RF capability TDD 1.28 Mcps
CV-iRAT_HoInfo

RF capability TDD 1.28 Mcps 10.3.3.33c
Note 1
REL-4
Physical channel capability
MP

Physical channel capability 10.3.3.25


UE multi-mode/multi-RAT capability
MP

UE multi-mode/multi-RAT capability 10.3.3.41


Security capability
MP

Security capability 10.3.3.37


UE positioning capability
MP

UE positioning capability 10.3.3.45


Measurement capability
OP

Measurement capability 10.3.3.21


Measurement capability TDD
OP

Measurement capability TDD 10.3.3.21b

REL-8
Device type
MD

Enumerated (DoesNotBenefitFromBatteryConsumptionOptimisation)
Absence of this value means that the device does benefit from NW-based battery consumption optimisation.

UE may set the value to 
DoesNotBenefitFromBatteryConsumptionOptimisation when it does not foresee to particularly benefit from NW-based

The IE is not needed in the INTER RAT HANDOVER INFO message.
REL-6
Support for System Information Block type 11bis
OP

Enumerated (TRUE)

REL-6




The IE shall be present and set to TRUE
REL-7
Support for F-DPCH
CV-SupportForHS

Enumerated (TRUE)
Presence of this information element indicates that F-DPCH is supported by the UE.
Absence of this information element indicates that F-DPCH is not supported
REL-6
MAC-ehs support
OP

Enumerated (TRUE)
The presence of this IE indicates that UE supports MAC-ehs, the use of special value of HE field to indicate end of an SDU for RLC AM, octet aligned transport block table and different HS-SCCHs in contiguous TTIs.
The absence of this IE indicates that the UE does not support either MAC-ehs, octet aligned transport block table or the use of special value of HE field to indicate end of an SDU for RLC AM or different HS-SCCHs in contiguous TTIs.
REL-7
UE specific capability Information LCR TDD
OP

Enumerated (NF, TriRxUniTx, TriRxTriTx, HexRxUniTx, HexRxTriTx, HexRxHexT,
For 1.28 Mcps TDD only

REL-7



 TwoRxUniTxDiscontiguous, TwoRxTwoTxDiscontiguous, TwoRxUniTxContiguous, TwoRxTwoTxContiguous)
TwoRxUniTxDiscontiguous and TwoRxTwoTxDiscontiguous mean that the UE is capable of supporting two non-adjacent carriers. TwoRxUniTxContiguous and TwoRxTwoTxContiguous mean that the UE is only capable of supporting two adjacent carriers. 6 spare values needed. Note 3.
REL-10
Support for E-DPCCH Power Boosting
OP

Enumerated
(TRUE)
The
absence of this IE indicates that the E-DPCCH Power Boosting is not supported. The presence of this IE indicates that the E-DPCCH Power Boosting is  supported by the UE.
REL-7
Support of common E-DCH
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support E-DCH enhanced random access in CELL_FACH state and Idle mode.
REL-8
Support of MAC-i/is
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support MAC-i/is operation. 
REL-8
Support of Common E-RGCH based interference control
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Common E-RGCH based interference control in CELL_FACH state.
REL-11
Support of Fallback to R99 PRACH
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Fallback to R99 PRACH in CELL_FACH state and IDLE mode.
REL-11
Support of Concurrent deployment
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Concurrent deployment of 2ms and 10ms TTI in a cell in CELL_FACH state and IDLE mode.
REL-11
Support of TTI alignment and Per HARQ process
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support TTI alignment and Per HARQ process activation and de-activation in CELL_FACH state and IDLE mode.
REL-11
Support of SPS operation
CV-not_iRAT_HoInfo

Enumerated (TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the UE does not support SPS operation.
REL-8
Support of Control Channel DRX operation
CV-not_iRAT_HoInfo

Enumerated (TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the UE does not support Control Channel DRX operation
REL-8
Support of CSG
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support access control based on CSG
REL-8
Support for Two DRX schemes in URA_PCH and CELL_PCH
OP

Enumerated
(TRUE)
The absence of this IE indicates that the UE does not support Two DRX schemes in URA_PCH and CELL_PCH
REL-7
Support for E-DPDCH power interpolation formula 
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support E-DPDCH power interpolation formula when 16QAM is not configured
REL-7
Support for absolute priority based cell re-selection in UTRAN
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support absolute priority based cell re-selection to UTRA inter-frequency
REL-8
Support of MU-MIMO
OP

Enumerated (Uplink, Uplink and Downlink)
The absence of this IE indicates that the UE does not support MU-MIMO. This IE is used for 1.28 Mcps TDD only
REL-10
Radio Access Capability Band Combination List
OP
1 to 16

The absence of this IE indicates that the UE does not support Dual Band Operation. 
REL-9
>Band Combination 
MP

Integer(1..256)
The integer value n indicates that the nth DB-DC Configuration (A,B) in table 5.0AA in [21] is supported by the UE.
REL-9
>Support for Dual Band Dual Cell E-DCH operation
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Dual Band Dual Cell E-DCH operation on the corresponding band combination indicated by the IE "Band Combination".
REL-13
>Supported Carrier Combination 
OP


Absence of this IE means that the UE only supports the carrier combination (1,1) for this band combination (A,B). If carrier combination (X,Y) is supported, then carrier combination (M,N) is supported, where 1<=M<=X and 1<=N<=Y, so the corresponding value for that carrier combination  (M,N) should be set to TRUE.
Carrier combination (X,Y) for a band combination (A,B) refers to a block of X contiguous carriers in Band A and a block of Y contiguous carriers in Band B.
REL-10
>>Carrier Combination (1,2)
MP

Boolean
The value TRUE means that carrier combination (1,2) is supported for this band combination (A,B).
REL-10
>>Carrier Combination (2,1)
MP

Boolean
The value TRUE means that carrier combination (2,1) is supported for this band combination (A,B).
REL-10
>>Carrier Combination (1,3)
MP

Boolean
The value TRUE means that carrier combination (1,3) is supported for this band combination (A,B).
REL-10
>>Carrier Combination (3,1)
MP

Boolean
The value TRUE means that carrier combination (3,1) is supported for this band combination (A,B).
REL10
>>Carrier Combination (2,2)
MP

Boolean
The value TRUE means that carrier combination (2,2) is supported for this band combination (A,B).
REL-10
>>Carrier Combination (1,4)
MP

Boolean
The value TRUE means that carrier combination (1,4) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (4,1)
MP

Boolean
The value TRUE means that carrier combination (4,1) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (1,5)
MP

Boolean
The value TRUE means that carrier combination (1,5) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (5,1)
MP

Boolean
The value TRUE means that carrier combination (5,1) is supported for this band combination (A,B).
REL11
>>Carrier Combination (1,6)
MP

Boolean
The value TRUE means that carrier combination (1,6) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (6,1)
MP

Boolean
The value TRUE means that carrier combination (6,1) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (1,7)
MP

Boolean
The value TRUE means that carrier combination (1,7) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (7,1)
MP

Boolean
The value TRUE means that carrier combination (7,1) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (2,3)
MP

Boolean
The value TRUE means that carrier combination (2,3) is supported for this band combination (A,B).
REL11
>>Carrier Combination (3,2)
MP

Boolean
The value TRUE means that carrier combination (3,2) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (2,4)
MP

Boolean
The value TRUE means that carrier combination (2,4) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (4,2)
MP

Boolean
The value TRUE means that carrier combination (4,2) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (2,5)
MP

Boolean
The value TRUE means that carrier combination (2,5) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (5,2)
MP

Boolean
The value TRUE means that carrier combination (5,2) is supported for this band combination (A,B).
REL11
>>Carrier Combination (2,6)
MP

Boolean
The value TRUE means that carrier combination (2,6) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (6,2)
MP

Boolean
The value TRUE means that carrier combination (6,2) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (3,3)
MP

Boolean
The value TRUE means that carrier combination (3,3) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (3,4)
MP

Boolean
The value TRUE means that carrier combination (3,4) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (4,3)
MP

Boolean
The value TRUE means that carrier combination (4,3) is supported for this band combination (A,B).
REL11
>>Carrier Combination (4,4)
MP

Boolean
The value TRUE means that carrier combination (4,4) is supported for this band combination (A,B).
REL11
>>Carrier Combination (3,5)
MP

Boolean
The value TRUE means that carrier combination (3,5) is supported for this band combination (A,B).
REL-11
>>Carrier Combination (5,3)
MP

Boolean
The value TRUE means that carrier combination (5,3) is supported for this band combination (A,B).
REL-11
>Supported Multiflow Combination
OP


Presence of this IE indicates that UE supports Multiflow for this band combination. Note 5.
REL-11




Note 6
REL-13
>>Number of cells in band A
MP

Integer(1..6)
Total number of cells in band A that can be configured to a UE as a part of Multiflow configuration. In this version of the specification, the maximum value is 2.
REL-11




In this version of the specification, the maximum value is 3.
REL-13
>>Number of frequencies in band A
MP

Integer(1..3)
Total number of frequencies in band A, across which the Multiflow can be configured. In this version of the specification, the maximum value is 1.
REL-11




In this version of the specification, the maximum value is 2.
REL-13
>>Number of cells in band B
MP

Integer(1..6)
Total number of cells in band B that can be configured to a UE as a part of Multiflow configuration. In this version of the specification, the maximum value is 2.
REL-11
>>Number of frequencies in band B
MP

Integer(1..3)
Total number of frequencies in band B, across which the Multiflow can be configured. In this version of the specification, the maximum value is 1.
REL-11
Support of multi-cell configuration in inter-RAT handover
CV-iRAT_HoInfo

Enumerated (TRUE)

REL-11
Support of TX Diversity on DL Control Channels by MIMO Capable UE when MIMO operation is active
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the MIMO capable UE does not support TX diversity on DL Control Channels (HS-SCCH, F-DPCH, E-AGCH, E-HICH, E-RGCH) when MIMO is active, P-CPICH is configured on antenna 1, and S-CPICH on antenna 2.
REL-7




The absence of this IE indicates that the MIMO capable UE does not support TX diversity on DL Control Channels (HS-SCCH, F-DPCH, E-AGCH, E-HICH, E-RGCH, F-TPICH) when MIMO is active, P-CPICH is configured on antenna 1, and S-CPICH on antenna 2.
REL-11
Support of enhanced TS0
OP

Enumerated (TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the UE does not support the enhanced TS0
REL-9
Support for cell-specific Tx diversity configuration for dual-cell operation
CV-
Dual_Cell_HSDPA_supported

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support cell-specific Tx diversity configuration when configured for dual-cell operation. 
REL-8
CSG proximity indication capability
CV-not_iRAT_HoInfo

CSG proximity indication capability 10.3.3.8a

REL-9
Neighbour Cell SI acquisition capability
CV-not_iRAT_HoInfo

Neighbour Cell SI acquisition capability 10.3.3.21c

REL-9
Extended measurements Support
CV-not_iRAT_HoInfo

Enumerated
(TRUE)
TRUE means that the UE supports the extended measurement identity range 17 to 32.
REL-9
Support for dual cell with MIMO operation in different bands
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support dual cell with MIMO operation in different bands
REL-10
UE based network performance measurements parameters
CV-not_iRAT_HoInfo

UE based network performance measurements parameters 10.3.3.53

REL-10
Support of UTRAN ANR
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support UTRAN ANR.
REL-10
IMS Voice capability
CV-not_iRAT_HoInfo

IMS Voice capability 10.3.3.14b

REL-9
Multiflow capability
CV-not_iRAT_HoInfo

UE Multiflow capability 10.3.3.21ba

REL-11
Support of MAC-ehs window size extension
OP

Enumerated (TRUE)
For 1.28 Mcps TDD only, the absence of this IE indicates that the UE does not support IE "MAC-ehs window size extension".
Note 4.
REL-9
Support of UM RLC re-establishment via reconfiguration
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support UM RLC re-establishment via reconfiguration.
REL-10
Support of HS-DPCCH power offset extension
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support the HS-DPCCH power offset extension.  
REL-11
Support of STTD on DL Control Channels when Multiflow operation is active
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that a Multiflow capable UE does not support STTD on DL Control Channels (HS-SCCH, F-DPCH, E-AGCH, E-HICH, E-RGCH, F-TPICH) when Multiflow operation is active. 
REL-11
Support of F-TPICH feedback from the Multiflow assisting cell
CV-not_iRAT_HoInfo

Enumerated(TRUE)
The absence of this IE indicates that the UE does not support reception of the F-TPICH feedback from the Multiflow assisting cell.
REL-12
Support of DSAC and PPAC update in CELL_DCH
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support DSAC and PPAC update in CELL_DCH.
REL-12
Support of retrievable configurations
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support retrievable configurations.
REL-13
Support of URA_PCH with seamless transition
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support URA_PCH with seamless transition.
REL-13
Support of improved synchronized RRC procedures
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support improved synchronized RRC procedures.
REL-13
Support of enhanced state transition
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support enhanced state transition.
REL-13
Support of simultaneous setup and release of RABs and RBs
CV-not_iRAT_HoInfo

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support simultaneous setup and release of RABs and RBs.
REL-14
Note 1:	The second entity of the "RF capability TDD" is not needed in the INTER RAT HANDOVER INFO message: if both TDD 3.84/7.68 Mcps and TDD 1.28 Mcps are supported, the "RF capability TDD 1.28 Mcps" entity shall be used for TDD 1.28 Mcps; the "UE power class" in the "RF capability TDD" entity shall apply for both chip rates.
Note 2:	For 1.28 Mcps TDD, UE supporting E-DCH enhanced random access in CELL_FACH state and Idle mode always supports HS-PDSCH reception in CELL_FACH, CELL_PCH and URA_PCH state and CELL_FACH HS-DSCH DRX operation.
Note 3:	Two non-adjacent carriers can be in the same band or in two different bands.
Note 4:	This IE should always be set to “TRUE” in this version of the specification.
Note 5:	If the Multiflow scenario dual-band three cells on two frequencies is supported in band combination A&B (2 cells in band A and 1 cell in band B), then it is also supported in band combination B&A (2 cells in band B and 1 cell in band A).
Note 6:	If the Multiflow scenario dual-band four cells on three frequencies is supported in band combination A&B (with 3 cells in band A and 1 cell in band B), then it is also supported in band combination B&A (with 3 cells in band B and 1 cell in band A), and in band combination A&B (with 2 cells in band A and 2 cells in band B), and in band combination B&A (with 2 cells in band B and 2 cells in band A).

Condition
Explanation
not_rrc_connectionSetupComplete
The IE is not needed in the RRC CONNECTION SETUP COMPLETE message. Otherwise the IE is mandatory present.
not_iRAT_HoInfo
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is optional.
iRAT_HoInfo
The IE is optional in the INTER RAT HANDOVER INFO message. Otherwise, the IE is not needed.
Dual_Cell_HSDPA_supported
This IE is optionally present if Dual-Cell HSDPA is supported. Otherwise it is not needed.
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is optional.
SupportForHS
This IE is mandatory present if the UE supports HS-PDSCH, otherwise it is not needed. The IE is not needed in the INTER RAT HANDOVER INFO message.

10.3.3.42o	UE radio access capability compressed
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Access stratum release indicator
MP

Enumerated (R99, REL-4, REL-5,
3 spare values are needed.
REL-5



REL-6,

REL-6



REL-7,

REL-7



REL-8,

REL-8



REL-9,

REL-9



REL-10,

REL-10



REL-11,

REL-11



REL-12,

REL-12



REL-13,

REL-13



REL-14,

REL-14



REL-15,

REL-15



REL-16)

REL-16
Total AM RLC buffer size exceeds 10 kByte 
MP

BOOLEAN

REL-5
RF capability compressed
MP

RF capability compressed 10.3.3.32a

REL-5
Support for System Information Block type 11bis
OP

Enumerated (TRUE)

REL-6




The IE shall be present and set to TRUE
REL-7
MAC-ehs support
OP

Enumerated (TRUE)
The presence of this IE indicates that UE supports MAC-ehs, the use of special value of HE field to indicate end of an SDU for RLC AM, octet aligned transport block table and different HS-SCCHs in contiguous TTIs.
Absent if either MAC-ehs, octet aligned transport block table or the use of special value of HE field to indicate end of an SDU for RLC AM or different HS-SCCHs in contiguous TTIs are not supported
REL-7
Security capability indication
OP

Enumerated (TRUE)
TRUE indicates UE security capabilities beyond R99 requirements, see 10.3.3.37
REL-7
GANSS support indication
OP

Enumerated (TRUE)
TRUE indicates that the UE supports GANSS
REL-7

10.3.3.42oa	UE radio access capability comp 2
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
FDD physical channel capability for HS-PDSCH/E-DCH
OP


Absent if HS-PDSCH and E-DCH are not supported
REL-6
>DL capability with simultaneous HS-DSCH configuration
OP

Enumerated (32, 64, 128, 384)
Unit: kbps.
This IE is always required, but the need is set to OP to align with ASN.1
REL-6
>HS-DSCH physical layer category
MP

Integer (1..64)
As defined in [35]
Values 13...64 are spare.
REL-6
>HS-DSCH physical layer category extension
OP

Integer (1..20)
As defined in [35].
See Note 1.
REL-7
>HS-DSCH physical layer category extension 2
OP

Integer (21..24)
As defined in [35].
See Note 2.
REL-8
>HS-DSCH physical layer category extension 3
OP

Integer (25..28)
As defined in [35].
See Note 3.
REL-9
>HS-DSCH physical layer category extension 4
OP

Integer (29,30)
As defined in [35].
See Note 4.
REL-10
>HS-DSCH physical layer category extension 5
OP

Integer (31,32)
As defined in [35].
See Note 5.
REL-10
>HS-DSCH physical layer category extension 6
OP

Integer (33,34)
As defined in [35].
See Note 6.
REL-11
>HS-DSCH physical layer category extension 7
OP

Integer (35,36)
As defined in [35].
See Note 7.
REL-11
>HS-DSCH physical layer category extension 8
OP

Integer (37,38)
As defined in [35].
See Note 8.
REL-11
>CHOICE Support of E-DCH
MP



REL-6
>>Supported




REL-6
>>>E-DCH physical layer category
MP

Integer (1..16)
As defined in [35]
REL-6
>>>E-DCH physical layer category extension
OP

Integer (7)
As defined in [35].
REL-7
>>>E-DCH physical layer category extension 2
OP

Integer
(8..9)
As defined in [35].
REL-9
>>>E-DCH physical layer category extension 3
OP

Integer(10..12)
As defined in [35].
REL-11
>>Unsupported



(no data)
REL-6
Support for F-DPCH
CV-SupportForHS

Enumerated (TRUE)

REL-6




Presence of this information element indicates that F-DPCH is supported by the UE.
Absence of this information element indicates that F-DPCH is not supported
REL-7
HS-SCCHless HS-DSCH operation support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-SCCHless HS-DSCH operation.
REL-7
Enhanced F-DPCH support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support enhanced F-DPCH
REL-7
HS-PDSCH in CELL_FACH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-PDSCH reception in CELL_FACH
REL-7
HS-PDSCH in CELL_PCH and URA_PCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support HS-PDSCH in neither CELL_PCH nor URA_PCH states.
REL-7
DPCCH Discontinuous Transmission support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support DPCCH Discontinuous Transmission
REL-7
Slot Format #4 support
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support Slot Format #4
REL-7
Support for CS Voice over HSPA
OP

Enumerated (TRUE)
The IE indicates the UE’s support for CS Voice over HSPA, if set.
REL-8
Support for E-DPCCH Power Boosting
OP

Enumerated
(TRUE)
The
absence of this IE indicates that the E-DPCCH Power Boosting is not supported. The presence of this IE indicates that the E-DPCCH Power Boosting is supported by the UE.
REL-7
Support of MAC-i/is
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support MAC-i/is operation. 
REL-8
Support of TX Diversity on DL Control Channels by MIMO Capable UE when MIMO operation is active
OP

Enumerated (TRUE)
The absence of this IE indicates that the MIMO capable UE does not support TX diversity on DL Control Channels (HS-SCCH, F-DPCH, E-AGCH, E-HICH, E-RGCH) when MIMO is active, P-CPICH is configured on antenna 1, and S-CPICH on antenna 2.
REL-7




The absence of this IE indicates that the MIMO capable UE does not support TX diversity on DL Control Channels (HS-SCCH, F-DPCH, E-AGCH, E-HICH, E-RGCH, F-TPICH) when MIMO is active, P-CPICH is configured on antenna 1, and S-CPICH on antenna 2.
REL-11
Support of HS-DPCCH power offset extension
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support the HS-DPCCH power offset extension.
REL-11
Support of DSAC and PPAC update in CELL_DCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support DSAC and PPAC update in CELL_DCH.
REL-12
Support for DCH Enhancements
OP

Enumerated (Basic, Full)
The absence of this IE indicates that the UE does not support DCH Enhancements
REL-12
Simultaneous support for DCH Enhancements and Compressed Mode operation
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support simultaneous operation of DCH Enhancements and Compressed Mode.
REL-12
Simultaneous support for DCH Enhancements and DPCCH Discontinuous Transmission
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support simultaneous operation of DCH Enhancements and DPCCH Discontinuous Transmission.
REL-12
Support of dual cell E-DCH transmission with DPDCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support dual cell E-DCH transmission with DPDCH.
REL-13

NOTE 1:	This IE corresponds to the HS-DSCH category supported by the UE when MAC-ehs is configured.
NOTE 2:	This IE corresponds to the HS-DSCH category supported by the UE when dual cell operation is configured.
NOTE 3:	This IE corresponds to the HS-DSCH category supported by the UE when dual cell operation with MIMO on adjacent frequencies or in different bands is configured.
NOTE 4:	This IE corresponds to the HS-DSCH category supported by the UE when it is configured with multi-cell operation on three cells.
NOTE 5:	This IE corresponds to the HS-DSCH category supported by the UE when it is configured with multi-cell operation on four cells.
NOTE 6:	This IE corresponds to the HS-DSCH category supported by the UE when it is configured with multi-cell operation on five or six cells.
NOTE 7:	This IE corresponds to the HS-DSCH category supported by the UE when it is configured with multi-cell operation on seven or eight cells.
NOTE 8:	This IE corresponds to the HS-DSCH category supported by the UE when MIMO mode with four transmit antennas operation is configured.

Condition
Explanation
not_iRAT_HoInfo
The IE is not needed in the INTER RAT HANDOVER INFO message. Otherwise, it is optional.
SupportForHS
This IE is mandatory present if the UE supports HS-PDSCH, otherwise it is not needed. The IE is not needed in the INTER RAT HANDOVER INFO message.

10.3.3.42ob	UE radio access capability comp for 1.28 Mcps TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
1.28 Mcps TDD physical channel capability for HS-PDSCH/E-DCH
OP


Absent if HS-PDSCH and E-DCH are not supported
REL-8
>Support of SF Mode For HS-PDSCH dual stream
OP

Enumerated (SF1, SF1/SF16)
For,1.28 Mcps TDD only
The absence of this IE indicates that the UE does not support MIMO.
REL-8
Support of common E-DCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support E-DCH enhanced random access in CELL_FACH state and Idle mode.
REL-8
Support of MAC-i/is
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support MAC-i/is operation. 
REL-8
Support of Control Channel DRX operation
OP

Enumerated (TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the UE does not support Control Channel DRX operation
REL-8
Support of SPS operation
OP

Enumerated (TRUE)
For 1.28 Mcps TDD only.
The absence of this IE indicates that the UE does not support SPS operation.
REL-8
Radio frequency bands extension list
OP
1 to <maxFreqBandsTDD-ext>

as defined in [22].
REL-8
>Radio frequency bands ext
MP

Enumerated (e, f, g, h, i, j, k, l, m, n, o, p)
as defined in [22].
Band g to band p are reserved for future use.
REL-8
NOTE 1:	All UEs supporting HS-DSCH should signal a category between 1 and 15 for this IE even if the UE physical capability category is above 15. This IE corresponds to the HS-DSCH category supported by the UE when MAC-ehs is not configured.
NOTE 2:	This IE corresponds to the HS-DSCH category supported by the UE when MAC-ehs is configured.
NOTE 3:	All UEs supporting multi-carrier HS-DSCH should signal a category between 1 and 18 for this IE even if the UE physical capability category is above 18. This IE corresponds to the multi-carrier HS-DSCH category supported by the UE when MAC-ehs is not configured.
NOTE 4:	This IE corresponds to the multi-carrier HS-DSCH category supported by the UE when MAC-ehs is configured.

10.3.3.42a	UE radio access capability extension
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Frequency band specific capability list
MP
1 to <maxFreqbandsFDD>

The network should ignore the entry that includes the ‘extension indicator’.



1 to <maxFreqbandsFDD2>


REL-6


1 to <maxFreqbandsFDD3>


REL-10
>Frequency band
MP

Enumerated(Band I, Band II,





Band III,

REL-5



Band VI, Band IV, Band V, Band VII, extension indicator)
The setting of the value ‘extension indicator’ by the UE is not specified in the specification.
REL-6
>Frequency band 2
OP

Enumerated(Band VIII, Band IX, Band X, Band XI, Band XII, Band XIII, Band XIV, Band XIX, Band XXI, Band XX, Band XXII,
extension Indicator)
This IE indicates the supported frequency bands Band VIII and beyond.
The setting of the value ‘extension indicator’ by the UE is not specified in the specification.
Four spare values are needed
REL-6
>Frequency band 3
OP

Enumerated (Band XXV, Band XXVI, extension Indicator)
This IE indicates the supported frequency bands Band XXIII and beyond.
The setting of the value ‘extension indicator’ by the UE is not specified in the specification.
Sixty One spare
values are needed
REL-10
>RF capability FDD extension
MD

RF capability FDD extension 10.3.3.33a
the default values are the same values as in the immediately preceding IE "RF capability FDD extension"; the first occurrence is MP

>Measurement capability extension
MP

Measurement capability extension 10.3.3.21a


>Additional Secondary Cells
OP

Enumerated(a1, a2)
The number of additional secondary serving cells supported by the UE. The absence of this IE  means that the UE does not support multi-cell operation on three cells or multi-cell operation on four cells.
REL-10
>Additional Secondary Cells 2
OP

Enumerated( a3, a4, a5, a6)
The number of additional secondary serving cells supported by the UE. The absence of this IE means that the UE does not support multi-cell operation on five cells or multi-cell operation on six cells or multi-cell operation on seven cells or multi-cell operation on eight cells.
REL-11
>Non-contiguous multi-cell
OP
1 to <maxNonContiguousMultiCellCombinations>

The presence of this IE indicates that the UE supports the non-contiguous multi-cell HSDPA operation on two, three or four cells.
REL-10
>>Aggregated cells
MP

Enumerated(nc-2c, nc-3c, nc-4c)
This IE indicates the maximum number of cells supported in non-contiguous multi-cell operation.
"nc-2c" indicates that UE supports 2 cells.
"nc-3c" indicates that UE supports 2 and 3 cells.
"nc-4c" indicates that UE supports 2, 3, and 4 cells.
REL-10
>>Gap size
MP

Enumerated(fiveMHz, tenMHz, anyGapSize)
This IE indicates the maximum gap size between the aggregated cells.
"fiveMHz" indicates that UE supports 5 MHz gap size.
"tenMHz" indicates that UE supports 10 MHz gap size and 5 MHz gap size.
"anyGapSize" indicates that UE supports any multiple of 5 MHz gap size.
5 spare values are required.
REL-10
>>Non-contiguous multi-cell Combination (2,2)
CV-NC-4C

Enumerated(TRUE)
The presence of this IE indicates that the UE supports an equal number of contiguous cells on each side of the gap. The absence of this IE indicates that the carrier combination (2,2) is not supported.
REL-10
>>Non-contiguous multi-cell Combination (3,1) (1,3)
CV-NC-4C

Enumerated(TRUE)
The presence of this IE indicates that UE supports a different number of contiguous cells on each side of the gap.
The absence of this IE indicates that neither the carrier combination (3,1) nor the carrier combination (1,3) are supported. 
REL-10
>Support of uplink closed loop transmit diversity
OP

Enumerated(TRUE)
Absence of this IE indicates that uplink CLTD is not supported on this frequency band.
REL-11
>Support of uplink open loop transmit diversity
OP

Enumerated(TRUE)
Absence of this IE indicates that uplink OLTD is not supported.
REL-11
>Multiflow per band capability
OP

Multiflow per band capabilty 10.3.3.21bb

REL-11
>Support of Uplink MIMO 
OP

Enumerated(TRUE)
Absence of this IE indicates that UL MIMO is not supported in this frequency band.
REL-11
>MIMO mode with four transmit antennas per band capability
OP

Enumerated(TRUE)
Absence of this IE indicates that MIMO mode with four transmit antennas is not supported on this frequency band.
REL-11
>Frequency specific compressed mode for non-contiguous operation
OP

Enumerated(TRUE)
Absence of this IE indicates that the frequency specific compressed mode for non- contiguous operation is not supported in this band.
REL-11

Condition
Explanation
NC-4C
This IE is optional when the IE "aggregated cells" is set to "nc-4c". Otherwise it is not needed.
When the IE "aggregated cells" is set to "nc-4c", at least one of the optional IE shall be included.

10.3.3.42b	UE security information
Upon receiving a UE information request from another system, the UE shall indicate the requested security information. The UE security information includes the following RRC information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UE information elements




START-CS
MP

START 10.3.3.38
START values to be used in this CN domain.

10.3.3.42c	UE security information2
Upon receiving a UE information request from another system, the UE shall indicate the requested security information. The UE security information includes the following RRC information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
START-PS
MP

START 10.3.3.38
START values to be used in this CN domain.
Rel-6

10.3.3.43	UE Timers and Constants in connected mode
This information element specifies timer- and constants values used by the UE in connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
T301
MD

Integer(100, 200 .. 2000 by step of 200, 3000, 4000, 6000, 8000)
Value in milliseconds. Default value is 2000. This IE should not be used by the UE in this release of the protocol.
One spare value is needed.

N301
MD

Integer(0..7)
Default value is 2. This IE should not be used by the UE in this release of the protocol.

T302
MD

Integer(100, 200... 2000 by step of 200, 3000, 4000, 6000, 8000)
Value in milliseconds. Default value is 4000.
One spare value is needed.

N302
MD

Integer(0..7)
Default value is 3.

T304
MD

Integer(100, 200, 400, 1000, 2000)
Value in milliseconds. Default value is 2000. Three spare values are needed.

N304
MD

Integer(0..7)
Default value is 2..

T305
MD

Integer(5, 10, 30, 60, 120, 360, 720, infinity)
Value in minutes. Default value is 30.
Infinity means no update

T307
MD

Integer(5, 10, 15, 20, 30, 40, 50)
Value in seconds. Default value is 30.
One spare value is needed.

T308
MD

Integer(40, 80, 160, 320)
Value in milliseconds. Default value is 160.

T309
MD

Integer(1…8)
Value in seconds. Default value is 5.

T310
MD

Integer(40 .. 320 by step of 40) 
Value in milliseconds. Default value is 160.

N310
MD

Integer(0 .. 7)
Default value is 4.

T311
MD

Integer(250 .. 2000 by step of 250) 
Value in milliseconds. Default value is 2000.

T312
MD

Integer (0..15)
Value in seconds. Default value is 1. The value 0 is not used in this version of the specification.

N312
MD

Integer (1, 2, 4, 10, 20, 50, 100, 200, 400, 600, 800, 1000)
Default value is 1.

T313
MD

Integer (0..15)
Value in seconds. Default value is 3.

N313
MD

Integer (1, 2, 4, 10, 20, 50, 100, 200)
Default value is 20.

T314
MD

Integer(0, 2, 4, 6, 8, 12, 16, 20)
Value in seconds. Default value is 12.

T315
MD

Integer (0,10, 30, 60, 180, 600, 1200, 1800)
Value in seconds. Default value is 180.

N315
MD

Integer (1, 2, 4, 10, 20, 50, 100, 200, 400, 600, 800, 1000)
Default value is 1.

T316
MD

Integer(0, 10, 20, 30, 40, 50, infinity)
Value in seconds. Default value is 30.
One spare value is needed.

T317
MD



Default value is infinity.




Enumerated (infinity,  infinity, infinity, infinity, infinity, infinity, infinity, infinity)
All the values are changed to "infinity" in the Rel-5.
REL-5
T323
OP

Enumerated (0, 5, 10, 20, 30, 60, 90, 120)
Value in seconds. 
The use of 0secs indicates no need to apply the inhibit timer.
See Note 1
REL-8

NOTE 1:	If T323 is configured or cleared via non-critical extensions of UTRAN MOBILITY INFORMATION message, UTRAN should explicitly signal the other timers and constants in the same message. Otherwise the T323 configuration change is not applied to UE.
10.3.3.44	UE Timers and Constants in idle mode
This information element specifies timer- and constant values used by the UE in idle mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
T300
MP

Integer(100, 200... 2000 by step of 200, 3000, 4000, 6000, 8000)
Value in milliseconds. Default value is 1000. Use of Default is described in 10.2.48.8.4 and in 10.2.48.8.16.
N300
MP

Integer(0..7)
Default value is 3. Use of Default is described in 10.2.48.8.4 and in 10.2.48.8.16.
T312
MP

Integer(0 .. 15)
Value in seconds. Default value is 1. Use of Default is described in 10.2.48.8.4 and in 10.2.48.8.16. The value 0 is not used in this version of the specification.
N312
MP

Integer (1, 2, 4, 10, 20, 50, 100, 200, 400, 600, 800, 1000)
Default value is 1. Use of Default is described in 10.2.48.8.4 and in 10.2.48.8.16.

10.3.3.45	UE positioning capability
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version

Standalone location method(s) supported
MP

Boolean
Defines if a UE can measure its location by some means unrelated to UTRAN
TRUE means supported

UE based OTDOA supported
MP

Boolean
TRUE means supported

Network Assisted GPS support
MP

Enumerated ('Network based', 'UE based', 'Both', 'None')
Defines if the UE supports network based or UE based GPS methods.

Network Assisted GANSS support List
CV-not_iRAT_HoInfo
1 to <maxGANSS>

Absent if GANSS is not supported
REL-7
>GANSS ID
OP

Enumerated(
Absence of this IE means Galileo. Eight spare values needed.
REL-7



SBAS,
Modernized_GPS,
QZSS,
GLONASS,
Absence of this IE means Galileo. Four spare values needed.
REL-8



BDS)
Absence of this IE means Galileo. Three spare values needed.
REL-12
>SBAS IDs
CV-GANSS‑ID‑SBAS

Bit String(8)
Defines the specific SBAS(s) supported. This is represented using a bit string with one bit per SBAS as defined in NOTE 1 where a one value indicates support and a zero value no support.
REL-8
>GANSS mode
MP

Enumerated ('Network based', 'UE based', 'Both', 'None')
Defines if the UE supports network based or UE based GANSS methods 
REL-7
>GANSS Signal ID
OP

10.3.3.45a
Absence of this field means the default value as defined in 10.3.3.45a for the GANSS identified by GANSS ID.
REL-7
>GANSS Signal IDs
OP

Bit String(8)
Defines if a UE has the capability to perform measurements on more than one GANSS signal and which signals are supported. This is represented using a bit string with one bit per signal as defined in NOTE 2 where a one value indicates support and a zero value no support. 
REL-8
>Support for GANSS timing of cell frames measurement
MP

Boolean
Defines if a UE has the capability to perform the UE GANSS timing of cell frames measurement. 
TRUE means capable
REL-7
>Support for GANSS Carrier-Phase Measurement
OP

Boolean
Defines if a UE has the capability to perform the UE GANSS Carrier-Phase Measurement. 
TRUE means capable
REL-7
>Support for non-native assistance choices
OP

Enumerated (TRUE)
Absence of this element means not supported and presence means the UE supports assistance data choices in formats not defined in the ICD of a particular GANSS. Multiple choices exist for assistance data elements defined in 10.3.7.89a, 
10.3.7.94a/b,
10.3.7.97d.
REL-8
GANSS support indication
CV-iRAT_HoInfo

Enumerated (TRUE)
TRUE indicates that the UE supports GANSS
REL-7
Support for GPS timing of cell frames measurement
MP

Boolean
Defines if a UE has the capability to perform the UE GPS timing of cell frames measurement [7].
TRUE means capable

Support for IPDL
MP

Boolean
Defines if a UE has the capability to use IPDL to enhance its 'SFN-SFN observed time difference –type 2' measurement.
TRUE means supported

Support for Rx-Tx time difference type2 measurement
MP

Boolean
TRUE means supported

Support for UP assisted GPS measurement validity in CELL_PCH and URA_PCH states
CV-GPSsupported

Enumerated (TRUE)


Support for SFN-SFN observed time difference type 2 measurement
OP

Enumerated (TRUE)
Absence of this element means not supported and presence means supported.

AddPos support List
CV-not_iRAT_HoInfo
1 to <maxAddPos>

Absent if Additional Positioning methods are not supported
REL-13
>AddPos ID
MP

Enumerated (‘Barometric Pressure’, ‘WLAN’, ‘Bluetooth’, ‘MBS’)
Four spare values are needed
REL-13
>AddPos mode
MP

Enumerated ('standalone', 'UE assisted', 'Both')
Defines if the UE supports network based or UE based Additional Positioning methods. One spare value is needed. 
REL-13

Condition
Explanation
GPSsupported
This IE is mandatory present if the IE “Network Assisted GPS support” is set to 'Network based', 'UE based' or 'Both'. Otherwise, it is not needed.
not_iRAT_HoInfo
These IEs are not needed in the INTER RAT HANDOVER INFO message. Otherwise, they are optionally present.
iRAT_HoInfo
This IE is optionally present in the INTER RAT HANDOVER INFO message. Otherwise, the IE is not needed.
GANSS‑ID‑SBAS
This IE is mandatory present if the IE “GANSS ID” is “SBAS” and not needed otherwise.

NOTE 1:	Coding of SBAS IDs:
SBAS IDs Bit String(8)
Bit 1
(MSB)
Bit 2
Bit 3
Bit 4
Bit 5
Bit 6
Bit 7
Bit 8
(LSB)
WAAS
EGNOS
MSAS
GAGAN
-
-
-
-

NOTE 2:	Coding of GANSS Signal IDs:
GANSS 
GANSS Signal IDs Bit String(8)

Bit 1
(MSB)
Bit 2
Bit 3
Bit 4
Bit 5
Bit 6
Bit 7
Bit 8
(LSB)
Galileo
E1
E5a
E5b
E6
E5a+E5b
-
-
-
Modernized GPS
L1C
L2C
L5
-
-
-
-
-
SBAS
L1
-
-
-
-
-
-
-
QZSS
QZS-L1
QZS-L1C
QZS-L2C
QZS-L5
-
-
-
-
GLONASS
G1
G2
G3
-
-
-
-
-
BDS
B1I
-
-
-
-
-
-
-

10.3.3.45a	GANSS Signal Id
The GANSS Signal ID encodes the identification of the signal for each GANSS. It depends on the GANSS Id.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
GANSS Signal Identity per Signal Id
MD

INTEGER (0..7)
See NOTE  1
REL-7

NOTE 1:
GANSS Id
Value
Explanation
Version
Default: Galileo
Default Value
Galileo E1
REL-7

0
Galileo E5A


1
Galileo E5B


2
Galileo E6


3
Galileo E5A + E5B


4-7
Reserved

Modernized GPS
Default Value
GPS L1C
REL-8

0
GPS L2C


1
GPS L5


2-7
Reserved

SBAS
Default Value
L1


0-7
Reserved

QZSS
Default Value
QZS-L1


0
QZS-L1C


1
QZS-L2C


2
QZS-L5


3-7
Reserved

GLONASS
Default Value
GLONASS G1


0
GLONASS G2


1
GLONASS G3


2-7
Reserved

BDS
Default Value
B1I
REL-12

0-7
Reserved


10.3.3.46	URA update cause
Indicates the cause for s URA update.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
URA update cause
MP

Enumerated(change of URA, periodic URA update)
One spare value is needed.

10.3.3.47	U-RNTI
The U-RNTI (UTRAN Radio Network Temporary Identity) is allocated to a UE having a RRC connection and identifies the UE within UTRAN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SRNC identity
MP

bit string(12)
The SRNC ID unique in PLMN is encoded to SRNC identity IE in descending order from b31 . The b31 is the most significant bit.

If the SRNC ID is more than 12 bits as defined in [57], the remaining bits are included as most significant bits of S-RNTI IE.

If the UE ID unique in SRNS encoded in S-RNTI IE is more than 20 bits as defined in [57], the most significant bits are included as the least significant bits of SRNC ID.
S-RNTI
MP

bit string(20)
The UE ID unique in SRNS is encoded to the S-RNTI IE in descending order.

If the S-RNTI IE is more than 20 bits as defined in [57], the remaining bits are included as the least significant bits of SRNC ID.

If the SRNC ID is more than 12 bits as defined in [57], S-RNTI include both part of the SRNC ID and the UE-ID. The least significant bits encode the UE-ID to the S-RNTI IE in descending order. The b0 is the least significant bit.

10.3.3.47a	U-RNTI group
The U-RNTI group is used to identify a group of UEs having an RRC connection.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE group discrimimator
MP



REL-5
>All



(no data)
REL-5
>U-RNTI mask




REL-5
>>U-RNTI
MP

U-RNTI 10.3.3.47
The bits that are less significant than the bit position indicated by the U-RNTI bit mask index shall be ignored.
REL-5
>>U-RNTI bit mask index
MP

Enumerated(b1, b2,..b31)
Values b1 to b31 indicate bit positions in the S-RNTI and in the SRNC identity.
REL-5

10.3.3.48	U-RNTI Short
The U-RNTI (UTRAN Radio Network Temporary Identity) is allocated to a UE having a RRC connection and identifies the UE within UTRAN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SRNC identity
MP

bit string(12)
The SRNC identity bits are numbered b20 to b31, where b20 is the least significant bit.
If the SRNC ID is more than 12 bits as defined in [57], the remaining bits are included as most significant bits of S-RNTI 2 IE.
S-RNTI 2
MP

bit string(10)
The UE ID is encoded in S-RNTI 2 in descending order. If the SRNC ID is more than 12 bits as defined in [57], S-RNTI include both part of the SRNC ID and the UE-ID. The least significant bits encode the UE-ID to the S-RNTI IE in descending order. The b0 is the least significant bit.

10.3.3.49	UTRAN DRX cycle length coefficient
A coefficient in the formula to count the paging occasions to be used by a specific UE (specified in [4]).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
DRX cycle length coefficient
MP

Integer(3...9)
Refers to 'k' in the formula as specified in [4], Discontinuous reception

DRX cycle length coefficient 2
MD

Integer(3..9)
Refers to 'k' in the formula as specified in [4], Discontinuous reception. The default value is “same as DRX cycle length coefficient”.
REL-7
Time for DRX cycle 2
MD

Integer(80, 160, 320, 640, 1280, 2560, 5120)
Values in milliseconds. The default value is 0 ms.
REL-7

10.3.3.50	Wait time
Wait time defines the time period the UE has to wait before repeating the rejected procedure.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Wait time
MP

Integer(0..
15)
Wait time in seconds
The value 0 indicates that repetition is not allowed.
Wait time should be set to zero if the IE "Extended Wait Time" is present in the RRC Connection Reject message.

10.3.3.51	UE Specific Behaviour Information 1 idle
This IE indicates the UE conformance typically for RRC connection establishment from idle mode.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
UE Specific Behaviour Information 1 idle
MP

bit string(4)


10.3.3.52	UE Specific Behaviour Information 1 interRAT
This IE indicates the UE conformance typically for RRC connection establishment from another RAT.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
UE Specific Behaviour Information 1 interRAT
MP

bit string(8)


10.3.3.53	UE based network performance measurements parameters
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Support of Logged Measurements Idle PCH
OP

Enumerated (TRUE)
The absence of this IE indicates that the UE does not support logged measurements in Idle mode, URA_PCH or CELL_PCH states. 
REL-10

10.3.4	Radio Bearer Information elements
10.3.4.oa	Common RB mapping info
NOTE:	For FDD and 1.28 Mcps TDD only.
A multiplexing option between a logical channel and a MAC-ehs queue.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Logical channel identity
MP

Integer(1..15)
Note
REL-7
MAC-ehs queue identity
MP

MAC-ehs Queue Id 10.3.5.7f

REL-7

NOTE:	the IE "Logical channel identity" conveys the value to be used in the "LCH-ID" field of the MAC-ehs header [15] associated with the MAC-ehs reordering queue identified by the IE "MAC-ehs queue identity".
10.3.4.0	Default configuration identity
This information element identifies a default radio parameter configuration. The corresponding default configurations are specified in subclause 13.7.

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Default configuration identity
MP

Integer (0..10,
See NOTE 1




11, 

REL-4



13,
Default configuration ID 2 is not used.
REL-5



12, 14, 15, 16

REL-6



17,
Used only in RRC Connection Setup message.
REL-6



18..22, 
See NOTE 1
REL-6



23,
Default configuration 23 shall not be used in this version of the specification.
REL-9



24,

REL-10



25..31)
Reserved for future extension
REL-10
NOTE 1:	For TDD, default configuration identities 0, 1, 5, 6, 7 and 22 are only valid from REL-10.

10.3.4.0a	Default configuration for CELL_FACH
This information element identifies a default radio parameter configuration for CELL_FACH. The corresponding default configurations are specified in subclause 13.8.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Default configuration mode
MP

Enumerated (FDD, TDD)
Indicates whether the FDD or TDD version of the default configuration shall be used
REL-8
Default configuration identity for CELL_FACH
MP

Integer (0,

REL-8



1..15)
Reserved for future extension
REL-8

10.3.4.1	Downlink RLC STATUS info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Timer_Status_Prohibit
OP

Integer(10..550 by step of 10, 550..1000 by step of 50)
Minimum time in ms between STATUS reports

Missing PDU Indicator
MP

Boolean
Value TRUE indicates that UE should send a STATUS report for each missing PDU that is detected

Timer_STATUS_periodic
OP

Integer(100,200, 300, 400, 500, 750, 1000, 2000)
Time in milliseconds

Timer_Reordering
CV-Multiflow

Integer(50,100,150,200,400,600,800,1000)
Time in milliseconds for which a UE should wait upon encountering a gap in the RLC sequence numbers.
NOTE1.
REL-11
NOTE1:	If this IE is included for SRB0 or SRB1, then the UE behaviour is unspecified.

Condition
Explanation
Multiflow
The IE is optional when the Multiflow operation is configured, otherwise it is not needed.

10.3.4.1a	PDCP context relocation info
This information element indicates that the header compression context relocation is to be performed during SRNS relocation for the given radio bearer.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RB identity
MP

RB identity 10.3.4.16

REL-5
Downlink RFC 3095 context relocation indication
MP

Boolean
TRUE means RFC 3095 context relocation is performed in downlink
REL-5
Uplink RFC 3095 context relocation indication
MP

Boolean
TRUE means RFC 3095 context relocation is performed in uplink
REL-5

10.3.4.2	PDCP info
The purpose of the PDCP info IE is to indicate which algorithms shall be established and to configure the parameters of each of the algorithms.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Support for lossless SRNS relocation or for lossless DL RLC PDU size change
CV-LosslessCriteria

Boolean
TRUE means support

Max PDCP SN window size
CV-Lossless

Enumerated(sn255, sn65535)
Maximum PDCP sequence number window size. The handling of sequence number when the Max PDCP SN window size is 255 is specified in [23].

PDCP PDU header
MP

Enumerated (present, absent)
Whether a PDCP PDU header is existent or not.

Header compression information
OP
1 to <maxPDCPAlgoType>



>CHOICE algorithm type
MP


Note 1

>>RFC 2507



Header compression according to IETF standard RFC 2507

>>>F_MAX_PERIOD
MD

Integer (1..65535)
Largest number of compressed non-TCP headers that may be sent without sending a full header. Default value is 256.

>>>F_MAX_TIME
MD

Integer (1..255)
Compressed headers may not be sent more than F_MAX_TIME seconds after sending last full header. Default value is 5.

>>>MAX_HEADER
MD

Integer (60..65535)
The largest header size in octets that may be compressed. Default value is 168.

>>>TCP_SPACE
MD

Integer (3..255)
Maximum CID value for TCP connections. Default value is 15.

>>>NON_TCP_SPACE
MD

Integer (3..65535)
Maximum CID value for non-TCP connections. Default value is 15.

>>>EXPECT_REORDERING
MD

Enumerated (reordering not expected, reordering expected)
Whether the algorithm shall reorder PDCP SDUs or not. Default value is "reordering not expected".

>>RFC 3095



Header compression according to IETF ROHC standard [83], [84].
REL-4
>>>Profiles
MP
1 to <maxROHC- Profiles>

Profiles supported by both compressor and decompressor in both UE and UTRAN. Profile 0 shall always be supported.
REL-4
>>>>Profile instance
MP

Integer(1.. 3)
1 = 0x0001, 2 = 0x0002, 3 = 0x0003 (see [52])
REL-4
>>>Uplink
OP


Indicates the necessary information elements for Uplink.
REL-4
>>>>Max_CID
MD

Integer (1.. 16383)
Highest context ID number to be used by the UE compressor.
Default value is 15.
REL-4
>>>Downlink
OP


Indicates the necessary information elements for Downlink.
REL-4
>>>>Max_CID
MD

Integer (1.. 16383)
Highest context ID number to be used by the UE decompressor.
Default value is 15.
REL-4
>>>>Reverse_Decompression_Depth
MD

Integer (0..65535)
Determines whether reverse decompression should be used or not and the maximum number of packets that can be reverse decompressed by the UE decompressor. Default value is 0 (reverse decompression shall not be used).
REL-4
Note 1:	If several occurrences of the same algorithm type are included in the same IE “header 	compression information”, the UE behaviour is unspecified.

Condition
Explanation
LosslessCriteria
This IE is mandatory present if the IE "RLC mode" is "Acknowledged", the IE "In-sequence delivery " is TRUE and the IE "SDU Discard Mode" is "No discard" and not needed otherwise.
Lossless
This IE is mandatory present if the IE "Support for lossless SRNS relocation or for lossless RLC PDU size change" Is TRUE, otherwise it is not needed.

10.3.4.2a	PDCP ROHC target mode
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Target Mode
MP

Enumerated (O-mode, R-mode)
The UE shall only transit to the signalled mode for operation of ROHC as decribed in [36].
REL-5

10.3.4.3	PDCP SN info
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Receive PDCP sequence number
MP

Integer(0..65535)
The PDCP sequence number, which the sender of the message is expecting next to be received.

10.3.4.4	Polling info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Timer_poll_prohibit
OP

Integer(10..550 by step of 10, 600..1000 by step of 50)
Minimum time between polls in ms
Timer_poll
OP

Integer(10..550 by step of 10, 600..1000 by step of 50)
Time in ms.
Poll_PDU
OP

Integer(1,2,4,8,16,32,64,128)
Number of PDUs, interval between pollings
Poll_SDU
OP

Integer(1,4,16,64)
Number of SDUs, interval between pollings
Last transmission PDU poll 
MP

Boolean
TRUE indicates that poll is made at last PDU in transmission buffer
Last retransmission PDU poll
MP

Boolean
TRUE indicates that poll is made at last PDU in retransmission buffer
Poll_Window
OP

Integer(50,60,70,80,85,90,95,99)
Percentage of transmission window, threshold for polling
Timer_poll_periodic
OP

Integer(100,200, 300, 400, 500, 750, 1000, 2000)
Time in milliseconds Timer for periodic polling.

10.3.4.5	Predefined configuration identity
This information element identifies a pre- defined radio parameter configuration.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Predefined radio configuration identity
MP

Integer (0..15)


10.3.4.5a	Predefined configuration status information
Another system may provide the UE with one or more predefined UTRAN configurations, comprising of radio bearer, transport channel and physical channel parameters. If requested, the UE shall indicate the configurations it has stored. The predefined configuration status information should include the following RRC information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RB information elements




Predefined configurations

maxPredefConfigCount

The list is in order of preconfiguration identity
>Predefined configuration value tag
OP

Predefined configuration value tag
10.3.4.6
The UE shall include the value tag if it has stored the concerned configuration

Multi Bound
Explanation
MaxPredefConfigCount
Maximum number of predefined configurations

10.3.4.5b	Predefined configuration status information compressed
Another system may provide the UE with one or more predefined UTRAN configurations, comprising of radio bearer, transport channel and physical channel parameters. If requested, the UE shall indicate the configurations it has stored. The compressed predefined configuration status information should include the following RRC information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Sets with different value tags
MP



REL-5
>Pre-defined configuration set with different value tags
MP
1..2



REL-5
>>Start position
MD

INTEGER (0..10)
Default value is 0, corresponding with the first pre- defined configuration.
The pre-defined configuration where the consecutive sequence of pre-defined configurations begins. 
REL-5
>>Pre-defined configuration value tag list

MP
6..<maxPredefConfig>
Pre-defined configuration value tag
10.3.4.6
Value Tags for each pre-defined configuration starting from the lowest.
REL-5
Other Entries
OP



REL-5
>Pre-defined configuration list with variable size
MP
1..<maxPredefConfig>

List of other pre-defined configurations not included within the Sets with different value tags, in consecutive order starting with the lowest. If there are stored pre-defined configurations positioned after a pre-defined configuration that is not stored, the UE shall indicate the not-stored pre-defined configuration by explicitly indicating it to be absent. If there are no stored pre-defined configurations positioned after a pre-defined configuration that is not stored, then the UE may totally omit these pre-defined configurations from the IE, i.e. reduce the size of the list to correspond to the last position that contained a stored pre-defined configuration.
REL-5
>>Predefined configuration value tag
OP

Predefined configuration value tag
10.3.4.6
The UE shall include the value tag if it has stored the concerned configuration
REL-5

10.3.4.6	Predefined configuration value tag
This information element is used to identify different versions of a radio bearer configuration as may be used within one PLMN e.g. to support different UTRAN implementations.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Predefined configuration value tag
MP

Integer(0..15)


10.3.4.7	Predefined RB configuration
This information element concerns a pre- defined configuration of radio bearer parameters
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
UE information elements




Re-establishment timer
MP

Re-establishment timer
10.3.3.30
Only one RAB supported
Signalling radio bearer information




Signalling RB information to setup List
MP
1 to <maxSRBsetup>

For each signalling radio bearer
>Signalling RB information to setup
MP

Signalling RB information to setup
10.3.4.24

RB information



Only one RAB supported
RB information to setup list
MP
1 to <maxRBperRAB>


>RB information to setup
MP

RB information to setup
10.3.4.20


10.3.4.8	RAB info
This IE contains information used to uniquely identify a radio access bearer.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RAB identity
MP

RAB identity 10.3.1.14


MBMS Service Identity
CV-Message

MBMS service ID 10.3.9a.8a
Included when establishing a RB for a MBMS service of the broadcast type; NOTE 1
REL-6
MBMS Session identity
CV-Message

MBMS Session identity 10.3.9a.9

REL-6
CN domain identity
MP

CN domain identity 10.3.1.1


NAS Synchronization Indicator
OP

NAS Synchronization indicator 10.3.4.12


Re-establishment timer
MP

Re-establishment timer 10.3.3.30


NOTE 1:	Only the "MBMS Service ID" part of the MBMS service identity is signalled in this IE. The UE should consider that the "PLMN identity" part of the MBMS service identity equals the PLMN identity of an MBMS service with the same "MBMS Service ID" stored in the variable ACTIVATED_MBMS_SERVICES. If there is no such MBMS service or more than one such MBMS service, the UE behaviour is unspecified.

Condition
Explanation
Message
This IE is optionally present in the RADIO BEARER SETUP and the SRNS RELOCATION INFO messages and not needed otherwise.

10.3.4.9	RAB info Post
This IE contains information used to uniquely identify a radio access bearer.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RAB identity
MP

RAB identity 10.3.1.14

CN domain identity
MP

CN domain identity 10.3.1.1

NAS Synchronization Indicator
OP

NAS Synchronization indicator 10.3.4.12


10.3.4.9a	RAB information for MBMS ptp bearers
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RB identity
MP

RB identity 10.3.4.16

REL-7
MBMS Service Identity
MP

MBMS Service ID 10.3.9a.8a
Indicates that this radio bearer is used for a different MBMS service.
REL-7
MBMS Session Identity
OP

MBMS Session identity 10.3.9a.9
Indicates that this radio bearer is used for a different session of the MBMS service.
REL-7

10.3.4.10	RAB information for setup
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RAB info
MP

RAB info 10.3.4.8


CS-HSPA information
CV-CS



REL-8
>UL AMR rate
MD

Enumerated (t0, t1, t2, t3, t4, t5, t6, t7, t8)
Indicates the bit rate as defined in [62] and [63].
In case NAS Synchronization Indicator indicates AMR, default value is “t7”.
In case NAS Synchronization Indicator indicates AMR-WB, default value is “t8“.
7 spare values are needed.
REL-8
>Max CS delay
MP

Integer (20..200 by step of 10)
Indicates the maximum possible delay for CS voice frames Unit is ms
REL-8
RAB info to replace
CV-SRVCC

RAB info to replace 10.3.4.11a

REL-8
RB information to setup list
MP
1 to <maxRBperRAB>



>RB information to setup
MP

RB information to setup
10.3.4.20



Condition
Explanation
CS
This IE is mandatory if the IE “CN domain identity” has the value “CS domain” and the RAB is mapped on HS-DSCH/E-DCH. It is not needed otherwise.
SRVCC
This IE is mandatory if the RAB is established as part of an SR-VCC procedure and the message is not HANDOVER TO UTRAN COMMAND message and not needed otherwise.

10.3.4.11	RAB information to reconfigure
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RAB identity
MP

RAB Identity 10.3.1.14


CN domain identity
MP

CN domain identity 10.3.1.1


NAS synchronization indicator
MP

NAS Synchronization info 10.3.4.12
Note 1

CS-HSPA information
CV-CS



REL-8
>UL AMR rate
MD

Enumerated(t0, t1, t2, t3, t4, t5, t6, t7, t8)
Indicates the bit rate as defined in [62] and [63].
In case NAS Synchronization Indicator indicates AMR, default value is “t7”.
In case NAS Synchronization Indicator indicates  AMR-WB, default value is “t8“.
7 spare values are needed.
REL-8
>Max CS delay
MP

Integer(20..200 by step of 10)
Indicates the maximum possible delay for CS voice frames Unit is ms
REL-8

Condition
Explanation
CS
This IE is mandatory if the IE “CN domain identity” has the value “CS domain” and the RAB is mapped on HS-DSCH/E-DCH. It is not needed otherwise.

NOTE 1:	This IE is only relevant for the CS domain.
10.3.4.11a	RAB info to replace
This IE contains information to identify a radio access bearer to be replaced with a new radio access bearer as part of SR-VCC procedures. This IE is not included in case SR-VCC from LTE to UMTS.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RAB identity
MP

RAB identity 10.3.1.14

REL-8
CN domain identity
MP

CN domain identity 10.3.1.1

REL-8

10.3.4.12	NAS Synchronization indicator
A container for non-access stratum information to be transferred transparently through UTRAN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
NAS Synchronization indicator
MP

Bit string(4)
 The first/leftmost bit of the bit string contains the most significant bit of the NAS Synchronization indicator.

10.3.4.13	RB activation time info
This IE contains the time, in terms of RLC sequence numbers, when a certain configuration shall be activated, for a number of radio bearers.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Radio bearer activation time
MP
1 to <maxRB>


>RB identity
MP

RB identity 10.3.4.16

>RLC sequence number
MP

Integer (0..
4095)
RLC SN [16] . 
Used for radio bearers mapped on RLC AM and UM

10.3.4.14	RB COUNT-C MSB information
The MSB of the COUNT-C values of the radio bearer.
Information Element/Group name
Needed
Multi
Type and reference
Semantics description
RB identity
MP

RB identity 10.3.4.16

COUNT-C-MSB-uplink
MP

Integer (0..
2^25-1)
25 MSBs from COUNT-C associated to this RB
COUNT-C-MSB-downlink
MP

Integer (0..
2^25-1)
25 MSBs from COUNT-C associated to this RB

10.3.4.15	RB COUNT-C information
The COUNT-C values of the radio bearer.
Information Element/Group name
Needed
Multi
Type and reference
Semantics description
RB identity
MP

RB identity 10.3.4.16

COUNT-C-uplink
MP

Integer (0..
2^32-1)

COUNT-C-downlink
MP

Integer (0..
2^32-1)


10.3.4.16	RB identity
An identification number for the radio bearer affected by a certain message.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RB identity
MP

Integer(1..32)
Values 1-4 shall only be used for signalling radio bearers. The IE value minus one shall be used as BEARER in the ciphering algorithm.

10.3.4.17	RB information to be affected
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RB identity
MP

RB identity 10.3.4.16

RB mapping info
MP

RB mapping info 10.3.4.21


10.3.4.18	RB information to reconfigure
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RB identity
MP

RB identity 10.3.4.16

PDCP info
OP

PDCP info 10.3.4.2

PDCP SN info
OP

PDCP SN info
10.3.4.3
PDCP sequence number info from the network. Present only in case of lossless SRNS relocation.
RLC info
OP

RLC info 10.3.4.23

RB mapping info
OP

RB mapping info 10.3.4.21

RB stop/continue
OP

Enumerated(stop, continue)


10.3.4.19	RB information to release
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RB identity
MP

RB identity 10.3.4.16


10.3.4.20	RB information to setup
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RB identity
MP

RB identity 10.3.4.16

PDCP info
OP

PDCP info 10.3.4.2

CHOICE RLC info type
MP



>RLC info


RLC info 10.3.4.23

>Same as RB


RB identity 10.3.4.16
Identity of RB with exactly the same RLC info IE values
RB mapping info
MP

RB mapping info 10.3.4.21


NOTE:		This information element is included within IE "Predefined RB configuration".
10.3.4.21	RB mapping info
A multiplexing option for each possible transport channel MAC-d flow or E-DCH MAC-d flow this RB can be multiplexed on.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Information for each multiplexing option
MP
1 to <maxRBMuxOptions>



>RLC logical channel mapping indicator
CV-UL-RLCLogicalChannels

Boolean
TRUE indicates that the first logical channel shall be used for data PDUs and the second logical channel shall be used for control PDUs.
FALSE indicates that control and data PDUs can be sent on either of the two logical channels.
This parameter is not used in this release and shall be set to TRUE.

>Number of uplink RLC logical channels
CV-UL-RLC info
1 to MaxLoCHperRLC

1 or 2 logical channels per RLC entity or radio bearer
RLC [16]

>>CHOICE Uplink transport channel type




REL-6
>>>DCH, RACH, USCH




REL-6
>>>>Uplink transport channel type
MP

Enumerated(DCH,RACH,USCH
USCH is TDD only

>>>>ULTransport channel identity
CV-UL-DCH/USCH

Transport channel identity 10.3.5.18
This is the ID of a DCH or USCH (TDD only) that this RB could be mapped onto.

>>>>Logical channel identity
OP

Integer(1..15)
This parameter is used to distinguish logical channels multiplexed by MAC on a transport channel.

>>>>CHOICE RLC size list
MP


The RLC sizes that are allowed for this logical channel.

>>>>>All


Null
All RLC sizes listed in the Transport Format Set. 10.3.5.23

>>>>>Configured


Null
The RLC sizes configured for this logical channel in the Transport Format Set. 10.3.5.23 if present in this message or in the previously stored configuration otherwise

>>>>>Explicit List

1 to <maxTF>

Lists the RLC sizes that are valid for the logical channel.

>>>>>>RLC size index
MP

Integer(1..maxTF)
The integer number is a reference to the RLC size which arrived at that position in the Transport Format Set 10.3.5.23

>>>E-DCH



Note 4
REL-6
>>>>Logical channel identity
MP

Integer(1..15)
This parameter is used to distinguish logical channels multiplexed by MAC on a transport channel
REL-6
>>>>E-DCH MAC-d flow identity
MP

E-DCH MAC-d flow identity 10.3.5.7e

REL-6
>>>>CHOICE RLC PDU size
MP



REL-8
>>>>>Fixed size




REL-8
>>>>>>DDI
MP

Integer (0..62)
If more than 1 UL RLC PDU size is configured for this RB, the different sizes will use subsequent DDI values starting from this DDI value.
Value “0x3F” is reserved
Note 6
REL-6
>>>>>>RLC PDU size list
MP
1 to <maxRLCPDUsizePerLogChan>


REL-6
>>>>>>>RLC PDU size
MP

Integer(16..5000 by step of 8)
Unit is bits
REL-6
>>>>>Flexible size




REL-8
>>>>>>Length indicator size
CV-UL-RLC AM mode

Enumerated (7-bit, 15-bit)

REL-8
>>>>>>Minimum UL RLC PDU size
MP

Integer (16..12040 by step of 8)
Unit is bits
REL-8
>>>>>>Largest UL RLC PDU size
MP

Integer (16..12040 by step of 8)
Unit is bits
REL-8
>>>>Include in Scheduling Info
MP

Boolean
Indicates whether or not this logical channel is to be considered when performing scheduling info reporting, as per [15]
REL-6
>>MAC logical channel priority
MP

Integer(1..8)
This is priority between a user's different RBs (or logical channels). [15]

>Downlink RLC logical channel info
CV-DL-RLC info




>>Number of downlink RLC logical channels
MD
1 to MaxLoCHperRLC

1 or 2 logical channels per RLC entity or radio bearer
RLC [16]
Default value is that parameter values for DL are exactly the same as for corresponding UL logical channel. In case two multiplexing options are specified for the UL, the first options shall be used as default for the DL. As regards to the IE "Channel type", rule is specified in 8.6.4.8.

>>>Downlink transport channel type
MP

Enumerated(DCH,FACH,DSCH,DCH+DSCH
Note 3




, HS-DSCH, DCH + HS-DSCH)
Note 4
REL-5
>>>DL DCH Transport channel identity
CV-DL-DCH

Transport channel identity 10.3.5.18


>>>DL DSCH Transport channel identity
CV-DL-DSCH

Transport channel identity 10.3.5.18


>>>CHOICE DL MAC header type
CV-DL-HS-DSCH


Depending on the MAC-hs/ehs type of header selected for HS-DSCH
REL-7
>>>>MAC-hs




REL-7
>>>>>DL HS-DSCH MAC-d flow identity
MP

MAC-d flow identity 10.3.5.7c

REL-5
>>>>MAC-ehs




REL-7
>>>>>DL HS-DSCH MAC-ehs Queue Id
MP

MAC-ehs Queue Id 10.3.5.7f
Note 5
REL-7
>>>Logical channel identity
OP

Integer(1..15)
16 is reserved
Note 5

Note 3:	The IE "Downlink transport channel type" values " DSCH” and “DCH+DSCH " should not be used for FDD. If received the UE behaviour is unspecified.
Note 4:	If included in System Information Block Type 16, the values ‘HS-DSCH’ and ‘DCH + HS-DSCH’ do not apply for the IE "Downlink transport channel type". Furthermore, if included in System Information Block Type 16, the value "E-DCH” for the IE "Uplink transport channel type" does not apply.
Note 5:	If the IE "Downlink transport channel type" is "HS-DSCH" or "DCH + HS-DSCH" and the DL MAC header type is "MAC-ehs", the IE "Logical channel identity" conveys the value to be used in the "LCH-ID" field of the MAC-ehs header [15], associating the logical channel with the MAC-ehs reordering queue identified by the IE "DL HS-DSCH MAC-ehs Queue Id".
Note 6:	If the radio bearer has a multiplexing option configured with the UL MAC header type of "MAC-i/is" then this value is ignored.

Condition
Explanation
UL-RLC info
If "CHOICE Uplink RLC mode" in the IE "RLC info" that applies for that RB (i.e. either the one stored or received in the same message for the RB for which the "RB mapping info" was received, or the one stored or received in the same message for the RB pointed at in the IE "Same as RB" in the IE "RB information to setup" stored or received in the same message) is present this IE is mandatory present. Otherwise the IE is not needed.
DL-RLC info
If "CHOICE Downlink RLC mode" in the IE "RLC info" that applies for that RB (i.e. either the one stored or received in the same message for the RB for which the "RB mapping info" was received, or the one stored or received in the same message for the RB pointed at in the IE "Same as RB" in the IE "RB information to setup" stored or received in the same message) is present this IE is mandatory present. Otherwise the IE is not needed.
UL-RLCLogicalChannels
If "Number of uplink RLC logical channels" in IE "RB mapping info" is 2, then this IE is mandatory present. Otherwise this IE is not needed.
UL-DCH/USCH
If IE "Uplink transport channel type" is equal to "DCH" or "USCH" (TDD only) this IE is mandatory present. Otherwise the IE is not needed.
DL-DCH
If IE "Downlink transport channel type" is equal to "DCH", "DCH+DSCH" or “DCH + HS-DSCH” this IE is mandatory present. Otherwise the IE is not needed.
DL-DSCH
If IE "Downlink transport channel type" is equal to "DSCH" or "DCH+DSCH" this IE is mandatory present. Otherwise the IE is not needed.
DL-HS-DSCH
If IE "Downlink transport channel type" is equal to "HS-DSCH" or “DCH + HS-DSCH” this IE is mandatory present. Otherwise the IE is not needed.
UL-RLC AM mode
If "CHOICE Uplink RLC mode" in the IE "RLC info" that applies for that RB (i.e. either the one stored or received in the same message for the RB for which the "RB mapping info" was received, or the one stored or received in the same message for the RB pointed at in the IE "Same as RB" in the IE "RB information to setup" stored or received in the same message) is “AM RLC “ this IE is mandatory present. Otherwise the IE is not needed.

10.3.4.22	RB with PDCP information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RB identity
MP

RB identity 10.3.4.16


PDCP SN info
MP

PDCP SN info 10.3.4.3
PDCP sequence number info from the sender of the message for lossless SRNS relocation.





PDCP sequence number info from the sender of the message for lossless SRNS relocation or for lossless DL RLC PDU size change.
REL-5

10.3.4.23	RLC info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Uplink RLC mode
OP


Indicates if Acknowledged, Unacknowledged or Transparent mode RLC shall be used. 

>AM RLC





>>Transmission RLC discard
MP

Transmission RLC discard 10.3.4.25


>>Transmission window size
MP

Integer(1,8,16,32,64,128,256,512,768,1024,1536,2047,2560,3072,3584,4095)
Maximum number of RLC PUs sent without getting them acknowledged. This parameter is needed if acknowledged mode is used. UE shall also assume that the UTRAN receiver window is equal to this value.

>>Timer_RST
MP

Integer(50, 100, 150, 200, 250, 300, 350, 400, 450, 500, 550, 600, 700, 800, 900, 1000)
Elapsed time in milliseconds. It is used to trigger the retransmission of RESET PDU.

>>Max_RST
MP

Integer(1, 4, 6, 8, 12 16, 24, 32)
Defined in [16]. If other values than 1 are used for SRB2 the UE behaviour is unspecified.

>>Polling info
OP

Polling info 10.3.4.4


>UM RLC





>>Transmission RLC discard
CV-CS-HSPA

Transmission RLC discard 10.3.4.25
NOTE 3

>TM RLC





>>Transmission RLC discard
OP

Transmission RLC discard 10.3.4.25


>>Segmentation indication
MP

Boolean
TRUE indicates that segmentation is performed.

CHOICE Downlink RLC mode
OP


Indicates if Acknowledged, Unacknowledged or Transparent mode RLC shall be used

>AM RLC





>>CHOICE DL RLC PDU size
MP



REL-7
>>>Fixed size




REL-7
>>>>DL RLC PDU size
MP

Integer(16..5000 by step of 8)
Unit is bits
REL-5
>>>Flexible size



NOTE 1
REL-7
>>>>Length indicator size
MP

Enumerated (7-bit, 15-bit)

REL-7
>>In-sequence delivery
MP

Boolean
TRUE indicates that RLC shall preserve the order of higher layer PDUs when these are delivered.
FALSE indicates that receiving RLC entity could allow SDUs to be delivered to the higher layer in different order than submitted to RLC sublayer at the transmitting side.

>>Receiving window size 
MP

Integer(1,8,16,32,64,128,256,512,768,1024,1536,2047,2560,3072,3584,4095)
Maximum number of RLC PUs allowed to be received. This parameter is needed if acknowledged mode is used. UE shall also assume that the UTRAN transmitter window is equal to this value

>>Downlink RLC status Info
MP

Downlink RLC status info
10.3.4.1


>UM RLC





>>DL UM RLC LI size
MP

Integer(7, 15)
Size in bits to use for the downlink RLC UM LI.
REL-5
>>DL Reception Window Size
CV-Not-SIB16o

Integer(32, 48, 64, 80, 96, 112)

REL-6
>TM RLC





>>Segmentation indication
MP

Boolean
TRUE indicates that segmentation is performed.

One sided RLC re-establishment
MP

Boolean
TRUE indicates that only one side of the AM RLC entity is re-established. 
REL-5
Alternative E-bit interpretation
CV-Not-SIB16o

Enumerated (TRUE)
The absence of this IE implies: "normal E-bit interpretation".
REL-6
Use special value of HE field
CV-Not-SIB16o

Enumerated (TRUE)
The absence of this IE implies: “do not use special value of the HE field in the uplink RLC entity”.
REL-7
NOTE 1:	If included in SIB type 16, the "Flexible size" does not apply for downlink RLC PDU size (AM RLC).
NOTE 2:	Void.
NOTE 3:	If this IE is absent and the radio bearer is connected to a CS domain radio access bearer, the UE behaviour is unspecified.

Condition
Explanation
Not-SIB16o
If included in System Information Block Type 16, this IE is not needed. Otherwise the IE is optional
CS-HSPA
This IE is mandatory present If the radio bearer is connected to a CS domain radio access bearer, Otherwise the IE is optional.

NOTE:		This information element is included within IE "Predefined RB configuration".
10.3.4.23a	RLC info MBMS
The IE RLC info MBMS is used for point-to-multipoint radio bearers, featuring only the downlink RLC UMD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
DL UM RLC LI size
MP

Integer (7, 15)
Size in bits to use for the downlink RLC UM LI.
REL-6
DL Duplication Avoidance and Reordering info
CV-MTCH

UM Duplication Avoidance and Reordering info 10.3.4.26

REL-6
DL Out of sequence delivery info
CV-MCCH

UM Out of sequence delivery info 10.3.4.27

REL-6

Condition
Explanation
MTCH
If the IE concerns MTCH (see Note 1), this IE is optional. Otherwise the IE is not needed.
MCCH
If the IE concerns MCCH, this IE is optional. Otherwise the IE is not needed.

NOTE 1:	The UE behaviour is unspecified if this IE is received with regard to an MTCH configured for MBSFN operation. A network should not send this IE with regard to an MTCH configured for MBSFN operation.
10.3.4.24	Signalling RB information to setup
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RB identity

MD

RB identity 10.3.4.16
Default value is specified in subclause 8.6.4.1
CHOICE RLC info type
MP



>RLC info


RLC info 10.3.4.23

>Same as RB


RB identity 10.3.4.16
Identity of RB with exactly the same RLC info IE values
RB mapping info
MP

RB mapping info 10.3.4.21


NOTE:		This information element is included within IE "Predefined RB configuration".
10.3.4.24a	SR-VCC Info
This IE contains information that allows the calculation of the CK and IK for the CS domain, due to a SR-VCC procedure.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
NONCE
OP

Bit string (128)

REL-8

10.3.4.25	Transmission RLC Discard
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE SDU Discard Mode
MP


Different modes for discharge the RLC buffer on the transmitter side;
"Timer based with explicit signalling", "Timer based without explicit signalling", "Discard after Max_DAT retransmissions" or "No_discard". For unacknowledged mode and transparent mode, only Timer based without explicit signalling is applicable. If "No_discard" is used, reset procedure shall be done after Max_DAT retransmissions
>Timer based explicit




>>Timer_MRW
MP

Integer(50,60, 70, 80, 90, 100, 120, 140, 160, 180, 200, 300, 400, 500, 700, 900)
Elapsed time in milliseconds. It is used to trigger the retransmission of a STATUS PDU containing an MRW SUFI field
>>Timer_discard
MP

Integer(100, 250, 500, 750, 1000, 1250, 1500, 1750, 2000, 2500, 3000, 3500, 4000, 4500, 5000, 7500)
Elapsed time in milliseconds before a SDU is discarded. 
>>MaxMRW
MP

Integer(1, 4, 6, 8, 12 16, 24, 32)
Defined in [16]
>Timer based no explicit




>>Timer_discard
MP

Integer(10,20,30,40,50,60,70,80,90,100)
Elapsed time in milliseconds before a SDU is discarded. 
>Max DAT retransmissions




>>Max_DAT
MP

Integer(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 25, 30, 35, 40)
Defined in [16]
>>Timer_MRW
MP

Integer(50, 60, 70, 80, 90, 100, 120, 140, 160, 180, 200, 300, 400, 500, 700, 900)
Elapsed time in milliseconds. It is used to trigger the retransmission of a STATUS PDU containing an MRW SUFI field
>>MaxMRW
MP

Integer(1, 4, 6, 8, 12 16, 24, 32)
Defined in [16]
>No discard




>>Max_DAT
MP

Integer(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 25, 30, 35, 40)
Defined in [16]

CHOICE SDU Discard Mode
Condition under which the given SDU Discard Mode is chosen
Timer based explicit
If the modes for discharge of the RLC buffer on the transmitter side is "Timer based with explicit signalling"
Timer based no explicit
If the modes for discharge of the RLC buffer on the transmitter side is "Timer based without explicit signalling"
For unacknowledged mode, only Timer based without explicit signalling is applicable.
Max DAT retransmissions
If the modes for discharge of the RLC buffer on the transmitter side is "Discard after Max_DAT retransmissions"
No discard
If the modes for discharge the of RLC buffer on the transmitter side is "Reset procedure shall be done after Max_DAT retransmissions"

10.3.4.26	UM Duplication Avoidance and Reordering info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Timer_DAR
MP

Integer(40, 80, 120, 160, 240, 320, 480, 640, 960, 1280, 1920, 2560, 3840, 5120)
Timer (in milliseconds) when PDUs are released to the upper layers even though there are outstanding PDUs with lower RLC SN values.
REL-6
Window size DAR
MP

Integer(4, 8, 16, 32, 40, 48, 56, 64)

REL-6

10.3.4.27	UM Out of sequence delivery info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Timer_OSD
CV- notMCCH

Integer (40, 80, 120, 160, 240, 320, 480, 640, 960, 1280, 1920, 2560, 3840, 5120)

REL-6
Window size OSD
MP

Integer(8, 16, 32,40, 48, 56, 64)

REL-6

NOTE:		This timer used to flush the buffer is configured at RRC level and indicated via a local primitive.

Condition
Explanation
notMCCH
If this concerns a logical channel other than MCCH then this IE is mandatory otherwise it is not needed. In the latter case Timer_OSD takes the value of the IE Modification Period as indicated within the IE MCCH configuration information

10.3.5	Transport CH Information elements
10.3.5.1	Added or Reconfigured DL TrCH information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Downlink transport channel type
MP

Enumerated(DCH,DSCH
Note 2




,HS-DSCH)
Note 3
REL-5
DL Transport channel identity
MP

Transport channel identity 10.3.5.18



CV-not HS-DSCH



REL-5
CHOICE DL parameters





>Explicit





>>TFS
MP

Transport Format Set 10.3.5.23


>SameAsUL





>>Uplink transport channel type
MP

Enumerated(DCH,USCH)
USCH is TDD only

>>UL TrCH identity
MP

Transport channel identity 10.3.5.18
Same TFS applies as specified for indicated UL TrCH

>HS-DSCH




REL-5
>>HARQ Info
OP

HARQ info 10.3.5.7a
For 1.28 Mcps TDD, if HARQ Information is included in the IE DL MultiCarrier Information, this IE shall not be present.
REL-5
>>CHOICE DL MAC header type
OP



REL-7
>>>MAC-hs




REL-7
>>>>Added or reconfigured MAC-d flow
MP

Added or reconfigured MAC-d flow 10.3.5.1a

REL-5
>>>MAC-ehs




REL-7
>>>>Added or reconfigured MAC-ehs reordering queue
MP

Added or reconfigured MAC-ehs reordering queue 10.3.5.1c

REL-7
DCH quality target
OP

Quality target 10.3.5.10


Note 1:	Void
Note 2:	The IE "Downlink transport channel type" value "DSCH" should not be used for FDD. If received the UE behaviour is unspecified.
Note 3:	If included in SIB type 16, the value ‘HS-DSCH’ does not apply for the IE "Downlink transport channel type".

Condition
Explanation
NotHS-DSCH
If the downlink transport channel type is DCH or DSCH then this IE is mandatory otherwise it is not needed.

10.3.5.1a	Added or reconfigured MAC-d flow
This IE is used in relation to the MAC-d flows mapped to the HS-DSCH transport channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MAC-hs queue to add or reconfigure list
OP
<1 to maxQueueID>


REL-5
>MAC-hs queue Id
MP

Integer(0..7)
The MAC-hs queue ID is unique across all MAC-d flows.
REL-5
>MAC-d Flow Identity
MP

MAC-d Flow Identity 10.3.5.7c

REL-5
>T1
MP

Integer(10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 120, 140, 160, 200, 300, 400)
Timer (in milliseconds) when PDUs are released to the upper layers even though there are outstanding PDUs with lower TSN values.
REL-5
>MAC-hs window size
MP

Integer(4, 6, 8, 12, 16, 24, 32)

REL-5



Integer(32, 64, 96, 128, 160, 192, 256)
The set of values is used for Multi-carrier case in 1.28 Mcps TDD mode for 9bits TSN option.
REL-7
>MAC-d PDU size Info
OP
<1 to max MACdPDUsizes>

Mapping of the different MAC-d PDU sizes configured for the HS-DSCH to the MAC-d PDU size index in the MAC-hs header.
REL-5
>>MAC-d PDU size
MP

Integer
(1..5000)

REL-5
>>MAC-d PDU size index
MP

Integer(0..7)

REL-5
MAC-hs queue to delete list
OP
<1 to maxQueueID>


REL-5
>MAC-hs queue Id
MP

Integer(0..7)
The MAC-hs queue ID is unique across all MAC-d flows.
REL-5

10.3.5.1b	Added or reconfigured E-DCH MAC-d flow
This IE is used in relation to MAC-d flows mapped to the E-DCH transport channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-DCH MAC-d  flow identity 
MP

E-DCH MAC-d flow identity 10.3.5.7e

REL-6
E-DCH MAC-d flow power offset
OP

Integer(0..6)
Only allowed to be absent when already defined for this E-DCH MAC-d flow, unit is dB
REL-6
E-DCH MAC-d flow maximum number of  retransmissions
OP

Integer (0..15)
Only allowed to be absent when already defined for this E-DCH MAC-d flow
REL-6
E-DCH MAC-d flow retransmission timer
CV-Tdd128

Enumerated (10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 110, 120, 140, 160, 200, 240, 280, 320, 400, 480, 560)
Unit: ms
REL-7
E-DCH MAC-d flow multiplexing list
OP

Bitstring (maxE-DCHMACdFlow)
Indicates, if this is the first MAC-d flow for which PDUs are placed in the MAC-e or MAC-i PDU, the other MAC-d flows from which MAC-d PDUs are allowed to be included in the same MAC-e or MAC-i PDU.
Bit 0 is for MAC-d flow 0, Bit 1 is for MAC-d flow 1, … 
Value '1' for a bit means multiplexing is allowed. Bit 0 is the first/leftmost bit of the bit string.

NOTE: The bit that corresponds to the MAC-d flow itself is ignored.
REL-6
CHOICE transmission grant type
OP


Only allowed to be absent when already defined for this E-DCH MAC-d flow
REL-6
>Non-scheduled transmission grant info




REL-6
>>CHOICE mode
MP



REL-7
>>>FDD




REL-7
>>>>Max MAC-e PDU contents size
MP

Integer (1..19982)

REL-6
>>>>2ms non-scheduled transmission grant HARQ process allocation
MD

Bitstring (8)
MAC-d PDUs for this MAC-d flow are only allowed to be transmitted in those processes for which the bit is set to “1”.
Bit 0 corresponds to HARQ process 0, bit 1 corresponds to HARQ process 1,…
Default value is: transmission in all HARQ processes is allowed. Bit 0 is the first/leftmost bit of the bit string.
REL-6
>>>TDD


NULL
No data
REL-7
>Scheduled transmission grant info


NULL

REL-6

Condition
Explanation
Tdd128
This IE is mandatory present for 1.28Mcps TDD, otherwise it is not needed.

10.3.5.1c	Added or reconfigured MAC-ehs reordering queue
This IE is used in relation to the MAC-ehs reordering queues mapped to the HS-DSCH transport channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MAC-ehs queue to add or reconfigure list
OP
<1 to maxQueueID>


REL-7
>MAC-ehs queue Id
MP

MAC-ehs Queue Id 10.3.5.7f

REL-7
>T1
MP

Integer (10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 120, 140, 160, 200, 300, 400)
Timer (in milliseconds) when PDUs are released to the upper layers even though there are outstanding PDUs with lower TSN values.
REL-7
>Treset
MD

Integer (1, 2, 3, 4)
Timer in multiples of T1 values (milliseconds). Used when MAC-ehs reordering queue is reset in CELL_FACH and CELL_PCH (FDD only). 
Default value is 2
REL-7
>MAC-ehs window size
MP

Enumerated (4, 6, 8, 12, 16, 24, 32,
Six spare values are needed.
REL-7



64, 128,

REL-9



256)

REL-11
>MAC-ehs window size extension
OP

Enumerated(96,160,196,256)
For 1,28Mcps TDD only, The set of values is used for Multi-carrier case for 9bits TSN option. If this IE is present, UE should ignore the IE "MAC-ehs window size"
REL-9

10.3.5.2	Added or Reconfigured UL TrCH information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Uplink transport channel type
MP

Enumerated(DCH,USCH
USCH is TDD only




,E-DCH)
Note 1
REL-6
UL Transport channel identity
MP

Transport channel identity 10.3.5.18



CV-NotE-DCH



REL-6
CHOICE UL parameters




REL-6
>DCH,USCH




REL-6
>>TFS
MP

Transport Format Set 10.3.5.23


>E-DCH




REL-6
>>UL MAC header type
OP

Enumerated (MAC-i/is)
If this IE is present, MAC-i/is header type [15] is used, else MAC-e/es header type [15] is used.
REL-8
>>CHOICE mode
MP



REL-7
>>>FDD




REL-7
>>>>E-DCH Transmission Time Interval
MP

Enumerated(2,10)
Unit is ms.
REL-6
>>>>E-DCH Transmission Time Interval for secondary UL frequency
CV-RBReconfig

Enumerated(2,10)
Unit is ms.
REL-14
>>>TDD



No data
REL-7
>>HARQ info for E-DCH
MP

HARQ Info for E-DCH 10.3.5.7d

REL-6
>>Added or reconfigured E-DCH MAC-d flow list
OP
<1 to maxE-DCHMACdFlow>


REL-6
>>>Added or reconfigured E-DCH MAC-d flow
MP

Added or reconfigured E-DCH MAC-d flow 10.3.5.1b

REL-6
Note 1:	If included in System Information Block Type 16, the values ‘E-DCH’ does not apply for the IE "Uplink transport channel type".

Condition
Explanation
NotE-DCH
If the uplink transport channel type is DCH or USCH then this IE is mandatory otherwise it is not needed.
RBReconfig
This IE is optionally present in the RADIO BEARER RECONFIGURATION message. Otherwise it is not needed.

NOTE:		This information element is included within IE "Predefined RB configuration".
10.3.5.2a	Additional Dynamic Transport Format Information for CCCH
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RLC Size
MP

Integer (48..4968)
Unit is bits
For FDD, values are restricted to: Integer (48..296 by step of 8, 312..1320 by step of 16, 1384..4968 by step of 64)
Rel-6
Number of Transport blocks 
MP

Integer (1)
NOTE 1
Rel-6

NOTE 1:	The "Integer (1)" type does not result in bits in the transfer syntax and is not needed in the ASN.1.

10.3.5.2b	Additional RACH TFCS for CCCH
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Power offset Information 
MP

Power Offset Information 10.3.5.8
The actual TFCS is specified in 8.6.5.12a
Rel-6

10.3.5.3	Void

10.3.5.3a	Common MAC-ehs reordering queue list
NOTE:	For FDD and 1.28 Mcps TDD only.
This IE is defines common MAC-ehs priority queue parameters, which can be used for CCCH and SRB1 reception.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MAC-ehs queue to configure list
MP
<1 to maxCommonQueueID>


REL-7
>MAC-ehs queue Id
MP

MAC-ehs Queue Id 10.3.5.7f

REL-7
>T1
MP

Integer (10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 120, 140, 160, 200, 300, 400)
Timer (in milliseconds) when PDUs are released to the upper layers even though there are outstanding PDUs with lower TSN values.
REL-7
>Treset
MD

Integer (1, 2, 3, 4)
Timer in multiples of T1 values (milliseconds). Used when MAC-ehs reordering queue is reset in CELL_FACH and CELL_PCH (FDD and 1.28 Mcps TDD only). 
Default value is 2
REL-7
>MAC-ehs window size
MP

Integer (4, 6, 8, 12, 16, 24, 32)

REL-7

10.3.5.3b	Common E-DCH MAC-d flows 
This IE is used in relation to MAC-d and MAC-c (for FDD) flows mapped to the E-DCH transport channels.
NOTE:	Only for FDD and 1.28 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Configured E-DCH MAC-d flow list
MP
1 to <maxE-DCHMACdFlow>


REL-8
>E-DCH MAC-d flow identity
MP

E-DCH MAC-d Flow Identity
10.3.5.7e
NOTE 1
REL-8
>E-DCH MAC-d flow power offset
MP

Integer(0..6)

REL-8
>E-DCH MAC-d flow maximum number of  retransmissions
MP

Integer (0..15)

REL-8
>E-DCH MAC-d flow multiplexing list
CV-NotCCCHFDD

Bitstring (maxE-DCHMACdFlow)
Indicates, if this is the first MAC-d flow for which PDUs are placed in the MAC-i PDU, the other MAC-d flows from which MAC-d PDUs are allowed to be included in the same MAC-i PDU.
Bit 0 is for MAC-d flow 0, Bit 1 is for MAC-d flow 1, … 
Value '1' for a bit means multiplexing is allowed. Bit 0 is the first/leftmost bit of the bit string.

NOTE: The bit that corresponds to the MAC-d flow itself is ignored.
REL-8
>E-DCH MAC-d flow retransmission timer
CV-Tdd128

Enumerated (10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 110, 120, 140, 160, 200, 240, 280, 320, 400, 480, 560)
Unit: ms
REL-8

NOTE 1:	For FDD, E-DCH MAC-d flow identity 7 is reserved for CCCH transmission.

Condition
Explanation
Tdd128
This IE is mandatory present for 1.28 Mcps TDD, otherwise it is not needed.
NotCCCHFDD
This IE is not needed for the E-DCH MAC-d flow reserved for CCCH transmission for FDD, otherwise it is optional.

10.3.5.4	Deleted DL TrCH information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Downlink transport channel type
MP

Enumerated (DCH,DSCH
Note 1




, HS-DSCH)

REL-5
DL Transport channel identity
MP

Transport channel identity 10.3.5.18



CV-notHS-DSCH



REL-5
CHOICE DL MAC header type
CV-HS-DSCH



REL-7
>MAC-hs




REL-7
>>DL HS-DSCH MAC-d flow identity
MP

MAC-d flow identity 10.3.5.7c

REL-5
>MAC-ehs




REL-7
>>DL HS-DSCH MAC-ehs reordering queue
MP

MAC-ehs Queue Id 10.3.5.7f

REL-7
Note 1:	The IE "Downlink transport channel type" value " DSCH " should not be used for FDD. If received the UE behaviour is unspecified.

Condition
Explanation
NotHS-DSCH
If the downlink transport channel type is DCH or DSCH then this IE is mandatory otherwise it is not needed.
HS-DSCH
If the downlink transport channel type is HS-DSCH then this IE is mandatory otherwise it is not needed.

10.3.5.5	Deleted UL TrCH information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Uplink transport channel type
MP

Enumerated(DCH,USCH
USCH is TDD only




,E-DCH)

REL-6
UL Transport channel identity
MP

Transport channel identity 10.3.5.18



CV-NotE-DCH



REL-6
E-DCH MAC-d flow identity
CV-E-DCH

E-DCH MAC-d flow identity 10.3.5.7e

REL-6

Condition
Explanation
NotE-DCH
If the uplink transport channel type is DCH or USCH then this IE is mandatory otherwise it is not needed.
E-DCH
If the uplink transport channel type is E-DCH then this IE is mandatory otherwise it is not needed.

10.3.5.6	DL Transport channel information common for all transport channels
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
SCCPCH TFCS
OP

Transport Format Combination Set 10.3.5.20
This IE should not be included in this version of the protocol.

CHOICE mode
MP


Although this IE is not always required, need is MP to align with ASN.1


OP



REL-4
>FDD





>>CHOICE DL parameters
OP




>>>Explicit





>>>>DL DCH TFCS
MP

Transport Format Combination Set 10.3.5.20
Although this IE is not always required, need is MP to align with ASN.1


OP



REL-4
>>>SameAsUL



(no data)
See note 2

>TDD





>>Individual DL CCTrCH information
OP
1 to <maxCCTrCH>



>>>DL TFCS Identity
MP

Transport format combination set identity 10.3.5.21
Identifies a special CCTrCH for shared or dedicated channels.

>>>CHOICE DL parameters
MP




>>>>Independent





>>>>>DL TFCS
MP

Transport format combination set 10.3.5.20


>>>>SameAsUL



See note 2

>>>>>UL DCH TFCS Identity
MP

Transport format combination set identity 10.3.5.21
Same TFCS applies as specified for the indicated UL DCH TFCS identity except for information applicable for UL only


NOTE 1:		This information element is included within IE "Predefined TrCh configuration". 
NOTE 2:	The UTRAN should only use the choice "SameAsUL" if the transport channel numbering, the number of TFs in the TFS of each transport channel, and the TFCS are identical in the uplink and downlink.

10.3.5.7	Void

10.3.5.7a	HARQ Info
This IE is used in relation to the HS-DSCH transport channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Number of Processes
MP

Integer
(1..8,

REL-5



12, 14, 16,
NOTE 1, NOTE 2
REL-7



24,28,32)

REL-11
CHOICE Memory Partitioning
MP



REL-5
>Implicit



UE shall apply memory partitioning of equal size across all HARQ processes
REL-5
>Explicit 




REL-5
>>Memory size
MP
<1 to MaxHProcesses>


REL-5
>>>Process Memory size
MP

Integer(800 .. 16000 by step of 800, 17600 .. 32000 by step of 1600, 36000 .. 80000 by step of 4000, 88000 .. 160000 by step of 8000, 176000 .. 304000 by step of 16000)
Maximum number of soft channel bits available in the virtual IR buffer [27]
REL-5
>>Additional memory sizes for MIMO
OP
<1 to MaxHProcesses>

NOTE 2
REL-7
>>>Process Memory size
MP

Integer (800 .. 16000 by step of 800, 17600 .. 32000 by step of 1600, 36000 .. 80000 by step of 4000, 88000 .. 160000 by step of 8000, 176000 .. 304000 by step of 16000)
Maximum number of soft channel bits available in the virtual IR buffer [27]
REL-7
>>Additional memory sizes for 3rd MIMO stream
OP
<1 to MaxHProcesses>

NOTE 2
REL-11
>>>Process Memory size
MP

Integer (800 .. 16000 by step of 800, 17600 .. 32000 by step of 1600, 36000 .. 80000 by step of 4000, 88000 .. 160000 by step of 8000, 176000 .. 304000 by step of 16000)
Maximum number of soft channel bits available in the virtual IR buffer [27]
REL-11
>>Additional memory sizes for 4th MIMO stream
OP
<1 to MaxHProcesses>

NOTE 2
REL-11
>>>Process Memory size
MP

Integer (800 .. 16000 by step of 800, 17600 .. 32000 by step of 1600, 36000 .. 80000 by step of 4000, 88000 .. 160000 by step of 8000, 176000 .. 304000 by step of 16000)
Maximum number of soft channel bits available in the virtual IR buffer [27]
REL-11
Blind HARQ retransmissions for HSDPA
CV-RRCmessage

Enumerated(TRUE)
FDD only.
TRUE means that blind HARQ retransmissions for HSDPA is enabled.
REL-13
NOTE 1:	If the IE “Number of processes" is not set to one of the values 12, 14 or 16 and either the IE “MIMO parameters” (10.3.6.41a) is included and the IE "MIMO operation" is set to either “start” or “continue”, the UE behaviour is unspecified. If the IE "Number of processes" is set to one of the values 12, 14, or 16 and the IE "MIMO parameters" (10.3.6.41a) is not included, the UE behaviour is unspecified.
NOTE 2:	The values of the IE “Number of processes" greater than 8 and the IE "Additional memory sizes for MIMO" are not needed in SIB type 5 and SIB type 5bis.

Condition
Explanation
RRCmessage
This IE is not included in the HANDOVER TO UTRAN COMMAND, RRC CONNECTION SETUP, SRNS RELOCATION INFO or SYSTEM INFORMATION messages. Otherwise it is optional.

10.3.5.7b	Void
10.3.5.7c	MAC-d Flow Identity
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MAC-d flow identity
MP

Integer
(0..7)

REL-5

10.3.5.7d	HARQ Info for E-DCH
This IE is used in relation to the E-DCH transport channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP



REL-7
>FDD




REL-7
>>HARQ RV Configuration
MP

Enumerated (rv0, rvtable)
If “rv0” is indicated, the UE shall only use E_DCH RV index 0.
If “rvtable” is indicated, the UE shall use an RSN based RV index as specified in [27]
REL-6
>TDD




REL-7
>>HARQ RV Configuration
MP

Enumerated (rv0, rvtable)
If “rv0” is indicated, the UE shall only use E_DCH RV index 0.
If “rvtable” is indicated, the UE shall use an RSN based RV index as specified in [31]
REL-7

10.3.5.7e	E-DCH MAC-d Flow Identity
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-DCH MAC-d flow identity
MP

Integer
(0..maxE-DCHMACdFlow-1)

REL-6

10.3.5.7f	MAC-ehs Queue Id
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MAC-ehs queue id
MP

Integer (0..7)

REL-7

10.3.5.8	Power Offset Information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE Gain Factors
MP



>Signalled Gain Factors




>>CHOICE mode




>>>FDD




>>>>Gain Factor c 
MP

Integer
(0.. 15)
For UL DPCCH or control part of PRACH
>>>TDD



(no data)
>>Gain Factor d 
MP

Integer
(0..15)
For UL DPDCH or data part of PRACH and all uplink channels in TDD
>>Reference TFC ID
OP

Integer (0..3)
If this TFC is a reference TFC, indicates the reference ID.
>Computed Gain Factors




>>Reference TFC ID
MP

Integer
(0.. 3)
Indicates the reference TFC Id of the TFC to be used to calculate the gain factors for this TFC. In case of using computed gain factors, at least one signalled gain factor is necessary for reference.
CHOICE mode
MP



>FDD




>>Power offset P p-m
OP

Integer(-5..10)
In dB. Power offset between the last transmitted preamble and the control part of the message (added to the preamble power to receive the power of the message control part )
Needed only for PRACH
>TDD



(no data)

CHOICE Gain Factors
Condition under which the way to signal the Gain Factors is chosen
Signalled Gain Factors
The values for gain factors c (only in FDD mode) and d are signalled directly for a TFC.
Computed Gain Factors
The gain factors c (only in FDD mode) and d are computed for a TFC, based on the signalled settings for the associated reference TFC. 

10.3.5.9	Predefined TrCH configuration
This information element concerns a pre- defined configuration of transport channel parameters.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
UL Transport channel information common for all transport channels
MP

UL Transport channel information common for all transport channels
10.3.5.24

Added or Reconfigured TrCH
information




Added or Reconfigured UL TrCH information
MP
1 to <maxTrCHpreconf>


>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2

DL Transport channel information common for all transport channels
MP

DL Transport channel information common for all transport channels 10.3.5.6

Downlink transport channels




Added or Reconfigured DL TrCH information
MP
1 to <maxTrCHpreconf>


>Added or Reconfigured DL TrCH information
MP

Added or Reconfigured DL TrCH information
10.3.5.1


10.3.5.10	Quality Target
Information Element/Group name
Need
Multi
Type and reference
Semantics description
BLER Quality value
MP

Real(-6.3
..0 by step of 0.1)
Signalled value is Log10(Transport channel BLER quality target)


10.3.5.11	Semi-static Transport Format Information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Transmission time interval
MP

Integer(10, 20, 40, 80, dynamic
In ms. The value dynamic is only used in TDD mode. For FDD DCH, the value “80” is applicable only when SF=512.




5)
5 is only applicable for the RACH in 1.28 Mcps TDD
REL-4
Type of channel coding
MP

Enumerated(No coding, Convolutional, Turbo)
The option "No coding" is only valid for TDD.

Coding Rate
CV-Coding

Enumerated(1/2, 1/3)


Rate matching attribute
MP

Integer(1..hiRM)


CRC size
MP

Integer(0, 8, 12, 16, 24)
in bits


Condition
Explanation
Coding
This IE is mandatory present if IE "Type of channel coding" is "Convolutional" and not needed otherwise.

10.3.5.12	Void

10.3.5.13	TFCS Explicit Configuration
Information Element/Group name
Need
Multi
IE type and reference
Semantics description
CHOICE TFCS representation
MP



>Complete reconfiguration




>>TFCS complete reconfiguration information
MP

TFCS Reconfiguration/Addition information
10.3.5.15

>Addition




>>TFCS addition information
MP

TFCS Reconfiguration/Addition information
10.3.5.15

>Removal




>>TFCS removal information
MP

TFCS Removal Information 10.3.5.16

>Replace




>>TFCS removal information
MP

TFCS Removal Information 10.3.5.16

>>TFCS addition information
MP

TFCS Reconfiguration/Addition information
10.3.5.15


10.3.5.14	Void

10.3.5.15	TFCS Reconfiguration/Addition Information
Information Element/Group name
Need
Multi
IE type and reference
Semantics description
Version
CHOICE CTFC Size
MP




>2 bit CTFC 





>>CTFC information
MP
1 to <maxTFC>



>>>2bit CTFC
MP

Integer(0..3)


>>>Power offset Information 
OP

Power Offset Information 10.3.5.8
Needed only for uplink physical channels.

>>>Power offset Information 10ms Mode
 CV-Message

Power offset Information 10ms Mode 10.3.5.27
FDD only.
Needed only for uplink physical channels. If not included, the corresponding TFC shall not be considered for 10ms Mode.
REL-12
>4 bit CTFC 





>>CTFC information
MP
1 to <maxTFC>



>>>4bit CTFC
MP

Integer(0..15)


>>>Power offset Information 
OP

Power Offset Information 10.3.5.8
Needed only for uplink physical channels.

>>>Power offset Information 10ms Mode
 CV-Message

Power offset Information 10ms Mode 10.3.5.27
FDD only.
Needed only for uplink physical channels. If not included, the corresponding TFC shall not be considered for 10ms Mode.
REL-12
>6 bit CTFC 





>>CTFC information
MP
1 to <maxTFC>



>>>6 bit CTFC
MP

Integer(0..63)


>>>Power offset Information 
OP

Power Offset Information 10.3.5.8
Needed only for uplink physical channels.

>>>Power offset Information 10ms Mode
 CV-Message

Power offset Information 10ms Mode 10.3.5.27
FDD only.
Needed only for uplink physical channels. If not included, the corresponding TFC shall not be considered for 10ms Mode.
REL-12
>8 bit CTFC 





>>CTFC information
MP
1 to <MaxTFC>



>>>8 bit CTFC
MP

Integer(0..255)


>>>Power offset Information 
OP

Power Offset Information 10.3.5.8
Needed only for uplink physical channels.

>>>Power offset Information 10ms Mode
 CV-Message

Power offset Information 10ms Mode 10.3.5.27
FDD only.
Needed only for uplink physical channels. If not included, the corresponding TFC shall not be considered for 10ms Mode.
REL-12
>12 bit CTFC 





>>CTFC information
MP
1 to <maxTFC>



>>>12 bit CTFC
MP

Integer(0..4095)


>>>Power offset Information 
OP

Power Offset Information 10.3.5.8
Needed only for uplink physical channels.

>>>Power offset Information 10ms Mode
 CV-Message

Power offset Information 10ms Mode 10.3.5.27
FDD only.
Needed only for uplink physical channels. If not included, the corresponding TFC shall not be considered for 10ms Mode.
REL-12
>16 bit CTFC 





>>CTFC information
MP
1 to <maxTFC>



>>>16 bit CTFC
MP

Integer(0..65535)


>>>Power offset Information 
OP

Power Offset Information 10.3.5.8
Needed only for uplink physical channels.

>>>Power offset Information 10ms Mode
 CV-Message

Power offset Information 10ms Mode 10.3.5.27
FDD only.
Needed only for uplink physical channels. If not included, the corresponding TFC shall not be considered for 10ms Mode.
REL-12
>24 bit CTFC 





>>CTFC information
MP
1 to <MaxTFC>



>>>24 bit CTFC
MP

Integer(0..16777215)


>>>Power offset Information 
OP

Power Offset Information 10.3.5.8
Needed only for uplink physical channels.

>>>Power offset Information 10ms Mode
CV-Message

Power offset Information 10ms Mode 10.3.5.27
FDD only.
Needed only for uplink physical channels. If not included, the corresponding TFC shall not be considered for 10ms Mode.
REL-12

Condition
Explanation
Message
This IE is not needed if the IE "Uplink Transport channel information common for all transport channels" is included in RRC CONNECTION SETUP or SYSTEM INFORMATION BLOCK TYPE 16 messages. Otherwise it is optional.

10.3.5.16	TFCS Removal Information
Information Element/Group name
Need
Multi
IE type and reference
Semantics description
Removal TFCI information
MP
1 to <maxTFC>


>TFCI
MP

Transport Format Combination (TFC)
10.3.5.19
In TDD 0 is a reserved value

10.3.5.17	Void

10.3.5.18	Transport channel identity
This information element is used to distinguish transport channels. Transport channels of different type (RACH, USCH, FACH/PCH, DSCH or DCH) have separate series of identities. This also holds for uplink and downlink transport channel identities (i.e. for DCH). Depending on in which context a transport channel identity n that is sent, it will have different meaning
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Transport channel identity
MP

Integer(1..32)


10.3.5.19	Transport Format Combination (TFC)
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Transport format combination
MP

Integer (0.. 1023)


10.3.5.20	Transport Format Combination Set
Indicates the allowed combinations of already defined Transport formats and the mapping between these allowed TFCs and the corresponding TFCI values.
For TDD, different coded composite transport channels have independent transport format combination sets and thus independent TFCI values.

Information Element/Group name
Need
Multi
IE type and reference
Semantics description
TFCI Field 1 Information
MP

TFCS explicit Configuration 10.3.5.13


10.3.5.21	Transport Format Combination Set Identity
NOTE:	Only for TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
TFCS ID
MD

Integer (1...8)
Indicates the identity of every TFCS within a UE. Default value is 1.
Shared Channel Indicator
MP

Boolean
TRUE indicates the use of shared channels. Default is FALSE.

10.3.5.22	Transport Format Combination Subset
Indicates which Transport format combinations in the already defined Transport format combination set are allowed.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE Subset representation
MP



>Minimum allowed Transport format combination index


 Transport format combination 10.3.5.19

>Allowed transport format combination list

1 to <maxTFC>


>>Allowed transport format combination
MP

Transport format combination 10.3.5.19 

>Non-allowed transport format combination list

1 to <maxTFC>


>>Non-allowed transport format combination
MP

Transport format combination 10.3.5.19 

>Restricted TrCH information

1 to <maxTrCH>


>>Uplink transport channel type
MP

Enumerated(DCH, USCH)
USCH is TDD only
>>Restricted UL TrCH identity
MP

 Transport channel identity 10.3.5.18

>>Allowed TFIs
OP
1 to <maxTF>


>>>Allowed TFI
MP

Integer(0..31)

>Full transport format combination set



(No data)

10.3.5.23	Transport Format Set
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Transport channel type
MP




>Dedicated transport channels



The transport channel that is configured with this TFS is of type DCH

>>Dynamic Transport Format Information
MP
1 to <maxTF>



>>>RLC Size
MP

Integer(16..5000 by step of 8)

Unit is bits

>>>Number of TBs and TTI List
MP
1 to <maxTF>

Present for every valid number of TB's (and TTI) for this RLC Size.

>>>>Transmission Time Interval 
CV-dynamicTTI

Integer(10,20,40,80)
Unit is ms.

>>>>Number of Transport blocks 
MP

Integer(0..512)


>>>CHOICE Logical Channel List
MP


The logical channels that are allowed to use this RLC Size


>>>>ALL


Null
All logical channels mapped to this transport channel.

>>>>Configured


Null
The logical channels configured to use this RLC size in the RB mapping info. 10.3.4.21 if present in this message or in the previously stored configuration otherwise

>>>>Explicit List

1 to 15

Lists the logical channels that are allowed to use this RLC size.

>>>>>RB Identity
MP

RB identity 10.3.4.16


>>>>>LogicalChannel
CH-UL-RLCLogicalChannels

Integer(0..1)
Indicates the relevant UL logical channel for this RB. "0" corresponds to the first, "1" corresponds to the second UL logical channel configured for this RB in the IE "RB mapping info".

>>Semi-static Transport Format Information
MP

Semi-static Transport Format Information 10.3.5.11


>Common transport channels



The transport channel that is configured with this TFS is of a type not equal to DCH

>>Dynamic Transport Format Information
MP
1 to <maxTF>

Note

>>>RLC Size
MP

Integer (48..4968)
Unit is bits.
For FDD, values are restricted to: Integer (48..296 by step of 8, 312..1320 by step of 16, 1384..4968 by step of 64).

>>>Number of TBs and TTI List
MP
1 to <maxTF>

Present for every valid number of TB's (and TTI) for this RLC Size.

>>>>Number of Transport blocks 
MP

Integer(0..512)


>>>>CHOICE mode
MP




>>>>>FDD



(no data)

>>>>>TDD





>>>>>>Transmission Time Interval
CV-dynamicTTI

Integer(10,20,40,80)
Unit is ms.

>>>CHOICE Logical Channel List
MP


The logical channels that are allowed to use this RLC Size. 

>>>>ALL


Null
All logical channels mapped to this transport channel.

>>>>Configured


Null
The logical channels configured to use this RLC size in the RB mapping info. 10.3.4.21 if present in this message or in the previously stored configuration otherwise

>>>>Explicit List

1 to 15

Lists the logical channels that are allowed to use this RLC size.

>>>>>RB Identity
MP

RB identity 10.3.4.16


>>>>>LogicalChannel
CV-UL-RLCLogicalChannels

Integer(0..1)
Indicates the relevant UL logical channel for this RB. "0" corresponds to the first, "1" corresponds to the second UL logical channel configured for this RB in the IE "RB mapping info".

>>Semi-static Transport Format Information
MP

Semi-static Transport Format Information 10.3.5.11



Condition
Explanation
dynamicTTI
This IE is mandatory present if dynamic TTI usage is indicated in IE Transmission Time Interval in Semi-static Transport Format Information. Otherwise it is not needed.
UL-RLCLogicalChannels
If "Number of uplink RLC logical channels" in IE "RB mapping info" in this message is 2 or the IE "RB mapping info" is not present in this message and 2 UL logical channels are configured for this RB, then this IE is mandatory present. Otherwise this IE is not needed.

10.3.5.24	UL Transport channel information common for all transport channels
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PRACH TFCS
OP

Transport format combination set 10.3.5.20
This IE should not be included in this version of the protocol.

CHOICE mode
OP




>FDD





>>TFC subset
MD

Transport Format Combination Subset
10.3.5.22
Default value is the complete existing set of transport format combinations

>>UL DCH TFCS
MP

Transport format combination set 10.3.5.20


>TDD





>>Individual UL CCTrCH information
OP
1 to <maxCCTrCH>



>>>UL TFCS Identity
MP

Transport format combination set identity 10.3.5.21
Identifies a special CCTrCH for shared or dedicated channels.

>>>UL TFCS
MP

Transport format combination set 10.3.5.20


>>>TFC subset
MD

Transport Format Combination Subset
10.3.5.22
Default value is the complete existing set of transport format combinations

TFC subset list
OP
1 to <maxTFCsub>

The maximum number of elements in the TFC subset list is 8.
REL-4
>CHOICE mode
MP



REL-4
>>FDD



(no data)
REL-4
>>TDD




REL-4
>>>TFCS Id
OP

Transport Format Combination Set Identity 10.3.5.21

REL-4
>TFC subset
MD

Transport Format Combination Subset
10.3.5.22

REL-4

NOTE:		This information element is included within IE "Predefined TrCh configuration".
10.3.5.25	Concurrent Deployment of 2ms and 10ms TTI
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE TTI selection
MP


This IE indicates whether common E-DCH TTI selection is fixed or a threshold based common E-DCH selection criteria is used.
REL-11
>Fixed




REL-11
>>Fixed common E-DCH TTI selection
MP

Enumerated
(2ms,10ms)

REL-11
>Threshold based




REL-11
>>Common E-DCH TTI selection threshold
MP

Integer (0..15)
In terms of dB.
REL-11
Concurrent TTI partition index
MP

Integer (0.. maxEDCHs-1)

REL-11
Common E-DCH system info parameters for Concurrent TTI
OP

Common E-DCH system info parameters for Concurrent TTI
10.3.6.131
Common E-DCH parameters used to replace those listed in the IE "Common E-DCH system info" of the System Information Block Type 5/5bis, if the TTI applied on E-DPDCH (as per subclause 8.5.45) is different from the TTI signalled in the IE "E-DCH Transmission Time Interval".
REL-11

10.3.5.26	Common E-DCH MAC-d flow info for Concurrent TTI
This IE is used in relation to MAC-d and MAC-c flows mapped to the E-DCH transport channels.
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Configured E-DCH MAC-d flow list
MP
1 to <maxE-DCHMACdFlow>

NOTE 1
NOTE 4
REL-11
>E-DCH MAC-d flow identity
MP

E-DCH MAC-d Flow Identity
10.3.5.7e

REL-11
>E-DCH MAC-d flow power offset
MD

Integer(0..6)
NOTE 2
REL-11
>E-DCH MAC-d flow maximum number of  retransmissions
MD

Integer (0..15)
NOTE 2
REL-11
NOTE 1:	E-DCH MAC-d flow identities that are present in "Common E-DCH MAC-d flows" of the System Information Block Type 5/5bis but do not appear in this list shall use value included in "Common E-DCH MAC-d flows".
NOTE 2:	Default value is the value for the flow with the same "E-DCH MAC-d flow identity" included in the IE "Common E-DCH MAC-d flows" of the System Information Block Type 5/5bis.
NOTE 4:	For E-DCH MAC-d flows that are present in this list,  the IE "E-DCH MAC-d flow multiplexing list" shall use the corresponding value for the flow with the same "E-DCH MAC-d flow identity" included in the IE "Common E-DCH MAC-d flows" of the System Information Block Type 5/5bis.

NOTE 3:	For FDD, E-DCH MAC-d flow identity 7 is reserved for CCCH transmission.

10.3.5.27	Power Offset Information 10ms Mode
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Gain Factors
MP



REL-12
>Signalled Gain Factors





>>Gain Factor c
MP

Integer
(0.. 15)
For UL DPCCH
REL-12
>>Gain Factor d
MP

Integer
(0..15)
For UL DPDCH
REL-12
>>Reference TFC ID
OP

Integer (0..3)
If this TFC is a reference TFC, indicates the reference ID.
REL-12
>Computed Gain Factors





>>Reference TFC ID
MP

Integer
(0.. 3)
Indicates the reference TFC Id of the TFC to be used to calculate the gain factors for this TFC. In case of using computed gain factors, at least one signalled gain factor is necessary for reference.
REL-12

CHOICE Gain Factors
Condition under which the way to signal the Gain Factors is chosen
Signalled Gain Factors
The values for gain factors c and d are signalled directly for a TFC.
Computed Gain Factors
The gain factors c and d are computed for a TFC, based on the signalled settings for the associated reference TFC. 


10.3.6	Physical CH Information elements
10.3.6.1	AC-to-ASC mapping
Information Element/Group name
Need
Multi
Type and reference
Semantics description
AC-to-ASC mapping table
MP
maxASCmap


>AC-to-ASC mapping
MP

Integer(0…7)
Mapping of Access Classes to Access Service Classes (see subclause 8.5.13.)

10.3.6.2	AICH Info
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Channelisation code
MP

Integer(0..255)
SF is fixed and equal to 256
STTD indicator
MP

STTD Indicator 10.3.6.78

AICH transmission timing
MP

Enumerated (0, 1)
See parameter AICH_Transmission_Timing in [26]

10.3.6.3	AICH Power offset
NOTE:	Only for FDD.
This parameter is used to indicate the power level of AICH channel. This is the power per transmitted Acquisition Indicator, Extended Acquisition Indicator  minus power of the Primary CPICH.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
AICH Power offset
MP

Integer(-22..+5)
Offset in dB

10.3.6.4	Allocation period info
NOTE:	Only for TDD.
Parameters used by UE to determine period of shared channel allocation.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Allocation Activation Time
MP

Integer (0..255)
Start the allocation period at the given CFN.
Allocation Duration
MP

Integer (1..256)
Total number of frames for the allocation period.

10.3.6.5	Alpha
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Alpha Value
MP

Enumerated(0, 1/8, 2/8, 3/8, 4/8, 5/8, 6/8, 7/8, 1)


10.3.6.6	ASC setting
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>Available signature Start Index
MP

Integer(0..15)


>>Available signature End Index
MP

Integer(0..15)


>>Assigned Sub-Channel Number
MP

Bit string(4)
This IE defines the subchannel assignment as specified in 8.6.6.29.
 The first/leftmost bit of the bit string contains the most significant bit of the Assigned Sub-Channel Number..

>TDD





>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>>>Available Channelisation codes indices
MD

Bit string(8)
Each bit indicates availability of a channelisation code index, where the channelisation code indices are numbered "channelisation code index 0" to "channelisation code index 7". The value 1 of a bit indicates that the channelisation code index is available for the ASC this IE is associated to. The value 0 of a bit indicates that the channelisation code index is not available for the ASC this IE is associated to. Default is that all channelisation codes defined in PRACH Info are available.

>>>7.68 Mcps TDD




REL-7
>>>>Available Channelisation codes indices
MD

Bit string(16)
Each bit indicates availability of a channelisation code index, where the channelisation code indices are numbered "channelisation code index 0" to "channelisation code index 15". The value 1 of a bit indicates that the channelisation code index is available for the ASC this IE is associated to. The value 0 of a bit indicates that the channelisation code index is not available for the ASC this IE is associated to. Default is that all channelisation codes defined in PRACH Info are available.
REL-7
>>>1.28 Mcps TDD




REL-4
>>>>Available SYNC_UL codes indices
MD

Bit string(8)
Each bit indicates availability of a SYNC_UL code index, where the SYNC_UL code indices are numbered "SYNC_UL code index 0" to "SYNC_UL code index 7". The value 1 of a bit indicates that the SYNC_UL code index is available for the ASC this IE is associated to. The value 0 of a bit indicates that the SYNC_UL code index is not available for the ASC this IE is associated to. Default is that all SYNC_UL codes defined in SYNC_UL Info are available.
REL-4
>>CHOICE subchannel size
MP




>>>Size1





>>>>Available Subchannels
MP

null
Indicates that all Subchannels are available

>>>Size2





>>>>Available Subchannels
MD

Bit string (2)
NOTE

>>>Size4





>>>>Available Subchannels
MD

Bit string (4)
NOTE

>>>Size8





>>>>Available Subchannels
MD

Bit string (8)
NOTE

>>>Size16





>>>>Available Subchannels
MD

Bit string (16)
NOTE


NOTE:	Each bit indicates availability of a subchannel, where the subchannels are numbered subchannel 0, subchannel 1 etc. The value 1 of a bit indicates that the subchannel is available for the ASC this IE is associated with. The value 0 of a bit indicates that the subchannel is not available for the ASC this IE is associated with. Default value of the IE is that all subchannels within the size are available for the ASC this IE is associated with.
10.3.6.7	Void

10.3.6.8	CCTrCH power control info
Parameters used by UE to set the SIR target value for uplink open loop power control in TDD.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
TFCS Identity
OP

Transport Format Combination Set Identity 10.3.5.21
TFCS Identity of this CCTrCH. Default value is 1.
Uplink DPCH power control info
MP

Uplink DPCH power control info 10.3.6.91


10.3.6.8a	Cell and Channel Identity info
NOTE:	Only for TDD.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Burst type
MP

Enumerated (Type1, Type2)
Identifies the channel in combination with the Midamble shift and slot number.
It is not used in 1.28 Mcps TDD and may be set to either value. This IE should be ignored by the receiver.
Midamble Shift
MP

Integer (0…15)

Time Slot
MP

Timeslot number
10.3.6.84
This IE is present only if no IPDL scheme is configured in the reference cell. Otherwise the slot is defined by the IPDL configuration.
Cell parameters ID
MP

Cell parameters ID 10.3.6.9
Identifies the cell

10.3.6.9	Cell parameters Id
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Cell parameter Id
MP

Integer(0..127)


10.3.6.9a	Common E-DCH system info
NOTE:	Only for FDD and 1.28 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UL interference for common E-DCH
OP

UL interference 10.3.6.87

REL-8
Common E-DCH MAC-d flows
MP

Common E-DCH MAC-d flows 10.3.5.3b

REL-8
CHOICE mode
MP



REL-8
>FDD




REL-8
>>PRACH preamble control parameters (for Enhanced Uplink)
MP

PRACH preamble control parameters (for Enhanced Uplink) 10.3.6.54a
Control parameters of the physical signal. 
REL-8
>>Initial Serving grant value
MP

Integer (0..37)
(0..37) indicates E-DCH serving grant index as defined in [15].
REL-8
>>E-DCH Transmission Time Interval
MP

Enumerated
(2,10)
Unit is ms.
REL-8
>>E-AGCH Info
MP

E-AGCH Info 10.3.6.100

REL-8
>>HARQ info for E-DCH
MP

HARQ info for E-DCH 10.3.5.7d

REL-8
>>Uplink DPCH power control info
MP

Uplink DPCH power control info for Common E-DCH 10.3.6.91a

REL-8
>>E-DPCCH info
MP

E-DPCCH Info 10.3.6.98

REL-8
>>E-DPDCH info
MP

E-DPDCH info 10.3.6.99

REL-8
>>F-DPCH TPC command error rate target 
MP

Real (0.01..0.1 by step of 0.01).
Downlink F-DPCH information. The actual value of dl-FDPCH-TPCcommandErrorRate = IE value * 0.01
REL-8
>>Additional E-DCH transmission back off 
MP

Integer (0..15)
In terms of TTIs.
REL-8
>>Maximum E-DCH resource allocation for CCCH
MP

Enumerated (8, 12, 16, 20, 24, 32, 40, 80)
In terms of TTIs.
REL-8
>>Maximum period for collision resolution phase
MP

Integer (8..24)
In terms of TTIs.
REL-8
>>E-DCH transmission continuation back off
MP

Enumerated (0, 4, 8, 16, 24, 40, 80, infinity)
In terms of TTIs. If set to "infinity", implicit common E-DCH resource release is disabled.
REL-8
>>ACK/NACK support on HS-DPCCH
MP

Boolean
TRUE indicates that HS-DPCCH shall be used when a common E-DCH resource is allocated to the UE for DTCH/DCCH transmission after collision resolution. FALSE indicates that HS-DPCCH shall not be used
REL-8
>>Measurement Feedback Info
OP

Measurement Feedback Info 10.3.6.40a

REL-8
>>Common E-DCH Resource Configuration information list
MP
1 to <maxEDCHs>


REL-8
>>>Soffset
MD

Integer(0..9)
(0..9) indicates symbol offset as defined in [26]
NOTE3
REL-8
>>>F-DPCH Code number
CV-Short

Integer (0..255)
If this IE is not present, the value is equal to the last occurrence of this IE.
REL-8
>>>E-RGCH Information
OP

E-RGCH Info for Common E-DCH
10.3.6.123

REL-8
>>>E-HICH info
MP

E-HICH info for Common E-DCH 10.3.6.124

REL-8
>>>Uplink DPCH code info
MP

Uplink DPCH code info for Common E-DCH 10.3.6.87b

REL-8
>TDD




REL-8
>>CHOICE TDD option
MP



REL-8
>>>7.68 Mcps TDD


NULL

REL-8
>>>3.84 Mcps TDD


NULL

REL-8
>>>1.28 Mcps TDD




REL-8
>>>>E-RUCCH Info
MP

E-RUCCH Info 1.28 Mcps TDD
10.3.6.103a

REL-8
>>>>E-PUCH info
MP

E-PUCH Info 1.28 Mcps TDD 10.3.6.104a
Note1
REL-8
>>>>E-HICH info
MP

E-HICH info 1.28 Mcps TDD 10.3.6.101a
Note1
REL-8
>>>>E-AGCH Info
MP

E-AGCH Info 1.28 Mcps TDD 10.3.6.100a
Note1
REL-8
>>>>HARQ info for E-DCH
MP

HARQ info for E-DCH 10.3.5.7d

REL-8
>>>>CCCH transmission info
MP


Note2
REL-8
>>>>>Common E-RNTI info
MP

Common E-RNTI info
10.3.3.7a

REL-8
>>>>>HARQ maximum number of retransmissions
MP

Integer (0..7)

REL-8
>>>>>HARQ retransmission timer
MP

Enumerated (10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 110, 120, 140, 160)
Unit: ms
REL-8
>>>>>HARQ power offset
MP

Integer(0..6)

REL-8
NOTE3:	The default value is defined by:
Soffset = (offset+common E-DCH resource list position) mod 10
where "offset" is the value of the last instance of the IE "Soffset". If the IE "Soffset" was not present in the first occurrence, "offset" is equal to zero.
"common E-DCH resource list position" indicates the Common E-DCH resource Configuration Information number by order of appearance. The value of the "common E-DCH resource list position" is zero for the first occurrence.

Condition
Explanation
Short
This IE is mandatory present for the first occurrence. Otherwise, this IE is optional.

NOTE1:	These IEs correspond to the HS-DSCH configuration for CELL_FACH, CELL_PCH and URA_PCH state.
NOTE2:	These IEs correspond to CCCH transmission configuration for CELL_FACH state on the primary frequency and secondary frequency.
10.3.6.10	Common timeslot info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
2nd interleaving mode
MD

Enumerated(Frame, Timeslot)
Frame timeslot related interleaving. Default value is "Frame"
TFCI coding
MD

Integer(4,8,16,32)
Describes the amount of bits for the TFCI bits code word as described in [31].
Defaults is no TFCI bit:
In case of 8 PSK in 1.28Mcps TDD:
4 corresponds to 6 TFCI code word bits.
8 corresponds to 12 TFCI code word bits.
16 corresponds to 24 TFCI code word bits.
32 corresponds to 48 TFCI code word bits.

Puncturing limit
MP

Real(0.40..1.0 by step of 0.04)

Repetition period
MD

Integer(1, 2,4,8,16,32,64)
Default is continuous allocation. Value 1 indicate continuous
Repetition length
MP

Integer(1.. Repetition period –1 )
NOTE:	This is empty if repetition period is set to 1.

10.3.6.10a	Common timeslot info MBMS
Information Element/Group name
Need
Multi
Type and reference
Semantics description
2nd interleaving mode
MD

Enumerated(Frame, Timeslot)
Frame timeslot related interleaving. Default value is "Frame"
TFCI coding
MD

Integer(4,8,16,32)
Describes the amount of bits for the TFCI bits code word as described in [31].
Defaults is no TFCI bit:
In case of 8 PSK in 1.28Mcps TDD:
4 corresponds to 6 TFCI code word bits.
8 corresponds to 12 TFCI code word bits.
16 corresponds to 24 TFCI code word bits.
32 corresponds to 48 TFCI code word bits.

Puncturing limit
MP

Real(0.40..1.0 by step of 0.04)


10.3.6.11	Constant value
NOTE:	Only for FDD.
This constant value is used by the UE to calculate the initial output power on PRACH according to the Open loop power control procedure.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Constant value
MP

Integer (-35..-10)
In dB

10.3.6.11a	Constant value TDD
NOTE:	Only for 3.84 Mcps TDD and 7.68 Mcps TDD.
3.84 Mcps TDD and 7.68 Mcps TDD constant values are used for open loop power control of PRACH, USCH, HS-SICH and UL DPCH as defined in subclause 8.5.7.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
TDD Constant value
MP

Integer (-35..+10)
In dB

10.3.6.12	Void

10.3.6.13	Void

10.3.6.14	Void

10.3.6.15	Void

10.3.6.16	Default DPCH Offset Value
Indicates the default offset value within interleaving size at a resolution of 512chip (1/5 slot) in FDD and a resolution of one frame in TDD to offset CFN in the UE. This is used to distribute discontinuous transmission periods in time and also to distribute NodeB-RNC transmission traffics in time. Even though the CFN is offset by DOFF, the start timing of the interleaving will be the timing that "CFN mod (interleaving size)"=0 (e.g. interleaving size: 2,4,8) in both UE and SRNC.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE mode




>FDD




>>Default DPCH Offset Value (DOFF)
MP

Integer (0..306688 by step of 512)
Number of chips=.
0 to 599 time 512 chips, see [10].
>TDD




>>Default DPCH Offset Value (DOFF)
MP

Integer(0..7)
Number of frames; See [10]

10.3.6.17	Downlink channelisation codes
NOTE:	Only for 1.28 Mcps TDD and 3.84 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE codes representation
MP



>Consecutive codes




>>First channelisation code
MP

Enumerated (
(16/1)...(16/16))
If a TFCI exists in this timeslot, it is mapped to the channelisation code as defined in [30].
>>Last channelisation code
MP

Enumerated (
(16/1)...(16/16))
If this is the same as First channelisation code, only one code is used by the physical layer.
>Bitmap




>>Channelisation codes bitmap
MP

Bit string( chCode16-SF16,                                         chCode15-SF16,                                          chCode14-SF16,                                          chCode13-SF16,                                         chCode12-SF16,                                         chCode11-SF16,                                         chCode10-SF16,                                         chCode9-SF16,                                         chCode8-SF16,                                        chCode7-SF16,                                         chCode6-SF16,                                        chCode5-SF16,                                        chCode4-SF16,                                        chCode3-SF16,                                        chCode2-SF16,                                        chCode1-SF16
) SIZE (16)
Each bit indicates the availability of a channelisation code for SF16, where the channelisation codes are numbered as channelisation code 1 (SF16) to channelisation code 16 (SF16). (For SF 16, a 1 in the bitmap means that the corresponding code is used, a 0 means that the corresponding code is not used.)
If all bits are set to zero, SF 1 shall be used.
For dedicated MBSFN frequency timeslot, if the first half in the bit pattern is set to 1010101000000000, the first channelisation code with SF 2 shall be used; if the second half of bit pattern is set to 0000000010101010, the second channelisation code with SF 2 shall be used; if all bits are set to 1010101010101010, both the first and second channelisation codes with SF2 shall be used.

10.3.6.17a	Downlink channelisation codes VHCR
NOTE:	Only for 7.68 Mcps TDD VHCR
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE codes representation
MP



REL-7
>Consecutive codes




REL-7
>>First channelisation code
MP

Enumerated (
(32/1)...(32/32))
If a TFCI exists in this timeslot, it is mapped to the channelisation code as defined in [30].
REL-7
>>Last channelisation code
MP

Enumerated (
(32/1)...(32/32))
If this is the same as First channelisation code, only one code is used by the physical layer.
REL-7
>Bitmap




REL-7
>>Channelisation codes bitmap
MP

Bit string(32)
Each bit indicates the availability of a channelisation code for SF32, where the channelisation codes are numbered as channelisation code 1 (SF32) to channelisation code 32 (SF32). (For SF 32, a 1 in the bitmap means that the corresponding code is used, a 0 means that the corresponding code is not used.)
If all bits are set to zero, SF 1 shall be used.
REL-7

10.3.6.18	Downlink DPCH info common for all RL
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Timing Indication
MP

Enumerated(Initialise, Maintain)
NOTE

Timing maintained Synchronization indicator
CV-Synch

Enumerated (FALSE)
FALSE indicates that no synchronisation procedure shall be performed for timing maintained inter-frequency hard handover [29]. Absence of this element means that the synchronization procedure A shall be used.
REL-6
Downlink DPCH power control information
OP

Downlink DPCH power control information 10.3.6.23


MAC-d HFN initial value
CV-Message

Bit string(24)

REL-4
CHOICE mode
MP




>FDD





>>Power offset P Pilot-DPDCH
MP

Integer(0..24)
Power offset equals PPilot - PDPDCH, range 0..6 dB, in steps of 0.25 dB

>>Downlink rate matching restriction information
OP

Downlink rate matching restriction information 10.3.6.31
If this IE is set to "absent", no Transport CH is restricted in TFI.

>>Spreading factor
MP

Integer(4, 8, 16, 32, 64, 128, 256, 512)


>>Fixed or Flexible Position
MP

Enumerated (Fixed, Flexible)


>>TFCI existence
MP

Boolean
TRUE indicates that TFCI is used. When spreading factor is less than or equal to 64, FALSE indicates that TFCI is not used and therefore DTX is used in the TFCI field.

>>CHOICE SF
MP




>>>SF = 256





>>>>Number of bits for Pilot bits
MP

Integer (2,4,8,
In bits





0)
In bits. For FDD only.
NOTE 2.
REL-12
>>>SF = 128





>>>>Number of bits for Pilot bits
MP

Integer(4,8,
In bits





0)
In bits. For FDD only.
REL-12
>>>Otherwise



(no data). In ASN.1 choice "Otherwise" is not explicitly available as all values are available, it is implied by the use of any value other than 128 or 256.

>TDD



(no data)


CHOICE SF
Condition under which the given SF is chosen
SF=128
"Spreading factor" is set to 128
SF=256
"Spreading factor" is set to 256
Otherwise
"Spreading factor" is set to a value distinct from 128 and 256

Condition
Explanation
Message
This IE is not needed if the IE "Downlink DPCH info common for all RL" is included in RRC CONNECTION SETUP or HANDOVER TO UTRAN COMMAND messages. Otherwise it is optional.
Synch
The IE is not needed in the CELL UPDATE CONFIRM, HANDOVER TO UTRAN COMMAND and the RRC CONNECTION SETUP messages or if the IE "Timing Indication" is set to "Initialise" or if the IE “Frequency Info” is not included. Otherwise, it is optional.

NOTE:	Within the handover to UTRAN command message, only value "initialise" is applicable. 
NOTE 2:	Within the RRC CONNECTION SETUP message, the value 0 is not applicable.
10.3.6.19	Downlink DPCH info common for all RL Post
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Downlink DPCH power control information
OP

Downlink DPCH power control information 10.3.6.23


10.3.6.20	Downlink DPCH info common for all RL Pre
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE mode
MP



>FDD




>>Spreading factor
MP

Integer(4, 8, 16, 32, 64, 128, 256, 512)
Defined in CHOICE SF512-Andpilot with "number of its for pilot bits" in ASN.1
>>Fixed or Flexible Position
MP

Enumerated (Fixed, Flexible)

>>TFCI existence
MP

Boolean
TRUE indicates that TFCI is used. When spreading factor is less than or equal to 64, FALSE indicates that TFCI is not used and therefore DTX is used in the TFCI field.
>>CHOICE SF
MP



>>>SF = 256




>>>>Number of bits for Pilot bits
MP

Integer (2,4,8)
In bits

>>>SF = 128




>>>>Number of bits for Pilot bits
MP

Integer(4,8)
In bits

>>>Otherwise



(no data)
>TDD




>>Common timeslot info
MP

Common Timeslot Info 10.3.6.10


CHOICE SF
Condition under which the given SF is chosen
SF=128
"Spreading factor" is set to 128
SF=256
"Spreading factor" is set to 256
Otherwise
"Spreading factor" is set to a value distinct from 128 and 256

10.3.6.21	Downlink DPCH info for each RL
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>Primary CPICH usage for channel estimation
MP

Primary CPICH usage for channel estimation 10.3.6.62


>>DPCH frame offset
MP

Integer(0..38144 by step of 256)
Offset (in number of chips) between the beginning of the P-CCPCH frame and the beginning of the DPCH frame
This is called DPCH,n in [26]

>>Secondary CPICH info
OP

Secondary CPICH info 10.3.6.73


>>DL channelisation code
MP
1 to <maxDPCH-DLchan>

For the purpose of physical channel mapping [27] the DPCHs are numbered, starting from DPCH number 1, according to the order that they are contained in this IE.

>>>Secondary scrambling code
MD

Secondary scrambling code 10.3.6.74
Default is the same scrambling code as for the Primary CPICH 

>>>Spreading factor
MP

Integer(4, 8, 16, 32, 64, 128, 256, 512)
Defined in CHOICE SF512-AndCodenumber with "code number" in ASN.1.

>>>Code number
MP

Integer(0..Spreading factor - 1)


>>>Scrambling code change 
CH-SF/2

Enumerated (code change, no code change)
Indicates whether the alternative scrambling code is used for compressed mode method 'SF/2'. 

>>TPC combination index
MP

TPC combination index 10.3.6.85


>>Power offset PTPC-DPDCH
OP

Integer (0..24)
Power offset equals PTPC- PDPDCH, range 0..6 dB, in steps of 0.25 dB
REL-5
>>Power offset POSRB
OP

Integer (0..24)
Power offset to be applied under conditions defined in [29]. Range 0..6dB in steps of 0.25dB.
REL-12
>>Closed loop timing adjustment mode
CH-TxDiversity Mode

Integer(1, 2)
It is present if Tx Diversity is used in the radio link.

>1.28 Mcps TDD or 3.84 Mcps TDD





>>DL CCTrCh List
OP
1..<maxCCTrCH>

DL physical channels to establish or reconfigure list.

>>>TFCS ID
MD

Integer(1..8)
Identity of this CCTrCh.
Default value is 1 

>>>Time info
MP

Time Info 10.3.6.83


>>>Common timeslot info
MD

Common Timeslot Info 10.3.6.10
Default is the current Common timeslot info

>>>Downlink DPCH timeslots and codes
MD

Downlink Timeslots and Codes 10.3.6.32
Default is to use the old timeslots and codes.

>>>UL CCTrCH TPC List
MD
0..<maxCCTrCH>

UL CCTrCH identities for TPC commands associated with this DL CCTrCH. Default is previous list or all defined UL CCTrCHs.
This list is not required for 1.28 Mcps TDD and is to be ignored by the UE. 

>>>>UL TPC TFCS Identity
MP

Transport Format Combination Set Identity 10.3.5.21


>>DL CCTrCH List to Remove
OP
1..<maxCCTrCH>

DL physical channels to remove list.

>>>TFCS ID
MP

Integer(1..8)


>7.68 Mcps TDD
CV-Message



REL-7
>>DL CCTrCh List
OP
1..<maxCCTrCH>

DL physical channels to establish or reconfigure list.
REL-7
>>>TFCS ID
MD

Integer(1..8)
Identity of this CCTrCh.
Default value is 1
REL-7
>>>Time info
MP

Time Info 10.3.6.83

REL-7
>>>Common timeslot info
MD

Common Timeslot Info 10.3.6.10
Default is the current Common timeslot info
REL-7
>>>Downlink DPCH timeslots and codes VHCR
MD

Downlink Timeslots and Codes VHCR 10.3.6.32a
Default is to use the old timeslots and codes.
REL-7
>>>UL CCTrCH TPC List
MD
0..<maxCCTrCH>

UL CCTrCH identities for TPC commands associated with this DL CCTrCH. Default is previous list or all defined UL CCTrCHs.
This list is not required for 1.28 Mcps TDD and is to be ignored by the UE.
REL-7
>>>>UL TPC TFCS Identity
MP

Transport Format Combination Set Identity 10.3.5.21

REL-7
>>DL CCTrCH List to Remove
OP
1..<maxCCTrCH>

DL physical channels to remove list.
REL-7
>>>TFCS ID
MP

Integer(1..8)

REL-7

Condition
Explanation
SF/2
The information element is mandatory present if the UE has a compressed mode pattern sequence configured in variable TGPS_IDENTITY or included in the message including IE "Downlink DPCH info for each RL", which is using compressed mode method "SF/2". Otherwise the IE is not needed.
TxDiversity Mode
This IE is mandatory present if any TX Diversity Mode is used on the radio link, i.e. if STTD or "closed loop mode 1" is used on the radio link. Otherwise the IE is not needed.
Message
This CHOICE is not needed in the ACTIVE SET UPDATE message, otherwise it is optional.

10.3.6.22	Downlink DPCH info for each RL Post
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE mode
MP



>FDD




>>Primary CPICH usage for channel estimation
MP

Primary CPICH usage for channel estimation 10.3.6.62

>>Secondary scrambling code
MD

Secondary scrambling code 10.3.6.74
Default is the same scrambling code as for the Primary CPICH 
>>CHOICE Spreading factor
MP

Integer(4, 8, 16, 32, 64, 128, 256, 512)
Defined in CHOICE SF512-AndCodenumber with "code number" in ASN.1.
>>Code number
MP

Integer(0.. Spreading factor - 1)

>>Scrambling code change 
CH-SF/2

Enumerated (code change, no code change)
Indicates whether the alternative scrambling code is used for compressed mode method 'SF/2'. 
>>TPC combination index
MP

TPC combination index 10.3.6.85

>1.28 Mcps TDD or 3.84 Mcps TDD




>>Downlink DPCH timeslots and codes
MP

Downlink Timeslots and Codes 10.3.6.32

>7.68 Mcps TDD



REL-7
>>Downlink DPCH timeslots and codes VHCR
MP

Downlink Timeslots and Codes VHCR 10.3.6.32a
REL-7

Condition
Explanation
SF/2
The information element is mandatory present if the UE has a compressed mode pattern sequence configured in variable TGPS_IDENTITY or included in the message including IE "Downlink DPCH info for each RL Post", which is using compressed mode method "SF/2". Otherwise the IE is not needed.

10.3.6.23	Downlink DPCH power control information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE mode
MP



>FDD




>>DPC Mode
MP

Enumerated (Single TPC, TPC triplet in soft)
"Single TPC" is DPC_Mode=0 and "TPC triplet in soft" is DPC_mode=1 in [29].
>TDD




>>TPC Step Size
OP

Integer
(1, 2, 3)
In dB

10.3.6.23oa	Downlink F-DPCH info common for all RL
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Timing Indication
MP

Enumerated (Initialise, Maintain)

REL-6
Timing maintained Synchronization indicator
CV-Synch

Enumerated (FALSE)
FALSE indicates that no synchronisation procedure shall be performed for timing maintained inter-frequency hard handover [29]. Absence of this element means that the synchronization procedure A shall be used.
REL-6
Downlink F-DPCH power control information
OP

Downlink DPCH power control information 10.3.6.23

REL-6
TPC command error rate target 
MP

Real (0.01..0.1 by step of 0.01)

REL-6

Condition
Explanation
Synch
The IE is not needed in the CELL UPDATE CONFIRM, HANDOVER TO UTRAN COMMAND and the RRC CONNECTION SETUP messages or if the IE "Timing Indication" is set to "Initialise" or if the IE “Frequency Info” is not included.
Otherwise, it is optional.

10.3.6.23ob	Downlink F-DPCH info for each RL
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Primary CPICH usage for channel estimation
MP

Primary CPICH usage for channel estimation 10.3.6.62

REL-6
F-DPCH frame offset
MP

Integer (0..38144 by step of 256)
Offset (in number of chips) between the beginning of the P-CCPCH frame and the beginning of the F-DPCH frame
This is called F-DPCH,n in [26]
REL-6
F-DPCH slot format
OP

Integer (0..9 by steps of 1)
Slot format used by F-DPCH in [26]. Absence of this element means that slot format 0 is applied.
REL-7
Secondary CPICH info
OP

Secondary CPICH info 10.3.6.73

REL-6
Secondary scrambling code
MD

Secondary scrambling code 10.3.6.74
Default is the same scrambling code as for the Primary CPICH 
REL-6
Code number
MP

Integer (0..255)

REL-6
TPC combination index
MP

TPC combination index 10.3.6.85

REL-6
STTD indication
CV-NoHOtoUTRAN

Enumerated (TRUE)
This IE shall be set to TRUE when STTD is used. Absence of this element means STTD is not used.
REL-6
Power Control Algorithm 3
CV-Message

Power Control Algorithm 3 10.3.6.153

REL-13

Condition
Explanation
NoHOtoUTRAN
This IE is not needed in the HANDOVER TO UTRAN COMMAND and it is optional in all the other messages in which the IE "Downlink F-DPCH info for each RL" can be included.
Messsage
This IE is not needed in the HANDOVER TO UTRAN COMMAND and RRC CONNECTION SETUP messages, and it is optional in all the other messages in which the IE "Downlink F-DPCH info for each RL" can be included.

10.3.6.23a	Downlink HS-PDSCH Information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-SCCH Info
OP

HS-SCCH Info 10.3.6.36a
For 1.28 Mcps TDD, if IE DL Multi-Carrier Information is present, ignore this IE.
REL-5
Measurement Feedback Info
OP

Measurement Feedback Info 10.3.6.40a

REL-5
CHOICE mode
MP



REL-5
>TDD





>>CHOICE TDD option
MP



REL-5
>>>3.84 Mcps





>>>>HS-PDSCH Timeslot Configuration
OP

HS-PDSCH Timeslot Configuration 10.3.6.36o

REL-5
>>>7.68 Mcps




REL-7
>>>>HS-PDSCH Timeslot Configuration VHCR
OP

HS-PDSCH Timeslot Configuration VHCR 10.3.6.36oa

REL-7
>>> 1.28 Mcps





>>>> HS-PDSCH Midamble Configuration
OP

HS-PDSCH Midamble Configuration 10.3.6.36oo
For 1.28 Mcps TDD, if IE DL Multi-Carrier Information is present, ignore this IE.
REL-5
>>>> DL Multi-Carrier Information
OP

DL Multi-Carrier Information 10.3.6.28a

REL-7
>>>> Out of Sync window
MD

Enumerated (40, 80, 160, 320, 640)
Value in milliseconds. 
Default value is 160.
Three spare values needed.
REL-8
>>>>TS0 Indicator
OP

Enumerated (TRUE)
Absence of this IE means that the enhanced TS0 is not used. The presence of this IE means that the first bit of timeslot information on HS-SCCH is used to indicate TS0.
REL-9
>>>>TS0 channelization codes
CV-TS0Non-rectangularResourceAllocationSpecificTimeslots

Downlink channelisation codes 10.3.6.17
For 1.28Mcps TDD only. This IE indicates the channelization codes in TS0 that are configured for HS-PDSCH channel.
REL-12
>FDD





>>Downlink 64QAM configured
OP

Enumerated (TRUE)
Absence of this IE means that the HS-SCCH does not use the 64QAM format. The presence of this IE means the UE uses the octet aligned table [15].
REL-7
>>HS-DSCH TB size table
CV-Not64QAM

Enumerated (octet aligned)
If this IE is present, octet aligned table [15] is used, else bit aligned table [15] is used. NOTE 1
REL-7
NOTE 1:	This rule applies only if the IE "Downlink HS-PDSCH information" is present in the received message. The UE behaviour is unspecified if the IE "HS-DSCH TB size table" is present in the corresponding ASN.1 non-critical extension when the IE "Downlink HS-PDSCH information" is absent in the received message.

Condition
Explanation
Not64QAM
This IE is optionally present if 64QAM is not configured and MAC-ehs is configured. Otherwise it is not needed.
TS0Non-rectangularResourceAllocationSpecificTimeslots
In messages other than HANDOVER TO UTRAN COMMAND, this IE is mandatory present if both of non-rectangular resource allocation indicator and TS0 indicator are configured and non-rectangular resource specific timeslots set is not configured. Otherwise, it is not needed.

10.3.6.24	Downlink information common for all radio links
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE DPCH info
OP



REL-6
>Downlink DPCH info common for all RL
MP

Downlink DPCH info common for all RL 10.3.6.18


>Downlink F-DPCH info common for all RL
MP

Downlink F-DPCH info common for all RL 10.3.6.23oa

REL-6
CHOICE mode
MP




>FDD





>>DPCH compressed mode info
OP

DPCH compressed mode info 10.3.6.33


>>TX Diversity Mode
MD

TX Diversity Mode 10.3.6.86
Default value is the existing value of TX Diversity mode

>TDD



(no data)

>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD



(no data)
REL-4
>>>7.68 Mcps TDD



(no data)
REL-7
>>>1.28 Mcps TDD




REL-4
>>>>TSTD indicator
MP

TSTD indicator
10.3.6.85a

REL-4
Default DPCH Offset Value
OP

Default DPCH Offset Value,
10.3.6.16


MAC-hs reset indicator
CV-messageType

Enumerated (TRUE)
TRUE Indicates the MAC-hs/ehs entity needs to be reset.
REL-5
Post-verification period
OP

Enumerated (TRUE)
TRUE indicates that a post-verification period shall be used [29]. Absence of this element means that a post-verification period shall not be used.
REL-6
MAC-hs reset indicator for Multiflow assisting cells
CV-messageType

Enumerated (TRUE)
TRUE indicates that the MAC-hs/ehs entity related to the assisting cells needs to be reset.
REL-11

Condition
Explanation
MessageType
The IE is not needed in the HANDOVER TO UTRAN COMMAND and the RRC CONNECTION SETUP messages. Otherwise, it is optional.

10.3.6.25	Downlink information common for all radio links Post
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Downlink DPCH info common for all RL
MP

Downlink DPCH info common for all RL Post 10.3.6.19


10.3.6.26	Downlink information common for all radio links Pre
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Downlink DPCH info common for all RL
MP

Downlink DPCH info common for all RL Pre
10.3.6.20


10.3.6.27	Downlink information for each radio link
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60


>>Serving HS-DSCH radio link indicator
MP

Boolean
The value TRUE indicates that this radio link is the serving HS-DSCH radio link
REL-5
>>Serving E-DCH radio link indicator
MP

Boolean
The value TRUE indicates that this radio link is the serving E-DCH radio link
REL-6
>TDD





>>Primary CCPCH info
MP

Primary CCPCH info 10.3.6.57


Cell ID
OP

Cell ID 10.3.2.2

REL-4
CHOICE DPCH info
OP



REL-6
>Downlink DPCH info for each RL


Downlink DPCH info for each RL 10.3.6.21


>Downlink F-DPCH info for each RL


Downlink F-DPCH info for each RL 10.3.6.23ob

REL-6
>Radio Links without DPCH/F-DPCH info


Radio Links without DPCH/F-DPCH info 10.3.6.147

REL-12
E-AGCH Info
OP

E-AGCH Info 10.3.6.100

REL-6
E-ROCH Info
OP

E-ROCH Info FDD 10.3.6.146

REL-11
CHOICE mode




REL-7
>FDD




REL-7
>>CHOICE E-HICH Information
OP



REL-6
>>>E-HICH Information
MP

E-HICH Info 10.3.6.101

REL-6
>>>E-HICH release indicator



(no data)
REL-6
>>>Secondary TB E-HICH release indicator



(no data)
REL-11
>>CHOICE E-RGCH Information
OP



REL-6
>>>E-RGCH Information
MP

E-RGCH Info
10.3.6.102

REL-6
>>>E-RGCH release indicator



(no data)
REL-6
>>CHOICE F-TPICH Info
OP



REL-11
>>>F-TPICH Info


F-TPICH Info
10.3.6.127

REL-11
>>>F-TPICH release indicator



(no data)
REL-11
>TDD



(no data)
REL-7
>>E-HICH Information
OP

E-HICH Info
10.3.6.101

REL-7

10.3.6.28	Downlink information for each radio link Post
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Choice mode
MP




>FDD





>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60


>TDD





>>Primary CCPCH info
MP

Primary CCPCH info post 10.3.6.58


Downlink DPCH info for each RL
MP

Downlink DPCH info for each RL Post 10.3.6.22



10.3.6.28a	DL Multi-Carrier Information (1.28 Mcps TDD only)
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
TSN-Length
OP

Enumerated
(tsn-6bits,
tsn-9bits)

REL-7
Multi-Carrier number
OP

Integer(1..maxTDD128Carrier)

REL-7
Dl-HSPDSCH-MultiCarrier-Information
OP
1 to <maxTDD128Carrier>

The number of HS-SCCH Sets  shall not be larger than UE Multi-Carrier capability
REL-7
>Carrier-Uarfcn
MP

Integer(0..16383)

REL-7
>HARQ Info
OP

HARQ info 10.3.5.7a

REL-7
>HS-PDSCH Midamble Configuration
OP

HS-PDSCH Midamble Configuration 10.3.6.36oo

REL-7
>HS-SCCH Set Configuration
OP
1 to <maxHS-SCCHs>


REL-7
>>HS-SCCH-Receive-Uarfcn
MP

Integer(0..16383)

REL-7
>>Timeslot number
MP

Integer
(0..6)

REL-7
>>First Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-7
>>Second Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-7
>>Midamble Allocation mode
MP

Enumerated
(Default midamble, Common midamble, UE specific midamble)

REL-7
>>Midamble Shift  
CV-UE

Integer (0..15) 

REL-7 
>>Midamble configuration
MP

Integer
(2, 4, 6, 8, 10, 12, 14, 16)

REL-7
>>BLER target
MP

Real
(-3.15..0 by step of 0.05)
Signalled value is Log10(HS-SCCH BLER quality target).
The UE shall use the BLER target signalled in the first occurrence of the HS-SCCH Set Configuration.
REL-7
>>HS-SICH configuration




REL-7
>>>Timeslot number
MP

Integer
(0..6)

REL-7
>>>Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-7
>>>Midamble Allocation mode
MP

Enumerated (Default midamble, UE specific midamble)

REL-7
>>>Midamble configuration
MP

Integer
(2, 4, 6, 8, 10, 12, 14, 16)

REL-7
>>>Midamble Shift
CV-UE

Integer
(0..15)

REL-7
>>>Ack-Nack Power Offset
MP

Integer
(-7..8 by step of 1)
dB.
REL-7
>>>PRXHS-SICH
MP

Integer
(-120..-58 by step of 1)
dBm. Desired power level for HS-SICH. 
REL-7
>>>TPC step size
MP

Integer
(1, 2, 3)
dB.
REL-7

Condition
Explanation
UE
This IE is mandatory present when the value of the IE "Midamble Allocation Mode" is "UE specific midamble" and not needed otherwise.

10.3.6.29	Void

10.3.6.30	Void

10.3.6.31	Downlink rate matching restriction information
This IE indicates which TrCH is restricted in TFI.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Restricted TrCH information
OP
1 to <maxTrCH>


>Downlink transport channel type
MP

Enumerated(DCH)

>Restricted DL TrCH identity
MP

Transport channel identity 10.3.5.18

>Allowed TFIs
MP
1 to <maxTF>


>>Allowed TFI
MP

Integer(0..31)


10.3.6.31a	Downlink secondary cell info FDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Configuration info
MP



REL-8
>Continue


(no data)
Used in reconfigurations without interruption of dual cell operation.
REL-8
>New configuration




REL-8
>>New H-RNTI
MP

H-RNTI 10.3.3.14a

REL-8
>>Downlink 64QAM configured
OP

Enumerated (TRUE)
Absence of this IE means that the secondary cell HS-SCCH does not use the 64QAM format. The presence of this IE means the UE uses the octet aligned table [15].
REL-8
>>HS-DSCH TB size table
CV-Not64QAM

Enumerated (octet aligned)
If this IE is present, octet aligned table [15] is used, else bit aligned table [15] is used.
REL-8
>>Primary CPICH info
MP

Primary CPICH Info 10.3.6.60

REL-8
>>DL Scrambling Code
MD

Secondary scrambling code 10.3.6.74
DL Scrambling code to be applied for HS-DSCH and  HS-SCCH. Default is same scrambling code as for the primary CPICH.
REL-8
>>HS-SCCH Channelisation Code Information
MP
1 to <maxHSSCCHs >

Note 1
REL-8
>>>HS-SCCH Channelisation Code
MP

Integer
(0..127)

REL-8
>>Measurement Power Offset
MP

Real (-6 .. 13 by step of 0.5)
The measurement power offset, , in dB, as described in [29].
REL-8
>>Measurement Power Offset_1
OP

Real (-6 .. 13 by step of 0.5)
The measurement power offset, 1, in dB, as described in [29].
REL-11
>>UARFCN downlink (Nd)
MP

Integer(0 .. 16383)
[21]
REL-8
>>Different Tx diversity mode configuration from serving HS-DSCH cell
OP

Enumerated (Different)
The presence of this IE means that the Tx diversity Mode is different to the Diversity Mode indicated in the serving HS-DSCH cell. Absence of this IE means that the same Tx diversity mode is used as that used for the serving HS-DSCH cell.
Note 2
REL-8
>>Multiflow configuration
OP

10.3.6.129 Multiflow configuration info
If present, provides the Multiflow specific configuration information for this cell. 
REL-11
Secondary cell MIMO parameters
OP

10.3.6.72b Secondary cell MIMO parameters
FDD only
REL-9
Secondary cell MIMO mode with four transmit antennas parameters
OP

Secondary cell MIMO mode with four transmit antennas parameters 10.3.6.144
FDD only
REL-11
Note 1:	The list of HS-SCCH(s) is assumed to be indexed starting from one.
Note 2:	The UE behaviour is unspecified if the IE "Different Tx diversity mode configuration from serving HS-DSCH cell" is present and the IE "CHOICE Configuration info" is not set to "New configuration" in the received message.

Condition
Explanation
Not64QAM
This IE is optionally present if 64QAM is not configured and MAC-ehs is configured. Otherwise it is not needed.

10.3.6.31b	Downlink secondary cell info FDD for Handover to UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Configuration info
MP



REL-11
>Continue


(no data)
Note 1.
REL-11
>New configuration




REL-11
>>New H-RNTI
MP

H-RNTI 10.3.3.14a

REL-11
>>Primary CPICH info
MP

Primary CPICH Info 10.3.6.60

REL-11
>>DL Scrambling Code
MD

Secondary scrambling code 10.3.6.74
DL Scrambling code to be applied for HS-DSCH and  HS-SCCH. Default is same scrambling code as for the primary CPICH.
REL-11
>>HS-SCCH Channelisation Code Information
MP
1 to <maxHSSCCHs >

Note 2
REL-11
>>>HS-SCCH Channelisation Code
MP

Integer
(0..127)

REL-11
>>Measurement Power Offset
MP

Real (-6 .. 13 by step of 0.5)
The measurement power offset, , in dB, as described in [29].
REL-11
>>UARFCN downlink (Nd)
MP

Integer(0 .. 16383)
[21]
REL-11
>>Different Tx diversity mode configuration from serving HS-DSCH cell
OP

Enumerated (Different)
The presence of this IE means that the Tx diversity Mode is different to the Diversity Mode indicated in the serving HS-DSCH cell. Absence of this IE means that the same Tx diversity mode is used as that used for the serving HS-DSCH cell.
Note 3
REL-11
Note 1: 	The value "Continue" should not be set.
Note 2: 	The list of HS-SCCH(s) is assumed to be indexed starting from one. 
Note 3: 	The UE behaviour is unspecified if the IE "Different Tx diversity mode configuration from serving HS-DSCH cell" is present and the IE "CHOICE Configuration info" is not set to "New configuration" in the received message.

10.3.6.32	Downlink Timeslots and Codes
NOTE:	Only for 1.28 Mcps TDD and 3.84 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
First Individual timeslot info
MP

Individual timeslot info 10.3.6.37
Individual timeslot info for the first timeslot used by the physical layer.
First timeslot channelisation codes
MP

Downlink channelisation codes 10.3.6.17
These codes shall be used by the physical layer in the timeslot given in First Individual timeslot info.
CHOICE more timeslots
MP



>No more timeslots



(no data)
>Consecutive timeslots




>>Number of additional timeslots
MP

Integer(1..maxTS-1)
The timeslots used by the physical layer shall be timeslots:
N mod maxTS
(N+1) mod maxTS
...
(N+k) mod maxTS
in that order, where N is the timeslot number in the First individual timeslot info and k the Number of additional timeslots.
The additional timeslots shall use the same parameters (e.g. channelisation codes, midamble shifts etc.) as the first timeslot.
>Timeslot list




>>Additional timeslot list
MP
1 to <maxTS-1>

The first instance of this parameter corresponds to the timeslot that shall be used second by the physical layer, the second to the timeslot that shall be used third and so on.
>>>CHOICE parameters
MP



>>>>Same as last




>>>>>Timeslot number
MP

Timeslot Number 10.3.6.84
The physical layer shall use the same parameters (e.g. channelisation codes, midamble shifts etc.) for this timeslot as for the last one. 
>>>>New parameters




>>>>>Individual timeslot info
MP

Individual timeslot info 10.3.6.37

>>>>>Channelisation codes
MP

Downlink channelisation codes 10.3.6.17


10.3.6.32a	Downlink Timeslots and Codes VHCR
NOTE:	Only for 7.68 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
First Individual timeslot info
MP

Individual timeslot info 10.3.6.37
Individual timeslot info for the first timeslot used by the physical layer.
REL-7
First timeslot channelisation codes VHCR
MP

Downlink channelisation codes VHCR 10.3.6.17a
These codes shall be used by the physical layer in the timeslot given in First Individual timeslot info.
REL-7
CHOICE more timeslots
MP



REL-7
>No more timeslots



(no data)
REL-7
>Consecutive timeslots




REL-7
>>Number of additional timeslots
MP

Integer(1..maxTS-1)
The timeslots used by the physical layer shall be timeslots:
N mod maxTS
(N+1) mod maxTS
...
(N+k) mod maxTS
in that order, where N is the timeslot number in the First individual timeslot info and k the Number of additional timeslots.
The additional timeslots shall use the same parameters (e.g. channelisation codes, midamble shifts etc.) as the first timeslot.
REL-7
>Timeslot list




REL-7
>>Additional timeslot list
MP
1 to <maxTS-1>

The first instance of this parameter corresponds to the timeslot that shall be used second by the physical layer, the second to the timeslot that shall be used third and so on.
REL-7
>>>CHOICE parameters
MP



REL-7
>>>>Same as last




REL-7
>>>>>Timeslot number
MP

Timeslot Number 10.3.6.84
The physical layer shall use the same parameters (e.g. channelisation codes, midamble shifts etc.) for this timeslot as for the last one. 
REL-7
>>>>New parameters




REL-7
>>>>>Individual timeslot info
MP

Individual timeslot info 10.3.6.37

REL-7
>>>>>Channelisation codes VHCR
MP

Downlink channelisation codes  VHCR 10.3.6.17a

REL-7

10.3.6.33	DPCH compressed mode info
NOTE:	Only for FDD.
This information element indicates the parameters of the compressed mode to be used by the UE in order to perform inter-frequency and inter-RAT measurements.

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Transmission gap pattern sequence
MP
1 to <maxTGPS>



>TGPSI
MP

TGPSI 10.3.6.82


>TGPS Status Flag
MP

Enumerated(activate, deactivate)
This flag indicates whether the Transmission Gap Pattern Sequence shall be activated or deactivated.

>TGCFN
CV-Active

Integer (0..255)
Connection Frame Number of the first frame of the first pattern within the Transmission Gap Pattern Sequence.

>Transmission gap pattern sequence configuration parameters
OP




>>TGMP
MP

Enumerated(TDD measurement, FDD measurement, GSM carrier RSSI measurement, GSM Initial BSIC identification, GSM BSIC re-confirmation, Multi-carrier measurement,
Transmission Gap pattern sequence Measurement Purpose.




E-UTRA measurement)
One spare value is needed
REL-8
>>Frequency specific compressed mode
CV-Active-FDD

Enumerated (TRUE)
TRUE means that the frequency specific compressed mode is configured.
REL-10
>>TGPRC
MP

Integer (1..511, Infinity)
The number of transmission gap patterns within the Transmission Gap Pattern Sequence.

>>TGSN
MP

Integer (0..14)
Transmission Gap Starting Slot Number
The slot number of the first transmission gap slot within the TGCFN.

>>TGL1
MP

Integer(1..14)
The length of the first Transmission Gap within the transmission gap pattern expressed in number of slots

>>TGL2
MD

Integer (1..14)
The length of the second Transmission Gap within the transmission gap pattern. If omitted, then TGL2=TGL1.
The value of TGL2 shall be ignored if TGD is set to "undefined"

>>TGD
MP

Integer(15..269, undefined)
Transmission gap distance indicates the number of slots between starting slots of two consecutive transmission gaps within a transmission gap pattern. If there is only one transmission gap in the transmission gap pattern, this parameter shall be set to undefined.


>>TGPL1
MP

Integer (1..144)
The duration of transmission gap pattern 1.

>>RPP
MP

Enumerated (mode 0, mode 1).
Recovery Period Power control mode during the frame after the transmission gap within the compressed frame. Indicates whether normal PC mode or compressed PC mode is applied

>>ITP
MP

Enumerated (mode 0, mode 1).
Initial Transmit Power is the uplink power control method to be used to compute the initial transmit power after the compressed mode gap.

>>CHOICE UL/DL mode
MP




>>>DL only



Compressed mode used in DL only

>>>>Downlink compressed mode method
MP

Enumerated (SF/2, higher layer scheduling)
Method for generating downlink compressed mode gap.
If F-DPCH is configured this IE shall not be used by the UE

>>>UL only



Compressed mode used in UL only

>>>>Uplink compressed mode method
MP

Enumerated (SF/2, higher layer scheduling)
Method for generating uplink compressed mode gap

>>>UL and DL 



Compressed mode used in UL and DL

>>>>Downlink compressed mode method
MP

Enumerated (SF/2, higher layer scheduling)
Method for generating downlink compressed mode gap.
If F-DPCH is configured this IE shall not be used by the UE


>>>>Uplink compressed mode method
MP

Enumerated (SF/2, higher layer scheduling)
Method for generating uplink compressed mode gap

>>Downlink frame type
MP

Enumerated (A, B)
If F-DPCH is configured this IE shall not be used by the UE

>>DeltaSIR1
MP

Real(0..3 by step of 0.1)
Delta in DL SIR target value to be set in the UE during the frame containing the start of the first transmission gap in the transmission gap pattern (without including the effect of the bit-rate increase).
If F-DPCH is configured this IE shall not be used by the UE

>>DeltaSIRafter1
MP

Real(0..3 by step of 0.1)
Delta in DL SIR target value to be set in the UE one frame after the frame containing the start of the first transmission gap in the transmission gap pattern.
If F-DPCH is configured this IE shall not be used by the UE

>>DeltaSIR2
OP

Real(0..3 by step of 0.1)
Delta in DL SIR target value to be set in the UE during the frame containing the start of the second transmission gap in the transmission gap pattern (without including the effect of the bit-rate increase)
When omitted, DeltaSIR2 = DeltaSIR1.
If F-DPCH is configured this IE shall not be used by the UE

>>DeltaSIRafter2
OP

Real(0..3 by step of 0.1)
Delta in DL SIR target value to be set in the UE one frame after the frame containing the start of the second transmission gap in the transmission gap pattern.
When omitted, DeltaSIRafter2 = DeltaSIRafter1.
If F-DPCH is configured this IE shall not be used by the UE

>>N Identify abort
CV-Initial BSIC

Integer(1..128)
Indicates the maximum number of repeats of patterns that the UE shall use to attempt to decode the unknown BSIC of the GSM cell in the initial BSIC identification procedure

>>T Reconfirm abort

CV-Re-confirm BSIC

Real(0.5..10.0 by step of 0.5)
Indicates the maximum time allowed for the re-confirmation of the BSIC of one GSM cell
in the BSIC re-confirmation procedure. The time is given in steps of 0.5 seconds.


Condition
Explanation
Active
This IE is mandatory present when the value of the IE "TGPS Status Flag" is "Activate" and not needed otherwise.
Active-FDD
This IE can be included only for FDD measurements. It is optional present when the value of the IE "TGPS Status Flag" is "Activate" and not needed otherwise.
Initial BSIC
This IE is mandatory present when the value of the IE "TGMP" is set to "GSM Initial BSIC identification" and not needed otherwise.
Re-confirm BSIC
This IE is mandatory present when the value of the IE "TGMP" is set to "GSM BSIC re-confirmation" and not needed otherwise.

10.3.6.34	DPCH Compressed Mode Status Info
This information element indicates status information of the compressed mode used by the UE in order to perform inter-frequency and inter-RAT measurements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
TGPS reconfiguration CFN
MP

Integer (0..255)

Transmission gap pattern sequence
MP
1 to <maxTGPS>


>TGPSI
MP

TGPSI 10.3.6.82
Transmission Gap Pattern Sequence Identifier

>TGPS Status Flag
MP

Enumerated(activate, deactivate)
This flag indicates whether the Transmission Gap Pattern Sequence it shall be activated or deactivated.
>TGCFN
CV-Active

Integer (0..255)
Connection Frame Number of the first frame of the first pattern within the Transmission Gap Pattern Sequence.
>Frequency specific compressed mode
CV-Active-OP

Enumerated (TRUE)
TRUE means that the frequency specific compressed mode is configured.

Condition
Explanation
Active
This IE is mandatory present when the value of the IE "TGPS Status Flag" is "Activate" and not needed otherwise.
Active-OP
This IE is optional present when the value of the IE "TGPS Status Flag" is "Activate" and not needed otherwise.

10.3.6.34a	DTX-DRX information
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
DTX Information
OP



REL-7
>CHOICE E-DCH TTI length
MP



REL-7
>>10 ms	




REL-7
>>>UE DTX cycle 1
MP

Enumerated (1, 5, 10, 20)
Units of subframes.
REL-7
>>>UE DTX cycle 2
MP

Enumerated (5, 10, 20, 40, 80, 160)
Units of subframes.
Two spare values are needed.
REL-7
>>>MAC DTX cycle
MP

Enumerated (5, 10, 20) 
Units of subframes.
One spare value is needed.
REL-7
>>2 ms




REL-7
>>>UE DTX cycle 1
MP

Enumerated (1, 4, 5, 8, 10, 16, 20)
Units of subframes.
One spare value is needed.
REL-7
>>>UE DTX cycle 2
MP

Enumerated (4, 5, 8, 10, 16, 20, 32, 40, 64, 80, 128, 160)
Units of subframes.
Four spare values are needed.
REL-7
>>>MAC DTX cycle
MP

Enumerated (1, 4, 5, 8, 10, 16, 20)
Units of subframes.
One spare value is needed.
REL-7
>Inactivity Threshold for UE DTX cycle 2
MP

Enumerated (1, 4, 8, 16, 32, 64, 128, 256)
Units of E-DCH TTIs.
Eight spare values are needed.
REL-7
>Default SG in DTX Cycle 2
OP

Integer (0..37,38)
Serving Grant value to be used at the transition in DTX-Cycle-2.
(0..37) indicates E-DCH serving grant index as defined in [15]; index 38 means zero grant.
REL-7
>UE DTX long preamble length
MD

Enumerated (4, 15)
Units of slots
Default value is 2 slots
REL-7
>MAC Inactivity Threshold
MP

Enumerated (1, 2, 4, 8, 16, 32, 64, 128, 256, 512, Infinity)
Units of E-DCH TTIs.
Five spare values are needed.
REL-7
>CQI DTX Timer
MP

Enumerated (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, Infinity)
Units of subframes.
Four spare values are needed.
REL-7
>UE DPCCH burst_1
MP

Enumerated (1, 2, 5)
Units of sub-frames.
One spare value is needed.
REL-7
>UE DPCCH burst_2
MP

Enumerated (1, 2, 5)
Units of sub-frames.
One spare value is needed.
REL-7
DTX Information for secondary uplink frequency
OP



REL-12
>CHOICE E-DCH TTI length
MP



REL-12
>>10 ms	


NULL

REL-12
>>2 ms




REL-12
>>>UE DTX cycle 1 secondary
MD

Enumerated (1, 4, 5, 8, 10, 16, 20)
Units of subframes.
Default value is the value included in the IE "UE DTX cycle 1".
One spare value is needed.
REL-12
>>>UE DTX cycle 2 secondary
MP

Enumerated (4, 5, 8, 10, 16, 20, 32, 40, 64, 80, 128, 160, 256, 320, 512, 640, 1024, 1280)
Units of subframes.
Fourteen spare values are needed.
REL-12
>Inactivity Threshold for UE DTX cycle 2 secondary
MD

Enumerated (1, 4, 8, 16, 32, 64, 128, 256)
Units of E-DCH TTIs.
Default value is the value included in the IE "Inactivity Threshold for UE DTX cycle 2".
Eight spare values are needed.
REL-12
>UE DTX long preamble length secondary
MD

Enumerated (4, 15)
Units of slots.
Default value is the value included in the IE "UE DTX long preamble length".
REL-12
>UE DPCCH burst 1 secondary
MD

Enumerated (1, 2, 5)
Units of sub-frames.
Default value is the value included in the IE "UE DPCCH burst_1".
One spare value is needed.
REL-12
>UE DPCCH burst 2 secondary
MD

Enumerated (1, 2, 5)
Units of sub-frames.
Default value is the value included in the IE "UE DPCCH burst_2".
One spare value is needed.
REL-12
DRX Information
OP



REL-7
>UE DRX cycle
MP

Enumerated (4, 5, 8, 10, 16, 20)
Units of subframes.
Two spare values are needed.
REL-7
>UE DRX cycle 2
OP

Enumerated (4, 5, 8, 10, 16, 20, 32, 40, 64, 80)
Units of subframes.
Six spare values are needed.
REL-12
>Inactivity Threshold for UE DRX cycle
MP

Enumerated (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512)
Units of subframes.
Five spare values are needed.
REL-7
>Inactivity Threshold for UE DRX cycle 2
OP

Enumerated (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512)
Units of subframes.
Five spare values are needed.
REL-12
>Inactivity Threshold for UE Grant Monitoring
MP

Enumerated (0, 1, 2, 4, 8, 16, 32, 64, 128, 256 )
Units of E-DCH TTIs.
Six spare values are needed.
REL-7
>UE DRX Grant Monitoring
MP

Boolean

REL-7
Uplink DPCCH slot format information
MP

Enumerated (1, 4)
Slot format # to be used on UL DPCCH [26].
One spare value is needed.
REL-7

10.3.6.34b	DTX-DRX timing information
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE timing
MP



REL-7
>Continue 


(no data)
Used in reconfigurations without interruption of DTX-DRX and HS-SCCH less.
REL-7
>New timing




REL-7
>>Enabling Delay
MP

Enumerated (0, 1, 2, 4, 8, 16, 32, 64, 128)
In radio frames.
Seven spare values are needed.
REL-7
>>UE DTX DRX Offset
MP

Integer (0.. 159)
Units of subframes. Offset of the DTX and DRX cycles at the given TTI.
REL-7
Note:	Only the values of the IE “UE DTX DRX Offset” that fulfill the equation UE DTX DRX Offset mod 5=0 can be configured with 10ms E-DCH TTI. The UE behaviour is not specified if any other values are used with 10ms TTI.

10.3.6.35	Dynamic persistence level
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Dynamic persistence level
MP

Integer(1..8)
Level shall be mapped to a dynamic persistence value in the range 0 .. 1. The mapping is described in subclause 8.5.12.

10.3.6.35a	FPACH info
NOTE:	Only for 1.28 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Timeslot number
MP

Integer(0..6)

REL-4
Channelisation code
MP

Enumerated((16/1)..(16/16)

REL-4
Midamble Shift and burst type
MP

Midamble shift and burst type 10.3.6.41

REL-4
WT
MP

Integer(1..4)
The number of sub-frames, following the sub-frame in which the SYNC UL is transmitted, in which the FPACH can be transmitted.
REL-4

10.3.6.35b	Frequency band indicator
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Frequency band indicator
MP

Enumerated(Band I, Band II, Band III, Band IV, Band V, Band VI, Band VII, extension indicator)

REL-6

10.3.6.35c	Frequency band indicator 2
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Frequency band indicator 2
MP

Enumerated(Band VIII, Band IX, Band X, Band XI, Band XII, Band XIII, Band XIV, Band XV, Band XVI, Band XVII, Band XVIII, Band XIX, Band XX, Band XXI, Band XXII, extension indicator)
Band XV – Band XVIII and Band XXII are yet to be defined in this version of the specification
REL-6

10.3.6.35ca 	Frequency band indicator 3
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Frequency band indicator 3
MP

Enumerated (Band XXV, Band XXVI, extension indicator)
Sixty One spare
values are needed.
REL-10

10.3.6.35d	Frequency band indicator for TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Frequency band indicator
MP

Enumerated(Band a, Band b, Band c, Band d, Band e, Band f, reserved, reserved)

REL-10

10.3.6.36	Frequency info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE mode
MP



>FDD




>>UARFCN uplink (Nu) 
OP

Integer(0..16383)
 If this IE is not present, the default duplex distance defined for the operating frequency band shall be used [21]
>>UARFCN downlink (Nd)
MP

Integer(0 .. 16383)
[21]
>TDD




>>UARFCN (Nt)
MP

Integer(0 .. 16383)
[22] 

10.3.6.36oo	HS-PDSCH Midamble Configuration
NOTE:	Only for TDD 1.28 Mcps.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Midamble Allocation Mode
MP

Enumerated(Default midamble, Common midamble, UE specific midamble)
This midamble allocation mode applies to all HS-PDSCH resources assigned to the UE. 
REL-5
Midamble Configuration
MP

Integer(2, 4, 6, 8, 10, 12, 14, 16)
This configuration applies to all HS-PDSCH resources assigned to the UE.
REL-5
Midamble Shift
CV-UE

Integer(0..15)
This shift, when present, applies to all HS-PDSCH  resources assigned to the UE.
REL-5

Condition
Explanation
UE
This IE is mandatory present when the value of the IE "Midamble Allocation Mode" is "UE specific midamble" and not needed otherwise.

10.3.6.36o	HS-PDSCH Timeslot Configuration
NOTE:	Only for TDD 3.84 Mcps.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-PDSCH Timeslot Configuration List
MP
1 to <maxTS-1>


REL-5
>Timeslot Number
MP

Integer (0..14)

REL-5
>CHOICE Burst Type
MP



REL-5
>>Type 1




REL-5
>>>Midamble Allocation Mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)

REL-5
>>>Midamble configuration burst type 1 and 3
MP

Integer (4, 8, 16)
As defined in [30]
REL-5
>>>Midamble Shift
CV-UE

Integer (0..15)

REL-5
>>Type 2 




REL-5
>>>Midamble Allocation Mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)

REL-5
>>>Midamble configuration burst type 2
MP

Integer (3, 6)
As defined in [30]
REL-5
>>>Midamble Shift
CV-UE

Integer (0..5)

REL-5

Condition
Explanation
UE
This IE is mandatory present when the value of the IE "Midamble Allocation Mode" is "UE specific midamble" and not needed otherwise.

10.3.6.36oa	HS-PDSCH Timeslot Configuration VHCR
NOTE:	Only for TDD 7.68 Mcps.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-PDSCH Timeslot Configuration List
MP
1 to <maxTS-1>


REL-7
>Timeslot Number
MP

Integer (0..14)

REL-7
>CHOICE Burst Type
MP



REL-7
>>Type 1




REL-7
>>>Midamble Allocation Mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)

REL-7
>>>Midamble configuration burst type 1 and 3
MP

Integer (4, 8, 16)
As defined in [30]
REL-7
>>>Midamble Shift
CV-UE

Integer (0..15)

REL-7
>>Type 2 




REL-7
>>>Midamble Allocation Mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)

REL-7
>>>Midamble configuration burst type 2
MP

Integer (4, 8)
As defined in [30]
REL-7
>>>Midamble Shift
CV-UE

Integer (0..7)

REL-7

Condition
Explanation
UE
This IE is mandatory present when the value of the IE "Midamble Allocation Mode" is "UE specific midamble" and not needed otherwise.

10.3.6.36a	HS-SCCH Info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP



REL-5
>FDD




REL-5
>>DL Scrambling Code
MD

Secondary scrambling code  10.3.6.74
DL Scrambling code to be applied for HS-DSCH and  HS-SCCH. Default is same scrambling code as for the primary CPICH.
REL-5
>>HS-SCCH Channelisation Code Information
MP
1 to <maxHSSCCHs >

Note 2
REL-5
>>>HS-SCCH Channelisation Code
MP

Integer
(0..127)

REL-5
>TDD




REL-5
>>CHOICE TDD option
MP



REL-5
>>>3.84 Mcps




REL-5
>>>> Ack-Nack Power Offset 
MP

Integer (-7..8 by step of 1) 
dB

Note 1
REL-5
>>>> HS-SICH Power Control Info

MP

HS-SICH Power Control Info 10.3.6.36b 

REL-5 
>>>> BLER target
MP

Real
(-3.15..0 by step of 0.05)
Signalled value is Log10(HS-SCCH BLER quality target).This IE is Not Present in REL-5.
REL-6
>>>> Dhs-sync
OP

Integer (-20..+10)
Value in dB set to indicate the dB difference between the maximum allowed HS-SCCH physical channel transmit power [33] and the beacon reference power (it is one means of controlling the area of HS-DSCH operation within the cell).
REL-6
>>>>HS-SCCH Set Configuration
MP
1 to <maxHSSCCHs>


REL-5
>>>>>Timeslot number
MP

Integer
(0..14)

REL-5
>>>>>Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-5
>>>>>Midamble Allocation mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)
HS-SCCH always uses burst type 1.
REL-5
>>>>>Midamble configuration
MP

Integer
(4, 8, 16)

REL-5
>>>>>Midamble Shift
CV-UE

Integer(0..15)

REL-5
>>>>>BLER target
MP

Real
(-3.15..0 by step of 0.05)
Signalled value is Log10(HS-SCCH BLER quality target).
This IE is not present in REL-6 and beyond.
REL-5
>>>>>HS-SICH configuration




REL-5
>>>>>>Timeslot number
MP

Integer
(0..14)

REL-5
>>>>>>Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-5
>>>>>>Midamble Allocation mode
MP

Enumerated
(Default midamble, UE specific midamble)
 HS-SICH always uses burst type 1.
REL-5
>>>>>>Midamble configuration
MP

Integer
(4, 8, 16)

REL-5
>>>>>>Midamble Shift
CV-UE

Integer
(0..15)

REL-5
>>>7.68 Mcps




REL-7
>>>>Ack-Nack Power Offset
MP

Integer (-7..8 by step of 1)
dB
REL-7
>>>>HS-SICH Power Control Info
MP

HS-SICH Power Control Info 10.3.6.36b

REL-7
>>>>BLER target
MP

Real
(-3.15..0 by step of 0.05)
Signalled value is Log10(HS-SCCH BLER quality target).
REL-7
>>>>Dhs-sync
OP

Integer (-20..+10)
Value in dB set to indicate the dB difference between the maximum allowed HS-SCCH physical channel transmit power [33] and the beacon reference power (it is one means of controlling the area of HS-DSCH operation within the cell).
REL-7
>>>>Dhs-sync
OP

Integer (-20..+10)
Value in dB set to indicate the dB difference between the maximum allowed HS-SCCH physical channel transmit power [33] and the beacon reference power (it is one means of controlling the area of HS-DSCH operation within the cell).
REL-7
>>>>HS-SCCH Set Configuration
MP
1 to <maxHS-SCCHs>


REL-7
>>>>>Timeslot number
MP

Integer
(0..14)

REL-7
>>>>>Channelisation code
MP

Enumerated
((32/1) ..(32/32))

REL-7
>>>>>Midamble Allocation mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)
HS-SCCH always uses burst type 1.
REL-7
>>>>>Midamble configuration
MP

Integer
(4, 8, 16)

REL-7
>>>>>Midamble Shift
CV-UE

Integer(0..15)

REL-7
>>>>>HS-SICH configuration




REL-5
>>>>>>Timeslot number
MP

Integer
(0..14)

REL-5
>>>>>>Channelisation code
MP

Enumerated
((32/1) ..(32/32))

REL-5
>>>>>>Midamble Allocation mode
MP

Enumerated
(Default midamble, UE specific midamble)
HS-SICH always uses burst type 1.
REL-5
>>>>>>Midamble configuration
MP

Integer
(4, 8, 16)

REL-5
>>>>>>Midamble Shift
CV-UE

Integer
(0..15)

REL-5
>>>1.28 Mcps




REL-5
>>>>Ack-Nack Power Offset
MP

Integer
(-7..8 by step of 1)
dB. 
This IE is Not Present in REL-5.

Note
REL-6
>>>>PRXHS-SICH
MP

Integer
(-120..-58 by step of 1)
dBm. Desired power level for HS-SICH. 
This IE is Not Present in REL-5
REL-6
>>>>TPC step size
MP

Enumerated (1, 2, 3)
dB. TPC step size for HS-SICH. One spare value.
This IE is Not Present in REL-5.
REL-6
>>>>BLER target
MP

Real
(-3.15..0 by step of 0.05)
Signalled value is Log10(HS-SCCH BLER quality target).
This IE is Not Present in REL-5.
REL-6
>>>>HS-SCCH TPC step size
CV- NoDPCH_EAGCH

Enumerated (1, 2, 3)
dB. 
One spare value.
REL-8
>>>>Power Control GAP
MD

Integer
(1…255)
Unit: Number of subframes
Default value is 1.
REL-7
>>>>Pathloss compensation switch
MD

Boolean
TRUE: UE shall perform the pathloss compensation for HS-SICH power control when HS-SICH transmission gap is less than “Power Control GAP”.
FALSE: UE shall not consider the pathloss compensation for HS-SICH power control.
Default value is FALSE.
REL-7
>>>HS-SCCH Set Configuration
MP
1 to <maxHSSCCHs>


REL-5
>>>>>Timeslot number
MP

Integer
(0..6)

REL-5
>>>>>First Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-5
>>>>>Second Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-5
>>>>>Midamble Allocation mode
MP

Enumerated
(Default midamble, Common midamble, UE specific midamble)

REL-5
>>>>> Midamble Shift  
CV-UE 

Integer (0..15) 

REL-5 
>>>>>Midamble configuration
MP

Integer
(2, 4, 6, 8, 10, 12, 14, 16)

REL-5
>>>>>BLER target
MP

Real
(-3.15..0 by step of 0.05)
Signalled value is Log10(HS-SCCH BLER quality target).
This IE is not present in REL-6 and beyond.
REL-5
>>>>>HS-SICH configuration




REL-5
>>>>>>Timeslot number
MP

Integer
(0..6)

REL-5
>>>>>>Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-5
>>>>>>Midamble Allocation mode
MP

Enumerated (Default midamble, UE specific midamble)

REL-5
>>>>>>Midamble configuration
MP

Integer
(2, 4, 6, 8, 10, 12, 14, 16)

REL-5
>>>>>>Midamble Shift
CV-UE

Integer
(0..15)

REL-5
>>>>>>Ack-Nack Power Offset
MP

Integer
(-7..8 by step of 1)
dB.
This IE is not present in REL-6 and beyond.

Note
REL-5
>>>>>>PRXHS-SICH
MP

Integer
(-120..-58 by step of 1)
dBm. Desired power level for HS-SICH. 
This IE is not present in REL-6 and beyond.
REL-5
>>>>>>TPC step size
MP

Enumerated (1, 2, 3)
dB. One spare value.
This IE is not present in REL-6 and beyond.
REL-5
Note 1:	Ack-Nack Power Offset is the difference in the desired RX power between HS-SICH transmissions conveying an acknowledgement and transmissions conveying a negative acknowledgement signalled to the UE in IE "HS-SCCH Info".
Note 2:	The list of HS-SCCH(s) is assumed to be indexed starting from one.

Condition
Explanation
UE
This IE is mandatory present when the value of the IE "Midamble Allocation Mode" is "UE specific midamble" and not needed otherwise.
NoDPCH_EAGCH
This IE is mandatory present when neither DPCH nor E-AGCH is configured and not needed otherwise.

10.3.6.36ab	HS-SCCH less information
NOTE:	For FDD only
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE HS-SCCH less operation
MP



REL-7
>Continue HS-SCCH less operation


(no data)

REL-7
>New HS-SCCH less operation




REL-7
>>HS-PDSCH Code Index
MP

Integer (1..15)
Index of first HS-PDSCH code
REL-7
>>Transport Block Size List

1..< maxHS-SCCHLessTrBlk >


REL-7
>>>Transport Block Size Index
MP

Integer (1..90)
Index of the MAC-hs or MAC-ehs transport block size as described in appendix A of [15]
REL-7
>>>HS-PDSCH Second Code Support
MP

Boolean
Indicates whether the second HS-PDSCH code is used for this TB size.
If TRUE, the HS-PDSCH second code index value is the value of IE “HS-PDSCH Code Index” incremented by 1.
REL-7

10.3.6.36b	HS-SICH Power Control Info
This IE is used to transfer HS-SICH power control info to the UE and only applies to TDD 3.84 Mcps and 7.68 Mcps.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UL target SIR
MP

Real
(-11..20 by step of 0.5 )
dB
REL-5
HS-SICH Constant value
MP

Constant value 10.3.6.11
NOTE 1
REL-5

NOTE 1:	Alignment to ASN.1: the IE "Constant value TDD" (10.3.6.11a) should have been used to provide the correct value range. The IE "Constant value" (10.3.6.11) is used to keep compatibility with REL-5.

10.3.6.36c	HS-DSCH common system information
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CCCH mapping info
MP

Common RB mapping info 10.3.4.oa

REL-7
SRB1 mapping info
MD

Common RB mapping info 10.3.4.oa
Note
REL-7
Common MAC-ehs reordering queue list
MP

Common MAC-ehs reordering queue list 10.3.5.3a

REL-7
HS-SCCH system info
MP

HS-SCCH system info 10.3.6.36e

REL-7
HARQ system Info
MP

HARQ Info 10.3.5.7a

REL-7
Common H-RNTI Information
MP
1 to <maxCommonHRNTI>


REL-7
>Common H-RNTI
MP

H-RNTI 10.3.3.14a

REL-7
BCCH specific H-RNTI
MP

H-RNTI 10.3.3.14a

REL-7

NOTE:	The default values for the "SRB1 mapping info" are 1 for the Logical channel identity and 0 for the MAC-ehs queue identity.
10.3.6.36ca	HS-DSCH common system information 1.28Mcps TDD
NOTE:	For 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CCCH mapping info
MP

Common RB mapping info 10.3.4.oa

REL-8
SRB1 mapping info
MD

Common RB mapping info 10.3.4.oa
Note 1
REL-8
Common MAC-ehs reordering queue list
MP

Common MAC-ehs reordering queue list 10.3.5.3a

REL-8
HS-SCCH system info
MP

HS-SCCH system info 1.28Mcps TDD 10.3.6.36ea
Note 2
REL-8
HARQ system Info
MP

HARQ Info 10.3.5.7a

REL-8
HS-PDSCH Midamble Configuration
MP

HS-PDSCH Midamble Configuration 10.3.6.36oo

REL-8
Common H-RNTI Information
MP
1 to <maxCommonHRNTI>


REL-8
>Common H-RNTI
MP

H-RNTI 10.3.3.14a

REL-8
BCCH specific H-RNTI
MP

H-RNTI 10.3.3.14a

REL-8

NOTE 1:	The default values for the "SRB1 mapping info" are 1 for the Logical channel identity and 0 for the MAC-ehs queue identity.
NOTE 2:	These IEs correspond to the HS-DSCH configuration for CELL_FACH, CELL_PCH state.

10.3.6.36d	HS-DSCH paging system information
These parameters enable the UE in CELL_PCH and URA_PCH to receive transmissions on HSDPA cell resources.
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
DL Scrambling Code
MD

Secondary scrambling code  10.3.6.74
DL Scrambling code to be applied for HS-DSCH and HS-SCCH. Default is same scrambling code as for the primary CPICH.
REL-7
PICH for HSDPA supported paging list
MP
1 to <maxSCCPCH>


REL-7
>HSDPA associated PICH info 
MP

PICH info 10.3.6.49

REL-7
>HS-PDSCH Channelisation Code
MP

Integer (0..15)
HS-PDSCH channel, associated with the PICH for HS-SCCH less PAGING TYPE 1 message transmission. 
REL-7
Number of PCCH transmissions
MP

Integer (1..5)
number of subframes used to transmit the PAGING TYPE 1.
REL-7
Transport Block Size List
MP
1 to 2


REL-7
>Transport Block Size Index
MP

Integer (1..32)
Index of value range 1 to 32 of the MAC-ehs transport block size as described in appendix A of [15]
REL-7

10.3.6.36da	HS-DSCH paging system information 1.28Mcps TDD
These parameters enable the UE in CELL_PCH and URA_PCH to receive PCCH, DCCH/DTCH transmissions on HSDPA cell resources.
NOTE:	Only for 1.28 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PICH for HS-DSCH list
MP
1 to <maxSCCPCH>


REL-8
>CHOICE Configuration Mode
MP



REL-8
>>Implicit



The choice Indicates the PICH is shared with PCH.
REL-8
>>>Occurrence sequence number in S-CCPCH systme Info
MD

Integer (1.. maxSCCPCH)
Indicates the occurrence sequecnce number of "PICH Info" in Secondary CCPCH System Information.
Default value implys the first occurrence or the only occurrence of "PICH Info" in Secondary CCPCH System Information.
REL-8
>>Explicit




REL-8
>>>HSDPA associated PICH info
MP

PICH info 10.3.6.49

REL-8
DTCH/DCCH Reception window size
MP

Integer (1..16)
Number of subframe for UE to detect the HS-SCCH
REL-8
PCCH related information
OP


See Note 1
REL-8
>Paging associated HS-PDSCH info
MP
1 to <maxSCCPCH>

See Note 3
REL-8
>>HS-PDSCH Midamble Configuration
MP

HS-PDSCH Midamble Configuration 10.3.6.36oo

REL-8
>>Timeslot Resource Related InformationI
MP

Bit string (6)
Each bit indicates availability of a timeslot, where the bit 0 corresponds to TS0, the bit 1 is TS2, the bit 2 is TS3… bit 6 corresponds to TS6. 
The value 1 of a bit indicates that the corresponding timeslot is available. 
Bit 0 is the first/leftmost bit of the bit string.
REL-8
>>Code Resource Information
MP


Note 2
REL-8
>>>Start code
MP

Enumerated((16/1)..(16/16))

REL-8
>>>Stop code
MP

Enumerated((16/1)..(16/16))

REL-8
>Paging Sub-Channel Size
MP

Integer (1..3)
number of frames for a Paging sub-channel
REL-8
>Transport Block Size List
MP
1 to 2


REL-8
>>Transport Block Size Index
MP

Integer (1..32)
Index of value range 1 to 32 of the MAC-ehs transport block size as described in Table 9.2.3.3.8 [15]
REL-8

NOTE 1:	The IE is not signalled when the "PICH info" is present in "Secondary CCPCH system information" in SIB5 and SIB6.
NOTE 2:	HS-PDSCH channelisation codes are allocated contiguously from a signalled start code to a signalled stop code, and the allocation includes both the start and stop code. If a value of Start code = 16 and Stop code = 1 is signalled, a spreading factor of SF=1 shall be used for the HS-PDSCH resources.
NOTE 3:	The timing between PICH and the paging associated HS-PDSCH is specified in [30]. UE should receives the HS-PDSCH based on the timing specification.

10.3.6.36e	HS-SCCH system info
These parameters enable the UE to receive transmission on HSDPA cell resources, when the UE is not in CELL_DCH.
NOTE:	for FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
DL Scrambling Code
MD

Secondary scrambling code  10.3.6.74
DL Scrambling code to be applied for HS-DSCH and HS-SCCH. Default is same scrambling code as for the primary CPICH.
REL-7
HS-SCCH Channelisation Code Information
MP
1 to <maxHSSCCHs>


REL-7
>HS-SCCH Channelisation Code
MP

Integer
(0..127)
(NOTE)

REL-7
NOTE:	UTRAN should use the first indexed HS-SCCH Channelisation code for the BCCH specific H-RNTI to indicate system information change information. Otherwise UE behaviour is unspecified.

10.3.6.36ea	HS-SCCH system info 1.28Mcps TDD
These parameters enable the UE to receive transmission on HSDPA cell resources on primary frequency or secondary frequency, when the UE is not in CELL_DCH.
NOTE:	for 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-SCCH Set Configuration
MP
1 to <maxHSSCCHs>


REL-8
>Timeslot number
MP

Integer
(0..6)

REL-8
>First Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-8
>Second Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-8
>Midamble Allocation mode
MP

Enumerated
(Default midamble, Common midamble, UE specific midamble)

REL-8
>Midamble Shift  
CV-UE 

Integer (0..15) 

REL-8
>Midamble configuration
MP

Integer
(2, 4, 6, 8, 10, 12, 14, 16)

REL-8
>HS-SICH configuration
MP



REL-8
>>Timeslot number
MP

Integer
(0..6)

REL-8
>>Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-8
>>Midamble Allocation mode
MP

Enumerated (Default midamble, UE specific midamble)

REL-8
>>Midamble Shift
CV-UE

Integer
(0..15)

REL-8
>>Midamble configuration
MP

Integer
(2, 4, 6, 8, 10, 12, 14, 16)

REL-8
PRXHS-SICH
MP

Integer
(-120..-58 by step of 1)
dBm. Desired power level for HS-SICH. 
REL-8
Ack-Nack Power Offset
MP

Integer
(-7..8 by step of 1)
dB. 
REL-8
TPC step size
MP

Enumerated (1, 2, 3)
dB. TPC step size for HS-SICH.
One spare value.
REL-8
BLER target
MP

Real
(-3.15..0 by step of 0.05)
Signalled value is Log10(HS-SCCH BLER quality target).
REL-8
Power Control GAP
MD

Integer
(1…255)
Unit: Number of subframes
Default value is 1.
REL-8
Pathloss compensation switch
MD

Boolean
TRUE: UE shall perform the pathloss compensation for HS-SICH power control when HS-SICH transmission gap is less than “Power Control GAP”.
FALSE: UE shall not consider the pathloss compensation for HS-SICH power control.
Default value is FALSE.
REL-8

Condition
Explanation
UE
This IE is mandatory present when the value of the IE "Midamble Allocation Mode" is "UE specific midamble" and not needed otherwise.

NOTE:	UTRAN should use the first indexed HS-SCCH Channelisation code for the BCCH specific H-RNTI to indicate system information change information on primary frequency or secondary frequency. Otherwise UE behaviour is unspecified.

10.3.6.36f	Void

10.3.6.36g	HS-DSCH DRX in CELL_FACH information
These parameters configure the UE in CELL_FACH state to discontinuously receive HS-DSCH.
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
T321
MP

Enumerated (100, 200,  400, 800)
Determines the time the UE waits until initiating DRX operation, in ms.
REL-8
HS-DSCH DRX cycleFACH
MP

Enumerated (4, 8, 16, 32)
Determines the length of the DRX Cycle during DRX operation, in frames
REL-8
HS-DSCH Rx burstFACH
MP

Enumerated (1, 2, 4, 8, 16)
Determines the period within the DRX Cycle that the UE continuously receives HS-DSCH, in frames.
Three spare values are needed
REL-8
DRX Interruption by HS-DSCH data
MP

Boolean
TRUE means that the DRX operation can be interrupted by HS-DSCH data.
FALSE means that the DRX operation cannot be interrupted by HS-DSCH data
REL-8

10.3.6.36h	HS-DSCH DRX in CELL_FACH information 1.28Mcps TDD
These parameters configure the UE in CELL_FACH state to discontinuously receive HS-DSCH.
NOTE:	Only for 1.28 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
T321
MP

Enumerated (100, 200,  400, 800)
Determines the time the UE waits until initiating DRX operation, in ms.
REL-8
DRX cycleFACH
MP

Enumerated (4, 8, 16, 32)
Determines the length of the DRX Cycle during DRX operation, in frames
REL-8
Rx burstFACH
MP

Enumerated (1, 2, 4, 8, 16)
Determines the period within the DRX Cycle that the UE continuously receives HS-DSCH, in frames.
Three spare values are needed
REL-8

10.3.6.37	Individual timeslot info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Timeslot number
MP

Timeslot number 10.3.6.84
Timeslot within a frame

TFCI existence
MP

Boolean
TRUE indicates that the TFCI exists. It shall be coded in the physical channel defined in [30] of this timeslot.

Midamble Shift and burst type
MP

Midamble shift and burst type 10.3.6.41
For 1.28 Mcps TDD, if the cell is operating in MBSFN mode, the UE shall ignore the contents of this IE.

CHOICE TDD option
MP



REL-4
>3.84 Mcps TDD



(no data)
REL-4
>7.68 Mcps TDD



(no data)
REL-7
>1.28 Mcps TDD




REL-4
>>Modulation
MP

Enumerated(QPSK, 8PSK)

REL-4
>>SS-TPC Symbols
MP

Enumerated(0, 1, 16/SF)
Denotes amount of SS and TPC bits send in this timeslot
REL-4
>>Additional TPC-SS Symbols
OP

Integer(1..15)
Specifies the number of additional codes in this timeslot that carry TPC and SS symbols as specified in [33]
REL-4

10.3.6.38	Individual Timeslot interference
Parameters used by the UE for uplink open loop power control in TDD.
Information element
Need
Multi
Type and reference
Semantics description
Timeslot number
MP

Timeslot number 10.3.6.84

UL Timeslot Interference
MP

UL Interference TDD
10.3.6.87a


10.3.6.39	Maximum allowed UL TX power
This information element indicates the maximum allowed uplink transmit power.
Information Element
Need
Multi
Type and reference
Semantics description
Maximum allowed UL TX power
MP

Integer(-50..33)
In dBm

10.3.6.39a	Multi-frequency Info (1.28 Mcps TDD only)
IE/Group Name
Presence
Multi
IE Type and Reference
Semantics Description
Version
Second Frequency Info
OP

Integer (0 .. 16383)
1.28 Mcps TDD only
REL-7
FPACH Frequency Info
OP

Integer (0 .. 16383)
1.28 Mcps TDD only
REL-7
UpPCH Position Info
OP

Integer (0 .. 127)
Only for 1.28 Mcps TDD, if UpPCH occupies UpPTS, the parameter is not needed. Or the parameter is caculated for the uplink access position of a cell
REL-7

10.3.6.40	Void

10.3.6.40a	Measurement Feedback Info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP



REL-5
>FDD




REL-5
>>Measurement Power Offset
MP

Real (-6 .. 13 by step of 0.5)
The measurement power offset, , in dB, as described in [29].
REL-5
>>CQI Feedback cycle, k
MP

Integer
(0, 2, 4, 8, 10, 20, 40, 80, 160,
In milliseconds.
REL-5



16, 32, 64)
In milliseconds. 
REL-7
>>HS-DPCCH reduction configuration
CV-Message



REL-12
>>>HS-DPCCH reduction type
OP

Enumerated (Type1, Type2)
The Type of HS-DPCCH reduction the UE shall apply.

Absense of this IE means that the UE shall apply both HS-DPCCH reduction Type1 and HS-DPCCH reduction Type2.
REL-12
>>>CQI Feedback cycle2, k
MP

Enumerated
(0, 8, 10, 16, 20, 32, 40, 64, 80, 160)
In milliseconds.
Six spare values are needed.
REL-12
>>>CQI cycle switch timer
MP

Enumerated (4, 8, 16, 32, 64, 128, 256, 512, Infinity)
Units of subframes.
Seven spare values are needed.
REL-12
>>CQI repetition factor
MP

Integer
(1..4)

REL-5
>>CQI repetition factor for Multiflow assisting cells
CV-Multiflow

Integer
(1..4)
If present, this IE indicates that all the assisting cells use the CQI repetition factor indicated by this IE.
REL-11
>>CQI
MP

Integer (0..8
Refer to quantization of the power offset in [28] 
REL-5



9..10)

REL-11
>TDD



(no data)
REL-5

Condition
Explanation
Message
This IE is not needed in the HANDOVER TO UTRAN COMMAND message. Otherwise it is optional.
Multiflow
The IE is optional when the Multiflow operation is configured, otherwise it is not needed.

10.3.6.41	Midamble shift and burst type
NOTE:	Only for TDD.
This information element indicates burst type and midamble allocation. Three different midamble allocation schemes exist:
-	Default midamble: the midamble shift is selected by layer 1 depending on the associated channelisation code (DL and UL)
-	Common midamble: the midamble shift is chosen by layer 1 depending on the number of channelisation codes (possible in DL only)
-	UE specific midamble: a UE specific midamble is explicitly assigned (DL and UL).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE TDD option
MP



REL-4
>3.84 Mcps TDD




REL-4
>>CHOICE Burst Type
MP




>>>Type 1





>>>>Midamble Allocation Mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)


>>>>Midamble configuration burst type 1 and 3
MP

Integer(4, 8, 16)
As defined in [30]

>>>>Midamble Shift
CV-UE

Integer(0..15)


>>>Type 2 





>>>>Midamble Allocation Mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)


>>>>Midamble configuration burst type 2
MP

Integer(3, 6)
As defined in [30]

>>>>Midamble Shift
CV-UE

Integer(0..5)


>>>Type 3





>>>>Midamble Allocation Mode
MP

Enumerated (Default midamble, UE specific midamble)


>>>>Midamble configuration burst type 1 and 3
MP

Integer(4, 8, 16)
As defined in [30]

>>>>Midamble Shift
CV-UE

Integer (0..15)
NOTE:	Burst Type 3 is only used in uplink.

>>> MBSFN Burst Type



(no data) DL only
REL-7
>7.68 Mcps TDD




REL-7
>>CHOICE Burst Type
MP



REL-7
>>>Type 1




REL-7
>>>>Midamble Allocation Mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)

REL-7
>>>>Midamble configuration burst type 1 and 3
MP

Integer(4, 8, 16)
As defined in [30]
REL-7
>>>>Midamble Shift
CV-UE

Integer(0..15)

REL-7
>>>Type 2 




REL-7
>>>>Midamble Allocation Mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)

REL-7
>>>>Midamble configuration burst type 2
MP

Integer(4, 8)
As defined in [30]
REL-7
>>>>Midamble Shift
CV-UE

Integer(0..7)

REL-7
>>>Type 3




REL-7
>>>>Midamble Allocation Mode
MP

Enumerated (Default midamble, UE specific midamble)

REL-7
>>>>Midamble configuration burst type 1 and 3
MP

Integer(4, 8, 16)
As defined in [30]
REL-7
>>>>Midamble Shift
CV-UE

Integer (0..15)
NOTE:	Burst Type 3 is only used in uplink.
REL-7
>>> MBSFN Burst Type



(no data) DL only
REL-7
>1.28 Mcps TDD




REL-4
>>Midamble Allocation Mode
MP

Enumerated (Default midamble, Common midamble, UE specific midamble)

REL-4
>>Midamble configuration
MP

Integer(2, 4, 6, 8, 10, 12, 14, 16)
As defined in [30]
REL-4
>>Midamble Shift
CV-UE

Integer (0..15)

REL-4

Condition
Explanation
UE
This IE is mandatory present when the value of the IE "Midamble Allocation Mode" is "UE-specific midamble" and not needed otherwise.

10.3.6.41a	MIMO parameters
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIMO operation
MP

Enumerated (start, continue)

REL-7
CHOICE mode
MP



REL-8
>FDD




REL-8
>>MIMO N_cqi_typeA/M_cqi ratio
OP

Enumerated(1/2, 2/3, 3/4, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10, 1/1)

REL-7
>>MIMO pilot configuration
OP

MIMO pilot configuration 10.3.6.41b

REL-7
>>Precoding weight set  restriction

OP

Enumerated (TRUE)
If present and MIMO operation is set to start, the UE starts using precoding weight set restriction.
REL-7
>TDD




REL-8
>>CHOICE TDD option
MP



REL-8
>>>1.28 Mcps TDD




REL-8
>>>>MIMO SF Mode for HS-PDSCH dual stream
MP

Enumerated (SF1, SF1/SF16)

REL-8
>>>>HS-SICH Reference Signal Info
OP
<1 to maxHSSCCHs >

The order of the list corresponds to the order of HS-SCCHs in HS-SCCH info
REL-8
>>>>> Reference Signal Midamble configuration
MP

Integer
(2, 4, 6, 8, 10, 12, 14, 16)
Midamble Allocation mode is UE specific midamble allocation 
REL-8
>>>>>Reference Signal Midamble Shift
MP

Integer
(0..15)
The allocated midamble shift.
REL-8
>>>>>Reference Signal Timeslot number
MP

Integer
(1..5)

REL-8
>>>3.84 Mcps TDD or 7.68 Mcps TDD



(no data)
REL-8

10.3.6.41b	MIMO pilot configuration
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Second CPICH pattern
MP



REL-7
>Antenna2 P-CPICH



(no data)
REL-7
>Antenna1 S-CPICH




REL-7
>>Channelisation code
MP

Integer (0..255)

REL-7
>> Power Offset for S-CPICH for MIMO
OP

Integer(-6
.. 0)

Power offset relative to the P-CPICH Tx power in dB

REL-7

10.3.6.41c	Non-scheduled transmission grant info (TDD only)
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE TDD Option




REL-7
>3.84/7.68 Mcps TDD




REL-7
>>Timeslot Resource Related InformationI
MP

Bit string (13)
Bitmap indicating which of the timeslots configured for E-DCH are allocated for non-scheduled transmissions
REL-7
>>Power Resource Related Information
MP

Integer (1..32)
Specifies the maximum allowed E-PUCH resource that the UE may use [15].
REL-7
>>Activation Time
MP

Activation time 10.3.3.1

REL-7
>>Repetition period and length
MD


Default is "Repetition period" = 1 (continuous)
REL-7
>>>Repetition period
MP

Integer (1, 2, 4, 8, 16, 32, 64)
Periodicity in terms of TTIs for which resource is allocated. 1= continuous dallocation, 2 indicates every other TTI, 4 = every 4th, 8 every 8th etc.
REL-7
>>>Repetition Length
MP

Integer (1..Repetition period-1)
TTI in which resource is assigned. If Repetition period = 1 then value is ignored
REL-7
>>Code Resource Information
MP

Enumerated ((1/1),(2/1),(2/2),(4/1)..(4/4),(8/1)..(8/8),(16/1)..(16/16))

REL-7
>1.28 Mcps TDD




REL-7
>>NE-UCCH
MD

Integer (1..8)
Number of E-UCCH and TPC instances within an E-DCH TTI. Default = 1.
REL-7
>>NE-HICH
CV-Scheduled E-PUCH

Integer(4..15)
Minimum number of slots between start last active slot of E-DCH TTI and start of ACK/NACK on E-HICH.
REL-7
>>Timeslot Resource Related InformationI
MP

Bit string (5)
Bitmap indicating which of the timeslots configured for E-DCH are allocated for non-scheduled transmissions
REL-7
>>Power Resource Related Information
MP

Integer (1..32) 
Indicates 0-31 PRRI index defined in [31], which specifies the maximum allowed E-PUCH resource that the UE may use [15].
REL-7
>>Activation Time
MP

Activation time 10.3.3.1
Specifies the E-PUCH Offset in Radio Frame level.
REL-7
>>Subframe number
MP

Integer (0..1)
Specifies the E-PUCH Offset in subframe level.
REL-7
>>Repetition period and length
MD


Default is "Repetition period" = 1 (continuous)
REL-7
>>>Repetition period
MP

Integer (1, 2, 4, 8, 16, 32, 64) 
Periodicity in terms of TTIs for which resource is allocated. 1= continuous allocation, 2 indicates every other TTI, 4 = every 4th, 8 every 8th etc.
REL-7
>>>Repetition Length
MP

Integer (1..Repetition period-1)
TTI in which resource is assigned. If Repetition period = 1 then value is ignored
REL-7
>>Code Resource Information
MP

Enumerated ((1/1), (2/1),(2/2),(4/1)..(4/4),(8/1)..(8/8),(16/1)..(16/16))

REL-7
>>E-HICH Information 
MP



REL-7
>>>Timeslot number
MP

Integer (0..6)

REL-7
>>>Channelisation code
MP

Enumerated ((16/1)..(16/16))

REL-7
>>>Midamble Allocation mode
MP

Enumerated (Default midamble, UE specific midamble)

REL-7
>>>Midamble configuration
MP

Integer (2, 4, 6, 8, 10, 12, 14, 16)

REL-7
>>>Midamble Shift
CV-UE specific

Integer (0..15)

REL-7
>>>Signature Sequence Group Index
MP

Integer (0..19)

REL-7
>>T-SI-NST
CV-E-RUCCH info

Enumerated (everyEDCHTTI, 20,40,60,80,160,200)
Values in ms.
If T-SI-NST expires then UE should include scheduling information in the next new non-scheduled MAC-e PDU or MAC-i PDU.  
REL-7

Condition
Explanation
Scheduled E-PUCH
If NE-HICH is given in scheduled E-PUCH information, this IE is not needed, otherwise it is mandatory
UE specific
If UE specific midamble allocation mode is configured, this IE is mandatory, otherwise it is not needed.
E-RUCCH info
This IE is optionally present if the IE "E-RUCCH Info" is not included, otherwise the IE is not needed.

10.3.6.42	PDSCH Capacity Allocation info
NOTE:	Only for TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
PDSCH allocation period info
MP

Allocation Period Info 10.3.6.4

CHOICE Configuration
MP



>Old configuration




>>TFCS ID
MD

Integer(1..8)
Default is 1.
>>PDSCH Identity
MP

Integer(1..hiPDSCHidentities)

>New configuration




>>PDSCH Info
MP

PDSCH Info 10.3.6.44

>>PDSCH Identity
OP

Integer(1..hiPDSCHidentities)

>>PDSCH power control info
OP

PDSCH power control info 10.3.6.45


10.3.6.43	Void

10.3.6.44	PDSCH info
NOTE:	Only for TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
TFCS ID
MD

Integer(1..8)
TFCS to be used. Default value is 1.

Common timeslot info
OP

Common timeslot info 10.3.6.10


PDSCH timeslots and codes for1.28 Mcps TDD or 3.84 Mcps TDD
OP

Downlink Timeslots and Codes 10.3.6.32
Default is to use the old timeslots and codes.

PDSCH timeslots and codes for 7.68 Mcps TDD
OP

Downlink Timeslots and Codes VHR 10.3.6.32a
Default is to use the old timeslots and codes.
REL-7

10.3.6.45	PDSCH Power Control info
NOTE:	Only for TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
TPC Step Size
OP

Integer
(1, 2, 3)
In dB
UL CCTrCH TPC List
OP
1..<maxCCTrCH>

UL CCTrCH identities for TPC commands associated with this DL CCTrCH.

This list is not used in 1.28 Mcps TDD. 
>UL TPC TFCS Identity
MP

Transport Format Combination Set Identity 10.3.5.21


10.3.6.46	PDSCH system information
NOTE:	Only for TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PDSCH information
MP
1 to <maxPDSCH>



>PDSCH Identity
MP

Integer(1..hiPDSCHidentities)


>PDSCH info
MP

PDSCH info 10.3.6.44


>SFN Time Info
CH-Block17

SFN Time Info 10.3.6.75


>DSCH TFS
OP

Transport format set 10.3.5.23


>DSCH Transport Channels
OP
1 to <maxTrCH>

If PDSCH is configured for 3.84Mcps TDD in Rel-5 or for 7.68 Mcps in Rel-7 this IE may be included.
REL-5
>> DSCH Transport channel identity
MP

Transport channel identity 10.3.5.18

REL-5
>>DSCH TFS
MP

Transport format set 10.3.5.23

REL-5
>DSCH TFCS
OP

Transport Format Combination Set 10.3.5.20



Condition
Explanation
Block17
This IE is not needed in System Information Block 17. Otherwise it is optional.

10.3.6.47	Void

10.3.6.48	Persistence scaling factors
This IE defines scaling factors associated with ASC 2 – ASC 7 to be applied to the dynamic persistence value.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Access Service Class
MP
1 to maxASCpersist

multiplicity corresponds to the number of PRACH partitions minus 2
>Persistence scaling factor
MP

Real(0.9..0.2, by step of 0.1)
Scaling factors in the range 0,…,1

10.3.6.49	PICH Info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>Channelisation code
MP

Integer(0..255)
SF is fixed and equal to 256

>>Number of PI per frame
MP

Integer (18, 36, 72, 144)


>>STTD indicator
MP

STTD Indicator 10.3.6.78


>TDD





>>Timeslot number
MD

Timeslot number 10.3.6.84
Default value is the timeslot used by the SCCPCH carrying the associated PCH.

>>Midamble shift and burst type
MP

Midamble shift and burst type 10.3.6.41


>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>>>Channelisation code
MD

Enumerated (
(16/1)...(16/16))
Default value is the channelisation code used by the SCCPCH carrying the associated PCH.

>>>7.68 Mcps TDD




REL-7
>>>>Channelisation code
MD

Enumerated (
(32/1)...(32/32))
Default value is the channelisation code used by the SCCPCH carrying the associated PCH.
REL-7
>>>1.28 Mcps TDD




REL-4
>>>>Codes list
MP
1..2

The IE shall always be set to 2 to align with [30]
REL-4
>>>>>Channelisation code
MP

Enumerated (
(16/1)...(16/16))

REL-4
>>Repetition period/length
MD

Enumerated((4/2),(8/2), (8/4),(16/2), (16/4), (32/2),(32/4),(64/2),(64/4))
Default value is "(64/2)".

>>Offset
MP

Integer (0...Repetition period -1)
SFN mod Repetitionperiod = Offset. 

>>Paging indicator length
MD

Integer (4, 8, 16)
Indicates the length of one paging indicator in Bits. Default value is 4.

>>NGAP
MD

Integer(2, 4, 8)
Number of frames between the last frame carrying PICH for this Paging Occasion and the first frame carrying paging messages for this Paging Occasion. Default value is 4.

>>NPCH
MD

Integer(1 .. 8)
Number of paging groups. Default value is 2.


10.3.6.50	PICH Power offset
This is the power transmitted on the PICH minus power of the Primary CPICH in FDD and Primary CCPCH Tx Power in TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
PICH Power offset
MP

Integer(-10 .. +5)
Offset in dB

10.3.6.50a	PLCCH Info
NOTE:	Only for 1.28 Mcps TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
PLCCH sequence number
M

Integer(1..14)

Timeslot number
M

Integer(0..6)

Channelisation Code
M

Enumerated((16/1)..(16/16))

TPC command target rate
M

Real(0.01..0.1 by steps of 0.01)
Transmit Power Control command target rate

10.3.6.51	PRACH Channelisation Code List
NOTE:	Only for 3.84 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE SF
MP




>SF16





>>Channelisation Code List
MP
1 to 8



>>>Channelisation code
MP

Enumerated
((16/1)...(16/16))
There is a 1:1 mapping between spreading code and midamble shift defined in [30] for channelisation codes (16/1) to (16/8).

NOTE: channelisation codes (16/9) to (16/16) are not to be used.

>SF8





>>Channelisation Code List
MP
1 to 8



>>>Channelisation Code
MP

Enumerated((8/1)..(8/8))



10.3.6.51a	PRACH Channelisation Code 1.28 Mcps TDD
NOTE:	Only for 1.28 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Channelisation Code List
MP
1 to 4


REL-4
>Channelisation Code
MP

Enumerated( (4/1)..(4/4),(8/1)..(8/8),(16/1)..(16/16))

REL-4

10.3.6.51b	PRACH Channelisation Code List VHCR
NOTE:	Only for 7.68 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE SF
MP



REL-7
>SF32




REL-7
>>Channelisation Code List
MP
1 to 16


REL-7
>>>Channelisation code
MP

Enumerated
((32/1)...(32/32))
There is a 1:1 mapping between spreading code and midamble shift defined in [30] for channelisation codes (32/1) to (32/16).

NOTE: channelisation codes (32/17) to (32/32) are not to be used.
REL-7
>SF16




REL-7
>>Channelisation Code List
MP
1 to 16


REL-7
>>>Channelisation code
MP

Enumerated
((16/1)...(16/16))
There is a 1:1 mapping between spreading code and midamble shift defined in [30] for channelisation codes (16/1) to (16/16).

REL-7

10.3.6.52	PRACH info (for RACH)
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>Available Signature
MP

Bit string(16)
Each bit indicates availability for a signature, where the signatures are numbered "signature 0" up to "signature 15". The value 1 of a bit indicates that the corresponding signature is available and the value 0 that it is not available.

>>Available SF
MP

Integer (32,64,128,256)
In chips per symbol
Defines the minimum allowed SF (i.e. the maximum rate)

>>Preamble scrambling code number 
MP

Integer (0 .. 15)
Identification of scrambling code see [28]

>>Puncturing Limit
MP

Real(0.40..1.00 by step of 0.04)


>>Available Sub Channel Number
MP

Bit string(12)
Each bit indicates availability for a subchannel, where the subchannels are numbered "subchannel 0" to "subchannel 11". The value 1 of a bit indicates that the corresponding subchannel is available and the value 0 indicates that it is not available.

>TDD





>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>>>Timeslot number
MP

Timeslot number 10.3.6.84


>>>>PRACH Channelisation Code List
MP

PRACH Channelisation Code List 10.3.6.51


>>>>PRACH Midamble
MP

Enumerated (Direct, Direct/Inverted)
Direct or direct and inverted midamble are used for PRACH

>>>>PNBSCH allocation
OP

PNBSCH allocation 10.3.8.10a
Identifies frames used for cell synchronisation purposes
REL-4
>>>7.68 Mcps TDD




REL-7
>>>>Timeslot number
MP

Timeslot number 10.3.6.84

REL-7
>>>>PRACH Channelisation Code List VHCR
MP

PRACH Channelisation Code List VHCR 10.3.6.51b

REL-7
>>>>PRACH Midamble
MP

Enumerated (Direct, Direct/Inverted)
Direct or direct and inverted midamble are used for PRACH
REL-7
>>>>PNBSCH allocation
OP

PNBSCH allocation 10.3.8.10a
Identifies frames used for cell synchronisation purposes
REL-7
>>>1.28 Mcps TDD




REL-4
>>>>SYNC_UL info
MP

SYNC_UL info 10.3.6.78a

REL-4
>>>>PRACH Definition
MP
1..<maxPRACH_FPACH>


REL-4
>>>>>Timeslot number
MP

Timeslot number 10.3.6.84

REL-4
>>>>>PRACH Channelisation Code
MP

PRACH Channelisation Code 1.28 Mcps TDD 10.3.6.51a

REL-4
>>>>>Midamble Shift and burst type
MP

Midamble shift and burst type 10.3.6.41

REL-4
>>>>>FPACH info
MP

FPACH info 10.3.6.35a

REL-4

10.3.6.53	PRACH partitioning
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Access Service class
MP
1 to maxASC

If only "NumASC+1" (with, NumASC+1 < maxASC) ASCs are listed, the remaining (NumASC+2 through maxASC) ASCs are unspecified.
>ASC Setting
MD

ASC setting 10.3.6.6
The default values are same as the previous ASC.
If the "default" is used for the first ASC, the default values are all available signatures
and "all available sub-channels" for FDD and "all available channelisation codes" and "all available subchannels" with "subchannel size=Size 1" in TDD.

10.3.6.54	PRACH power offset
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Power Ramp Step
MP

Integer (1..8)
Power step when no acquisition indicator is received in dB
Preamble Retrans Max
MP

Integer (1..64)
Maximum number of preambles in one preamble ramping cycle

10.3.6.54a		PRACH preamble control parameters (for Enhanced Uplink)
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Available Signature
MD

Bit string(16)
The default value is the inverse of the bitstring indicated in the IE "Available Signature" in the IE "PRACH Info (for RACH)" in the first occurrence in list "PRACH system information list" in SIB5 or SIB5bis.
Each bit indicates availability for a signature. 
Each available signature on the AICH is associated with one Common E-DCH Resource Configuration in the “Common E-DCH resource configuration information list”.
REL-8
E-AI Indication
MP

BOOLEAN
TRUE: E-AIs are in use on the AICH. FALSE: E-AIs are not in use on the AICH.
REL-8
Preamble scrambling code number 
MD

Integer (0 .. 15)
The default value is the value indicated in the IE "Preamble scrambling code number" in the IE "PRACH Info (for RACH)" in the first occurrence in list "PRACH system information list" in SIB5 or SIB5bis.
Identification of scrambling code, see [28]
REL-8
Available Sub Channel Number
MD

Bit string(12)
The default value is the same value indicated in the IE "Available Sub Channel Number" in the IE "PRACH system information list" in the first occurrence in list "PRACH system information list" in SIB5 or SIB5bis.
Each bit indicates availability for a subchannel, where the subchannels are numbered "subchannel 0" to "subchannel 11". The value 1 of a bit indicates that the corresponding subchannel is available and the value 0 indicates that it is not available.
REL-8
PRACH partitioning
MD

PRACH partitioning 10.3.6.53
Default value is the value of "PRACH partitioning" in the first occurrence in list “PRACH system information list” in SIB5 or SIB5bis.
REL-8
Persistence scaling factors
OP

Persistence scaling factors 10.3.6.48
This IE shall not be present if only ASC 0 and ASC 1 are defined. If this IE is absent, default value is the value of "Persistence scaling factors" in the first occurrence in list “PRACH system information list” in SIB5 or SIB5bis, if value exists
REL-8
AC-to-ASC mapping
MD

AC-to-ASC mapping 10.3.6.1
Default value is the value of "AC-to-ASC mapping" in the first occurrence in list “PRACH system information list” in SIB5 or SIB5bis.
REL-8
Primary CPICH TX power
MD

Primary CPICH TX power 10.3.6.61
Default value is the value of "Primary CPICH TX power" in the first occurrence in list “PRACH system information list” in SIB5 or SIB5bis.
REL-8
Constant value
MD

Constant value 10.3.6.11
Default value is the value of "Constant value" in the first occurrence in list “PRACH system information list” in SIB5 or SIB5bis
REL-8
PRACH power offset
MD

PRACH power offset 10.3.6.54
Default value is the value of "PRACH power offset" in the first occurrence in list “PRACH system information list” in SIB5 or SIB5bis
REL-8
PRACH transmission parameters
MD

RACH transmission parameters 10.3.6.67
Default value is the value of "RACH transmission parameters" in the first occurrence in list “PRACH system information list” in SIB5 or SIB5bis.
REL-8
AICH info
MD

AICH info 10.3.6.2
Default value is the value of "AICH info" in the first occurrence in list “PRACH system information list” in SIB5 or SIB5bis.
REL-8
Power offset Pp-e
MP

Integer(-5..10)
In dB. Power offset between the last transmitted preamble and the initial DPCCH transmission as defined in [26]
REL-8

10.3.6.55	PRACH system information list
Information element
Need
Multi
Type and reference
Semantics description
Version
PRACH system information
MP
1 .. <maxPRACH>



>PRACH info
MP

PRACH info (for RACH) 10.3.6.52


>Transport channel identity
MP

Transport channel identity 10.3.5.18


>RACH TFS
MD

Transport format set 10.3.5.23
Default value is the value of "RACH TFS" for the previous PRACH in the list
NOTE: The first occurrence is then MP).
NOTE: For TDD in this release there is a single TF within the RACH TFS.

>Additional RACH TFS for CCCH
OP

Additional Dynamic Transport Format Information for CCCH 10.3.5.2a
FDD only
REL-6
>RACH TFCS
MD

Transport Format Combination Set 10.3.5.20
Default value is the value of "RACH TFCS" for the previous PRACH in the list.
NOTE: The first occurrence is then MP).
NOTE: For TDD in this release there is no TFCS required.

>Additional RACH TFCS for CCCH
CV-Add-RACH-TFS

Additional RACH TFCS for CCCH 10.3.5.2b

REL-6
>PRACH partitioning
MD

PRACH partitioning 10.3.6.53
Default value is the value of "PRACH partitioning" for the previous PRACH in the list (note : the first occurrence is then MP)

>Persistence scaling factors
OP

Persistence scaling factors 10.3.6.48
This IE shall not be present if only ASC 0 and ASC 1 are defined. If this IE is absent, value is the value of "Persistence scaling factors" for the previous PRACH in the list if value exists

>AC-to-ASC mapping
CV-SIB5-MD

AC-to-ASC mapping 10.3.6.1
Only present in SIB 5 and in SIB 5bis.
Default value is the value of "AC-to-ASC mapping" for the previous PRACH in the list.
NOTE: The first occurrence is then MP in SIB5 and in SIB5bis.

>CHOICE mode
MP




>>FDD





>>>Primary CPICH TX power
MD

Primary CPICH TX power 10.3.6.61
Default value is the value of "Primary CPICH TX power" for the previous PRACH in the list.
NOTE: The first occurrence is then MP.

>>>Constant value
MD

Constant value 10.3.6.11
Default value is the value of "Constant value" for the previous PRACH in the list.
NOTE: The first occurrence is then MP.

>>>PRACH power offset 
MD

PRACH power offset 10.3.6.54
Default value is the value of "PRACH power offset" for the previous PRACH in the list.
NOTE: The first occurrence is then MP.

>>>RACH transmission parameters
MD

RACH transmission parameters 10.3.6.67
Default value is the value of "RACH transmission parameters" for the previous PRACH in the list.
NOTE: The first occurrence is then MP.

>>>AICH info
MD

AICH info 10.3.6.2
Default value is the value of "AICH info" for the previous PRACH in the list.
NOTE: The first occurrence is then MP.

>>TDD



(no data)


Condition
Explanation
SIB5-MD
The information element is present only in SIB 5 and in SIB5bis. In SIB 5 and in SIB 5bis it is mandatory with default.
Add-RACH-TFS
The information element is MP if the IE "Additional RACH TFS for CCCH" is included. Otherwise the information element is not needed.

NOTE:	If the setting of the PRACH information results in that a combination of a signature, preamble scrambling code and subchannel corresponds to a RACH with different TFS and/or TFCS, then for that combination only the TFS/TFCS of the PRACH listed first is valid, where PRACHs listed in System Information Block type 5 or 5bis shall be counted first.
10.3.6.56	Predefined PhyCH configuration
This information element concerns a pre- defined configuration of physical channel parameters.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Uplink radio resources




Uplink DPCH info 
MP

Uplink DPCH info Pre 10.3.6.90

Downlink radio resources




Downlink information common for all radio links
OP

Downlink information common for all radio links Pre
10.3.6.26


10.3.6.57	Primary CCPCH info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>TX Diversity indicator
MP

Boolean
TRUE indicates that transmit diversity is used.

>TDD





>>CHOICE TDD option
MP



REL-4
>>>3.84 and 7.68 Mcps TDD




REL-4
>>>>CHOICE SyncCase
OP




>>>>>Sync Case 1





>>>>>>Timeslot
MP

Integer (0...14)
PCCPCH timeslot


>>>>>Sync Case 2





>>>>>>Timeslot
MP

Integer(0..6)


>>>1.28 Mcps TDD




REL-4
>>>>TSTD indicator
MP

TSTD indicator
10.3.6.85a

REL-4
>>Cell parameters ID
OP

Cell parameters Id 10.3.6.9
The Cell parameters ID is described in [32].

>>SCTD indicator
MP

SCTD indicator 10.3.6.70a



10.3.6.58	Primary CCPCH info post
NOTE:	Only for TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE TDD option
MP



REL-4
>3.84 Mcps TDD




REL-4
>>CHOICE SyncCase
MP




>>>Sync Case 1





>>>>Timeslot
MP

Integer (0...14)
PCCPCH timeslot


>>>Sync Case 2





>>>>Timeslot
MP

Integer(0..6)


>7.68 Mcps TDD




REL-7
>>CHOICE SyncCase
MP



REL-7
>>>Sync Case 1




REL-7
>>>>Timeslot
MP

Integer (0…14)
PCCPCH timeslot
REL-7
>>>Sync Case 2




REL-7
>>>>Timeslot
MP

Integer(0..6)

REL-7
>1.28 Mcps TDD




REL-4
>>TSTD indicator
MP

TSTD indicator 10.3.6.85a

REL-4
Cell parameters ID
MP

Cell parameters Id 10.3.6.9
The Cell parameters ID is described in [32].

SCTD indicator
MP

SCTD indicator 10.3.6.70a



10.3.6.59	Primary CCPCH TX Power
NOTE:	Only for TDD.
Information Element/group name
Need
Multi
Type and reference
Semantics description
Primary CCPCH Tx Power
MP

Integer(6..43)
In dBm

10.3.6.60	Primary CPICH info
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Primary scrambling code
MP

Integer(0..511)


10.3.6.61	Primary CPICH Tx power
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Primary CPICH Tx Power
MP

Integer(-10..50)
Power in dBm.

10.3.6.62	Primary CPICH usage for channel estimation
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Primary CPICH usage for channel estimation
MP

Enumerated(Primary CPICH may be used, Primary CPICH shall not be used)


10.3.6.63	PUSCH info
NOTE:	Only for 1.28 Mcps and 3.84 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
TFCS ID
MD

Integer(1..8)
Default value is 1
Common timeslot info
OP

Common timeslot info 10.3.6.10

PUSCH timeslots and codes
OP

Uplink Timeslots and Codes 10.3.6.94


10.3.6.63a	PUSCH info VHCR
NOTE:	Only 7.68 Mcps TDD (REL-7).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
TFCS ID
MD

Integer(1..8)
Default value is 1
REL-7
Common timeslot info
OP

Common timeslot info 10.3.6.10

REL-7
PUSCH timeslots and codes VHCR
OP

Uplink Timeslots and Codes VHCR 10.3.6.94b

REL-7

10.3.6.64	PUSCH Capacity Allocation info
NOTE:	Only for TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE PUSCH allocation
MP




>PUSCH allocation pending



(no data)

>PUSCH allocation assignment





>>PUSCH allocation period info
MP

Allocation Period Info 10.3.6.4


>>PUSCH power control info
OP

PUSCH power control info
10.3.6.65


>>CHOICE Configuration
MP




>>>Old configuration





>>>>TFCS ID
MD

Integer(1..8)
Default is 1.

>>>>PUSCH Identity
MP

Integer(1..hiPUSCHidentities)


>>>New 1.28 Mcps TDD or 3.84 Mcps TDD configuration





>>>>PUSCH info
MP

PUSCH info
10.3.6.63


>>>>PUSCH Identity
OP

Integer(1.. hiPUSCHidentities)


>>>New 7.68 Mcps TDD configuration




REL-7
>>>>PUSCH info VHCR
MP

PUSCH info VHCR
10.3.6.63a

REL-7
>>>>PUSCH Identity
OP

Integer(1.. hiPUSCHidentities)

REL-7

10.3.6.65	PUSCH power control info
NOTE:	Only for TDD.
Interference level measured for a frequency at the UTRAN access point used by UE to set PUSCH output power.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UL target SIR
MP

Real (-11 .. 20 by step of 0.5 dB)






For 1.28 Mcps TDD this parameter represents PRXPUSCHdes with range Integer(-120…-58 by step of 1) dBm
REL-4
CHOICE TDD option
MP



REL-4
>3.84 Mcps TDD



(no data)
REL-4
>7.68 Mcps TDD



(no data)
REL-7
>1.28 Mcps TDD




REL-4
>>TPC Step Size
OP

Integer
(1, 2, 3)
In dB
REL-4
>>Beacon PL Est.
OP

Enumerated (TRUE)
The presence of this IE indicates that the UE may take into account path loss estimated from beacon function physical channels. The absence indicates that UE may not take into account path loss estimated from beacon function physical channels
REL-6

10.3.6.66	PUSCH system information
NOTE:	Only for 1.28 Mcps or 3.84 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PUSCH information
MP
1 to <maxPUSCH>



>PUSCH Identity
MP

Integer(1..hiPUSCHidentities)


>PUSCH info
MP

PUSCH info 10.3.6.63


>SFN Time Info
CH-Block17

SFN Time Info 10.3.6.75


>USCH TFS
OP

Transport format set 10.3.5.23


>USCH Transport Channels
OP
1 to <maxTrCH>

If PUSCH is configured for 3.84 Mcps TDD in Rel-5 this IE may be included.
REL-5
>> USCH Transport channel identity
MP

Transport channel identity 10.3.5.18

REL-5
>>USCH TFS
MP

Transport format set 10.3.5.23

REL-5
>USCH TFCS
OP

Transport Format Combination Set 10.3.5.20



Condition
Explanation
Block17
This IE is not needed in System Information Block 17. Otherwise it is optional.

10.3.6.66a	PUSCH system information VHCR
NOTE:	Only for 7.68 Mcps TDD (REL-7).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PUSCH information
MP
1 to <maxPUSCH>


REL-7
>PUSCH Identity
MP

Integer(1..hiPUSCHidentities)

REL-7
>PUSCH info VHCR
MP

PUSCH info VHCR 10.3.6.63a

REL-7
>SFN Time Info
CH-Block17

SFN Time Info 10.3.6.75

REL-7
>USCH TFS
OP

Transport format set 10.3.5.23

REL-7
>USCH Transport Channels
OP
1 to <maxTrCH>

If PUSCH is configured for 7.68 Mcps TDD in Rel-7 this IE may be included.
REL-7
>> USCH Transport channel identity
MP

Transport channel identity 10.3.5.18

REL-7
>>USCH TFS
MP

Transport format set 10.3.5.23

REL-7
>USCH TFCS
OP

Transport Format Combination Set 10.3.5.20

REL-7

Condition
Explanation
Block17
This IE is not needed in System Information Block 17. Otherwise it is optional.

10.3.6.67	RACH transmission parameters
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Mmax
MP

Integer(1..32)
Maximum number of preamble cycles
NB01min
MP

Integer(0..50)
Sets lower bound for random back-off
NB01max
MP

Integer(0..50)
Sets upper bound for random back-off

10.3.6.68	Radio link addition information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Primary CPICH info
MP

Primary CPICH info 10.3.6.60


Cell ID
OP

Cell ID 10.3.2.2

REL-4
CHOICE DPCH info
MP



REL-6
>Downlink DPCH info for each RL


Downlink DPCH info for each RL 10.3.6.21


>Downlink F-DPCH info for each RL


Downlink F-F-DPCH info for each RL 10.3.6.23ob

REL-6
>Radio Links without DPCH/F-DPCH info


Radio Links without DPCH/F-DPCH info 10.3.6.147

REL-12
E-HICH Information
OP

E-HICH Info 10.3.6.101

REL-6
E-RGCH Information
OP

E-RGCH Info
10.3.6.102

REL-6
F-TPICH info
OP

F-TPICH Info
10.3.6.127

REL-11
Target cell preconfiguration information
OP

Target cell preconfiguration information 10.3.6.79a

REL-8

10.3.6.69	Radio link removal information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Primary CPICH info
MP

Primary CPICH info 10.3.6.60


10.3.6.69a	E-DCH reconfiguration information
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-DCH RL Info new serving cell
OP



REL-6
>Primary CPICH info
MP

Primary CPICH info 10.3.6.60
Indicates scheduling E-DCH cell from the active set cells.
REL-6
>E-AGCH Info
MP

E-AGCH Info 10.3.6.100

REL-6
>E-ROCH Info
OP

E-ROCH Info FDD 10.3.6.146

REL-11
>Serving Grant
OP



REL-6
>>Serving Grant value
OP

Integer (0..37,38)
(0..37) indicates E-DCH serving grant index as defined in [15]; index 38 means zero grant.
REL-6
>>Primary/Secondary Grant Selector
MP

Enumerated (primary, secondary)
Indicates whether the Serving Grant is received with a Primary E-RNTI or Secondary E-RNTI.
REL-6
>E-DPCCH/DPCCH power offset
OP

Integer (0..8)
Refer to quantization of the power offset in [28].
REL-6
>Reference E-TFCIs
OP
1 to 8

See [29].
REL-6
>>Reference E-TFCI
MP

Integer (0..127)

REL-6
>>Reference E-TFCI PO
MP

Integer (0..29,
Refer to quantization of the power offset in [28].
REL-6



30, 31)
Values 30 and 31 are only used for E-TFCI > ETFCI Boost
REL-7
>Power Offset for Scheduling Info 
OP

Integer (0..6)
Only used when no MACd PDU’s are included in the same MAC-e or MAC-i PDU. Unit is in dB.
REL-6
>3-Index-Step Threshold
OP

Integer (0..37)
Refers to an index in the “SG-Table” (see [15]).
NOTE 1
REL-6
>2-Index-Step Threshold
OP

Integer (0..37)
Refers to an index in the “SG-Table” (see [15]).
NOTE 1
REL-6
>E-HICH Information
OP

E-HICH Info 10.3.6.101
This IE is not present if the serving E-DCH cell is added to the active set with this message.
REL-6
>CHOICE E-RGCH Information
OP


This IE is not present if the serving E-DCH cell is added to the active set with this message
REL-6
>>E-RGCH Information
MP

E-RGCH Info
10.3.6.102

REL-6
>>E-RGCH release indicator



(no data)
REL-6
E-DCH RL Info other cells
OP
1 to <maxEDCHRL>

This IE is not allowed to include information on a RL added by this message, except in the case of an update to target cell preconfiguration information.
REL-6
>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-6
>CHOICE E-HICH Information
OP



REL-6
>>E-HICH Information
MP

E-HICH Info 10.3.6.101

REL-6
>>E-HICH release indicator



(no data)
REL-6
>>Secondary TB E-HICH release indicator



(no data)
REL-11
>CHOICE E-RGCH Information
OP



REL-6
>>E-RGCH Information
MP

E-RGCH Info
10.3.6.102

REL-6
>>E-RGCH release indicator



(no data)
REL-6
NOTE 1:	If the 3-index-Step Threshold value is greater than 2-index-Step Threshold, the UE behaviour is unspecified.

10.3.6.69b	E-DCH reconfiguration information same serving cell
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-DPCCH/DPCCH power offset
OP

Integer (0..8)
This IE is not present if the serving E-DCH cell is changed with this message.
Refer to quantization of the power offset in [28].
REL-7
Reference E-TFCIs
OP
1 to 8

This IE is not present if the serving E-DCH cell is changed with this message.
See [29].
REL-7
>Reference E-TFCI
MP

Integer (0..127)

REL-7
>Reference E-TFCI PO
MP

Integer (0..29,
Refer to quantization of the power offset in [28].
REL-7



30, 31)
Values 30 and 31 are only used for E-TFCI > ETFCI Boost
REL-7

10.3.6.70	Void

10.3.6.70a	SCTD indicator
NOTE:	Only for TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SCTD indicator
MP

Boolean
TRUE indicates that SCTD is used

10.3.6.71	Secondary CCPCH info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>Secondary scrambling code
OP

Secondary scrambling code 10.3.6.74
May only be sent for SCCPCH channels not carrying the PCH.

>>STTD indicator
MP

STTD Indicator 10.3.6.78


>>Spreading factor
MP

Integer(4, 8, 16, 32, 64, 128, 256)


>>Code number
MP

Integer(0..Spreading factor - 1)


>>Pilot symbol existence
MP

Boolean
TRUE means the existence. 

>>TFCI existence
MP

Boolean
TRUE indicates that TFCI is used. When spreading factor is less than or equal to 64, FALSE indicates that TFCI is not used and therefore DTX is used in the TFCI field.

>>Fixed or Flexible Position
MP

Enumerated (Fixed, Flexible)


>>Timing Offset
MD

Integer(0..38144 by step of 256)
Chip
Delay of the Secondary CCPCH relative to the Primary CCPCH.
Default value is 0.

>1.28 Mcps TDD or 3.84 Mcps TDD





>>Offset
MP

Integer (0...Repetition Period -1)
SFN modulo Repetition period = offset. Repetition period is the one indicated in the accompanying Common timeslot info IE

>>Common timeslot info
MP

Common timeslot info 10.3.6.10


>>Individual timeslot info
MP

Individual timeslot info 10.3.6.37


>>Code List
MP
1 to 16



>>>Channelisation Code
MP

Enumerated((16/1)..(16/16))


>7.68 Mcps TDD




REL-7
>>Offset
MP

Integer (0...Repetition Period -1)
SFN modulo Repetition period = offset. Repetition period is the one indicated in the accompanying Common timeslot info IE
REL-7
>>Common timeslot info
MP

Common timeslot info 10.3.6.10

REL-7
>>Individual timeslot info
MP

Individual timeslot info 10.3.6.37

REL-7
>>Code List
MP
1 to 32


REL-7
>>>Channelisation Code
MP

Enumerated((32/1)..(32/32))

REL-7

10.3.6.71a	Secondary CCPCH info MBMS
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP



REL-6
>FDD




REL-6
>>Secondary scrambling code
OP

Secondary scrambling code 10.3.6.74
May only be sent for SCCPCH channels not carrying the PCH.
REL-6
>>STTD indicator
MP

STTD Indicator 10.3.6.78
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3, the UE behaviour upon reception of this IE is unspecified.
REL-6
>>Spreading factor
MP

Integer(4, 8, 16, 32, 64, 128, 256)

REL-6
>>Code number
MP

Integer(0..Spreading factor – 1)

REL-6
>>Timing Offset
MD

Integer(0..38144 by step of 256)
Chip
Delay of the Secondary CCPCH relative to the Primary CCPCH.
Default value is 0.
REL-6
>>CHOICE Modulation
CV-MBSFN



REL-7
>>>QPSK
MP


(no data)
REL-7
>>>16QAM
MP



REL-7
>>>>CPICH secondary CCPCH power offset
MP

Integer(-11..4)

REL-7
>1.28/3.84 Mcps TDD




REL-6
>> Common timeslot info MBMS
MP

Common timeslot info MBMS 10.3.6.10a
Interleaving mode, TFCI coding and puncturing limit for Secondary CCPCH info MBMS
REL-6
>>Downlink Timeslots and Codes
MP

Downlink timeslots and codes 10.3.6.32
One or more timeslots and codes for S-CCPCH supporting MBMS MTCH
REL-6
>> MBSFN Special Time Slot
OP

Time Slot LCR Extension 10.3.6.83a
For 1.28 Mcps TDD MBSFN only mode, this IE indicates the SCCPCH is deployed on the MBSFN Special Time Slot [30]. The IE ‘Timeslot number’ in ‘Downlink Timeslots and Codes’ shall be ignored if this IE appears.
REL-7
>>Modulation
MP

Enumerated (QPSK, 16QAM)

REL-7
>7.68 Mcps TDD




REL-7
>>Common timeslot info MBMS
MP

Common timeslot info MBMS 10.3.6.10a
Interleaving mode, TFCI coding and puncturing limit for Secondary CCPCH info MBMS
REL-7
>>Downlink Timeslots and Codes VHCR
MP

Downlink timeslots and codes VHCR 10.3.6.32a
One or more timeslots and codes for S-CCPCH supporting MBMS MTCH
REL-7
>>Modulation
MP

Enumerated (QPSK, 16QAM)

REL-7
>3.84 Mcps TDD MBSFN IMB




REL-8
>>Secondary scrambling code
OP

Secondary scrambling code 10.3.6.74
Not applicable: if present, the UE behaviour is unspecified
REL-8
>>STTD indicator
MP

STTD Indicator 10.3.6.78
Not applicable: the UE behaviour is unspecified
REL-8
>>Spreading factor
MP

Integer (4, 8, 16, 32, 64, 128, 256)
SF = 256; other values not applicable
REL-8
>>Code number
MP

Integer (0..Spreading factor – 1)
Only code numbers 2 to 15 are applicable
REL-8
>>Timing Offset
MD

Integer (0..38144 by step of 256)
Not applicable: if present, the UE behaviour is unspecified
REL-8
>>CHOICE Modulation
CV-MBSFN



REL-8
>>>QPSK
MP


(no data)
REL-8
>>>16QAM
MP


Not applicable: the UE behaviour is unspecified
REL-8
>>>>CPICH secondary CCPCH power offset
MP

Integer (‑11..4)

REL-8

Condition
Explanation
MBSFN
This IE is mandatory present when the cell on which this IE is sent is operating in MBSFN mode according to subclause 8.1.1.6.3. Otherwise the IE is not needed.

NOTE:	For FDD, the S-CCPCH signalled in this IE is always configured with flexible position, TFCI is always present and pilot is always absent.
10.3.6.71b	Secondary CCPCH info MBMS Diff
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Secondary scrambling code
OP

Secondary scrambling code 10.3.6.74
May only be sent for SCCPCH channels not carrying the PCH.
REL-7
STTD indicator
MP

STTD Indicator 10.3.6.78

REL-7
Spreading factor
OP

Integer(4, 8, 16, 32, 64, 128, 256)

REL-7
Code number
OP

Integer(0..Spreading factor – 1)

REL-7
Timing Offset
OP

Integer(0..38144 by step of 256)
Chip
Delay of the Secondary CCPCH relative to the Primary CCPCH.
REL-7

NOTE:	For FDD, the S-CCPCH signalled in this IE is always configured with flexible position, TFCI is always present and pilot is always absent.
10.3.6.72	Secondary CCPCH system information
Information element
Need
Multi
Type and reference
Semantics description
Version
Secondary CCPCH system information list
MP
1 to <maxSCCPCH>



>Secondary CCPCH info
MP

Secondary CCPCH info 10.3.6.71
Note 1

>TFCS
MD

Transport format combination set 10.3.5.20
For FACHs and PCH
Default value is the value of "TFCS" for the previous SCCPCH in the list.
NOTE:	The first occurrence is then MP.

>FACH/PCH information list
MD
1 to <maxFACHPCH>

Default value is the value of "FACH/PCH" for the previous SCCPCH in the list.
NOTE:	The first occurrence is then MP.

>>TFS
MP

Transport format set 10.3.5.23
For each FACH and PCH
Note 2

>>Transport channel identity
MP

Transport channel identity 10.3.5.18


>>CTCH indicator
MP

Boolean
The value TRUE indicates that a CTCH is mapped on the FACH, and FALSE that no CTCH is mapped.

>PICH info
OP

PICH info 10.3.6.49
PICH info is present only when PCH is multiplexed on Secondary CCPCH

MCCH configuration information
CV-SIB type 5

MCCH configuration information
10.3.9a.13
Included if MCCH is on an S-CCPCH used also for Non- MBMS
Note 3
REL-6

NOTE 1:	The secondary CCPCHs carrying a PCH shall be listed first.
NOTE 2:	TFS for PCH shall be the first "FACH/PCH information" in the list if a PCH exists for the respective secondary CCPCH.
NOTE 3:	If the IE "MCCH configuration information is included", it applies to the last S-CCPCH in the IE "Secondary CCPCH system information list" and to the last FACH included in the IE "FACH/PCH information list".
Condition
Explanation
SIB type 5
The IE is optional if the IE " Secondary CCPCH system information" is included in the SIB type 5 or 5bis, otherwise the IE is not needed in the message

10.3.6.72a	Secondary CCPCH system information MBMS
Information element
Need
Multi
Type and reference
Semantics description
Version
Secondary CCPCH system information
MP


An S-CCPCH carrying MCCH and possibly also MTCH and MSCH
REL-6
>Secondary CCPCH info MBMS
MP

Secondary CCPCH info MBMS 10.3.6.71a

REL-6
>TFCS
MP

Transport format combination set 10.3.5.20

REL-6
>FACH carrying MCCH
MP



REL-6
>>TFS
MP

Transport format set 10.3.5.23

REL-6
>>MCCH configuration information
MP

MCCH configuration information
10.3.9a.13

REL-6
>FACH carrying MTCH list
OP
1 to <maxFACHPCH>


REL-6
>>TFS
MP

Transport format set 10.3.5.23

REL-6
>Scheduling information
OP



REL-6
>>FACH carrying MSCH
MP

Transport format set 10.3.5.23
Transport channel carrying MSCH
REL-6

10.3.6.72b	Secondary cell MIMO parameters
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Configuration info
MP



REL-9
>Continue


(no data)
(no data)Used in reconfigurations without interruption of dual cell operation with MIMO.
REL-9
>New configuration




REL-9
>> MIMO N_cqi_typeA/M_cqi ratio
OP

Enumerated(1/2, 2/3, 3/4, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10, 1/1)

REL-9
>>MIMO pilot configuration
OP

MIMO pilot configuration 10.3.6.41b

REL-9
>>Precoding weight set restriction
OP

Enumerated (TRUE)
If present, the UE applies precoding weight set restriction to this secondary cell.
REL-9

10.3.6.73	Secondary CPICH info
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Secondary scrambling code
MD

Secondary scrambling code 10.3.6.74
Default is the same scrambling code as for the Primary CPICH
Channelisation code
MP

Integer(0..255)
SF=256

10.3.6.74	Secondary scrambling code
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Secondary scrambling code
MP

Integer(1..15)


10.3.6.74a	Serving HS-DSCH cell information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
ACK
OP

Integer(0..8
Refer to quantization of the power offset in [28]
REL-6



9..10)

REL-11
NACK
OP

Integer(0..8
Refer to quantization of the power offset in [28]
REL-6



9..10)

REL-11
HARQ_preamble_mode
MP

Integer(0, 1)
1 indicates that preamble and postamble are used on the HS-DPCCH – see [29]
REL-6
Primary CPICH info
OP

Primary CPICH info 10.3.6.60
Indicate the new HS-DSCH serving cell
REL-6
Downlink HS-PDSCH Information
OP

Downlink HS_PDSCH Information 10.3.6.23a

REL-6
HARQ Info
OP

HARQ info 10.3.5.7a

REL-6
MAC-hs reset indicator
OP

Enumerated (TRUE)
TRUE Indicates the MAC-hs/ehs entity needs to be reset.
REL-6
MAC-hs reset indicator for Multiflow assisting cells
OP

Enumerated (TRUE)
TRUE indicates that the MAC-hs/ehs entity related to the assisting cells needs to be reset.
REL-11

10.3.6.74b	Serving Cell Change Parameters
The IE "Serving Cell Change Parameters" is used prepare the UE for enhanced serving cell change.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Serving Cell Change MAC reset
MP

Boolean
TRUE means the MAC-hs/ehs entity needs to be reset, FALSE means TPC combination Index is used to determine if MAC-hs/ehs reset is needed, 8.2.2.3
REL-8
Serving Cell Change Message Type
MP

Enumerated (RadioBearerSetup, RadioBearerReconfiguration, TransportChannelReconfiguration, PhysicalChannelReconfiguration)
The reconfiguration procedure configuration used for Target cell preconfiguration, 8.2.2.4
REL-8
Serving Cell Change Transaction Id
MP

Integer (0..3)
Transaction Id that shall be used as the RRC Transaction Identifier with the corresponding reponse message configured by the IE “Serving Cell Change Message Type” 
REL-8
Enhanced Serving Cell Change for Event 1c Support Indicator
OP

Enumerated (TRUE)
TRUE means that Enhanced Serving Cell Change for Event 1c is enabled 
REL-12

10.3.6.75	SFN Time info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Activation time SFN
MP

Integer (0..4095)
System frame number start of the physical channel existence.
Duration
MP

Integer(1..4096)
Total number of frames the physical channel will exist. 

10.3.6.75a	Special Burst Scheduling
NOTE:	Only for TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Special Burst Generation Period
MP

Integer (0..7)
Value represents number of radio frames
0 = 2 frames, 1 = 4 frames,
2 = 8 frames, 3 = 16 frames,
4 = 32 frames, 5 = 64 frames,
6 = 128 frames, 7 =256 frames


10.3.6.76	Void

10.3.6.77	Void

10.3.6.78	STTD indicator
NOTE:	Only for FDD
Indicates whether STTD is used or not.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
STTD Indicator
MP

Boolean
TRUE means that STTD is used

10.3.6.78o	SYNC_UL codes bitmap
NOTE:	Only for 1.28 Mcps TDD.
Information Element/ Group name
Need
Multi
Type and reference
Semantics description
Version
SYNC_UL codes bitmap
MP

Bitstring(8)
Each bit indicates availability of a SYNC_UL code, where the SYNC_UL codes are numbered "code 0" to "code 7".
The value 1 of a bit indicates that the corresponding SYNC_UL code can be used.
The value 0 of a bit indicates that the corresponding SYNC_UL code can not be used.
REL-7

10.3.6.78a	SYNC_UL info
NOTE:	Only for 1.28 Mcps TDD.
Information Element/ Group name
Need
Multi
Type and reference
Semantics description
Version
SYNC_UL codes bitmap
MP

SYNC_UL codes bitmap
10.3.6.78o

REL-4
PRXUpPCHdes
MP

Integer(-120…-58 by step of 1)
In dBm
REL-4
Power Ramp Step
MP

Integer(0,1,2,3)
In dB
REL-4
Max SYNC_UL Transmissions
MP

Integer(1,2,4,8)
Maximum numbers of SYNC_UL transmissions in a power ramping sequence.
REL-4
Mmax
MP

Integer(1..32)
Maximum number of synchronisation attempts.
REL-4
E-RUCCH SYNC_UL codes bitmap
MP

SYNC_UL codes bitmap
10.3.6.78o

REL-7

10.3.6.78b		TDD MBSFN Information
NOTE:	Only for TDD
This information indicates which timeslots are assigned to TDD MBSFN and the scrambling codes assigned to each timeslot.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Time slot list
MP
1.. <maxTS>


REL-7
>Timeslot Number
MP

Timeslot Number 10.3.6.84

REL-7
>Cell parameters ID
MP

Cell parameters Id 10.3.6.9

REL-7

10.3.6.78c		LCR TDD MBSFN Information
NOTE:	Only for 1.28Mcps TDD
This information indicates which timeslots of the secondary frequency of a multi-frequency cell are assigned to 1.28Mcps TDD MBSFN and the scrambling codes related to each timeslot.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Time slot info list
MP
1 to <maxMBSFNclusters>


REL-7
>Frequency index
MP

Integer (1..<maxMBSFNclusters>)
For 1.28 Mcps TDD index pointing to a frequency indicated in the SIB 11.
REL-7
>Time slot list
MP
1 to <maxTS>


REL-7
>>Timeslot Number
MP

Timeslot Number 10.3.6.84

REL-7
>>Cell parameters ID
MP

Cell parameters Id 10.3.6.9

REL-7

10.3.6.78d	SYNC_UL info for E-RUCCH
NOTE:	Only for 1.28 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PRXUpPCHdes
CV-Synchronisation parameters

Integer(-120…-58 by step of 1)
In dBm
REL-7
Power Ramp Step
CV-Synchronisation parameters

Integer(0,1,2,3)
In dB
REL-7
Max SYNC_UL Transmissions
CV-Synchronisation parameters

Integer(1,2,4,8)
Maximum numbers of SYNC_UL transmissions in a power ramping sequence.
REL-7
Mmax
MP

Integer(1..32)
Maximum number of synchronisation attempts.
REL-7
E-RUCCH SYNC_UL codes bitmap
MP

SYNC_UL codes bitmap
10.3.6.78o

REL-7

Condition
Explanation
Synchronisation parameters
This IE is mandatory present if the IE “Synchronisation parameters” does not exist, Otherwise it is not needed.

10.3.6.79	TDD open loop power control
This information element contains parameters for open loop power control setting for TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Primary CCPCH Tx Power
MP

Primary CCPCH Tx Power 10.3.6.59
For path loss calculation

CHOICE TDD option
MP



REL-4
>3.84 Mcps TDD




REL-4
>>Alpha
OP

Alpha 10.3.6.5


>>PRACH Constant Value
MP

Constant Value TDD
10.3.6.11a
Operator controlled PRACH Margin

>>DPCH Constant Value
MP

Constant Value TDD
10.3.6.11a
Operator controlled UL DPCH Margin

>>PUSCH Constant Value
OP

Constant Value TDD
10.3.6.11a
Operator controlled PUSCH Margin

>>UE positioning related parameters
CV-IPDLs



REL-4
>>>IPDL-Alpha
MP

Alpha 10.3.6.5

REL-4
>>>Max power increase
MP

Integer (0..3)
In db
REL-4
>7.68 Mcps TDD




REL-7
>>Alpha
OP

Alpha 10.3.6.5

REL-7
>>PRACH Constant Value
MP

Constant Value TDD
10.3.6.11a
Operator controlled PRACH Margin
REL-7
>>DPCH Constant Value
MP

Constant Value TDD
10.3.6.11a
Operator controlled UL DPCH Margin
REL-7
>>PUSCH Constant Value
OP

Constant Value TDD
10.3.6.11a
Operator controlled PUSCH Margin
REL-7
>>UE positioning related parameters
CV-IPDLs



REL-7
>>>IPDL-Alpha
MP

Alpha 10.3.6.5


>>>Max power increase
MP

Integer (0..3)
In db
REL-7
>1.28 Mcps TDD



(no data)
REL-4

Condition
Explanation
IPDLs
This IE is present only if idle periods are applied

10.3.6.79a	Target cell preconfiguration information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Activation time offset
OP

Interger (0..255)
If present, the “Activation time offset” IE is used by UE to calculate Activation time for inclusion in measurement report for event 1d or 1c.
REL-8
New H-RNTI
MP

H-RNTI 10.3.3.14a

REL-8
New Primary E-RNTI
OP

E-RNTI
10.3.3.10a

REL-8
New Secondary E-RNTI
OP

E-RNTI 10.3.3.10a

REL-8
Serving HS-DSCH cell information
MP

Serving HS-DSCH cell information 10.3.6.74a

REL-8
E-DCH reconfiguration information
MP

E-DCH reconfiguration information 10.3.6.69a

REL-8
DTX-DRX timing information
OP

DTX-DRX timing information 10.3.6.34b	

REL-8
DTX-DRX Information
OP

DTX-DRX Information 10.3.6.34a

REL-8
HS-SCCH less Information
OP

HS-SCCH less Information 10.3.6.36ab

REL-8
MIMO parameters
OP

MIMO parameters 10.3.6.41a

REL-8
MIMO mode with four transmit antennas parameters
OP

MIMO mode with four transmit antennas parameters 10.3.6.142

REL-11
Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a

REL-8
Additional downlink secondary cell info list FDD
OP
2


REL-10
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-10
Additional downlink secondary cell info list FDD 2
OP
4


REL-11
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
FDD only
REL-11
Uplink secondary cell info FDD
OP

Uplink secondary cell info FDD 10.3.6.115
FDD only
REL-9
E-DCH reconfiguration information on secondary UL frequency
OP

E-DCH reconfiguration information on secondary UL frequency
10.3.6.121
FDD only
REL-9
Uplink CLTD info FDD
OP

Uplink CLTD info FDD
10.3.6.125
FDD only
REL-11
F-TPICH reconfiguration info
OP

F-TPICH reconfiguration info
10.3.6.128

REL-11
Uplink OLTD info FDD
OP

Uplink OLTD info FDD
10.3.6.126
FDD only
REL-11
UL 16QAM configuration
OP

UL 16QAM configuration 10.3.6.86o

REL-11
UL 64QAM configuration
OP

UL 64QAM configuration 10.3.6.86b

REL-11
Uplink MIMO info FDD
OP

Uplink MIMO info FDD 10.3.6.145
FDD only
REL-11
DPCCH2 info FDD
OP

DPCCH2 info FDD 10.3.6.148
FDD only
REL-12

10.3.6.80	TFC Control duration
Information Element/Group name
Need
Multi
Type and reference
Semantics description
TFC Control duration
MP

Integer (1, 2, 4, 8, 16, 24, 32, 48, 64, 128, 192, 256, 512)
Defines the period in multiples of 10 ms frames for which the defined TFC sub-set is to be applied.

10.3.6.81	Void

10.3.6.82	TGPSI
Information Element/Group name
Need
Multi
Type and reference
Semantics description
TGPSI
MP

Integer(1..MaxTGPS)
Transmission Gap Pattern Sequence Identifier
Establish a reference to the compressed mode pattern sequence. Up to <MaxTGPS> simultaneous compressed mode pattern sequences can be used.

10.3.6.83	Time info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Activation time
MD

Activation time 10.3.3.1
Frame number start of the physical channel existence. Default value is "Now"
Duration
MD

Integer(1..4096, infinite)
Total number of frames the physical channel will exist. Default value is "infinite".

10.3.6.83a	Time Slot LCR Extension 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Time Slot LCR Extension


ENUMERATED (TS7, …)
TS7 indicates the MBSFN Special Timeslot for 1.28 Mcps TDD MBSFN Dedicated Carrier. Three spare values are reserved.

10.3.6.84	Timeslot number
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE TDD option
MP



REL-4
>3.84 Mcps TDD




REL-4
>>Timeslot number
MP

Integer(0..14)
Timeslot within a frame

>7.68 Mcps TDD




REL-7
>>Timeslot number
MP

Integer(0..14)
Timeslot within a frame
REL-7
>1.28 Mcps TDD




REL-4
>>Timeslot number
MP

Integer(0..6)
Timeslot within a subframe
REL-4

10.3.6.85	TPC combination index
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
TPC combination index
MP

Integer(0..5)
Radio links with the same index have TPC bits, which for the UE are known to be the same.





Radio links that are part of the E-DCH active set and with the same index have acknowledgement feedback signals on the E-HICH which for the UE are known to be the same.
REL-6




Radio links with the same index have TPI bits, which for the UE are known to be the same.
REL-11

10.3.6.85a	TSTD indicator
NOTE:	Only for 1.28 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
TSTD indicator
MD

Boolean
Default value is TRUE
REL-4

10.3.6.86	TX Diversity Mode
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Tx diversity Mode
MP

Enumerated (none, STTD, closed loop mode1)


10.3.6.86o	UL 16QAM configuration
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UL 16QAM settings
CV-2msTTI

UL 16QAM settings
10.3.6.86a
Presence of this IE indicates that the UE should operate in 16QAM mode; absence indicates that the UE is not to operate in 16QAM mode. See Note 2.
REL-7
MAC-es/e reset indicator
OP

Enumerated (TRUE)
TRUE Indicates the MAC-es/e or MAC-i/is entity needs to be reset.
REL-7
E-TFCI table index
OP

Integer (0..1)
Indicates which standardised E-TFCI TB size table shall be used. See Note 1.
REL-7
NOTE 1: 	If the UE is operating in 16QAM mode, the value of “E-TFCI table index” is increased by 2, and indices in the SG-Table refer to Scheduling Grant Table 2 in [15].
NOTE 2:	If this IE is not present, the indices signaled on the E-AGCH refer to the Mapping of Absolute Grant Value Table 16B in [27].

Condition
Explanation
2msTTI
This IE is present only if 2ms TTI is configured, otherwise it is not needed. 

10.3.6.86a	UL 16QAM settings
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
BetaEd gain E-AGCH table selection
MP

Integer (0..1)
The value 0 indicates that the indices signaled on the E-AGCH refer to the Mapping of Absolute Grant Value Table 16B in [27], and the value 1 indicates Mapping using Absolute Grant Value Table 16B.1 in [27].
REL-7

10.3.6.86b	UL 64QAM configuration
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UL 64QAM settings
OP

UL 64QAM settings
10.3.6.86c
Presence of this IE indicates that the UE should operate in 64QAM mode; absence indicates that the UE is not to operate in 64QAM mode. 
REL-11
MAC-is/i reset indicator
OP

Enumerated (TRUE)
TRUE Indicates that MAC-i/is entity needs to be reset.
REL-11

10.3.6.86c	UL 64QAM settings
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
BetaEd gain E-AGCH table selection
MP

Integer (0..1)
The value 0 indicates that the indices signaled on the E-AGCH refer to the Mapping of Absolute Grant Value Table 16B in [27], and the value 1 indicates Mapping using Absolute Grant Value Table 16B.1 in [27].
REL-11

10.3.6.87	UL interference
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UL interference
MP

Integer (-110..-70)
In dBm

NOTE:	In TDD, this IE is a timeslot specific value.
10.3.6.87a	UL interference TDD
NOTE:	Only for TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
TDD UL interference
MP

Integer (-110..-52)
In dBm

NOTE:	This IE is a timeslot specific value.

10.3.6.87b	Uplink DPCH code info for Common E-DCH
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Scrambling code type
MP

Enumerated(short, long)

REL-8
Scrambling code number
CV-Short

Integer(0..16777215)
NOTE1
REL-8
NOTE1:	If this IE is not included, the value is given by:
Scrambling code number = (offset + common E-DCH resource list position) mod 16777216
where 
"offset" is the value of the last occurrence of the IE "scrambling code number".
"common E-DCH resource list position" indicates the Common E-DCH resource Configuration Information number by order of appearance. The value of the "common E-DCH resource list position" is zero for the first occurrence.

Condition
Explanation
Short
This IE is mandatory present for the first occurrence. Otherwise, this IE is optional.

10.3.6.88	Uplink DPCH info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Uplink DPCH power control info
OP

Uplink DPCH power control info 10.3.6.91


CHOICE mode
MP




>FDD





>>Scrambling code type
MP

Enumerated(short, long)


>>Scrambling code number
MP

Integer(0..16777215)


>>Number of DPDCH
MD

Integer(1..maxDPDCH-UL,
Default value is 1.
Number of DPDCH is 1 in HANDOVER TO UTRAN COMMAND. 




0)
Value 0 may only be used if target configuration has no uplink DPDCH.
REL-6
>>Spreading factor
CV-DPDCHpresent

Integer(4, 8, 16, 32, 64, 128, 256)
Minimum allowed SF of the channelisation code for data part

>>TFCI existence
MP

Boolean
TRUE means existence.

>>Number of FBI bits
OP

Integer (1, 2)
In bits.


>>Number of TPC bits
CV- Neither TFCI nor FBI present

Integer (4)
In bits
REL-7
>>Puncturing Limit
CV-DPDCHpresent

Real(0.40 ..1 by step of 0.04)


>TDD





>>Uplink Timing Advance Control
OP

Uplink Timing Advance Control 10.3.6.96


>>UL CCTrCH List
OP 
1 to <maxCCTrCH>

UL physical channels to establish or reconfigure list.

>>>TFCS ID
MD

Integer(1..8)
Default value is 1. 

>>>UL target SIR 
MP

Real (-11 .. 20 by step of 0.5dB)
In dB





For 1.28 Mcps TDD this parameter represents PRXDPCHdes with range Integer(-120…-58 by step of 1) dBm
REL-4
>>>Time info
MP

Time info 10.3.6.83


>>>Common timeslot info
MD

Common timeslot info 10.3.6.10
Default is the current Common timeslot info

>>> CHOICE TDD option




REL-7
>>>> 3.84 Mcps TDD




REL-7
>>>>>Uplink DPCH timeslots and codes
MD

Uplink Timeslots and Codes 10.3.6.94
Default is to use the old timeslots and codes.

>>>>7.68 Mcps TDD




REL-7
>>>>>Uplink DPCH timeslots and codes VHCR
MD

Uplink Timeslots and Codes VHCR 10.3.6.94b
Default is to use the old timeslots and codes
REL-7
>>>> 1.28 Mcps TDD




REL-7
>>>>>Uplink DPCH timeslots and codes LCR
MD

Uplink Timeslots and Codes LCR 10.3.6.94a
Default is to use the old timeslots and codes.
REL-7
>>UL CCTrCH List to Remove
OP
1..<maxCCTrCH>

UL physical channels to remove list

>>>TFCS ID
MP

Integer(1..8)



Condition
Explanation
DPDCHpresent
This IE is mandatory if the target configuration includes a DPDCH, otherwise it is not needed. 
Neither TFCI nor FBI present
This IE is optional if the IE “TFCI existence” is set to FALSE and the IE “Number of FBI bits” is not present, otherwise it is not needed.

10.3.6.89	Uplink DPCH info Post
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Uplink DPCH power control info
MP

Uplink DPCH power control info Post 10.3.6.92


CHOICE mode
MP




>FDD





>>Scrambling code type
MP

Enumerated(short, long)


>>Reduced scrambling code number
MP

Integer(0..8191)
Sub-range of values for initial use upon handover to UTRAN.

>>Spreading factor
MP

Integer(4, 8, 16, 32, 64, 128, 256)
SF of the channelisation code for data part
There is only one DPDCH for this case

>1.28 Mcps TDD and 3.84 Mcps TDD





>>Uplink Timing Advance Control
OP

Uplink Timing Advance Control 10.3.6.96


>>Uplink DPCH timeslots and codes
MP

Uplink Timeslots and Codes 10.3.6.94


>7.68 Mcps TDD




REL-7
>>Uplink Timing Advance Control
OP

Uplink Timing Advance Control 10.3.6.96

REL-7
>>Uplink DPCH timeslots and codes
MP

Uplink Timeslots and Codes VHCR 10.3.6.94b

REL-7

10.3.6.90	Uplink DPCH info Pre
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version 
Uplink DPCH power control info
OP

Uplink DPCH power control info Pre 10.3.6.93


CHOICE mode
MP




>FDD





>>TFCI existence
MP

Boolean
TRUE means existence. Default value is TRUE
See NOTE 1.

>>Number of TPC bits
CV-No TFCI

Integer (4)
In bits
REL-7
>>Puncturing Limit
MP

Real(0.40 ..1 by step of 0.04)


>TDD





>>Common timeslot info
MP

Common Timeslot Info 10.3.6.10


NOTE 1:	Number of FBI bits is not signalled but 0 is implied as transmit diversity cannot be setup here.

Condition
Explanation
Single
This IE is mandatory present if the IE "Number of DPDCH" is "1" and not needed otherwise.
No TFCI
This IE is optional if the IE “TFCI existence” is set to FALSE, otherwise it is not needed.

10.3.6.91	Uplink DPCH power control info
Parameters used by UE to set DPCH initial output power and to use for closed-loop power control in FDD and 1.28 Mcps TDD and parameters for uplink open loop power control in 3.84 Mcps TDD and 7.68 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>DPCCH Power offset
MP

Integer(-164,..-6 by step of 2)
In dB

>>PC Preamble
MP

Integer (0..7)
In number of frames

>>SRB delay
MP

Integer(0..7)
In number of frames

>>Power Control Algorithm
MP

Enumerated (algorithm 1, algorithm 2)
Specifies algorithm to be used by UE to interpret TPC commands

>>TPC step size
CV-algo

Integer (1, 2)
In dB

>>ACK
OP

Integer
(0..8
Refer to quantization of the power offset in [28]
REL-5



9..10)

REL-11
>>NACK
OP

Integer
(0..8
refer to quantization of the power offset in [28]
REL-5



9..10)

REL-11
>>Ack-Nack repetition factor
OP

Integer(1..4)

REL-5
>>Ack-Nack repetition factor for Multiflow assisting cells
CV-Multiflow

Integer(1..4)
If present, this IE indicates that all the assisting cells use the Ack-Nack repetition factor indicated by this IE.
Absence of this IE indicates that there is no Ack-Nack repetition for multiflow assisting cell(s).
REL-11
>>HARQ_preamble_mode
MP

Integer (0, 1)
1 indicates that preamble and postamble are used on the HS-DPCCH – see [29]
REL-6
>TDD





>>UL target SIR
OP

Real (-11 .. 20 by step of 0.5dB)
In dB





For 1.28 Mcps TDD this parameter represents PRXDPCHdes with range Integer(-120…-58 by step of 1) dBm
REL-4
>>CHOICE UL OL PC info
MP




>>>Broadcast UL OL PC info


Null
No data

>>>Individually Signalled 
OP




>>>>CHOICE TDD option
MP



REL-4
>>>>>3.84 Mcps TDD




REL-4
>>>>>>Individual timeslot interference info
MP
1 to <maxTS>



>>>>>>>Individual timeslot interference
MP

Individual timeslot interference 10.3.6.38


>>>>>>DPCH Constant Value
MP

Constant Value TDD
10.3.6.11a
Quality Margin

>>>>>7.68 Mcps TDD




REL-7
>>>>>>Individual timeslot interference info
MP
1 to <maxTS>


REL-7
>>>>>>>Individual timeslot interference
MP

Individual timeslot interference 10.3.6.38

REL-7
>>>>>>DPCH Constant Value
MP

Constant Value TDD
10.3.6.11a
Quality Margin
REL-7
>>>>>1.28 Mcps TDD




REL-4
>>>>>>Beacon PL Est.
CV-houtran

Enumerated (TRUE)
The presence of this IE indicates that the UE may take into account path loss estimated from beacon function physical channels. The absence indicates that UE may not take into account path loss estimated from beacon function physical channels
REL-6
>>>>>>TPC step size
MP

Integer(1,2,3)

REL-4
>>>>Primary CCPCH Tx Power
OP

Primary CCPCH Tx Power 10.3.6.59
For Pathloss Calculation


Condition
Explanation
algo
The IE is mandatory present if the IE "Power Control Algorithm" is set to "algorithm 1", otherwise the IE is not needed
houtran
This IE is optional in Cell Update Confirm, Physical Channel Reconfiguration, Radio Bearer Reconfiguration, Radio Bearer Release, Radio Bearer Setup, Transport Channel Reconfiguration and Uplink Physical Channel Control. The IE is not included in the Handover To UTRAN Command
Multiflow
The IE is optional when the Multiflow operation is configured, otherwise it is not needed.

10.3.6.91a	Uplink DPCH power control info for Common E-DCH
Parameters used by UE to set DPCH initial output power and to use for closed-loop power control in FDD when Enhanced Uplink in CELL_FACH state and Idle mode is applied.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Power Control Algorithm
MP

Enumerated (algorithm 1, algorithm 2)
Specifies algorithm to be used by UE to interpret TPC commands
REL-8
TPC step size
CV-algo

Integer (1, 2)
In dB
REL-8
ACK
OP

Integer
(0..8)
Refer to quantization of the power offset in [28]
REL-8
NACK
OP

Integer
(0..8)
refer to quantization of the power offset in [28]
REL-8
Ack-Nack repetition factor
OP

Integer(1..4)

REL-8

Condition
Explanation
algo
The IE is mandatory present if the IE "Power Control Algorithm" is set to "algorithm 1", otherwise the IE is not needed

10.3.6.92	Uplink DPCH power control info Post
Parameters used by UE to set DPCH initial output power and to use for closed-loop power control.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>DPCCH Power offset
MP

Integer(-110..-50 by step of 4)
In dB

>>PC Preamble
MP

Integer (0..7)
in number of frames

>>SRB delay
MP

Integer (0..7)
In number of frames

>TDD





>>UL target SIR 
MP

Real (-11 .. 20 by step of 0.5dB)
In dB





For 1.28 Mcps TDD this parameter represents PRXDPCHdes with range Integer(-120…-58 by step of 1) dBm
REL-4
>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4

>>>>UL Timeslot Interference
MP

UL Interference TDD 10.3.6.87a


>>>7.68 Mcps TDD




REL-7
>>>>UL Timeslot Interference
MP

UL Interference TDD 10.3.6.87a

REL-7
>>>1.28 Mcps TDD



(no data)
REL-4

Condition
Explanation
algo
The IE is mandatory present if the IE "Power Control Algorithm" is set to "algorithm 1", otherwise the IE is not needed

10.3.6.93	Uplink DPCH power control info Pre
Parameters used by UE to set DPCH initial output power and to use for closed-loop power control in FDD and parameters for uplink open loop power control in 3.84 Mcps TDD and 7.68 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>Power Control Algorithm
MP

Enumerated (algorithm 1, algorithm 2)
Specifies algorithm to be used by UE to interpret TPC commands

>>TPC step size
CV-algo

Integer (1, 2)
In dB

>TDD



(No data)

>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>DPCH Constant Value
MP

Constant Value TDD
10.3.6.11a
Quality Margin

>>>7.68 Mcps TDD




REL-7
>>DPCH Constant Value
MP

Constant Value TDD
10.3.6.11a
Quality Margin
REL-7
>>>1.28 Mcps TDD



(no data)
REL-4

Condition
Explanation
algo
The IE is mandatory present if the IE "Power Control Algorithm" is set to "algorithm 1", otherwise the IE is not needed

10.3.6.94	Uplink Timeslots and Codes
NOTE:	Only for 1.28 Mcps TDD and 3.84 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Dynamic SF usage
MP

Boolean

First Individual timeslot info
MP

Individual timeslot info 10.3.6.37
Individual timeslot info for the first timeslot used by the physical layer.
First timeslot Code List
MP
1..2

Code list used in the timeslot. given in First individual timeslot info.
>Channelisation Code
MP

Enumerated((1/1),)(2/1),(2/2),(4/1)..(4/4),(8/1)..(8/8),(16/1)..(16/16))

CHOICE more timeslots
MP



>No more timeslots



(no data)
>Consecutive timeslots




>>Number of additional timeslots
MP

Integer(1..maxTS-1)
The timeslots used by the physical layer shall be timeslots:
N mod maxTS
(N+1) mod maxTS
...
(N+k) mod maxTS
in that order, where N is the timeslot number in the First individual timeslot info and k the Number of additional timeslots.
The additional timeslots shall use the same parameters (e.g. channelisation codes, midamble shifts etc.) as the first timeslot.
>Timeslot list




>>Additional timeslot list
MP
1 to <maxTS-1>

The first instance of this parameter corresponds to the timeslot that shall be used second by the physical layer, the second to the timeslot that shall be used third and so on.
>>>CHOICE parameters
MP



>>>>Same as last




>>>>>Timeslot number
MP

Timeslot Number 10.3.6.84
This physical layer shall use the same parameters (e.g. channelisation codes, midamble shifts etc.) for this timeslot as for the last one. 
>>>>New parameters




>>>>>Individual timeslot info
MP

Individual timeslot info 10.3.6.37

>>>>>Code List
MP
1..2


>>>>>>Channelisation Code
MP

Enumerated((1/1),)(2/1),(2/2),(4/1)..(4/4),(8/1)..(8/8),(16/1)..(16/16))


10.3.6.94a	Uplink Timeslots and Codes LCR
NOTE:	Only for 1.28 Mcps TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Dynamic SF usage
MP

Boolean

First Individual timeslot info
MP

Individual timeslot info 10.3.6.37
Individual timeslot info for the first timeslot used by the physical layer.
First timeslot Code List
MP
1..2

Code list used in the timeslot. given in First individual timeslot info.
>Channelisation Code
MP

Enumerated((1/1),)(2/1),(2/2),(4/1)..(4/4),(8/1)..(8/8),(16/1)..(16/16))

>PLCCH Info
CV-no_DL_DPCH

PLCCH Info 10.3.6.50a

CHOICE more timeslots
MP



>No more timeslots



(no data)
>Consecutive timeslots




>>Number of additional timeslots
MP

Integer(1..maxTS-1)
The timeslots used by the physical layer shall be timeslots:
N mod maxTS
(N+1) mod maxTS
…
(N+k) mod maxTS
in that order, where N is the timeslot number in the First individual timeslot info and k the Number of additional timeslots.
The additional timeslots shall use the same parameters (e.g. channelisation codes, midamble shifts etc.) as the first timeslot.
>Timeslot list




>>Additional timeslot list
MP
1 to <maxTS-1>

The first instance of this parameter corresponds to the timeslot that shall be used second by the physical layer, the second to the timeslot that shall be used third and so on.
>>>CHOICE parameters
MP



>>>>Same as last




>>>>>Timeslot number
MP

Timeslot Number 10.3.6.84
This physical layer shall use the same parameters (e.g. channelisation codes, midamble shifts etc.) for this timeslot as for the last one. 
>>>>New parameters




>>>>>Individual timeslot info
MP

Individual timeslot info 10.3.6.37

>>>>>Code List
MP
1..2


>>>>>>Channelisation Code
MP

Enumerated((1/1),)(2/1),(2/2),(4/1)..(4/4),(8/1)..(8/8),(16/1)..(16/16))

>>>>>> PLCCH Info
CV-no_DL_DPCH

PLCCH Info 10.3.6.50a
Default is same as set of parameter values as assigned to last timeslot

Condition
Explanation
No_DL_DPCH
This IE is mandatory present for 1.28 Mcps TDD only in the case that Uplink Timeslots and Codes are assigned for UL DPCH and no DL DPCH is allocated to the UE. 

10.3.6.94b	Uplink Timeslots and Codes VHCR
NOTE:	Only for 7.68 Mcps TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Dynamic SF usage
MP

Boolean

REL-7
First Individual timeslot info
MP

Individual timeslot info 10.3.6.37
Individual timeslot info for the first timeslot used by the physical layer.
REL-7
First timeslot Code List
MP
1..2

Code list used in the timeslot. given in First individual timeslot info.
REL-7
>Channelisation Code
MP

Enumerated((1/1),)(2/1),(2/2),(4/1)..(4/4),(8/1)..(8/8.16/1) .. (16/16).(32/1)..(32/32))

REL-7
CHOICE more timeslots
MP



REL-7
>No more timeslots



(no data)
REL-7
>Consecutive timeslots




REL-7
>>Number of additional timeslots
MP

Integer(1..maxTS-1)
The timeslots used by the physical layer shall be timeslots:
N mod maxTS
(N+1) mod maxTS
...
(N+k) mod maxTS
in that order, where N is the timeslot number in the First individual timeslot info and k the Number of additional timeslots.
The additional timeslots shall use the same parameters (e.g. channelisation codes, midamble shifts etc.) as the first timeslot.
REL-7
>Timeslot list




REL-7
>>Additional timeslot list
MP
1 to <maxTS-1>

The first instance of this parameter corresponds to the timeslot that shall be used second by the physical layer, the second to the timeslot that shall be used third and so on.
REL-7
>>>CHOICE parameters
MP



REL-7
>>>>Same as last




REL-7
>>>>>Timeslot number
MP

Timeslot Number 10.3.6.84
This physical layer shall use the same parameters (e.g. channelisation codes, midamble shifts etc.) for this timeslot as for the last one. 
REL-7
>>>>New parameters




REL-7
>>>>>Individual timeslot info
MP

Individual timeslot info 10.3.6.37

REL-7
>>>>>Code List
MP
1..2


REL-7
>>>>>>Channelisation Code
MP

Enumerated((1/1),)(2/1),(2/2),(4/1)..(4/4),(8/1)..(8/8).(16/1).. (16/16).(32/1)..(32/32))

REL-7

10.3.6.95	Uplink Timing Advance
NOTE:	Only for 3.84 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UL Timing Advance
MP

Integer (0..63)
Absolute timing advance value to be used to avoid large delay spread at the NodeB


10.3.6.95a	Extended Uplink Timing Advance
NOTE:	Only for 3.84 and 7.68 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE TDD mode




REL-7
>3.84 Mcps TDD




REL-7
>>Extended UL Timing Advance
MP

Integer (0..255)
Absolute timing advance value to be used to avoid large delay spread at the NodeB
REL-7
>7.68.Mcps TDD




REL-7
>>Extended UL Timing Advance
MP

Integer (0..511)
Absolute timing advance value to be used to avoid large delay spread at the NodeB
REL-7

10.3.6.96	Uplink Timing Advance Control
NOTE:	Only for TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Timing Advance
MP




>Disabled


Null
Indicates that no timing advance is applied

>Enabled





>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>>>UL Timing Advance
MD

Uplink Timing Advance 10.3.6.95
Absolute timing advance value to be used to avoid large delay spread at the NodeB.
Default value is the existing value for uplink timing advance.

>>Extended Timing Advance
OP

Extended UL Timing Advance Control  10.3.6.95a

REL-7
>>>>Activation Time
OP

Activation Time 10.3.3.1
Frame number timing advance is to be applied. This IE is required when a new UL Timing Advance adjustment is specified and Activation Time is not otherwise specified in the RRC message.

>>>7.68 Mcps TDD




REL-7
>>>>Extended UL Timing Advance
MD

Extended Uplink Timing Advance 10.3.6.95a
Absolute timing advance value to be used to avoid large delay spread at the NodeB.
Default value is the existing value for uplink timing advance.
REL-7
>>>>Activation Time
OP

Activation Time 10.3.3.1
Frame number timing advance is to be applied. This IE is required when a new UL Timing Advance adjustment is specified and Activation Time is not otherwise specified in the RRC message.
REL-7
>>1.28 Mcps TDD



(no data)
REL-4
>>>Uplink synchronisation parameters
MD


Default: Uplink synchronisation step size is 1.
Uplink synchronisation frequency is 1.
REL-4
>>>>Uplink synchronisation step size
MP

Integer(1..8)
This parameter specifies the step size to be used for the adjustment of the uplink transmission timing
REL-4
>>>>Uplink synchronisation frequency
MP

Integer(1..8)
This parameter specifies the frequency of the adjustment of the uplink transmission timing
REL-4
>>>Synchronisation parameters
CV-HandoverType




>>>>SYNC_UL codes bitmap
MP

SYNC_UL codes bitmap
10.3.6.78o

REL-4
>>>>FPACH info
MP

FPACH info 10.3.6.35a

REL-4
>>>>PRXUpPCHdes
MP

Integer(-120…-58 by step of 1)
In dBm
REL-4
>>>>SYNC_UL procedure
MD


Default is:
Max SYNC_UL Transmission is 2.
Power Ramp Step is 2.
REL-4
>>>>>Max SYNC_UL Transmissions
MP

Integer(1,2,4,8)
Maximum numbers of SYNC_UL transmissions in a power ramping sequence.
REL-4
>>>>>Power Ramp Step
MP

Integer(0,1,2,3)
In dB
REL-4

Condition
Explanation
HandoverType
This IE is mandatory present if it is inter-RAT handover, otherwise it is optional. 


10.3.6.97	E-DCH Info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MAC-es/e reset indicator
OP

Enumerated (TRUE)
TRUE Indicates the MAC-es/e or MAC-i/is entity needs to be reset.
REL-6
CHOICE mode
MP



REL-7
>FDD




REL-7
>>E-DPCCH info
OP

E-DPCCH Info 10.3.6.98

REL-6
>>E-DPDCH info
OP

E-DPDCH info 10.3.6.99

REL-6
>>Uplink MIMO info
OP

Uplink MIMO Info FDD 10.3.6.145

REL-11
>>Scheduled Transmission configuration
OP



REL-6
>>>2ms scheduled transmission grant HARQ process allocation
MD

Bitstring (8)
MAC-d PDUs belonging to MAC-d flows not configured with a “Max MAC-e PDU contents size” are only allowed to be transmitted in those processes for which the bit is set to “1”.
Bit 0 corresponds to HARQ process 0, bit 1 corresponds to HARQ process 1,…
Default value is: transmission in all HARQ processes is allowed. Bit 0 is the first/leftmost bit of the bit string.
REL-6
>>>Serving Grant
OP



REL-6
>>>>Serving Grant value
MP

Integer (0..37,38)
(0..37) indicates E-DCH serving grant index as defined in [15]; index 38 means zero grant.
REL-6
>>>>Primary/Secondary Grant Selector
MP

Enumerated (“primary”, “secondary”)
Indicates whether the Serving Grant is received with a Primary E-RNTI or Secondary E-RNTI
REL-6
>>UL 16QAM settings
OP

UL 16QAM settings
10.3.6.86a
Presence of this IE indicates that the UE should operate in 16QAM mode; absence indicates that the UE is not to operate in 16QAM mode. See Note 1.
REL-7
>>UL 64QAM settings
OP

UL 64QAM settings
10.3.6.86c
Presence of this IE indicates that the UE should operate in 64QAM mode; absence indicates that the UE is not to operate in 64QAM mode. 
REL-11
>TDD




REL-7
>>E-RUCCH info
OP

E-RUCCH Info
10.3.6.103

REL-7
>>E-PUCH info
OP

E-PUCH Info 10.3.6.104

REL-7
>>Non-scheduled transmission grant info
OP

Non-scheduled transmission grant info
10.3.6.41c

REL-7
NOTE 1:	If this IE is not present, the indices signaled on the E-AGCH refer to the Mapping of Absolute Grant Value Table 16B in [27].

10.3.6.97a	Multi-carrier E-DCH Info for LCR TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Configuration info
MP



REL-10
>Continue



(no data)
REL-10
>New configuration




REL-10
>>TSN-Length
OP

Enumerated
(tsn-14bits)
The presence of this IE indicates the length of TSN shall be 14 bits, otherwise, the length of TSN shall be 6 bits.
REL-10
>>Uplink Multi-carrier E-DCH Information List
OP
1 to < maxTDD128Carrier-1>


REL-10
>>>UARFCN
MP

Integer(0..16383)

REL-10
>>>PRXdes_base
MP

Integer
(-112..-50 by step of 1) 
dBm. Reference desired power level for E-PUCH
REL-10
>>>E-PUCH info
MD

E-PUCH Info for multi-carrier E-DCH 1.28Mcps TDD 10.3.6.104b
Default value is the value of the previous " E-PUCH info " in the list.
Default value of first occurrence is the value of  “E-PUCH info” in the  IE “E-DCH info”.
REL-10
>>>E-AGCH Info
MD

E-AGCH Info 1.28Mcps TDD 10.3.6.100a
Default value is the value of the previous " E-AGCH Info " in the list.
Default value of first occurrence is the value of “E-AGCH Info” in the  IE “Downlink information for each radio link”.
REL-10
>>>E-HICH Info
MD

E-HICH Info 1.28Mcps TDD
10.3.6.101a
Default value is the value of the previous " E-HICH Information " in the list.
Default value of first occurrence is the value of “E-HICH Information” in the  IE “Downlink information for each radio link”.
REL-10
>>Uplink Multi-carrier E-DCH Delete List
CV-serving_cell_change
1 to < maxTDD128Carrier-1>


REL-10
>>>UARFCN
MP

Integer(0..16383)

REL-10

Condition
Explanation
serving_cell_change
This IE is not needed in the serving cell change. Otherwise, the IE is Optional

10.3.6.98	E-DPCCH Info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-DPCCH/DPCCH power offset
MP

Integer (0..8)
Refer to quantization of the power offset in [28]
REL-6
Happy bit delay condition
MP

Enumerated (2ms, 10ms,20ms,50ms, 100ms, 200ms, 500ms,
1000ms)
To be used when determining the setting of the happy bit (see [15])
REL-6
E-TFC Boost Info 
OP

E-TFC Boost Info 10.3.6.106
Absence of this IE means that boosting of E-DPCCH is disabled
REL-7
E-DPDCH power interpolation
OP

Boolean
TRUE means E-DPDCH power interpolation formula is used, FALSE means E-DPDCH power extrapolation formula is used for the computation of the gain factor ed  according to [29].
Absence of this IE means that E-DPDCH power extrapolation formula is used for the computation of the gain factor ed according to [29].
REL-7

10.3.6.99	E-DPDCH Info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-TFCI table index
MP

Integer (0..1)
Indicates which standardised E-TFCI TB size table shall be used.  See Note 3.
REL-6
E-DCH minimum set E-TFCI
MD

Integer (0..127)
See [15]; Absence means no E-DCH minimum set
REL-6
Reference E-TFCIs
MP
1 to 8

See [29]
REL-6
>Reference E-TFCI
MP

Integer (0..127)

REL-6
>Reference E-TFCI PO
MP

Integer (0..29,
Refer to quantization of the power offset in [28]
REL-6



30, 31)
Values 30 and 31 are only used for E-TFCI > ETFCI Boost
REL-7
Minimum reduced E-DPDCH gain factor
OP

Enumerated (8/15, 11/15, 15/15, 21/15, 30/15, 42/15, 60/15, 84/15)
βed,k,reduced,min [29]; the default value is 8/15. If the configurable reduced E-DPDCH gain factor is not supported by the UE, the default value is used.
REL-8
Maximum channelisation codes
MP

Enumerated (sf256, sf128, sf64, sf32, sf16, sf8, sf4, 2sf4, 2sf2, 2sf2and2sf4)

REL-6
PLnon-max
MP

Real (0.44 ..1.0 by step of 0.04)
As defined in [27]
REL-6
Scheduling Information Configuration
MP



REL-6
>Periodicity for Scheduling Info – no grant
MD

Enumerated (everyEDCHTTI,4,10,20,50,100,200,500,1000)
Values in ms.
Default value is “no report”
NOTE 1.
REL-6

>Periodicity for Scheduling Info – grant
MD

Enumerated (everyEDCHTTI,4,10,20,50,100,200,500,1000)
Values in ms.
Default value is “no report”
NOTE 1.
REL-6
>Power Offset for Scheduling Info 
MP

Integer (0..6)
Only used when no MACd PDUs are included in the same MAC-e or MAC-i PDU. Unit is in dB.
REL-6
3-Index-Step Threshold
MD

Integer (0..37)
Refers to an index in the “SG-Table” (see [15]).
Default value is 0.
NOTES 2, 3.
REL-6
2-Index-Step Threshold
MD

Integer (0..37)
Refers to an index in the “SG-Table” (see [15]).
Default value is 0.
NOTES 2, 3.
REL-6
NOTE 1:	If the Periodicity is set to 4ms and the E-DCH TTI is set to 10ms, the UE shall interpret the periodicity value as 10ms.
NOTE 2:	If the 3-index-Step Threshold value is greater than 2-index-Step Threshold, the UE behaviour is unspecified.
NOTE 3: 	If the UE is operating in 16QAM mode, the value of “E-TFCI table index” is increased by 2, and indices in the SG-Table refer to Scheduling Grant Table 2 in [15]. If the UE is operating in 64QAM mode, the UE shall use E-TFCI table 4 as specified in [15] irrespective of the value of “E-TFCI table index, and indices in the SG-Table refer to Scheduling Grant Table 2 in [15].

10.3.6.100	E-AGCH Info
Includes the configuration for the E-DCH related Absolute Grant Channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP



REL-7
>FDD




REL-7
>>E-AGCH Channelisation Code
MP

Integer (0..255)

REL-6
>TDD




REL-7
>>CHOICE TDD Option
MP



REL-7
>>>3.84 Mcps TDD




REL-7
>>>>Long Term Grant Indicator
MD

Boolean
FALSE = Short Term
TRUE = Long Term
Default = FALSE (Short Term)
REL-7
>>>>Length of TTRI field
MP

Integer(1..12)
Indicated length of  the bitmap used to indicate which of the timeslots configured for E-DCH are allocated
REL-7
>>>>E-AGCH set configuration
MP
<1 to maxNumE-AGCH>


REL-7
>>>>>TS number
MP

Integer(0..14)

REL-7
>>>>>Channelisation code
MP

Enumerated(16/1, 16/2,....16/16)

REL-7
>>>>>CHOICE Burst Type




REL-7
>>>>>>Type 1




REL-7
>>>>>>>Midamble allocation mode
MP

Enumerated(Default, Common, UE specific)

REL-7
>>>>>>>Midamble configuration burst type 1
MP

Enumerated(4, 8, 16)

REL-7
>>>>>>>Midamble shift
CV-UE specific

Integer(0..15)

REL-7
>>>>>>Type 2





>>>>>>>Midamble allocation mode
MP

Enumerated(Default, Common, UE specific)

REL-7
>>>>>>>Midamble configuration burst type 2
MP

Enumerated(3, 6)

REL-7
>>>>>>>Midamble shift
CV-UE specific

Integer(0..5)

REL-7
>>>>E-AGCH BLER target
MP

Real(-3.15 to 0 step 0.05)

REL-7
>>>7.68 Mcps TDD




REL-7
>>>>Long Term Grant Indicator
MD

Boolean
FALSE = Short Term
TRUE = Long Term
Default = FALSE (Short Term)
REL-7
>>>>Length of TTRI field
MP

Integer(1..12)
Indicated length of  the bitmap used to indicate which of the timeslots configured for E-DCH are allocated
REL-7
>>>>E-AGCH set configuration
MP
<1 to maxNumE-AGCH>


REL-7
>>>>>TS number
MP

Integer(0..14)

REL-7
>>>>>Channelisation code
MP

Enumerated(32/1, 32/2,....32/32)

REL-7
>>>>>CHOICE Burst Type




REL-7
>>>>>>Type 1




REL-7
>>>>>>>Midamble allocation mode
MP

Enumerated(Default, Common, UE specific)

REL-7
>>>>>>>Midamble configuration burst type 1
MP

Enumerated(4, 8, 16)

REL-7
>>>>>>>Midamble shift
CV-UE specific

Integer(0..15)

REL-7
>>>>>>Type 2





>>>>>>>Midamble allocation mode
MP

Enumerated(Default, Common, UE specific)

REL-7
>>>>>>>Midamble configuration burst type 2
MP

Enumerated(3, 6)

REL-7
>>>>>>>Midamble shift
CV-UE specific

Integer(0..5)

REL-7
>>>>E-AGCH BLER target
MP

Real(-3.15 to 0 step 0.05)

REL-7
>>>1.28 Mcps TDD




REL-7
>>>>RDI Indicator
MP

Boolean
TRUE indicates a RDI field is present on E-AGCH type 1, 
REL-7
>>>>TPC step size
MP

Integer (1, 2, 3)
dB.
REL-7
>>>>E-AGCH set configuration
MP
<1 to maxNumE-AGCH>


REL-7
>>>>>Timeslot number
MP

Integer (0..6)

REL-7
>>>>>First Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-7
>>>>>Second Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-7
>>>>>Midamble Allocation mode
MP

Enumerated
(Default midamble, Common midamble, UE specific midamble)

REL-7
>>>>>Midamble configuration
MP

Integer (2, 4, 6, 8, 10, 12, 14, 16)

REL-7
>>>>> Midamble Shift  
CV-UE specific

Integer (0..15) 

REL-7
>>>>E-AGCH BLER target
MP

Real(-3.15 to 0 step 0.05) 

REL-7
>>>>E-AGCH Inactivity Monitor Threshold
MD

Enumerated (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, infinity)
Units of subframes.
Default value is "8".
Four spare values are needed.
REL-8

10.3.6.100a	E-AGCH Info 1.28Mcps TDD
Includes the configuration for the E-DCH related Absolute Grant Channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RDI Indicator
MP

Boolean
TRUE indicates a RDI field is present on E-AGCH type 1, 
REL-8
TPC step size
MP

Integer (1, 2, 3)
dB.
REL-8
E-AGCH set configuration
MP
<1 to maxNumE-AGCH>


REL-8
>Timeslot number
MP

Integer (0..6)

REL-8
>First Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-8
>Second Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-8
>Midamble Allocation mode
MP

Enumerated
(Default midamble, Common midamble, UE specific midamble)

REL-8
>Midamble configuration
MP

Integer (2, 4, 6, 8, 10, 12, 14, 16)

REL-8
>Midamble Shift  
CV-UE specific

Integer (0..15) 

REL-8
E-AGCH BLER target
MP

Real(-3.15 to 0 step 0.05) 

REL-8

Condition
Explanation
UE specific
This IE is mandatory present when the value of the IE "Midamble Allocation Mode" is "UE specific midamble" and not needed otherwise.

10.3.6.101	E-HICH Info
Includes the configuration for the E-DCH related HARQ Acknowledgement Indicator Channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP



REL-7
>FDD




REL-7
>>Channelisation Code
MP

Integer (0..127)

REL-6
>>Signature Sequence
MP

Integer (0..39)

REL-6
>>Secondary TB Signature Sequence
OP

Integer (0..39)
The second E-HICH signature used to acknowledge the UL MIMO secondary stream transport block.
REL-11
>TDD




REL-7
>>CHOICE TDD Option
MP



REL-7
>>>3.84 Mcps TDD




REL-7
>>>>NE-HICH
MP

Integer(4..44)
Minimum number of slots between start last active slot of E-DCH TTI and start of ACK/NACK on E-HICH (see[?]]
REL-7
>>>>TS number
MP

Integer(0..14)

REL-7
>>>>Channelisation Code
MP

Enumerated(16/1, 16/2,..16/16)

REL-7
>>>>Burst type
MP

Enumerated(Type1, Type2)

REL-7
>>>>Midambe allocation mode
MP

Enumerated(Default, Common)

REL-7
>>>7.68 Mcps TDD




REL-7
>>>>NE-HICH
MP

Integer(4..44)
Minimum number of slots between start last active slot of E-DCH TTI and start of ACK/NACK on E-HICH (see[?]]
REL-7
>>>>TS number
MP

Integer(0..14)

REL-7
>>>>Channelisation Code
MP

Enumerated(32/1, 32/2,..32/32)

REL-7
>>>>Burst type
MP

Enumerated(Type1, Type2)

REL-7
>>>>Midambe allocation mode
MP

Enumerated(Default, Common)

REL-7
>>>1.28 Mcps TDD




REL-7
>>>> NE-HICH
MP

Integer (4..15) 
Minimum number of slots between start last active slot of E-DCH TTI and start of ACK/NACK on E-HICH 
REL-7
>>>>E-HICH set configuration

<1 to maxNumE-HICH>


REL-7
>>>>>EI
MP

Integer (0..3)

REL-7
>>>>>Timeslot number
MP

Integer (0..6)

REL-7
>>>>>Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-7
>>>>>Midamble Allocation mode
MP

Enumerated (Default midamble, UE specific midamble)

REL-7
>>>>>Midamble configuration
MP

Integer (2, 4, 6, 8, 10, 12, 14, 16)

REL-7
>>>>>Midamble Shift
CV-UE specific

Integer (0..15)

REL-7

10.3.6.101a	E-HICH Info 1.28Mcps TDD
Includes the configuration for the E-DCH related HARQ Acknowledgement Indicator Channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
NE-HICH
MP

Integer (4..15) 
Minimum number of slots between start last active slot of E-DCH TTI and start of ACK/NACK on E-HICH 
REL-8
E-HICH set configuration
MP
<1 to maxNumE-HICH>


REL-8
>EI
MP

Integer (0..3)

REL-8
>Timeslot number
MP

Integer (0..6)

REL-8
>Channelisation code
MP

Enumerated
((16/1) ..(16/16))

REL-8
>Midamble Allocation mode
MP

Enumerated (Default midamble, UE specific midamble)

REL-8
>Midamble configuration
MP

Integer (2, 4, 6, 8, 10, 12, 14, 16)

REL-8
>Midamble Shift
CV-UE specific

Integer (0..15)

REL-8

Condition
Explanation
UE specific
This IE is mandatory present when the value of the IE "Midamble Allocation Mode" is "UE specific midamble" and not needed otherwise.

10.3.6.102	E-RGCH Info (FDD only)
Includes the configuration for the E-DCH related Relative Grant Channel. The E-RGCH is using the same channelisation code as configured for the E-HICH channel (see subclause 10.3.6.101).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Signature Sequence
MP

Integer(0..39)

REL-6
RG combination index
MP

Integer(0..5)
Cells with an index equal to the index of the Serving E-DCH cell belong to the Serving E-DCH RLS. The E-RGCH from these cells have RG commands which for the UE are known to be the same as the RG commands from the Serving E-DCH cell.
REL-6

10.3.6.103	E-RUCCH Info (TDD only)
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE TDD mode




REL-7
>3.84/7.68 Mcps TDD




REL-7
>>E-RUCCH constant value
MP

Integer (-35..10)
Power to be used 
REL-7
>>E-RUCCH persistence scaling factor
MP

Real(0.9..0.2 by step of 0.1)

REL-7
>>T-RUCCH
MD

Integer(40..320 by step of 40)
Default =200ms
If T-RUCH expires before Grant is received then uE should send scheduling information again on E-RUCH
REL-7
>>E-RUCCH timeslot number
MD

Timeslot number 10.3.6.84
Default is same as PRACH timeslot number
REL-7
>>E-RUCCH midamble
MD

Enumerated(Direct, Direct/Inverted)
Default is as PRACH midamble
REL-7
>>T-Adv
MD

Enumerated (1, 2, 4, 8, 16, 32, 128, infinity)
Default is 1 second
REL-7
>>T-SCHED
MD

Enumerated (0, 40ms, 80ms, 160ms, 25oms, 1sec, 2sec, 4sec)
Default is 0 second (include Scheduling Information in every MAC-e PDU)
REL-7
>>CHOICE TDD option




REL-7
>>>3.84 Mcps TDD




REL-7
>>>>CHOICE SF
MP



REL-7
>>>>>SF16




REL-7
>>>>>>Channelisation Code List
MP
1 to 8


REL-7
>>>>>>>Channelisation code
MP

Enumerated
((16/1)...(16/8))
There is a 1:1 mapping between spreading code and midamble shift defined in [30] for channelisation codes (16/1) to (16/8).

NOTE: channelisation codes (16/9) to (16/16) are not to be used.
REL-7
>>>>>SF8




REL-7
>>>>>>Channelisation Code List
MP
1 to 8


REL-7
>>>>>>>Channelisation Code
MP

Enumerated((8/1)..(8/8))

REL-7
>>>7.68 Mcps TDD




REL-7
>>>>CHOICE SF
MP



REL-7
>>>>>SF32




REL-7
>>>>>>Channelisation Code List
MP
1 to 16


REL-7
>>>>>>>Channelisation code
MP

Enumerated
((32/1)...(32/16))
There is a 1:1 mapping between spreading code and midamble shift defined in [30] for channelisation codes (32/1) to (32/16).

NOTE: channelisation codes (32/17) to (32/32) are not to be used.
REL-7
>>>>>SF16




REL-7
>>>>>>Channelisation Code List
MP
1 to 16


REL-7
>>>>>>>Channelisation Code
MP

Enumerated((16/1)..(16/16))

REL-7
>1.28 Mcps TDD




REL-7
>>T-RUCCH
MD

Enumerated (20, 40, 60, 80, 120, 160, 200, 240, 280, 320, 400, 500, 600, 800, 1000, 2000)
Default = 120 ms
If T-RUCCH expires before Grant is received then UE should send scheduling information again on E-RUCCH
REL-7
>>N-RUCCH
MD

Integer (0…7)
Default = 3
Maximum number of retransmissions of scheduling information on E-RUCCH
REL-7
>>T-WAIT
MD

Enumerated (everyEDCHTTI, 40, 80, 160, 320, 640, 1000, 2000)
Values in ms.
Default = 40ms
If T-WAIT expires then UE should send scheduling information on E-RUCCH
REL-7
>>T-SI
MD

Enumerated (everyEDCHTTI, 20, 40, 60, 80, 160, 200)
Values in ms.
Default = 40ms
If periodic T-SI expires then UE should include scheduling information in a new MAC-e PDU
REL-7
>>Extended Estimation Window
OP

Integer (2..5)
Values in 5ms TTI.
Indicates how many next consecutive 5ms TTIs the UE should estimate whether there is a Grant valid before sending Scheduling Infomation via E-RUCCH
REL-7
>>E-RUCCH Access Service class
OP
1 to <maxASC>

If only "NumASC+1" (with, NumASC+1 < maxASC) ASCs are listed, the remaining (NumASC+2 through maxASC) ASCs are unspecified.
REL-7
>>>E-RUCCH ASC Setting
MD

ASC setting 10.3.6.6
The default values are same as the PRACH ASC.
If the "default" is used for the first ASC, the default values are all available signatures and "all available sub-channels" for FDD and "all available channelisation codes" and "all available subchannels" with "subchannel size=Size 1" in TDD.
REL-7
>>E-RUCCH persistence scaling factor list
OP
1 to <maxASCpersist>

multiplicity corresponds to the number of E-RUCCH ASCs minus 2
REL-7
>>>Persistence scaling factor
MP

Real(0.9..0.2 by step of 0.1)

REL-7
>>SYNC_UL info
OP

SYNC_UL info for E-RUCCH 10.3.6.78d

REL-7
>>PRACH Information
OP
1..<maxPRACH_FPACH>


REL-7
>>>Timeslot number
MP

Timeslot number 10.3.6.84

REL-7
>>> Channelisation Code List
MP
1 to 2


REL-7
>>>> Channelisation Code
MP

Enumerated ((4/1)..(4/4),(8/1)..(8/8),(16/1)..(16/16))

REL-7
>>>Midamble Shift and burst type
MP

Midamble shift and burst type 10.3.6.41

REL-7
>>>FPACH info
OP

FPACH info 10.3.6.35a

REL-7

10.3.6.103a	E-RUCCH Info 1.28Mcps TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
T-RUCCH
MD

Enumerated (20, 40, 60, 80, 120, 160, 200, 240, 280, 320, 400, 500, 600, 800, 1000, 2000)
Default = 120 ms
If T-RUCCH expires before Grant is received then UE should send scheduling information again on E-RUCCH
REL-8
N-RUCCH
MD

Integer (0…7)
Default = 3
Maximum number of retransmissions of scheduling information on E-RUCCH
REL-8
T-WAIT
MD

Enumerated (everyEDCHTTI, 40, 80, 160, 320, 640, 1000, 2000)
Values in ms.
Default = 40ms
If T-WAIT expires then UE should send scheduling information on E-RUCCH
REL-8
T-SI
MD

Enumerated (everyEDCHTTI, 20, 40, 60, 80, 160, 200)
Values in ms.
Default = 40ms
If periodic T-SI expires then UE should include scheduling information in a new MAC-e PDU
REL-8
Extended Estimation Window
OP

Integer (2..5)
Values in 5ms TTI.
Indicates how many next consecutive 5ms TTIs the UE should estimate whether there is a Grant valid before sending Scheduling Infomation via E-RUCCH
REL-8
E-RUCCH Access Service class
OP
1 to <maxASC>

If only "NumASC+1" (with, NumASC+1 < maxASC) ASCs are listed, the remaining (NumASC+2 through maxASC) ASCs are unspecified.
The IE is only included when E-DCH is configured on secondary frequency for a specific UE
REL-8
>E-RUCCH ASC Setting
MD

ASC setting 10.3.6.6
The default values are same as the PRACH ASC.
If the "default" is used for the first ASC, the default values are all available signatures and "all available sub-channels" for FDD and "all available channelisation codes" and "all available subchannels" with "subchannel size=Size 1" in TDD.
REL-8
E-RUCCH persistence scaling factor list
OP
1 to <maxASCpersist>

multiplicity corresponds to the number of E-RUCCH ASCs minus 2
REL-8
>Persistence scaling factor
MP

Real(0.9..0.2 by step of 0.1)

REL-8
SYNC_UL info
OP

SYNC_UL info for E-RUCCH 10.3.6.78d

REL-8
PRACH Information
OP
1..<maxPRACH_FPACH>


REL-8
>Timeslot number
MP

Timeslot number 10.3.6.84

REL-8
> Channelisation Code List
MP
1 to 2


REL-8
>>Channelisation Code
MP

Enumerated ((4/1)..(4/4),(8/1)..(8/8),(16/1)..(16/16))

REL-8
>Midamble Shift and burst type
MP

Midamble shift and burst type 10.3.6.41

REL-8
>FPACH info
OP

FPACH info 10.3.6.35a

REL-8

10.3.6.104		E-PUCH Info (TDD only)
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-TFCS information
MP

E-TFCS info
10.3.6.105

REL-7
CHOICE TDD mode




REL-7
>3.84/7.68 Mcps TDD




REL-7
>>NE-UCCH
MD

Integer(1..12)
No of slots that are required to carry TPC and TFCI (consecutively allocated slots beginning with the first). Default = 1 (first allocated slot).
REL-7
>>E-PUCH constant value
MP

Integer (-35..10)
Power to be used
REL-7
>>E-PUCH TS configuration list
MP
<1 to maxTS-2>


REL-7
>>>TS number
MP

Integer(0..14)

REL-7
>>>CHOICE Burst Type
MP



REL-7
>>>>Type 1




REL-7
>>>>>Midamble allocation mode
MP

Enumerated(Default, UE specific)

REL-7
>>>>>Midamble configuration burst type 1
MP

Enumerated(4, 8, 16)

REL-7
>>>>>Midambe shift
CV-UE specific

Integer (0..15)

REL-7
>>>>Type 2




REL-7
>>>>>Midamble allocation mode
MP

Enumerated(Default, UE specific)

REL-7
>>>>>Midamble configuration burst type 2
MP

Enumerated(3, 6)

REL-7
>>>>>Midambe shift
CV-UE specific

Integer (0..5)

REL-7
>>E-PUCH code hopping
MP

Boolean

REL-7
>>E-PUCH TPC step size
MP

Integer (1,2,3)

REL-7
>>Minimum allowed code rate
MP

Integer (0..63)
Maps 0.055 to 1.0 in steps of 0.015
REL-7
>>Maximum allowed code rate
MP

Integer (0..63)
Maps 0.055 to 1.0 in steps of 0.015
REL-7
>1.28 Mcps TDD




REL-7
>>SNPL Reporting Type
OP

Enumerated (type1, type2)

REL-7
>>PRXdes­_base
MP

Integer
(-112..-50 by step of 1) 
dBm. Reference desired power level for E-PUCH
REL-7
>>Beacon PL Est.
MD

Boolean
TRUE indicates that the UE may take into account path loss estimated from beacon function physical channels. Default value is FALSE
REL-7
>>TPC step size
MP

Integer (1, 2, 3)
dB.
REL-7
>>Pebase power control gap
MD

Integer (1…255)
Unit: Number of subframes,
Default value is 1.
Value 255 represents infinite in which case closed loop power control shall always be used.
REL-7
>>Uplink synchronisation parameters
MD


Default: Uplink synchronisation step size 1.
Uplink synchronisation frequency 1.
REL-7
>>>Uplink synchronisation step size
MP

Integer (1..8)
This parameter specifies the step size to be used for the adjustment of the uplink transmission timing
REL-7
>>>Uplink synchronisation frequency
MP

Integer (1..8)
This parameter specifies the frequency of the adjustment of the uplink transmission timing
REL-7
>>E-PUCH TS configuration list
MP
<1 to maxTS-LCR-1>


REL-7
>>>TS number
MP

Integer (1..5)

REL-7
>>>Midamble shift and burst type
MP



REL-7
>>>>Midamble Allocation Mode
MP

Enumerated (Default midamble,  UE specific midamble)

REL-7
>>>>Midamble configuration
MP

Integer (2, 4, 6, 8, 10, 12, 14, 16)
As defined in [30]
REL-7
>>>>Midamble Shift
CV-UE specific

Integer (0..15)

REL-7
>>Minimum allowed code rate
MP

Integer (0..63)
Maps 0.055 to 1.0 in steps of 0.015
REL-7
>>Maximum allowed code rate
MP

Integer (0..63)
Maps 0.055 to 1.0 in steps of 0.015
REL-7
>>Maximum number of retransmissions for Scheduling Info 
MP

Integer (0..15)
Only used when no MAC-d PDUs are included in the same MAC-e PDU or MAC-i PDU.
REL-7
>>Retransmission Timer for Scheduling Info 
MP

Enumerated (10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 110, 120, 140, 160, 200, 240, 280, 320, 400, 480, 560)
Only used when no MAC-d PDUs are included in the same MAC-e PDU or MAC-i PDU. Unit is ms.
REL-7
Power Offset for Scheduling Info 
OP

Integer (0..6)
If present, this IE should be ignored for LCR TDD. Only used when no MACd PDUs are included in the same MACe PDU. Unit is in dB.
REL-7

Condition
Explanation
UE specific
This IE is mandatory present when the value of the IE "Midamble Allocation Mode" is "UE specific midamble" and not needed otherwise.

10.3.6.104a		E-PUCH Info 1.28Mcps TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-TFCS information
MP

E-TFCS info
10.3.6.105

REL-8
SNPL Reporting Type
OP

Enumerated (type1, type2)

REL-8
PRXdes_base
MP

Integer
(-112..-50 by step of 1) 
dBm. Reference desired power level for E-PUCH
REL-8
Beacon PL Est.
MD

Boolean
TRUE indicates that the UE may take into account path loss estimated from beacon function physical channels. Default value is FALSE
REL-8
TPC step size
MP

Integer (1, 2, 3)
dB.
REL-8
Pebase power control gap
MD

Integer (1…255)
Unit: Number of subframes,
Default value is 1.
Value 255 represents infinite in which case closed loop power control shall always be used.
REL-8
Uplink synchronisation parameters
MD


Default: Uplink synchronisation step size 1.
Uplink synchronisation frequency 1.
REL-8
>Uplink synchronisation step size
MP

Integer (1..8)
This parameter specifies the step size to be used for the adjustment of the uplink transmission timing
REL-8
>Uplink synchronisation frequency
MP

Integer (1..8)
This parameter specifies the frequency of the adjustment of the uplink transmission timing
REL-8
E-PUCH TS configuration list
MP
<1 to maxTS-LCR-1>


REL-8
>TS number
MP

Integer (1..5)

REL-8
>Midamble shift and burst type
MP



REL-8
>>Midamble Allocation Mode
MP

Enumerated (Default midamble,  UE specific midamble)

REL-8
>>Midamble configuration
MP

Integer (2, 4, 6, 8, 10, 12, 14, 16)
As defined in [30]
REL-8
>>Midamble Shift
CV-UE specific

Integer (0..15)

REL-8
Minimum allowed code rate
MP

Integer (0..63)
Maps 0.055 to 1.0 in steps of 0.015
REL-8
Maximum allowed code rate
MP

Integer (0..63)
Maps 0.055 to 1.0 in steps of 0.015
REL-8
Maximum number of retransmissions for Scheduling Info 
MP

Integer (0..15)
Only used when no MAC-d PDUs are included in the same MAC-i PDU.
REL-8
Retransmission Timer for Scheduling Info 
MP

Enumerated (10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90, 95, 100, 110, 120, 140, 160, 200, 240, 280, 320, 400, 480, 560)
Only used when no MAC-d PDUs are included in the same MAC-i PDU. Unit is ms.
REL-8

10.3.6.104b		E-PUCH Info for multi-carrier E-DCH 1.28Mcps TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-PUCH TS configuration list
MP
<1 to maxTS-LCR-1>


REL-10
>TS number
MP

Integer (1..5)

REL-10
>Midamble shift and burst type
MP



REL-10
>>Midamble Allocation Mode
MP

Enumerated (Default midamble,  UE specific midamble)

REL-10
>>Midamble configuration
MP

Integer (2, 4, 6, 8, 10, 12, 14, 16)
As defined in [30]
REL-10
>>Midamble Shift
CV-UE specific

Integer (0..15)

REL-10

Condition
Explanation
UE specific
If UE specific midamble allocation mode is configured, this IE is mandatory, otherwise it is not needed.

10.3.6.105	E-TFCS info (TDD only)
IE/Group Name
Presence
Multi
IE Type and Reference
Semantics Description
Version
Reference Beta Information QPSK list
MP
<1 to 8>


REL-7
>Reference Code Rate
MP

Integer (0..10)

Unit: -
Range: 0..1
Step: 0.1 
REL-7
>Reference Beta
MP

Integer (-15..16)
Unit range -15db to +16db
REL-7
Reference Beta Information 16QAM list
MP
<1 to 8>


REL-7
>Reference Code Rate
MP

Integer (0..10)

Unit: -
Range: 0..1
Step: 0.1 
REL-7
>Reference Beta
MP

Integer 
(-15..16)
Unit range -15db to +16db
REL-7

10.3.6.106	E-TFC Boost Info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-TFCI boost
MP

Integer (0..127)
E-TFCI threshold beyond which boosting of E-DPCCH is enabled
REL-7
Delta T2TP
CV- 
E-TFCI boost127

Integer (0..6)

REL-7

Condition
Explanation
E-TFCI boost127
If E-TFCI-Boost is set to 127 this IE is not needed, otherwise it is mandatory.

10.3.6.107	Control Channel DRX information 1.28Mcps TDD
NOTE:	For 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Control Channel DRX operation
MP



REL-8
>Continue Control Channel DRX operation




REL-8
>>Enabling Delay
OP

Enumerated (0, 1, 2, 4, 8, 16, 32, 64, 128, infinity)
In radio frames.
Six spare values are needed.
REL-8
>New Control Channel DRX operation




REL-8
>>HS-SCCH DRX information
MP

HS-SCCH DRX information 1.28 Mcps TDD
10.3.6.108

REL-8
>>E-AGCH DRX Information 
OP

E-AGCH DRX information 1.28 Mcps TDD
10.3.6.109

REL-8
>>Enabling Delay
MP

Enumerated (0, 1, 2, 4, 8, 16, 32, 64, 128, infinity)
In radio frames.
Six spare values are needed.
REL-8

10.3.6.108	HS-SCCH DRX information 1.28 Mcps TDD
NOTE:	For 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-SCCH DRX cycle 
MP

Enumerated (1, 2, 4, 8, 16, 32, 64)
Units of subframes.
One spare value is needed.
REL-8
Inactivity Threshold for HS-SCCH DRX cycle
OP

Enumerated (1, 2, 4, 8, 16, 32, 64, 128, 256, 512, infinity)
Units of subframes.
Five spare values are needed.
REL-8
HS-SCCH DRX Offset
MP

Integer (0..63)
Units of subframes. Offset of the HS-SCCH DRX cycles.
REL-8

10.3.6.109	E-AGCH DRX information 1.28 Mcps TDD
NOTE:	For 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE E-AGCH DRX information type
MP



REL-8
>Same as HS-SCCH



(no data)
Indicate the E-AGCH DRX Cycle and Offset are the same as the HS-SCCH DRX Cycle and Offset, and the E-AGCH Inactivity Monitor Threshold is absent
REL-8
>E-AGCH DRX parameters




REL-8
>>E-AGCH DRX cycle 
MP

Enumerated (1, 2, 4, 8, 16, 32, 64)
Units of subframes.
One spare value is needed.
REL-8
>>E-AGCH Inactivity Monitor Threshold
OP

Enumerated (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, infinity)
Units of subframes.
Four spare values are needed. If it is absent, the same IE in the IE “E-AGCH Info” is used as E-AGCH inactivity monitor threshold.
REL-8
>>E-AGCH DRX Offset
MP

Integer (0..63)
Units of subframes. Offset of the E-AGCH DRX cycles.
REL-8

10.3.6.110	SPS information 1.28 Mcps TDD
NOTE:	For 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-DCH SPS information
OP

E-DCH SPS information 1.28 Mcps TDD 10.3.6.111

REL-8
HS-DSCH SPS information
OP

HS-DSCH SPS information 1.28 Mcps TDD 10.3.6.112

REL-8

10.3.6.111	E-DCH SPS information 1.28 Mcps TDD
NOTE:	For 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE E-DCH SPS operation
MP



REL-8
>Continue E-DCH SPS operation



(no data)
REL-8
>New E-DCH SPS operation




REL-8
>>E-HICH Information 
MP



REL-8
>>>CHOICE Configuration Mode
MP



REL-8
>>>>Implicit




REL-8
>>>>>EI
OP

Integer (0..3)
If the IE does not exist, UE shall use the same configuration as the E-HICH for non-schedule transmission
REL-8
>>>>Explicit




REL-8
>>>>>Timeslot number
MP

Integer (0..6)

REL-8
>>>>>Channelisation code
MP

Enumerated ((16/1)..(16/16))

REL-8
>>>>>Midamble Allocation mode
MP

Enumerated (Default midamble, UE specific midamble)

REL-8
>>>>>Midamble configuration
MP

Integer (2, 4, 6, 8, 10, 12, 14, 16)

REL-8
>>>>>Midamble Shift
CV-UE specific

Integer (0..15)

REL-8
>>>Signature Sequence Group Index
MP

Integer (0..19)

REL-8
>>Transmission Pattern List
OP
1..< maxEDCHTxPattern-TDD128 >


REL-8
>>>Repetition period
MP

Integer (1, 2, 4, 8, 16, 32)
Value 1 indicate continuous
REL-8
>>>Repetition length
MP

Integer (1.. Repetition period – 1)
NOTE:	This is empty if repetition period is set to 1.
REL-8
>>Initial SPS info for E-DCH
OP



REL-8
>>>NE-UCCH
MD

Integer (1..8)
Number of E-UCCH and TPC instances within an E-DCH TTI. Default = 1.
REL-8
>>>Code Resource Information
MP

Enumerated ((1/1), (2/1),(2/2),(4/1)..(4/4),(8/1)..(8/8),(16/1)..(16/16))
As defined in [31], indicating which of the Channel Codes configured for E-DCH are allocated for SPS resource
REL-8
>>>Timeslot Resource Related InformationI
MP

Bit string (5)
As defined in [31], indicating which of the timeslots configured for E-DCH are allocated for SPS resource
REL-8
>>>Power Resource Related Information
MP

Integer (1..32) 
Indicates 0-31 PRRI index defined in [31], which specifies the maximum allowed E-PUCH resource that the UE may use [15].
REL-8
>>>Activation Time
MP

Activation time 10.3.3.1
Specifies the E-PUCH Offset in Radio Frame level.
REL-8
>>>Subframe number
MP

Integer (0..1)
Specifies the E-PUCH Offset in subframe level.
REL-8
>>>Initial Tx pattern Index
MP

Integer (0.. maxEDCHTxPattern-TDD128-1)

REL-8

Condition
Explanation
UE specific
If UE specific midamble allocation mode is configured, this IE is mandatory, otherwise it is not needed.

10.3.6.112	HS-DSCH SPS information 1.28 Mcps TDD
NOTE:	For 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE HS-DSCH SPS operation
MP



REL-8
>Continue HS-DSCH SPS operation



(no data)
REL-8
>New HS-DSCH SPS operation




REL-8
>>Transport Block Size List
OP
1..<maxTbsForHSDSCH-TDD128>


REL-8
>>>Transport Block Size Index
MP

Integer (1..63)
Index of the MAC-hs transport block size as described in [15]
REL-8
>>Receive Pattern List
OP
1..<maxRxPatternForHSDSCH-TDD128>


REL-8
>>>Repetition period
MP

Integer (1, 2, 4, 8, 16, 32)
Value 1 indicate continuous
REL-8
>>>Repetition length
MP

Integer (1.. Repetition period – 1)
NOTE:	This is empty if repetition period is set to 1.
REL-8
>>HARQ Info for Semi-Persistent Scheduling
OP



REL-8
>>>Number of Processes
MP

Integer (1..8)

REL-8
>>>Process Memory size
MP

Integer (800 .. 16000 by step of 800, 17600 .. 32000 by step of 1600, 36000 .. 80000 by step of 4000, 88000 .. 160000 by step of 8000, 176000 .. 304000 by step of 16000)
Maximum number of soft channel bits available in the virtual IR buffer [27]
REL-8
>>HS-SICH List
MP
1..<maxHSSICH-TDD128>


REL-8
>>>CHOICE Configuration Mode
MP



REL-8
>>>>Implicit




REL-8
>>>>>HS-SCCH Index
MP

Integer (1.. maxHSSCCHs)

REL-8
>>>>Explicit




REL-8
>>>>>Timeslot number
MP

Integer (0..6)

REL-8
>>>>>Channelisation code
MP

Enumerated ((16/1) ..(16/16))

REL-8
>>>>>Midamble Allocation mode
MP

Enumerated (Default midamble, UE specific midamble)

REL-8
>>>>>Midamble configuration
MP

Integer (2, 4, 6, 8, 10, 12, 14, 16)

REL-8
>>>>>Midamble Shift
CV-UE

Integer (0..15)

REL-8
>>Initial SPS info for HS-DSCH
OP



REL-8
>>>Timeslot Information 
MP

Bit string (5)
As defined in [31], indicating which of the timeslots configured for HS-PDSCH are allocated for SPS resource
REL-8
>>>Code Resource Information
MP


Note 1
REL-8
>>>>Start code
MP

Enumerated ((16/1)..(16/16))

REL-8
>>>>Stop code
MP

Enumerated ((16/1)..(16/16))

REL-8
>>>Activation Time
MP

Activation time 10.3.3.1
Specifies the HS-PDSCH Offset in Radio Frame level.
REL-8
>>>Subframe number
MP

Integer (0..1)
Specifies the HS-PDSCH Offset in subframe level.
REL-8
>>>Initial Transport Block Size Index
MP

Integer (0.. maxTbsForHSDSCH-TDD128-1)

REL-8
>>>Initial Rx pattern Index
MP

Integer (0.. maxRxPatternForHSDSCH-TDD128-1)

REL-8
>>>HS-SICH Index
MP

Integer (0.. maxHSSICH-TDD128-1)

REL-8
>>>Modulation
MP

Enumerated (QPSK, 16QAM)

REL-8

Condition
Explanation
UE specific
If UE specific midamble allocation mode is configured, this IE is mandatory, otherwise it is not needed.

NOTE 1:	HS-PDSCH channelisation codes are allocated contiguously from a signalled start code to a signalled stop code, and the allocation includes both the start and stop code. If a value of Start code = 16 and Stop code = 1 is signalled, a spreading factor of SF=1 shall be used for the HS-PDSCH resources.

10.3.6.113	Downlink channelisation codes MBSFN IMB
NOTE:	3.84 Mcps TDD MBSFN IMB only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
First channelisation code
MP

Integer (1..15)
Channelisation code (F) for SF16
REL-8
Last channelisation code
OP

Integer (1..15)
Channelisation code (L) for SF16;
If present: consecutive codes from F to L (modulo 16, excluding code 0) are used;
If absent: only one code (F) is used
REL-8

10.3.6.114	Secondary CCPCH frame type 2 info
NOTE:	3.84 Mcps TDD MBSFN IMB only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Sub-frame number
MP

Integer (0..4)

REL-8
Downlink channelisation codes
MP

Downlink channelisation codes MBSFN IMB 10.3.6.113

REL-8
CHOICE modulation
MP



REL-8
>QPSK



(no data)
REL-8
>16QAM




REL-8
>>CPICH secondary CCPCH power offset
MP

Integer (−11..4)
In dB
REL-8

10.3.6.115	Uplink secondary cell info FDD
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Configuration info
MP



REL-9
>Continue


(no data)
Uplink secondary cell info parameters remain unchanged.
REL-9
>New configuration




REL-9
>>Secondary serving E-DCH cell info
OP

Secondary serving E-DCH cell info 10.3.6.116

REL-9
>>Secondary E-DCH info common
OP

Secondary E-DCH info common 10.3.6.117

REL-9
>>Downlink information per radio link list on secondary UL frequency
OP

Downlink information per radio link list on secondary UL frequency 10.3.6.118

REL-9

10.3.6.116	Secondary serving E-DCH cell info 
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Primary E-RNTI
OP

E-RNTI 10.3.3.10a

REL-9
Secondary E-RNTI
OP

E-RNTI 10.3.3.10a

REL-9

10.3.6.117	Secondary E-DCH info common
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Frequency info
MP

Frequency info 10.3.6.36

REL-9
Scrambling code type
MP

Enumerated(short, long)

REL-9
Scrambling code number
MP

Integer(0..16777215)

REL-9
2ms scheduled transmission grant HARQ process allocation
MD

Bitstring (8)
MAC-d PDUs are only allowed to be transmitted in those processes for which the bit is set to “1”.
Bit 0 corresponds to HARQ process 0, bit 1 corresponds to HARQ process 1,…
Default value is: transmission in all HARQ processes is allowed. Bit 0 is the first/leftmost bit of the bit string.
REL-9
Serving Grant
OP



REL-9
>Primary/Secondary Grant Selector
MP

Enumerated (“primary”, “secondary”)
Indicates whether the Serving Grant is received with a Primary E-RNTI or Secondary E-RNTI
REL-9
Minimum reduced E-DPDCH gain factor
OP

Enumerated (8/15, 11/15, 15/15, 21/15, 30/15, 42/15, 60/15, 84/15)
βed,k,reduced,min [29]; the default value is 8/15. If the configurable reduced E-DPDCH gain factor is not supported by the UE, the default value is used.
REL-9
E-DCH minimum set E-TFCI
OP

Integer (0..127)
See [15];
Absence means no E-DCH minimum set on secondary uplink frequency
REL-9
Minimum TEBS threshold
CV-Implicit

Enumerated(2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2K, 4K, 8K, 16K, 32K, 64K, 128K, 256K, 512K, 1024K)
In bytes
And N Kbytes = N*1024 bytes. Twelve spare values are needed.
REL-12
Implicit Grant handling
CV-Message

Enumerated (TRUE)
Absense of this information element means that the UE is not configured for Implicit Grant handling on the secondary uplink frequency.
REL-12
DPCCH Power offset for secondary UL frequency
MP

Integer (0..7 by step of 1)
In dB
The power offset between the initial DPCCH power level on secondary UL frequency when it is activated and the current DPCCH power level on primary UL frequency.
REL-9
PC Preamble
MP

Integer (0..7)
In number of frames
REL-9
DPCCH Power Reset after DTX on secondary uplink frequency
CV-Message

DPCCH Power Reset after DTX on secondary uplink frequency 10.3.6.151

REL-12
Additional secondary cell info for mixed TTI configuration
CV- RBReconfig

Additional secondary cell info for mixed TTI configuration 10.3.6.155

REL-14

Condition
Explanation
Message
This IE is not needed if the IE "Uplink secondary cell info FDD" is included in HANDOVER TO UTRAN COMMAND message. Otherwise it is optional.
Implicit
This IE is optional if the IE "Implicit Grant handling" is present in the message. Otherwise it is not needed.
RBReconfig
This IE is optionally present in the RADIO BEARER RECONFIGURATION message. Otherwise it is not needed.

10.3.6.118	Downlink information per radio link list on secondary UL frequency
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Downlink information for each radio link on secondary UL frequency

1 to <maxEDCHRL>


REL-9
>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-9
>Cell ID
OP

Cell ID 10.3.2.2

REL-9
>Downlink F-DPCH info for each RL on secondary UL frequency
MP

Downlink F-DPCH info for each RL 10.3.6.23ob

REL-9
>E-AGCH Info
OP

E-AGCH Info 10.3.6.100

REL-9
>E-HICH Information
OP

E-HICH Info 10.3.6.101

REL-9
>CHOICE E-RGCH Information
OP



REL-9
>>E-RGCH Information


E-RGCH Info
10.3.6.102

REL-9
>>E-RGCH release indicator



(no data)
REL-9
>Secondary serving E-DCH radio link indicator
CV-Message

Enumerated (TRUE)
TRUE indicates that this radio link is the secondary serving E-DCH radio link
REL-12
>Radio Links without DPCH/F-DPCH indicator
CV-Message2


(no data)
REL-12

Condition
Explanation
Message
This IE is not needed if the IE "Uplink secondary cell info FDD" is included in HANDOVER TO UTRAN COMMAND message. Otherwise it is optional.
Message2
This IE is not needed if the IE "Uplink secondary cell info FDD" is included in HANDOVER TO UTRAN COMMAND message, or if the IE "Uplink secondary cell info FDD" is included as part of Target cell preconfiguration information in the ACTIVE SET UPDATE message. Otherwise it is optional.

10.3.6.119	Radio link addition information on secondary UL frequency
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Radio link addition information list on secondary UL frequency

1 to <maxEDCHRL-1>


REL-9
>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-9
>Cell ID
OP

Cell ID 10.3.2.2

REL-9
>Downlink F-DPCH info for each RL on secondary UL frequency
MP

Downlink F-DPCH info for each RL 10.3.6.23ob

REL-9
>E-HICH Information
MP

E-HICH Info 10.3.6.101

REL-9
>E-RGCH Information
OP

E-RGCH Info
10.3.6.102

REL-9
>Radio Links without DPCH/F-DPCH indicator
OP


(no data)
REL-12

10.3.6.120	Radio link removal information on secondary UL frequency
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Radio link removal information list on secondary UL frequency

1 to <maxEDCHRL>


REL-9
>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-9

10.3.6.121	E-DCH reconfiguration information on secondary UL frequency
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-DCH RL Info for new secondary serving E-DCH cell
OP



REL-9
>E-AGCH Info
MP

E-AGCH Info 10.3.6.100

REL-9
>E-HICH Information
OP

E-HICH Info 10.3.6.101
This IE is not present if the secondary serving E-DCH cell is added to the secondary E-DCH active set with this message.
REL-9
>CHOICE E-RGCH Information
OP


This IE is not present if the secondary serving E-DCH cell is added to the secondary E-DCH active set with this message.
REL-9
>>E-RGCH Information
MP

E-RGCH Info
10.3.6.102

REL-9
>>E-RGCH release indicator



(no data)
REL-9
E-DCH RL Info for other cells
OP
1 to <maxEDCHRL>

This IE is not allowed to include information on a RL added by this message, except in the case of an update to target cell preconfiguration information.
REL-9
>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-9
>E-HICH Information
OP

E-HICH Info 10.3.6.101

REL-9
>CHOICE E-RGCH Information
OP



REL-9
>>E-RGCH Information
MP

E-RGCH Info
10.3.6.102

REL-9
>>E-RGCH release indicator



(no data)
REL-9

10.3.6.122	MU-MIMO info 1.28 Mcps TDD
For 1.28 Mcps TDD only
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE MU-MIMO info
MP



REL-10
>Continue


(no data)

REL-10
>New configuration




REL-10
>>MU-MIMO operation
MP

Enumerated (Uplink, Downlink, Uplink and Downlink)
One spare value is needed.
REL-10
>>Standalone midamble info
OP



REL-10
>>>Midamble configuration
MP

Integer
(2, 4, 6, 8, 10, 12, 14, 16)
Midamble Allocation mode is UE specific midamble allocation
REL-10
>>>Midamble shift
MP

Integer
(0..15)
The allocated midamble shift.
REL-10
>>>Timeslot information
MP

Bit string (5)
Each bit indicates availability of a timeslot, where the timeslot is numbered "Timeslot 1" to "Timeslot 5". The value 1 of a bit indicates that the corresponding timeslot is available. 
"Timeslot 1" is the first/leftmost bit of the bit string.
REL-10
>>>Activation time
MP

Activation time 10.3.3.1
Specifies the standalone midamble channel  Offset in Radio Frame level.
REL-10
>>>Subframe number
MP

Integer (0..1)
Specifies the standalone midamble channel  Offset in subframe level.
REL-10
>>>Repetition period
MP

Enumerated (1, 2, 4, 8, 16, 32, 64)
Value 1 indicates continuous, in subframe level.
One spare value is needed.
REL-10
>>>Reference beta
CV-UL_E-DCH

Integer (-15.. 16)
In dB.
REL-10

Condition
Explanation
UL_E-DCH
This IE is mandatory present if IE "uplink transport channel type" is equal to "E-DCH". Otherwise it is not needed.

10.3.6.123	E-RGCH Info for Common E-DCH
Includes the configuration for the E-DCH related Relative Grant Channel to be used with common E-DCH in CELL_FACH and Idle mode. The E-RGCH is using the same channelisation code as configured for the E-HICH channel (see subclause 10.3.6.124).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Signature Sequence
MD

Integer(0..39)

NOTE1
REL-8
NOTE1:	The default value is defined by: 
Signature Sequence = (offset + common E-DCH resource list position) mod 40
where "offset" is the value of the last occurrence of the IE "Signature Sequence". If "Signature Sequence" is not present in the first occurrence, "offset" is equal to zero.
"common E-DCH resource list position" indicates the Common E-DCH resource Configuration Information number by order of appearance. The value of the "common E-DCH resource list position" is zero for the first occurrence.

10.3.6.124	E-HICH Info for Common E-DCH
Includes the configuration for the E-DCH related HARQ Acknowledgement Indicator Channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Channelisation Code
CV-Short

Integer (0..127)
If this IE is not present, the value is equal to the last occurrence of this IE.
REL-8
Signature Sequence
MD

Integer (0..39)

NOTE1
REL-8
NOTE1:	The default value is defined by: 
Signature Sequence = (offset + common E-DCH resource list position) mod 40
where "offset" is the value of the last occurrence of the IE "Signature Sequence". If "Signature Sequence" is not present in the first occurrence, "offset" is equal to zero.
"common E-DCH resource list position" indicates the Common E-DCH resource Configuration Information number by order of appearance. The value of the "common E-DCH resource list position" is zero for the first occurrence.

Condition
Explanation
Short
This IE is mandatory present for the first occurrence. Otherwise, this IE is optional. 

10.3.6.125	Uplink CLTD info FDD
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE Configuration info
MP



REL-11
>Continue


(no data)
Used in reconfigurations without interruption of uplink CLTD operation.
REL-11
>New configuration





>>S-DPCCH info
MP



REL-11
>>>S-DPCCH/DPCCH power offset
MP

Integer (0..6)
Refer to quantization of the power offset in [28].
REL-11
>>Initial CLTD activation state
CV-InitConfig

Enumerated (first state, second state)
Indicates the CLTD activation state as described in [27].
REL-11
>>Primary CPICH info
CV-DCHorMultiflow

Primary CPICH Info
10.3.6.60
Indicates the cell that determines the precoding weights amongst the active set cells.
REL-11

Condition
Explanation
DCHorMultiflow
If Uplink CLTD operation is configured, this IE is mandatory present if HS-DSCH is not configured and only DCH is configured. If the Multiflow operation and Uplink CLTD are simultaneously configured, then this IE is optional and indicates the Multiflow assisting serving HS-DSCH cell.
InitConfig
This IE is mandatory present in the initial uplink CLTD configuration. Otherwise it is optional.

10.3.6.126	Uplink OLTD info FDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Uplink OLTD activation
MP

Enumerated (TRUE)

REL-11

10.3.6.127	F-TPICH info
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
F-TPICH slot format 
MP

Integer (0..9)
Slot format used by F-TPICH in [26].
REL-11
F-TPICH code number
MP

Integer (0..255)

REL-11
F-TPICH frame offset
MP

Integer (0..38144 by step of 256)
Offset (in number of chips) between the beginning of the P-CCPCH frame and the beginning of the F-TPICH frame.
This is called F-TPICH,m in [26].
REL-11

NOTE:	The UTRAN should configure the F-TPICH info either only for the RL transmitted from the cell which determines the precoding weights, or for all the RL(s) within the RLS that the cell which determines the precoding weights belongs to, otherwise the UE behaviour is not specified.
10.3.6.128	F-TPICH reconfiguration info
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
F-TPICH info new cell that determines the precoding weights
OP


This IE is not present if the cell is added to the active set with this message.
REL-11
>F-TPICH info
MP

F-TPICH Info
10.3.6.127

REL-11
F-TPICH info other cells
OP
1 to <maxRL>

This IE is not allowed to include information on a RL added by this message, except in the case of an update to target cell preconfiguration information.
REL-11
>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-11
>CHOICE F-TPICH Info
MP



REL-11
>>F-TPICH Info


F-TPICH Info
10.3.6.127

REL-11
>>F-TPICH release indicator



(no data)
REL-11

10.3.6.129	Multiflow configuration info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Multiflow cell
MP

Enumerated(intra-NodeB,inter-NodeB)
Presence of this IE indicates that Multiflow is configured. 

"intra-NodeB" means that this cell belongs to the same Node B as the serving HS-DSCH cell and should be associated to the same MAC-ehs entity. 

"inter-NodeB" indicates that this is the inter-Node B cell and should be associated with the second MAC-ehs entity.
REL-11
Multiflow time reference cell
OP

Enumerated(TRUE)
Presence of this IE indicates that this cell is the time reference for the UL HS-DPCCH channel.
REL-11

10.3.6.130	NodeB triggered HS-DPCCH Transmission
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-DPCCH transmission continuation back off
OP

Enumerated (10, 20, 30, 40, 80, 160, 320, 800)
In terms of ms. If not present, implicit common E-DCH resource release based on HS-DPCCH transmission continuation back off is disabled.
REL-11

10.3.6.131	Common E-DCH system info parameters for Concurrent TTI
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Common E-DCH MAC-d flow info for Concurrent TTI
OP

Common E-DCH MAC-d flow info for Concurrent TTI
10.3.5.26

REL-11
Initial Serving grant value
MD

Integer (0..37)
(0..37) indicates E-DCH serving grant index as defined in [15]. 
NOTE 1
REL-11
E-AGCH Info
MD

E-AGCH Info 10.3.6.100
NOTE 1
REL-11
Uplink DPCH power control info for Concurrent TTI
OP

Uplink DPCH power control info for Concurrent TTI
10.3.6.132

REL-11
E-DPCCH/DPCCH power offset
MD

Integer (0..8)
Refer to quantization of the power offset in [28]. Default value is the value included in the IE "E-DPCCH Info" included in the IE "Common E-DCH System Info" of the System Information Block Type 5/5bis 
REL-11
E-DPDCH info
MP

E-DPDCH info 10.3.6.99

REL-11
Additional E-DCH transmission back off 
MD

Integer (0..15)
In terms of TTIs. NOTE 1
REL-11
Maximum E-DCH resource allocation for CCCH
MD

Enumerated (8, 12, 16, 20, 24, 32, 40, 80)
In terms of TTIs. NOTE 1
REL-11
Maximum period for collision resolution phase
MD

Integer (8..24)
In terms of TTIs. NOTE 1
REL-11
E-DCH transmission continuation back off
MD

Enumerated (0, 4, 8, 16, 24, 40, 80, infinity)
In terms of TTIs. If set to "infinity", implicit common E-DCH resource release is disabled. 
NOTE 1
REL-11
Measurement Feedback Info for Concurrent TTI
OP

Measurement Feedback Info for Concurrent TTI
10.3.6.133

REL-11
NOTE 1:	Default value is the value included in the IE "Common E-DCH system info" of the System Information Block Type 5/5bis.

10.3.6.132	Uplink DPCH power control info for Concurrent TTI
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
ACK
OP

Integer
(0..8)
Refer to quantization of the power offset in [28]
REL-11
NACK
OP

Integer
(0..8)
refer to quantization of the power offset in [28]
REL-11
Ack-Nack repetition factor
OP

Integer(1..4)

REL-11
NOTE:	The IE’s "Power Control Algorithm" and "TPC step size" shall use the corresponding values included in the IE "Uplink DPCH power control info" of the System Information Block Type 5/5bis.

10.3.6.133	Measurement Feedback Info for Concurrent TTI
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CQI Feedback cycle, k
OP

Integer
(0, 2, 4, 8, 10, 16, 20, 32, 40, 64, 80, 160)
In milliseconds.
REL-11
CQI repetition factor
OP

Integer
(1..4)

REL-11
CQI
OP

Integer (0..8)
Refer to quantization of the power offset in [28] 
REL-11
NOTE:	The IE "Measurement Power Offset" shall use the value included in the IE "Measurement Feedback Info" of the System Information Block Type 5/5bis.

10.3.6.134		PRACH preamble control parameters extension list (for Enhanced Uplink)
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PRACH preamble control parameters list (for Enhanced Uplink)
MP
1 to <maxPRACH_EUL>


REL-11
>PRACH preamble control parameters (for Enhanced Uplink)
MP

PRACH preamble control parameters extension (for Enhanced Uplink) 10.3.6.136
Control parameters of the physical signal. 
REL-11
>Weight
OP

Real (0.2..1 by step of 0.2)
Probability of selecting this occurrence of PRACH preamble control parameters.
REL-11
NOTE 1:	A weight given by: 1 – (sum of the values of the IE "Weight" across all occurrences), shall be used as value of the Lth occurrence of the IE "Weight”, where L is as defined in sub-clause 8.5.73.

NOTE 2:	The sum of the values of the IE "Weight" across all occurrences in this IE should be less than 1.
10.3.6.135		PRACH preamble control parameters extension list for Type 1 (for Enhanced Uplink)
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PRACH preamble control parameters list (for Enhanced Uplink)
MP
1 to <maxPRACH_EUL>


REL-11
>PRACH preamble control parameters (for Enhanced Uplink)
MP

PRACH preamble control parameters extension (for Enhanced Uplink) 10.3.6.136
Control parameters of the physical signal. 
REL-11
>Weight
OP

Real (0.2..1 by step of 0.2)
Probability of selecting this occurrence of PRACH preamble control parameters.
REL-11
NOTE 1:	A weight given by: 1 – (sum of the values of the IE "Weight" across all occurrences), shall be used as value of the Kth occurrence of the IE "Weight”, where K is as defined in sub-clause 8.5.73 and 8.5.74.

NOTE 2:	The sum of the values of the IE "Weight" across all occurrences in this IE should be less than or equal to 1.
10.3.6.136		PRACH preamble control parameters extension (for Enhanced Uplink)
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Available Signature
MP

Bit string(16)
Each bit indicates availability for a signature. 
Each available signature on the AICH is associated with one Common E-DCH Resource Configuration in the “Common E-DCH resource configuration information list”.
REL-11
Preamble scrambling code number 
MP

Integer (0 .. 15)
Identification of scrambling code, see [28]
REL-11
AICH info
MD

AICH Info compressed 10.3.6.137
Default value is the value of "AICH info" in the first occurrence in list “PRACH system information list” in SIB5 or SIB5bis.
REL-11
NOTE:	The value of the IE’s "E-AI indication", "Available Sub Channel Number", "PRACH partitioning", "Persistence scaling factors", "AC-to-ASC mapping", "Primary CPICH TX power", "Constant value", "PRACH power offset", "PRACH transmission parameters", "Power offset Pp-e" are used from the IE "PRACH preamble control parameters (for Enhanced Uplink)".

10.3.6.137	AICH Info compressed
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Channelisation code
MP

Integer(0..255)
SF is fixed and equal to 256
NOTE:	The value of the IE’s "STTD indicator" and "AICH transmission timing" are used from the IE "AICH info" in the first occurrence in the list “PRACH system information list” in SIB5 or SIB5bis.

10.3.6.138	Common E-RGCH info FDD
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE Configuration info
MP



REL-11
>Continue


(no data)
Used in reconfigurations without change to the Common E-RGCH configuration.
REL-11
>New configuration





>>E-RGCH Neighbour Cell List
MP

Bitstring (maxCellMeas)
Indicates whether the UE should evaluate a cell for performing E-RGCH reception.
Bit 0 is for the first cell in "New intra-frequency cells" in the "Intra-frequency cell info list" included in system information, Bit 1 is for the second cell in "New intra-frequency cells" in the "Intra-frequency cell info list" included in system information, … 
Value '1' for a bit means UE should evaluate the cell. Bit 0 is the first/leftmost bit of the bit string.

NOTE: The bit that corresponds to the serving cell itself is ignored.
REL-11
>>Common E-RGCH channel configuration list
MP
1 to < maxCellMeas >

List of E-RGCH information of cells that a UE should evaluate for performing E-RGCH reception. The first entry in the list corresponds to thefirst/leftmost bit of value ‘1’ in E-RGCH Neighbour Cell List. The second entry in the list corresponds to the second bit of value ‘1’ in the E-RGCH Neighbour Cell List. …
REL-11
>>>Channelisation Code
CV-Common

Integer (0..127)
If this IE is not present, the value is equal to the last occurrence of this IE.
REL-11
>>>Signature Sequence
CV-Common

Integer (0..39)
If this IE is not present, the value is equal to the last occurrence of this IE.
REL-11
>>Minimum Serving Grant
MD

Integer (0..37)
(0..37) indicates E-DCH serving grant index as defined in [15]. Default value is Initial Serving grant value broadcasted in the Common E-DCH system info.
REL-11
>>Reporting Range Constant
MP

Real(0..14.5 by step of 0.5)
In dB.
REL-11
>>Filter coefficient
MP

Filter coefficient 10.3.7.9
Filter coefficient
REL-11

Condition
Explanation
Common
This IE is mandatory present for the first occurrence. Otherwise, this IE is optional.

10.3.6.139	HS-DSCH DRX in CELL_FACH with second DRX cycle information
These parameters configure the UE in CELL_FACH state to discontinuously receive HS-DSCH with second DRX cycle.
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-DSCH second DRX cycleFACH
MP

Enumerated (4, 8, 16, 32, 64, 128, 256, 512)
Determines the length of the DRX Cycle during second DRX operation, in frames.
REL-11
CHOICE DRX level
MP


This IE indicates whether both the 1st and the 2nd DRX cycle are used (2-level DRX) or only the 2nd DRX cycle is used (1-level DRX)
REL-11
>1-level DRX




REL-11
>>HS-DSCH second Rx burstFACH
MD

Enumerated (1, 2)
Determines the period within the second DRX Cycle that the UE continuously receives HS-DSCH, in frames.
Default value is the value included in the IE "HS-DSCH Rx burstFACH" of the System Information Block Type 5/5bis.
REL-11
>>T329
MD

Enumerated (0.5, 1, 2, 4)
Determines the time the UE waits until initiating second DRX operation, in seconds.
The default value is T321 (ms) contained in the IE "HS-DSCH DRX in CELL_FACH information" of the System Information Block Type 5/5bis.
REL-11
>2-level DRX




REL-11
>>T328
MD

Enumerated (20, 40, 60, 80)
Determines the time the UE waits until initiating first DRX operation, in ms.
The default value is T321 (ms) contained in the IE "HS-DSCH DRX in CELL_FACH information" of the System Information Block Type 5/5bis.
REL-11
>>HS-DSCH first Rx burstFACH
MD

Enumerated (0.4, 0.8)
Determines the period within the first DRX Cycle that the UE continuously receives HS-DSCH, in frames.
Default value is the value included in the IE "HS-DSCH Rx burstFACH" of the System Information Block Type 5/5bis.
REL-11
>>HS-DSCH first DRX cycleFACH
MD

Enumerated (2, 4, 8, 16, 32, 64)
Determines the length of the DRX Cycle during first DRX operation, in frames.
Default value is the value included in the IE "HS-DSCH DRX cycleFACH" of the System Information Block Type 5/5bis.
REL-11
>>HS-DSCH second Rx burstFACH
MD

Enumerated (1, 2)
Determines the period within the second DRX Cycle that the UE continuously receives HS-DSCH, in frames.
Default value is the value included in the IE "HS-DSCH Rx burstFACH" of the System Information Block Type 5/5bis.
REL-11
>>T329
MD

Enumerated (0.5, 1, 2, 4)
Determines the time the UE waits until initiating second DRX operation, in seconds.
The default value is T321 (ms) contained in the IE "HS-DSCH DRX in CELL_FACH information" of the System Information Block Type 5/5bis.
REL-11

10.3.6.140	Common E-DCH Resource Configuration Information List Extension
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Scheduled Transmission configuration
OP



REL-11
>Configuration for 2 ms TTI common E-DCH resources
MP
1 to <maxEDCHs>


REL-11
>>2ms HARQ process allocation
MD

Bitstring (8)
Bit 0 is the first/leftmost bit of the bit string. MAC-c or MAC-d PDUs for this common E-DCH MAC-d flow are only allowed to be transmitted in those processes for which the bit is set to “1”.
Bit 0 corresponds to HARQ process 0, bit 1 corresponds to HARQ process 1,…
NOTE1
REL-11
Coffset
OP

Integer(0..29)
(0..29) indicates cell offset as defined in [26]
REL-11
NOTE1:	The default value is equal to the same value of the last occurrence. The default value of the first occurrence is that transmission in the first HARQ processes is allowed.

10.3.6.141	Fallback R99 PRACH info
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CCCH Fallback
MP

BOOLEAN

REL-11
DCCH Fallback
MP

BOOLEAN

REL-11

10.3.6.142	MIMO mode with four transmit antennas parameters
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Configuration info
MP



REL-11
>Continue


(no data)
Used in reconfigurations without interruption of MIMO mode with four transmit antennas.
REL-11
>New configuration




REL-11
>>MIMO mode with four transmit antennas  N_cqi_typeA/M_cqi ratio
OP

Enumerated(1/2, 2/3, 3/4, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10, 1/1)

REL-11
>>MIMO mode with four transmit antennas pilot configuration
OP

MIMO mode with four transmit antennas pilot configuration 10.3.6.143

REL-11
>>Precoding weight set  restriction
OP

Bit string (64)
The first/leftmost bit contains the most significant bit, where a bit value of zero indicates that the precoding indices reporting is not allowed, as defined in [29].
REL-11

10.3.6.143	MIMO mode with four transmit antennas pilot configuration
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Antenna2 S-CPICH
OP



REL-11
>Channelisation code
MP

Integer (0..255)

REL-11
>Power Offset for S-CPICH for MIMO mode with four transmit antennas on Antenna2
OP

Integer(-6
.. 0)

Power offset relative to the P-CPICH Tx power in dB
REL-11
Antenna3and4
OP



REL-11
>Antenna3and4 S-CPICH
OP



REL-11
>>Antenna3 S-CPICH
OP



REL-11
>>>Channelisation code
MP

Integer (0..255)

REL-11
>>Antenna4 S-CPICH
OP



REL-11
>>>Channelisation code
MP

Integer (0..255)

REL-11
>>Common Power Offset for S-CPICH for MIMO mode with four transmit antennas on Antenna3 and 4
OP

Integer(-12
.. 0)

Power offset relative to the P-CPICH Tx power in dB
REL-11
>Antenna3and4 D-CPICH
OP



REL-11
>>Antenna3 D-CPICH
OP



REL-11
>>>Channelisation code
MP

Integer (0..255)

REL-11
>>Antenna4 D-CPICH
OP



REL-11
>>>Channelisation code
MP

Integer (0..255)

REL-11
>>Common Power Offset for D-CPICH for MIMO mode with four transmit antennas on Antenna3 and 4
OP

Integer(-12
.. 0)

Power offset relative to the P-CPICH Tx power in dB
REL-11
>>Initial status of D-CPICH
OP

Enumerated(activated)
The absence of this IE indicates that the initial status of D-CPICH is deactivated.
REL-11

10.3.6.144	Secondary cell MIMO mode with four transmit antennas parameters
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Configuration info
MP



REL-11
>Continue


(no data)
Used in reconfigurations without interruption of MIMO mode with four transmit antennas operation.
REL-11
>New configuration




REL-11
>> MIMO mode with four transmit antennas  N_cqi_typeA/M_cqi ratio
OP

Enumerated(1/2, 2/3, 3/4, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10, 1/1)

REL-11
>>MIMO mode with four transmit antennas pilot configuration
OP

MIMO mode with four transmit antennas pilot configuration 10.3.6.143

REL-11
>>Precoding weight set  restriction
OP

Bit string (64)
The first/leftmost bit contains the most significant bit, where a bit value of zero indicates that the precoding indices reporting is not allowed, as defined in [29].
REL-11

10.3.6.145	Uplink MIMO info FDD
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE Configuration Info




REL-11
>Continue


(no data)
Used in reconfigurations without interruption of uplink MIMO operation.
REL-11
>New configuration





>>S-E-DPCCH Power Offset
MP

Integer (0..17)
This IE provides an index for the S-E-DPCCH power offset mapping, as specified in [9] subclause 4.2.1.5.
REL-11
>>Minimum E-TFCI for Rank2 Transmission
MP

Integer (0..127)

REL-11
>>Inter-stream Interference Compensation Index
OP

Integer (0..15)
If present, this IE provides an index for the inter-stream interference compensation factor ISI, as specified in [28] subclause 4.2.1.3.
REL-11

10.3.6.146	E-ROCH info FDD
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Channelization Code
MP

Integer (0..255)

REL-11
E-ROCH E-RNTI
MP

E-RNTI 10.3.3.10a

REL-11

10.3.6.147	Radio Links without DPCH/F-DPCH info
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Frame offset
MP

Integer (0..38144 by step of 256)
Offset (in number of chips) between the beginning of the P-CCPCH frame and the beginning of the DPCH/F-DPCH frame
This is called  DPCH,n or F-DPCH,n in [26]
REL-12

10.3.6.148	DPCCH2 info FDD
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE Configuration Info
MP



REL-12
>Continue


(no data)
Used in reconfigurations without change to the DPCCH2 configuration.
REL-12
>New configuration




REL-12
>>DPCCH2 info
OP



REL-12
>>>DPCCH2 Tx Power offset
MP

Integer (0..20)
In dB
REL-12
>>F-DPCH info
OP



REL-12
>>>F-DPCH slot format
OP

Integer (0..9)
Slot format used by F-DPCH for DPCCH2 in [26].
REL-12
>>>Code number
OP

Integer (0..255)

REL-12
>>>TPC command error rate target
OP

Real (0.01..0.1 by step of 0.01)

REL-12
>>Extended E-DPCCH/DPCCH power offset
OP

Integer (9..15)
Refer to quantization of the power offset in [28]
REL-12
>>Designated non-serving HS-DSCH cell info
OP



REL-12
>>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-12

10.3.6.149	DCH Enhancements info FDD
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE Configuration info
MP



REL-12
>Continue


(no data)
Used in reconfigurations without interruption of DCH Enhancements operation.
Note 1.
REL-12
>New configuration




REL-12
>>CHOICE UL Transmission Mode
MP



REL-12
>>>10ms only


(no data)
All TFC’s are always transmitted in 10ms Mode
REL-12
>>>20ms only


(no data)
All TFC’s are always transmitted in 20ms Mode
REL-12
>>>10ms or 20ms



TFC’s can be transmitted in 10ms Mode or 20ms Mode as per Uplink Transmission Mode Swtiching procedure described in [15].
REL-12
>>>>Uplink Transmission Mode switching parameters
MP

Uplink Transmission Mode Switching Parameters 10.3.6.150
K, L, M parameters used for Trasmission Mode Switching procedure described in [15].
REL-12
>>CHOICE DL FET Mode
MP



REL-12
>>>Basic


(no data)
In this mode, the ACK/NACK field in UL DPCCH does not indicate whether DL DPCH has been succefully decoded.
REL-12
>>>Full



In this mode, the ACK/NACK field in UL DPCCH is used to indicate whether DL DPCH has been succefully decoded.
REL-12
>>>>Early DCH quality target
MP

Quality target 10.3.5.10

REL-12
>>>>Early DCH quality target slot
MP

Integer
(11.. 28)

REL-12
>>>>TrCh Concatenation Info
MP
1 to <maxNrOfConcatTrCH>

Provides the list of DL Transport Channels of type DCH that are subject to concatenation in the physical layer.
REL-12
>>>>>DCH ID
MP

Transport channel identity 10.3.5.18
DL transport channel type = DCH
REL-12
Note 1: 	The value "Continue" should not be set when the "DCH Enhancements info FDD" IE is included in the HANDOVER TO UTRAN COMMAND message.

Condition
Explanation
MCM_opt
This IE is OPTIONAL when sent in SYSTEM INFORMATION. Otherwise, the IE is not needed.

10.3.6.150	Uplink Transmission Mode Switching Parameters
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
K
MP

Integer (1..32)
See [19].
REL-12
L
MP

Integer (1..32)
See [19].
REL-12
M
MP

Integer (1..32)
See [19].
REL-12

10.3.6.151	DPCCH Power Reset after DTX on secondary uplink frequency
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Filter coefficient
MP

Integer (0..5)


REL-12
Secondary Power Offset After Gap
MP

Integer (-8..20) by steps of 2
Unit is in dB.
An offset which is applied to a filtered DPCCH transmit power taken from the primary uplink frequency. [29]
REL-12
Inactivity Threshold for Reset DPCCH Power 
OP

Enumerated (10, 20, 30, 40, 50, 60, 80, 120)
Value in ms.
The inactivity gap allowed on DPCCH after which the power for secondary uplink frequency is determined as an offset of the transmit power on primary uplink frequency. [29]

Absense of this IE means that the UE shall apply a threshold of infinity for the inactivity gap on the DPCCH
REL-12

10.3.6.152	Other TTI E-DCH Configuration Information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Configuration info
MP



REL-12
>Continue


(no data)

REL-12
>New configuration




REL-12
>>E-DCH Info
MP

E-DCH Info 10.3.6.97

REL-12
>>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2

REL-12
>>DTX-DRX Information 
OP

DTX-DRX Information 10.3.6.34a

REL-12
>>DTX-DRX timing information
OP

DTX-DRX timing information 10.3.6.34b

REL-12
Activation delay
MD

Enumerated (0, 1, 2, 3, 4, 5)
In radio frames. Default value is 0.
Two spare values are needed.
REL-12

10.3.6.153	Power Control Algorithm 3
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
TPC slot position
OP

Integer (0..4)
Specifies TPC commands  slot position for Algorithm 3 to be used by UE to interpret TPC commands for the radio link
REL-13
TPC step size
OP

Integer (1, 2)
In dB
REL-13
Decimation factor
OP

Enumerated (3 slots, 5 slots)

REL-13

10.3.6.154	HS-SCCH DRX in CELL_FACH information
These parameters configure the UE in CELL_FACH state to discontinuously receive HS-SCCH order and HS-DSCH.
See subclause 8.5.89 related to usage of these IE’s.
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-SCCH DRX cycleFACH
MP

Enumerated (20, 40, 80, 160, 320, 640)
Determines the actual length of the DRX Cycle during HS-SCCH DRX operation, in subframes.
Two spare values are needed.
REL-14
HS-SCCH RX burstFACH
MP

Enumerated (1, 2)
Determines the period within the DRX Cycle that the UE continuously receives HS-SCCH order, in subframes
REL-14
T333
MP

Enumerated (100, 200,  400, 800)
Determines the time the UE waits until initiating DRX operation, in ms.
REL-14

10.3.6.155	Additional secondary cell info for mixed TTI configuration
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-DPCCH/DPCCH power offset
OP

Integer (0..8)
Refer to quantization of the power offset in [28]
REL-14
Happy bit delay condition
OP

Enumerated (2, 10,20,50, 100, 200, 500,
1000)
Value in ms.
To be used when determining the setting of the happy bit on secondary UL frequency (see [15])
REL-14
E-TFC Boost Info
OP

E-TFC Boost Info 10.3.6.106
Absence of this IE means that boosting of E-DPCCH is disabled
REL-14
E-TFCI table index
OP

Integer (0..1)
Indicates which standardised E-TFCI TB size table shall be used.
REL-14
Reference E-TFCIs
OP
1 to 8

See [29]
REL-14
>Reference E-TFCI
MP

Integer (0..127)

REL-14
>Reference E-TFCI PO
MP

Integer (0..31)
Refer to quantization of the power offset in [28]
REL-14
Maximum channelisation codes
OP

Enumerated (sf256, sf128, sf64, sf32, sf16, sf8, sf4, 2sf4, 2sf2, 2sf2and2sf4)

REL-14
Scheduling Information Configuration
OP



REL-14
>Periodicity for Scheduling Info – no grant
MD

Enumerated (everyEDCHTTI,4,10,20,50,100,200,500,1000)
Values in ms.
Default value is “no report”

REL-14
>Periodicity for Scheduling Info – grant
MD

Enumerated (everyEDCHTTI,4,10,20,50,100,200,500,1000)
Values in ms.
Default value is “no report”

REL-14
>Power Offset for Scheduling Info
MP

Integer (0..6)
Only used when no MACd PDUs are included in the same MAC-e or MAC-i PDU. Unit is in dB.
REL-14

10.3.6.156	Other TTI E-DCH Configuration Information on secondary UL Frequency
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Configuration info
MP



REL-14
>Continue


(no data)

REL-14
>New configuration




REL-14
>>Secondary E-DCH info common
MP

Secondary E-DCH info common 10.3.6.117

REL-14
>>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2

REL-14
Activation delay
OP

Enumerated (0, 1, 2, 3, 4, 5)
In radio frames. Default value is 0.
Two spare values are needed.
REL-14

10.3.7	Measurement Information elements
10.3.7.1	Additional measurements list
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Additional measurements
MP
1 to <MaxAdditionalMeas>


>Additional measurement identity
MP

Measurement identity 10.3.7.48


10.3.7.2	Cell info
Includes non-frequency related cell info used in the IE "inter-frequency cell info list" and "intra frequency cell info list".
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Cell individual offset
MD

Real(-10..10 by step of 0.5)
In dB
Default value is 0 dB
Used to offset measured quantity value
If the cell from which this IE has been received is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received.

Reference time difference to cell
OP

Reference time difference to cell 10.3.7.60
In chips.
This IE is absent for serving cell.
If the cell from which this IE has been received is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.

Read SFN indicator
MP

Boolean
TRUE indicates that read of SFN is requested for the target cell
If the cell from which this IE has been received is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received.

CHOICE mode
MP




>FDD





>>Primary CPICH info
OP

Primary CPICH info 10.3.6.60
This IE is absent only if measuring RSSI only (broadband measurement.)

>>Primary CPICH Tx power
OP

Primary CPICH Tx power 10.3.6.61
Required if calculating pathloss.

>>TX Diversity Indicator
MP

Boolean
TRUE indicates that transmit diversity is used.

>TDD





>>Primary CCPCH info
MP

Primary CCPCH info 10.3.6.57


>>Primary CCPCH TX power
OP

Primary CCPCH TX power 10.3.6.59


>>Timeslot list
OP
1 to <maxTS>

The UE shall report Timeslot ISCP values according the order of the listed Timeslot numbers.
If the cell from which this IE has been received is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.

>>>CHOICE TDD option
MP



REL-4
>>>>3.84 Mcps TDD




REL-4
>>>>>Timeslot number
MP

Integer (0...14)
Timeslot numbers, for which the UE shall report Timeslot ISCP

>>>>>Burst Type
MD

Enumerated (Type1, Type2)
Use for Timeslot ISCP measurements only. Default value is "Type1"

>>>>7.68 Mcps TDD




REL-7
>>>>>Timeslot number
MP

Integer (0...14)
Timeslot numbers, for which the UE shall report Timeslot ISCP
REL-7
>>>>>Burst Type
MD

Enumerated (Type1, Type2)
Use for Timeslot ISCP measurements only. Default value is "Type1"
REL-7
>>>>1.28 Mcps TDD




REL-4
>>>>>Timeslot number
MP

Integer (0...6)
Timeslot numbers, for which the UE shall report Timeslot ISCP
REL-4
Cell Selection and Re-selection Info
CV-BCHopt

Cell Selection and Re-selection for SIB11/12Info 10.3.2.4
This IE is absent for the serving cell.
If the cell from which this IE has been received is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.


Condition
Explanation
BCHopt
This IE is Optional when sent in SYSTEM INFORMATION or for 1.28 Mcps TDD when sent in the MEASUREMENT CONTROL, Otherwise, the IE is not needed

10.3.7.3	Cell measured results
Includes non-frequency related measured results for a cell.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Cell Identity
OP

Cell Identity 10.3.2.2


CSG PLMN List
CV-CSG
1 to 6


REL-12
>CSG PLMN Identity
MP

PLMN identity 10.3.1.11

REL-12
CSG Identity
CV-CSG

CSG Identity 10.3.2.8

REL-9
CSG Member indication 
CV-CSG

Enumerated(member)

REL-9
Cell synchronisation information
OP

Cell synchronisation information 10.3.7.6


CHOICE mode
MP




>FDD





>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60


>>CPICH Ec/N0
OP

Integer(0..49)
According to CPICH_Ec/No in [19] and [20].
Fourteen spare values are needed.

>>CPICH RSCP
OP

Integer(0..91)
According to CPICH_RSCP in [19] and [20].
Thirty-six spare values are needed.

>>DeltaCPICH RSCP
CV-RSCP

Integer(-5..-1)
If present, the actual value of CPICH RSCP = CPICH RSCP+ DeltaCPICH RSCP
REL-5
>>Pathloss
OP

Integer(46..158)
In dB.
Fifteen spare values are needed.

>TDD





>>Cell parameters Id
MP

Cell parameters Id 10.3.6.9


>>Proposed TGSN
OP

Integer (0..14)
Proposal for the next TGSN

>>Primary CCPCH RSCP
OP

Primary CCPCH RSCP info 10.3.7.54


>>Pathloss
OP

Integer(46..158)
In dB.
Fifteen spare values are needed.

>>Timeslot list
OP
1 to < maxTS>



>>>Timeslot ISCP
MP

Timeslot ISCP Info 10.3.7.65
The UE shall report the Timeslot ISCP in the same order as indicated in the cell info 


Condition
Explanation
RSCP
This IE is mandatory if the IE "Cell measured results" is included in the IE "Measured Results" (i.e. not included in the IE "Additional Measured Results") and if CPICH RSCP is present and if the value of the CPICH RSCP is below 0. It is not needed otherwise.
CSG
This IE is optionally present if the target cell’s Primary scrambling code (as determined from Primary CPICH info IE) is found in the CELL_INFO_CSG_LIST set of PSCs. Otherwise it is not needed.

10.3.7.4	Cell measurement event results
Includes non-frequency related cell reporting quantities.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE mode
MP



>FDD




>>Primary CPICH info
MP
1 to <maxCellMeas>
Primary CPICH info 10.3.6.60

>TDD




>>Primary CCPCH info
MP
1 to <maxCellMeas>
Primary CCPCH info 10.3.6.57


10.3.7.5	Cell reporting quantities
Includes non-frequency related cell reporting quantities.
For all boolean types TRUE means inclusion in the report is requested.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cell synchronisation information reporting indicator
MP

Boolean

Cell Identity reporting indicator
MP

Boolean

CHOICE mode
MP



>FDD




>>CPICH Ec/N0 reporting indicator
MP

Boolean

>>CPICH RSCP reporting indicator
MP

Boolean

>>Pathloss reporting indicator
MP

Boolean

>TDD




>>Timeslot ISCP reporting indicator
MP

Boolean

>>Proposed TGSN Reporting required
MP

Boolean

>>Primary CCPCH RSCP reporting indicator
MP

Boolean

>>Pathloss reporting indicator
MP

Boolean


10.3.7.6	Cell synchronisation information
The IE "Cell synchronisation information" contains the OFF and Tm as defined in [7] and [8] and the four most significant bits of the difference between the 12 least significant bits of the RLC Transparent Mode COUNT-C in the UE and the SFN of the measured cell. It is notified to SRNC by Measurement Report message or Measurement Information Element in other RRC messages
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE mode
MP



>FDD




>>COUNT-C-SFN frame difference
OP



>>>COUNT-C-SFN high
MP

Integer(0..3840 by step of 256)
in frames
>>>OFF
MP

Integer(0..255)
in frames
>>Tm
MP

Integer(0..38399)
in chips
>TDD




>>COUNT-C-SFN frame difference
OP



>>>COUNT-C-SFN high
MP

Integer(0..3840 by step of 256)
in frames
>>>OFF
MP

Integer(0..255)
in frames

10.3.7.6a	E-UTRA event results
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Inter-RAT event identity
MP

Inter-RAT event identity 10.3.7.24

REL-8
E-UTRA events results list
MP
1 to <maxReportedEUTRAFreqs>


REL-8


1 to <maxReportedEUTRAFreqs-ext>


REL-12
>E-UTRA Carrier Frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension" in the E-UTRA events results extension list.
REL-8
>Reported cells
MP
1 to <maxReportedEUTRACellPerFreq>


REL-8
>>Physical Cell Identity
MP

Integer (0..503)

REL-8
E-UTRA events results extension list
OP
1 to <maxReportedEUTRAFreqs>


REL-11


1 to <maxReportedEUTRAFreqs-ext>


REL-12
>EARFCN extension
OP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64].
REL-11

10.3.7.6b	E-UTRA frequency list
Contains the information for the list of measurement objects for E-UTRA measurements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE E-UTRA frequency removal
MP



REL-8
>Remove all frequencies



(no data)
REL-8
>Remove some frequencies




REL-8
>>Removed frequencies
MP
1 to <maxNumEUTRAFreqs>


REL-8
>>>E-UTRA frequencies
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension".
REL-8
>>>EARFCN extension
OP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64]. 
REL-11
>Remove no frequencies



(no data)
REL-8
New frequencies
OP
1 to <maxNumEUTRAFreqs>


REL-8
>E-UTRA carrier frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension".
It is always ensured by the UTRAN that more than one measurement object for the same physical frequency is not configured regardless of the EARFCN used to indicate this.
REL-8
>EARFCN extension
OP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64]. It is always ensured by the UTRAN that more than one measurement object for the same physical frequency is not configured regardless of the EARFCN used to indicate this.
REL-11
>Reduced measurement performance
OP

Enumerated (TRUE)
TRUE indicates that the frequency is configured for reduced measurement performance [19].
Absense indicates that the frequency is configured for normal measurement performance [19].
REL-12
>Measurement Bandwidth
MD

Enumerated (6, 15, 25, 50, 75, 100)
Measurement bandwidth information common for all neighbouring cells on the carrier frequency. It is defined by the parameter Transmission Bandwidth Configuration, NRB [36.104]. The values indicate the number of resource blocks over which the UE could measure. Default value is 6.
REL-8
>Blacklisted cells list
OP
1 to <maxEUTRACellPerFreq>

A list of blacklisted cells can be signalled per frequency
REL-8
>>Physical Cell identity
MP

Integer (0..503)

REL-8
>Wideband RSRQ measurements
CV-WB-RSRQ

Enumerated (TRUE)
If this field is present, the UE shall use a wider bandwidth when performing RSRQ measurements according to TS 36.133 [74].
REL-11
E-UTRA SI Acquisition
OP

10.3.7.127

REL-9
RSRQ measurement on all symbols
OP

Boolean
TRUE means that RSRQ measurement on all OFDM symbols is configured.If wideband RSRQ measurement is enabled for the frequency, the UE shall, when performing RSRQ measurements, perform RSRQ measurement on all OFDM symbols with wider bandwidth for concerned frequency;
FALSE  or absence of this field means that the UE shall, when performing RSRQ measurements, perform RSRQ measurement only on CRS symbols;
REL-12

Condition
Explanation
WB-RSRQ
The field is optionally present if the measurement bandwidth indicated by Measurement Bandwidth is 50 resource blocks or larger. Otherwise it is not needed.

10.3.7.6c	E-UTRA measured results
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-UTRA measured results list
MP
1 to <maxReportedEUTRAFreqs>


REL-8


1 to <maxReportedEUTRAFreqs-ext>


REL-12
>E-UTRA Carrier Frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension" in the E-UTRA measured results extension list.
REL-8
>Measured E-UTRA cells
MP
1 to <maxReportedEUTRACellPerFreq>


REL-8
>>Physical Cell Identity
MP

Integer (0..503)

REL-8
>>RSRP
OP

Integer (0..97)
This shall be reported if the “Inter-RAT measurement quantity” IE is set to ‘RSRP’ or the “Inter-RAT reporting quantity” IE is set to ‘both’.
RSRP is mapped to a value between 0 and 97 [36.133].
REL-8
>>RSRQ
OP

Integer (0..33)
This quantity shall be reported if the “Inter-RAT measurement quantity” IE is set to ‘RSRQ’ or the “Inter-RAT reporting quantity” IE is set to ‘both’.
RSRQ_00 to RSRQ_33 in [36.133] are mapped to the value between 0 and 33. RSRQ_34 in [36.133] is mapped to the value 33.
If the IE indicates a value of 0 and the RSRQ Extension IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "RSRQ extension", the range is from -30 to -1.
If the IE indicates a value of 33 and the RSRQ Extension IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "RSRQ extension", the range is from 35 to 46.
REL-8
>>RSRQ Extension
OP

Integer (-30..46)
RSRQ_-30 to RSRQ_-1 in [36.133] are mapped to the value between -30 and -1.
RSRQ_35 to RSRQ_46 in [36.133] are mapped to the value between 35 and 46.
REL-12
>>E-UTRA Results for SI Acquisition
OP

10.3.7.128

REL-9
E-UTRA measured results extension list
OP
1 to <maxReportedEUTRAFreqs>


REL-11


1 to <maxReportedEUTRAFreqs-ext>


REL-12
>EARFCN extension
OP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64].
REL-11

10.3.7.7	Event results
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE event result
MP


One spare value is needed.
>Intra-frequency 
 measurement event results


Intra-frequency measurement event results 10.3.7.37

>Inter-frequency 
 measurement event results


Inter-frequency measurement event results 10.3.7.17

>Inter-RAT measurement 
 event results


Inter-RAT measurement event results 10.3.7.28
For IS-2000 results, include fields of the Pilot Strength Measurement Message from subclause 2.7.2.3.2.5 of TIA/EIA/IS-2000.5
>Traffic volume measurement
 event results


Traffic volume measurement event results 10.3.7.69

>Quality measurement event 
 results


Quality measurement event results 10.3.7.57

>UE internal measurement event results


UE internal measurement event results 10.3.7.78

>UE positioning measurement event results


UE positioning measurement event results 10.3.7.101


CHOICE event result
Condition under which the given event result is chosen
Intra-frequency measurement event results
If measurement type = intra-frequency measurement
Inter-frequency measurement event results
If measurement type = inter-frequency measurement
Inter-RAT measurement event results
If measurement type = inter-RAT measurement
Traffic volume measurement event results
If measurement type = traffic volume measurement
Quality measurement event results
If measurement type = Quality measurement
UE internal measurement event results
If measurement type = UE internal measurement
UE positioning measurement event results
If measurement type = UE positioning measurement

10.3.7.8	FACH measurement occasion info

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
FACH Measurement occasion cycle length coefficient
OP

Integer(1..12)


Inter-frequency FDD measurement indicator
MP

Boolean
TRUE means that measurements are required

Inter-frequency TDD 3.84 Mcps measurement indicator
MP

Boolean
TRUE means that measurements are required
REL-4
Inter-frequency TDD 7.68 Mcps measurement indicator
MP

Boolean
TRUE means that measurements are required
REL-7
Inter-frequency TDD 1.28 Mcps measurement indicator
MP

Boolean
TRUE means that measurements are required
REL-4
Inter-RAT measurement indicators
OP
1 to <maxOtherRAT>



>RAT type
MP

Enumerated(GSM, IS2000)
NOTE1

NOTE1:	If "CELL_FACH Absolute Priority Measurement Indicator" is received in SIB19 then measurement occasions configured for GSM shall be used by the UE for GSM and/or EUTRAN measurements according to the rules in [4]

10.3.7.9	Filter coefficient
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Filter coefficient
MD

Integer(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 13, 15, 17, 19)
Default value is 0

10.3.7.9a	GSM cell group
This IE encodes a list of GSM cells specified by their ARFCN values [45].
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Starting ARFCN
MP

Integer (0..1023)
First ARFCN value in the set
REL-8
Band Indicator
MP

Enumerated (dcs1800, pcs1900)
GSM BAND_INDICATOR [45]
REL-8
CHOICE Following ARFCNs
MP



REL-8
>Explicit list




REL-8
>>List of ARFCNs
MP
0 to 31
Integer (0..1023)
Following ARFCN values
REL-8
>Equally spaced




REL-8
>>ARFCN spacing
MP

Integer (1..8)
Increment "d" ARFCN values
REL-8
>>Number of following ARFCNs
MP

Integer (0..31)
Number "n" of following ARFCN values, NOTE 1
REL-8
>Variable bitmap format




REL-8
>>Bitmap
MP

Octet string (1..16)
NOTE 2
REL-8
>Continuous range




REL-8
>>Ending ARFCN
MP

Integer (0..1023)
Last ARFCN value in the set, NOTE 3
REL-8
NOTE 1:	Let the IE "Starting ARFCN" = s. The complete set of (n+1) ARFCN values is defined as: {s, ((s + d) mod 1024), ((s + 2*d) mod 1024) ... ((s + n*d) mod 1024)}.
NOTE 2:	Bitmap representing the following ARFCN values in the set. Let the IE "Starting ARFCN" = s. The first bit of the first octet in the bitmap corresponds to ARFCN = ((s + 1) mod 1024), the next bit to the ARFCN = ((s + 2) mod 1024), and so on. If the bitmap consist of N octets, the last bit of octet N corresponds to ARFCN = ((s + 8*N) mod 1024). The complete set of ARFCN values consists of ARFCN = s and the ARFCN values, where the corresponding bit in the bitmap is set to "1".
NOTE 3:	Let the IEs "Starting ARFCN" = s and "Ending ARFCN" = t. The complete set of ARFCN values is defined as: {s, ((s + 1) mod 1024), ((s + 2) mod 1024) ... ((t − 1) mod 1024), t}.

10.3.7.10	HCS Cell re-selection information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Penalty_time
MD

Integer(0, 10, 20, 30, 40, 50, 60)
Default value is 0 which means = not used
In seconds
Temporary_offsets
CV-Penalty used



>Temporary_offset1
MP

Integer(3, 6, 9, 12, 15, 18, 21, inf)
[dB]
>Temporary_offset2
CV-FDD-Quality-Measure

Integer(2, 3, 4, 6, 8, 10, 12, inf)
[dB]

Condition
Explanation
Penalty used
This IE is not needed if the IE "Penalty time" equals "not used", else it is mandatory present.
FDD-Quality-Measure
This IE is not needed if the IE "Cell selection and reselection quality measure" has the value CPICH RSCP, otherwise the IE is mandatory present. This conditional presence is implemented in ASN.1 by the use of a specific RSCP and EcN0 variant of 10.3.7.10.

10.3.7.11	HCS neighbouring cell information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
HCS_PRIO
MD

Integer (0..7)
Default value = 0
Qhcs
MD

Qhcs
10.3.7.54a
Default value = 0
HCS Cell Re-selection Information
MP

HCS Cell Re-selection Information 10.3.7.10


10.3.7.12	HCS Serving cell information
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
HCS_PRIO
MD

Integer (0..7)
Default value = 0
Qhcs
MD

Qhcs
10.3.7.54a
Default value = 0
TCRmax
MD

Enumerated(not used, 30, 60, 120, 180, 240)
[s]
Default value is not used
NCR
CV-UE speed detector

Integer(1..16)
Default value = 8
TCrmaxHyst
CV-UE speed detector

Enumerated(not used, 10, 20, 30, 40, 50, 60, 70)
[s]

Condition
Explanation
UE Speed detector
This IE is not needed if TCrmax equals 'not used', else it is mandatory present.

10.3.7.12a	Idle Interval Information
NOTE:	Used for TDD only. If the multi-RAT UE needs idle interval for E-UTRAN measurements in CELL_DCH state, this IE may be configured.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
k
MD

Integer (2..3)
This IE is the coefficient parameter to calculate the idle interval period. Default value is 2.
The actual idle interval period equal to 2^k radio frames.
REL-8
Offset
MD

Integer (0..7)
The idle interval position in the period.
Default value is 0.
REL-8

10.3.7.13	Inter-frequency cell info list
Contains the information for the list of measurement objects for an inter-frequency measurement.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Inter-frequency cell removal
OP




>Remove all inter-frequency cells



No data

>Remove some inter-frequency cells





>>Removed inter-frequency cells
MP
1 .. <maxCellMeas>





1 .. <maxCellMeas-ext>

NOTE 2
REL-12
>>>Inter-frequency cell id
MP

Integer(0 .. <maxCellMeas>-1)





Integer(0 .. <maxCellMeas-ext>-1)
NOTE 2
REL-12
>No inter-frequency cells removed



No data

New inter-frequency cells 
OP
1 to <maxCellMeas>





1 to <maxCellMeas-ext>

NOTE 2
REL-12
>Inter-frequency cell id
MD

Integer(0 .. <maxCellMeas>-1)





Integer(0 .. <maxCellMeas-ext>-1)
NOTE 2
REL-12
>Frequency info
MD

Frequency info 10.3.6.36
Default value is the value of the previous "frequency info" in the list.
It is always ensured by the UTRAN that more than one measurement object for the same physical frequency is not configured regardless of the UARFCN used to indicate this.
NOTE:	The first occurrence is then MP.

>Cell info
MP

Cell info 10.3.7.2


>CHOICE mode specific info
MP



REL-7
>>No information



No data for FDD, TDD 3.84 Mcps or TDD 7.68 Mcps
REL-7
>>TDD 1.28 Mcps




REL-7
>>>Intra-SecondaryFrequency Indicator
MP

Boolean
TRUE means the inter frequency neighbour cell has a secondary frequency which is the same as the current working frequency of UE.
REL-7
>>>SNPL Monitor Set Indicator
OP

Bit string(5)
Each bit indicates whether the  inter frequency neighbour cell has a secondary frequency which is the same as the frequency of a specific E-DCH carrier  of UE.
Bit0 indicate the E-DCH carrier with lowest UARFCN, and
Bit1 indicate the E-DCH carrier with the second lowest UARFCN,
...
...
Bit n indicate the E-DCH carrier with the  n+1 lowest UARFCN.
the Primary E-DCH carrier shall not be considered in the bitmap.
REL-10
Reduced measurement performance frequency list
CV-Measure
1 to <maxRMPfrequencies>

 
REL-12
>Reduced measurement performance
MP

BOOLEAN
TRUE indicates that the frequency is configured for reduced measurement performance [19].
FALSE indicates that the frequency is configured for normal measurement performance [19]. The ith entry in the Reduced measurement performance frequency list corresponds to the ith frequency signalled in the "New inter-frequency cells" list.
REL-12
Cells for measurement
CV-BCHopt
1 to <maxCellMeas>





1 to <maxCellMeas-ext>


REL-12
>Inter-frequency cell id
MP

Integer(0 .. <maxCellMeas>-1)





Integer(0 .. <maxCellMeas-ext>-1)

REL-12
CSG Inter-frequency cell info
CV-BCHopt

10.3.7.120

REL-9
Inter-frequency SI Acquisition
CV-BCHopt

10.3.7.124

REL-9
Multiple Frequency Info List FDD
CV-
MCM_opt
1 to 
<maxNumFDDFreqs >

Each entry in the list corresponds to a UARFCN listed in the "New inter-frequency cells" IE (common to all those cells sharing the same "Frequency info" value).
See NOTE 1.
REL-10
>Multiple Frequency bands Indicator List FDD
OP
1 to< maxMultipleFrequencyBandsFDD >

Indicates, per neighbour UARFCN, a list of frequency bands which the cells belong to.
Absence of this IE indicates that there are no Multiple Bands for the particular UARFCN.
REL-10
>>CHOICE frequency bands indicator
MP



REL-10
>>>Frequency band indicator


Frequency band indicator
10.3.6.35b

REL-10
>>>Frequency band indicator 2


Frequency band indicator 2
10.3.6.35c

REL-10
>>>Frequency band indicator 3


Frequency band indicator 3
10.3.6.35ca

REL-10

NOTE 1:	The UTRAN should signal the "Frequency info" IE only once in "New Inter-frequency cells" for each UARFCN i.e. for the first Inter-frequency neighbour cell using that UARFCN. For each subsequent Inter-frequency neighbour cell having the same UARFCN, the "Frequency info" should not be included, but rather the Mandatory Default (MD) value will be used. See Annex G.2.
NOTE 2:	Not applicable when sent in SYSTEM INFORMATION.
Condition
Explanation
BCHopt
This IE is not needed when sent in SYSTEM INFORMATION. Otherwise, the IE is Optional
MCM_opt
This IE is OPTIONAL when sent in SYSTEM INFORMATION. Otherwise, the IE is not needed.
Measure
The IE is optional present in System Information Block type 11, 11bis, 11ter, 12 and MEASUREMENT CONTROL message. Otherwise the IE is not needed.

10.3.7.14	Inter-frequency event identity
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Inter-frequency event identity
MP

Enumerated(2a, 2b, 2c, 2d, 2e, 2f, 2g)
One spare value is needed.

10.3.7.15	Inter-frequency measured results list
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Inter-frequency measurement results
OP
1 to <maxFreq>


>Frequency info
MD

Frequency info 10.3.6.36
Default value is the value of the previous "frequency info" in the list.
NOTE:	The first occurrence is then MP.
>UTRA carrier RSSI
OP

Integer(0..76)
According to UTRA_carrier_RSSI_LEV in [19] and [20].
Fifty-one spare values are needed.
>Inter-frequency cell measurement results
OP
1 to <maxCellMeas>

Only cells for which all reporting quantities are available should be included.
>>Cell measured results
MP

Cell measured results 10.3.7.3


10.3.7.16	Inter-frequency measurement
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Inter-frequency measurement objects list
MP

Inter-frequency cell info list 10.3.7.13


Inter-frequency measurement
 quantity 
OP

Inter-frequency measurement quantity 10.3.7.18


Inter-frequency reporting quantity 
OP

Inter-frequency reporting quantity 10.3.7.21


Reporting cell status
CV-reporting

Reporting cell status 10.3.7.61


Measurement validity
OP

Measurement validity 10.3.7.51


Inter-frequency set update
OP

Inter-frequency set update 10.3.7.22


Adjacent frequency index
OP

Integer (0..<maxCellMeas-1>)
Index to an element in the IE “New inter-frequency cell” containing a cell on the adjacent frequency; index = 0 corresponds to the first element in the IE
REL-8



Integer (0..<maxCellMeas-ext-1>)

REL-12
Inter-band frequency index
OP

Integer (0..<maxCellMeas-1>)
Index to an element in the IE “New inter-frequency cell” containing a cell on an inter-band frequency; index = 0 corresponds to the first element in the IE
REL-9



Integer (0..<maxCellMeas-ext-1>)

REL-12
Frequency index list for enhanced measurement
OP
1..<maxFreqMeasWithoutCM>



REL-10
>Frequency index for enhanced measurement
MP

Integer (0..<maxCellMeas-1>)
Index to an element in the IE “New inter-frequency cell”; index = 0 corresponds to the first element in the IE
REL-10



Integer (0..<maxCellMeas-ext-1>)

REL-12
CHOICE report criteria
MP




>Intra-frequency measurement 
 reporting criteria


Intra-frequency measurement reporting criteria 10.3.7.39


>Inter-frequency measurement 
 reporting criteria 


Inter-frequency measurement reporting criteria 10.3.7.19


>Periodical reporting criteria


Periodical reporting criteria 10.3.7.53


>No reporting



(no data)
Chosen when this measurement only is used as additional measurement to another measurement


Condition
Explanation
reporting
This IE is optional if the CHOICE "report criteria" is equal to "periodical reporting criteria" or "No reporting", otherwise the IE is not needed

10.3.7.17	Inter-frequency measurement event results
This IE contains the measurement event results that are reported to UTRAN for inter-frequency measurements.

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Inter-frequency event identity
MP

Inter-frequency event identity 10.3.7.14


Inter-frequency cells
OP
1 to <maxFreq>



>Frequency info
MP

Frequency info 10.3.6.36


>Non frequency related measurement event results
MP

Cell measurement event results 10.3.7.4


Detected Set Trigger
OP

Enumerated(True)
Indicates whether or not inclusion of detected set cells triggered the event.
REL-10

10.3.7.18	Inter-frequency measurement quantity
The quantity the UE shall measure in case of inter-frequency measurement. It also includes the filtering of the measurements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE reporting criteria
MP



>Intra-frequency reporting criteria




>>Intra-frequency measurement quantity
MP

Intra-frequency measurement quantity 10.3.7.38

>Inter-frequency reporting criteria




>>Filter coefficient
MP

Filter coefficient 10.3.7.9

>>CHOICE mode
MP



>>>FDD




>>>>Measurement quantity for frequency quality estimate
MP

Enumerated(
CPICH Ec/N0, CPICH RSCP)

>>>TDD




>>>>Measurement quantity for frequency quality estimate
MP

Enumerated(
Primary CCPCH RSCP)


10.3.7.19	Inter-frequency measurement reporting criteria
The triggering of the event-triggered reporting for an inter-frequency measurements. All events concerning inter-frequency measurements are labelled 2x where x is a,b,c, ...
Event 2a: Change of best frequency.
Event 2b: The estimated quality of the currently used frequency is below a certain threshold and the estimated quality of a non-used frequency is above a certain threshold.
Event 2c: The estimated quality of a non-used frequency is above a certain threshold.
Event 2d: The estimated quality of the currently used frequency is below a certain threshold.
Event 2e: The estimated quality of a non-used frequency is below a certain threshold.
Event 2f: The estimated quality of the currently used frequency is above a certain threshold.
Event 2g: Change of best cell on a configured secondary downlink frequency.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Parameters required for each event
OP
1 to <maxMeasEvent>



>Inter-frequency event identity
MP

Inter-frequency event identity 10.3.7.14


>Threshold used frequency
CV–clause 0

Integer(-115..0)
Ranges used depend on measurement quantity.
CPICH Ec/No -24..0dB
CPICH/Primary CCPCH RSCP -115..-25dBm




Integer (-120..0)
Ranges used depend on measurement quantity.
CPICH Ec/No -24..0dB
CPICH/Primary CCPCH RSCP -120..-25dBm
REL-6
>DeltaThreshold used frequency
CV-clause 3

Integer(-5..-1)
If present, the actual value of Threshold used frequency = Threshold used frequency + DeltaThreshold used frequency
REL-5




Not used in Release 6 and later
REL-6
>W used frequency
CV–clause 2

Real(0, 0.1..2.0 by step of 0.1)


>Hysteresis
MP

Real(0, 0.5..14.5 by step of 0.5)
In event 2a, 2b, 2c, 2d, 2e, 2f, 2g

>Time to trigger
MP

Time to trigger 10.3.7.64
Indicates the period of time during which the event condition has to be satisfied, before sending a Measurement Report.
Time in ms.

>Reporting cell status
OP

Reporting cell status 10.3.7.61


>Parameters required for each non-used frequency
OP
1 to <maxFreq>

In this release, the first listed threshold, W and triggering condition parameter shall apply to all non-used frequencies.

>>Threshold non used frequency
CV–clause 1

Integer(-115..0)
Ranges used depend on measurement quantity.
CPICH Ec/No -24..0dB
CPICH/Primary CCPCH RSCP -115..-25dBm.
This IE is not needed if the IE "Inter-frequency event identity" is set to 2a. However, it is specified to be mandatory to align with the ASN.1.




Integer (-120..0)
Ranges used depend on measurement quantity.
CPICH Ec/No -24..0dB
CPICH/Primary CCPCH RSCP -120..-25dBm
This IE is not needed if the IE "Inter-frequency event identity" is set to 2a.
REL-6
>> DeltaThreshold non used frequency

CV-clause 4

Integer(-5..-1)
If present, the actual value of Threshold non used frequency = Threshold non used frequency + DeltaThreshold non used frequency
REL-5




Not used in Release 6 and later
REL-6
>>W non-used frequency
CV-clause 1

Real(0, 0.1..2.0 by step of 0.1)


>>Triggering Condition non-used frequency detected cells
CV-clause 4

Enumerated(true)
If present the UE shall include detected set cells in the event evaluation
REL-10
>Use CIO
CV-clause 6

Enumerated (TRUE)
If present the UE shall use cell individual offset for event evaluation.
REL-12
Blacklisted cells in non-used frequency
CV-clause 5
1 to <maxFreq>

If present the UE should exclude indicated cells in the event evaluation when non-used frequency detected cells is enabled.
REL-12
>Frequency info
MP

Frequency info 10.3.6.36

REL-12
>Cells to be excluded in non-used frequency detected cells
MP
1 to <maxExcludedDetectedSetCells>


REL-12
>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-12

Condition
Explanation
Clause 0
This IE is mandatory present if the IE "Inter frequency event identity" is set to 2b, 2d, or 2f, otherwise the IE is not needed.
Clause 1
This IE is mandatory present if the IE "Inter frequency event identity" is set to 2a, 2b, 2c or 2e, otherwise the IE is not needed
Clause 2
This IE is mandatory present if the IE "Inter-frequency event identity" is set to 2a, 2b, 2d or 2f, otherwise the IE is not needed.
Clause 3
This IE is optional if the IE "Inter frequency event identity" is set to 2b, 2d, or 2f. Otherwise the IE is not needed.
Note that in order to align with the ASN.1, this IE is always included when the IE “DeltaThreshold non used frequency“ is present, but the value shall be ignored if the "Inter-frequency event identity" is not set to 2b, 2d or 2f.
Clause 4
This IE is optional if the IE "Inter frequency event identity" is set to 2a, 2b, 2c or 2e. Otherwise the IE is not needed.
Clause 5
This IE is optional if the IE "Triggering Condition non-used frequency detected cells" is present. Otherwise the IE is not needed.
Clause 6
This IE is optional if the IE "Inter frequency event identity" is set to 2g. Otherwise the IE is not needed.

10.3.7.20	Inter-frequency measurement system information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Inter-frequency cell info list
OP

Inter-frequency cell info list 10.3.7.13


Inter-frequency RACH reporting information
OP

Inter-frequency RACH reporting information 10.3.7.20a

REL-6

10.3.7.20a	Inter-frequency RACH reporting information
Contains the reporting configuration information for an inter-frequency measurement report, which is sent on the RACH.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP



REL-6
>FDD




REL-6
>> Inter-frequency RACH reporting quantity
MP

Enumerated(CPICH Ec/N0, CPICH RSCP)

REL-6
>TDD




REL-6
>>Reporting quantity list
MP
1 to 2


REL-6
>>> Inter-frequency RACH reporting quantity
MP

Enumerated(Primary CCPCH RSCP)

REL-6
Inter-frequency RACH reporting threshold
MP

Integer(-115..0)
Ranges used depend on measurement quantity.
CPICH Ec/No -24..0dB
CPICH/Primary CCPCH RSCP -115..-25dBm.
REL-6
Maximum number of inter-frequency RACH reporting cells
MP

Integer(1..8)
Indicates the total number for all non- used frequencies
REL-6

10.3.7.21	Inter-frequency reporting quantity
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UTRA Carrier RSSI
MP

Boolean
TRUE means report is requested.
Frequency quality estimate
MP

Boolean
TRUE means that report is requested.
This parameter is not used in this release and should be set to FALSE. It shall be ignored by the UE.
Non frequency related cell reporting quantities
MP

Cell reporting quantities 10.3.7.5


10.3.7.22	Inter-frequency SET UPDATE
NOTE 1:	Only for FDD.
This information makes it possible to use events defined for Intra-frequency measurement within the same non-used frequency for Inter-frequency measurement reporting criteria.
Information Element/group name
Need
Multi
Type and reference
Semantics description
UE autonomous update mode
MP

Enumerated (On with no reporting)
Required for backwards compatibility with a UE not supporting this revision of the standard

10.3.7.23	Inter-RAT cell info list
Contains the information for the list of measurement objects for an inter-RAT measurement.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Inter-RAT cell removal
MP




>Remove all inter-RAT cells



(no data)

>Remove some inter-RAT cells





>>Removed inter-RAT cells
MP
1 to <maxCellMeas>



>>>Inter-RAT cell id
MP

Integer(0 .. <maxCellMeas> - 1)


>Remove no inter-RAT cells



(no data)

New inter-RAT cells 
MP
1 to <maxCellMeas>

Although this IE is not always required, need is MP to align with ASN.1


OP



REL-4
>Inter-RAT cell id
OP

Integer(0 .. <maxCellMeas> - 1)


>CHOICE Radio Access Technology
MP




>>GSM





>>>Cell individual offset
MP

Integer (-50..50 )
In dB
Used to offset measured quantity value

>>>Cell selection and re-selection info
OP

Cell selection and re-selection info for SIB11/12
10.3.2.4
See subclause 8.6.7.3


>>>BSIC
MP

BSIC 10.3.8.2


>>>Band indicator
MP

Enumerated (DCS 1800 band used, PCS 1900 band used)
Indicates how to interpret the BCCH ARFCN

>>>BCCH ARFCN
MP

Integer (0..1023)
[45]

>>IS-2000





>>>System specific measurement info
MP

enumerated (frequency, timeslot, colour code, output power, PN offset)
For IS-2000, use fields from TIA/EIA/IS-2000.5,
subclause 3. 7.3.3.2.27, Candidate Frequency Neighbour List Message

>>None


(no data)
This value has been introduced to handle the case when IE "New inter-RAT cells" is not required

Cells for measurement
OP
1 to <maxCellMeas>



>Inter-RAT cell id
MP

Integer(0 .. <maxCellMeas>-1)


Inter-RAT cell info indication
CV-Message

Integer (0..3)
NOTE 1 and 2
REL-5

Condition
Explanation
Message
The IE is optionally present in the MEASUREMENT CONTROL and in the SRNS RELOCATION INFO messages, otherwise the IE is not needed.

NOTE 1:	The UTRAN may choose not to use the "Inter-RAT cell info indication" value "0" in the MEASUREMENT CONTROL message, to distinguish that case from those cases where the UE receives the IE "Inter-RAT cell info list" in SIB11 or SIB12.
NOTE 2:	In case of an SRNS relocation, if the UE has been sent the "Inter-RAT cell info indication" in the MEASUREMENT CONTROL message and the IE "Inter-RAT cell info list" is included in the SRNS RELOCATION INFO sent from the source RNC to the target RNC, the "Inter-RAT cell info indication" should be included in the IE "Inter-RAT cell info list".
NOTE 3:	If the UTRAN configures a UE with a "Inter-RAT cell info list" containing a set of GSM cells where one or more cell(s) belong to DCS 1800 band and one or more cell(s) belong to PCS 1900 band, the UE behaviour is unspecified.
10.3.7.24	Inter-RAT event identity
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Inter-RAT event identity
MP

Enumerated (3a, 3b, 3c, 3d)


10.3.7.25	Inter-RAT info
Inter-RAT info defines the target system for redirected cell selection.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Inter-RAT info
MP

Enumerated (GSM





, E-UTRA)

REL-8
GSM target cell info
CV-GSM

GSM target cell info
10.3.8.4g

REL-6
E-UTRA target info
CV-E-UTRA

E-UTRA target info
10.3.8.4L

REL-8

Condition
Explanation
GSM
This IE is optionally present if the IE "Inter-RAT info" is set to ‘GSM’ and not needed otherwise.
E-UTRA
This IE is mandatory present if the IE "Inter-RAT info" is set to ‘E-UTRA’ and not needed otherwise.

10.3.7.26	Inter-RAT measured results list
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Inter-RAT measurement results
OP
1 to <maxOtherRAT-16>


>CHOICE system
MP


One spare value is needed.
>>GSM




>>>Measured GSM cells
MP
1 to <maxReportedGSMCells>


>>>>GSM carrier RSSI
OP

bit string(6)
RXLEV is mapped to a value between 0 and 63, [46].  When mapping the RXLEV value to the RSSI bit string, the first/leftmost bit of the bit string contains the most significant bit.
>>>>CHOICE BSIC
MP



>>>>>Verified BSIC




>>>>>>inter-RAT cell id
MP

Integer(0..<maxCellMeas>-1)

>>>>>Non verified BSIC




>>>>>>BCCH ARFCN
MP

Integer (0..1023)
[45]

10.3.7.27	Inter-RAT measurement
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Inter-RAT measurement objects
OP



REL-8
>Inter-RAT cell info list
MP

Inter-RAT cell info list 10.3.7.23


>E-UTRA frequency list
MP

E-UTRA frequency list 10.3.7.6b

REL-8
Inter-RAT measurement quantity
OP

Inter-RAT measurement quantity 10.3.7.29


Inter-RAT reporting quantity
OP

Inter-RAT reporting quantity 10.3.7.32


Reporting cell status
CV-reporting

Reporting cell status 10.3.7.61


CHOICE report criteria
MP




>Inter-RAT measurement reporting criteria


Inter-RAT measurement reporting criteria 10.3.7.30


>Periodical reporting criteria


Periodical reporting criteria 10.3.7.53


>No reporting



(no data)
Chosen when this measurement only is used as additional measurement to another measurement

Idle Interval Information
OP

Idle Interval Information 10.3.7.12a
This IE is used for TDD only.
REL-8

Condition
Explanation
reporting
This IE is optional if the CHOICE "report criteria" is equal to "periodical reporting criteria" or "No reporting", otherwise the IE is not needed

10.3.7.28	Inter-RAT measurement event results
This IE contains the measurement event results that are reported to UTRAN for inter-RAT measurements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Inter-RAT event identity
MP

Inter-RAT event identity 10.3.7.24

Cells to report
MP
1 to <maxCellMeas>


>CHOICE BSIC
MP



>>Verified BSIC




>>>inter-RAT cell id
MP

Integer(0..<maxCellMeas>-1)

>>Non verified BSIC




>>>BCCH ARFCN
MP

Integer (0..1023)
[45]

10.3.7.29	Inter-RAT measurement quantity
The quantity the UE shall measure in case of inter-RAT measurement. It also includes the filtering of the measurements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Measurement quantity for UTRAN quality estimate
OP

Intra-frequency measurement quantity 10.3.7.38


CHOICE system
MP




>GSM





>>Measurement quantity
MP

Enumerated (GSM Carrier RSSI)


>>Filter coefficient
MP

Filter coefficient 10.3.7.9


>>BSIC verification required
MP

Enumerated (required, not required)


>IS2000





>>TADD Ec/I0
MP

Integer (0..63)
Admission criteria for neighbours, see subclause 2.6.6.2.6 of TIA/EIA/IS-2000.5

>>TCOMP Ec/I0
MP

Integer (0..15)
Admission criteria for neighbours, see subclause 2.6.6.2.5.2 of TIA/EIA/IS-2000.5

>>SOFT SLOPE
OP

Integer (0..63)
Admission criteria for neighbours, see subclause 2.6.6.2.3 and 2.6.6.2.5.2 of TIA/EIA/IS-2000.5

>>ADD_INTERCEPT
OP

Integer (0..63)
Admission criteria for neighbours, see subclause 2.6.6.2.5.2 of TIA/EIA/IS-2000.5

>E-UTRA




REL-8
>>Measurement quantity
MP

Enumerated (RSRP, RSRQ)
This IE indicates the quantity that the UE uses to determine the event trigger.
REL-8
>>Filter coefficient
MP

Filter coefficient 10.3.7.9

REL-8

10.3.7.30	Inter-RAT measurement reporting criteria
The triggering of the event-triggered reporting for an inter-RAT measurement. All events concerning inter-RAT measurements are labelled 3x where x is a,b,c, ...
Event 3a: The estimated quality of the currently used UTRAN frequency is below a certain threshold and the estimated quality of the other system is above a certain threshold.
Event 3b: The estimated quality of other system is below a certain threshold.
Event 3c: The estimated quality of other system is above a certain threshold.
Event 3d: Change of best cell in other system.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Parameters required for each event
OP
1 to <maxMeasEvent>



>Inter-RAT event identity
MP

Inter-RAT event identity 10.3.7.24


>Threshold own system
CV–clause 0

Integer (-115..0)


>W
CV–clause 0

Real(0, 0.1..2.0 by step of 0.1)
In event 3a

>Threshold other system
CV–clause 1

Integer (-115..0)
In event 3a, 3b, 3c
If the other system is EUTRA, the range used depends on: if measurement quantity is RSRQ, range should be (-39..-6), the actual value = Threshold other system/2 [dB], if measurement quantity is RSRP, range should be (-115..-19), the actual value = Threshold other system - 25 [dBm]




Integer (-115..6)
In event 3a, 3b, 3c
If the other system is EUTRA, the range used depends on: if measurement quantity is RSRQ, range should be (-68..6), the actual value = Threshold other system/2 [dB], if measurement quantity is RSRP, range should be (-115..-19), the actual value = Threshold other system - 25 [dBm]
REL-12
>Hysteresis
MP

Real(0..7.5 by step of 0.5)


>Time to trigger
MP

Time to trigger 10.3.7.64
Indicates the period of time during which the event condition has to be satisfied, before sending a Measurement Report.

>Reporting cell status
OP

Reporting cell status 10.3.7.61



Condition
Explanation
Clause 0
The IE is mandatory present if the IE "Inter-RAT event identity" is set to "3a", otherwise the IE is not needed
Clause 1
The IE is mandatory present if the IE "Inter-RAT event identity" is set to 3a, 3b or 3c, otherwise the IE is not needed

10.3.7.31	Inter-RAT measurement system information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Inter-RAT cell info list
OP

Inter-RAT cell info list 10.3.7.23


10.3.7.32	Inter-RAT reporting quantity
For all boolean types TRUE means inclusion in the report is requested.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UTRAN estimated quality
MP

Boolean
This parameter is not used in this release and should be set to FALSE.

CHOICE system
MP




>GSM





>>GSM Carrier RSSI Reporting indicator
MP

Boolean


>E-UTRA




REL-8
>>Reporting quantity
MP

Enumerated (‘measurement quantity’, ‘both’)
This IE indicates the quantity that the UE reports; if this IE is set to ‘measurement quantity’ the UE reports either RSRP or RSRQ which is indicated in the “measurement quantity” (see subclause 10.3.7.29); if this IE is set to ‘both’, the UE reports both RSRP and RSRQ.
REL-8

10.3.7.33	Intra-frequency cell info list
Contains the information for the list of measurement objects for an intra-frequency measurement.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Intra-frequency cell removal
OP


Absence of this IE is equivalent to choice "Remove no intra-frequency cells".

>Remove all intra-frequency cells



(no data)

>Remove some intra-frequency cells





>>Removed intra-frequency cells
MP
1 to <maxCellMeas>



>>>Intra-frequency cell id
MP

Integer(0 .. <maxCellMeas> - 1)


>Remove no intra-frequency cells



(no data)

New intra-frequency cells
OP
1 to <maxCellMeas>

This information element must be present when "Intra-frequency cell info list" is included in the system information

>Intra-frequency cell id
OP

Integer(0 .. <maxCellMeas> - 1)


>Cell info
MP

Cell info 10.3.7.2
This IE must be included for the serving cell when the IE "Intra frequency cell info list" is included in System Information Block type 11.

>CHOICE mode specific info
MP



REL-10
>>No information



No data for FDD, TDD 3.84 Mcps or TDD 7.68 Mcps
REL-10
>>TDD 1.28 Mcps




REL-10
>>> SNPL Monitor Set Indicator
OP

Bit string(5)
Each bit indicates whether the intra frequency neighbour cell has a secondary frequency which is the same as the frequency of a specific E-DCH carrier  of UE.
Bit0 indicate the E-DCH carrier with lowest UARFCN, 
Bit1 indicate the E-DCH carrier with the second lowest 
...
Bit n indicate the E-DCH carrier with the  n+1 lowest   UARFCN, 
the E-DCH carrier on the Primary E-DCH carrier shall not be considered in the bitmap.
REL-10
Cells for measurement
CV-BCHopt
1 to <maxCellMeas>



>Intra-frequency cell id
MP

Integer(0 .. <maxCellMeas>-1)


CSG Intrafrequency cell info
CV-BCHopt

10.3.7.121

REL-9
Intra-frequency SI Acquisition
CV-BCHopt

10.3.7.125

REL-9


Condition
Explanation
BCHopt
This IE is not needed when sent in SYSTEM INFORMATION. Otherwise, the IE is Optional

10.3.7.34	Intra-frequency event identity
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Intra-frequency event identity
MP

Enumerated (1a,1b,1c,1d,1e,1f,1g,1h,1i,
Seven spare values are needed.




1j)
Six spare values are needed.
REL-6

10.3.7.35	Intra-frequency measured results list
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Intra-frequency measurement results
OP
1 to <  maxCellMeas>



>Cell measured results
MP

Cell measured results 10.3.7.3
Only cells for which all reporting quantities are available should be included.


10.3.7.36	Intra-frequency measurement
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Intra-frequency measurement objects list
OP

Intra-frequency cell info list 10.3.7.33


Intra-frequency measurement objects list on secondary UL frequency
OP

Intra-frequency cell info list on secondary UL frequency
10.3.7.116

REL-9
Intra-frequency measurement
 quantity 
OP

Intra-frequency measurement quantity 10.3.7.38


Intra-frequency reporting quantity 
OP

Intra-frequency reporting quantity 10.3.7.41


Reporting cell status
CV-reporting

Reporting cell status 10.3.7.61


Measurement validity 
OP

Measurement validity 10.3.7.51


CHOICE report criteria
OP





MP


NOTE 1
REL-6

OP



REL-7
>Intra-frequency measurement 
 reporting criteria 


Intra-frequency measurement reporting criteria 10.3.7.39


>Periodical reporting criteria


Periodical reporting criteria 10.3.7.53


>No reporting



(no data)
Chosen when this measurement only is used as additional measurement to another measurement

Periodical reporting criteria for the secondary UL Frequency
OP

Periodical reporting criteria on secondary UL frequency 10.3.7.136

REL-10

Condition
Explanation
reporting
This IE is optional if the CHOICE "report criteria" is equal to "periodical reporting criteria" or "No reporting", otherwise the IE is not needed

NOTE 1:	The IE "report criteria" is optional in all releases except Rel-6. In Rel-6 the IE "report criteria" is mandatory present in order to align the tabular format with the Rel-6 ASN.1.

10.3.7.37	Intra-frequency measurement event results
This IE contains the measurement event results that are reported to UTRAN for intra-frequency measurements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Intra-frequency event identity
MP

Intra-frequency event identity 10.3.7.34


Cell measurement event results
MP

Cell measurement event results 10.3.7.4



10.3.7.38	Intra-frequency measurement quantity
The quantity the UE shall measure in case of intra-frequency measurement. It also includes the filtering of the measurements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Filter coefficient
MP

Filter coefficient 10.3.7.9

CHOICE mode
MP



>FDD




>>Measurement quantity
MP

Enumerated(CPICH Ec/N0, CPICH RSCP, Pathloss) 

>TDD




>>Measurement quantity list
MP
1 to 4


>>>Measurement quantity
MP

Enumerated(Primary CCPCH RSCP, Pathloss, Timeslot ISCP)


10.3.7.39	Intra-frequency measurement reporting criteria
The triggering of the event-triggered reporting for an intra-frequency measurement. All events concerning intra-frequency measurements are labelled 1x where x is a, b, c….
Event 1a: A Primary CPICH enters the Reporting Range (FDD only).
Event 1b: A Primary CPICH leaves the Reporting Range (FDD only).
Event 1c: A Non-active Primary CPICH becomes better than an active Primary CPICH (FDD only).
Event 1d: Change of best cell (FDD only).
Event 1e: A Primary CPICH becomes better than an absolute threshold (FDD only).
Event 1f: A Primary CPICH becomes worse than an absolute threshold (FDD only).
Event 1g: Change of best cell in TDD.
Event 1h: Timeslot ISCP below a certain threshold (TDD only).
Event 1i: Timeslot ISCP above a certain threshold (TDD only).
Event 1j: A Non-active E-DCH but active DCH Primary CPICH becomes better than an active E-DCH Primary CPICH (FDD only).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Parameters required for each event
OP
1 to <maxMeasEvent>



>Intra-frequency event identity
MP

Intra-frequency event identity 10.3.7.34


>Triggering condition 1
CV–clause 0

Enumerated(Active set cells, Monitored set cells, Active set cells and monitored set cells)
Indicates which cells can trigger the event

>Triggering condition 2
CV–clause 6

Enumerated(Active set cells, Monitored set cells, Active set cells and monitored set cells, Detected set cells, Detected set cells and monitored set cells)
Indicates which cells can trigger the event


CV-clause 10



REL-5
>Reporting Range Constant
CV–clause 2

Real(0..14.5 by step of 0.5)
In dB. In event 1a,1b. 

>Cells forbidden to affect Reporting range
CV–clause 1
1 to <  maxCellMeas>

In event 1a,1b

>>CHOICE mode
MP




>>>FDD





>>>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60


>>>TDD





>>>>Primary CCPCH info
MP

Primary CCPCH info 10.3.6.57


>W
CV–clause 2

Real(0.0..2.0 by step of 0.1)


>Hysteresis
MP

Real(0..7.5 by step of 0.5)
In dB.

>Threshold used frequency
CV-clause 3

Integer
(-115..165)

Range used depend on measurement quantity.
CPICH RSCP -115..-25 dBm
CPICH Ec/No -24..0 dB
Pathloss 30..165dB
ISCP -115..-25 dBm




Integer (-120..165)
Range used depend on measurement quantity.
CPICH RSCP -120..-25 dBm
CPICH Ec/No -24..0 dB
Pathloss 30..165dB
ISCP -120..-25 dBm
REL-6
>DeltaThreshold used frequency
CV-clause 8

Integer(-5..-1)
If present, the actual value of Threshold used frequency = Threshold used frequency + DeltaThreshold used frequency
REL-5




Not used in Release 6 and later
REL-6
>Reporting deactivation
 threshold
CV–clause 4

Integer(0, 1, 2, 3, 4, 5, 6, 7)
In event 1a
Indicates the maximum number of cells allowed in the active set in order for event 1a to occur.
0 means not applicable
.

>Replacement activation
 threshold
CV-clause 5

Integer(0, 1, 2, 3, 4, 5, 6, 7)
In event 1c
Indicates the minimum number of cells allowed in the active set in order for event 1c to occur.
0 means not applicable





In event 1j
Indicates the minimum number of cells allowed in the E-DCH active set in order for event 1j to occur.
For event 1j values 5, 6 and 7 are not applicable.
0 means not applicable
REL-6
>Time to trigger
MP

Time to trigger 10.3.7.64
Indicates the period of time during which the event condition has to be satisfied, before sending a Measurement Report. Time in ms

>Amount of reporting
CV–clause 7

Integer(1, 2, 4, 8, 16, 32, 64, Infinity)
In case the IE "Intra-frequency reporting criteria" is included in the IE "Inter-frequency measurement", this IE is not needed.

>Reporting interval
CV–clause 7

Integer(0, 250, 500, 1000, 2000, 4000, 8000, 16000)
Indicates the interval of periodical reporting when such reporting is triggered by an event. Interval in milliseconds.
0 means no periodical reporting. In case the IE "Intra-frequency reporting criteria" is included in the IE "Inter-frequency measurement", this IE is not needed.

>Reporting cell status
OP

Reporting cell status 10.3.7.61


>Periodical reporting information-1b
CV–clause 9

Periodical reporting info-1b
10.3.7.53aa
In case the IE "Intra-frequency reporting criteria" is included in the IE "Inter-frequency measurement", this IE is not needed.
REL-5
>Use CIO
CV-clause 10

Boolean
TRUE indicates that the cell individual offset shall be used for event evaluation
REL-5
Reporting criteria for secondary UL Frequency
CV-Clause 11

Intra-frequency measurement reporting criteria on secondary UL frequency
10.3.7.119

REL-9
Cells to be excluded in detected set cells
CV-Clause 12
1 to < maxExcludedDetectedSetCells >

If present the UE should exclude indicated cells in the event evaluation when intra-frequency detected set is enabled.
REL-11
>Primary CPICH info
MP

Primary CPICH info 10.3.6.60



Condition
Explanation
Clause 0
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1b" or "1f", otherwise the IE is not needed.
Clause 1
The IE is optional if the IE "Intra-frequency event identity" is set to "1a" or "1b", otherwise the IE is not needed.
Clause 2
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1a" or "1b", otherwise the IE is not needed.
Clause 3
The IE is mandatory present if the IE "Intra-frequency event identity" is set to , "1e", "1f", "1h" or "1i", otherwise the IE is not needed.
Clause 4
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1a", otherwise the IE is not needed.
Clause 5
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1c" or 1j , otherwise the IE is not needed.
Clause 6
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1a" or "1e", otherwise the IE is not needed. 
Clause 7
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1a", "1c" or 1j, otherwise the IE is not needed. 
Clause 8
The IE is optional if the IE "Intra-frequency event identity" is set to "1e", "1f", "1h" or "1i". Otherwise the IE is not needed.
Clause 9
The IE is optional if the IE "Intra-frequency event identity" is set to "1b", otherwise the IE is not needed.
Clause 10
The IE is optional if the IE "Intra-frequency event identity" is set to "1d", otherwise the IE is not needed.
Clause 11
The IE is not needed when sent in SYSTEM INFORMATION or when IE "Intra-frequency measurement reporting criteria" is included in the IE "Inter-frequency measurement", otherwise the IE is optional.
Clause 12
The IE is optional if the intra-frequency detected set is configured to trigger the measurement event, otherwise the IE is not needed.

10.3.7.40	Intra-frequency measurement system information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Intra-frequency measurement identity 
MD

Measurement identity 10.3.7.48
The intra-frequency measurement identity has default value 1.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
Intra-frequency cell info list
OP

Intra-frequency cell info list 10.3.7.33

Intra-frequency
measurement quantity
OP

Intra-frequency measurement quantity 10.3.7.38
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
Intra-frequency reporting
quantity for RACH
Reporting
OP

Intra-frequency reporting quantity for RACH Reporting 10.3.7.42
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
Maximum number of
reported cells on RACH
OP

Maximum number of reported cells on RACH 10.3.7.43
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
Reporting information for state CELL_DCH
OP

Reporting information for state CELL_DCH 10.3.7.62
Note 1
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.

NOTE 1:	The reporting of intra-frequency measurements is activated when state CELL_DCH is entered.
10.3.7.41	Intra-frequency reporting quantity
Contains the reporting quantity information for an intra-frequency measurement.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Reporting quantities for active set cells
MP

Cell reporting quantities 10.3.7.5

Reporting quantities for monitored set cells
MP

Cell reporting quantities 10.3.7.5

Reporting quantities for detected set cells
OP

Cell reporting quantities 10.3.7.5


10.3.7.42	Intra-frequency reporting quantity for RACH reporting
Contains the reporting quantity information for an intra-frequency measurement report, which is sent on the RACH.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
SFN-SFN observed time difference reporting indicator
MP

Enumerated(No report, type 1, type 2)


CHOICE mode
MP




>FDD





>>Reporting quantity
MP

Enumerated(CPICH Ec/N0, CPICH RSCP, Pathloss, No report)


>>Reporting quantity 2
CV-Current_Cell

Enumerated(CPICH Ec/N0 and CPICH RSCP)
If this IE is present, the UE shall ignore the IE "Reporting quantity". One spare value.
REL-12
>TDD





>>Reporting quantity list
MP
1 to 2



>>>Reporting quantity
MP

Enumerated(Timeslot ISCP, Primary CCPCH RSCP, No report)



Condition
Explanation
Current_Cell
This IE is optional for the current cell and is not needed otherwise.

10.3.7.42a	Logged ANR Configuration Info
Parameters used to configure logged UTRAN ANR measurements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Logging Duration
MP

Enumerated (10 min, 30min, 1 hour，spare1, spare2)
Timer for logging duration. The timer is activated at the moment of configuration. When the timer expires the logging is stopped and the configuration is cleared. 
REL-10
Intra-UTRA ANR
OP


Included if intra-UTRA ANR shall be performed
REL-10
>CHOICE Absolute Threshold
MP



REL-10
>>RSCP for ANR





>>>RSCP
MD

Integer (-120..-25)
In dBm. Default value is -100. If present, it indicates CPICH RSCP for FDD, Primary CCPCH RSCP for TDD.

REL-10
>>Ec/N0 for ANR





>>>Ec/N0
MD

Integer (-24..0)
In dB. Default value is -10. For FDD only
REL-10
>Logging Relative Threshold
OP

Integer (-4..16)
If present, it applies to RSCP by step of 2 and Ec/N0 by step of 1.
REL-10
Inter-RAT ANR for E-UTRA Indicator
OP

Enumerated (TRUE)
True indicates the UE needs to perform inter-RAT ANR to E-UTRA.
REL-10 
Inter-RAT ANR for GSM Indicator
OP

Enumerated (TRUE)
True indicates the UE needs to perform inter-RAT ANR to GSM
REL-10

10.3.7.42b	Logged ANR Report Info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Logged ANR Report Info List

1…MaxNumANRLoggedItems


REL-10
>Serving PLMN Identity
MP

PLMN identity 10.3.1.11

REL-10
>Serving Cell
MP

Cell ID 10.3.2.2

REL-10
>CHOICE logged cell info
MP



REL-10
>>UTRAN





>>>PLMN Identity
MP

PLMN identity 10.3.1.11

REL-10
>>>Cell Identity
MP

Cell ID 10.3.2.2

REL-10
>>>UARFCN
MP

Integer(0..16383)

REL-10
>>>Cell parameter ID
CV-Tdd

Cell parameter Id 10.3.6.9

REL-10
>>>Primary Scrambling Code
CV-Fdd

Primary CPICH info 10.3.6.60

REL-10
>>E-UTRA





>>>PLMN Identity
MP

PLMN identity 10.3.1.11

REL-10
>>>Tracking Area Code
MP

Bit string (16)
Setting specified in [67]. The first/leftmost bit of the bit string contains the most significant bit of the Tracking Area Code.
REL-10
>>>Cell Identity
MP

Bit string (28)
Formatted and coded according to [67]. The first/leftmost bit of the bit string contains the most significant bit of the Cell Identity.
REL-10
>>>EARFCN
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension" in the Logged ANR Report Info extension List.
REL-10
>>>Physical Cell identity
MP

Integer (0..503)

REL-10
>>GSM





>>>PLMN Identity
MP

PLMN identity 10.3.1.11

REL-10
>>>LAC
MP

Bit string(16)
The first/leftmost bit of the bit string contains the most significant bit of the LAC..
REL-10
>>>Cell Identity
MP

Bit string (16)
Formatted and coded according to [11]. The first/leftmost bit of the bit string contains the most significant bit of the Cell Identity.
REL-10
>>>BCCH ARFCN
MP

Integer (0..1023)
[45]
REL-10
>>>Band Indicator
MP

Enumerated (DCS 1800 band used, PCS 1900 band used)
Indicates how to interpret the BCCH ARFCN
REL-10
>>>BSIC
MP

BSIC 10.3.8.2

REL-10
Logged ANR Report Info extension List
OP
1 to <MaxNumANRLoggedItems>


REL-11
>>>EARFCN extension
MP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64]
REL-11

Condition
Explanation
Fdd
This IE is mandatory present for FDD, otherwise it is not needed.
Tdd
This IE is mandatory present for TDD, otherwise it is not needed.

10.3.7.43	Maximum number of reported cells on RACH
Contains the maximum number of intra-frequency cells to be reported on RACH.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Maximum number of reported cells
MP

Enumerated (no report, current cell, current cell + best neighbour, current cell+2 best neighbours, …, current cell+6 best neighbours)


10.3.7.43a	MBMS preferred frequency information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS preferred frequency list
MP
1 to < maxMBMS-Freq>


REL-6
>MBMS preferred frequency
OP

Integer(1 .. <maxMBMS-Freq>)
Absence of this information element means the currently used frequency. Value n corresponds with the nth  frequency included in the IE New inter-frequency cells that is specified within SIB 11
REL-6
>CHOICE Layer convergence information
MP



REL-6
>>No HCS




REL-6
>>>Qoffmbms
MP

Enumerated (4, 8, 12, 16, 20, 30, 40, infinity)
The offset in decibel [dB] added to cells on this MBMS preferred frequency
REL-6
>>HCS




REL-6
>>>HCS_OFFmbms
MP

Integer (0..7)
Offset added to the normal HCS priority level of cells on this MBMS preferred frequency
REL-6
>MBMS PL Service Restriction Information
OP

Enumerated (TRUE)
Included if some service restrictions apply for this preferred frequency e.g. congestion
REL-6

10.3.7.43b	MBSFN inter frequency neighbour list
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBSFN inter frequency neighbour list
MP
1 to < maxMBSFNclusters>


REL-7
>MBSFN frequency
MP

Frequency info 10.3.6.36

REL-7
>IMB indication
OP

Enumerated (TRUE)
If present: 3.84 Mcps TDD MBSFN IMB is applied on this frequency.
REL-8
>CHOICE MBSFN services notification
MP



REL-7
>>MBSFN services notified



(no data)
REL-7
>>MBSFN services not notified




REL-7
>>>All MBSFN services notified
OP

Enumerated (TRUE)

REL-7

10.3.7.44	Measured results
Contains the measured results of the quantity indicated optionally by Reporting Quantity in Measurement Control. "Measured results" can be used for both event trigger mode and periodical reporting mode. For intra-frequency and inter-frequency measurements the list shall be in the order of the value of the measurement quantity (the first cell shall be the best cell). The "best" FDD cell has the largest value when the measurement quantity is "Ec/No" or "RSCP". On the other hand, the "best" cell has the smallest value when the measurement quantity is "Pathloss". The "best" TDD cell has the largest value when measurement quantity is "Primary CCPCH RSCP". For intra-frequency measurements, the ordering shall be applied to all cells included in the IE "Measured results". For inter-frequency measurements, the ordering shall be applied to all cells on the same frequency included in the IE "Measured results". For other measurements, the order of reported measurement objects is not specified.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE Measurement
MP


One spare value is needed.
>Intra-frequency measured results list


Intra-frequency measured results list 10.3.7.35

>Inter-frequency measured results list


Inter-frequency measured results list 10.3.7.15

>Inter-RAT measured results list


Inter-RAT measured results list 10.3.7.26

>Traffic volume measured results list


Traffic volume measured results list 10.3.7.67

>Quality measured results list


Quality measured results list 10.3.7.55

>UE Internal measured results


UE Internal measured results 10.3.7.76

>UE positioning measured results


UE positioning measured results 10.3.7.99


10.3.7.45	Measured results on RACH
For measurements on used frequency, this IE contains the measured results on RACH of the quantity indicated by Reporting quantity in the IE "Intra-frequency reporting quantity for RACH Reporting" in system information broadcast on BCH. The list, measurement results for monitored cells (not including the current cell) shall be in the order of the value of the measurement quantity as indicated by Reporting Quantity in the IE "Intra-frequency reporting quantity for RACH Reporting" (the first cell shall be the best cell).
For measurements on non-used frequencies, this IE includes the best cell on each non- used frequency, in order of decreasing quality and up to a maximum number as specified by the IE "Maximum number of inter-frequency RACH reporting cells". If the UE supports Increased UE carrier monitoring UTRA, then:
1>	if all the inter-frequency cells in the variable CELL_INFO_LIST belong to the legacy cell ID range (0.. maxCellMeas-1), then the best cell on each non-used frequency are included into the Rel-6 version of this IE;
1>	if all the inter-frequency cells in the variable CELL_INFO_LIST belong to both legacy cell ID range (0.. maxCellMeas-1) and extended cell ID range (maxCellMeas.. maxCellMeas-ext-1), then:
2>	the Rel-12 version of this IE includes the best cell on each non-used frequency constructed from the list of cells belonging to both legacy and extended cell ID range; and
2>	the Rel-6 version of this IE includes the best cell on each non-used frequency constructed from the list of cells belonging only to the legacy cell ID range.
The "best" FDD cell has the largest value when the measurement quantity is "Ec/No" or "RSCP". On the other hand, the "best" cell has the smallest value when the measurement quantity is "Pathloss". The "best" TDD cell has the largest value when measurement quantity is "Primary CCPCH RSCP".
For measurements on E-UTRA frequencies, this IE includes a bit string, of which the i-th bit should be set to 1 only if the quantity of the i-th E-UTRA frequency configured for measurement and reporting on RACH in the IE "E-UTRA frequency list indicator" received in System Information Block Type 19 exceeds the threshold specified by
1>	if the "E-UTRA frequency RACH reporting quantity" is set to RSRP:
2>	the threshold specified by the IE "E-UTRA frequency RACH reporting threshold".
1>	if the "E-UTRA frequency RACH reporting quantity" is set to RSRQ:
2>	the threshold specified by the IE "E-UTRA frequency RACH reporting threshold" minus the offset "EUTRA-RSRQ-offsetWB" and "EUTRA-RSRQ-OnAllSymbolsOffset", if stored in the variable PRIORITY_INFO_LIST for that frequency.
If the threshold is not exceeded, set the corresponding bit to 0.
Information Element/group name
Need
Multi
Type and reference
Semantics description
Version
Measurement result for current cell
MP




>CHOICE mode
MP




>>FDD





>>>CHOICE measurement quantity
MP


One spare value is needed.

>>>>CPICH Ec/N0


Integer(0..49)
In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.

>>>>CPICH RSCP


Integer(0..91)
In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.

>>>>Pathloss


Integer(46..158)
In dB.
Fifteen spare values are needed.

>>>>CPICH Ec/N0 and CPICH RSCP




REL-12
>>>>>CPICH Ec/N0
MP

Integer(0..49)
In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.
REL-12
>>>>>CPICH RSCP
MP

Integer(0..91)
In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.
REL-12
>>TDD





>>>CHOICE TDD option
MP



REL-4
>>>>3.84 Mcps TDD




REL-4
>>>>>Timeslot List
OP
1 to 14



>>>>>>Timeslot ISCP
MP

Timeslot ISCP info 10.3.7.65
The UE shall report the Timeslot ISCP in the same order as indicated in the cell info

>>>7.68 Mcps TDD




REL-7
>>>>Timeslot List
OP
1 to 14


REL-7
>>>>>Timeslot ISCP
MP

Timeslot ISCP info 10.3.7.65
The UE shall report the Timeslot ISCP in the same order as indicated in the cell info
REL-7
>>>>1.28 Mcps TDD




REL-4
>>>>>Timeslot List
OP
1 to 6


REL-4
>>>>>>Timeslot ISCP
MP

Timeslot ISCP info 10.3.7.65
The UE shall report the Timeslot ISCP in the same order as indicated in the cell info
REL-4
>>>Primary CCPCH RSCP
OP

Primary CCPCH RSCP info 10.3.7.54


Measurement results for monitored cells on used frequency
OP
1 to 8



>SFN-SFN observed time difference
OP

SFN-SFN observed time difference 10.3.7.63


>CHOICE mode
MP




>>FDD





>>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60


>>>CHOICE measurement quantity
OP


One spare value is needed.

>>>>CPICH Ec/N0


Integer(0..49)
In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.

>>>>CPICH RSCP


Integer(0..91)
In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.

>>>>Pathloss


Integer(46..158)
In dB.
Fifteen spare values are needed.

>>TDD





>>>Cell parameters Id
MP

Cell parameters Id 10.3.6.9


>>>Primary CCPCH RSCP
MP

Primary CCPCH RSCP info 10.3.7.54


Measurement results for monitored cells on non-used frequencies
OP



REL-6
>Inter-frequency cell indication- SIB11
MP

Integer (0..1)

REL-6
>Inter-frequency cell indication- SIB12
MP

Integer (0..1)

REL-6
>Inter-frequency cell list
MP
1 to <maxFreq>


REL-6
>>Inter-frequency cell id
MP

Integer(0 .. <maxCellMeas>-1)

REL-6



Integer(0 .. <maxCellMeas-ext>-1)

REL-12
Measurement results for E-UTRA frequencies
OP



REL-11
> E-UTRA frequency indication- SIB19
MP

Integer (0..1)

REL-11
> E-UTRA frequency indicator
MP

Bit string(maxNumEUTRAFreqs_FACH)
Bit 0 is the first/leftmost bit of the bit string. Each bit indicates whether the radio quality of an E-UTRA frequency is above the reporting threshold or not, where a one value indicates above and a zero value not.
Bit n corresponds to the n-th E-UTRA frequency configured for measurement and reporting on RACH in the IE " E-UTRA frequency list indicator" received in SIB19.
REL-11



Bit string(maxNumEUTRAFreqs_FACH-ext)
Bit 0 is the first/leftmost bit of the bit string. Each bit indicates whether the radio quality of an E-UTRA frequency is above the reporting threshold or not, where a one value indicates above and a zero value not.
Bit n corresponds to the n-th E-UTRA frequency configured for measurement and reporting on RACH in the IE "E-UTRA frequency list indicator" received in SIB19.
REL-12

NOTE:	Monitored cells consist of neighbouring cells.
10.3.7.45a	Measured results on RACH FDD
NOTE 1:	Only for FDD.
For measurements on used frequency, this IE contains the measured results on RACH of the quantity indicated by Reporting quantity in the IE "Intra-frequency reporting quantity for RACH Reporting" in system information broadcast on BCH. The list, measurement results for monitored cells (not including the current cell) shall be in the order of the value of the measurement quantity as indicated by Reporting Quantity in the IE "Intra-frequency reporting quantity for RACH Reporting" (the first cell shall be the best cell).
For measurements on non-used frequencies, this IE includes the best cell on each non- used frequency, in order of decreasing quality and up to a maximum number as specified by the IE "Maximum number of inter-frequency RACH reporting cells".
The "best" FDD cell has the largest value when the measurement quantity is "Ec/No" or "RSCP". On the other hand, the "best" cell has the smallest value when the measurement quantity is "Pathloss".
For measurements on E-UTRA frequencies, this IE includes a bit string, of which the i-th bit should be set to 1 only if the quantity of the i-th E-UTRA frequency configured for measurement and reporting on RACH in the IE "E-UTRA frequency list indicator" received in System Information Block Type 19 exceeds the threshold specified by
1>	if the "E-UTRA frequency RACH reporting quantity" is set to RSRP
2>	the threshold specified by the IE "E-UTRA frequency RACH reporting threshold".
1>	if the "E-UTRA frequency RACH reporting quantity" is set to RSRQ
2>	the threshold specified by the IE "E-UTRA frequency RACH reporting threshold" minus the offset "EUTRA-RSRQ-offsetWB" and "EUTRA-RSRQ-OnAllSymbolsOffset", if stored in the variable PRIORITY_INFO_LIST for that frequency.
If the threshold is not exceeded, set the corresponding bit to 0.
Information Element/group name
Need
Multi
Type and reference
Semantics description
Version
Measurement result for current cell
MP




>CHOICE measurement quantity
MP


One spare value is needed.

>>CPICH Ec/N0


Integer(0..49)
In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.

>>CPICH RSCP


Integer(0..91)
In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.

>>Pathloss


Integer(46..158)
In dB.
Fifteen spare values are needed.

>>CPICH Ec/N0 and CPICH RSCP




REL-12
>>>CPICH Ec/N0
MP

Integer(0..49)
In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.
REL-12
>>>CPICH RSCP
MP

Integer(0..91)
In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.
REL-12
Measurement results for monitored cells on used frequency
OP
1 to 8



>SFN-SFN observed time difference
OP

SFN-SFN observed time difference 10.3.7.63


>Primary CPICH info
MP

Primary CPICH info 10.3.6.60


>CHOICE measurement quantity
OP


One spare value is needed.

>>CPICH Ec/N0


Integer(0..49)
In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.

>>CPICH RSCP


Integer(0..91)
In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.

>>Pathloss


Integer(46..158)
In dB.
Fifteen spare values are needed.

Measurement results for monitored cells on non-used frequencies
OP




>Inter-frequency cell indication- SIB11
MP

Integer (0..1)


>Inter-frequency cell indication- SIB12
MP

Integer (0..1)


>Inter-frequency cell list
MP
1 to <maxFreq>



>>Inter-frequency cell id
MP

Integer(0 .. <maxCellMeas>-1)


Measurement results for E-UTRA frequencies
OP




> E-UTRA frequency indication- SIB19
MP

Integer (0..1)


> E-UTRA frequency indicator
MP

Bit string(maxNumEUTRAFreqs_FACH)
Bit 0 is the first/leftmost bit of the bit string. Each bit indicates whether the radio quality of an E-UTRA frequency is above the reporting threshold or not, where a one value indicates above and a zero value not.
Bit n corresponds to the n-th E-UTRA frequency configured for measurement and reporting on RACH in the IE "E-UTRA frequency list indicator" received in SIB19.


NOTE:	Monitored cells consist of neighbouring cells.
10.3.7.46	Measurement Command
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Measurement command
MP

Enumerated(Setup, Modify, Release) 





ReleaseAll,
ReleaseSome)

REL-12

10.3.7.46a	Measurement release enhancement
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Choice mode
MP



REL-12
>Release all measurements


(no data)

REL-12
>Release some measurements


Release some measurements 
10.3.7.46b

REL-12

10.3.7.46b	Release some measurements
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Released measurements
MP
1 to < maxMeasIdentity>


REL-12
>Measurement Identity
MP

Measurement identity 10.3.7.48

REL-12

10.3.7.47	Measurement control system information
Information element/Group name
Need
Multi
Type and reference
Semantics description
Use of HCS
MP

Enumerated (Not used, used)
Indicates if the serving cell belongs to a HCS structure
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received.
Cell selection and reselection quality measure
MP

Enumerated (CPICH Ec/N0, CPICH RSCP)
Choice of measurement (CPICH Ec/N0 or CPICH RSCP) to use as quality measure Q.
NOTE: For TDD,each choice of this parameter represents PCCPCH RSCP.
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaves as if this IE would not have been received
Intra-frequency measurement system information
OP

Intra-frequency measurement system information 10.3.7.40

Inter-frequency measurement system information
OP

Inter-frequency measurement system information
10.3.7.20
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
Inter-RAT measurement system information
OP

Inter-RAT measurement system information 10.3.7.31
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.
Traffic volume measurement system information
OP

Traffic volume measurement system information 10.3.7.73
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3 the UE behaviour upon reception of this IE is unspecified.

Condition
Explanation
MBSFN
This IE is mandatory present in a cell operating in MBSFN mode.

10.3.7.47a	Measurement control system information extension
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
Intra-frequency cell info list
OP



REL-6
>New intra-frequency cells
MP
1 to <maxCellMeas>


REL-6
>>Intra-frequency cell id
OP

Integer(0 .. <maxCellMeas> - 1)

REL-6
>>Cell info
MP

Cell info 10.3.7.2

REL-6
Inter-frequency cell info list
OP



REL-6
>New inter-frequency cells
MP
1 to <maxCellMeas>


REL-6
>>Frequency Info
MD

Frequency info 10.3.6.36
Default value is the value of the previous "frequency info" in the list.
NOTE:	The first occurrence is then MP.
It is always ensured by the UTRAN that more than one entry for the same physical frequency is not configured regardless of the UARFCN used to indicate this.
REL-6
>>Inter-frequency cell id
OP

Integer(0 .. <maxCellMeas> - 1)

REL-6
>>Cell info
MP

Cell info 10.3.7.2

REL-6
Reduced measurement performance frequency list
OP
1 to <maxRMPfrequencies>

 
REL-12
>Reduced measurement performance
MP

BOOLEAN
TRUE indicates that the frequency is configured for reduced measurement performance [19].
FALSE indicates that the frequency is configured for normal measurement performance [19]. The ith entry in the Reduced measurement performance frequency list corresponds to the ith frequency signalled in the "New inter-frequency cells" list.
REL-12
Inter-RAT cell info list
OP



REL-6
>>New inter-RAT cells
MP
1 to <maxCellMeas>


REL-6
>>Inter-RAT cell id
OP

Integer(0 .. <maxCellMeas> - 1)

REL-6
>>CHOICE Radio Access Technology
MP



REL-6
>>>GSM




REL-6
>>>>Cell individual offset
MP

Integer (-50..50 )
In dB
Used to offset measured quantity value
REL-6
>>>>Cell selection and re-selection info
OP

Cell selection and re-selection info for SIB11/12
10.3.2.4
See subclause 8.6.7.3

REL-6
>>>>BSIC
MP

BSIC 10.3.8.2

REL-6
>>>>Band indicator
MP

Enumerated (DCS 1800 band used, PCS 1900 band used)
Indicates how to interpret the BCCH ARFCN
REL-6
>>>>BCCH ARFCN
MP

Integer (0..1023)
[45]
REL-6
>>>IS-2000




REL-6
>>>>System specific measurement info
MP

enumerated (frequency, timeslot, colour code, output power, PN offset)
For IS-2000, use fields from TIA/EIA/IS-2000.5,
subclause 3. 7.3.3.2.27, Candidate Frequency Neighbour List Message
REL-6
>>>None


(no data)
This value has been introduced to handle the case when IE "New inter-RAT cells" is not required
REL-6
Multiple Frequency Info List FDD
CV-
MCM_opt
1 to 
<maxNumFDDFreqs >

Each entry in the list corresponds to a UARFCN listed in the "New inter-frequency cells" IE (common to all those cells sharing the same "Frequency info" value).
REL-10
>Multiple Frequency bands Indicator List FDD
OP
1 to < maxMultipleFrequencyBandsFDD >

Indicates, per neighbour UARFCN, a list of frequency bands which the cells belong to.
Absence of this IE indicates that there are no Multiple Bands for the particular UARFCN.
REL-10
>>CHOICE frequency bands indicator
MP



REL-10
>>>Frequency band indicator


Frequency band indicator
10.3.6.35b

REL-10
>>>Frequency band indicator 2


Frequency band indicator 2
10.3.6.35c

REL-10
>>>Frequency band indicator 3


Frequency band indicator 3
10.3.6.35ca

REL-10

Condition
Explanation
MCM_opt
This IE is OPTIONAL when sent in SYSTEM INFORMATION. Otherwise, the IE is not needed.

10.3.7.47b	Inter-frequency cell info list extension
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
Inter-frequency cell info list
OP



REL-12
>New inter-frequency cells
MP
1 to <maxCellMeas-ext2>


REL-12
>>Frequency Info
MD

Frequency info 10.3.6.36
Default value is the value of the previous "frequency info" in the list.
NOTE:	The first occurrence is then MP.
It is always ensured by the UTRAN that more than one entry for the same physical frequency is not configured regardless of the UARFCN used to indicate this.
REL-12
>>Inter-frequency cell id
OP

Integer(0 .. <maxCellMeas-ext> - 1)

REL-12
>>Cell info
MP

Cell info 10.3.7.2

REL-12
Reduced measurement performance frequency list
OP
1 to <maxRMPfrequencies>

 
REL-12
>Reduced measurement performance
MP

BOOLEAN
TRUE indicates that the frequency is configured for reduced measurement performance [19].
FALSE indicates that the frequency is configured for normal measurement performance [19]. The ith entry in the Reduced measurement performance frequency list corresponds to the ith frequency signalled in the "New inter-frequency cells" list.
REL-12
Multiple Frequency Info List FDD
CV-
MCM_opt
1 to 
<maxNumFDDFreqs >

Each entry in the list corresponds to a UARFCN listed in the "New inter-frequency cells" IE (common to all those cells sharing the same "Frequency info" value).
REL-12
>Multiple Frequency bands Indicator List FDD
OP
1 to< maxMultipleFrequencyBandsFDD >

Indicates, per neighbour UARFCN, a list of frequency bands which the cells belong to.
Absence of this IE indicates that there are no Multiple Bands for the particular UARFCN.
REL-12
>>CHOICE frequency bands indicator
MP



REL-12
>>>Frequency band indicator


Frequency band indicator
10.3.6.35b

REL-12
>>>Frequency band indicator 2


Frequency band indicator 2
10.3.6.35c

REL-12
>>>Frequency band indicator 3


Frequency band indicator 3
10.3.6.35ca

REL-12

Condition
Explanation
MCM_opt
This IE is OPTIONAL when sent in SYSTEM INFORMATION. Otherwise, the IE is not needed.

10.3.7.48	Measurement Identity
A reference number that is used by the UTRAN at modification and release of the measurement, and by the UE in the measurement report.

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Measurement identity 
MP

Integer(1..16





17..32)

REL-9

NOTE:	The specific handling of the Measurement Identity for UEs supporting the measurement identity extension is captured in ASN.1
10.3.7.49	Measurement reporting mode
Contains the type of Measurement Report transfer mode and the indication of periodical/event trigger.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Measurement Report Transfer Mode
MP

enumerated (Acknowledged mode RLC, Unacknowledged mode RLC)

Periodical Reporting / Event Trigger Reporting Mode
MP

Enumerated (Periodical reporting, Event trigger)


10.3.7.50	Measurement Type
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Measurement Type
MP

Enumerated(Intra-frequency,
Inter-frequency,
Inter-RAT,
Traffic volume,
Quality,
UE internal, UE positioning, CSG proximity, application layer)


10.3.7.51	Measurement validity
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UE state 
MP

Enumerated(CELL_DCH, all states except CELL_DCH, all states)


10.3.7.52	Void

10.3.7.53	Periodical reporting criteria
Contains the periodical reporting criteria information. It is necessary only in the periodical reporting mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Amount of reporting
MD

Integer(1, 2, 4, 8, 16, 32, 64, Infinity)
The default value is infinity.

Reporting interval
MP

Integer(250, 500, 1000, 2000, 3000, 4000, 6000, 8000, 12000, 16000, 20000, 24000, 28000, 32000, 64000)
Indicates the interval of periodical report.
Interval in milliseconds.
If this IE is configured for SI acquisition, then it specifies the maximum time the UE can take for SI acquisition.


10.3.7.53aa	Periodical reporting info-1b
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Amount of reporting
MP

Integer(1, 2, 4, 8, 16, 32, 64, Infinity)

REL-5
Reporting interval
MP

Integer(0, 250, 500, 1000, 2000, 4000, 8000, 16000)
Indicates the interval of periodical reporting when such reporting is triggered by an event. Interval in milliseconds.
0 means no periodical reporting.
REL-5

10.3.7.53a	PLMN identities of neighbour cells
This IE contains the PLMN identities of neighbour cells.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PLMNs of intra-frequency cells list
OP
1 to <maxCellMeas>

NOTE

>PLMN identity
OP

PLMN identity 10.3.1.11
Action when not present is specified in subclause 8.1.1.6.18.

PLMNs of inter-frequency cells list
OP
1 to <maxCellMeas>

NOTE

>PLMN identity
OP

PLMN identity 10.3.1.11
Action when not present is specified in subclause 8.1.1.6.18.

PLMNs of inter-RAT cells list
OP
1 to <maxCellMeas>



>PLMN identity
OP

PLMN identity 10.3.1.11
Action when not present is specified in subclause 8.1.1.6.18.

Multiple PLMNs of intra-frequency cells list
OP
1 to <maxCellMeas>


REL-8
>Multiple PLMN list
OP
1 to 6

Action when not present is specified in subclause 8.1.1.6.18.
REL-8
>> PLMN identity with Optional MCC
MP

PLMN identity with Optional MCC 10.3.1.11a

REL-8
Multiple PLMNs of inter-frequency cells list
OP
1 to <maxCellMeas>


REL-8
>Multiple PLMN list
OP
1 to 6

Action when not present is specified in subclause 8.1.1.6.18.
REL-8
>> PLMN identity with Optional MCC
MP

PLMN identity with Optional MCC 10.3.1.11a

REL-8

NOTE:	The IE "PLMNs of intra-frequency cells list" and/or the IE "PLMNs of inter-frequency cells list" can be used when each entry in those lists is either empty or includes a single PLMN identity. If multiple PLMNs need to be indicated in a non-empty entry, the network uses the IE "Multiple PLMNs of intra-frequency cells list" and/or the IE "Multiple PLMNs of inter-frequency cells list" instead.

10.3.7.53b	PLMN identities of neighbour cells for SIB 11ter
This IE contains the PLMN identities of inter-frequency neighbour cells.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PLMNs of inter-frequency cells list
OP
1 to <maxCellMeas-ext>

In this version of the specification, the maximum value is 48.
NOTE
REL-12
>PLMN identity
OP

PLMN identity 10.3.1.11
Action when not present is specified in subclause 8.1.1.6.18.
REL-12
Multiple PLMNs of inter-frequency cells list
OP
1 to <maxCellMeas-ext>

In this version of the specification, the maximum value is 48.
REL-12
>Multiple PLMN list
OP
1 to 6

Action when not present is specified in subclause 8.1.1.6.18.
REL-12
>> PLMN identity with Optional MCC
MP

PLMN identity with Optional MCC 10.3.1.11a

REL-12

NOTE:	The IE "PLMNs of inter-frequency cells list" can be used when each entry in those lists is either empty or includes a single PLMN identity. If multiple PLMNs need to be indicated in a non-empty entry, the network uses the IE "Multiple PLMNs of inter-frequency cells list" instead.

10.3.7.54	Primary CCPCH RSCP info
NOTE:	Only for TDD
Information Element/Group name
Need
Multi
IE type and reference
Semantics description
Version
Primary CCPCH RSCP
MP

Integer(0..91)
According to P-CCPCH_RSCP_LEV in [19] and [20].
Thirty-six spare values are needed.

DeltaPrimary CCPCH RSCP
CV-Rel5

Integer(-5..-1)
If present, the actual value of Primary CCPCH RSCP = Primary CCPCH RSCP+ DeltaPrimary CCPCH RSCP
REL-5

Condition
Explanation
Rel5
This IE is mandatory if the value of Primary CCPCH RSCP is below 0. Othewise the IE is not needed.

10.3.7.54a	Qhcs
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Qhcs
MP

Integer( 0..99)
Qhcs, mapped from CPICH Ec/No (FDD), see [4]
[dB]
0: -24
1: -23.5
2: -23
3: -22.5
...
45: -1.5
46: -1
47: -0.5
48:  0
49:  (spare)
...
98:  (spare)
99:  (spare)






Qhcs, mapped from CPICH RSCP (FDD), see [4]
[dBm]
0: -115
1: -114
2: -113
:
88:  -27
89:  -26
90:  -(spare)
91:  -(spare)
:
98:  -(spare)
99:  -(spare)






Qhcs, mapped from PCCPCH RSCP (TDD), see [4]
[dBm]
0: -115
1: -114
2: -113
:
88:  -27
89:  -26
90:  -(spare)
91:  -(spare)
:
98:  -(spare)
99:  -(spare)





Qhcs level, mapped from Averaged received signal level RSSI (GSM), see [4]
[dBm]
0: -110
1: -109
2: -108
:
61:  -49
62:  -48
63:  -47
64:  -46
65:  -45
66:  -44
67:  -43
68:  -42
69:  -41
70:  -40
71:  -39
72:  -38
73:  -37
74:  -(spare)
:
98:  -(spare)
99:  -(spare)

DeltaQhcs-RSCP
CV-RSCP

Integer(-5..-1)
If present, the actual value of Qhcs = Qhcs + DeltaQhcs-RSCP
REL-5

Condition
Explanation
RSCP
This IE is optional if Qhcs is mapped from CPICH RSCP or PCCPCH RSCP, and if the value of the RSCP is below 0 (-115dBm). It is not needed otherwise.

10.3.7.55	Quality measured results list
Information Element/Group name
Need
Multi
Type and reference
Semantics description
BLER measurement results
OP
1 to <maxTrCH>


>DL Transport channel identity
MP

Transport channel identity 10.3.5.18
transport channel type = DCH
>DL Transport Channel BLER
OP

Integer (0..63)
According to BLER_LOG in [19] and [20]
CHOICE mode
MP



>FDD



No data
>TDD




>>SIR measurement results
OP
1 to <MaxCCTrCH>

SIR measurements for DL CCTrCH
>>>TFCS ID
MP

Integer(1...8)

>>>Timeslot list
MP
1 to <maxTS>

for all timeslot on which the CCTrCH is mapped on
>>>>SIR
MP

Integer(0..63)
According to UE_SIR in [20]

10.3.7.56	Quality measurement
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Quality reporting quantity 
OP

Quality reporting quantity 10.3.7.59

CHOICE report criteria
MP



>Quality measurement 
 reporting criteria 


Quality measurement reporting criteria 10.3.7.58
Note
Given this choice, the IE "DL Transport Channel BLER" shall be set to FALSE (see subclause 10.3.7.59)
>Periodical reporting criteria


Periodical reporting criteria 10.3.7.53
Note
>No reporting



Note
(no data)
Chosen when this measurement only is used as additional measurement to another measurement

NOTE:	In this version of the specification, BLER as additional measurement is not supported.
10.3.7.57	Quality measurement event results
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Transport channels causing the event
OP
1 to <maxTrCH>


>DL Transport channel identity
MP

Transport channel identity 10.3.5.18
transport channel type = DCH

10.3.7.58	Quality measurement reporting criteria
Event 5a: Number of bad CRCs on a certain transport channel exceeds a threshold.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Parameters sent for each transport channel
MP
1 to <maxTrCH>


>DL Transport channel identity
MP

Transport channel identity 10.3.5.18
transport channel type = DCH
>Total CRC
MP

Integer(1..512)
Number of CRCs
>Bad CRC
MP

Integer(1..512)
Number of CRCs
>Pending after trigger
MP

Integer(1..512)
Number of CRCs

10.3.7.59	Quality reporting quantity
Information Element/Group name
Need
Multi
Type and reference
Semantics description
DL Transport Channel BLER 
MP

Boolean
TRUE means report requested
Transport channels for BLER reporting
CV-BLER reporting
1 to <maxTrCH>

The default, if no transport channel identities are present, is that the BLER is reported for all downlink transport channels
>DL Transport channel identity
MP

Transport channel identity 10.3.5.18
transport channel type = DCH
CHOICE mode
MP



>FDD



No data
>TDD




>>SIR measurement list
OP
1 to <maxCCTrCH>

SIR measurements shall be reported for all listed TFCS IDs
>>>TFCS ID
MP

Integer(1...8)


Condition
Explanation
BLER reporting
This IE is not needed if the IE "DL Transport Channel BLER" is FALSE and optional if the IE "DL Transport Channel BLER" is TRUE

10.3.7.60	Reference time difference to cell
In the System Information message, the reference time difference to cell indicates the timing difference between the primary CCPCH of the current cell and the primary CCPCH of a neighbouring cell..
In the Measurement Control message, the reference time difference to cell indicates the timing difference between UE uplink transmission timing and the primary CCPCH of a neighbouring cell.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE accuracy
MP



>40 chips




>>Reference time difference
MP

Integer(0..38400 by step of 40)
In chips
>256 chips




>>Reference time difference
MP

Integer(0.. 38400 by step of 256)
In chips
>2560 chips




>>Reference time difference
MP

Integer(0.. 38400 by step of 2560)
In chips

10.3.7.61	Reporting Cell Status
Indicates maximum allowed number of cells to report and whether active set cells and/or virtual active set cells and/or monitored set cells and/or detected set cells on used frequency and/or monitored set cells and/or detected set cells on non used frequency should/should not be included in the IE "Measured results".
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE reported cell
MP




>Report cells within active set



This choice is not valid for inter-RAT measurements. For inter-frequency measurements it is only valid for reporting events 2D and 2F. See NOTE 1.

>>Maximum number of reported cells
MP

Integer(1..6)


>Report cells within monitored set cells on used frequency



This choice is not valid for inter-RAT or inter-frequency measurements

>>Maximum number of reported cells
MP

Integer(1..6)


>Report cells within active set and/or monitored set cells on used frequency



This choice is not valid for inter-RAT or inter-frequency measurements

>>Maximum number of reported cells
MP

Integer(1..6)


>Report cells within detected set on used frequency



This choice is not valid for inter-RAT or inter-frequency measurements

>>Maximum number of reported cells
MP

Integer(1..6)


>Report cells within monitored set and/or detected set on used frequency



This choice is not valid for inter-RAT or inter-frequency measurements

>>Maximum number of reported cells
MP

Integer(1..6)


>Report all active set cells + cells within monitored set on used frequency



This choice is not valid for inter-RAT or inter-frequency measurements

>>Maximum number of reported cells
MP

Enumerated (virtual/active set cells+1, virtual/active set cells+2, …., virtual/active set cells+6)


>Report all active set cells + cells within detected set on used frequency



This choice is not valid for inter-RAT or inter-frequency measurements

>>Maximum number of reported cells 
MP

Enumerated (virtual/active set cells+1, virtual/active set cells+2, …., virtual/active set cells+6)


>Report all active set cells + cells within monitored set and/or detected set on used frequency



This choice is not valid for inter-RAT or inter-frequency measurements

>>Maximum number of reported cells 
MP

Enumerated (virtual/active set cells+1, virtual/active set cells+2, …., virtual/active set cells+6)


>Report cells within virtual active set



This choice is not valid for intra-frequency or inter-RAT measurements

>>Maximum number of reported cells per reported non-used frequency
MP

Integer(1..6)


>Report cells within monitored set on non-used frequency



This choice is not valid for intra-frequency or inter-RAT measurements

>>Maximum number of reported cells per reported non-used frequency
MP

Integer(1..6)


>Report cells within monitored and/or virtual active set on non-used frequency



This choice is not valid for intra-frequency or inter-RAT measurements

>>Maximum number of reported cells per reported non-used frequency
MP

Integer(1..6)


>Report all virtual active set cells + cells within monitored set on non-used frequency



This choice is not valid for intra-frequency or inter-RAT measurements

>>Maximum number of reported cells per reported non-used frequency
MP

Enumerated (virtual/active set cells+1, virtual/active set cells+2, …., virtual/active set cells+6)


>Report cells within active set or within virtual active set or of the other RAT



If this choice is selected for inter-RAT measurements, the UE shall report only cells of the other RAT.
If this choice is selected for intra-frequency measurements, the UE shall report cells within the active set. If this choice is selected for inter-frequency measurements, the UE shall report cells within the virtual active set.

>>Maximum number of reported cells
MP

Integer (1..12)


>Report cells within active and/or monitored set on used frequency or within virtual active and/or monitored set on non-used frequency



This choice is not valid for inter-RAT measurements.
If this choice is selected for intra-frequency measurements, the UE shall report cells within the active and/or monitored set. 
If this choice is selected for inter-frequency measurements, the UE shall report cells within the virtual active set and/or monitored set on non-used frequency.

>>Maximum number of reported cells
MP

Integer(1..12)


>Report all virtual active set cells + cells within monitored set and/or detected set on non-used frequency



This choice is not valid for inter-RAT or intra-frequency measurements
REL-10
>>Maximum number of reported cells 
MP

Enumerated (virtual/active set cells+1, virtual/active set cells+2, …., virtual/active set cells+6)

REL-10

NOTE 1:	For Inter-frequency reporting events 2D and 2F, only CHOICE "Report cells within active set" is valid.
10.3.7.62	Reporting information for state CELL_DCH
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Intra-frequency reporting quantity
MP

Intra-frequency reporting quantity 10.3.7.41

Measurement Reporting Mode
MP

Measurement Reporting Mode 10.3.7.49

CHOICE report criteria
MP



>Intra-frequency measurement reporting criteria


Intra-frequency measurement reporting criteria 10.3.7.39
This IE may only contain measurement events from 1A to 1I, but not measurement event 1J.
>Periodical reporting criteria


Periodical reporting criteria 10.3.7.53


10.3.7.63	SFN-SFN observed time difference
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE type
MP




>Type 1


Integer(0..9830399)
According to T1_SFN-SFN_TIME in [19] and [20].
For FDD and 3.84 Mcps TDD and 7.68 Mcps TDD:
6946816 spare values are needed.




Integer(0..3276799)
For 1.28 Mcps TDD:
13500416 spare values are needed.
Rel-4
>Type 2


Integer(0..40961)
According to T2_SFN-SFN_TIME in [19] and [20].
24574 spare values are needed.




Integer(0..27649)
For 1.28 Mcps TDD: 
37886 spare values are needed.
Rel-4

10.3.7.64	Time to trigger
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Time to trigger
MP

Integer(0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000)
Time in ms

10.3.7.65	Timeslot ISCP info
NOTE:	Only for TDD
Information Element/Group name
Need
Multi
IE type and reference
Semantics description
Timeslot ISCP
MP

Integer (0..91)
According to UE_TS_ISCP_LEV in [20].
Thirty-six spare values are needed.

10.3.7.66	Traffic volume event identity
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Traffic volume event identity
MP

Enumerated(4a, 4b)


10.3.7.67	Traffic volume measured results list
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Traffic volume measurement results
OP
1 to <maxRB>


>RB Identity
MP

RB Identity 10.3.4.16

>RLC Buffers Payload
OP

Enumerated(0, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2K, 4K, 8K, 16K, 32K, 64K, 128K, 256K, 512K, 1024K)
In bytes
And N Kbytes = N*1024 bytes. Twelve spare values are needed.
>Average of RLC Buffer Payload
OP

Enumerated(0, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2K, 4K, 8K, 16K, 32K, 64K, 128K, 256K, 512K, 1024K)
In bytes
And N Kbytes = N*1024 bytes.
Twelve spare values are needed.
>Variance of RLC Buffer Payload
OP

Enumerated(0, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2K, 4K, 8K, 16K) 
In bytes
And N Kbytes = N*1024 bytes.
Two spare values are needed.

10.3.7.68	Traffic volume measurement
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Traffic volume measurement
 Object
OP

Traffic volume measurement Object 10.3.7.70

Traffic volume measurement
 quantity 
OP

Traffic volume measurement quantity 10.3.7.71

Traffic volume reporting quantity 
OP

Traffic volume reporting quantity 10.3.7.74

Measurement validity
OP

Measurement validity 10.3.7.51

CHOICE report criteria
MP



>Traffic volume measurement 
 reporting criteria 


Traffic volume measurement reporting criteria 10.3.7.72

>Periodical reporting criteria


Periodical reporting criteria 10.3.7.53

>No reporting 



(no data)
Chosen when this measurement only is used as additional measurement to another measurement

10.3.7.69	Traffic volume measurement event results
Contains the event result for a traffic volume measurement.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Uplink transport channel type causing the event
MP

Enumerated(DCH,RACH,USCH)
USCH is TDD only.
RACH is the currently configured default in the uplink.
For 1.28 Mcps TDD, if E-DCH is configured to the UE, and the Uplink transport channel type is USCH and UL Transport Channel identity is 32, it means E-DCH TVM is configured.
UL Transport Channel identity
CV-UL-DCH/USCH

Transport channel identity 10.3.5.18

Traffic volume event identity
MP

Traffic volume event identity 10.3.7.66


Condition
Explanation
UL-DCH/USCH
If IE "Uplink transport channel type" is equal to "DCH" or "USCH" (TDD only) this IE is mandatory present. Otherwise the IE is not needed.

10.3.7.70	Traffic volume measurement object
Contains the measurement object information for a traffic volume measurement.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Traffic volume measurement objects
MP
1 to <maxTrCH>


>Uplink transport channel type
MP

Enumerated(DCH,RACH,USCH)
USCH is TDD only.
RACH is the currently configured default in the uplink.
For 1.28 Mcps TDD, if E-DCH is configured to the UE, and the Uplink transport channel type is USCH and UL Transport Channel identity is 32, it means E-DCH TVM is configured.
>UL Target Transport Channel ID
CV-UL-DCH/USCH

Transport channel identity 10.3.5.18


Condition
Explanation
UL-DCH/USCH
If IE "Uplink transport channel type" is equal to "DCH" or "USCH" (TDD only) this IE is mandatory present. Otherwise the IE is not needed.

10.3.7.71	Traffic volume measurement quantity
Contains the measurement quantity information for a traffic volume measurement.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Measurement quantity
MP

Enumerated(RLC buffer payload, Average RLC buffer payload, Variance of RLC buffer payload)
This parameter should be ignored.
Time Interval to take an average or a variance
CV-A/V

Integer(20, 40, ..260, by steps of 20)
In ms

Condition
Explanation
A/V
This IE is mandatory present when "Average RLC buffer" or "Variance of RLC buffer payload" is chosen and not needed otherwise.

10.3.7.72	Traffic volume measurement reporting criteria
Contains the measurement reporting criteria information for a traffic volume measurement.
Event 4a: Transport Channel Traffic Volume [15] exceeds an absolute threshold.
Event 4b: Transport Channel Traffic Volume [15] becomes smaller than an absolute threshold.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Parameters sent for each transport channel
OP
1 to <maxTrCH>

This IE is always required, need is OP to align with ASN.1
>Uplink transport channel type
OP

Enumerated(DCH,RACH,USCH)
USCH is TDD only.
RACH is the currently configured default in the uplink.
For 1.28 Mcps TDD, if E-DCH is configured to the UE, and the Uplink transport channel type is USCH and UL Transport Channel identity is 32, it means E-DCH TVM is configured.
>UL Transport Channel ID
CV-UL-DCH/USCH

Transport channel identity 10.3.5.18

>Parameters required for each Event
OP
1 to <maxMeasparEvent>


>>Traffic volume event identity
MP

Traffic volume event identity 10.3.7.66

>>Reporting Threshold
MP

Enumerated(8,16,32,64,128,256,512,1024,2K,3K,4K,6K,8K,12K,16K,24K,32K,48K,64K,96K,128K,192K,256K,384K,512K,768K)
Threshold in bytes
And N Kbytes = N*1024 bytes
>>Time to trigger
OP

Time to trigger 10.3.7.64
Indicates the period of time during which the event condition has to be satisfied, before sending a Measurement Report.
Time in ms
>>Pending time after trigger
OP

Integer(250, 500, 1000, 2000, 4000, 8000, 16000)
Indicates the period of time during which it is forbidden to send any new measurement reports with the same Traffic volume event identity even if the triggering condition is fulfilled. Time in milliseconds
>>Tx interruption after trigger 
OP

Integer (250, 500, 1000, 2000, 4000, 8000, 16000)
Time in milliseconds. Indicates how long the UE shall block DTCH transmissions on the RACH after a measurement report is triggered. 

Condition
Explanation
UL-DCH/USCH
If IE "Uplink transport channel type" is equal to "DCH" or "USCH" (TDD only) this IE is optional. Otherwise the IE is not needed.

10.3.7.73	Traffic volume measurement system information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Traffic volume measurement identity 
MD

Measurement identity 10.3.7.48
The traffic volume measurement identity has default value 4.
Traffic volume
measurement object
OP

Traffic volume measurement object 10.3.7.70

Traffic volume
measurement quantity
OP

Traffic volume measurement quantity 10.3.7.71

Traffic volume reporting quantity
OP

Traffic volume reporting quantity 10.3.7.74

Measurement validity
OP

Measurement validity 10.3.7.51

Measurement Reporting Mode
MP

Measurement Reporting Mode 10.3.7.49

CHOICE reporting criteria
MP



>Traffic volume measurement reporting criteria


Traffic volume measurement reporting criteria 10.3.7.72

>Periodical reporting criteria


Periodical reporting criteria 10.3.7.53


10.3.7.74	Traffic volume reporting quantity
Contains the reporting quantity information for a traffic volume measurement.
For all boolean types TRUE means inclusion in the report is requested.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RLC Buffer Payload for each RB
MP

Boolean

Average of RLC Buffer Payload for each RB
MP

Boolean

Variance of RLC Buffer Payload for each RB
MP

Boolean


10.3.7.75	UE internal event identity
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE internal event identity
MP

Enumerated(6a,6b,6c,6d,6e, 6f, 6g,





6h, 6i)

REL-14

10.3.7.76	UE internal measured results
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>UE Transmitted Power
OP

UE Transmitted Power info 10.3.7.85


>>UE Rx-Tx report entries
OP
1 to <maxRL>



>>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60
Primary CPICH info for each cell included in the active set

>>>UE Rx-Tx time difference type 1
MP

UE Rx-Tx time difference type 1 10.3.7.83
UE Rx-Tx time difference in chip for each RL included in the active set

>>UE power headroom
OP

UE power headroom 10.3.7.142
UE power headroom
REL-14
>TDD





>>UE Transmitted Power list
OP
1 to <maxTS>

UE Transmitted Power for each used uplink timeslot in ascending timeslot number order

>>>UE Transmitted Power
MP

UE Transmitted Power info 10.3.7.85


>>CHOICE TDD option
MP



REL-4
>>>3.84 Mcps TDD




REL-4
>>>>Applied TA
OP

Uplink Timing Advance 10.3.6.95
Uplink timing advance applied by the UE

>>>>Extended Applied TA
OP

Extended Uplink Timing Advance 10.3.6.95a
Uplink timing advance applied by the UE
REL-7
>>>7.68 Mcps TDD




REL-7
>>>>Extended Applied TA 
OP

Extended Uplink Timing Advance 10.3.6.95a
Uplink timing advance applied by the UE
REL-7
>>>1.28 Mcps TDD




REL-4
>>>>TADV
OP

TADV info
10.3.7.112

REL-4

10.3.7.77	UE internal measurement
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UE internal measurement
 quantity 
OP

UE internal measurement quantity 10.3.7.79

UE internal reporting quantity 
OP

UE internal reporting quantity 10.3.7.82

CHOICE report criteria
MP



>UE internal measurement 
 reporting criteria 


UE internal measurement reporting criteria 10.3.7.80

>Periodical reporting criteria


Periodical reporting criteria 10.3.7.53

>No reporting



(no data)
Chosen when this measurement only is used as additional measurement to another measurement

CHOICE report criteria
Condition under which the given report criteria is chosen
UE internal measurement reporting criteria
Chosen when UE internal measurement event triggering is required
Periodical reporting criteria
Chosen when periodical reporting is required
No reporting
Chosen when this measurement only is used as additional measurement to another measurement

10.3.7.78	UE internal measurement event results
This IE contains the measurement event results that are reported to UTRAN for UE internal measurements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UE internal event identity
MP

UE internal event identity 10.3.7.75

CHOICE mode
MP



>FDD




>Primary CPICH info
CV-clause 1

Primary CPICH info 10.3.6.60

>TDD



(no data)

Condition
Explanation
Clause 1
This IE is mandatory present if the IE "UE internal event identity" is set to "6f" or "6g", otherwise the IE is not needed.

10.3.7.79	UE internal measurement quantity
The quantity the UE shall measure in case of UE internal measurement.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>Measurement quantity
MP

Enumerated(UE Transmitted Power, UTRA Carrier RSSI, UE Rx-Tx time difference, 





UE power headroom)

REL-14
>TDD





>>Measurement quantity
MP

Enumerated(UE Transmitted Power, UTRA Carrier RSSI,





TADV)
Measurement on Timing Advance is for 1.28 Mcps TDD
REL-4
Filter coefficient
OP

Filter coefficient 10.3.7.9
If the IE "Measurement quantity" is set to "Rx-Tx time difference" and this IE is present, the UE behaviour is unspecified.


10.3.7.80	UE internal measurement reporting criteria
The triggering of the event-triggered reporting for a UE internal measurement. All events concerning UE internal measurements are labelled 6x where x is a, b, c…. In TDD, the events 6a - 6d are measured and reported on timeslot basis.
Event 6a: The UE Transmitted Power becomes larger than an absolute threshold
Event 6b: The UE Transmitted Power becomes less than an absolute threshold
Event 6c: The UE Transmitted Power reaches its minimum value
Event 6d: The UE Transmitted Power reaches its maximum value
Event 6e: The UE RSSI reaches the UEs dynamic receiver range
Event 6f (FDD): The UE Rx-Tx time difference for a RL included in the active set becomes larger than an absolute threshold
Event 6f (1.28 Mcps TDD): The time difference indicated by TADV becomes larger than an absolute threshold
Event 6g: The UE Rx-Tx time difference for a RL included in the active set becomes less than an absolute threshold
Event 6h: The UE power headroom becomes larger than an absolute threshold
Event 6i: The UE power headroom becomes less than an absolute threshold
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Parameters sent for each UE internal measurement event
OP
1 to <maxMeasEvent>



>UE internal event identity
MP

UE internal event identity 10.3.7.75


>Time-to-trigger
MP

Integer(0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000)
Time in ms. Indicates the period of time between the timing of event detection and the timing of sending Measurement Report.

>UE Transmitted Power Tx power threshold
CV-clause 1

Integer(-50..33)
Power in dBm. In event 6a, 6b. 

>UE Rx-Tx time difference threshold
CV-clause 2

Integer(768..1280)
Time difference in chip. In event 6f, 6g.

>TADV threshold
CV-clause 3

Real (0..63 step 0.125)
Time difference in chip. In event 6f
REL-4
>Hysteresis
CV-clause 4

Real (0..7.5 by step of 0.5) 

REL-14
>UE Power Headroom threshold
CV-clause 4

Integer (-50..33)

REL-14
>Filter coefficient
CV-clause 4

Filter coefficient 10.3.7.9
Filter coefficient.
REL-14
>Pending time after trigger
CV-clause 5

Integer(250, 500, 1000, 2000, 4000, 8000, 16000)
Indicates the period of time during which it is forbidden to send any new measurement reports with the same event identity even if the triggering condition is fulfilled. Time in milliseconds.
REL-14

Condition
Explanation
Clause 1
The IE is mandatory present if the IE "UE internal event identity" is set to "6a" or "6b", otherwise the IE is not needed.
Clause 2
In FDD, the IE is mandatory present if the IE "UE internal event identity" is set to "6f" or "6g", otherwise the IE is not needed.
Clause 3
In 1.28 Mcps TDD the IE is mandatory present if the IE "UE internal event identity" is set to "6f", otherwise the IE is not needed.
Clause 4
In FDD, the IE is mandatory present if the IE "UE internal event identity" is set to "6h" or "6i", otherwise the IE is not needed.
Clause 5
In FDD, the IE is optionally present if the IE "UE internal event identity" is set to "6h" or "6i", otherwise the IE is not needed.

10.3.7.81	Void

10.3.7.82	UE Internal reporting quantity
For all boolean types TRUE means inclusion in the report is requested.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE Transmitted Power
MP

Boolean


CHOICE mode
MP




>FDD





>>UE Rx-Tx time difference
MP

Boolean


>>UE power headroom
MP

Boolean

REL-14
>TDD





>>CHOICE TDD option




REL-4
>>>3.84 Mcps TDD




REL-4
>>>>Applied TA
MP

Boolean


>>>7.68 Mcps TDD




REL-7
>>>>Applied TA
MP

Boolean

REL-7
>>>1.28 Mcps TDD




REL-4
>>>>TADV info
MP

Boolean

REL-4

10.3.7.83	UE Rx-Tx time difference type 1
The difference in time between the UE uplink DPCCH/DPDCH frame transmission and the first detected path (in time), of the downlink DPCH or F-DPCH frame from the measured radio link, as defined in [7]. This measurement is for FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UE Rx-Tx time difference type 1
MP

Integer(768..1280)
In chips.
511 spare values are needed.

10.3.7.84	UE Rx-Tx time difference type 2
The difference in time between the UE uplink DPCCH/DPDCH frame transmission and the first detected path (in time), of the downlink DPCH or F-DPCH frame from the measured radio link, as defined in [7].
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UE Rx-Tx time difference type 2
MP

Integer (0..8191)
According to [19].

10.3.7.85	UE Transmitted Power info

Information Element/Group name
Need
Multi
IE type and reference
Semantics description
UE Transmitted Power
MP

Integer (0..104)
According to UE_TX_POWER in [19] and [20]

10.3.7.86	UE positioning Ciphering info
This IE contains information for the ciphering of UE positioning assistance data broadcast in System Information.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Ciphering Key Flag
MP

Bit string(1)

Ciphering Serial Number
MP

Integer(0..65535)
The serial number used in the DES ciphering algorithm

10.3.7.87	UE positioning Error
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Error reason
MP

Enumerated(Not Enough OTDOA Cells, Not Enough GPS Satellites, Assistance Data Missing, Not Accomplished GPS Timing Of Cell Frames, Undefined Error, Request Denied By User, Not Processed And Timeout, Reference Cell Not Serving Cell,
Note 1




Not Enough GANSS Satellites, Not Accomplished GANSS Timing Of Cell Frames)
Note 1
REL-7
GPS Additional Assistance Data Request
CV-GPSdataMissing

UE positioning GPS Additional Assistance Data Request 10.3.7.88a


GANSS Additional Assistance Data Request
CV-GANSSdataMissing

UE positioning GANSS Additional Assistance Data Request
10.3.7.88c

REL-7

NOTE 1:	The following table describes each value of the IE "Error reason".
Value
Indication
Not Enough OTDOA Cells
There were not enough cells to be received.
Not Enough GPS Satellites
There were not enough GPS satellites to be received.
Assistance Data Missing
UE positioning GANSS or/and GPS assistance data missing.
Not Accomplished GPS Timing Of Cell Frames
UE was not able to accomplish the GPS timing of cell frames measurement.
Undefined Error
Undefined error.
Request Denied By User
UE positioning request denied by upper layers. 
Not Processed And Timeout
UE positioning request not processed by upper layers and timeout.
Reference Cell Not Serving Cell
UE was not able to read the SFN of the reference cell.
Not Enough GANSS Satellites
There were not enough GANSS satellites to be received.
Not Accomplished GANSS Timing Of Cell Frames
UE was not able to accomplish the GANSS timing of cell frames measurement.

Condition
Explanation
GPSdataMissing
The IE is optional if the IE "Error reason" is "Assistance Data Missing" and not needed otherwise.
GANSSdataMissing
The IE is optional if the IE "Error reason" is "Assistance Data Missing" and not needed otherwise.

10.3.7.88	UE positioning GPS acquisition assistance
This IE contains parameters that enable fast acquisition of the GPS signals in UE-assisted GPS positioning.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GPS TOW msec
MP

Integer(0..6.048*108-1)
GPS Time of Week in milliseconds rounded down to the nearest millisecond unit. It is also the time when satellite information is valid.

UTRAN GPS reference time
OP




>UTRAN GPS timing of cell frames
MP

Integer(0 ... 2322431999999)
GPS timing of cell frames in steps of 1 chip.

>CHOICE mode
OP




>>FDD





>>>Primary CPICH Info
MP

Primary CPICH Info 10.3.6.60
Identifies the reference cell for the GPS TOW-SFN relationship

>>TDD





>>>cell parameters id
MP

Cell parameters id 10.3.6.9
Identifies the reference cell for the GPS TOW-SFN relationship

>SFN
MP

Integer(0..4095)
The SFN which the UTRAN GPS timing of cell frames time stamps.

UE Positioning GPS ReferenceTime Uncertainty
OP

UE positioning GPS reference time uncertainty 10.3.7.96a

REL-7
Confidence
OP

Integer(0..100)
Confidence level (in percent) of the reference location area or volume used to calculate the Satellite information parameters (search windows).
REL-12
Satellite information
MP
1 to <maxSat>



>SatID
MP

Integer (0..63)
Identifies the satellite and is equal to (SV ID No - 1) where SV ID No is defined in [12].

>Doppler (0th order term)
MP

Real(-5120..5117.5 by step of 2.5)
Hz 

>Extra Doppler
OP




>>Doppler (1st order term)
MP

Real (-0.966..0.483 by step of 0.023)
Hz/s

>>Doppler Uncertainty
MP

Enumerated (12.5,25,50,100,200)
Hz.
Three spare values are needed.
The Doppler experienced by a stationary UE is in the range “Doppler – Doppler Uncertainty” to “Doppler + Doppler Uncertainty”.

>Extra Doppler Extension
OP


If this field is present, the "Extra Doppler" field should not be present.
REL-12
>>Doppler (1st order term)
MP

Real (-0.966..0.483 by step of 0.023)
Hz/s
REL-12
>>Doppler Uncertainty Extension
MP

Enumerated (300, 400, 500, 600, ‘No Information’)
Hz.
Three spare values are needed.
The Doppler experienced by a stationary UE is in the range "Doppler – Doppler Uncertainty Extension" to "Doppler + Doppler Uncertainty Extension".
REL-12
>Code Phase 
MP

Integer(0..1022)
GPS chips.
Increasing binary values of the field signify increasing predicted pseudoranges.

>Integer Code Phase 
MP

Integer(0..19)
Number of code periods that have elapsed since the latest GPS bit boundary, in units of C/A code period.

>GPS Bit number 
MP

Integer(0..3)
Specifies GPS bit number modulo 4

>Code Phase Search Window
MP

Integer(1023,1,2,3,4,6,8,12,16,24,32,48,64,96,128,192)
Expected code-phase is in the range “Code Phase – Code Phase Search Window” to “Code Phase + Code Phase Search Window”.

>Azimuth and Elevation
OP




>>Azimuth
MP

Real(0..348.75 by step of 11.25)
Degrees
An angle of x degrees means the satellite azimuth a is in the range x ≤ a < x+11.25 degrees.

>>Elevation
MP

Real(0..78.75 by step of 11.25)
Degrees
An angle of y degrees means the satellite elevation e is in the range y ≤ e < y+11.25 degrees except for y=78.75 where the range is extended to include 90 degrees.

>>Azimuth LSB
MP

Real(0..10.546875 by step of 0.703125)
Degrees
The full satellite azimuth is constructed as
“Azimuth” +
“Azimuth LSB”.

An azimuth angle of x degrees means the satellite azimuth a is in the range x ≤ a < x+0.703125 degrees.

Range 0-359.296875 deg.
REL-10
>>Elevation LSB
MP

Real(0..10.546875 by step of 0.703125)
Degrees
The full satellite elevation is constructed as
“Elevation” +
“Elevation LSB”.

An elevation angle of y degrees means the satellite elevation e is in the range y ≤ e < y+0.703125 degrees.

Range 0-89.296875 deg.
REL-10

10.3.7.88a	UE positioning GPS Additional Assistance Data Request
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Almanac
MP

Boolean
TRUE means requested
UTC Model
MP

Boolean
TRUE means requested
Ionospheric model
MP

Boolean
TRUE means requested
Navigation Model
MP

Boolean
TRUE means requested
DGPS Corrections
MP

Boolean
TRUE means requested
Reference Location
MP

Boolean
TRUE means requested
Reference Time
MP

Boolean
TRUE means requested
Acquisition Assistance
MP

Boolean
TRUE means requested
Real-Time Integrity
MP

Boolean
TRUE means requested
Navigation Model Additional data
CV-Navigation Model



>GPS Week
MP

Integer (0..1023)

>GPS_Toe
MP

Integer (0..167)
GPS time of ephemeris in hours of the latest ephemeris set contained by the UE.
Eighty-eight spare values needed.
>T-Toe limit
MP

Integer (0..10)
ephemeris age tolerance of the UE to UTRAN in hours.
Five spare values needed.
>Satellites list related data
MP
0 to <maxSat>


>>SatID
MP

Integer (0..63)
Identifies the satellite and is equal to (SV ID No - 1) where SV ID No is defined in [12].
>>IODE
MP

Integer (0..255)
Issue of Data Ephemeris for SatID

Condition
Explanation
Navigation Model
This IE is mandatory present if "Navigation Model" is set to TRUE otherwise it is absent. 


10.3.7.88b		UE positioning GANSS reference measurement information
This IE provides reference code and Doppler measurement information of visible satellites of a GNSS constellation. The information enables fast acquisition of the GANSS signals in UE-assisted GANSS positioning. If the IE "UE positioning GPS acquisition assistance" is not included in IE "UE positioning measurement", the Satellite Information is valid at the time as given in the IE "UE positioning GANSS reference time" IE. I.e., if IE "UE positioning GANSS reference measurement information" is included in IE "UE positioning GANSS assistance data" and IE "UE positioning GPS acquisition assistance" is not included in IE "UE positioning measurement", the IE "UE positioning GANSS reference time" shall also be included. If the IE "UE positioning GPS acquisition assistance" is included in IE "UE positioning measurement", the IE "GPS TOW msec" and IE "UTRAN GPS reference time" included in IE "UE positioning GPS acquisition assistance" is also valid for the Satellite information in IE "UE positioning GANSS reference measurement information".
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GANSS Signal ID
OP

GANSS Signal Id 10.3.3.45a
Absence of this field means the default value as defined in 10.3.3.45a for the GANSS identified by GANSS_ID.
If this IE is asked by SIB 15.6, the GANSS shall be solved by the scheduling information.
REL-7
Confidence
OP

Integer(0..100)
Confidence level (in percent) of the reference location area or volume used to calculate the Satellite information parameters (search windows).
REL-12
Satellite information
MP
1 to <maxGANSSSat>


REL-7
>SatID
MP

Integer (0..63)
Identifies the satellite within a GANSS constellation.
For coding description, see Note 2.
REL-7
>Doppler (0th order term)
MP

Real(-1024..1023.5 by step of 0.5)
m/s 
Conversion between m/s and Hz shall be made by using the nominal wavelength of the assisted signal.
REL-7
>Extra Doppler
OP



REL-7
>>Doppler (1st order term)
MP

Real (-0.2..0.1 by step of 1/210)
m/s2
REL-7
>>Doppler Uncertainty
MP

Enumerated (40,20,10,5,2.5)
m/s.
The Doppler experienced by a stationary UE is in the range “Doppler – Doppler Uncertainty” to “Doppler + Doppler Uncertainty”.
Three spare values are needed.
REL-7
>Extra Doppler Extension
OP


If this field is present, the "Extra Doppler" field should not be present.
REL-12
>>Doppler (1st order term)
MP

Real (-0.2..0.1 by step of 1/210)
m/s2
REL-12
>>Doppler Uncertainty Extension
MP

Enumerated (60, 80, 100, 120, ‘No Information’)
m/s.
The Doppler experienced by a stationary UE is in the range "Doppler – Doppler Uncertainty Extension" to "Doppler + Doppler Uncertainty Extension".
Three spare values are needed.
REL-12
>Code Phase 
MP

Integer(0..1023)
ms, scaling factor 2-10
Nominal chipping rate of the GNSS signal shall be used in conversion.
Increasing binary values of the field signify increasing predicted code phases.
REL-7
>Integer Code Phase 
MP

Integer(0..127)
ms.
Integer code phase (expressed modulo 128 ms) . The satellite integer milli-seconds code phase currently being transmitted at the Reference Time included in either IE "UE positioning GANSS reference time” or IE “UE positioning GPS acquisition assistance”, as seen by a receiver at the Reference Location is calculated as Reference Time (expressed in milli-seconds) minus (Integer_Code_Phase + (n×128 ms)), with n = 
…-2,-1,0,1,2…..
The UE can calculate the expected code phase as follows:
Reference Time – Integer Code Phase + Code Phase.
REL-7
>Code Phase Search Window
MP

Bit string (5)
Coded expected code-phase is in the range “Code Phase – Code Phase Search Window” to “Code Phase + Code Phase Search Window”.
For coding description, see Note 1
REL-7
>Azimuth and Elevation
OP



REL-7
>>Azimuth
MP

Real(0..348.75 by step of 11.25)
Degrees
An angle of x degrees means the satellite azimuth a is in the range x ≤ a < x+11.25 degrees.
REL-7
>>Elevation
MP

Real(0..78.75 by step of 11.25)
Degrees
An angle of y degrees means the satellite elevation e is in the range y ≤ e < y+11.25 degrees except for y=78.75 where the range is extended to include 90 degrees.
REL-7
>>Azimuth LSB
MP

Real(0..10.546875 by step of 0.703125)
Degrees
The full satellite azimuth is constructed as
“Azimuth” +
“Azimuth LSB”.

An azimuth angle of x degrees means the satellite azimuth a is in the range x ≤ a < x+0.703125 degrees

Range 0-359.296875 deg.
REL-10
>>Elevation LSB
MP

Real(0..10.546875 by step of 0.703125)
Degrees
The full satellite elevation is constructed as
“Elevation” +
“Elevation LSB”.

An elevation angle of y degrees means the satellite elevation e is in the range y ≤ e < y+0.703125 degrees.

Range 0-89.296875 deg.
REL-10

NOTE 1:	Code phase search window parameter format:
CODE_PHASE_SEARCH_WINDOW
Code Phase Search Window [ms]
'00000'
No information
'00001'
0,002
'00010'
0,004
'00011'
0,008
'00100'
0,012
'00101'
0,016
'00110'
0,024
'00111'
0,032
'01000'
0,048
'01001'
0,064
'01010'
0,096
'01011'
0,128
'01100'
0,164
'01101'
0,200
'01110'
0,250
'01111'
0,300
'10000'
0,360
'10001'
0,420
'10010'
0,480
'10011'
0,540
'10100'
0,600
'10101'
0,660
'10110'
0,720
'10111'
0,780
'11000'
0,850
'11001'
1,000
'11010'
1,150
'11011'
1,300
'11100'
1,450
'11101'
1,600
'11110'
1,800
'11111'
2,000

NOTE 2:	Interpretation of SatID:
GANSS
Value of SatID
Interpretation of SatID
Galileo
‘0’ – ‘35’
‘36’ – ‘63’
Code No. 1 to 36
Reserved
Modernized GPS
‘0’ – ‘62’
Satellite PRN Signal No. 1 to 63

‘63’
Reserved
SBAS
‘0’ – ‘38’
Satellite PRN Signal No. 120 to 158

‘39’ – ‘63’
Reserved
QZSS
‘0’ – ‘4’
Satellite PRN Signal No. 193 to 197

‘5’ – ‘63’
Reserved
GLONASS
‘0’ – ‘23’
Slot Number 1 to 24

‘24’ – ‘63’
Reserved
BDS
‘0’ – ‘36’
Satellite ranging code number signal No.1 to 37 [86]

‘37’ – ‘63’
Reserved

10.3.7.88c	UE positioning GANSS additional assistance data request
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GANSS Reference Time
MP

Boolean
TRUE means requested
REL-7
GANSS Reference Location
MP

Boolean
TRUE means requested
REL-7
GANSS Ionospheric model
MP

Boolean
TRUE means requested
REL-7
GANSS Additional Ionospheric Model
OP

Data ID
Bit String(2)
If present, the UE requests the “UE positioning GANSS additional ionospheric model” for a “Data ID” as defined in 10.3.7.92b.
REL-8
GANSS Earth Orientation Parameters
OP

Enumerated (TRUE)
If present, the UE requests the “UE positioning GANSS Earth orientation parameters”
REL-8
GANSS Requested Generic Assistance Data
MP
1 to <maxGANSS>


REL-7
>GANSS ID
OP

Integer(0..7)
Absence of this IE means Galileo
Values 0-7 reserved for future use.
REL-7




Absence of this IE means Galileo.
For coding description see NOTE 1 in 10.3.7.90b.
REL-8
>SBAS ID
CV‑GANSS‑ID‑SBAS

UE positioning GANSS SBAS ID 10.3.7.97e

REL-8
>GANSS Real-Time Integrity
MP

Boolean
TRUE means requested
REL-7
>DGANSS Signal
OP

DGANSS Signal Id 10.3.7.88d
If present, the UE requests the "UE positioning DGANSS corrections"
REL-7
>DBDS Signal
CV‑GANSS‑ID‑BDS

DGANSS Signal Id 10.3.7.88d
If present, the UE requests the "UE positioning DBDS corrections"
REL-12
>BDS Ionospheric Grid Model
CV‑GANSS‑ID‑BDS

Enumerated (TRUE)
If present, the UE requests the "UE positioning BDS Ionospheric Grid Model"
REL-12
>GANSS Almanac
MP

Boolean
TRUE means requested
REL-7




TRUE means requested.
If “GANSS ID” indicates “Modernized GPS” or “QZSS” and IE “GANSS additional assistance data choices” is not included, the GANSS Almanac model requested is “Model-4” for Modernized GPS, and “Model-2” for QZSS, as defined in 10.3.7.89a.
REL-8
>GANSS Navigation Model
MP

Boolean
TRUE means requested
REL-7
>GANSS Additional Navigation Models
OP

Enumerated (TRUE)
If present, the UE requests the “UE positioning GANSS additional navigation models”. If “GANSS ID” indicates “QZSS” and IE “GANSS additional assistance data choices” is not included, the GANSS orbit and clock model requested is “Model-2” as defined in 10.3.7.91e and 10.3.7.91f, respectively.
REL-8
>GANSS Time Model GNSS-GNSS
OP

BIT STRING (8)
The reference system for requested GANSS time model GNSS-GNSS is as indicated in IE "GANSS ID". The models are requested for each system with respective bit set to “1”.
Bit 0 is set for GPS,
Bit 1 is set for Galileo.
Other bits are reserved
REL-7




Bit 2 is set for QZSS
Bit 3 is set for GLONASS
Other bits are reserved
REL-8




Bit 4 is set for BDS
Other bits are reserved
REL-12
>GANSS Reference Measurement Information
MP

Boolean
TRUE means requested
REL-7
>GANSS data bits
OP



REL-7
>>GANSS TOD
MP

INTEGER (0..86399)
This field contains the reference time modulo 86400 seconds of the first data bit of the requested data in integer seconds in GNSS specific system time of the GNSS indicated by IE "GANSS ID".
REL-7
>>Data bit assistance
MP



REL-7
>>>GANSS Signal ID
MP

DGANSS Signal Id 10.3.7.88d

REL-7
>>>GANSS Data Bit Interval
MP

Integer (0..15)
This field represents the time length for which the Data Bit Assistance is requested. The Data Bit Assistance shall be relative to the time interval (GANSS TOD, GANSS TOD + Data Bit Interval).
The Data Bit Interval r, expressed in seconds, is mapped to a binary number K with the following formula:
	r =0.1* 2 K
Value K=15 means that the time interval is not specified.
REL-7
>>>Satellite Information
OP
1 to <maxGANSSSat>


REL-7
>>>>Satellite ID
MP

Integer (0..63)
Identifies the satellite for which the Data Bit Assistance request is applicable and is as defined in Note 2 of 10.3.7.88b.
REL-7
>GANSS UTC model
MP

Boolean
TRUE means Requested
REL-7
>GANSS Additional UTC Models
OP

Enumerated
(TRUE)
If present, the UE requests the “UE positioning GANSS additional UTC models”
REL-8
>GANSS Auxiliary Information
OP

Enumerated
(TRUE)
If present, the UE requests the “UE positioning GANSS auxiliary information”
REL-8
>GANSS Navigation Model Additional data
CV-GANSSNavigation Model



REL-7
>>GANSS Week/Day
MP

Integer (0..4095)
If “GANSS ID” does not indicate “GLONASS”, this IE defines the GANSS Week number of the assistance currently held by the MS.
REL-7




If “GANSS ID” is set to “GLONASS”, this IE defines the calendar number of day within the four-year interval starting from 1st of January in a leap year, as defined by the parameter NT in [73] of the assistance currently held by the MS.
REL-8
>>GANSS_Toe
MP

Integer (0..167)
If “GANSS ID” does not indicate “GLONASS”, this IE defines the GANSS time of ephemeris in hours of the latest ephemeris set contained by the UE.
REL-7




If “GANSS ID” is set to “GLONASS”, this IE defines the time of ephemeris in units of 15 minutes of the latest ephemeris set contained by the UE (range 0 to 95 representing time values between 0 and 1425 minutes). In this case, values 96 to 167 shall not be used by the sender.
REL-8
>>T-Toe limit
MP

Integer (0..10)
If “GANSS ID” does not indicate “GLONASS”, this IE defines the ephemeris age tolerance of the UE to UTRAN in units of hours.
Five spare values needed.
REL-7




If “GANSS ID” is set to “GLONASS”, this IE defines the ephemeris age tolerance of the UE to UTRAN in units of 30 minutes (range 0 to 10 representing time values of  0 to 300 minutes).
REL-8
>>Satellites list related data
OP
1 to <maxGANSSSat>


REL-7
>>>SatID
MP

Integer (0..63)
Identifies the satellite and is as defined in Note 2 of 10.3.7.88b.
REL-7
>>>IOD
MP

Integer (0..1023)
10 LSBs of Issue of Data for SatID
REL-7
>GANSS additional assistance data choices
CV-AssistanceChoices



REL-8
>>Orbit Model ID
OP

Integer (0..7)
This IE may be included if IE "GANSS Navigation Model" is set to TRUE or if the IE “GANSS Additional Navigation Models” is included and defines the non-native or non-default orbit model number as defined in 10.3.7.91c/10.3.7.91e.
REL-8
>>Clock Model ID
OP

Integer (0..7)
This IE may be included if IE "GANSS Navigation Model" is set to TRUE or if the IE “GANSS Additional Navigation Models” is included and defines the non-native or non-default clock model number as defined in 10.3.7.91d/10.3.7.91f.
REL-8
>>UTC Model ID
OP

Integer (0..7)
This IE may be included if IE “GANSS Additional UTC Models” is included and defines the non-native or non-default UTC model number as defined in 10.3.7.97d.
REL-8
>>Almanac Model ID
OP

Integer (0..7)
This IE may be included if IE “GANSS Almanac” set to TRUE and defines the non-native or non-default model number as defined in 10.3.7.89a.
REL-8

Condition
Explanation
GANSS‑ID‑SBAS
This IE is mandatory present if theIE “GANSS ID” is “SBAS” and not needed otherwise.
GANSSNavigation Model
The IE is mandatory present if the IE "GANSS Navigation Model" is set to TRUE or if the IE “GANSS Additional Navigation Models” is included
and not needed otherwise.
AssistanceChoices
This IE is mandatory present if non-native or non-default assistance data choices are requested and not needed otherwise.
GANSS‑ID‑BDS
This IE is optionally present if the IE "GANSS ID" is "BDS" and not needed otherwise.

10.3.7.88d	DGANSS Signal Id
The DGANSS signal Id refers to the signal for which differential corrections or data bit assistance are required. It depends on the GANSS ID. Each bit refers to a particular signal. When the bit is set to 1, this means that the differential corrections or data bit assistance are requested for this particular signal. Differential corrections or data bit assistance can be requested for several signals using the bit string.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
DGANSS Signal Id
MP

BIT STRING (8)
See Note 1. 
REL-7

NOTE 1:
GANSS Id
Bit number
Explanation
Version
Default : Galileo
0
Galileo E1
REL-7

1
Galileo E5A


2
Galileo E5B


3
Galileo E6


4
spare


5
Spare


6
Spare


7
Spare

Modernized GPS
0
L1C
REL-8

1
L2C


2
L5


3
Spare


4
Spare


5
Spare


6
Spare


7
Spare

SBAS
0
L1


1
Spare


2
Spare


3
Spare


4
Spare


5
Spare


6
Spare


7
Spare

QZSS
0
QZS-L1


1
QZS-L1C


2
QZS-L2C


3
QZS-L5


4
Spare


5
Spare


6
Spare


7
Spare

GLONASS
0
G1


1
G2


2
G3


3
Spare


4
Spare


5
Spare


6
Spare


7
spare

BDS
0
B1I
REL-12

1
Spare


2
Spare


3
Spare


4
Spare


5
Spare


6
Spare


7
Spare


10.3.7.89	UE positioning GPS almanac
This IE contains a reduced-precision subset of the ephemeris and clock correction parameters.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
WNa
MP

Bit string(8)
Almanac Reference Week [12]

Complete Almanac Provided
OP

Boolean
This field indicates whether the RNC provided almanac for the full GPS constellation or not. TRUE means complete GPS almanac is provided.
REL-10
Satellite information
MP
1 to <maxSat>



>DataID
MP

Integer(0..3)
See [12]

>SatID
MP

Enumerated(0..63)
 Identifies the satellite and is equal to (SV ID No - 1) where SV ID No is defined in [12].

>e
MP

Bit string(16)
Eccentricity [12]

>toa
MP

Bit string(8)
Reference Time of Almanac [12]

>i
MP

Bit string(16)


>OMEGADOT
MP

Bit string(16)
Longitude of Ascending Node of Orbit Plane at Weekly Epoch (semi-circles/sec) [12]

>SV Health
MP

Bit string(8)


>A1/2
MP

Bit string(24)
Semi-Major Axis (meters)1/2 [12]

>OMEGA0
MP

Bit string(24)
Longitude of Ascending Node of Orbit Plane at Weekly Epoch (semi-circles) [12]

>M0
MP

Bit string(24)
Mean Anomaly at Reference Time (semi-circles) [12]

>
MP

Bit string(24)
Argument of Perigee (semi-circles) [12]

>af0
MP

Bit string(11)
apparent clock correction [12]

>af1
MP

Bit string(11)
apparent clock correction [12]

SV Global Health
OP

Bit string(364)
This enables GPS time recovery and possibly extended GPS correlation intervals. It is specified in page 25 of subframes 4 and 5 [12]


10.3.7.89a		UE positioning GANSS almanac
This IE contains a reduced-precision subset of the ephemeris and clock correction parameters.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Week Number
MP

Integer(0..255)
Almanac reference week , number of weeks since the beginning of GANSS specific system time (mod 256).
Note, in case of Galileo, the almanac reference week number WNa natively contains only the 2 LSB’s [61, section 5.1.10].
REL-7




If “Model 5” or “Model 6” is included, the UE shall ignore the Week Number.
REL-8
Complete Almanac Provided
OP

Boolean
This field indicates whether the RNC provided almanac for the full GANSS constellation or not. TRUE means complete GANSS almanac is provided.
REL-10
Keplerian parameters
(“Model 1”)
OP


NOTE
REL-7
>Toa
MP

Integer(0..613800 by step of 600)
Almanac Reference Time common to all satellites in GANSS Almanac using Keplerian Parameters given in GNSS specific system time [61].
REL-12
>IODa
MP

INTEGER(0..15)
Issue-Of –Data, common to all satellites [61]
REL-12
>Satellite information KP
MP
1 to <maxGANSSSat>

Almanacs are in the order of the SV IDs, the smallest ID first.
REL-7
>>SV ID
MP

Integer (0..63)
Satellite ID, as defined in Note 2 of 10.3.7.88b.
REL-7
>>e
MP

Bit string(11)
Eccentricity, dimensionless [61]
REL-7
>>i
MP

Bit string(11)
Parameter i, inclination at reference time relative to i0=56°; semi-circles [61]
REL-7
>>OMEGADOT
MP

Bit string(11)
Parameter , rate of change of right ascension (semi-circles/sec) [61].
REL-7
>>SV Status INAV
MP

Bit string(4)
This field contains the I/NAV signal health status [61, section 5.1.10], E5bHS and E1‑BHS, where E5bHS occupies the 2 MSBs and E1-BHS the two LSBs.
REL-7
>>SV Status FNAV
OP

Bit string(2)
This field contains the F/NAV signal health status [61, section 5.1.10], E5aHS.
REL-12
>>delta A1/2
MP

Bit string(13)
Parameter (a1/2), difference with respect to the square root of the nominal semi-major axis, (meters)1/2 [61].
REL-12
>>OMEGA0
MP

Bit string(16)
Longitude of ascending node of orbital plane at weekly epoch (semi-circles) [61]
REL-7
>>M0
MP

Bit string(16)
Mean Anomaly at Reference Time (semi-circles) [61]
REL-7
>>
MP

Bit string(16)
Argument of Perigee (semi-circles) [61]
REL-7
>>af0
MP

Bit string(16)
Parameter af0, satellite clock correction bias. Seconds [61]
REL-12
>>af1
MP

Bit string(13)
Parameter af1, satellite clock correction linear, sec/sec [61]
REL-12
NAV Keplerian Parameters
(“Model 2”)
OP


NOTE
REL-8
>Toa
MP

Integer(0..602112 by step of 4096)
Almanac Reference Time 
REL-8
>Satellite information NAV-KP
MP
1 to <maxGANSSSat>


REL-8
>>SV ID
MP

Integer (0..63)
Satellite ID, as defined in Note 2 of 10.3.7.88b.
REL-8
>>e
MP

Bit String(16)
Eccentricity, dimensionless [72]
REL-8
>>i
MP

Bit String(16)
Correction to inclination,
semi-circles [72]
REL-8
>>OMEGADOT
MP

Bit String(16)
Rate of right ascension,
semi-circles/sec [72]
REL-8
>>SV Health
MP

Bit String(8)
Satellite health [72]
REL-8
>>A1/2
MP

Bit String(24)
Square root of the semi-major axis,
meters1/2 [72]
REL-8
>>OMEGA0
MP

Bit String(24)
Longitude of ascending node of orbit plane at weekly epoch,
semi-circles [72]
REL-8
>>
MP

Bit String(24)
Argument of perigee
semi-circles [72]
REL-8
>>M0
MP

Bit String(24)
Mean anomaly at reference time
semi-circles [72]
REL-8
>>af0
MP

Bit String(11)
Apparent satellite clock correction
seconds [72]
REL-8
>>af1
MP

Bit String(11)
Apparent satellite clock correction
sec/sec [72]
REL-8
Reduced Keplerian Parameters
(“Model 3”)
OP


NOTE
REL-8
>Toa
MP

Integer(0..602112 by step of 4096)
Almanac Reference Time 
REL-8
>Satellite information RED-KP
MP
1 to <maxGANSSSat>


REL-8
>>SV ID
MP

Integer (0..63)
Satellite ID, as defined in Note 2 of 10.3.7.88b.
REL-8
>>A
MP

Bit String(8)
meters [68,69,70,72]
REL-8
>>0
MP

Bit String(7)
semi-circles [68,69,70,72]
REL-8
>>0
MP

Bit String(7)
semi-circles [68,69,70,72]
REL-8
>>L1 Health
MP

Bit String(1)
dimensionless [68,69,70,72]
REL-8
>>L2 Health
MP

Bit String(1)
dimensionless [68,69,70,72]
REL-8
>>L5 Health
MP

Bit String(1)
dimensionless [68,69,70,72]
REL-8
Midi Keplerian Parameters
(“Model 4”)
OP


NOTE
REL-8
>Toa
MP

Integer(0..602112 by step of 4096)
Almanac Reference Time 
REL-8
>Satellite information MIDI-KP
MP
1 to <maxGANSSSat>


REL-8
>>SV ID
MP

Integer (0..63)
Satellite ID, as defined in Note 2 of 10.3.7.88b.
REL-8
>>e
MP

Bit String(11)
dimensionless [68,69,70,72]
REL-8
>>i
MP

Bit String(11)
semi-circles [68,69,70,72]
REL-8
>>_dot
MP

Bit String(11)
semi-circles/sec [68,69,70,72]
REL-8
>>sqrtA
MP

Bit String(17)
meters1/2 [68,69,70,72]
REL-8
>>0
MP

Bit String(16)
semi-circles [68,69,70,72]
REL-8
>>
MP

Bit String(16)
semi-circles [68,69,70,72]
REL-8
>>M0
MP

Bit String(16)
semi-circles [68,69,70,72]
REL-8
>>afo
MP

Bit String(11)
seconds [68,69,70,72]
REL-8
>>af1
MP

Bit String(10)
sec/sec [68,69,70,72]
REL-8
>>L1 Health
MP

Bit String(1)
Dimensionless [68,69,70,72]
REL-8
>>L2 Health
MP

Bit String(1)
dimensionless [68,69,70,72]
REL-8
>>L5 Health
MP

Bit String(1)
dimensionless [68,69,70,72]
REL-8
GLONASS Keplerian Parameters
(“Model 5”)
OP


NOTE
REL-8
>Satellite information GLO-KP
MP
1 to <maxGANSSSat>


REL-8
>>NA
MP

Bit String(11)
days [73]
REL-8
>>nA
MP

Bit String(5)
dimensionless [73]
REL-8
>>HnA
MP

Bit String(5)
dimensionless [73]
REL-8
>>nA
MP

Bit String(21)
semi-circles [73]
REL-8
>>tnA
MP

Bit String(21)
seconds [73]
REL-8
>>inA
MP

Bit String(18)
semi-circles [73]
REL-8
>>TnA
MP

Bit String(22)
sec/orbit period [73]
REL-8
>>T_DOTnA
MP

Bit String(7)
sec/orbit period2 [73]
REL-8
>>nA
MP

Bit String(15)
dimensionless [73]
REL-8
>>nA
MP

Bit String(16)
semi-circles [73]
REL-8
>>nA
MP

Bit String(10)
seconds [73]
REL-8
>>CnA
MP

Bit String(1)
dimensionless [73]
REL-8
>>MnA
OP

Bit String(2)
dimensionless [73]
REL-8
SBAS ECEF Parameters
(“Model 6”)
OP


NOTE
REL-8
>Satellite information SBAS-ECEF
MP
1 to <maxGANSSSat>


REL-8
>>Data ID
MP

Bit String(2)
Dimensionless [71]

>>SV ID
MP

Integer (0..63)
Satellite ID, as defined in Note 2 of 10.3.7.88b.
REL-8
>>Health
MP

Bit String(8)
Dimensionless [71]
REL-8
>>XG
MP

Bit String(15)
meters [71]
REL-8
>>YG
MP

Bit String(15)
meters [71]
REL-8
>>ZG
MP

Bit String(9)
meters [71]
REL-8
>>XG Rate-of-Change
MP

Bit String(3)
meters/sec [71]
REL-8
>>YG Rate-of-Change
MP

Bit String(3)
meters/sec [71]
REL-8
>>ZG Rate-of-Change
MP

Bit String(4)
meters/sec [71]
REL-8
>>t0
MP

Bit String(11)
seconds [71]
REL-8
BDS Keplerian Parameters
("Model 7")
OP


NOTE
REL-12
>Satellite information BDS-KP
MP
1 to <maxGANSSSat>


REL-12
>>SV ID
MP

INTEGER (0..63)
Satellite ID, as defined in Note 2 of 10.3.7.88b.
REL-12
>>toa
MP

BIT STRING(8)
Almanac reference time
(seconds) [86]
REL-12
>>A1/2
MP

BIT STRING(24)
Square root of semi-major axis
(meters1/2) [86]
REL-12
>>e
MP

BIT STRING(17)
Eccentricity , 
dimensionless [86]
REL-12
>>
MP

BIT STRING(24)
Argument of Perigee
(semi-circles) [86]
REL-12
>>M0
MP

BIT STRING(24)
Mean anomaly at reference time
(semi-circles) [86]
REL-12
>>0
MP

BIT STRING(24)
Longitude of ascending node of orbital plane computed according to reference time
(semi-circles) [86]
REL-12
>>_dot
MP

BIT STRING(17)
Rate of right ascension
(semi-circles/sec) [86]
REL-12
>>i
MP

BIT STRING(16)
Correction of orbit reference inclination at reference time
(semi-circles) [86]
REL-12
>>a0
MP

BIT STRING(11)
Satellite clock bias
(seconds) [86]
REL-12
>>a1
MP

BIT STRING(11)
Satellite clock rate
(sec/sec) [86]
REL-12
>>Hea 
CV-SV-ID

BIT STRING(9)
Satellite Health Information
dimensionless [86]
REL-12

NOTE:	This IE shall contain exactly one of the optional fiels indicated by "NOTE".
Condition
Explanation
SV-ID
This IE is mandatory present if the IE "SV ID" is between 0 and 29 and not needed otherwise

10.3.7.90	UE positioning GPS assistance data
This IE contains GPS assistance data.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
UE positioning GPS reference time
OP

UE positioning GPS reference time 10.3.7.96

UE positioning GPS reference UE position
OP

Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c
A priori knowledge of UE 3-D position.
UE positioning GPS DGPS corrections
OP

UE positioning GPS DGPS corrections 10.3.7.91

UE positioning GPS navigation model
OP

UE positioning GPS navigation model 10.3.7.94

UE positioning GPS ionospheric model
OP

UE positioning GPS ionospheric model 10.3.7.92

UE positioning GPS UTC model
OP

UE positioning GPS UTC model 10.3.7.97

UE positioning GPS almanac
OP

UE positioning GPS almanac 10.3.7.89

UE positioning GPS acquisition assistance
OP

UE positioning GPS acquisition assistance 10.3.7.88

UE positioning GPS real-time integrity
OP

UE positioning GPS real-time integrity 10.3.7.95


10.3.7.90a	Void

10.3.7.90b	UE positioning GANSS assistance data
This IE contains GANSS assistance data.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
UE positioning GANSS reference time
OP

UE positioning GANSS reference time 10.3.7.96o

REL-7
UE positioning GANSS reference UE position
OP

Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c
A priori knowledge of UE 3-D position.If IE “UE positioning GPS assistance data” is present, this IE should not be included to both IEs.
The reference UE position is provided in WGS-84 reference system.
REL-7
UE positioning GANSS ionospheric model
OP

UE positioning GANSS ionospheric model 10.3.7.92a

REL-7
UE positioning GANSS additional ionospheric model
OP

UE positioning GANSS additional ionospheric model 10.3.7.92b

REL-8
UE positioning GANSS Earth orientation parameters
OP

UE positioning GANSS Earth orientation parameters 10.3.7.92c

REL-8
GANSS Generic Assistance Data
OP
1 to <maxGANSS>


REL-7
>GANSS ID
OP

Integer(0..7)
Absence of this IE means Galileo
Values 0-7 reserved for future use.
REL-7




Absence of this IE means Galileo.
For coding description see NOTE 1.
REL-8
>UE positioning GANSS SBAS ID
CV-GANSS‑ID‑SBAS

UE positioning GANSS SBAS ID 10.3.7.97e

REL-8
>GANSS Time Models
OP
1 to <maxGANSS-1>


REL-7
>>GANSS Time Model
MP

UE positioning GANSS time model
10.3.7.97a

REL-7
>UE positioning DGANSS corrections
OP

UE positioning DGANSS corrections 10.3.7.91b

REL-7
>UE positioning DBDS corrections
CV-GANSS‑ID‑BDS

UE positioning DBDS corrections 10.3.7.92e	

REL-12
>UE positioning BDS Ionospheric Grid Model
CV-GANSS‑ID‑BDS

UE positioning BDS Ionospheric Grid Model 10.3.7.92d

REL-12
>UE positioning GANSS navigation model
OP

UE positioning GANSS navigation model 10.3.7.94a
NOTE
REL-7
>UE positioning GANSS  additional navigation models
OP

UE positioning GANSS additional navigation models 10.3.7.94b
NOTE
REL-8
>UE positioning GANSS real-time integrity
OP

UE positioning GANSS real-time integrity 10.3.7.95b

REL-7
>UE positioning GANSS data bit assistance
OP

UE positioning GANSS data bit assistance
10.3.7.97b

REL-7
>UE positioning GANSS reference measurement information
OP

UE positioning GANSS reference measurement information 10.3.7.88b

REL-7
>UE positioning GANSS almanac
OP

UE positioning GANSS almanac 10.3.7.89a

REL-7
>UE positioning GANSS UTC model
OP

UE positioning GANSS UTC model 10.3.7.97c

REL-7
>UE positioning GANSS additional UTC models
OP

UE positioning GANSS additional UTC models 10.3.7.97d

REL-8
>UE positioning GANSS auxiliary information
OP

UE positioning GANSS auxiliary information 10.3.7.97f

REL-8

NOTE:	If included, only one of the optional fiels indicated by "NOTE" shall be present.

Condition
Explanation
GANSS-ID-SBAS
The IE is mandatory present if the IE "GANSS ID" is "SBAS" and not needed otherwise.
GANSS-ID-BDS
The IE is optionally present if the IE "GANSS ID" is "BDS" and not needed otherwise.

NOTE 1:	Coding of GANSS ID
Value of GANSS ID
GANSS
Version
0
SBAS
REL-8
1
Modernized GPS

2
QZSS

3
GLONASS

4
BDS
REL-12
5-7
Reserved for future use


10.3.7.91	UE positioning GPS DGPS corrections
This IE contains DGPS corrections to be used by the UE.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GPS TOW sec
MP

Integer(0..604799)
seconds
GPS time-of-week when the DGPS corrections were calculated

Status/Health
MP

Enumerated(UDRE scale 1.0, UDRE scale 0.75, UDRE scale 0.5, UDRE scale 0.3, UDRE scale 0.2, UDRE scale 0.1, no data, invalid data)


DGPS information
CV-Status/Health
1 to <maxSat>

If the Cipher information is included these fields are ciphered.

>SatID
MP

Enumerated (0…63)
Identifies the satellite and is equal to (SV ID No - 1) where SV ID No is defined in [12].

>IODE
MP

Integer(0..255)


>UDRE
MP

Enumerated(UDRE £ 1.0 m,
1.0m < UDRE £ 4.0m,
4.0m < UDRE £ 8.0m,
8.0m < UDRE)
The value in this field shall be multiplied by the UDRE Scale Factor in the IE Status/Health to determine the final UDRE estimate for the particular satellite.

>PRC
MP

Real(-655.04..655.04 by step of 0.32)
meters (different from [13])

>RRC
MP

Real(-4.064..4.064 by step of 0.032)
meters/sec (different from [13])

>Delta PRC2
MP

Integer(-127..127)
In this version of the protocol this IE should be set to zero and the UE shall ignore it

>Delta RRC2
MP

Real(-0.224..0.224 by step of 0.032)
In this version of the protocol this IE should be set to zero and the UE shall ignore it 

>Delta PRC3
OP

Integer(-127..127)
This IE should not be included in this version of the protocol and if received the UE shall ignore it 

>Delta RRC3
OP

Real(-0.224..0.224 by step of 0.032)
This IE should not be included in this version of the protocol and if received the UE shall ignore it 

>UDRE Growth Rate
OP

Enumerated(UDRE growth 1.5, UDRE growth 2,
UDRE growth 4, UDRE growth 6, UDRE growth 8, UDRE growth 10, UDRE growth 12, UDRE growth 16)
This field provides an estimate of the growth rate of uncertainty (1-) in the corrections. The UDRE at time value specified in the Time of Validity for UDRE Growth Rate field is the value of this field times the value of UDRE.
REL-9
>Time of Validity for UDRE Growth Rate
OP

Enumerated(val20sec, val40sec, val80sec, val160sec, val320sec, val640sec, val1280sec, val2560sec)
This field specifies the time when the UDRE Growth Rate field applies. 
REL-9


Condition
Explanation
Status/Health
This IE is mandatory present if "status" is not equal to "no data" or "invalid data", otherwise the IE is not needed.

10.3.7.91a	UE positioning GPS Ephemeris and Clock Correction parameters
This IE contains information for GPS ephemeris and clock correction.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
C/A or P on L2
MP

Bit string(2)
Code(s) on L2 Channel [12]
URA Index
MP

Bit string(4)
User Range Accuracy [12]
SV Health
MP

Bit string(6)
[12]
IODC
MP

Bit string(10)
Issue of Data, Clock [12]
L2 P Data Flag
MP

Bit string(1)
[12]
SF 1 Reserved
MP

Bit string(87)
[12]
TGD
MP

Bit string(8)
Estimated group delay differential [12]
toc
MP

Bit string(16)
apparent clock correction [12]
af2
MP

Bit string(8)
apparent clock correction [12]
af1
MP

Bit string(16)
apparent clock correction [12]
af0
MP

Bit string(22)
apparent clock correction [12]
Crs
MP

Bit string(16)
Amplitude of the Sine Harmonic Correction Term to the Orbit Radius (meters) [12]
n
MP

Bit string(16)
Mean Motion Difference From Computed Value (semi-circles/sec) [12]
M0
MP

Bit string(32)
Mean Anomaly at Reference Time (semi-circles) [12]
Cuc
MP

Bit string(16)
Amplitude of the Cosine Harmonic Correction Term To The Argument Of Latitude (radians) [12]
e
MP

Bit string(32)
c
Cus
MP

Bit string(16)
Amplitude of the Sine Harmonic Correction Term To The Argument Of Latitude (radians) [12]
(A)1/2
MP

Bit string(32)
Semi-Major Axis (meters)1/2 [12]
toe
MP

Bit string(16)
Reference Time Ephemeris [12]
Fit Interval Flag
MP

Bit string(1)
[12]
AODO
MP

Bit string(5)
Age Of Data Offset [12]
Cic
MP

Bit string(16)
Amplitude of the Cosine Harmonic Correction Term To The Angle Of Inclination (radians) [12]
OMEGA0
MP

Bit string(32)
Longitude of Ascending Node of Orbit Plane at Weekly Epoch (semi-circles) [12]
Cis
MP

Bit string(16)
Amplitude of the Sine Harmonic Correction Term To The Angle Of Inclination (radians) [12]
i0
MP

Bit string(32)
Inclination Angle at Reference Time (semi-circles) [12]
Crc
MP

Bit string(16)
Amplitude of the Cosine Harmonic Correction Term to the Orbit Radius (meters) [12]

MP

Bit string(32)
Argument of Perigee (semi-circles) [12]
OMEGAdot
MP

Bit string(24)
Longitude of Ascending Node of Orbit Plane at Weekly Epoch (semi-circles/sec) [12]
Idot
MP

Bit string(14)
Rate of Inclination Angle (semi-circles/sec) [12]

10.3.7.91b	UE positioning DGANSS corrections
This IE contains DGANSS corrections to be used by the UE.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
DGANSS Reference TIme
MP

Integer(0..3570 by step of 30)
Seconds.
Time in GNSS system time (modulo 3600 s) when the DGANSS corrections were calculated 
REL-7
DGANSS information
MP
1 to <maxSgnType>


REL-7
>GANSS Signal ID
OP

GANSS Signal Id 10.3.3.45a
Absence of this field means the default value as defined in 10.3.3.45a for the GANSS identified by GANSS_ID.
REL-7
>Status/Health
MP

Enumerated(UDRE scale 1.0, UDRE scale 0.75, UDRE scale 0.5, UDRE scale 0.3, UDRE scale 0.2, UDRE scale 0.1, no data, invalid data)

REL-7
>DGANSS signal information
CV-Status/Health
1 to <maxGANSSSat>

If the Cipher information is included these fields are ciphered.
REL-7
>>SatID
MP

Integer (0…63)
Identifies the satellite and is as defined in Note 2 of 10.3.7.88b.
REL-7
>>IOD
MP

Bit string(10)
10 LSBs of Issue of Data field, which contains the identity of the GANSS Navigation Model.
REL-7
>>UDRE
MP

Enumerated(UDRE £ 1.0 m,
1.0m < UDRE £ 4.0m,
4.0m < UDRE £ 8.0m,
8.0m < UDRE)
The value in this field shall be multiplied by the UDRE Scale Factor in the IE Status/Health to determine the final UDRE estimate for the particular satellite.
REL-7
>>PRC
MP

Real(-655.04..655.04 by step of 0.32)
meters
Pseudo-range corrections are provided with respect to GNSS specific geodetic datum (e.g., PZ-90.02 if GANSS ID indicates GLONASS).
REL-7
>>RRC
MP

Real(-4.064..4.064 by step of 0.032)
meters/sec
Pseudo-range rate corrections are provided with respect to GNSS specific geodetic datum (e.g., PZ-90.02 if GANSS ID indicates GLONASS).
REL-7
>>UDRE Growth Rate
OP

Enumerated(UDRE growth 1.5, UDRE growth 2,
UDRE growth 4, UDRE growth 6, UDRE growth 8, UDRE growth 10, UDRE growth 12, UDRE growth 16)
This field provides an estimate of the growth rate of uncertainty (1-) in the corrections. The UDRE at time value specified in the Time of Validity for UDRE Growth Rate field is the value of this field times the value of UDRE.
REL-9
>>Time of Validity for UDRE Growth Rate
OP

Enumerated(val20sec, val40sec, val80sec, val160sec, val320sec, val640sec, val1280sec, val2560sec)
This field specifies the time when the UDRE Growth Rate field applies. 
REL-9

Condition
Explanation
Status/Health
This IE is mandatory present if "status" is not equal to "no data" or "invalid data", otherwise the IE is not needed.

10.3.7.91c	UE positioning GANSS orbit model
This IE contains information for GANSS orbit model parameters.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Keplerian Parameters
(“Model 1”)
OP


NOTE
REL-7
>toe
MP

Bit String(14)
Time-of-Ephemeris in seconds, scale factor 60 [61]
REL-7

MP

Bit string(32)
Argument of Perigee (semi-circles) [61]
REL-7
n
MP

Bit string(16)
Mean Motion Difference From Computed Value (semi-circles/sec) [61]
REL-7
>M0
MP

Bit string(32)
Mean Anomaly at Reference Time (semi-circles) [61]
REL-7
>OMEGAdot
MP

Bit string(24)
Rate of change of right ascension (semi-circles/sec) [61]
REL-7
>e
MP

Bit string(32)
Eccentricity, scale factor 2-33 [61]
REL-7
>Idot
MP

Bit string(14)
Rate of change of Inclination Angle (semi-circles/sec) [61]
REL-7
>sqrtA
MP

Bit String(32)
Square root of Semi-Major Axis in (meters)1/2 , scale factor 2-19 [61]
REL-7
>i0
MP

Bit string(32)
Inclination Angle at Reference Time (semi-circles) [61]
REL-7
>OMEGA0
MP

Bit string(32)
Longitude of Ascending Node of Orbit Plane at Weekly Epoch (semi-circles) [61]
REL-7
>Crs
MP

Bit string(16)
Amplitude of the Sine Harmonic Correction Term to the Orbit Radius (meters) [61]
REL-7
>Cis
MP

Bit string(16)
Amplitude of the Sine Harmonic Correction Term To The Angle Of Inclination (radians) [61]
REL-7
>Cus
MP

Bit string(16)
Amplitude of the Sine Harmonic Correction Term To The Argument Of Latitude (radians) [61]
REL-7
>Crc
MP

Bit string(16)
Amplitude of the Cosine Harmonic Correction Term to the Orbit Radius (meters) [61]
REL-7
>Cic
MP

Bit string(16)
Amplitude of the Cosine Harmonic Correction Term To The Angle Of Inclination (radians) [61]
REL-7
>Cuc
MP

Bit string(16)
Amplitude of the Cosine Harmonic Correction Term To The Argument Of Latitude (radians) [61]
REL-7

NOTE:	This IE shall contain exactly one of the optional fiels indicated by "NOTE".
10.3.7.91d		UE positioning GANSS clock model
The IE contains fields needed to model the GANSS clock parameters.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Satellite clock model
(“Model 1”)
MP
1 to <maxSatClockModels>

There may be more than one clock model included if defined in SIS ICD (i.e., two for Galileo) [61].
REL-7
>toc
MP

BIT STRING(14)
Clock correction data reference Time of Week in seconds.
Scale factor 60 seconds [61].
REL-7
>af2
MP

BIT STRING (6)
SV clock drift rate correction coefficient, sec/sec2, scale factor 2-59 [61].
REL-12
>af1
MP

BIT STRING (21)
Parameter af1, SV clock drift correction coefficient, sec/sec, scale factor  2-46 [61].
REL-12
>af0
MP

BIT STRING (31)
Parameter af0, SV clock bias correction coefficient,
sec, scale factor 2-34 [61].
REL-12
>TGD
OP

BIT STRING (10)
Broadcast Group Delay (BGD), sec, scale factor 2-32  [61].
REL-7
>SISA
MP

BIT STRING (8)
Signal-In-Space Accuracy (SISA), defined in [61] section 5.1.11.
REL-12
>Model ID
OP

Integer(0..1)
NOTE 1
REL-7

NOTE 1:	Coding of Model ID:
GNSS
Value
Explanation
Galileo
0
I/Nav  (E1,E5b)

1
F/Nav  (E1,E5a)

10.3.7.91e	UE positioning GANSS additional orbit models
This IE contains information for GANSS orbit model parameters.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
NAV-Keplerian Parameters
(“Model 2”)
OP


NOTE
REL-8
>URA Index
MP

Bit String(4)
SV accuracy
(dimensionless) [72]
REL-8
>Fit Interval Flag
MP

Bit String(1)
Fit interval indication
(dimensionless) [72]
REL-8
>toe
MP

Bit String(16)
Time of ephemeris
(seconds) [72]
REL-8
>
MP

Bit String(32)
Argument of perigee
(semi-circles) [72]
REL-8
>n
MP

Bit String(16)
Mean motion difference from computed value
(semi-circles/sec) [72]
REL-8
>M0
MP

Bit String(32)
Mean anomaly at reference time
(semi-circles) [72]
REL-8
>OMEGAdot
MP

Bit String(24)
Rate of right ascension
(semi-circles/sec) [72]
REL-8
>e
MP

Bit String(32)
Eccentricity
(dimensionless) [72]
REL-8
>Idot
MP

Bit String(14)
Rate of inclination angle
(semi-circles/sec) [72]
REL-8
>sqrtA
MP

Bit String(32)
Square root of semi-major axis
(meters1/2) [72]
REL-8
>i0
MP

Bit String(32)
Inclination angle at reference time
(semi-circles) [72]
REL-8
>OMEGA0
MP

Bit String(32)
Longitude of ascending node of orbit plane at weekly epoch
(semi-circles) [72]
REL-8
>Crs
MP

Bit String(16)
Amplitude of sine harmonic correction term to the orbit radius
(meters) [72]
REL-8
>Cis
MP

Bit String(16)
Amplitude of sine harmonic correction term to the angle of inclination
(radians) [72]
REL-8
>Cus
MP

Bit String(16)
Amplitude of sine harmonic correction term to the argument of latitude
(radians) [72]
REL-8
>Crc
MP

Bit String(16)
Amplitude of cosine harmonic correction term to the orbit radius
(meters) [72]
REL-8
>Cic
MP

Bit String(16)
Amplitude of cosine harmonic correction term to the angle of inclination
(radians) [72]
REL-8
>Cuc
MP

Bit String(16)
Amplitude of cosine harmonic correction term to the argument of latitude
(radians) [72]
REL-8
CNAV/CNAV-2 Keplerian Parameters
(“Model 3”)
OP


NOTE
REL-8
>top
MP

Bit String(11)
Data predict time of week
(seconds) [68,69,70,72]
REL-8
>URAoe Index
MP

Bit String(5)
SV accuracy
(dimensionless) [68,69,70,72]
REL-8
>A
MP

Bit String(26)
Semi-major axis difference at reference time
(meters) [68,69,70,72]
REL-8
>A_dot
MP

Bit String(25)
Chane rate in semi-major axis
(meters/sec) [68,69,70,72]
REL-8
>n0
MP

Bit String(17)
Mean motion difference from computed value at reference time
(semi-circles/sec) [68,69,70,72]
REL-8
>n0_dot
MP

Bit String(23)
Rate of mean motion difference from computed value
(semi-circles/sec2) [68,69,70,72]
REL-8
>M0-n
MP

Bit String(33)
Mean anomaly at reference time
(semi-circles) [68,69,70,72]
REL-8
>en
MP

Bit String(33)
Eccentricity
(dimensionless) [68,69,70,72]
REL-8
>n
MP

Bit String(33)
Argument of perigee
(semi-circles) [68,69,70,72]
REL-8
>0-n
MP

Bit String(33)
Reference right ascension angle
(semi-circles) [68,69,70,72]
REL-8
>_dot
MP

Bit String(17)
Rate of right ascension difference
(semi-circles/sec) [68,69,70,72]
REL-8
>io-n
MP

Bit String(33)
Inclination angle at reference time
(semi-circles) [68,69,70,72]
REL-8
>I0-n_dot
MP

Bit String(15)
Rate of inclination angle
(semi-circles/sec) [68,69,70,72]
REL-8
>Cis-n
MP

Bit String(16)
Amplitude of sine harmonic correction term to the angle of inclination
(radians) [68,69,70,72]
REL-8
>Cic-n
MP

Bit String(16)
Amplitude of cosine harmonic correction term to the angle of inclination
(radians) [68,69,70,72]
REL-8
>Crs-n
MP

Bit String(24)
Amplitude of sine harmonic correction term to the orbit radius
(meters) [68,69,70,72]
REL-8
>Crc-n
MP

Bit String(24)
Amplitude of cosine harmonic correction term to the orbit radius
(meters) [68,69,70,72]
REL-8
>Cus-n
MP

Bit String(21)
Amplitude of sine harmonic correction term to the argument of latitude
(radians) [68,69,70,72]
REL-8
>Cuc-n
MP

Bit String(21)
Amplitude of cosine harmonic correction term to the argument of latitude
(radians) [68,69,70,72]
REL-8
GLONASS Earth-Centered, Earth-fixed Parameters
(“Model 4”)
OP


NOTE
REL-8
>En
MP

Bit String(5)
Age of data
(days) [73]
REL-8
>P1
MP

Bit String(2)
Time interval between two adjacent values of tb
(minutes) [73]
REL-8
>P2
MP

Bit String(1)
Change of tb flag
(dimensionless) [73]
REL-8
>M
OP

Bit String(2)
Type of satellite
(dimensionless) [73]
REL-8
>
MP

Bit String(27)
x-coordinate of satellite at time tb
(kilometers) [73]
REL-8
>
MP

Bit String(24)
x-coordinate of satellite velocity at time tb
(kilometers/sec) [73]
REL-8
>
MP

Bit String(5)
x-coordinate of satellite acceleration at time tb
(kilometers/sec2) [73]
REL-8
>
MP

Bit String(27)
y-coordinate of satellite at time tb
(kilometers) [73]
REL-8
>
MP

Bit String(24)
y-coordinate of satellite velocity at time tb
(kilometers/sec) [73]
REL-8
>
MP

Bit String(5)
y-coordinate of satellite acceleration at time tb
(kilometers/sec2) [73]
REL-8
>
MP

Bit String(27)
z-coordinate of satellite at time tb
(kilometers) [73]
REL-8
>
MP

Bit String(24)
z-coordinate of satellite velocity at time tb
(kilometers/sec) [73]
REL-8
>
MP

Bit String(5)
z-coordinate of satellite acceleration at time tb
(kilometers/sec2) [73]
REL-8
SBAS Earth-Centered, Earth-fixed Parameters
(“Model 5”)
OP


NOTE
REL-8
>t0
CV‑ClockModel

Bit String(13)
Time of applicability
(seconds) [71]
REL-8
>Accuracy
MP

Bit String(4)
(dimensionless) [71]
REL-8
>XG
MP

Bit String(30)
(meters) [71]
REL-8
>YG
MP

Bit String(30)
(meters) [71]
REL-8
>ZG
MP

Bit String(25)
(meters) [71]
REL-8
>XG Rate‑of‑Change
MP

Bit String(17)
(meters/sec) [71]
REL-8
>YG Rate‑of‑Change
MP

Bit String(17)
(meters/sec) [71]
REL-8
>ZG Rate‑of‑Change
MP

Bit String(18)
(meters/sec) [71]
REL-8
>XG Acceleration
MP

Bit String(10)
(meters/sec2) [71]
REL-8
>YG Acceleration
MP

Bit String(10)
meters/sec2) [71]
REL-8
>ZG Acceleration
MP

Bit String(10)
meters/sec2) [71]
REL-8
BDS Keplerian Parameters
("Model 6")
OP


NOTE
REL-12
>AODE
MP

Bit String(5)
Age of data,ephemeris
(dimensionless) [86]
REL-12
>URA Index
MP

Bit String(4)
SV accuracy
(dimensionless) [86]
REL-12
>toe
MP

BIT STRING (17)
Ephemeris reference time
(seconds) [86]
REL-12
>A1/2
MP

BIT STRING (32)
Square root of semi-major axis 
(meters1/2) [86]
REL-12
>e
MP

BIT STRING (32)
Eccentricity
(dimensionless) [86]
REL-12
>
MP

BIT STRING (32)
Argument of perigee
(semi-circles) [86]
REL-12
>n
MP

BIT STRING (16)
Mean motion difference from computed value
(semi-circles/sec) [86]
REL-12
>M0
MP

BIT STRING (32)
Mean anomaly at reference time
(semi-circles) [86]
REL-12
>0
MP

BIT STRING (32)
Longitude of ascending node of orbital of plane computed according to reference time 
(semi-circles) [86]
REL-12
>_dot
MP

BIT STRING (24)
Rate of right ascension
(semi-circles/sec) [86]
REL-12
>i0
MP

BIT STRING (32)
Inclination angle at reference time
(semi-circles) [86]
REL-12
>Idot
MP

BIT STRING (14)
Rate of inclination angle
(semi-circles/sec) [86]
REL-12
>Cuc
MP

BIT STRING (18)
Amplitude of cosine harmonic correction term to the argument of latitude
(radians) [86]
REL-12
>Cus
MP

BIT STRING (18)
Amplitude of sine harmonic correction term to the argument of latitude
(radians) [86]
REL-12
>Crc
MP

BIT STRING (18)
Amplitude of cosine harmonic correction term to the orbit radius 
(meters) [86]
REL-12
>Crs
MP

BIT STRING (18)
Amplitude of sine harmonic correction term to the orbit radius
(meters) [86]
REL-12
>Cic
MP

BIT STRING (18)
Amplitude of cosine harmonic correction term to the angle of inclination
(radians) [86]
REL-12
>Cis
MP

BIT STRING (18)
Amplitude of sine harmonic correction term to the angle of inclination
(radians) [86]
REL-12

NOTE:	This IE shall contain exactly one of the optional fiels indicated by "NOTE".
Condition
Explanation
ClockModel
This IE is mandatory present if UE positioning GANSS additional clock models “Model 5” is not included in UE positioning GANSS additional navigation models, otherwise the IE is not needed.

10.3.7.91f		UE positioning GANSS additional clock models
The IE contains fields needed to model the GANSS clock parameters.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
NAV-Clock Model
(“Model 2”)
OP


NOTE
REL-8
>toc
MP

Bit String(16)
Time of clock 
(seconds) [72]
REL-8
>af2
MP

Bit String(8)
Clock correction polynomial coefficient
(sec/sec2) [72]
REL-8
>af1
MP

Bit String(16)
Clock correction polynomial coefficient
(sec/sec) [72]
REL-8
>af0
MP

Bit String(22)
Clock correction polynomial coefficient
(seconds) [72]
REL-8
>TGD
MP

Bit String(8)
Group delay
(seconds) [72]
REL-8
CNAV/CNAV-2 Clock Model
(“Model 3”)
OP


NOTE
REL-8
>toc
MP

Bit String(11)
Clock data reference time of week
(seconds) [68, 69, 70, 72]
REL-8
>top
MP

Bit String(11)
Clock data predict time of week
(seconds) [68, 69, 70, 72]
REL-8
>URAoc Index
MP

Bti String(5)
SV clock accuracy index
(dimensionless) [68, 69, 70, 72]
REL-8
>URAoc1 Index
MP

Bit String(3)
SV clock accuracy change index
(dimensionless) [68, 69, 70, 72]
REL-8
>URAoc2 Index
MP

Bit String(3)
SV clock accuracy change rate index
(dimensionless) [68, 69, 70, 72]
REL-8
>af2-n
MP

Bit String(10)
SV clock drift rate correction coefficient
(sec/sec2) [68, 69, 70, 72]
REL-8
>af1-n
MP

Bit String(20)
SV clock drift correction coefficient
(sec/sec) [68, 69, 70, 72]
REL-8
>af0-n
MP

Bit String(26)
SV clock bias correction coefficient
(seconds) [68, 69, 70, 72]
REL-8
>TGD
MP

Bit String(13)
Group delay correction
(seconds) [68, 69, 70, 72]
REL-8
>ISCL1CP
OP

Bit String(13)
Inter signal group delay correction
(seconds) [70, 72]
REL-8
>ISCL1CD
OP

Bit String(13)
Inter signal group delay correction
(seconds) [70, 72]
REL-8
>ISCL1C/A
OP

Bit String(13)
Inter signal group delay correction
(seconds) [68, 69, 72]
REL-8
>ISCL2C
OP

Bit String(13)
Inter signal group delay correction
(seconds) [68, 69, 72]
REL-8
>ISCL5I5
OP

Bit String(13)
Inter signal group delay correction
(seconds) [69, 72]
REL-8
>ISCL5Q5
OP

Bit String(13)
Inter signal group delay correction
(seconds) [69, 72]
REL-8
GLONASS Satellite Clock Model
(“Model 4”)
OP


NOTE
REL-8
n(tb)
MP

Bit String(22)
Satellite clock offset
(seconds) [73]
REL-8
n(tb)
MP

Bit String(11)
Relative frequency offset from nominal value
(dimensionless) [73]
REL-8
n
OP

Bit String(5)
Time difference between transmission in G2 and G1
(seconds) [73]
REL-8
SBAS Satellite Clock Model
(“Model 5”)
OP


NOTE
REL-8
>t0
MP

Bit String(13)
(seconds) [71]
REL-8
>aGfo
MP

Bit String(12)
(seconds) [71]
REL-8
>aGf1
MP

Bit String(8)
(sec/sec) [71]
REL-8
BDS Satellite Clock Model
("Model 6")
OP


NOTE
REL-12
>AODC
MP

BIT STRING (5)
Age of data,clock 
(dimensionless) [86]
REL-12
>toc
MP

BIT STRING (17)
Time of clock 
(seconds) [86]
REL-12
>a0
MP

BIT STRING (24)
Clock correction polynomial coefficient
(seconds) [86]
REL-12
>a1
MP

BIT STRING (22)
Clock correction polynomial coefficient
(sec/sec) [86]
REL-12
>a2
MP

BIT STRING (11)
Clock correction polynomial coefficient
(sec/sec2) [86]
REL-12
>TGD1
MP

BIT STRING (10)
Equipment Group Delay Differential
(seconds) [86]
REL-12

NOTE:	This IE shall contain exactly one of the optional fiels indicated by "NOTE".

10.3.7.92	UE positioning GPS ionospheric model
The IE contains fields needed to model the propagation delays of the GPS signals through the ionosphere.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
0
MP

Bit string(8)
Note 1
1
MP

Bit string(8)
Note 1
2
MP

Bit string(8)
Note 1
3
MP

Bit string(8)
Note 1
0
MP

Bit string(8)
Note 2
1
MP

Bit string(8)
Note 2
2
MP

Bit string(8)
Note 2
3
MP

Bit string(8)
Note 2

NOTE 1:	The parameters an are the coefficients of a cubic equation representing the amplitude of the vertical delay [12].
NOTE 2:	The parameters bn are the coefficients of a cubic equation representing the period of the ionospheric model [12].
10.3.7.92a	UE positioning GANSS ionospheric model
The IE contains fields needed to model the propagation delays of the GANSS signals through the ionosphere.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
ai0
MP

Bit string(11)
Effective Ionisation Level 1st order parameter. This parameter is used as defined in [61]
REL-12
ai1
MP

Bit string(11)
Effective Ionisation Level 2nd order parameter. This parameter is used as defined in [61]
REL-12
ai2
MP

Bit string(14)
Effective Ionisation Level 3rd order parameter. This parameter is used as defined in [61]
REL-12
GANSS Ionosphere Regional Storm Flags
OP



REL-7
>Storm Flag 1
MP

Boolean
This parameter is used as defined in [61]
REL-7
>Storm Flag 2
MP

Boolean
This parameter is used as defined in [61]
REL-7
>Storm Flag 3
MP

Boolean
This parameter is used as defined in [61]
REL-7
>Storm Flag 4
MP

Boolean
This parameter is used as defined in [61]
REL-7
>Storm Flag 5
MP

Boolean
This parameter is used as defined in [61]
REL-7

10.3.7.92b	UE positioning GANSS additional ionospheric model
This IE contains parameters to model the propagation delays of the GANSS signals through the ionosphere. 
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Data ID
MP

Bit String(2)
The value ‘11’ indicates that the parameters have been generated by QZSS, and the parameters have been specialized and are applicable within the area defined in [72]. The value ‘01’ indicates that the parameters have been generated by BDS, and UE shall use these parameters according to the description given in 5.2.4.7 in [86]. When Data ID has the value ‘00’ it indicates the parameters are applicable worldwide [72]. All other values for Data ID are reserved.
REL-8
0
MP

Bit string(8)
seconds [72]
REL-8
1
MP

Bit string(8)
sec/semi-circle [72]
REL-8
2
MP

Bit string(8)
sec/(semi-circle)2 [72]
REL-8
3
MP

Bit string(8)
sec/(semi-circle)3 [72]
REL-8
0
MP

Bit string(8)
seconds [72]
REL-8
1
MP

Bit string(8)
sec/semi-circle [72]
REL-8
2
MP

Bit string(8)
sec/(semi-circle)2 [72]
REL-8
3
MP

Bit string(8)
sec/(semi-circle)3  [72]
REL-8

10.3.7.92c	UE positioning GANSS Earth orientation parameters
This IE  provides parameters to construct the ECEF and ECI coordinate transformation as defined in [68]. The Earth Orientation Parameters (EOP) indicate the relationship between the Earth’s rotational axis and WGS-84 reference system.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
tEOP
MP

Bit String(16)
EOP data reference time
(seconds) [68]
REL-8
PM_X
MP

Bit String(21)
X-axis polar motion value at reference time
(arc-seconds) [68]
REL-8
PM_X_dot
MP

Bit String(15)
X-axis polar motion drift at reference time
(arc-seconds/day) [68]
REL-8
PM_Y
MP

Bit String(21)
Y-axis polar motion value at reference time
(arc-seconds) [68]
REL-8
PM_Y_dot
MP

Bit String(15)
Y-axis polar motion drift at reference time
(arc-seconds/day) [68]
REL-8
UT1
MP

Bit String(31)
UT1-UTC difference at reference time
(seconds) [68]
REL-8
UT1_dot
MP

Bit String(19)
Rate of UT1-UTC difference at reference time
(seconds/day) [68]
REL-8

10.3.7.92d	UE positioning BDS Ionospheric Grid Model
This IE contains BDS Ionospheric Grid information to calculate the propagation delays of the B1I signal through the ionosphere. 
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
BDS Reference Time
MP

Integer(0..3570 by step of 30)
Seconds.
Time in BDS system time (modulo 3600 s) when the BDS Ionospheric Grid Information is valid. 
REL-12
BDS Ionospheric Grid Information
MP
1 to <maxIGPInfo>

Ionospheric information for upto 16 grid points will be included in this version of the specification.
REL-12
>IGP number
MP

INTEGER (1..320)
Ionospheric grid point number
(dimensionless) [86].
REL-12
>Vertical Delay
MP

BIT STRING (9)
Vertical Delay at Ionospheric Grid Points ,(meters) [86]
REL-12
>GIVEI
MP

BIT STRING (4)
Grid Ionospheric Vertical Error Index
(dimensionless) [86].
REL-12

10.3.7.92e	UE positioning DBDS corrections
This IE contains the BDS differential corrections to be used by UE. 
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
DBDS Reference Time
MP

Integer(0..3570 by step of 30)
Seconds.
Time in BDS system time (modulo 3600 s) when the DBDS corrections are valid. 
REL-12
DBDS information
MP
1 to <maxSgnType>


REL-12
>DBDS Signal ID
OP

GANSS Signal Id 10.3.3.45a
Absence of this field means the B1I
REL-12
>DBDS signal information
MP
1 to <maxGANSSSat>


REL-12
>>SatID
MP

Integer (0…63)
Identifies the satellite and is as defined in Note 2 of 10.3.7.88b.

>>UDREI
MP

Integer (0…15)
User Differential Range Error Index (dimensionless) [86].
REL-12
>>RURAI

MP

Integer (0…15)
BDS Regional User Range Accuracy Index, (dimensionless) [86].
REL-12
>>Δt 

MP

BIT STRING (13)
Equivalent Clock Correction 
(meters) [86]
REL-12

10.3.7.93	UE positioning GPS measured results

Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE Reference Time
MP




>UTRAN reference time





>>UE GPS timing of cell frames 
MP

Integer(0.. 37158911999999
GPS Time of Week in units of 1/16th UMTS chips according to [19].
33209832177664 spare values are needed.

>>CHOICE mode
MP




>>>FDD





>>>>Primary CPICH Info
MP

Primary CPICH Info 10.3.6.60
Identifies the reference cell for the GPS TOW-SFN relationship.

>>>TDD





>>>>cell parameters id
MP

Cell parameters id 10.3.6.9
Identifies the reference cell for the GPS TOW-SFN relationship.

>>Reference SFN
MP

Integer(0..4095)
The SFN for which the location is valid. This IE indicates the SFN at which the UE timing of cell frames is captured.

>GPS reference time only





>>GPS TOW msec
MP

Integer(0..6.048*108-1)
GPS Time of Week in milliseconds (rounded down to the nearest millisecond unit).

UE Positioning GPS ReferenceTime Uncertainty
OP

UE positioning GPS reference time uncertainty 10.3.7.96a

REL-7
Measurement Parameters
MP
1 to <maxSat>



>Satellite ID
MP

Enumerated(0..63)
Identifies the satellite and is equal to (SV ID No - 1) where SV ID No is defined in [12].

>C/No
MP

Integer(0..63)
the estimate of the carrier-to-noise ratio of the received signal from the particular satellite used in the measurement. It is given in units of dB-Hz (typical levels will be in the range of 20 – 50 dB-Hz).

>Doppler
MP

Integer(-32768..32768)
Hz, scale factor 0.2.

>Whole GPS Chips
MP

Integer(0..1022)
Unit in GPS chips.
Whole value of the UE GPS code-phase measurement, where increasing binary values of the field signify increasing measured pseudoranges.The UE GPS code-phase measurement is divided into the fields “Whole GPS Chips” and “Fractional GPS Chips”.

>Fractional GPS Chips
MP

Integer(0..(210-1))
Scale factor 2-10
Fractional value of the UE GPS code-phase measurement.

>Multipath Indicator
MP

Enumerated(NM, low, medium, high)
Note 1.

>Pseudorange RMS Error
MP

Enumerated(range index 0..range index 63)
Note 2.


NOTE 1:	The following table gives the mapping of the multipath indicator field.
Value
Multipath Indication
NM
Not measured
Low
MP error < 5m
Medium
5m < MP error < 43m
High
MP error > 43m

NOTE 2:	The following table gives the bitmapping of the Pseudorange RMS Error field.
Range Index
Mantissa
Exponent
Floating-Point value, xi
Pseudorange value, P
0
000
000
0.5
P < 0.5
1
001
000
0.5625
0.5 <= P < 0.5625
I
X
Y
0.5 * (1 + x/8) * 2y
xi-1 <= P < xi
62
110
111
112
104 <= P < 112
63
111
111
--
112 <= P

10.3.7.93a		UE positioning GANSS measured results

Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE Reference Time
MP



REL-7
>UTRAN reference time




REL-7
>>UE GANSS timing of cell frames 
MP

Integer(0.. 86399999999750 by step of 250)
GANSS Time of Day in ns
REL-7
>>GANSS Time Id
OP

INTEGER (0..7)
Absence means Galileo.
For coding description see NOTE 2.

>>GANSS TOD Uncertainty
OP

Integer(0..127)
Coding as in 10.3.7.96a
REL-7
>>CHOICE mode
MP



REL-7
>>>FDD




REL-7
>>>>Primary CPICH Info
MP

Primary CPICH Info 10.3.6.60
Identifies the reference cell for the GANSS TOD-SFN relationship.
REL-7
>>>TDD




REL-7
>>>>cell parameters id
MP

Cell parameters id 10.3.6.9
Identifies the reference cell for the GANSS TOD-SFN relationship.
REL-7
>>Reference SFN
MP

Integer(0..4095)
The SFN for which the location is valid. This IE indicates the SFN at which the UE timing of cell frames is captured.
REL-7
>GANSS reference time only




REL-7
>>GANSS Time Id
OP

INTEGER (0..7)
Absence means Galileo.
For coding description see NOTE 2.

>>GANSS TOD msec
MP

Integer(0..3599999)
GANSS Time of Day (modulo 1 hour) in milliseconds (rounded down to the nearest millisecond unit).
REL-7
>>GANSS TOD Uncertainty
OP

Integer(0..127)
Coding as in 10.3.7.96a
REL-7
GANSS Generic Measurement Information
MP
1 to <maxGANSS>


REL-7
>GANSS ID
OP

Integer(0..7)
Absence of this IE means Galileo.
For coding description, see Note 1 in 10.3.7.90b.
REL-7
>GANSS Signal Measurement Information
MP
1 to <maxSgnType>


REL-7
>>GANSS Signal ID
OP

GANSS Signal Id 10.3.3.45a
Absence of this field means the default value as defined in 10.3.3.45a for the GANSS identified by GANSS_ID.
REL-7
>>GANSS Code Phase Ambiguity
OP

Integer (0..31)
The "GANSS Code Phase Ambiguity" field gives the ambiguity of the code phase measurement. It is given in ms and is an integer between 0 and 31. The Total Code Phase for a satellite k (Satk) is given modulo this "GANSS Code Phase Ambiguity" and is reconstructed with:
Code_Phase_Tot(Satk) = Code_Phase (Satk)+ Integer Code Phase(Satk)
If there is no code phase ambiguity, the "GANSS Code Phase Ambiguity" shall be set to 0.
The field is optional. If "GANSS Code Phase Ambiguity” and “GANSS Code Phase Ambiguity Extension” is absent, the default value is 1ms.
REL-7
>>GANSS Code Phase Ambiguity Extension
OP

Integer(32..127)
If the total GANSS code phase ambiguity is greater than 31 ms, then this field shall be used. The definition is the same as for the "GANSS Code Phase Ambiguity" field except the value range is from 32 to 127 ms.
REL-8
>>GANSS Measurement Parameters
MP
1 to <maxGANSSSat>


REL-7
>>>Satellite ID
MP

Integer (0..63)
Identifies the satellite and is  as defined in Note 2 of 10.3.7.88b.
REL-7
>>>C/No
MP

Integer(0..63)
The estimate of the carrier-to-noise ratio of the received signal from the particular satellite used in the measurement. It is given in units of dB-Hz (typical levels will be in the range of 20 – 50 dB-Hz).
REL-7
>>>Multipath Indicator
MP

Enumerated(NM, low, medium, high)
Coding as in 10.3.7.93
REL-7
>>>Carrier Quality Indicaton
OP

Bit string(2)
Note 1
REL-7
>>>GANSS Code Phase
MP

Integer(0..221-1)
Scale factor 2-21 
Code phase for the particular satellite signal at the time of measurement in the units of milliseconds. Increasing binary values of the field signify increasing measured pseudoranges. GNSS specific code phase measurements (e.g. chips) are converted into unit of ms by dividing the measurements by the nominal values of the measured signal chipping rate.
REL-7
>>>GANSS Integer Code Phase
OP

Integer(0..63)
In ms
Indicates the integer millisecond part of the code phase, that is expressed modulo the GANSS Code Phase Ambiguity.
REL-7
>>>GANSS Integer Code Phase Extension
OP

Integer(64..127)
If the total GANSS integer code phase is greater than 63 ms, then this field shall be used. The definition is the same as for the GANSS Integer Code Phase field except the value range is from 64 to 127 ms.
REL-8
>>>Code Phase RMS Error
MP

Enumerated(range index 0..range index 63)
Coding as in Note 2 of 10.3.7.93
REL-7
>>>Doppler
MP

Integer(-32768..32767)
m/s, scale factor 0.04. Doppler measured by the UE for the particular satellite signal
REL-7
>>>ADR
OP

Integer(0..33554431)
Meters, scale factor 2-10
ADR measurement measured by the UE for the particular satellite signal.
REL-7

NOTE 1:	Coding of Carrier quality indication:
MSB
LSB
Explanation
0

Carrier phase not continuous
1

Carrier phase continuous

0
Data direct

1
Data Inverted

NOTE 2:	Coding of GANSS Time Id:
Value of GANSS Time id
Explanation
Version
0
GPS system time
REL-8
1
QZSS system time

2
GLONASS system time

3
BDS system time
REL-12
4-7
Reserved


10.3.7.94	UE positioning GPS navigation model
This IE contain information required to manage the transfer of precise navigation data to the GPS-capable UE.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Satellite information
MP
1 to <maxSat>


>SatID
MP

Enumerated(0..63)
Identifies the satellite and is equal to (SV ID No - 1) where SV ID No is defined in [12].
>Satellite Status
MP

Enumerated(NS_NN,
ES_SN,
ES_NN,
REVD)
NOTE
>GPS Ephemeris and Clock Correction parameters
CV-Satellite status

UE positioning GPS Ephemeris and Clock Correction parameters 10.3.7.91a


NOTE:	The UE shall interpret enumerated symbols as follows.
Value
Indication
NS_NN
New satellite, new Navigation Model
ES_SN 
Existing satellite, same Navigation Model
ES_NN
Existing satellite, new Navigation Model
REVD
Reserved

Condition
Explanation
Satellite status
The IE is not needed if the IE "Satellite status" is ES_SN and mandatory present otherwise.

10.3.7.94a		UE positioning GANSS navigation model
This IE contains information required to manage the transfer of precise navigation data to the GANSS-capable UE.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Non-Broadcast Indication
OP

Enumerated (TRUE)
If this IE is present, GANSS navigation model is not derived from satellite broadcast
REL-7
Satellite information
MP
1 to <maxGANSSSat>


REL-7
>SatID
MP

Integer (0..63)
Identifies the satellite and is as defined in Note 2 of 10.3.7.88b.
REL-7
>SV Health
MP

Bit string(9)
NOTE
REL-12
>IOD
MP

Bit string(10)

REL-7
>GANSS Clock Model
MP

UE positioning GANSS clock model 10.3.7.91d

REL-7
> GANSS Orbit Model
MP

UE positioning GANSS orbit model 10.3.7.91c

REL-7

NOTE:	The Health values are GNSS specific. For Galileo, the UE shall interpret the bit string as follows [61]:
Parameter
Bit
Type
Explanation
E5a Data Validity Status
0
Boolean

E5b Data Validity Status
1
Boolean

E1-B Data Validity Status
2
Boolean

E5a Signal Health Status
3-4
Bit string

E5b Signal Health Status
5-6
Bit string

E1-B Signal Health Status
7-8
Bit string


10.3.7.94b		UE positioning GANSS additional navigation models
This IE contains information required to manage the transfer of precise navigation data to the GANSS-capable UE.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Non-Broadcast Indication
OP

Enumerated (TRUE)
If this IE is present, GANSS navigation model is not derived from satellite broadcast
REL-8
Satellite information
MP
1 to <maxGANSSSat>


REL-8
>SatID
MP

Integer (0..63)
Identifies the satellite and is as defined in Note 2 of 10.3.7.88b.
REL-8
>SV Health
MP

Bit string(6)
NOTE 1
REL-8
>IOD
MP

Bit string(11)
NOTE 2
REL-8
>GANSS additional clock models
MP

UE positioning GANSS additional clock models 10.3.7.91f

REL-8
>GANSS additional orbit models
MP

UE positioning GANSS additional orbit models 10.3.7.91e

REL-8

NOTE 1:	The SV Health values are GNSS specific as identified by the GANSS ID :
GANSS
SV Health Bit String(6)

Bit 1 (MSB)
Bit 2
Bit 3
Bit 4
Bit 5
Bit 6 (LSB)
Modernized GPS
L1C Health
[70]
L1 Health [68,69]
L2 Health
[68,69]
L5 Health [68,69]
‘0’
(reserved)
‘0’
(reserved)
SBAS
Ranging On (0), Off(1) [71]
Corrections On (0), Off (1) [71]
Integrity On (0), Off(1) [71]
‘0’
(reserved)
‘0’
(reserved)
‘0’
(reserved)
QZSS
QZS-L1
SV Health [72]
QZSS
QZS-L1C/L2C/L5
L1C Health
[72]
L1 Health
[72]
L2 Health
[72]
L5 Health
[72]
‘0’
(reserved)
‘0’
(reserved)
GLONASS
Bn (MSB)
[73, page 23]
FT [73, Table 4.4]
‘0’
(reserved)
BDS
B1I Health (SatH1) [86]
‘0’
(reserved)
‘0’
(reserved)
‘0’
(reserved)
‘0’
(reserved)
‘0’
(reserved)

NOTE 2:	The IOD values are GNSS specific as identified by the GANSS ID :
GANSS
IOD Bit String(11)

Bit 1
(MSB)
Bit 2
Bit 3
Bit 4
Bit 5
Bit 6
Bit 7
Bit 8
Bit 9
Bit 10
Bit 11
(LSB)
Modernized GPS
toe (seconds, scale factor 300, range 0 – 604500) [68, 69, 70]
SBAS
‘0’
‘0’
‘0’
Issue of Data ([71], Message Type 9)
QZSS QZS-L1
‘0’
Issue of Data, Clock [72]
QZSS
QZS-L1C/L2C/L5
toe (seconds, scale factor 300, range 0 – 604500) [72]
GLONASS
‘0’
‘0’
‘0’
‘0’
tb (minutes, scale factor 15) [73]
BDS
11 MSB bits of toe  (seconds, scale factor 512, range 0 – 604672) [86]

10.3.7.95	UE positioning GPS real-time integrity
This IE contains parameters that describe the real-time status of the GPS constellation.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Satellite information
MP
1 to <maxSat>


>BadSatID
MP

Enumerated(0..63)
Identifies the satellite and is equal to (SV ID No - 1) where SV ID No is defined in [12].

10.3.7.95a	Void
10.3.7.95b		UE positioning GANSS real-time integrity
This IE contains parameters that describe the real-time status of the GANSS constellation.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Satellite information
MP
1 to <maxGANSSSat>


REL-7
>Bad GANSS SatID
MP

Integer (0..63)
Identifies the satellite and is as defined in Note 2 of 10.3.7.88b.
REL-7
>Bad GANSS Signal ID
OP

Bit string (8)
Absence of this IE means that all signals of the specific SV are bad.  NOTE
REL-7

NOTE:	Coding of Bad GANSS Signal ID
GNSS
Bit
Explanation
Version
Galileo
1
E1
REL-7

2
E5A


3
E5B


4
E6


5
E5A + E5B


6-8
Spare

Modernized GPS
1
L1C
REL-8

2
L2C


3
L5


4-8
Spare

SBAS
1
L1


2-8
Spare

QZSS
1
QZS-L1


2
QZS-L1C


3
QZS-L2C


4
QZS-L5


5-8
Spare

GLONASS
1
G1


2
G2


3
G3


4-8
Spare

BDS
1
B1I
REL-12

2-8
Spare


10.3.7.96	UE positioning GPS reference time
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GPS Week
MP

Integer(0..1023)


GPS Week Cycle Number
OP

Integer(0..7)
This field  provides the number of 1024 GPS week cycles occurred since the GPS zero time-point (midnight of the night of January 5, 1980/morning of January 6, 1980). The first 1024 GPS weeks since the zero time-point is GPS Week Cycle Number 0.
REL-10
GPS TOW msec
MP

Integer(0..6.048*108-1)
GPS Time of Week in milliseconds (rounded down to the nearest millisecond unit).

UTRAN GPS reference time
OP




>UTRAN GPS timing of cell frames
MP

Integer(0.. 2322431999999)
UTRAN GPS timing of cell frames in steps of 1 chip

>CHOICE mode
OP




>>FDD





>>>Primary CPICH Info
MP

Primary CPICH Info 10.3.6.60
Identifies the reference cell for the GPS TOW-SFN relationship

>>TDD





>>>cell parameters id 
MP

Cell parameters id 10.3.6.9 
Identifies the reference cell for the GPS TOW-SFN relationship

>SFN
MP

Integer(0..4095)
The SFN which the UTRAN GPS timing of cell frames time stamps.

UE Positioning GPS ReferenceTime Uncertainty
OP

UE positioning GPS reference time uncertainty 10.3.7.96a
NOTE 1
REL-7
SFN-TOW Uncertainty
OP

Enumerated (lessThan10, moreThan10)
This field indicates the uncertainty of the relation GPS TOW/SFN. lessThan10 means the relation is accurate to at least 10 ms. NOTE 1

TUTRAN-GPS drift rate
OP

Integer (0, 1, 2, 5, 10, 15, 25, 50, -1, -2, -5, -10, -15, -25, -50)
in 1/256 chips per sec.

GPS TOW Assist
OP
1 to <maxSat>



>SatID
MP

Enumerated(0..63)
Identifies the satellite and is equal to (SV ID No - 1) where SV ID No is defined in [12].

>TLM Message
MP

Bit string(14)


>TLM Reserved
MP

Bit string(2)


>Alert
MP

Boolean


>Anti-Spoof 
MP

Boolean



NOTE 1:	If the IE "UE Positioning GPS ReferenceTime Uncertainty" is present, the IE "SFN-TOW Uncertainty" is not needed and shall be ignored.

10.3.7.96o		UE positioning GANSS reference time
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GANSS Day
OP

Integer(0..8191)
The sequential number of days (with day count starting at 0) from the origin of the GNSS system time indicated by GANSS Time ID modulo 8192 days (about 22 years). If this field is not present and the UE cannot obtain GNSS system time information by other means, the UE behaviour is unspecified. NOTE.
REL-7
GANSS Day Cycle Number
OP

Integer(0..7)
This field  provides the number of 8192 day cycles occurred since the GANSS zero time-point defined in NOTE below. The first 8192 GANSS days since the zero time-point is GANSS Day Cycle Number 0. When this field is included, the GANSS Day field shall be included as well.
REL-10
GANSS TOD
MP

Integer(0..86399)
GANSS Time of Day in seconds
REL-7
GANSS TOD Uncertainty
OP

Integer(0..127)
Coding as in subclause 10.3.7.96a
REL-7
GANSS Time ID
OP

Integer (0..7)
Absense of this IE means Galileo, values 0-7 are reserved for future use
REL-7




Absense of this IE means Galileo,
For coding description see NOTE 2 in 10.3.7.93a.
REL-8
UTRAN GANSS reference time
OP



REL-7
>UTRAN GANSS timing of cell frames
MP

Integer(0.. 999999750 by step of 250)
UTRAN GANSS timing of cell frames in steps of 250 ns. Indicates sub-second part of GANSS TOD
REL-7
>CHOICE mode
MP



REL-7
>>FDD




REL-7
>>>Primary CPICH Info
MP

Primary CPICH Info 10.3.6.60
Identifies the reference cell for the GANSS TOD-SFN relationship
REL-7
>>TDD




REL-7
>>>cell parameters id 
MP

Cell parameters id 10.3.6.9 
Identifies the reference cell for the GANSS TOD-SFN relationship
REL-7
>SFN
MP

Integer(0..4095)
The SFN which the UTRAN GANSS timing of cell frames time stamps.
REL-7
TUTRAN-GANSS drift rate
OP

ENUMERATED (0, 1, 2, 5, 10, 15, 25, 50, -1, -2, -5, -10, -15, -25, -50)
in 1/256 chips per sec.
One spare value needed.
REL-7

NOTE: 	Definition of GNSS system time origin:
GANSS
GNSS System Time Origin
Galileo System Time
13 seconds before midnight between 21st August and 22nd August 1999; i.e., GST was equal to 13 seconds at August 22, 1999; 00:00:00 UTC
GPS System Time
January 6, 1980; 00:00:00 UTC(USNO)
QZSS System Time
January 6, 1980; 00:00:00 UTC(USNO)
GLONASS System Time
December 31, 1995; 21:00:00 UTC(SU), which is local UTC Moscow January 1, 1996; 00:00:00, defined as UTC(SU) + 3 hours in [73]
BDS System Time
January 1, 2006; 00:00:00 UTC(NTSC)

10.3.7.96a	UE positioning GPS reference time uncertainty
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE Positioning GPS Reference Time Uncertainty
MP

Integer (0..127)
This element provides the accuracy of the provided GPS time, or alternatively the accuracy of the provided relation between GPS and UTRAN time. If "GPS TOW" is the provided GPS time, or alternatively the GPS time corresponding to the UTRAN time provided, then the true GPS time lies in the interval ["GPS TOW"  "GPS Reference Time Uncertainty", "GPS TOW" + "GPS Reference Time Uncertainty"].
The uncertainty r, expressed in microseconds, is mapped to a number K with the following formula:
r = C*(((1+x)K)-1)
with C = 0.0022 and x = 0.18. 
To encode any higher value of the uncertainty than that corresponding to K=127 in the formula above, or to indicate an undefined value of the "GPS TOW", the same value, K=127, shall be used.
REL-7

NOTE:	This IE is not needed in the SRNS RELOCATION INFO message.

10.3.7.97	UE positioning GPS UTC model
The UTC Model field contains a set of parameters needed to relate GPS time to Universal Time Coordinate (UTC).
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
A1
MP

Bit string(24)
sec/sec [12]
A0
MP

Bit string(32)
seconds [12]
tot
MP

Bit string(8)
seconds [12]
WNt
MP

Bit string(8)
weeks [12]
tLS
MP

Bit string(8)
seconds [12]
WNLSF
MP

Bit string(8)
weeks [12]
DN
MP

Bit string(8)
days [12]
tLSF
MP

Bit string(8)
seconds [12]

10.3.7.97a		UE positioning GANSS time model
The GANSS time model field contains a set of parameters needed to relate GANSS time for the GANSS indicated by "GANSS ID" to selected time reference indicated by "GNSS_TO_ID". The conversion is defined in [68,69,70].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GANSS Time  Model Reference Time
MP

Integer(0..604784 by step of 16)
GANSS reference time of week for GANSS Time Model, given in GNSS specific system time, with a 16s scale factor.
REL-7
TA0
MP

Integer (-2147483648 .. 2147483647)
Seconds, scale factor 2-35
REL-7
TA1
OP

Integer (-8388608 .. 8388607)
sec/sec, scale factor 2-51
NOTE
REL-7
TA2
OP

Integer (-64 .. 63)
sec/sec2 , scale factor 2-68
NOTE
REL-7
GNSS_TO_ID
MP

Enumerated (GPS,
GNSS Time Offset ID
Seven spare values needed.
REL-7



Galileo, QZSS, GLONASS,
GNSS Time Offset ID
Four spare values needed.
REL-8



BDS)
GNSS Time Offset ID
Three spare values needed.
REL-12
Week Number
OP

Integer(0..8191)
Reference week of GANSS Time Model given in GNSS specific system time
REL-7
Delta_T
OP

Integer(-128..127)
This field specifies the integer seconds of the GNSS-GNSS Time Offset.
Scale factor 1 second.
REL-10

NOTE:	The fields indicated by "NOTE" should not be included if "UE positioning GPS reference time" is provided.
10.3.7.97b		UE positioning GANSS data bit assistance
This element provides data bit assistance data for specific satellite signals for data wipe-off.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
GANSS TOD
MP

Integer(0..59)
Refererence time (modulo 1 minute) of the first bit of the data in IE “Data Bits”, in seconds
REL-7
Data Bit Assistance List
MP
1 to <maxGANSSSat>

The following fields are present N_Sat times, with 1 ≤ N_Sat ≤ maxGANSSSat
REL-7
>Satellite ID
MP

Integer (0..63)
Identifies the satellite and is as defined in Note 2 of 10.3.7.88b.
REL-7
>Data bit assistance Sgn List
MP
1 to <maxSgnType>

The following fields are present N_Sgn times, with 1 ≤ N_Sgn ≤ maxSgnType
REL-7
>>GANSS Signal ID
MP

GANSS Signal ID 10.3.3.45a

REL-7
>>Data Bits
MP

Bit string (1..1024)
Raw data bits as transmitted from a specific satellite at the time indicated by GANSS_TOD.
In case of Galileo, it contains the FEC encoded and interleaved modulation symbols. The logical levels 1 and 0 correspond to signal levels -1 and +1, respectively.
N_BIT is the actual number of elements in Data bits: 1 ≤ N_BIT ≤ 1024.
REL-7




In case of Modernized GPS L1C, it contains the encoded and interleaved modulation symbols as defined in [70] section 3.2.3.1.
In case of Modernized GPS L2C, it contains either the NAV data modulation bits, the FEC encoded NAV data modulation symbols, or the FEC encoded CNAV data modulation symbols, dependent on the current signal configuration of this satellite as defined in [68, Table 3-III].
In case of Modernized GPS L5, it contains the FEC encoded CNAV data modulation symbols as defined in [69].
In case of SBAS, it contains the FEC encoded data modulation symbols as defined in [71].
In case of QZSS QZS-L1, it contains the NAV data modulation bits as defined in [72] section 5.2. In case of QZSS QZS-L1C, it contains the encoded and interleaved modulation symbols as defined in [72] section 5.3. In case of QZSS QZS-L2C, it contains the encoded modulation symbols as defined in [72] section 5.5. In case of QZSS QZS-L5, it contains the encoded modulation symbols as defined in [72] section 5.6. 
In case of GLONASS, it contains the 100 sps differentially Manchester encoded modulation symbols as defined in [73] section 3.3.2.2.
REL-8




In case of BDS, it contains the encoded and interleaved modulation symbols as defined in [86] section 5.1.3.
REL-12

10.3.7.97c	UE positioning GANSS UTC model
The UTC Model field contains a set of parameters needed to relate GANSS time to Universal Time Coordinate (UTC).
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
A1
MP

Bit string(24)

A0
MP

Bit string(32)

tot
MP

Bit string(8)

tLS
MP

Bit string(8)

WNt
MP

Bit string(8)

WNLSF
MP

Bit string(8)

DN
MP

Bit string(8)

tLSF
MP

Bit string(8)


For a GANSS Id referring to Galileo, the definition and the unit of the elements are provided in [61].
10.3.7.97d	UE positioning GANSS additional UTC models
This element contains contains several sets of parameters needed to relate GNSS system time to Universal Time Coordinate (UTC), as defined in [68, 69, 70, 71, 72, 73]. Only one parameter set can be included in one UE positioning GANSS additional UTC models and which set of parameters to include depends on the GANSS-ID and UE capabilities.
The UTC time standard, UTC(k), is GNSS specific. E.g., if GANSS ID indicates QZSS, UE positioning GANSS additional UTC models contains a set of parameters needed to relate QZST to UTC(NICT). If GANSS ID indicates Modernized GPS, UE positioning GANSS additional UTC models contains a set of parameters needed to relate GPS system time to UTC(USNO). If GANSS ID indicates GLONASS, UE positioning GANSS additional UTC models contains a set of parameters needed to relate GLONASS system time to UTC(RU). If GANSS ID indicates SBAS, UE positioning GANSS additional UTC models contains a set of pameters needed to relate SBAS network time for the SBAS indicated by SBAS ID to the UTC standard defined by the UTC Standard ID. If GANSS ID indicates BDS, UE positioning GANSS additional UTC models contains a set of parameters needed to relate BDS system time to UTC (NTSC).
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Model-1
OP


NOTE
REL-8
>A0-n
MP

Bit String(16)
Bias coefficient of GNSS time scale relative to UTC time scale
(seconds) [68,69,70,72]
REL-8
>A1-n
MP

Bit String(13)
Drift coefficient of GNSS time scale relative to UTC time scale
(sec/sec) [68,69,70,72]
REL-8
>A2-n
MP

Bit String(7)
Drift rate correction coefficient of GNSS time scale relative to UTC time scale
(sec/sec2) [68,69,70,72]
REL-8
>tLS
MP

Bit String(8)
Current or past leap second count
(seconds) [68,69,70,72]
REL-8
>tot
MP

Bit String(16)
Time data reference time of week
(seconds) [68,69,70,72]
REL-8
>WNot
MP

Bit String(13)
Time data reference week number
(weeks) [68,69,70,72]
REL-8
>WNLSF
MP

Bit String(8)
Leap second reference week number
(weeks) [68,69,70,72]
REL-8
>DN
MP

Bit String(4)
Leap second reference day number 
(days) [68,69,70,72]
REL-8
>tLSF
MP

Bit String(8)
Current or future leap second count
(seconds) [68,69,70,72]
REL-8
Model-2
OP


NOTE
REL-8
>NA
MP

Bit String(11)
Callendar day number within four-year period beginning since the leap year
(days) [73]
REL-8
c
MP

Bit String(32)
GLONASS time scale correction to UTC(SU)
(seconds) [73]
REL-8
>Delta UT1
OP




>>B1
MP

Bit String(11)
Coefficient to determine UT1
(seconds) [73]
REL-8
>>B2
MP

Bit String(10)
Coefficient to determine UT1
(seconds/msd) [73]
REL-8
>KP
OP

Bit String(2)
Notification of expected leap second correction
(dimensionless) [73]
REL-8
Model-3
OP


NOTE
REL-8
>A1WNT
MP

Bit String(24)
sec/sec
([71], Message Type 12)
REL-8
>A0WNT
MP

Bit String(32)
seconds 
([71], Message Type 12)
REL-8
>tot
MP

Bit String(8)
seconds
([71], Message Type 12)
REL-8
>WNt
MP

Bit String(8)
weeks
([71], Message Type 12)
REL-8
>tLS
MP

Bit String(8)
seconds
([71], Message Type 12)
REL-8
>WNLSF
MP

Bit String(8)
weeks
([71], Message Type 12)
REL-8
>DN
MP

Bit String(8)
days
([71], Message Type 12)
REL-8
>tLSF
MP

Bit String(8)
seconds
([71], Message Type 12)
REL-8
>UTC Standard ID
MP

Bit String(3)
dimensionless
NOTE 1
REL-8
Model-4
OP


NOTE
REL-12
>A0UTC
MP

Bit String (32)
Seconds [86]
REL-12
>A1UTC
MP

Bit String (24)
sec/sec [86]
REL-12
>tLS
MP

Bit String (8)
Seconds [86]
REL-12
>WNLSF
MP

Bit String (8)
Weeks [86]
REL-12
>DN
MP

Bit String (8)
Days [86]
REL-12
>tLSF
MP

Bit String (8)
Seconds [86]
REL-12

NOTE:	This IE shall contain exactly one of the optional fields indicated by "NOTE".
NOTE 1:	Coding of UTC Standard ID:
Value of UTC Standard ID
UTC Standard
0
UTC as operated by the Communications Research Laboratory (CRL), Tokyo, Japan
1
UTC as operated by the National Institute of Standards and Technology (NIST)
2
UTC as operated by the U. S. Naval Observatory (USNO)
3
UTC as operated by the International Bureau of Weights and Measures (BIPM)
4-7
Reserved for future definition

10.3.7.97e	UE positioning GANSS SBAS ID
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
SBAS ID
MP

Enumerated(
WAAS, 
EGNOS,
MSAS,
GAGAN)
Four spare values are needed.
REL-8

10.3.7.97f	UE positioning GANSS auxiliary information
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE GANSS-ID




REL-8
>GANSS-ID-1



This choice may only be present if GANSS ID indicated “Modernized GPS”
REL-8
>>Aux Info List
MP
1 to <maxGANSSSat>


REL-8
>>>Sat ID
MP

Integer(0..63)
Identifies the satellite and is as defined in Note 2 of 10.3.7.88b.
REL-8
>>>Signals Available
MP

Bit String(8)
This field indicates the ranging signals supported by the satellite indicated by Sat ID. This field is given as a bit string as shown in NOTE 1 for Modernized GPS. If a bit is set to ‘1’ it indicates that the satellite identified by Sat ID transmits ranging signals according to the signal correspondence in NOTE 1. If a bit is set to ‘0’ it indicates that the corresponding signal is not supported on the satellite identified by Sat ID
REL-8
>GANSS-ID-3



This choice may be present if GANSS ID indicated “GLONASS”
REL-8
>>Aux Info List
MP
1 to <maxGANSSSat>


REL-8
>>>Sat ID
MP

Integer(0..63)
Identifies the satellite and is as defined in Note 2 of 10.3.7.88b.
REL-8
>>>Signals Available
MP

Bit String(8)
This field indicates the ranging signals supported by the satellite indicated by Sat ID. This field is given as a bit string as shown in NOTE 1 for GLONASS. If a bit is set to ‘1’ it indicates that the satellite identified by Sat ID transmits ranging signals according to the signal correspondence in NOTE 1. If a bit is set to ‘0’ it indicates that the corresponding signal is not supported on the satellite identified by Sat ID.
REL-8
>>>Channel Number
MP

Integer(‑7..13)
This field indicates the GLONASS carrier frequency number of the satellite identified by Sat ID, as defined in [73].
REL-8

NOTE 1:	Coding of Signals Available
GANSS ID
Signals Avaialble Bit String(8)

Bit 1 (MSB)
Bit 2
Bit 3
Bit 4
Bit 5
Bit 6
Bit 7
Bit 8 (LSB)
1
Modernized GPS
L1C
L2C
L5
‘0’
Spare
‘0’
Spare
‘0’
Spare
‘0’
Spare
‘0’
Spare
3
GLONASS
G1
G2
G3
‘0’
Spare
‘0’
Spare
‘0’
Spare
‘0’
Spare
‘0’
Spare

10.3.7.98	UE positioning IPDL parameters
This IE contains parameters for the IPDL mode. The use of this parameters is described in [29].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE mode




REL-4
>FDD




REL-4
>>IP spacing
MP

Integer(5,7,10,15,20,30,40,50)
See [29]

>>IP length
MP

Integer(5,10)
See [29]

>>IP offset
MP

Integer(0..9)
See [29]

>>Seed
MP

Integer(0..63)
See [29]

>TDD




REL-4
>>IP spacing
MP

Integer(30,40,50,70,100)
See [33]
REL-4
>>IP_Start
MP

Integer(0..4095)
See [33]
REL-4
>>IP_Slot
MP

Integer(0..14)
See [33]
REL-4
>>IP_PCCPCH
CV-channel

Boolean
See [33]
REL-4
Burst mode parameters
OP




>Burst Start
MP

Integer(0..15)
See [29] and [33]

>Burst Length
MP

Integer(10..25)
See [29] and [33]

>Burst freq
MP

Integer(1..16)
See [29] and [33]


Condition
Explanation
channel
This IE is present only if the idle slot carries the PCCPCH

10.3.7.99	UE positioning measured results
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE positioning OTDOA measured results
OP

UE positioning OTDOA measured results 10.3.7.105


UE positioning Position estimate info
OP

UE positioning Position estimate info 10.3.7.109


UE positioning GPS measured results
OP

UE positioning GPS measured results 10.3.7.93


UE positioning error
OP

UE positioning error 10.3.7.87
Included if UE positioning error occurred

UE positioning GANSS measured results
OP

UE positioning GANSS measured results
10.3.7.93a

REL-7
UE positioning AddPos measured results
OP

UE positioning AddPos measured results
10.3.7.141

REL-13

10.3.7.100	UE positioning measurement
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE positioning reporting quantity
MP

UE positioning reporting quantity 10.3.7.111


Measurement validity 
OP

Measurement validity 10.3.7.51


CHOICE reporting criteria
MP




>UE positioning reporting criteria


UE positioning reporting criteria 10.3.7.110


>Periodical reporting criteria


Periodical reporting criteria 10.3.7.53


>No reporting



(no data)


UE positioning OTDOA assistance data for UE-assisted
OP

UE positioning OTDOA assistance data for UE-assisted
10.3.7.103


UE positioning OTDOA assistance data for UE-based
OP

UE positioning OTDOA assistance data for UE-based 10.3.7.103a


UE positioning GPS assistance data
OP

UE positioning GPS assistance data 10.3.7.90


UE positioning GANSS assistance data
OP

UE positioning GANSS assistance data
10.3.7.90b

REL-7

10.3.7.101	UE positioning measurement event results
This IE contains the measurement event results that are reported to UTRAN for UE positioning measurements.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
CHOICE Event ID
MP


One spare value is needed.
>7a




>>UE positioning Position estimate info
MP

UE positioning Position estimate info 10.3.7.109

>7b 




>>UE positioning OTDOA measured results
MP

UE positioning OTDOA measured results 10.3.7.105

>7c




>>UE positioning GPS measurement
MP

UE positioning GPS measured results 10.3.7.93

>7d




>>UE positioning GANSS measurement
MP

UE positioning GANSS measured results 10.3.7.93a


10.3.7.102	Void

10.3.7.103	UE positioning OTDOA assistance data for UE-assisted
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
UE positioning OTDOA reference cell info for UE-assisted
OP

UE positioning OTDOA reference cell info 10.3.7.108

UE positioning OTDOA neighbour cell list for UE-assisted
OP
1 to <maxCellMeas>


>UE positioning OTDOA neighbour cell info for UE-assisted
MP

UE positioning OTDOA neighbour cell info 10.3.7.106


10.3.7.103a	UE positioning OTDOA assistance data for UE-based
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
UE positioning OTDOA reference cell info for UE-based
OP

UE positioning OTDOA reference cell info for UE-based 10.3.7.108a

UE positioning OTDOA neighbour cell list for UE-based
OP
1 to <maxCellMeas>


>UE positioning OTDOA neighbour cell info for UE-based
MP

UE positioning OTDOA neighbour cell info for UE-based 10.3.7.106a


10.3.7.104	Void

10.3.7.105	UE positioning OTDOA measured results

Information Element/Group name
Need
Multi
Type and Reference
Semantics description
SFN
MP

Integer(0..4095)
SFN during which the last measurement was performed
CHOICE mode




>FDD




>>Reference cell id
MP

Primary CPICH info 10.3.6.60

>>UE Rx-Tx time difference type 2 info
MP



>>>UE Rx-Tx time difference type 2
MP

UE Rx-Tx time difference type 2 10.3.7.84

>>>UE positioning OTDOA quality
MP

UE positioning OTDOA quality 10.3.7.107
Quality of the UE Rx-Tx time difference type 2 measurement from the reference cell.
>TDD



(no data)
>>Reference cell id
MP

Cell parameters ID 10.3.6.9

Neighbours
OP
1 to <maxCellMeas>


>CHOICE mode
MP



>>FDD




>>>Neighbour Identity
MD

Primary CPICH info 10.3.6.60
Default value is the same as in the first set of multiple sets.
>>>Frequency info
MD

Frequency info 10.3.6.36
Default value is the existing value of frequency information
>>>UE Rx-Tx time difference type 2 info
OP


Included for cell in the active set excluding the reference cell.
>>>>UE Rx-Tx time difference type 2
MP

UE Rx-Tx time difference type 2 10.3.7.84

>>>>UE positioning OTDOA quality
MP

UE positioning OTDOA quality 10.3.7.107
Quality of the UE Rx-Tx time difference type 2 measurement from the neighbour cell.
>>TDD




>>>Cell and Channel ID
MD

Cell and Channel Identity info 10.3.6.8a
Default value is the same as in the first set of multiple sets.
>>>UARFCN
MP

Integer (0..16383)

>UE positioning OTDOA quality 
MP

UE positioning OTDOA quality 10.3.7.107
Quality of the SFN-SFN observed time difference type 2 measurement from the neighbour cell.
>SFN-SFN observed time difference type 2
MP

SFN-SFN observed time difference 10.3.7.63 
Gives the timing relative to the reference cell. Only type 2 is allowed.

10.3.7.106	UE positioning OTDOA neighbour cell info
This IE gives approximate cell timing in order to decrease the search window.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
CHOICE mode
MP



>FDD




>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

>TDD




>>cell and channel ID
MP

Cell and Channel Identity info 10.3.6.8a
Identifies the channel to be measured on.
Frequency info
MD

Frequency info 10.3.6.36
Default value is the existing value of frequency information
IPDL parameters
CV-IPDLs

UE positioning IPDL parameters 10.3.7.98

SFN offset
MP

Integer (0 .. 4095)
Although this IE is not always required, need is MP to align with ASN.1.
Define Tref as the time of beginning of system frame number SFNref of the reference cell. Define Tnc as the beginning of a frame from the neighbour cell occurring immediately after the time Tref. Let the corresponding system frame number be SFNnc. Then SFNnc = SFNref-SFN offset modulo 4096.
SFN offset validity
MD

Enumerated (FALSE)
Absence of this element means SFN offset is valid. FALSE means SFN offset is not valid.
SFN-SFN relative time difference
MP

Integer(0.. 38399)
Gives the relative timing compared to the reference cell. Equal to  (Tnc-Tref)*(3.84*106)  where () denotes rounding to the nearest lower integer.
In chips, Tnc = the time of beginning of a system frame from the neighbour cell, Tref = the time of beginning of a system frame from the reference cell.
SFN-SFN drift
OP

Integer (0, -1, -2, -3, -4, -5, -8, -10, -15, -25, -35, -50, -65, -80, -100,
1, 2, 3, 4, 5, 8, 10, 15, 25, 35, 50, 65, 80, 100)
in 1/256 chips per second

Search Window Size
MP

Integer(20, 40, 80, 160, 320, 640, 1280, infinity)
In chips. If the value is X then the expected SFN-SFN observed time difference is in the range [RTD-X, RTD+X] where RTD is the value of the field SFN-SFN relative time difference.
Infinity means that the uncertainty is larger than 1280 chips.
CHOICE PositioningMode
MP



>UE based



(no data)
>UE assisted



(no data)

Condition
Explanation
IPDLs
This IE is mandatory present if IPDLs are applied and not needed otherwise.

10.3.7.106a	UE positioning OTDOA neighbour cell info for UE-based
This IE gives approximate cell timing in order to decrease the search window, as well as the cell locations and fine cell timing for UE based OTDOA.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
UE positioning OTDOA neighbour cell info
MP

UE positioning OTDOA neighbour cell info 10.3.7.106


Cell Position
MD


Default is the same as previous cell

>Relative North
OP

Integer(-20000..20000)
Seconds of angle, scale factor 0.03. Relative position compared to reference cell.

>Relative East
OP

Integer(-20000..20000)
Seconds of angle, scale factor 0.03. Relative position compared to reference cell.

>Relative Altitude
OP

Integer(-4000..4000)
Relative altitude in meters compared to ref. cell.

Fine SFN-SFN
MP

Real(0..0.9375 in steps of 0.0625)
Gives finer resolution

UE positioning Relative Time Difference Quality
MP

UE positioning OTDOA quality 10.3.7.109a
Quality of the relative time difference between neighbour and reference cell. 

Round Trip Time
OP

Real (876.00 .. 2923.875 in steps of 0.0625)
In chips. Included if cell is in active set. 

Round Trip Time Extension
CV-FDD

Real (0 .. 4392.125 in steps of 0.0625)
In chips. Included if cell is in active set. Default = 0.
NOTE.
REL-7
NOTE:	Total Round Trip Time = IE "Round Trip Time" + IE "Round Trip Time Extension".

Condition
Explanation
FDD
The IE is optionally present in FDD, otherwise it is not needed.

10.3.7.107	UE positioning OTDOA quality
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Std Resolution
MP

Bit string(2)
Std Resolution field includes the resolution used in Std of OTDOA Measurements field. Encoding on two bits as follows:
'00'        10 meters
'01'        20 meters
'10'        30 meters
'11'        Reserved
Number of OTDOA Measurements
MP

Bit string(3)
The 'Number of OTDOA measurements' field indicates how many OTDOA measurements have been used in the UE to determine the sample standard deviation of the measurements. Following 3 bit encoding is used:
'001'        5-9
'010'      10-14
'011'      15-24
'100'      25-34
'101'      35-44
'110'      45-54
'111'      55 or more
Special case:
'000':In this case the field 'Std of OTDOA measurements' contains the std of the reported SFN-SFN otd value = E[(x-µ)2], where x is the reported value and µ = E[x] is the expectation value (i.e. the true value) of x. This std can be used irrespective of the number of measurements and reporting of the number of measurements is not needed. Also other measurements such as Ec/No or Rx levels can be utilised in this case to evaluate the 'Std of OTDOA measurements' reported in this IE.
Std of OTDOA Measurements
MP

Bit string(5)
Std of OTDOA Measurements field includes sample standard deviation of OTDOA measurements (when number of measurements is reported in 'Number of OTDOA measurements field') or standard deviation of the reported SFN-SFN otd value = E[(x-µ)2], where x is the reported value and µ = E[x] is the expectation value (i.e. the true value) of x (when '000' is given in 'Number of OTDOA measurements' field). Following linear 5 bit encoding is used:
'00000' 0 - (R*1-1) meters
'00001' R*1 – (R*2-1) meters
'00010' R*2 – (R*3-1) meters
…
'11111' R*31 meters or more
where R is the resolution defined by Std Resolution field. E.g. R=20 m corresponds to 0-19 m, 20-39 m,…,620+ m. 

10.3.7.108	UE positioning OTDOA reference cell info
This IE defines the cell used for time references in all OTDOA measurements.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
SFN
OP

Integer (0..4095)
Time stamp (SFN of Reference Cell) of the SFN-SFN relative time differences and SFN-SFN drift rates. Included if any SFN-SFN drift value is included in IE UE positioning OTDOA neighbour cell info.
CHOICE mode
MP



>FDD




>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

>TDD




>>cell and channel ID
MP

Cell and Channel Identity info 10.3.6.8a
Identifies the channel to be measured on.
Frequency info
MD

Frequency info 10.3.6.36
Default value is the existing value of frequency information. This IE shall always be set to default value
CHOICE PositioningMode
MP



>UE based




>UE assisted



(no data)
IPDL parameters
OP

UE positioning IPDL parameters 10.3.7.98
If this element is not included there are no idle periods present

10.3.7.108a	UE positioning OTDOA reference cell info for UE-based
This IE defines the cell used for time references in all OTDOA measurements for UE-based methods.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
UE positioning OTDOA reference cell info
MP

UE positioning OTDOA reference cell info 10.3.7.108


CHOICE Cell Position
OP


The position of the antenna that defines the cell. Used for the UE based method.

>Ellipsoid





>>Ellipsoid point 
MP

Ellipsoid point 10.3.8.4a


>Ellipsoid with altitude





>>Ellipsoid point with altitude
MP

Ellipsoid point with altitude 10.3.8.4b


Round Trip Time
OP

Real (876.00 .. 2923.875 in steps of 0.0625)
In chips.

Round Trip Time Extension
CV-FDD

Real (0 .. 4392.125 in steps of 0.0625)
In chips. Default = 0.
NOTE.
REL-7
NOTE:	Total Round Trip Time = IE "Round Trip Time" + IE "Round Trip Time Extension".

Condition
Explanation
FDD
The IE is optionally present in FDD, otherwise it is not needed.

10.3.7.109	UE positioning position estimate info
The purpose of this IE is to provide the position estimate from the UE to the network, if the UE is capable of determining its own position.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
CHOICE Reference Time
MP




>UTRAN GPS reference time





>>UE GPS timing of cell frames 
MP

Integer(0.. 37158911999999)
GPS Time of Week in units of 1/16th UMTS chips according to [19].
33209832177664 spare values are needed.

>>CHOICE mode
MP




>>>FDD





>>>>Primary CPICH Info
MP

Primary CPICH Info 10.3.6.60
Identifies the reference cell for the GPS TOW-SFN relationship

>>>TDD





>>cell parameters id
MP

Cell parameters id 10.3.6.9
Identifies the reference cell for the GPS TOW-SFN relationship.

>>Reference SFN
MP

Integer(0..4095)
The SFN for which the location is valid. This IE indicates the SFN at which the UE timing of cell frame is captured.

>GPS reference time only





>>GPS TOW msec
MP

Integer(0..6.048*108-1)
GPS Time of Week in milliseconds (rounded down to the nearest millisecond unit).

>Cell timing





>>SFN
MP

Integer(0..4095)
SFN during which the position was calculated.

>>CHOICE mode
MP




>>>FDD





>>>>Primary CPICH Info
MP

Primary CPICH Info 10.3.6.60
Identifies the reference cell for SFN

>>>TDD





>>cell parameters id
MP

Cell parameters id 10.3.6.9
Identifies reference cell for SFN

>UTRAN GANSS reference time




REL-7
>>UE GANSS timing of cell frames 
MP

Integer(0.. 86399999999750 by step of 250)
GANSS Time of Day in ns
REL-7
>>GANSS Time ID
OP

Integer(0..7)
Absence of this field means Galileo.
For coding description see NOTE 2 in 10.3.7.93a.
REL-7
>>GANSS TOD Uncertainty
OP

Integer(0..127)
Coding as in 10.3.7.96a
REL-7
>>CHOICE mode
MP



REL-7
>>>FDD




REL-7
>>>>Primary CPICH Info
MP

Primary CPICH Info 10.3.6.60
Identifies the reference cell for the GANSS TOD-SFN relationship
REL-7
>>>TDD




REL-7
>>>>cell parameters id
MP

Cell parameters id 10.3.6.9
Identifies the reference cell for the GANSS TOD-SFN relationship.
REL-7
>>Reference SFN
MP

Integer(0..4095)
The SFN for which the location is valid. This IE indicates the SFN at which the UE timing of cell frame is captured.
REL-7
>GANSS reference time only




REL-7
>>GANSS TOD msec
MP

Integer(0..3599999)
GANSS Time of Day in milliseconds (rounded down to the nearest millisecond unit).
REL-7
>>GANSS Time ID
OP

Integer(0..7)
Absence of this field means Galileo.
For coding description see NOTE 2 in 10.3.7.93a.
REL-7
Location Time Stamp
OP

UTCTime 
UTC Time when the position estimate was valid, expressed as a String (SIZE(13)) with format YYMMDDhhmmssZ.  This IE is optionally used only for the Additional Positioning methods.
REL-13
CHOICE Position estimate
MP


The position estimate is provided in WGS-84 reference system.

>Ellipsoid Point


Ellipsoid Point; 10.3.8.4a


>Ellipsoid point with uncertainty circle


Ellipsoid point with uncertainty circle 10.3.8.4d


>Ellipsoid point with uncertainty ellipse


Ellipsoid point with uncertainty ellipse 10.3.8.4e


>Ellipsoid point with altitude


Ellipsoid point with altitude 10.3.8.4b


>Ellipsoid point with altitude and uncertainty ellipsoid


Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c


Position Data
MP

Bit string(16)
For each bit, if set to ‘1’, indicates that respective GNSS or position system was used for position calculation.
Bit 0: OTDOA
bit 1: GPS
bit 2: Galileo
bit 3-15: reserved
REL-7




bit 3: SBAS
bit 4: Modernized GPS
bit 5: QZSS
bit 6: GLONASS
bit 7-15: reserved
REL-8




bit 7: BDS
REL-12




bit 8-15: reserved





bit 8: Barometric Pressure 
bit 9: MBS
bit 10: WLAN
bit 11: Bluetooth
bit 12:-15: reserved
REL-13
CHOICE Velocity estimate
OP



REL-7
>Horizontal Velocity


Horizontal Velocity 10.3.8.4h

REL-7
>Horizontal with Vertical Velocity


Horizontal with Vertical Velocity 10.3.8.4i

REL-7
>Horizontal Velocity with Uncertainty


Horizontal Velocity with Uncertainty 10.3.8.4j

REL-7
>Horizontal with Vertical Velocity and Uncertainty


Horizontal with Vertical Velocity and Uncertainty 10.3.8.4k

REL-7
UE Positioning GPS ReferenceTime Uncertainty
CV-Tutran-gps

UE positioning GPS reference time uncertainty 10.3.7.96a

REL-7

Condition
Explanation
Tutran-gps
This IE is optionally present if "UTRAN GPS reference time" is included and not needed otherwise.

10.3.7.109a	UE positioning Relative Time Difference quality
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Relative Time Difference Std Resolution
MP

Bit string(2)
Std Resolution field includes the resolution used in Std of Relative Time Difference field. Encoding on two bits as follows:
'00'        10 meters
'01'        20 meters
'10'        30 meters
'11'        Reserved
Std of Relative Time Difference
MP

Bit string(5)
Std of Relative Time difference field includes standard deviation of (SFN-SFN relative time difference + Fine SFN-SFN). Following linear 5 bit encoding is used:
'00000' 0 - (R*1-1) meters
'00001' R*1 – (R*2-1) meters
'00010' R*2 – (R*3-1) meters
…
'11111' R*31 meters or more
where R is the resolution defined by Std Resolution field. E.g. R=20 m corresponds to 0-19 m, 20-39 m,…,620+ m. 

10.3.7.110	UE positioning reporting criteria
The triggering of the event-triggered reporting for a UE positioning measurement.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Parameters required for each event
MP
1 to <maxMeasEvent>

Note: need corrected to MP in Rel-7 to align with ASN.1.

>Amount of reporting
MP

Integer(1, 2, 4, 8, 16, 32, 64,infinite)


>Report first fix
MP

Boolean
If TRUE the UE reports the position once the measurement control is received, and then each time an event is triggered.

>Measurement interval
MP

Integer(5,15,60,300,900,1800,3600,7200)
Indicates how often the UE should make the measurement
In seconds

>CHOICE Event ID
MP




>>7a





>>>Threshold Position Change
MP

Integer(10,20,30,40,50,100,200,300,500,1000,2000,5000,10000,20000,50000,100000)
Meters. Indicated how much the position should change compared to last reported position fix in order to trigger the event.

>>7b





>>>Threshold SFN-SFN change
MP

Real(0.25,0.5,1,2,3,4,5,10,20,50,100,200,500,1000,2000,5000)
Chips. Indicates how much the SFN-SFN measurement of ANY measured cell is allowed to change before the event is triggered.

>>7c





>>>Threshold SFN-GPS TOW
MP

Integer(1,2,3,5,10,20,50,100)
Time in ms. When the GPS TOW and SFN timer has drifted apart more than the specified value the event is triggered.





Time in micro seconds (NOTE 1).
REL-7
>>7d




REL-7
>>>Threshold SFN-GANSS TOW
MP

Integer(1,2,3,5,10,20,50,100)
Time in micro seconds. When the GANSS TOW and SFN timer has drifted apart more than the specified value the event is triggered.
REL-7
NOTE 1:	In previous versions of the protocol, the IE "Threshold SFN-GPS TOW" was provided in units of milli seconds. If the information is provided in units of micro seconds, the UE shall ignore any information provided in units of milli seconds.

10.3.7.111	UE positioning reporting quantity
The purpose of the element is to express the allowed/required location method(s), and to provide information desired QoS.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Method Type
MP

Enumerated(UE assisted, UE based, UE based is preferred but UE assisted is allowed, UE assisted is preferred but UE based is allowed)


Positioning Methods
MP

Enumerated(OTDOA, GPS, OTDOA or GPS, Cell ID)


Response Time
MP

Integer(1,2,4, 8, 16, 32, 64, 128)
This IE shall be ignored.

Horizontal Accuracy
CV-MethodType

Bit string(7)
The uncertainty is derived from the "uncertainty code" k by
r = 10*(1.1k-1) in meters.

Vertical Accuracy
CV-MethodType

Bit string(7)
The uncertainty is derived from the "uncertainty code" k by
r = 45*(1.025k-1) in meters.

GPS timing of Cell wanted
MP

Boolean
If TRUE the SRNC wants the UE to report the SFN-GPS timing of the reference cell. This is however optional in the UE.

Multiple Sets
MP

Boolean
This IE shall be ignored.

Additional Assistance Data Request
MP

Boolean
TRUE indicates that the UE is requested to send the IE "GPS Additional Assistance Data Request" and/or the “IE "GANSS Additional Assistance Data Request" (if the IE “GANSS Positioning Methods” is included) when the IE "UE positioning Error" is present in the UE positioning measured results. FALSE indicates that the UE shall use the assistance data available.

Environment Characterisation
OP

Enumerated(possibly heavy multipath and NLOS conditions,
no or light multipath and usually LOS conditions,
not defined or mixed environment)

One spare value is needed.

Velocity Requested
OP

Enumerated (TRUE)
If this element is present the UE is requested to send a velocity estimate
REL-7
GANSS Positioning Methods
OP

Bit string(16)
For each bit, if set to ‘1’, indicates that respective GNSS is allowed.
bit 0: GPS
bit 1: Galileo
bit 2-15: reserved for future GNSSes

Note 1
REL-7




bit 2: SBAS (WAAS, EGNOS,
         MSAS, GAGAN)
bit 3: Modernized GPS (L1C, 
         L2C, L5)
bit 4: QZSS
bit 5: GLONASS
bit 6-15: reserved for future GNSSes

Note 1
REL-8




bit 6: BDS
bit 7-15: reserved for future GNSSes

Note 1
REL-12
GANSS timing of Cell wanted
OP

Bit string(8)
Each bit refers to a GANSS. Bit 0 is for Galileo. Other bits are reserved.
If one bit is set to one the SRNC wants the UE to report the SFN-GANSS timing of the reference cell. This is however optional in the UE.
REL-7




Bit 1 is for Modernized GPS;
Bit 2 is for QZSS;
Bit 3 is for GLONASS;
Other bits are reserved.
If one bit is set to one the SRNC wants the UE to report the SFN-GANSS timing of the reference cell. This is however optional in the UE. 
If more than one bit is set to one, the UE will select the GANSS among the allowed GANSS for the SFN-GANSS timing of the reference cell in the measurement report.
Rel-8




Bit 4 is for BDS;
Other bits are reserved.
If one bit is set to one the SRNC wants the UE to report the SFN-GANSS timing of the reference cell. This is however optional in the UE. 
If more than one bit is set to one, the UE will select the GANSS among the allowed GANSS for the SFN-GANSS timing of the reference cell in the measurement report.
REL-12
GANSS Carrier-Phase Measurement Requested
OP

Bit string(8)
Each bit refers to a GANSS. Bit 0 is for Galileo. Other bits are reserved.
 This is however optional in the UE.
REL-7




Bit 1 is for SBAS;
Bit 2 is for Modernized GPS;
Bit 3 is for QZSS;
Bit 4 is for GLONASS;
Other bits are reserved.
This is however optional in the UE.
Rel-8




Bit 5 is for BDS;
Other bits are reserved.
This is however optional in the UE.
REL-12
GANSS Multi-frequency Measurement Requested
OP

Bit String(8)
Each bit refers to a GANSS. Bit 0 is for Galileo;
Bit 1 is for SBAS;
Bit 2 is for Modernized GPS;
Bit 3 is for QZSS;
Bit 4 is for GLONASS;
Other bits are reserved.
This is however optional in the UE.
REL-8




Bit 5 is for BDS;
Other bits are reserved.
This is however optional in the UE.
REL-12
Additional Positioning Methods
OP

Bit string (8)
For each bit, if set to ‘1’, indicates that respective Additional Positioning method is allowed.
bit 0: Barometric Pressure
bit 1: WLAN
bit 2: Bluetooth
bit 3: MBS
bit 4-7: reserved for future methods
REL-13

Condition
Explanation
Method Type
The IE is optional if the IE "Method Type" is "UE assisted"; otherwise it is mandatory present.

NOTE 1:	Bit 0 of this bitmap shall not be the only one set to 1.
10.3.7.112	TADV info
NOTE:	Only for 1.28 Mcps TDD.
TADV indicates the difference between the Rx timing and Tx timing of a UE.
Information Element/group name
Need
Multi
Type and reference
Semantics description
Version
TADV
MP

Integer (0..2047,
As defined in [20].
REL-4



2048..8191)

REL-7
SFN
MP

Integer(0..4095)
SFN during which the TADV measurement was performed.
REL-4

10.3.7.113	UTRA priority info list
Contains priority based reselection information for UTRA.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UTRA Serving Cell
MP



REL-8
>priority
MP

Integer (0..<maxPrio–1>)
0 is the lowest priority and maxPrio-1 is the highest
REL-8
>Sprioritysearch1
MP

Integer (0..62 by step of 2)
dB
REL-8
>Sprioritysearch2
MD

Integer (0..7 by step of 1)
dB, default value is 0
REL-8
>Threshserving,low
MP

Integer (0..62 by step of 2)
RSCP, dB
REL-8
>Threshserving,low2
MD

Integer (0..31)
Ec/N0, dB, default value is 0
REL-9
UTRAN FDD Frequencies
OP
1 to < maxNumFDDFreqs>


REL-8
>UARFCN
MP

Integer(0..16383)
It is always ensured by the UTRAN that more than one entry for the same physical frequency is not configured regardless of the UARFCN used to indicate this.
REL-8
>priority
MP

Integer (0..<maxPrio–1>)
0 is the lowest priority and maxPrio-1 is the highest.
REL-8
>Threshx, high
MP

Integer (0..62 by step of 2)
RSCP, dB

REL-8
>Threshx, low
MP

Integer (0..62 by step of 2)
RSCP, dB

REL-8
>QqualminFDD
MD

Integer (-24..0)
Ec/N0, [dB]
Default value is Qqualmin for the serving cell
REL-8
>QrxlevminFDD
MD

Integer (-119..-25 by step of 2)
RSCP, [dBm]
Default value is Qrxlevmin for the serving cell
REL-8
UTRAN TDD Frequencies
OP
1 to < maxNumTDDFreqs>


REL-8
>UARFCN
MP

Integer(0..16383)

REL-8
>priority
MP

Integer (0..<maxPrio–1>)
0 is the lowest priority and maxPrio-1 is the highest.
REL-8
>Threshx, high
MP

Integer (0..62 by step of 2)
RSCP, dB

REL-8
>Threshx, low
MP

Integer (0..62 by step of 2)
RSCP, dB

REL-8
>QrxlevminTDD
MD

Integer (-119..-25 by step of 2)
RSCP, [dBm]
Default value is Qrxlevmin for the serving cell
REL-8

NOTE:	The network should ensure that priorities for different Radio Access Technologies are always different.

10.3.7.114	GSM priority info list
Contains priority based reselection information for GSM.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
GSM Priority Info
MP
1 to <maxNumGSMCellGroup>


REL-8
>GSM cell group List
MP

GSM cell group 10.3.7.9a

REL-8
>priority
MP

Integer (0..<maxPrio–1>)
0 is the lowest priority and maxPrio-1 is the highest.
REL-8
>QrxlevminGSM
MP

Integer (-115..-25 by step of 2)
GSM RSSI, [dBm]
REL-8
>Threshx, high
MP

Integer (0..62 by step of 2)
GSM RSSI, dB
REL-8
>Threshx, low
MP

Integer (0..62 by step of 2)
GSM RSSI, dB
REL-8

NOTE:	The network should ensure that priorities for different Radio Access Technologies are always different.

10.3.7.115	E-UTRA frequency and priority info list
Contains information about neighbour E-UTRA frequencies (with associated blacklists), together with priority based reselection information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-UTRA frequency and priority
OP
1 to <maxNumEUTRAFreqs>


REL-8
>EARFCN
MP

Integer(0..65535)
EARFCN of the downlink carrier frequency [64].
For UTRAN FDD, it is always ensured by the UTRAN that more than one entry for the same physical frequency is not configured regardless of the EARFCN used to indicate this.
REL-8
>Measurement Bandwidth
MD

Enumerated(6, 15, 25, 50, 75, 100)
Measurement bandwidth information common for all neighbouring cells on the carrier frequency. It is defined by the parameter Transmission Bandwidth Configuration, NRB [36.104]. The values indicate the number of resource blocks over which the UE could measure. Default value is 6.
REL-8
>priority
MP

Integer (0..<maxPrio–1>)
0 is the lowest priority and maxPrio-1 is the highest.
REL-8
>subpriority
OP

Enumerated(oDot2, oDot4, oDot6, oDot8)
Fractional priority value. If present, this value is added to the value of IE "priority".
REL-13
>QrxlevminEUTRA
MP

Integer (-140..-44 by step of 2)
RSRP, [dBm]
REL-8
>Threshx, high
MP

Integer (0..62 by step of 2)  
RSRP, dB

REL-8
>Threshx, low
MP

Integer (0..62 by step of 2)  
RSRP, dB

REL-8
>QqualminEUTRA
MD

Integer (-34..-3)
RSRQ, dB
default value is negative infinity
REL-9
>Threshx, high2
OP

Integer (0..31)
RSRQ, dB

REL-9
>Threshx, low2
OP

Integer (0..31)
RSRQ, dB

REL-9
>QqualminEUTRA-WB
CV-WB-RSRQ

Integer
(-34..-3)
RSRQ, dB, 
If this IE is present, the UE shall, when performing RSRQ measurements, use a wider bandwidth in accordance with TS 36.133 [74]
REL-11
>QqualminRSRQ-OnAllSymbols
CV-Thresh2

Integer
(-34..-3)
RSRQ, dB, 
If this IE is present, the UE shall, when performing RSRQ measurements, perform RSRQ measurement on all OFDM symbols in accordance with TS 25.215 [7] and TS 25.225 [8]
REL-12
>Blacklisted cells per freq list
OP
1 to <maxEUTRACellPerFreq>


REL-8
>>Physical Cell identity
MP

Integer (0..503)
A list of blacklisted cells can be signalled per frequency
REL-8
>E-UTRA detection
MP

Boolean
‘TRUE’ means that the UE may detect the presence of a E-UTRA cell and report to NAS.
NOTE 1.
REL-8
>Reduced measurement performance
OP

Enumerated (TRUE)
TRUE indicates that the frequency is configured for reduced measurement performance [19].
Absense indicates that the frequency is configured for normal measurement performance [19].
REL-12
Number of applicable EARFCN
CV-EARFCNBands

Integer (0..7)
The number N of EARFCN in "E-UTRA frequency and priority" which are applicable.
If present this IE indicates the first N occurrences of EARFCN in "E-UTRA frequency and priority" which shall be read by UE.  
REL-11
E-UTRA frequency and priority extension
OP
1 to <maxNumEUTRAFreqs>

NOTE 2
REL-11
>EARFCN extension
MP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64]. For UTRAN FDD, it is always ensured by the UTRAN that more than one entry for the same physical frequency is not configured regardless of the EARFCN used to indicate this
REL-11
>Measurement Bandwidth
MD

Enumerated(6, 15, 25, 50, 75, 100)
Measurement bandwidth information common for all neighbouring cells on the carrier frequency. It is defined by the parameter Transmission Bandwidth Configuration, NRB [36.104]. The values indicate the number of resource blocks over which the UE could measure. Default value is 6.
REL-11
>priority
MP

Integer (0..<maxPrio–1>)
0 is the lowest priority and maxPrio-1 is the highest.
REL-11
>subpriority
OP

Enumerated(oDot2, oDot4, oDot6, oDot8)
Fractional priority value. If present, this value is added to the value of IE "priority".
REL-13
>QrxlevminEUTRA
MP

Integer (-140..-44 by step of 2)
RSRP, [dBm]
REL-11
>Threshx, high
MP

Integer (0..62 by step of 2)  
RSRP, dB

REL-11
>Threshx, low
MP

Integer (0..62 by step of 2)  
RSRP, dB

REL-11
>QqualminEUTRA
MD

Integer (-34..-3)
RSRQ, dB
default value is negative infinity
REL-11
>Threshx, high2
OP

Integer (0..31)
RSRQ, dB

REL-11
>Threshx, low2
OP

Integer (0..31)
RSRQ, dB

REL-11
>QqualminEUTRA-WB
CV-WB-RSRQ

Integer
(-34..-3)
RSRQ, dB, 
If this IE is present, the UE shall, when performing RSRQ measurements, use a wider bandwidth in accordance with TS 36.133 [74]
REL-11
>QqualminRSRQ-OnAllSymbols
CV-Thresh2

Integer
(-34..-3)
RSRQ, dB, 
If this IE is present, the UE shall, when performing RSRQ measurements, perform RSRQ measurement on all OFDM symbols in accordance with TS 25.215 [7] and TS 25.225 [8]
REL-12
>Blacklisted cells per freq list
OP
1 to <maxEUTRACellPerFreq>


REL-11
>>Physical Cell identity
MP

Integer (0..503)
A list of blacklisted cells can be signalled per frequency
REL-11
>E-UTRA detection
MP

Boolean
‘TRUE’ means that the UE may detect the presence of a E-UTRA cell and report to NAS.
NOTE 1.
REL-11
>Reduced measurement performance
OP

Enumerated (TRUE)
TRUE indicates that the frequency is configured for reduced measurement performance [19].
Absense indicates that the frequency is configured for normal measurement performance [19].
REL-12
Multiple E-UTRA frequency info list
OP
1 to <maxNumEUTRAFreqs>

Each entry in the list corresponds to an entry in the "E-UTRA frequency and priority" IE, or an entry in the "E-UTRA frequency and priority extension" IE.
NOTE 3.
REL-10
>Multiple E-UTRA frequency band indicator list
OP
1 to <maxMultipleFrequencyBandsEUTRA>

Indicates, per neighbour EARFCN, a list of frequency bands which the E-UTRA cells belong to.
Absence of this IE indicates that there are no Multiple Bands for the particular EARFCN.
REL-10
>>E-UTRA Frequency band
MP

Integer (1..64)
As defined in [64].
REL-10
Multiple E-UTRA frequency info extension list
OP
1 to <maxNumEUTRAFreqs>

Each entry in the list corresponds to an entry in the "E-UTRA frequency and priority" IE or the "E-UTRA frequency and priority extension" IE.
NOTE 3
REL-11
>Multiple E-UTRA frequency band indicator extension  list
OP
1 to <maxMultipleFrequencyBandsEUTRA>

Indicates, per neighbour EARFCN, a list of frequency bands which the E-UTRA cells belong to.
Absence of this IE indicates that there are no Multiple Bands for the particular EARFCN.
REL-11
>>E-UTRA Frequency band extension
MP

Integer (65..256)
As defined in [64].

REL-11
NOTE 1:	If the value of "E-UTRA detection" is not identical across the frequency layers, UE behaviour is unspecified.
NOTE 2:	The number of instances of IE "E-UTRA frequency and priority extension" shall be less than or equal to maxNumEUTRAFreqs – the value specified in IE "Number of applicable EARFCN"  
NOTE 3:	The number of bands signalled in "Multiple E-UTRA frequency band indicator list" and "Multiple E-UTRA frequency band indicator extension list" combined,  for the same occurrence of EARFCN or EARFCN extension, should be less than or equal to maxMultipleFrequencyBandsEUTRA.

NOTE:	The network should ensure that priorities for different Radio Access Technologies are always different.
NOTE:	The network should ensure that priorities for which both Threshx,high2 and Threshx,low2 are provided are always different from the priorities for which both Threshx,high2 and Threshx,low2 are not provided.

Condition
Explanation
EARFCNBands
This IE is mandatory present when the IE "E-UTRA frequency and priority extension" is present, otherwise it is not needed.
WB-RSRQ
The field is optionally present if the measurement bandwidth indicated by Measurement Bandwidth is 50 resource blocks or larger. Otherwise it is not needed.
Thresh2
This IE is optionally present if both the IEs "Thresh x, high2" and "Thresh x, low2" are present, otherwise it is not needed. If this IE is present for any E-UTRA frequency, it is mandatory present for all the E-UTRA frequencies.

10.3.7.116		Intra-frequency cell info list on secondary UL frequency
NOTE:	For FDD only.
Contains the information for the list of measurement objects for an intra-frequency measurement on secondary uplink frequency.

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Intra-frequency cell removal
OP


Absence of this IE is equivalent to choice "Remove no intra-frequency cells".
REL-9
>Remove all intra-frequency cells



(no data)
REL-9
>Remove some intra-frequency cells




REL-9
>>Removed intra-frequency cells
MP
1 to <maxCellMeasOnSecULFreq> 


REL-9
>>>Intra-frequency cell id
MP

Integer(0 .. < maxCellMeasOnSecULFreq > - 1) 

REL-9
>Remove no intra-frequency cells



(no data)
REL-9
New intra-frequency cells
OP
1 to <maxCellMeasOnSecULFreq> 


REL-9
>Intra-frequency cell id
OP

Integer(0 .. < maxCellMeasOnSecULFreq > - 1) 

REL-9
>Cell info
MP

Cell info 10.3.7.2

REL-9
Cells for measurement
OP
1 to <maxCellMeasOnSecULFreq> 


REL-9
>Intra-frequency cell id
MP

Integer(0 .. <maxCellMeasOnSecULFreq>-1) 

REL-9

10.3.7.117	Cell measurement event results on secondary UL frequency
NOTE:	For FDD only.
Includes non-frequency related cell reporting quantities.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Intra-frequency event identity
MP

Intra-frequency event identity 10.3.7.34

REL-9
CHOICE mode
MP




> FDD





>>Primary CPICH info
MP
1 to < maxCellMeasOnSecUlFreq >
Primary CPICH info 10.3.6.60

REL-9
> Other



One spare value is needed
REL-9

10.3.7.118		Measured results on secondary UL frequency
NOTE:	For FDD only.
Includes non-frequency related cell reporting quantities.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Cell measured results on secondary UL frequency
MP
1 to < maxCellMeasOnSecULFreq >


REL-9
>Cell measured results
MP

Cell measured results 10.3.7.3
Only cells for which all reporting quantities are available should be included.
REL-9

10.3.7.119	Intra-frequency measurement reporting criteria on secondary UL frequency
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Frequency Info
MP

Frequency info 10.3.6.36
NOTE2
REL-9
Parameters required for each event
MP
1 to <maxMeasEventOnSecULFreq>


REL-9
>Intra-frequency event identity
MP

Intra-frequency event identity 10.3.7.34
NOTE1
REL-9
>Triggering condition 1
CV–clause 0

Enumerated(Active set cells, Monitored set cells, Active set cells and monitored set cells)
Indicates which cells can trigger the event
REL-9
>Triggering condition 2
CV–clause 6

Enumerated(Active set cells, Monitored set cells, Active set cells and monitored set cells, Detected set cells, Detected set cells and monitored set cells)
Indicates which cells can trigger the event
REL-9
>Reporting Range Constant
CV–clause 2

Real(0..14.5 by step of 0.5)
In dB. In event 1a,1b. 
REL-9
>Cells forbidden to affect Reporting range on secondary UL frequency
CV–clause 1
1 to < maxCellMeasOnSecULFreq >

In event 1a,1b
REL-9
>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-9
>W
CV–clause 2

Real(0.0..2.0 by step of 0.1)

REL-9
>Hysteresis
MP

Real(0..7.5 by step of 0.5)
In dB.
REL-9
>Threshold used frequency
CV-clause 3

Integer (-120..165)
Range used depend on measurement quantity.
CPICH RSCP -120..-25 dBm
CPICH Ec/No -24..0 dB
Pathloss 30..165dB
ISCP -120..-25 dBm
REL-9
>Reporting deactivation
 threshold
CV–clause 4

Integer(0, 1, 2, 3, 4, 5, 6, 7)
In event 1a
Indicates the maximum number of cells allowed in the active set in order for event 1a to occur.
0 means not applicable
.
REL-9
>Replacement activation
 threshold
CV-clause 5

Integer(0, 1, 2, 3, 4, 5, 6, 7)
In event 1c
Indicates the minimum number of cells allowed in the active set in order for event 1c to occur.
0 means not applicable
REL-9
>Time to trigger
MP

Time to trigger 10.3.7.64
Indicates the period of time during which the event condition has to be satisfied, before sending a Measurement Report. Time in ms
REL-9
>Amount of reporting
CV–clause 7

Integer(1, 2, 4, 8, 16, 32, 64, Infinity)

REL-9
>Reporting interval
CV–clause 7

Integer(0, 250, 500, 1000, 2000, 4000, 8000, 16000)
Indicates the interval of periodical reporting when such reporting is triggered by an event. Interval in milliseconds.
0 means no periodical reporting.
REL-9
>Reporting cell status
OP

Reporting cell status 10.3.7.61

REL-9
>Periodical reporting information-1b
CV–clause 9

Periodical reporting info-1b
10.3.7.53aa

REL-9

Condition
Explanation
Clause 0
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1b" or "1f", otherwise the IE is not needed.
Clause 1
The IE is optional if the IE "Intra-frequency event identity" is set to "1a" or "1b", otherwise the IE is not needed.
Clause 2
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1a" or "1b", otherwise the IE is not needed.
Clause 3
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1e", "1f", otherwise the IE is not needed.
Clause 4
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1a", otherwise the IE is not needed.
Clause 5
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1c", otherwise the IE is not needed.
Clause 6
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1a" or "1e", otherwise the IE is not needed. 
Clause 7
The IE is mandatory present if the IE "Intra-frequency event identity" is set to "1a", "1c", otherwise the IE is not needed. 
Clause 9
The IE is optional if the IE "Intra-frequency event identity" is set to "1b", otherwise the IE is not needed.

NOTE1:	Event 1d and 1j shall not be applied for the secondary uplink frequency.
NOTE2:	If the IE "Frequency info" is different from the current downlink frequency associated with the secondary UL frequency, the UE behaviour is unspecified.

10.3.7.120	CSG Inter-frequency cell info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CSG Frequency info
MP
1 to < maxFreq >


REL-9
>Frequency info
MP

Frequency info 10.3.6.36

REL-9
>CSG Inter-frequency cell info for the frequency
MP

10.3.7.121a

REL-9

10.3.7.121	CSG Intra-frequency cell info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CSG Intra-frequency cell info
MP

10.3.7.121a

REL-9

10.3.7.121a	CSG cell info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CSG cell info list
MP
1 to <maxMeasCSGRange>


REL-9
>CHOICE mode
MP



REL-9
>>FDD




REL-9
>>>Start PSC
MP

Primary CPICH info 10.3.6.60
The value of this IE specifies the start PSC of the PSC range.
REL-9
>>>Number of PSCs
MP

Integer (1..512)
This IE specifies the number of PSCs. 
REL-9

10.3.7.122	CSG Proximity Indication
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CSG Proximity Indication
MP

Enumerated (entering, leaving)

REL-9
CHOICE Radio Access Technology




REL-9
>UTRA




REL-9
>>CSG Frequency info for UTRA
MP

Frequency info 10.3.6.36
Indicates the UARFCN according to a band it previously considered suitable for accessing (one of) the CSG member cell(s), for which the proximity indication is sent.
REL-9
>E-UTRA




REL-9
>>CSG Frequency info for E-UTRA
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension". Indicates the EARFCN according to a band it previously considered suitable for accessing (one of) the CSG member cell(s), for which the proximity indication is sent.
REL-9
>>EARFCN extension
OP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64].
Indicates the EARFCN according to a band it previously considered suitable for accessing (one of) the CSG member cell(s), for which the proximity indication is sent.
REL-11

10.3.7.123	CSG Proximity detection
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UTRA CSG Proximity detection 
MD

Enumerated (enable) 
Absence of this IE implies that CSG proximity detection function for UTRA cells is disabled.
REL-9
E-UTRA CSG Proximity detection
MD

Enumerated (enable)
Absence of this IE implies that CSG proximity detection function for E-UTRA cells is disabled.
REL-9

10.3.7.124	Inter-frequency SI Acquisition
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Frequency info
MP

Frequency info 10.3.6.36

REL-9
CHOICE mode
MP



REL-9
>FDD




REL-9
>>Primary Scrambling Code
MP

Primary CPICH info 10.3.6.60

REL-9
>TDD


NULL

REL-9

10.3.7.125	Intra-frequency SI Acquisition
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP



REL-9
>FDD




REL-9
>>Intra-frequency SI acquisition Info
MD
1 to <maxSIrequest>

Absence of this IE implies that UE should perform SI acquisition for all PSC ranges specified in the "CSG Intra-frequency cell info" IE. UE is at minimum required to acquire the SI of the strongest PSC in those configured PSC ranges. 
REL-9
>>>Primary Scrambling Code
MP

Primary CPICH info 10.3.6.60

REL-9
>TDD


NULL

REL-9

10.3.7.126	CELL_DCH measurement occasion info LCR
NOTE:	Only for 1.28 Mcps TDD in CELL_DCH state.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CELL_DCH measurement occasion pattern sequence

1 to <maxDCHMeasurementOccasionPatternSequence>



>Pattern sequence identifier
MP

Integer(0.. maxDCHMeasurementOccasionPatternSequence-1)

REL-9
>Status Flag
MP

Enumerated(activate, deactivate)
This flag indicates whether the measurement occasion pattern sequence shall be activated or deactivated.
REL-9
>Measurement purpose
OP

BIT STRING (5)
Measurement Purpose. Bit 0 is for Inter-frequency measurement.
Bit 1 is for GSM carrier RSSI measurement.
Bit 2 is for Initial BSIC identification.
Bit 3 is for BSIC re-confirmation.
Bit 4 is for E-UTRA measurement.

The value 1 of a bit means that the measurement occasion pattern sequence is applicable for the corresponding type of measurement.
Bit 0 is the first/leftmost bit of the bit string.
REL-9
>Measurement occasion pattern sequence parameters
OP



REL-9
>>k
MP

Integer(1..9)
CELL_DCH measurement occasion cycle length coefficient. The actual measurement occasion period equal to 2k radio frames.
REL-9
>>Offset
MP

Integer(0..511)
In frames. The measurement occasion position in the measurement period.
REL-9
>>M_Length
MP

Integer(1..512)
The measurement occasion length in frames starting from the Offset.
REL-9
>>Timeslot Bitmap
MD

Bit string (7)
Bitmap indicating which of the timeslot(s) is/are allocated for measurement. 
Bit 0 is for timeslot 0. Bit 1 is for timeslot 1. Bit 2 is for timeslot 2. Bit 3 is for timeslot 3. Bit 4 is for timeslot 4. Bit 5 is for timeslot 5. Bit 6 is for timeslot 6.
The value 0 of a bit means the corresponding timeslot is not used for measurement. The value 1 of a bit means the corresponding timeslot is used for measurement.
Bit 0 is the first/leftmost bit of the bit string.
Absence of this IE means all the timeslots can be used for measurement.
REL-9

10.3.7.127	E-UTRA SI Acquisition
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-UTRA carrier frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension"
REL-9
EARFCN extension
OP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64].
REL-11
Physical Cell identity
MP

Integer (0..503)

REL-9

10.3.7.128	E-UTRA Results for SI Acquisition
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CGI-Info
MP



REL-9
>PLMN Identity
MP

PLMN identity 10.3.1.11
This IE indicates the Primary PLMN
REL-9
>Cell Identity
MP

Bit string (28)
Formatted and coded according to [67]. The first/leftmost bit of the bit string contains the most significant bit of the Cell Identity.
REL-9
>Tracking Area Code
MP

Bit string (16)
Setting specified in [67]. The first/leftmost bit of the bit string contains the most significant bit of the Tracking Area Code.
REL-9
CSG Identity
OP

CSG Identity 10.3.2.8

REL-9
CSG Member indication
OP

Enumerated(member)

REL-9
CSG PLMN List
OP
1 to 5


REL-12
>CSG PLMN Identity
MP

PLMN identity 10.3.1.11

REL-12
Primary PLMN Suitable
OP

Enumerated(true)

REL-12

10.3.7.129	Logged Measurement Info-FDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Relative Time Stamp
MP

INTEGER (0..7200)
Indicates the time of logging measurement results, measured relative to the Absolute Time Info, in seconds.
REL-10
Logged Measurements Serving Cell
MP



REL-10
>PLMN Identity
MP

PLMN Identity
10.3.1.11

REL-11
>Cell ID
MP

Cell ID 10.3.2.2

REL-10
>CPICH RSCP
MP

Integer(0..91)
CPICH RSCP of the serving Cell, when available

In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.
REL-10
>CPICH Ec/N0
MP

Integer(0..49)
CPICH Ec/N0 of the serving Cell, when available

In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.
REL-10
Logged Measurements Intra Frequency Neighbouring Cells list
OP
1.. MaxnumLoggedMeas

Measurements done on neighbouring cells
REL-10
>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-10
>CPICH RSCP
MP

Integer(0..91)
In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.
REL-10
>CPICH Ec/N0
MP

Integer(0..49)
CPICH Ec/N0 of the serving Cell, when available

In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.
REL-10
Logged Measurements Inter Frequency list
OP
1.. MaxNumFDDFreqs

Measurements done on neighbouring cells 
REL-10
>Frequency Info
MP

Frequency Info 10.3.6.36

REL-10
> Logged Measurements Inter-frequency Neighbouring Cells list
MP
1..MaxnumLoggedMeas


REL-10
>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-10
>>CPICH RSCP
MP

Integer(0..91)
In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.
REL-10
>>CPICH Ec/N0
MP

Integer(0..49)
CPICH Ec/N0 of the serving Cell, when available

In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.
REL-10
Logged Measurements Inter-RAT Neighbour cells list
OP



REL-10
>Logged Measurements E-UTRA frequency list
OP
1.. MaxNumEUTRAFreqs


REL-10
>>E-UTRA Carrier Frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension" in the Logged Measurements E-UTRA frequency extension list.
REL-10
>> Logged Measurements E-UTRA Frequency Neighbours List
MP
1.. MaxnumLoggedMeas


REL-10
>>>Physical Cell Identity
MP

Integer (0..503)

REL-10
>>>RSRP
MP

Integer (0..97)
RSRP is mapped to a value between 0 and 97 [36.133].
REL-10
>>>RSRQ
MP

Integer (0..33)
RSRQ_00 to RSRQ_33 in [36.133] are mapped to the value between 0 and 33. RSRQ_34 in [36.133] is mapped to the value 33.
If the IE indicates a value of 0 and the RSRQ Extension IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "RSRQ extension", the range is from -30 to -1.
If the IE indicates a value of 33 and the RSRQ Extension IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "RSRQ extension", the range is from 35 to 46.
REL-10
>>>RSRQ Extension
OP

Integer (-30..46)
RSRQ_-30 to RSRQ_-1 in [36.133] are mapped to the value between -30 and -1.
RSRQ_35 to RSRQ_46 in [36.133] are mapped to the value between 35 and 46.
REL-12
>>RSRQ Type
OP



REL-12
>>>All Symbols
MP

BOOLEAN
TRUE indicates use of all OFDM symbols when performing RSRQ measurements.
REL-12
>>>Wide band
MP

BOOLEAN
TRUE indicates use of a wider bandwidth when performing RSRQ measurements.
REL-12
>Logged Measurements E-UTRA frequency extension list
OP
1.. MaxNumEUTRAFreqs


REL-11
>>EARFCN extension
OP

Integer (65535..262143)
EARFCN of the downlink carrier frequency [64].
REL-11
>Logged Measurements GSM Neighbouring Cells list
OP
1.. MaxnumLoggedMeas


REL-10
>>BSIC
MP

BSIC 10.3.8.2

REL-10
>>Band indicator
MP

Enumerated (DCS 1800 band used, PCS 1900 band used)
Indicates how to interpret the BCCH ARFCN
REL-10
>>BCCH ARFCN
MP

Integer (0..1023)
[45]
REL-10
>>GSM carrier RSSI
MP
Bit string(6)
RXLEV is mapped to a value between 0 and 63, [46].  When mapping the RXLEV value to the RSSI bit string, the first/leftmost bit of the bit string contains the most significant bit.

REL-10
CHOICE GNSS UE Position
OP


The position of the UE when the measurement is made
REL-10
>Ellipsoid




REL-10
>>Ellipsoid point 
MP

Ellipsoid point 10.3.8.4a

REL-10
>Ellipsoid with altitude




REL-10
>>Ellipsoid point with altitude
MP

Ellipsoid point with altitude 10.3.8.4b

REL-10
>Ellipsoid with uncertainty  circle




REL-11
>>Ellipsoid point with uncertainty circle
MP

Ellipsoid point with uncertainty circle 10.3.8.4d

REL-11
>Ellipsoid with uncertainty ellipse




REL-11
>> Ellipsoid point with uncertainty ellipse
MP

Ellipsoid point with uncertainty ellipse 10.3.8.4e

REL-11
>Ellipsoid with altitude and uncertainty ellipsoid




REL-11
>>Ellipsoid point with altitude and uncertainty ellipsoid
MP

Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c

REL-11

10.3.7.129a	Logged Connection Establishment Failure Info-FDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Access Information
MP



REL-11
>Number Of RRC Msg Transmitted
MP

Integer (0..8)
Number of times the RRC message is sent by the UE, e.g. after receiving ACK and AICH.
REL-11
Logged Measurements Failed Cell
MP



REL-11
>Cell ID
MP

Cell ID 10.3.2.2

REL-11
>CPICH RSCP
MP

Integer(0..91)
CPICH RSCP of the serving Cell, when available

In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.
REL-11
>CPICH Ec/N0
MP

Integer(0..49)
CPICH Ec/N0 of the serving Cell, when available

In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.
REL-11
Logged Measurements Intra Frequency Neighbouring Cells list
OP
1.. MaxnumLoggedMeas

Measurements done on neighbouring cells
REL-11
>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-11
>CPICH RSCP
MP

Integer(0..91)
In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.
REL-11
>CPICH Ec/N0
MP

Integer(0..49)
CPICH Ec/N0 of the serving Cell, when available

In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.
REL-11
Logged Measurements Inter Frequency list
OP
1.. MaxNumFDDFreqs

Measurements done on neighbouring cells 
REL-11
>Frequency Info
MP

Frequency Info 10.3.6.36

REL-11
>Logged Measurements Inter-frequency Neighbouring Cells list
MP
1..MaxnumLoggedMeas


REL-11
>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-11
>>CPICH RSCP
MP

Integer(0..91)
In dBm. According to CPICH_RSCP_LEV in [19].
Thirty-six spare values are needed.
REL-11
>>CPICH Ec/N0
MP

Integer(0..49)
CPICH Ec/N0 of the serving Cell, when available

In dB. According to CPICH_Ec/No in [19].
Fourteen spare values are needed.
REL-11
Logged Measurements Inter-RAT Neighbour cells list
OP



REL-11
>Logged Measurements E-UTRA frequency list
OP
1.. MaxNumEUTRAFreqs


REL-11
>>E-UTRA Carrier Frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension" in the Logged Measurements E-UTRA frequency extension list.
REL-11
>>Logged Measurements E-UTRA Frequency Neighbours List
MP
1.. MaxnumLoggedMeas


REL-11
>>>Physical Cell Identity
MP

Integer (0..503)

REL-11
>>>RSRP
MP

Integer (0..97)
RSRP is mapped to a value between 0 and 97 [36.133].
REL-11
>>>RSRQ
MP

Integer (0..33)
RSRQ_00 to RSRQ_33 in [36.133] are mapped to the value between 0 and 33. RSRQ_34 in [36.133] is mapped to the value 33.
If the IE indicates a value of 0 and the RSRQ Extension IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "RSRQ extension", the range is from -30 to -1.
If the IE indicates a value of 33 and the RSRQ Extension IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "RSRQ extension", the range is from 35 to 46.
REL-11
>>>RSRQ Extension
OP

Integer (-30..46)
RSRQ_-30 to RSRQ_-1 in [36.133] are mapped to the value between -30 and -1.
RSRQ_35 to RSRQ_46 in [36.133] are mapped to the value between 35 and 46.
REL-12
>>RSRQ Type
OP



REL-12
>>>All Symbols
MP

BOOLEAN
TRUE indicates use of all OFDM symbols when performing RSRQ measurements.
REL-12
>>>Wide band
MP

BOOLEAN
TRUE indicates use of a wider bandwidth when performing RSRQ measurements.
REL-12
>Logged Measurements E-UTRA frequency extension  list
OP
1.. MaxNumEUTRAFreqs


REL-11
>>EARFCN extension
OP

Integer (65535..262143)
EARFCN of the downlink carrier frequency [64].
REL-11
>Logged Measurements GSM Neighbouring Cells list
OP
1.. MaxnumLoggedMeas


REL-11
>>BSIC
MP

BSIC 10.3.8.2

REL-11
>>Band indicator
MP

Enumerated (DCS 1800 band used, PCS 1900 band used)
Indicates how to interpret the BCCH ARFCN
REL-11
>>BCCH ARFCN
MP

Integer (0..1023)
[45]
REL-11
>>GSM carrier RSSI
MP
Bit string(6)
RXLEV is mapped to a value between 0 and 63, [46].  When mapping the RXLEV value to the RSSI bit string, the first/leftmost bit of the bit string contains the most significant bit.

REL-11
Location Information
OP


The position of the UE when the measurement is made
REL-11
>CHOICE Location
MP



REL-11
>>Ellipsoid




REL-11
>>>Ellipsoid point 
MP

Ellipsoid point 10.3.8.4a

REL-11
>>Ellipsoid with altitude




REL-11
>>>Ellipsoid point with altitude
MP

Ellipsoid point with altitude 10.3.8.4b

REL-11
>>Ellipsoid with uncertainty  circle




REL-11
>>>Ellipsoid point with uncertainty circle
MP

Ellipsoid point with uncertainty circle 10.3.8.4d

REL-11
>>Ellipsoid with uncertainty ellipse




REL-11
>>>Ellipsoid point with uncertainty ellipse
MP

Ellipsoid point with uncertainty ellipse 10.3.8.4e

REL-11
>>Ellipsoid with altitude and uncertainty ellipsoid




REL-11
>>>Ellipsoid point with altitude and uncertainty ellipsoid
MP

Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c

REL-11
>Horizontal velocity
OP

Horizontal velocity 10.3.8.4h

REL-11

10.3.7.130	Logged Measurement Info-TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Relative Time Stamp
MP

INTEGER (0..7200)
Indicates the time of logging measurement results, measured relative to the Absolute Time Info, in seconds.
REL-10
Logged Measurements Serving Cell
MP



REL-10
> PLMN Identity
MP

PLMN Identity
10.3.1.11

REL-11
>Cell ID
MP

Cell ID 10.3.2.2

REL-10
>Primary CCPCH RSCP
MP

Integer(0..91)
In dBm.
According to P-CCPCH_RSCP_LEV in [19] and [20].
Thirty-six spare values are needed.
REL-10
Logged Measurements Intra Frequency list
OP
1.. MaxnumLoggedMeas

Measurements done on neighbouring cells 
REL-10
>Cell parameters Id
MP

Cell parameters Id 10.3.6.9

REL-10
>Primary CCPCH RSCP
MP

Integer(0..91)
In dBm. 
According to P-CCPCH_RSCP_LEV in [19] and [20].
Thirty-six spare values are needed.
REL-10
Logged Measurements Inter Frequency Neighbouring Cells list
OP
1.. MaxNumTDDFreqs

Measurements done on neighbouring cells 
REL-10
>Frequency Info
MP

Frequency Info 10.3.6.36

REL-10
>Logged Measurements Inter-frequency Neighbouring Cells list
MP
1.. MaxnumLoggedMeas


REL-10
>>Cell parameters Id
MP

Cell parameters Id 10.3.6.9

REL-10
>>Primary CCPCH RSCP
MP

Integer(0..91)
In dBm.
According to P-CCPCH_RSCP_LEV in [19] and [20].
Thirty-six spare values are needed.
REL-10
Logged Measurements Inter-RAT Neighbour cells list
OP



REL-10
 >Logged Measurements E-UTRA frequency list
OP
1.. MaxNumEUTRAFreqs


REL-10
>>E-UTRA Carrier Frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension" in the Logged Measurements E-UTRA frequency extension list.
REL-10
>>Logged Measurements E-UTRA Frequency Neighbours List
MP
1.. MaxnumLoggedMeas


REL-10
>>>Physical Cell Identity
MP

Integer (0..503)

REL-10
>>>RSRP
MP

Integer (0..97)
RSRP is mapped to a value between 0 and 97 [36.133].
REL-10
>>>RSRQ
MP

Integer (0..33)
RSRQ_00 to RSRQ_33 in [36.133] are mapped to the value between 0 and 33. RSRQ_34 in [36.133] is mapped to the value 33.
If the IE indicates a value of 0 and the RSRQ Extension IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "RSRQ extension", the range is from -30 to -1.
If the IE indicates a value of 33 and the RSRQ Extension IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "RSRQ extension", the range is from 35 to 46.
REL-10
>>>RSRQ Extension
OP

Integer (-30..46)
RSRQ_-30 to RSRQ_46 in [36.133] are mapped to the value between -30 and 46.
REL-12
>>RSRQ Type
OP



REL-12
>>>All Symbols
MP

BOOLEAN
TRUE indicates use of all OFDM symbols when performing RSRQ measurements.
REL-12
>>>Wide band
MP

BOOLEAN
TRUE indicates use of a wider bandwidth when performing RSRQ measurements.
REL-12
>Logged Measurements E-UTRA frequency extension list
OP
1.. MaxNumEUTRAFreqs


REL-11
>>EARFCN extension
OP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64].
REL-11
>Logged Measurements GSM Neighbouring Cells list
OP
1.. MaxnumLoggedMeas


REL-10
>>BSIC
MP

BSIC 10.3.8.2

REL-10
>>Band indicator
MP

Enumerated (DCS 1800 band used, PCS 1900 band used)
Indicates how to interpret the BCCH ARFCN
REL-10
>>BCCH ARFCN
MP

Integer (0..1023)
[45]
REL-10
>>GSM carrier RSSI
MP
Bit string(6)
RXLEV is mapped to a value between 0 and 63, [46].  When mapping the RXLEV value to the RSSI bit string, the first/leftmost bit of the bit string contains the most significant bit.

REL-10
CHOICE GNSS UE Position
OP


The position of the UE when the measurement is made
REL-10
>Ellipsoid




REL-10
>>Ellipsoid point 
MP

Ellipsoid point 10.3.8.4a

REL-10
>Ellipsoid with altitude




REL-10
>>Ellipsoid point with altitude
MP

Ellipsoid point with altitude 10.3.8.4b

REL-10
>Ellipsoid with uncertainty circle




REL-11
>>Ellipsoid point with uncertainty circle
MP

Ellipsoid point with uncertainty circle 10.3.8.4d

REL-11
>Ellipsoid with uncertainty ellipse




REL-11
>> Ellipsoid point with uncertainty ellipse
MP

Ellipsoid point with uncertainty ellipse 10.3.8.4e

REL-11
>Ellipsoid with altitude and uncertainty ellipsoid




REL-11
>>Ellipsoid point with altitude and uncertainty ellipsoid
MP

Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c

REL-11

10.3.7.130a	Logged Connection Establishment Failure Info-TDD
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Access Information
MP



REL-11
>Number Of RRC Msg Transmitted
MP

Integer (0..8)
Number of times the RRC message is sent by the UE, e.g. after receiving FPACH.
REL-11
>FPACH Received
MP

BOOLEAN
TRUE indicates that FPACH has been successfully received at least once. 
REL-11
>E-RUCCH Failure
OP

BOOLEAN
TRUE indicates the failure  of the E-RUCCH transmission has been detected  
REL-11
Logged Measurements Failed Cell
MP



REL-11
>Cell ID
MP

Cell ID 10.3.2.2

REL-11
>Primary CCPCH RSCP
MP

Integer(0..91)
In dBm.
According to P-CCPCH_RSCP_LEV in [19] and [20].
Thirty-six spare values are needed.
REL-11
Logged Measurements Intra Frequency Cells list
OP
1.. MaxnumLoggedMeas

Measurements done on neighbouring cells 
REL-11
>Cell parameters Id
MP

Cell parameters Id 10.3.6.9

REL-11
>Primary CCPCH RSCP
MP

Integer(0..91)
In dBm. 
According to P-CCPCH_RSCP_LEV in [19] and [20].
Thirty-six spare values are needed.
REL-11
Logged Measurements Inter Frequency Neighbouring Cells list
OP
1.. MaxNumTDDFreqs

Measurements done on neighbouring cells 
REL-11
>Frequency Info
MP

Frequency Info 10.3.6.36

REL-11
>Logged Measurements Inter-frequency Neighbouring Cells list
MP
1.. MaxnumLoggedMeas


REL-11
>>Cell parameters Id
MP

Cell parameters Id 10.3.6.9

REL-11
>>Primary CCPCH RSCP
MP

Integer(0..91)
In dBm.
According to P-CCPCH_RSCP_LEV in [19] and [20].
Thirty-six spare values are needed.
REL-11
Logged Measurements Inter-RAT Neighbour cells list
OP



REL-11
>Logged Measurements E-UTRA frequency list
OP
1.. MaxNumEUTRAFreqs


REL-11
>>E-UTRA Carrier Frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension" in the Logged Measurements E-UTRA frequency extension list.
REL-11
>>Logged Measurements E-UTRA Frequency Neighbours List
MP
1.. MaxnumLoggedMeas


REL-11
>>>Physical Cell Identity
MP

Integer (0..503)

REL-11
>>>RSRP
MP

Integer (0..97)
RSRP is mapped to a value between 0 and 97 [36.133].
REL-11
>>>RSRQ
MP

Integer (0..33)
RSRQ_00 to RSRQ_33 in [36.133] are mapped to the value between 0 and 33. RSRQ_34 in [36.133] is mapped to the value 33.
If the IE indicates a value of 0 and the RSRQ Extension IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "RSRQ extension", the range is from -30 to -1.
If the IE indicates a value of 33 and the RSRQ Extension IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "RSRQ extension", the range is from 35 to 46.
REL-11
>>>RSRQ Extension
OP

Integer (-30..46)
RSRQ_-30 to RSRQ_46 in [36.133] are mapped to the value between -30 and 46.
REL-12
>>RSRQ Type
OP



REL-12
>>>All Symbols
MP

BOOLEAN
TRUE indicates use of all OFDM symbols when performing RSRQ measurements.
REL-12
>>>Wide band
MP

BOOLEAN
TRUE indicates use of a wider bandwidth when performing RSRQ measurements.
REL-12
>Logged Measurements E-UTRA frequency extension list
OP
1.. MaxNumEUTRAFreqs


REL-11
>>EARFCN extension
OP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64].
REL-11
>Logged Measurements GSM Neighbouring Cells list
OP
1.. MaxnumLoggedMeas


REL-11
>>BSIC
MP

BSIC 10.3.8.2

REL-11
>>Band indicator
MP

Enumerated (DCS 1800 band used, PCS 1900 band used)
Indicates how to interpret the BCCH ARFCN
REL-11
>>BCCH ARFCN
MP

Integer (0..1023)
[45]
REL-11
>>GSM carrier RSSI
MP
Bit string(6)
RXLEV is mapped to a value between 0 and 63, [46].  When mapping the RXLEV value to the RSSI bit string, the first/leftmost bit of the bit string contains the most significant bit.

REL-11
Location Information
OP


The position of the UE when the measurement is made
REL-11
>CHOICE Location
MP



REL-11
>>Ellipsoid




REL-11
>>>Ellipsoid point 
MP

Ellipsoid point 10.3.8.4a

REL-11
>>Ellipsoid with altitude




REL-11
>>>Ellipsoid point with altitude
MP

Ellipsoid point with altitude 10.3.8.4b

REL-11
>Ellipsoid with uncertainty  circle




REL-11
>>Ellipsoid point with uncertainty circle
MP

Ellipsoid point with uncertainty circle 10.3.8.4d

REL-11
>Ellipsoid with uncertainty ellipse




REL-11
>>Ellipsoid point with uncertainty ellipse
MP

Ellipsoid point with uncertainty ellipse 10.3.8.4e

REL-11
>Ellipsoid with altitude and uncertainty ellipsoid




REL-11
>>Ellipsoid point with altitude and uncertainty ellipsoid
MP

Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c

REL-11
>Horizontal velocity
OP

Horizontal velocity 10.3.8.4h

REL-11

10.3.7.131	Logged Meas Report
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Absolute Time Info
MP

BIT STRING (SIZE(48)),
Indicates the reference to network absolute time absoluteTimeInfo provided at the point of measurement logging configuration. Format is YY-MM-DD HH:MM:SS using BCD encoding
REL-10
Trace reference
MP

Trace Reference 10.3.7.133
Parameter trace reference: See TS 32.422 [81]
REL-10
Trace recording session
MP

Trace Recording Session 10.3.7.134
Parameter trace recording session reference: See TS 32.422 [81]
REL-10
TCE Id
MP

TCE Id 10.3.7.135
Parameter TCE Id: See TS 32.422 [81]
REL-10
CHOICE mode
OP



REL-10
>FDD




REL-10
>>List of measurements FDD

1.. MaxLoggedMeasReport


REL-10
>>>Logged Measurement Info-FDD
MP

Logged Measurement Info-FDD 10.3.7.129

REL-10
>TDD




REL-10
>>List of measurements TDD

1.. MaxLoggedMeasReport


REL-10
>>>Logged Measurement Info-TDD
MP

Logged Measurement Info-TDD 10.3.7.130

REL-10
Logged Meas Available
OP

Enumerated (TRUE)
Indicates the UE has logged measurements to report to the network
REL-10

10.3.7.132	Logged Measurements Configuration Info
Parameters used to configure logged measurements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Absolute Time Info
MP

Bit Sting (48)
Indicates the reference to network absolute time absoluteTimeInfo provided at the point of measurement logging configuration. Format is YY-MM-DD HH:MM:SS using BCD encoding
REL-10
Logging Duration
MP

Enumerated (10 min,20 min, 40 min, 1 hour, 1 hour 30 min, 2 hour)
Timer for logging duration. The timer is activated at the moment of configuration. When the timer expires the logging is stopped and the configuration is cleared. 2 spare values are needed.
REL-10
Logging Interval
MP

Enumerated (1.28, 2.56, 5.12, 10.24, 20.48, 30.72, 40.96, 61.44)
Indicates periodicity for storing measurement results. UE behaviour is unspecified when the UE is configured with a DRX period larger than the logging interval.In seconds.
REL-10
Trace reference
MP

Trace Reference 10.3.7.133
Parameter trace reference: See TS 32.422 [81]
REL-10
Trace recording session
MP

Trace Recording Session 10.3.7.134
Parameter trace recording session reference: See TS 32.422 [81]
REL-10
TCE Id
MP

TCE Id 10.3.7.135
Parameter TCE Id: See TS 32.422 [81]
REL-10
CHOICE Area Configuration
OP


Indicates area for which the UE is requested to perform logging. If absent, the configuration is valid in the RPLMN of the UE and the PLMNs provided in IE "PLMN Identity List", if present.
REL-10
>Cell IDList

1..32


REL-10
>>Cell ID
MP

Cell ID 10.3.2.2

REL-10
>>PLMN identity
OP

PLMN identity 10.3.1.11
Indicates the PLMN for which the Cell ID is applicable. If not present, the Cell ID is applicable in the RPLMN. 
REL-11
>Location Area Code List

1..8


REL-10
>>LAI
MP

Location area identification 10.3.1.7

REL-10
>Routing Area Code List

1..8


REL-10
>>RAI
MP

Routing area identification 10.3.1.16

REL-10
PLMN Identity List
OP
1 to < MaxnumMDTPLMN>


REL-11
>PLMN identity
MP

PLMN identity 10.3.1.11

REL-11

10.3.7.132a	Connection Establishment Failure Report
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Time Since Failure
MP

INTEGER (0..172800)
Indicates the elapsed time in seconds between Logging and reporting of Connection establishment failure info. If the elapsed time is greater than 172800s then UE shall use the value 172800.  
REL-11
CHOICE mode
MP



REL-11
>FDD




REL-11
>>Logged Connection Establishment Failure Info-FDD
MP

Logged Connection Establishment Failure Info-FDD 10.3.7.129a

REL-11
>TDD




REL-11
>>Logged Connection Establishment Failure Info-TDD
MP

Logged Connection Establishment Failure Info-TDD 10.3.7.130a

REL-11

10.3.7.133	Trace Reference
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PLMN Identity
MP

PLMN identity 10.3.1.11
PLMN Identity
REL-10
Trace ID
MP

Octet string (3)

REL-10

10.3.7.134	Trace Recording Session
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Trace Recording Session
MP

Octet string (2)

REL-10

10.3.7.135	TCE Id
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
TCE Id
MP

Octet string (1)

REL-10

10.3.7.136	Periodical reporting criteria on secondary UL frequency
Contains the periodical reporting criteria information. It is necessary only in the intra-frequency periodical reporting mode on the secondary uplink frequency.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Frequency info
MP

Frequency info 10.3.6.36
NOTE1
REL-10
Periodical reporting criteria
MP

Periodical reporting criteria 10.3.7.53

REL-10
Reporting cell status
OP

Reporting cell status 10.3.7.61

REL-10

NOTE1:	If the IE "Frequency info" is different from the current downlink frequency associated with the secondary UL frequency, the UE behaviour is unspecified.
10.3.7.137	E-UTRA measurement for CELL_FACH
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-UTRA frequencies for measurement
MP
1 to <maxNumEUTRAFreqs_FACH>


REL-11


1 to <maxNumEUTRAFreqs_FACH-ext>


REL-12
>EARFCN
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension"
REL-11
>EARFCN extension
OP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64].
REL-11
Report criteria
MP

Enumerated (Event-triggered, Periodical reporting)

REL-11
Measurement quantity
MP

Enumerated (RSRP, RSRQ)
This IE indicates the quantity that the UE uses to determine the event trigger.
REL-11
Reporting Threshold
MP

Integer (0..97)
In dB. Ranges used depend on measurement quantity: if measurement quantity is RSRQ, range should be (0..34), if measurement quantity is RSRP, range should be (0..97).
REL-11



Integer (-30..-97)
In dB. Ranges used depend on measurement quantity: if measurement quantity is RSRQ, range should be (-30..46), if measurement quantity is RSRP, range should be (0..97).
REL-12

10.3.7.138	E-UTRA results for CELL_FACH
NOTE:	Only for FDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-UTRA frequency indicator
MP

Bit string(maxNumEUTRAFreqs_FACH)
Bit 0 is the first/leftmost bit of the bit string. Each bit indicates whether the radio quality of an E-UTRA frequency is above the reporting threshold or not, where a one value indicates above and a zero value not.
Bit n corresponds to the n-th E-UTRA frequency in the list provided by the IE E-UTRA frequencies for measurement.
REL-11



Bit string(maxNumEUTRAFreqs_FACH-ext)
Bit 0 is the first/leftmost bit of the bit string. Each bit indicates whether the radio quality of an E-UTRA frequency is above the reporting threshold or not, where a one value indicates above and a zero value not.
Bit n corresponds to the n-th E-UTRA frequency in the list provided by the IE E-UTRA frequencies for measurement.
REL-12

10.3.7.139	E-UTRA frequency RACH reporting information
NOTE:	Only for FDD.
Contains the reporting configuration information for an E-UTRA frequency measurement report, which is sent on the RACH.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-UTRA frequency list indicator
MP

Bit string(maxNumEUTRAFreqs)
Bit 0 is the first/leftmost bit of the bit string. Each bit indicates the E-UTRA frequency that the UE is required to measure and report on RACH.
Bit n corresponds to the n-th E-UTRA frequency received in SIB19. 
Value '1' for a bit means the corresponding E-UTRA frequency has been configured to measure and report on RACH. 
Max. 4 EUTRA frequencies shall be configured in this version of the specification.
REL-11
E-UTRA frequency list indicator2
OP

Bit string(maxNumEUTRAFreqs)
Bit 0 is the first/leftmost bit of the bit string. Each bit indicates the E-UTRA frequency that the UE is required to measure and report on RACH.
Bit n corresponds to the n-th E-UTRA frequency received in SIB19. 
Value '1' for a bit means the corresponding E-UTRA frequency has been configured to measure and report on RACH. 
REL-12
E-UTRA frequency RACH reporting quantity
MP

Enumerated (RSRP, RSRQ)

REL-11
E-UTRA frequency RACH reporting threshold
MP

Integer (0..97)

In dB. Ranges used depend on measurement quantity: if measurement quantity is RSRQ, range should be (0..46), if measurement quantity is RSRP, range should be (0..97).
In case measurement quantity is RSRQ, if the IE indicates a value of 0 and the "E-UTRA frequency RACH reporting threshold Extension" IE is present, then the RSRQ for this instance should be read from the corresponding instance of IE "E-UTRA frequency RACH reporting threshold Extension", the range is from -30 to -1.
REL-11
E-UTRA frequency RACH reporting threshold Extension
OP

Integer (-30..-1)


REL-12
RACH reporting priority
MD

Enumerated (IntraEUTRAInter,  InterIntraEUTRA, InterEUTRAIntra, EUTRAIntraInter, EUTRAInterIntra)
The default value is that E-UTRA measurements shall be omitted first, followed by limiting the number of inter-frequency cells, before limiting the number of intra-frequency cells. Measurement result for the current cell shall be omitted last. Three spare values are needed.
REL-11

10.3.7.140	Filtered UE power headroom reporting information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Time-to-trigger

MP

Integer(0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000)
Time in ms. Indicates the period of time between the detection of the triggering condition [15] and the sending of the Filtered UPH Report.
REL-12
Hysteresis1
OP

Real(0..7.5 by step of 0.5)

REL-12
Hysteresis2
OP

Real(0..7.5 by step of 0.5)

REL-12
UE Power Headroom threshold1
OP

Integer(-50..33)

REL-12
UE Power Headroom threshold2
OP

Integer(-50..33)

REL-12
Filter coefficient
OP

Filter coefficient 10.3.7.9

REL-12

10.3.7.141	UE positioning AddPos measured results
Contains the UE positioning AddPos measurement results.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
AddPos Measurement Information
MP
1 to <maxAddPos>


REL-13
>Time Stamp 
OP

UTCTime 
UTC Time when the measurement results were valid, expressed as a String (SIZE(13)) with format YYMMDDhhmmssZ. 
REL-13
>CHOICE AddPos ID
MP


Four spare values are needed.
REL-13
>>Barometric Pressure




REL-13
>>>Uncompensated Barometric Pressure
MP

Integer (30000..115000)
The measured barometric pressure in units of Pa 
REL-13
>>WLAN



WLAN method [87].
REL-13
>>>WLAN Measured result
MP
1 to <maxWLANs>


REL-13
>>>>WLAN AP BSSID
MP

Octet string (6)
MAC address of the WLAN AP
REL-13
>>>>WLAN AP SSID
OP

Octet string (1..32)
The identifier of the wireless network served by the AP.
REL-13
>>>>WLAN RSSI
OP

Integer(-127..128)
AP signal strength (RSSI) of a beacon frame, probe response frame or measurement pilot frame measured at the target in dBm as defined in Table 6-7 of [87].
REL-13
>>>>WLAN RTT value
OP

Integer(0..16777215)
The measured round trip time between the target and WLAN.
REL-13
>>>>WLAN RTT units
OP

Enumerated( microseconds,hundredsofnanoseconds, tensofnanoseconds,nanoseconds,tenthsofnanosecond)
The units for the RTT value. Three spares are needed. 
REL-13
>>>>WLAN RTT accuracy
OP

Integer(0..255)
The estimated accuracy of the provided RTT value expressed as the standard deviation in units given by the  RTT units.
REL-13
>>>>WLAN AP Channel Frequency
OP

Integer(0..256)
The AP channel number identification of the reported WLAN AP.
REL-13
>>>>Serving Flag
OP

Boolean
Indicates whether a set of WLAN AP measurements were obtained for a serving WLAN AP (TRUE) or a non-serving WLAN AP (FALSE). A target device with multiple radio support may indicate more than one type of serving access for the same time instant.
REL-13
>>BT



Bluetooth method [90]
REL-13
>>>BT Measured results
MP
1 to <maxBTs>


REL-13
>>>>BT address
MP

Octet string (6)

REL-13
>>>>BT RSSI
OP

Integer(-127..128)
Bluetooth beacon signal strength (RSSI) as measured at the target in dBm.
Actual value = IE value – 1.
REL-13
>>MBS



MBS method [89]
REL-13
>>>MBS Measurement Parameters
MP
1 to <maxBeacons>


REL-13
>>>>Transmitter ID
MP

Integer (0..32767)
Identifies the MBS beacon transmitter
REL-13
>>>>Code Phase
MP

Integer(0..2097151)
Scale factor 2-21 milli‑seconds, in the range from 0 to (1-2-21) milli‑seconds.
The code-phase measurement made by the target device for the particular MBS signal at the time of measurement in the units of ms. MBS specific code phase measurements (e.g. chips) are converted into unit of ms by dividing the measurements by the nominal values of the measured signal chipping rate.

REL-13
>>>>Code Phase RMS Error
MP

Integer(0..63)
Coding as in Note 2 of 10.3.7.93
REL-13

10.3.7.142	UE power headroom
The filtered value (see section 8.6.7.2) of the UE power headroom measurement. The same values as defined in [15] are used.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE power headroom
MP

Integer (0..31)

REL-14

10.3.7.143	Application layer measurement configuration
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Container for application layer measurement configuration
MP

Octet string (1..1000)

REL-14
Service type
MP

Enumerated (QoEStreaming, QoEMTSI)

REL-15

10.3.7.144	Application layer measurement reporting
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Container for application layer measurement reporting
MP

Octet string (1..8000)

REL-14
Service type
MP

Enumerated (QoEStreaming, QoEMTSI)

REL-15

10.3.8	Other Information elements
10.3.8.1	BCCH modification info
Indicates modification of the System Information on BCCH.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIB Value tag
MP

MIB Value tag 10.3.8.9


BCCH modification time 
OP

Integer (0.. 4088 in step of 8)
All SFN values in which MIB may be mapped are allowed.

SB3 value tag
OP

Cell Value tag 2 10.3.8.4o

REL-12

10.3.8.2	BSIC
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Base transceiver Station Identity Code (BSIC)
MP


[11]
>Network Colour Code (NCC)
MP

bit string(3)
The first/leftmost bit of the bit string contains the most significant bit of the NCC.
>Base Station Colour Code (BCC)
MP

bit string(3)
The first/leftmost bit of the bit string contains the most significant bit of the BCC.

10.3.8.3	CBS DRX Level 1 information
This information element contains the CBS discontinuous reception information to be broadcast for CBS DRX Level 1 calculations in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Period of CTCH allocation (N)
MP

Integer (1..256)
MTTI  N  256,
N multiple of MTTI

CBS frame offset (K) 
MP

Integer (0..255)
0  K  N-1, 
K multiple of MTTI

Period of BMC scheduling messages (P)
CV-SIB5

Integer
(8, 16, 32, 64, 128, 256)

REL-6

Condition
Explanation
SIB5
The IE is optional when the IE "CBS DRX Level 1 information" is included in System Information Block type 5 or System Information Block type 5bis, otherwise the IE is not needed

10.3.8.4	Cell Value tag
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cell Value tag
MP

Integer (1..4)


10.3.8.4o	Cell Value tag 2
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cell Value tag 2
MP

Integer (1..16)


10.3.8.4a	Ellipsoid point
This IE contains the description of an ellipsoid point as in [24].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Latitude sign
MP

Enumerated (North, South)

Degrees Of Latitude
MP

Integer (0...223-1)
The IE value (N) is derived by this formula:
N223 X /90  N+1
X being the latitude in degree (0°.. 90°)
Degrees Of Longitude
MP

Integer (-223...223-1)
The IE value (N) is derived by this formula:
N224 X /360  N+1
X being the longitude in degree (-180°..+180°)

10.3.8.4b	Ellipsoid point with Altitude
This IE contains the description of an ellipsoid point with altitude as in [24].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Latitude sign
MP

Enumerated (North, South)

Degrees Of Latitude
MP

Integer (0...223-1)
The IE value (N) is derived by this formula:
N223 X /90  N+1
X being the latitude in degree (0°.. 90°)
Degrees Of Longitude
MP

Integer (-223...223-1)
The IE value (N) is derived by this formula:
N224 X /360  N+1
X being the longitude in degree (-180°..+180°)
Altitude Direction
MP

Enumerated (Height, Depth)

Altitude
MP

Integer (0..215-1)
The IE value (N) is derived by this formula:
Na  N+1
a being the altitude in metres

10.3.8.4c	Ellipsoid point with Altitude and uncertainty ellipsoid
This IE contains the description of an ellipsoid point with altitude and uncertainty ellipsoid as in [24].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Latitude sign
MP

Enumerated (North, South)

Degrees Of Latitude
MP

Integer (0...223-1)
The IE value (N) is derived by this formula:
N223 X /90  N+1
X being the latitude in degree (0°.. 90°)
Degrees Of Longitude
MP

Integer (-223...223-1)
The IE value (N) is derived by this formula:
N224 X /360  N+1
X being the longitude in degree (-180°..+180°)
Altitude Direction
MP

Enumerated (Height, Depth)

Altitude
MP

Integer (0..215-1)
The IE value (N) is derived by this formula:
Na  N+1
a being the altitude in metres
Uncertainty semi-major
MP

Integer (0...127)
The uncertainty r is derived from the "uncertainty code" k by
r = 10x(1.1k-1)
Uncertainty semi-minor
MP

Integer (0...127)
The uncertainty r is derived from the "uncertainty code" k by
r = 10x(1.1k-1)
Orientation of major axis
MP

Integer (0..89)
The IE value (N) is derived by this formula:
2N a  2(N+1)
a being the orientation in degree (0°.. 179°)
Uncertainty Altitude
MP

Integer(0..127)
The uncertainty in altitude, h, expressed in metres is mapped from the IE value (K), with the following formula:
	
with C = 45 and x = 0.025.
Confidence
MP

Integer (0..100)
in percentage

10.3.8.4d	Ellipsoid point with uncertainty Circle
This IE contains the description of an ellipsoid point with an uncertainty circle as in [24].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Latitude sign
MP

Enumerated (North, South)

Degrees Of Latitude
MP

Integer (0...223-1)
The IE value (N) is derived by this formula:
N223 X /90  N+1
X being the latitude in degree (0°.. 90°)
Degrees Of Longitude
MP

Integer (-223...223-1)
The IE value (N) is derived by this formula:
N224 X /360  N+1
X being the longitude in degree (-180°..+180°)
Uncertainty Code
MP

Integer (0...127)
The uncertainty r is derived from the "uncertainty code" k by
r = 10x(1.1k-1)

10.3.8.4e	Ellipsoid point with uncertainty Ellipse
This IE contains the description of an ellipsoid point with an uncertainty ellipse as in [24].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Latitude sign
MP

Enumerated (North, South)

Degrees Of Latitude
MP

Integer (0...223-1)
The IE value (N) is derived by this formula:
N223 X /90  N+1
X being the latitude in degree (0°.. 90°)
Degrees Of Longitude
MP

Integer (-223...223-1)
The IE value (N) is derived by this formula:
N224 X /360  N+1
X being the longitude in degree (-180°..+180°)
Uncertainty semi-major
MP

Integer (0...127)
The uncertainty r is derived from the "uncertainty code" k by
r = 10x(1.1k-1)
Uncertainty semi-minor
MP

Integer (0...127)
The uncertainty r is derived from the "uncertainty code" k by
r = 10x(1.1k-1)
Orientation of major axis
MP

Integer (0..89)
The IE value (N) is derived by this formula:
2Na   2(N+1)
a being the orientation in degree (0°.. 179°)
Confidence
MP

Integer (0..100)
in percentage

10.3.8.4ea	ETWS information
Indication of an ETWS primary notification. The ETWS warning type is used to notify upper layers.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Warning Type
MP

Octet string (1..2)
IE "Warning Type" as defined in [77]
REL-8
Message Identifier
MP

Octet string (2)
IE "Message Identifier" as defined in [77]
REL-8
Serial Number
MP

Octet string (2)
IE "Serial Number" as defined in [77]
REL-8

10.3.8.4eb	Void

10.3.8.4f	GERAN system information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
>>> GERAN System Info
MP
1 to <maxGERANSI>


REL-5
>>>> GERAN system info block 

MP

Octet string(1..23)
The first octet contains octet 1 of the GERAN system information block, the second octet contains octet 2 of the GERAN system information block and so on.
REL-5

10.3.8.4g	GSM Target Cell Info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
GSM Target Cell Info List
MP
1 to <maxGSMTargetCells>


REL-6
>BCCH ARFCN
MP

Integer (0..1023)
[45]
REL-6
>Band indicator
MP

Enumerated (DCS 1800 band used, PCS 1900 band used)
Indicates how to interpret the BCCH ARFCN
REL-6
>BSIC
OP

BSIC 10.3.8.2

REL-6

10.3.8.4h	Horizontal Velocity
This IE contains the description of a horizontal velocity as in [24].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Bearing
MP

Integer (0...359)
The direction of movement is given in degrees where ‘0’ represents North, ‘90’ represents East, etc.
Horizontal Speed
MP

Integer (0...211-1)
The relationship between (N) and the horizontal speed (h) in kilometers per hour it describes is:
N ≤ h < N + 0.5, for (N=0)
N-0.5 ≤ h < N + 0.5, for (0<N<211-1)
N – 0.5  h, for (N = 211-1)

10.3.8.4i	Horizontal with Vertical Velocity
This IE contains the description of horizontal with vertical velocity as in [24].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Vertical Speed direction
MP

ENUMERATED (upward, downward)

Bearing
MP

Integer (0...359)
The direction of movement is given in degrees where ‘0’ represents North, ‘90’ represents East, etc.
Horizontal Speed
MP

Integer (0...211-1)
The relationship between (N) and the horizontal speed (h) in kilometers per hour it describes is:
N ≤ h < N + 0.5, for (N=0)
N-0.5 ≤ h < N + 0.5, for (0<N<211-1)
N – 0.5  h, for (N = 211-1)
Vertical Speed
MP

Integer (0..255)
The relationship between (N) and the vertical speed (v) in kilometres per hour it describes is given by the formula:
N ≤ v < N + 0.5, for (N=0)
N-0.5 ≤ v < N + 0.5, for (0<N<28-1)
N – 0.5  v, for (N = 28-1)

10.3.8.4j	Horizontal Velocity with Uncertainty
This IE contains the description of horizontal velocity with uncertainty as in [24].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Bearing
MP

Integer (0...359)
The direction of movement is given in degrees where ‘0’ represents North, ‘90’ represents East, etc.
Horizontal Speed
MP

Integer (0...211-1)
The relationship between (N) and the horizontal speed (h) in kilometers per hour it describes is:
N ≤ h < N + 0.5, for (N=0)
N-0.5 ≤ h < N + 0.5, for (0<N<211-1)
N – 0.5  h, for (N = 211-1)
Horizontal Uncertainty Speed
MP

Integer (0..255)
The IE value is encoded in increments of 1 kilometer per hour.  The value of N give the uncertainty speed except for N=255 which indicates that the uncertainty is not specified

10.3.8.4k	Horizontal with Vertical Velocity and Uncertainty
This IE contains the description of horizontal with vertical velocity and uncertainty as in [24].
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Vertical Speed direction
MP

ENUMERATED (upward, downward)

Bearing
MP

Integer (0...359)
The direction of movement is given in degrees where ‘0’ represents North, ‘90’ represents East, etc.
Horizontal Speed
MP

Integer (0...211-1)
The relationship between (N) and the horizontal speed (h) in kilometers per hour it describes is:
N ≤ h < N + 0.5, for (N=0)
N-0.5 ≤ h < N + 0.5, for (0<N<211-1)
N – 0.5  h, for (N = 211-1)
Vertical Speed
MP

Integer (0..255)
The relationship between (N) and the vertical speed (v) in kilometres per hour it describes is given by the formula:
N ≤ v < N + 0.5, for (N=0)
N-0.5 ≤ v < N + 0.5, for (0<N<28-1)
N – 0.5  v, for (N = 28-1)
Horizontal Uncertainty Speed
MP

Integer (0..255)
The IE value is encoded in increments of 1 kilometer per hour.  The value of N give the uncertainty speed except for N=255 which indicates that the uncertainty is not specified
Vertical Uncertainty Speed
MP

Integer (0..255)
The IE value is encoded in increments of 1 kilometer per hour.  The value of N give the uncertainty speed except for N=255 which indicates that the uncertainty is not specified

10.3.8.4L	E-UTRA Target Info
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-UTRA Target Frequency Info List
MP
1 to <maxEUTRATargetFreqs>


REL-8
>DL Carrier frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64]. If the IE indicates a value of 65535, then the EARFCN for this instance should be read from the corresponding instance of IE "EARFCN extension" in the E-UTRA Target Frequency Info extension List.
REL-8
>Blacklisted cells per freq list
OP
1 to <maxEUTRACellPerFreq>


REL-8
>>Physical Cell identity
MP

Integer (0..503)

REL-8
E-UTRA Target Frequency Info extension List
OP
1 to <maxEUTRATargetFreqs>


REL-11
>EARFCN extension
OP

Integer (65536..262143)
EARFCN of the downlink carrier frequency [64].
REL-11

10.3.8.4m	HNB Name
This information element is used to carry the name of the home NodeB, coded in UTF-8 with variable number of bytes per character [75].
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HNB Name
MP

Octet string (1 to < maxHNBNameSize>)
Carries the name of the Home NodeB with a maximum of maxHNBNameSize octets, using UTF-8 coding.
REL-8

10.3.8.5	Inter-RAT change failure
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Inter-RAT change failure cause
MP

Enumerated(Configuration unacceptable, physical channel failure, protocol error, unspecified)
Four spare values are needed.
Protocol error information
CV-ProtErr

Protocol error information 10.3.8.12


Condition
Explanation
ProtErr
The IE is mandatory present if the IE "Inter-RAT change failure cause" has the value "Protocol error" and not needed otherwise.

10.3.8.6	Inter-RAT handover failure
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Inter-RAT handover failure cause
MD

Enumerated(Configuration unacceptable, physical channel failure, protocol error,
inter-RAT protocol error, unspecified)
Default value is "unspecified".

Eleven spare values are needed.
Protocol error information
CV-ProtErr

Protocol error information 10.3.8.12


Condition
Explanation
ProtErr
The IE is mandatory present if the IE "Inter-RAT handover failure cause" has the value "Protocol error" and not needed otherwise.

10.3.8.7	Inter-RAT UE radio access capability
This Information Element contains the inter-RAT UE radio access capability that is structured and coded according to the specification used for the corresponding system type.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE system
MP




>GSM





>>Mobile Station Classmark 2
MP

Octet string (5)
This IE is formatted as 'TLV' and is coded in the same way as the Mobile Station Classmark 2 information element in [5]. The first octet is the Mobile station classmark 2 IEI and its value shall be set to 33H (except in the case of NOTE 2). The second octet is the Length of mobile station classmark 2 and its value shall be set to 3.
The octet 3 contains the first octet of the value part of the Mobile Station Classmark 2 information element, the octet 4 contains the second octet of the value part of the Mobile Station Classmark 2 information element and so on. For each of these octets, the first/ leftmost/ most significant bit of the octet contains b8 of the corresponding octet of the Mobile Station Classmark 2.
See NOTE 2.

>>Mobile Station Classmark 3
MP

Octet string (1..32)
 This IE is formatted as 'V' and is coded in the same way as the value part in the Mobile station classmark 3 information element in [5].
The first octet contains octet 1 of the value part of Mobile station classmark 3, the second octet contains octet 2 of the value part of Mobile station classmark 3 and so on.
See NOTE 1, NOTE 2.

>>MS Radio Access Capability
OP

Octet string (1..64)
This IE is formatted as 'V' and is coded in the same way as the value part in the MS Radio Access Capability information element in [5].
REL-6
>GERAN Iu




REL-5
>>MS GERAN Iu mode Radio Access Capability
MP

Bit string (1..170)
The first/leftmost/most significant bit of the bit string contains bit 8 of the first octet of the IE.
REL-5
>cdma2000





>>cdma2000Message
MP
1.to.<maxInterSysMessages>



>>>MSG_TYPE(s)
MP

Bit string (8)
Formatted and coded according to cdma2000 specifications. The first/leftmost/most significant bit of the bit string contains bit 7 of the MSG_TYPE.

>>>cdma2000Messagepayload(s)
MP

Bit string (1..512)
Formatted and coded according to cdma2000 specifications. The first/leftmost/most significant bit of the bit string contains bit 7 of the first octet of the cdma2000 message.

>E-UTRA




REL-8
>>UE E-UTRA Capability
MP

Octet string
Formatted and coded according to the UE-EUTRA-Capability information element in [67]. The first/leftmost/most significant bit of the first octet of the octetstring contains bit 8 of octet 1 of the UE-EUTRA-Capability IE.
REL-8
NOTE 1:	The value part is specified by means of CSN.1, which encoding results in a bit string, to which final padding may be appended upto the next octet boundary [5]. The first/ leftmost bit of the CSN.1 bit string is placed in the first/ leftmost/ most significant bit of the first octet. This continues until the last bit of the CSN.1 bit string, which is placed in the last/ rightmost/ least significant bit of the last octet.
NOTE 2:	The information in these IEs is optionally present in the INTER RAT HANDOVER INFO WITH INTER RAT CAPABILITIES message, otherwise it is mandatory present. If the information in the IEs "Mobile Station Classmark 2" and "Mobile Station Classmark 3" is not included, it is indicated by setting the first octet (IEI) of the IE "Mobile Station Classmark 2" to 00H. In this case, the receiver should ignore the value parts of the Mobile Station Classmark 2 and the Mobile Station Classmark 3. The contents of those are set to zero.

10.3.8.8	Void

10.3.8.8a	Inter-RAT UE security capability
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE system
MP




>GSM





>>GSM security capability
MP


The value TRUE means that the indicated ciphering algorithm is supported.

>>>A5/7 supported
MP

Boolean


>>>A5/6 supported
MP

Boolean


>>>A5/5 supported
MP

Boolean


>>>A5/4 supported
MP

Boolean


>>>A5/3 supported
MP

Boolean


>>>A5/2 supported
MP

Boolean


>>>A5/1 supported
MP

Boolean



10.3.8.9	MIB Value tag
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIB Value tag
MP

Integer (1..8)


MIB Value tag extension
CV-MBMS

Integer (0..1)
NOTE 1
REL-12

NOTE 1:	The MIB Value tag value equals IE "MIB Value tag" plus (IE "MIB Value tag extension" times 8).
Condition
Explanation
MBMS
This IE is not needed in MBMS Modified services Information, otherwise it is optional.

10.3.8.10	PLMN Value tag
Information Element/Group name
Need
Multi
Type and reference
Semantics description
PLMN Value tag
MP

Integer (1..256)


10.3.8.10a	PNBSCH allocation
UTRAN may use this IE to provide silent periods in the cell that may be used for cell synchronisation purposes.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Number of repetitions per SFN period
MP

Integer(2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 14, 16, 18, 20, 24, 28, 32, 36, 40, 48, 56, 64, 72, 80)

REL-4

10.3.8.11	Predefined configuration identity and value tag
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Predefined configuration identity
MP

Predefined configuration identity 10.3.4.5

Predefined configuration value tag
MP

Predefined configuration value tag 10.3.4.6


10.3.8.12	Protocol error information
This information element contains diagnostics information returned by the receiver of a message that was not completely understood.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE diagnostics type
MP


One spare value is needed.
>Protocol error cause


Protocol error cause 10.3.3.26


10.3.8.13	References to other system information blocks
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
References to other system information blocks
MP
1 to <maxSIB>

System information blocks for which multiple occurrences are used, may appear more than once in this list

>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1

>SIB type SIBs only
MP

SIB Type SIBs only, 10.3.8.22


References to other extension system information blocks
OP
1 to <maxSIB>

System information blocks for which multiple occurrences are used, may appear more than once in this list
REL-6
>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1
REL-6
>Extension SIB type
MP

SIB type extension 10.3.8.18b

REL-6
References to other extension system information blocks2
OP
1 to <maxSIB>

System information blocks for which multiple occurrences are used, may appear more than once in this list
REL-8
>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1
REL-8
>Extension SIB type
MP

SIB type extension2 10.3.8.18c

REL-8
References to GANSS system information blocks
OP
1 to <maxGANSS>


REL-8
>GANSS ID
OP

Integer (0..7)
Absence of this IE means Galileo.
Coded as defined in NOTE 1 of 10.3.7.90b
REL-8
>SBAS ID
CV-GANSS-ID-SBAS

UE positioning GANSS SBAS ID 10.3.7.97e

REL-8
>GANSS system information blocks scheduling
MP
1 to <maxSIB>

System information blocks for which multiple occurrences are used, may appear more than once in this list
REL-8
>>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1
REL-8
>>GANSS SIB type
MP

GANSS SIB type 10.3.8.18d

REL-8
References to other extension system information blocks3
OP
1 to <maxSIB>

System information blocks for which multiple occurrences are used, may appear more than once in this list
REL-12
>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1
REL-12
>Extension SIB type
MP

SIB type extension 3 10.3.8.18ca

REL-12
NOTE 1:	If this IE is present in the variable SYSTEM_INFORMATION_CONTAINER, the IE shall be discarded.

Condition
Explanation
GANSS‑ID‑SBAS
This IE is mandatory present if the IE “GANSS ID” is “SBAS”, and not needed otherwise.

10.3.8.13a	References to other system information blocks 2
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
References to other system information blocks
MP
1 to <maxSIB2>

System information blocks for which multiple occurrences are used, may appear more than once in this list
REL-12
>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1
REL-12
>SIB type SIBs only
MP

SIB type SIBs only 2 10.3.8.22ac

REL-12
NOTE 1:	If this IE is present in the variable SYSTEM_INFORMATION_CONTAINER, the IE shall be discarded.


10.3.8.14	References to other system information blocks and scheduling blocks
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
References to other system information blocks
MP
1 to <maxSIB>

System information blocks for which multiple occurrences are used, may appear more than once in this list

>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1

>SIB and SB type
MP

SIB and SB Type, 10.3.8.18a


References to other extension system information blocks
OP
1 to <maxSIB>

System information blocks for which multiple occurrences are used, may appear more than once in this list
REL-6
>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1
REL-6
>Extension SIB type
MP

SIB type extension 10.3.8.18b

REL-6
References to other extension system information blocks2
OP
1 to <maxSIB>

System information blocks for which multiple occurrences are used, may appear more than once in this list
REL-8
>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1
REL-8
>Extension SIB type
MP

SIB type extension2 10.3.8.18c

REL-8
References to GANSS system information blocks
OP
1 to <maxGANSS>


REL-8
>GANSS ID
OP

Integer (0..7)
Absence of this IE means Galileo.
Coded as defined in NOTE 1 of 10.3.7.90b
REL-8
>SBAS ID
CV-GANSS-ID-SBAS

UE positioning GANSS SBAS ID 10.3.7.97e

REL-8
>GANSS system information blocks scheduling
MP
1 to <maxSIB>

System information blocks for which multiple occurrences are used, may appear more than once in this list
REL-8
>>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1
REL-8
>>GANSS SIB type
MP

GANSS SIB type 10.3.8.18d

REL-8
References to other extension system information blocks3
OP
1 to <maxSIB>

System information blocks for which multiple occurrences are used, may appear more than once in this list
REL-12
>Scheduling information
MP

Scheduling information, 10.3.8.16
NOTE 1
REL-12
>SIB and SB type
MP

SIB type extension 3 10.3.8.18ca

REL-12
NOTE 1:	If this IE is present in the variable SYSTEM_INFORMATION_CONTAINER, the IE shall be discarded.

Condition
Explanation
GANSS‑ID‑SBAS
This IE is mandatory present if the IE “GANSS ID” is “SBAS”, and not needed otherwise.

10.3.8.14a	SB3 information
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
SEG_COUNT
MD

SEG COUNT 10.3.8.17
Default value is 1
REL-12
SIB_REP
MP

Integer (8, 16, 32, 64)

REL-12
BCH channelization code
MP

Integer(2..33)
Channelization code of the second system information broadcast channel (BCH mapped on S-CCPCH).
REL-12

10.3.8.15	Rplmn information
Contains information to provide faster RPLMN selection in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
GSM BA Range
OP
1 to maxNumGSMFreqRanges

GSM BA Range 

>GSM Lower Range (UARFCN)
MP

Integer(0..16383)
Lower bound for range of GSM BA freqs

>GSM Upper Range (UARFCN)
MP

Integer(0..16383)
Upper bound for range of GSM BA freqs

FDD UMTS Frequency list 
OP
1 to maxNumFDDFreqs



>UARFCN (Nlow)
MP

Integer(0..16383)
[21]

>UARFCN (Nupper)
OP

Integer(0..16383)
[21]
This IE is only needed when the FDD frequency list is specifying a range.

3.84 Mcps TDD UMTS Frequency list
OP
1 to maxNumTDDFreqs



>UARFCN
MP

Integer(0..16383)
[22]

7.68 Mcps TDD UMTS Frequency list
OP
1 to maxNumTDDFreqs


REL-7
>UARFCN
MP

Integer(0..16383)
[22]
REL-7
1.28 Mcps TDD UMTS Frequency list
OP
1 to maxNumTDDFreqs


REL-4
>UARFCN
MP

Integer(0..16383)
[22]
REL-4
CDMA2000 UMTS Frequency list
OP
1 to maxNumCDMA200Freqs



>BAND_CLASS
MP

Bit string(5 bits)
TIA/EIA/IS-2000  When mapping the BAND_CLASS to the bit string, the first/leftmost bit of the bit string contains the most significant bit..

>CDMA_FREQ
MP

Bit string (11 bits)
TIA/EIA/IS-2000  When mapping the CDMA_FREQ to the bit string, the first/leftmost bit of the bit string contains the most significant bit..


10.3.8.16	Scheduling information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Value tag
OP




>PLMN Value tag


PLMN Value tag 10.3.8.10
This IE is included if the following conditions are fulfilled:
the SIB type equals system information block type 1
Note: IE ‘PLMN value tag’ is used for SIB1 but the area scope for SIB 1 is Cell.

>Predefined configuration identity and value tag


Predefined configuration identity and value tag 10.3.8.11
This IE is included if the following conditions are fulfilled:
the SIB type equals system information block type 16

>Cell Value tag


Cell Value tag 10.3.8.4
This IE is included if the following conditions are fulfilled:
the SIB type does not equal system information block type 1; and
the area scope for the system information block is set to "cell" in table 8.1.1; and
a value tag is used to indicate changes in the system information block.

>Cell Value tag extension
OP

Integer(0..3)
This IE may be included if the following conditions are fulfilled:
the SIB type equals system information block type 3, 5, 5bis, 21 or 22.
NOTE 1.
REL-12
>SIB occurrence identity and value tag


SIB occurrence identity and value tag 10.3.8.20b
This IE is included if the following conditions are fulfilled:
the SIB type equals system information block types 15.2, 15.2bis, 15.2ter, 15.3 and 15.3bis

Scheduling
MP




>SEG_COUNT
MD

SEG COUNT 10.3.8.17
Default value is 1


MD

SEG COUNT 10.3.8.17
Default value is size of SIB_POS offset info plus one when SIB_POS offset info is present, otherwise it is 1.
NOTE 2.
REL-12
>SIB_REP
MP

Integer (4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048, 4096)
Repetition period for the SIB in frames 

>SIB_POS
MP

Integer (0 ..Rep-2 by step of 2)
Position of the first segment
Rep is the value of the SIB_REP IE

>SIB_POS offset info
MD
1..15

see below for default value

>>SIB_OFF
MP

Integer(2..32 by step of 2)
Offset of subsequent segments


MD

Integer(2..32 by step of 2)
Offset of subsequent segments.
Default value is 2.
NOTE 3.
REL-12

Field
Default value
SIB_POS offset info
The default value is that all segments are consecutive, i.e., that the SIB_OFF = 2 for all segments except when MIB segment/complete MIB is scheduled to be transmitted in between segments from same SIB. In that case, SIB_OFF=4 in between segments which are scheduled to be transmitted at SFNprime = 8 *n-2 and 8*n + 2, and SIB_OFF=2 for the rest of the segments. 

NOTE 1:	The Cell Value tag value equals IE "Cell Value tag" plus (IE "Cell Value tag extension" times 4).
NOTE 2:	The UE behaviour is unspecified when no value is transmitted for system information that is not of REL-12 or later, and the system information consists of more than one segment. 
NOTE 3:	The UE behaviour is unspecified when no value is transmitted for system information that is not of REL-12 or later.
10.3.8.17	SEG COUNT
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SEG_COUNT
MP

Integer (1..16)
Number of segments in the system information block

10.3.8.18	Segment index
Each system information segment has an individual segment index.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Segment index
MP

Integer (1..15)
Segments of a system information block are numbered starting with 0 for the first segment and 1 for the next segment, which can be the first subsequent segment or a last segment.

10.3.8.18a	SIB and SB type
The SIB type identifies a specific system information block.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SIB and SB type
MP

Enumerated, see below
Two spare values are needed


List of enumerated values
Version
System Information Type 1,
System Information Type 2,
System Information Type 3,
System Information Type 4,
System Information Type 5,
System Information Type 6,
System Information Type 7,
System Information Type 11,
System Information Type 12,
System Information Type 13,
System Information Type 13.1,
System Information Type 13.2,
System Information Type 13.3,
System Information Type 13.4,
System Information Type 14,
System Information Type 15,
System Information Type 15.1,
System Information Type 15.2,
System Information Type 15.3,
System Information Type 15.4,
System Information Type 15.5,
System Information Type 16,
System Information Type 17,
System Information Type 18,
Scheduling Block 1,
Scheduling Block 2,

System Information Type 5bis
REL-6

10.3.8.18b	SIB type extension
The SIB type identifies a specific extension system information block.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
SIB type extension
MP

Enumerated, see below

REL-6

List of enumerated values
Version
System Information Type 11bis
REL-6
System Information Type 15bis,
System Information Type 15.1bis,
System Information Type 15.2bis,
System Information Type 15.3bis,
System Information Type 15.6,
System Information Type 15.7
System Information Type 15.8
REL-7

10.3.8.18c	SIB type extension2
The SIB type identifies a specific extension system information block.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
SIB type extension2
MP

Enumerated, see below

REL-8

List of enumerated values
Version
System Information Type 19
REL-8
System Information Type 15.2ter

System Information Type 20

System Information Type 21
REL-11
System Information Type 22
REL-11
System Information Type 15.1ter
REL-12
System Information Type 23
REL-12
System Information Type 24
REL-12

10.3.8.18ca	SIB type extension3
The SIB type identifies a specific extension system information block.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
SIB type extension3
MP

Enumerated, see below
Six spare values are needed
REL-12

List of enumerated values
Version
System Information Type 11ter 
REL-12
System Information Type 25
REL-13

10.3.8.18d	GANSS SIB type
The GANSS SIB type identifies a GANSS specific system information block.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
GANSS SIB type
MP

Enumerated, see below
Nine spare value is needed
REL-8

List of enumerated values
Version
System Information Type 15.1bis,
System Information Type 15.2bis,
System Information Type 15.2ter,
System Information Type 15.3bis,
System Information Type 15.6,
System Information Type 15.7
System Information Type 15.8
REL-8

10.3.8.19	SIB data fixed
Contains the result of a master information block or a system information block after encoding and segmentation. The IE is used for segments with fixed length (segments filling an entire transport block).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SIB data fixed
MP

Bit string ( 222)
The first bit contains the first bit of the segment.

10.3.8.19a	SIB data fixed 2
Contains the result of a system information block after encoding and segmentation. The IE is used for segments with fixed length (segments filling an entire transport block). The IE is used on the second system information broadcast channel (BCH on SCCPCH).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SIB data fixed
MP

Bit string ( 232)
The first bit contains the first bit of the segment.

10.3.8.20	SIB data variable
Contains either a complete system information block or a segment of a system information block. Contains the result of a master information block or a system information block after encoding and segmentation. The IE is used for segments with variable length. The system information blocks are defined in clauses10.2.48.8.1 to10.2.48.8.18.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SIB data variable
MP

Bit string ( 1..214)
The first bit contains the first bit of the segment.

10.3.8.20o	SIB data variable 2
Contains either a complete system information block or a segment of a system information block. Contains the result of a system information block after encoding and segmentation. The IE is used for segments with variable length. The system information blocks are defined in clauses10.2.48.8.1 to10.2.48.8.18. The IE is used on the second system information broadcast channel (BCH on SCCPCH).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SIB data variable
MP

Bit string ( 1..224)
The first bit contains the first bit of the segment.

10.3.8.20a	SIB occurrence identity
This information element identifies a SIB occurrence for System Information Block types 15.2, 15.2bis, 15.2ter, 15.3 and 15.3bis. For System Information Block type 15.2, 15.2bis and 15.2ter, this identity is assigned to the visible satellite only. Unused identities are claimed by newly rising satellites.
Information Element/Group name
Need
Multi
Type and reference
Semantics description

SIB occurrence identity
MP

Integer (0..15)


10.3.8.20b	SIB occurrence identity and value tag
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SIB occurrence identity
MP

SIB occurrence identity 10.3.8.20a

SIB occurrence value tag
MP

SIB occurrence value tag 10.3.8.20c


10.3.8.20c	SIB occurrence value tag
This information element is used to identify different versions of SIB occurrence for System Information Block types 15.2, 15.2bis, 15.2ter, 15.3 and 15.3bis.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
SIB occurrence value tag
MP

Integer(0..15)


10.3.8.21	SIB type
The SIB type identifies a specific system information block.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SIB type
MP

Enumerated, see below
NOTE 1
NOTE 1:	If the value "Extension Type" is signalled, the UE shall use the scheduling information in the MIB and, if present, in the SB1 and SB2 to identify the specific type of system information block.

List of enumerated values
Version
Master information block,
System Information Type 1,
System Information Type 2,
System Information Type 3,
System Information Type 4,
System Information Type 5,
System Information Type 6,
System Information Type 7,
System Information Type 11,
System Information Type 12,
System Information Type 13,
System Information Type 13.1,
System Information Type 13.2,
System Information Type 13.3,
System Information Type 13.4,
System Information Type 14,
System Information Type 15,
System Information Type 15.1,
System Information Type 15.2,
System Information Type 15.3,
System Information Type 15.4,
System Information Type 15.5,
System Information Type 16,
System Information Type 17,
System Information Type 18,
Scheduling Block 1,
Scheduling Block 2,

System Information Type 5bis,
Extension Type
REL-6

10.3.8.22	SIB type SIBs only
The SIB type identifies a specific system information block.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SIB type SIBs only
MP

Enumerated, see below
Four spare values are needed

List of enumerated values
Version
System Information Type 1,
System Information Type 2,
System Information Type 3,
System Information Type 4,
System Information Type 5,
System Information Type 6,
System Information Type 7,
System Information Type 11,
System Information Type 12,
System Information Type 13,
System Information Type 13.1,
System Information Type 13.2,
System Information Type 13.3,
System Information Type 13.4,
System Information Type 14,
System Information Type 15,
System Information Type 15.1,
System Information Type 15.2,
System Information Type 15.3,
System Information Type 15.4,
System Information Type 15.5,
System Information Type 16,
System Information Type 17,
System Information Type 18,

System Information Type 5bis
REL-6

10.3.8.22ab	SIB and SB type 2
The SIB and SB type 2 identifies a specific system information block or scheduling block on the second system information broadcast channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SIB and SB type 2
MP

Enumerated, see below
Twenty spare values are needed


List of enumerated values
Version
Scheduling Block 3,
System Information Type 1,
System Information Type 2,
System Information Type 3,
System Information Type 4,
System Information Type 5,
System Information Type 5bis,
System Information Type 6,
System Information Type 7,
System Information Type 11,
System Information Type 11bis,
System Information Type 12,
System Information Type 13,
System Information Type 13.1,
System Information Type 13.2,
System Information Type 13.3,
System Information Type 13.4,
System Information Type 14,
System Information Type 15,
System Information Type 15bis,
System Information Type 15.1,
System Information Type 15.1bis,
System Information Type 15.1ter,
System Information Type 15.2,
System Information Type 15.2bis,
System Information Type 15.2ter,
System Information Type 15.3,
System Information Type 15.3bis,
System Information Type 15.4,
System Information Type 15.5,
System Information Type 15.6,
System Information Type 15.7
System Information Type 15.8,
System Information Type 16,
System Information Type 17,
System Information Type 18,
System Information Type 19,
System Information Type 20	,
System Information Type 21	,
System Information Type 22,
System Information Type 23,
System Information Type 24,
System Information Type 11ter,
System Information Type 25
REL-12

10.3.8.22ac	SIB type SIBs only 2
The SIB type identifies a specific system information block on the second system information broadcast channel.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SIB type SIBs only
MP

Enumerated, see below
Twenty-one spare values are needed

List of enumerated values
Version
System Information Type 1,
System Information Type 2,
System Information Type 3,
System Information Type 4,
System Information Type 5,
System Information Type 5bis,
System Information Type 6,
System Information Type 7,
System Information Type 11,
System Information Type 11bis
System Information Type 12,
System Information Type 13,
System Information Type 13.1,
System Information Type 13.2,
System Information Type 13.3,
System Information Type 13.4,
System Information Type 14,
System Information Type 15,
System Information Type 15bis,
System Information Type 15.1,
System Information Type 15.1bis,
System Information Type 15.1ter,
System Information Type 15.2,
System Information Type 15.2bis,
System Information Type 15.2ter,
System Information Type 15.3,
System Information Type 15.3bis,
System Information Type 15.4,
System Information Type 15.5,
System Information Type 15.6,
System Information Type 15.7
System Information Type 15.8,
System Information Type 16,
System Information Type 17,
System Information Type 18,
System Information Type 19,
System Information Type 20,
System Information Type 21,
System Information Type 22,
System Information Type 23,
System Information Type 24,
System Information Type 11ter,
System Information Type 25


10.3.8.23	UE History Information
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE inactivity period
MP

Integer (1..120)
Provides expired time since last u-plane activity. If the integer value x is between 1 and 59, it represents the expired time x in seconds. If the integer value x is between 60 and 119, it represents the expired time (x-59) in minutes. If integer value is set to 120, no u-plane activity has been for 60 minutes or more.
REL-8
UE Mobility State indicator
OP

Enumerated (High-mobilityDetected)
Absence of this IE implies that, according to [4] either the High mobility state is not applicable or it has not been detected by the UE.
REL-8
UL data volume history
OP

Data volume history 10.3.8.24

REL-8
DL data volume history
OP

Data volume history 10.3.8.24

REL-8

10.3.8.24	Data volume history
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
Data volume monitoring window
MP

Integer (1..120)
If the integer value x is between 1 and 59, it represents seconds. If the integer value is between 60 and 120, it represents the value minus 59 in minutes.
REL-8
Data transmission frequency
OP

Integer (100, 250, 500, 1000, 2000, 5000, 10000, 60000)
In ms
REL-8
>Data transmission frequency granularity
MP

Integer (100, 250, 500, 1000, 2000, 5000, 10000, 60000)
In ms
REL-8
>Number of data transmission occasions
MP

Integer (0..610)
Measure of data transmission frequency. The data volume monitoring window is organised in time periods of “Data transmission frequency granularity”, and each transmission within such a period is counted.
REL-8
Data volume per RB
OP
1 to <maxRB>


REL-8
>RB identity
MP

RB identity 10.3.4.16

REL-8
>Data volume
MP

Integer (0..4294967295)
Data volume monitored during the data volume monitoring window, in byte.
REL-8

10.3.8.25	Retrievable configuration info
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
Retrievable configuration to be invoked
OP

Integer (0.. maxRetrievConfig-1)

REL-13
Retrievable configuration to be stored
OP

Integer (0.. maxRetrievConfig-1)

REL-13
Retrievable configuration to be removed
OP
1 to <maxRetrievConfig>


REL-13
>Retrievable configuration identity
MP

Integer (0.. maxRetrievConfig-1)

REL-13
Preconfigured retrievable configuration
OP
1 to <maxRetrievConfig>

In this version of the specification, the maximum value is 4 in one RRC message.
REL-13
>Retrievable configuration identity
MP

Integer (0.. maxRetrievConfig-1)

REL-13
>Retrievable configuration
MP

Retrievable configuration 10.3.8.26

REL-13

10.3.8.26	Retrievable configuration
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
RB Information Elements




REL-13
Signalling RB information to setup list
OP
1 to <maxSRBsetup>


REL-13
>Signalling RB information to setup
MP

Signalling RB information to setup 10.3.4.24

REL-13
RAB information to setup list
OP
1 to < maxRABsetup >


REL-13
>RAB information for setup
MP

RAB information for setup 10.3.4.10

REL-13
RB information to reconfigure list
OP
1 to <maxRB>


REL-13
>RB information to reconfigure
MP

RB information to reconfigure 10.3.4.18

REL-13
TrCH Information Elements





Uplink transport channels





UL Transport channel information common for all transport channels
OP

UL Transport channel information common for all transport channels 10.3.5.24

REL-13
Added or Reconfigured TrCH information list
OP
1 to <maxTrCH>


REL-13
>Added or Reconfigured UL TrCH information
MP

Added or Reconfigured UL TrCH information 10.3.5.2

REL-13
Downlink transport channels





DL Transport channel information common for all transport channels
OP

DL Transport channel information common for all transport channels 10.3.5.6

REL-13
Added or Reconfigured TrCH information list
OP
1 to <maxTrCH>


REL-13
>Added or Reconfigured DL TrCH information
MP

Added or Reconfigured DL TrCH information 10.3.5.1

REL-13
PhyCH information elements





DTX-DRX Information
OP

DTX-DRX Information 10.3.6.34a

REL-13
HS-SCCH less Information
OP

HS-SCCH less Information 10.3.6.36ab

REL-13
MIMO parameters
OP

MIMO parameters 10.3.6.41a

REL-13
MIMO mode with four transmit antennas parameters
OP

MIMO mode with four transmit antennas parameters 10.3.6.142

REL-13
DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149

REL-13
Uplink radio resources





E-DCH Info
OP

E-DCH Info 10.3.6.97

REL-13
Downlink radio resources





Downlink HS-PDSCH Information
OP

Downlink HS-PDSCH Information 10.3.6.23a

REL-13
Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a

REL-13
Additional downlink secondary cell info list FDD
OP
2


REL-13
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a

REL-13
Additional downlink secondary cell info list FDD 2
OP
4


REL-13
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a

REL-13

10.3.8.27	Other state configuration info
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
Other state configuration to be stored
OP
1 to <maxOtherStateConfig>


REL-13
>Other state configuration identity
MP

Integer (0.. maxOtherStateConfig-1)

REL-13
>Source RRC State Indicator
MP

RRC State Indicator 10.3.3.35a

REL-13
>Target RRC State Indicator
MP

RRC State Indicator 10.3.3.35a

REL-13
>URA identity
CV-URA_PCH

URA identity 10.3.2.6

REL-13
>CHOICE RNTIs
MP



REL-13
>>Clear




REL-13
>>Continue




REL-13
>>New




REL-13
>>>New C-RNTI
MP

C-RNTI 10.3.3.8

REL-13
>>>New H-RNTI
MP

H-RNTI 10.3.3.14a

REL-13
>>>New Primary E-RNTI
MP

E-RNTI 10.3.3.10a

REL-13
>CHOICE configuration
OP



REL-13
>>Retrievable configuration id


Integer (0.. maxRetrievConfig-1)

REL-13
>>Retrievable configuration


Retrievable configuration 10.3.8.26

REL-13
Other state configuration to be removed
OP
1 to <maxOtherStateConfig>


REL-13
>Other state configuration identity
MP

Integer (0.. maxOtherStateConfig-1)

REL-13

Condition
Explanation
URA_PCH
This IE is optionally present when IE "Target state indicator" is set to URA_PCH. Otherwise it is not needed.

10.3.9	ANSI-41 Information elements
10.3.9.1	ANSI-41 Core Network Information
Information element/Group name
Need
Multi
Type and reference
Semantics description
P_REV
MP

P_REV 10.3.9.10

MIN_P_REV
MP

MIN_P_REV 10.3.9.8

SID
MP

SID 10.3.9.11

NID
MP

NID 10.3.9.9


10.3.9.2	ANSI-41 Global Service Redirection information
This Information Element contains ANSI-41 Global Service Redirection information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
ANSI-41 Global Service Redirection information
MP

ANSI-41 NAS parameter, 10.3.9.3
Formatted and coded according to the 3GPP2 document "G3G CDMA DS on ANSI-41"

10.3.9.3	ANSI-41 NAS parameter
This Information Element contains ANSI-41 User Zone Identification information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
ANSI-41 NAS parameter
MP

Bit string (size (1..2048))
The first bit contains the first bit of the ANSI-41 information.

10.3.9.4	ANSI-41 NAS system information
This Information Element contains ANSI-41 system information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
NAS (ANSI-41) system information
MP

ANSI-41 NAS parameter, 10.3.9.3
Formatted and coded according to the 3GPP2 document "G3G CDMA DS on ANSI-41" 

10.3.9.5	ANSI-41 Private Neighbour List information
This Information Element contains ANSI-41 Private Neighbour List information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
ANSI-41 Private Neighbour List information
MP

ANSI-41 NAS parameter, 10.3.9.3
Formatted and coded according to the 3GPP2 document "G3G CDMA DS on ANSI-41"

10.3.9.6	ANSI-41 RAND information
This Information Element contains ANSI-41 RAND information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
ANSI-41 RAND information
MP

ANSI-41 NAS parameter, 10.3.9.3
Formatted and coded according to the 3GPP2 document "G3G CDMA DS on ANSI-41"

10.3.9.7	ANSI-41 User Zone Identification information
This Information Element contains ANSI-41 User Zone Identification information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
ANSI-41 User Zone Identification information
MP

ANSI-41 NAS parameter, 10.3.9.3
Formatted and coded according to the 3GPP2 document "G3G CDMA DS on ANSI-41"

10.3.9.8	MIN_P_REV
This Information Element contains minimum protocol revision level.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
MIN_P_REV
MP

Bit string (8)
Minimum protocol revision level. The first/leftmost bit of the bit string contains the most significant bit of the MIN_P_REV.

10.3.9.9	NID
This Information Element contains Network identification.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
NID
MP

Bit string (16)
Network identification.  The first/leftmost bit of the bit string contains the most significant bit of the NID.

10.3.9.10	P_REV
This Information Element contains protocol revision level.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
P_REV
MP

Bit string (8)
Protocol revision level.  The first/leftmost bit of the bit string contains the most significant bit of the P_REV.

10.3.9.11	SID
This Information Element contains System identification.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SID
MP

Bit string (15)
System identification. The first/leftmost bit of the bit string contains the most significant bit of the SID.

10.3.9a	MBMS Information elements
10.3.9a.1	MBMS Common CCTrCH identity
Identifies a Coded Composite Transport channel configuration included within the MBMS COMMON P-T-M RB INFORMATION message.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Common CCTrCh identity
MP

Integer (1..32)

REL-6

10.3.9a.2	MBMS Common PhyCh identity
Identifies a physical channel configuration included within the MBMS COMMON P-T-M RB INFORMATION message.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Common PhyCh identity
MP

Integer (1..32)

REL-6

10.3.9a.3	MBMS Common RB identity
Identifies a radio bearer channel configuration included within the MBMS COMMON P-T-M RB INFORMATION message.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Common RB identity
MP

Integer (1..32)

REL-6

10.3.9a.4	MBMS Common TrCh identity
Identifies a transport channel configuration included within the MBMS COMMON P-T-M RB INFORMATION message.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Common TrCh identity
MP

Integer (1..32)

REL-6

10.3.9a.5	MBMS Current cell S-CCPCH identity
Identifies one of the current cell's Secondary CCPCH's.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Current cell S-CCPCH identity
MP

Integer (1..maxSCCPCH)

REL-6

10.3.9a.6	Void

10.3.9a.7	MBMS L1 combining schedule
Includes information about the MBMS L1 combining schedule.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS L1 combining cycle length
MP

Enumerated (32, 64, 128, 256, 512, 1024)
In number of radio frames

REL-6
MBMS L1 combining cycle offset
MD

Integer (0.. MBMS L1 combining cycle length - 4) by step of 4
Start of the L1 combining cycle (relative to the timing of the current cell) in number of radio frames.
Default value is no offset
REL-6
MTCH L1- combining period list
MP
1 to < maxMBMS-L1CP>

One or more periods in which L1 combining is performed
REL-6
>Start
MP

Integer (0.. MBMS L1 combining cycle length - 4) by step of 4
Number of frames from the end of the previous combining period or the start of the cycle (for the first period)
REL-6
>Duration
MP

Integer (4.. MBMS L1 combining cycle length) by step of 4
Number of frames (see note)
REL-6

NOTE:	The MTCH L1- combining period should indicate one or more complete TTIs.
10.3.9a.7o	MBMS p-t-m activation time
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS p-t-m activation time
MP

Integer (0..2047)
The 11 LSB of the SFN. Note 1 and 2.
REL-6
Note 1:	The “MBMS p-t-m activation time” indicates the start of the 10 ms frame corresponding to the indicated SFN value and of the primary CCPCH of the cell where this IE is transmitted.
Note 2:	The range of the “MBMS p-t-m activation time” is from 10 ms after the beginning of the MCCH modification period wherein it is transmitted and to the end of next following MCCH modification period. The UE shall consider a value out of this range as expired.

10.3.9a.7a	MBMS p-t-m RB information
Includes information about an MBMS p-t-m radio bearers mapped on a TrCH.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
RB information
CV-Curr

MBMS Common RB identity 10.3.9a.3

REL-6
MBMS short transmission ID
MP

MBMS Short transmission identity 10.3.9a.10

REL-6
MBMS logical channel identity
MP

Integer (1..15)
This identifier is used to distinguish different MTCH mapped on to a TrCh (“MBMS-Id” within the MAC header[15])
REL-6
L1 combining status
CV-Neigh

Boolean
The IE is only applicable in case of partial L1 comining, in which case value TRUE means that L1 combining is used for this radio bearer
REL-6

Condition
Explanation
Curr
The IE is mandatory present if the IE “MBMS p-t-m RB information list” is included in the MBMS CURRENT CELL P-T-M RB INFORMATION message and not needed otherwise
Neigh
The IE is mandatory present if the IE “MBMS p-t-m RB information list” is included in the MBMS NEIGHBOURING CELL P-T-M RB INFORMATION message and not needed otherwise

10.3.9a.7b	MBMS Selected Service Info
This IE indicates whether the UE has any MBMS Selected Services, and if it does it includes the list of MBMS Selected Services.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE Status





>None



(no data)

>Some
MP

MBMS Selected Services Full 10.3.9a.7c

REL-6

10.3.9a.7c	MBMS Selected Services Full
This IE provides the MBMS Selected Services by means of the full identity.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Selected Services
MP
1 to < maxMBMSservSelect>


REL-6
>MBMS Selected Service ID
MP

MBMS service identity 10.3.9a.8

REL-6

10.3.9a.7d	MBMS Selected Services Short
This IE indicates the MBMS Selected Services by means of a short identity to identify the MBMS transmission by referencing the services included in the MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION messages.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Selected Services
MP
1 to < maxMBMSservSelect>


REL-6
>MBMS Selected Service ID
MP

MBMS Short transmission identity 10.3.9a.10

REL-6
Modification period identity
MP

Integer (0..1)
Indicates the modification period the MBMS short transmission identities refer to
REL-6

10.3.9a.8	MBMS Service identity
Includes information about the identity of an MBMS service.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Service ID
MP

MBMS Service ID 10.3.9a.8a 

REL-6
CHOICE PLMN identity
MP



REL-6
>SameAs-MIB



(No data) The PLMN identity is the same as indicated by the IE “PLMN identity” in MIB
REL-6
>SameAsMIB-MultiPLMN-Id




REL-6
>>Multi PLMN id
MP

Integer (1..5)
The PLMN identity is one of the PLMN identities (1 to 5) in the IE "Multiple PLMN List" in MIB
REL-6
>ExplicitPLMN-Id




REL-6
>>PLMN identity
MP

PLMN identity 10.3.1.11

REL-6

10.3.9a.8a		MBMS Service ID
Uniquely identifies an MBMS bearer service within a PLMN.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Service ID
MP

Octet string (3 )
The content of the MBMS Service ID field is coded as octets 3 to 5 of the IE Temporary Mobile Group Identity [5]
REL-6

10.3.9a.9	MBMS Session identity
Includes information about the identity of a session of an MBMS service.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Session ID
MP

Octet string (1)

REL-6

10.3.9a.10	MBMS Short transmission identity
Includes a short identity of the MBMS transmission identity, which concerns a session of a specific service.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS short transmission identity
MP

Integer (1..maxMBMSservUnmodif)
Reference/ index to a transmission listed in the MBMS Modified Services Information or MBMS Unmodified Services Information
REL-6

10.3.9a.10a	MBMS Soft Combining Timing Offset
Indicates the timing offset applied in the CFN calculation in sub-clause 8.5.15.5 for a secondary CCPCH carrying only MBMS logical channels. It is used for FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
>MBMS Soft Combining Timing Offset
MP

Integer (0, 10, 20, 40)
Timing offset applied in the CFN calculation in sub-clause 8.5.15.5, in ms.
REL-6

10.3.9a.11	MBMS specific timers and counters
Includes MBMS specific timers and counters.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
T318
MD

Integer(250... 2000 by step of 250, 3000, 4000, 6000, 8000, 10000, 12000, 16000)
Value in milliseconds. Default value is 1000.
REL-6

10.3.9a.12	MBMS Transmission identity
Includes information about the MBMS transmission identity, which concerns a session of a specific service.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS Service ID
MP

MBMS Service identity 10.3.9a.8

REL-6
MBMS Session ID
OP

MBMS Session identity 10.3.9a.9

REL-6

10.3.9a.12a	MBSFN frequency list
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBSFN frequency list
MP
0 to <maxMBSFNclusters>


REL-7
>MBSFN frequency
MP

Frequency info 10.3.6.36

REL-7
>IMB indication
OP

Enumerated (TRUE)
If present: 3.84 Mcps TDD MBSFN IMB is applied on this frequency.
REL-8
>Cell parameter ID
OP
<0..127>
Cell parameter Id 10.3.6.9
Only for 1.28 Mcps TDD [32]. 
NOTE 1
REL-7

NOTE 1:	For 1.28 Mcps TDD the IE "Cell Parameter ID" indicates the cell which is providing MBMS service in MBSFN only mode on the corresponding frequency; if it is not included, the IE "MBSFN frequency" indicates the secondary frequency providing MBMS service in non-MBSFN only mode of current multi-frequency cell.
10.3.9a.12b	MBSFN TDM Information List
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBSFN TDM Information List
MP
1 to <maxMBMSservUnmodif>


REL-7
>MBMS short transmission ID
MP

MBMS Short transmission identity 10.3.9a.10

REL-7
>TDM_Rep
MP

Integer (2..9)

REL-7
>TDM_Offset
MP

Integer (0..8)

REL-7
>TDM_Length
MP

Integer (1..8)

REL-7

10.3.9a.13	MCCH configuration information
Includes information about the MCCH configuration.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
Access Info Period coefficient
MP

Integer (0..3)
Represents a, the access information coefficient. The number of repetitions per modification period equals 2a while the actual access information period, in number of frames, equals MP DIV 2a
REL-6
Repetition Period coefficient
MP

Integer (0..3)
Represents r, the repetition period coefficient. The number of repetitions per modification period equals 2r while the actual repetition period, in number of frames, equals MP DIV 2r
REL-6
Modification period coefficient
MP

Integer (7..10)
Represents m, the modification period coefficient. The actual modification period (MP), in number of frames, equals 2m
REL-6
RLC info
MP

RLC info MBMS
10.3.4.23a

REL-6
TCTF presence
CV-MBMS

Enumerated (FALSE)
By default the TCTF is present even though the FACH only carries one logical channel (type). When this IE is included, the TCTF is absent
REL-6

Condition
Explanation
MBMS
This IE is not needed if the IE is contained within the IE “Secondary CCPCH system information”, otherwise the IE is optional.

10.3.9a.14	MICH configuration information
Includes information about the MICH configuration.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MICH Power offset
MP

MICH Power offset 10.3.9a.15

REL-6
CHOICE mode
MP



REL-6
>FDD




REL-6
>>Channelisation code
MP

Integer (0..255)

REL-6
>>Number of NI per frame
MP

Integer (18, 36, 72, 144)

REL-6
>>STTD indicator
MP

STTD Indicator 10.3.6.78
If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3, the UE behaviour upon reception of this IE is unspecified.
REL-6
>TDD




REL-6
>>Timeslot number
MP

Timeslot number 10.3.6.84

REL-6
>>Midamble shift and burst type
MP

Midamble shift and burst type 10.3.6.41
For 1.28 Mcps TDD, if the cell is operating in MBSFN mode, the UE shall ignore the contents of this IE.
REL-6
>>CHOICE TDD option
MP



REL-6
>>>3.84 Mcps TDD




REL-6
>>>>Channelisation code
MP

Enumerated (
(16/1)…(16/16))

REL-6
>>>7.68 Mcps TDD




REL-7
>>>>Channelisation code
MP

Enumerated (
(32/1)…(32/32))

REL-7
>>>1.28 Mcps TDD




REL-6
>>>>Codes list
MP
1 to 2


REL-6
>>>>>Channelisation code
MP

Enumerated (
(16/1)…(16/16))

REL-6
>>>> MBSFN Special Time Slot
OP

Time Slot LCR Extension 10.3.6.83a
For 1.28 Mcps TDD MBSFN only mode, this IE indicates the SCCPCH is deployed on the MBSFN Special Time Slot [30]. The IE ‘Timeslot number’ shall be ignored if this IE appears.
REL-7
>>Repetition period/length
MD

Enumerated((4/2),(8/2), (8/4),(16/2), (16/4), (32/2),(32/4),(64/2),(64/4))
Default value is “(64/2)”.
REL-6
>>Offset
MP

Integer (0…Repetition period -1)
SFN mod Repetitionperiod = Offset.
REL-6
>>MBMS Notification indicator length
MD

Integer (4, 8, 16)
Indicates the length of one MBMS Notification indicator in bits. Default value is 4.
REL-6
>3.84 Mcps TDD MBSFN IMB




REL-8
>>Channelisation code
MP

Integer (0..255)
SF = 256; only the channelisation codes 2 to 15 are applicable
REL-8
>>Number of NI per frame
MP

Integer (16, 32, 64, 128)

REL-8

10.3.9a.15		MICH Power offset
This is the power transmitted on the MICH minus power of the Primary CPICH in FDD and Primary CCPCH Tx Power in TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MICH Power offset
MP

Integer(-10 .. +5)
Offset in dB
REL-6

10.3.9a.16	MSCH configuration information
Includes information about the MSCH configuration.
Information element/Group name
Need
Multi
Type and reference
Semantics description
Version
MSCH Scheduling information
MP


For FDD, scheduling information is provided starting at (SFN  (SCTO div 10ms)) mod MSCH_REP = MSCH_OFF
For TDD, scheduling information is provided starting at SFN mod MSCH_REP = MSCH_OFF
REL-6
>Scheduling period
MD

Enumerated (32, 64, 128, 256, 512, 1024)
The period, in number of frames, between MBMS scheduling messages (MSCH_REP)
Default value is the value included in the MBMS GENERAL INFORMATION message
REL-6
>Scheduling offset
MD

Integer (0..(MSCH_REP-1))
The position of MBMS scheduling messages relative to timing of the corresponding cell (MSCH_OFF)
Default value is the value included in the MBMS GENERAL INFORMATION message
REL-6
>RLC info
MD

RLC info MBMS
10.3.4.23a
Default value is the one included in the MBMS GENERAL INFORMATION message
REL-6
TCTF presence
OP

Enumerated (FALSE)
By default the TCTF is present even though the FACH only carries one logical channel (type). When this IE is included, the TCTF is absent
REL-6

10.3.9a.17	Network Standard Time Information
NOTE:	Only for 1.28Mcps TDD
This IE includes information about the Network Standard Time and a related SFN value. If Correlative SFN is absent, the default Correlative SFN is equal to zero, this means the "Network Standard Time" indicate the standard time value when SFN equal zero.
The "Network Standard Time" occupied 40 bits; the format refers to "ETSI EN 300 468 V1.5.1 (2003-05)".

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Network Standard Time 
MP

BIT STRING (40)
Network Standard Time
REL-8
Correlative SFN
OP

Integer (0..4095)
System frame number which is correlative with Network Standard Time Information.  If it is absent, Correlative SFN is equal to zero.
REL-8

10.3.9b	WLAN Information elements
10.3.9b.1	WLAN Offload Configuration
This IE indicates information for RAN-assisted WLAN interworking.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Threshold Serving RSCP
OP



REL-12
>ThreshServingOffloadWLAN, Low
MP

Integer (-119..-25 by step of 2)
RSCP, dBm
REL-12
>ThreshServingOffloadWLAN, High
MP

Integer (-119..-25 by step of 2)
RSCP, dBm
REL-12
Threshold Serving Ec/N0
OP



REL-12
>ThreshServingOffloadWLAN, Low2
MP

Integer (-24..0)
Ec/N0, dB
REL-12
>ThreshServingOffloadWLAN, High2
MP

Integer (-24..0)
Ec/N0, dB
REL-12
Threshold Channel Utilization
OP



REL-12
>ThreshChUtilWLAN, Low
MP

Integer (0..255)

REL-12
>ThreshChUtilWLAN, High
MP

Integer (0..255)

REL-12
Threshold Backhaul Bandwidth
OP



REL-12
>ThreshBackhRateDLWLAN, Low
MP

WLAN Threshold Backhaul Rate 10.3.9b.4
Value in kbps.
REL-12
>ThreshBackhRateDLWLAN, High
MP

WLAN Threshold Backhaul Rate 10.3.9b.4
Value in kbps.

REL-12
>ThreshBackhRateULWLAN, Low
MP

WLAN Threshold Backhaul Rate 10.3.9b.4
Value in kbps.

REL-12
>ThreshBackhRateULWLAN, High
MP

WLAN Threshold Backhaul  Rate 10.3.9b.4
Value in kbps.

REL-12
Threshold Beacon RSSI
OP



REL-12
>ThreshBeaconRSSIWLAN, Low
MP

Integer (0..255)
Actual value = IE value – 128 in dBm.
REL-12
>ThreshBeaconRSSIWLAN, High
MP

Integer (0..255)
Actual value = IE value – 128 in dBm.
REL-12
Offload Preference Indicator
OP

Bitstring (16)
Parameter: OPI defined in [88]. Only applicable to RAN-assisted WLAN interworking based on ANDSF policies.
REL-12
TsteeringWLAN
OP

Integer (0..31)
Value in seconds.
Only applicable to RAN-assisted WLAN interworking based on access network selection and traffic steering rules.
REL-12

10.3.9b.2	WLAN Identifier
This IE indicates the WLAN identifier for RAN-assisted WLAN interworking.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
SSID
OP
 
Octet string (1..32)
Service Set Identifier defined in IEEE 802.11-2012 [87].
REL-12
BSSID
OP

Octet string (6)
Basic Service Set Identifier defined in IEEE 802.11-2012 [87]. 
REL-12
HESSID
OP

Octet string (6)
Homogenous Extended Service Set Identifier defined in IEEE 802.11-2012 [87].
REL-12

10.3.9b.3	WLAN Offload Information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
WLAN Offload Configuration
CV-Dedicated
 
WLAN Offload Configuration
10.3.9b.1
 
REL-12
WLAN Identifier List
OP
1 to <maxWLANID>
 
  
REL-12
>WLAN Identifier
MP

WLAN Identifier 10.3.9b.2
 
REL-12

Condition
Explanation
Dedicated
The IE is mandatory present in the UTRAN MOBILITY INFORMATION or CELL UPDATE CONFIRM message. Otherwise the IE is optionally present.

10.3.9b.4	WLAN Threshold Backhaul Rate
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
WLAN Threshold Backhaul Backhaul Rate
MP
 
Enumerated {r0, r4, r8, r16, r32, r64, r128, r256, r512, r1024, r2048, r4096, r8192, 
r16384, r32768, r65536, r131072, r262144, r524288, r1048576, r2097152, r4194304, r8388608, r16777216, r33554432, r67108864, r134217728, r268435456, r536870912, r1073741824, r2147483648, r4294967296}
Value in kbps.

REL-12

10.3.10	Multiplicity values and type constraint values
The following table includes constants that are either used as multi bounds (name starting with "max") or as high or low value in a type specification (name starting with "lo" or "hi"). Constants are specified only for values appearing more than once in the RRC specification. In case a constant is related to one or more other constants, an expression is included in the "value" column instead of the actual value.
Constant
Explanation
Value
Version
CN information



maxCNdomains
Maximum number of CN domains
4

UTRAN mobility information



maxRAT
Maximum number or Radio Access Technologies
maxOtherRAT + 1

maxOtherRAT
Maximum number or other Radio Access Technologies
15

maxURA
Maximum number of URAs in a cell
8

maxInterSysMessages
Maximum number of Inter System Messages
4

maxRABsetup
Maximum number of RABs to be established
16

maxDedicatedCSGFreq
Maximum number of dedicated CSG frequencies
4
REL-8
UE information



maxtransactions
Maximum number of parallel RRC transactions in downlink
25

maxPDCPalgoType
Maximum number of PDCP algorithm types
8

maxMultipleFrequencyBandsFDD
Maximum number of additional frequency bands broadcasted in SIB5, SIB6, SIB11, SIB11bis, SIB11ter, SIB12
8
REL-10
maxMultipleFrequencyBandsEUTRA
Maximum number of additional frequency bands broadcasted in SIB19
8
REL-10
maxNumAccessGroups
Maximum number of Access Groups
16
REL-12
maxNumAcdcCategory
Maximum number of ACDC Categories
16
REL-13
maxFreqBandsFDD
Maximum number of frequency bands as defined in [21] and treated by RRC
8

maxFreqBandsFDD2
Maximum number of frequency bands as defined in [21] and treated by RRC
22
REL-6
maxFreqBandsFDD3
Maximum number of frequency bands as defined in [21] and treated by RRC
86
REL-10
maxFreqBandsFDD-ext
Used in asn.1 to signal additional bands maxFreqBandsFDD2 – (maxFreqBandsFDD-1)
15
REL-6
maxFreqBandsFDD-ext2
Used in asn.1 to signal additional bands maxFreqBandsFDD3 – maxFreqBandsFDD2
64
REL-10
maxFreqBandsFDD-ext3
Used in asn.1 to signal additional bands maxFreqBandsFDD3 – maxFreqBandsFDD
78
REL-10
maxFreqBandsTDD
Maximum number of frequency bands supported by the UE as defined in [22]
4

maxFreqBandsTDD-ext
Maximum number of frequency bands supported by the UE as defined in [22]
16
REL-8
maxFreqBandsGSM
Maximum number of frequency bands supported by the UE as defined in [45]
16

maxFreqBandsEUTRA
Maximum number of frequency bands supported by the UE as defined in [36.101]
16
REL-8
maxFreqBandsEUTRA-ext
Maximum number of frequency bands supported by the UE as defined in [36.101]
48
REL-11
maxFreqBandsIndicatorSupport
Maximum number of frequency bands broadcasted in SIB5/5bis
2
REL-10
maxPage1
Number of UEs paged in the Paging Type 1 message
8

maxSystemCapability
Maximum number of system specific capabilities that can be requested in one message.
16

MaxURNTIgroup
Maximum number of U-RNTI groups in one message
8
REL-5
maxCommonHRNTI
Maximum number of common H-RNTI per cell
4
REL-7
maxERNTIgroup
Maximum number of common E-RNTI group per cell (1.28 Mcps TDD)
32
REL-8
maxERNTIperGroup
Maximum number of common E-RNTI in a group (1.28 Mcps TDD)
2
REL-8
RB information



maxPredefConfig
Maximum number of predefined configurations
16

maxOtherStateConfig
Maximum number of other state configurations
4
REL-13
maxRB
Maximum number of RBs
32

maxSRBsetup
Maximum number of signalling RBs to be established 
8

maxRBperRAB
Maximum number of RBs per RAB
8

maxRBallRABs
Maximum number of non signalling RBs
27

maxRBperTrCh
Maximum number of RB per TrCh
16
REL-6
maxRBMuxOptions
Maximum number of RB multiplexing options
8

maxLoCHperRLC
Maximum number of logical channels per RLC entity
2

maxRLCPDUsizePerLogChan
Maximum number of RLC PDU sizes per logical channel mapped on E-DCH
32
REL-6
MaxROHC-PacketSizes
Maximum number of packet sizes that are allowed to be produced by ROHC.
16

MaxROHC-Profiles
Maximum number of profiles supported by ROHC on a given RB.
8

maxRFC 3095-CID
Maximum number of available CID values per radio bearer
16384
REL-5
maxRetrievConfig
Maximum number of retrievable configurations
8
REL-13
TrCH information



maxCommonQueueID
Maximum number of common Mac-ehs queues
2
REL-7
maxE-DCHMACdFlow
Maximum number of E-DCH MAC-d flows
8
REL-6
MaxHProcesses
Maximum number of H-ARQ processes
8
REL-5
MaxHSDSCH_TB_index
Maximum number of TB set size configurations for the HS-DSCH.
64 (FDD and 1.28 MCPS TDD); 512 (3.84 Mcps TDD);
1024 (7.68 Mcps TDD)
REL-5
maxMACdPDUSizes
Maximum number of MAC-d PDU sizes per queue permitted for MAC-hs
8
REL-5
maxTrCH
Maximum number of transport channels used in one direction (UL or DL)
32

maxTrCHpreconf
Maximum number of preconfigured Transport channels, per direction
16

maxNrOfConcatTrCH
Maximum number of DL Transport Channels of type DCH that are subject to concatenation in the physical layer
3
REL-12
maxCCTrCH
Maximum number of CCTrCHs
8

maxQueueID
Maximum number of Mac-hs queues
8
REL-5
MaxTF
Maximum number of different transport formats that can be included in the Transport format set for one transport channel
32

maxTFC
Maximum number of Transport Format Combinations
1024

maxTFCsub
Maximum number of Transport Format Combinations Subset
1024

maxSIBperMsg
Maximum number of complete system information blocks per SYSTEM INFORMATION message
16

maxSIB
Maximum number of references to other system information blocks.
32

maxSIB2
Maximum number of references to other system information blocks on second system information broadcast channel.
64
REL-12
maxSIB-FACH
Maximum number of references to system information blocks on the FACH
8

PhyCH information



maxHSSCCHs
Maximum number of HSSCCH codes that can be assigned to a UE
4
REL-5
maxHS-SCCHLessTrBlk
Maximum number of HS-DSCH Transport Block Sizes used for HS-SCCH-less operation
[4]
REL-7
maxTDD128Carrier
The maximum number of carriers for 1.28 Mcps TDD
6
REL-7
maxAC
Maximum number of access classes
16

maxASC
Maximum number of access service classes
8

maxASCmap
Maximum number of access class to access service classes mappings
7

maxASCpersist
Maximum number of access service classes for which persistence scaling factors are specified
6

maxPRACH
Maximum number of PRACHs in a cell
16

maxEDCHs
Maximum number of common E-DCH resources in a cell
32
REL-8
maxPRACH_EUL
Maximum number of PRACH preamble control parameters (for Enhanced Uplink) in a cell
4
REL-11
MaxPRACH_FPACH
Maximum number of PRACH / FPACH pairs in a cell (1.28 Mcps TDD)
8
REL-4
maxFACHPCH
Maximum number of FACHs and PCHs mapped onto one secondary CCPCHs
8

maxRL
Maximum number of radio links
8

maxEDCHRL
Maximum number of E-DCH radio links
4
REL-6
maxSCCPCH
Maximum number of secondary CCPCHs per cell
16

maxDPDCH-UL
Maximum number of DPDCHs per cell
6

maxDPCH-DLchan
Maximum number of channelisation codes used for DL DPCH

8

maxPUSCH
Maximum number of PUSCHs
(8)

maxPDSCH
Maximum number of PDSCHs
8

maxTS
Maximum number of timeslots used in one direction (UL or DL)
14 (3.84 Mcps TDD and 7.68 Mcps TDD)



6 (1.28 Mcps TDD)
REL-4
hiPUSCHidentities
Maximum number of PUSCH Identities
64

hiPDSCHidentities
Maximum number of PDSCH Identities
64

maxNumE-AGCH
Maximum number of E-AGCHs (TDD)
4
REL-7
maxNumE-HICH
Maximum number of E-HICHs (1.28 Mcps TDD)
4
REL-7
maxERUCCH
Maximum number of E-RUCCH on primary frequency (1.28Mcps TDD)
256
REL-8
Measurement information



maxTGPS
Maximum number of transmission gap pattern sequences 
6

maxAdditionalMeas
Maximum number of additional measurements for a given measurement identity
4

maxExcludedDetectedSetCells
Maximum number of cells that can be excluded from a detected set measurement
64
REL-11
maxNonContiguousMultiCellCombinations
Maximum number of non-contiguous multi-cell HSDPA combinations in one band
3
REL-10
maxMeasEvent
Maximum number of events that can be listed in measurement reporting criteria
8

maxMeasEventOnSecULFreq
Maximum number of events that can be listed in measurement reporting criteria on the downlink frequency associated with secondary uplink frequency
8
REL-9
maxMeasIdentity
Maximum number of measurement identities that can be removed from variable MEASUREMENT_IDENTITY
32
REL-12
maxMeasParEvent
Maximum number of measurement parameters (e.g. thresholds) per event
2

maxMeasIntervals
Maximum number of intervals that define the mapping function between the measurements for the cell quality Q of a cell and the representing quality value
1

maxCellMeas
Maximum number of cells to measure
32

maxCellMeas-ext
Maximum number of cells to measure
80
REL-12
maxCellMeas-ext2
Maximum number of cells to measure in SIB11ter
48
REL-12
maxMeasCSGRange
Maximum number of ranges of cells for CSG measurement 
4
REL-9
maxSIrequest
Maximum number of cell request for reading System Information
4
REL-9
maxCellMeasOnSecULFreq
Maximum number of cells to measure on the downlink frequency associated with the secondary uplink frequency
32
REL-9
maxReportedGSMCells
Maximum number of GSM cells to be reported
8

maxReportedEUTRAFreqs
Maximum number of E-UTRA frequencies to report
4
REL-8
maxReportedEUTRAFreqs-ext
Maximum number of E-UTRA frequencies to report
8
REL-12
maxReportedEUTRACellperFreq
Maximum number of E-UTRA cells to report per frequency
4
REL-8
maxFreq
Maximum number of frequencies to measure
8

maxFreqMeasWithoutCM
Maximum number of inter frequencies to measure without CM
2
REL-10
maxNumPrio
Maximum number of priorities to store
11
REL-8


16
REL-13
maxPrio
Maximum number of RAT or Frequency Priority levels
8
REL-8
maxPrio-ext
Maximum number of RAT or Frequency Priority levels
16
REL-13
maxRMPfrequencies
Maximum number of UTRA inter-frequencies that the network can request to be measured with Reduced Measurement Performance.
8
REL-12
maxEUTRACellPerFreq
Maximum number of E-UTRA cells per frequency
16
REL-8
maxSat
Maximum number of satellites to measure
16

maxGANSSSat
Maximum number of GANSS satellites to measure
64
REL-7
maxGANSS
Maximum number of GANSS supported
8
REL-7
maxAddPos
Maximum number of AddPos types supported
8
REL-13
maxBeacons
Maximum number of MBS beacons reported
64
REL-13
maxWLANs
Maximum number of WLANs reported
64
REL-13
maxBTs
Maximum number of Bluetooth nodes reported
32
REL-13
maxSgnType
Maximum number of additional signals in GANSS to measure
8
REL-7
maxSatClockModels
Maximum number of clock models in a GANSS
4
REL-7
maxSatAlmanacStorage
Maximum number of satellites for which to store GPS Almanac information
32

HiRM
Maximum number that could be set as rate matching attribute for a transport channel
256

maxDCHMeasurementOccasionPatternSequence
Maximum number of CELL_DCH measurement occasion pattern sequences
5
REL-9
maxIGPInfo
Maximum number of ionospheric grid points for BDS as defined in [86].
320
REL-12
Frequency information



MaxFDDFreqList
Maximum number of FDD carrier frequencies to be stored in USIM
4 

MaxTDDFreqList
Maximum number of TDD carrier frequencies to be stored in USIM
4

MaxFDDFreqCellList
Maximum number of neighbouring FDD cells to be stored in USIM
32

MaxTDDFreqCellList
Maximum number of neighbouring TDD cells to be stored in USIM
32

MaxGSMCellList
Maximum number of GSM cells to be stored in USIM
32

Other information



MaxGERANSI
Maximum number of GERAN SI blocks that can be provided as part of NACC information
8
REL-5
maxNumGSMFreqRanges
Maximum number of GSM Frequency Ranges to store
32

MaxNumFDDFreqs
Maximum number of FDD centre frequencies to store
8

MaxNumTDDFreqs
Maximum number of TDD centre frequencies to store
8

maxNumCDMA200Freqs
Maximum number of CDMA2000 centre frequencies to store
8

maxGSMTargetCells
Maximum number of GSM target cells
32
REL-6
maxNumGSMCellGroup
Maximum number of GSM frequency groups to store
16
REL-8
maxNumEUTRAFreqs
Maximum number of EUTRA centre frequencies to store
8
REL-8
maxNumEUTRAFreqs_FACH
Maximum number of EUTRA centre frequencies to store when in CELL_FACH
4
REL-11
maxNumEUTRAFreqs_FACH-ext
Maximum number of EUTRA centre frequencies to store when in CELL_FACH
8
REL-12
maxEUTRATargetFreqs
Maximum number of target E-UTRA frequencies
8
REL-8
maxHNBNameSize
Maximum number of octets for the HNB Name
48
REL-8
MBMS information



maxMBMS-CommonCCTrCh
Maximum number of CCTrCh configurations included in the MBMS COMMON P-T-M RB Information message
32
REL-6
maxMBMS-CommonPhyCh
Maximum number of PhyCh configurations included in the MBMS COMMON P-T-M RB Information message
32
REL-6
maxMBMS-CommonRB
Maximum number of RB configurations included in the MBMS COMMON P-T-M RB Information message
32
REL-6
maxMBMS-CommonTrCh
Maximum number of TrCh configurations included in the MBMS COMMON P-T-M RB Information message
32
REL-6
maxMBMS-Freq
Maximum number of MBMS preferred frequencies
4
REL-6
maxMBMS-L1CP
Maximum number of periods in which layer 1 combining applies
4
REL-6
maxMBMSservCount
Maximum number of MBMS services in a Access Info message
8
REL-6
maxMBMSservModif
Maximum number of MBMS services in a MBMS Modified Services Information message
32
REL-6
maxMBMSservSched
Maximum number of MBMS services in a MBMS Scheduling Information message
16
REL-6
maxMBMSservSelect
Maximum number of MBMS Selected Services in a CELL UPDATE or RRC CONNECTION REQUEST message
8
REL-6
maxMBMSservUnmodif
Maximum number of MBMS services in a MBMS Unmodified Services Information message
64
REL-6
maxMBMSTransmis
Maximum number of transmissions for which scheduling information is provided within a scheduling period
4
REL-6
maxMBMS-Services
Maximum number of MBMS services the UE stores in the variable MBMS_ACTIVATED_SERVICES
64
REL-6
maxMBSFNclusters
Maximum number of MBSFN clusters indicated in system information
16
REL-7
Logged Measurement information


REL-10
MaxnumLoggedMeas
Maximum number of Cells or Frequencies that can be listed in Logged Measurement Report.
8
REL-10
MaxLoggedMeas
Maximum number of logged measurements entries that can be stored by the UE
4405
REL-10
MaxLoggedMeasReport
Maximum number of Logged Measurment Info sent in LoggedMeasReport
128
REL-10
MaxnumMDTPLMN
Maximum number of PLMNs in PLMN list for MDT
15
REL-11
ANR information


REL-10
MaxNumANRLoggedItems
Maximum number of entries in Logged ANR Report info
4
REL-10
WLAN information


REL-12
maxWLANID
Maximum number of WLAN identifiers
16
REL-12

10.3.11	Void

11	Message and Information element abstract syntax (with ASN.1)
This clause contains definitions for RRC PDUs and IEs using a subset of ASN.1 as specified in [14]. PDU and IE definitions are grouped into separate ASN.1 modules.
11.0	General
Some messages and/or IEs may include one or more IEs with name "dummy" that are included only in the ASN.1. The UE should avoid sending information elements that are named "dummy" to UTRAN. Likewise, UTRAN should avoid sending IEs with name "dummy" to the UE. If the UE anyhow receives an information element named "dummy", it shall ignore the IE and process the rest of the message as if the IE was not included.
NOTE:	An IE with name "dummy" concerns an information element that was (erroneously) included in a previous version of the specification and has been removed by replacing it with a dummy with same type.
The UE shall only include the "variable length extension container" when it sends a non critical extension that according to this specification shall be transferred within this container.
If the abstract syntax of an IE is defined using the ASN.1 type "BIT STRING", and this IE corresponds to a functional IE definition in tabular format, in which the significance of bits is semantically defined, the following general rule shall be applied:
The bits in the ASN.1 bit string shall represent the semantics of the functional IE definition in decreasing order of bit significance;
-	with the first (or leftmost) bit in the bit string representing the most significant bit; and
-	with the last (or rightmost) bit in the bit string representing the least significant bit.
11.1	General message structure
Class-definitions DEFINITIONS AUTOMATIC TAGS ::=

BEGIN

IMPORTS

	ActiveSetUpdate,
	ActiveSetUpdateComplete,
	ActiveSetUpdateFailure,	
	AssistanceDataDelivery,
	CellChangeOrderFromUTRAN,
	CellChangeOrderFromUTRANFailure,
	CellUpdate,
	CellUpdateFDD-r11,
	CellUpdateConfirm-CCCH,
	CellUpdateConfirm,
	CounterCheck,
	CounterCheckResponse,
	DownlinkDirectTransfer,
	ETWSPrimaryNotificationWithSecurity,
	HandoverToUTRANComplete,
	InitialDirectTransfer,
	HandoverFromUTRANCommand-EUTRA,
	HandoverFromUTRANCommand-GERANIu,
	HandoverFromUTRANCommand-GSM,
	HandoverFromUTRANCommand-CDMA2000,
	HandoverFromUTRANFailure,
	LoggingMeasurementConfiguration,
	MBMSAccessInformation,
	MBMSCommonPTMRBInformation,
	MBMSCurrentCellPTMRBInformation,
	MBMSGeneralInformation,
	MBMSModificationRequest,
	MBMSModifiedServicesInformation,
	MBMSNeighbouringCellPTMRBInformation,
	MBMSSchedulingInformation,
	MBMSUnmodifiedServicesInformation,
	MeasurementControl,
	MeasurementControlFailure,
	MeasurementReport,
	PagingType1,
	PagingType2,
	PhysicalChannelReconfiguration,
	PhysicalChannelReconfigurationComplete,
	PhysicalChannelReconfigurationFailure,
	PhysicalSharedChannelAllocation,
	PUSCHCapacityRequest,
	RadioBearerReconfiguration,
	RadioBearerReconfigurationComplete,
	RadioBearerReconfigurationFailure,
	RadioBearerRelease,
	RadioBearerReleaseComplete,
	RadioBearerReleaseFailure,
	RadioBearerSetup,
	RadioBearerSetupComplete,
	RadioBearerSetupFailure,
	RRCConnectionReject,
	RRCConnectionRelease,
	RRCConnectionRelease-CCCH,
	RRCConnectionReleaseComplete,
	RRCConnectionRequest,
	RRCConnectionSetup,
	RRCConnectionSetupComplete,
	RRCStatus,
	SecurityModeCommand,
	SecurityModeComplete,
	SecurityModeFailure,
	SignallingConnectionRelease,
	SignallingConnectionReleaseIndication,
	SystemInformation-BCH,
	SystemInformation2-BCH,
	SystemInformation-FACH,
	SystemInformationChangeIndication,
	TransportChannelReconfiguration,
	TransportChannelReconfigurationComplete,
	TransportChannelReconfigurationFailure,
	TransportFormatCombinationControl,
	TransportFormatCombinationControlFailure,
	UECapabilityEnquiry,
	UECapabilityInformation,
	UECapabilityInformationConfirm,
	UEInformationRequest,
	UEInformationResponse,
	UplinkDirectTransfer,
	UplinkPhysicalChannelControl,
	URAUpdate,
	URAUpdateConfirm,
	URAUpdateConfirm-CCCH,
	UTRANMobilityInformation,
	UTRANMobilityInformationConfirm,
	UTRANMobilityInformationFailure
FROM PDU-definitions

-- User Equipment IEs :
	IntegrityCheckInfo
FROM InformationElements;

--**************************************************************
--
-- Downlink DCCH messages
--
--**************************************************************

DL-DCCH-Message ::= SEQUENCE {
	integrityCheckInfo		IntegrityCheckInfo		OPTIONAL,
	message					DL-DCCH-MessageType
}

DL-DCCH-MessageType ::= CHOICE {
	activeSetUpdate						ActiveSetUpdate,
	assistanceDataDelivery				AssistanceDataDelivery,
	cellChangeOrderFromUTRAN 			CellChangeOrderFromUTRAN,
	cellUpdateConfirm					CellUpdateConfirm,
	counterCheck						CounterCheck,
	downlinkDirectTransfer				DownlinkDirectTransfer,
	handoverFromUTRANCommand-GSM		HandoverFromUTRANCommand-GSM,
	handoverFromUTRANCommand-CDMA2000	HandoverFromUTRANCommand-CDMA2000,
	measurementControl					MeasurementControl,
	pagingType2							PagingType2,
	physicalChannelReconfiguration		PhysicalChannelReconfiguration,
	physicalSharedChannelAllocation		PhysicalSharedChannelAllocation,
	radioBearerReconfiguration			RadioBearerReconfiguration,
	radioBearerRelease					RadioBearerRelease,
	radioBearerSetup					RadioBearerSetup,
	rrcConnectionRelease				RRCConnectionRelease,
	securityModeCommand					SecurityModeCommand,
	signallingConnectionRelease			SignallingConnectionRelease,
	transportChannelReconfiguration		TransportChannelReconfiguration,
	transportFormatCombinationControl	TransportFormatCombinationControl,
	ueCapabilityEnquiry					UECapabilityEnquiry,
	ueCapabilityInformationConfirm		UECapabilityInformationConfirm,
	uplinkPhysicalChannelControl		UplinkPhysicalChannelControl,
	uraUpdateConfirm					URAUpdateConfirm,
	utranMobilityInformation			UTRANMobilityInformation,
	handoverFromUTRANCommand-GERANIu	HandoverFromUTRANCommand-GERANIu,
	mbmsModifiedServicesInformation		MBMSModifiedServicesInformation,
	etwsPrimaryNotificationWithSecurity	ETWSPrimaryNotificationWithSecurity,
	handoverFromUTRANCommand-EUTRA		HandoverFromUTRANCommand-EUTRA,
	ueInformationRequest				UEInformationRequest,
	loggingMeasurementConfiguration		LoggingMeasurementConfiguration,
	spare1								NULL
}

--**************************************************************
--
-- Uplink DCCH messages
--
--**************************************************************

UL-DCCH-Message ::= SEQUENCE {
	integrityCheckInfo		IntegrityCheckInfo		OPTIONAL,
	message					UL-DCCH-MessageType
}

UL-DCCH-MessageType ::= CHOICE {
	activeSetUpdateComplete				ActiveSetUpdateComplete,
	activeSetUpdateFailure				ActiveSetUpdateFailure,
	cellChangeOrderFromUTRANFailure 	CellChangeOrderFromUTRANFailure,
	counterCheckResponse				CounterCheckResponse,
	handoverToUTRANComplete				HandoverToUTRANComplete,
	initialDirectTransfer				InitialDirectTransfer,
	handoverFromUTRANFailure			HandoverFromUTRANFailure,
	measurementControlFailure			MeasurementControlFailure,
	measurementReport					MeasurementReport,
	physicalChannelReconfigurationComplete
										PhysicalChannelReconfigurationComplete,
	physicalChannelReconfigurationFailure
										PhysicalChannelReconfigurationFailure,
	radioBearerReconfigurationComplete	RadioBearerReconfigurationComplete,
	radioBearerReconfigurationFailure	RadioBearerReconfigurationFailure,
	radioBearerReleaseComplete			RadioBearerReleaseComplete,
	radioBearerReleaseFailure			RadioBearerReleaseFailure,
	radioBearerSetupComplete			RadioBearerSetupComplete,
	radioBearerSetupFailure				RadioBearerSetupFailure,
	rrcConnectionReleaseComplete		RRCConnectionReleaseComplete,
	rrcConnectionSetupComplete			RRCConnectionSetupComplete,
	rrcStatus							RRCStatus,
	securityModeComplete				SecurityModeComplete,
	securityModeFailure					SecurityModeFailure,
	signallingConnectionReleaseIndication
										SignallingConnectionReleaseIndication,
	transportChannelReconfigurationComplete
										TransportChannelReconfigurationComplete,
	transportChannelReconfigurationFailure
										TransportChannelReconfigurationFailure,
	transportFormatCombinationControlFailure
										TransportFormatCombinationControlFailure,
	ueCapabilityInformation				UECapabilityInformation,
	uplinkDirectTransfer				UplinkDirectTransfer,
	utranMobilityInformationConfirm		UTRANMobilityInformationConfirm,
	utranMobilityInformationFailure		UTRANMobilityInformationFailure,
	mbmsModificationRequest				MBMSModificationRequest,
	ul-DCCH-MessageType-ext				UL-DCCH-MessageType-ext
}

UL-DCCH-MessageType-ext ::= CHOICE {
	ueInformationResponse		UEInformationResponse,
	spare15						NULL,
	spare14						NULL,
	spare13						NULL,
	spare12						NULL,
	spare11						NULL,
	spare10						NULL,
	spare9						NULL,
	spare8						NULL,
	spare7						NULL,
	spare6						NULL,
	spare5						NULL,
	spare4						NULL,
	spare3						NULL,
	spare2						NULL,
	spare1						NULL
}

--**************************************************************
--
-- Downlink CCCH messages
--
--**************************************************************

DL-CCCH-Message ::= SEQUENCE {
	integrityCheckInfo		IntegrityCheckInfo		OPTIONAL,
	message					DL-CCCH-MessageType
}

DL-CCCH-MessageType ::= CHOICE {
	cellUpdateConfirm					CellUpdateConfirm-CCCH,
	rrcConnectionReject					RRCConnectionReject,
	rrcConnectionRelease				RRCConnectionRelease-CCCH,
	rrcConnectionSetup					RRCConnectionSetup,
	uraUpdateConfirm					URAUpdateConfirm-CCCH,
	-- dummy is not used in the specification. If received it is ignored by the UE. 
	-- See TS 23.041 for handling of warning security information by Cell Broadcast Center.
	dummy							ETWSPrimaryNotificationWithSecurity,
	spare2								NULL,
	spare1								NULL
}

--**************************************************************
--
-- Uplink CCCH messages
--
--**************************************************************

UL-CCCH-Message ::= SEQUENCE {
	integrityCheckInfo		IntegrityCheckInfo		OPTIONAL,
	message					UL-CCCH-MessageType
}

UL-CCCH-MessageType ::= CHOICE {
	cellUpdate							CellUpdate,
	rrcConnectionRequest				RRCConnectionRequest,
	uraUpdate							URAUpdate,
	uL-CCCH-MessageType-r11				UL-CCCH-MessageType-r11
}

UL-CCCH-MessageType-r11 ::= CHOICE {
	cellUpdate							CellUpdateFDD-r11,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}

--**************************************************************
--
-- PCCH messages
--
--**************************************************************

PCCH-Message ::= SEQUENCE {
	message				PCCH-MessageType
}

PCCH-MessageType ::= CHOICE {
	pagingType1							PagingType1,
	spare								NULL
}

--**************************************************************
--
-- Downlink SHCCH messages
--
--**************************************************************

DL-SHCCH-Message ::= SEQUENCE {
	message					DL-SHCCH-MessageType
}

DL-SHCCH-MessageType ::= CHOICE {
	physicalSharedChannelAllocation		PhysicalSharedChannelAllocation,
	spare								NULL
}

--**************************************************************
--
-- Uplink SHCCH messages
--
--**************************************************************

UL-SHCCH-Message ::= SEQUENCE {
	message					UL-SHCCH-MessageType
}

UL-SHCCH-MessageType ::= CHOICE {
	puschCapacityRequest				PUSCHCapacityRequest,
	spare								NULL
}


--**************************************************************
--
-- BCCH messages sent on FACH
--
--**************************************************************

BCCH-FACH-Message ::= SEQUENCE {
	message				BCCH-FACH-MessageType
}

BCCH-FACH-MessageType ::= CHOICE {
-- dummy is not used in this version of the specification, it should
-- not be sent and if received UE behaviour is unspecified.
	dummy								SystemInformation-FACH,
	systemInformationChangeIndication	SystemInformationChangeIndication,
	spare2								NULL,
	spare1								NULL
}

--**************************************************************
--
-- BCCH messages sent on BCH
--
--**************************************************************

BCCH-BCH-Message ::= SEQUENCE {
	message				SystemInformation-BCH
}

--**************************************************************
--
-- BCCH messages sent on BCH2
--
--**************************************************************

BCCH-BCH2-Message ::= SEQUENCE {
	message				SystemInformation2-BCH
}

--**************************************************************
--
-- MCCH messages
--
--**************************************************************

MCCH-Message ::= SEQUENCE {
	message				MCCH-MessageType
}

MCCH-MessageType ::= CHOICE {
	mbmsAccessInformation				MBMSAccessInformation,
	mbmsCommonPTMRBInformation			MBMSCommonPTMRBInformation,
	mbmsCurrentCellPTMRBInformation		MBMSCurrentCellPTMRBInformation,
	mbmsGeneralInformation				MBMSGeneralInformation,
	mbmsModifiedServicesInformation		MBMSModifiedServicesInformation,
	mbmsNeighbouringCellPTMRBInformation
										MBMSNeighbouringCellPTMRBInformation,
	mbmsUnmodifiedServicesInformation	MBMSUnmodifiedServicesInformation,
	spare9								NULL,
	spare8								NULL,
	spare7								NULL,
	spare6								NULL,
	spare5								NULL,
	spare4								NULL,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}

--**************************************************************
--
-- MSCH messages
--
--**************************************************************

MSCH-Message ::= SEQUENCE {
	message				MSCH-MessageType
}

MSCH-MessageType ::= CHOICE {
	mbmsSchedulingInformation			MBMSSchedulingInformation,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}

END
11.2	PDU definitions
--**************************************************************
--
-- TABULAR: The message type and integrity check info are not
-- visible in this module as they are defined in the class module. 
-- Also, all FDD/TDD specific choices have the FDD option first 
-- and TDD second, just for consistency.
--
--**************************************************************

PDU-definitions DEFINITIONS AUTOMATIC TAGS ::=

BEGIN

--**************************************************************
--
-- IE parameter types from other modules
--
--**************************************************************

IMPORTS

-- Core Network IEs :
	CN-DomainIdentity,
	CN-InformationInfo,
	CN-InformationInfo-r6,
	CN-InformationInfoFull,
	DomainSpecificAccessRestrictionParam-v670ext,
	NAS-Message,
	PagingRecordTypeID,
	PagingPermissionWithAccessControlParameters,
	PLMN-Identity,
-- UTRAN Mobility IEs :
	CellIdentity,
	CellIdentity-PerRL-List,
	DedicatedPriorityInformation,
	DedicatedPriorityInformation-r11,
	DedicatedPriorityInformation-r13,
	DedicatedWLANOffloadInformation,
	URA-Identity,
-- User Equipment IEs :
	AccessGroupIdentity,
	AccessStratumReleaseIndicator,
	ActivationTime,
	C-RNTI,
	CapabilityUpdateRequirement,
	CapabilityUpdateRequirement-r4,
	CapabilityUpdateRequirement-r4-ext,
	CapabilityUpdateRequirement-r5,
	CapabilityUpdateRequirement-v770ext,
	CapabilityUpdateRequirement-v860ext,
	CapabilityUpdateRequirement-vaj0ext,
	CapabilityUpdateRequirement-r7,
	CapabilityUpdateRequirement-r8,
	CapabilityUpdateRequirement-r12,
	CellUpdateCause,
	CellUpdateCause-ext,
	CellUpdateCause-ext2,
	CipheringAlgorithm,
	CipheringAlgorithm-r7,
	CipheringModeInfo,
	CipheringModeInfo-r7,
	DelayRestrictionFlag,
	DL-PhysChCapabilityFDD-v380ext,
	DSCH-RNTI,
	DynamicActivationTime,
	E-RNTI,
	EstablishmentCause,
	ExtendedWaitTime,
	FailureCauseWithProtErr,
	FailureCauseWithProtErrTrId,
	FrequencyBandsIndicatorSupport,
	GroupReleaseInformation,
	H-RNTI,
	High-MobilityDetected,
	InitialUE-Identity,
	IntegrityProtActivationInfo,
	IntegrityProtectionModeInfo,
	IntegrityProtectionModeInfo-r7,
	N-308,
	PagingCause,
	PagingRecordList,
	PagingRecord2List-r5,
	PDCP-Capability-r4-ext,
	PDCP-Capability-v770ext,
	Pre-RedirectionInfo,
	ProtocolErrorIndicator,
	ProtocolErrorIndicatorWithMoreInfo,
	RadioFrequencyBandTDDList,
	Rb-timer-indicator,
	RedirectionInfo,
	RedirectionInfo-r6,
	RedirectionInfo-v860ext,
	RejectionCause,
	ReleaseCause,
	RF-CapabBandListFDDComp-ext2,
	RF-CapabilityComp,
	RRC-StateIndicator,
	RRC-TransactionIdentifier,
	RSR-VCC-Info,
	SecurityCapability,
	SR-VCC-Info,
	SR-VCC-SecurityRABInfo-v860ext,
	START-Value,
	STARTList,
	SystemSpecificCapUpdateReq-v590ext,
	U-RNTI,
	U-RNTI-Short,
	UESpecificBehaviourInformation1idle,
	UESpecificBehaviourInformation1interRAT,
	UE-CapabilityContainer-IEs,
	UE-ConnTimersAndConstants,
	UE-ConnTimersAndConstants-v3a0ext,
	UE-ConnTimersAndConstants-v860ext,
	UE-ConnTimersAndConstants-r5,
	UE-ConnTimersAndConstants-r11,
	UE-HSPA-Identities-r6,
	UE-RadioAccessCapabBandFDDList2,
	UE-RadioAccessCapabBandFDDList-ext,
	UE-RadioAccessCapabBand-va40ext,
	UE-RadioAccessCapability,
	UE-RadioAccessCapability-v370ext,
	UE-RadioAccessCapability-v380ext,
	UE-RadioAccessCapability-v3a0ext,
	UE-RadioAccessCapability-v3g0ext,
	UE-RadioAccessCapability-v4b0ext,
	UE-RadioAccessCapability-v590ext,
	UE-RadioAccessCapability-v5c0ext,
	UE-RadioAccessCapability-v650ext,
	UE-RadioAccessCapability-v680ext,
	UE-RadioAccessCapability-v7e0ext,
	UE-RadioAccessCapability-v7f0ext,
	UE-RadioAccessCapability-v860ext,
	UE-RadioAccessCapability-v880ext,
	UE-RadioAccessCapability-v890ext,
	UE-RadioAccessCapability-v920ext,
	UE-RadioAccessCapability-va40ext,
	UE-RadioAccessCapability-va80ext,
	UE-RadioAccessCapability-va60ext,
	UE-RadioAccessCapability-vb50ext,
	UE-RadioAccessCapability-vb70ext,
	UE-RadioAccessCapability-vbc0ext,
	UE-RadioAccessCapability-vd20ext,
	UE-RadioAccessCapabilityComp,
	UE-RadioAccessCapabilityComp-ext,
	UE-RadioAccessCapabilityComp-v770ext,
	UE-RadioAccessCapabilityComp2,
	UE-RadioAccessCapabilityComp2-v770ext,
	UE-RadioAccessCapabilityComp2-v7f0ext,
	UE-RadioAccessCapabilityComp2-v860ext,
	UE-RadioAccessCapabilityComp2-v920ext,
	UE-RadioAccessCapabilityComp2-va40ext, 
	UE-RadioAccessCapabilityComp2-vb50ext,
	UE-RadioAccessCapabilityComp2-vc50ext,
	UE-RadioAccessCapabilityComp2-vd20ext,
	UE-RadioAccessCapabilityComp-TDD128,
	UE-RadioAccessCapabilityInfo-v770ext,
	UE-RadioAccessCapabilityInfo-TDD128-v8b0ext,
	UE-RadioAccessCapabilityInfo-TDD128-vb50ext,
	UE-SecurityInformation,
	UE-SecurityInformation2,
	UE-SpecificCapabilityInformation-LCRTDD,
	URA-UpdateCause,
	UTRAN-DRX-CycleLengthCoefficient,
	UTRAN-DRX-CycleLengthCoefficient-r7,
	WaitTime,
-- Radio Bearer IEs :
	DefaultConfigIdentity,
	DefaultConfigIdentity-r4,
	DefaultConfigIdentity-r5,
	DefaultConfigIdentity-r6,
	DefaultConfigForCellFACH,
	DefaultConfigMode,
	DL-CounterSynchronisationInfo,
	DL-CounterSynchronisationInfo-r5,
	PDCP-ROHC-TargetMode,
	PredefinedConfigIdentity,
	PredefinedConfigStatusList,
	PredefinedConfigStatusListComp,
	PredefinedConfigSetWithDifferentValueTag,
	RAB-Info,
	RAB-Info-r6,
	RAB-Info-r7,
	RAB-Info-Post,
	RAB-InformationList,
	RAB-InformationList-r6,
	RAB-InformationReconfigList,
	RAB-InformationReconfigList-r8,
	RAB-InformationMBMSPtpList,
	RAB-InformationSetup-r7,
	RAB-InformationSetup-r8,
	RAB-InformationSetup-v820ext,
	RAB-InformationSetup-r11,
	RAB-InformationSetupList,
	RAB-InformationSetupList-r4,
	RAB-InformationSetupList-r5,
	RAB-InformationSetupList-r6-ext,
	RAB-InformationSetupList-r6,
	RAB-InformationSetupList-v6b0ext,
	RAB-InformationSetupList-r7,
	RAB-InformationSetupList-r8,
	RAB-InformationSetupList-v820ext,
	RAB-InformationSetupList-r11,
	RB-ActivationTimeInfoList,
	RB-COUNT-C-InformationList,
	RB-COUNT-C-MSB-InformationList,
	RB-IdentityList,
	RB-InformationAffectedList,
	RB-InformationAffectedList-r5,
	RB-InformationAffectedList-r6,
	RB-InformationAffectedList-r7,
	RB-InformationAffectedList-r8,
	RB-InformationChangedList-r6,
	RB-InformationReconfigList,
	RB-InformationReconfigList-r4,
	RB-InformationReconfigList-r5,
	RB-InformationReconfigList-r6,
	RB-InformationReconfigList-r7,
	RB-InformationReconfigList-r8,
	RB-InformationReconfigList-r11,
	RB-InformationReleaseList,
	RB-PDCPContextRelocationList,
	RetrievableConfigInfo,
	SRB-InformationSetupList,
	SRB-InformationSetupList-r5,
	SRB-InformationSetupList-r6,
	SRB-InformationSetupList-r7,
	SRB-InformationSetupList-r8,
	SRB-InformationSetupList-r11,
	SRB-InformationSetupList2,
	SRB-InformationSetupList2-r6,
	SRB-InformationSetupList2-r7,
	SRB-InformationSetupList2-r8,
	UL-AMR-Rate,
	UL-CounterSynchronisationInfo,
-- Transport Channel IEs:
	CPCH-SetID,
	DL-AddReconfTransChInfo2List,
	DL-AddReconfTransChInfoList,
	DL-AddReconfTransChInfoList-r4,
	DL-AddReconfTransChInfoList-r5,
	DL-AddReconfTransChInfoList-r7,
	DL-AddReconfTransChInfoList-r9,
	DL-AddReconfTransChInfoList-r13,
	DL-AddReconfTransChInfoList-TDD128-v9c0ext,
	DL-AddReconfTransChInfoList-r11,
	DL-CommonTransChInfo,
	DL-CommonTransChInfo-r4,
	DL-DeletedTransChInfoList,
	DL-DeletedTransChInfoList-r5,
	DL-DeletedTransChInfoList-r7,
	DRAC-StaticInformationList,
	HARQ-Info-r7,
	HARQ-Info-r11,
	HARQ-Info-r13,
	PowerOffsetInfoShort,
	TFC-Subset,
	TFCS-Identity,
	UL-AddReconfTransChInfoList,
	UL-AddReconfTransChInfoList-r6,
	UL-AddReconfTransChInfoList-r7,
	UL-AddReconfTransChInfoList-r8,
	UL-AddReconfTransChInfoList-r14,
	UL-CommonTransChInfo,
	UL-CommonTransChInfo-r4,
	UL-CommonTransChInfo-r12,
	UL-DeletedTransChInfoList,
	UL-DeletedTransChInfoList-r6,
-- Physical Channel IEs :
	AdditionalDLSecCellInfoListFDD,
	AdditionalDLSecCellInfoListFDD-r11,
	AdditionalDLSecCellInfoListFDD2,
	AdditionalDLSecCellInfoHandoverToUtranListFDD,
	Alpha,
	BEACON-PL-Est,
	CCTrCH-PowerControlInfo,
	CCTrCH-PowerControlInfo-r4,
	CCTrCH-PowerControlInfo-r5,
	CCTrCH-PowerControlInfo-r7,
	CommonERGCHInfoFDD,
	ConstantValue,
	ConstantValueTdd,
	ControlChannelDRXInfo-TDD128-r8,
	CPCH-SetInfo,
	DCH-Enhancements-Info-FDD,
	DHS-Sync,
	DL-CommonInformation,
	DL-CommonInformation-r4,
	DL-CommonInformation-r5,
	DL-CommonInformation-r6,
	DL-CommonInformation-r7,
	DL-CommonInformation-r8,
	DL-CommonInformation-r10,
	DL-CommonInformation-r11,
	DL-CommonInformation-r12,
	DL-CommonInformationPost,
	DL-HSPDSCH-Information,
	DL-HSPDSCH-Information-r6,
	DL-HSPDSCH-Information-r7,
	DL-HSPDSCH-Information-r8,
	DL-HSPDSCH-Information-r8-ext,
	DL-HSPDSCH-Information-r9,
	DL-HSPDSCH-Information-r8-ext2,
	DL-HSPDSCH-Information-r11,
	DL-HSPDSCH-Information-r12,
	DL-HSPDSCH-MultiCarrier-Information,
	DL-InformationPerRL-List,
	DL-InformationPerRL-List-r4,
	DL-InformationPerRL-List-r5,
	DL-InformationPerRL-List-r5bis,
	DL-InformationPerRL-List-r6, 
	DL-InformationPerRL-List-r7,
	DL-InformationPerRL-List-r8,
	DL-InformationPerRL-List-v6b0ext,
	DL-InformationPerRL-List-r11,
	DL-InformationPerRL-List-r12,
	DL-InformationPerRL-List-r13,
	DL-InformationPerRL-ListPostFDD,
	DL-InformationPerRL-PostTDD,
	DL-InformationPerRL-PostTDD-LCR-r4,
	DL-MultiCarrier-Information,
	DL-PDSCH-Information,
	DL-SecondaryCellInfoFDD,
	DL-SecondaryCellInfoFDD-v890ext,
	DL-SecondaryCellInfoFDD-r9,
	DL-SecondaryCellInfoFDD-r10,
	DL-SecondaryCellInfoFDD-r11,
	DL-SecondaryCellInfoFDD-HandoverToUtran,
	DL-TPC-PowerOffsetPerRL-List,
	DLUL-HSPA-Information-r8,
	DLUL-HSPA-Information-r9,
	DLUL-HSPA-Information-r10,
	DPC-Mode,
	DPCCH2InfoFDD,
	DPCH-CompressedModeStatusInfo,
	DPCH-CompressedModeStatusInfo-r10,
	DTX-DRX-TimingInfo-r7,
	DTX-DRX-Info-r7,
	DTX-DRX-Info-r12,
	DynamicPersistenceLevel,
	E-DCH-ReconfigurationInfo,
	E-DCH-ReconfigurationInfo-SecULFrequency,
	E-DCH-ReconfigurationInfo-r7,
	E-DCH-ReconfigurationInfo-r11,
	E-DCH-RL-InfoSameServingCell,
	E-TFC-Boost-Info-r7,
	E-DPDCH-PowerInterpolation,
	EUTRA-TargetFreqInfoList-vb50ext,
	EXT-UL-TimingAdvance,
	Feedback-cycle-r7,
	FilteredUEPowerHeadroomReportInfo,
	FrequencyInfo,
	FrequencyInfoFDD,
	FrequencyInfoTDD,
	F-TPICH-ReconfigurationInfo,
	HARQ-Preamble-Mode,
	HS-DSCH-TBSizeTable,
	HS-SCCH-LessInfo-r7,
	HS-SCCH-DrxCellfach-info,
	HS-SICH-Power-Control-Info-TDD384,
	HS-SICH-Power-Control-Info-TDD768,
	MaxAllowedUL-TX-Power,
	MIMO-Parameters-r7,
	MIMO-Parameters-v7f0ext,
	MIMO-Parameters-v7g0ext,
	MIMO-Parameters-r8,
	MIMO-Parameters-r9,
	MIMO4x4-Parameters,
	Multi-frequencyInfo-LCR-r7,
	MU-MIMO-Info-TDD128,
	Non-rectResAllocInd-TDD128,
	Non-rectResSpecTSset-TDD128,
	OpenLoopPowerControl-IPDL-TDD-r4,
	PDSCH-CapacityAllocationInfo,
	PDSCH-CapacityAllocationInfo-r4,
	PDSCH-CapacityAllocationInfo-r7,
	PDSCH-Identity,
	OtherStateConfig,
	PrimaryCPICH-Info,
	PrimaryCCPCH-TX-Power,
	PUSCH-CapacityAllocationInfo,
	PUSCH-CapacityAllocationInfo-r4, 
	PUSCH-CapacityAllocationInfo-r7,
	PUSCH-Identity,
	PUSCH-SysInfoList-HCR-r5,
	PDSCH-SysInfoList-HCR-r5,
	RL-AdditionInformationList,
	RL-AdditionInformationList-r6,
	RL-AdditionInformation-list-v6b0ext,
	RL-AdditionInformationList-r7,
	RL-AdditionInformationList-r8,
	RL-AdditionInformationList-v890ext,
	RL-AdditionInformationList-r9,
	RL-AdditionInformationList-v950ext,
	RL-AdditionInformationList-r10,
	RL-AdditionInformationList-vb50ext,
	RL-AdditionInformationList-r11,
	RL-AdditionInformationList-r12,
	RL-AdditionInformationList-r13,
	RL-AdditionInformationList-SecULFreq,
	RL-AdditionInformationList-SecULFreq-r12,
	RL-AdditionInformationList-SecULFreq-r13,
	RL-RemovalInformationList,
	RL-RemovalInformationList-SecULFreq,
	SecondaryCellMIMOparametersFDD-v950ext,
	Serving-HSDSCH-CellInformation,
	Serving-HSDSCH-CellInformation-r7,
	Serving-HSDSCH-CellInformation-r8,
	Serving-HSDSCH-CellInformation-r9,
	Serving-HSDSCH-CellInformation-r11,
	Serving-HSDSCH-CellInformation-r12,
	ServingCellChangeParameters,
	ServingCellChangeParameters-r12,
	SpecialBurstScheduling,
	SPS-Information-TDD128-r8,
	SSDT-Information,
	SSDT-Information-r4,
	SSDT-UL,
	StandaloneMidambleInfo-TDD128,
	TFC-ControlDuration,
	TimeslotList,
	TimeslotList-r4,
	TimingMaintainedSynchInd,
	TX-DiversityMode,
	UL-16QAM-Config,
	UL-64QAM-Config,
	UL-ChannelRequirement,
	UL-ChannelRequirement-r4,
	UL-ChannelRequirement-r5,
	UL-ChannelRequirementWithCPCH-SetID,
	UL-ChannelRequirementWithCPCH-SetID-r4,
	UL-ChannelRequirementWithCPCH-SetID-r5,
	UL-CLTD-InfoFDD,
	UL-MIMO-InfoFDD,
	UL-DPCH-Info,
	UL-DPCH-Info-r4, 
	UL-DPCH-Info-r5,
	UL-DPCH-Info-r6,
	UL-DPCH-Info-r7,
	UL-DPCH-Info-r11,
	UL-DPCH-InfoPostFDD,
	UL-DPCH-InfoPostTDD,
	UL-DPCH-InfoPostTDD-LCR-r4,
	UL-EDCH-Information-ext,
	UL-EDCH-Information-r6,
	UL-EDCH-Information-r7,
	UL-EDCH-Information-r8,
	UL-EDCH-Information-r9,
	UL-EDCH-Information-r11,
	UL-MulticarrierEDCHInfo-TDD128,
	UL-OLTD-InfoFDD,
	UL-OtherTTIConfiguration-Information,
	UL-OtherTTIConfigurationInfo-Sec,
	UL-SecondaryCellInfoFDD,
	UL-SecondaryCellInfoFDD-r12,
	UL-SecondaryCellInfoFDD-r13,
	UL-SecondaryCellInfoFDD-r14,
	UL-SynchronisationParameters-r4,
	UL-TimingAdvance,
	UL-TimingAdvanceControl,
	UL-TimingAdvanceControl-r4,
	UL-TimingAdvanceControl-r7,
	UpPCHposition-LCR,
-- Measurement IEs :
	AdditionalMeasurementID-List,
	AdditionalMeasurementID-List-r9,
	ApplicationLayerMeasurementReporting,
	ApplicationLayerMeasurementReporting-r15,
	CellDCHMeasOccasionInfo-TDD128-r9,
	CSGProximityIndication,
	CSGProximityIndication-vb50ext,
	DeltaRSCP,
	Frequency-Band,
	EventResults,
	EventResults-v770ext,
	EventResults-v860ext,
	EventResults-va40ext,
	EventResultsOnSecUlFreq,
	EUTRA-EventResults,
	EUTRA-EventResults-vb50ext,
	EUTRA-EventResults-vc50ext,
	EUTRA-MeasuredResults,
	EUTRA-MeasuredResults-v920ext,
	EUTRA-MeasuredResults-vb50ext,
	EUTRA-MeasuredResults-vc50ext,
	EUTRA-EventResultsForCELLFACH,
	EUTRA-EventResultsForCELLFACH-vc50ext,
	Inter-FreqEventCriteriaList-v590ext,
	Intra-FreqEventCriteriaList-v590ext,
	IntraFreqReportingCriteria-1b-r5,
	IntraFreqEvent-1d-r5,
	IntraFreqCellID,
	InterFreqEventResults-LCR-r4-ext,
	InterRATCellInfoIndication,
	InterRATMeasurement-r11,
	InterRATMeasurement-r12,
	InterRAT-TargetCellDescription,
	MeasuredResults,
	MeasuredResults-v390ext,
	MeasuredResults-v590ext,
	MeasuredResults-v770ext,
	MeasuredResults-v860ext,
	MeasuredResults-v920ext,
	MeasuredResults-vc50ext,
	MeasuredResults-vd20ext,
	MeasuredResults-ve30ext,
	MeasuredResultsOnSecUlFreq,
	MeasuredResultsOnSecUlFreq-vc50ext,
	MeasuredResultsListOnSecUlFreq,
	MeasuredResultsListOnSecUlFreq-vc50ext,
	MeasuredResultsList,
	MeasuredResultsList-LCR-r4-ext,
	MeasuredResultsList-v770xet,
	MeasuredResultsList-v860ext,
	MeasuredResultsList-v920ext,
	MeasuredResultsList-vc50ext,
	MeasuredResultsList-vd20ext,
	MeasuredResultsOnRACH,
	MeasuredResultsOnRACHFDD-r11,
	MeasuredResultsOnRACH-v7g0ext,
	MeasuredResultsOnRACHinterFreq,
	MeasuredResultsOnRACH-vc50ext,
	MeasuredResultsOnRACH-EUTRAFreq,
	MeasurementCommand,
	MeasurementCommand-r4,
	MeasurementCommand-r6,
	MeasurementCommand-r7,
	MeasurementCommand-r8,
	MeasurementCommand-r9,
	MeasurementCommand-r10,
	MeasurementCommand-r11,
	MeasurementReleaseEnhancement,
	MeasurementCommand-r12,
	MeasurementCommand-r13,
	MeasurementCommand-r14,
	MeasurementCommand-r15,
	MeasurementIdentity,
	MeasurementIdentity-r9,
	MeasurementIdentityExt,
	MeasurementReportingMode,
	MeasurementScalingFactor,
	NewInterFreqCellList-v7b0ext,
	NewInterFreqCellList-LCR-v8a0ext,
	NewIntraFreqCellList-LCR-v8a0ext,
	PeriodicalWithReportingCellStatusOnSecULFreq,
	PrimaryCCPCH-RSCP,
	SFN-Offset-Validity,
	TimeslotListWithISCP,
	TrafficVolumeMeasuredResultsList,
	UE-Positioning-GPS-AssistanceData,
	UE-Positioning-GPS-AssistanceData-v770ext,
	UE-Positioning-GPS-AssistanceData-v920ext,
	UE-Positioning-GPS-AssistanceData-va40ext, 
	UE-Positioning-GPS-AssistanceData-vc50ext,
	UE-Positioning-GPS-ReferenceTimeUncertainty,
	UE-Positioning-Measurement-v390ext,
	UE-Positioning-OTDOA-AssistanceData,
	UE-Positioning-OTDOA-AssistanceData-r4ext,
	UE-Positioning-OTDOA-AssistanceData-UEB,
	UE-Positioning-OTDOA-AssistanceData-UEB-ext,
	UE-Positioning-OTDOA-MeasuredResultsTDD-ext,
	UE-Positioning-GANSS-AssistanceData,
	UE-Positioning-GANSS-AssistanceData-v860ext,
	UE-Positioning-GANSS-AssistanceData-v920ext,
	UE-Positioning-GANSS-AssistanceData-va40ext,
	UE-Positioning-GANSS-AssistanceData-vc50ext,
-- Other IEs :
	BCCH-ModificationInfo,
	BCCH-ModificationInfo-vc50ext,
	CDMA2000-MessageList,
	CellValueTag2,
	ETWS-Information,
	ETWS-WarningSecurityInfo,
	GSM-TargetCellInfoList,
	GERANIu-MessageList,
	GERAN-SystemInformation,
	GSM-MessageList,
	InterRAT-ChangeFailureCause,
	InterRAT-HO-FailureCause,
	InterRAT-UE-RadioAccessCapabilityList,
	InterRAT-UE-RadioAccessCapability-v590ext,
	InterRAT-UE-SecurityCapList,
	IntraDomainNasNodeSelector,
	MasterInformationBlock,
	MIB-ValueTag,
	ProtocolErrorMoreInformation,
	RMP-Frequency-List,
	Rplmn-Information,
	Rplmn-Information-r4,
	SegCount,
	SegmentIndex,
	SFN-Prime,
	SIB-Data-fixed,
	SIB-Data2-fixed,
	SIB-Data-variable,
	SIB-Data2-variable,
	SIB-Type,
	SIB-Type2,
	SysInfoType1,
	SysInfoType3,
	SysInfoType5,
	SysInfoType7,
	SysInfoType11,
	SysInfoType11bis,
	SysInfoType11ter,
	SysInfoType12,
	SysInfoTypeSB1,
	SysInfoTypeSB2,
	SysInfoType22,
-- MBMS IEs:
	MBMS-CellGroupIdentity-r6,
	MBMS-CommonRBInformationList-r6,
	MBMS-CurrentCell-SCCPCHList-r6,
	MBMS-JoinedInformation-r6,
	MBMS-MICHConfigurationInfo-r6,
	MBMS-MICHConfigurationInfo-v770ext,
	MBMS-MICHConfigurationInfo-v890ext,
	MBMS-ModifedServiceList-r6,
	MBMS-ModifiedServiceList-LCR-v7c0ext,
	MBMS-ModifiedServiceList-v770ext,
	MBMS-MSCH-ConfigurationInfo-r6,
	MBMS-NeighbouringCellSCCPCHList-r6,
	MBMS-NeighbouringCellSCCPCHList-v770ext,
	MBMS-NumberOfNeighbourCells-r6,
	MBMS-PhyChInformationList-r6,
	MBMS-PhyChInformationList-r7,
	MBMS-PhyChInformationList-IMB384,
	MBMS-PL-ServiceRestrictInfo-r6,
	MBMS-PreferredFrequencyList-r6,
	MBMS-PTMActivationTime-r6,
	MBMS-SelectedServiceInfo,
	MBMS-SelectedServicesShort,
	MBMS-ServiceAccessInfoList-r6,
	MBMS-ServiceIdentity-r6,
	MBMS-ServiceSchedulingInfoList-r6,
	MBMS-SIBType5-SCCPCHList-r6,
	MBMS-TimersAndCounters-r6,
	MBMS-TranspChInfoForEachCCTrCh-r6,
	MBMS-TranspChInfoForEachTrCh-r6,
	MBMS-UnmodifiedServiceList-r6,
	MBMS-UnmodifiedServiceList-v770ext,
	MBSFN-ClusterFrequency-r7,
	MBSFN-InterFrequencyNeighbourList-r7,
	MBSFN-InterFrequencyNeighbourList-v860ext,
	MBMS-NetworkStandardTimeInformation-LCR-v890ext,
	MBSFN-TDDInformation-LCR,
	MBSFN-TDM-Info-List,
-- MDT IEs
	LoggedMeasurementsConfigurationInfo,
	LoggedMeasurementsConfigurationInfo-r11,
	LoggedMeasReport,
	LoggedMeasReport-vb50ext,
	LoggedMeasReport-vc50ext,
	ConnectionEstablishmentFailureReport,
	ConnectionEstablishmentFailureReport-r11,
	ConnectionEstablishmentFailureReport-vc50ext,
	RsrqType,
-- UTRAN ANR IEs
	LoggedANRConfigurationInfo,
	LoggedANRReportInfoList,
	LoggedANRReportInfoList-vb50ext,
-- WLAN Offload IEs
	WLANOffloadConfig,
	WLANOffloadInformation


FROM InformationElements

	maxSIBperMsg,
	maxURNTI-Group
FROM Constant-definitions;

-- ***************************************************
--
-- ACTIVE SET UPDATE (FDD only)
--
-- ***************************************************

ActiveSetUpdate ::= CHOICE {
	r3								SEQUENCE {
		activeSetUpdate-r3				ActiveSetUpdate-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			activeSetUpdate-r3-add-ext		BIT STRING		OPTIONAL,
			v4b0NonCriticalExtensions		SEQUENCE {
				activeSetUpdate-v4b0ext		ActiveSetUpdate-v4b0ext-IEs,
				v590NonCriticalExtensions		SEQUENCE {
					activeSetUpdate-v590ext			ActiveSetUpdate-v590ext-IEs,
					v690NonCriticalExtensions		SEQUENCE {
						activeSetUpdate-v690ext			ActiveSetUpdate-v690ext-IEs,
						nonCriticalExtensions			SEQUENCE {} OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			} OPTIONAL
		} OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r6								SEQUENCE {
				activeSetUpdate-r6				ActiveSetUpdate-r6-IEs,
				activeSetUpdate-r6-add-ext		BIT STRING		OPTIONAL,
				v6b0NonCriticalExtensions		SEQUENCE {
					activeSetUpdate-v6b0ext			ActiveSetUpdate-v6b0ext-IEs,
					nonCriticalExtensions			SEQUENCE {}		OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				CHOICE {
				r7								SEQUENCE {
					activeSetUpdate-r7				ActiveSetUpdate-r7-IEs,
					activeSetUpdate-r7-add-ext		BIT STRING		OPTIONAL,
					v780NonCriticalExtensions		SEQUENCE {
						activeSetUpdate-v780ext			ActiveSetUpdate-v780ext-IEs,
						v7f0NonCriticalExtensions	SEQUENCE {
							activeSetUdpate-v7f0ext		ActiveSetUpdate-v7f0ext-IEs,
							v7g0NonCriticalExtensions	SEQUENCE {
								activeSetUdpate-v7g0ext		ActiveSetUpdate-v7g0ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r8								SEQUENCE {
						activeSetUpdate-r8				ActiveSetUpdate-r8-IEs,
						-- Container for adding non critical extensions after freezing REL-9
						activeSetUpdate-r8-add-ext		BIT STRING		OPTIONAL,
						v890NonCriticalExtensions		SEQUENCE {
							activeSetUpdate-v890ext			ActiveSetUpdate-v890ext-IEs,
							v7g0NonCriticalExtensions		SEQUENCE {
								activeSetUpdate-v7g0ext			ActiveSetUpdate-v7g0ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r9								SEQUENCE {
							activeSetUpdate-r9				ActiveSetUpdate-r9-IEs,
							-- Container for adding non critical extensions after freezing REL-10
							activeSetUpdate-r9-add-ext		BIT STRING		OPTIONAL,
							v950NonCriticalExtensions		SEQUENCE {
								activeSetUpdate-v950ext			ActiveSetUpdate-v950ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r10								SEQUENCE {
								activeSetUpdate-r10				ActiveSetUpdate-r10-IEs,
								-- Container for adding non critical extensions after freezing 
								-- REL-11
								activeSetUpdate-r10-add-ext		BIT STRING		OPTIONAL,
								vb50NonCriticalExtensions		SEQUENCE {
									activeSetUpdate-vb50ext			ActiveSetUpdate-vb50ext-IEs,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r11								SEQUENCE {
									activeSetUpdate-r11				ActiveSetUpdate-r11-IEs,
									-- Container for adding non critical extensions after freezing 
									-- REL-12
									activeSetUpdate-r11-add-ext		BIT STRING		OPTIONAL,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								}, 
								criticalExtensions				CHOICE {
									r12								SEQUENCE {
										activeSetUpdate-r12				ActiveSetUpdate-r12-IEs,
										-- Container for adding non critical extensions after freezing 
										-- REL-13
										activeSetUpdate-r12-add-ext		BIT STRING		OPTIONAL,
										nonCriticalExtensions			SEQUENCE {}		OPTIONAL
									},
									criticalExtensions				CHOICE {
										r13								SEQUENCE {
											activeSetUpdate-r13				ActiveSetUpdate-r13-IEs,
											-- Container for adding non critical extensions after freezing 
											-- REL-14
											activeSetUpdate-r13-add-ext		BIT STRING		OPTIONAL,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										},
										criticalExtensions				SEQUENCE {}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}

ActiveSetUpdate-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		-- dummy and dummy2 are not used in this version of the specification, they should
		-- not be sent and if received they should be ignored.
		dummy							IntegrityProtectionModeInfo			OPTIONAL,
		dummy2							CipheringModeInfo						OPTIONAL,
		activationTime					ActivationTime							OPTIONAL,
		newU-RNTI						U-RNTI									OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo						OPTIONAL,
	-- Radio bearer IEs
		-- dummy3 is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy3							DL-CounterSynchronisationInfo			OPTIONAL,
	-- Physical channel IEs
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power					OPTIONAL,
		rl-AdditionInformationList	RL-AdditionInformationList			OPTIONAL,
		rl-RemovalInformationList		RL-RemovalInformationList				OPTIONAL,
		tx-DiversityMode				TX-DiversityMode						OPTIONAL,
		-- dummy4 is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy4							SSDT-Information						OPTIONAL
}

ActiveSetUpdate-v4b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy							SSDT-UL									OPTIONAL,
		-- The order of the RLs in IE cell-id-PerRL-List is the same as
		-- in IE RL-AdditionInformationList included in this message
		cell-id-PerRL-List				CellIdentity-PerRL-List				OPTIONAL
}

ActiveSetUpdate-v590ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dpc-Mode						DPC-Mode,
		dl-TPC-PowerOffsetPerRL-List	DL-TPC-PowerOffsetPerRL-List			OPTIONAL
}

ActiveSetUpdate-v690ext-IEs ::= SEQUENCE {
	-- Core network IEs
		primary-plmn-Identity			PLMN-Identity							OPTIONAL
}

ActiveSetUpdate-r6-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime					ActivationTime							OPTIONAL,
		newU-RNTI						U-RNTI									OPTIONAL,
		newH-RNTI						H-RNTI									OPTIONAL,
		newPrimary-E-RNTI				E-RNTI									OPTIONAL,
		newSecondary-E-RNTI			E-RNTI									OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6					OPTIONAL,
	-- Physical channel IEs
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power					OPTIONAL,
		rl-AdditionInformationList	RL-AdditionInformationList-r6			OPTIONAL,
		rl-RemovalInformationList		RL-RemovalInformationList				OPTIONAL,
		tx-DiversityMode				TX-DiversityMode						OPTIONAL,
		dpc-Mode						DPC-Mode								OPTIONAL,
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation	OPTIONAL,
		e-dch-ReconfigurationInfo		E-DCH-ReconfigurationInfo				OPTIONAL
}

ActiveSetUpdate-v6b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	rl-AdditionInformation-list-v6b0ext	RL-AdditionInformation-list-v6b0ext	OPTIONAL
}

ActiveSetUpdate-r7-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime						ActivationTime						OPTIONAL,
		newU-RNTI							U-RNTI								OPTIONAL,
		newH-RNTI							H-RNTI								OPTIONAL,
		newPrimary-E-RNTI					E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo					CN-InformationInfo-r6				OPTIONAL,
	-- Physical channel IEs
		dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info						DTX-DRX-Info-r7					OPTIONAL,
		hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
		mimoParameters						MIMO-Parameters-r7					OPTIONAL,
		maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
		rl-AdditionInformationList		RL-AdditionInformationList-r7	OPTIONAL,
		rl-RemovalInformationList			RL-RemovalInformationList			OPTIONAL,
		tx-DiversityMode					TX-DiversityMode					OPTIONAL,
		dpc-Mode							DPC-Mode							OPTIONAL,
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r7	OPTIONAL,
		e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r7		OPTIONAL,
		ul-16QAM-Config					UL-16QAM-Config					OPTIONAL,
		e-dch-ReconfInfoSameCell			E-DCH-RL-InfoSameServingCell		OPTIONAL,
		e-TFC-Boost-Info					E-TFC-Boost-Info-r7				OPTIONAL,
		e-DPDCH-PowerInterpolation		E-DPDCH-PowerInterpolation		OPTIONAL
}

ActiveSetUpdate-v780ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable				OPTIONAL
}

ActiveSetUpdate-v7f0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	mimoParameters							MIMO-Parameters-v7f0ext			OPTIONAL
}

ActiveSetUpdate-v7g0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	mimoParameters							MIMO-Parameters-v7g0ext			OPTIONAL
}

ActiveSetUpdate-r8-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime						ActivationTime						OPTIONAL,
		newU-RNTI							U-RNTI								OPTIONAL,
		newH-RNTI							H-RNTI								OPTIONAL,
		newPrimary-E-RNTI					E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo					CN-InformationInfo-r6				OPTIONAL,
	-- Physical channel IEs
		dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info						DTX-DRX-Info-r7					OPTIONAL,
		hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
		mimoParameters						MIMO-Parameters-r8					OPTIONAL,
		maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
		rl-AdditionInformationList		RL-AdditionInformationList-r8	OPTIONAL,
		servingCellChangeParameters		ServingCellChangeParameters		OPTIONAL,
		rl-RemovalInformationList			RL-RemovalInformationList			OPTIONAL,
		tx-DiversityMode					TX-DiversityMode					OPTIONAL,
		dpc-Mode							DPC-Mode							OPTIONAL,
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r8	OPTIONAL,
		e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r7		OPTIONAL,
		ul-16QAM-Config					UL-16QAM-Config					OPTIONAL,
		e-dch-ReconfInfoSameCell			E-DCH-RL-InfoSameServingCell		OPTIONAL,
		e-TFC-Boost-Info					E-TFC-Boost-Info-r7				OPTIONAL,
		e-DPDCH-PowerInterpolation		E-DPDCH-PowerInterpolation		OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD			OPTIONAL
}

ActiveSetUpdate-v890ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-SecondaryCellInfoFDD-v890ext	DL-SecondaryCellInfoFDD-v890ext	OPTIONAL,
		mimoParameters						MIMO-Parameters-v7f0ext			OPTIONAL,
		rl-AdditionInformationList		RL-AdditionInformationList-v890ext	OPTIONAL
}

ActiveSetUpdate-r9-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime						ActivationTime						OPTIONAL,
		newU-RNTI							U-RNTI								OPTIONAL,
		newH-RNTI							H-RNTI								OPTIONAL,
		newPrimary-E-RNTI					E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo					CN-InformationInfo-r6				OPTIONAL,
	-- Physical channel IEs
		dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info						DTX-DRX-Info-r7					OPTIONAL,
		hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
		mimoParameters						MIMO-Parameters-r9					OPTIONAL,
		maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD			OPTIONAL,
		e-dch-ReconfigurationInfo-SecULFrequency	
									E-DCH-ReconfigurationInfo-SecULFrequency	OPTIONAL,
		rl-AdditionInformationList		RL-AdditionInformationList-r9	OPTIONAL,
		rl-AdditionInformationList-SecULFreq 
									RL-AdditionInformationList-SecULFreq		OPTIONAL,
		servingCellChangeParameters		ServingCellChangeParameters		OPTIONAL,
		rl-RemovalInformationList			RL-RemovalInformationList			OPTIONAL,
		rl-RemovalInformationList-SecULFreq 
									RL-RemovalInformationList-SecULFreq		OPTIONAL,
		tx-DiversityMode					TX-DiversityMode					OPTIONAL,
		dpc-Mode							DPC-Mode							OPTIONAL,
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r9	OPTIONAL,
		e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r7		OPTIONAL,
		ul-16QAM-Config					UL-16QAM-Config					OPTIONAL,
		e-dch-ReconfInfoSameCell			E-DCH-RL-InfoSameServingCell		OPTIONAL,
		e-TFC-Boost-Info					E-TFC-Boost-Info-r7				OPTIONAL,
		e-DPDCH-PowerInterpolation		E-DPDCH-PowerInterpolation		OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r9		OPTIONAL
}

ActiveSetUpdate-v950ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		secondaryCellMimoParameters	SecondaryCellMIMOparametersFDD-v950ext	OPTIONAL,
		rl-AdditionInformationList	RL-AdditionInformationList-v950ext		OPTIONAL
}

ActiveSetUpdate-r10-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime						ActivationTime						OPTIONAL,
		newU-RNTI							U-RNTI								OPTIONAL,
		newH-RNTI							H-RNTI								OPTIONAL,
		newPrimary-E-RNTI					E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo					CN-InformationInfo-r6				OPTIONAL,
	-- Physical channel IEs
		dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info						DTX-DRX-Info-r7					OPTIONAL,
		hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
		mimoParameters						MIMO-Parameters-r9					OPTIONAL,
		maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD			OPTIONAL,
		e-dch-ReconfigurationInfo-SecULFrequency	
									E-DCH-ReconfigurationInfo-SecULFrequency	OPTIONAL,
		rl-AdditionInformationList		RL-AdditionInformationList-r10	OPTIONAL,
		rl-AdditionInformationList-SecULFreq 
									RL-AdditionInformationList-SecULFreq		OPTIONAL,
		servingCellChangeParameters		ServingCellChangeParameters		OPTIONAL,
		rl-RemovalInformationList			RL-RemovalInformationList			OPTIONAL,
		rl-RemovalInformationList-SecULFreq 
									RL-RemovalInformationList-SecULFreq		OPTIONAL,
		tx-DiversityMode					TX-DiversityMode					OPTIONAL,
		dpc-Mode							DPC-Mode							OPTIONAL,
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r9	OPTIONAL,
		e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r7		OPTIONAL,
		ul-16QAM-Config					UL-16QAM-Config					OPTIONAL,
		e-dch-ReconfInfoSameCell			E-DCH-RL-InfoSameServingCell		OPTIONAL,
		e-TFC-Boost-Info					E-TFC-Boost-Info-r7				OPTIONAL,
		e-DPDCH-PowerInterpolation		E-DPDCH-PowerInterpolation		OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r10		OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD	OPTIONAL
}

ActiveSetUpdate-vb50ext-IEs ::= SEQUENCE {
		ulOLTDInfoFDD						UL-OLTD-InfoFDD					OPTIONAL,
		rl-AdditionInformationList		RL-AdditionInformationList-vb50ext	OPTIONAL
}

ActiveSetUpdate-r11-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime						ActivationTime						OPTIONAL,
		newU-RNTI							U-RNTI								OPTIONAL,
		newH-RNTI							H-RNTI								OPTIONAL,
		newPrimary-E-RNTI					E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo					CN-InformationInfo-r6				OPTIONAL,
	-- Physical channel IEs
		dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info						DTX-DRX-Info-r7					OPTIONAL,
		hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
		mimoParameters						MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters					MIMO4x4-Parameters					OPTIONAL,
		maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD			OPTIONAL,
		e-dch-ReconfigurationInfo-SecULFrequency	
									E-DCH-ReconfigurationInfo-SecULFrequency		OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD					OPTIONAL,
		f-tpich-ReconfigurationInfo		F-TPICH-ReconfigurationInfo		OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD					OPTIONAL,
		rl-AdditionInformationList		RL-AdditionInformationList-r11	OPTIONAL,
		rl-AdditionInformationList-SecULFreq 
									RL-AdditionInformationList-SecULFreq		OPTIONAL,
		servingCellChangeParameters		ServingCellChangeParameters		OPTIONAL,
		rl-RemovalInformationList			RL-RemovalInformationList			OPTIONAL,
		rl-RemovalInformationList-SecULFreq 
									RL-RemovalInformationList-SecULFreq		OPTIONAL,
		tx-DiversityMode					TX-DiversityMode					OPTIONAL,
		dpc-Mode							DPC-Mode							OPTIONAL,
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r11	OPTIONAL,
		e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r11	OPTIONAL,
		ul-16QAM-Config					UL-16QAM-Config					OPTIONAL,
		ul-64QAM-Config					UL-64QAM-Config					OPTIONAL,
		ul-MIMO-InfoFDD					UL-MIMO-InfoFDD					OPTIONAL,
		e-dch-ReconfInfoSameCell			E-DCH-RL-InfoSameServingCell		OPTIONAL,
		e-TFC-Boost-Info					E-TFC-Boost-Info-r7				OPTIONAL,
		e-DPDCH-PowerInterpolation		E-DPDCH-PowerInterpolation		OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11		OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2	OPTIONAL
}

ActiveSetUpdate-r12-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime						ActivationTime						OPTIONAL,
		newU-RNTI							U-RNTI								OPTIONAL,
		newH-RNTI							H-RNTI								OPTIONAL,
		newPrimary-E-RNTI					E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo					CN-InformationInfo-r6				OPTIONAL,
	-- Physical channel IEs
		dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info						DTX-DRX-Info-r12					OPTIONAL,
		hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
		mimoParameters						MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters					MIMO4x4-Parameters					OPTIONAL,
		dch-Enhancements-Info-FDD			DCH-Enhancements-Info-FDD			OPTIONAL,
		maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r12		OPTIONAL,
		e-dch-ReconfigurationInfo-SecULFrequency	
								E-DCH-ReconfigurationInfo-SecULFrequency	OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD					OPTIONAL,
		f-tpich-ReconfigurationInfo		F-TPICH-ReconfigurationInfo		OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD					OPTIONAL,
		rl-AdditionInformationList		RL-AdditionInformationList-r12	OPTIONAL,
		rl-AdditionInformationList-SecULFreq 
								RL-AdditionInformationList-SecULFreq-r12	OPTIONAL,
		servingCellChangeParameters		ServingCellChangeParameters-r12	OPTIONAL,
		rl-RemovalInformationList			RL-RemovalInformationList			OPTIONAL,
		rl-RemovalInformationList-SecULFreq 
								RL-RemovalInformationList-SecULFreq			OPTIONAL,
		tx-DiversityMode					TX-DiversityMode					OPTIONAL,
		dpc-Mode							DPC-Mode							OPTIONAL,
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r12	OPTIONAL,
		e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r11	OPTIONAL,
		ul-16QAM-Config					UL-16QAM-Config					OPTIONAL,
		ul-64QAM-Config					UL-64QAM-Config					OPTIONAL,
		ul-MIMO-InfoFDD					UL-MIMO-InfoFDD					OPTIONAL,
		e-dch-ReconfInfoSameCell			E-DCH-RL-InfoSameServingCell		OPTIONAL,
		e-TFC-Boost-Info					E-TFC-Boost-Info-r7				OPTIONAL,
		e-DPDCH-PowerInterpolation		E-DPDCH-PowerInterpolation		OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11		OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2	OPTIONAL,
		dPCCH2InfoFDD						DPCCH2InfoFDD						OPTIONAL
}

ActiveSetUpdate-r13-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime						ActivationTime						OPTIONAL,
		dynamicActivationTime				DynamicActivationTime				OPTIONAL,
		newU-RNTI							U-RNTI								OPTIONAL,
		newH-RNTI							H-RNTI								OPTIONAL,
		newPrimary-E-RNTI					E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo					CN-InformationInfo-r6				OPTIONAL,
	-- Physical channel IEs
		dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info						DTX-DRX-Info-r12					OPTIONAL,
		hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
		mimoParameters						MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters					MIMO4x4-Parameters					OPTIONAL,
		dch-Enhancements-Info-FDD			DCH-Enhancements-Info-FDD			OPTIONAL,
		maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r13		OPTIONAL,
		e-dch-ReconfigurationInfo-SecULFrequency	
								E-DCH-ReconfigurationInfo-SecULFrequency	OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD					OPTIONAL,
		f-tpich-ReconfigurationInfo		F-TPICH-ReconfigurationInfo		OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD					OPTIONAL,
		rl-AdditionInformationList		RL-AdditionInformationList-r13	OPTIONAL,
		rl-AdditionInformationList-SecULFreq 
								RL-AdditionInformationList-SecULFreq-r13	OPTIONAL,
		servingCellChangeParameters		ServingCellChangeParameters-r12	OPTIONAL,
		rl-RemovalInformationList			RL-RemovalInformationList			OPTIONAL,
		rl-RemovalInformationList-SecULFreq 
									RL-RemovalInformationList-SecULFreq		OPTIONAL,
		tx-DiversityMode					TX-DiversityMode					OPTIONAL,
		dpc-Mode							DPC-Mode							OPTIONAL,
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r12	OPTIONAL,
		e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r11	OPTIONAL,
		ul-16QAM-Config					UL-16QAM-Config					OPTIONAL,
		ul-64QAM-Config					UL-64QAM-Config					OPTIONAL,
		ul-MIMO-InfoFDD					UL-MIMO-InfoFDD					OPTIONAL,
		e-dch-ReconfInfoSameCell			E-DCH-RL-InfoSameServingCell		OPTIONAL,
		e-TFC-Boost-Info					E-TFC-Boost-Info-r7				OPTIONAL,
		e-DPDCH-PowerInterpolation		E-DPDCH-PowerInterpolation		OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11		OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2	OPTIONAL,
		dPCCH2InfoFDD						DPCCH2InfoFDD						OPTIONAL
}

-- ***************************************************
--
-- ACTIVE SET UPDATE COMPLETE (FDD only)
--
-- ***************************************************

ActiveSetUpdateComplete ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy						IntegrityProtActivationInfo				OPTIONAL,
	-- Radio bearer IEs
		-- dummy2 and dummy3 are not used in this version of the specification, they should
		-- not be sent and if received they should be ignored.
		dummy2						RB-ActivationTimeInfoList					OPTIONAL,
		dummy3						UL-CounterSynchronisationInfo				OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			activeSetUpdateComplete-r3-add-ext		BIT STRING				OPTIONAL,
			nonCriticalExtensions						SEQUENCE {}			OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- ACTIVE SET UPDATE FAILURE (FDD only)
--
-- ***************************************************

ActiveSetUpdateFailure ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		failureCause					FailureCauseWithProtErr,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			activeSetUpdateFailure-r3-add-ext		BIT STRING				OPTIONAL,
			nonCriticalExtensions						SEQUENCE {}			OPTIONAL
	}	OPTIONAL
}

-- ***************************************************
--
-- ASSISTANCE DATA DELIVERY--
-- ***************************************************

AssistanceDataDelivery ::= CHOICE {
	r3								SEQUENCE {
		assistanceDataDelivery-r3		AssistanceDataDelivery-r3-IEs,
		v3a0NonCriticalExtensions		SEQUENCE {
			assistanceDataDelivery-v3a0ext	AssistanceDataDelivery-v3a0ext,
			laterNonCriticalExtensions		SEQUENCE {
				-- Container for additional R99 extensions
				assistanceDataDelivery-r3-add-ext		BIT STRING		OPTIONAL,
				v4b0NonCriticalExtensions		SEQUENCE { 
					assistanceDataDelivery-v4b0ext	AssistanceDataDelivery-v4b0ext-IEs,
					v770NonCriticalExtension		SEQUENCE {
						assistanceDataDelivery-v770ext	AssistanceDataDelivery-v770ext-IEs,
						v860NonCriticalExtension		SEQUENCE {
							assistanceDataDelivery-v860ext	AssistanceDataDelivery-v860ext-IEs,
							v920NonCriticalExtension			SEQUENCE {
								assistanceDataDelivery-v920ext	AssistanceDataDelivery-v920ext-IEs,
								va40NonCriticalExtension		SEQUENCE {
									assistanceDataDelivery-va40ext	
																AssistanceDataDelivery-va40ext-IEs,
									vc50NonCriticalExtension		SEQUENCE {
										assistanceDataDelivery-vc50ext	
																AssistanceDataDelivery-vc50ext-IEs,
										nonCriticalExtensions			SEQUENCE {}		OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

AssistanceDataDelivery-r3-IEs ::=		SEQUENCE {
	-- User equipment IEs
	rrc-TransactionIdentifier					RRC-TransactionIdentifier,
	-- Measurement Information Elements
	ue-positioning-GPS-AssistanceData		UE-Positioning-GPS-AssistanceData	OPTIONAL,
	ue-positioning-OTDOA-AssistanceData-UEB	UE-Positioning-OTDOA-AssistanceData-UEB		OPTIONAL
}

AssistanceDataDelivery-v3a0ext ::= SEQUENCE {
	sfn-Offset-Validity					SFN-Offset-Validity						OPTIONAL
}

AssistanceDataDelivery-v4b0ext-IEs ::= SEQUENCE {
	ue-Positioning-OTDOA-AssistanceData-r4ext	UE-Positioning-OTDOA-AssistanceData-r4ext	OPTIONAL
}

AssistanceDataDelivery-v770ext-IEs ::= SEQUENCE {
	ue-Positioning-OTDOA-AssistanceData-UEB-ext
									UE-Positioning-OTDOA-AssistanceData-UEB-ext		OPTIONAL,
	ue-Positioning-GPS-AssistanceData	
									UE-Positioning-GPS-AssistanceData-v770ext		OPTIONAL,
	ue-positioning-GANSS-AssistanceData	
									UE-Positioning-GANSS-AssistanceData				OPTIONAL
}

AssistanceDataDelivery-v860ext-IEs ::= SEQUENCE {
	ue-positioning-GANSS-AssistanceData-v860ext
									UE-Positioning-GANSS-AssistanceData-v860ext		OPTIONAL
}

AssistanceDataDelivery-v920ext-IEs ::= SEQUENCE {
	ue-positioning-GPS-AssistanceData-v920ext 
								UE-Positioning-GPS-AssistanceData-v920ext			OPTIONAL,
	ue-positioning-GANSS-AssistanceData-v920ext
								UE-Positioning-GANSS-AssistanceData-v920ext			OPTIONAL
}

AssistanceDataDelivery-va40ext-IEs ::= SEQUENCE {
	ue-positioning-GPS-AssistanceData-va40ext 
								UE-Positioning-GPS-AssistanceData-va40ext			OPTIONAL,
	ue-positioning-GANSS-AssistanceData-va40ext
								UE-Positioning-GANSS-AssistanceData-va40ext			OPTIONAL
}

AssistanceDataDelivery-vc50ext-IEs ::= SEQUENCE {
	ue-positioning-GPS-AssistanceData-vc50ext 
								UE-Positioning-GPS-AssistanceData-vc50ext			OPTIONAL,
	ue-positioning-GANSS-AssistanceData-vc50ext
								UE-Positioning-GANSS-AssistanceData-vc50ext			OPTIONAL
}

-- ***************************************************
--
-- CELL CHANGE ORDER FROM UTRAN
--
-- ***************************************************

CellChangeOrderFromUTRAN ::= CHOICE {
	r3								SEQUENCE {
		cellChangeOrderFromUTRAN-IEs		CellChangeOrderFromUTRAN-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			cellChangeOrderFromUTRAN-r3-add-ext		BIT STRING						OPTIONAL,
			v590NonCriticalExtensions					SEQUENCE {
				cellChangeOrderFromUTRAN-v590ext			CellChangeOrderFromUTRAN-v590ext-IEs,
				nonCriticalExtensions						SEQUENCE {}				OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

CellChangeOrderFromUTRAN-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy							IntegrityProtectionModeInfo					OPTIONAL,
		activationTime					ActivationTime									OPTIONAL,
		-- the IE rab-InformationList is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored. The IE may be used in a later
		-- version of the protocol and hence it is not changed into a dummy
		rab-InformationList			RAB-InformationList							OPTIONAL,
		interRAT-TargetCellDescription	InterRAT-TargetCellDescription
}

CellChangeOrderFromUTRAN-v590ext-IEs ::= SEQUENCE {		
		geran-SystemInfoType				CHOICE	{		
			sI									GERAN-SystemInformation,
			pSI									GERAN-SystemInformation
		}		OPTIONAL
}

-- ***************************************************
--
-- CELL CHANGE ORDER FROM UTRAN FAILURE
--
-- ***************************************************

CellChangeOrderFromUTRANFailure ::= CHOICE {
	r3								SEQUENCE {
		cellChangeOrderFromUTRANFailure-r3
										CellChangeOrderFromUTRANFailure-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			cellChangeOrderFromUTRANFailure-r3-add-ext		BIT STRING			OPTIONAL,
			nonCriticalExtensions								SEQUENCE {}		OPTIONAL
		}	OPTIONAL
	},
	-- dummy is not used in this version of the specification and it
	-- should be ignored.
	dummy							SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

CellChangeOrderFromUTRANFailure-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier			RRC-TransactionIdentifier,
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy								IntegrityProtectionModeInfo			OPTIONAL,
		interRAT-ChangeFailureCause		InterRAT-ChangeFailureCause
}

-- ***************************************************
--
-- CELL UPDATE
--
-- ***************************************************

CellUpdate ::= SEQUENCE {
	-- User equipment IEs
		u-RNTI									U-RNTI,
		startList								STARTList,
		am-RLC-ErrorIndicationRb2-3or4		BOOLEAN,
		am-RLC-ErrorIndicationRb5orAbove		BOOLEAN,
		cellUpdateCause						CellUpdateCause,
		-- TABULAR: RRC transaction identifier is nested in FailureCauseWithProtErrTrId
		failureCause							FailureCauseWithProtErrTrId		OPTIONAL,
		rb-timer-indicator						Rb-timer-indicator,
	-- Measurement IEs
		measuredResultsOnRACH					MeasuredResultsOnRACH				OPTIONAL,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			-- The cellUpdate-r3-add-ext can be omitted if its inclusion would result in the 
			-- size of the message exceeding the maximum PDU size possible for CCCH
			-- transmission
			cellUpdate-r3-add-ext			BIT STRING
								(CONTAINING CellUpdate-r3-add-ext-IEs)			OPTIONAL,
			v590NonCriticalExtensions	SEQUENCE {
				cellUpdate-v590ext	CellUpdate-v590ext, 
				v690NonCriticalExtensions		SEQUENCE {
					cellUpdate-v690ext				CellUpdate-v690ext-IEs,
					v6b0NonCriticalExtensions		SEQUENCE {
						cellUpdate-v6b0ext				CellUpdate-v6b0ext-IEs,
						v770NonCriticalExtensions		SEQUENCE {
							cellUpdate-v770ext				CellUpdate-v770ext-IEs,
							v860NonCriticalExtensions		SEQUENCE {
								cellUpdate-v860ext				CellUpdate-v860ext-IEs,
								-- The va40NonCriticalExtensions can be omitted if its inclusion
								-- would result in the size of the message exceeding the maximum PDU
								-- size possible for CCCH transmission
								va40NonCriticalExtensions		SEQUENCE {
									cellUpdate-va40ext				CellUpdate-va40ext-IEs,
									vb50NonCriticalExtensions		SEQUENCE {
										cellUpdate-vb50ext				CellUpdate-vb50ext-IEs,
										vc50NonCriticalExtensions		SEQUENCE {
											cellUpdate-vc50ext				CellUpdate-vc50ext-IEs,
											ve30LaterNonCriticalExtensions CellUpdate-ve30ext-IEs	OPTIONAL
										}		OPTIONAL
									}		OPTIONAL
								}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}	OPTIONAL
}

CellUpdate-ve30ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		cellUpdateCause-ext2			CellUpdateCause-ext2			OPTIONAL,
		nonCriticalExtensions			SEQUENCE {}					OPTIONAL
}

CellUpdate-r3-add-ext-IEs ::=		SEQUENCE {
	cellUpdate-v7e0ext					CellUpdate-v7e0ext-IEs,
	v7g0NonCriticalExtensions			SEQUENCE {
		cellUpdate-v7g0ext					CellUpdate-v7g0ext-IEs,
		nonCriticalExtensions				SEQUENCE {}								OPTIONAL
	}		OPTIONAL
}

CellUpdate-v590ext ::= SEQUENCE {
	establishmentCause					EstablishmentCause								OPTIONAL
}

CellUpdate-v690ext-IEs ::=		SEQUENCE {
	-- User equipment IEs
		cellUpdateCause-ext				CellUpdateCause-ext						OPTIONAL,
		trafficVolumeIndicator			ENUMERATED { true }						OPTIONAL,
	-- Measurement IEs
		measuredResultsOnRACHinterFreq	MeasuredResultsOnRACHinterFreq			OPTIONAL,
		reconfigurationStatusIndicator	ENUMERATED { true }						OPTIONAL
}

CellUpdate-v6b0ext-IEs ::=		SEQUENCE {
	-- MBMS IEs
	-- The mbmsSelectedServices can be omitted if its inclusion would result in the 
	-- size of the message exceeding the maximum PDU size possible for CCCH transmission
		mbmsSelectedServices			MBMS-SelectedServicesShort					OPTIONAL
}

CellUpdate-v770ext-IEs ::=		SEQUENCE {
	-- User equipment IEs
		csCallType						ENUMERATED { speech, video, other, spare }	OPTIONAL,
		hspdschReception-CellFach		ENUMERATED { true }							OPTIONAL,
		ueMobilityStateIndicator		High-MobilityDetected							OPTIONAL,
		capabilityChangeIndicator		ENUMERATED { true }							OPTIONAL
}

CellUpdate-v7e0ext-IEs ::=			SEQUENCE {
	-- User equipment IEs
		supportForTwoDRXSchemesInPCH		ENUMERATED { true }						OPTIONAL
}

CellUpdate-v7g0ext-IEs ::=			SEQUENCE {
	-- Measurement IEs
		measuredResultsOnRACH-v7g0ext		MeasuredResultsOnRACH-v7g0ext			OPTIONAL
}

CellUpdate-v860ext-IEs ::=			SEQUENCE {
	-- User equipment IEs
		supportOfCommonEDCH				ENUMERATED { true }						OPTIONAL,
		supportOfHS-DSCHDRXOperation		ENUMERATED { true }						OPTIONAL,
		supportOfMACiis					ENUMERATED { true }						OPTIONAL,
		supportOfSPSOperation				ENUMERATED { true }						OPTIONAL,
		supportOfControlChannelDRXOperation
											ENUMERATED { true }						OPTIONAL
}

CellUpdate-va40ext-IEs ::= 			SEQUENCE {
	-- User equipment IEs
		securityRevertStatusIndicator		
									ENUMERATED { revertedBack, normalOperation }	OPTIONAL,
	-- Other IEs
		loggedMeasAvailable				ENUMERATED { true }						OPTIONAL,
		loggedANRResultsAvailable			ENUMERATED { true }						OPTIONAL
}

-- TABULAR: TDD related IEs, MBMS IEs, and supportForTwoDRXSchemesInPCH are omitted compared to 
-- tabular for the purpose of coding optimisation
CellUpdateFDD-r11	::=	SEQUENCE	{
-- User equipment IEs
	u-RNTI									U-RNTI,
	startList								STARTList,
	am-RLC-ErrorIndicationRb2-3or4		BOOLEAN,
	am-RLC-ErrorIndicationRb5orAbove		BOOLEAN,
	cellUpdateCause						CellUpdateCause,
	-- TABULAR: RRC transaction identifier is nested in FailureCauseWithProtErrTrId
	failureCause							FailureCauseWithProtErrTrId				OPTIONAL,
	rb-timer-indicator						Rb-timer-indicator,
	establishmentCause						EstablishmentCause							OPTIONAL,
	trafficVolumeIndicator				ENUMERATED { true }						OPTIONAL,
	reconfigurationStatusIndicator		ENUMERATED { true }						OPTIONAL,
	csCallType							ENUMERATED { speech, video, other, spare }	OPTIONAL,
	hspdschReception-CellFach				ENUMERATED { true }						OPTIONAL,
	ueMobilityStateIndicator				High-MobilityDetected						OPTIONAL,
	capabilityChangeIndicator				ENUMERATED { true }						OPTIONAL,
	supportOfCommonEDCH					ENUMERATED { true }						OPTIONAL,
	supportOfHS-DSCHDRXOperation			ENUMERATED { true }						OPTIONAL,
	supportOfMACiis						ENUMERATED { true }						OPTIONAL,
	securityRevertStatusIndicator	ENUMERATED { revertedBack, normalOperation }	OPTIONAL,
	applicationLayerMeasurementReportAvailable	ENUMERATED { true }					OPTIONAL,
	spare3									ENUMERATED { true }						OPTIONAL,
	spare2									ENUMERATED { true }						OPTIONAL,
	spare1									ENUMERATED { true }						OPTIONAL,
-- Measurement IEs
	measuredResultsOnRACH					MeasuredResultsOnRACHFDD-r11				OPTIONAL,
-- Other IEs
	loggedMeasAvailable					ENUMERATED { true }						OPTIONAL,
	loggedANRResultsAvailable				ENUMERATED { true }						OPTIONAL
}

CellUpdate-vb50ext-IEs ::= 			SEQUENCE {
	-- Measurement IEs
		measuredResultsOnRACHEUTRAFreq	MeasuredResultsOnRACH-EUTRAFreq			OPTIONAL
}

CellUpdate-vc50ext-IEs ::=			SEQUENCE {
	-- Measurement IEs
		measuredResultsOnRACH				MeasuredResultsOnRACH-vc50ext			OPTIONAL
}

-- ***************************************************
--
-- CELL UPDATE CONFIRM
--
-- ***************************************************

CellUpdateConfirm ::= CHOICE {
	r3								SEQUENCE {
		cellUpdateConfirm-r3			CellUpdateConfirm-r3-IEs,
		v3a0NonCriticalExtensions		SEQUENCE {
			cellUpdateConfirm-v3a0ext		CellUpdateConfirm-v3a0ext,
			laterNonCriticalExtensions		SEQUENCE {
				-- Container for additional R99 extensions
				cellUpdateConfirm-r3-add-ext	BIT STRING	OPTIONAL,
				v4b0NonCriticalExtensions		SEQUENCE {
					cellUpdateConfirm-v4b0ext		CellUpdateConfirm-v4b0ext-IEs,
					v590NonCriticalExtenstions		SEQUENCE {
						cellUpdateConfirm-v590ext		CellUpdateConfirm-v590ext-IEs,
						v5d0NonCriticalExtenstions		SEQUENCE {
							cellUpdateConfirm-v5d0ext		CellUpdateConfirm-v5d0ext-IEs,
							v690NonCriticalExtensions		SEQUENCE {
								cellUpdateConfirm-v690ext		CellUpdateConfirm-v690ext-IEs,
								nonCriticalExtensions			SEQUENCE {} OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				cellUpdateConfirm-r4			CellUpdateConfirm-r4-IEs,
				v4d0NonCriticalExtensions		SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					cellUpdateConfirm-r4-add-ext	BIT STRING		OPTIONAL,
					v590NonCriticalExtenstions		SEQUENCE {
						cellUpdateConfirm-v590ext		CellUpdateConfirm-v590ext-IEs,
						v5d0NonCriticalExtenstions		SEQUENCE {
							cellUpdateConfirm-v5d0ext		CellUpdateConfirm-v5d0ext-IEs,
							v690NonCriticalExtensions		SEQUENCE {
								cellUpdateConfirm-v690ext		CellUpdateConfirm-v690ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				CHOICE {
				r5								SEQUENCE {
					cellUpdateConfirm-r5			CellUpdateConfirm-r5-IEs,
					-- Container for adding non critical extensions after freezing REL-6
					cellUpdateConfirm-r5-add-ext	BIT STRING		OPTIONAL,
					v5d0NonCriticalExtenstions		SEQUENCE {
						cellUpdateConfirm-v5d0ext		CellUpdateConfirm-v5d0ext-IEs,
						v690NonCriticalExtensions		SEQUENCE {
							cellUpdateConfirm-v690ext		CellUpdateConfirm-v690ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r6								SEQUENCE {
						cellUpdateConfirm-r6			CellUpdateConfirm-r6-IEs,
						-- Container for adding non critical extensions after freezing REL-7
						cellUpdateConfirm-r6-add-ext	BIT STRING		OPTIONAL,
						v6b0NonCriticalExtensions		SEQUENCE {
							cellUpdateConfirm-v6b0ext		CellUpdateConfirm-v6b0ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r7								SEQUENCE {
							cellUpdateConfirm-r7			CellUpdateConfirm-r7-IEs,
							-- Container for adding non critical extensions after freezing REL-8
							cellUpdateConfirm-r7-add-ext	BIT STRING
										(CONTAINING CellUpdateConfirm-r7-add-ext-IEs)	OPTIONAL,
							v780NonCriticalExtensions		SEQUENCE {
								cellUpdateConfirm-v780ext		CellUpdateConfirm-v780ext-IEs,
								v860NonCriticalExtensions		SEQUENCE {
									cellUpdateConfirm-v860ext		CellUpdateConfirm-v860ext-IEs,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r8								SEQUENCE {
								cellUpdateConfirm-r8			CellUpdateConfirm-r8-IEs,
								-- Container for adding non critical extensions after freezing REL-9
								cellUpdateConfirm-r8-add-ext	BIT STRING		OPTIONAL,
								v7d0NonCriticalExtensions		SEQUENCE {
									cellUpdateConfirm-v7d0ext		CellUpdateConfirm-v7d0ext-IEs,
									v7f0NonCriticalExtensions		SEQUENCE {
										cellUpdateConfirm-v7f0ext	CellUpdateConfirm-v7f0ext-IEs,
										v890NonCriticalExtensions		SEQUENCE {
											cellUpdateConfirm-v890ext
															CellUpdateConfirm-v890ext-IEs,
											v7g0NonCriticalExtensions		SEQUENCE {
												cellUpdateConfirm-v7g0ext
															CellUpdateConfirm-v7g0ext-IEs,
												v8a0NonCriticalExtensions		SEQUENCE {
													cellUpdateConfirm-v8a0ext
																CellUpdateConfirm-v8a0ext-IEs,
													nonCriticalExtensions			SEQUENCE {}		OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r9								SEQUENCE {
									cellUpdateConfirm-r9			CellUpdateConfirm-r9-IEs,
									-- Container for adding non critical extensions after 
									-- freezing REL-10
									cellUpdateConfirm-r9-add-ext	BIT STRING		OPTIONAL,
									v950NonCriticalExtensions		SEQUENCE {
										cellUpdateConfirm-v950ext		CellUpdateConfirm-v950ext-IEs,
										v9c0NonCriticalExtensions		SEQUENCE {
											cellUpdateConfirm-v9c0ext		CellUpdateConfirm-v9c0ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								},
								criticalExtensions				CHOICE {
									r10								SEQUENCE {
										cellUpdateConfirm-r10			CellUpdateConfirm-r10-IEs,
										-- Container for adding non critical extensions after 
										-- freezing REL-11
										cellUpdateConfirm-r10-add-ext	BIT STRING		OPTIONAL,
										v9c0NonCriticalExtensions		SEQUENCE {
											cellUpdateConfirm-v9c0ext		CellUpdateConfirm-v9c0ext-IEs,
											vb50NonCriticalExtensions		SEQUENCE {
												cellUpdateConfirm-vb50ext
																	CellUpdateConfirm-vb50ext-IEs,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									},
									criticalExtensions				CHOICE {
										r11								SEQUENCE {
											cellUpdateConfirm-r11			CellUpdateConfirm-r11-IEs,
											-- Container for adding non critical extensions after 
											-- freezing REL-12
											cellUpdateConfirm-r11-add-ext	
																			BIT STRING	OPTIONAL,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										},
										criticalExtensions				CHOICE {
											r12								SEQUENCE {
												cellUpdateConfirm-r12	CellUpdateConfirm-r12-IEs,
												-- Container for adding non critical extensions 
												-- after freezing REL-13
												cellUpdateConfirm-r12-add-ext	
																			BIT STRING	OPTIONAL,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											},
											criticalExtensions				CHOICE {
												r13								SEQUENCE {
													cellUpdateConfirm-r13	CellUpdateConfirm-r13-IEs,
													-- Container for adding non critical extensions 
													-- after freezing REL-14
													cellUpdateConfirm-r13-add-ext	
																			BIT STRING	OPTIONAL,
													nonCriticalExtensions	SEQUENCE {}	OPTIONAL
												},
												criticalExtensions				CellUpdateConfirm-CriticalExtension-r14-IEs
											}
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}

CellUpdateConfirm-CriticalExtension-r14-IEs ::= CHOICE {
	r14					SEQUENCE {
		cellUpdateConfrim-r14   CellUpdateConfirm-r14-IEs,
	-- Container for adding non critical extensions after freezing REL-15
		cellUpdateConfirm-r14-add-ext	BIT STRING								OPTIONAL,
		nonCriticalExtensions			SEQUENCE {}								OPTIONAL
	},
	criticalExtensions			SEQUENCE {}
}
CellUpdateConfirm-r14-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo					CipheringModeInfo-r7				OPTIONAL,
		activationTime						ActivationTime						OPTIONAL,
		new-U-RNTI							U-RNTI								OPTIONAL,
		new-C-RNTI							C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI						DSCH-RNTI							OPTIONAL,
		new-H-RNTI							H-RNTI								OPTIONAL,
		newPrimary-E-RNTI					E-RNTI								OPTIONAL,
		newSecondary-E-RNTI					E-RNTI								OPTIONAL,
		rntiHandlingAtCellReselection		ENUMERATED { true }					OPTIONAL,
		rrc-StateIndicator					RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		waitTime							WaitTime							OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo					CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity						URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN								OPTIONAL,
	-- Specification mode information
	-- Radio bearer IEs
		rab-InformationSetup				RAB-InformationSetup-r11			OPTIONAL,
		rb-InformationReleaseList			RB-InformationReleaseList			OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo		DL-CounterSynchronisationInfo-r5	OPTIONAL,
		pdcp-ROHC-TargetMode				PDCP-ROHC-TargetMode				OPTIONAL,
		retrievableConfigInfo				RetrievableConfigInfo				OPTIONAL,
		otherStateConfig					OtherStateConfig					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo				UL-CommonTransChInfo-r12			OPTIONAL,
		ul-deletedTransChInfoList			UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo				DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList			DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r13		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo						FrequencyInfo						OPTIONAL,
		multi-frequencyInfo					Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info						DTX-DRX-Info-r12					OPTIONAL,
		hs-scch-LessInfo					HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters						MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters					MIMO4x4-Parameters					OPTIONAL,
		dch-Enhancements-Info-FDD			DCH-Enhancements-Info-FDD			OPTIONAL,
		maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info						UL-DPCH-Info-r11					OPTIONAL,
		ul-EDCH-Information					UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD				UL-SecondaryCellInfoFDD-r13			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128		UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD						UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD						UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info		UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo				FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation				DL-CommonInformation-r12			OPTIONAL,
		dl-InformationPerRL-List			DL-InformationPerRL-List-r13		OPTIONAL,
		dl-SecondaryCellInfoFDD				DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD		AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2		AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD					CommonERGCHInfoFDD					OPTIONAL,
		controlChannelDRXInfo-TDD128		ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128				SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128					MU-MIMO-Info-TDD128					OPTIONAL,
		nonrectResAllocInd-TDD128			Non-rectResAllocInd-TDD128			OPTIONAL,
		nonrectResSpecTSset-TDD128			Non-rectResSpecTSset-TDD128			OPTIONAL,
		hs-scch-DrxCellfach-info			HS-SCCH-DrxCellfach-info			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128		CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL,
	-- WLAN IEs
		dedicatedWLANOffloadInformation		DedicatedWLANOffloadInformation		OPTIONAL
}

CellUpdateConfirm-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier				RRC-TransactionIdentifier,
		integrityProtectionModeInfo			IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo						CipheringModeInfo						OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient		OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
	-- Radio bearer IEs
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList			OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo			OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo					OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList				OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList			OPTIONAL,
		modeSpecificTransChInfo				CHOICE {
			fdd										SEQUENCE {
				-- dummy and dummy2 are not used in this version of the specification, they should
				-- not be sent and if received they should be ignored.
				dummy									CPCH-SetID						OPTIONAL,
				dummy2									DRAC-StaticInformationList	OPTIONAL
			},
			tdd										NULL
		},
		dl-CommonTransChInfo					DL-CommonTransChInfo					OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList				OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList			OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-ChannelRequirement					UL-ChannelRequirement					OPTIONAL,
		modeSpecificPhysChInfo				CHOICE {
			fdd										SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy									DL-PDSCH-Information			OPTIONAL
			},
			tdd										NULL
		},
		dl-CommonInformation					DL-CommonInformation					OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List				OPTIONAL
}

CellUpdateConfirm-v3a0ext ::= SEQUENCE {
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received the UE behaviour
	-- is unspecified
	new-DSCH-RNTI								DSCH-RNTI								OPTIONAL
}

CellUpdateConfirm-v4b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy									SSDT-UL									OPTIONAL,
		-- The order of the RLs in IE cell-id-PerRL-List is the same as
		-- in IE DL-InformationPerRL-List included in this message
		cell-id-PerRL-List						CellIdentity-PerRL-List				OPTIONAL
}

CellUpdateConfirm-v590ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-TPC-PowerOffsetPerRL-List			DL-TPC-PowerOffsetPerRL-List			OPTIONAL
}

CellUpdateConfirm-v5d0ext-IEs ::=	SEQUENCE {
	--Radio Bearer IEs
		pdcp-ROHC-TargetMode					PDCP-ROHC-TargetMode					OPTIONAL
}
CellUpdateConfirm-r4-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo						CipheringModeInfo						OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
		-- the UE behaviour is unspecified
		new-DSCH-RNTI							DSCH-RNTI								OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient		OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
	-- Radio bearer IEs
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r4			OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo			OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList				OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList			OPTIONAL,
		modeSpecificTransChInfo				CHOICE {
			fdd										SEQUENCE {
				-- dummy and dummy2 are not used in this version of the specification, they should
				-- not be sent and if received they should be ignored.
				dummy									CPCH-SetID						OPTIONAL,
				dummy2									DRAC-StaticInformationList	OPTIONAL
			},
			tdd										NULL
		},
		dl-CommonTransChInfo					DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList				OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r4		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-ChannelRequirement					UL-ChannelRequirement-r4				OPTIONAL,
		modeSpecificPhysChInfo				CHOICE {
			fdd										SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy									DL-PDSCH-Information			OPTIONAL
			},
			tdd										NULL
		},
		dl-CommonInformation					DL-CommonInformation-r4				OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List-r4			OPTIONAL
}

CellUpdateConfirm-r5-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo						CipheringModeInfo						OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
		-- the UE behaviour is unspecified
		new-DSCH-RNTI							DSCH-RNTI								OPTIONAL,
		new-H-RNTI								H-RNTI									OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient		OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
	-- Radio bearer IEs
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r5			OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList-r5			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo-r5		OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList				OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList			OPTIONAL,
		modeSpecificTransChInfo				CHOICE {
			fdd										SEQUENCE {
				-- dummy and dummy2 are not used in this version of the specification, they should
				-- not be sent and if received they should be ignored.
				dummy									CPCH-SetID						OPTIONAL,
				dummy2									DRAC-StaticInformationList	OPTIONAL
			},
			tdd										NULL
		},
		dl-CommonTransChInfo					DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList-r5			OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r5		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-ChannelRequirement					UL-ChannelRequirement-r5				OPTIONAL,
		modeSpecificPhysChInfo				CHOICE {
			fdd										SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy									DL-PDSCH-Information			OPTIONAL
			},
			tdd										NULL
		},
		dl-HSPDSCH-Information				DL-HSPDSCH-Information				OPTIONAL,
		dl-CommonInformation					DL-CommonInformation-r5				OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List-r5			OPTIONAL
}

CellUpdateConfirm-r6-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo						CipheringModeInfo						OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI							DSCH-RNTI								OPTIONAL,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient		OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo-r6					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
	-- Radio bearer IEs
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r6			OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList-r6			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo-r5		OPTIONAL,
		pdcp-ROHC-TargetMode					PDCP-ROHC-TargetMode					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r6		OPTIONAL,
		dl-CommonTransChInfo					DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList-r5			OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r5		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info							UL-DPCH-Info-r6						OPTIONAL,
		ul-EDCH-Information					UL-EDCH-Information-r6				OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r6				OPTIONAL,
		dl-CommonInformation					DL-CommonInformation-r6				OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List-r6			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

CellUpdateConfirm-v690ext-IEs ::=	SEQUENCE {
	-- Core network IEs
		primary-plmn-Identity					PLMN-Identity							OPTIONAL,
	-- Physical channel IEs
		-- The IE harq-Preamble-Mode should not be used in the r3 and r4 versions of the message
		-- If included in the r3 or r4 version of the message, the UE should ignore the IE
		harq-Preamble-Mode						HARQ-Preamble-Mode						OPTIONAL,
		beaconPLEst							BEACON-PL-Est							OPTIONAL,
		postVerificationPeriod				ENUMERATED { true }					OPTIONAL,
		dhs-sync								DHS-Sync								OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

CellUpdateConfirm-v6b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-InformationPerRL-List-v6b0ext		DL-InformationPerRL-List-v6b0ext		OPTIONAL
}

CellUpdateConfirm-r7-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo						CipheringModeInfo-r7					OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI							DSCH-RNTI								OPTIONAL,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		waitTime								WaitTime								OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo-r6					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN									OPTIONAL,
	-- Radio bearer IEs
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r7			OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList-r7			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo-r5		OPTIONAL,
		pdcp-ROHC-TargetMode					PDCP-ROHC-TargetMode					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r7		OPTIONAL,
		dl-CommonTransChInfo					DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r7		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		multi-frequencyInfo					Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo						DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info							DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo						HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters							MIMO-Parameters-r7						OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info							UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information					UL-EDCH-Information-r7				OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r7				OPTIONAL,
		dl-CommonInformation					DL-CommonInformation-r7				OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List-r7			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

CellUpdateConfirm-r7-add-ext-IEs ::= SEQUENCE {
		cellUpdateConfirm-v7d0ext				CellUpdateConfirm-v7d0ext-IEs			OPTIONAL,
		v7f0NonCriticalExtensions				SEQUENCE {
			cellUpdateConfirm-v7f0ext				CellUpdateConfirm-v7f0ext-IEs,
			v7g0NonCriticalExtensions				SEQUENCE {
				cellUpdateConfirm-v7g0ext				CellUpdateConfirm-v7g0ext-IEs,
				nonCriticalExtensions					SEQUENCE {}					OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

CellUpdateConfirm-v780ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		hs-DSCH-TBSizeTable					HS-DSCH-TBSizeTable					OPTIONAL
}

CellUpdateConfirm-v7d0ext-IEs ::=	SEQUENCE {
	-- Physical channel IEs
		ul-EDCH-Information					UL-EDCH-Information-ext				OPTIONAL
}

CellUpdateConfirm-v7f0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		mimoParameters							MIMO-Parameters-v7f0ext				OPTIONAL
}

CellUpdateConfirm-v7g0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		mimoParameters							MIMO-Parameters-v7g0ext				OPTIONAL
}

CellUpdateConfirm-r8-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo						CipheringModeInfo-r7					OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI							DSCH-RNTI								OPTIONAL,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		waitTime								WaitTime								OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo-r6					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN									OPTIONAL,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy									DefaultConfigForCellFACH				OPTIONAL,
	-- Radio bearer IEs
		rab-InformationSetup					RAB-InformationSetup-r8				OPTIONAL,
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r8			OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList-r8			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo-r5		OPTIONAL,
		pdcp-ROHC-TargetMode					PDCP-ROHC-TargetMode					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo					DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r7		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		multi-frequencyInfo					Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo						DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info							DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo						HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters							MIMO-Parameters-r8						OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info							UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information					UL-EDCH-Information-r8				OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8				OPTIONAL,
		dl-CommonInformation					DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD				DL-SecondaryCellInfoFDD				OPTIONAL,
		controlChannelDRXInfo-TDD128			ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128				SPS-Information-TDD128-r8				OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

CellUpdateConfirm-v860ext-IEs ::=	SEQUENCE {
		rab-InformationSetup				SEQUENCE {
			rab-InformationSetup-r7			RAB-InformationSetup-r7,
			rab-InformationSetup-v820ext		RAB-InformationSetup-v820ext
		}		OPTIONAL
}

CellUpdateConfirm-v890ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-SecondaryCellInfoFDD-v890ext		DL-SecondaryCellInfoFDD-v890ext		OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext			OPTIONAL
}

CellUpdateConfirm-v8a0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext2		OPTIONAL
}

CellUpdateConfirm-r9-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo						CipheringModeInfo-r7					OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI							DSCH-RNTI								OPTIONAL,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		waitTime								WaitTime								OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo-r6					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN									OPTIONAL,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy									DefaultConfigForCellFACH				OPTIONAL,
	-- Radio bearer IEs
		rab-InformationSetup					RAB-InformationSetup-r8				OPTIONAL,
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r8			OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList-r8			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo-r5		OPTIONAL,
		pdcp-ROHC-TargetMode					PDCP-ROHC-TargetMode					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo					DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r9		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		multi-frequencyInfo					Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo						DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info							DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo						HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters							MIMO-Parameters-r9						OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info							UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information					UL-EDCH-Information-r9				OPTIONAL,
		ul-SecondaryCellInfoFDD				UL-SecondaryCellInfoFDD				OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r9				OPTIONAL,
		dl-CommonInformation					DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD				DL-SecondaryCellInfoFDD-r9			OPTIONAL,
		controlChannelDRXInfo-TDD128			ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128				SPS-Information-TDD128-r8				OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128		CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

CellUpdateConfirm-v950ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		secondaryCellMimoParameters		SecondaryCellMIMOparametersFDD-v950ext	OPTIONAL
}

CellUpdateConfirm-v9c0ext-IEs ::= SEQUENCE {
	-- For 1.28Mcps TDD only
		dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-TDD128-v9c0ext	OPTIONAL
}

CellUpdateConfirm-r10-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo						CipheringModeInfo-r7					OPTIONAL,
		-- dummy2 is not used in this version of the specification, it should
		-- not be sent.
		dummy2									SR-VCC-Info							OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI							DSCH-RNTI								OPTIONAL,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		waitTime								WaitTime								OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo-r6					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN									OPTIONAL,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy									DefaultConfigForCellFACH				OPTIONAL,
	-- Radio bearer IEs
		rab-InformationSetup					RAB-InformationSetup-r8				OPTIONAL,
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r8			OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList-r8			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo-r5		OPTIONAL,
		pdcp-ROHC-TargetMode					PDCP-ROHC-TargetMode					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo					DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r9		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		multi-frequencyInfo					Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo						DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info							DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo						HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters							MIMO-Parameters-r9						OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info							UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information					UL-EDCH-Information-r9				OPTIONAL,
		ul-SecondaryCellInfoFDD				UL-SecondaryCellInfoFDD				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128		UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r9				OPTIONAL,
		dl-CommonInformation					DL-CommonInformation-r10				OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD				DL-SecondaryCellInfoFDD-r10			OPTIONAL,
		additionalDLSecCellInfoListFDD		AdditionalDLSecCellInfoListFDD		OPTIONAL,
		controlChannelDRXInfo-TDD128			ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128				SPS-Information-TDD128-r8				OPTIONAL,
		mu-MIMO-Info-TDD128					MU-MIMO-Info-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128		CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

CellUpdateConfirm-vb50ext-IEs ::= SEQUENCE {
		ulOLTDInfoFDD							UL-OLTD-InfoFDD						OPTIONAL
}

CellUpdateConfirm-r11-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo						CipheringModeInfo-r7					OPTIONAL,
		-- dummy2 is not used in this version of the specification, it should
		-- not be sent.
		dummy2									SR-VCC-Info							OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI							DSCH-RNTI								OPTIONAL,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		waitTime								WaitTime								OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo-r6					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN									OPTIONAL,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy									DefaultConfigForCellFACH				OPTIONAL,
	-- Radio bearer IEs
		rab-InformationSetup					RAB-InformationSetup-r8				OPTIONAL,
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList-r8			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo-r5		OPTIONAL,
		pdcp-ROHC-TargetMode					PDCP-ROHC-TargetMode					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo					DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r11		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		multi-frequencyInfo					Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo						DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info							DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo						HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters							MIMO-Parameters-r9						OPTIONAL,
		mimo4x4Parameters						MIMO4x4-Parameters						OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info							UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information					UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD				UL-SecondaryCellInfoFDD				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128		UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD						UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD						UL-OLTD-InfoFDD					OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r11			OPTIONAL,
		dl-CommonInformation					DL-CommonInformation-r11				OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List-r11			OPTIONAL,
		dl-SecondaryCellInfoFDD				DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD		AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2		AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD						CommonERGCHInfoFDD						OPTIONAL,
		controlChannelDRXInfo-TDD128			ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128				SPS-Information-TDD128-r8				OPTIONAL,
		mu-MIMO-Info-TDD128					MU-MIMO-Info-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128		CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

CellUpdateConfirm-r12-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo						CipheringModeInfo-r7					OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI							DSCH-RNTI								OPTIONAL,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		waitTime								WaitTime								OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo-r6					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN									OPTIONAL,
	-- Specification mode information
	-- Radio bearer IEs
		rab-InformationSetup					RAB-InformationSetup-r8				OPTIONAL,
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList-r8			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo-r5		OPTIONAL,
		pdcp-ROHC-TargetMode					PDCP-ROHC-TargetMode					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo-r12				OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo					DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r11		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		multi-frequencyInfo					Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo						DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info							DTX-DRX-Info-r12						OPTIONAL,
		hs-scch-LessInfo						HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters							MIMO-Parameters-r9						OPTIONAL,
		mimo4x4Parameters						MIMO4x4-Parameters						OPTIONAL,
		dch-Enhancements-Info-FDD				DCH-Enhancements-Info-FDD				OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info							UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information					UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD				UL-SecondaryCellInfoFDD-r12			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128		UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD						UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD						UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info			UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo					FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation					DL-CommonInformation-r12				OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List-r12			OPTIONAL,
		dl-SecondaryCellInfoFDD				DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD		AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2		AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD						CommonERGCHInfoFDD						OPTIONAL,
		controlChannelDRXInfo-TDD128			ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128				SPS-Information-TDD128-r8				OPTIONAL,
		mu-MIMO-Info-TDD128					MU-MIMO-Info-TDD128					OPTIONAL,
		nonrectResAllocInd-TDD128				Non-rectResAllocInd-TDD128			OPTIONAL,
		nonrectResSpecTSset-TDD128			Non-rectResSpecTSset-TDD128			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128		CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL,
	-- WLAN IEs
		dedicatedWLANOffloadInformation		DedicatedWLANOffloadInformation		OPTIONAL
}


CellUpdateConfirm-r13-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo			IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo						CipheringModeInfo-r7					OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
		new-U-RNTI								U-RNTI									OPTIONAL,
		new-C-RNTI								C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI							DSCH-RNTI								OPTIONAL,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
		rntiHandlingAtCellReselection			ENUMERATED { true }					OPTIONAL,
		rrc-StateIndicator						RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		waitTime								WaitTime								OPTIONAL,
		rlc-Re-establishIndicatorRb2-3or4	BOOLEAN,
		rlc-Re-establishIndicatorRb5orAbove	BOOLEAN,
	-- CN information elements
		cn-InformationInfo						CN-InformationInfo-r6					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity							URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN									OPTIONAL,
	-- Specification mode information
	-- Radio bearer IEs
		rab-InformationSetup					RAB-InformationSetup-r11				OPTIONAL,
		rb-InformationReleaseList				RB-InformationReleaseList				OPTIONAL,
		rb-InformationReconfigList			RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList			RB-InformationAffectedList-r8			OPTIONAL,
		dl-CounterSynchronisationInfo			DL-CounterSynchronisationInfo-r5		OPTIONAL,
		pdcp-ROHC-TargetMode					PDCP-ROHC-TargetMode					OPTIONAL,
		retrievableConfigInfo					RetrievableConfigInfo					OPTIONAL,
		otherStateConfig				OtherStateConfig					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo					UL-CommonTransChInfo-r12				OPTIONAL,
		ul-deletedTransChInfoList				UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo					DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList				DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r13		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo							FrequencyInfo							OPTIONAL,
		multi-frequencyInfo					Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo						DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info							DTX-DRX-Info-r12						OPTIONAL,
		hs-scch-LessInfo						HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters							MIMO-Parameters-r9						OPTIONAL,
		mimo4x4Parameters						MIMO4x4-Parameters						OPTIONAL,
		dch-Enhancements-Info-FDD				DCH-Enhancements-Info-FDD				OPTIONAL,
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info							UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information					UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD				UL-SecondaryCellInfoFDD-r13			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128		UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD						UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD						UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info			UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo					FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation					DL-CommonInformation-r12				OPTIONAL,
		dl-InformationPerRL-List				DL-InformationPerRL-List-r13			OPTIONAL,
		dl-SecondaryCellInfoFDD				DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD		AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2		AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD						CommonERGCHInfoFDD						OPTIONAL,
		controlChannelDRXInfo-TDD128			ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128				SPS-Information-TDD128-r8				OPTIONAL,
		mu-MIMO-Info-TDD128					MU-MIMO-Info-TDD128					OPTIONAL,
		nonrectResAllocInd-TDD128				Non-rectResAllocInd-TDD128			OPTIONAL,
		nonrectResSpecTSset-TDD128			Non-rectResSpecTSset-TDD128			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128		CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL,
	-- WLAN IEs
		dedicatedWLANOffloadInformation		DedicatedWLANOffloadInformation		OPTIONAL
}

-- ***************************************************
--
-- CELL UPDATE CONFIRM for CCCH
--
-- ***************************************************

CellUpdateConfirm-CCCH ::= CHOICE {
	r3								SEQUENCE {
		-- User equipment IEs
			u-RNTI						U-RNTI,
		-- The rest of the message is identical to the one sent on DCCH.
			cellUpdateConfirm-r3				CellUpdateConfirm-r3-IEs,
			laterNonCriticalExtensions		SEQUENCE {
				-- Container for additional R99 extensions
				cellUpdateConfirm-CCCH-r3-add-ext			BIT STRING	OPTIONAL,
				v4b0NonCriticalExtensions		SEQUENCE {
					cellUpdateConfirm-v4b0ext		CellUpdateConfirm-v4b0ext-IEs,
					v590NonCriticalExtensions		SEQUENCE {
						cellUpdateConfirm-v590ext		CellUpdateConfirm-v590ext-IEs,
						v5d0NonCriticalExtenstions		SEQUENCE {
							cellUpdateConfirm-v5d0ext		CellUpdateConfirm-v5d0ext-IEs,
							v690NonCriticalExtensions		SEQUENCE {
								cellUpdateConfirm-v690ext		CellUpdateConfirm-v690ext-IEs,
								nonCriticalExtensions			SEQUENCE {} OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		u-RNTI							U-RNTI,
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				-- The rest of the message is identical to the one sent on DCCH.
				cellUpdateConfirm-r4			CellUpdateConfirm-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					cellUpdateConfirm-CCCH-r4-add-ext		BIT STRING		OPTIONAL,
					v590NonCriticalExtensions		SEQUENCE {
						cellUpdateConfirm-v590ext		CellUpdateConfirm-v590ext-IEs,
						v5d0NonCriticalExtenstions		SEQUENCE {
							cellUpdateConfirm-v5d0ext		CellUpdateConfirm-v5d0ext-IEs,
							v690NonCriticalExtensions		SEQUENCE {
								cellUpdateConfirm-v690ext		CellUpdateConfirm-v690ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				CHOICE {
				r5								SEQUENCE {
					cellUpdateConfirm-r5			CellUpdateConfirm-r5-IEs,
					cellUpdateConfirm-CCCH-r5-add-ext		BIT STRING		OPTIONAL,
					v5d0NonCriticalExtenstions		SEQUENCE {
						cellUpdateConfirm-v5d0ext		CellUpdateConfirm-v5d0ext-IEs,
						v690NonCriticalExtensions		SEQUENCE {
							cellUpdateConfirm-v690ext		CellUpdateConfirm-v690ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				},		
				criticalExtensions				CHOICE {
					r6								SEQUENCE {
						cellUpdateConfirm-r6			CellUpdateConfirm-r6-IEs,
						cellUpdateConfirm-r6-add-ext	BIT STRING		OPTIONAL,
						v6b0NonCriticalExtensions		SEQUENCE {
							cellUpdateConfirm-v6b0ext		CellUpdateConfirm-v6b0ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r7								SEQUENCE {
							cellUpdateConfirm-r7			CellUpdateConfirm-r7-IEs,
							cellUpdateConfirm-r7-add-ext	BIT STRING
										(CONTAINING CellUpdateConfirm-r7-add-ext-IEs)	OPTIONAL,
							v780NonCriticalExtensions		SEQUENCE {
								cellUpdateConfirm-v780ext		CellUpdateConfirm-v780ext-IEs,
								v860NonCriticalExtensions		SEQUENCE {
									cellUpdateConfirm-v860ext		CellUpdateConfirm-v860ext-IEs,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r8								SEQUENCE {
								cellUpdateConfirm-r8			CellUpdateConfirm-r8-IEs,
								cellUpdateConfirm-r8-add-ext	BIT STRING		OPTIONAL,
								v7d0NonCriticalExtensions		SEQUENCE {
									cellUpdateConfirm-v7d0ext		CellUpdateConfirm-v7d0ext-IEs,
									v890NonCriticalExtensions		SEQUENCE {
										cellUpdateConfirm-v890ext
															CellUpdateConfirm-v890ext-IEs,
										v8a0NonCriticalExtensions		SEQUENCE {
											cellUpdateConfirm-v8a0ext
																CellUpdateConfirm-v8a0ext-IEs,
											v7f0NonCriticalExtensions	SEQUENCE {
												cellUpdateConfirm-v7f0ext	
																CellUpdateConfirm-v7f0ext-IEs,
												v7g0NonCriticalExtensions	SEQUENCE {
													cellUpdateConfirm-v7g0ext
																	CellUpdateConfirm-v7g0ext-IEs,
													nonCriticalExtensions	SEQUENCE {}		OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r9								SEQUENCE {
									cellUpdateConfirm-r9			CellUpdateConfirm-r9-IEs,
									-- Container for adding non critical extensions after 
									-- freezing REL-10
									cellUpdateConfirm-r9-add-ext	BIT STRING		OPTIONAL,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								},
								criticalExtensions				CHOICE {
									r10								SEQUENCE {
										cellUpdateConfirm-r10			CellUpdateConfirm-r10-IEs,
										-- Container for adding non critical extensions after 
										-- freezing REL-11
										cellUpdateConfirm-r10-add-ext	BIT STRING		OPTIONAL,
										vb50NonCriticalExtensions		SEQUENCE {
											cellUpdateConfirm-vb50ext
																CellUpdateConfirm-vb50ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										}	OPTIONAL
									},
									criticalExtensions				CHOICE {
										r11								SEQUENCE {
											cellUpdateConfirm-r11		CellUpdateConfirm-r11-IEs,
											-- Container for adding non critical extensions after 
											-- freezing REL-12
											cellUpdateConfirm-r11-add-ext	BIT STRING	OPTIONAL,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										},
										criticalExtensions				CHOICE {
											r12								SEQUENCE {
												cellUpdateConfirm-r12	CellUpdateConfirm-r12-IEs,
												-- Container for adding non critical extensions 
												-- after freezing REL-13
												cellUpdateConfirm-r12-add-ext	
																		BIT STRING	OPTIONAL,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											},											criticalExtensions				CHOICE {
											r13								SEQUENCE {
												cellUpdateConfirm-r13	CellUpdateConfirm-r13-IEs,
												-- Container for adding non critical extensions 
												-- after freezing REL-14
												cellUpdateConfirm-r13-add-ext	
																		BIT STRING	OPTIONAL,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											},											criticalExtensions				SEQUENCE {}
											}
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}

-- ***************************************************
--
-- COUNTER CHECK
--
-- ***************************************************

CounterCheck ::= CHOICE {
	r3								SEQUENCE {
		counterCheck-r3					CounterCheck-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			counterCheck-r3-add-ext			BIT STRING								OPTIONAL,
			nonCriticalExtensions				SEQUENCE {}							OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

CounterCheck-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier			RRC-TransactionIdentifier,
	-- Radio bearer IEs
		rb-COUNT-C-MSB-InformationList	RB-COUNT-C-MSB-InformationList
}

-- ***************************************************
--
-- COUNTER CHECK RESPONSE
--
-- ***************************************************

CounterCheckResponse ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier			RRC-TransactionIdentifier,
	-- Radio bearer IEs
		rb-COUNT-C-InformationList		RB-COUNT-C-InformationList				OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			counterCheckResponse-r3-add-ext		BIT STRING							OPTIONAL,
			nonCriticalExtensions					SEQUENCE {}						OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- DOWNLINK DIRECT TRANSFER
--
-- ***************************************************

DownlinkDirectTransfer ::= CHOICE {
	r3								SEQUENCE {
		downlinkDirectTransfer-r3		DownlinkDirectTransfer-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			downlinkDirectTransfer-r3-add-ext		BIT STRING						OPTIONAL,
			nonCriticalExtensions						SEQUENCE {}					OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

DownlinkDirectTransfer-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
	-- Core network IEs
		cn-DomainIdentity				CN-DomainIdentity,
		nas-Message					NAS-Message
}

-- ***************************************************
--
-- ETWS PRIMARY NOTIFICATION WITH SECURITY
--
-- ***************************************************

ETWSPrimaryNotificationWithSecurity ::= SEQUENCE {
	-- Other IEs
		etws-Information				ETWS-Information,
		-- dummy is not used in the specification. If received it is ignored by the UE.
		-- See TS 23.041 for handling of warning security information by Cell Broadcast Center.
		dummy							ETWS-WarningSecurityInfo						OPTIONAL,
	-- Non critical extensions
		nonCriticalExtensions			SEQUENCE {}									OPTIONAL
}

-- ***************************************************
--
-- HANDOVER TO UTRAN COMMAND
--
-- ***************************************************

HandoverToUTRANCommand ::= CHOICE {
	r3								SEQUENCE {
		handoverToUTRANCommand-r3		HandoverToUTRANCommand-r3-IEs,
		nonCriticalExtensions			SEQUENCE {} 									OPTIONAL
	},
	criticalExtensions				CHOICE {
		r4								SEQUENCE {
			handoverToUTRANCommand-r4		HandoverToUTRANCommand-r4-IEs,
			nonCriticalExtensions			SEQUENCE {}								OPTIONAL
		},
		criticalExtensions				CHOICE {
			r5								SEQUENCE {
				handoverToUTRANCommand-r5		HandoverToUTRANCommand-r5-IEs,
				nonCriticalExtensions			SEQUENCE {}							OPTIONAL
			},
			criticalExtensions				CHOICE {
				r6								SEQUENCE {
					handoverToUTRANCommand-r6		HandoverToUTRANCommand-r6-IEs,
					v6b0NonCriticalExtensions		SEQUENCE {
						handoverToUTRANCommand-v6b0ext	HandoverToUTRANCommand-v6b0ext-IEs,
						nonCriticalExtensions			SEQUENCE {}					OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r7								SEQUENCE {
						handoverToUTRANCommand-r7		HandoverToUTRANCommand-r7-IEs,
						v780NonCriticalExtensions		SEQUENCE {
							handoverToUTRANCommand-v780ext	HandoverToUTRANCommand-v780ext-IEs,
							v820NonCriticalExtensions		SEQUENCE {
								handoverToUTRANCommand-v820ext	HandoverToUTRANCommand-v820ext-IEs,
								v7d0NonCriticalExtensions		SEQUENCE {
									handoverToUTRANCommand-v7d0ext
																HandoverToUTRANCommand-v7d0ext-IEs,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r8								SEQUENCE {
							handoverToUTRANCommand-r8		HandoverToUTRANCommand-r8-IEs,
							v7d0NonCriticalExtensions		SEQUENCE {
								handoverToUTRANCommand-v7d0ext	HandoverToUTRANCommand-v7d0ext-IEs,
								v890NonCriticalExtensions		SEQUENCE {
									handoverToUTRANCommand-v890ext
															HandoverToUTRANCommand-v890ext-IEs,
									v8a0NonCriticalExtensions		SEQUENCE {
										handoverToUTRANCommand-v8a0ext
																HandoverToUTRANCommand-v8a0ext-IEs,
										nonCriticalExtensions			SEQUENCE {}		OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r9								SEQUENCE {
								handoverToUTRANCommand-r9		HandoverToUTRANCommand-r9-IEs,
								v9c0NonCriticalExtensions		SEQUENCE {
									handoverToUTRANCommand-v9c0ext
														HandoverToUTRANCommand-v9c0ext-IEs,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				HandoverToUTRANCommand-LaterCriticalExtensions
						}
					}
				}
			}
		}
	}
}


HandoverToUTRANCommand-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-U-RNTI								U-RNTI-Short,
		-- dummy is not used in this version of specification, it should
		-- not be sent and if received it should be ignored.
		dummy									ActivationTime							OPTIONAL,
		cipheringAlgorithm						CipheringAlgorithm						OPTIONAL,
	-- Radio bearer IEs
	-- Specification mode information
		specificationMode						CHOICE {
			complete								SEQUENCE {
				srb-InformationSetupList				SRB-InformationSetupList,
				rab-InformationSetupList				RAB-InformationSetupList		OPTIONAL,
				ul-CommonTransChInfo					UL-CommonTransChInfo,
				ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList,
				dl-CommonTransChInfo					DL-CommonTransChInfo,
				dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList,
				ul-DPCH-Info							UL-DPCH-Info,
				modeSpecificInfo						CHOICE {
					fdd										SEQUENCE {
						-- dummy and dummy2 are not used in this version of specification,
						-- they should not be sent and if received they should be ignored.
						dummy									DL-PDSCH-Information OPTIONAL,
						dummy2									CPCH-SetInfo			OPTIONAL
					},
					tdd										NULL
				},
				dl-CommonInformation			DL-CommonInformation,
				dl-InformationPerRL-List		DL-InformationPerRL-List,
				frequencyInfo					FrequencyInfo
			},
			preconfiguration					SEQUENCE {
-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
-- one for the FDD only elements and one for the TDD only elements, so that one
-- FDD/TDD choice in this level is sufficient.
				preConfigMode						CHOICE {
					predefinedConfigIdentity			PredefinedConfigIdentity,
					defaultConfig							SEQUENCE {
						defaultConfigMode						DefaultConfigMode,
						defaultConfigIdentity 				DefaultConfigIdentity
					}
				},
				rab-Info							RAB-Info-Post		OPTIONAL,
				modeSpecificInfo					CHOICE {
					fdd									SEQUENCE {
						ul-DPCH-Info						UL-DPCH-InfoPostFDD,
						dl-CommonInformationPost			DL-CommonInformationPost,
						dl-InformationPerRL-List			DL-InformationPerRL-ListPostFDD,
						frequencyInfo						FrequencyInfoFDD
					},
					tdd									SEQUENCE {
						ul-DPCH-Info						UL-DPCH-InfoPostTDD,
						dl-CommonInformationPost			DL-CommonInformationPost,
						dl-InformationPerRL				DL-InformationPerRL-PostTDD,
						frequencyInfo						FrequencyInfoTDD,
						primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
					}
				}
			}
		},
	-- Physical channel IEs
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power
}

HandoverToUTRANCommand-r4-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-U-RNTI								U-RNTI-Short,
		cipheringAlgorithm						CipheringAlgorithm						OPTIONAL,
	-- Radio bearer IEs
	-- Specification mode information
		specificationMode						CHOICE {
			complete								SEQUENCE {
				srb-InformationSetupList				SRB-InformationSetupList,
				rab-InformationSetupList				RAB-InformationSetupList-r4	OPTIONAL,
				ul-CommonTransChInfo					UL-CommonTransChInfo-r4,
				ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList,
				dl-CommonTransChInfo					DL-CommonTransChInfo-r4,
				dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r4,
				ul-DPCH-Info							UL-DPCH-Info-r4,
				modeSpecificInfo						CHOICE {
					fdd										SEQUENCE {
						-- dummy and dummy2 are not used in this version of specification,
						-- they should not be sent and if received they should be ignored.
						dummy									DL-PDSCH-Information OPTIONAL,
						dummy2									CPCH-SetInfo			OPTIONAL
					},
					tdd										NULL
				},
				dl-CommonInformation					DL-CommonInformation-r4,
				dl-InformationPerRL-List				DL-InformationPerRL-List-r4,
				frequencyInfo							FrequencyInfo
			},
			preconfiguration						SEQUENCE {
-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
-- one for the FDD only elements and one for the TDD only elements, so that one
-- FDD/TDD choice in this level is sufficient.
				preConfigMode							CHOICE {
					predefinedConfigIdentity				PredefinedConfigIdentity,
					defaultConfig								SEQUENCE {
						defaultConfigMode							DefaultConfigMode,
						defaultConfigIdentity 					DefaultConfigIdentity-r4
					}
				},
				rab-Info								RAB-Info-Post		OPTIONAL,
				modeSpecificInfo						CHOICE {
					fdd										SEQUENCE {
						ul-DPCH-Info							UL-DPCH-InfoPostFDD,
						dl-CommonInformationPost				DL-CommonInformationPost,
						dl-InformationPerRL-List				DL-InformationPerRL-ListPostFDD,
						frequencyInfo							FrequencyInfoFDD
					},
					tdd										CHOICE {
						tdd384									SEQUENCE {
							ul-DPCH-Info							UL-DPCH-InfoPostTDD,
							dl-InformationPerRL					DL-InformationPerRL-PostTDD,
							frequencyInfo							FrequencyInfoTDD,
							primaryCCPCH-TX-Power					PrimaryCCPCH-TX-Power
						},
						tdd128									SEQUENCE {
							ul-DPCH-Info					UL-DPCH-InfoPostTDD-LCR-r4,
							dl-InformationPerRL			DL-InformationPerRL-PostTDD-LCR-r4,
							frequencyInfo					FrequencyInfoTDD,
							primaryCCPCH-TX-Power			PrimaryCCPCH-TX-Power
						}
					}
				}
			}
		},
	-- Physical channel IEs
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power
}

HandoverToUTRANCommand-r5-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-U-RNTI								U-RNTI-Short,
		cipheringAlgorithm						CipheringAlgorithm						OPTIONAL,
	-- Radio bearer IEs
	-- Specification mode information
		specificationMode						CHOICE {
			complete								SEQUENCE {
				srb-InformationSetupList				SRB-InformationSetupList-r5,
				rab-InformationSetupList				RAB-InformationSetupList-r5	OPTIONAL,
				ul-CommonTransChInfo					UL-CommonTransChInfo-r4,
				ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList,
				dl-CommonTransChInfo					DL-CommonTransChInfo-r4,
				dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r5,
				ul-DPCH-Info							UL-DPCH-Info-r5,
				modeSpecificInfo						CHOICE {
					fdd										SEQUENCE {
						-- dummy and dummy2 are not used in this version of specification,
						-- they should not be sent and if received they should be ignored.
						dummy									DL-PDSCH-Information	OPTIONAL,
						dummy2									CPCH-SetInfo			OPTIONAL
					},
					tdd										NULL
				},
				dl-CommonInformation					DL-CommonInformation-r4,
				dl-InformationPerRL-List				DL-InformationPerRL-List-r5,
				frequencyInfo							FrequencyInfo
			},
			preconfiguration						SEQUENCE {
-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
-- one for the FDD only elements and one for the TDD only elements, so that one
-- FDD/TDD choice in this level is sufficient.
				preConfigMode							CHOICE {
					predefinedConfigIdentity				PredefinedConfigIdentity,
					defaultConfig							SEQUENCE {
						defaultConfigMode						DefaultConfigMode,
						defaultConfigIdentity 				DefaultConfigIdentity-r5
					}
				},
				rab-Info								RAB-Info-Post		OPTIONAL,
				modeSpecificInfo						CHOICE {
					fdd										SEQUENCE {
						ul-DPCH-Info							UL-DPCH-InfoPostFDD,
						dl-CommonInformationPost				DL-CommonInformationPost,
						dl-InformationPerRL-List				DL-InformationPerRL-ListPostFDD,
						frequencyInfo							FrequencyInfoFDD
					},
					tdd										CHOICE {
						tdd384									SEQUENCE {
							ul-DPCH-Info							UL-DPCH-InfoPostTDD,
							dl-InformationPerRL					DL-InformationPerRL-PostTDD,
							frequencyInfo							FrequencyInfoTDD,
							primaryCCPCH-TX-Power					PrimaryCCPCH-TX-Power
						},
						tdd128									SEQUENCE {
							ul-DPCH-Info							UL-DPCH-InfoPostTDD-LCR-r4,
							dl-InformationPerRL					DL-InformationPerRL-PostTDD-LCR-r4,
							frequencyInfo							FrequencyInfoTDD,
							primaryCCPCH-TX-Power					PrimaryCCPCH-TX-Power
						}
					}
				}
			}
		},
	-- Physical channel IEs
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power
}

HandoverToUTRANCommand-r6-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-U-RNTI								U-RNTI-Short,
		cipheringAlgorithm						CipheringAlgorithm						OPTIONAL,
	-- Radio bearer IEs
	-- Specification mode information
		specificationMode						CHOICE {
			complete								SEQUENCE {
				srb-InformationSetupList				SRB-InformationSetupList-r6,
				rab-InformationSetupList				RAB-InformationSetupList-r6	OPTIONAL,
				ul-CommonTransChInfo					UL-CommonTransChInfo-r4,
				ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r6,
				dl-CommonTransChInfo					DL-CommonTransChInfo-r4,
				dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r5,
				ul-DPCH-Info							UL-DPCH-Info-r6,
				ul-EDCH-Information					UL-EDCH-Information-r6		OPTIONAL,
				dl-HSPDSCH-Information				DL-HSPDSCH-Information-r6		OPTIONAL,
				dl-CommonInformation					DL-CommonInformation-r6,
				dl-InformationPerRL-List				DL-InformationPerRL-List-r6,
				frequencyInfo							FrequencyInfo
			},
			preconfiguration						SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode							CHOICE {
					predefinedConfigIdentity				PredefinedConfigIdentity,
					defaultConfig							SEQUENCE {
						defaultConfigMode						DefaultConfigMode,
						defaultConfigIdentity 				DefaultConfigIdentity-r6
					}
				},
				rab-Info								RAB-Info-Post		OPTIONAL,
				modeSpecificInfo						CHOICE {
					fdd										SEQUENCE {
						ul-DPCH-Info							UL-DPCH-InfoPostFDD,
						dl-CommonInformationPost				DL-CommonInformationPost,
						dl-InformationPerRL-List				DL-InformationPerRL-ListPostFDD,
						frequencyInfo							FrequencyInfoFDD
					},
					tdd										CHOICE {
						tdd384									SEQUENCE {
							ul-DPCH-Info							UL-DPCH-InfoPostTDD,
							dl-InformationPerRL					DL-InformationPerRL-PostTDD,
							frequencyInfo							FrequencyInfoTDD,
							primaryCCPCH-TX-Power					PrimaryCCPCH-TX-Power
						},
						tdd128									SEQUENCE {
							ul-DPCH-Info							UL-DPCH-InfoPostTDD-LCR-r4,
							dl-InformationPerRL					DL-InformationPerRL-PostTDD-LCR-r4,
							frequencyInfo							FrequencyInfoTDD,
							primaryCCPCH-TX-Power					PrimaryCCPCH-TX-Power
						}
					}
				}
			}
		},
	-- Physical channel IEs
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power
}

HandoverToUTRANCommand-v6b0ext-IEs ::= SEQUENCE {
	ue-hspa-identities							UE-HSPA-Identities-r6					OPTIONAL
}

HandoverToUTRANCommand-r7-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-U-RNTI								U-RNTI-Short,
		cipheringAlgorithm						CipheringAlgorithm-r7					OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
	-- Radio bearer IEs
	-- Specification mode information
		specificationMode						CHOICE {
			complete								SEQUENCE {
				srb-InformationSetupList				SRB-InformationSetupList-r7,
				rab-InformationSetupList				RAB-InformationSetupList-r7	OPTIONAL,
				ul-CommonTransChInfo					UL-CommonTransChInfo-r4,
				ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r7,
				dl-CommonTransChInfo					DL-CommonTransChInfo-r4,
				dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r7,
				ul-DPCH-Info							UL-DPCH-Info-r7,
				ul-EDCH-Information					UL-EDCH-Information-r7		OPTIONAL,
				dl-HSPDSCH-Information				DL-HSPDSCH-Information-r7		OPTIONAL,
				dl-CommonInformation					DL-CommonInformation-r7,
				dl-InformationPerRL-List				DL-InformationPerRL-List-r7,
				frequencyInfo							FrequencyInfo,
				multi-frequencyInfo					Multi-frequencyInfo-LCR-r7	OPTIONAL
			},
			preconfiguration						SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode							CHOICE {
					predefinedConfigIdentity				PredefinedConfigIdentity,
					defaultConfig							SEQUENCE {
						defaultConfigMode						DefaultConfigMode,
						defaultConfigIdentity 				DefaultConfigIdentity-r6
					}
				},
				rab-Info								RAB-Info-Post					OPTIONAL,
				modeSpecificInfo						CHOICE {
					fdd										SEQUENCE {
						ul-DPCH-Info							UL-DPCH-InfoPostFDD,
						dl-CommonInformationPost				DL-CommonInformationPost,
						dl-InformationPerRL-List				DL-InformationPerRL-ListPostFDD,
						frequencyInfo							FrequencyInfoFDD
					},
					tdd									CHOICE {
						tdd384								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-InfoPostTDD,
							dl-InformationPerRL				DL-InformationPerRL-PostTDD,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
						},
						tdd128								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-Info-r7,
							dl-InformationPerRL				DL-InformationPerRL-PostTDD-LCR-r4,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power,
							multi-frequencyInfo				Multi-frequencyInfo-LCR-r7	OPTIONAL
						},
						tdd768								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-Info-r7,
							dl-InformationPerRL				DL-InformationPerRL-List-r7,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
						}
					}
				}
			}
		},
	-- Physical channel IEs
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power
}

HandoverToUTRANCommand-v780ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		hs-DSCH-TBSizeTable					HS-DSCH-TBSizeTable					OPTIONAL
}

HandoverToUTRANCommand-v7d0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		ul-EDCH-Information					UL-EDCH-Information-ext				OPTIONAL
}

HandoverToUTRANCommand-r8-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-U-RNTI								U-RNTI-Short,
		cipheringAlgorithm						CipheringAlgorithm-r7					OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
	-- Radio bearer IEs
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy									DefaultConfigForCellFACH				OPTIONAL,
		specificationMode						CHOICE {
			complete								SEQUENCE {
				srb-InformationSetupList				SRB-InformationSetupList-r8,
				rab-InformationSetupList				RAB-InformationSetupList-r8	OPTIONAL,
				ul-CommonTransChInfo					UL-CommonTransChInfo-r4,
				ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8,
				dl-CommonTransChInfo					DL-CommonTransChInfo-r4,
				dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r7,
				ul-DPCH-Info							UL-DPCH-Info-r7,
				ul-EDCH-Information					UL-EDCH-Information-r8		OPTIONAL,
				dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8		OPTIONAL,
				dl-CommonInformation					DL-CommonInformation-r8,
				dl-InformationPerRL-List				DL-InformationPerRL-List-r7,
				frequencyInfo							FrequencyInfo,
				multi-frequencyInfo					Multi-frequencyInfo-LCR-r7	OPTIONAL
			},
			preconfiguration						SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode						CHOICE {
					predefinedConfigIdentity			PredefinedConfigIdentity,
					defaultConfig						SEQUENCE {
						defaultConfigMode					DefaultConfigMode,
						defaultConfigIdentity				DefaultConfigIdentity-r6,
						-- dummy is not used in this version of the specification, it should
						-- not be sent and if received it should be ignored
						dummy								DLUL-HSPA-Information-r8	OPTIONAL
					}
				},
				rab-Info							RAB-Info-Post		OPTIONAL,
				modeSpecificInfo					CHOICE {
					fdd									SEQUENCE {
						ul-DPCH-Info						UL-DPCH-InfoPostFDD,
						dl-CommonInformationPost			DL-CommonInformationPost,
						dl-InformationPerRL-List			DL-InformationPerRL-ListPostFDD,
						frequencyInfo						FrequencyInfoFDD
					},
					tdd									CHOICE {
						tdd384								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-InfoPostTDD,
							dl-InformationPerRL				DL-InformationPerRL-PostTDD,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
						},
						tdd128								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-Info-r7,
							dl-InformationPerRL				DL-InformationPerRL-PostTDD-LCR-r4,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power,
							multi-frequencyInfo				Multi-frequencyInfo-LCR-r7		OPTIONAL
						},
						tdd768								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-Info-r7,
							dl-InformationPerRL				DL-InformationPerRL-List-r7,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
						}
					}
				}
			}
		},
	-- Physical channel IEs
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power
}

HandoverToUTRANCommand-v820ext-IEs ::= SEQUENCE {
	-- Radio bearer IEs
		rab-InformationSetupList				RAB-InformationSetupList-v820ext		OPTIONAL
}

HandoverToUTRANCommand-v890ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext			OPTIONAL
}

HandoverToUTRANCommand-v8a0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext2		OPTIONAL
}

HandoverToUTRANCommand-r9-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-U-RNTI								U-RNTI-Short,
		cipheringAlgorithm						CipheringAlgorithm-r7					OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
	-- Radio bearer IEs
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received UE behaviour is unspecified.
		dummy									DefaultConfigForCellFACH				OPTIONAL,
		specificationMode						CHOICE {
			complete								SEQUENCE {
				srb-InformationSetupList				SRB-InformationSetupList-r8,
				rab-InformationSetupList				RAB-InformationSetupList-r8	OPTIONAL,
				ul-CommonTransChInfo					UL-CommonTransChInfo-r4,
				ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8,
				dl-CommonTransChInfo					DL-CommonTransChInfo-r4,
				dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r9,
				ul-DPCH-Info							UL-DPCH-Info-r7,
				ul-EDCH-Information					UL-EDCH-Information-r9		OPTIONAL,
				dl-HSPDSCH-Information				DL-HSPDSCH-Information-r9		OPTIONAL,
				dl-CommonInformation					DL-CommonInformation-r8,
				dl-InformationPerRL-List				DL-InformationPerRL-List-r7,
				frequencyInfo							FrequencyInfo,
				multi-frequencyInfo					Multi-frequencyInfo-LCR-r7	OPTIONAL
			},
			preconfiguration					SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode						CHOICE {
					predefinedConfigIdentity			PredefinedConfigIdentity,
					defaultConfig						SEQUENCE {
						defaultConfigMode					DefaultConfigMode,
						defaultConfigIdentity				DefaultConfigIdentity-r6,
						-- dummy is not used in this version of the specification, it should
						-- not be sent and if received it should be ignored
						dummy								DLUL-HSPA-Information-r9	OPTIONAL
					}
				},
				rab-Info							RAB-Info-Post						OPTIONAL,
				modeSpecificInfo					CHOICE {
					fdd									SEQUENCE {
						ul-DPCH-Info						UL-DPCH-InfoPostFDD,
						dl-CommonInformationPost			DL-CommonInformationPost,
						dl-InformationPerRL-List			DL-InformationPerRL-ListPostFDD,
						frequencyInfo						FrequencyInfoFDD
					},
					tdd									CHOICE {
						tdd384								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-InfoPostTDD,
							dl-InformationPerRL				DL-InformationPerRL-PostTDD,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
						},
						tdd128								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-Info-r7,
							dl-InformationPerRL				DL-InformationPerRL-PostTDD-LCR-r4,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power,
							multi-frequencyInfo		Multi-frequencyInfo-LCR-r7	OPTIONAL
						},
						tdd768								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-Info-r7,
							dl-InformationPerRL				DL-InformationPerRL-List-r7,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
						}
					}
				}
			}
		},
	-- Physical channel IEs
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power
}

HandoverToUTRANCommand-v9c0ext-IEs ::= SEQUENCE {
	-- For 1.28Mcps TDD only
		dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-TDD128-v9c0ext	OPTIONAL
}

HandoverToUTRANCommand-LaterCriticalExtensions ::= CHOICE {
		r10							SEQUENCE {
			handoverToUTRANCommand-r10		HandoverToUTRANCommand-r10-IEs,
			v9c0NonCriticalExtensions			SEQUENCE {
				handoverToUTRANCommand-v9c0ext
								HandoverToUTRANCommand-v9c0ext-IEs,
				nonCriticalExtensions			SEQUENCE {}							OPTIONAL
			}	OPTIONAL
		},
		criticalExtensions				CHOICE {
			r11								SEQUENCE {
				handoverToUTRANCommand-r11		HandoverToUTRANCommand-r11-IEs,
				-- Container for adding non critical extensions after freezing REL-12
				handoverToUTRANCommand-r11-add-ext	BIT STRING						OPTIONAL,
				vbc0NonCriticalExtensions				SEQUENCE {
					handoverToUTRANCommand-vbc0ext		HandoverToUTRANCommand-vbc0ext-IEs,
					nonCriticalExtensions					SEQUENCE {}				OPTIONAL
				}		OPTIONAL
			},
			criticalExtensions				CHOICE {
				r12								SEQUENCE {
					handoverToUTRANCommand-r12		HandoverToUTRANCommand-r12-IEs,
					-- Container for adding non critical extensions after freezing REL-13
					handoverToUTRANCommand-r12-add-ext	BIT STRING					OPTIONAL,
					nonCriticalExtensions					SEQUENCE {}				OPTIONAL
				},
				criticalExtensions				SEQUENCE {}
			}
		}
}

HandoverToUTRANCommand-r10-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-U-RNTI								U-RNTI-Short,
		cipheringAlgorithm						CipheringAlgorithm-r7					OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
	-- Radio bearer IEs
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received UE behaviour is unspecified.
		dummy									DefaultConfigForCellFACH				OPTIONAL,
		specificationMode						CHOICE {
			complete							SEQUENCE {
				srb-InformationSetupList			SRB-InformationSetupList-r8,
				rab-InformationSetupList			RAB-InformationSetupList-r8		OPTIONAL,
				ul-CommonTransChInfo				UL-CommonTransChInfo-r4,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8,
				dl-CommonTransChInfo				DL-CommonTransChInfo-r4,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9,
				ul-DPCH-Info						UL-DPCH-Info-r7,
				ul-EDCH-Information				UL-EDCH-Information-r9			OPTIONAL,
				dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
				dl-CommonInformation				DL-CommonInformation-r10,
				dl-InformationPerRL-List			DL-InformationPerRL-List-r7,
				frequencyInfo						FrequencyInfo,
				multi-frequencyInfo				Multi-frequencyInfo-LCR-r7		OPTIONAL
			},
			preconfiguration					SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode						CHOICE {
					predefinedConfigIdentity			PredefinedConfigIdentity,
					defaultConfig							SEQUENCE {
						defaultConfigMode						DefaultConfigMode,
						defaultConfigIdentity					DefaultConfigIdentity-r6,
						-- dummy is not used in this version of the specification, it should
						-- not be sent and if received it should be ignored
						dummy								DLUL-HSPA-Information-r10	OPTIONAL
					}
				},
				rab-Info							RAB-Info-Post						OPTIONAL,
				modeSpecificInfo					CHOICE {
					fdd									SEQUENCE {
						ul-DPCH-Info						UL-DPCH-InfoPostFDD,
						dl-CommonInformationPost			DL-CommonInformationPost,
						dl-InformationPerRL-List			DL-InformationPerRL-ListPostFDD,
						frequencyInfo						FrequencyInfoFDD
					},
					tdd									CHOICE {
						tdd384								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-InfoPostTDD,
							dl-InformationPerRL				DL-InformationPerRL-PostTDD,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
						},
						tdd128								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-Info-r7,
							dl-InformationPerRL				DL-InformationPerRL-PostTDD-LCR-r4,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power,
							multi-frequencyInfo				Multi-frequencyInfo-LCR-r7		OPTIONAL
						},
						tdd768								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-Info-r7,
							dl-InformationPerRL				DL-InformationPerRL-List-r7,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
						}
					}
				}
			}
		},
	-- Physical channel IEs
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power
}

HandoverToUTRANCommand-r11-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-U-RNTI								U-RNTI-Short,
		cipheringAlgorithm						CipheringAlgorithm-r7					OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
	-- Radio bearer IEs
	-- Specification mode information
		defaultConfigForCellFACH				DefaultConfigForCellFACH				OPTIONAL,
		specificationMode						CHOICE {
			complete								SEQUENCE {
				srb-InformationSetupList				SRB-InformationSetupList-r8,
				rab-InformationSetupList				RAB-InformationSetupList-r8	OPTIONAL,
				ul-CommonTransChInfo					UL-CommonTransChInfo-r4,
				ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8,
				dl-CommonTransChInfo					DL-CommonTransChInfo-r4,
				dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r11,
				ul-DPCH-Info							UL-DPCH-Info-r11,
				ul-EDCH-Information					UL-EDCH-Information-r11		OPTIONAL,
				dl-HSPDSCH-Information				DL-HSPDSCH-Information-r11	OPTIONAL,
				dl-CommonInformation					DL-CommonInformation-r10,
				dl-InformationPerRL-List				DL-InformationPerRL-List-r11,
				frequencyInfo							FrequencyInfo,
				multi-frequencyInfo					Multi-frequencyInfo-LCR-r7	OPTIONAL
			},
			preconfiguration						SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode							CHOICE {
					predefinedConfigIdentity				PredefinedConfigIdentity,
					defaultConfig							SEQUENCE {
						defaultConfigMode						DefaultConfigMode,
						defaultConfigIdentity					DefaultConfigIdentity-r6
					}
				},
				rab-Info								RAB-Info-Post					OPTIONAL,
				modeSpecificInfo						CHOICE {
					fdd										SEQUENCE {
						ul-DPCH-Info							UL-DPCH-InfoPostFDD,
						dl-CommonInformationPost				DL-CommonInformationPost,
						dl-InformationPerRL-List				DL-InformationPerRL-ListPostFDD,
						frequencyInfo							FrequencyInfoFDD
					},
					tdd										CHOICE {
						tdd384									SEQUENCE {
							ul-DPCH-Info							UL-DPCH-InfoPostTDD,
							dl-InformationPerRL					DL-InformationPerRL-PostTDD,
							frequencyInfo							FrequencyInfoTDD,
							primaryCCPCH-TX-Power					PrimaryCCPCH-TX-Power
						},
						tdd128									SEQUENCE {
							ul-DPCH-Info							UL-DPCH-Info-r7,
							dl-InformationPerRL					DL-InformationPerRL-PostTDD-LCR-r4,
							frequencyInfo							FrequencyInfoTDD,
							primaryCCPCH-TX-Power					PrimaryCCPCH-TX-Power,
							multi-frequencyInfo					Multi-frequencyInfo-LCR-r7		OPTIONAL
						},
						tdd768									SEQUENCE {
							ul-DPCH-Info							UL-DPCH-Info-r7,
							dl-InformationPerRL					DL-InformationPerRL-List-r7,
							frequencyInfo							FrequencyInfoTDD,
							primaryCCPCH-TX-Power					PrimaryCCPCH-TX-Power
						}
					}
				}
			}
		},
	-- Physical channel IEs
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power
}

HandoverToUTRANCommand-vbc0ext-IEs ::= SEQUENCE {
	specificationMode					CHOICE {
		complete							SEQUENCE {
			dl-SecondaryCellInfoFDD		DL-SecondaryCellInfoFDD-HandoverToUtran	OPTIONAL,
			ulSecondaryCellInfoFDD		UL-SecondaryCellInfoFDD					OPTIONAL,
			additionalDLSecCellInfoHandoverToUtranListFDD																		AdditionalDLSecCellInfoHandoverToUtranListFDD		OPTIONAL
		}
	}
}

HandoverToUTRANCommand-r12-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-U-RNTI								U-RNTI-Short,
		cipheringAlgorithm						CipheringAlgorithm-r7					OPTIONAL,
		supportForChangeOfUE-Capability		BOOLEAN,
		new-H-RNTI								H-RNTI									OPTIONAL,
		newPrimary-E-RNTI						E-RNTI									OPTIONAL,
		newSecondary-E-RNTI					E-RNTI									OPTIONAL,
	-- Radio bearer IEs
	-- Specification mode information
		defaultConfigForCellFACH				DefaultConfigForCellFACH				OPTIONAL,
		specificationMode						CHOICE {
			complete								SEQUENCE {
				srb-InformationSetupList				SRB-InformationSetupList-r8,
				rab-InformationSetupList				RAB-InformationSetupList-r8	OPTIONAL,
				ul-CommonTransChInfo					UL-CommonTransChInfo-r12,
				ul-AddReconfTransChInfoList			UL-AddReconfTransChInfoList-r8,
				dl-CommonTransChInfo					DL-CommonTransChInfo-r4,
				dl-AddReconfTransChInfoList			DL-AddReconfTransChInfoList-r11,
				ul-DPCH-Info							UL-DPCH-Info-r11,
				ul-EDCH-Information					UL-EDCH-Information-r11		OPTIONAL,
				dl-HSPDSCH-Information				DL-HSPDSCH-Information-r11	OPTIONAL,
				dl-CommonInformation					DL-CommonInformation-r12,
				dl-InformationPerRL-List				DL-InformationPerRL-List-r12,
			-- Physical channel IEs
				dch-Enhancements-Info-FDD				DCH-Enhancements-Info-FDD		OPTIONAL,
				frequencyInfo							FrequencyInfo,
				multi-frequencyInfo					Multi-frequencyInfo-LCR-r7	OPTIONAL,
				dl-SecondaryCellInfoFDD			
											DL-SecondaryCellInfoFDD-HandoverToUtran	OPTIONAL,
				ulSecondaryCellInfoFDD	UL-SecondaryCellInfoFDD					OPTIONAL,
				additionalDLSecCellInfoHandoverToUtranListFDD																	AdditionalDLSecCellInfoHandoverToUtranListFDD		OPTIONAL
			},
			preconfiguration						SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode						CHOICE {
					predefinedConfigIdentity			PredefinedConfigIdentity,
					defaultConfig						SEQUENCE {
						defaultConfigMode					DefaultConfigMode,
						defaultConfigIdentity				DefaultConfigIdentity-r6
					}
				},
				rab-Info							RAB-Info-Post						OPTIONAL,
				modeSpecificInfo					CHOICE {
					fdd									SEQUENCE {
						ul-DPCH-Info						UL-DPCH-InfoPostFDD,
						dl-CommonInformationPost			DL-CommonInformationPost,
						dl-InformationPerRL-List			DL-InformationPerRL-ListPostFDD,
						frequencyInfo						FrequencyInfoFDD
					},
					tdd									CHOICE {
						tdd384								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-InfoPostTDD,
							dl-InformationPerRL				DL-InformationPerRL-PostTDD,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
						},
						tdd128								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-Info-r7,
							dl-InformationPerRL				DL-InformationPerRL-PostTDD-LCR-r4,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power,
							multi-frequencyInfo		Multi-frequencyInfo-LCR-r7	OPTIONAL
						},
						tdd768								SEQUENCE {
							ul-DPCH-Info						UL-DPCH-Info-r7,
							dl-InformationPerRL				DL-InformationPerRL-List-r7,
							frequencyInfo						FrequencyInfoTDD,
							primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
						}
					}
				}
			}
		},
	-- Physical channel IEs
		maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power
}

-- ***************************************************
--
-- HANDOVER TO UTRAN COMPLETE
--
-- ***************************************************

HandoverToUTRANComplete ::= SEQUENCE {
	--TABULAR: Integrity protection shall not be performed on this message.
	-- User equipment IEs
	-- TABULAR: startList is conditional on history.
		startList							STARTList							OPTIONAL,
	-- Radio bearer IEs
		count-C-ActivationTime			ActivationTime						OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			handoverToUTRANComplete-r3-add-ext	BIT STRING					OPTIONAL,
			va40NonCriticalExtensions				SEQUENCE {
				handoverToUTRANComplete-va40ext		HandoverToUTRANComplete-va40ext,
				vb50NonCriticalExtensions				SEQUENCE {
					handoverToUTRANComplete-vb50ext	HandoverToUTRANComplete-vb50ext-IEs,
					nonCriticalExtensions				SEQUENCE {}			OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

HandoverToUTRANComplete-va40ext ::= SEQUENCE {
	loggedMeasAvailable					ENUMERATED { true }				OPTIONAL
}

HandoverToUTRANComplete-vb50ext-IEs ::= SEQUENCE {
	connEstFailInfoAvailable				ENUMERATED { true }				OPTIONAL
}

-- ***************************************************
--
-- INITIAL DIRECT TRANSFER
--
-- ***************************************************

InitialDirectTransfer ::= SEQUENCE {
	-- Core network IEs
		cn-DomainIdentity					CN-DomainIdentity,
		intraDomainNasNodeSelector		IntraDomainNasNodeSelector,
		nas-Message						NAS-Message,
	-- Measurement IEs
		measuredResultsOnRACH				MeasuredResultsOnRACH				OPTIONAL,
		v3a0NonCriticalExtensions			SEQUENCE {
		initialDirectTransfer-v3a0ext			InitialDirectTransfer-v3a0ext,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			initialDirectTransfer-r3-add-ext		BIT STRING	
								(CONTAINING InitialDirectTransfer-r3-add-ext-IEs)	OPTIONAL,
				v590NonCriticalExtensions		SEQUENCE {
					initialDirectTransfer-v590ext	InitialDirectTransfer-v590ext,
					v690NonCriticalExtensions		SEQUENCE {
						initialDirectTransfer-v690ext	InitialDirectTransfer-v690ext-IEs,
						v770NonCriticalExtensions		SEQUENCE {
							initialDirectTransfer-v770ext	InitialDirectTransfer-v770ext-IEs,
							v860NonCriticalExtensions		SEQUENCE {
								initialDirectTransfer-v860ext	InitialDirectTransfer-v860ext-IEs,
								vb50NonCriticalExtensions		SEQUENCE {
									initialDirectTransfer-vb50ext	InitialDirectTransfer-vb50ext-IEs,
									vc50NonCriticalExtensions		SEQUENCE {
										initialDirectTransfer-vc50ext	InitialDirectTransfer-vc50ext-IEs,
										ve30NonCriticalExtensions		InitialDirectTransfer-ve30ext-IEs		OPTIONAL
									}		OPTIONAL
								}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}	OPTIONAL
}

InitialDirectTransfer-v3a0ext ::= SEQUENCE {
	-- start-value shall always be included in this version of the protocol
	start-Value						START-Value									OPTIONAL
}
InitialDirectTransfer-v590ext ::= SEQUENCE {
	establishmentCause					EstablishmentCause								OPTIONAL
}

InitialDirectTransfer-v690ext-IEs ::= SEQUENCE {
	-- Core network IEs
		plmn-Identity						PLMN-Identity								OPTIONAL,
	-- Measurement IEs
		measuredResultsOnRACHinterFreq	MeasuredResultsOnRACHinterFreq			OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation			MBMS-JoinedInformation-r6					OPTIONAL
}

InitialDirectTransfer-v770ext-IEs ::= SEQUENCE {
		csCallType						ENUMERATED { speech, video, other, spare }	OPTIONAL
}

InitialDirectTransfer-v860ext-IEs ::= SEQUENCE {
		supportOfCSG					ENUMERATED { true }							OPTIONAL
}

InitialDirectTransfer-r3-add-ext-IEs ::=		SEQUENCE {
	initialDirectTransfer-v7g0ext		InitialDirectTransfer-v7g0ext-IEs,
	nonCriticalExtensions					SEQUENCE {}								OPTIONAL
}

InitialDirectTransfer-v7g0ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
	measuredResultsOnRACH-v7g0ext			MeasuredResultsOnRACH-v7g0ext			OPTIONAL
}

InitialDirectTransfer-vb50ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
	measuredResultsOnRACHEUTRAFreq			MeasuredResultsOnRACH-EUTRAFreq		OPTIONAL
}

InitialDirectTransfer-vc50ext-IEs ::= SEQUENCE {
	-- Measurement IEs
		measuredResultsOnRACH					MeasuredResultsOnRACH-vc50ext			OPTIONAL
}

InitialDirectTransfer-ve30ext-IEs ::= SEQUENCE {
	-- Other IEs
		dcnIdentity						INTEGER (0..65535)					OPTIONAL,
		nonCriticalExtensions				SEQUENCE {}						OPTIONAL
}

-- ***************************************************
--
-- HANDOVER FROM UTRAN COMMAND
--
-- ***************************************************

HandoverFromUTRANCommand-GSM ::= CHOICE {
	r3								SEQUENCE {
		handoverFromUTRANCommand-GSM-r3
										HandoverFromUTRANCommand-GSM-r3-IEs,
		-- UTRAN should not include the IE laterNonCriticalExtensions when it sets the IE 
		-- gsm-message included in handoverFromUTRANCommand-GSM-r3 to single-GSM-Message. The UE
		-- behaviour upon receiving a message with this combination of IE values is unspecified.
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			handoverFromUTRANCommand-GSM-r3-add-ext		BIT STRING	OPTIONAL,
			-- UTRAN may apply the r3 version of the message to perform PS handover
			-- for a single RAB only
			v690NonCriticalExtensions		SEQUENCE {
				handoverFromUTRANCommand-GSM-v690ext	HandoverFromUTRANCommand-GSM-v690ext-IEs,
				v860NonCriticalExtensions		SEQUENCE {
					handoverFromUTRANCommand-GSM-v860ext
													HandoverFromUTRANCommand-GSM-v860ext-IEs,
					nonCriticalExtensions			SEQUENCE {}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r6								SEQUENCE {
				handoverFromUTRANCommand-GSM-r6		HandoverFromUTRANCommand-GSM-r6-IEs,
				handoverFromUTRANCommand-GSM-r6-add-ext		BIT STRING	OPTIONAL,
				v860NonCriticalExtensions		SEQUENCE {
					handoverFromUTRANCommand-GSM-v860ext
													HandoverFromUTRANCommand-GSM-v860ext-IEs,
					nonCriticalExtensions			SEQUENCE {}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				SEQUENCE {}
		}
	}
}

HandoverFromUTRANCommand-GSM-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier				RRC-TransactionIdentifier,
		activationTime							ActivationTime							OPTIONAL,
	-- Radio bearer IEs
		toHandoverRAB-Info						RAB-Info								OPTIONAL,
	-- Measurement IEs
		frequency-band							Frequency-Band,
	-- Other IEs
		gsm-message							CHOICE {
			-- In the single-GSM-Message case the following rules apply:
			-- 1> the GSM message directly follows the basic production; the final padding that
			--    results when PER encoding the abstract syntax value is removed prior to appending 
			--    the GSM message.
			-- 2> the RRC message excluding the GSM part, does not contain a length determinant; 
			--    there is no explicit parameter indicating the size of the included GSM message.
			-- 3> depending on need, final padding (all "0"s) is added to ensure the final result
			--    comprises a full number of octets
			single-GSM-Message						SEQUENCE {},
			gsm-MessageList							SEQUENCE {
				gsm-Messages								GSM-MessageList
			}
		}
}

HandoverFromUTRANCommand-GSM-r6-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime							ActivationTime							OPTIONAL,
	-- Radio bearer IEs
		toHandoverRAB-Info						RAB-InformationList-r6				OPTIONAL,
	-- Measurement IEs
		frequency-band							Frequency-Band,
	-- Other IEs
		gsm-message							CHOICE {
			-- In the single-GSM-Message case the following rules apply:
			-- 1> the GSM message directly follows the basic production; the final padding that
			--    results when PER encoding the abstract syntax value is removed prior to appending 
			--    the GSM message.
			-- 2> the RRC message excluding the GSM part, does not contain a length determinant; 
			--    there is no explicit parameter indicating the size of the included GSM message.
			-- 3> depending on need, final padding (all "0"s) is added to ensure the final result
			--    comprises a full number of octets
			single-GSM-Message						SEQUENCE {},
			gsm-MessageList						SEQUENCE {
				gsm-Messages							GSM-MessageList
			}
		},
		geran-SystemInfoType					CHOICE	{		
			sI										GERAN-SystemInformation,
			pSI										GERAN-SystemInformation
		}		OPTIONAL
}

HandoverFromUTRANCommand-GSM-v690ext-IEs ::= SEQUENCE {
		geran-SystemInfoType					CHOICE	{		
			sI										GERAN-SystemInformation,
			pSI										GERAN-SystemInformation
		}		OPTIONAL
}

HandoverFromUTRANCommand-GSM-v860ext-IEs ::= SEQUENCE {
	sr-vcc-SecurityRABInfo					SR-VCC-SecurityRABInfo-v860ext		OPTIONAL
}

HandoverFromUTRANCommand-GERANIu ::= SEQUENCE {
	rrc-TransactionIdentifier					RRC-TransactionIdentifier,
	handoverFromUTRANCommand-GERANIu			CHOICE {
		r5											SEQUENCE {
			handoverFromUTRANCommand-GERANIu-r5
											HandoverFromUTRANCommand-GERANIu-r5-IEs,
			-- UTRAN should not include the IE nonCriticalExtensions when it sets
			-- the IE geranIu-message included in handoverFromUTRANCommand-GERANIu-r5 to 
			-- single-GERANIu-Message
			-- The UE behaviour upon receiving a message including this combination of IE values is
			-- not specified
			nonCriticalExtensions						SEQUENCE {}					OPTIONAL
		},
		later-than-r5								SEQUENCE {
			criticalExtensions							SEQUENCE {}
		}
	}
}

HandoverFromUTRANCommand-GERANIu-r5-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime							ActivationTime							OPTIONAL,
	-- Measurement IEs
		frequency-Band							Frequency-Band,
	-- Other IEs
		geranIu-Message						CHOICE {
			-- In the single-GERANIu-Message case the following rules apply:
			-- 1> the GERAN Iu message directly follows the basic production; the final padding that
			--    results when PER encoding the abstract syntax value is removed prior to appending 
			--    the GERAN Iu message.
			-- 2> the RRC message excluding the GERAN Iu part does not contain a length determinant; 
--    there is no explicit parameter indicating the size of the included GERAN Iu
--    message.
			-- 3> depending on need, final padding (all "0"s) is added to ensure the final result
			--    comprises a full number of octets.
			single-GERANIu-Message				SEQUENCE {},
			geranIu-MessageList					SEQUENCE {
				geranIu-Messages						GERANIu-MessageList
			}
		}
}

HandoverFromUTRANCommand-CDMA2000 ::= CHOICE {
	r3								SEQUENCE {
		handoverFromUTRANCommand-CDMA2000-r3
										HandoverFromUTRANCommand-CDMA2000-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions 
			handoverFromUTRANCommand-CDMA2000-r3-add-ext
												BIT STRING								OPTIONAL,
			nonCriticalExtensions				SEQUENCE {}							OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

HandoverFromUTRANCommand-CDMA2000-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier				RRC-TransactionIdentifier,
		activationTime							ActivationTime							OPTIONAL,
	-- Radio bearer IEs
		toHandoverRAB-Info						RAB-Info								OPTIONAL,
	-- Other IEs
		cdma2000-MessageList					CDMA2000-MessageList
}

HandoverFromUTRANCommand-EUTRA ::= SEQUENCE {
	rrc-TransactionIdentifier					RRC-TransactionIdentifier,
	criticalExtensions							CHOICE {
		r8											SEQUENCE {
			handoverFromUTRANCommand-EUTRA-r8		HandoverFromUTRANCommand-EUTRA-r8-IEs,
			handoverFromUTRANCommand-EUTRA-r8-add-ext
														BIT STRING						OPTIONAL,
			nonCriticalExtensions						SEQUENCE {}					OPTIONAL
		},
		criticalExtensions						CHOICE {
			r11										SEQUENCE {
				handoverFromUTRANCommand-EUTRA-r11	HandoverFromUTRANCommand-EUTRA-r11-IEs,
				handoverFromUTRANCommand-EUTRA-r11-add-ext	BIT STRING				OPTIONAL,
				nonCriticalExtensions					SEQUENCE {}					OPTIONAL
			},
			criticalExtensions						SEQUENCE {}
		}
	}
}

HandoverFromUTRANCommand-EUTRA-r8-IEs ::= SEQUENCE {
	-- User equipment IEs
		activationTime							ActivationTime							OPTIONAL,
	-- Radio bearer IEs
		toHandoverRAB-Info						RAB-InformationList					OPTIONAL,
	-- Other IEs
		eutra-Message							OCTET STRING
}

HandoverFromUTRANCommand-EUTRA-r11-IEs ::= SEQUENCE {
	-- User equipment IEs
		rsr-vcc-Info							RSR-VCC-Info 							OPTIONAL,
		activationTime							ActivationTime							OPTIONAL,
	-- Radio bearer IEs
		toHandoverRAB-Info						RAB-InformationList					OPTIONAL,
	-- Other IEs
		eutra-Message							OCTET STRING
}

-- ***************************************************
--
-- HANDOVER FROM UTRAN FAILURE
--
-- ***************************************************

HandoverFromUTRANFailure ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
	-- Other IEs
		interRAT-HO-FailureCause		InterRAT-HO-FailureCause			OPTIONAL,
		-- In case the interRATMessage to be transferred is for GERAN Iu mode, the
		-- message should be placed in the HandoverFromUtranFailure-v590ext-IEs
		-- non-critical extension container.
		-- In case the interRATMessage to be transferred is for E-UTRA, the
		-- message should be placed in the HandoverFromUtranFailure-v860ext-IEs
		-- non-critical extension container.
		interRATMessage					CHOICE {
			gsm								SEQUENCE {
				gsm-MessageList						GSM-MessageList
			},
			cdma2000							SEQUENCE {
				cdma2000-MessageList				CDMA2000-MessageList
			}
		}				OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			handoverFromUTRANFailure-r3-add-ext		BIT STRING	OPTIONAL,
			v590NonCriticalExtensions		SEQUENCE {
				handoverFromUTRANFailure-v590ext	HandoverFromUtranFailure-v590ext-IEs,
				v860NonCriticalExtensions		SEQUENCE {
					handoverFromUTRANFailure-v860ext	HandoverFromUtranFailure-v860ext-IEs,
					nonCriticalExtensions			SEQUENCE {}		OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

HandoverFromUtranFailure-v590ext-IEs ::= SEQUENCE {
	geranIu-MessageList						GERANIu-MessageList					OPTIONAL
}

HandoverFromUtranFailure-v860ext-IEs ::= SEQUENCE {
	eutra-Message								OCTET STRING							OPTIONAL
}

-- ***************************************************
--
-- INTER RAT HANDOVER INFO
--
-- ***************************************************

InterRATHandoverInfo ::= SEQUENCE {
	-- This structure is defined for historical reasons, backward compatibility with 44.018
	predefinedConfigStatusList		CHOICE {
		absent							NULL,
		present							PredefinedConfigStatusList
	},
	uE-SecurityInformation			CHOICE {
		absent							NULL,
		present							UE-SecurityInformation
	},
	ue-CapabilityContainer			CHOICE {
		absent							NULL,
		-- present is an octet aligned string containing Ie UE-RadioAccessCapabilityInfo
		present							OCTET STRING (SIZE (0..63))
	},
	-- Non critical extensions
	v390NonCriticalExtensions		CHOICE {
		absent							NULL,
		present							SEQUENCE {
			interRATHandoverInfo-v390ext	InterRATHandoverInfo-v390ext-IEs,
			v3a0NonCriticalExtensions		SEQUENCE  {
				interRATHandoverInfo-v3a0ext	InterRATHandoverInfo-v3a0ext-IEs,
				laterNonCriticalExtensions		SEQUENCE {
					interRATHandoverInfo-v3d0ext 	InterRATHandoverInfo-v3d0ext-IEs,
					-- Container for additional R99 extensions
					interRATHandoverInfo-r3-add-ext		BIT STRING
								(CONTAINING InterRATHandoverInfo-r3-add-ext-IEs)	OPTIONAL,
					v3g0NonCriticalExtensions			SEQUENCE {
						interRATHandoverInfo-v3g0ext	InterRATHandoverInfo-v3g0ext-IEs,
						v4b0NonCriticalExtensions		SEQUENCE {
							interRATHandoverInfo-v4b0ext	InterRATHandoverInfo-v4b0ext-IEs,
							v4d0NonCriticalExtensions		SEQUENCE {
								interRATHandoverInfo-v4d0ext	InterRATHandoverInfo-v4d0ext-IEs,
								-- Reserved for future non critical extension
								v590NonCriticalExtensions		SEQUENCE {
									interRATHandoverInfo-v590ext
																InterRATHandoverInfo-v590ext-IEs,
									v690NonCriticalExtensions		SEQUENCE {
										interRATHandoverInfo-v690ext
																InterRATHandoverInfo-v690ext-IEs,
										v6b0NonCriticalExtensions		
										InterRATHandoverInfo-NonCriticalExtension-v6b0-IEs	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}
	}
}

InterRATHandoverInfo-v390ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v380ext		UE-RadioAccessCapability-v380ext		OPTIONAL,
		dl-PhysChCapabilityFDD-v380ext		DL-PhysChCapabilityFDD-v380ext
}

InterRATHandoverInfo-v3a0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v3a0ext		UE-RadioAccessCapability-v3a0ext		OPTIONAL
}

InterRATHandoverInfo-v3d0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		uESpecificBehaviourInformation1interRAT	
											UESpecificBehaviourInformation1interRAT	OPTIONAL
}

InterRATHandoverInfo-v3g0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v3g0ext	UE-RadioAccessCapability-v3g0ext		OPTIONAL
}

InterRATHandoverInfo-r3-add-ext-IEs ::= SEQUENCE {
		interRATHandoverInfo-v690ext1		InterRATHandoverInfo-v690ext1-IEs,
		v7e0NonCriticalExtensions			SEQUENCE {
			interRATHandoverInfo-v7e0ext		InterRATHandoverInfo-v7e0ext-IEs,
			v7f0NonCriticalExtensions			SEQUENCE {
				interRATHandoverInfo-v7f0ext		InterRATHandoverInfo-v7f0ext-IEs,
				va40NonCriticalExtensions			SEQUENCE {
					interRATHandoverInfo-va40ext		InterRATHandoverInfoBand-va40ext-IEs,
					nonCriticalExtensions				SEQUENCE {}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

InterRATHandoverInfo-v4b0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		accessStratumReleaseIndicator		AccessStratumReleaseIndicator
}

InterRATHandoverInfo-v4d0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
	tdd128-RF-Capability					RadioFrequencyBandTDDList					OPTIONAL
}

InterRATHandoverInfo-v590ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		predefinedConfigStatusListComp	PredefinedConfigStatusListComp			OPTIONAL,
		ue-RadioAccessCapabilityComp		UE-RadioAccessCapabilityComp				OPTIONAL
}

InterRATHandoverInfo-v690ext1-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v650ext		UE-RadioAccessCapability-v650ext		OPTIONAL
}

InterRATHandoverInfo-v690ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-SecurityInformation2			UE-SecurityInformation2					OPTIONAL,
		ue-RadioAccessCapabilityComp		UE-RadioAccessCapabilityComp-ext			OPTIONAL,
		ue-RadioAccessCapabilityComp2		UE-RadioAccessCapabilityComp2
}

InterRATHandoverInfo-NonCriticalExtension-v6b0-IEs ::=	SEQUENCE {
	interRATHandoverInfo-v6b0ext		InterRATHandoverInfo-v6b0ext-IEs,
	v6e0NonCriticalExtensions			SEQUENCE {
		interRATHandoverInfo-v6e0ext		InterRATHandoverInfo-v6e0ext-IEs,
		v770NonCriticalExtensions			SEQUENCE {
			interRATHandoverInfo-v770ext		InterRATHandoverInfo-v770ext-IEs,
			v790nonCriticalExtensions			SEQUENCE {
				interRATHandoverInfo-v790ext		InterRATHandoverInfo-v790ext-IEs,
				v860NonCriticalExtensions			SEQUENCE {
					interRATHandoverInfo-v860ext		InterRATHandoverInfo-v860ext-IEs,
					v880NonCriticalExtensions			SEQUENCE {
						interRATHandoverInfo-v880ext		InterRATHandoverInfo-v880ext-IEs,
						v920NonCriticalExtensions			SEQUENCE {
							interRATHandoverInfo-v920ext		InterRATHandoverInfo-v920ext-IEs,
							v8b0NonCriticalExtensions			SEQUENCE {
								interRATHandoverInfo-v8b0ext
																InterRATHandoverInfo-v8b0ext-IEs,
								v950NonCriticalExtensions			SEQUENCE {
									interRATHandoverInfo-v950ext
																InterRATHandoverInfo-v950ext-IEs,
									va40NonCriticalExtensions			SEQUENCE {
										interRATHandoverInfo-va40ext
																InterRATHandoverInfo-va40ext-IEs,
										va80NonCriticalExtensions			SEQUENCE {
											interRATHandoverInfo-va80ext
																InterRATHandoverInfo-va80ext-IEs,
											vb50NonCriticalExtensions			SEQUENCE {
												interRATHandoverInfo-vb50ext
																InterRATHandoverInfo-vb50ext-IEs,
												vb70NonCriticalExtensions			SEQUENCE {
													interRATHandoverInfo-vb70ext
																InterRATHandoverInfo-vb70ext-IEs,
													laterNonCriticalExtensions
												InterRATHandoverInfo-LaterNonCriticalExtensions
															OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	}	OPTIONAL
}

InterRATHandoverInfo-v6b0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		supportForSIB11bis					ENUMERATED { true }						OPTIONAL
}

InterRATHandoverInfo-v6e0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		supportForFDPCH					ENUMERATED { true }						OPTIONAL
}

InterRATHandoverInfo-v770ext-IEs ::= SEQUENCE {
		ue-RadioAccessCapabilityInfo		UE-RadioAccessCapabilityInfo-v770ext		OPTIONAL,
		ue-RadioAccessCapabilityComp		UE-RadioAccessCapabilityComp-v770ext		OPTIONAL,
		ue-RadioAccessCapabilityComp2		UE-RadioAccessCapabilityComp2-v770ext	OPTIONAL
}

InterRATHandoverInfo-v790ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		supportForEDPCCHPowerBoosting		ENUMERATED { true }						OPTIONAL
}

InterRATHandoverInfo-v7e0ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability			UE-RadioAccessCapability-v7e0ext			OPTIONAL
}

InterRATHandoverInfo-v7f0ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability			UE-RadioAccessCapability-v7f0ext			OPTIONAL,
		ue-RadioAccessCapabilityComp2		UE-RadioAccessCapabilityComp2-v7f0ext	OPTIONAL
}

InterRATHandoverInfo-v860ext-IEs ::=	SEQUENCE {
		ue-RadioAccessCapabilityInfo		UE-RadioAccessCapability-v860ext			OPTIONAL,
		ue-RadioAccessCapabilityComp2		UE-RadioAccessCapabilityComp2-v860ext	OPTIONAL
}

InterRATHandoverInfo-v880ext-IEs ::=	SEQUENCE {
	-- UE radio access capability
		ue-RadioAccessCapabilityInfo			UE-RadioAccessCapability-v880ext		OPTIONAL,
		ue-RadioAccessCapabilityInfo-TDD128	UE-RadioAccessCapabilityComp-TDD128	OPTIONAL
}

InterRATHandoverInfo-v920ext-IEs ::=	SEQUENCE {
		ue-RadioAccessCapabilityInfo		UE-RadioAccessCapability-v920ext			OPTIONAL,
		ue-RadioAccessCapabilityComp2		UE-RadioAccessCapabilityComp2-v920ext	OPTIONAL
}

InterRATHandoverInfo-v8b0ext-IEs ::=	SEQUENCE {
	-- UE radio access capability
		ue-RadioAccessCapabilityInfo	UE-RadioAccessCapabilityInfo-TDD128-v8b0ext	OPTIONAL
}

InterRATHandoverInfo-v950ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		pdcp-Capability					PDCP-Capability-r4-ext					OPTIONAL
}

InterRATHandoverInfo-va40ext-IEs ::=	SEQUENCE {
		ue-RadioAccessCapabilityInfo		UE-RadioAccessCapability-va40ext			OPTIONAL,
		ue-RadioAccessCapabilityComp2		UE-RadioAccessCapabilityComp2-va40ext	OPTIONAL
}

InterRATHandoverInfoBand-va40ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapabBand			UE-RadioAccessCapabBand-va40ext 			OPTIONAL,
		rf-CapabilityFDDComp				RF-CapabBandListFDDComp-ext2 			OPTIONAL
}

InterRATHandoverInfo-va80ext-IEs ::=	SEQUENCE {
		ue-RadioAccessCapabilityInfo-va80ext	UE-RadioAccessCapability-va80ext		OPTIONAL
}

InterRATHandoverInfo-vb50ext-IEs ::=	SEQUENCE {
		ue-RadioAccessCapabilityInfo-vb50ext	
										UE-RadioAccessCapability-vb50ext				OPTIONAL,
		ue-RadioAccessCapabilityComp2		
										UE-RadioAccessCapabilityComp2-vb50ext		OPTIONAL,
		ue-RadioAccessCapabilityInfo-TDD128	
										UE-RadioAccessCapabilityInfo-TDD128-vb50ext	OPTIONAL
}

InterRATHandoverInfo-vb70ext-IEs ::=	SEQUENCE {
		ue-RadioAccessCapabilityInfo-vb70ext		UE-RadioAccessCapability-vb70ext	OPTIONAL
}

InterRATHandoverInfo-vbc0ext-IEs ::= SEQUENCE {
		ue-RadioAccessCapabilityInfo-vbc0ext	UE-RadioAccessCapability-vbc0ext		OPTIONAL
}

InterRATHandoverInfo-LaterNonCriticalExtensions ::=	SEQUENCE {
		interRATHandoverInfo-vbc0ext		InterRATHandoverInfo-vbc0ext-IEs,
		vc50NonCriticalExtensions			SEQUENCE {
			interRATHandoverInfo-vc50ext			InterRATHandoverInfo-vc50ext-IEs,
			vd20NonCriticalExtensions				SEQUENCE {
				interRATHandoverInfo-vd20ext			InterRATHandoverInfo-vd20ext-IEs,
				nonCriticalExtensions					SEQUENCE {}				OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

InterRATHandoverInfo-vc50ext-IEs ::=	SEQUENCE {
		ue-RadioAccessCapabilityComp2		UE-RadioAccessCapabilityComp2-vc50ext	OPTIONAL
}

InterRATHandoverInfo-vd20ext-IEs ::=	SEQUENCE {
		ue-RadioAccessCapabilityInfo		UE-RadioAccessCapability-vd20ext			OPTIONAL,
		ue-RadioAccessCapabilityComp2		UE-RadioAccessCapabilityComp2-vd20ext	OPTIONAL
}

-- ***************************************************
--
-- MEASUREMENT CONTROL
--
-- ***************************************************

MeasurementControl ::= CHOICE {
	-- The Rel-4 functionality of UE Positioning OTDOA AssistanceData TDD is only available
	-- in the later-than-r3 branch of this message (i.e. through the use of the IE
	-- ue-Positioning-OTDOA-AssistanceData-r4)
	r3								SEQUENCE {
		measurementControl-r3			MeasurementControl-r3-IEs,
		v390nonCriticalExtensions		SEQUENCE {
			measurementControl-v390ext		MeasurementControl-v390ext,
			v3a0NonCriticalExtensions			SEQUENCE {
				measurementControl-v3a0ext			MeasurementControl-v3a0ext,
				laterNonCriticalExtensions		SEQUENCE {
					-- Container for additional R99 extensions
					measurementControl-r3-add-ext		BIT STRING	OPTIONAL,
					v4b0NonCriticalExtensions			SEQUENCE{
						-- The content of the v4b0 non-critical extension has been removed. If sent 
						-- to a UE of AS release 4, the UE behaviour is unspecified. A UE of AS 
						-- release 5 onward shall comply with the v4b0 and later extensions in this 
						-- branch of the message.
						v590NonCriticalExtensions		SEQUENCE {
							measurementControl-v590ext		MeasurementControl-v590ext-IEs,
							v5b0NonCriticalExtensions		SEQUENCE {
								measurementControl-v5b0ext		MeasurementControl-v5b0ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}						OPTIONAL
						}						OPTIONAL
					}						OPTIONAL
				}						OPTIONAL
			}						OPTIONAL
		}						OPTIONAL
	},
	later-than-r3					SEQUENCE {
		-- Least significant part of extended "RRC transaction identifier" (Rel-5 onward)
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				measurementControl-r4			MeasurementControl-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					measurementControl-r4-add-ext		BIT STRING		OPTIONAL,
					v590NonCriticalExtensions		SEQUENCE{
						measurementControl-v590ext		MeasurementControl-v590ext-IEs,
						v5b0NonCriticalExtensions		SEQUENCE {
							measurementControl-v5b0ext		MeasurementControl-v5b0ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			later-than-r4					SEQUENCE {
				-- Most significant part of extended "RRC transaction identifier" (MSP):
				-- extended "RRC transaction identifier" =
				-- rrc-TransactionIdentifier-MSP * 4 + rrc-TransactionIdentifier
				rrc-TransactionIdentifier-MSP		RRC-TransactionIdentifier,
				criticalExtensions				CHOICE {
					r6								SEQUENCE {
						measurementControl-r6			MeasurementControl-r6-IEs,
						v6a0NonCriticalExtensions		SEQUENCE {
							measurementControl-v6a0ext		MeasurementControl-v6a0ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r7								SEQUENCE {
							measurementControl-r7			MeasurementControl-r7-IEs,
							-- Container for adding non critical extensions after freezing REL-7
							measurementControl-r7-add-ext	BIT STRING		OPTIONAL,
							v7b0NonCriticalExtensions		SEQUENCE {
								measurementControl-v7b0ext		MeasurementControl-v7b0ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r8								SEQUENCE {
								measurementControl-r8			MeasurementControl-r8-IEs,
								-- Container for adding non critical extensions after freezing REL-9
								measurementControl-r8-add-ext	BIT STRING		OPTIONAL,
								v8a0NonCriticalExtensions		SEQUENCE {
									measurementControl-v8a0ext		MeasurementControl-v8a0ext-IEs,
									vb50NonCriticalExtensions	SEQUENCE {
										measurementControl-vb50ext	MeasurementControl-vb50ext-IEs,
										nonCriticalExtensions			SEQUENCE {}		OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r9								SEQUENCE {
									measurementControl-r9			MeasurementControl-r9-IEs,
									-- Container for adding non critical extensions after freezing REL-10
									measurementControl-r9-add-ext	BIT STRING		OPTIONAL,
									v970NonCriticalExtensions			SEQUENCE {
										measurementControl-v970ext	
															MeasurementControl-v970ext-IEs,
										vb50NonCriticalExtensions	SEQUENCE {
											measurementControl-vb50ext	
																MeasurementControl-vb50ext-IEs,
											nonCriticalExtensions	SEQUENCE {}		OPTIONAL	
										}		OPTIONAL
									}		OPTIONAL
								},
								criticalExtensions				CHOICE	{
									r10								SEQUENCE	{
											measurementControl-r10			MeasurementControl-r10-IEs, 
											-- Container for adding non critical extensions after
											-- freezing REL-11
										measurementControl-r10-add-ext	BIT STRING		OPTIONAL, 
										vaa0NonCriticalExtensions			SEQUENCE {
											measurementControl-vaa0ext	
															MeasurementControl-vaa0ext-IEs,
											vab0NonCriticalExtensions			SEQUENCE {
												measurementControl-vab0ext	
																MeasurementControl-vab0ext-IEs,
												vb50NonCriticalExtensions	SEQUENCE {
													measurementControl-vb50ext		
														MeasurementControl-vb50ext-IEs,
													nonCriticalExtensions	SEQUENCE {}		OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									},
									criticalExtensions				CHOICE	{
										r11								SEQUENCE	{
												measurementControl-r11				
																			MeasurementControl-r11-IEs, 
												-- Container for adding non critical extensions after
												-- freezing REL-12
											measurementControl-r11-add-ext	BIT STRING																										OPTIONAL,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										},
										criticalExtensions				CHOICE	{
											r12								SEQUENCE	{
												measurementControl-r12				
																		MeasurementControl-r12-IEs, 
												-- Container for adding non critical extensions 
												-- after freezing REL-13
												measurementControl-r12-add-ext	BIT STRING																									OPTIONAL,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											},
											criticalExtensions				CHOICE	{
												r13								SEQUENCE	{
													measurementControl-r13				
																		MeasurementControl-r13-IEs, 
													-- Container for adding non critical extensions 
													-- after freezing REL-14
													measurementControl-r13-add-ext	BIT STRING																								OPTIONAL,
													nonCriticalExtensions		SEQUENCE {}																									OPTIONAL
												},
												criticalExtensions				CHOICE	{
													r14								SEQUENCE	{
														measurementControl-r14				
																		MeasurementControl-r14-IEs,
													-- Container for adding non critical extensions
													-- after freezing REL-15
														measurementControl-r14-add-ext	BIT STRING																								OPTIONAL,
														nonCriticalExtensions		SEQUENCE {}																									OPTIONAL
													},
												laterCriticalExtensions MeasurementControl-LaterCriticalExtensions-r14-IEs
												}
											}
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}

MeasurementControl-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier			RRC-TransactionIdentifier,
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity,
		-- TABULAR: The measurement type is included in MeasurementCommand.
		measurementCommand					MeasurementCommand,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List				OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo			OPTIONAL
}

MeasurementControl-v390ext ::= SEQUENCE {
		ue-Positioning-Measurement-v390ext		
											UE-Positioning-Measurement-v390ext		OPTIONAL
}

MeasurementControl-v3a0ext ::= SEQUENCE {
	sfn-Offset-Validity					SFN-Offset-Validity						OPTIONAL
}

MeasurementControl-r4-IEs ::= SEQUENCE {
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r4,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List				OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo			OPTIONAL
}

MeasurementControl-v590ext-IEs ::= SEQUENCE {
	measurementCommand-v590ext 			CHOICE {
		-- the choice "intra-frequency" shall be used for the case of intra-frequency measurement,
		-- as well as when intra-frequency events are configured for inter-frequency measurement
		intra-frequency						Intra-FreqEventCriteriaList-v590ext,
		inter-frequency						Inter-FreqEventCriteriaList-v590ext
	}		OPTIONAL,
	intraFreqReportingCriteria-1b-r5			IntraFreqReportingCriteria-1b-r5		OPTIONAL,
	intraFreqEvent-1d-r5						IntraFreqEvent-1d-r5					OPTIONAL,
	-- Most significant part of extended "RRC transaction identifier" (MSP):
	-- extended "RRC transaction identifier" =
	-- rrc-TransactionIdentifier-MSP-v590ext * 4 + rrc-TransactionIdentifier
	rrc-TransactionIdentifier-MSP-v590ext	RRC-TransactionIdentifier
}

MeasurementControl-v5b0ext-IEs ::= 	SEQUENCE {
	interRATCellInfoIndication			InterRATCellInfoIndication				OPTIONAL
}

MeasurementControl-r6-IEs ::= SEQUENCE {
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r6,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List				OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo			OPTIONAL
}

MeasurementControl-v6a0ext-IEs ::= SEQUENCE {
	intraFreqReportingCriteria-1b-r5		IntraFreqReportingCriteria-1b-r5			OPTIONAL
}


MeasurementControl-r7-IEs ::= SEQUENCE {
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r7,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List				OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo			OPTIONAL
}

MeasurementControl-v7b0ext-IEs ::= SEQUENCE {
	-- Measurement IEs
		newInterFreqCellList				NewInterFreqCellList-v7b0ext				OPTIONAL
}

MeasurementControl-r8-IEs ::= SEQUENCE {
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r8,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List				OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo			OPTIONAL
}

MeasurementControl-v8a0ext-IEs ::= SEQUENCE {
	-- Measurement IEs
		newIntraFreqCellList				NewIntraFreqCellList-LCR-v8a0ext			OPTIONAL,
		newInterFreqCellList				NewInterFreqCellList-LCR-v8a0ext			OPTIONAL
}

MeasurementControl-r9-IEs ::= SEQUENCE {
	-- Measurement IEs
	-- if the UE supports extended measurements, "measurementIdentity" 
	-- shall be ignored if "measurementIdentity" in MeasurementControl-v970ext-IEs
	-- is present, and the value of that element shall be used instead.
		measurementIdentity				MeasurementIdentity,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r9,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
	-- if the UE supports extended measurements, "additionalMeasurementList" 
	-- shall be ignored if "additionalMeasurementList" in MeasurementControl-v970ext-IEs
	-- is present, and the value of that element shall be used instead.
		additionalMeasurementList			AdditionalMeasurementID-List				OPTIONAL,
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9		OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo			OPTIONAL
}

MeasurementControl-v970ext-IEs ::= SEQUENCE {
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity-r9					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List-r9			OPTIONAL
}

MeasurementControl-r10-IEs ::=	SEQUENCE {
	-- Measurement IEs
	-- if the UE supports extended measurements, "measurementIdentity" 
	-- shall be ignored if "measurementIdentity" in MeasurementControl-vab0ext-IEs
	-- is present, and the value of that element shall be used instead.
		measurementIdentity				MeasurementIdentity,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r10,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
	-- if the UE supports extended measurements, "additionalMeasurementList" 
	-- shall be ignored if "additionalMeasurementList" in MeasurementControl-vab0ext-IEs
	-- is present, and the value of that element shall be used instead.
		additionalMeasurementList			AdditionalMeasurementID-List				OPTIONAL,
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9		OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo-r10		OPTIONAL
}

MeasurementControl-vaa0ext-IEs ::= SEQUENCE {
	-- Measurement IEs
	periodicalReportingCriteriaOnSecULFreq
									PeriodicalWithReportingCellStatusOnSecULFreq	OPTIONAL
}

MeasurementControl-vab0ext-IEs ::= MeasurementControl-v970ext-IEs

MeasurementControl-r11-IEs ::=	SEQUENCE {
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity-r9,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r11,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List-r9			OPTIONAL,
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9		OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo-r10		OPTIONAL
}

MeasurementControl-vb50ext-IEs ::= SEQUENCE {
	-- Measurement IEs
	interRATMeasurement					InterRATMeasurement-r11					OPTIONAL
}

MeasurementControl-r12-IEs ::=	SEQUENCE {
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity-r9					OPTIONAL,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r12,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List-r9			OPTIONAL,
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9		OPTIONAL,
		measurementScalingFactor			MeasurementScalingFactor					OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo-r10		OPTIONAL
}

MeasurementControl-r13-IEs ::=	SEQUENCE {
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity-r9					OPTIONAL,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r13,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List-r9			OPTIONAL,
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9		OPTIONAL,
		measurementScalingFactor			MeasurementScalingFactor					OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo-r10		OPTIONAL
}

MeasurementControl-r14-IEs ::=	SEQUENCE {
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity-r9					OPTIONAL,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r14,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List-r9			OPTIONAL,
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9		OPTIONAL,
		measurementScalingFactor			MeasurementScalingFactor					OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo-r10		OPTIONAL
}

MeasurementControl-LaterCriticalExtensions-r14-IEs ::= SEQUENCE {
	criticalExtensions CHOICE {
		r14							SEQUENCE {
			measurementControl-r14	MeasurementControl-r14-IEs,
				-- Container for adding non critical extensions after freezing REL-15
			measurementControl-r14-add-ext	BIT STRING			OPTIONAL,
			nonCriticalExtensions				SEQUENCE {}		OPTIONAL
		},
			measurementControl-LaterCriticalExtensions-r15-IEs		MeasurementControl-LaterCriticalExtensions-r15-IEs
	}
}

MeasurementControl-LaterCriticalExtensions-r15-IEs ::= SEQUENCE {
	criticalExtensions CHOICE {
		r15							SEQUENCE {
			measurementControl-r15	MeasurementControl-r15-IEs,
				-- Container for adding non critical extensions after freezing REL-16
			measurementControl-r15-add-ext	BIT STRING			OPTIONAL,
			nonCriticalExtensions				SEQUENCE {}		OPTIONAL
		},
		criticalExtensions		SEQUENCE {}
	}
}

MeasurementControl-r15-IEs ::=	SEQUENCE {
	-- Measurement IEs
		measurementIdentity				MeasurementIdentity-r9					OPTIONAL,
		-- TABULAR: The measurement type is included in measurementCommand.
		measurementCommand					MeasurementCommand-r15,
		measurementReportingMode			MeasurementReportingMode					OPTIONAL,
		additionalMeasurementList			AdditionalMeasurementID-List-r9			OPTIONAL,
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9		OPTIONAL,
		measurementScalingFactor			MeasurementScalingFactor					OPTIONAL,
	-- Physical channel IEs
		dpch-CompressedModeStatusInfo		DPCH-CompressedModeStatusInfo-r10		OPTIONAL
}

-- ***************************************************
--
-- MEASUREMENT CONTROL FAILURE
--
-- ***************************************************

MeasurementControlFailure ::= SEQUENCE {
	-- User equipment IEs
		-- Least significant part of extended "RRC transaction identifier" (Rel-5 onward)
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		failureCause					FailureCauseWithProtErr,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			measurementControlFailure-r3-add-ext		BIT STRING		OPTIONAL,
			v590NonCriticalExtensions		SEQUENCE {
				measurementControlFailure-v590ext	MeasurementControlFailure-v590ext-IEs,
				vc50NonCriticalExtensions			SEQUENCE {
					measurementControlFailure-vc50ext	MeasurementControlFailure-vc50ext-IEs,
					nonCriticalExtensions		SEQUENCE {}		OPTIONAL
				}	OPTIONAL

			}	OPTIONAL
		}	OPTIONAL
}

MeasurementControlFailure-v590ext-IEs ::= SEQUENCE {
	-- Most significant part of extended "RRC transaction identifier" (MSP):
	-- extended "RRC transaction identifier" =
	-- rrc-TransactionIdentifier-MSP-v590ext * 4 + rrc-TransactionIdentifier
	-- If the rrc-TransactionIdentifier-MSP-v590ext was not received in the MEASUREMENT CONTROL 
	-- message, then the rrc-TransactionIdentifier-MSP-v590ext shall be set to zero
	rrc-TransactionIdentifier-MSP-v590ext	RRC-TransactionIdentifier
}

MeasurementControlFailure-vc50ext-IEs ::= SEQUENCE {
		measurementIdentity				MeasurementIdentity-r9					OPTIONAL 
}
-- ***************************************************
--
-- MEASUREMENT REPORT
--
-- ***************************************************

MeasurementReport ::= SEQUENCE {
	-- Measurement IEs
	-- if the UE supports extended measurements, "measurementIdentity" 
	-- shall be ignored if "measurementIdentity" in MeasurementReport-v970ext-IEs
	-- is present, and the value of that element shall be used instead.
		measurementIdentity				MeasurementIdentity,
		measuredResults					MeasuredResults						OPTIONAL,
		measuredResultsOnRACH			MeasuredResultsOnRACH				OPTIONAL,
		additionalMeasuredResults		MeasuredResultsList					OPTIONAL,
		eventResults					EventResults						OPTIONAL,
	-- Non-critical extensions
		v390nonCriticalExtensions			SEQUENCE {
			measurementReport-v390ext		MeasurementReport-v390ext,
			laterNonCriticalExtensions		SEQUENCE {
				-- Container for additional R99 extensions
				measurementReport-r3-add-ext		BIT STRING		OPTIONAL,
				v4b0NonCriticalExtensions		SEQUENCE {
					measurementReport-v4b0ext		MeasurementReport-v4b0ext-IEs,
					-- Extension mechanism for non-Rel4 information
					v590NonCriticalExtensions	SEQUENCE {
						measurementReport-v590ext		MeasurementReport-v590ext-IEs,
						v5b0NonCriticalExtensions		SEQUENCE {
							measurementReport-v5b0ext		MeasurementReport-v5b0ext-IEs,
							v690NonCriticalExtensions			SEQUENCE {
								measurementReport-v690ext		MeasurementReport-v690ext-IEs,
								v770NonCriticalExtensions		SEQUENCE {
									measurementReport-v770ext		MeasurementReport-v770ext-IEs,
									v860NonCriticalExtensions		SEQUENCE {
										measurementReport-v860ext	MeasurementReport-v860ext-IEs,
										v920NonCriticalExtensions		SEQUENCE {
											measurementReport-v920ext	MeasurementReport-v920ext-IEs,
											v970NonCriticalExtensions		SEQUENCE {
												measurementReport-v970ext-IE	
																MeasurementReport-v970ext-IEs,
												va40NonCriticalExtensions		SEQUENCE {
													measurementReport-va40ext	
																MeasurementReport-va40ext-IEs,
													vb50NonCriticalExtensions		SEQUENCE {
														measurementReport-vb50ext	
																	MeasurementReport-vb50ext-IEs,
														laterNonCriticalExtensions
									MeasurementReport-LaterNonCriticalExtensions		OPTIONAL
													}		OPTIONAL
												}		OPTIONAL
											}		OPTIONAL
										}		OPTIONAL
									}		OPTIONAL
								}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

MeasurementReport-v390ext ::=		SEQUENCE {
	measuredResults-v390ext				MeasuredResults-v390ext					OPTIONAL
}

MeasurementReport-v4b0ext-IEs ::=	SEQUENCE {
	interFreqEventResults-LCR				InterFreqEventResults-LCR-r4-ext			OPTIONAL,
	-- additionalMeasuredResults-LCR shall contain measurement results and additional measurement
	-- results list.
	additionalMeasuredResults-LCR		MeasuredResultsList-LCR-r4-ext			OPTIONAL,
	-- dummy is not used in this version of the specification. It should not be sent and
	-- if received it should be ignored.
	dummy									PrimaryCPICH-Info							OPTIONAL
}

MeasurementReport-v590ext-IEs ::=	SEQUENCE {
	measuredResults-v590ext				MeasuredResults-v590ext					OPTIONAL
}

MeasurementReport-v5b0ext-IEs ::=	SEQUENCE {
	interRATCellInfoIndication			InterRATCellInfoIndication				OPTIONAL
}

MeasurementReport-v690ext-IEs ::=	SEQUENCE {
	measuredResultsOnRACHinterFreq		MeasuredResultsOnRACHinterFreq			OPTIONAL
}

MeasurementReport-v770ext-IEs ::=	SEQUENCE {
	measuredResults						MeasuredResults-v770ext					OPTIONAL,
	additionalMeasuredResults				MeasuredResultsList-v770xet				OPTIONAL,
	eventResults							EventResults-v770ext						OPTIONAL,
	ue-Positioning-OTDOA-MeasuredResults
									UE-Positioning-OTDOA-MeasuredResultsTDD-ext		OPTIONAL
}

MeasurementReport-v860ext-IEs ::=	SEQUENCE {
	activationTime							ActivationTime								OPTIONAL,
	measuredResults						MeasuredResults-v860ext					OPTIONAL,
	additionalMeasuredResults				MeasuredResultsList-v860ext				OPTIONAL,
	eventResults							EventResults-v860ext						OPTIONAL,
	eutra-MeasuredResults					EUTRA-MeasuredResults						OPTIONAL,
	eutra-EventResults						EUTRA-EventResults							OPTIONAL
}

MeasurementReport-v920ext-IEs ::=	SEQUENCE {
	cSGProximityIndication				CSGProximityIndication					OPTIONAL,
	measuredResults						MeasuredResults-v920ext					OPTIONAL,
	measuredResultsOnSecUlFreq			MeasuredResultsOnSecUlFreq				OPTIONAL,
	additionalMeasuredResults				MeasuredResultsList-v920ext				OPTIONAL,
	additionalMeasuredResultsOnSecUlFreq
											MeasuredResultsListOnSecUlFreq			OPTIONAL,
	eventResultsOnSecUlFreq				EventResultsOnSecUlFreq					OPTIONAL,
	eutra-MeasuredResults					EUTRA-MeasuredResults-v920ext			OPTIONAL
}

MeasurementReport-v970ext-IEs ::=	SEQUENCE {
	measurementIdentity					MeasurementIdentityExt					OPTIONAL
}

MeasurementReport-va40ext-IEs ::=	SEQUENCE {
	eventResults							EventResults-va40ext						OPTIONAL,
	loggedMeasAvailable					ENUMERATED { true }						OPTIONAL,
	loggedANRResultsAvailable				ENUMERATED { true }						OPTIONAL
}

MeasurementReport-vb50ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
	measuredResultsOnRACHEUTRAFreq		MeasuredResultsOnRACH-EUTRAFreq			OPTIONAL,
	eutra-EventResultsForCELLFACH		EUTRA-EventResultsForCELLFACH			OPTIONAL,
	cSGProximityIndication				CSGProximityIndication-vb50ext			OPTIONAL,
	eutra-MeasuredResults					EUTRA-MeasuredResults-vb50ext			OPTIONAL,
	eutra-EventResults						EUTRA-EventResults-vb50ext				OPTIONAL
}

MeasurementReport-LaterNonCriticalExtensions ::=	SEQUENCE {
	measurementReport-vc50ext			MeasurementReport-vc50ext-IEs,
	vd20NonCriticalExtensions			SEQUENCE {
		measurementReport-vd20ext			MeasurementReport-vd20ext-IEs,
		ve30NonCriticalExtensions			MeasurementReport-ve30ext-IEs		OPTIONAL
	}	OPTIONAL
}

MeasurementReport-vc50ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
	measuredResultsOnRACH					MeasuredResultsOnRACH-vc50ext			OPTIONAL,
	measuredResults						MeasuredResults-vc50ext					OPTIONAL,
	measuredResultsOnSecUlFreq			MeasuredResultsOnSecUlFreq-vc50ext		OPTIONAL,
	additionalMeasuredResults				MeasuredResultsList-vc50ext				OPTIONAL,
	additionalMeasuredResultsOnSecUlFreq
									MeasuredResultsListOnSecUlFreq-vc50ext			OPTIONAL,
	eutra-MeasuredResults					EUTRA-MeasuredResults-vc50ext			OPTIONAL,
	eutra-EventResults						EUTRA-EventResults-vc50ext				OPTIONAL,
	eutra-EventResultsForCELLFACH		EUTRA-EventResultsForCELLFACH-vc50ext	OPTIONAL
}

MeasurementReport-vd20ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
	measuredResults						MeasuredResults-vd20ext					OPTIONAL
}

MeasurementReport-ve30ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
	measuredResults						MeasuredResults-ve30ext					OPTIONAL,
	applicationLayerMeasurementReporting		ApplicationLayerMeasurementReporting	OPTIONAL,
	measurementReport-vf20ext			MeasurementReport-vf20ext-IEs		OPTIONAL
}

MeasurementReport-vf20ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
	applicationLayerMeasurementReporting-r15		ApplicationLayerMeasurementReporting-r15 	OPTIONAL,
	nonCriticalExtensions						SEQUENCE {}								OPTIONAL	
}

-- ***************************************************
--
-- PAGING TYPE 1
--
-- ***************************************************

PagingType1 ::=	SEQUENCE {
	-- User equipment IEs
		pagingRecordList				PagingRecordList					OPTIONAL,
	-- Other IEs
		bcch-ModificationInfo			BCCH-ModificationInfo				OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			pagingType1-r3-add-ext			BIT STRING		OPTIONAL,
			v590NonCriticalExtensions		SEQUENCE {
				pagingType1-v590ext				PagingType1-v590ext-IEs,
				v860NonCriticalExtensions		SEQUENCE {
					pagingType1-v860ext				PagingType1-v860ext-IEs,
					vc50NonCriticalExtensions	SEQUENCE {
						pagingType1-vc50ext			PagingType1-vc50ext-IEs,
 						nonCriticalExtensions			SEQUENCE {}		OPTIONAL
					}		OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

PagingType1-v590ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
	pagingRecord2List				PagingRecord2List-r5						OPTIONAL
}

PagingType1-v860ext-IEs ::=	SEQUENCE {
	-- Other IEs
	etws-Information				ETWS-Information							OPTIONAL
}

PagingType1-vc50ext-IEs ::=	SEQUENCE {
	bcch-ModificationInfo-vc50ext		BCCH-ModificationInfo-vc50ext	OPTIONAL
}

-- ***************************************************
--
-- PAGING TYPE 2
--
-- ***************************************************

PagingType2 ::=	SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		pagingCause					PagingCause,
	-- Core network IEs
		cn-DomainIdentity				CN-DomainIdentity,
		pagingRecordTypeID				PagingRecordTypeID,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			pagingType2-r3-add-ext			BIT STRING						OPTIONAL,
			nonCriticalExtensions				SEQUENCE {}					OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- PHYSICAL CHANNEL RECONFIGURATION
--
-- ***************************************************

PhysicalChannelReconfiguration ::=	CHOICE {
	r3								SEQUENCE {
		physicalChannelReconfiguration-r3
										PhysicalChannelReconfiguration-r3-IEs,
		v3a0NonCriticalExtensions			SEQUENCE {
			physicalChannelReconfiguration-v3a0ext		PhysicalChannelReconfiguration-v3a0ext,
			laterNonCriticalExtensions		SEQUENCE {
				-- Container for additional R99 extensions
				physicalChannelReconfiguration-r3-add-ext			BIT STRING		OPTIONAL,
				v4b0NonCriticalExtenstions			SEQUENCE {
					physicalChannelReconfiguration-v4b0ext
												PhysicalChannelReconfiguration-v4b0ext-IEs,
					v590NonCriticalExtenstions			SEQUENCE {
						physicalChannelReconfiguration-v590ext
													PhysicalChannelReconfiguration-v590ext-IEs,
						v690NonCriticalExtensions		SEQUENCE {
							physicalChannelReconfiguration-v690ext		
														PhysicalChannelReconfiguration-v690ext-IEs,
							v770NonCriticalExtensions		SEQUENCE {
								physicalChannelReconfiguration-v770ext
														PhysicalChannelReconfiguration-v770ext-IEs,
								nonCriticalExtensions					SEQUENCE {} OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
			criticalExtensions				CHOICE {
			r4								SEQUENCE {
				physicalChannelReconfiguration-r4
												PhysicalChannelReconfiguration-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					physicalChannelReconfiguration-r4-add-ext		BIT STRING		OPTIONAL,
					v590NonCriticalExtenstions			SEQUENCE {
						physicalChannelReconfiguration-v590ext
												PhysicalChannelReconfiguration-v590ext-IEs,
						v690NonCriticalExtensions		SEQUENCE {
							physicalChannelReconfiguration-v690ext		
														PhysicalChannelReconfiguration-v690ext-IEs,
							v770NonCriticalExtensions		SEQUENCE {
								physicalChannelReconfiguration-v770ext
														PhysicalChannelReconfiguration-v770ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				CHOICE {
				r5								SEQUENCE {
					physicalChannelReconfiguration-r5
													PhysicalChannelReconfiguration-r5-IEs,
					-- Container for adding non critical extensions after freezing REL-6
					physicalChannelReconfiguration-r5-add-ext		BIT STRING		OPTIONAL,
					v690NonCriticalExtensions		SEQUENCE {
						physicalChannelReconfiguration-v690ext		
														PhysicalChannelReconfiguration-v690ext-IEs,
						v770NonCriticalExtensions		SEQUENCE {
							physicalChannelReconfiguration-v770ext
														PhysicalChannelReconfiguration-v770ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r6								SEQUENCE {
						physicalChannelReconfiguration-r6
														PhysicalChannelReconfiguration-r6-IEs,
						-- Container for adding non critical extensions after freezing REL-7
						physicalChannelReconfiguration-r6-add-ext		BIT STRING		OPTIONAL,
						v6b0NonCriticalExtensions		SEQUENCE {
							physicalChannelReconfiguration-v6b0ext
														PhysicalChannelReconfiguration-v6b0ext-IEs,
							v770NonCriticalExtensions		SEQUENCE {
								physicalChannelReconfiguration-v770ext
														PhysicalChannelReconfiguration-v770ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r7								SEQUENCE {
							physicalChannelReconfiguration-r7
														PhysicalChannelReconfiguration-r7-IEs,
							-- Container for adding non critical extensions after freezing REL-7
							physicalChannelReconfiguration-r7-add-ext	BIT STRING	OPTIONAL,
							v780NonCriticalExtensions		SEQUENCE {
								physicalChannelReconfiguration-v780ext
														PhysicalChannelReconfiguration-v780ext-IEs,
								v7d0NonCriticalExtensions		SEQUENCE {
									physicalChannelReconfiguration-v7d0ext
														PhysicalChannelReconfiguration-v7d0ext-IEs,
									v7f0NonCriticalExtensions		SEQUENCE {
										physicalChannelReconfiguration-v7f0ext
														PhysicalChannelReconfiguration-v7f0ext-IEs,
										v7g0NonCriticalExtensions		SEQUENCE {
											physicalChannelReconfiguration-v7g0ext
														PhysicalChannelReconfiguration-v7g0ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r8								SEQUENCE {
								physicalChannelReconfiguration-r8
															PhysicalChannelReconfiguration-r8-IEs,
								-- Container for adding non critical extensions after freezing REL-9
								physicalChannelReconfiguration-r8-add-ext	BIT STRING	OPTIONAL,
								v7d0NonCriticalExtensions		SEQUENCE {
									physicalChannelReconfiguration-v7d0ext
														PhysicalChannelReconfiguration-v7d0ext-IEs,
									v7f0NonCriticalExtensions		SEQUENCE {
										physicalChannelReconfiguration-v7f0ext
														PhysicalChannelReconfiguration-v7f0ext-IEs,
										v890NonCriticalExtensions		SEQUENCE {
											physicalChannelReconfiguration-v890ext
														PhysicalChannelReconfiguration-v890ext-IEs,
											v7g0NonCriticalExtensions		SEQUENCE {
												physicalChannelReconfiguration-v7g0ext
														PhysicalChannelReconfiguration-v7g0ext-IEs,
												v8a0NonCriticalExtensions		SEQUENCE {
													physicalChannelReconfiguration-v8a0ext
														PhysicalChannelReconfiguration-v8a0ext-IEs,
													nonCriticalExtensions			SEQUENCE {}		OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r9								SEQUENCE {
									physicalChannelReconfiguration-r9
															PhysicalChannelReconfiguration-r9-IEs,
									-- Container for adding non critical extensions after 
									-- freezing REL-10
									physicalChannelReconfiguration-r9-add-ext
																			BIT STRING	OPTIONAL,
									v950NonCriticalExtensions		SEQUENCE {
										physicalChannelReconfiguration-v950ext
														PhysicalChannelReconfiguration-v950ext-IEs,
										nonCriticalExtensions			SEQUENCE {}			OPTIONAL
									}	OPTIONAL
								},
								criticalExtensions				CHOICE {
									r10								SEQUENCE {
										physicalChannelReconfiguration-r10
															PhysicalChannelReconfiguration-r10-IEs,
										-- Container for adding non critical extensions after 
										-- freezing REL-11
										physicalChannelReconfiguration-r10-add-ext
																			BIT STRING	OPTIONAL,
										vb50NonCriticalExtensions		SEQUENCE {
											physicalChannelReconfiguration-vb50ext
														PhysicalChannelReconfiguration-vb50ext-IEs,
											nonCriticalExtensions			SEQUENCE {}																										OPTIONAL
										}	OPTIONAL
									},
									criticalExtensions				CHOICE {
										r11								SEQUENCE {
											physicalChannelReconfiguration-r11
															PhysicalChannelReconfiguration-r11-IEs,
											-- Container for adding non critical extensions after 
											-- freezing REL-12
											physicalChannelReconfiguration-r11-add-ext
																			BIT STRING	OPTIONAL,
											nonCriticalExtensions			
																			SEQUENCE {}		OPTIONAL
										},
										criticalExtensions				CHOICE {
											r12								SEQUENCE {
												physicalChannelReconfiguration-r12
															PhysicalChannelReconfiguration-r12-IEs,
												-- Container for adding non critical extensions 
												-- after freezing REL-13
												physicalChannelReconfiguration-r12-add-ext
																			BIT STRING	OPTIONAL,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											},
											criticalExtensions				CHOICE {
												r13								SEQUENCE {
													physicalChannelReconfiguration-r13
															PhysicalChannelReconfiguration-r13-IEs,
													-- Container for adding non critical extensions 
													-- after freezing REL-14
													physicalChannelReconfiguration-r13-add-ext
																			BIT STRING	OPTIONAL,
													nonCriticalExtensions	SEQUENCE {}	OPTIONAL
												},
												criticalExtensions				SEQUENCE {}
											}
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}

PhysicalChannelReconfiguration-r3-IEs ::=	SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier			RRC-TransactionIdentifier,
		integrityProtectionModeInfo		IntegrityProtectionModeInfo				OPTIONAL,
		cipheringModeInfo					CipheringModeInfo							OPTIONAL,
		activationTime						ActivationTime								OPTIONAL,
		new-U-RNTI							U-RNTI										OPTIONAL,
		new-C-RNTI							C-RNTI										OPTIONAL,
		rrc-StateIndicator					RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient			OPTIONAL,
	-- Core network IEs
		cn-InformationInfo					CN-InformationInfo							OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity						URA-Identity								OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo		DL-CounterSynchronisationInfo			OPTIONAL,
	-- Physical channel IEs
		frequencyInfo						FrequencyInfo								OPTIONAL,
		maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power						OPTIONAL,
		-- Note: the reference to CPCH in the element name below is incorrect. The name is not
		-- changed to keep it aligned with R99.
		ul-ChannelRequirement				UL-ChannelRequirementWithCPCH-SetID		OPTIONAL,
		modeSpecificInfo					CHOICE {
			fdd									SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy								DL-PDSCH-Information				OPTIONAL
			},
			tdd									NULL
		},
		dl-CommonInformation				DL-CommonInformation						OPTIONAL,
		dl-InformationPerRL-List			DL-InformationPerRL-List					OPTIONAL
}

PhysicalChannelReconfiguration-v3a0ext ::=	SEQUENCE {
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received the UE behaviour
	-- is unspecified
	new-DSCH-RNTI							DSCH-RNTI									OPTIONAL
}

PhysicalChannelReconfiguration-v4b0ext-IEs ::=	SEQUENCE {
	-- Physical channel IEs
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
	dummy									SSDT-UL										OPTIONAL,
		-- The order of the RLs in IE cell-id-PerRL-List is the same as
		-- in IE DL-InformationPerRL-List included in this message
	cell-id-PerRL-List						CellIdentity-PerRL-List					OPTIONAL
}

PhysicalChannelReconfiguration-v590ext-IEs ::=	SEQUENCE {
	-- Physical channel IEs
	dl-TPC-PowerOffsetPerRL-List			DL-TPC-PowerOffsetPerRL-List				OPTIONAL
}

PhysicalChannelReconfiguration-r4-IEs ::= SEQUENCE {
	-- User equipment IEs
	integrityProtectionModeInfo			IntegrityProtectionModeInfo				OPTIONAL,
	cipheringModeInfo						CipheringModeInfo							OPTIONAL,
	activationTime							ActivationTime								OPTIONAL,
	new-U-RNTI								U-RNTI										OPTIONAL,
	new-C-RNTI								C-RNTI										OPTIONAL,
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
	-- the UE behaviour is unspecified
	new-DSCH-RNTI							DSCH-RNTI									OPTIONAL,
	rrc-StateIndicator						RRC-StateIndicator,
	utran-DRX-CycleLengthCoeff			UTRAN-DRX-CycleLengthCoefficient			OPTIONAL,
	-- Core network IEs
	cn-InformationInfo						CN-InformationInfo							OPTIONAL,
	-- UTRAN mobility IEs
	ura-Identity							URA-Identity								OPTIONAL,
	-- Radio bearer IEs
	dl-CounterSynchronisationInfo		DL-CounterSynchronisationInfo			OPTIONAL,
	-- Physical channel IEs
	frequencyInfo							FrequencyInfo								OPTIONAL,
	maxAllowedUL-TX-Power					MaxAllowedUL-TX-Power						OPTIONAL,
	-- Note: the reference to CPCH in the element name below is incorrect. The name is not
	-- changed to keep it aligned with R99.
	ul-ChannelRequirement					UL-ChannelRequirementWithCPCH-SetID-r4	OPTIONAL,
	modeSpecificInfo						CHOICE {
		fdd										SEQUENCE {
			-- dummy is not used in this version of specification, it should
			-- not be sent and if received it should be ignored.
			dummy									DL-PDSCH-Information				OPTIONAL
			},
		tdd										NULL
	},
	dl-CommonInformation					DL-CommonInformation-r4					OPTIONAL,
	dl-InformationPerRL-List				DL-InformationPerRL-List-r4				OPTIONAL
}

PhysicalChannelReconfiguration-r5-IEs ::=	SEQUENCE {
	-- User equipment IEs
	integrityProtectionModeInfo		IntegrityProtectionModeInfo					OPTIONAL,
	cipheringModeInfo					CipheringModeInfo								OPTIONAL,
	activationTime						ActivationTime									OPTIONAL,
	new-U-RNTI							U-RNTI											OPTIONAL,
	new-C-RNTI							C-RNTI											OPTIONAL,
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
	-- the UE behaviour is unspecified
	new-DSCH-RNTI						DSCH-RNTI										OPTIONAL,
	new-H-RNTI							H-RNTI											OPTIONAL,
	rrc-StateIndicator					RRC-StateIndicator,
	utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient				OPTIONAL,
	-- Core network IEs
	cn-InformationInfo					CN-InformationInfo								OPTIONAL,
	-- UTRAN mobility IEs
	ura-Identity						URA-Identity									OPTIONAL,
	-- Radio bearer IEs
	dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5				OPTIONAL,
	-- Physical channel IEs
	frequencyInfo						FrequencyInfo									OPTIONAL,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power							OPTIONAL,
	-- Note: the reference to CPCH in the element name below is incorrect. The name is not
	-- changed to keep it aligned with R99.
	ul-ChannelRequirement				UL-ChannelRequirementWithCPCH-SetID-r5		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			-- dummy is not used in this version of specification, it should
			-- not be sent and if received it should be ignored.
			dummy								DL-PDSCH-Information					OPTIONAL
		},
		tdd									NULL
	},
	dl-HSPDSCH-Information			DL-HSPDSCH-Information						OPTIONAL,
	dl-CommonInformation				DL-CommonInformation-r5						OPTIONAL,
	dl-InformationPerRL-List			DL-InformationPerRL-List-r5					OPTIONAL
}

PhysicalChannelReconfiguration-r6-IEs ::=	SEQUENCE {
	-- User equipment IEs
	integrityProtectionModeInfo		IntegrityProtectionModeInfo					OPTIONAL,
	cipheringModeInfo					CipheringModeInfo								OPTIONAL,
	activationTime						ActivationTime									OPTIONAL,
	delayRestrictionFlag				DelayRestrictionFlag							OPTIONAL,
	new-U-RNTI							U-RNTI											OPTIONAL,
	new-C-RNTI							C-RNTI											OPTIONAL,
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
	-- and if received the UE behaviour is unspecified
	new-DSCH-RNTI						DSCH-RNTI										OPTIONAL,
	new-H-RNTI							H-RNTI											OPTIONAL,
	newPrimary-E-RNTI					E-RNTI											OPTIONAL,
	newSecondary-E-RNTI				E-RNTI											OPTIONAL,
	rrc-StateIndicator					RRC-StateIndicator,
	utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient				OPTIONAL,
	-- Core network IEs
	cn-InformationInfo					CN-InformationInfo-r6							OPTIONAL,
	-- UTRAN mobility IEs
	ura-Identity						URA-Identity									OPTIONAL,
	-- Radio bearer IEs
	dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5				OPTIONAL,
	-- Physical channel IEs
	frequencyInfo						FrequencyInfo									OPTIONAL,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power							OPTIONAL,
	ul-DPCH-Info						UL-DPCH-Info-r6								OPTIONAL,
	ul-EDCH-Information				UL-EDCH-Information-r6						OPTIONAL,
	dl-HSPDSCH-Information			DL-HSPDSCH-Information-r6						OPTIONAL,
	dl-CommonInformation				DL-CommonInformation-r6						OPTIONAL,
	dl-InformationPerRL-List			DL-InformationPerRL-List-r6					OPTIONAL,
	-- MBMS IEs
	mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6				OPTIONAL
}

PhysicalChannelReconfiguration-v690ext-IEs ::=	SEQUENCE {
	-- User Equipment IEs
	delayRestrictionFlag				DelayRestrictionFlag 							OPTIONAL,
	-- Core network IEs
	primary-plmn-Identity				PLMN-Identity									OPTIONAL,
	-- Physical channel IEs
	-- The IE harq-Preamble-Mode should not be used in the r3 and r4 versions of the message
	-- If included in the r3 or r4 version of the message, the UE should ignore the IE
	harq-Preamble-Mode					HARQ-Preamble-Mode								OPTIONAL,
	beaconPLEst						BEACON-PL-Est									OPTIONAL,
	postVerificationPeriod			ENUMERATED { true }							OPTIONAL,
	dhs-sync							DHS-Sync										OPTIONAL,
	timingMaintainedSynchInd			TimingMaintainedSynchInd						OPTIONAL,
	-- MBMS IEs
	mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6				OPTIONAL
}

PhysicalChannelReconfiguration-v6b0ext-IEs ::=	SEQUENCE {
	-- Physical channel IEs
	dl-InformationPerRL-List-v6b0ext	DL-InformationPerRL-List-v6b0ext				OPTIONAL
}

PhysicalChannelReconfiguration-r7-IEs ::=	SEQUENCE {
	-- User equipment IEs
	integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7				OPTIONAL,
	cipheringModeInfo					CipheringModeInfo-r7							OPTIONAL,
	activationTime						ActivationTime									OPTIONAL,
	delayRestrictionFlag				DelayRestrictionFlag							OPTIONAL,
	new-U-RNTI							U-RNTI											OPTIONAL,
	new-C-RNTI							C-RNTI											OPTIONAL,
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
	-- and if received the UE behaviour is unspecified
	new-DSCH-RNTI						DSCH-RNTI										OPTIONAL,
	new-H-RNTI							H-RNTI											OPTIONAL,
	newPrimary-E-RNTI					E-RNTI											OPTIONAL,
	newSecondary-E-RNTI				E-RNTI											OPTIONAL,
	rrc-StateIndicator					RRC-StateIndicator,
	ueMobilityStateIndicator			High-MobilityDetected							OPTIONAL,
	utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7			OPTIONAL,
	-- Core network IEs
	cn-InformationInfo					CN-InformationInfo-r6							OPTIONAL,
	-- UTRAN mobility IEs
	ura-Identity						URA-Identity									OPTIONAL,
	supportForChangeOfUE-Capability	BOOLEAN											OPTIONAL,
	responseToChangeOfUE-Capability	ENUMERATED { true }							OPTIONAL,
	-- Radio bearer IEs
	dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5				OPTIONAL,
	-- Physical channel IEs
	frequencyInfo						FrequencyInfo									OPTIONAL,
	multi-frequencyInfo				Multi-frequencyInfo-LCR-r7					OPTIONAL,
	dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7							OPTIONAL,
	dtx-drx-Info						DTX-DRX-Info-r7								OPTIONAL,
	hs-scch-LessInfo					HS-SCCH-LessInfo-r7							OPTIONAL,
	mimoParameters						MIMO-Parameters-r7								OPTIONAL,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power							OPTIONAL,
	ul-DPCH-Info						UL-DPCH-Info-r7								OPTIONAL,
	ul-EDCH-Information				UL-EDCH-Information-r7						OPTIONAL,
	dl-HSPDSCH-Information			DL-HSPDSCH-Information-r7						OPTIONAL,
	dl-CommonInformation				DL-CommonInformation-r7						OPTIONAL,
	dl-InformationPerRL-List			DL-InformationPerRL-List-r7					OPTIONAL,
	-- MBMS IEs
	mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6				OPTIONAL
}

PhysicalChannelReconfiguration-v770ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
	ueMobilityStateIndicator			High-MobilityDetected							OPTIONAL
}

PhysicalChannelReconfiguration-v780ext-IEs ::=	SEQUENCE {
	-- Transport channel IEs
	harqInfo							HARQ-Info-r7									OPTIONAL,
	-- Physical channel IEs
	hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable							OPTIONAL
}

PhysicalChannelReconfiguration-v7d0ext-IEs ::=	SEQUENCE {
	-- Physical channel IEs
	ul-EDCH-Information				UL-EDCH-Information-ext						OPTIONAL
}

PhysicalChannelReconfiguration-v7f0ext-IEs ::=	SEQUENCE {
	-- Physical channel IEs
	mimoParameters						MIMO-Parameters-v7f0ext						OPTIONAL
}

PhysicalChannelReconfiguration-v7g0ext-IEs ::=	SEQUENCE {
	-- Physical channel IEs
	mimoParameters						MIMO-Parameters-v7g0ext						OPTIONAL
}

PhysicalChannelReconfiguration-r8-IEs ::=	SEQUENCE {
	-- User equipment IEs
	integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7				OPTIONAL,
	cipheringModeInfo					CipheringModeInfo-r7							OPTIONAL,
	activationTime						ActivationTime									OPTIONAL,
	delayRestrictionFlag				DelayRestrictionFlag							OPTIONAL,
	new-U-RNTI							U-RNTI											OPTIONAL,
	new-C-RNTI							C-RNTI											OPTIONAL,
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
	-- and if received the UE behaviour is unspecified
	new-DSCH-RNTI						DSCH-RNTI										OPTIONAL,
	new-H-RNTI							H-RNTI											OPTIONAL,
	newPrimary-E-RNTI					E-RNTI											OPTIONAL,
	newSecondary-E-RNTI				E-RNTI											OPTIONAL,
	rrc-StateIndicator					RRC-StateIndicator,
	ueMobilityStateIndicator			High-MobilityDetected							OPTIONAL,
	utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7			OPTIONAL,
	-- Core network IEs
	cn-InformationInfo					CN-InformationInfo-r6							OPTIONAL,
	-- UTRAN mobility IEs
	ura-Identity						URA-Identity									OPTIONAL,
	supportForChangeOfUE-Capability	BOOLEAN											OPTIONAL,
	responseToChangeOfUE-Capability	ENUMERATED { true }							OPTIONAL,
	-- Radio bearer IEs
	dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5				OPTIONAL,
	-- Transport channel IEs
	harqInfo							HARQ-Info-r7									OPTIONAL,
	-- Physical channel IEs
	frequencyInfo						FrequencyInfo									OPTIONAL,
	multi-frequencyInfo				Multi-frequencyInfo-LCR-r7					OPTIONAL,
	dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7							OPTIONAL,
	dtx-drx-Info						DTX-DRX-Info-r7								OPTIONAL,
	hs-scch-LessInfo					HS-SCCH-LessInfo-r7							OPTIONAL,
	mimoParameters						MIMO-Parameters-r8								OPTIONAL,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power							OPTIONAL,
	ul-DPCH-Info						UL-DPCH-Info-r7								OPTIONAL,
	ul-EDCH-Information				UL-EDCH-Information-r8						OPTIONAL,
	dl-HSPDSCH-Information			DL-HSPDSCH-Information-r8						OPTIONAL,
	dl-CommonInformation				DL-CommonInformation-r8						OPTIONAL,
	dl-InformationPerRL-List			DL-InformationPerRL-List-r8					OPTIONAL,
	dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD						OPTIONAL,
	controlChannelDRXInfo-TDD128		ControlChannelDRXInfo-TDD128-r8				OPTIONAL,
	sps-Information-TDD128			SPS-Information-TDD128-r8						OPTIONAL,
	-- MBMS IEs
	mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6				OPTIONAL
}

PhysicalChannelReconfiguration-v890ext-IEs ::=	SEQUENCE {
	-- Physical channel IEs
	dl-SecondaryCellInfoFDD-v890ext	DL-SecondaryCellInfoFDD-v890ext				OPTIONAL,
	dl-HSPDSCH-Information			DL-HSPDSCH-Information-r8-ext					OPTIONAL
}

PhysicalChannelReconfiguration-v8a0ext-IEs ::=	SEQUENCE {
	-- Physical channel IEs
	dl-HSPDSCH-Information			DL-HSPDSCH-Information-r8-ext2				OPTIONAL
}

PhysicalChannelReconfiguration-r9-IEs ::=	SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo-r7			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7						OPTIONAL,
		activationTime					ActivationTime								OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag						OPTIONAL,
		new-U-RNTI						U-RNTI										OPTIONAL,
		new-C-RNTI						C-RNTI										OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI									OPTIONAL,
		new-H-RNTI						H-RNTI										OPTIONAL,
		newPrimary-E-RNTI				E-RNTI										OPTIONAL,
		newSecondary-E-RNTI			E-RNTI										OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected						OPTIONAL,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7		OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity								OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN									OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5			OPTIONAL,
	-- Transport channel IEs
		harqInfo						HARQ-Info-r7								OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo								OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7				OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7						OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7							OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7						OPTIONAL,
		mimoParameters					MIMO-Parameters-r9							OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8			OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power						OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7							OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r9					OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD					OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r9					OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8				OPTIONAL,
		dl-SecondaryCellInfoFDD		DL-SecondaryCellInfoFDD-r9				OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6			OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

PhysicalChannelReconfiguration-v950ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		secondaryCellMimoParameters	SecondaryCellMIMOparametersFDD-v950ext	OPTIONAL
}

PhysicalChannelReconfiguration-r10-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo-r7			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7						OPTIONAL,
		activationTime					ActivationTime								OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag						OPTIONAL,
		new-U-RNTI						U-RNTI										OPTIONAL,
		new-C-RNTI						C-RNTI										OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI									OPTIONAL,
		new-H-RNTI						H-RNTI										OPTIONAL,
		newPrimary-E-RNTI				E-RNTI										OPTIONAL,
		newSecondary-E-RNTI			E-RNTI										OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected						OPTIONAL,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7		OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity								OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN									OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5			OPTIONAL,
	-- Transport channel IEs
		harqInfo						HARQ-Info-r7								OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo								OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7				OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7						OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7							OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7						OPTIONAL,
		mimoParameters					MIMO-Parameters-r9							OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8			OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power						OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7							OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r9					OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD					OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r9					OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r10					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8				OPTIONAL,
		dl-SecondaryCellInfoFDD		DL-SecondaryCellInfoFDD-r10				OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD		OPTIONAL,
		mu-MIMO-Info-TDD128			MU-MIMO-Info-TDD128						OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6			OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

PhysicalChannelReconfiguration-vb50ext-IEs ::= SEQUENCE {
		ulOLTDInfoFDD					UL-OLTD-InfoFDD							OPTIONAL
}

PhysicalChannelReconfiguration-r11-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo-r7			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7						OPTIONAL,
		activationTime					ActivationTime								OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag						OPTIONAL,
		new-U-RNTI						U-RNTI										OPTIONAL,
		new-C-RNTI						C-RNTI										OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI									OPTIONAL,
		new-H-RNTI						H-RNTI										OPTIONAL,
		newPrimary-E-RNTI				E-RNTI										OPTIONAL,
		newSecondary-E-RNTI			E-RNTI										OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected						OPTIONAL,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7		OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity								OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN									OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5			OPTIONAL,
	-- Transport channel IEs
		harqInfo						HARQ-Info-r11								OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo								OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7				OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7						OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7							OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7						OPTIONAL,
		mimoParameters					MIMO-Parameters-r9							OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters							OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8			OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power						OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11							OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r11					OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD					OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD				UL-CLTD-InfoFDD							OPTIONAL,
		ul-OLTD-InfoFDD				UL-OLTD-InfoFDD							OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r11				OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r11					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r11				OPTIONAL,
		dl-SecondaryCellInfoFDD		DL-SecondaryCellInfoFDD-r11				OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2 AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD							OPTIONAL,
		mu-MIMO-Info-TDD128			MU-MIMO-Info-TDD128						OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6			OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

PhysicalChannelReconfiguration-r12-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo-r7			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7						OPTIONAL,
		activationTime					ActivationTime								OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag						OPTIONAL,
		new-U-RNTI						U-RNTI										OPTIONAL,
		new-C-RNTI						C-RNTI										OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI									OPTIONAL,
		new-H-RNTI						H-RNTI										OPTIONAL,
		newPrimary-E-RNTI				E-RNTI										OPTIONAL,
		newSecondary-E-RNTI			E-RNTI										OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected						OPTIONAL,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7		OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity								OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN									OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5			OPTIONAL,
	-- Transport channel IEs
		harqInfo						HARQ-Info-r11								OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo								OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7				OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7						OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12							OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7						OPTIONAL,
		mimoParameters					MIMO-Parameters-r9							OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters							OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD					OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8			OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power						OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11							OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r11					OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r12				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD				UL-CLTD-InfoFDD							OPTIONAL,
		ul-OLTD-InfoFDD				UL-OLTD-InfoFDD							OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r12				OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r12				OPTIONAL,
		dl-SecondaryCellInfoFDD		DL-SecondaryCellInfoFDD-r11				OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2 AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD							OPTIONAL,
		dPCCH2InfoFDD					DPCCH2InfoFDD								OPTIONAL,
		mu-MIMO-Info-TDD128			MU-MIMO-Info-TDD128						OPTIONAL,
		nonrectResAllocInd-TDD128		Non-rectResAllocInd-TDD128				OPTIONAL,
		nonrectResSpecTSset-TDD128	Non-rectResSpecTSset-TDD128				OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6			OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

PhysicalChannelReconfiguration-r13-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo-r7			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7						OPTIONAL,
		activationTime					ActivationTime								OPTIONAL,
		dynamicActivationTime			DynamicActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag						OPTIONAL,
		new-U-RNTI						U-RNTI										OPTIONAL,
		new-C-RNTI						C-RNTI										OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI									OPTIONAL,
		new-H-RNTI						H-RNTI										OPTIONAL,
		newPrimary-E-RNTI				E-RNTI										OPTIONAL,
		newSecondary-E-RNTI			E-RNTI										OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected						OPTIONAL,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7		OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity								OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN									OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5			OPTIONAL,
		retrievableConfigInfo			RetrievableConfigInfo						OPTIONAL,
	-- Transport channel IEs
		harqInfo						HARQ-Info-r13								OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo								OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7				OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7						OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12							OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7						OPTIONAL,
		mimoParameters					MIMO-Parameters-r9							OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters							OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD					OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8			OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power						OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11							OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r11					OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r13				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD				UL-CLTD-InfoFDD							OPTIONAL,
		ul-OLTD-InfoFDD				UL-OLTD-InfoFDD							OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r12				OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13				OPTIONAL,
		dl-SecondaryCellInfoFDD		DL-SecondaryCellInfoFDD-r11				OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2 AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD							OPTIONAL,
		dPCCH2InfoFDD					DPCCH2InfoFDD								OPTIONAL,
		mu-MIMO-Info-TDD128			MU-MIMO-Info-TDD128						OPTIONAL,
		nonrectResAllocInd-TDD128		Non-rectResAllocInd-TDD128				OPTIONAL,
		nonrectResSpecTSset-TDD128	Non-rectResSpecTSset-TDD128				OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6			OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

-- ***************************************************
--
-- PHYSICAL CHANNEL RECONFIGURATION COMPLETE
--
-- ***************************************************

PhysicalChannelReconfigurationComplete ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		ul-IntegProtActivationInfo	IntegrityProtActivationInfo					OPTIONAL,
		-- TABULAR: UL-TimingAdvance is applicable for TDD mode only.
		ul-TimingAdvance				UL-TimingAdvance								OPTIONAL,
	-- Radio bearer IEs
		count-C-ActivationTime		ActivationTime									OPTIONAL,
		-- dummy is not used in this version of the specification and
		-- it should be ignored by the receiver.
		dummy							RB-ActivationTimeInfoList						OPTIONAL,
		ul-CounterSynchronisationInfo	UL-CounterSynchronisationInfo					OPTIONAL,
		laterNonCriticalExtensions	SEQUENCE {
			-- Container for additional R99 extensions
			physicalChannelReconfigurationComplete-r3-add-ext	BIT STRING			OPTIONAL,
			v770NonCriticalExtensions		SEQUENCE {
				physicalChannelReconfigurationComplete-v770ext
									PhysicalChannelReconfigurationComplete-v770ext-IEs,
				nonCriticalExtensions			SEQUENCE {}							OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

PhysicalChannelReconfigurationComplete-v770ext-IEs ::=	SEQUENCE {
		-- TABULAR: EXT-UL-TimingAdvance is applicable for TDD mode only.
		ext-UL-TimingAdvance					EXT-UL-TimingAdvance					OPTIONAL,
		deferredMeasurementControlReading	ENUMERATED { true }					OPTIONAL
}


-- ***************************************************
--
-- PHYSICAL CHANNEL RECONFIGURATION FAILURE
--
-- ***************************************************

PhysicalChannelReconfigurationFailure ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier				RRC-TransactionIdentifier				OPTIONAL,
		failureCause							FailureCauseWithProtErr,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			physicalChannelReconfigurationFailure-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions					SEQUENCE {}						OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- PHYSICAL SHARED CHANNEL ALLOCATION (TDD only)
--
-- ***************************************************

PhysicalSharedChannelAllocation ::= CHOICE {
	r3								SEQUENCE {
		physicalSharedChannelAllocation-r3
										PhysicalSharedChannelAllocation-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			physicalSharedChannelAllocation-r3-add-ext		BIT STRING				OPTIONAL,
			nonCriticalExtensions				SEQUENCE {}							OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		dsch-RNTI						DSCH-RNTI										OPTIONAL,
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				physicalSharedChannelAllocation-r4
												PhysicalSharedChannelAllocation-r4-IEs,
				v4d0NonCriticalExtensions		SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					physicalSharedChannelAllocation-r4-add-ext		BIT STRING		OPTIONAL,
					v690NonCriticalExtensions		SEQUENCE {
						physicalSharedChannelAllocation-v690ext
														PhysicalSharedChannelAllocation-v690ext-IEs,
						v770NonCriticalExtensions		SEQUENCE {
							physicalSharedChannelAllocation-v770ext
														PhysicalSharedChannelAllocation-v770ext-IEs,
							nonCriticalExtensions			SEQUENCE {}				OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			},
			criticalExtensions				SEQUENCE {}
		}
	}
}

PhysicalSharedChannelAllocation-r3-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
	-- User equipment IEs
		dsch-RNTI						DSCH-RNTI										OPTIONAL,
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
	-- Physical channel IEs
		ul-TimingAdvance				UL-TimingAdvanceControl						OPTIONAL,
		pusch-CapacityAllocationInfo	PUSCH-CapacityAllocationInfo					OPTIONAL,
		pdsch-CapacityAllocationInfo	PDSCH-CapacityAllocationInfo					OPTIONAL,
		-- TABULAR: If confirmRequest is not present, the default value "No Confirm"
		-- shall be used as specified in 10.2.25.		
		confirmRequest					ENUMERATED {
											confirmPDSCH, confirmPUSCH }				OPTIONAL,
		trafficVolumeReportRequest		INTEGER (0..255)							OPTIONAL,
		iscpTimeslotList					TimeslotList								OPTIONAL,
		requestPCCPCHRSCP					BOOLEAN
}

PhysicalSharedChannelAllocation-r4-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
	-- Physical channel IEs
		ul-TimingAdvance				UL-TimingAdvanceControl-r4					OPTIONAL,
		pusch-CapacityAllocationInfo	PUSCH-CapacityAllocationInfo-r4				OPTIONAL,
		pdsch-CapacityAllocationInfo	PDSCH-CapacityAllocationInfo-r4				OPTIONAL,
		-- TABULAR: If confirmRequest is not present, the default value "No Confirm"
		-- shall be used as specified in 10.2.25.		
		confirmRequest					ENUMERATED {
											confirmPDSCH, confirmPUSCH }				OPTIONAL,
		trafficVolumeReportRequest	INTEGER (0..255)								OPTIONAL,
		iscpTimeslotList				TimeslotList-r4								OPTIONAL,
		requestPCCPCHRSCP				BOOLEAN
}

PhysicalSharedChannelAllocation-v690ext-IEs ::= SEQUENCE {
	-- Physical Channel IEs
		beaconPLEst						BEACON-PL-Est								OPTIONAL
}

PhysicalSharedChannelAllocation-v770ext-IEs ::= SEQUENCE {
		ul-TimingAdvance				UL-TimingAdvanceControl-r7					OPTIONAL,
		pusch-CapacityAllocationInfo	PUSCH-CapacityAllocationInfo-r7				OPTIONAL,
		pdsch-CapacityAllocationInfo	PDSCH-CapacityAllocationInfo-r7				OPTIONAL
}

-- ***************************************************
--
-- PUSCH CAPACITY REQUEST (TDD only)
--
-- ***************************************************

PUSCHCapacityRequest ::= SEQUENCE {
	-- User equipment IEs
		dsch-RNTI						DSCH-RNTI										OPTIONAL,
	-- Measurement IEs
		trafficVolume					TrafficVolumeMeasuredResultsList				OPTIONAL,
		timeslotListWithISCP			TimeslotListWithISCP							OPTIONAL,
		primaryCCPCH-RSCP				PrimaryCCPCH-RSCP								OPTIONAL,
		allocationConfirmation		CHOICE {
			pdschConfirmation				PDSCH-Identity,
			puschConfirmation				PUSCH-Identity
		}																	OPTIONAL,
		protocolErrorIndicator		ProtocolErrorIndicatorWithMoreInfo,
		laterNonCriticalExtensions	SEQUENCE {
			-- Container for additional R99 extensions
			puschCapacityRequest-r3-add-ext		BIT STRING							OPTIONAL,
			v590NonCriticalExtensions		SEQUENCE {
				puschCapacityRequest-v590ext	PUSCHCapacityRequest-v590ext,
				nonCriticalExtensions			SEQUENCE {}							OPTIONAL
			}		OPTIONAL
		}	OPTIONAL
}

PUSCHCapacityRequest-v590ext ::= SEQUENCE {
	primaryCCPCH-RSCP-delta			DeltaRSCP										OPTIONAL
}

-- ***************************************************
--
-- RADIO BEARER RECONFIGURATION
--
-- ***************************************************

RadioBearerReconfiguration ::= CHOICE {
	r3								SEQUENCE {
		radioBearerReconfiguration-r3	RadioBearerReconfiguration-r3-IEs,
		-- Prefix "v3ao" is used (in one instance) to keep alignment with R99
		v3aoNonCriticalExtensions		SEQUENCE {
			radioBearerReconfiguration-v3a0ext	RadioBearerReconfiguration-v3a0ext,
			laterNonCriticalExtensions		SEQUENCE {
				-- Container for additional R99 extensions
				radioBearerReconfiguration-r3-add-ext		BIT STRING		OPTIONAL,
				v4b0NonCriticalExtensions			SEQUENCE {
					radioBearerReconfiguration-v4b0ext	
													RadioBearerReconfiguration-v4b0ext-IEs,
					v590NonCriticalExtensions			SEQUENCE {
						radioBearerReconfiguration-v590ext	
														RadioBearerReconfiguration-v590ext-IEs,
						v5d0NonCriticalExtenstions			SEQUENCE {
							radioBearerReconfiguration-v5d0ext
															RadioBearerReconfiguration-v5d0ext-IEs,
							v690NonCriticalExtensions		SEQUENCE {
								radioBearerReconfiguration-v690ext
															RadioBearerReconfiguration-v690ext-IEs,
								v770NonCriticalExtensions		SEQUENCE {
									radioBearerReconfiguration-v770ext
															RadioBearerReconfiguration-v770ext-IEs,
									nonCriticalExtensions			SEQUENCE {} OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				radioBearerReconfiguration-r4	RadioBearerReconfiguration-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					radioBearerReconfiguration-r4-add-ext		BIT STRING		OPTIONAL,
					v590NonCriticalExtensions			SEQUENCE {
						radioBearerReconfiguration-v590ext	
													RadioBearerReconfiguration-v590ext-IEs,
						v5d0NonCriticalExtenstions			SEQUENCE {
							radioBearerReconfiguration-v5d0ext
															RadioBearerReconfiguration-v5d0ext-IEs,
							v690NonCriticalExtensions		SEQUENCE {
								radioBearerReconfiguration-v690ext
															RadioBearerReconfiguration-v690ext-IEs,
								v770NonCriticalExtensions		SEQUENCE {
									radioBearerReconfiguration-v770ext
															RadioBearerReconfiguration-v770ext-IEs,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				CHOICE {
				r5									SEQUENCE {
					radioBearerReconfiguration-r5		RadioBearerReconfiguration-r5-IEs,
					-- Container for adding non critical extensions after freezing REL-6
					radioBearerReconfiguration-r5-add-ext		BIT STRING		OPTIONAL,
					v5d0NonCriticalExtenstions			SEQUENCE {
						radioBearerReconfiguration-v5d0ext	RadioBearerReconfiguration-v5d0ext-IEs,
						v690NonCriticalExtensions			SEQUENCE {
							radioBearerReconfiguration-v690ext
															RadioBearerReconfiguration-v690ext-IEs,
							v770NonCriticalExtensions			SEQUENCE {
								radioBearerReconfiguration-v770ext
															RadioBearerReconfiguration-v770ext-IEs,
								nonCriticalExtensions				SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r6									SEQUENCE {
						radioBearerReconfiguration-r6		RadioBearerReconfiguration-r6-IEs,
						-- Container for adding non critical extensions after freezing REL-7
						radioBearerReconfiguration-r6-add-ext		BIT STRING		OPTIONAL,
						v6b0NonCriticalExtensions			SEQUENCE {
							radioBearerReconfiguration-v6b0ext
															RadioBearerReconfiguration-v6b0ext-IEs,
							v6f0NonCriticalExtensions			SEQUENCE {
								radioBearerRconfiguration-v6f0ext
															RadioBearerReconfiguration-v6f0ext-IEs,
								v770NonCriticalExtensions			SEQUENCE {
									radioBearerReconfiguration-v770ext
															RadioBearerReconfiguration-v770ext-IEs,
									nonCriticalExtensions				SEQUENCE {}		OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r7									SEQUENCE {
							radioBearerReconfiguration-r7		RadioBearerReconfiguration-r7-IEs,
							v780NonCriticalExtensions		SEQUENCE {
								radioBearerReconfiguration-v780ext
															RadioBearerReconfiguration-v780ext-IEs,
								v790NonCriticalExtensions		SEQUENCE {
									radioBearerReconfiguration-v790ext
															RadioBearerReconfiguration-v790ext-IEs,
									v7d0NonCriticalExtensions		SEQUENCE {
										radioBearerReconfiguration-v7d0ext
															RadioBearerReconfiguration-v7d0ext-IEs,
										v7f0NonCriticalExtensions		SEQUENCE {
											radioBearerReconfiguration-v7f0ext
															RadioBearerReconfiguration-v7f0ext-IEs,
											v7g0NonCriticalExtensions		SEQUENCE {
												radioBearerReconfiguration-v7g0ext
															RadioBearerReconfiguration-v7g0ext-IEs,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r8								SEQUENCE {
								radioBearerReconfiguration-r8	RadioBearerReconfiguration-r8-IEs,
								-- Container for adding non critical extensions after freezing REL-9
								radioBearerReconfiguration-r8-add-ext	BIT STRING		OPTIONAL,
								v7d0NonCriticalExtensions		SEQUENCE {
									radioBearerReconfiguration-v7d0ext
															RadioBearerReconfiguration-v7d0ext-IEs,
									v7f0NonCriticalExtensions		SEQUENCE {
										radioBearerReconfiguration-v7f0ext
															RadioBearerReconfiguration-v7f0ext-IEs,
										v890NonCriticalExtensions		SEQUENCE {
											radioBearerReconfiguration-v890ext
															RadioBearerReconfiguration-v890ext-IEs,
											v7g0NonCriticalExtensions		SEQUENCE {
												radioBearerReconfiguration-v7g0ext
															RadioBearerReconfiguration-v7g0ext-IEs,
												v8a0NonCriticalExtensions		SEQUENCE {
													radioBearerReconfiguration-v8a0ext
															RadioBearerReconfiguration-v8a0ext-IEs,
													nonCriticalExtensions		SEQUENCE {}		OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r9								SEQUENCE {
									radioBearerReconfiguration-r9
																RadioBearerReconfiguration-r9-IEs,
									-- Container for adding non critical extensions after 
									-- freezing REL-10
									radioBearerReconfiguration-r9-add-ext
																	BIT STRING		OPTIONAL,
									v950NonCriticalExtensions		SEQUENCE {
										radioBearerReconfiguration-v950ext	
															RadioBearerReconfiguration-v950ext-IEs,
										v9c0NonCriticalExtensions		SEQUENCE {
											radioBearerReconfiguration-v9c0ext	
															RadioBearerReconfiguration-v9c0ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								},
								criticalExtensions				CHOICE {
									r10								SEQUENCE {
										radioBearerReconfiguration-r10
																RadioBearerReconfiguration-r10-IEs,
										-- Container for adding non critical extensions after 
										-- freezing REL-11
										radioBearerReconfiguration-r10-add-ext
																		BIT STRING		OPTIONAL,
										v9c0NonCriticalExtensions		SEQUENCE {
											radioBearerReconfiguration-v9c0ext	
															RadioBearerReconfiguration-v9c0ext-IEs,
											vaa0NonCriticalExtensions		SEQUENCE {
												radioBearerReconfiguration-vaa0ext
															RadioBearerReconfiguration-vaa0ext-IEs,
												vb50NonCriticalExtensions		SEQUENCE {
													radioBearerReconfiguration-vb50ext
															RadioBearerReconfiguration-vb50ext-IEs,
													nonCriticalExtensions	SEQUENCE {}		OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									},
									criticalExtensions				CHOICE {
										r11								SEQUENCE {
											radioBearerReconfiguration-r11
																RadioBearerReconfiguration-r11-IEs,
											-- Container for adding non critical extensions after 
											-- freezing REL-12
											radioBearerReconfiguration-r11-add-ext
																		BIT STRING		OPTIONAL,
											nonCriticalExtensions		SEQUENCE {}		OPTIONAL
										},
										criticalExtensions				CHOICE {
											r12								SEQUENCE {
												radioBearerReconfiguration-r12
																RadioBearerReconfiguration-r12-IEs,
												-- Container for adding non critical extensions 
												-- after freezing REL-13
												radioBearerReconfiguration-r12-add-ext
																		BIT STRING		OPTIONAL,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											},
											criticalExtensions				CHOICE {
												r13								SEQUENCE {
													radioBearerReconfiguration-r13
																RadioBearerReconfiguration-r13-IEs,
													-- Container for adding non critical extensions 
													-- after freezing REL-14
													radioBearerReconfiguration-r13-add-ext
																		BIT STRING		OPTIONAL,
													nonCriticalExtensions	SEQUENCE {}	OPTIONAL
												},
												criticalExtensions				CHOICE {
													r14								SEQUENCE {
														radioBearerReconfiguration-r14
																RadioBearerReconfiguration-r14-IEs,
														-- Container for adding non critical 
														-- extensions after freezing REL-15
														radioBearerReconfiguration-r14-add-ext
																		BIT STRING		OPTIONAL,
														nonCriticalExtensions	SEQUENCE {}	OPTIONAL
												},
												laterCriticalExtensions																		RadioBearerReconfiguration-LaterCriticalExtensions-r15-IEs
												}
											}
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}


RadioBearerReconfiguration-vaa0ext-IEs	::=	SEQUENCE	{
	um-RLC-ReEstablishmentRBList		RB-IdentityList								OPTIONAL
}

RadioBearerReconfiguration-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		integrityProtectionModeInfo	IntegrityProtectionModeInfo					OPTIONAL,
		cipheringModeInfo				CipheringModeInfo								OPTIONAL,
		activationTime					ActivationTime									OPTIONAL,
		new-U-RNTI						U-RNTI											OPTIONAL,
		new-C-RNTI						C-RNTI											OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient				OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo								OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity									OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList	RAB-InformationReconfigList					OPTIONAL,
		-- NOTE: IE rb-InformationReconfigList should be optional in later versions
		-- of this message
		rb-InformationReconfigList	RB-InformationReconfigList,
		rb-InformationAffectedList	RB-InformationAffectedList					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo							OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList						OPTIONAL,
		ul-AddReconfTransChInfoList	UL-AddReconfTransChInfoList					OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID								OPTIONAL,
				dummy2							DRAC-StaticInformationList			OPTIONAL
			},
			tdd								NULL
		}	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo							OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList						OPTIONAL,
		dl-AddReconfTransChInfoList	DL-AddReconfTransChInfo2List					OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo									OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power							OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement							OPTIONAL,
		modeSpecificPhysChInfo			CHOICE {
			fdd									SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy								DL-PDSCH-Information				OPTIONAL
			},
			tdd									NULL
		},
		dl-CommonInformation			DL-CommonInformation							OPTIONAL,
		-- NOTE: IE dl-InformationPerRL-List is optional in later versions
		-- of this message
		dl-InformationPerRL-List		DL-InformationPerRL-List
}

RadioBearerReconfiguration-v3a0ext ::= SEQUENCE {
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received the UE behaviour
	-- is unspecified
	new-DSCH-RNTI						DSCH-RNTI										OPTIONAL
}

RadioBearerReconfiguration-v4b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy							SSDT-UL											OPTIONAL,
		-- The order of the RLs in IE cell-id-PerRL-List is the same as
		-- in IE DL-InformationPerRL-List included in this message
		cell-id-PerRL-List				CellIdentity-PerRL-List						OPTIONAL
}

RadioBearerReconfiguration-v590ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-TPC-PowerOffsetPerRL-List	DL-TPC-PowerOffsetPerRL-List					OPTIONAL
}

RadioBearerReconfiguration-v5d0ext-IEs ::= SEQUENCE {
	--Radio Bearer IEs
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode							OPTIONAL
}

RadioBearerReconfiguration-r4-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo					OPTIONAL,
		cipheringModeInfo				CipheringModeInfo								OPTIONAL,
		activationTime					ActivationTime									OPTIONAL,
		new-U-RNTI						U-RNTI											OPTIONAL,
		new-C-RNTI						C-RNTI											OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
		-- the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI										OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient				OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo								OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity									OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList	RAB-InformationReconfigList					OPTIONAL,
		rb-InformationReconfigList	RB-InformationReconfigList-r4					OPTIONAL,
		rb-InformationAffectedList	RB-InformationAffectedList					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4						OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList						OPTIONAL,
		ul-AddReconfTransChInfoList	UL-AddReconfTransChInfoList					OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID								OPTIONAL,
				dummy2							DRAC-StaticInformationList			OPTIONAL
			},
			tdd								NULL
		}	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4						OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList						OPTIONAL,
		dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-r4				OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo									OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power							OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement-r4						OPTIONAL,
		modeSpecificPhysChInfo		CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information					OPTIONAL
			},
			tdd								NULL
		},
		dl-CommonInformation			DL-CommonInformation-r4						OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r4 					OPTIONAL
}

RadioBearerReconfiguration-r5-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo					OPTIONAL,
		cipheringModeInfo				CipheringModeInfo								OPTIONAL,
		activationTime					ActivationTime									OPTIONAL,
		new-U-RNTI						U-RNTI											OPTIONAL,
		new-C-RNTI						C-RNTI											OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received 
		-- the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI										OPTIONAL,
		new-H-RNTI						H-RNTI											OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient				OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo								OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity									OPTIONAL,
	-- Specification mode information
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationReconfigList	RAB-InformationReconfigList			OPTIONAL,
				rb-InformationReconfigList	RB-InformationReconfigList-r5			OPTIONAL,
				rb-InformationAffectedList	RB-InformationAffectedList-r5			OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList			OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList				OPTIONAL,
				ul-AddReconfTransChInfoList	UL-AddReconfTransChInfoList			OPTIONAL,
				-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the
				-- specification, they should not be sent and if received they should be ignored.
				dummy							CHOICE {
					fdd								SEQUENCE {
						dummy1							CPCH-SetID						OPTIONAL,
						dummy2							DRAC-StaticInformationList	OPTIONAL
					},
					tdd								NULL
				}	OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r5			OPTIONAL,
				dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-r5		OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 		DefaultConfigIdentity-r5
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo									OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power							OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement-r5						OPTIONAL,
		modeSpecificPhysChInfo		CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information					OPTIONAL
			},
			tdd								NULL
		},
		dl-HSPDSCH-Information		DL-HSPDSCH-Information						OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r5						OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r5 					OPTIONAL
}

RadioBearerReconfiguration-r6-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo					OPTIONAL,
		cipheringModeInfo				CipheringModeInfo								OPTIONAL,
		activationTime					ActivationTime									OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag							OPTIONAL,
		new-U-RNTI						U-RNTI											OPTIONAL,
		new-C-RNTI						C-RNTI											OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI										OPTIONAL,
		new-H-RNTI						H-RNTI											OPTIONAL,
		newPrimary-E-RNTI				E-RNTI											OPTIONAL,
		newSecondary-E-RNTI			E-RNTI											OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient				OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6							OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity									OPTIONAL,
	-- Specification mode information
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationReconfigList	RAB-InformationReconfigList			OPTIONAL,
				rb-InformationReconfigList	RB-InformationReconfigList-r6			OPTIONAL,
				rb-InformationAffectedList	RB-InformationAffectedList-r6			OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList			OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode					OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6			OPTIONAL,
				ul-AddReconfTransChInfoList	UL-AddReconfTransChInfoList-r6		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r5			OPTIONAL,
				dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-r5		OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 		DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo									OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power							OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r6								OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r6						OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r6						OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r6						OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r6					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6				OPTIONAL
}

RadioBearerReconfiguration-v690ext-IEs ::= SEQUENCE {
	-- User Equipment IEs
		delayRestrictionFlag			DelayRestrictionFlag							OPTIONAL,
	-- Core network IEs
		primary-plmn-Identity			PLMN-Identity									OPTIONAL,
	-- Physical channel IEs
		-- The IE harq-Preamble-Mode should not be used in the r3 and r4 versions of the message
		-- If included in the r3 or r4 version of the message, the UE should ignore the IE
		harq-Preamble-Mode				HARQ-Preamble-Mode								OPTIONAL,
		beaconPLEst					BEACON-PL-Est									OPTIONAL,
		postVerificationPeriod		ENUMERATED { true }							OPTIONAL,
		dhs-sync						DHS-Sync										OPTIONAL,
		timingMaintainedSynchInd		TimingMaintainedSynchInd						OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6				OPTIONAL
}

RadioBearerReconfiguration-v6b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-InformationPerRL-List-v6b0ext	DL-InformationPerRL-List-v6b0ext			OPTIONAL
}

RadioBearerReconfiguration-v6f0ext-IEs ::= SEQUENCE {
	-- Specification mode information
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationMBMSPtpList	RAB-InformationMBMSPtpList			OPTIONAL
			}
		}
}

RadioBearerReconfiguration-r7-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Specification mode information
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationReconfigList		RAB-InformationReconfigList			OPTIONAL,
				rab-InformationMBMSPtpList		RAB-InformationMBMSPtpList			OPTIONAL,
				rb-InformationReconfigList		RB-InformationReconfigList-r7		OPTIONAL,
				rb-InformationAffectedList		RB-InformationAffectedList-r7		OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList		OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r7		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r7		OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r7					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r7				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r7			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r7				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r7			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

RadioBearerReconfiguration-v770ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL
}

RadioBearerReconfiguration-v780ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable					OPTIONAL
}

RadioBearerReconfiguration-v790ext-IEs ::= SEQUENCE {
	-- Container for adding non critical extensions after freezing REL-8
		radioBearerReconfiguration-r7-add-ext		BIT STRING				OPTIONAL
}

RadioBearerReconfiguration-v7d0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		ul-EDCH-Information				UL-EDCH-Information-ext				OPTIONAL
}

RadioBearerReconfiguration-v7f0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	mimoParameters						MIMO-Parameters-v7f0ext				OPTIONAL
}

RadioBearerReconfiguration-v7g0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	mimoParameters						MIMO-Parameters-v7g0ext				OPTIONAL
}

RadioBearerReconfiguration-r8-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy							DefaultConfigForCellFACH			OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
				rab-InformationMBMSPtpList		RAB-InformationMBMSPtpList			OPTIONAL,
				rb-InformationReconfigList		RB-InformationReconfigList-r8		OPTIONAL,
				rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList		OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r7		OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r8					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r8				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r8			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD				OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

RadioBearerReconfiguration-v890ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-SecondaryCellInfoFDD-v890ext		DL-SecondaryCellInfoFDD-v890ext		OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext		OPTIONAL
}

RadioBearerReconfiguration-v8a0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext2		OPTIONAL
}

RadioBearerReconfiguration-r9-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received UE behaviour is unspecified.
		dummy		DefaultConfigForCellFACH			OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
				rab-InformationMBMSPtpList		RAB-InformationMBMSPtpList			OPTIONAL,
				rb-InformationReconfigList		RB-InformationReconfigList-r8		OPTIONAL,
				rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList		OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9		OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r9				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r9			OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}


RadioBearerReconfiguration-v950ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		secondaryCellMimoParameters		SecondaryCellMIMOparametersFDD-v950ext		OPTIONAL
}

RadioBearerReconfiguration-v9c0ext-IEs ::= SEQUENCE {
	-- For 1.28Mcps TDD only
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-TDD128-v9c0ext			OPTIONAL
}

RadioBearerReconfiguration-r10-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received UE behaviour is unspecified.
		dummy		DefaultConfigForCellFACH			OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
				rab-InformationMBMSPtpList		RAB-InformationMBMSPtpList			OPTIONAL,
				rb-InformationReconfigList		RB-InformationReconfigList-r8		OPTIONAL,
				rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList		OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9		OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r9				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r10			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r10			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD		OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerReconfiguration-vb50ext-IEs ::= SEQUENCE {
		ulOLTDInfoFDD						UL-OLTD-InfoFDD			OPTIONAL
}

RadioBearerReconfiguration-r11-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Specification mode information
		defaultConfigForCellFACH		DefaultConfigForCellFACH			OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
				rab-InformationMBMSPtpList		RAB-InformationMBMSPtpList			OPTIONAL,
				rb-InformationReconfigList		RB-InformationReconfigList-r11		OPTIONAL,
				rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList		OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
				umRlc-ReEstablishmentRBList		RB-IdentityList						OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r11		OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD						OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r11			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r11			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r11			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD					OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerReconfiguration-r12-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7				OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7						OPTIONAL,
		activationTime					ActivationTime								OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag						OPTIONAL,
		new-U-RNTI						U-RNTI										OPTIONAL,
		new-C-RNTI						C-RNTI										OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI									OPTIONAL,
		new-H-RNTI						H-RNTI										OPTIONAL,
		newPrimary-E-RNTI				E-RNTI										OPTIONAL,
		newSecondary-E-RNTI				E-RNTI										OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected						OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7			OPTIONAL,
		accessGroupIdentity				AccessGroupIdentity							OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity								OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN										OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }							OPTIONAL,
	-- Specification mode information
		defaultConfigForCellFACH		DefaultConfigForCellFACH					OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
				rab-InformationMBMSPtpList		RAB-InformationMBMSPtpList			OPTIONAL,
				rb-InformationReconfigList		RB-InformationReconfigList-r11		OPTIONAL,
				rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList		OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
				umRlc-ReEstablishmentRBList		RB-IdentityList						OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r12				OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r11		OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo								OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7					OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7						OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12								OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7							OPTIONAL,
		mimoParameters					MIMO-Parameters-r9							OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters							OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power						OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11							OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11						OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r12					OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128				OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD								OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD								OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information		OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo			OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r12					OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r12				OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11					OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2				OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD							OPTIONAL,
		dPCCH2InfoFDD					DPCCH2InfoFDD								OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8				OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8					OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128							OPTIONAL,
		nonrectResAllocInd-TDD128		Non-rectResAllocInd-TDD128					OPTIONAL,
		nonrectResSpecTSset-TDD128		Non-rectResSpecTSset-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6				OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9			OPTIONAL
}

RadioBearerReconfiguration-r13-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7				OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7						OPTIONAL,
		activationTime					ActivationTime								OPTIONAL,
		dynamicActivationTime			DynamicActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag						OPTIONAL,
		new-U-RNTI						U-RNTI										OPTIONAL,
		new-C-RNTI						C-RNTI										OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI									OPTIONAL,
		new-H-RNTI						H-RNTI										OPTIONAL,
		newPrimary-E-RNTI				E-RNTI										OPTIONAL,
		newSecondary-E-RNTI			E-RNTI										OPTIONAL,
		rntiHandlingAtCellReselection			ENUMERATED { true }	OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected						OPTIONAL,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7		OPTIONAL,
		accessGroupIdentity			AccessGroupIdentity						OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity								OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN									OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }							OPTIONAL,
	-- Specification mode information
		defaultConfigForCellFACH		DefaultConfigForCellFACH					OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationReconfigList	RAB-InformationReconfigList-r8	OPTIONAL,
				rab-InformationMBMSPtpList	RAB-InformationMBMSPtpList		OPTIONAL,
				rb-InformationReconfigList	RB-InformationReconfigList-r11	OPTIONAL,
				rb-InformationAffectedList	RB-InformationAffectedList-r8		OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList		OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
				umRlc-ReEstablishmentRBList	RB-IdentityList					OPTIONAL,
				otherStateConfig				OtherStateConfig					OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r12			OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList	UL-AddReconfTransChInfoList-r8	OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4			OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
				dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-r13	OPTIONAL,
			-- Retrievable configuration
				retrievableConfigInfo			RetrievableConfigInfo				OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo								OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7				OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7						OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12							OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7						OPTIONAL,
		mimoParameters					MIMO-Parameters-r9							OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters							OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power						OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11							OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r11					OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r13				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD				UL-CLTD-InfoFDD							OPTIONAL,
		ul-OLTD-InfoFDD				UL-OLTD-InfoFDD							OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information		OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo		OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r12				OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13				OPTIONAL,
		dl-SecondaryCellInfoFDD		DL-SecondaryCellInfoFDD-r11				OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD							OPTIONAL,
		dPCCH2InfoFDD					DPCCH2InfoFDD								OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8			OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8					OPTIONAL,
		mu-MIMO-Info-TDD128			MU-MIMO-Info-TDD128						OPTIONAL,
		nonrectResAllocInd-TDD128		Non-rectResAllocInd-TDD128				OPTIONAL,
		nonrectResSpecTSset-TDD128	Non-rectResSpecTSset-TDD128				OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6			OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerReconfiguration-r14-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7				OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7						OPTIONAL,
		activationTime					ActivationTime								OPTIONAL,
		dynamicActivationTime			DynamicActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag						OPTIONAL,
		new-U-RNTI						U-RNTI										OPTIONAL,
		new-C-RNTI						C-RNTI										OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI									OPTIONAL,
		new-H-RNTI						H-RNTI										OPTIONAL,
		newPrimary-E-RNTI				E-RNTI										OPTIONAL,
		newSecondary-E-RNTI				E-RNTI										OPTIONAL,
		rntiHandlingAtCellReselection	ENUMERATED { true }							OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected						OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7			OPTIONAL,
		accessGroupIdentity				AccessGroupIdentity							OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6						OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity						OPTIONAL,

	-- UTRAN mobility IEs
		ura-Identity					URA-Identity								OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN										OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }							OPTIONAL,
	-- Specification mode information
		defaultConfigForCellFACH		DefaultConfigForCellFACH					OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationSetupList		RAB-InformationSetupList-r11		OPTIONAL,
				rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
				rab-InformationMBMSPtpList		RAB-InformationMBMSPtpList			OPTIONAL,
				rb-InformationReconfigList		RB-InformationReconfigList-r11		OPTIONAL,
				rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
				rb-InformationReleaseList		RB-InformationReleaseList			OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList		OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
				umRlc-ReEstablishmentRBList		RB-IdentityList						OPTIONAL,
				otherStateConfig				OtherStateConfig					OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r12			OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r14		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r13		OPTIONAL,
			-- Retrievable configuration
				retrievableConfigInfo			RetrievableConfigInfo				OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo								OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7					OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7						OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12							OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7							OPTIONAL,
		mimoParameters					MIMO-Parameters-r9							OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters							OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power						OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11							OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11						OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r14					OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128				OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD								OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD								OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information		OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo			OPTIONAL,
		ul-OtherTTIConfigurationInfo-Sec		UL-OtherTTIConfigurationInfo-Sec		OPTIONAL,
		filteredUPHReportInfo-Sec		FilteredUEPowerHeadroomReportInfo			OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r12					OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13				OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11					OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2				OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD							OPTIONAL,
		dPCCH2InfoFDD					DPCCH2InfoFDD								OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8				OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8					OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128							OPTIONAL,
		nonrectResAllocInd-TDD128		Non-rectResAllocInd-TDD128					OPTIONAL,
		nonrectResSpecTSset-TDD128		Non-rectResSpecTSset-TDD128					OPTIONAL, 
		hs-scch-DrxCellfach-info		HS-SCCH-DrxCellfach-info					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6				OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9			OPTIONAL
}

RadioBearerReconfiguration-LaterCriticalExtensions-r15-IEs ::= SEQUENCE {
  r15								SEQUENCE {
									  radioBearerReconfiguration-r15
										         RadioBearerReconfiguration-r15-IEs,
									  -- Container for adding non critical 
									  -- extensions after freezing REL-16
									  radioBearerReconfiguration-r15-add-ext
													 BIT STRING		OPTIONAL,
									  nonCriticalExtensions	SEQUENCE {}
	OPTIONAL
									},
									criticalExtensions  SEQUENCE {}
}

RadioBearerReconfiguration-r15-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7				OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7						OPTIONAL,
		activationTime					ActivationTime								OPTIONAL,
		dynamicActivationTime			DynamicActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag						OPTIONAL,
		new-U-RNTI						U-RNTI										OPTIONAL,
		new-C-RNTI						C-RNTI										OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI									OPTIONAL,
		new-H-RNTI						H-RNTI										OPTIONAL,
		newPrimary-E-RNTI				E-RNTI										OPTIONAL,
		newSecondary-E-RNTI				E-RNTI										OPTIONAL,
		rntiHandlingAtCellReselection	ENUMERATED { true }							OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected						OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7			OPTIONAL,
		accessGroupIdentity				AccessGroupIdentity							OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6						OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity						OPTIONAL,

	-- UTRAN mobility IEs
		ura-Identity					URA-Identity								OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN										OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }							OPTIONAL,
	-- Specification mode information
		defaultConfigForCellFACH		DefaultConfigForCellFACH					OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				rab-InformationSetupList		RAB-InformationSetupList-r11		OPTIONAL,
				rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
				rab-InformationMBMSPtpList		RAB-InformationMBMSPtpList			OPTIONAL,
				rb-InformationReconfigList		RB-InformationReconfigList-r11		OPTIONAL,
				rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
				rb-InformationReleaseList		RB-InformationReleaseList			OPTIONAL,
				rb-PDCPContextRelocationList	RB-PDCPContextRelocationList		OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
				umRlc-ReEstablishmentRBList		RB-IdentityList						OPTIONAL,
				otherStateConfig				OtherStateConfig					OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r12			OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r14		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r13		OPTIONAL,
			-- Retrievable configuration
				retrievableConfigInfo			RetrievableConfigInfo				OPTIONAL
			},
			preconfiguration				SEQUENCE {
			-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
			-- one for the FDD only elements and one for the TDD only elements, so that one
			-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo								OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7					OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7						OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12							OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7							OPTIONAL,
		mimoParameters					MIMO-Parameters-r9							OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters							OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power						OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11							OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11						OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r14					OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128				OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD								OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD								OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information		OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo			OPTIONAL,
		ul-OtherTTIConfigurationInfo-Sec		UL-OtherTTIConfigurationInfo-Sec	OPTIONAL,
		filteredUPHReportInfo-Sec		FilteredUEPowerHeadroomReportInfo			OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r12					OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13				OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11					OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2				OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD							OPTIONAL,
		dPCCH2InfoFDD					DPCCH2InfoFDD								OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8				OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8					OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128							OPTIONAL,
		nonrectResAllocInd-TDD128		Non-rectResAllocInd-TDD128					OPTIONAL,
		nonrectResSpecTSset-TDD128		Non-rectResSpecTSset-TDD128					OPTIONAL, 
		hs-scch-DrxCellfach-info		HS-SCCH-DrxCellfach-info					OPTIONAL,
		simplified-HS-SCCH-type1-operation	ENUMERATED { true }						OPTIONAL,

	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6				OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9			OPTIONAL
}

-- ***************************************************
--
-- RADIO BEARER RECONFIGURATION COMPLETE
--
-- ***************************************************

RadioBearerReconfigurationComplete ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		ul-IntegProtActivationInfo		IntegrityProtActivationInfo			OPTIONAL,
		-- TABULAR: UL-TimingAdvance is applicable for TDD mode only.
		ul-TimingAdvance				UL-TimingAdvance					OPTIONAL,
	-- Radio bearer IEs
		count-C-ActivationTime			ActivationTime						OPTIONAL,
		-- dummy is not used in this version of the specification and
		-- it should be ignored by the receiver.
		dummy							RB-ActivationTimeInfoList			OPTIONAL,
		ul-CounterSynchronisationInfo	UL-CounterSynchronisationInfo		OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			radioBearerReconfigurationComplete-r3-add-ext		BIT STRING		OPTIONAL,
			v770NonCriticalExtensions		SEQUENCE {
				radioBearerReconfigurationComplete-v770ext
												RadioBearerReconfigurationComplete-v770ext-IEs,
				nonCriticalExtensions			SEQUENCE {}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

RadioBearerReconfigurationComplete-v770ext-IEs ::= SEQUENCE {
		-- TABULAR: EXT-UL-TimingAdvance is applicable for TDD mode only.
		ext-UL-TimingAdvance					EXT-UL-TimingAdvance	OPTIONAL,
		deferredMeasurementControlReading		ENUMERATED { true }		OPTIONAL
}

-- ***************************************************
--
-- RADIO BEARER RECONFIGURATION FAILURE
--
-- ***************************************************

RadioBearerReconfigurationFailure ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		failureCause					FailureCauseWithProtErr,
	-- Radio bearer IEs
		potentiallySuccesfulBearerList	RB-IdentityList						OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			radioBearerReconfigurationFailure-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}	OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- RADIO BEARER RELEASE
--
-- ***************************************************

RadioBearerRelease ::= CHOICE {
	r3								SEQUENCE {
		radioBearerRelease-r3			RadioBearerRelease-r3-IEs,
		v3a0NonCriticalExtensions		SEQUENCE {
			radioBearerRelease-v3a0ext		RadioBearerRelease-v3a0ext,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			radioBearerRelease-r3-add-ext		BIT STRING		OPTIONAL,
				v4b0NonCriticalExtensions		SEQUENCE {
					radioBearerRelease-v4b0ext		RadioBearerRelease-v4b0ext-IEs,
					v590NonCriticalExtensions		SEQUENCE {
						radioBearerRelease-v590ext		RadioBearerRelease-v590ext-IEs,
						v690NonCriticalExtensions		SEQUENCE {
							radioBearerRelease-v690ext		RadioBearerRelease-v690ext-IEs,
							v770NonCriticalExtensions		SEQUENCE {
								radioBearerRelease-v770ext		RadioBearerRelease-v770ext-IEs,
								nonCriticalExtensions			SEQUENCE {} OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				radioBearerRelease-r4			RadioBearerRelease-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					radioBearerRelease-r4-add-ext		BIT STRING		OPTIONAL,
					v590NonCriticalExtensions		SEQUENCE {
						radioBearerRelease-v590ext		RadioBearerRelease-v590ext-IEs,
						v690NonCriticalExtensions		SEQUENCE {
							radioBearerRelease-v690ext		RadioBearerRelease-v690ext-IEs,
							v770NonCriticalExtensions		SEQUENCE {
								radioBearerRelease-v770ext		RadioBearerRelease-v770ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				CHOICE {
				r5								SEQUENCE {
					radioBearerRelease-r5			RadioBearerRelease-r5-IEs,
					-- Container for adding non critical extensions after freezing REL-6
					radioBearerRelease-r5-add-ext	BIT STRING		OPTIONAL,
					v690NonCriticalExtensions		SEQUENCE {
						radioBearerRelease-v690ext		RadioBearerRelease-v690ext-IEs,
						v770NonCriticalExtensions		SEQUENCE {
							radioBearerRelease-v770ext		RadioBearerRelease-v770ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r6								SEQUENCE {
						radioBearerRelease-r6			RadioBearerRelease-r6-IEs,
						-- Container for adding non critical extensions after freezing REL-7
						radioBearerRelease-r6-add-ext	BIT STRING		OPTIONAL,
						v6b0NonCriticalExtensions		SEQUENCE {
							radioBearerRelease-v6b0ext		RadioBearerRelease-v6b0ext-IEs,
							v770NonCriticalExtensions		SEQUENCE {
								radioBearerRelease-v770ext		RadioBearerRelease-v770ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r7								SEQUENCE {
							radioBearerRelease-r7			RadioBearerRelease-r7-IEs,
							-- Container for adding non critical extensions after freezing REL-8
							radioBearerRelease-r7-add-ext	BIT STRING		OPTIONAL,
							v780NonCriticalExtensions		SEQUENCE {
								radioBearerRelease-v780ext		RadioBearerRelease-v780ext-IEs,
								v7d0NonCriticalExtensions		SEQUENCE {
									radioBearerRelease-v7d0ext		RadioBearerRelease-v7d0ext-IEs,
									v7f0NonCriticalExtensions		SEQUENCE {
										radioBearerRelease-v7f0ext	RadioBearerRelease-v7f0ext-IEs,
										v7g0NonCriticalExtensions		SEQUENCE {
											radioBearerRelease-v7g0ext	
																	RadioBearerRelease-v7g0ext-IEs,
											nonCriticalExtensions	SEQUENCE {}		OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r8								SEQUENCE {
								radioBearerRelease-r8			RadioBearerRelease-r8-IEs,
								-- Container for adding non critical extensions after freezing REL-9
								radioBearerRelease-r8-add-ext	BIT STRING		OPTIONAL,
								v7d0NonCriticalExtensions		SEQUENCE {
									radioBearerRelease-v7d0ext		RadioBearerRelease-v7d0ext-IEs,
									v7f0NonCriticalExtensions		SEQUENCE {
										radioBearerRelease-v7f0ext	RadioBearerRelease-v7f0ext-IEs,
										v890NonCriticalExtensions		SEQUENCE {
											radioBearerRelease-v890ext
																	RadioBearerRelease-v890ext-IEs,
											v7g0NonCriticalExtensions		SEQUENCE {
												radioBearerRelease-v7g0ext	
																	RadioBearerRelease-v7g0ext-IEs,
												v8a0NonCriticalExtensions		SEQUENCE {
													radioBearerRelease-v8a0ext
																	RadioBearerRelease-v8a0ext-IEs,
													nonCriticalExtensions	
																	SEQUENCE {}		OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r9								SEQUENCE {
									radioBearerRelease-r9			RadioBearerRelease-r9-IEs,
									-- Container for adding non critical extensions after 
									-- freezing REL-10
									radioBearerRelease-r9-add-ext	BIT STRING		OPTIONAL,
									v950NonCriticalExtensions		SEQUENCE {
										radioBearerRelease-v950ext	RadioBearerRelease-v950ext-IEs,
										v970NonCriticalExtensions		SEQUENCE {
											radioBearerRelease-v970ext	RadioBearerRelease-v970ext-IEs,
											v9c0NonCriticalExtensions		SEQUENCE {
												radioBearerRelease-v9c0ext	RadioBearerRelease-v9c0ext-IEs,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								},
								criticalExtensions				CHOICE {
									r10								SEQUENCE {
										radioBearerRelease-r10			RadioBearerRelease-r10-IEs,
										-- Container for adding non critical extensions after 
										-- freezing REL-11
										radioBearerRelease-r10-add-ext	BIT STRING		OPTIONAL,
										v9c0NonCriticalExtensions		SEQUENCE {
												radioBearerRelease-v9c0ext	RadioBearerRelease-v9c0ext-IEs,
											vb50NonCriticalExtensions		SEQUENCE {
												radioBearerRelease-vb50ext
																	RadioBearerRelease-vb50ext-IEs,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									},
									criticalExtensions				CHOICE {
										r11								SEQUENCE {
											radioBearerRelease-r11			
																		RadioBearerRelease-r11-IEs,
											-- Container for adding non critical extensions after 
											-- freezing REL-12
											radioBearerRelease-r11-add-ext	
																		BIT STRING		OPTIONAL,
											nonCriticalExtensions		SEQUENCE {}		OPTIONAL
										},
										criticalExtensions				CHOICE {
											r12								SEQUENCE {
												radioBearerRelease-r12			
																		RadioBearerRelease-r12-IEs,
												-- Container for adding non critical extensions 
												-- after freezing REL-13
												radioBearerRelease-r11-add-ext	
																		BIT STRING		OPTIONAL,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											},
											criticalExtensions				CHOICE {
												r13								SEQUENCE {
													radioBearerRelease-r13			
																		RadioBearerRelease-r13-IEs,
													-- Container for adding non critical extensions 
													-- after freezing REL-14
													radioBearerRelease-r13-add-ext	
																		BIT STRING		OPTIONAL,
													nonCriticalExtensions	SEQUENCE {}	OPTIONAL
												},
												laterCriticalExtensions	
												RadioBearerRelease-LaterCriticalExtensions-r15-IEs
											}
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}


RadioBearerRelease-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity		     	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList		RAB-InformationReconfigList			OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationAffectedList		RB-InformationAffectedList			OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo		OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList			OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList			OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfo2List		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement				OPTIONAL,
		modeSpecificPhysChInfo			CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information		OPTIONAL
			},
			tdd							NULL
		},
		dl-CommonInformation			DL-CommonInformation				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List			OPTIONAL
}

RadioBearerRelease-v3a0ext ::= SEQUENCE {
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received the UE behaviour
	-- is unspecified
	new-DSCH-RNTI					DSCH-RNTI							OPTIONAL
}

RadioBearerRelease-v4b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy								SSDT-UL								OPTIONAL,
		-- The order of the RLs in IE cell-id-PerRL-List is the same as
		--  in IE DL-InformationPerRL-List included in this message
		cell-id-PerRL-List					CellIdentity-PerRL-List				OPTIONAL
}

RadioBearerRelease-v590ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-TPC-PowerOffsetPerRL-List	DL-TPC-PowerOffsetPerRL-List		OPTIONAL
}

RadioBearerRelease-r4-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
		-- the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList		RAB-InformationReconfigList			OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationAffectedList		RB-InformationAffectedList			OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo		OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList			OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList			OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r4		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement-r4			OPTIONAL,
		modeSpecificPhysChInfo			CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information		OPTIONAL
			},
			tdd							NULL
		},
		dl-CommonInformation			DL-CommonInformation-r4				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r4			OPTIONAL
}

RadioBearerRelease-r5-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity		     	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList		RAB-InformationReconfigList			OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationAffectedList		RB-InformationAffectedList-r5		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList			OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r5		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r5		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement-r5			OPTIONAL,
		modeSpecificPhysChInfo			CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information		OPTIONAL
			},
			tdd							NULL
		},
		dl-HSPDSCH-Information			DL-HSPDSCH-Information				OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r5				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r5			OPTIONAL
}

RadioBearerRelease-v690ext-IEs ::= SEQUENCE {
	-- Core network IEs
		primary-plmn-Identity			PLMN-Identity						OPTIONAL,
	-- Physical channel IEs
		-- The IE harq-Preamble-Mode should not be used in the r3 and r4 versions of the message
		-- If included in the r3 or r4 version of the message, the UE should ignore the IE
		harq-Preamble-Mode				HARQ-Preamble-Mode					OPTIONAL,
		beaconPLEst						BEACON-PL-Est						OPTIONAL,
		postVerificationPeriod			ENUMERATED { true }					OPTIONAL,
		dhs-sync						DHS-Sync							OPTIONAL,
		timingMaintainedSynchInd		TimingMaintainedSynchInd			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
		mbms-RB-ListReleasedToChangeTransferMode
										RB-InformationReleaseList			OPTIONAL
}

RadioBearerRelease-r6-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList		RAB-InformationReconfigList			OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationReconfigList		RB-InformationReconfigList-r6		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r6		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r6		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r5		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r5		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r6						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r6				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r6			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r6				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r6			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
		mbms-RB-ListReleasedToChangeTransferMode
										RB-InformationReleaseList			OPTIONAL
}

RadioBearerRelease-v6b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-InformationPerRL-List-v6b0ext	DL-InformationPerRL-List-v6b0ext	OPTIONAL
}

RadioBearerRelease-r7-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList		RAB-InformationReconfigList			OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationReconfigList		RB-InformationReconfigList-r7		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r7		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r7		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r7		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r7					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r7				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r7			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r7				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r7			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
		mbms-RB-ListReleasedToChangeTransferMode
										RB-InformationReleaseList			OPTIONAL
}

RadioBearerRelease-v770ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL
}

RadioBearerRelease-v780ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable					OPTIONAL
}

RadioBearerRelease-v7d0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		ul-EDCH-Information				UL-EDCH-Information-ext				OPTIONAL
}

RadioBearerRelease-v7f0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	mimoParameters						MIMO-Parameters-v7f0ext				OPTIONAL
}

RadioBearerRelease-v7g0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	mimoParameters						MIMO-Parameters-v7g0ext				OPTIONAL
}

RadioBearerRelease-r8-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationReconfigList		RB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r7		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r8					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r8				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r8			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD				OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
		mbms-RB-ListReleasedToChangeTransferMode
										RB-InformationReleaseList			OPTIONAL
}

RadioBearerRelease-v890ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-SecondaryCellInfoFDD-v890ext		DL-SecondaryCellInfoFDD-v890ext		OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext		OPTIONAL
}

RadioBearerRelease-v8a0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext2		OPTIONAL
}

RadioBearerRelease-r9-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationReconfigList		RB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r9				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r9			OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
		mbms-RB-ListReleasedToChangeTransferMode
										RB-InformationReleaseList			OPTIONAL
}

RadioBearerRelease-v950ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		secondaryCellMimoParameters		SecondaryCellMIMOparametersFDD-v950ext		OPTIONAL
}

RadioBearerRelease-v970ext-IEs ::= SEQUENCE {
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerRelease-v9c0ext-IEs ::= SEQUENCE {
	-- For 1.28Mcps TDD only
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-TDD128-v9c0ext			OPTIONAL
}

RadioBearerRelease-r10-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationReconfigList		RB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r9				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r10			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r10			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD		OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
		mbms-RB-ListReleasedToChangeTransferMode
										RB-InformationReleaseList			OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerRelease-vb50ext-IEs ::= SEQUENCE {
		ulOLTDInfoFDD						UL-OLTD-InfoFDD			OPTIONAL
}

RadioBearerRelease-r11-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationReconfigList		RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r11		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11					OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD						OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r11			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r11			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r11		OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD					OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
		mbms-RB-ListReleasedToChangeTransferMode
										RB-InformationReleaseList			OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerRelease-r12-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		accessGroupIdentity				AccessGroupIdentity					OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationReconfigList		RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r11		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters					OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD			OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11					OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r12			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r12		OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD					OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
		non-rectResAllocInd-TDD128		Non-rectResAllocInd-TDD128			OPTIONAL,
		non-rectResSpecTSset-TDD128		Non-rectResSpecTSset-TDD128			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
		mbms-RB-ListReleasedToChangeTransferMode
										RB-InformationReleaseList			OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerRelease-r13-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7					OPTIONAL,
		activationTime					ActivationTime							OPTIONAL,
		dynamicActivationTime			DynamicActivationTime					OPTIONAL,
		new-U-RNTI						U-RNTI									OPTIONAL,
		new-C-RNTI						C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI									OPTIONAL,
		newPrimary-E-RNTI				E-RNTI									OPTIONAL,
		newSecondary-E-RNTI			E-RNTI									OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected					OPTIONAL,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		accessGroupIdentity			AccessGroupIdentity					OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6					OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList	RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationReconfigList	RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList	RB-InformationAffectedList-r8			OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5		OPTIONAL,
		retrievableConfigInfo			RetrievableConfigInfo					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList	UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-r13		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo							OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9						OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters						OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD				OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r13			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128	OPTIONAL,
		ul-CLTD-InfoFDD				UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD				UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11		OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD						OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8				OPTIONAL,
		mu-MIMO-Info-TDD128			MU-MIMO-Info-TDD128					OPTIONAL,
		non-rectResAllocInd-TDD128	Non-rectResAllocInd-TDD128			OPTIONAL,
		non-rectResSpecTSset-TDD128	Non-rectResSpecTSset-TDD128			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
		mbms-RB-ListReleasedToChangeTransferMode
										RB-InformationReleaseList				OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerRelease-LaterCriticalExtensions-r15-IEs ::= SEQUENCE {
	r15							SEQUENCE {
									radioBearerRelease-r15		RadioBearerRelease-r15-IEs,
									-- Container for adding non critical extensions
									-- after freezing REL-16
									radioBearerRelease-r15-add-ext	BIT STRING		OPTIONAL,
									nonCriticalExtensions	SEQUENCE {}		       OPTIONAL
									},
									criticalExtensions		SEQUENCE {}
}


RadioBearerRelease-r15-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7					OPTIONAL,
		activationTime					ActivationTime							OPTIONAL,
		dynamicActivationTime			DynamicActivationTime					OPTIONAL,
		new-U-RNTI						U-RNTI									OPTIONAL,
		new-C-RNTI						C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI									OPTIONAL,
		newPrimary-E-RNTI				E-RNTI									OPTIONAL,
		newSecondary-E-RNTI			E-RNTI									OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected					OPTIONAL,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		accessGroupIdentity			AccessGroupIdentity					OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6					OPTIONAL,
		signallingConnectionRelIndication	CN-DomainIdentity				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Radio bearer IEs
		rab-InformationReconfigList	RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList,
		rb-InformationReconfigList	RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList	RB-InformationAffectedList-r8			OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5		OPTIONAL,
		retrievableConfigInfo			RetrievableConfigInfo					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList	UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-r13		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo							OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9						OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters						OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD				OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r13			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128	OPTIONAL,
		ul-CLTD-InfoFDD				UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD				UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11		OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD						OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8				OPTIONAL,
		mu-MIMO-Info-TDD128			MU-MIMO-Info-TDD128					OPTIONAL,
		non-rectResAllocInd-TDD128	Non-rectResAllocInd-TDD128			OPTIONAL,
		non-rectResSpecTSset-TDD128	Non-rectResSpecTSset-TDD128			OPTIONAL,
		simplified-HS-SCCH-type1-operation		ENUMERATED { true }	    OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
		mbms-RB-ListReleasedToChangeTransferMode
										RB-InformationReleaseList				OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

-- ***************************************************
--
-- RADIO BEARER RELEASE COMPLETE
--
-- ***************************************************

RadioBearerReleaseComplete ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		ul-IntegProtActivationInfo		IntegrityProtActivationInfo			OPTIONAL,
		-- TABULAR: UL-TimingAdvance is applicable for TDD mode only.
		ul-TimingAdvance				UL-TimingAdvance					OPTIONAL,
	-- Radio bearer IEs
		count-C-ActivationTime			ActivationTime						OPTIONAL,
		-- dummy is not used in this version of the specification and
		-- it should be ignored by the receiver.
		dummy							RB-ActivationTimeInfoList			OPTIONAL,
		ul-CounterSynchronisationInfo	UL-CounterSynchronisationInfo		OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			radioBearerReleaseComplete-r3-add-ext		BIT STRING		OPTIONAL,
			v770NonCriticalExtensions		SEQUENCE {
				radioBearerReleaseComplete-v770ext
												RadioBearerReleaseComplete-v770ext-IEs,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

RadioBearerReleaseComplete-v770ext-IEs ::= SEQUENCE {
		-- TABULAR: EXT-UL-TimingAdvance is applicable for TDD mode only.
		ext-UL-TimingAdvance					EXT-UL-TimingAdvance	OPTIONAL,
		deferredMeasurementControlReading		ENUMERATED { true }		OPTIONAL
}

-- ***************************************************
--
-- RADIO BEARER RELEASE FAILURE
--
-- ***************************************************

RadioBearerReleaseFailure ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		failureCause					FailureCauseWithProtErr,
	-- Radio bearer IEs
		potentiallySuccesfulBearerList	RB-IdentityList						OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			radioBearerReleaseFailure-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- RADIO BEARER SETUP
--
-- ***************************************************

RadioBearerSetup ::= CHOICE {
	r3								SEQUENCE {
		radioBearerSetup-r3				RadioBearerSetup-r3-IEs,
		v3a0NonCriticalExtensions		SEQUENCE {
			radioBearerSetup-v3a0ext		RadioBearerSetup-v3a0ext,
			laterNonCriticalExtensions		SEQUENCE {
				-- Container for additional R99 extensions
				radioBearerSetup-r3-add-ext		BIT STRING		OPTIONAL,
				v4b0NonCriticalExtensions		SEQUENCE {
					radioBearerSetup-v4b0ext		RadioBearerSetup-v4b0ext-IEs,
					v590NonCriticalExtensions		SEQUENCE {
						radioBearerSetup-v590ext		RadioBearerSetup-v590ext-IEs,
						v5d0NonCriticalExtenstions		SEQUENCE {
							radioBearerSetup-v5d0ext		RadioBearerSetup-v5d0ext-IEs,
							v690NonCriticalExtensions		SEQUENCE {
								radioBearerSetup-v690ext		RadioBearerSetup-v690ext-IEs,
								nonCriticalExtensions			SEQUENCE {} OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				radioBearerSetup-r4				RadioBearerSetup-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					radioBearerSetup-r4-add-ext		BIT STRING		OPTIONAL,
					v590NonCriticalExtensions		SEQUENCE {
						radioBearerSetup-v590ext		RadioBearerSetup-v590ext-IEs,
						v5d0NonCriticalExtenstions		SEQUENCE {
							radioBearerSetup-v5d0ext		RadioBearerSetup-v5d0ext-IEs,
							v690NonCriticalExtensions		SEQUENCE {
								radioBearerSetup-v690ext		RadioBearerSetup-v690ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				CHOICE {
				r5								SEQUENCE {
					radioBearerSetup-r5				RadioBearerSetup-r5-IEs,
					-- Container for adding non critical extensions after freezing REL-6
					radioBearerSetup-r5-add-ext		BIT STRING		OPTIONAL,
					v5d0NonCriticalExtenstions		SEQUENCE {
						radioBearerSetup-v5d0ext		RadioBearerSetup-v5d0ext-IEs,
						v690NonCriticalExtensions		SEQUENCE {
							radioBearerSetup-v690ext		RadioBearerSetup-v690ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r6								SEQUENCE {
						radioBearerSetup-r6				RadioBearerSetup-r6-IEs,
						-- Container for adding non critical extensions after freezing REL-7
						radioBearerSetup-r6-add-ext		BIT STRING		OPTIONAL,
						v6b0NonCriticalExtensions		SEQUENCE {
							radioBearerSetup-v6b0ext		RadioBearerSetup-v6b0ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r7								SEQUENCE {
							radioBearerSetup-r7				RadioBearerSetup-r7-IEs,
							-- Container for adding non critical extensions after freezing REL-8
							radioBearerSetup-r7-add-ext		BIT STRING
										(CONTAINING RadioBearerSetup-r7-add-ext-IEs)	OPTIONAL,
							v780NonCriticalExtensions		SEQUENCE {
								radioBearerSetup-v780ext		RadioBearerSetup-v780ext-IEs,
								v820NonCriticalExtensions		SEQUENCE {
									radioBearerSetup-v820ext		RadioBearerSetup-v820ext-IEs,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r8								SEQUENCE {
								radioBearerSetup-r8				RadioBearerSetup-r8-IEs,
								-- Container for adding non critical extensions after freezing REL-9
								radioBearerSetup-r8-add-ext		BIT STRING		OPTIONAL,
								v7d0NonCriticalExtensions		SEQUENCE {
									radioBearerSetup-v7d0ext		RadioBearerSetup-v7d0ext-IEs,
									v7f0NonCriticalExtensions		SEQUENCE {
										radioBearerSetup-v7f0ext	RadioBearerSetup-v7f0ext-IEs,
										v890NonCriticalExtensions		SEQUENCE {
											radioBearerSetup-v890ext
																	RadioBearerSetup-v890ext-IEs,
											v7g0NonCriticalExtensions		SEQUENCE {
												radioBearerSetup-v7g0ext
																	RadioBearerSetup-v7g0ext-IEs,
												v8a0NonCriticalExtensions		SEQUENCE {
													radioBearerSetup-v8a0ext
																	RadioBearerSetup-v8a0ext-IEs,
													nonCriticalExtensions
																	SEQUENCE {}		OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r9								SEQUENCE {
									radioBearerSetup-r9				RadioBearerSetup-r9-IEs,
									-- Container for adding non critical extensions after 
									-- freezing REL-10
									radioBearerSetup-r9-add-ext		BIT STRING		OPTIONAL,
									v950NonCriticalExtensions		SEQUENCE {
										radioBearerSetup-v950ext		RadioBearerSetup-v950ext-IEs,
										v9c0NonCriticalExtensions		SEQUENCE {
											radioBearerSetup-v9c0ext		RadioBearerSetup-v9c0ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								},
								criticalExtensions				CHOICE {
									r10								SEQUENCE {
										radioBearerSetup-r10			RadioBearerSetup-r10-IEs,
										-- Container for adding non critical extensions after 
										-- freezing REL-11
										radioBearerSetup-r10-add-ext	BIT STRING		OPTIONAL,
										v9c0NonCriticalExtensions		SEQUENCE {
											radioBearerSetup-v9c0ext		RadioBearerSetup-v9c0ext-IEs,
											vb50NonCriticalExtensions		SEQUENCE {
												radioBearerSetup-vb50ext
																	RadioBearerSetup-vb50ext-IEs,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									},
									criticalExtensions				CHOICE {
										r11								SEQUENCE {
										radioBearerSetup-r11			RadioBearerSetup-r11-IEs,
										-- Container for adding non critical extensions after 
										-- freezing REL-12
										radioBearerSetup-r11-add-ext	BIT STRING		OPTIONAL,
										nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										},
										criticalExtensions				CHOICE {
											r12								SEQUENCE {
											radioBearerSetup-r12		RadioBearerSetup-r12-IEs,
											-- Container for adding non critical extensions after 
											-- freezing REL-13
											radioBearerSetup-r13-add-ext	
																	BIT STRING		OPTIONAL,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
											},
											criticalExtensions				CHOICE {
												r13								SEQUENCE {
													radioBearerSetup-r13		RadioBearerSetup-r13-IEs,
													-- Container for adding non critical extensions
													-- after freezing REL-14
													radioBearerSetup-r13-add-ext	
																	BIT STRING		OPTIONAL,
													nonCriticalExtensions	SEQUENCE {}		OPTIONAL
												},
												laterCriticalExtensions			RadioBearerSetup-LaterCriticalExtensions-r15-IEs
											}
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}

RadioBearerSetup-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList			OPTIONAL,
		rab-InformationSetupList		RAB-InformationSetupList			OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList			OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo		OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList			OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList			OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList			OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement				OPTIONAL,
		modeSpecificPhysChInfo			CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information		OPTIONAL
			},
			tdd								NULL
		},
		dl-CommonInformation			DL-CommonInformation				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List			OPTIONAL
}

RadioBearerSetup-v3a0ext ::= SEQUENCE {
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received the UE behaviour
	-- is unspecified
	new-DSCH-RNTI					DSCH-RNTI							OPTIONAL
}

RadioBearerSetup-v4b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy								SSDT-UL								OPTIONAL,
		-- The order of the RLs in IE cell-id-PerRL-List is the same as
		-- in IE DL-InformationPerRL-List included in this message
		cell-id-PerRL-List					CellIdentity-PerRL-List				OPTIONAL
}

RadioBearerSetup-v590ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-TPC-PowerOffsetPerRL-List	DL-TPC-PowerOffsetPerRL-List		OPTIONAL
}

RadioBearerSetup-v5d0ext-IEs ::=	SEQUENCE {
	--Radio Bearer IEs
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL
}

RadioBearerSetup-r4-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
		-- the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList			OPTIONAL,
		rab-InformationSetupList		RAB-InformationSetupList-r4			OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList			OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo		OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList			OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList			OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r4		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement-r4			OPTIONAL,
		modeSpecificPhysChInfo			CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information		OPTIONAL
			},
			tdd								NULL
		},
		dl-CommonInformation			DL-CommonInformation-r4				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r4			OPTIONAL
}

RadioBearerSetup-r5-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
		-- the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList-r5			OPTIONAL,
		rab-InformationSetupList		RAB-InformationSetupList-r5			OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r5		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList			OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r5		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r5		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement-r5			OPTIONAL,
		modeSpecificPhysChInfo			CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information		OPTIONAL
			},
			tdd								NULL
		},
		dl-HSPDSCH-Information			DL-HSPDSCH-Information				OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r5				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r5			OPTIONAL
}

RadioBearerSetup-v690ext-IEs ::= SEQUENCE {
	-- Core network IEs
		primary-plmn-Identity			PLMN-Identity						OPTIONAL,
	-- Physical channel IEs
		-- The IE harq-Preamble-Mode should not be used in the r3 and r4 versions of the message
		-- If included in the r3 or r4 version of the message, the UE should ignore the IE
		harq-Preamble-Mode				HARQ-Preamble-Mode					OPTIONAL,
		beaconPLEst						BEACON-PL-Est						OPTIONAL,
		postVerificationPeriod			ENUMERATED { true }					OPTIONAL,
		dhs-sync						DHS-Sync							OPTIONAL,
		timingMaintainedSynchInd		TimingMaintainedSynchInd			OPTIONAL,
	-- Radio bearer IEs
		rab-InformationSetupList		RAB-InformationSetupList-r6-ext		OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

RadioBearerSetup-r6-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				srb-InformationSetupList		SRB-InformationSetupList-r6			OPTIONAL,
				rab-InformationSetupList		RAB-InformationSetupList-r6			OPTIONAL,
				rab-InformationReconfigList		RAB-InformationReconfigList			OPTIONAL,
				rb-InformationReconfigList		RB-InformationReconfigList-r6		OPTIONAL,
				rb-InformationAffectedList		RB-InformationAffectedList-r6		OPTIONAL,
				dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r6		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r5		OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r5		OPTIONAL
			},
			-- dummy is not used in this version of the specification
			-- if it is sent, the UE behaviour is unspecified.
			dummy							SEQUENCE {
				rab-Info						RAB-Info-r6,
				defaultConfigMode				DefaultConfigMode,
				defaultConfigIdentity 			DefaultConfigIdentity-r6,
				rb-InformationChangedList		RB-InformationChangedList-r6		OPTIONAL,
				powerOffsetInfoShort			PowerOffsetInfoShort
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r6						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r6				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r6			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r6				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r6			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

RadioBearerSetup-v6b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-InformationPerRL-List-v6b0ext	DL-InformationPerRL-List-v6b0ext	OPTIONAL,
	-- MBMS IEs
		-- The order of the RABs in IE rab-InformationSetupListExt is the same as
		-- in IE rab-InformationSetupList that is included in this message
		rab-InformationSetupListExt		RAB-InformationSetupList-v6b0ext	OPTIONAL
}

RadioBearerSetup-r7-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
			-- Radio bearer IEs
				srb-InformationSetupList		SRB-InformationSetupList-r7			OPTIONAL,
				rab-InformationSetupList		RAB-InformationSetupList-r7			OPTIONAL,
				rab-InformationReconfigList		RAB-InformationReconfigList			OPTIONAL,
				rb-InformationReconfigList		RB-InformationReconfigList-r7		OPTIONAL,
				rb-InformationAffectedList		RB-InformationAffectedList-r7		OPTIONAL,
				dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
				pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
			-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r7		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r7		OPTIONAL
			},
			-- dummy is not used in this version of the specification
			-- if it is sent, the UE behaviour is unspecified.
			dummy							NULL
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r7					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r7				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r7			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r7				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r7			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

RadioBearerSetup-r7-add-ext-IEs ::= SEQUENCE {
		radioBearerSetup-v7d0ext		RadioBearerSetup-v7d0ext-IEs		OPTIONAL,
		v7f0NonCriticalExtensions		SEQUENCE {
			radioBearerSetup-v7f0ext			RadioBearerSetup-v7f0ext-IEs,
			v7g0NonCriticalExtensions		SEQUENCE {
				radioBearerSetup-v7g0ext			RadioBearerSetup-v7g0ext-IEs,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

RadioBearerSetup-v780ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable					OPTIONAL
}

RadioBearerSetup-v7d0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		ul-EDCH-Information				UL-EDCH-Information-ext				OPTIONAL
}

RadioBearerSetup-v7f0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	mimoParameters						MIMO-Parameters-v7f0ext				OPTIONAL
}

RadioBearerSetup-v7g0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	mimoParameters						MIMO-Parameters-v7g0ext				OPTIONAL
}

RadioBearerSetup-r8-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		sr-vcc-Info						SR-VCC-Info							OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList-r8			OPTIONAL,
		rab-InformationSetupList		RAB-InformationSetupList-r8			OPTIONAL,
		rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReconfigList		RB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r7		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r8					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r8				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r8			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD				OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

RadioBearerSetup-v820ext-IEs ::= SEQUENCE {
	-- Radio bearer IEs
		rab-InformationSetupList		RAB-InformationSetupList-v820ext	OPTIONAL
}

RadioBearerSetup-v890ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-SecondaryCellInfoFDD-v890ext		DL-SecondaryCellInfoFDD-v890ext		OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext		OPTIONAL
}

RadioBearerSetup-v8a0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext2		OPTIONAL
}

RadioBearerSetup-r9-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		sr-vcc-Info						SR-VCC-Info							OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList-r8			OPTIONAL,
		rab-InformationSetupList		RAB-InformationSetupList-r8			OPTIONAL,
		rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReconfigList		RB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r9				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r9			OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerSetup-v950ext-IEs::= SEQUENCE {
	-- Physical channel IEs
		secondaryCellMimoParameters		SecondaryCellMIMOparametersFDD-v950ext		OPTIONAL
}

RadioBearerSetup-v9c0ext-IEs::= SEQUENCE {
	-- For 1.28Mcps TDD only
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-TDD128-v9c0ext			OPTIONAL
}

RadioBearerSetup-r10-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		sr-vcc-Info						SR-VCC-Info							OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList-r8			OPTIONAL,
		rab-InformationSetupList		RAB-InformationSetupList-r8			OPTIONAL,
		rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReconfigList		RB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r9				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r10			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r10			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD		OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerSetup-vb50ext-IEs ::= SEQUENCE {
		ulOLTDInfoFDD						UL-OLTD-InfoFDD			OPTIONAL
}

RadioBearerSetup-r11-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		sr-vcc-Info						SR-VCC-Info							OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList-r11		OPTIONAL,
		rab-InformationSetupList		RAB-InformationSetupList-r11		OPTIONAL,
		rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReconfigList		RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r11		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD						OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r11			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r11			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r11			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD					OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerSetup-r12-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		sr-vcc-Info						SR-VCC-Info							OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		accessGroupIdentity				AccessGroupIdentity					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList-r11		OPTIONAL,
		rab-InformationSetupList		RAB-InformationSetupList-r11		OPTIONAL,
		rab-InformationReconfigList		RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReconfigList		RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList		RB-InformationAffectedList-r8		OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6		OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7		OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r11		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters					OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD			OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11					OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r12			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r12		OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD					OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
		non-rectResAllocInd-TDD128		Non-rectResAllocInd-TDD128			OPTIONAL,
		non-rectResSpecTSset-TDD128		Non-rectResSpecTSset-TDD128			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerSetup-r13-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7					OPTIONAL,
		sr-vcc-Info					SR-VCC-Info							OPTIONAL,
		activationTime					ActivationTime							OPTIONAL,
		dynamicActivationTime			DynamicActivationTime					OPTIONAL,
		new-U-RNTI						U-RNTI									OPTIONAL,
		new-C-RNTI						C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI									OPTIONAL,
		newPrimary-E-RNTI				E-RNTI									OPTIONAL,
		newSecondary-E-RNTI			E-RNTI									OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		accessGroupIdentity			AccessGroupIdentity					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6					OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList-r11			OPTIONAL,
		rab-InformationSetupList		RAB-InformationSetupList-r11			OPTIONAL,
		rab-InformationReconfigList	RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReconfigList	RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList	RB-InformationAffectedList-r8			OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5		OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList	UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-r13		OPTIONAL, 
	-- Retrievable configuration
		retrievableConfigInfo			RetrievableConfigInfo					OPTIONAL, 
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo							OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9						OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters						OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD				OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r13			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128	OPTIONAL,
		ul-CLTD-InfoFDD				UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD				UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13			OPTIONAL,
		dl-SecondaryCellInfoFDD		DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2	OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD						OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8				OPTIONAL,
		mu-MIMO-Info-TDD128			MU-MIMO-Info-TDD128					OPTIONAL,
		non-rectResAllocInd-TDD128	Non-rectResAllocInd-TDD128			OPTIONAL,
		non-rectResSpecTSset-TDD128	Non-rectResSpecTSset-TDD128			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

RadioBearerSetup-LaterCriticalExtensions-r15-IEs ::= SEQUENCE {
  r15				                     SEQUENCE {
											 radioBearerSetup-r15		RadioBearerSetup-r15-IEs,
											 -- Container for adding non critical extensions
											 -- after freezing REL-16
											radioBearerSetup-r15-add-ext	BIT STRING	OPTIONAL,
											nonCriticalExtensions	SEQUENCE {}		OPTIONAL
											},
											criticalExtensions		SEQUENCE {}
}

RadioBearerSetup-r15-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7					OPTIONAL,
		sr-vcc-Info					SR-VCC-Info							OPTIONAL,
		activationTime					ActivationTime							OPTIONAL,
		dynamicActivationTime			DynamicActivationTime					OPTIONAL,
		new-U-RNTI						U-RNTI									OPTIONAL,
		new-C-RNTI						C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI									OPTIONAL,
		newPrimary-E-RNTI				E-RNTI									OPTIONAL,
		newSecondary-E-RNTI			E-RNTI									OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
		accessGroupIdentity			AccessGroupIdentity					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6					OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList-r11			OPTIONAL,
		rab-InformationSetupList		RAB-InformationSetupList-r11			OPTIONAL,
		rab-InformationReconfigList	RAB-InformationReconfigList-r8		OPTIONAL,
		rb-InformationReconfigList	RB-InformationReconfigList-r11		OPTIONAL,
		rb-InformationAffectedList	RB-InformationAffectedList-r8			OPTIONAL,
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5		OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12				OPTIONAL,
		ul-deletedTransChInfoList		UL-DeletedTransChInfoList-r6			OPTIONAL,
		ul-AddReconfTransChInfoList	UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-DeletedTransChInfoList		DL-DeletedTransChInfoList-r7			OPTIONAL,
		dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-r13		OPTIONAL, 
	-- Retrievable configuration
		retrievableConfigInfo			RetrievableConfigInfo					OPTIONAL, 
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo							OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9						OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters						OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD				OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r13			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128	OPTIONAL,
		ul-CLTD-InfoFDD				UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD				UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13			OPTIONAL,
		dl-SecondaryCellInfoFDD		DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2	OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD						OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8				OPTIONAL,
		mu-MIMO-Info-TDD128			MU-MIMO-Info-TDD128					OPTIONAL,
		non-rectResAllocInd-TDD128	Non-rectResAllocInd-TDD128			OPTIONAL,
		non-rectResSpecTSset-TDD128	Non-rectResSpecTSset-TDD128			OPTIONAL,
		simplified-HS-SCCH-type1-operation	ENUMERATED { true }	        OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

-- ***************************************************
--
-- RADIO BEARER SETUP COMPLETE
--
-- ***************************************************

RadioBearerSetupComplete ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		ul-IntegProtActivationInfo		IntegrityProtActivationInfo			OPTIONAL,
		-- TABULAR: UL-TimingAdvance is applicable for TDD mode only.
		ul-TimingAdvance				UL-TimingAdvance					OPTIONAL,
		start-Value				START-Value									OPTIONAL,
	-- Radio bearer IEs
		count-C-ActivationTime			ActivationTime						OPTIONAL,
		-- dummy is not used in this version of the specification and
		-- it should be ignored by the receiver.
		dummy							RB-ActivationTimeInfoList			OPTIONAL,
		ul-CounterSynchronisationInfo	UL-CounterSynchronisationInfo		OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			radioBearerSetupComplete-r3-add-ext		BIT STRING		OPTIONAL,
			v770NonCriticalExtensions		SEQUENCE {
				radioBearerSetupComplete-v770ext
												RadioBearerSetupComplete-v770ext-IEs,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

RadioBearerSetupComplete-v770ext-IEs ::= SEQUENCE {
		-- TABULAR: EXT-UL-TimingAdvance is applicable for TDD mode only.
		ext-UL-TimingAdvance					EXT-UL-TimingAdvance	OPTIONAL,
		deferredMeasurementControlReading		ENUMERATED { true }		OPTIONAL
}

-- ***************************************************
--
-- RADIO BEARER SETUP FAILURE
--
-- ***************************************************

RadioBearerSetupFailure ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		failureCause					FailureCauseWithProtErr,
	-- Radio bearer IEs
		potentiallySuccesfulBearerList	RB-IdentityList						OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			radioBearerSetupFailure-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- RRC CONNECTION REJECT
--
-- ***************************************************

RRCConnectionReject ::= CHOICE {
	r3								SEQUENCE {
		rrcConnectionReject-r3			RRCConnectionReject-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			rrcConnectionReject-r3-add-ext		BIT STRING		OPTIONAL,
			v690NonCriticalExtensions			SEQUENCE {
				rrcConnectionReject-v690ext		RRCConnectionReject-v690ext-IEs,
				v6f0NonCriticalExtensions		SEQUENCE {
					rrcConnectionReject-v6f0ext		RRCConnectionReject-v6f0ext-IEs,
					v860NonCriticalExtensions		SEQUENCE {
						rrcConnectionReject-v860ext		RRCConnectionReject-v860ext-IEs,
						va40NonCriticalExtensions		SEQUENCE {
							rrcConnectionReject-va40ext		RRCConnectionReject-va40ext-IEs,
							vb50NonCriticalExtensions		SEQUENCE {
								rrcConnectionReject-vb50ext		RRCConnectionReject-vb50ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		initialUE-Identity				InitialUE-Identity,
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

RRCConnectionReject-r3-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
	-- User equipment IEs
		initialUE-Identity				InitialUE-Identity,
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		rejectionCause					RejectionCause,
		waitTime						WaitTime,
		redirectionInfo					RedirectionInfo					OPTIONAL
}

RRCConnectionReject-v690ext-IEs ::= SEQUENCE {
	redirectionInfo-v690ext				GSM-TargetCellInfoList			OPTIONAL
}

RRCConnectionReject-v6f0ext-IEs ::= SEQUENCE {
	countingCompletion					ENUMERATED { true }				OPTIONAL
}

RRCConnectionReject-v860ext-IEs ::= SEQUENCE {
	redirectionInfo					RedirectionInfo-v860ext				OPTIONAL
}

RRCConnectionReject-va40ext-IEs ::= SEQUENCE {
	extendedWaitTime 				ExtendedWaitTime					OPTIONAL
}

RRCConnectionReject-vb50ext-IEs ::= SEQUENCE {
	eutra-TargetFreqInfoList	EUTRA-TargetFreqInfoList-vb50ext		OPTIONAL
}

-- ***************************************************
--
-- RRC CONNECTION RELEASE
--
-- ***************************************************

RRCConnectionRelease ::= CHOICE {
	r3								SEQUENCE {
		rrcConnectionRelease-r3			RRCConnectionRelease-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			rrcConnectionRelease-r3-add-ext		BIT STRING		OPTIONAL,
			v690NonCriticalExtensions			SEQUENCE { 
				rrcConnectionRelease-v690ext		RRCConnectionRelease-v690ext-IEs,
				v770NonCriticalExtensions			SEQUENCE {
					rrcConnectionRelease-v770ext		RRCConnectionRelease-v770ext-IEs,
					v860NonCriticalExtensions			SEQUENCE {
						rrcConnectionRelease-v860ext		RRCConnectionRelease-v860ext-IEs,
						va40NonCriticalExtensions			SEQUENCE {
							rrcConnectionRelease-va40ext		RRCConnectionRelease-va40ext-IEs,
							nonCriticalExtensions				SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				rrcConnectionRelease-r4			RRCConnectionRelease-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-6
					rrcConnectionRelease-r4-add-ext		BIT STRING		OPTIONAL,
					v690NonCriticalExtensions			SEQUENCE {
						rrcConnectionRelease-v690ext		RRCConnectionRelease-v690ext-IEs,
						v770NonCriticalExtensions			SEQUENCE {
							rrcConnectionRelease-v770ext		RRCConnectionRelease-v770ext-IEs,
							v860NonCriticalExtensions			SEQUENCE {
								rrcConnectionRelease-v860ext	RRCConnectionRelease-v860ext-IEs,
								va40NonCriticalExtensions			SEQUENCE {
									rrcConnectionRelease-va40ext		
																RRCConnectionRelease-va40ext-IEs,
									vb50NonCriticalExtensions			SEQUENCE {
										rrcConnectionRelease-vb50ext		
																RRCConnectionRelease-vb50ext-IEs,
										nonCriticalExtensions			SEQUENCE {}		OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				SEQUENCE {}
		}
	}
}

RRCConnectionRelease-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		-- n-308 is conditional on the UE state
		n-308							N-308								OPTIONAL,
		releaseCause					ReleaseCause,
		rplmn-information				Rplmn-Information					OPTIONAL
}

RRCConnectionRelease-r4-IEs ::= SEQUENCE {
	-- User equipment IEs
		-- n-308 is conditional on the UE state.
		n-308							N-308								OPTIONAL,
		releaseCause					ReleaseCause,
		rplmn-information				Rplmn-Information-r4				OPTIONAL
}

RRCConnectionRelease-v690ext-IEs ::= SEQUENCE {
		redirectionInfo-v690ext			RedirectionInfo-r6					OPTIONAL
}

RRCConnectionRelease-v770ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL
}

RRCConnectionRelease-v860ext-IEs ::= SEQUENCE {
	-- Other IEs
		redirectionInfo					RedirectionInfo-v860ext				OPTIONAL
}

RRCConnectionRelease-va40ext-IEs ::= SEQUENCE {
	extendedWaitTime 				ExtendedWaitTime					OPTIONAL
}

RRCConnectionRelease-vb50ext-IEs ::= SEQUENCE {
	-- Other IEs
		eutra-TargetFreqInfoList	EUTRA-TargetFreqInfoList-vb50ext	OPTIONAL
}

-- ***************************************************
--
-- RRC CONNECTION RELEASE for CCCH
--
-- ***************************************************

RRCConnectionRelease-CCCH ::= CHOICE {
	r3								SEQUENCE {
		rrcConnectionRelease-CCCH-r3	RRCConnectionRelease-CCCH-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			rrcConnectionRelease-CCCH-r3-add-ext		BIT STRING		OPTIONAL,
			v690NonCriticalExtensions		SEQUENCE { 
				rrcConnectionRelease-v690ext	RRCConnectionRelease-CCCH-v690ext-IEs,
				v860NonCriticalExtensions		SEQUENCE {
					rrcConnectionRelease-v860ext	RRCConnectionRelease-CCCH-v860ext-IEs,
					va40NonCriticalExtensions			SEQUENCE {
						rrcConnectionRelease-va40ext		RRCConnectionRelease-va40ext-IEs,
						nonCriticalExtensions				SEQUENCE {}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		u-RNTI							U-RNTI,
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				rrcConnectionRelease-CCCH-r4	RRCConnectionRelease-CCCH-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					rrcConnectionRelease-CCCH-r4-add-ext		BIT STRING		OPTIONAL,
					v690NonCriticalExtensions		SEQUENCE { 
						rrcConnectionRelease-v690ext	RRCConnectionRelease-CCCH-v690ext-IEs,
						v860NonCriticalExtensions		SEQUENCE {
							rrcConnectionRelease-v860ext	RRCConnectionRelease-CCCH-v860ext-IEs,
							va40NonCriticalExtensions			SEQUENCE {
								rrcConnectionRelease-va40ext		
																RRCConnectionRelease-va40ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				SEQUENCE {
				-- TABULAR: CHOICE IdentityType (U-RNTI, GroupIdentity) is replaced with the 
				-- optional element groupIdentity, since the U-RNTI is mandatory in ASN.1.
				-- In case CHOICE IdentityType is equal to GroupIdentity the value of the U-RNTI 
				-- shall be ignored by a UE complying with this version of the message.
				groupIdentity		SEQUENCE ( SIZE (1 .. maxURNTI-Group) ) OF
											GroupReleaseInformation		OPTIONAL,
				criticalExtensions				CHOICE {
					r5								SEQUENCE {
						rrcConnectionRelease-CCCH-r5	RRCConnectionRelease-CCCH-r5-IEs,
						-- Container for adding non critical extensions after freezing REL-6
						rrcConnectionRelease-CCCH-r5-add-ext		BIT STRING		OPTIONAL,
						v690NonCriticalExtensions		SEQUENCE { 
							rrcConnectionRelease-v690ext	RRCConnectionRelease-CCCH-v690ext-IEs,
							v860NonCriticalExtensions		SEQUENCE {
								rrcConnectionRelease-v860ext
															RRCConnectionRelease-CCCH-v860ext-IEs,
								va40NonCriticalExtensions			SEQUENCE {
									rrcConnectionRelease-va40ext		
																RRCConnectionRelease-va40ext-IEs, 
									vd20NonCriticalExtensions			SEQUENCE {
										rrcConnectionRelease-vd20ext		
															RRCConnectionRelease-CCCH-vd20ext-IEs,
										nonCriticalExtensions		SEQUENCE {}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				SEQUENCE {}
				}
			}
		}
	}
}

RRCConnectionRelease-CCCH-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		u-RNTI							U-RNTI,
	-- The rest of the message is identical to the one sent on DCCH.
		rrcConnectionRelease			RRCConnectionRelease-r3-IEs
}

RRCConnectionRelease-CCCH-r4-IEs ::= SEQUENCE {
	-- The rest of the message is identical to the one sent on DCCH.
		rrcConnectionRelease			RRCConnectionRelease-r4-IEs
}

-- The R5 and R4 sequence of IEs are identical in this message
RRCConnectionRelease-CCCH-r5-IEs ::= RRCConnectionRelease-CCCH-r4-IEs

-- The R6 non-critical extension is identical to the one sent on DCCH.
RRCConnectionRelease-CCCH-v690ext-IEs ::= RRCConnectionRelease-v690ext-IEs

-- The R8 non-critical extension is identical to the one sent on DCCH.
RRCConnectionRelease-CCCH-v860ext-IEs ::= RRCConnectionRelease-v860ext-IEs

-- The R10 non-critical extension is identical to the one sent on DCCH.
RRCConnectionRelease-CCCH-va40ext-IEs ::= RRCConnectionRelease-va40ext-IEs

-- The R11 non-critical extension is identical to the one sent on DCCH.
RRCConnectionRelease-CCCH-vd20ext-IEs ::= RRCConnectionRelease-vb50ext-IEs

-- ***************************************************
--
-- RRC CONNECTION RELEASE COMPLETE
--
-- ***************************************************

RRCConnectionReleaseComplete ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		errorIndication					FailureCauseWithProtErr				OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			rrcConnectionReleaseComplete-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- RRC CONNECTION REQUEST
--
-- ***************************************************

RRCConnectionRequest ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
	-- User equipment IEs
		initialUE-Identity				InitialUE-Identity,
		establishmentCause				EstablishmentCause,
		-- protocolErrorIndicator is MD, but for compactness reasons no default value
		-- has been assigned to it.
		protocolErrorIndicator			ProtocolErrorIndicator,
	-- Measurement IEs
		measuredResultsOnRACH			MeasuredResultsOnRACH				OPTIONAL,
	--	Non critical Extensions
		v3d0NonCriticalExtensions			SEQUENCE {
			rRCConnectionRequest-v3d0ext 	RRCConnectionRequest-v3d0ext-IEs,
		-- Reserved for future non critical extension
			v4b0NonCriticalExtensions			SEQUENCE {
				rrcConnectionRequest-v4b0ext		RRCConnectionRequest-v4b0ext-IEs,
				v590NonCriticalExtensions			SEQUENCE {
					rrcConnectionRequest-v590ext		RRCConnectionRequest-v590ext-IEs,
					v690NonCriticalExtensions			SEQUENCE {
						rrcConnectionRequest-v690ext	RRCConnectionRequest-v690ext-IEs,
						-- Reserved for future non critical extension
						v6b0NonCriticalExtensions		SEQUENCE {
							rrcConnectionRequest-v6b0ext	RRCConnectionRequest-v6b0ext-IEs,
							v6e0NonCriticalExtensions		SEQUENCE {
								rrcConnectionRequest-v6e0ext	RRCConnectionRequest-v6e0ext-IEs,
								v770NonCriticalExtensions		SEQUENCE {
									rrcConnectionRequest-v770ext
																RRCConnectionRequest-v770ext-IEs,
									v7b0NonCriticalExtensions		SEQUENCE {
										rrcConnectionRequest-v7b0ext
																RRCConnectionRequest-v7b0ext-IEs,
										v860NonCriticalExtensions		SEQUENCE {
											rrcConnectionRequest-v860ext
																RRCConnectionRequest-v860ext-IEs,
											v7e0NonCriticalExtensions		SEQUENCE {
												rrcConnectionRequest-v7e0ext
																RRCConnectionRequest-v7e0ext-IEs,
												v7g0NonCriticalExtensions		SEQUENCE {
													rrcConnectionRequest-v7g0ext
																RRCConnectionRequest-v7g0ext-IEs,
													v920NonCriticalExtensions		SEQUENCE {
														rrcConnectionRequest-v920ext
																RRCConnectionRequest-v920ext-IEs,
														v940NonCriticalExtensions	SEQUENCE {
															rrcConnectionRequest-v940ext
																RRCConnectionRequest-v940ext-IEs,
															va40NonCriticalExtensions
																RRCConnectionRequest-NonCriticalExts-va40-IEs		
																								OPTIONAL
															}	OPTIONAL
													}	OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		} 	OPTIONAL
}

RRCConnectionRequest-v3d0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		uESpecificBehaviourInformation1idle		UESpecificBehaviourInformation1idle		OPTIONAL
}

RRCConnectionRequest-v4b0ext-IEs ::= 	SEQUENCE {
	-- User equipment IEs
		accessStratumReleaseIndicator			AccessStratumReleaseIndicator
}

RRCConnectionRequest-v590ext-IEs ::= 	SEQUENCE {
	-- User equipment IEs
		predefinedConfigStatusInfo			BOOLEAN
}

RRCConnectionRequest-v690ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		ueCapabilityIndication				ENUMERATED { hsdch, hsdch-edch }	OPTIONAL,
	-- Measurement IEs
		measuredResultsOnRACHinterFreq		MeasuredResultsOnRACHinterFreq			OPTIONAL,
		domainIndicator 					CHOICE {
			cs-domain							SEQUENCE {
				csCallType							ENUMERATED {speech, video, other, spare }
			},
			ps-domain 							NULL
		}
}

RRCConnectionRequest-v6b0ext-IEs ::=	SEQUENCE {
	-- MBMS IEs
		mbmsSelectedServices				MBMS-SelectedServicesShort			OPTIONAL
}

RRCConnectionRequest-v6e0ext-IEs ::= 	SEQUENCE {
	-- User equipment IEs
		supportForFDPCH						ENUMERATED { true }			OPTIONAL
}

RRCConnectionRequest-v770ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		ueMobilityStateIndicator			High-MobilityDetected				OPTIONAL,
		hspdschReception-CellFach			ENUMERATED { true }					OPTIONAL,
		mac-ehsSupport						ENUMERATED { true }					OPTIONAL,
		discontinuousDpcchTransmission		ENUMERATED { true }					OPTIONAL
}

RRCConnectionRequest-v7b0ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		supportForE-FDPCH					ENUMERATED { true }					OPTIONAL
}

RRCConnectionRequest-v7e0ext-IEs ::=	SEQUENCE {
		supportForCSVoiceoverHSPA			ENUMERATED { true }					OPTIONAL
}

RRCConnectionRequest-v7g0ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
		measuredResultsOnRACH-v7g0ext		MeasuredResultsOnRACH-v7g0ext		OPTIONAL
}

RRCConnectionRequest-v860ext-IEs ::= 	SEQUENCE {
	-- User equipment IEs
		supportOfCommonEDCH					ENUMERATED { true }					OPTIONAL,
		multiCellSupport					ENUMERATED { true }					OPTIONAL,
		pre-redirectionInfo					Pre-RedirectionInfo					OPTIONAL,
		supportOfMACiis						ENUMERATED { true }					OPTIONAL,
		supportOfSPSOperation				ENUMERATED { true }					OPTIONAL
}

RRCConnectionRequest-v920ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		supportOfDualCellMIMO				ENUMERATED { true }					OPTIONAL
}

RRCConnectionRequest-v940ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		systemInformationContainerStoredIndicator	ENUMERATED { true }			OPTIONAL
}

RRCConnectionRequest-v9b0ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		cSFBIndication						ENUMERATED { true }					OPTIONAL
}

RRCConnectionRequest-NonCriticalExts-va40-IEs ::=	SEQUENCE {
	rrcConnectionRequest-va40ext		RRCConnectionRequest-va40ext-IEs,
	v9b0NonCriticalExtensions			SEQUENCE	{
		rrcConnectionRequest-v9b0ext		RRCConnectionRequest-v9b0ext-IEs,
		vb50NonCriticalExtensions		SEQUENCE {
			rrcConnectionRequest-vb50ext						RRCConnectionRequest-vb50ext-IEs,
			vc50NonCriticalExtensions		SEQUENCE {
				rrcConnectionRequest-vc50ext					RRCConnectionRequest-vc50ext-IEs,
				nonCriticalExtensions				SEQUENCE {} OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	}	OPTIONAL
}

RRCConnectionRequest-va40ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		-- For 1.28 Mcps TDD, IE ”supportOfMoreThanTwoCellsOrMIMO4x4” represent MU-MIMO capability,
		-- higherRate indicates uplink and downlink MU-MIMO, lowerRate indicates uplink MU-MIMO
		supportOfMoreThanTwoCellsOrMIMO4x4	ENUMERATED { higherRate, lowerRate }		OPTIONAL,
		supportOf1stFrequencyBand			ENUMERATED { true }							OPTIONAL,
		supportOf2ndFrequencyBand			ENUMERATED { true }							OPTIONAL
}

RRCConnectionRequest-vb50ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
	measuredResultsOnRACHEUTRAFreq		MeasuredResultsOnRACH-EUTRAFreq		OPTIONAL
}

RRCConnectionRequest-vc50ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
		measuredResultsOnRACH			MeasuredResultsOnRACH-vc50ext		OPTIONAL
}
-- ***************************************************
--
-- RRC CONNECTION SETUP
--
-- ***************************************************

RRCConnectionSetup ::= CHOICE {
	r3								SEQUENCE {
		rrcConnectionSetup-r3			RRCConnectionSetup-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			rrcConnectionSetup-r3-add-ext	BIT STRING		OPTIONAL,
			v4b0NonCriticalExtensions		SEQUENCE { 
				rrcConnectionSetup-v4b0ext		RRCConnectionSetup-v4b0ext-IEs,
				v590NonCriticalExtensions		SEQUENCE { 
					rrcConnectionSetup-v590ext		RRCConnectionSetup-v590ext-IEs,
					v690NonCriticalExtensions		SEQUENCE {
						rrcConnectionSetup-v690ext		RRCConnectionSetup-v690ext-IEs,
						nonCriticalExtensions			SEQUENCE {}		OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		initialUE-Identity				InitialUE-Identity,
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				rrcConnectionSetup-r4			RRCConnectionSetup-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					rrcConnectionSetup-r4-add-ext	BIT STRING		OPTIONAL,
					v590NonCriticalExtensions		SEQUENCE { 
						rrcConnectionSetup-v590ext		RRCConnectionSetup-v590ext-IEs,
						v690NonCriticalExtensions		SEQUENCE {
							rrcConnectionSetup-v690ext		RRCConnectionSetup-v690ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions					CHOICE {
				r5								SEQUENCE {
					rrcConnectionSetup-r5			RRCConnectionSetup-r5-IEs,
					-- Container for adding non critical extensions after freezing REL-6
					rrcConnectionSetup-r5-add-ext	BIT STRING		OPTIONAL,
					v690NonCriticalExtensions		SEQUENCE {
						rrcConnectionSetup-v690ext		RRCConnectionSetup-v690ext-IEs,
						nonCriticalExtensions			SEQUENCE {}		OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r6								SEQUENCE {
						rrcConnectionSetup-r6			RRCConnectionSetup-r6-IEs,
						-- Container for adding non critical extensions after freezing REL-7
						rrcConnectionSetup-r6-add-ext	BIT STRING					OPTIONAL,
						v6b0NonCriticalExtensions		SEQUENCE {
							rrcConnectionSetup-v6b0ext		RRCConnectionSetup-v6b0ext-IEs,
							nonCriticalExtensions			SEQUENCE {}				OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r7								SEQUENCE {
							rrcConnectionSetup-r7			RRCConnectionSetup-r7-IEs,
							-- Container for adding non critical extensions after freezing REL-8
							rrcConnectionSetup-r7-add-ext	BIT STRING					OPTIONAL,
							v780NonCriticalExtensions		SEQUENCE {
								rrcConnectionSetup-v780ext		RRCConnectionSetup-v780ext-IEs,
								v7d0NonCriticalExtensions		SEQUENCE {
									rrcConnectionSetup-v7d0ext		RRCConnectionSetup-v7d0ext-IEs,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r8								SEQUENCE {
								rrcConnectionSetup-r8			RRCConnectionSetup-r8-IEs,
								-- Container for adding non critical extensions after freezing REL-9
								rrcConnectionSetup-r8-add-ext	BIT STRING				OPTIONAL,
								v7d0NonCriticalExtensions		SEQUENCE {
									rrcConnectionSetup-v7d0ext		RRCConnectionSetup-v7d0ext-IEs,
									v890NonCriticalExtensions		SEQUENCE {
										rrcConnectionSetup-v890ext
																	RRCConnectionSetup-v890ext-IEs,
										v8a0NonCriticalExtensions		SEQUENCE {
											rrcConnectionSetup-v8a0ext
																	RRCConnectionSetup-v8a0ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r9								SEQUENCE {
									rrcConnectionSetup-r9			RRCConnectionSetup-r9-IEs,
									-- Container for adding non critical extensions after 
									-- freezing REL-10
									rrcConnectionSetup-r9-add-ext
																	BIT STRING		OPTIONAL,
									v950NonCriticalExtensions		SEQUENCE {
										rrcConnectionSetup-v950ext	RRCConnectionSetup-v950ext-IEs,
										nonCriticalExtensions			SEQUENCE {}		OPTIONAL
									}	OPTIONAL
								},
								criticalExtensions				CHOICE {
									r10								SEQUENCE {
										rrcConnectionSetup-r10			RRCConnectionSetup-r10-IEs,
										-- Container for adding non critical extensions after 
										-- freezing REL-11
										rrcConnectionSetup-r10-add-ext
																			BIT STRING	OPTIONAL, 
										vaj0NonCriticalExtensions		SEQUENCE {
											rrcConnectionSetup-vaj0ext	RRCConnectionSetup-vaj0ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										}	OPTIONAL
									},
									criticalExtensions				CHOICE {
										r11								SEQUENCE {
											rrcConnectionSetup-r11			
																		RRCConnectionSetup-r11-IEs,
											-- Container for adding non critical extensions after 
											-- freezing REL-12
											rrcConnectionSetup-r11-add-ext
																			BIT STRING	OPTIONAL, 
											vaj0NonCriticalExtensions		SEQUENCE {
												rrcConnectionSetup-vaj0ext	RRCConnectionSetup-vaj0ext-IEs,
												nonCriticalExtensions			SEQUENCE {}		OPTIONAL
											}	OPTIONAL
										},
										criticalExtensions				CHOICE {
											r12								SEQUENCE {
												rrcConnectionSetup-r12			
																		RRCConnectionSetup-r12-IEs,
												-- Container for adding non critical extensions 
												-- after freezing REL-13
												rrcConnectionSetup-r12-add-ext
																		BIT STRING	OPTIONAL,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											},
											criticalExtensions				SEQUENCE {}
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}

RRCConnectionSetup-r3-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
	-- User equipment IEs
		initialUE-Identity				InitialUE-Identity,
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI,
		new-c-RNTI						C-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient,
		-- TABULAR: If capabilityUpdateRequirement is not present, the default value
		-- defined in 10.3.3.2 shall be used.
		capabilityUpdateRequirement		CapabilityUpdateRequirement			OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList2,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo				OPTIONAL,
		-- NOTE: ul-AddReconfTransChInfoList should be optional in later versions of
		-- this message
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList,
		dl-CommonTransChInfo			DL-CommonTransChInfo				OPTIONAL,
		-- NOTE: dl-AddReconfTransChInfoList should be optional in later versions
		-- of this message
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement				OPTIONAL,
		dl-CommonInformation			DL-CommonInformation				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List			OPTIONAL
}

RRCConnectionSetup-v4b0ext-IEs ::= SEQUENCE {
		capabilityUpdateRequirement-r4-ext	CapabilityUpdateRequirement-r4-ext	OPTIONAL,
	-- Physical channel IEs
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy								SSDT-UL								OPTIONAL,
		-- The order of the RLs in IE cell-id-PerRL-List is the same as
		-- in IE DL-InformationPerRL-List included in this message
		cell-id-PerRL-List					CellIdentity-PerRL-List				OPTIONAL
}

RRCConnectionSetup-v590ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		systemSpecificCapUpdateReq		SystemSpecificCapUpdateReq-v590ext		OPTIONAL,
	-- Physical channel IEs
		dl-TPC-PowerOffsetPerRL-List	DL-TPC-PowerOffsetPerRL-List		OPTIONAL
}

RRCConnectionSetup-r4-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI,
		new-c-RNTI						C-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient,
		-- TABULAR: If capabilityUpdateRequirement is not present, the default value
		-- defined in 10.3.3.2 shall be used.
		capabilityUpdateRequirement		CapabilityUpdateRequirement-r4		OPTIONAL,
	-- Radio bearer IEs
		srb-InformationSetupList		SRB-InformationSetupList2,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r4		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement-r4			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r4				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r4			OPTIONAL
}

RRCConnectionSetup-r5-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI,
		new-c-RNTI						C-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient,
		-- TABULAR: If capabilityUpdateRequirement is not present, the default value
		-- defined in 10.3.3.2 shall be used.
		capabilityUpdateRequirement		CapabilityUpdateRequirement-r5		OPTIONAL,
	-- Specification mode information
		specificationMode				CHOICE {
			complete						SEQUENCE {
				-- Radio bearer IEs
				srb-InformationSetupList		SRB-InformationSetupList2,
				-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r4		OPTIONAL
			},
			preconfiguration				SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r5
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement-r4			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r4				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r5bis		OPTIONAL
}

RRCConnectionSetup-v690ext-IEs ::= SEQUENCE {
	-- Physical Channel IEs
		beaconPLEst						BEACON-PL-Est						OPTIONAL,
		postVerificationPeriod			ENUMERATED { true }					OPTIONAL
}

RRCConnectionSetup-r6-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI,
		new-c-RNTI						C-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient,
		-- TABULAR: If capabilityUpdateRequirement is not present, the default value
		-- defined in 10.3.3.2 shall be used.
		capabilityUpdateRequirement		CapabilityUpdateRequirement-r5		OPTIONAL,
	-- Specification mode information
		specificationMode				CHOICE {
			complete						SEQUENCE {
				-- Radio bearer IEs
				srb-InformationSetupList		SRB-InformationSetupList2-r6,
				-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r6		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r5		OPTIONAL
			},
			preconfiguration				SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r6						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r6				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r6			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r6				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r6			OPTIONAL
}

RRCConnectionSetup-v6b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-InformationPerRL-List-v6b0ext	DL-InformationPerRL-List-v6b0ext	OPTIONAL
}

RRCConnectionSetup-r7-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI,
		new-c-RNTI						C-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7,
		-- TABULAR: If capabilityUpdateRequirement is not present, the default value
		-- defined in 10.3.3.2 shall be used.
		capabilityUpdateRequirement		CapabilityUpdateRequirement-r7		OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN,
	-- Specification mode information
		specificationMode				CHOICE {
			complete						SEQUENCE {
				-- Radio bearer IEs
				srb-InformationSetupList		SRB-InformationSetupList2-r7,
				-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r7		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r7		OPTIONAL
			},
			preconfiguration				SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r7				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r7			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r7				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r7			OPTIONAL
}

RRCConnectionSetup-v780ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable					OPTIONAL
}

RRCConnectionSetup-v7d0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		ul-EDCH-Information				UL-EDCH-Information-ext				OPTIONAL
}

RRCConnectionSetup-r8-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI,
		new-c-RNTI						C-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7,
		-- TABULAR: If capabilityUpdateRequirement is not present, the default value
		-- defined in 10.3.3.2 shall be used.
		capabilityUpdateRequirement		CapabilityUpdateRequirement-r8		OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy							DefaultConfigForCellFACH			OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
				-- Radio bearer IEs
				srb-InformationSetupList		SRB-InformationSetupList2-r8,
				-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r7		OPTIONAL
			},
			preconfiguration				SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r8				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r8			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD				OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL
}

RRCConnectionSetup-v890ext-IEs ::=	SEQUENCE {
	-- Physical channel IEs
		dl-SecondaryCellInfoFDD-v890ext		DL-SecondaryCellInfoFDD-v890ext		OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext		OPTIONAL
}

RRCConnectionSetup-v8a0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext2		OPTIONAL
}

RRCConnectionSetup-r9-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI,
		new-c-RNTI						C-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7,
		-- TABULAR: If capabilityUpdateRequirement is not present, the default value
		-- defined in 10.3.3.2 shall be used.
		capabilityUpdateRequirement		CapabilityUpdateRequirement-r8		OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received UE behaviour is unspecified.
		dummy		DefaultConfigForCellFACH			OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
				-- Radio bearer IEs
				srb-InformationSetupList		SRB-InformationSetupList2-r8,
				-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9		OPTIONAL
			},
			preconfiguration				SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r9				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r9			OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL
}

RRCConnectionSetup-v950ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		secondaryCellMimoParameters		SecondaryCellMIMOparametersFDD-v950ext		OPTIONAL
}

RRCConnectionSetup-r10-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI,
		new-c-RNTI						C-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7,
		-- TABULAR: If capabilityUpdateRequirement is not present, the default value
		-- defined in 10.3.3.2 shall be used.
		capabilityUpdateRequirement		CapabilityUpdateRequirement-r8		OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received UE behaviour is unspecified.
		dummy		DefaultConfigForCellFACH			OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
				-- Radio bearer IEs
				srb-InformationSetupList		SRB-InformationSetupList2-r8,
				-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9		OPTIONAL
			},
			preconfiguration				SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r9				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r10			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r10			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL
}

RRCConnectionSetup-vaj0ext-IEs ::= SEQUENCE {
	capabilityUpdateRequirement		CapabilityUpdateRequirement-vaj0ext		OPTIONAL
}

RRCConnectionSetup-r11-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI,
		new-c-RNTI						C-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7,
		-- TABULAR: If capabilityUpdateRequirement is not present, the default value
		-- defined in 10.3.3.2 shall be used.
		capabilityUpdateRequirement		CapabilityUpdateRequirement-r8		OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN,
	-- Specification mode information
		defaultConfigForCellFACH		DefaultConfigForCellFACH			OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
				-- Radio bearer IEs
				srb-InformationSetupList		SRB-InformationSetupList2-r8,
				-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r11		OPTIONAL
			},
			preconfiguration				SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r11			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r10			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD					OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL
}

RRCConnectionSetup-r12-IEs ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
		activationTime					ActivationTime								OPTIONAL,
		new-U-RNTI						U-RNTI,
		new-c-RNTI						C-RNTI										OPTIONAL,
		new-H-RNTI						H-RNTI										OPTIONAL,
		newPrimary-E-RNTI				E-RNTI										OPTIONAL,
		newSecondary-E-RNTI				E-RNTI										OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7,
		-- TABULAR: If capabilityUpdateRequirement is not present, the default value
		-- defined in 10.3.3.2 shall be used.
		capabilityUpdateRequirement		CapabilityUpdateRequirement-r12				OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN,
	-- Specification mode information
		defaultConfigForCellFACH		DefaultConfigForCellFACH					OPTIONAL,
		specificationMode				CHOICE {
			complete						SEQUENCE {
				-- Radio bearer IEs
				srb-InformationSetupList		SRB-InformationSetupList2-r8,
				-- Transport channel IEs
				ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
				ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
				dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
				dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r11		OPTIONAL
			},
			preconfiguration				SEQUENCE {
				-- All IEs that include an FDD/TDD choice are split in two IEs for this message,
				-- one for the FDD only elements and one for the TDD only elements, so that one
				-- FDD/TDD choice in this level is sufficient.
				preConfigMode					CHOICE {
					predefinedConfigIdentity		PredefinedConfigIdentity,
					defaultConfig					SEQUENCE {
						defaultConfigMode				DefaultConfigMode,
						defaultConfigIdentity 			DefaultConfigIdentity-r6
					}
				}
			}
		},
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo								OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7					OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7						OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12								OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7							OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power						OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11							OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11						OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r12					OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r10					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8					OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11					OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11			OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD							OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8					OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128							OPTIONAL,
		non-rectResAllocInd-TDD128		Non-rectResAllocInd-TDD128					OPTIONAL,
		non-rectResSpecTSset-TDD128		Non-rectResSpecTSset-TDD128					OPTIONAL
}

-- ***************************************************
--
-- RRC CONNECTION SETUP COMPLETE
--
-- ***************************************************

RRCConnectionSetupComplete ::= SEQUENCE {
	-- TABULAR: Integrity protection shall not be performed on this message.
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		startList						STARTList,
		ue-RadioAccessCapability		UE-RadioAccessCapability			OPTIONAL,
	--	Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList	OPTIONAL,
	-- Non critical extensions
		v370NonCriticalExtensions			SEQUENCE {
			rrcConnectionSetupComplete-v370ext	RRCConnectionSetupComplete-v370ext,
			v380NonCriticalExtensions			SEQUENCE {
				rrcConnectionSetupComplete-v380ext	RRCConnectionSetupComplete-v380ext-IEs,
				-- Reserved for future non critical extension
				v3a0NonCriticalExtensions			SEQUENCE {
					rrcConnectionSetupComplete-v3a0ext	RRCConnectionSetupComplete-v3a0ext-IEs,
					laterNonCriticalExtensions			SEQUENCE {
						-- Container for additional R99 extensions
						rrcConnectionSetupComplete-r3-add-ext		BIT STRING
								(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
						v3g0NonCriticalExtensions			SEQUENCE {
							rrcConnectionSetupComplete-v3g0ext	RRCConnectionSetupComplete-v3g0ext-IEs,
							v4b0NonCriticalExtensions			SEQUENCE {
								rrcConnectionSetupComplete-v4b0ext
																RRCConnectionSetupComplete-v4b0ext-IEs,
								v590NonCriticalExtensions			SEQUENCE {
									rrcConnectionSetupComplete-v590ext
																RRCConnectionSetupComplete-v590ext-IEs,
									v5c0NonCriticalExtensions			SEQUENCE {
										rrcConnectionSetupComplete-v5c0ext
																RRCConnectionSetupComplete-v5c0ext-IEs,
										v690NonCriticalExtensions			SEQUENCE {
											rrcConnectionSetupComplete-v690ext
																RRCConnectionSetupComplete-v690ext-IEs,
											v770NonCriticalExtensions		SEQUENCE {
												rrcConectionSetupComplete-v770ext
																RRCConnectionSetupComplete-v770ext-IEs,
												va40NonCriticalExtensions		SEQUENCE {
													rrcConectionSetupComplete-va40ext
																RRCConnectionSetupComplete-va40ext-IEs,
													vb50NonCriticalExtensions		SEQUENCE {
														rrcConnectionSetupComplete-vb50ext
																RRCConnectionSetupComplete-vb50ext-IEs,
														nonCriticalExtensions	SEQUENCE {}	OPTIONAL
													}		OPTIONAL
												}		OPTIONAL
											}		OPTIONAL
										}		OPTIONAL
									}		OPTIONAL
								}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

RRCConnectionSetupComplete-v370ext ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v370ext	UE-RadioAccessCapability-v370ext	OPTIONAL
}

RRCConnectionSetupComplete-v380ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v380ext	UE-RadioAccessCapability-v380ext		OPTIONAL,
		dl-PhysChCapabilityFDD-v380ext		DL-PhysChCapabilityFDD-v380ext
}

RRCConnectionSetupComplete-v3a0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v3a0ext	UE-RadioAccessCapability-v3a0ext	OPTIONAL
}

RRCConnectionSetupComplete-v3g0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v3g0ext	UE-RadioAccessCapability-v3g0ext	OPTIONAL
}

RRCConnectionSetupComplete-r3-add-ext-IEs ::= SEQUENCE {
		rrcConnectionSetupComplete-v650ext		RRCConnectionSetupComplete-v650ext-IEs	OPTIONAL,
		v680NonCriticalExtensions				SEQUENCE {
			rrcConnectionSetupComplete-v680ext		RRCConnectionSetupComplete-v680ext-IEs,
			v7e0NonCriticalExtensions				SEQUENCE {
				rrcConnectionSetupComplete-v7e0ext		RRCConnectionSetupComplete-v7e0ext-IEs,
				v7f0NonCriticalExtensions				SEQUENCE {
					rrcConnectionSetupComplete-v7f0ext
														RRCConnectionSetupComplete-v7f0ext-IEs,
					va40NonCriticalExtensions					SEQUENCE {
						rrcConnectionSetupCompleteBand-va40ext
														RRCConnectionSetupCompleteBand-va40ext-IEs,
						nonCriticalExtensions			SEQUENCE {}	OPTIONAL 
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

RRCConnectionSetupComplete-v4b0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v4b0ext		UE-RadioAccessCapability-v4b0ext		OPTIONAL
}

RRCConnectionSetupComplete-v590ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v590ext		UE-RadioAccessCapability-v590ext		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability-v590ext		InterRAT-UE-RadioAccessCapability-v590ext	OPTIONAL
}

RRCConnectionSetupComplete-v5c0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v5c0ext		UE-RadioAccessCapability-v5c0ext		OPTIONAL
}

RRCConnectionSetupComplete-v650ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v650ext		UE-RadioAccessCapability-v650ext
}

RRCConnectionSetupComplete-v680ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v680ext		UE-RadioAccessCapability-v680ext
}

RRCConnectionSetupComplete-v690ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ueCapabilityContainer				BIT STRING
												(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL
}

RRCConnectionSetupComplete-v770ext-IEs ::= SEQUENCE {
	-- Other IEs
		deferredMeasurementControlReading	ENUMERATED { true }						OPTIONAL
}

RRCConnectionSetupComplete-v7e0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability				UE-RadioAccessCapability-v7e0ext
}

RRCConnectionSetupComplete-v7f0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability				UE-RadioAccessCapability-v7f0ext	OPTIONAL
}

RRCConnectionSetupComplete-va40ext-IEs ::= SEQUENCE {
	-- Other IEs
		loggedMeasAvailable							ENUMERATED { true }					OPTIONAL,
		loggedANRResultsAvailable					ENUMERATED { true }					OPTIONAL}

RRCConnectionSetupCompleteBand-va40ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapabBand					UE-RadioAccessCapabBand-va40ext		OPTIONAL
}

RRCConnectionSetupComplete-vb50ext-IEs ::= SEQUENCE {
	-- Other IEs
		connEstFailInfoAvailable			ENUMERATED { true }	OPTIONAL
}

-- ***************************************************
--
-- RRC FAILURE INFO
--
-- ***************************************************

RRC-FailureInfo ::= CHOICE {
	r3											SEQUENCE {
		rRC-FailureInfo-r3							RRC-FailureInfo-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			rrc-FailureInfo-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions						SEQUENCE {}	OPTIONAL
		}	OPTIONAL
	},
	criticalExtensions							SEQUENCE {}
}

RRC-FailureInfo-r3-IEs ::=		SEQUENCE {
	-- Non-RRC IEs
		failureCauseWithProtErr							FailureCauseWithProtErr
}

-- ***************************************************
--
-- RRC STATUS
--
-- ***************************************************

RRCStatus ::= SEQUENCE {
	-- Other IEs
		-- TABULAR: Identification of received message is nested in
		-- ProtocolErrorMoreInformation
		protocolErrorInformation		ProtocolErrorMoreInformation,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			rrcStatus-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- SECURITY MODE COMMAND
--
-- ***************************************************

SecurityModeCommand ::= CHOICE {
	r3								SEQUENCE {
		securityModeCommand-r3			SecurityModeCommand-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			securityModeCommand-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r7								SEQUENCE{
				securityModeCommand-r7			SecurityModeCommand-r7-IEs,
				-- Container for adding non critical extensions after freezing REL-8
				securityModeCommand-r7-add-ext	BIT STRING		OPTIONAL,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			},
			criticalExtensions				SEQUENCE {}
		}
	}
}

SecurityModeCommand-r3-IEs ::= SEQUENCE {
-- TABULAR: Integrity protection shall always be performed on this message.
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		securityCapability				SecurityCapability,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
	-- Core network IEs
		cn-DomainIdentity				CN-DomainIdentity,
	-- Other IEs
		ue-SystemSpecificSecurityCap	InterRAT-UE-SecurityCapList			OPTIONAL
}

SecurityModeCommand-r7-IEs ::= SEQUENCE {
-- TABULAR: Integrity protection shall always be performed on this message.
	-- User equipment IEs
		securityCapability				SecurityCapability,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
	-- Core network IEs
		cn-DomainIdentity				CN-DomainIdentity,
	-- Other IEs
		ue-SystemSpecificSecurityCap	InterRAT-UE-SecurityCapList			OPTIONAL
}

-- ***************************************************
--
-- SECURITY MODE COMPLETE
--
-- ***************************************************

SecurityModeComplete ::= SEQUENCE {
-- TABULAR: Integrity protection shall always be performed on this message.

	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		ul-IntegProtActivationInfo		IntegrityProtActivationInfo			OPTIONAL,
	-- Radio bearer IEs
		rb-UL-CiphActivationTimeInfo	RB-ActivationTimeInfoList			OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			securityModeComplete-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- SECURITY MODE FAILURE
--
-- ***************************************************

SecurityModeFailure ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		failureCause					FailureCauseWithProtErr,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			securityModeFailure-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- SIGNALLING CONNECTION RELEASE
--
-- ***************************************************

SignallingConnectionRelease ::= CHOICE {
	r3								SEQUENCE {
		signallingConnectionRelease-r3	SignallingConnectionRelease-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			signallingConnectionRelease-r3-add-ext		BIT STRING		OPTIONAL,
			va40NonCriticalExtensions			SEQUENCE {
				signallingConnectionRelease-va40ext		SignallingConnectionRelease-va40ext-IEs,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

SignallingConnectionRelease-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
	-- Core network IEs
		cn-DomainIdentity				CN-DomainIdentity
}

SignallingConnectionRelease-va40ext-IEs ::= SEQUENCE {
	extendedWaitTime 				ExtendedWaitTime					OPTIONAL
}

-- ***************************************************
--
-- SIGNALLING CONNECTION RELEASE INDICATION
--
-- ***************************************************

SignallingConnectionReleaseIndication ::= SEQUENCE {
	-- Core network IEs
		cn-DomainIdentity				CN-DomainIdentity,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			signallingConnectionReleaseIndication-r3-add-ext		BIT STRING		OPTIONAL,
			v860nonCriticalExtentions		SEQUENCE {
				signallingConnectionReleaseIndication-v860ext
												SignallingConnectionReleaseIndication-v860ext,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SignallingConnectionReleaseIndication-v860ext ::= SEQUENCE {
		signallingConnectionReleaseIndicationCause
										ENUMERATED { uERequestedPSDataSessionEnd, anyOtherCause }
}

-- ***************************************************
--
-- SYSTEM INFORMATION for BCH
--
-- ***************************************************

SystemInformation-BCH ::= SEQUENCE {
	-- Other information elements
		sfn-Prime						SFN-Prime,
		payload 						CHOICE {
			noSegment						NULL,
			firstSegment					FirstSegment,
			subsequentSegment				SubsequentSegment,
			lastSegmentShort						LastSegmentShort,
			lastAndFirst					SEQUENCE {
				lastSegmentShort				LastSegmentShort,
				firstSegment					FirstSegmentShort
			},
			lastAndComplete					SEQUENCE {
				lastSegmentShort				LastSegmentShort,
				completeSIB-List				CompleteSIB-List
			},
			lastAndCompleteAndFirst			SEQUENCE {
				lastSegmentShort				LastSegmentShort,
				completeSIB-List				CompleteSIB-List,
				firstSegment					FirstSegmentShort
			},
			completeSIB-List				CompleteSIB-List,
			completeAndFirst				SEQUENCE {
				completeSIB-List				CompleteSIB-List,
				firstSegment					FirstSegmentShort
			},
			completeSIB						CompleteSIB,
			lastSegment						LastSegment,
			spare5							NULL,
			spare4							NULL,
			spare3							NULL,
			spare2							NULL,
			spare1							NULL
		}
}

-- ***************************************************
--
-- SYSTEM INFORMATION2 for BCH
--
-- ***************************************************

SystemInformation2-BCH ::= SEQUENCE {
		segmentCombination 				CHOICE {
			combination2					FirstSegment2,
			combination3					SubsequentSegment2,
			combination4					LastSegmentShort2,
			combination5					SEQUENCE {
				lastSegmentShort				LastSegmentShort2,
				firstSegmentShort				FirstSegmentShort2
			},
			combination6					SEQUENCE {
				lastSegmentShort				LastSegmentShort2,
				completeSIB-List				CompleteSIB2-List
			},
			combination7					SEQUENCE {
				lastSegmentShort				LastSegmentShort2,
				completeSIB-List				CompleteSIB2-List,
				firstSegment					FirstSegmentShort2
			},
			combination8					CompleteSIB2-List,
			combination9					SEQUENCE {
				completeSIB-List				CompleteSIB2-List,
				firstSegment					FirstSegmentShort2
			},
			combination10					CompleteSIB2,
			combination11					LastSegment2,
			spare6							NULL,
			spare5							NULL,
			spare4							NULL,
			spare3							NULL,
			spare2							NULL,
			spare1							NULL
		}
}

-- ***************************************************
--
-- SYSTEM INFORMATION for FACH
--
-- ***************************************************

-- this IE is not used in this version of the specification.
SystemInformation-FACH ::= SEQUENCE {
	-- Other information elements
		payload 						CHOICE {
			noSegment						NULL,
			firstSegment					FirstSegment,
			subsequentSegment				SubsequentSegment,
			lastSegmentShort				LastSegmentShort,
			lastAndFirst					SEQUENCE {
				lastSegmentShort				LastSegmentShort,
				firstSegment					FirstSegmentShort
			},
			lastAndComplete					SEQUENCE {
				lastSegmentShort				LastSegmentShort,
				completeSIB-List				CompleteSIB-List
			},
			lastAndCompleteAndFirst			SEQUENCE {
				lastSegmentShort				LastSegmentShort,
				completeSIB-List				CompleteSIB-List,
				firstSegment					FirstSegmentShort
			},
			completeSIB-List				CompleteSIB-List,
			completeAndFirst				SEQUENCE {
				completeSIB-List				CompleteSIB-List,
				firstSegment					FirstSegmentShort
			},
			completeSIB						CompleteSIB,
			lastSegment						LastSegment,
			spare5							NULL,
			spare4							NULL,
			spare3							NULL,
			spare2							NULL,
			spare1							NULL
		}
}

-- ***************************************************
--
-- First segment
--
-- ***************************************************

FirstSegment ::=					SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type,
		seg-Count						SegCount,
		sib-Data-fixed					SIB-Data-fixed
}

FirstSegment2 ::=					SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type2,
		seg-Count						SegCount,
		sib-Data-fixed					SIB-Data2-fixed
}

-- ***************************************************
--
-- First segment (short)
--
-- ***************************************************

FirstSegmentShort ::=				SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type,
		seg-Count						SegCount,
		sib-Data-variable				SIB-Data-variable
}

FirstSegmentShort2 ::=				SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type2,
		seg-Count						SegCount,
		sib-Data-variable				SIB-Data2-variable
}

-- ***************************************************
--
-- Subsequent segment
--
-- ***************************************************

SubsequentSegment ::=				SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type,
		segmentIndex					SegmentIndex,
		sib-Data-fixed					SIB-Data-fixed
}

SubsequentSegment2 ::=				SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type2,
		segmentIndex					SegmentIndex,
		sib-Data-fixed					SIB-Data2-fixed
}

-- ***************************************************
--
-- Last segment
--
-- ***************************************************

LastSegment ::=						SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type,
		segmentIndex					SegmentIndex,
		-- For sib-Data-fixed, in case the SIB data is less than 222 bits, padding
		-- shall be used. The same padding bits shall be used as defined in clause 12.1
		sib-Data-fixed					SIB-Data-fixed
}

LastSegment2 ::=						SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type2,
		segmentIndex					SegmentIndex,
		-- For sib-Data-fixed, in case the SIB data is less than 232 bits, padding
		-- shall be used. The same padding bits shall be used as defined in clause 12.1
		sib-Data-fixed					SIB-Data2-fixed
}

LastSegmentShort ::=						SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type,
		segmentIndex					SegmentIndex,
		sib-Data-variable				SIB-Data-variable
}

LastSegmentShort2 ::=						SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type2,
		segmentIndex					SegmentIndex,
		sib-Data-variable				SIB-Data2-variable
}

-- ***************************************************
--
-- Complete SIB
--
-- ***************************************************

CompleteSIB-List ::=				SEQUENCE (SIZE (1..maxSIBperMsg)) OF
										CompleteSIBshort

CompleteSIB2-List ::=				SEQUENCE (SIZE (1..maxSIBperMsg)) OF
										CompleteSIBshort2

CompleteSIB ::=						SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type,
		-- For sib-Data-fixed, in case the SIB data is less than 226 bits, padding
		-- shall be used. The same padding bits shall be used as defined in clause 12.1
		sib-Data-fixed					BIT STRING (SIZE (226))
}

CompleteSIB2 ::=						SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type2,
		-- For sib-Data-fixed, in case the SIB data is less than 236 bits, padding
		-- shall be used. The same padding bits shall be used as defined in clause 12.1
		sib-Data-fixed					BIT STRING (SIZE (236))
}

CompleteSIBshort ::=						SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type,
		sib-Data-variable				SIB-Data-variable
}

CompleteSIBshort2 ::=						SEQUENCE {
	-- Other information elements
		sib-Type						SIB-Type2,
		sib-Data-variable				SIB-Data2-variable
}

-- ***************************************************
--
-- SYSTEM INFORMATION CHANGE INDICATION
--
-- ***************************************************

SystemInformationChangeIndication ::= 	SEQUENCE {
	-- Other IEs
		bcch-ModificationInfo				BCCH-ModificationInfo,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			systemInformationChangeIndication-r3-add-ext		BIT STRING		OPTIONAL,
			v860NonCriticalExtensions		SEQUENCE {
				systemInformationChangeIndication-v860ext
												SystemInformationChangeIndication-v860ext-IEs,
				vc50NonCriticalExtensions		SEQUENCE {
					systemInformationChangeIndication-vc50ext
												SystemInformationChangeIndication-vc50ext-IEs,
					nonCriticalExtensions			SEQUENCE {}		OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SystemInformationChangeIndication-v860ext-IEs ::= SEQUENCE {
	-- Other IEs
		etws-Information					ETWS-Information					OPTIONAL
}

SystemInformationChangeIndication-vc50ext-IEs ::= SEQUENCE {
		bcch-ModificationInfo-vc50ext		BCCH-ModificationInfo-vc50ext		OPTIONAL
}

-- ***************************************************
--
-- TRANSPORT CHANNEL RECONFIGURATION
--
-- ***************************************************

TransportChannelReconfiguration ::= CHOICE {
	r3								SEQUENCE {
		transportChannelReconfiguration-r3
										TransportChannelReconfiguration-r3-IEs,
		v3a0NonCriticalExtensions		SEQUENCE {
			transportChannelReconfiguration-v3a0ext
											TransportChannelReconfiguration-v3a0ext,
			laterNonCriticalExtensions			SEQUENCE {
				-- Container for additional R99 extensions
				transportChannelReconfiguration-r3-add-ext		BIT STRING		OPTIONAL,
				v4b0NonCriticalExtensions		SEQUENCE {
					transportChannelReconfiguration-v4b0ext	
													TransportChannelReconfiguration-v4b0ext-IEs,
					v590NonCriticalExtensions		SEQUENCE {
						transportChannelReconfiguration-v590ext	
														TransportChannelReconfiguration-v590ext-IEs,
						v690NonCriticalExtensions		SEQUENCE {
							transportChannelReconfiguration-v690ext	
														TransportChannelReconfiguration-v690ext-IEs,
							v770NonCriticalExtensions		SEQUENCE {
								transportChannelReconfiguration-v770ext
														TransportChannelReconfiguration-v770ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				transportChannelReconfiguration-r4
												TransportChannelReconfiguration-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					transportChannelReconfiguration-r4-add-ext		BIT STRING		OPTIONAL,
					v590NonCriticalExtensions		SEQUENCE {
						transportChannelReconfiguration-v590ext	
													TransportChannelReconfiguration-v590ext-IEs,
						v690NonCriticalExtensions		SEQUENCE {
							transportChannelReconfiguration-v690ext	
														TransportChannelReconfiguration-v690ext-IEs,
							v770NonCriticalExtensions		SEQUENCE {
								transportChannelReconfiguration-v770ext
														TransportChannelReconfiguration-v770ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				CHOICE {
				r5								SEQUENCE {
					transportChannelReconfiguration-r5
													TransportChannelReconfiguration-r5-IEs,
					-- Container for adding non critical extensions after freezing REL-6
					transportChannelReconfiguration-r5-add-ext		BIT STRING		OPTIONAL,
					v690NonCriticalExtensions		SEQUENCE {
						transportChannelReconfiguration-v690ext	
														TransportChannelReconfiguration-v690ext-IEs,
						v770NonCriticalExtensions		SEQUENCE {
								transportChannelReconfiguration-v770ext
														TransportChannelReconfiguration-v770ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r6								SEQUENCE {
						transportChannelReconfiguration-r6
														TransportChannelReconfiguration-r6-IEs,
						-- Container for adding non critical extensions after freezing REL-7
						transportChannelReconfiguration-r6-add-ext		BIT STRING		OPTIONAL,
						v6b0NonCriticalExtensions		SEQUENCE {
							transportChannelReconfiguration-v6b0ext
														TransportChannelReconfiguration-v6b0ext-IEs,
							v770NonCriticalExtensions		SEQUENCE {
								transportChannelReconfiguration-v770ext
														TransportChannelReconfiguration-v770ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r7								SEQUENCE {
							transportChannelReconfiguration-r7
														TransportChannelReconfiguration-r7-IEs,
							-- Container for adding non critical extensions after freezing REL-8
							transportChannelReconfiguration-r7-add-ext		BIT STRING	OPTIONAL,
							v780NonCriticalExtensions		SEQUENCE {
								transportChannelReconfiguration-v780ext
														TransportChannelReconfiguration-v780ext-IEs,
								v7d0NonCriticalExtensions		SEQUENCE {
									transportChannelReconfiguration-v7d0ext
														TransportChannelReconfiguration-v7d0ext-IEs,
									v7f0NonCriticalExtensions		SEQUENCE {
										transportChannelReconfiguration-v7f0ext
														TransportChannelReconfiguration-v7f0ext-IEs,
										v7g0NonCriticalExtensions		SEQUENCE {
											transportChannelReconfiguration-v7g0ext
														TransportChannelReconfiguration-v7g0ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r8								SEQUENCE {
								transportChannelReconfiguration-r8
															TransportChannelReconfiguration-r8-IEs,
								-- Container for adding non critical extensions after freezing REL-9
								transportChannelReconfiguration-r8-add-ext
																BIT STRING		OPTIONAL,
								v7d0NonCriticalExtensions		SEQUENCE {
									transportChannelReconfiguration-v7d0ext
														TransportChannelReconfiguration-v7d0ext-IEs,
									v7f0NonCriticalExtensions		SEQUENCE {
										transportChannelReconfiguration-v7f0ext
														TransportChannelReconfiguration-v7f0ext-IEs,
										v890NonCriticalExtensions		SEQUENCE {
											transportChannelReconfiguration-v890ext
													TransportChannelReconfiguration-v890ext-IEs,
											v7g0NonCriticalExtensions		SEQUENCE {
												transportChannelReconfiguration-v7g0ext
													TransportChannelReconfiguration-v7g0ext-IEs,
												v8a0NonCriticalExtensions		SEQUENCE {
													transportChannelReconfiguration-v8a0ext
														TransportChannelReconfiguration-v8a0ext-IEs,
													nonCriticalExtensions			
														SEQUENCE {}		OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r9								SEQUENCE {
									transportChannelReconfiguration-r9
															TransportChannelReconfiguration-r9-IEs,
									-- Container for adding non critical extensions after 
									-- freezing REL-10
									transportChannelReconfiguration-r9-add-ext
																	BIT STRING		OPTIONAL,
									v950NonCriticalExtensions		SEQUENCE {
										transportChannelReconfiguration-v950ext
														TransportChannelReconfiguration-v950ext-IEs,
										v9c0NonCriticalExtensions		SEQUENCE {
											transportChannelReconfiguration-v9c0ext
														TransportChannelReconfiguration-v9c0ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								},
								criticalExtensions				CHOICE {
									r10								SEQUENCE {
										transportChannelReconfiguration-r10
															TransportChannelReconfiguration-r10-IEs,
										-- Container for adding non critical extensions after 
										-- freezing REL-11
										transportChannelReconfiguration-r10-add-ext
																		BIT STRING		OPTIONAL,
										v9c0NonCriticalExtensions		SEQUENCE {
											transportChannelReconfiguration-v9c0ext
														TransportChannelReconfiguration-v9c0ext-IEs,
											vb50NonCriticalExtensions		SEQUENCE {
												transportChannelReconfiguration-vb50ext
														TransportChannelReconfiguration-vb50ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									},
									criticalExtensions				CHOICE {
										r11								SEQUENCE {
											transportChannelReconfiguration-r11
															TransportChannelReconfiguration-r11-IEs,
											-- Container for adding non critical extensions after 
											-- freezing REL-12
											transportChannelReconfiguration-r11-add-ext
																		BIT STRING		OPTIONAL,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										},
										criticalExtensions				CHOICE {
											r12								SEQUENCE {
												transportChannelReconfiguration-r12
															TransportChannelReconfiguration-r12-IEs,
												-- Container for adding non critical extensions 
												-- after freezing REL-13
												transportChannelReconfiguration-r12-add-ext
																		BIT STRING		OPTIONAL,
												nonCriticalExtensions		SEQUENCE {}		OPTIONAL
											},
											criticalExtensions				CHOICE {
												r13								SEQUENCE {
													transportChannelReconfiguration-r13
															TransportChannelReconfiguration-r13-IEs,
													-- Container for adding non critical extensions 
													-- after freezing REL-14
													transportChannelReconfiguration-r13-add-ext
																		BIT STRING		OPTIONAL,
													nonCriticalExtensions	SEQUENCE {}	OPTIONAL
												},
												criticalExtensions				SEQUENCE {}
											}
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}

TransportChannelReconfiguration-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo		OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList			OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement				OPTIONAL,
		modeSpecificPhysChInfo			CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information		OPTIONAL
			},
			tdd							NULL
		},
		dl-CommonInformation			DL-CommonInformation				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List			OPTIONAL
}

TransportChannelReconfiguration-v3a0ext ::= SEQUENCE {
	-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
	-- the UE behaviour is unspecified
	new-DSCH-RNTI					DSCH-RNTI							OPTIONAL
}

TransportChannelReconfiguration-v4b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy								SSDT-UL								OPTIONAL,
		-- The order of the RLs in IE cell-id-PerRL-List is the same as
		-- in IE DL-InformationPerRL-List included in this message
		cell-id-PerRL-List					CellIdentity-PerRL-List				OPTIONAL
}

TransportChannelReconfiguration-v590ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-TPC-PowerOffsetPerRL-List	DL-TPC-PowerOffsetPerRL-List		OPTIONAL
}

TransportChannelReconfiguration-r4-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
		-- the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo		OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r4		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement-r4			OPTIONAL,
		modeSpecificPhysChInfo			CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information		OPTIONAL
			},
			tdd							NULL
		},
		dl-CommonInformation			DL-CommonInformation-r4				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r4			OPTIONAL
}

TransportChannelReconfiguration-r5-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode, and if received
		-- the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r5		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-ChannelRequirement			UL-ChannelRequirement-r5			OPTIONAL,
		modeSpecificPhysChInfo			CHOICE {
			fdd								SEQUENCE {
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							DL-PDSCH-Information		OPTIONAL
			},
			tdd							NULL
		},
		dl-HSPDSCH-Information			DL-HSPDSCH-Information				OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r5				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r5			OPTIONAL
}

TransportChannelReconfiguration-v690ext-IEs ::= SEQUENCE {
	-- User Equipment IEs
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
	-- Core network IEs
		primary-plmn-Identity			PLMN-Identity						OPTIONAL,
	-- Physical channel IEs
		-- The IE harq-Preamble-Mode should not be used in the r3 and r4 versions of the message
		-- If included in the r3 or r4 version of the message, the UE should ignore the IE
		harq-Preamble-Mode				HARQ-Preamble-Mode					OPTIONAL,
		beaconPLEst						BEACON-PL-Est						OPTIONAL,
		postVerificationPeriod			ENUMERATED { true }					OPTIONAL,
		dhs-sync						DHS-Sync							OPTIONAL,
		timingMaintainedSynchInd		TimingMaintainedSynchInd			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

TransportChannelReconfiguration-r6-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r6		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r5		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r6						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r6				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r6			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r6				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r6			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

TransportChannelReconfiguration-v6b0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-InformationPerRL-List-v6b0ext	DL-InformationPerRL-List-v6b0ext	OPTIONAL
}

TransportChannelReconfiguration-r7-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r7		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r7		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r7					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r7				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r7			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r7				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r7			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

TransportChannelReconfiguration-v770ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL
}

TransportChannelReconfiguration-v780ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable					OPTIONAL
}

TransportChannelReconfiguration-v7d0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		ul-EDCH-Information			UL-EDCH-Information-ext				OPTIONAL
}

TransportChannelReconfiguration-v7f0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	mimoParameters						MIMO-Parameters-v7f0ext				OPTIONAL
}

TransportChannelReconfiguration-v7g0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
	mimoParameters						MIMO-Parameters-v7g0ext				OPTIONAL
}

TransportChannelReconfiguration-r8-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r7		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r8					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r8				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r8			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD				OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

TransportChannelReconfiguration-v890ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-SecondaryCellInfoFDD-v890ext		DL-SecondaryCellInfoFDD-v890ext		OPTIONAL,
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext		OPTIONAL
}

TransportChannelReconfiguration-v8a0ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		dl-HSPDSCH-Information				DL-HSPDSCH-Information-r8-ext2		OPTIONAL
}

TransportChannelReconfiguration-r9-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r9				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r8				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r9			OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

TransportChannelReconfiguration-v950ext-IEs ::= SEQUENCE {
	-- Physical channel IEs
		secondaryCellMimoParameters		SecondaryCellMIMOparametersFDD-v950ext		OPTIONAL
}

TransportChannelReconfiguration-v9c0ext-IEs ::= SEQUENCE {
	-- For 1.28Mcps TDD only
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-TDD128-v9c0ext			OPTIONAL
}

TransportChannelReconfiguration-r10-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r9		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r7						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r9				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r9			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r10			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r8			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r10			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD		OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

TransportChannelReconfiguration-vb50ext-IEs ::= SEQUENCE {
		ulOLTDInfoFDD						UL-OLTD-InfoFDD			OPTIONAL
}

TransportChannelReconfiguration-r11-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r11		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r7						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters					OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD				OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD						OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r11			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r11			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r11			OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD					OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

TransportChannelReconfiguration-r12-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		activationTime					ActivationTime						OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI							OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		newSecondary-E-RNTI				E-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected				OPTIONAL,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }					OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12				OPTIONAL,
		ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-r11		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo						OPTIONAL,
		multi-frequencyInfo				Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9					OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters					OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD			OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power				OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11					OPTIONAL,
		ul-EDCH-Information				UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r12			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128		OPTIONAL,
		ul-CLTD-InfoFDD					UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD					UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information			DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12			OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r12		OPTIONAL,
		dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD					OPTIONAL,
		dPCCH2InfoFDD					DPCCH2InfoFDD						OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128			SPS-Information-TDD128-r8			OPTIONAL,
		mu-MIMO-Info-TDD128				MU-MIMO-Info-TDD128					OPTIONAL,
		non-rectResAllocInd-TDD128		Non-rectResAllocInd-TDD128			OPTIONAL,
		non-rectResSpecTSset-TDD128		Non-rectResSpecTSset-TDD128			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo		MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

TransportChannelReconfiguration-r13-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo	IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7					OPTIONAL,
		activationTime					ActivationTime							OPTIONAL,
		dynamicActivationTime			DynamicActivationTime					OPTIONAL,
		delayRestrictionFlag			DelayRestrictionFlag					OPTIONAL,
		new-U-RNTI						U-RNTI									OPTIONAL,
		new-C-RNTI						C-RNTI									OPTIONAL,
		-- The IE "new-DSCH-RNTI" should not be included in FDD mode,
		-- and if received the UE behaviour is unspecified
		new-DSCH-RNTI					DSCH-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI									OPTIONAL,
		newPrimary-E-RNTI				E-RNTI									OPTIONAL,
		newSecondary-E-RNTI			E-RNTI									OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		ueMobilityStateIndicator		High-MobilityDetected					OPTIONAL,
		utran-DRX-CycleLengthCoeff	UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- Core network IEs
		cn-InformationInfo				CN-InformationInfo-r6					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity							OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		responseToChangeOfUE-Capability	ENUMERATED { true }				OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5		OPTIONAL,
		retrievableConfigInfo			RetrievableConfigInfo					OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12				OPTIONAL,
		ul-AddReconfTransChInfoList	UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-AddReconfTransChInfoList	DL-AddReconfTransChInfoList-r13		OPTIONAL,
	-- Physical channel IEs
		frequencyInfo					FrequencyInfo							OPTIONAL,
		multi-frequencyInfo			Multi-frequencyInfo-LCR-r7			OPTIONAL,
		dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7					OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12						OPTIONAL,
		hs-scch-LessInfo				HS-SCCH-LessInfo-r7					OPTIONAL,
		mimoParameters					MIMO-Parameters-r9						OPTIONAL,
		mimo4x4Parameters				MIMO4x4-Parameters						OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD				OPTIONAL,
		maxAllowedUL-TX-Power			MaxAllowedUL-TX-Power					OPTIONAL,
		ul-DPCH-Info					UL-DPCH-Info-r11						OPTIONAL,
		ul-EDCH-Information			UL-EDCH-Information-r11				OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r13			OPTIONAL,
		ul-MulticarrierEDCHInfo-TDD128	UL-MulticarrierEDCHInfo-TDD128	OPTIONAL,
		ul-CLTD-InfoFDD				UL-CLTD-InfoFDD						OPTIONAL,
		ul-OLTD-InfoFDD				UL-OLTD-InfoFDD						OPTIONAL,
		ul-OtherTTIConfiguration-Info	UL-OtherTTIConfiguration-Information	OPTIONAL,
		filteredUPHReportInfo			FilteredUEPowerHeadroomReportInfo	OPTIONAL,
		dl-HSPDSCH-Information		DL-HSPDSCH-Information-r12			OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12				OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13			OPTIONAL,
		dl-SecondaryCellInfoFDD		DL-SecondaryCellInfoFDD-r11			OPTIONAL,
		additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
		additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
		commonERGCHInfoFDD				CommonERGCHInfoFDD						OPTIONAL,
		dPCCH2InfoFDD					DPCCH2InfoFDD							OPTIONAL,
		controlChannelDRXInfo-TDD128	ControlChannelDRXInfo-TDD128-r8		OPTIONAL,
		sps-Information-TDD128		SPS-Information-TDD128-r8				OPTIONAL,
		mu-MIMO-Info-TDD128			MU-MIMO-Info-TDD128					OPTIONAL,
		non-rectResAllocInd-TDD128	Non-rectResAllocInd-TDD128			OPTIONAL,
		non-rectResSpecTSset-TDD128	Non-rectResSpecTSset-TDD128			OPTIONAL,
	-- MBMS IEs
		mbms-PL-ServiceRestrictInfo	MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL,
	-- Measurement IEs for LCR
		cellDCHMeasOccasionInfo-TDD128	CellDCHMeasOccasionInfo-TDD128-r9	OPTIONAL
}

-- ***************************************************
--
-- TRANSPORT CHANNEL RECONFIGURATION COMPLETE
--
-- ***************************************************

TransportChannelReconfigurationComplete ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		ul-IntegProtActivationInfo		IntegrityProtActivationInfo			OPTIONAL,
		-- TABULAR: UL-TimingAdvance is applicable for TDD mode only.
		ul-TimingAdvance				UL-TimingAdvance					OPTIONAL,
	-- Radio bearer IEs
		count-C-ActivationTime			ActivationTime						OPTIONAL,
		-- dummy is not used in this version of the specification and
		-- it should be ignored by the receiver.
		dummy							RB-ActivationTimeInfoList			OPTIONAL,
		ul-CounterSynchronisationInfo	UL-CounterSynchronisationInfo		OPTIONAL,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			transportChannelReconfigurationComplete-r3-add-ext		BIT STRING		OPTIONAL,
			v770NonCriticalExtensions		SEQUENCE {
				transportChannelReconfigurationComplete-v770ext
										TransportChannelReconfigurationComplete-v770ext-IEs,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

TransportChannelReconfigurationComplete-v770ext-IEs ::= SEQUENCE {
		-- TABULAR: EXT-UL-TimingAdvance is applicable for TDD mode only.
		ext-UL-TimingAdvance					EXT-UL-TimingAdvance	OPTIONAL,
		deferredMeasurementControlReading		ENUMERATED { true }		OPTIONAL
}

-- ***************************************************
--
-- TRANSPORT CHANNEL RECONFIGURATION FAILURE
--
-- ***************************************************

TransportChannelReconfigurationFailure ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		failureCause					FailureCauseWithProtErr,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			transportChannelReconfigurationFailure-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}	OPTIONAL
}

-- *********************************************************
--
-- TRANSPORT FORMAT COMBINATION CONTROL in AM or UM RLC mode
--
-- *********************************************************

TransportFormatCombinationControl ::= SEQUENCE {
		-- rrc-TransactionIdentifier is always included in this version of the specification
		rrc-TransactionIdentifier		RRC-TransactionIdentifier			OPTIONAL,
		modeSpecificInfo					CHOICE {
			fdd									NULL,
			tdd									SEQUENCE {
				tfcs-ID								TFCS-Identity	OPTIONAL
			}	
		},
		dpch-TFCS-InUplink					TFC-Subset,
		activationTimeForTFCSubset			ActivationTime						OPTIONAL,
		tfc-ControlDuration					TFC-ControlDuration					OPTIONAL,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			transportFormatCombinationControl-r3-add-ext		BIT STRING		OPTIONAL,
			v820NonCriticalExtensions							SEQUENCE {
				transportformatcombinationcontrol-v820ext
													TransportFormatCombinationControl-v820ext-IEs,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

TransportFormatCombinationControl-v820ext-IEs ::= SEQUENCE {
	-- Transport Format Combination Control IEs
		ul-AMR-Rate						UL-AMR-Rate								OPTIONAL
}

-- ***************************************************
--
-- TRANSPORT FORMAT COMBINATION CONTROL FAILURE
--
-- ***************************************************

TransportFormatCombinationControlFailure ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		failureCause					FailureCauseWithProtErr,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			transportFormatCombinationControlFailure-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- UE CAPABILITY ENQUIRY
--
-- ***************************************************

UECapabilityEnquiry ::= CHOICE {
	r3								SEQUENCE {
		ueCapabilityEnquiry-r3			UECapabilityEnquiry-r3-IEs,
		laterNonCriticalExtensions		SEQUENCE {
			-- Container for additional R99 extensions
			ueCapabilityEnquiry-r3-add-ext		BIT STRING		OPTIONAL,
			v4b0NonCriticalExtensions		SEQUENCE { 
				ueCapabilityEnquiry-v4b0ext		UECapabilityEnquiry-v4b0ext-IEs,
				v590NonCriticalExtensions		SEQUENCE {
					ueCapabilityEnquiry-v590ext		UECapabilityEnquiry-v590ext-IEs,
					v770NonCriticalExtensions		SEQUENCE {
						ueCapabilityEnquiry-v770ext		UECapabilityEnquiry-v770ext-IEs,
						v860NonCriticalExtensions		SEQUENCE {
							ueCapabilityEnquiry-v860ext		UECapabilityEnquiry-v860ext-IEs,
							vaj0NonCriticalExtensions		SEQUENCE {
								ueCapabilityEnquiry-vaj0ext		UECapabilityEnquiry-vaj0ext-IEs,
								nonCriticalExtensions			SEQUENCE {}		OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

UECapabilityEnquiry-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		capabilityUpdateRequirement		CapabilityUpdateRequirement
}

UECapabilityEnquiry-v4b0ext-IEs ::= SEQUENCE {
		capabilityUpdateRequirement-r4-ext	CapabilityUpdateRequirement-r4-ext
}

UECapabilityEnquiry-v590ext-IEs ::= SEQUENCE {
		systemSpecificCapUpdateReq		SystemSpecificCapUpdateReq-v590ext
}

UECapabilityEnquiry-v770ext-IEs ::= SEQUENCE {
		capabilityUpdateRequirement		CapabilityUpdateRequirement-v770ext		OPTIONAL
}

UECapabilityEnquiry-v860ext-IEs ::= SEQUENCE {
		capabilityUpdateRequirement		CapabilityUpdateRequirement-v860ext		OPTIONAL
}

UECapabilityEnquiry-vaj0ext-IEs ::= SEQUENCE {
		capabilityUpdateRequirement		CapabilityUpdateRequirement-vaj0ext		OPTIONAL
}

-- ***************************************************
--
-- UE CAPABILITY INFORMATION
--
-- ***************************************************

UECapabilityInformation ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier			OPTIONAL,
		ue-RadioAccessCapability		UE-RadioAccessCapability			OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList		OPTIONAL,
		v370NonCriticalExtensions			SEQUENCE {
			ueCapabilityInformation-v370ext	UECapabilityInformation-v370ext,
			v380NonCriticalExtensions			SEQUENCE {
				ueCapabilityInformation-v380ext		UECapabilityInformation-v380ext-IEs,
				v3a0NonCriticalExtensions			SEQUENCE {
					ueCapabilityInformation-v3a0ext		UECapabilityInformation-v3a0ext-IEs,
					laterNonCriticalExtensions			SEQUENCE {
						-- Container for additional R99 extensions
						ueCapabilityInformation-r3-add-ext		BIT STRING
									(CONTAINING UECapabilityInformation-r3-add-ext-IEs)	OPTIONAL,
						-- Reserved for future non critical extension
						v4b0NonCriticalExtensions			SEQUENCE {
							ueCapabilityInformation-v4b0ext		UECapabilityInformation-v4b0ext,
							v590NonCriticalExtensions			SEQUENCE {
								ueCapabilityInformation-v590ext		UECapabilityInformation-v590ext,
								v5c0NonCriticalExtensions			SEQUENCE {
									ueCapabilityInformation-v5c0ext
																	UECapabilityInformation-v5c0ext,
									v690NonCriticalExtensions			SEQUENCE {
										ueCapabilityInformation-v690ext
																UECapabilityInformation-v690ext-IEs,
										nonCriticalExtensions			SEQUENCE {}		OPTIONAL
									}		OPTIONAL
								}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

UECapabilityInformation-v370ext ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v370ext		UE-RadioAccessCapability-v370ext		OPTIONAL
}

UECapabilityInformation-v380ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v380ext		UE-RadioAccessCapability-v380ext		OPTIONAL,
		dl-PhysChCapabilityFDD-v380ext			DL-PhysChCapabilityFDD-v380ext
}

UECapabilityInformation-v3a0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v3a0ext		UE-RadioAccessCapability-v3a0ext		OPTIONAL
}

UECapabilityInformation-r3-add-ext-IEs ::= SEQUENCE {
		ueCapabilityInformation-v650ext		UECapabilityInformation-v650ext-IEs		OPTIONAL,
		v680NonCriticalExtensions			SEQUENCE {
			ueCapabilityInformation-v680ext		UECapabilityInformation-v680ext-IEs,
			v7e0NonCriticalExtensions			SEQUENCE {
				ueCapabilityInformation-v7e0ext		UECapabilityInformation-v7e0ext-IEs,
				v7f0NonCriticalExtensions			SEQUENCE {
					ueCapabilityInformation-v7f0ext		UECapabilityInformation-v7f0ext-IEs,
					va40NonCriticalExtensions				SEQUENCE {
						ueCapabilityInformation-va40ext
															UECapabilityInformation-va40ext-IEs,
						nonCriticalExtensions				SEQUENCE {}	OPTIONAL 
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

UECapabilityInformation-v4b0ext ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v4b0ext		UE-RadioAccessCapability-v4b0ext		OPTIONAL
}

UECapabilityInformation-v590ext ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v3g0ext		UE-RadioAccessCapability-v3g0ext		OPTIONAL,
		ue-RadioAccessCapability-v590ext		UE-RadioAccessCapability-v590ext		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability-v590ext	InterRAT-UE-RadioAccessCapability-v590ext	OPTIONAL
}

UECapabilityInformation-v5c0ext ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v5c0ext		UE-RadioAccessCapability-v5c0ext		OPTIONAL
}

UECapabilityInformation-v650ext-IEs ::= SEQUENCE {
		ue-RadioAccessCapability-v650ext		UE-RadioAccessCapability-v650ext
}

UECapabilityInformation-v680ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability-v680ext		UE-RadioAccessCapability-v680ext
}

UECapabilityInformation-v690ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ueCapabilityContainer				BIT STRING
												(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL
}

UECapabilityInformation-v7e0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability				UE-RadioAccessCapability-v7e0ext
}

UECapabilityInformation-v7f0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability				UE-RadioAccessCapability-v7f0ext	OPTIONAL
}

UECapabilityInformation-va40ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapabBand					UE-RadioAccessCapabBand-va40ext		OPTIONAL
}

-- ***************************************************
--
-- UE CAPABILITY INFORMATION CONFIRM
--
-- ***************************************************

UECapabilityInformationConfirm ::= CHOICE {
	r3								SEQUENCE {
		ueCapabilityInformationConfirm-r3
										UECapabilityInformationConfirm-r3-IEs,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			ueCapabilityInformationConfirm-r3-add-ext		BIT STRING		OPTIONAL,
			v770NonCriticalExtensions		SEQUENCE {
				ueCapabilityInformationConfirm-v770ext	UECapabilityInformationConfirm-v770ext-IEs,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

UECapabilityInformationConfirm-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier
}

UECapabilityInformationConfirm-v770ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		acceptanceOfChangeOfCapability	ENUMERATED {
											refused, accepted, acceptedWithReconfigurationToFollow
										}		OPTIONAL
}

-- ***************************************************
--
-- UPLINK DIRECT TRANSFER
--
-- ***************************************************

UplinkDirectTransfer ::= SEQUENCE {
	-- Core network IEs
		cn-DomainIdentity				CN-DomainIdentity,
		nas-Message						NAS-Message,
	-- Measurement IEs
		measuredResultsOnRACH			MeasuredResultsOnRACH				OPTIONAL,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			uplinkDirectTransfer-r3-add-ext		BIT STRING		OPTIONAL,
			v690NonCriticalExtensions			SEQUENCE {
				uplinkDirectTransfer-v690ext		UplinkDirectTransfer-v690ext-IEs,
				v7g0NonCriticalExtensions			SEQUENCE {
					uplinkDirectTransfer-v7g0ext		UplinkDirectTransfer-v7g0ext-IEs,
					vb50NonCriticalExtensions		SEQUENCE {
						uplinkDirectTransfer-vb50ext	UplinkDirectTransfer-vb50ext-IEs,
						vc50NonCriticalExtensions		SEQUENCE {
							uplinkDirectTransfer-vc50ext	UplinkDirectTransfer-vc50ext-IEs,
							nonCriticalExtensions				SEQUENCE {}		OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

UplinkDirectTransfer-v690ext-IEs ::= SEQUENCE {
	-- Measurement IEs
	measuredResultsOnRACHinterFreq		MeasuredResultsOnRACHinterFreq				OPTIONAL
}

UplinkDirectTransfer-v7g0ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
		measuredResultsOnRACH-v7g0ext		MeasuredResultsOnRACH-v7g0ext		OPTIONAL
}

UplinkDirectTransfer-vb50ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
	measuredResultsOnRACHEUTRAFreq		MeasuredResultsOnRACH-EUTRAFreq		OPTIONAL
}

UplinkDirectTransfer-vc50ext-IEs ::= SEQUENCE {
	-- Measurement IEs
	measuredResultsOnRACH				MeasuredResultsOnRACH-vc50ext		OPTIONAL
}

-- ***************************************************
--
-- UPLINK PHYSICAL CHANNEL CONTROL
--
-- ***************************************************

UplinkPhysicalChannelControl ::= CHOICE {
	r3								SEQUENCE {
		uplinkPhysicalChannelControl-r3	UplinkPhysicalChannelControl-r3-IEs,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			uplinkPhysicalChannelControl-r3-add-ext		BIT STRING		OPTIONAL,
			v4b0NonCriticalExtensions		SEQUENCE {
				uplinkPysicalChannelControl-v4b0ext		UplinkPhysicalChannelControl-v4b0ext-IEs,
				-- Extension mechanism for non-release 4 information
				noncriticalExtensions			SEQUENCE {}						OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r4								SEQUENCE {
				uplinkPhysicalChannelControl-r4	UplinkPhysicalChannelControl-r4-IEs,
				v4d0NonCriticalExtensions			SEQUENCE {
					-- Container for adding non critical extensions after freezing REL-5
					uplinkPhysicalChannelControl-r4-add-ext		BIT STRING		OPTIONAL,
					v690NonCriticalExtensions		SEQUENCE {
						uplinkPhysicalChannelControl-v690ext
														UplinkPhysicalChannelControl-v690ext-IEs,
						nonCriticalExtensions			SEQUENCE {}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions			CHOICE {
				r5								SEQUENCE {
					uplinkPhysicalChannelControl-r5	UplinkPhysicalChannelControl-r5-IEs,
					-- Container for adding non critical extensions after freezing REL-6
					uplinkPhysicalChannelControl-r5-add-ext		BIT STRING		OPTIONAL,
					v690NonCriticalExtensions		SEQUENCE {
						uplinkPhysicalChannelControl-v690ext
														UplinkPhysicalChannelControl-v690ext-IEs,
						v6a0NonCriticalExtensions		SEQUENCE{
							uplinkPhysicalChannelControl-v6a0ext
														UplinkPhysicalChannelControl-v6a0ext-IEs,
							nonCriticalExtensions			SEQUENCE {} OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r7								SEQUENCE {
						uplinkPhysicalChannelControl-r7	UplinkPhysicalChannelControl-r7-IEs,
						-- Container for adding non critical extensions after freezing REL-8
						uplinkPhysicalChannelControl-r7-add-ext		BIT STRING		OPTIONAL,
						nonCriticalExtensions			SEQUENCE {}		OPTIONAL
					},
					criticalExtensions				SEQUENCE {}
				}
			}
		}
	}
}

UplinkPhysicalChannelControl-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier, 
	-- Physical channel IEs
		ccTrCH-PowerControlInfo			CCTrCH-PowerControlInfo				OPTIONAL,
		timingAdvance					UL-TimingAdvanceControl				OPTIONAL,
		alpha							Alpha								OPTIONAL,
		specialBurstScheduling			SpecialBurstScheduling				OPTIONAL,
		prach-ConstantValue				ConstantValueTdd					OPTIONAL,
		pusch-ConstantValue				ConstantValueTdd					OPTIONAL
}

UplinkPhysicalChannelControl-v4b0ext-IEs ::= SEQUENCE {
	-- In case of TDD, openLoopPowerControl-IPDL-TDD is included instead of IE
	-- up-IPDL-Parameters in up-OTDOA-AssistanceData
	openLoopPowerControl-IPDL-TDD	OpenLoopPowerControl-IPDL-TDD-r4	OPTIONAL
}

UplinkPhysicalChannelControl-r4-IEs ::= SEQUENCE {
	-- Physical channel IEs
		ccTrCH-PowerControlInfo			CCTrCH-PowerControlInfo-r4			OPTIONAL,
		specialBurstScheduling			SpecialBurstScheduling				OPTIONAL,
		tddOption						CHOICE {
			tdd384							SEQUENCE {
				timingAdvance					UL-TimingAdvanceControl-r4	OPTIONAL,
				alpha							Alpha						OPTIONAL,
				prach-ConstantValue				ConstantValueTdd			OPTIONAL,
				pusch-ConstantValue				ConstantValueTdd			OPTIONAL,
				openLoopPowerControl-IPDL-TDD	OpenLoopPowerControl-IPDL-TDD-r4	OPTIONAL
			},
			tdd128							SEQUENCE {
				ul-SynchronisationParameters	UL-SynchronisationParameters-r4	OPTIONAL
			}
		}
}

UplinkPhysicalChannelControl-r5-IEs ::= SEQUENCE {
	-- Physical channel IEs
		ccTrCH-PowerControlInfo			CCTrCH-PowerControlInfo-r5			OPTIONAL,
		specialBurstScheduling			SpecialBurstScheduling				OPTIONAL,
		tddOption						CHOICE {
			tdd384							SEQUENCE {
				timingAdvance					UL-TimingAdvanceControl-r4	OPTIONAL,
				alpha							Alpha						OPTIONAL,
				prach-ConstantValue				ConstantValueTdd			OPTIONAL,
				pusch-ConstantValue				ConstantValueTdd			OPTIONAL,
				openLoopPowerControl-IPDL-TDD	OpenLoopPowerControl-IPDL-TDD-r4	OPTIONAL,
				hs-SICH-PowerControl			HS-SICH-Power-Control-Info-TDD384	OPTIONAL
			},
			tdd128							SEQUENCE {
				ul-SynchronisationParameters	UL-SynchronisationParameters-r4	OPTIONAL
			}
		}
}

UplinkPhysicalChannelControl-v690ext-IEs ::= SEQUENCE {
	-- Physical Channel IEs
		beaconPLEst						BEACON-PL-Est						OPTIONAL
}

UplinkPhysicalChannelControl-v6a0ext-IEs ::= SEQUENCE {
	-- Physical Channel IEs
		desired-HS-SICH-PowerLevel		INTEGER (-120..-58)					OPTIONAL,
		tpc-Step-Size					ENUMERATED { s1, s2, s3 , spare1 }	OPTIONAL
}

UplinkPhysicalChannelControl-r7-IEs ::= SEQUENCE {
	-- Physical channel IEs
		ccTrCH-PowerControlInfo			CCTrCH-PowerControlInfo-r7			OPTIONAL,
		specialBurstScheduling			SpecialBurstScheduling				OPTIONAL,
		tddOption						CHOICE {
			tdd384							SEQUENCE {
				timingAdvance					UL-TimingAdvanceControl-r4	OPTIONAL,
				alpha							Alpha						OPTIONAL,
				prach-ConstantValue				ConstantValueTdd			OPTIONAL,
				pusch-ConstantValue				ConstantValueTdd			OPTIONAL,
				openLoopPowerControl-IPDL-TDD	OpenLoopPowerControl-IPDL-TDD-r4	OPTIONAL,
				hs-SICH-PowerControl			HS-SICH-Power-Control-Info-TDD384	OPTIONAL
			},
			tdd768							SEQUENCE {
				timingAdvance					UL-TimingAdvanceControl-r7	OPTIONAL,
				alpha							Alpha						OPTIONAL,
				prach-ConstantValue				ConstantValueTdd			OPTIONAL,
				pusch-ConstantValue				ConstantValueTdd			OPTIONAL,
				openLoopPowerControl-IPDL-TDD	OpenLoopPowerControl-IPDL-TDD-r4	OPTIONAL,
				hs-SICH-PowerControl			HS-SICH-Power-Control-Info-TDD768	OPTIONAL
			},
			tdd128							SEQUENCE {
				ul-SynchronisationParameters	UL-SynchronisationParameters-r4	OPTIONAL,
				desired-HS-SICH-PowerLevel		INTEGER (-120..-58)				OPTIONAL,
				tpc-Step-Size					ENUMERATED { s1, s2, s3 , spare1 }	OPTIONAL
			}
		}
}

-- ***************************************************
--
-- URA UPDATE
--
-- ***************************************************

URAUpdate ::= SEQUENCE {
	-- User equipment IEs
		u-RNTI							U-RNTI,
		ura-UpdateCause					URA-UpdateCause,
		protocolErrorIndicator			ProtocolErrorIndicatorWithMoreInfo,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			uraUpdate-r3-add-ext		BIT STRING
							(CONTAINING URAUpdate-r3-add-ext-IEs)		OPTIONAL,
			v770NonCriticalExtensions	SEQUENCE {
				uraUpdate-v770ext			UraUpdate-v770ext-IEs,
				v860NonCriticalExtensions	SEQUENCE {
					uraUpdate-v860ext			URAUpdate-v860ext-IEs,
					va40NonCriticalExtensions		SEQUENCE {
						uraUpdate-va40ext			URAUpdate-va40ext-IEs,
						nonCriticalExtensions 		SEQUENCE {} 	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

URAUpdate-r3-add-ext-IEs ::=		SEQUENCE {
	uraUpdate-v7e0ext					URAUpdate-v7e0ext-IEs,
	nonCriticalExtensions				SEQUENCE {}		OPTIONAL
}

UraUpdate-v770ext-IEs ::= SEQUENCE {
	-- User equipment IEs
	support-hsdschReception-CellUraPch		ENUMERATED { true }				OPTIONAL,
	support-hsdschReception-CellFach		ENUMERATED { true }				OPTIONAL
}

URAUpdate-v7e0ext-IEs ::=			SEQUENCE {
	-- User equipment IEs
		supportForTwoDRXSchemesInPCH		ENUMERATED { true }				OPTIONAL
}

URAUpdate-v860ext-IEs ::= SEQUENCE {
	-- User equipment IEs
	supportOfHS-DSCHDRXOperation			ENUMERATED { true }				OPTIONAL,
	supportOfCommonEDCH						ENUMERATED { true }				OPTIONAL,
	supportOfMACiis							ENUMERATED { true }				OPTIONAL
}

URAUpdate-va40ext-IEs ::= SEQUENCE {
	loggedMeasAvailable		ENUMERATED { true }	OPTIONAL,
	loggedANRResultsAvailable		ENUMERATED { true }		OPTIONAL
}

-- ***************************************************
--
-- URA UPDATE CONFIRM
--
-- ***************************************************

URAUpdateConfirm ::= CHOICE {
	r3								SEQUENCE {
		uraUpdateConfirm-r3				URAUpdateConfirm-r3-IEs,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			uraUpdateConfirm-r3-add-ext		BIT STRING		OPTIONAL,
			v690NonCriticalExtensions		SEQUENCE {
				uraUpdateConfirm-v690ext		URAUpdateConfirm-v690ext-IEs,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r5								SEQUENCE {
				uraUpdateConfirm-r5				URAUpdateConfirm-r5-IEs,
				v690NonCriticalExtensions		SEQUENCE {
					uraUpdateConfirm-v690ext		URAUpdateConfirm-v690ext-IEs,
					nonCriticalExtensions			SEQUENCE {}		OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				CHOICE {
				r7								SEQUENCE {
					uraUpdateConfirm-r7				URAUpdateConfirm-r7-IEs,
					-- Container for adding non critical extensions after freezing REL-8
					uraUpdateConfirm-r7-add-ext		BIT STRING		OPTIONAL,
					v860NonCriticalExtensions		SEQUENCE {
						uraUpdateConfirm-v860ext		URAUpdateConfirm-v860ext-IEs,
						nonCriticalExtensions			SEQUENCE {}		OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				SEQUENCE {}
			}
		}
	}
}

URAUpdateConfirm-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier, 
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- CN information elements
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo		OPTIONAL
}

URAUpdateConfirm-r5-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient	OPTIONAL,
	-- CN information elements
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL
}

URAUpdateConfirm-v690ext-IEs ::= SEQUENCE {
	-- Core network IEs
		primary-plmn-Identity				PLMN-Identity					OPTIONAL
}

URAUpdateConfirm-r7-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		rrc-StateIndicator				RRC-StateIndicator,
		utran-DRX-CycleLengthCoeff		UTRAN-DRX-CycleLengthCoefficient-r7	OPTIONAL,
	-- CN information elements
		cn-InformationInfo				CN-InformationInfo					OPTIONAL,
		primary-plmn-Identity			PLMN-Identity						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL
}

URAUpdateConfirm-v860ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
	-- Specification mode information
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy							DefaultConfigForCellFACH			OPTIONAL
}

-- ***************************************************
--
-- URA UPDATE CONFIRM for CCCH
--
-- ***************************************************

URAUpdateConfirm-CCCH ::= CHOICE {
	r3								SEQUENCE {
		uraUpdateConfirm-CCCH-r3		URAUpdateConfirm-CCCH-r3-IEs,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			uraUpdateConfirm-CCCH-r3-add-ext		BIT STRING		OPTIONAL,
			v690NonCriticalExtensions		SEQUENCE {
				uraUpdateConfirm-v690ext			URAUpdateConfirm-v690ext-IEs,
				v860NonCriticalExtensions		SEQUENCE {
					uraUpdateConfirm-v860ext		URAUpdateConfirm-v860ext-IEs,
					nonCriticalExtensions			SEQUENCE {}		OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	},
	later-than-r3					SEQUENCE {
		u-RNTI							U-RNTI,
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				SEQUENCE {}
	}
}

URAUpdateConfirm-CCCH-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		u-RNTI							U-RNTI,
	-- The rest of the message is identical to the one sent on DCCH.
		uraUpdateConfirm				URAUpdateConfirm-r3-IEs
}

-- ***************************************************
--
-- UTRAN MOBILITY INFORMATION
--
-- ***************************************************

UTRANMobilityInformation ::= CHOICE {
	r3								SEQUENCE {
		utranMobilityInformation-r3		UTRANMobilityInformation-r3-IEs,
		v3a0NonCriticalExtensions		SEQUENCE {
			utranMobilityInformation-v3a0ext	UTRANMobilityInformation-v3a0ext-IEs,
			laterNonCriticalExtensions			SEQUENCE {
				-- Container for additional R99 extensions
				utranMobilityInformation-r3-add-ext		BIT STRING		OPTIONAL,
				v690NonCriticalExtensions			SEQUENCE {
					utranMobilityInformation-v690ext	UtranMobilityInformation-v690ext-IEs,
					v860NonCriticalExtentions			SEQUENCE {
						utranMobilityInformation-v860ext	UTRANMobilityInformation-v860ext1-IEs,
						nonCriticalExtensions				SEQUENCE {}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
	},
	later-than-r3					SEQUENCE {
		rrc-TransactionIdentifier		RRC-TransactionIdentifier,
		criticalExtensions				CHOICE {
			r5								SEQUENCE {
				utranMobilityInformation-r5		UTRANMobilityInformation-r5-IEs,
				v690NonCriticalExtensions		SEQUENCE {
					utranMobilityInformation-v690ext	UtranMobilityInformation-v690ext-IEs,
					v860NonCriticalExtentions			SEQUENCE {
						utranMobilityInformation-v860ext	UTRANMobilityInformation-v860ext1-IEs,
						nonCriticalExtensions			SEQUENCE {}		OPTIONAL
					}		OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions					CHOICE {
				r7									SEQUENCE{
					utranMobilityInformation-r7			UTRANMobilityInformation-r7-IEs,
					-- Container for adding non critical extensions after freezing REL-8
					utranMobilityInformation-r7-add-ext	BIT STRING		OPTIONAL,
					v860NonCriticalExtensions			SEQUENCE {
						utranMobilityInformation-v860ext	UTRANMobilityInformation-v860ext2-IEs,
						vb50NonCriticalExtentions			SEQUENCE {
							utranMobilityInformation-vb50ext	
										UTRANMobilityInformation-vb50ext-IEs,
							nonCriticalExtensions				SEQUENCE {}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				},
				criticalExtensions					CHOICE {
					r11									SEQUENCE{
						utranMobilityInformation-r11		UTRANMobilityInformation-r11-IEs,
						-- Container for adding non critical extensions after freezing REL-12
						utranMobilityInformation-r11-add-ext	BIT STRING		OPTIONAL,
						nonCriticalExtensions				SEQUENCE {}		OPTIONAL
					},
					criticalExtensions				CHOICE {
						r12								SEQUENCE {
							utranMobilityInformation-r12		UTRANMobilityInformation-r12-IEs,
							-- Container for adding non critical extensions after freezing REL-13
							utranMobilityInformation-r12-add-ext		BIT STRING	OPTIONAL,
							nonCriticalExtensions					SEQUENCE {}		OPTIONAL
						},
						criticalExtensions				CHOICE {
							r13								SEQUENCE {
								utranMobilityInformation-r13		UTRANMobilityInformation-r13-IEs,
								-- Container for adding non critical extensions after freezing REL-14
								utranMobilityInformation-r13-add-ext		BIT STRING	OPTIONAL,
								nonCriticalExtensions					SEQUENCE {}		OPTIONAL
							},
							criticalExtensions				SEQUENCE {}
						}
					}

				}
			}
		}
	}
}

UTRANMobilityInformation-r3-IEs ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier, 
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		ue-ConnTimersAndConstants		UE-ConnTimersAndConstants			OPTIONAL,
	-- CN information elements
		cn-InformationInfo				CN-InformationInfoFull				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo		OPTIONAL,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions			SEQUENCE {}		OPTIONAL
}

UTRANMobilityInformation-v3a0ext-IEs ::= SEQUENCE {
	ue-ConnTimersAndConstants-v3a0ext		UE-ConnTimersAndConstants-v3a0ext
}

UTRANMobilityInformation-r5-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo			OPTIONAL,
		cipheringModeInfo				CipheringModeInfo					OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		ue-ConnTimersAndConstants		UE-ConnTimersAndConstants-r5		OPTIONAL,
	-- CN information elements
		cn-InformationInfo				CN-InformationInfoFull				OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL
}

UtranMobilityInformation-v690ext-IEs ::= SEQUENCE {
	-- Core network IEs
		primary-plmn-Identity				PLMN-Identity						OPTIONAL
}

UTRANMobilityInformation-r7-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		ue-ConnTimersAndConstants		UE-ConnTimersAndConstants-r5		OPTIONAL,
	-- CN information elements
		cn-InformationInfo				CN-InformationInfoFull				OPTIONAL,
		primary-plmn-Identity			PLMN-Identity						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL
}

UTRANMobilityInformation-v860ext1-IEs ::= SEQUENCE {
	-- User equipment IEs
	-- UE shall take into account the following ue-ConnTimersAndConstants
	-- only when ue-ConnTimersAndConstants IE is present in
	-- UTRANMobilityInformation-r3-IEs or UTRANMobilityInformation-r5-IEs.
	-- Otherwise, UE shall discard it.
		ue-ConnTimersAndConstants		UE-ConnTimersAndConstants-v860ext
}

UTRANMobilityInformation-v860ext2-IEs ::= SEQUENCE {
	-- User equipment IEs
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
	-- UE shall take into account the following ue-ConnTimersAndConstants
	-- only when ue-ConnTimersAndConstants IE is present in
	-- UTRANMobilityInformation-r7-IEs. Otherwise, UE shall discard it.
		ue-ConnTimersAndConstants		UE-ConnTimersAndConstants-v860ext,
	-- UTRAN Mobility IEs
		dedicatedPriorityInformation	DedicatedPriorityInformation		OPTIONAL
}

UTRANMobilityInformation-vb50ext-IEs ::= SEQUENCE {
	-- UTRAN Mobility IEs
		dedicatedPriorityInformation	DedicatedPriorityInformation-r11	OPTIONAL
}

UTRANMobilityInformation-r11-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		ue-ConnTimersAndConstants		UE-ConnTimersAndConstants-r11		OPTIONAL,
	-- CN information elements
		cn-InformationInfo				CN-InformationInfoFull				OPTIONAL,
		primary-plmn-Identity			PLMN-Identity						OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		dedicatedPriorityInformation	DedicatedPriorityInformation-r11	OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL
}

UTRANMobilityInformation-r12-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		ue-ConnTimersAndConstants		UE-ConnTimersAndConstants-r11		OPTIONAL,
		measurementReleaseEnhancement	MeasurementReleaseEnhancement		OPTIONAL,
	-- CN information elements
		cn-InformationInfo				CN-InformationInfoFull				OPTIONAL,
		primary-plmn-Identity			PLMN-Identity						OPTIONAL,
		domainSpecificAccessRestrictionParametersUpdate
							DomainSpecificAccessRestrictionParam-v670ext	OPTIONAL,
		pagingPermissionWithAccessControlParametersUpdate
							PagingPermissionWithAccessControlParameters		OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		dedicatedPriorityInformation	DedicatedPriorityInformation-r11	OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- WLAN IEs
		dedicatedWLANOffloadInformation	DedicatedWLANOffloadInformation		OPTIONAL
}
UTRANMobilityInformation-r13-IEs ::= SEQUENCE {
	-- User equipment IEs
		integrityProtectionModeInfo		IntegrityProtectionModeInfo-r7		OPTIONAL,
		cipheringModeInfo				CipheringModeInfo-r7				OPTIONAL,
		new-U-RNTI						U-RNTI								OPTIONAL,
		new-C-RNTI						C-RNTI								OPTIONAL,
		new-H-RNTI						H-RNTI								OPTIONAL,
		newPrimary-E-RNTI				E-RNTI								OPTIONAL,
		ue-ConnTimersAndConstants		UE-ConnTimersAndConstants-r11		OPTIONAL,
		measurementReleaseEnhancement	MeasurementReleaseEnhancement		OPTIONAL,
	-- CN information elements
		cn-InformationInfo				CN-InformationInfoFull				OPTIONAL,
		primary-plmn-Identity			PLMN-Identity						OPTIONAL,
		domainSpecificAccessRestrictionParametersUpdate
							DomainSpecificAccessRestrictionParam-v670ext	OPTIONAL,
		pagingPermissionWithAccessControlParametersUpdate
							PagingPermissionWithAccessControlParameters		OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		supportForChangeOfUE-Capability	BOOLEAN								OPTIONAL,
		extendedDedicatedPriorityInformation	DedicatedPriorityInformation-r13	OPTIONAL,
	-- Radio bearer IEs
		dl-CounterSynchronisationInfo	DL-CounterSynchronisationInfo-r5	OPTIONAL,
	-- WLAN IEs
		dedicatedWLANOffloadInformation	DedicatedWLANOffloadInformation		OPTIONAL
}

-- ***************************************************
--
-- UTRAN MOBILITY INFORMATION CONFIRM
--
-- ***************************************************

UTRANMobilityInformationConfirm ::= SEQUENCE {
	-- User equipment IEs
		rrc-TransactionIdentifier		RRC-TransactionIdentifier, 
		ul-IntegProtActivationInfo		IntegrityProtActivationInfo			OPTIONAL,
	-- Radio bearer IEs
		count-C-ActivationTime			ActivationTime						OPTIONAL,
		-- dummy is not used in this version of the specification and
		-- it should be ignored by the receiver.
		dummy							RB-ActivationTimeInfoList			OPTIONAL,
		ul-CounterSynchronisationInfo	UL-CounterSynchronisationInfo		OPTIONAL,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			utranMobilityInformationConfirm-r3-add-ext		BIT STRING		OPTIONAL,
			v770NonCriticalExtension			SEQUENCE {
				utranMobilityInformationConfirm-v770ext
													UTRANMobilityInformationConfirm-v770ext-IEs,
				va40NonCriticalExtensions				SEQUENCE {
					utranMobilityInformationConfirm-va40ext
														UTRANMobilityInformationConfirm-va40ext-IEs,
					nonCriticalExtensions				SEQUENCE {}		OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

UTRANMobilityInformationConfirm-v770ext-IEs ::= SEQUENCE {
	deferredMeasurementControlReading				ENUMERATED { true }		OPTIONAL
}

UTRANMobilityInformationConfirm-va40ext-IEs ::= SEQUENCE {
	loggedMeasAvailable				ENUMERATED { true }	OPTIONAL
}

-- ***************************************************
--
-- UTRAN MOBILITY INFORMATION FAILURE
--
-- ***************************************************

UTRANMobilityInformationFailure ::= SEQUENCE {
	-- UE information elements
		rrc-TransactionIdentifier		RRC-TransactionIdentifier, 
		failureCause					FailureCauseWithProtErr,
		laterNonCriticalExtensions			SEQUENCE {
			-- Container for additional R99 extensions
			utranMobilityInformationFailure-r3-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}	OPTIONAL
}

-- ***************************************************
--
-- MBMS ACCESS INFORMATION
--
-- ***************************************************

MBMSAccessInformation ::= SEQUENCE {
	-- Access Information IEs
		mbms-ServiceAccessInfoList		MBMS-ServiceAccessInfoList-r6,
	-- Non critical extensions
		nonCriticalExtensions			SEQUENCE {}		OPTIONAL
}

-- ***************************************************
--
-- MBMS COMMON PTM RB INFORMATION
--
-- ***************************************************

MBMSCommonPTMRBInformation ::= SEQUENCE {
	-- Common PTM RB Information IEs
		mbms-CommonRBInformationList	MBMS-CommonRBInformationList-r6,
		mbms-TranspChInfoForEachTrCh	MBMS-TranspChInfoForEachTrCh-r6,
		mbms-TranspChInfoForEachCCTrCh	MBMS-TranspChInfoForEachCCTrCh-r6	OPTIONAL,
	-- For FDD and TDD 3.84Mcps in a cell operating in MBSFN only mode and for TDD 7.68Mcps the
	-- IE mbms-PhyChInformationList shall be ignored.
		mbms-PhyChInformationList		MBMS-PhyChInformationList-r6,
	-- Non critical extensions
		v770NonCriticalExtensions		SEQUENCE {
			mbmsCommonPTMRBInformation-v770ext
											MBMSCommonPTMRBInformation-v770ext-IEs,
			v780NonCriticalExtensions		SEQUENCE {
				mbmsCommonPTMRBInformation-v780ext
												MBMSCommonPTMRBInformation-v780ext-IEs,
				v860NonCriticalExtensions		SEQUENCE {
					mbmsCommonPTMRBInformation-v860ext
												MBMSCommonPTMRBInformation-v860ext-IEs,
					nonCriticalExtensions			SEQUENCE {}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

MBMSCommonPTMRBInformation-v770ext-IEs ::= SEQUENCE {
		-- TABULAR: CHOICE mode == "FDD or TDD"
		mbms-PhyChInformationList-r7	MBMS-PhyChInformationList-r7		OPTIONAL
}

MBMSCommonPTMRBInformation-v780ext-IEs ::= SEQUENCE {
		mbsfn-TDDInformation-LCR		MBSFN-TDDInformation-LCR			OPTIONAL
}

MBMSCommonPTMRBInformation-v860ext-IEs ::= SEQUENCE {
		-- TABULAR: CHOICE mode == "3.84 Mcps TDD IMB"
		mbms-PhyChInformationList		MBMS-PhyChInformationList-IMB384	OPTIONAL
}

-- ***************************************************
--
-- MBMS CURRENT CELL PTM RB INFORMATION
--
-- ***************************************************

MBMSCurrentCellPTMRBInformation ::= SEQUENCE {
	-- Current Cell PTM RB Information IEs
		mbms-CurrentCell-SCCPCHList		MBMS-CurrentCell-SCCPCHList-r6		OPTIONAL,
		mbms-SIBType5-SCCPCHList		MBMS-SIBType5-SCCPCHList-r6			OPTIONAL,
	-- Non critical extensions
		v770NonCriticalExtensions		SEQUENCE {
			mbmsCurrentCellPTMRBInfo-v770ext
											MBMSCurrentCellPTMRBInfo-v770ext-IEs,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}		OPTIONAL
}

MBMSCurrentCellPTMRBInfo-v770ext-IEs ::= SEQUENCE {
		mbsfn-TDM-Info-List				MBSFN-TDM-Info-List					OPTIONAL
}

-- ***************************************************
--
-- MBMS GENERAL INFORMATION
--
-- ***************************************************

MBMSGeneralInformation ::= SEQUENCE {
	-- MBMS General Information IEs
		mbms-PreferredFrequencyInfo		MBMS-PreferredFrequencyList-r6		OPTIONAL,
		mbms-TimersAndCounters			MBMS-TimersAndCounters-r6,
		michConfigurationInfo			MBMS-MICHConfigurationInfo-r6,
		cellGroupIdentity				MBMS-CellGroupIdentity-r6,
		mschDefaultConfigurationInfo	MBMS-MSCH-ConfigurationInfo-r6		OPTIONAL,
	-- Non critical extensions
		v6b0NonCriticalExtensions		SEQUENCE {
			mbmsGeneralInformation-v6b0ext	MBMSGeneralInformation-v6b0ext-IEs,
			v770NonCriticalExtensions		SEQUENCE {
				mbmsGeneralInformation-v770ext	MBMSGeneralInformation-v770ext-IEs,
				v860NonCriticalExtensions		SEQUENCE {
					mbmsGeneralInformation-v860ext	MBMSGeneralInformation-v860ext-IEs,
						v890NoncriticalExtensions	SEQUENCE {
							mbmsGeneralInformation-v890ext	MBMSGeneralInformation-v890ext-IEs,
							nonCriticalExtensions			SEQUENCE {}		OPTIONAL
						}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

MBMSGeneralInformation-v6b0ext-IEs ::= SEQUENCE {
		indicateChangeInSelectedServices	BOOLEAN
}

MBMSGeneralInformation-v770ext-IEs ::= SEQUENCE {
		mbmsMICHConfiguration			MBMS-MICHConfigurationInfo-v770ext		OPTIONAL,
		mbsfnInterFrequencyNeighbourList
										MBSFN-InterFrequencyNeighbourList-r7	OPTIONAL
}

MBMSGeneralInformation-v860ext-IEs ::= SEQUENCE {
		mbsfnInterFrequencyNeighbourList
									MBSFN-InterFrequencyNeighbourList-v860ext	OPTIONAL
}

MBMSGeneralInformation-v890ext-IEs ::= SEQUENCE {
		mbmsNetworkStandardTimeInformation-LCR
									MBMS-NetworkStandardTimeInformation-LCR-v890ext	OPTIONAL,
		mbmsMICHConfiguration			MBMS-MICHConfigurationInfo-v890ext		OPTIONAL
}

-- ***************************************************
--
-- MBMS MODIFICATION REQUEST
--
-- ***************************************************

MBMSModificationRequest ::= SEQUENCE {
	-- MBMS Modification Request IEs
		mbms-PreferredFreqRequest		MBMS-ServiceIdentity-r6				OPTIONAL,
		rb-InformationReleaseList		RB-InformationReleaseList			OPTIONAL,
	-- Non critical extensions
		v6b0NonCriticalExtensions		SEQUENCE {
			mbmsModificationRequest-v6b0ext	MBMSModificationRequest-v6b0ext-IEs,
			v6f0NonCriticalExtensions		SEQUENCE {
				mbmsModificationRequest-v6f0ext	MBMSModificationRequest-v6f0ext-IEs,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

MBMSModificationRequest-v6b0ext-IEs ::= SEQUENCE {
		mbmsSelectedServiceInfo			MBMS-SelectedServiceInfo
}

MBMSModificationRequest-v6f0ext-IEs ::= SEQUENCE {
		mbmsSupportOfServiceChangeForAPtpRB	ENUMERATED { true }				OPTIONAL
}

-- ***************************************************
--
-- MBMS MODIFIED SERVICES INFORMATION
--
-- ***************************************************

MBMSModifiedServicesInformation ::= SEQUENCE {
	-- MBMS Modified Services Information IEs
		modifedServiceList				MBMS-ModifedServiceList-r6			OPTIONAL,
		mbms-ReacquireMCCH				ENUMERATED { true }					OPTIONAL,
		mbms-DynamicPersistenceLevel	DynamicPersistenceLevel				OPTIONAL,
		endOfModifiedMCCHInformation	INTEGER (1..16)						OPTIONAL,
		mbmsNumberOfNeighbourCells		MBMS-NumberOfNeighbourCells-r6,
		mbms-AllUnmodifiedPTMServices	ENUMERATED { true }					OPTIONAL,
		mbms-PTMActivationTime			MBMS-PTMActivationTime-r6			OPTIONAL,
	-- Non critical extensions
		v770NonCriticalExtensions		SEQUENCE {
			mbmsModifiedServicesInformation-v770ext
											MBMSModifiedServicesInformation-v770ext-IEs,
			v7c0NonCriticalExtensions		SEQUENCE {
				mbmsModifiedServicesInformation-v7c0ext
												MBMSModifiedServicesInformation-v7c0ext-IEs,
				nonCriticalExtensions			SEQUENCE {}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

MBMSModifiedServicesInformation-v770ext-IEs ::= SEQUENCE {
		modifiedServiceList				MBMS-ModifiedServiceList-v770ext	OPTIONAL,
		mib-ValueTag					MIB-ValueTag						OPTIONAL
}

MBMSModifiedServicesInformation-v7c0ext-IEs ::= SEQUENCE {
		modifiedServiceList				MBMS-ModifiedServiceList-LCR-v7c0ext	OPTIONAL
}

-- ***************************************************
--
-- MBMS NEIGHBOURING CELL PTM RB INFORMATION
--
-- ***************************************************

MBMSNeighbouringCellPTMRBInformation ::= SEQUENCE {
	-- MBMS Neighbouring Cell PTM RB Information IEs
		neighbouringCellIdentity		IntraFreqCellID,
		neighbouringCellSCCPCHList		MBMS-NeighbouringCellSCCPCHList-r6,
	-- Non critical extensions
		v770NonCriticalExtensions		SEQUENCE {
			mbmsNeighbouringCellPTMRBInformation-v770ext
											MBMSNeighbouringCellPTMRBInformation-v770ext-IEs,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}		OPTIONAL
}

MBMSNeighbouringCellPTMRBInformation-v770ext-IEs ::= SEQUENCE {
	-- The "choice_PhyCH" in the tabular is realized by using the following IE due to the 
	-- constraint in the ASN.1 implementation.
		neighbouringCellSCCPCHList		MBMS-NeighbouringCellSCCPCHList-v770ext		OPTIONAL
}


-- ***************************************************
--
-- MBMS SCHEDULING INFORMATION
--
-- ***************************************************

MBMSSchedulingInformation ::= SEQUENCE {
	-- MBMS Scheduling Information IEs
		serviceSchedulingInfoList		MBMS-ServiceSchedulingInfoList-r6,
	-- Non critical extensions
		nonCriticalExtensions			SEQUENCE {}		OPTIONAL
}

-- ***************************************************
--
-- MBMS UNMODIFIED SERVICES INFORMATION
--
-- ***************************************************

MBMSUnmodifiedServicesInformation ::= SEQUENCE {
	-- MBMS Unmodified Services Information IEs
		unmodifiedServiceList			MBMS-UnmodifiedServiceList-r6		OPTIONAL,
	-- Non critical extensions
		v770NonCriticalExtensions		SEQUENCE {
			mbmsUnmodifiedServicesInformation-v770ext
											MBMSUnmodifiedServicesInformation-v770ext-IEs,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
		}		OPTIONAL
}

MBMSUnmodifiedServicesInformation-v770ext-IEs ::= SEQUENCE {
		unmodifiedServiceList			MBMS-UnmodifiedServiceList-v770ext	OPTIONAL
}

-- ***************************************************
--
-- System Information Container
--
-- ***************************************************

System-Information-Container ::= SEQUENCE {
	mib									OCTET STRING (CONTAINING MasterInformationBlock),
	sysInfoTypeSB1						OCTET STRING (CONTAINING SysInfoTypeSB1)		OPTIONAL,
	sysInfoTypeSB2						OCTET STRING (CONTAINING SysInfoTypeSB2)		OPTIONAL,
	sysInfoType1						OCTET STRING (CONTAINING SysInfoType1),
	sysInfoType3						OCTET STRING (CONTAINING SysInfoType3),
	sysInfoType5						OCTET STRING (CONTAINING SysInfoType5),
	sysInfoType7						OCTET STRING (CONTAINING SysInfoType7),
	sysInfoType11						OCTET STRING (CONTAINING SysInfoType11)			OPTIONAL,
	sysInfoType11bis					OCTET STRING (CONTAINING SysInfoType11bis)		OPTIONAL,
	sysInfoType12						OCTET STRING (CONTAINING SysInfoType12)			OPTIONAL,
	vb50NonCriticalExtensions		SEQUENCE {
		system-Information-Container-vb50ext	System-Information-Container-vb50ext-IEs,
		vc50NonCriticalExtensions		SEQUENCE {
			system-Information-Container-vc50ext	System-Information-Container-vc50ext-IEs,
			nonCriticalExtensions				SEQUENCE {} 			OPTIONAL
		}	OPTIONAL
	}	OPTIONAL
}

System-Information-Container-vb50ext-IEs ::=	SEQUENCE {
	sysInfoType22					OCTET STRING (CONTAINING SysInfoType22)			OPTIONAL
}

System-Information-Container-vc50ext-IEs ::=	SEQUENCE {
	sysInfoType11ter				OCTET STRING (CONTAINING SysInfoType11ter)		OPTIONAL
}
-- ***************************************************
--
-- LOGGING MEASUREMENT CONFIGURATION
--
-- ***************************************************

LoggingMeasurementConfiguration ::= SEQUENCE {
	rrc-TransactionIdentifier		RRC-TransactionIdentifier,
	criticalExtensions				CHOICE {
		r10						SEQUENCE {
			loggingMeasurementConfiguration-r10-IEs			LoggingMeasurementConfiguration-r10-IEs,
			-- Container for additional R10 extensions
			loggingMeasurementConfiguration-r10-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions	SEQUENCE {}		OPTIONAL
		},
		criticalExtensions				CHOICE {
			r11								SEQUENCE {
				loggingMeasurementConfiguration-r11-IEs		LoggingMeasurementConfiguration-r11-IEs,
				loggingMeasurementConfiguration-r11-add-ext		BIT STRING		OPTIONAL,
				nonCriticalExtensions	SEQUENCE {}		OPTIONAL
			},
			criticalExtensions			SEQUENCE {}
		}
	}
}

LoggingMeasurementConfiguration-r10-IEs ::= SEQUENCE {
	loggedMeasurementsConfigurationInfo		LoggedMeasurementsConfigurationInfo		OPTIONAL,
	loggedANRConfigurationInfo				LoggedANRConfigurationInfo				OPTIONAL
}

LoggingMeasurementConfiguration-r11-IEs ::= SEQUENCE {
	loggedMeasurementsConfigurationInfo		LoggedMeasurementsConfigurationInfo-r11		OPTIONAL,
	loggedANRConfigurationInfo				LoggedANRConfigurationInfo				OPTIONAL
}

-- ***************************************************
--
-- UE INFORMATION RESPONSE
--
-- ***************************************************

UEInformationResponse ::= SEQUENCE {
	rrc-TransactionIdentifier		RRC-TransactionIdentifier,
	loggedMeasReport				LoggedMeasReport			OPTIONAL,
	loggedANRReportInfoList			LoggedANRReportInfoList		OPTIONAL,
	vb50NonCriticalExtensions			SEQUENCE {
		ueInformationResponse-vb50ext	UEInformationResponse-vb50ext-IEs,
		vbb0NonCriticalExtensions		SEQUENCE {
			ueInformationResponse-vbb0ext	UEInformationResponse-vbb0ext-IEs,
			vc50NonCriticalExtensions			SEQUENCE {
				ueInformationResponse-vc50ext		UEInformationResponse-vc50ext-IEs,							nonCriticalExtensions			SEQUENCE {}			OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
	}	OPTIONAL
}

UEInformationResponse-vb50ext-IEs ::= SEQUENCE {
	loggedMeasReport				LoggedMeasReport-vb50ext	OPTIONAL,
	-- dummy is not used in this version of the specification. It should not be sent and
	-- if received it should be ignored.
	dummy							ConnectionEstablishmentFailureReport		OPTIONAL,
	loggedANRReportInfoList			LoggedANRReportInfoList-vb50ext				OPTIONAL
}

UEInformationResponse-vbb0ext-IEs ::= SEQUENCE {
	connectionEstablishmentFailureReport	
									ConnectionEstablishmentFailureReport-r11	OPTIONAL
}

UEInformationResponse-vc50ext-IEs ::= SEQUENCE {
	loggedMeasReport				LoggedMeasReport-vc50ext	OPTIONAL,
	connectionEstablishmentFailureReport	
									ConnectionEstablishmentFailureReport-vc50ext	OPTIONAL
}

-- ***************************************************
--
-- UE INFORMATION REQUEST
--
-- ***************************************************

UEInformationRequest ::= SEQUENCE {
	rrc-TransactionIdentifier		RRC-TransactionIdentifier,
	criticalExtensions				CHOICE {
		r10						SEQUENCE {
			ueInformationRequest-r10				UEInformationRequest-r10-IEs,
			-- Container for additional R10 extensions
			ueInformationRequest-r10-add-ext		BIT STRING		OPTIONAL,
			nonCriticalExtensions	SEQUENCE {}		OPTIONAL
		},
		criticalExtensions				CHOICE {
			r11						SEQUENCE {
				ueInformationRequest-r11	UEInformationRequest-r11-IEs,
				-- Container for additional R11 extensions
				ueInformationRequest-r11-add-ext	BIT STRING		OPTIONAL,
				nonCriticalExtensions				SEQUENCE {}		OPTIONAL
			},
			criticalExtensions				SEQUENCE {}
		}
	}
}

UEInformationRequest-r10-IEs ::= SEQUENCE {
	loggedMeasReportRequest		ENUMERATED { true }	OPTIONAL,
	loggedANRReportRequest		ENUMERATED { true }	OPTIONAL
}

UEInformationRequest-r11-IEs ::= SEQUENCE {
	loggedMeasReportRequest		ENUMERATED { true }	OPTIONAL,
	loggedANRReportRequest		ENUMERATED { true }	OPTIONAL,
	connectionEstablishmentFailureRequest		ENUMERATED { true }	OPTIONAL
}

END
11.3	Information element definitions
InformationElements DEFINITIONS AUTOMATIC TAGS ::=

BEGIN

IMPORTS

	hiPDSCHidentities,
	hiPUSCHidentities,
	hiRM,
	maxAC,
	maxAdditionalMeas,
	maxAddPos,
	maxMultipleFrequencyBandsEUTRA,
	maxMultipleFrequencyBandsFDD,
	maxASC,
	maxASCmap,
	maxASCpersist,
	maxBeacons,
	maxBTs,
	maxCCTrCH,
	maxCellMeas,
	maxCellMeas-1,
	maxCellMeas-ext,
	maxCellMeas-ext2,
	maxCellMeas-ext-1,
	maxCellMeasOnSecULFreq,
	maxCellMeasOnSecULFreq-1,
	maxCNdomains,
	maxCommonHRNTI,
	maxCommonQueueID,
	maxCPCHsets,
	maxDedicatedCSGFreq,
	maxDPCH-DLchan,
	maxDPDCH-UL,
	maxDRACclasses,
	maxE-DCHMACdFlow,
	maxE-DCHMACdFlow-1,
	maxEDCHs,
	maxEDCHs-1,
	maxEDCHTxPattern-TDD128,
	maxEDCHTxPattern-TDD128-1,
	maxERNTIgroup,
	maxERNTIperGroup,
	maxERUCCH,
	maxEUTRACellPerFreq,
	maxEUTRATargetFreqs,
	maxExcludedDetectedSetCells,
	maxFACHPCH,
	maxFreq,
	maxFreqBandsEUTRA,
	maxFreqBandsEUTRA-ext,
	maxFreqBandsFDD,
	maxFreqBandsFDD2,
	maxFreqBandsFDD3,
	maxFreqBandsFDD-ext,
	maxFreqBandsFDD-ext2,
	maxFreqBandsFDD-ext3,
	maxFreqBandsIndicatorSupport,
	maxFreqBandsTDD,
	maxFreqBandsTDD-ext,
	maxFreqBandsGSM,
	maxFreqMeasWithoutCM,
	maxGANSS,
	maxGANSS-1,
	maxGANSSSat,
	maxGANSSSat-1,
	maxGERAN-SI,
	maxHNBNameSize,
	maxHProcesses,
	maxHSDSCHTBIndex,
	maxHSDSCHTBIndex-tdd384,
	maxHSSCCHs,
	maxHSSCCHs-1,
	maxHSSICH-TDD128,
	maxHSSICH-TDD128-1,
	maxHS-SCCHLessTrBlk,
	maxIGPInfo,
	maxInterSysMessages,
	maxLoCHperRLC,
	maxLoggedMeasReport,
	maxnumLoggedMeas,
	maxMAC-d-PDUsizes,
	maxMBMS-CommonCCTrCh,
	maxMBMS-CommonPhyCh,
	maxMBMS-CommonRB,
	maxMBMS-CommonTrCh,
	maxMBMS-Freq,
	maxMBMS-L1CP,
	maxMBMSservCount,
	maxMBMSservModif,
	maxMBMSservSched,
	maxMBMSservSelect,
	maxMBMSservUnmodif,
	maxMBMSTransmis,
	maxMBSFNClusters,
	maxMeasCSGRange,
	maxMeasEvent,
	maxMeasEventOnSecULFreq,
	maxMeasIdentity,
	maxMeasIntervals,
	maxMeasParEvent,
	maxNonContiguousMultiCellCombinations,
	maxMeasOccasionPattern,
	maxMeasOccasionPattern-1,
	maxNumAccessGroups,
	maxNumAcdcCategory,
	maxNumCDMA2000Freqs,
	maxNumE-AGCH,
	maxNumE-HICH,
	maxNumEUTRAFreqs,
	maxNumEUTRAFreqs-FACH,
	maxNumEUTRAFreqs-FACH-ext,
	maxNumFDDFreqs,
	maxNumGSMCellGroup,
	maxNumGSMFreqRanges,
	maxGSMTargetCells,
	maxNumMDTPLMN,
	maxNumTDDFreqs,
	maxNumANRLoggedItems,
	maxOtherRAT,
	maxOtherRAT-16,
	maxPage1,
	maxPCPCH-APsig,
	maxPCPCH-APsubCh,
	maxPCPCH-CDsig,
	maxPCPCH-CDsubCh,
	maxPCPCH-SF,
	maxPCPCHs,
	maxPDCPAlgoType,
	maxPDSCH,
	maxPDSCH-TFCIgroups,
	maxPRACH,
	maxPRACH-EUL,
	maxPRACH-FPACH,
	maxPredefConfig,
	maxOtherStateConfig,
	maxOtherStateConfig-1,
	maxPrio,
	maxPrio-1,
	maxPrio-ext,
	maxPUSCH,
	maxQueueIDs,
	maxRABsetup,
	maxRAT,
	maxRB,
	maxRBallRABs,
	maxRBperTrCh,
	maxRBMuxOptions,
	maxRBperRAB,
	maxReportedEUTRAFreqs,
	maxReportedEUTRAFreqs-ext,
	maxReportedEUTRACellPerFreq,
	maxReportedGSMCells,
	maxRetrievConfig,
	maxRetrievConfig-1,
	maxRLCPDUsizePerLogChan,
	maxRMPfrequencies,
	maxSRBsetup,
	maxRL,
	maxRL-1,
	maxEDCHRL,
	maxEDCHRL-1,
	maxROHC-PacketSizes-r4,
	maxROHC-Profile-r4,
	maxRxPatternForHSDSCH-TDD128,
	maxRxPatternForHSDSCH-TDD128-1,
	maxSat,
	maxSatClockModels,
	maxSCCPCH,
	maxSgnType,
	maxSIB,
	maxSIB2,
	maxSIB-FACH,
	maxSIrequest,
	maxSystemCapability,
	maxTDD128Carrier,
	maxTDD128Carrier-1,
	maxTbsForHSDSCH-TDD128,
	maxTbsForHSDSCH-TDD128-1,
	maxTF,
	maxTF-CPCH,
	maxTFC,
	maxTFCsub,
	maxTFCI-2-Combs,
	maxTGPS,
	maxTrCH,
	maxTrCHConcat,
	maxTrCHpreconf,
	maxTS,
	maxTS-1,
	maxTS-2,
	maxTS-LCR,
	maxTS-LCR-1,
	maxURA,
	maxURNTI-Group,
	maxWLANs,
	maxWLANID
FROM Constant-definitions;

-- ***************************************************
--
--     CORE NETWORK INFORMATION ELEMENTS (10.3.1)
--
-- ***************************************************

Ansi-41-IDNNS ::=							BIT STRING (SIZE (14))

CN-DomainIdentity ::=				ENUMERATED {
										cs-domain,
										ps-domain }

CN-DomainInformation ::=			SEQUENCE {
	cn-DomainIdentity					CN-DomainIdentity,
	cn-DomainSpecificNAS-Info			NAS-SystemInformationGSM-MAP
}

CN-DomainInformationFull ::=		SEQUENCE {
	cn-DomainIdentity					CN-DomainIdentity,
	cn-DomainSpecificNAS-Info			NAS-SystemInformationGSM-MAP,
	cn-DRX-CycleLengthCoeff				CN-DRX-CycleLengthCoefficient
}

CN-DomainInformationList ::=		SEQUENCE (SIZE (1..maxCNdomains)) OF
										CN-DomainInformation

CN-DomainInformationListFull ::=	SEQUENCE (SIZE (1..maxCNdomains)) OF
										CN-DomainInformationFull

CN-DomainSysInfo ::=				SEQUENCE {
	cn-DomainIdentity					CN-DomainIdentity,
	cn-Type								CHOICE {
		gsm-MAP								NAS-SystemInformationGSM-MAP,
		ansi-41								NAS-SystemInformationANSI-41
	},
	cn-DRX-CycleLengthCoeff				CN-DRX-CycleLengthCoefficient
}

CN-DomainSysInfoList ::=			SEQUENCE (SIZE (1..maxCNdomains)) OF
										CN-DomainSysInfo

CN-InformationInfo ::= 				SEQUENCE {
	plmn-Identity						PLMN-Identity						OPTIONAL,
	cn-CommonGSM-MAP-NAS-SysInfo		NAS-SystemInformationGSM-MAP		OPTIONAL,
	cn-DomainInformationList			CN-DomainInformationList			OPTIONAL
}

CN-InformationInfo-r6 ::= 			SEQUENCE {
	plmn-Identity						PLMN-Identity						OPTIONAL,
	cn-CommonGSM-MAP-NAS-SysInfo		NAS-SystemInformationGSM-MAP		OPTIONAL,
	cn-DomainInformationList			CN-DomainInformationList			OPTIONAL,
	primary-plmn-Identity				PLMN-Identity						OPTIONAL
}

CN-InformationInfoFull ::= 			SEQUENCE {
	plmn-Identity						PLMN-Identity						OPTIONAL,
	cn-CommonGSM-MAP-NAS-SysInfo		NAS-SystemInformationGSM-MAP		OPTIONAL,
	cn-DomainInformationListFull		CN-DomainInformationListFull		OPTIONAL
}

Digit ::=							INTEGER (0..9)

DomainSpecificEAB-Parameters ::= 	SEQUENCE {
	cs-DomainSpecificEAB-Parameters		EAB-Configuration					OPTIONAL,
	ps-DomainSpecificEAB-Parameters		EAB-Configuration					OPTIONAL,
	commonEAB-Parameters				EAB-Configuration				OPTIONAL
}

EAB-AccessClassBarredList ::=		SEQUENCE (SIZE (10)) OF
										AccessClassBarred

EAB-Configuration ::= 				SEQUENCE {
	eab-Category						ENUMERATED {a,b,c},
	eab-AccessClassBarredList			EAB-AccessClassBarredList
}

EAB-Parameters ::= 		CHOICE {
	eab-ParametersPerPLMN-List			EAB-ParametersPerPLMN-List,
	eab-ParametersForAll				DomainSpecificEAB-Parameters
}

EAB-ParametersPerPLMN ::=			SEQUENCE {
	domainSpecificEAB-Parameters		DomainSpecificEAB-Parameters		OPTIONAL
} 

EAB-ParametersPerPLMN-List ::= 		SEQUENCE (SIZE (1..6)) OF EAB-ParametersPerPLMN
										
Ec-N0forANR ::= SEQUENCE {
	ec-N0								INTEGER (-24..0)					OPTIONAL
}

Gsm-map-IDNNS ::=							SEQUENCE {
	routingbasis									CHOICE {
		localPTMSI										SEQUENCE {
			routingparameter								RoutingParameter
		},
		tMSIofsamePLMN									SEQUENCE {
			routingparameter								RoutingParameter
		},
		tMSIofdifferentPLMN								SEQUENCE {
			routingparameter								RoutingParameter
		},
		iMSIresponsetopaging							SEQUENCE {
			routingparameter								RoutingParameter
		},
		iMSIcauseUEinitiatedEvent						SEQUENCE {
			routingparameter								RoutingParameter
		},
		iMEI											SEQUENCE {
			routingparameter								RoutingParameter
		},
		spare2											SEQUENCE {
			routingparameter								RoutingParameter
		},
		spare1											SEQUENCE {
			routingparameter								RoutingParameter
		}
	},
	-- dummy is not used in this version of the specification and
	-- it should be ignored by the receiver.
	dummy									BOOLEAN
}

IMEI ::=							SEQUENCE (SIZE (15)) OF
										IMEI-Digit

IMEI-Digit ::=						INTEGER (0..15)

IMSI-GSM-MAP ::=					SEQUENCE (SIZE (6..21)) OF
										Digit

IntraDomainNasNodeSelector ::=					SEQUENCE {
	version											CHOICE {
		release99										SEQUENCE {
			cn-Type											CHOICE {
				gsm-Map-IDNNS									Gsm-map-IDNNS,
				ansi-41-IDNNS									Ansi-41-IDNNS
			}
		},
		later											SEQUENCE {
			futurecoding									BIT STRING (SIZE (15))
		}
	}
}

LAI ::=								SEQUENCE {
	plmn-Identity						PLMN-Identity,
	lac									BIT STRING (SIZE (16))
}

LocationRegistrationAccessClassBarredList ::= SEQUENCE (SIZE (15)) OF
												AccessClassBarred

LocationRegistrationParameters ::=	CHOICE {
	noRestriction						NULL,
	restriction							LocationRegistrationAccessClassBarredList
}

MCC ::=								SEQUENCE (SIZE (3)) OF
										Digit

MNC ::=								SEQUENCE (SIZE (2..3)) OF
										Digit

MultiplePLMN-List-r6 ::=			SEQUENCE {
	mibPLMN-Identity					BOOLEAN,
	multiplePLMNs						SEQUENCE (SIZE (1..5)) OF
											PLMN-IdentityWithOptionalMCC-r6
}

NAS-Message ::=						OCTET STRING (SIZE (1..4095))

NAS-Synchronisation-Indicator ::=	BIT STRING(SIZE(4))

NAS-SystemInformationGSM-MAP ::= 	OCTET STRING (SIZE (1..8))

P-TMSI-GSM-MAP ::=					BIT STRING (SIZE (32))

PagingPermissionWithAccessControlForSharedNetwork ::= CHOICE {
	pagingPermissionWithAccessControlList	PagingPermissionWithAccessControlList,
	pagingPermissionWithAccessControlForAll	PagingPermissionWithAccessControlParameters
}

PagingPermissionWithAccessControlList ::= SEQUENCE {
	pagingPermissionWithAccessControlParametersForOperator1
									PagingPermissionWithAccessControlParameters		OPTIONAL,
	pagingPermissionWithAccessControlParametersForOperator2
									PagingPermissionWithAccessControlParameters		OPTIONAL,
	pagingPermissionWithAccessControlParametersForOperator3
									PagingPermissionWithAccessControlParameters		OPTIONAL,
	pagingPermissionWithAccessControlParametersForOperator4
									PagingPermissionWithAccessControlParameters		OPTIONAL,
	pagingPermissionWithAccessControlParametersForOperator5
									PagingPermissionWithAccessControlParameters		OPTIONAL
}

PagingPermissionWithAccessControlParameters ::= SEQUENCE {
	pagingResponseRestrictionIndicator			ENUMERATED {all, cS, pS, none},
	locationRegistrationRestrictionIndicator	ENUMERATED {all, cS, pS},
	locationRegistration						LocationRegistrationParameters
}

PagingRecordTypeID ::=				ENUMERATED {
										imsi-GSM-MAP,
										tmsi-GSM-MAP-P-TMSI,
										imsi-DS-41,
										tmsi-DS-41 }

PLMN-Identity ::=					SEQUENCE {
	mcc									MCC,
	mnc									MNC
}

PLMN-IdentityWithOptionalMCC-r6 ::=	SEQUENCE {
	mcc									MCC						OPTIONAL,
	mnc									MNC
}

PLMN-Type ::=						CHOICE {
	gsm-MAP								SEQUENCE {
		plmn-Identity						PLMN-Identity
	},
	ansi-41							SEQUENCE {
		p-REV							P-REV,
		min-P-REV						Min-P-REV,
		sid								SID,
		nid								NID
	},
	gsm-MAP-and-ANSI-41				SEQUENCE {
		plmn-Identity					PLMN-Identity,
		p-REV							P-REV,
		min-P-REV						Min-P-REV,
		sid								SID,
		nid								NID
	},
	spare							NULL
}

RAB-Identity ::=					CHOICE {
	gsm-MAP-RAB-Identity				BIT STRING (SIZE (8)),
	ansi-41-RAB-Identity				BIT STRING (SIZE (8))
}

RAI ::=								SEQUENCE {
	lai									LAI,
	rac									RoutingAreaCode
}

RoutingAreaCode ::=					BIT STRING (SIZE (8))

RoutingParameter ::=							BIT STRING (SIZE (10))

TMSI-GSM-MAP ::=					BIT STRING (SIZE (32))

-- ***************************************************
--
--     UTRAN MOBILITY INFORMATION ELEMENTS (10.3.2)
--
-- ***************************************************

AccessClassBarred ::=				ENUMERATED {
										barred, notBarred }

AccessClassBarredList ::=			SEQUENCE (SIZE (maxAC)) OF
										AccessClassBarred

AllowedIndicator ::=				ENUMERATED {
										allowed, notAllowed }

CellAccessRestriction ::=			SEQUENCE {
	cellBarred							CellBarred,
	cellReservedForOperatorUse			ReservedIndicator,
	cellReservationExtension			ReservedIndicator,
	-- NOTE: IE accessClassBarredList should not be included if the IE CellAccessRestriction
	-- is included in the IE SysInfoType4
	accessClassBarredList				AccessClassBarredList				OPTIONAL
}

CellAccessRestriction-v870ext ::=	SEQUENCE {
	cellReservedForCSG					ENUMERATED { true }				OPTIONAL
}

CellBarred ::=						CHOICE {
	barred								SEQUENCE {
		intraFreqCellReselectionInd			AllowedIndicator,
		t-Barred							T-Barred
	},
	notBarred							NULL
}

CellIdentity ::=					BIT STRING (SIZE (28))

CellIdentity-PerRL-List ::=			SEQUENCE (SIZE (1..maxRL)) OF CellIdentity

CellIDListItem ::= SEQUENCE {
	cell-Identity		CellIdentity,
	plmn-Identity 		PLMN-Identity 		OPTIONAL
}

CellSelectReselectInfoSIB-3-4 ::=	SEQUENCE {
	mappingInfo							MappingInfo							OPTIONAL,
	cellSelectQualityMeasure			CHOICE {
		cpich-Ec-N0							SEQUENCE {
			-- Default value for q-HYST-2-S is q-HYST-1-S
			q-HYST-2-S							Q-Hyst-S					OPTIONAL
		},
		cpich-RSCP							NULL
	},
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			s-Intrasearch						S-SearchQual				OPTIONAL,
			s-Intersearch						S-SearchQual				OPTIONAL,
			s-SearchHCS							S-SearchRXLEV				OPTIONAL,
			rat-List							RAT-FDD-InfoList			OPTIONAL,
			q-QualMin							Q-QualMin,
			q-RxlevMin							Q-RxlevMin
		},
		tdd									SEQUENCE {
			s-Intrasearch						S-SearchRXLEV				OPTIONAL,
			s-Intersearch						S-SearchRXLEV				OPTIONAL,
			s-SearchHCS							S-SearchRXLEV				OPTIONAL,
			rat-List							RAT-TDD-InfoList			OPTIONAL,
			q-RxlevMin							Q-RxlevMin
		}
	},	
	q-Hyst-l-S							Q-Hyst-S,
	t-Reselection-S						T-Reselection-S,
	hcs-ServingCellInformation			HCS-ServingCellInformation			OPTIONAL,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power
}

CSG-DedicatedFrequencyInfoList ::=	SEQUENCE (SIZE (1..maxDedicatedCSGFreq)) OF
										FrequencyInfo

CSG-Identity ::=					BIT STRING (SIZE (27))

CSG-PSCSplitInfo ::=				SEQUENCE {
	-- Actual value = IE value * 8
	startPSC							INTEGER (0..63),
	numberOfPSCs						ENUMERATED { psc5, psc10, psc15, psc20,
											psc30, psc40, psc50, psc64, psc80,
											psc120, psc160, psc256, alltheRest,
											spare3, spare2, spare1 },
	-- Actual value = IE value * 8
	pscRange2Offset						INTEGER (1..63)						OPTIONAL
}

DedicatedWLANOffloadInformation ::=	SEQUENCE {
	configurationInfo					CHOICE {
		continue 							NULL,
		newConfiguration					SEQUENCE {
			t-330								T-330								OPTIONAL,
			wlanOffloadInformation				WLANOffloadInformation
		}
	}
}

DomainSpecificAccessRestrictionForSharedNetwork-v670ext ::= CHOICE {
		domainSpecificAccessRestictionList			DomainSpecificAccessRestrictionList-v670ext,
		domainSpecificAccessRestictionParametersForAll
													DomainSpecificAccessRestrictionParam-v670ext
}

DomainSpecificAccessRestrictionList-v670ext ::= SEQUENCE {
		domainSpecificAccessRestrictionParametersForOperator1
									DomainSpecificAccessRestrictionParam-v670ext	OPTIONAL,
		domainSpecificAccessRestrictionParametersForOperator2
									DomainSpecificAccessRestrictionParam-v670ext	OPTIONAL,
		domainSpecificAccessRestrictionParametersForOperator3
									DomainSpecificAccessRestrictionParam-v670ext	OPTIONAL,
		domainSpecificAccessRestrictionParametersForOperator4
									DomainSpecificAccessRestrictionParam-v670ext	OPTIONAL,
		domainSpecificAccessRestrictionParametersForOperator5
									DomainSpecificAccessRestrictionParam-v670ext	OPTIONAL
}

DomainSpecificAccessRestrictionParam-v670ext ::= SEQUENCE {		
		cSDomainSpecificAccessRestriction		DomainSpecificAccessRestriction-v670ext,
		pSDomainSpecificAccessRestriction		DomainSpecificAccessRestriction-v670ext
}

DomainSpecificAccessRestriction-v670ext ::= CHOICE {
		noRestriction		NULL,
		restriction			SEQUENCE {
			domainSpecficAccessClassBarredList		AccessClassBarredList	OPTIONAL
		}
}

MapParameter ::=					INTEGER (0..127)

Mapping ::=							SEQUENCE {
	rat									RAT,
	mappingFunctionParameterList		MappingFunctionParameterList
}

Mapping-LCR-r4 ::=					SEQUENCE {
	mappingFunctionParameterList		MappingFunctionParameterList
}

MappingFunctionParameter ::=		SEQUENCE {
	functionType						MappingFunctionType,
	mapParameter1						MapParameter						OPTIONAL,
	mapParameter2						MapParameter,
	-- The presence of upperLimit is conditional on the number of repetition
	upperLimit							UpperLimit							OPTIONAL
}

MappingFunctionParameterList ::= 	SEQUENCE (SIZE (1..maxMeasIntervals)) OF
										MappingFunctionParameter

MappingFunctionType ::=				ENUMERATED {
										linear,
										functionType2,
										functionType3,
										functionType4 }

-- In MappingInfo list, mapping for FDD and 3.84Mcps TDD is defined.
-- For 1.28Mcps TDD, Mapping-LCR-r4 is used instead.
MappingInfo ::=						SEQUENCE (SIZE (1..maxRAT)) OF
										Mapping

OccurrenceSequenceNumberOfPICH ::=	INTEGER (1..maxSCCPCH)

DedicatedPriorityInformation ::=	SEQUENCE {
	action								CHOICE {
		clearDedicatedPriorities			NULL,
		configureDedicatedPriorities		SEQUENCE {
			t-322								T-322							OPTIONAL,
			priorityLevelList					PriorityLevelList				OPTIONAL,
			eutraDetection						BOOLEAN
		}
	}
}

DedicatedPriorityInformation-r11 ::=	SEQUENCE {
	action								CHOICE {
		clearDedicatedPriorities			NULL,
		configureDedicatedPriorities		SEQUENCE {
			t-322								T-322							OPTIONAL,
			priorityLevelList					PriorityLevelList-r11			OPTIONAL,
			eutraDetection						BOOLEAN
		}
	}
}

DedicatedPriorityInformation-r13 ::=	SEQUENCE {
	action								CHOICE {
		clearDedicatedPriorities			NULL,
		configureDedicatedPriorities		SEQUENCE {
			t-322								T-322							OPTIONAL,
			priorityLevelList					PriorityLevelList-r13			OPTIONAL,
			eutraDetection						BOOLEAN
		}
	}
}

PriorityLevel ::=					SEQUENCE {
	priority							INTEGER (0..maxPrio-1)					OPTIONAL,
	radioAccessTechnology				CHOICE {
		utraFDD								SEQUENCE (SIZE (1..maxNumFDDFreqs)) OF SEQUENCE{
			uarfcn								UARFCN
		},
		utraTDD								SEQUENCE (SIZE (1..maxNumTDDFreqs)) OF SEQUENCE{
			uarfcn								UARFCN
		},
		eutra								SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF SEQUENCE{
			earfcn								EARFCN
		},
		gsm									SEQUENCE {
			gsm-CellGroup						GSM-CellGroup
		}
	}
}

PriorityLevel-r11 ::=					SEQUENCE {
	priority							INTEGER (0..maxPrio-1)					OPTIONAL,
	radioAccessTechnology				CHOICE {
		utraFDD								SEQUENCE (SIZE (1..maxNumFDDFreqs)) OF SEQUENCE{
			uarfcn								UARFCN
		},
		utraTDD								SEQUENCE (SIZE (1..maxNumTDDFreqs)) OF SEQUENCE{
			uarfcn								UARFCN
		},
		eutra								SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF 
												EARFCNRange,
		gsm									SEQUENCE {
			gsm-CellGroup						GSM-CellGroup
		}
	}
}

PriorityLevel-r13 ::=					SEQUENCE {
	priority							INTEGER (0..maxPrio-1)					OPTIONAL,
	subpriority						ENUMERATED {oDot2,oDot4,oDot6,oDot8}		OPTIONAL,	radioAccessTechnology				CHOICE {
		utraFDD								SEQUENCE (SIZE (1..maxNumFDDFreqs)) OF SEQUENCE{
			uarfcn								UARFCN
		},
		utraTDD								SEQUENCE (SIZE (1..maxNumTDDFreqs)) OF SEQUENCE{
			uarfcn								UARFCN
		},
		eutra								SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF 
												EARFCNRange,
		gsm									SEQUENCE {
			gsm-CellGroup						GSM-CellGroup
		}
	}
}

PriorityLevelList ::=				SEQUENCE (SIZE (1..maxPrio)) OF
										PriorityLevel

PriorityLevelList-r11 ::=			SEQUENCE (SIZE (1..maxPrio)) OF
										PriorityLevel-r11

PriorityLevelList-r13 ::=			SEQUENCE (SIZE (1..maxPrio-ext)) OF
										PriorityLevel-r13


-- Actual value Q-Hyst-S = IE value * 2
Q-Hyst-S ::=						INTEGER (0..20)

Q-Hyst-S-Fine ::= INTEGER (0..40)

RAT ::=								ENUMERATED {
										utra-FDD,
										utra-TDD,
										gsm,
										cdma2000 }

RAT-FDD-Info ::=					SEQUENCE {
	rat-Identifier						RAT-Identifier,
	s-SearchRAT							S-SearchQual,
	s-HCS-RAT							S-SearchRXLEV							OPTIONAL,
	s-Limit-SearchRAT					S-SearchQual
}

RAT-FDD-InfoList ::=				SEQUENCE (SIZE (1..maxOtherRAT)) OF
										RAT-FDD-Info

RAT-Identifier ::=					ENUMERATED {
										gsm, cdma2000 }

RAT-TDD-Info ::=					SEQUENCE {
	rat-Identifier						RAT-Identifier,
	s-SearchRAT							S-SearchRXLEV,
	s-HCS-RAT							S-SearchRXLEV						OPTIONAL,
	s-Limit-SearchRAT					S-SearchRXLEV
}

RAT-TDD-InfoList ::=				SEQUENCE (SIZE (1..maxOtherRAT)) OF
										RAT-TDD-Info

ReservedIndicator ::=				ENUMERATED {
										reserved,
										notReserved }

-- Actual value S-SearchQual = IE value * 2
S-SearchQual ::=						INTEGER (-16..10)

-- Actual value S-SearchRXLEV = (IE value * 2) + 1
S-SearchRXLEV ::=						INTEGER (-53..45)

-- Actual value ScalingFactor = IE value * 0.1
SpeedDependentScalingFactor ::=		INTEGER (0..10)

T-Barred ::=						ENUMERATED {
										s10, s20, s40, s80,
										s160, s320, s640, s1280 }

T-Reselection-S ::=					INTEGER (0..31)

-- Actual value T-Reselection-S-Fine = IE value * 0.2
T-Reselection-S-Fine ::=			INTEGER (0..31)

-- Actual value ScalingFactor = IE value * 0.25
TreselectionScalingFactor ::=		INTEGER (4..19)

-- Actual value ScalingFactor2 = IE value * 0.25
TreselectionScalingFactor2 ::=		INTEGER (1..16)

-- For UpperLimit, the used range depends on the RAT used.
UpperLimit ::=						INTEGER (1..91)

URA-Identity ::=					BIT STRING (SIZE (16))

URA-IdentityList ::=				SEQUENCE (SIZE (1..maxURA)) OF
										URA-Identity

-- ***************************************************
--
--     USER EQUIPMENT INFORMATION ELEMENTS (10.3.3)
--
-- ***************************************************

AccessGroupIdentity ::=				INTEGER (0..15)

AccessStratumReleaseIndicator ::=	ENUMERATED {
										rel-4, rel-5, rel-6, rel-7, rel-8,
										rel-9, rel-10, rel-11, rel-12,
										rel-13, rel-14, rel-15, rel-16, spare3,
										spare2, spare1 }

-- TABULAR : for ActivationTime, value 'now' always appear as default, and is encoded
-- by absence of the field
ActivationTime ::=					INTEGER (0..255)

BackoffControlParams ::=			SEQUENCE {
	n-AP-RetransMax						N-AP-RetransMax,
	n-AccessFails						N-AccessFails,
	nf-BO-NoAICH						NF-BO-NoAICH,
	ns-BO-Busy							NS-BO-Busy,
	nf-BO-AllBusy						NF-BO-AllBusy,
	nf-BO-Mismatch						NF-BO-Mismatch,
	t-CPCH								T-CPCH
}

BandComb	::=						INTEGER (1..256)

C-RNTI ::=							BIT STRING (SIZE (16))

CapabilityUpdateRequirement ::=		SEQUENCE {
	ue-RadioCapabilityFDDUpdateRequirement	BOOLEAN,
	-- ue-RadioCapabilityTDDUpdateRequirement is for 3.84Mcps TDD update requirement
	ue-RadioCapabilityTDDUpdateRequirement	BOOLEAN,
	systemSpecificCapUpdateReqList		SystemSpecificCapUpdateReqList		OPTIONAL
}

CapabilityUpdateRequirement-r4-ext ::= SEQUENCE {
	ue-RadioCapabilityUpdateRequirement-TDD128	BOOLEAN
}

CapabilityUpdateRequirement-r4 ::=	SEQUENCE {
	ue-RadioCapabilityFDDUpdateRequirement-FDD	BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD384	BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD128	BOOLEAN,
	systemSpecificCapUpdateReqList		SystemSpecificCapUpdateReqList		OPTIONAL
}

CapabilityUpdateRequirement-r5 ::=	SEQUENCE {
	ue-RadioCapabilityFDDUpdateRequirement-FDD		BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD384	BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD128	BOOLEAN,
	systemSpecificCapUpdateReqList		SystemSpecificCapUpdateReqList-r5		OPTIONAL
}

CapabilityUpdateRequirement-v770ext ::= SEQUENCE {
	ue-RadioCapabilityTDDUpdateRequirement-TDD768	BOOLEAN
}

CapabilityUpdateRequirement-r7 ::=	SEQUENCE {
	ue-RadioCapabilityFDDUpdateRequirement-FDD		BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD384	BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD768	BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD128	BOOLEAN,
	systemSpecificCapUpdateReqList		SystemSpecificCapUpdateReqList-r5		OPTIONAL
}

CapabilityUpdateRequirement-v860ext ::= SEQUENCE {
	-- If both IEs are present, the elements in the IE SystemSpecificCapUpdateReqList-r8
	-- shall be appended to the elements in the IE SystemSpecificCapUpdateReqList
	systemSpecificCapUpdateReqList		SystemSpecificCapUpdateReqList-r8		OPTIONAL
}

CapabilityUpdateRequirement-r8 ::=	SEQUENCE {
	ue-RadioCapabilityFDDUpdateRequirement-FDD		BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD384	BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD768	BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD128	BOOLEAN,
	systemSpecificCapUpdateReqList		SystemSpecificCapUpdateReqList-r8		OPTIONAL
}

CapabilityUpdateRequirement-vaj0ext ::= SEQUENCE {
	eUTRAbandSpecificCapUpdateReqList	EUTRAbandSpecificCapUpdateReqList
}

CapabilityUpdateRequirement-r12 ::=	SEQUENCE {
	ue-RadioCapabilityFDDUpdateRequirement-FDD		BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD384	BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD768	BOOLEAN,
	ue-RadioCapabilityTDDUpdateRequirement-TDD128	BOOLEAN,
	systemSpecificCapUpdateReqList		SystemSpecificCapUpdateReqList-r8		OPTIONAL,
	eUTRAbandSpecificCapUpdateReqList	EUTRAbandSpecificCapUpdateReqList		OPTIONAL
}


-- If the IE CellUpdateCause has the value 'cellUpdateCause-ext', the actual value is
-- defined in the IE CellUpdateCause-ext.
CellUpdateCause ::=					ENUMERATED { 
										cellReselection,
										periodicalCellUpdate,
										uplinkDataTransmission,
										utran-pagingResponse,
										re-enteredServiceArea,
										radiolinkFailure,
										rlc-unrecoverableError,
										cellUpdateCause-ext }

-- The IE CellUpdateCause-ext shall be present, if the IE CellUpdateCause has the
-- value 'cellUpdateCause-ext'.
-- dummy is not used in this version of the specification, it should not be sent
-- and if received it should be ignored by the receiver.
CellUpdateCause-ext ::=				ENUMERATED {
										mbms-Reception,
										mbms-PTP-RB-Request,
										dummy,
										cellUpdateCause-ext2 }

-- The IE CellUpdateCause-ext2 shall be present, if the IE CellUpdateCause-ext has the
-- value 'cellUpdateCause-ext2'.

CellUpdateCause-ext2 ::=			ENUMERATED {
										applicationLayerMeasurementReportAvailable,
										spare3,
										spare2,
										spare1 }

ChipRateCapability ::=				ENUMERATED {
										mcps3-84, mcps1-28 }

CipheringAlgorithm ::=				ENUMERATED {
										uea0, uea1 }

CipheringAlgorithm-r7 ::=			ENUMERATED {
										uea0, uea1, uea2 }

CipheringModeCommand ::=			CHOICE {
	startRestart						CipheringAlgorithm,
	dummy								NULL
}

CipheringModeCommand-r7 ::=			SEQUENCE {
	startRestart						CipheringAlgorithm-r7
}

CipheringModeInfo ::=				SEQUENCE {
	-- TABULAR: The ciphering algorithm is included in the CipheringModeCommand.
	cipheringModeCommand				CipheringModeCommand,
	activationTimeForDPCH				ActivationTime						OPTIONAL,
	rb-DL-CiphActivationTimeInfo		RB-ActivationTimeInfoList			OPTIONAL
}

CipheringModeInfo-r7 ::=			SEQUENCE {
	-- TABULAR: The ciphering algorithm is included in the CipheringModeCommand.
	cipheringModeCommand				CipheringModeCommand-r7,
	activationTimeForDPCH				ActivationTime						OPTIONAL,
	rb-DL-CiphActivationTimeInfo		RB-ActivationTimeInfoList			OPTIONAL
}

CN-DRX-CycleLengthCoefficient ::=	INTEGER (6..9)

CN-PagedUE-Identity ::=				CHOICE {
	imsi-GSM-MAP						IMSI-GSM-MAP,
	tmsi-GSM-MAP						TMSI-GSM-MAP,
	p-TMSI-GSM-MAP						P-TMSI-GSM-MAP,
	imsi-DS-41							IMSI-DS-41,
	tmsi-DS-41							TMSI-DS-41,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}

CompressedModeMeasCapability ::=	SEQUENCE {
	fdd-Measurements					BOOLEAN,
	-- TABULAR: The IEs tdd-Measurements, gsm-Measurements and multiCarrierMeasurements
	-- are made optional since they are conditional based on another information element.
	-- Their absence corresponds to the case where the condition is not true.
	-- The IE 'tdd-Measurements' applies to either or both TDD 3.84 Mcps and TDD 7.68 Mcps,
	-- depending on the RF capability conditions.
	tdd-Measurements					BOOLEAN								OPTIONAL,
	gsm-Measurements					GSM-Measurements					OPTIONAL,
	multiCarrierMeasurements			BOOLEAN								OPTIONAL
}

CompressedModeMeasCapability-LCR-r4 ::=	SEQUENCE {
	tdd128-Measurements						BOOLEAN							OPTIONAL
}

CompressedModeMeasCapability-v860ext ::= SEQUENCE {
	adjacentFrequencyMeasurements		ENUMERATED { true }					OPTIONAL
}

CompressedModeMeasCapability-v920ext ::= SEQUENCE {
	interBandMeasurements				ENUMERATED { true }					OPTIONAL
}

CompressedModeMeasCapability-va40ext ::= SEQUENCE {
	enhancedInterFrequencyMeasurements	ENUMERATED { true }					OPTIONAL,
	freqSpecificCompressedMode			ENUMERATED { true }					OPTIONAL
}

CompressedModeMeasCapabEUTRA ::=	SEQUENCE {
	radioFrequencyBandEUTRA				RadioFrequencyBandEUTRA,
	compressedMode						BOOLEAN
}

CompressedModeMeasCapabEUTRAExt ::=SEQUENCE {
	radioFrequencyBandEUTRA				RadioFrequencyBandEUTRAExt
}

CompressedModeMeasCapabEUTRAExt2 ::=SEQUENCE {
	radioFrequencyBandEUTRA				RadioFrequencyBandEUTRAExt2,
	compressedMode						BOOLEAN
}

CompressedModeMeasCapabEUTRAList ::=	SEQUENCE (SIZE (1..maxFreqBandsEUTRA)) OF
											CompressedModeMeasCapabEUTRA

CompressedModeMeasCapabEUTRAList2 ::=	SEQUENCE (SIZE (1..maxFreqBandsEUTRA)) OF
											CompressedModeMeasCapabEUTRAExt

CompressedModeMeasCapabEUTRAList3 ::=	SEQUENCE (SIZE (1..maxFreqBandsEUTRA-ext)) OF
											CompressedModeMeasCapabEUTRAExt2

CompressedModeMeasCapabFDDList ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD)) OF
										CompressedModeMeasCapabFDD

CompressedModeMeasCapabFDDList2 ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD)) OF
										CompressedModeMeasCapabFDD2

CompressedModeMeasCapabFDDList3 ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD-ext2)) OF
										CompressedModeMeasCapabFDD3

CompressedModeMeasCapabFDDList-ext ::= SEQUENCE (SIZE (1..maxFreqBandsFDD)) OF
											CompressedModeMeasCapabFDD-ext

CompressedModeMeasCapabFDD ::=		SEQUENCE {
	radioFrequencyBandFDD				RadioFrequencyBandFDD	OPTIONAL,
	dl-MeasurementsFDD					BOOLEAN,
	ul-MeasurementsFDD					BOOLEAN
}

CompressedModeMeasCapabFDD2 ::=		SEQUENCE {
	-- UE may omit both IEs if this IE indicates the compressed mode capability within the same
	-- frequency band. Otherwise, the UE shall include either one of the following OPTIONAL IEs.
	radioFrequencyBandFDD				RadioFrequencyBandFDD	OPTIONAL,
	radioFrequencyBandFDD2				RadioFrequencyBandFDD2	OPTIONAL,
	dl-MeasurementsFDD					BOOLEAN,
	ul-MeasurementsFDD					BOOLEAN
}

CompressedModeMeasCapabFDD3 ::=		SEQUENCE {
	-- UE may omit radioFrequencyBandFDD3 if this IE indicates the compressed mode capability within
	-- the same frequency band. Otherwise, the UE shall include the IE.
	radioFrequencyBandFDD3				RadioFrequencyBandFDD3	OPTIONAL,
	dl-MeasurementsFDD					BOOLEAN,
	ul-MeasurementsFDD					BOOLEAN
}

CompressedModeMeasCapabFDD-ext ::=		SEQUENCE {
	radioFrequencyBandFDD2				RadioFrequencyBandFDD2,
	dl-MeasurementsFDD					BOOLEAN,
	ul-MeasurementsFDD					BOOLEAN
}

CompressedModeMeasCapabTDDList ::=	SEQUENCE (SIZE (1..maxFreqBandsTDD)) OF
										CompressedModeMeasCapabTDD

CompressedModeMeasCapabTDD ::=		SEQUENCE {
	radioFrequencyBandTDD				RadioFrequencyBandTDD,
	dl-MeasurementsTDD					BOOLEAN,
	ul-MeasurementsTDD					BOOLEAN
}

CompressedModeMeasCapabGSMList ::=	SEQUENCE (SIZE (1..maxFreqBandsGSM)) OF
										CompressedModeMeasCapabGSM

CompressedModeMeasCapabGSM ::=		SEQUENCE {
	radioFrequencyBandGSM				RadioFrequencyBandGSM,
	dl-MeasurementsGSM					BOOLEAN,
	ul-MeasurementsGSM					BOOLEAN
}

CompressedModeMeasCapabMC ::=		SEQUENCE {
	dl-MeasurementsMC					BOOLEAN,
	ul-MeasurementsMC					BOOLEAN
}

CPCH-Parameters ::=					SEQUENCE {
	initialPriorityDelayList			InitialPriorityDelayList			OPTIONAL,
	backoffControlParams				BackoffControlParams,
	-- TABULAR: TPC step size nested inside PowerControlAlgorithm
	powerControlAlgorithm				PowerControlAlgorithm,
	dl-DPCCH-BER						DL-DPCCH-BER
}

CSG-ProximityIndicationCapability ::= SEQUENCE {
	supportOfIntraFreqProximityIndication	ENUMERATED { true }						OPTIONAL,
	supportOfInterFreqProximityIndication	ENUMERATED { true }						OPTIONAL,
	supportOfE-UtraProximityIndication		ENUMERATED { true }						OPTIONAL
}

DL-CapabilityWithSimultaneousHS-DSCHConfig ::=	ENUMERATED{kbps32, kbps64, kbps128, kbps384}

DL-DPCCH-BER ::=					INTEGER (0..63)

DL-InformationPerSecondaryRL-List ::=		SEQUENCE (SIZE (1..maxEDCHRL)) OF
													DL-InformationPerSecondaryRL

DL-InformationPerSecondaryRL-List-r12 ::=	SEQUENCE (SIZE (1..maxEDCHRL)) OF
													DL-InformationPerSecondaryRL-r12

DL-InformationPerSecondaryRL-List-r13 ::=	SEQUENCE (SIZE (1..maxEDCHRL)) OF
													DL-InformationPerSecondaryRL-r13

DL-InformationPerSecondaryRL ::=		SEQUENCE {
	primaryCPICH-Info						PrimaryCPICH-Info,
	cell-id									CellIdentity			OPTIONAL,
	dl-FDPCHInfoPerRL-SecULFreq				DL-FDPCH-InfoPerRL-r7,
	e-AGCH-Information						E-AGCH-Information		OPTIONAL,
	e-HICH-Information						E-HICH-Information		OPTIONAL,
	e-RGCH-Info								CHOICE	{
		e-RGCH-Information						E-RGCH-Information,
		releaseIndicator						NULL
	}	OPTIONAL
}

DL-InformationPerSecondaryRL-r12 ::=		SEQUENCE {
	primaryCPICH-Info						PrimaryCPICH-Info,
	cell-id									CellIdentity			OPTIONAL,
	dl-FDPCHInfoPerRL-SecULFreq				DL-FDPCH-InfoPerRL-r7,
	e-AGCH-Information						E-AGCH-Information		OPTIONAL,
	e-HICH-Information						E-HICH-Information		OPTIONAL,
	e-RGCH-Info								CHOICE	{
		e-RGCH-Information						E-RGCH-Information,
		releaseIndicator						NULL
	}	OPTIONAL,
	secondary-Serving-E-DCHRL-Indicator		ENUMERATED { true }		OPTIONAL,
	radioLinkswithoutDPCHFDPCHIndicator		NULL					OPTIONAL
}

DL-InformationPerSecondaryRL-r13 ::=		SEQUENCE {
	primaryCPICH-Info						PrimaryCPICH-Info,
	cell-id									CellIdentity					OPTIONAL,
	dl-FDPCHInfoPerRL-SecULFreq			DL-FDPCH-InfoPerRL-r13,
	e-AGCH-Information						E-AGCH-Information				OPTIONAL,
	e-HICH-Information						E-HICH-Information				OPTIONAL,
	e-RGCH-Info							CHOICE	{
		e-RGCH-Information						E-RGCH-Information,
		releaseIndicator						NULL
	}	OPTIONAL,
	secondary-Serving-E-DCHRL-Indicator	ENUMERATED { true }			OPTIONAL,
	radioLinkswithoutDPCHFDPCHIndicator	NULL							OPTIONAL
}

DL-PhysChCapabilityFDD ::=			SEQUENCE {
	-- The IE "maxNoDPCH-PDSCH-Codes" only gives information on the maximum number of DPCH Codes.
	maxNoDPCH-PDSCH-Codes				INTEGER (1..8),
	maxNoPhysChBitsReceived				MaxNoPhysChBitsReceived,
	supportForSF-512					BOOLEAN,
	-- dummy and dummy2 are not used in this version of the specification
	-- and if received they should be ignored.
	dummy								BOOLEAN,
	dummy2								SimultaneousSCCPCH-DPCH-Reception
}

DL-PhysChCapabilityFDD-v380ext ::=			SEQUENCE {
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received it should be ignored.
	dummy										SupportOfDedicatedPilotsForChEstimation		OPTIONAL
}

SupportOfDedicatedPilotsForChEstimation ::=			ENUMERATED { true }

DL-PhysChCapabilityFDD-v770ext ::=		SEQUENCE {
	hsdsch-physical-layer-category-ext		HSDSCH-physical-layer-category-ext	OPTIONAL,
	hsscchlessHsdschOperation				ENUMERATED { true }					OPTIONAL,
	enhancedFdpch							ENUMERATED { true }					OPTIONAL,
	hsdschReception-CellFach				ENUMERATED { true }					OPTIONAL,
	hsdschReception-CellUraPch				ENUMERATED { true }					OPTIONAL
}

DL-PhysChCapabilityFDD-v860ext ::=		SEQUENCE {
	hsdsch-physical-layer-category-ext2		HSDSCH-physical-layer-category-ext2	OPTIONAL,
	supportOfTargetCellPreConfig			ENUMERATED { true }					OPTIONAL,
	supportOfHsdschDrxOperation				ENUMERATED { true }					OPTIONAL
}

DL-PhysChCapabilityFDD-v920ext ::=		SEQUENCE {
	hsdsch-physical-layer-category-ext3		HSDSCH-physical-layer-category-ext3	OPTIONAL,
	supportOfMimoOnlySingleStream			ENUMERATED { true }					OPTIONAL
}

DL-PhysChCapabilityFDD-va40ext ::=		SEQUENCE {
	hsdsch-physical-layer-category-ext4		HSDSCH-physical-layer-category-ext4	OPTIONAL,
	hsdsch-physical-layer-category-ext5		HSDSCH-physical-layer-category-ext5	OPTIONAL
}

DL-PhysChCapabilityFDD-vb50ext ::=		SEQUENCE {
	hsdsch-physical-layer-category-ext6		HSDSCH-physical-layer-category-ext6	OPTIONAL,
	hsdsch-physical-layer-category-ext7		HSDSCH-physical-layer-category-ext7	OPTIONAL,
	hsdsch-physical-layer-category-ext8		HSDSCH-physical-layer-category-ext8	OPTIONAL,
	supportOf4x4MimoDualStreamRestriction	ENUMERATED { true }					OPTIONAL,
	supportOfHS-DSCHSecondDRXOperation		ENUMERATED { true }					OPTIONAL,
	supportOfNodeBTrigHS-DPCCHTransmission	ENUMERATED { true }					OPTIONAL
}

DL-PhysChCapabilityFDD-vb80ext ::=	SEQUENCE {
	non-ContiguousMulti-CellWithMIMO		ENUMERATED { true }					OPTIONAL
}

DL-PhysChCapabilityFDD-vc50ext ::=		SEQUENCE {
	supportforDCHEnhancements						ENUMERATED { basic, full }		OPTIONAL,
	simultaneousSupportforDCHEnhancementsAndCM	ENUMERATED { true }				OPTIONAL,
	simultaneousSupportforDCHEnhancementsAndDPCCHDiscntTx	ENUMERATED { true }	OPTIONAL,
	drx-enhancements								ENUMERATED { true }				OPTIONAL,
	hs-dpcchOverheadReduction						ENUMERATED { true }				OPTIONAL,
	supportofEnhancedServingCellChangeForEvent1C	ENUMERATED { true }			OPTIONAL,
	supportofDPCCH2								ENUMERATED { true }				OPTIONAL
}

DL-PhysChCapabilityFDD-vd20ext ::=	SEQUENCE {
	supportofPowerControlAlgorithm3			ENUMERATED { true }				OPTIONAL,
	supportofBlindHarqRetransmissionsforHsdpa		ENUMERATED { true }				OPTIONAL
}

DL-PhysChCapabilityFDD-ve30ext ::=	SEQUENCE {
	supportofHS-SCCHDrxOperation			ENUMERATED { true }				OPTIONAL
}

DL-PhysChCapabilityFDD-vf10ext ::=	SEQUENCE {
	supportofSimplifiedHS-SCCHType1Operation			     ENUMERATED { true }			OPTIONAL
}

DL-PhysChCapabilityTDD ::=		SEQUENCE {
	maxTS-PerFrame						MaxTS-PerFrame,
	maxPhysChPerFrame					MaxPhysChPerFrame,
	minimumSF							MinimumSF-DL,
	supportOfPDSCH						BOOLEAN,
	maxPhysChPerTS						MaxPhysChPerTS	
}

DL-PhysChCapabilityTDD-LCR-r4 ::=	SEQUENCE {
	maxTS-PerSubFrame						MaxTS-PerSubFrame-r4,
	maxPhysChPerFrame						MaxPhysChPerSubFrame-r4,
	minimumSF								MinimumSF-DL,
	supportOfPDSCH							BOOLEAN,
	maxPhysChPerTS							MaxPhysChPerTS,
	supportOf8PSK							BOOLEAN
}

DL-PhysChCapabilityTDD-128-v770ext ::=	SEQUENCE {
	multiCarrier-physical-layer-category	MultiCarrier-HSDSCH-physical-layer-category	OPTIONAL
}

DL-PhysChCapabilityTDD-128-v860ext ::=	SEQUENCE {
	hSDSCH-physical-layer-category-extension
											HSDSCH-physical-layer-category-extension	OPTIONAL,
	multiCarrier-physical-layer-category-extension
								MultiCarrier-HSDSCH-physical-layer-category-extension	OPTIONAL,
	supportOfSFModeForHSPDSCHDualStream		ENUMERATED { sf1, sf1sf16 }		OPTIONAL
}

DL-PhysChCapabilityInfoTDD-128-va40ext::=	SEQUENCE {
	multiCarrier-physical-layer-category-extension2
								MultiCarrier-HSDSCH-physical-layer-category-extension2	OPTIONAL
}

DL-PhysChCapabilityInfoTDD-128-vc50ext::=	SEQUENCE {
	supportofNon-rectResourceAllocation			ENUMERATED { true }			OPTIONAL
}

DL-PhysChCapabilityTDD-768 ::=		SEQUENCE {
	maxTS-PerFrame							MaxTS-PerFrame,
	maxPhysChPerFrame						MaxPhysChPerFrame-768,
	minimumSF								MinimumSF-DL-768,
	supportOfPDSCH							BOOLEAN,
	tdd768-hspdsch							CHOICE {
		supported								HSDSCH-physical-layer-category,
		unsupported							NULL
	},
	maxPhysChPerTS							MaxPhysChPerTS-768
}

DL-PhysChCapabilityInfoTDD-768 ::=	SEQUENCE {
	maxTS-PerFrame							MaxTS-PerFrame,
	maxPhysChPerFrame						MaxPhysChPerFrame-768,
	minimumSF								MinimumSF-DL-768,
	supportOfPDSCH							BOOLEAN,
	maxPhysChPerTS							MaxPhysChPerTS-768
}

DL-TransChCapability ::=			SEQUENCE {
	maxNoBitsReceived					MaxNoBits,
	maxConvCodeBitsReceived			MaxNoBits,
	turboDecodingSupport				TurboSupport,
	maxSimultaneousTransChs			MaxSimultaneousTransChsDL,
	maxSimultaneousCCTrCH-Count		MaxSimultaneousCCTrCH-Count,
	maxReceivedTransportBlocks		MaxTransportBlocksDL,
	maxNumberOfTFC						MaxNumberOfTFC-DL,
	maxNumberOfTF						MaxNumberOfTF
}

DRAC-SysInfo ::=					SEQUENCE {
	transmissionProbability			TransmissionProbability,
	maximumBitRate						MaximumBitRate
}

DRAC-SysInfoList ::=				SEQUENCE (SIZE (1..maxDRACclasses)) OF
										DRAC-SysInfo

DSCH-RNTI ::=						BIT STRING (SIZE (16))

DelayRestrictionFlag ::=			ENUMERATED { true }

DynamicActivationTime ::=			SEQUENCE {
	activationOffset					INTEGER (0..15)			OPTIONAL
}

E-RNTI ::=							BIT STRING (SIZE (16))

ESN-DS-41 ::=						BIT STRING (SIZE (32))

EstablishmentCause ::=			ENUMERATED {
										originatingConversationalCall,
										originatingStreamingCall, 
										originatingInteractiveCall,
										originatingBackgroundCall,
										originatingSubscribedTrafficCall,
										terminatingConversationalCall,
										terminatingStreamingCall,
										terminatingInteractiveCall,
										terminatingBackgroundCall,
										emergencyCall,
										interRAT-CellReselection,
										interRAT-CellChangeOrder,
										registration,
										detach,
										originatingHighPrioritySignalling,
										originatingLowPrioritySignalling,
										callRe-establishment,
										terminatingHighPrioritySignalling,
										terminatingLowPrioritySignalling,
										terminatingCauseUnknown,
										mbms-Reception,
										mbms-PTP-RB-Request,
										delayTolerantAccess,
										spare9,
										spare8,
										spare7,
										spare6,
										spare5,
										spare4,
										spare3,
										spare2,
										spare1 }

ExtendedWaitTime ::=				INTEGER (1..1800)

EUTRAbandSpecificCapUpdateReqList	::=	SEQUENCE (SIZE (1..16)) OF RadioFrequencyBandEUTRAExt2

FailureCauseWithProtErr ::=		CHOICE {
	configurationUnsupported			NULL,
	physicalChannelFailure			NULL,
	incompatibleSimultaneousReconfiguration
										NULL,
	compressedModeRuntimeError		TGPSI,
	protocolError						ProtocolErrorInformation,
	cellUpdateOccurred					NULL,
	invalidConfiguration				NULL,
	configurationIncomplete			NULL,
	unsupportedMeasurement			NULL,
	mbmsSessionAlreadyReceivedCorrectly	NULL,
	lowerPriorityMBMSService			NULL,
	spare5								NULL,
	spare4								NULL,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}

FailureCauseWithProtErrTrId ::=		SEQUENCE {
	rrc-TransactionIdentifier				RRC-TransactionIdentifier, 
	failureCause							FailureCauseWithProtErr
}

FrequencyBandsIndicatorSupport ::=	SEQUENCE {
	modeSpecificInfo						CHOICE {
		fdd										SEQUENCE {
			frequencyBandsSupportFDD				FrequencyBandsRedirectionFDD
		},
		tdd										SEQUENCE {
			frequencyBandsSupportTDD128			FrequencyBandsIndicatorTDD128
		}
	}
}

FrequencyBandsIndicatorTDD128 ::=	SEQUENCE (SIZE (1..maxFreqBandsIndicatorSupport)) OF
											FrequencyBandsIndicatorSupportTDD128

FrequencyBandsIndicatorSupportTDD128 ::= 	SEQUENCE {
	frequencyBandsIndicatorTDD					RadioFrequencyBandTDD-r10
}

FrequencyBandsRedirectionFDD ::= 	SEQUENCE (SIZE (1..maxFreqBandsIndicatorSupport)) OF
											FrequencyBandsIndicatorFDD

FrequencyBandsIndicatorFDD ::= 		CHOICE {
	frequencyBandsIndicator1				RadioFrequencyBandFDD,
	frequencyBandsIndicator2				RadioFrequencyBandFDD2,
	frequencyBandsIndicator3				RadioFrequencyBandFDD3
}

GANSS-Mode ::=						ENUMERATED {
										networkBased,
										uEBased,
										both,
										none }

GroupIdentityWithReleaseInformation ::=		SEQUENCE {
	rrc-ConnectionReleaseInformation				RRC-ConnectionReleaseInformation,
	groupReleaseInformation						GroupReleaseInformation
	}

GroupReleaseInformation ::=			SEQUENCE {
	uRNTI-Group							U-RNTI-Group
}

GSM-Measurements ::=				SEQUENCE {
	gsm900								BOOLEAN,
	dcs1800								BOOLEAN,
	gsm1900								BOOLEAN
}

H-RNTI ::=							BIT STRING (SIZE (16))

High-MobilityDetected ::=			ENUMERATED { high-MobilityDetected }

HSDSCH-physical-layer-category ::=		INTEGER (1..64)

HSDSCH-physical-layer-category-ext ::=	INTEGER (1..20)

HSDSCH-physical-layer-category-ext2 ::=	INTEGER (21..24)

HSDSCH-physical-layer-category-ext3 ::=	INTEGER (25..28)

HSDSCH-physical-layer-category-ext4 ::=	INTEGER (29..30)

HSDSCH-physical-layer-category-ext5 ::=	INTEGER (31..32)

HSDSCH-physical-layer-category-ext6 ::=	INTEGER (33..34)

HSDSCH-physical-layer-category-ext7 ::=	INTEGER (35..36)

HSDSCH-physical-layer-category-ext8 ::=	INTEGER (37..38)

HSDSCH-physical-layer-category-extension ::=	INTEGER (1..64)

MultiCarrier-HSDSCH-physical-layer-category ::=	INTEGER (1..64)

MultiCarrier-HSDSCH-physical-layer-category-extension ::= INTEGER (1..36)

MultiCarrier-HSDSCH-physical-layer-category-extension2 ::= INTEGER (37..64)

MultiflowCapabBandCombination ::= 		SEQUENCE {
	numberOfCellsBandA							INTEGER(1..6),
	numberOfFrequenciesBandA					INTEGER(1..3),
	numberOfCellsBandB							INTEGER(1..6),
	numberOfFrequenciesBandB					INTEGER(1..3)
}

MultiflowCapabBandCombList ::= SEQUENCE (SIZE (1..16)) OF MultiflowCapabBandCombination

MultiflowCapability ::=			SEQUENCE {
	mimoInDifferentBands				MultiflowMIMOCapability				OPTIONAL,
	longerHARQProcessing				ENUMERATED { true }					OPTIONAL
}

MultiflowPerBandCapability ::=	SEQUENCE {
	numberOfCells						INTEGER(2..8),
	numberOfFrequencies				INTEGER(1..4),
	mimo								MultiflowMIMOCapability				OPTIONAL,
	nonContiguousCapability			MultiflowNonContiguousCapability		OPTIONAL
}

MultiflowMIMOCapability ::=			ENUMERATED { single-stream, dual-stream }

MultiflowNonContiguousCapability ::= 	SEQUENCE {
	gapSize					ENUMERATED { fiveMHz, tenMHz, anyGapSize,
										 spare5, spare4, spare3, spare2, spare1 }
}

UESpecificBehaviourInformation1idle ::= BIT STRING (SIZE (4))

UESpecificBehaviourInformation1interRAT ::= BIT STRING (SIZE (8))

IdleIntervalMeasCapabEUTRA ::=		SEQUENCE {
	radioFrequencyBandEUTRA				RadioFrequencyBandEUTRA,
	idleInterval							BOOLEAN
}

IdleIntervalMeasCapabEUTRAExtension ::=		SEQUENCE {
	radioFrequencyBandEUTRA						RadioFrequencyBandEUTRAExt
}

IdleIntervalMeasCapabEUTRAList ::=	SEQUENCE (SIZE (1..maxFreqBandsEUTRA)) OF
											IdleIntervalMeasCapabEUTRA

IdleIntervalMeasCapabEUTRAExtensionList ::=	SEQUENCE (SIZE (1..maxFreqBandsEUTRA)) OF
													IdleIntervalMeasCapabEUTRAExtension

IMSI-and-ESN-DS-41 ::=			SEQUENCE {
	imsi-DS-41							IMSI-DS-41,
	esn-DS-41							ESN-DS-41
}

IMSI-DS-41 ::=						OCTET STRING (SIZE (5..7))

InitialPriorityDelayList ::=		SEQUENCE (SIZE (1..maxASC)) OF
										NS-IP

InitialUE-Identity ::=			CHOICE {
	imsi								IMSI-GSM-MAP,
	tmsi-and-LAI						TMSI-and-LAI-GSM-MAP,
	p-TMSI-and-RAI						P-TMSI-and-RAI-GSM-MAP,
	imei								IMEI,
	esn-DS-41							ESN-DS-41,
	imsi-DS-41							IMSI-DS-41,
	imsi-and-ESN-DS-41					IMSI-and-ESN-DS-41,
	tmsi-DS-41							TMSI-DS-41
}

IntegrityCheckInfo ::=			SEQUENCE {
	messageAuthenticationCode			MessageAuthenticationCode,
	rrc-MessageSequenceNumber			RRC-MessageSequenceNumber
}

IntegrityProtActivationInfo ::=		SEQUENCE {
	rrc-MessageSequenceNumberList		RRC-MessageSequenceNumberList
}

IntegrityProtectionAlgorithm ::=	ENUMERATED {
										uia1 }

IntegrityProtectionAlgorithm-r7 ::=	ENUMERATED {
											uia1, uia2 }

IntegrityProtectionModeCommand ::= 	CHOICE {
	startIntegrityProtection				SEQUENCE {
		integrityProtInitNumber				IntegrityProtInitNumber
	},
	modify									SEQUENCE {
		dl-IntegrityProtActivationInfo		IntegrityProtActivationInfo
	}
}

IntegrityProtectionModeInfo ::=		SEQUENCE {
	-- TABULAR: DL integrity protection activation info and Integrity
	-- protection intialisation number have been nested inside 
	-- IntegrityProtectionModeCommand.
	integrityProtectionModeCommand		IntegrityProtectionModeCommand,
	integrityProtectionAlgorithm			IntegrityProtectionAlgorithm			OPTIONAL
}

IntegrityProtectionModeInfo-r7 ::=	SEQUENCE {
	-- TABULAR: DL integrity protection activation info and Integrity
	-- protection intialisation number have been nested inside 
	-- IntegrityProtectionModeCommand.
	integrityProtectionModeCommand		IntegrityProtectionModeCommand,
	integrityProtectionAlgorithm			IntegrityProtectionAlgorithm-r7		OPTIONAL
}

IntegrityProtInitNumber ::=			BIT STRING (SIZE (32))

-- dummy is not used in this version of the specification, it should
-- not be sent and if received it should be ignored.
MaxHcContextSpace ::=					ENUMERATED	{
											dummy, by1024, by2048, by4096, 
											by8192 }

MaxHcContextSpace-r5-ext ::=			ENUMERATED	{
											by16384, by32768, by65536, by131072 }


MaxROHC-ContextSessions-r4 ::=		ENUMERATED	{
											s2, s4, s8, s12, s16, s24, s32, s48,
											s64, s128, s256, s512, s1024, s16384 }

MaximumAM-EntityNumberRLC-Cap ::=	ENUMERATED {
											dummy, am4, am5, am6, 
											am8, am16, am30 }

-- Actual value MaximumBitRate = IE value * 16
MaximumBitRate ::=					INTEGER (0..32)

MaximumRLC-WindowSize ::=			ENUMERATED { mws2047, mws4095 }

MaxNoDPDCH-BitsTransmitted ::=	ENUMERATED {
										b600, b1200, b2400, b4800, 
										b9600, b19200, b28800, b38400,
										b48000, b57600 }

MaxNoBits ::=						ENUMERATED {
										b640, b1280, b2560, b3840, b5120,
										b6400, b7680, b8960, b10240,
										b20480, b40960, b81920, b163840 }

MaxNoPhysChBitsReceived ::=			ENUMERATED {
										dummy, b1200, b2400, b3600, 
										b4800, b7200, b9600, b14400, 
										b19200, b28800, b38400, b48000, 
										b57600, b67200, b76800 }

MaxNoSCCPCH-RL ::=					ENUMERATED {
										rl1 }

MaxNumberOfTF ::=					ENUMERATED {
										tf32, tf64, tf128, tf256,
										tf512, tf1024 }

MaxNumberOfTFC-DL ::=				ENUMERATED {
										tfc16, tfc32, tfc48, tfc64, tfc96, 
										tfc128, tfc256, tfc512, tfc1024 }

MaxNumberOfTFC-UL ::=				ENUMERATED {
										dummy1, dummy2, tfc16, tfc32, tfc48, tfc64, 
										tfc96, tfc128, tfc256, tfc512, tfc1024 }

-- the values 1 to 4 for MaxPhysChPerFrame are not used in this version of the protocol 
MaxPhysChPerFrame ::=				INTEGER (1..224)

MaxPhysChPerFrame-768 ::=			INTEGER (1..448)

MaxPhysChPerSubFrame-r4 ::=		INTEGER (1..96)

MaxPhysChPerTimeslot ::=			ENUMERATED {
										ts1, ts2 }

MaxPhysChPerTimeslot-LCR-r7 ::=	INTEGER (1..4)

-- the values 1 to 4 for MaxPhysChPerTS are not used in this version of the protocol 
MaxPhysChPerTS ::=					INTEGER (1..16)

MaxPhysChPerTS-768 ::=			INTEGER (1..32)

MaxSimultaneousCCTrCH-Count ::=	INTEGER (1..8)

MaxSimultaneousTransChsDL ::=		ENUMERATED {
										e4, e8, e16, e32 }

MaxSimultaneousTransChsUL ::=		ENUMERATED {
										dummy, e4, e8, e16, e32 }

MaxTransportBlocksDL ::=			ENUMERATED {
										tb4, tb8, tb16, tb32, tb48,
										tb64, tb96, tb128, tb256, tb512 }

MaxTransportBlocksUL ::=			ENUMERATED {
										dummy, tb4, tb8, tb16, tb32, tb48,
										tb64, tb96, tb128, tb256, tb512 }

MaxTS-PerFrame ::=					INTEGER (1..14)

MaxTS-PerSubFrame-r4 ::=			INTEGER (1..6)

-- TABULAR: MeasurementCapability contains dependencies to UE-MultiModeRAT-Capability,
-- the conditional fields have been left mandatory for now.
MeasurementCapability ::=			SEQUENCE {
	downlinkCompressedMode			CompressedModeMeasCapability,
	uplinkCompressedMode				CompressedModeMeasCapability	
}

MeasurementCapabilityExt ::= 		SEQUENCE{
	compressedModeMeasCapabFDDList		CompressedModeMeasCapabFDDList,
	compressedModeMeasCapabTDDList		CompressedModeMeasCapabTDDList		OPTIONAL,
	compressedModeMeasCapabGSMList		CompressedModeMeasCapabGSMList		OPTIONAL,
	compressedModeMeasCapabMC				CompressedModeMeasCapabMC				OPTIONAL
}

MeasurementCapabilityExt2 ::= 		SEQUENCE{
	compressedModeMeasCapabFDDList		CompressedModeMeasCapabFDDList2,
	compressedModeMeasCapabTDDList		CompressedModeMeasCapabTDDList		OPTIONAL,
	compressedModeMeasCapabGSMList		CompressedModeMeasCapabGSMList		OPTIONAL,
	compressedModeMeasCapabMC				CompressedModeMeasCapabMC				OPTIONAL
}

MeasurementCapabilityExt3 ::=		SEQUENCE {
	compressedModeMeasCapabEUTRAList		CompressedModeMeasCapabEUTRAList		OPTIONAL
}

MeasurementCapabilityExt4 ::= 		SEQUENCE{
	compressedModeMeasCapabFDDList2		CompressedModeMeasCapabFDDList2		OPTIONAL,
	compressedModeMeasCapabFDDList3		CompressedModeMeasCapabFDDList3		OPTIONAL,
	compressedModeMeasCapabTDDList		CompressedModeMeasCapabTDDList		OPTIONAL,
	compressedModeMeasCapabGSMList		CompressedModeMeasCapabGSMList		OPTIONAL,
	compressedModeMeasCapabMC				CompressedModeMeasCapabMC				OPTIONAL,
	compressedModeMeasCapabEUTRAList		CompressedModeMeasCapabEUTRAList		OPTIONAL
}

MeasurementCapabilityExt5 ::=		SEQUENCE {
	compressedModeMeasCapabEUTRAList		CompressedModeMeasCapabEUTRAList2	OPTIONAL
}

MeasurementCapabilityExt6 ::=		SEQUENCE{
	compressedModeMeasCapabEUTRAList		CompressedModeMeasCapabEUTRAList3	OPTIONAL
}

MeasurementCapability-r4-ext ::=	SEQUENCE {
	downlinkCompressedMode-LCR		CompressedModeMeasCapability-LCR-r4,
	uplinkCompressedMode-LCR			CompressedModeMeasCapability-LCR-r4
}

MeasurementCapability-v860ext ::=	SEQUENCE {
	downlinkCompressedMode				CompressedModeMeasCapability-v860ext
}

MeasurementCapability-v920ext ::=	SEQUENCE {
	downlinkCompressedMode				CompressedModeMeasCapability-v920ext
}

MeasurementCapability-va40ext ::=	SEQUENCE {
	interFrequencyDetectedSetMeasurements	ENUMERATED { true }				OPTIONAL,
	downlinkCompressedMode					CompressedModeMeasCapability-va40ext
}

MeasurementCapability-vb50ext ::=	SEQUENCE {
	interFrequencyMeasOnConfigCarriersWithoutCompMode	ENUMERATED { true }	OPTIONAL,
	cellsExcludedFromDetectedSetMeasurements			ENUMERATED { true }	OPTIONAL
}

MeasurementCapabilityTDD ::=		SEQUENCE {
	idleIntervalMeasCapabEUTRAList		IdleIntervalMeasCapabEUTRAList		OPTIONAL
}

MeasurementCapabilityTDD-vb50ext ::=	SEQUENCE {
	idleIntervalMeasCapabEUTRAList		IdleIntervalMeasCapabEUTRAExtensionList	OPTIONAL
}

MeasurementCapability-vb70ext ::=	SEQUENCE {
	widebandRSRQFDDMeasurements			ENUMERATED { true }				OPTIONAL,
	widebandRSRQTDDMeasurements			ENUMERATED { true }				OPTIONAL
}

MeasurementCapability-vc50ext ::=	SEQUENCE {
	event2gReportingOnaConfiguredSecDLFrequency	ENUMERATED { true }		OPTIONAL,
	extendedRsrqLowerValueRange					ENUMERATED { true }		OPTIONAL,
	rsrqOnAllSymbols								ENUMERATED { true }		OPTIONAL,
	increasedUECarrierMonitoringUTRA				ENUMERATED { true }		OPTIONAL,
	increasedUECarrierMonitoringE-UTRA			ENUMERATED { true }		OPTIONAL,
	enhancedUPHReporting							ENUMERATED { true }		OPTIONAL
}

MeasurementCapability-ve30ext ::=	SEQUENCE {
	rrcEventsforUPHReporting							ENUMERATED { true }			OPTIONAL,
	qoEMeasurementCollectionForStreamingServices	ENUMERATED { true }			OPTIONAL
}

MeasurementCapability-vf20ext ::=	SEQUENCE {
	qoEMeasurementCollectionForMTSIServices		ENUMERATED { true }			OPTIONAL
}

MessageAuthenticationCode ::=		BIT STRING (SIZE (32))

MinimumSF-DL ::=					ENUMERATED {
										sf1, sf16 }

MinimumSF-DL-768 ::=				ENUMERATED {
										sf1, sf32 }

MinimumSF-UL ::=					ENUMERATED {
										sf1, sf2, sf4, sf8, dummy }

NonContiguousMultiCellCombinationList ::=	SEQUENCE (SIZE (1..maxNonContiguousMultiCellCombinations)) OF
									NonContiguousMultiCell

NonContiguousMultiCell ::=	SEQUENCE {
	aggregatedCells				ENUMERATED { nc-2c, nc-3c, nc-4c },
	gapSize							ENUMERATED { fiveMHz, tenMHz, anyGapSize,
												 spare5, spare4, spare3, spare2, spare1 },
	nonContiguousMultiCellCombination22		ENUMERATED { true }					OPTIONAL,
	nonContiguousMultiCellCombination31-13	ENUMERATED { true }					OPTIONAL
}

MultiModeCapability ::=			ENUMERATED {
										tdd, fdd, fdd-tdd }

MultiRAT-Capability ::=			SEQUENCE {
	supportOfGSM						BOOLEAN,
	supportOfMulticarrier				BOOLEAN
} 

MultiModeRAT-Capability-v590ext ::=	SEQUENCE {
	supportOfUTRAN-ToGERAN-NACC			BOOLEAN
}

MultiModeRAT-Capability-v680ext ::=	SEQUENCE {
	supportOfHandoverToGAN				ENUMERATED { doesSupportHandoverToGAN }		OPTIONAL
}

MultiModeRAT-Capability-v770ext ::=	SEQUENCE {
	supportOfPSHandoverToGAN			ENUMERATED { doesSupportPSHandoverToGAN }	OPTIONAL
}

MultiModeRAT-Capability-v860ext ::=	SEQUENCE {
	supportOfEUTRAFDD						ENUMERATED { doesSupportEUTRAFDD }		OPTIONAL,
	supportOfInterRATHOToEUTRAFDD		ENUMERATED { doesSupportInterRATHOToEUTRAFDD }	OPTIONAL,
	supportOfEUTRATDD						ENUMERATED { doesSupportEUTRATDD }		OPTIONAL,
	supportOfInterRATHOToEUTRATDD		ENUMERATED { doesSupportInterRATHOToEUTRATDD }	OPTIONAL,
	eutraFeatureGroupIndicators			BIT STRING (SIZE (4))						OPTIONAL
}

MultiModeRAT-Capability-vae0ext ::=			SEQUENCE {
	eutraSupportOfMFBI						ENUMERATED { true }							OPTIONAL
}

MultiModeRAT-Capability-vb50ext ::=	SEQUENCE {
	supportOfEUTRAFDDMeasurementReportingInCELLFACH		ENUMERATED { 																doesSupportOfEUTRAFDDMeasurementReportingInCELLFACH }	OPTIONAL,
	supportOfEUTRATDDMeasurementReportingInCELLFACH		ENUMERATED { 																doesSupportOfEUTRATDDMeasurementReportingInCELLFACH }	OPTIONAL
}

MultiModeRAT-Capability-vc50ext ::=	SEQUENCE {
	supportOfRAN-AssistedWLAN-Interworking-RAN-Rules		ENUMERATED { true }		OPTIONAL,
	supportOfRAN-AssistedWLAN-Interworking-ANDSF-Policies		ENUMERATED { true }		OPTIONAL
}

MultiModeRAT-Capability-vd20ext ::=	SEQUENCE {
	supportOfExtendedEUTRAFrequencyPriority		ENUMERATED { true }		OPTIONAL
}

N-300 ::=							INTEGER (0..7)

N-301 ::=							INTEGER (0..7)

N-302 ::=							INTEGER (0..7)

N-304 ::=							INTEGER (0..7)

N-308 ::=							INTEGER (1..8)

N-310 ::=							INTEGER (0..7)

N-312 ::=							ENUMERATED {
										s1, s50, s100, s200, s400,
										s600, s800, s1000 }

N-312ext ::=						ENUMERATED {
										s2, s4, s10, s20 }

N-312-r5 ::=						ENUMERATED {
										s1, s2, s4, s10, s20,
										s50, s100, s200, s400,
										s600, s800, s1000 }

N-313 ::=							ENUMERATED {
										s1, s2, s4, s10, s20,
										 s50, s100, s200 }

N-315 ::=							ENUMERATED {
										s1, s50, s100, s200, s400,
										s600, s800, s1000 }

N-315ext ::=						ENUMERATED {
										s2, s4, s10, s20 }

N-315-r5 ::=						ENUMERATED {
										s1, s2, s4, s10, s20,
										s50, s100, s200, s400,
										s600, s800, s1000 }


N-AccessFails ::=					INTEGER (1..64)

N-AP-RetransMax ::=				INTEGER (1..64)

NeighCellSI-AcquisitionCapability ::= SEQUENCE {
	supportOfIntraFreqSIAcquisitionForHO		ENUMERATED { true }					OPTIONAL,
	supportOfInterFreqSIAcquisitionForHO		ENUMERATED { true }					OPTIONAL,
	supportOfE-UtraSIAcquisitionForHO		ENUMERATED { true }					OPTIONAL
}

NetworkAssistedGANSS-Supported-List ::= SEQUENCE (SIZE (1..maxGANSS)) OF SEQUENCE {
	gANSS-Id							ENUMERATED {
											sbas, modernizedGPS, qzss, glonass, bds,
											spare3, spare2, spare1 }					OPTIONAL,
	gANSS-Mode							GANSS-Mode,
	gANSS-SignalId						GANSS-Signal-Id								OPTIONAL,
	supportForUE-GANSS-TimingOfCellFrames		BOOLEAN,
	supportForUE-GANSS-CarrierPhaseMeasurement	BOOLEAN								OPTIONAL
}

-- Each element in the NetworkAssistedGANSS-Supported-List-v860ext provides extension information
-- to the corresponding element (position) in the NetworkAssistedGANSS-Supported-List
NetworkAssistedGANSS-Supported-List-v860ext ::= SEQUENCE (SIZE (1..maxGANSS)) OF SEQUENCE {
	sbas-Ids								BIT STRING (SIZE (8))						OPTIONAL,
	gANSS-SignalIds						BIT STRING (SIZE (8))						OPTIONAL,
	non-native-AD-choices-supported		ENUMERATED { true }						OPTIONAL
}

NetworkAssistedGPS-Supported ::=	ENUMERATED {
										networkBased, 
										ue-Based,
										bothNetworkAndUE-Based,
										noNetworkAssistedGPS }

NF-BO-AllBusy ::=					INTEGER (0..31)

NF-BO-NoAICH ::=					INTEGER (0..31)

NF-BO-Mismatch ::=					INTEGER (0..127)

NS-BO-Busy ::=						INTEGER (0..63)

NS-IP ::=							INTEGER (0..28)

P-TMSI-and-RAI-GSM-MAP ::=		SEQUENCE {
	p-TMSI								P-TMSI-GSM-MAP,
	rai									RAI
}

PagingCause ::=					ENUMERATED {
										terminatingConversationalCall,
										terminatingStreamingCall,
										terminatingInteractiveCall,
										terminatingBackgroundCall,
										terminatingHighPrioritySignalling,
										terminatingLowPrioritySignalling,
										terminatingCauseUnknown,
										spare
 }

PagingRecord ::=					CHOICE {
	cn-Identity							SEQUENCE {
		pagingCause							PagingCause,
		cn-DomainIdentity						CN-DomainIdentity,
		cn-pagedUE-Identity					CN-PagedUE-Identity
	},
	utran-Identity						SEQUENCE {
		u-RNTI								U-RNTI,
		cn-OriginatedPage-connectedMode-UE	SEQUENCE {
			pagingCause							PagingCause,
			cn-DomainIdentity						CN-DomainIdentity,
			pagingRecordTypeID						PagingRecordTypeID
		}																	OPTIONAL
	}
}

PagingRecord2-r5 ::=				CHOICE {
	utran-SingleUE-Identity				SEQUENCE {
		u-RNTI								U-RNTI,
		cn-OriginatedPage-connectedMode-UE	SEQUENCE {
			pagingCause							PagingCause,
			cn-DomainIdentity						CN-DomainIdentity,
			pagingRecordTypeID						PagingRecordTypeID
		}																	OPTIONAL,
		rrc-ConnectionReleaseInformation		RRC-ConnectionReleaseInformation
	},
	utran-GroupIdentity					SEQUENCE ( SIZE (1 .. maxURNTI-Group) ) OF
												GroupIdentityWithReleaseInformation
}

PagingRecordList ::=				SEQUENCE (SIZE (1..maxPage1)) OF
										PagingRecord

PagingRecord2List-r5 ::=			SEQUENCE (SIZE (1..maxPage1)) OF
										PagingRecord2-r5

PDCP-Capability ::=				SEQUENCE {
	losslessSRNS-RelocationSupport		BOOLEAN,
	-- If present, the "maxHcContextSpace" in the IE "PDCP-Capability-r5-ext" overrides the
	-- "supported" value in this IE. The value in this IE may be used by a pre-REL-5 UTRAN.
	supportForRfc2507						CHOICE {
		notSupported							NULL,
		supported								MaxHcContextSpace
	}
}

PDCP-Capability-r4-ext ::=		SEQUENCE {
	supportForRfc3095					CHOICE {
		notSupported						NULL,
		supported							SEQUENCE {
			maxROHC-ContextSessions			MaxROHC-ContextSessions-r4	DEFAULT s16,
			reverseCompressionDepth			INTEGER (0..65535)				DEFAULT 0
		}
	}
}

PDCP-Capability-r5-ext ::=			SEQUENCE {
	supportForRfc3095ContextRelocation		BOOLEAN,
	maxHcContextSpace							MaxHcContextSpace-r5-ext			OPTIONAL
}

PDCP-Capability-r5-ext2 ::=			SEQUENCE {
	losslessDLRLC-PDUSizeChange			ENUMERATED { true }					OPTIONAL
}

PDCP-Capability-v770ext ::=			SEQUENCE {
	supportForCSVoiceoverHSPA				ENUMERATED { true }					OPTIONAL
}

PhysicalChannelCapability ::=		SEQUENCE {
		fddPhysChCapability					SEQUENCE {
			downlinkPhysChCapability				DL-PhysChCapabilityFDD,
			uplinkPhysChCapability				UL-PhysChCapabilityFDD
		}											OPTIONAL,
		-- tddPhysChCapability describes the 3.84Mcps TDD physical channel capability
		tddPhysChCapability					SEQUENCE {
			downlinkPhysChCapability				DL-PhysChCapabilityTDD,
			uplinkPhysChCapability				UL-PhysChCapabilityTDD
		}											OPTIONAL
}

PhysicalChannelCapability-v770ext ::=	SEQUENCE {
	fddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityFDD-v770ext,
		uplinkPhysChCapability					UL-PhysChCapabilityFDD-v770ext
	}		OPTIONAL,
	tddPhysChCapability-384					SEQUENCE {
		-- No TDD384 DL physical channel capability extension
		uplinkPhysChCapability					UL-PhysChCapabilityTDD-384-v770ext
	}		OPTIONAL,
	tddPhysChCapability-768					SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityTDD-768,
		uplinkPhysChCapability					UL-PhysChCapabilityTDD-768
	}		OPTIONAL,
	tddPhysChCapability-128					SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityTDD-128-v770ext,
		uplinkPhysChCapability					UL-PhysChCapabilityTDD-128-v770ext
	}		OPTIONAL
}

PhysicalChannelCapability-v860ext ::=	SEQUENCE {
	fddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityFDD-v860ext
	}		OPTIONAL,
	tddPhysChCapability-128					SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityTDD-128-v860ext
	}		OPTIONAL
}

PhysicalChannelCapability-v920ext ::=	SEQUENCE {
	fddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityFDD-v920ext,
		uplinkPhysChCapability					UL-PhysChCapabilityFDD-v920ext
	}		OPTIONAL
}

PhysicalChannelCapability-va40ext ::=	SEQUENCE {
	fddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityFDD-va40ext
	}		OPTIONAL,
	tddPhysChCapability-128					SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityInfoTDD-128-va40ext,
		uplinkPhysChCapability					UL-PhysChCapabilityInfoTDD-128-va40ext
	}		OPTIONAL
}

PhysicalChannelCapability-vb50ext ::=	SEQUENCE {
	fddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityFDD-vb50ext,
		uplinkPhysChCapability					UL-PhysChCapabilityFDD-vb50ext
	}		OPTIONAL
}

PhysicalChannelCapability-vb80ext ::=	SEQUENCE {
	fddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityFDD-vb80ext
	}		OPTIONAL
}

PhysicalChannelCapability-vc50ext ::=	SEQUENCE {
	fddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityFDD-vc50ext	OPTIONAL,
		uplinkPhysChCapability					UL-PhysChCapabilityFDD-vc50ext	OPTIONAL
	}		OPTIONAL,
	tddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityInfoTDD-128-vc50ext
	}		OPTIONAL
}

PhysicalChannelCapability-vd20ext ::=	SEQUENCE {
	fddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityFDD-vd20ext	OPTIONAL,
		uplinkPhysChCapability					UL-PhysChCapabilityFDD-vd20ext	OPTIONAL
	}		OPTIONAL
}
PhysicalChannelCapability-ve30ext ::=	SEQUENCE {
	fddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityFDD-ve30ext	OPTIONAL,
		uplinkPhysChCapability					UL-PhysChCapabilityFDD-ve30ext	OPTIONAL
	}		OPTIONAL
}

PhysicalChannelCapabilityInfo-v770ext ::= SEQUENCE {
	tddPhysChCapability-768					SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityInfoTDD-768,
		uplinkPhysChCapability					UL-PhysChCapabilityTDD
	}		OPTIONAL,
	tddPhysChCapability-128					SEQUENCE {
		uplinkPhysChCapability					UL-PhysChCapabilityInfoTDD-128-v770ext
	}		OPTIONAL
}

PhysicalChannelCapability-vf10ext ::=	SEQUENCE {
	fddPhysChCapability						SEQUENCE {
		downlinkPhysChCapability					DL-PhysChCapabilityFDD-vf10ext	OPTIONAL
		}
}

-- PhysicalChannelCapability-LCR-r4 describes the 1.28Mcps TDD physical channel capability
PhysicalChannelCapability-LCR-r4 ::=		SEQUENCE {
		tdd128-PhysChCapability				SEQUENCE {
			downlinkPhysChCapability				DL-PhysChCapabilityTDD-LCR-r4,
			uplinkPhysChCapability				UL-PhysChCapabilityTDD-LCR-r4
		}											OPTIONAL
}

-- PhysicalChannelCapability-hspdsch-r5 describes the HS-PDSCH physical channel capability
PhysicalChannelCapability-hspdsch-r5 ::=		SEQUENCE {
	fdd-hspdsch									CHOICE {
		supported										SEQUENCE {
			-- hsdsch-physical-layer-category values shall be restricted to the range [1..12] 
			-- even if the UE physical capability category is above 12.
			hsdsch-physical-layer-category					HSDSCH-physical-layer-category,
			-- dummy and dummy2 are not used in this version of the specification
			-- and if received they should be ignored.
			dummy											BOOLEAN,
			dummy2											BOOLEAN
		},
		unsupported										NULL
	},
	tdd384-hspdsch									CHOICE {
		supported										HSDSCH-physical-layer-category,
		unsupported									NULL
	},
	tdd128-hspdsch									CHOICE {
		supported										HSDSCH-physical-layer-category,
		unsupported									NULL
	}
}

PNBSCH-Allocation-r4 ::=				SEQUENCE {
	numberOfRepetitionsPerSFNPeriod		ENUMERATED {
												c2, c3, c4, c5, c6, c7, c8, c9, c10,
												c12, c14, c16, c18, c20, c24, c28, c32,
												c36, c40, c48, c56, c64, c72, c80  }
}

Pre-RedirectionInfo ::=				SEQUENCE {
		supportEUTRA-FDD					BOOLEAN,
		supportEUTRA-TDD					BOOLEAN
}

ProtocolErrorCause ::=			ENUMERATED {
										asn1-ViolationOrEncodingError,
										messageTypeNonexistent,
										messageNotCompatibleWithReceiverState,
										ie-ValueNotComprehended,
										informationElementMissing,
										messageExtensionNotComprehended,
										spare2, spare1 }

ProtocolErrorIndicator ::=		ENUMERATED {
										noError, errorOccurred }

ProtocolErrorIndicatorWithMoreInfo ::= 	CHOICE {
	noError										NULL,
	errorOccurred								SEQUENCE {		
		rrc-TransactionIdentifier					RRC-TransactionIdentifier, 
		protocolErrorInformation					ProtocolErrorInformation
	}
}

ProtocolErrorMoreInformation ::=	SEQUENCE {
	diagnosticsType					CHOICE {
		type1								CHOICE {
			asn1-ViolationOrEncodingError		NULL,
			messageTypeNonexistent			NULL,
			messageNotCompatibleWithReceiverState
												IdentificationOfReceivedMessage,
			ie-ValueNotComprehended			IdentificationOfReceivedMessage,
			conditionalInformationElementError	IdentificationOfReceivedMessage,
			messageExtensionNotComprehended	IdentificationOfReceivedMessage,
			spare1								NULL, 
			spare2								NULL 
		},
		spare								NULL
	}
}

RadioFrequencyBandEUTRA ::=			INTEGER (1..64)

RadioFrequencyBandEUTRAExt ::=		INTEGER (65..256)

RadioFrequencyBandEUTRAExt2 ::=		INTEGER (1..256)

RadioFrequencyBandFDD ::=			ENUMERATED {
	-- fdd2100, fdd1900, fdd1800 correspond to Band I, Band II and Band III respectively
										fdd2100,
										fdd1900,
										fdd1800, 
										bandVI, 
										bandIV,
										bandV,
										bandVII,
										extension-indicator }

RadioFrequencyBandFDD2 ::=		ENUMERATED {
										bandVIII,
										bandIX,
										bandX,
										bandXI,
										bandXII,
										bandXIII,
										bandXIV,
										bandXV,
										bandXVI,
										bandXVII, 
										bandXVIII,
										bandXIX,
										bandXX,
										bandXXI,
										bandXXII,
										extension-indicator }

RadioFrequencyBandFDD3 ::=		ENUMERATED {spare64, spare63, bandXXV, bandXXVI, spare60, spare59, spare58, spare57, spare56, bandXXXII, spare54, spare53, spare52, spare51, spare50, spare49, spare48, spare47, spare46, spare45, spare44, spare43, spare42, spare41, spare40, spare39, spare38, spare37, spare36, spare35, spare34, spare33, spare32, spare31, spare30, spare29, spare28, spare27, spare26, spare25, spare24, spare23, spare22, spare21, spare20, spare19, spare18, spare17, spare16, spare15, spare14, spare13, spare12, spare11, spare10, spare9, spare8, spare7, spare6, spare5, spare4, spare3, spare2, extension-indicator }

RadioFrequencyBandTDDList ::=		ENUMERATED {
										a, b, c, ab, ac, bc, abc, spare }

RadioFrequencyBandTDDList-r7 ::=	ENUMERATED {
										a, b, c, d, ab, ac, ad, bc, bd, cd, abc, abd, acd, bcd,
										abcd, notabcd }

RadioFrequencyBandTDDext ::=		ENUMERATED {
										e, f, g, h, i, j, k, l, m, n, o, p, spare4, spare3,
										spare2, spare1 }

RadioFrequencyBandTDDextList ::=	SEQUENCE (SIZE (1..maxFreqBandsTDD-ext)) OF
										RadioFrequencyBandTDDext

RadioFrequencyBandTDD ::=			ENUMERATED {
										a, b, c, d }

RadioFrequencyBandTDD-r10 ::=		ENUMERATED {
										a, b, c, d, e, f, spare2, spare1 }

RadioFrequencyBandGSM ::=			ENUMERATED {
										gsm450,
										gsm480,
										gsm850,
										gsm900P,
										gsm900E,
										gsm1800,
										gsm1900,
										spare9, spare8, spare7, spare6, spare5,
										spare4, spare3, spare2, spare1}

Rb-timer-indicator ::=			SEQUENCE {
	t314-expired						BOOLEAN,
	t315-expired						BOOLEAN }

Re-EstablishmentTimer ::=			ENUMERATED {
										useT314, useT315
}

RedirectionInfo ::=				CHOICE {
	frequencyInfo						FrequencyInfo,
	interRATInfo						InterRATInfo
}

RedirectionInfo-r6 ::=			CHOICE {
	frequencyInfo						FrequencyInfo,
	interRATInfo						InterRATInfo-r6
}

RedirectionInfo-v860ext ::=		CHOICE {
	-- CHOICE frequencyInfo is provided in IE RedirectionInfo or IE RedirectionInfo-r6
	frequencyInfo						NULL,
	interRATInfo						InterRATInfo-v860ext
}

RejectionCause ::=					ENUMERATED {
										congestion,
										unspecified }

ReleaseCause ::=					ENUMERATED {
										normalEvent,
										unspecified,
										pre-emptiveRelease,
										congestion,
										re-establishmentReject,
										directedsignallingconnectionre-establishment,
										userInactivity,
										spare }

RF-Capability ::=					SEQUENCE {
		fddRF-Capability				SEQUENCE {
			ue-PowerClass					UE-PowerClass,
			txRxFrequencySeparation		TxRxFrequencySeparation
		}									OPTIONAL,
		tddRF-Capability				SEQUENCE {
			ue-PowerClass					UE-PowerClass,
			radioFrequencyTDDBandList		RadioFrequencyBandTDDList,
			chipRateCapability				ChipRateCapability
		}									OPTIONAL
}

RF-Capability-r4-ext ::=				SEQUENCE {
		tddRF-Capability					SEQUENCE {
			ue-PowerClass						UE-PowerClass,
			radioFrequencyBandTDDList			RadioFrequencyBandTDDList,
			chipRateCapability					ChipRateCapability
		}									OPTIONAL
}

RF-Capability-v770ext ::=		SEQUENCE {
	-- If TDD384 and/or TDD128 RF capability is indicated in IEs 'RF-Capability' or 
	-- 'RF-Capability-r4-ext', the corresponding IE 'RadioFrequencyBandTDDList-r7' shall 
	-- be included in this IE.
	tdd384RF-Capability				RadioFrequencyBandTDDList-r7				OPTIONAL,
	tdd768RF-Capability				SEQUENCE {
		ue-PowerClass						UE-PowerClass,
		radioFrequencyBandTDDList			RadioFrequencyBandTDDList-r7
		-- The element 'chipRateCapability' = 'mcps7-68'
	}		OPTIONAL,
	tdd128RF-Capability				RadioFrequencyBandTDDList-r7				OPTIONAL
}

RF-Capability-v860ext ::=			SEQUENCE {
	tdd128RF-Capability					RadioFrequencyBandTDDextList			OPTIONAL,
	tdd384RF-Capability					RadioFrequencyBandTDDextList			OPTIONAL,
	tdd768RF-Capability					RadioFrequencyBandTDDextList			OPTIONAL
}

RF-Capability-vaa0ext ::=			SEQUENCE {
	supportOfMFBI						ENUMERATED { true }						OPTIONAL
}

RLC-Capability ::=					SEQUENCE {
	-- If present, the "totalRLC-AM-BufferSize" in the IE "RLC-Capability-r5-ext" overrides the
	-- corresponding value in this IE. The value in this IE may be used by a pre-REL-5 UTRAN.
	totalRLC-AM-BufferSize			TotalRLC-AM-BufferSize,
	maximumRLC-WindowSize				MaximumRLC-WindowSize,
	maximumAM-EntityNumber			MaximumAM-EntityNumberRLC-Cap
}

RLC-Capability-r5-ext ::=			SEQUENCE {
	totalRLC-AM-BufferSize			TotalRLC-AM-BufferSize-r5-ext				OPTIONAL
}

RLC-Capability-v770ext ::=			SEQUENCE {
	supportOfTwoLogicalChannel			BOOLEAN
}

RLC-Capability-v920ext ::=			SEQUENCE {
	totalRLC-AM-BufferSize				TotalRLC-AM-BufferSize-v920ext		OPTIONAL
}

RLC-Capability-va40ext ::=			SEQUENCE {
	totalRLC-AM-BufferSize				TotalRLC-AM-BufferSize-va40ext		OPTIONAL
}

RLC-Capability-vb50ext ::=			SEQUENCE {
	totalRLC-AM-BufferSize				TotalRLC-AM-BufferSize-vb50ext		OPTIONAL
}

RRC-ConnectionReleaseInformation ::=	CHOICE {
	noRelease								NULL,
	release									SEQUENCE {
		releaseCause							ReleaseCause
	}
}

RRC-MessageSequenceNumber ::=		INTEGER (0..15)


RRC-MessageSequenceNumberList ::=	SEQUENCE (SIZE (4..5)) OF
											RRC-MessageSequenceNumber

RRC-StateIndicator ::=			ENUMERATED {
										cell-DCH, cell-FACH, cell-PCH, ura-PCH }

RRC-TransactionIdentifier ::=		INTEGER (0..3)

RSR-VCC-Info ::=					SEQUENCE {
	nonce								BIT STRING (SIZE (128))					OPTIONAL,
	ims-Information					OCTET STRING (SIZE (1.. 32))
}

S-RNTI ::=							BIT STRING (SIZE (20))

S-RNTI-2 ::=						BIT STRING (SIZE (10))

SecurityCapability ::=			SEQUENCE {
	cipheringAlgorithmCap				BIT STRING {
										-- For each bit value "0" means false/ not supported
											spare15(0),
											spare14(1),
											spare13(2),
											spare12(3),
											spare11(4),
											spare10(5),
											spare9(6),
											spare8(7),
											spare7(8),
											spare6(9),
											spare5(10),
											spare4(11),
											spare3(12),
											uea2(13),
											uea1(14),
											uea0(15)
											}	(SIZE (16)),
	integrityProtectionAlgorithmCap		BIT STRING {
										-- For each bit value "0" means false/ not supported
											spare15(0),
											spare14(1),
											spare13(2),
											spare12(3),
											spare11(4),
											spare10(5),
											spare9(6),
											spare8(7),
											spare7(8),
											spare6(9),
											spare5(10),
											spare4(11),
											spare3(12),
											uia2(13),
											uia1(14),
											spare0(15)
										 	} 	 (SIZE (16))
}

SecondaryServingEDCHCell-Info ::=	SEQUENCE {
	primary-E-RNTI							E-RNTI										OPTIONAL,
	secondary-E-RNTI						E-RNTI										OPTIONAL
	}	

SecondaryEDCH-Info-Common ::=		SEQUENCE {
	frequencyInfo							FrequencyInfo,
	scramblingCodeType						ScramblingCodeType,
	scramblingCodeNumber					UL-ScramblingCode,
	ms2-SchedTransmGrantHARQAlloc		BIT STRING (SIZE (8))						OPTIONAL,
	servingGrant							SEQUENCE {
		primary-Secondary-GrantSelector		ENUMERATED { primary, secondary }
	}		OPTIONAL,
	minReduced-E-DPDCH-GainFactor		MinReduced-E-DPDCH-GainFactor			OPTIONAL,
	e-DCH-minimumSet-E-TFCI				E-DCH-MinimumSet-E-TFCI					OPTIONAL,
	dpcchPowerOffset-SecondaryULFrequency	INTEGER(0..7),
	pc-Preamble							PC-Preamble
}

SecondaryEDCH-Info-Common-r12 ::=	SEQUENCE {
	frequencyInfo							FrequencyInfo,
	scramblingCodeType						ScramblingCodeType,
	scramblingCodeNumber					UL-ScramblingCode,
	ms2-SchedTransmGrantHARQAlloc		BIT STRING (SIZE (8))						OPTIONAL,
	servingGrant							SEQUENCE {
		primary-Secondary-GrantSelector		ENUMERATED { primary, secondary }
	}		OPTIONAL,
	minReduced-E-DPDCH-GainFactor		MinReduced-E-DPDCH-GainFactor			OPTIONAL,
	e-DCH-minimumSet-E-TFCI				E-DCH-MinimumSet-E-TFCI					OPTIONAL,
	minimumTEBS-threshold					MinimumTEBS-threshold						OPTIONAL,
	implicitGrantHandling					ENUMERATED { true }						OPTIONAL,
	dpcchPowerOffset-SecondaryULFrequency	INTEGER(0..7),
	pc-Preamble							PC-Preamble,
	ue-DPCCHPowerResetAfterDTXOnSecUplink	UE-DPCCHPowerResetAfterDTXOnSecUplink	OPTIONAL
}

SecondaryEDCH-Info-Common-r14 ::=	SEQUENCE {
	frequencyInfo							FrequencyInfo,
	scramblingCodeType						ScramblingCodeType,
	scramblingCodeNumber					UL-ScramblingCode,
	ms2-SchedTransmGrantHARQAlloc		BIT STRING (SIZE (8))						OPTIONAL,
	servingGrant							SEQUENCE {
		primary-Secondary-GrantSelector		ENUMERATED { primary, secondary }
	}		OPTIONAL,
	minReduced-E-DPDCH-GainFactor		MinReduced-E-DPDCH-GainFactor			OPTIONAL,
	e-DCH-minimumSet-E-TFCI				E-DCH-MinimumSet-E-TFCI					OPTIONAL,
	minimumTEBS-threshold					MinimumTEBS-threshold						OPTIONAL,
	implicitGrantHandling					ENUMERATED { true }						OPTIONAL,
	dpcchPowerOffset-SecondaryULFrequency	INTEGER(0..7),
	pc-Preamble							PC-Preamble,
	ue-DPCCHPowerResetAfterDTXOnSecUplink	UE-DPCCHPowerResetAfterDTXOnSecUplink	OPTIONAL,
	additionalSecondaryCellInfoForMixedTTIConfiguration				AdditionalSecondaryCellInfoForMixedTTIConfiguration				OPTIONAL
}

Serving-HSDSCH-CellInformation ::=	SEQUENCE {
	deltaACK						DeltaACK							OPTIONAL,
	deltaNACK						DeltaNACK							OPTIONAL,
	harq-Preamble-Mode				HARQ-Preamble-Mode,
	primaryCPICH-Info				PrimaryCPICH-Info					OPTIONAL,
	dl-hspdsch-Information		DL-HSPDSCH-Information			OPTIONAL,
	harqInfo						HARQ-Info 							OPTIONAL,
	mac-hsResetIndicator			ENUMERATED { true }				OPTIONAL 
}

Serving-HSDSCH-CellInformation-r7 ::=	SEQUENCE {
	deltaACK						DeltaACK							OPTIONAL,
	deltaNACK						DeltaNACK							OPTIONAL,
	harq-Preamble-Mode				HARQ-Preamble-Mode,
	primaryCPICH-Info				PrimaryCPICH-Info					OPTIONAL,
	dl-hspdsch-Information		DL-HSPDSCH-Information-r7			OPTIONAL,
	harqInfo						HARQ-Info-r7						OPTIONAL,
	mac-hsResetIndicator			ENUMERATED { true }				OPTIONAL
}

Serving-HSDSCH-CellInformation-r8 ::=	SEQUENCE {
	deltaACK						DeltaACK							OPTIONAL,
	deltaNACK						DeltaNACK							OPTIONAL,
	harq-Preamble-Mode				HARQ-Preamble-Mode,
	primaryCPICH-Info				PrimaryCPICH-Info					OPTIONAL,
	dl-hspdsch-Information		DL-HSPDSCH-Information-r8			OPTIONAL,
	harqInfo						HARQ-Info-r7						OPTIONAL,
	mac-hsResetIndicator			ENUMERATED { true }				OPTIONAL
}

Serving-HSDSCH-CellInformation-r9 ::=	SEQUENCE {
	deltaACK						DeltaACK							OPTIONAL,
	deltaNACK						DeltaNACK							OPTIONAL,
	harq-Preamble-Mode				HARQ-Preamble-Mode,
	primaryCPICH-Info				PrimaryCPICH-Info					OPTIONAL,
	dl-hspdsch-Information		DL-HSPDSCH-Information-r9			OPTIONAL,
	harqInfo						HARQ-Info-r7						OPTIONAL,
	mac-hsResetIndicator			ENUMERATED { true }				OPTIONAL
}

Serving-HSDSCH-CellInformation-r11 ::=	SEQUENCE {
	deltaACK						DeltaACK-r11						OPTIONAL,
	deltaNACK						DeltaNACK-r11						OPTIONAL,
	harq-Preamble-Mode				HARQ-Preamble-Mode,
	primaryCPICH-Info				PrimaryCPICH-Info					OPTIONAL,
	dl-hspdsch-Information		DL-HSPDSCH-Information-r11		OPTIONAL,
	harqInfo						HARQ-Info-r11						OPTIONAL,
	mac-hsResetIndicator			ENUMERATED { true }				OPTIONAL,
	mac-hsResetIndicator-assisting	ENUMERATED { true }			OPTIONAL
}

Serving-HSDSCH-CellInformation-r12 ::=	SEQUENCE {
	deltaACK						DeltaACK-r11						OPTIONAL,
	deltaNACK						DeltaNACK-r11						OPTIONAL,
	harq-Preamble-Mode				HARQ-Preamble-Mode,
	primaryCPICH-Info				PrimaryCPICH-Info					OPTIONAL,
	dl-hspdsch-Information		DL-HSPDSCH-Information-r12		OPTIONAL,
	harqInfo						HARQ-Info-r11						OPTIONAL,
	mac-hsResetIndicator			ENUMERATED { true }				OPTIONAL,
	mac-hsResetIndicator-assisting	ENUMERATED { true }			OPTIONAL
}

SimultaneousSCCPCH-DPCH-Reception ::=	CHOICE {
	notSupported						NULL,
	supported							SEQUENCE {
		maxNoSCCPCH-RL						MaxNoSCCPCH-RL,
		-- simultaneousSCCPCH-DPCH-DPDCH-Reception is applicable only if 
		-- the IE Support of PDSCH = TRUE
		-- Note: the reference to DPDCH in the element name below is incorrect (see tabular). The 
		-- name is not changed, to keep it aligned with R99.
		simultaneousSCCPCH-DPCH-DPDCH-Reception		BOOLEAN
	}
}

SRNC-Identity ::=					BIT STRING (SIZE (12))

SR-VCC-Info ::=					SEQUENCE {
	nonce								BIT STRING (SIZE (128))		OPTIONAL
}

SR-VCC-SecurityRABInfo-v860ext ::=	SEQUENCE {
	sr-vcc-Info							SR-VCC-Info,
	rab-InfoReplace						RAB-InfoReplace
}

START-Value ::=						BIT STRING (SIZE (20))

STARTList ::=						SEQUENCE (SIZE (1..maxCNdomains)) OF
										STARTSingle

STARTSingle ::=					SEQUENCE {
	cn-DomainIdentity					CN-DomainIdentity,
	start-Value							START-Value
}

SystemSpecificCapUpdateReq ::=	ENUMERATED {
										gsm }

SystemSpecificCapUpdateReq-v590ext ::=		ENUMERATED {
													geranIu }

SystemSpecificCapUpdateReq-r5 ::=		ENUMERATED {
												gsm, geranIu }

SystemSpecificCapUpdateReq-r8 ::=	ENUMERATED {
											gsm, geranIu, eutra, spare5,
											spare4, spare3, spare2, spare1 }

SystemSpecificCapUpdateReqList ::=	SEQUENCE (SIZE (1..maxSystemCapability)) OF 
											SystemSpecificCapUpdateReq

SystemSpecificCapUpdateReqList-r5 ::=	SEQUENCE (SIZE (1..maxSystemCapability)) OF 
												SystemSpecificCapUpdateReq-r5

SystemSpecificCapUpdateReqList-r8 ::=	SEQUENCE (SIZE (1..maxSystemCapability)) OF 
												SystemSpecificCapUpdateReq-r8

T-300 ::=							ENUMERATED {
										ms100, ms200, ms400, ms600, ms800,
										ms1000, ms1200, ms1400, ms1600,
										ms1800, ms2000, ms3000, ms4000,
										ms6000, ms8000 }

T-301 ::=							ENUMERATED {
										ms100, ms200, ms400, ms600, ms800,
										ms1000, ms1200, ms1400, ms1600,
										ms1800, ms2000, ms3000, ms4000,
										ms6000, ms8000, spare }

T-302 ::=							ENUMERATED {
										ms100, ms200, ms400, ms600, ms800,
										ms1000, ms1200, ms1400, ms1600,
										ms1800, ms2000, ms3000, ms4000,
										ms6000, ms8000, spare }

T-304 ::=							ENUMERATED {
										ms100, ms200, ms400, 
										ms1000, ms2000, spare3, spare2, spare1 }

T-305 ::=							ENUMERATED {
										noUpdate, m5, m10, m30,
										m60, m120, m360, m720 }

T-307 ::=							ENUMERATED {
										s5, s10, s15, s20,
										s30, s40, s50, spare }

T-308 ::=							ENUMERATED {
										ms40, ms80, ms160, ms320 }

T-309 ::=							INTEGER (1..8)

T-310 ::=							ENUMERATED {
										ms40, ms80, ms120, ms160,
										ms200, ms240, ms280, ms320 }

T-311 ::=							ENUMERATED {
										ms250, ms500, ms750, ms1000,
										ms1250, ms1500, ms1750, ms2000 }

-- The value 0 for T-312 is not used in this version of the specification
T-312 ::=							INTEGER (0..15)

T-313 ::=							INTEGER (0..15)

T-314 ::=							ENUMERATED {
										s0, s2, s4, s6, s8,
										s12, s16, s20 }

T-315 ::=							ENUMERATED {
										s0, s10, s30, s60, s180,
										s600, s1200, s1800 }

T-316 ::=							ENUMERATED {
										s0, s10, s20, s30, s40,
										s50, s-inf, spare }

-- All the values are changed to "infinity" in Rel-5
T-317 ::=							ENUMERATED {
										infinity0,  infinity1,  infinity2, infinity3, infinity4,
										infinity5, infinity6, infinity7}

T-318 ::=							ENUMERATED {
										ms250, ms500, ms750, ms1000, ms1250, ms1500,
										ms1750, ms2000, ms3000, ms4000, ms6000, ms8000,
										ms10000, ms12000, ms16000 }

T-319 ::=							ENUMERATED {
										ms80, ms160, ms320, ms640, ms1280, ms2560, ms5120 }

T-321 ::=							ENUMERATED {
										ms100, ms200, ms400, ms800 }

T-322 ::=							ENUMERATED { m5, m10, m20, m30, m60,
										m120, m180, spare1 }

T-323 ::=							ENUMERATED { s0, s5, s10, s20, s30, s60, s90, s120 }

T-328 ::=							ENUMERATED { ms20, ms40, ms60, ms80 }

T-329 ::=							ENUMERATED { s05p, s1, s2, s4 }
T-330 ::=							ENUMERATED { m5, m10, m20, m30,
										m60, m120, m180, spare1 }

T-CPCH ::=							ENUMERATED {
										ct0, ct1 }

TMSI-and-LAI-GSM-MAP ::=			SEQUENCE {
	tmsi								TMSI-GSM-MAP,
	lai									LAI
}

TMSI-DS-41 ::=						OCTET STRING (SIZE (2..17))

TotalRLC-AM-BufferSize ::=		ENUMERATED {
										dummy, kb10, kb50, kb100,
										kb150, kb500, kb1000, spare }

TotalRLC-AM-BufferSize-r5-ext ::=	ENUMERATED {
										kb200, kb300, kb400, kb750 }

TotalRLC-AM-BufferSize-v920ext ::=	ENUMERATED {
										kb1150, kb1250 }

TotalRLC-AM-BufferSize-va40ext ::=	ENUMERATED {
										kb1500, kb1800, kb2300, kb2550 }

TotalRLC-AM-BufferSize-vb50ext ::=	ENUMERATED {
										kb3400, kb3500, kb4400, kb4500, kb5000, spare3, spare2, spare1 }

-- Actual value TransmissionProbability = IE value * 0.125
TransmissionProbability ::=			INTEGER (1..8)

TransportChannelCapability ::=	SEQUENCE {
	dl-TransChCapability				DL-TransChCapability,
	ul-TransChCapability				UL-TransChCapability	
}

TurboSupport ::=					CHOICE {
	notSupported						NULL,
	supported							MaxNoBits
}

-- Values defined as spare shall not be sent in this version of the protocol. If a spare value is
-- received, it should be interpreted as 'default-RxTX-sparation'.
TxRxFrequencySeparation ::=		ENUMERATED {
										default-TxRx-separation, spare2, spare1 }

U-RNTI ::=							SEQUENCE {
	srnc-Identity						SRNC-Identity,
	s-RNTI								S-RNTI
}

U-RNTI-Group ::=					CHOICE {
-- TABULAR: not following the tabular strictly, but this will most likely save bits
	all										NULL,
	u-RNTI-BitMaskIndex-b1				BIT STRING (SIZE (31)),
	u-RNTI-BitMaskIndex-b2				BIT STRING (SIZE (30)),
	u-RNTI-BitMaskIndex-b3				BIT STRING (SIZE (29)),
	u-RNTI-BitMaskIndex-b4				BIT STRING (SIZE (28)),
	u-RNTI-BitMaskIndex-b5				BIT STRING (SIZE (27)),
	u-RNTI-BitMaskIndex-b6				BIT STRING (SIZE (26)),
	u-RNTI-BitMaskIndex-b7				BIT STRING (SIZE (25)),
	u-RNTI-BitMaskIndex-b8				BIT STRING (SIZE (24)),
	u-RNTI-BitMaskIndex-b9				BIT STRING (SIZE (23)),
	u-RNTI-BitMaskIndex-b10				BIT STRING (SIZE (22)),
	u-RNTI-BitMaskIndex-b11				BIT STRING (SIZE (21)),
	u-RNTI-BitMaskIndex-b12				BIT STRING (SIZE (20)),
	u-RNTI-BitMaskIndex-b13				BIT STRING (SIZE (19)),
	u-RNTI-BitMaskIndex-b14				BIT STRING (SIZE (18)),
	u-RNTI-BitMaskIndex-b15				BIT STRING (SIZE (17)),
	u-RNTI-BitMaskIndex-b16				BIT STRING (SIZE (16)),
	u-RNTI-BitMaskIndex-b17				BIT STRING (SIZE (15)),
	u-RNTI-BitMaskIndex-b18				BIT STRING (SIZE (14)),
	u-RNTI-BitMaskIndex-b19				BIT STRING (SIZE (13)),
	u-RNTI-BitMaskIndex-b20				BIT STRING (SIZE (12)),
	u-RNTI-BitMaskIndex-b21				BIT STRING (SIZE (11)),
	u-RNTI-BitMaskIndex-b22				BIT STRING (SIZE (10)),
	u-RNTI-BitMaskIndex-b23				BIT STRING (SIZE (9)),
	u-RNTI-BitMaskIndex-b24				BIT STRING (SIZE (8)),
	u-RNTI-BitMaskIndex-b25				BIT STRING (SIZE (7)),
	u-RNTI-BitMaskIndex-b26				BIT STRING (SIZE (6)),
	u-RNTI-BitMaskIndex-b27				BIT STRING (SIZE (5)),
	u-RNTI-BitMaskIndex-b28				BIT STRING (SIZE (4)),
	u-RNTI-BitMaskIndex-b29				BIT STRING (SIZE (3)),
	u-RNTI-BitMaskIndex-b30				BIT STRING (SIZE (2)),
	u-RNTI-BitMaskIndex-b31				BIT STRING (SIZE (1))
}

U-RNTI-Short ::=					SEQUENCE {
	srnc-Identity						SRNC-Identity,
	s-RNTI-2							S-RNTI-2
}

UE-AddPos-Supported-List ::= 		SEQUENCE (SIZE (1..maxAddPos)) OF UE-AddPos-element

UE-AddPos-element ::=	SEQUENCE{
	addPos-ID							ENUMERATED {barometricPressure, wlan, bt, mbs,
														spare4, spare3, spare2, spare1 },
	addPos-Mode						 ENUMERATED {standalone, ue-assisted,
																	both, spare1 }
					
}

UE-BasedNetworkPerformanceMeasurementsParameters ::= 	SEQUENCE {
	supportOfLoggedMeasurementsIdlePCH	ENUMERATED { true }				OPTIONAL
}

UE-CapabilityContainer-IEs ::=			SEQUENCE {
-- Container for transparent transfer of capability information not related to
-- features for which early implementation is desired
		ue-RadioAccessCapability-v690ext	UE-RadioAccessCapability-v690ext,
		ue-RATSpecificCapability-v690ext	InterRAT-UE-RadioAccessCapability-v690ext	OPTIONAL,
		v6b0NonCriticalExtensions			SEQUENCE {
			ue-RadioAccessCapability-v6b0ext	UE-RadioAccessCapability-v6b0ext-IEs,
			v6e0NonCriticalExtensions			SEQUENCE {
				ue-RadioAccessCapability-v6e0ext	UE-RadioAccessCapability-v6e0ext-IEs,
				v770NonCriticalExtensions			SEQUENCE {
					ue-RadioAccessCapability-v770ext	UE-RadioAccessCapability-v770ext-IEs,
					v790NonCriticalExtensions			SEQUENCE {
						ue-RadioAccessCapability-v790ext	UE-RadioAccessCapability-v790ext-IEs,
						v860NonCriticalExtensions			SEQUENCE {
							ue-RadioAccessCapability-v860ext
															UE-RadioAccessCapability-v860ext-IEs,
							ue-RATSpecificCapability-v860ext
											InterRAT-UE-RadioAccessCapability-v860ext	OPTIONAL,
							v880NonCriticalExtensions			SEQUENCE {
								ue-RadioAccessCapability-v880ext
															UE-RadioAccessCapability-v880ext-IEs,
								v890NonCriticalExtensions			SEQUENCE {
									ue-RadioAccessCapability-v890ext
															UE-RadioAccessCapability-v890ext-IEs,
									v920NonCriticalExtensions			SEQUENCE {
										ue-RadioAccessCapability-v920ext
															UE-RadioAccessCapability-v920ext-IEs,
										v970NonCriticalExtensions			SEQUENCE {
											ue-RadioAccessCapability-v970ext
															UE-RadioAccessCapability-v970ext-IEs,
											va40NonCriticalExtensions			SEQUENCE {
												ue-RadioAccessCapability-va40ext
															UE-RadioAccessCapability-va40ext-IEs,
												va60NonCriticalExtensions			SEQUENCE {
													ue-RadioAccessCapability-va60ext
														UE-RadioAccessCapability-va60ext-IEs,
													va80NonCriticalExtensions		SEQUENCE {
														ue-RadioAccessCapability-va80ext
															UE-RadioAccessCapability-va80ext-IEs,
														laterNonCriticalExtensions			
															UE-RadioAccessCapability-LaterNonCriticalExtensions		OPTIONAL
													}		OPTIONAL
												}		OPTIONAL
											}		OPTIONAL
										}		OPTIONAL
									}		OPTIONAL
								}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

UE-RadioAccessCapability-v6b0ext-IEs ::=		SEQUENCE {
	-- User equipment IEs
		supportForSIB11bis							ENUMERATED { true }				OPTIONAL
}

UE-RadioAccessCapability-v6e0ext-IEs ::=		SEQUENCE {
	-- User equipment IEs
		supportForFDPCH							ENUMERATED { true }				OPTIONAL
}

UE-RadioAccessCapability-v770ext-IEs ::=		SEQUENCE {
	-- User equipment IEs
		pdcp-Capability							PDCP-Capability-v770ext			OPTIONAL,
		rlc-Capability								RLC-Capability-v770ext,
		rf-Capability								RF-Capability-v770ext				OPTIONAL,
		physicalChannelCapability					PhysicalChannelCapability-v770ext,
		multiModeRAT-Capability					MultiModeRAT-Capability-v770ext,
		ue-PositioningCapability					UE-PositioningCapability-v770ext,
		mac-ehsSupport								ENUMERATED { true }				OPTIONAL,
		ue-specificCapabilityInformation	UE-SpecificCapabilityInformation-LCRTDD	OPTIONAL
}

UE-RadioAccessCapability-v790ext-IEs ::=		SEQUENCE {
	-- User equipment IEs
		supportForEDPCCHPowerBoosting				ENUMERATED { true }				OPTIONAL
}

UE-RadioAccessCapability-v860ext-IEs ::=		SEQUENCE {
	-- UE radio access capability
		rf-Capability						RF-Capability-v860ext						OPTIONAL,
		physicalChannelCapability			PhysicalChannelCapability-v860ext,
		multiModeRAT-Capability			MultiModeRAT-Capability-v860ext,
		ue-PositioningCapability			UE-PositioningCapability-v860ext,
		measurementCapability				MeasurementCapability-v860ext			OPTIONAL,
		measurementCapabilityTDD			MeasurementCapabilityTDD					OPTIONAL,
		supportOfCommonEDCH				ENUMERATED { true }						OPTIONAL,
		supportOfMACiis					ENUMERATED { true }						OPTIONAL,
		supportOfSPSOperation				ENUMERATED { true }						OPTIONAL,
		supportOfControlChannelDRXOperation	ENUMERATED { true }					OPTIONAL,
		supportOfCSG						ENUMERATED { true }						OPTIONAL,
	-- UE radio access capability extension
		ue-RadioAccessCapabBandFDDList3		UE-RadioAccessCapabBandFDDList3		OPTIONAL
}

UE-RadioAccessCapability-v880ext-IEs ::=		SEQUENCE {
	-- UE radio access capability
		supportForPriorityReselectionInUTRAN 	ENUMERATED { true }				OPTIONAL
}

UE-RadioAccessCapability-v890ext-IEs ::=		SEQUENCE {
	-- UE radio access capability
		supportCellSpecificTxDiversityinDC-Operation 	ENUMERATED { true }		OPTIONAL
}

UE-RadioAccessCapability-v920ext-IEs ::=		SEQUENCE {
	-- UE physical channel capability,
	ue-RadioAccessCapabBandCombList				UE-RadioAccessCapabBandCombList	OPTIONAL,
	physicalChannelCapability						PhysicalChannelCapability-v920ext,
	rlc-Capability									RLC-Capability-v920ext,
	supportOfenhancedTS0							ENUMERATED { true }				OPTIONAL,
	measurementCapability							MeasurementCapability-v920ext		OPTIONAL,
	-- UE radio access capability
	csgProximityIndicationCapability				CSG-ProximityIndicationCapability	OPTIONAL,
	neighCellSI-AcquisitionCapability			NeighCellSI-AcquisitionCapability	OPTIONAL
}

UE-RadioAccessCapability-v970ext-IEs ::=		SEQUENCE {
	-- UE physical channel capability
	ue-ExtendedMeasurementSupport				ENUMERATED { true }				OPTIONAL
}

UE-RadioAccessCapability-v9c0ext-IEs ::=		SEQUENCE {
	-- UE voice over IMS related capability
		voiceOverUTRA-PS-HS-Support				ENUMERATED { true }				OPTIONAL,
		srvcc-SupportFromUTRA-to-UTRA				ENUMERATED { true }				OPTIONAL,
		srvcc-SupportFromUTRA-to-GERAN			ENUMERATED { true }				OPTIONAL,
	-- UE radio access capability
	ue-supportMac-ehsWindowSizeExtension			ENUMERATED { true }				OPTIONAL
}

UE-RadioAccessCapability-LaterNonCriticalExtensions ::=	SEQUENCE {
	v9c0NonCriticalExtensions			SEQUENCE {
		ue-RadioAccessCapability-v9c0ext		UE-RadioAccessCapability-v9c0ext-IEs,
		vaa0NonCriticalExtensions		SEQUENCE	{
			ue-RadioAccessCapability-vaa0ext		UE-RadioAccessCapability-vaa0ext-IEs,
			vb50NonCriticalExtensions		SEQUENCE {
				ue-RadioAccessCapability-vb50ext		UE-RadioAccessCapability-vb50ext-IEs,
				vb70NonCriticalExtensions		SEQUENCE {
					ue-RadioAccessCapability-vb70ext		UE-RadioAccessCapability-vb70ext-IEs,
					vae0NonCriticalExtensions				SEQUENCE {
						ue-RadioAccessCapability-vae0ext	UE-RadioAccessCapability-vae0ext-IEs,
						vb80NonCriticalExtensions		SEQUENCE {
							ue-RadioAccessCapability-vb80ext	UE-RadioAccessCapability-vb80ext-IEs,
							vc50NonCriticalExtensions		SEQUENCE {
								ue-RadioAccessCapability-vc50ext	
											UE-RadioAccessCapability-vc50ext-IEs,
								vd20NonCriticalExtensions			SEQUENCE {
									ue-RadioAccessCapability-vd20ext 
											UE-RadioAccessCapability-vd20ext-IEs,
									ve30NonCriticalExtensions		UE-RadioAccessCapability-ve30ext-IEs OPTIONAL
								}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
	}
}


UE-RadioAccessCapability-va40ext-IEs ::=		SEQUENCE {
	-- UE physical channel capability
	ue-RadioAccessCapabBandCombList-va40ext	UE-RadioAccessCapabBandCombList-va40ext		OPTIONAL,
	physicalChannelCapability					PhysicalChannelCapability-va40ext,
	rlc-Capability								RLC-Capability-va40ext,
	measurementCapability						MeasurementCapability-va40ext			OPTIONAL,
	supportOfMUMIMO							ENUMERATED { uplink, uplink-and-downlink }	OPTIONAL,
	supportForDualCellMimoInDifferentBands	ENUMERATED { true }					OPTIONAL,
	ue-BasedNetworkPerformanceMeasurementsParameters	
								UE-BasedNetworkPerformanceMeasurementsParameters	OPTIONAL,
	supportOfUTRANANR							ENUMERATED { true }					OPTIONAL,
	-- UE radio access capability extension
	ue-RadioAccessCapabBandFDDList4			UE-RadioAccessCapabBandFDDList4		OPTIONAL
}

UE-RadioAccessCapability-va60ext-IEs ::=		SEQUENCE {
	ue-RadioAccessCapabBandFDDList4				UE-RadioAccessCapabBandFDDList4-va60ext		OPTIONAL
}

UE-RadioAccessCapability-va80ext-IEs ::=		SEQUENCE {
	ue-RadioAccessCapabBandFDDList4				UE-RadioAccessCapabBandFDDList4-va80ext		OPTIONAL
}

UE-RadioAccessCapability-vaa0ext-IEs ::=	SEQUENCE {
	supportOfUMRLCre-establish-via-reconfig	ENUMERATED { true }					OPTIONAL,
	rf-capability								RF-Capability-vaa0ext					OPTIONAL
}

UE-RadioAccessCapability-vae0ext-IEs ::=		SEQUENCE {
	-- UE radio access capability
		multiModeRAT-Capability					MultiModeRAT-Capability-vae0ext	OPTIONAL
}

UE-RadioAccessCapability-vb50ext-IEs ::=		SEQUENCE {
	multiModeRAT-Capability							MultiModeRAT-Capability-vb50ext,
	supportOfCommonERGCHBasedInterferenceControl	ENUMERATED { true }			OPTIONAL,
	supportOfFallbackToR99PRACH						ENUMERATED { true }			OPTIONAL,
	supportOfConcurrentDeployment					ENUMERATED { true }			OPTIONAL,
	supportOfTTIalignmentAndPerHARQProcess			ENUMERATED { true }			OPTIONAL,
	-- UE physical channel capability
	ue-RadioAccessCapabBandCombList-vb50ext			UE-RadioAccessCapabBandCombList-vb50ext		OPTIONAL,
	multiflowCapabBandCombList						MultiflowCapabBandCombList	OPTIONAL,
	physicalChannelCapability							PhysicalChannelCapability-vb50ext,
	rlc-Capability										RLC-Capability-vb50ext,
	multiflowCapability								MultiflowCapability			OPTIONAL,
	-- UE radio access capability extension
	ue-RadioAccessCapabBandFDDList6					UE-RadioAccessCapabBandFDDList6		OPTIONAL,
	-- Measurement capability
	measurementCapability								MeasurementCapability-vb50ext				OPTIONAL,
	measurementCapabilityTDD							MeasurementCapabilityTDD-vb50ext			OPTIONAL,
	-- UE voice over IMS related capability
	rsrvcc-SupportFromUTRA-CS-to-EUTRA-FDD			ENUMERATED { true }			OPTIONAL,
	rsrvcc-SupportFromUTRA-CS-to-EUTRA-TDD			ENUMERATED { true }			OPTIONAL,
	supportOfHSDPCCHPowerOffsetExtension				ENUMERATED { true }			OPTIONAL,
	supportOfSTTDOnDLControlChannelsWhenMultiflowOperationIsActive
														ENUMERATED { true }			OPTIONAL
}

UE-RadioAccessCapability-vb70ext-IEs ::=		SEQUENCE {
	measurementCapability							MeasurementCapability-vb70ext		OPTIONAL,
	ue-RadioAccessCapabBandFDDList7				UE-RadioAccessCapabBandFDDList7	OPTIONAL
}

UE-RadioAccessCapability-vb80ext-IEs ::=		SEQUENCE {
	-- UE physical channel capability
	physicalChannelCapability						PhysicalChannelCapability-vb80ext
}

UE-RadioAccessCapability-vc50ext-IEs ::=		SEQUENCE {
	--the capability is for FDD only
	measurementCapability							MeasurementCapability-vc50ext		OPTIONAL,
	supportofDsacAndPpacInCellDch				ENUMERATED { true }				OPTIONAL,
	supportOfMultiflowWithFTPICHFromAssisting	ENUMERATED { true }				OPTIONAL,
	multiModeRAT-Capability						MultiModeRAT-Capability-vc50ext	OPTIONAL,
	-- UE physical channel capability
	physicalChannelCapability						PhysicalChannelCapability-vc50ext	OPTIONAL
}

UE-RadioAccessCapability-vd20ext-IEs ::=		SEQUENCE {
	ue-RadioAccessCapabBandCombList		UE-RadioAccessCapabBandCombList-vd20ext	OPTIONAL,
	multiModeRAT-Capability						MultiModeRAT-Capability-vd20ext			OPTIONAL,
	-- UE physical channel capability
	physicalChannelCapability				PhysicalChannelCapability-vd20ext		OPTIONAL,
	-- UE positioning capability
	ue-PositioningCapability				UE-PositioningCapability-vd20ext			OPTIONAL,
	-- the capability is for FDD only
	supportofRetrievableConfigurations			ENUMERATED { true }						OPTIONAL,
	supportofURAPCHwithSeamlessTransition		ENUMERATED { true }						OPTIONAL,
	supportofImprovedSynchronizedRRCProcedures	ENUMERATED { true }						OPTIONAL, 
	supportofEnhancedStateTransition			ENUMERATED { true }						OPTIONAL
}

UE-RadioAccessCapability-ve30ext-IEs ::=		SEQUENCE { 
	measurementCapability							MeasurementCapability-ve30ext		OPTIONAL,
	supportofSimultaneousSetupandReleaseofRABsRBs	ENUMERATED { true }					OPTIONAL,
	physicalChannelCapability						PhysicalChannelCapability-ve30ext	OPTIONAL,
	ue-RadioAccessCapability-vf10ext    		UE-RadioAccessCapability-vf10ext-IEs    OPTIONAL
}

UE-RadioAccessCapability-vf10ext-IEs ::=		SEQUENCE { 
	physicalChannelCapability					PhysicalChannelCapability-vf10ext   OPTIONAL,
	ue-RadioAccessCapability-vf20ext-IEs	    UE-RadioAccessCapability-vf20ext-IEs OPTIONAL
}

UE-RadioAccessCapability-vf20ext-IEs ::=		SEQUENCE { 
	measurementCapability						MeasurementCapability-vf20ext		OPTIONAL,
	nonCriticalExtensions						SEQUENCE {}							OPTIONAL
}


UE-ConnTimersAndConstants ::=		SEQUENCE {
-- Optional is used also for parameters for which the default value is the last one read in SIB1
-- t-301 and n-301 should not be used by the UE in this version of the specification
	t-301								T-301								DEFAULT ms2000,
	n-301								N-301								DEFAULT 2,
	t-302								T-302								DEFAULT ms4000,
	n-302								N-302								DEFAULT 3,
	t-304								T-304								DEFAULT ms2000,
	n-304								N-304								DEFAULT 2,
	t-305								T-305								DEFAULT m30,
	t-307								T-307								DEFAULT s30,
	t-308								T-308								DEFAULT ms160,
	t-309								T-309								DEFAULT 5,
	t-310								T-310								DEFAULT ms160,
	n-310								N-310								DEFAULT 4,
	t-311								T-311								DEFAULT ms2000,
	t-312								T-312								DEFAULT 1,
	-- n-312 shall be ignored if n-312 in UE-ConnTimersAndConstants-v3a0ext is present, and the
	-- value of that element shall be used instead.
	n-312								N-312								DEFAULT s1,
	t-313								T-313								DEFAULT 3,
	n-313								N-313								DEFAULT s20,
	t-314								T-314								DEFAULT s12,
	t-315								T-315								DEFAULT s180,
	-- n-315 shall be ignored if n-315 in UE-ConnTimersAndConstants-v3a0ext is present, and the
	-- value of that element shall be used instead.
	n-315								N-315								DEFAULT s1,
	t-316								T-316								DEFAULT s30,
	t-317								T-317								DEFAULT infinity4
}

UE-ConnTimersAndConstants-v3a0ext ::=		SEQUENCE {
	n-312								N-312ext								OPTIONAL,
	n-315								N-315ext								OPTIONAL
}

UE-ConnTimersAndConstants-r5 ::=		SEQUENCE {
-- Optional is used also for parameters for which the default value is the last one read in SIB1
-- t-301 and n-301 should not be used by the UE in this version of the specification
	t-301								T-301								DEFAULT ms2000,
	n-301								N-301								DEFAULT 2,
	t-302								T-302								DEFAULT ms4000,
	n-302								N-302								DEFAULT 3,
	t-304								T-304								DEFAULT ms2000,
	n-304								N-304								DEFAULT 2,
	t-305								T-305								DEFAULT m30,
	t-307								T-307								DEFAULT s30,
	t-308								T-308								DEFAULT ms160,
	t-309								T-309								DEFAULT 5,
	t-310								T-310								DEFAULT ms160,
	n-310								N-310								DEFAULT 4,
	t-311								T-311								DEFAULT ms2000,
	t-312								T-312								DEFAULT 1,
	n-312								N-312-r5							DEFAULT s1,
	t-313								T-313								DEFAULT 3,
	n-313								N-313								DEFAULT s20,
	t-314								T-314								DEFAULT s12,
	t-315								T-315								DEFAULT s180,
	n-315								N-315-r5							DEFAULT s1,
	t-316								T-316								DEFAULT s30,
	t-317								T-317								DEFAULT infinity4
}

UE-ConnTimersAndConstants-v860ext ::=	SEQUENCE {
	t-323										T-323						OPTIONAL
}

UE-ConnTimersAndConstants-r11 ::=		SEQUENCE {
-- Optional is used also for parameters for which the default value is the last one read in SIB1
-- t-301 and n-301 should not be used by the UE in this version of the specification
	t-301								T-301								DEFAULT ms2000,
	n-301								N-301								DEFAULT 2,
	t-302								T-302								DEFAULT ms4000,
	n-302								N-302								DEFAULT 3,
	t-304								T-304								DEFAULT ms2000,
	n-304								N-304								DEFAULT 2,
	t-305								T-305								DEFAULT m30,
	t-307								T-307								DEFAULT s30,
	t-308								T-308								DEFAULT ms160,
	t-309								T-309								DEFAULT 5,
	t-310								T-310								DEFAULT ms160,
	n-310								N-310								DEFAULT 4,
	t-311								T-311								DEFAULT ms2000,
	t-312								T-312								DEFAULT 1,
	n-312								N-312-r5							DEFAULT s1,
	t-313								T-313								DEFAULT 3,
	n-313								N-313								DEFAULT s20,
	t-314								T-314								DEFAULT s12,
	t-315								T-315								DEFAULT s180,
	n-315								N-315-r5							DEFAULT s1,
	t-316								T-316								DEFAULT s30,
	t-317								T-317								DEFAULT infinity4,
	t-323								T-323								OPTIONAL
}

UE-GANSSPositioning-Capability ::=	SEQUENCE {
	networkAssistedGANSS-supportedList	NetworkAssistedGANSS-Supported-List	OPTIONAL
}

UE-GANSSPositioning-Capability-v860ext-IEs ::=	SEQUENCE {
	networkAssistedGANSS-supportedList	NetworkAssistedGANSS-Supported-List-v860ext	OPTIONAL
}

UE-IdleTimersAndConstants ::=		SEQUENCE {
	t-300								T-300,
	n-300								N-300,
	t-312								T-312,
	-- n-312 shall be ignored if n-312 in UE-IdleTimersAndConstants-v3a0ext is present, and the
	-- value of that element shall be used instead.
	n-312								N-312	
}

UE-HSPA-Identities-r6 ::= SEQUENCE {
	new-H-RNTI					H-RNTI								OPTIONAL,
	newPrimary-E-RNTI			E-RNTI								OPTIONAL,
	newSecondary-E-RNTI		E-RNTI								OPTIONAL
}

UE-IdleTimersAndConstants-v3a0ext ::=		SEQUENCE {
	n-312											N-312ext		OPTIONAL
}

UE-MultiModeRAT-Capability ::=		SEQUENCE {
	multiRAT-CapabilityList				MultiRAT-Capability,
	multiModeCapability					MultiModeCapability
}

UE-PowerClass ::=					INTEGER (1..4)

UE-PowerClassExt ::=				ENUMERATED {class1, class2, class3, class4,
										 spare4, spare3, spare2, spare1 }

UE-RadioAccessCapability ::=		SEQUENCE {
	-- UE-RadioAccessCapability is compatible with R99, although accessStratumReleaseIndicator 
	-- is removed from this IE, since its encoding did not result in bits. The 
	-- accessStratumReleaseIndicator is provided in the relevant REL-4 extension IEs.
	pdcp-Capability					PDCP-Capability,
	rlc-Capability						RLC-Capability,
	transportChannelCapability		TransportChannelCapability,
	rf-Capability						RF-Capability,
	physicalChannelCapability			PhysicalChannelCapability,
	ue-MultiModeRAT-Capability		UE-MultiModeRAT-Capability,
	securityCapability					SecurityCapability,
	ue-positioning-Capability			UE-Positioning-Capability,
	measurementCapability				MeasurementCapability			OPTIONAL
}

UE-RadioAccessCapabilityInfo ::=		SEQUENCE {
	ue-RadioAccessCapability				UE-RadioAccessCapability,
	ue-RadioAccessCapability-v370ext		UE-RadioAccessCapability-v370ext
}

UE-RadioAccessCapability-v370ext ::=	SEQUENCE {
	ue-RadioAccessCapabBandFDDList		UE-RadioAccessCapabBandFDDList
}

UE-RadioAccessCapability-v380ext ::=	SEQUENCE {
	ue-PositioningCapabilityExt-v380		UE-PositioningCapabilityExt-v380
}

UE-RadioAccessCapability-v3a0ext ::=	SEQUENCE {
	ue-PositioningCapabilityExt-v3a0		UE-PositioningCapabilityExt-v3a0
}

UE-RadioAccessCapability-v3g0ext ::=	SEQUENCE {
	ue-PositioningCapabilityExt-v3g0		UE-PositioningCapabilityExt-v3g0
}

UE-RadioAccessCapability-v650ext ::=	SEQUENCE {
	ue-RadioAccessCapabBandFDDList2		UE-RadioAccessCapabBandFDDList2,
	-- This IE shall be included if the UE also supports Band I-VII
	ue-RadioAccessCapabBandFDDList-ext	UE-RadioAccessCapabBandFDDList-ext	OPTIONAL
}

UE-RadioAccessCapability-v690ext ::= SEQUENCE {
		physicalchannelcapability-edch	PhysicalChannelCapability-edch-r6,
		-- TABULAR: deviceType is MD in tabular description
		-- Default value is 'doesBenefitFromBatteryConsumptionOptimisation'
		deviceType		ENUMERATED { doesNotBenefitFromBatteryConsumptionOptimisation }	OPTIONAL
}

UE-RadioAccessCapability-v7e0ext ::=	SEQUENCE {
	-- User equipment IEs
		supportForTwoDRXSchemesInPCH		ENUMERATED { true }						OPTIONAL,
		supportEDPDCHPowerInterpolation		ENUMERATED { true }						OPTIONAL
}

UE-RadioAccessCapability-v7f0ext ::=	SEQUENCE {
	supportofTxDivOnNonMIMOChannel			ENUMERATED { true }							OPTIONAL,
	-- IE physicalChannelCapability-LCR and ue-RadioAccessCapabilityComp-TDD128 shall only be
	-- included in InterRATHandoverInfo for 1.28 Mcps TDD, otherwise these IEs are not needed here.
	physicalChannelCapability-LCR			PhysicalChannelCapability-LCR-r4			OPTIONAL,
	ue-RadioAccessCapabilityComp-TDD128		UE-RadioAccessCapabilityComp-TDD128-v7f0ext	OPTIONAL
}

UE-RadioAccessCapabilityInfo-v770ext ::= SEQUENCE {
	rf-Capability							RF-Capability-v770ext					OPTIONAL,
	physicalChannelCapability				PhysicalChannelCapabilityInfo-v770ext,
	ganssSupportIndication					ENUMERATED { true }						OPTIONAL,
	mac-ehsSupport							ENUMERATED { true }						OPTIONAL,
	ue-SpecificCapabilityInformation		UE-SpecificCapabilityInformation-LCRTDD	OPTIONAL
}

UE-RadioAccessCapabilityInfo-TDD128-v8b0ext ::=	SEQUENCE {
	-- INTER RAT HANDOVER INFO
	measurementCapabilityTDD						MeasurementCapabilityTDD			OPTIONAL,
	hSDSCH-physical-layer-category-extension
											HSDSCH-physical-layer-category-extension	OPTIONAL
}

UE-RadioAccessCapabilityInfo-TDD128-vb50ext ::=	SEQUENCE {
	-- INTER RAT HANDOVER INFO
	measurementCapabilityTDD						MeasurementCapabilityTDD-vb50ext	OPTIONAL
}

UE-RadioAccessCapability-v860ext ::=	SEQUENCE {
	ue-RadioAccessCapabBandFDDList3			UE-RadioAccessCapabBandFDDList3
}

UE-RadioAccessCapability-v880ext ::=	SEQUENCE {
	-- INTER RAT HANDOVER INFO
	supportForPriorityReselectionInUTRAN 	ENUMERATED { true }					OPTIONAL
}

UE-RadioAccessCapability-v890ext ::= SEQUENCE {
	-- UE radio access capability
		supportCellSpecificTxDiversityinDC-Operation 	ENUMERATED { true }			OPTIONAL
}

UE-RadioAccessCapability-v920ext ::=	SEQUENCE {
	supportOfenhancedTS0				ENUMERATED { true }						OPTIONAL
}

UE-RadioAccessCapability-va40ext ::= SEQUENCE {
		ue-RadioAccessCapabBandFDDList4			UE-RadioAccessCapabBandFDDList4
}

UE-RadioAccessCapability-va60ext ::= SEQUENCE {
	ue-RadioAccessCapabBandFDDList4			UE-RadioAccessCapabBandFDDList4-va60ext			OPTIONAL
}

UE-RadioAccessCapability-va80ext ::= SEQUENCE {
		ue-RadioAccessCapabBandFDDList4-va60ext	UE-RadioAccessCapabBandFDDList4-va60ext	OPTIONAL,
		ue-RadioAccessCapabBandFDDList4-va80ext	UE-RadioAccessCapabBandFDDList4-va80ext	OPTIONAL
}

UE-RadioAccessCapability-vb50ext ::= SEQUENCE {
	ue-RadioAccessCapabBandFDDList6		UE-RadioAccessCapabBandFDDList6		OPTIONAL
}

UE-RadioAccessCapability-vb70ext ::= SEQUENCE {
	ue-RadioAccessCapabBandFDDList7		UE-RadioAccessCapabBandFDDList7		OPTIONAL
}

UE-RadioAccessCapability-vbc0ext ::= SEQUENCE {
	interRATsupportMultiCellConfiguration		ENUMERATED { true }			OPTIONAL,
	ue-RadioAccessCapabBandCombList			UE-RadioAccessCapabBandCombList	OPTIONAL,
	ue-RadioAccessCapabBandCombList-va40ext	UE-RadioAccessCapabBandCombList-va40ext																								OPTIONAL
}

UE-RadioAccessCapability-vd20ext ::= SEQUENCE {
	ue-RadioAccessCapabBandCombList	UE-RadioAccessCapabBandCombList-vd20ext	OPTIONAL
}


UE-RadioAccessCapabBand-va40ext ::= SEQUENCE {
	ue-RadioAccessCapabBandFDDList5				UE-RadioAccessCapabBandFDDList5,
	-- This IE shall be included if the UE also supports Band I – Band XXII
	ue-RadioAccessCapabBandFDDList-ext2			UE-RadioAccessCapabBandFDDList-ext2		OPTIONAL
}

UE-RadioAccessCapabBandFDDList2 ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD)) OF
											UE-RadioAccessCapabBandFDD2

UE-RadioAccessCapabBandFDDList3 ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD)) OF
											UE-RadioAccessCapabBandFDD3

UE-RadioAccessCapabBandFDDList4 ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD)) OF
											UE-RadioAccessCapabBandFDD4

UE-RadioAccessCapabBandFDDList4-va60ext ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD)) OF
											UE-RadioAccessCapabBandFDD4-va60ext

UE-RadioAccessCapabBandFDDList4-va80ext ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD-ext3)) OF
											UE-RadioAccessCapabBandFDD4-va80ext

UE-RadioAccessCapabBandFDDList5 ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD-ext2)) OF
											UE-RadioAccessCapabBandFDD5

UE-RadioAccessCapabBandFDDList6 ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD3)) OF
											UE-RadioAccessCapabBandFDD6

UE-RadioAccessCapabBandFDDList7 ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD3)) OF
											UE-RadioAccessCapabBandFDD7

UE-RadioAccessCapabBandFDD2 ::=	SEQUENCE {
	radioFrequencyBandFDD2				RadioFrequencyBandFDD2,
	fddRF-Capability					SEQUENCE {
		ue-PowerClass						UE-PowerClassExt,
		txRxFrequencySeparation				TxRxFrequencySeparation
	}		OPTIONAL,
	measurementCapability2				MeasurementCapabilityExt2
}

UE-RadioAccessCapabBandFDD3 ::=		SEQUENCE {
	-- UE may omit both IEs if this IE indicates the same EUTRA compressed 
	-- mode capability for all supported UTRA bands 
	-- Otherwise, the UE shall include either one of the following OPTIONAL IEs.
	radioFrequencyBandFDD				RadioFrequencyBandFDD		OPTIONAL,
	radioFrequencyBandFDD2				RadioFrequencyBandFDD2		OPTIONAL,
	measurementCapability3				MeasurementCapabilityExt3
}

UE-RadioAccessCapabBandFDD4 ::=		SEQUENCE {
	-- UE may omit all the radioFrequencyBand IEs if this IE indicates the same
	-- capability for all supported UTRA bands 
	-- Otherwise, the UE shall include either one of the following OPTIONAL IEs.
	radioFrequencyBandFDD				RadioFrequencyBandFDD		OPTIONAL,
	radioFrequencyBandFDD2				RadioFrequencyBandFDD2		OPTIONAL,
	radioFrequencyBandFDD3				RadioFrequencyBandFDD3		OPTIONAL,
	additionalSecondaryCells				ENUMERATED { a1, a2 }	OPTIONAL,
	nonContiguousMultiCellCombinationList			NonContiguousMultiCellCombinationList	OPTIONAL
}

UE-RadioAccessCapabBandFDD4-va60ext ::=		SEQUENCE {
	supportofULOLTD					ENUMERATED { true }				OPTIONAL
}

UE-RadioAccessCapabBandFDD4-va80ext ::=		SEQUENCE {
	-- UE may omit all the radioFrequencyBand IEs if this IE indicates the same 
	-- capability for all supported UTRA bands 
	-- Otherwise, the UE shall include either one of the following OPTIONAL IEs.
	radioFrequencyBandFDD				RadioFrequencyBandFDD		OPTIONAL,
	radioFrequencyBandFDD2				RadioFrequencyBandFDD2		OPTIONAL,
	radioFrequencyBandFDD3				RadioFrequencyBandFDD3		OPTIONAL,
	additionalSecondaryCells				ENUMERATED { a1, a2 }		OPTIONAL,
	nonContiguousMultiCellCombinationList			NonContiguousMultiCellCombinationList	OPTIONAL,
	supportofULOLTD						ENUMERATED { true }				OPTIONAL
}

UE-RadioAccessCapabBandFDD5 ::=		SEQUENCE {
	radioFrequencyBandFDD3				RadioFrequencyBandFDD3,
	fddRF-Capability					SEQUENCE {
		ue-PowerClass						UE-PowerClassExt,
		txRxFrequencySeparation				TxRxFrequencySeparation
	}		OPTIONAL,
	measurementCapability4				MeasurementCapabilityExt4
}

UE-RadioAccessCapabBandFDD6 ::=		SEQUENCE {
	-- UE may omit all the radioFrequencyBand IEs if this IE indicates the same 
	-- capability for all supported UTRA bands 
	-- Otherwise, the UE shall include either one of the following OPTIONAL IEs.
	radioFrequencyBandFDD				RadioFrequencyBandFDD		OPTIONAL,
	radioFrequencyBandFDD2				RadioFrequencyBandFDD2		OPTIONAL,
	radioFrequencyBandFDD3				RadioFrequencyBandFDD3		OPTIONAL,
	additionalSecondaryCells2			ENUMERATED { a3, a4, a5, a6 }			OPTIONAL,
	supportOfULCLTD						ENUMERATED { true }						OPTIONAL,
	multiflowCapability					MultiflowPerBandCapability				OPTIONAL,
	mimo4x4CapabilityBand				ENUMERATED { true }						OPTIONAL,
	supportOfULMIMO						ENUMERATED { true }						OPTIONAL,
	measurementCapability5				MeasurementCapabilityExt5,
	freqSpecificCompressedModeForNonContiguous	ENUMERATED { true }				OPTIONAL
}

UE-RadioAccessCapabBandFDD7 ::=		SEQUENCE {
	-- UE may omit all the radioFrequencyBand IEs if this IE indicates the same 
	-- capability for all supported UTRA bands 
	-- Otherwise, the UE shall include either one of the following OPTIONAL IEs.
	radioFrequencyBandFDD				RadioFrequencyBandFDD		OPTIONAL,
	radioFrequencyBandFDD2				RadioFrequencyBandFDD2		OPTIONAL,
	radioFrequencyBandFDD3				RadioFrequencyBandFDD3		OPTIONAL,
	measurementCapability6				MeasurementCapabilityExt6
}

UE-PositioningCapabilityExt-v380 ::=	SEQUENCE {
	rx-tx-TimeDifferenceType2Capable		BOOLEAN
}

UE-PositioningCapabilityExt-v3a0 ::=	SEQUENCE {
	validity-CellPCH-UraPCH					ENUMERATED { true }
}

UE-PositioningCapabilityExt-v3g0 ::=	SEQUENCE {
	sfn-sfnType2Capability				ENUMERATED { true }
}

UE-PositioningCapability-v770ext ::= SEQUENCE {
	ue-GANSSPositioning-Capability		UE-GANSSPositioning-Capability		OPTIONAL
}

UE-PositioningCapability-v860ext ::= SEQUENCE {
	ue-GANSSPositioning-Capability-v860ext
										UE-GANSSPositioning-Capability-v860ext-IEs	OPTIONAL
}

UE-PositioningCapability-vd20ext ::= SEQUENCE {
	ue-Positioning-AddPos-Capability	UE-AddPos-Supported-List	OPTIONAL
}

UE-RadioAccessCapabBandCombList	::=	SEQUENCE (SIZE (1..16)) OF BandComb

UE-RadioAccessCapabBandFDDList ::=	SEQUENCE (SIZE (1..maxFreqBandsFDD)) OF
											UE-RadioAccessCapabBandFDD

UE-RadioAccessCapabBandFDDList-ext ::= SEQUENCE (SIZE (1..maxFreqBandsFDD)) OF 
										UE-RadioAccessCapabBandFDD-ext

UE-RadioAccessCapabBandFDDList-ext2 ::= SEQUENCE (SIZE (1..maxFreqBandsFDD2)) OF 
										UE-RadioAccessCapabBandFDD-ext2

UE-RadioAccessCapabBandFDD ::=	SEQUENCE{
	radioFrequencyBandFDD				RadioFrequencyBandFDD,
	fddRF-Capability					SEQUENCE {
		ue-PowerClass						UE-PowerClassExt,
		txRxFrequencySeparation				TxRxFrequencySeparation
	}																OPTIONAL,
	measurementCapability				MeasurementCapabilityExt
}

UE-RadioAccessCapabBandFDD-ext ::= SEQUENCE {
	radioFrequencyBandFDD				RadioFrequencyBandFDD,
	compressedModeMeasCapabFDDList-ext	CompressedModeMeasCapabFDDList-ext
}

UE-RadioAccessCapabBandFDD-ext2 ::= SEQUENCE {
	radioFrequencyBandFDD				RadioFrequencyBandFDD		OPTIONAL,
	radioFrequencyBandFDD2				RadioFrequencyBandFDD2		OPTIONAL,
	compressedModeMeasCapabFDDList3		CompressedModeMeasCapabFDDList3
}

UE-RadioAccessCapability-v4b0ext ::=	SEQUENCE {
	pdcp-Capability-r4-ext				PDCP-Capability-r4-ext,
	tdd-CapabilityExt					SEQUENCE {
		rf-Capability						RF-Capability-r4-ext,
		physicalChannelCapability-LCR		PhysicalChannelCapability-LCR-r4,
		measurementCapability-r4-ext		MeasurementCapability-r4-ext
	}											OPTIONAL,
	-- IE " AccessStratumReleaseIndicator" is not needed in RRC CONNECTION SETUP COMPLETE
	accessStratumReleaseIndicator				AccessStratumReleaseIndicator 	OPTIONAL
}

UE-RadioAccessCapabilityComp ::= SEQUENCE {
	totalAM-RLCMemoryExceeds10kB			BOOLEAN,
	rf-CapabilityComp						RF-CapabilityComp
}

UE-RadioAccessCapabilityComp-ext ::= SEQUENCE {
	rf-CapabilityFDDComp				RF-CapabBandListFDDComp-ext
}

UE-RadioAccessCapabilityComp-TDD128-v7f0ext ::=	SEQUENCE {
	hSDSCH-physical-layer-category
											HSDSCH-physical-layer-category				OPTIONAL,
	multiCarrier-physical-layer-category
								MultiCarrier-HSDSCH-physical-layer-category				OPTIONAL,
	tdd-edch-PhysicalLayerCategory			INTEGER (1..6)								OPTIONAL,
	dl-CapabilityWithSimultaneousHS-DSCHConfig
											DL-CapabilityWithSimultaneousHS-DSCHConfig	OPTIONAL,
	supportForCSVoiceoverHSPA				ENUMERATED { true }						OPTIONAL,
	totalRLC-AM-BufferSize					TotalRLC-AM-BufferSize-r5-ext			OPTIONAL
}

UE-RadioAccessCapabilityComp-v770ext ::= SEQUENCE {
	rf-CapabilityComp						RF-CapabilityComp-v770ext,
	securityCapabilityIndication			ENUMERATED { true }						OPTIONAL,
	ganssSupportIndication					ENUMERATED { true }						OPTIONAL,
	mac-ehsSupport							ENUMERATED { true }						OPTIONAL
}

UE-RadioAccessCapabilityComp2 ::=		SEQUENCE {
	fddPhysicalChannelCapab-hspdsch-edch	SEQUENCE {
		dl-CapabilityWithSimultaneousHS-DSCHConfig
										DL-CapabilityWithSimultaneousHS-DSCHConfig	OPTIONAL,
		physicalChannelCapabComp-hspdsch-r6		HSDSCH-physical-layer-category,
		physicalChannelCapability-edch-r6		PhysicalChannelCapability-edch-r6
	}		OPTIONAL
}

UE-RadioAccessCapabilityComp2-v770ext ::= SEQUENCE {
	hsdsch-physical-layer-category-ext		HSDSCH-physical-layer-category-ext		OPTIONAL,
	edch-PhysicalLayerCategory-extension	INTEGER (7)								OPTIONAL,
	hsscchlessHsdschOperation				ENUMERATED { true }						OPTIONAL,
	enhancedFdpch							ENUMERATED { true }						OPTIONAL,
	hsdschReception-CellFach				ENUMERATED { true }						OPTIONAL,
	hsdschReception-CellUraPch				ENUMERATED { true }						OPTIONAL,
	discontinuousDpcchTransmission			ENUMERATED { true }						OPTIONAL,
	slotFormat4								ENUMERATED { true }						OPTIONAL,
	pdcp-Capability							PDCP-Capability-v770ext					OPTIONAL
}

UE-RadioAccessCapabilityComp2-v7f0ext ::= SEQUENCE {
		supportofTxDivOnNonMIMOChannel		ENUMERATED { true }						OPTIONAL
}

UE-RadioAccessCapabilityComp2-v860ext ::= SEQUENCE {
	hsdsch-physical-layer-category-ext2		HSDSCH-physical-layer-category-ext2		OPTIONAL,
	supportOfMACiis							ENUMERATED { true }						OPTIONAL
}

UE-RadioAccessCapabilityComp2-v920ext ::= SEQUENCE {
	hsdsch-physical-layer-category-ext3		HSDSCH-physical-layer-category-ext3		OPTIONAL,
	edch-PhysicalLayerCategory-extension2	INTEGER (8..9)							OPTIONAL
}

UE-RadioAccessCapabilityComp2-va40ext ::= SEQUENCE {
	hsdsch-physical-layer-category-ext4		HSDSCH-physical-layer-category-ext4		OPTIONAL,
	hsdsch-physical-layer-category-ext5		HSDSCH-physical-layer-category-ext5		OPTIONAL
}

UE-RadioAccessCapabilityComp2-vb50ext ::= SEQUENCE {
	hsdsch-physical-layer-category-ext6		HSDSCH-physical-layer-category-ext6		OPTIONAL,
	hsdsch-physical-layer-category-ext7		HSDSCH-physical-layer-category-ext7		OPTIONAL,
	hsdsch-physical-layer-category-ext8		HSDSCH-physical-layer-category-ext8		OPTIONAL,
	edch-PhysicalLayerCategory-extension3	INTEGER (10..12)						OPTIONAL,
	supportOfHSDPCCHPowerOffsetExtension	ENUMERATED { true }						OPTIONAL
}

UE-RadioAccessCapabilityComp2-vc50ext ::= SEQUENCE {
	supportofDsacAndPpacInCellDch					ENUMERATED { true }				OPTIONAL,
	supportforDCHEnhancements						ENUMERATED { basic, full }		OPTIONAL,
	simultaneousSupportforDCHEnhancementsAndCM		ENUMERATED { true }				OPTIONAL,
	simultaneousSupportforDCHEnhancementsAndDPCCHDiscntTx	ENUMERATED { true }		OPTIONAL
}

UE-RadioAccessCapabilityComp2-vd20ext ::= SEQUENCE {
	supportOfDualCellEDCHwithDPDCH			ENUMERATED { true }					OPTIONAL
}

UE-RadioAccessCapabilityComp-TDD128 ::=		SEQUENCE {
	tdd128RF-Capability						RadioFrequencyBandTDDextList			OPTIONAL,
	supportOfSFModeForHSPDSCHDualStream		ENUMERATED { sf1, sf1sf16 }				OPTIONAL,
	supportOfCommonEDCH						ENUMERATED { true }						OPTIONAL,
	supportOfMACiis							ENUMERATED { true }						OPTIONAL,
	supportOfSPSOperation					ENUMERATED { true }						OPTIONAL,
	supportOfControlChannelDRXOperation		ENUMERATED { true }						OPTIONAL
}

RF-CapabilityComp ::= SEQUENCE {
	fdd 					CHOICE {
		notSupported					NULL,
		supported						RF-CapabBandListFDDComp
	},
	tdd384-RF-Capability	CHOICE {
		notSupported					NULL,
		supported						RadioFrequencyBandTDDList
	},
	tdd128-RF-Capability	CHOICE {
		notSupported					NULL,
		supported						RadioFrequencyBandTDDList
	}
}

RF-CapabilityComp-v770ext ::=		SEQUENCE {
	-- If support of TDD384 and/or TDD128 RF capability is indicated in IEs 'RF-CapabilityComp',
	-- the corresponding IE 'RadioFrequencyBandTDDList-r7' shall be included in this IE.
	tdd384-RF-Capability				RadioFrequencyBandTDDList-r7			OPTIONAL,
	tdd768-RF-Capability				CHOICE {
		notSupported						NULL,
		supported							RadioFrequencyBandTDDList-r7
	},
	tdd128-RF-Capability				RadioFrequencyBandTDDList-r7			OPTIONAL
}

-- NOTE: This IE defines the supported TX/RX frequency separation for the respective supported
-- frequency band. Values defined as spare shall not be sent in this version of the protocol.
-- If a spare value is received, it should be interpreted as 'default-RxTX-sparation'.
RF-CapabBandFDDComp ::=				ENUMERATED { notSupported,
										default-TxRx-separation, spare2, spare1 }

RF-CapabBandListFDDComp ::=			SEQUENCE (SIZE (1..maxFreqBandsFDD)) OF
	-- The first entry corresponds with the first value of IE RadioFrequencyBandFDD,
	-- fdd2100, and so on. No more than seven entries should be included in this IE. The
	-- 8'th entry, if present, shall be ignored.
	-- An extension of this IE may be provided using the IE 'RF-CapabBandListFDDComp-ext'.
	RF-CapabBandFDDComp

RF-CapabBandListFDDComp-ext ::=		SEQUENCE (SIZE (1..maxFreqBandsFDD-ext)) OF
	-- The first entry corresponds with the first value of IE RadioFrequencyBandFDD2,
	-- bandVIII, and so on.
	RF-CapabBandFDDComp

RF-CapabBandListFDDComp-ext2 ::=		SEQUENCE (SIZE (1..maxFreqBandsFDD-ext2)) OF
	-- The first entry corresponds with the first value of IE RadioFrequencyBandFDD3,
	-- 23 (Band XXIII), and so on.
	RF-CapabBandFDDComp

UE-RadioAccessCapabBandCombList-va40ext ::= SEQUENCE (SIZE (1..16)) OF SupportedCarrierCombination

UE-RadioAccessCapabBandCombList-vb50ext ::= SEQUENCE (SIZE (1..16)) OF 
																	SupportedCarrierCombination-ext


UE-RadioAccessCapabBandCombList-vd20ext ::= SEQUENCE (SIZE (1..16)) OF
 											SupportDualBandDualCellEdch

SupportedCarrierCombination ::= SEQUENCE {
	carrierCombination12					BOOLEAN,
	carrierCombination21					BOOLEAN,
	carrierCombination13					BOOLEAN,
	carrierCombination31					BOOLEAN,
	carrierCombination22					BOOLEAN
}

SupportedCarrierCombination-ext ::= SEQUENCE {
	carrierCombination14					BOOLEAN,
	carrierCombination41					BOOLEAN,
	carrierCombination15					BOOLEAN,
	carrierCombination51					BOOLEAN,
	carrierCombination16					BOOLEAN,
	carrierCombination61					BOOLEAN,
	carrierCombination17					BOOLEAN,
	carrierCombination71					BOOLEAN,
	carrierCombination23					BOOLEAN,
	carrierCombination32					BOOLEAN,
	carrierCombination24					BOOLEAN,
	carrierCombination42					BOOLEAN,
	carrierCombination25					BOOLEAN,
	carrierCombination52					BOOLEAN,
	carrierCombination26					BOOLEAN,
	carrierCombination62					BOOLEAN,
	carrierCombination33					BOOLEAN,
	carrierCombination34					BOOLEAN,
	carrierCombination43					BOOLEAN,
	carrierCombination44					BOOLEAN,
	carrierCombination35					BOOLEAN,
	carrierCombination53					BOOLEAN
}

SupportDualBandDualCellEdch ::= SEQUENCE {
	dualBandDualCellEdchIndication		ENUMERATED { true }						OPTIONAL
}

UE-RadioAccessCapability-v590ext ::=	SEQUENCE {
	dl-CapabilityWithSimultaneousHS-DSCHConfig
										DL-CapabilityWithSimultaneousHS-DSCHConfig	OPTIONAL,
	pdcp-Capability-r5-ext				PDCP-Capability-r5-ext,
	rlc-Capability-r5-ext				RLC-Capability-r5-ext,
	physicalChannelCapability			PhysicalChannelCapability-hspdsch-r5,
	multiModeRAT-Capability-v590ext		MultiModeRAT-Capability-v590ext
}

UE-RadioAccessCapability-v5c0ext ::= SEQUENCE {
	pdcp-Capability-r5-ext2				PDCP-Capability-r5-ext2
}

UE-RadioAccessCapability-v680ext ::= SEQUENCE {
	multiModeRAT-Capability-v680ext		MultiModeRAT-Capability-v680ext
}

UL-OLTD-InfoFDD ::= 	SEQUENCE {
	ulOLTDActivation			ENUMERATED	{true}
}

UL-PhysChCapabilityFDD ::=			SEQUENCE {
	maxNoDPDCH-BitsTransmitted			MaxNoDPDCH-BitsTransmitted,
	-- dummy is not used in this version of the specification and
	-- it should be ignored by the receiver.
	dummy								BOOLEAN	
}

UL-PhysChCapabilityFDD-r6 ::=			SEQUENCE {
	maxNoDPDCH-BitsTransmitted				MaxNoDPDCH-BitsTransmitted,
	physicalchannelcapability-edch			PhysicalChannelCapability-edch-r6
}

UL-PhysChCapabilityFDD-v770ext ::=		SEQUENCE {
	edch-PhysicalLayerCategory-extension	INTEGER (7)							OPTIONAL,
	discontinuousDpcchTransmission			ENUMERATED { true }					OPTIONAL,
	slotFormat4								ENUMERATED { true }					OPTIONAL
}

UL-PhysChCapabilityFDD-v920ext ::=		SEQUENCE {
	edch-PhysicalLayerCategory-extension2	INTEGER (8..9)						OPTIONAL
}
UL-PhysChCapabilityFDD-vb50ext ::=		SEQUENCE {
	edch-PhysicalLayerCategory-extension3	INTEGER (10..12)					OPTIONAL
}

UL-PhysChCapabilityFDD-vc50ext ::=		SEQUENCE {
	supportofCellReselectionIndicationReporting		ENUMERATED { true }		OPTIONAL,
	supportofRadioLinkswithoutDPCHFDPCH				ENUMERATED { true }		OPTIONAL,
	supportofServingE-DCHCellDecoupling				ENUMERATED { true }		OPTIONAL,
	accessGroupsAccessControl							ENUMERATED { true }		OPTIONAL,
	enhancedTTISwitching								ENUMERATED { true }		OPTIONAL,
	implicitGrantHandling								ENUMERATED { true }		OPTIONAL,
	dtx-enhancements									ENUMERATED { true }		OPTIONAL
}

UL-PhysChCapabilityFDD-vd20ext ::=		SEQUENCE {
	supportOfDualCellEDCHwithDPDCH			ENUMERATED { true }				OPTIONAL
}

UL-PhysChCapabilityFDD-ve30ext ::=		SEQUENCE {
	supportOfDualCellEDCHOperationEnhancements			ENUMERATED { true }				OPTIONAL
}

UL-PhysChCapabilityTDD ::=			SEQUENCE {
	maxTS-PerFrame						MaxTS-PerFrame,
	maxPhysChPerTimeslot				MaxPhysChPerTimeslot,
	minimumSF							MinimumSF-UL,
	supportOfPUSCH						BOOLEAN	
}

UL-PhysChCapabilityTDD-384-v770ext ::=	SEQUENCE {
	tdd384-edch								CHOICE {
		supported								SEQUENCE {
			tdd-edch-PhysicalLayerCategory			INTEGER (1..16)
		},
		unsupported								NULL
	}
}

UL-PhysChCapabilityTDD-LCR-r4 ::=	SEQUENCE {
	maxTS-PerSubFrame					MaxTS-PerSubFrame-r4,
	maxPhysChPerTimeslot				MaxPhysChPerTimeslot,
	minimumSF							MinimumSF-UL,
	supportOfPUSCH						BOOLEAN,
	supportOf8PSK						BOOLEAN
}

UL-PhysChCapabilityTDD-128-v770ext ::=	SEQUENCE {
	maxPhysChPerTimeslot					MaxPhysChPerTimeslot-LCR-r7,
	tdd128-edch								CHOICE {
		supported								SEQUENCE {
			tdd-edch-PhysicalLayerCategory			INTEGER (1..6)
		},
		unsupported								NULL
	}
}

UL-PhysChCapabilityInfoTDD-128-v770ext ::= SEQUENCE {
	maxPhysChPerTimeslot					MaxPhysChPerTimeslot-LCR-r7
}

UL-PhysChCapabilityInfoTDD-128-va40ext ::= SEQUENCE {
	multiCarrier-EdchPhysicalLayerCategory-128	INTEGER (1..8)					OPTIONAL,
	maxNumberCarrierForMCHSUPA-TDD				ENUMERATED {nf-2, nf-3, nf-6, spare}	OPTIONAL
}

UL-PhysChCapabilityTDD-768 ::=			SEQUENCE {
	maxTS-PerFrame							MaxTS-PerFrame,
	maxPhysChPerTimeslot					MaxPhysChPerTimeslot,
	minimumSF								MinimumSF-UL,
	supportOfPUSCH							BOOLEAN,
	tdd384-edch								CHOICE {
		supported								SEQUENCE {
			tdd-edch-PhysicalLayerCategory			INTEGER (1..16)
		},
		unsupported								NULL
	}
}

UL-OtherTTIConfiguration-Information ::= SEQUENCE {
	configurationInfo			CHOICE {
		continue							NULL,
		newConfiguration					SEQUENCE {
			ul-EDCH-Information				UL-EDCH-Information-r11,
			ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r8,
			dtx-drx-TimingInfo				DTX-DRX-TimingInfo-r7				OPTIONAL,
			dtx-drx-Info					DTX-DRX-Info-r12					OPTIONAL
		}
	},
	activationDelay				ActivationDelay									OPTIONAL
}

UL-OtherTTIConfigurationInfo-Sec ::= SEQUENCE {
	configurationInfo			CHOICE {
		continue							NULL,
		newConfiguration					SEQUENCE {
			secondaryEDCH-Info-Common			SecondaryEDCH-Info-Common-r14,
			ul-AddReconfTransChInfoList		UL-AddReconfTransChInfoList-r14
		}
	},
	activationDelay				ActivationDelay									OPTIONAL
}

UL-SecondaryCellInfoFDD ::=		CHOICE {
	continue							NULL,
	newConfiguration					SEQUENCE {
		secondaryServingEDCHCell-Info		SecondaryServingEDCHCell-Info		OPTIONAL,
		secondaryEDCH-Info-Common			SecondaryEDCH-Info-Common			OPTIONAL,
		dl-InformationPerSecondaryRL-List	DL-InformationPerSecondaryRL-List	OPTIONAL
	}
}

UL-SecondaryCellInfoFDD-r12 ::=		CHOICE {
	continue							NULL,
	newConfiguration					SEQUENCE {
		secondaryServingEDCHCell-Info		SecondaryServingEDCHCell-Info			OPTIONAL,
		secondaryEDCH-Info-Common			SecondaryEDCH-Info-Common-r12			OPTIONAL,
		dl-InformationPerSecondaryRL-List	DL-InformationPerSecondaryRL-List-r12	OPTIONAL
	}
}

UL-SecondaryCellInfoFDD-r13 ::=		CHOICE {
	continue							NULL,
	newConfiguration					SEQUENCE {
		secondaryServingEDCHCell-Info		SecondaryServingEDCHCell-Info			OPTIONAL,
		secondaryEDCH-Info-Common			SecondaryEDCH-Info-Common-r12			OPTIONAL,
		dl-InformationPerSecondaryRL-List	DL-InformationPerSecondaryRL-List-r13	OPTIONAL
	}
}

UL-SecondaryCellInfoFDD-r14 ::=		CHOICE {
	continue							NULL,
	newConfiguration					SEQUENCE {
		secondaryServingEDCHCell-Info		SecondaryServingEDCHCell-Info			OPTIONAL,
		secondaryEDCH-Info-Common			SecondaryEDCH-Info-Common-r14			OPTIONAL,
		dl-InformationPerSecondaryRL-List	DL-InformationPerSecondaryRL-List-r13	OPTIONAL
	}
}

PhysicalChannelCapability-edch-r6 ::=	SEQUENCE {
	fdd-edch								CHOICE {
		supported								SEQUENCE {
			edch-PhysicalLayerCategory				INTEGER (1..16)
		},
		unsupported								NULL
	}
}

UL-TransChCapability ::=			SEQUENCE {
	maxNoBitsTransmitted				MaxNoBits,
	maxConvCodeBitsTransmitted			MaxNoBits,
	turboEncodingSupport				TurboSupport,
	maxSimultaneousTransChs				MaxSimultaneousTransChsUL,
	modeSpecificInfo					CHOICE {
		fdd									NULL,
		tdd									SEQUENCE {
			maxSimultaneousCCTrCH-Count			MaxSimultaneousCCTrCH-Count
		}
	},
	maxTransmittedBlocks				MaxTransportBlocksUL,
	maxNumberOfTFC						MaxNumberOfTFC-UL,
	maxNumberOfTF						MaxNumberOfTF
}

UE-Positioning-Capability ::=		SEQUENCE {
	standaloneLocMethodsSupported			BOOLEAN,
	ue-BasedOTDOA-Supported					BOOLEAN,
	networkAssistedGPS-Supported			NetworkAssistedGPS-Supported,
	supportForUE-GPS-TimingOfCellFrames		BOOLEAN,
	supportForIPDL							BOOLEAN
}

UE-SecurityInformation ::=			SEQUENCE {
	start-CS							START-Value
}

UE-SecurityInformation2 ::=			SEQUENCE {
	start-PS							START-Value
}

UE-SpecificCapabilityInformation-LCRTDD ::=	ENUMERATED {
												nF,
												nFMc-TriRx-UniTx,
												nFMc-TriRx-TriTx,
												nFMc-HexRx-UniTx,
												nFMc-HexRx-TriTx,
												nFMc-HexRx-HexTx,
												nFMc-TwoRx-UniTx-Discontiguous,
												nFMc-TwoRx-TwoTx-Discontiguous,
												nFMc-TwoRx-UniTx-Contiguous,
												nFMc-TwoRx-TwoTx-Contiguous,
												spare6,
												spare5,
												spare4,
												spare3,
												spare2,
												spare1 }

URA-UpdateCause ::=					ENUMERATED { 
										changeOfURA, 
										periodicURAUpdate, 
										dummy,
										spare1 }

UTRAN-DRX-CycleLengthCoefficient ::= INTEGER (3..9)

UTRAN-DRX-CycleLengthCoefficient-r7 ::= SEQUENCE {
	drx-CycleLengthCoefficient			INTEGER (3..9),
	drx-CycleLengthCoefficient2			INTEGER (3..9)						OPTIONAL,
	timeForDRXCycle2					T-319								OPTIONAL
}

WaitTime ::=						INTEGER (0..15)

-- ***************************************************
--
--     RADIO BEARER INFORMATION ELEMENTS (10.3.4)
--
-- ***************************************************

AlgorithmSpecificInfo ::=			CHOICE {
	rfc2507-Info						RFC2507-Info
}

AlgorithmSpecificInfo-r4 ::=		CHOICE {
	rfc2507-Info						RFC2507-Info,
	rfc3095-Info						RFC3095-Info-r4
}

CID-InclusionInfo-r4 ::=			ENUMERATED {
										pdcp-Header,
										rfc3095-PacketFormat }

CommonRBMappingInfo ::=				SEQUENCE {
	logicalChannelIdentity				LogicalChannelIdentity,
	mac-ehs-QueueId						MAC-ehs-QueueId
}

-- Upper limit of COUNT-C is 2^32 - 1
COUNT-C ::=							INTEGER (0..4294967295)

-- Upper limit of COUNT-C-MSB is 2^25 - 1
COUNT-C-MSB ::=						INTEGER (0..33554431)

CS-HSPA-Information ::=				SEQUENCE {
	ul-AMR-Rate							UL-AMR-Rate				OPTIONAL,
	maxCS-Delay							MaxCS-Delay
}

DefaultConfigForCellFACH ::=		SEQUENCE {
	defaultConfigMode					DefaultConfigMode,
	defaultConfigIdForCellFACH			DefaultConfigIdForCellFACH
}

DefaultConfigIdentity ::=			INTEGER (0..10)

DefaultConfigIdentity-r4 ::=		INTEGER (0..12)

DefaultConfigIdentity-r5 ::=		INTEGER (0..13)

-- DefaultConfigIdentity-r6 values 25..31 are spare and shall not be used in this version of 
-- the protocol
DefaultConfigIdentity-r6 ::=		INTEGER (0..31)

-- DefaultConfigIdForCellFACH values 1..15 are spare and shall not be used in this version of
-- the protocol
DefaultConfigIdForCellFACH ::=		INTEGER (0..15)

DefaultConfigMode ::=				ENUMERATED {
										fdd,
										tdd }

DDI ::=								INTEGER (0..62)

DL-AM-RLC-Mode ::=					SEQUENCE {
	inSequenceDelivery					BOOLEAN,
	receivingWindowSize					ReceivingWindowSize,
	dl-RLC-StatusInfo					DL-RLC-StatusInfo
}

DL-AM-RLC-Mode-r5 ::=					SEQUENCE {
	dl-RLC-PDU-size						OctetModeRLC-SizeInfoType1,
	inSequenceDelivery					BOOLEAN,
	receivingWindowSize					ReceivingWindowSize,
	dl-RLC-StatusInfo					DL-RLC-StatusInfo
}

DL-AM-RLC-Mode-r7 ::=				SEQUENCE {
	dl-RLC-PDU-size						CHOICE {
		fixedSize							OctetModeRLC-SizeInfoType1,
		flexibleSize						ENUMERATED { size7, size15 }
	},
	inSequenceDelivery					BOOLEAN,
	receivingWindowSize					ReceivingWindowSize,
	dl-RLC-StatusInfo					DL-RLC-StatusInfo
}

DL-AM-RLC-Mode-r11 ::=				SEQUENCE {
	dl-RLC-PDU-size						CHOICE {
		fixedSize							OctetModeRLC-SizeInfoType1,
		flexibleSize						ENUMERATED { size7, size15 }
	},
	inSequenceDelivery					BOOLEAN,
	receivingWindowSize					ReceivingWindowSize,
	dl-RLC-StatusInfo					DL-RLC-StatusInfo-r11
}

DL-CounterSynchronisationInfo ::=		SEQUENCE {
	rB-WithPDCP-InfoList					RB-WithPDCP-InfoList	OPTIONAL
}

DL-CounterSynchronisationInfo-r5 ::=	SEQUENCE {
	rb-WithPDCP-InfoList					RB-WithPDCP-InfoList			OPTIONAL,
	rb-PDCPContextRelocationList			RB-PDCPContextRelocationList	OPTIONAL
}

DL-LogicalChannelMapping ::=		SEQUENCE {
	-- TABULAR: DL-TransportChannelType contains TransportChannelIdentity as well.
	dl-TransportChannelType				DL-TransportChannelType,
	logicalChannelIdentity				LogicalChannelIdentity				OPTIONAL
}

DL-LogicalChannelMapping-r5 ::=		SEQUENCE {
	-- TABULAR: DL-TransportChannelType contains TransportChannelIdentity as well.
	dl-TransportChannelType				DL-TransportChannelType-r5,
	logicalChannelIdentity				LogicalChannelIdentity				OPTIONAL
}

DL-LogicalChannelMapping-r7 ::=		SEQUENCE {
	-- TABULAR: DL-TransportChannelType contains TransportChannelIdentity as well.
	dl-TransportChannelType				DL-TransportChannelType-r7,
	logicalChannelIdentity				LogicalChannelIdentity				OPTIONAL
}

DL-LogicalChannelMappingList ::=	SEQUENCE (SIZE (1..maxLoCHperRLC)) OF
										DL-LogicalChannelMapping

DL-LogicalChannelMappingList-r5 ::=	SEQUENCE (SIZE (1..maxLoCHperRLC)) OF
										DL-LogicalChannelMapping-r5

DL-LogicalChannelMappingList-r7 ::=	SEQUENCE (SIZE (1..maxLoCHperRLC)) OF
										DL-LogicalChannelMapping-r7

DL-Reception-Window-Size-r6 ::=		ENUMERATED { size32, size48, size64, size80, size96, size112 }

DL-RFC3095-r4 ::=					SEQUENCE {
	-- dummy is not used in this version of the specification and shall be ignored by the receiver.
	dummy								CID-InclusionInfo-r4,
	max-CID								INTEGER (1..16383)					DEFAULT 15,
	reverseDecompressionDepth			INTEGER (0..65535)					DEFAULT 0
}

DL-RLC-Mode ::=						CHOICE {
	dl-AM-RLC-Mode						DL-AM-RLC-Mode,
	dl-UM-RLC-Mode						NULL,
	dl-TM-RLC-Mode						DL-TM-RLC-Mode
}

DL-RLC-Mode-r5 ::=					CHOICE {
	dl-AM-RLC-Mode						DL-AM-RLC-Mode-r5,
	dl-UM-RLC-Mode						DL-UM-RLC-Mode-r5,
	dl-TM-RLC-Mode						DL-TM-RLC-Mode
}

DL-RLC-Mode-r6 ::=					CHOICE {
	dl-AM-RLC-Mode						DL-AM-RLC-Mode-r5,
	dl-UM-RLC-Mode						DL-UM-RLC-Mode-r6,
	dl-TM-RLC-Mode						DL-TM-RLC-Mode
}

DL-RLC-Mode-r7 ::=					CHOICE {
	dl-AM-RLC-Mode						DL-AM-RLC-Mode-r7,
	dl-UM-RLC-Mode						DL-UM-RLC-Mode-r6,
	dl-TM-RLC-Mode						DL-TM-RLC-Mode
}

DL-RLC-Mode-r11 ::=					CHOICE {
	dl-AM-RLC-Mode						DL-AM-RLC-Mode-r11,
	dl-UM-RLC-Mode						DL-UM-RLC-Mode-r6,
	dl-TM-RLC-Mode						DL-TM-RLC-Mode
}

DL-RLC-StatusInfo ::=				SEQUENCE {
	timerStatusProhibit					TimerStatusProhibit					OPTIONAL,
	-- dummy is not used in this version of the specification, it should not be sent 
	-- and if received they should be ignored.
	dummy								TimerEPC							OPTIONAL,
	missingPDU-Indicator				BOOLEAN,
	timerStatusPeriodic					TimerStatusPeriodic					OPTIONAL
}

DL-RLC-StatusInfo-r11 ::=				SEQUENCE {
	timerStatusProhibit					TimerStatusProhibit					OPTIONAL,
	missingPDU-Indicator				BOOLEAN,
	timerStatusPeriodic					TimerStatusPeriodic					OPTIONAL,
	timerReordering						TimerReordering						OPTIONAL
}

DL-TM-RLC-Mode ::=					SEQUENCE {
	segmentationIndication					BOOLEAN
}

DL-TransportChannelType ::=			CHOICE {
	dch									TransportChannelIdentity,
	fach								NULL,
	-- The choice "dsch" should not be used in FDD mode, and if received
	-- the UE behaviour is unspecified.
	dsch								TransportChannelIdentity,
	-- The choice "dch-and-dsch" should not be used in FDD mode, and if received the UE
	-- behaviour is unspecified
	dch-and-dsch						TransportChannelIdentityDCHandDSCH
}

DL-TransportChannelType-r5 ::=			CHOICE {
	dch									TransportChannelIdentity,
	fach								NULL,
	-- The choice "dsch" should not be used in FDD mode, and if received
	-- the UE behaviour is unspecified.
	dsch								TransportChannelIdentity,
	-- The choice "dch-and-dsch" should not be used in FDD mode, and if received the UE 
	-- behaviour is unspecified
	dch-and-dsch						TransportChannelIdentityDCHandDSCH,
	hsdsch								MAC-d-FlowIdentity,
	dch-and-hsdsch						MAC-d-FlowIdentityDCHandHSDSCH
}

DL-TransportChannelType-r7 ::=		CHOICE {
	dch									TransportChannelIdentity,
	fach								NULL,
	-- The choice "dsch" should not be used in FDD mode, and if received
	-- the UE behaviour is unspecified.
	dsch								TransportChannelIdentity,
	-- The choice "dch-and-dsch" should not be used in FDD mode, and if received the UE 
	-- behaviour is unspecified
	dch-and-dsch						TransportChannelIdentityDCHandDSCH,
	hsdsch								CHOICE {
		mac-hs								MAC-d-FlowIdentity,
		mac-ehs								MAC-ehs-QueueId
	},
	dch-and-hsdsch						CHOICE {
		mac-hs								MAC-d-FlowIdentityDCHandHSDSCH,
		mac-ehs								MAC-ehs-QueueIdDCHandHSDSCH
	}
}

DL-UM-RLC-LI-size ::=					ENUMERATED {
										size7, size15 }

DL-UM-RLC-Mode-r5 ::=					SEQUENCE {
	dl-UM-RLC-LI-size					DL-UM-RLC-LI-size
}

DL-UM-RLC-Mode-r6 ::=				SEQUENCE {
	dl-UM-RLC-LI-size					DL-UM-RLC-LI-size,
	dl-Reception-Window-Size			DL-Reception-Window-Size-r6			OPTIONAL
}

ExpectReordering ::=				ENUMERATED {
										reorderingNotExpected,
										reorderingExpected }

ExplicitDiscard ::=					SEQUENCE {
	timerMRW							TimerMRW,
	timerDiscard						TimerDiscard,
	maxMRW								MaxMRW
}

HeaderCompressionInfo ::=			SEQUENCE {
	algorithmSpecificInfo				AlgorithmSpecificInfo
}

HeaderCompressionInfoList ::=		SEQUENCE (SIZE (1..maxPDCPAlgoType)) OF
										HeaderCompressionInfo

HeaderCompressionInfo-r4 ::=		SEQUENCE {
	algorithmSpecificInfo				AlgorithmSpecificInfo-r4
}

HeaderCompressionInfoList-r4 ::=	SEQUENCE (SIZE (1..maxPDCPAlgoType)) OF
										HeaderCompressionInfo-r4

HS-SCCH-DrxCellfach-info ::=	SEQUENCE {
	hs-scch-DrxCycleFach			ENUMERATED {sf20, sf40, sf80, sf160, sf320, sf640, spare2, spare1},
	hs-scch-RxBurstFach				ENUMERATED {sf1, sf2},
	t333							ENUMERATED {ms100, ms200, ms400, ms800}
}

LogicalChannelIdentity ::=			INTEGER (1..15)

LosslessSRNS-RelocSupport ::=		CHOICE {
	supported							MaxPDCP-SN-WindowSize,
	notSupported						NULL
}

MAC-d-HFN-initial-value ::=			BIT STRING (SIZE (24))

MAC-LogicalChannelPriority ::= 		INTEGER (1..8)

-- Actual value MaxCS-Delay = (IE value * 10) + 20
MaxCS-Delay ::=						INTEGER (0..18)

MaxDAT ::=							ENUMERATED {
										dat1, dat2, dat3, dat4, dat5, dat6,
										dat7, dat8, dat9, dat10, dat15, dat20,
										dat25, dat30, dat35, dat40 }

MaxDAT-Retransmissions ::=			SEQUENCE {
	maxDAT								MaxDAT,
	timerMRW							TimerMRW,
	maxMRW								MaxMRW
}

MaxMRW ::=							ENUMERATED {
										mm1, mm4, mm6, mm8, mm12, mm16,
										mm24, mm32 }

MaxPDCP-SN-WindowSize ::=			ENUMERATED {
										sn255, sn65535 }

MaxRST ::=							ENUMERATED {
										rst1, rst4, rst6, rst8, rst12,
										rst16, rst24, rst32 }

NoExplicitDiscard ::=				ENUMERATED {
										dt10, dt20, dt30, dt40, dt50,
										dt60, dt70, dt80, dt90, dt100 }

PDCP-Info ::=						SEQUENCE {
	losslessSRNS-RelocSupport			LosslessSRNS-RelocSupport			OPTIONAL,
	-- TABULAR: pdcp-PDU-Header is MD in the tabular format and it can be encoded
	-- in one bit, so the OPTIONAL is removed for compactness.
	pdcp-PDU-Header						PDCP-PDU-Header,
	headerCompressionInfoList			HeaderCompressionInfoList			OPTIONAL
}

PDCP-Info-r4 ::=					SEQUENCE {
	losslessSRNS-RelocSupport			LosslessSRNS-RelocSupport			OPTIONAL,
	-- TABULAR: pdcp-PDU-Header is MD in the tabular format and it can be encoded
	-- in one bit, so the OPTIONAL is removed for compactness.
	pdcp-PDU-Header						PDCP-PDU-Header,
	headerCompressionInfoList			HeaderCompressionInfoList-r4		OPTIONAL
}

PDCP-InfoReconfig ::=				SEQUENCE {
	pdcp-Info							PDCP-Info,
	-- dummy is not used in this version of the specification and
	-- it should be ignored.
	dummy								INTEGER (0..65535)
}

PDCP-InfoReconfig-r4 ::=			SEQUENCE {
	pdcp-Info							PDCP-Info-r4
}

PDCP-PDU-Header ::=					ENUMERATED {
										present, absent }

PDCP-ROHC-TargetMode ::=			ENUMERATED { o-Mode, r-Mode }

PDCP-SN-Info ::=					INTEGER (0..65535)

Poll-PDU ::=						ENUMERATED {
										pdu1, pdu2, pdu4, pdu8, pdu16, 
										pdu32, pdu64, pdu128 }

Poll-SDU ::=						ENUMERATED {
										sdu1, sdu4, sdu16, sdu64 }

PollingInfo ::=						SEQUENCE {
	timerPollProhibit					TimerPollProhibit					OPTIONAL,
	timerPoll							TimerPoll							OPTIONAL,
	poll-PDU							Poll-PDU							OPTIONAL,
	poll-SDU							Poll-SDU							OPTIONAL,
	lastTransmissionPDU-Poll			BOOLEAN,
	lastRetransmissionPDU-Poll			BOOLEAN,
	pollWindow							PollWindow							OPTIONAL,
	timerPollPeriodic					TimerPollPeriodic					OPTIONAL
}

PollWindow ::=						ENUMERATED {
										pw50, pw60, pw70, pw80, pw85, 
										pw90, pw95, pw99 }

PredefinedConfigIdentity ::=		INTEGER (0..15)

PredefinedConfigValueTag ::=		INTEGER (0..15)

PredefinedRB-Configuration ::=		SEQUENCE {
	re-EstablishmentTimer				Re-EstablishmentTimer,
	srb-InformationList					SRB-InformationSetupList,
	rb-InformationList					RB-InformationSetupList
}

PreDefRadioConfiguration ::=		SEQUENCE {
	-- Radio bearer IEs
		predefinedRB-Configuration			PredefinedRB-Configuration,
	-- Transport channel IEs
		preDefTransChConfiguration			PreDefTransChConfiguration,
	-- Physical channel IEs
		preDefPhyChConfiguration			PreDefPhyChConfiguration
}

PreDefRadioConfiguration-v770ext ::= SEQUENCE {
	-- Physical channel IEs
		preDefPhyChConfiguration			PreDefPhyChConfiguration-v770ext
}

PreDefRadioConfiguration-v920ext ::= SEQUENCE {
	-- Transport channel IEs
		mac-ehsWindowSize					MAC-hs-WindowSize-r9
}

PredefinedConfigStatusList ::=				SEQUENCE (SIZE (maxPredefConfig)) OF
											PredefinedConfigStatusInfo

PredefinedConfigStatusInfo ::=		CHOICE {
	storedWithValueTagSameAsPrevius		NULL,
	other								CHOICE {
		notStored							NULL,
		storedWithDifferentValueTag			PredefinedConfigValueTag
	}
}

PredefinedConfigStatusListComp ::= SEQUENCE {
	setsWithDifferentValueTag			PredefinedConfigSetsWithDifferentValueTag,
	otherEntries						PredefinedConfigStatusListVarSz				OPTIONAL
}

PredefinedConfigSetsWithDifferentValueTag ::= SEQUENCE (SIZE (1..2)) OF
												PredefinedConfigSetWithDifferentValueTag

PredefinedConfigSetWithDifferentValueTag ::= SEQUENCE {
	startPosition								INTEGER (0..10)		DEFAULT 0,
	-- numberOfEntries							INTEGER (6..16),
	-- numberOfEntries is covered by the size of the list in IE PredefinedConfigValueTagList
	valueTagList								PredefinedConfigValueTagList
}


PredefinedConfigValueTagList ::=		SEQUENCE (SIZE (1..maxPredefConfig)) OF
											PredefinedConfigValueTag

PredefinedConfigStatusListVarSz ::=		SEQUENCE (SIZE (1..maxPredefConfig)) OF
											PredefinedConfigStatusInfo

RAB-Info ::=						SEQUENCE {
	rab-Identity						RAB-Identity,
	cn-DomainIdentity					CN-DomainIdentity,
	nas-Synchronisation-Indicator		NAS-Synchronisation-Indicator	OPTIONAL,
	re-EstablishmentTimer				Re-EstablishmentTimer
}

RAB-Info-r6-ext ::=					SEQUENCE {
	mbms-SessionIdentity				MBMS-SessionIdentity				OPTIONAL
}

RAB-Info-v6b0ext ::=				SEQUENCE {
	mbms-ServiceIdentity				OCTET STRING (SIZE (3))
}

RAB-Info-r6 ::=						SEQUENCE {
	rab-Identity						RAB-Identity,
	mbms-SessionIdentity				MBMS-SessionIdentity				OPTIONAL,
	cn-DomainIdentity					CN-DomainIdentity,
	nas-Synchronisation-Indicator		NAS-Synchronisation-Indicator		OPTIONAL,
	re-EstablishmentTimer				Re-EstablishmentTimer
}

RAB-Info-r7 ::=						SEQUENCE {
	rab-Identity						RAB-Identity,
	mbms-SessionIdentity				MBMS-SessionIdentity				OPTIONAL,
	mbms-ServiceIdentity				OCTET STRING (SIZE (3))				OPTIONAL,
	cn-DomainIdentity					CN-DomainIdentity,
	nas-Synchronisation-Indicator		NAS-Synchronisation-Indicator		OPTIONAL,
	re-EstablishmentTimer				Re-EstablishmentTimer
}

RAB-InfoReplace ::=					SEQUENCE {
	rab-Identity						RAB-Identity,
	cn-DomainIdentity					CN-DomainIdentity
}

RAB-InformationList ::=				SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-Info

RAB-InformationList-r6 ::=			SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-Info-r6

RAB-InformationReconfigList ::= 	SEQUENCE (SIZE (1.. maxRABsetup)) OF
										RAB-InformationReconfig

RAB-InformationReconfigList-r8 ::=	SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationReconfig-r8

RAB-InformationReconfig ::=			SEQUENCE {
	rab-Identity						RAB-Identity,
	cn-DomainIdentity					CN-DomainIdentity,
	nas-Synchronisation-Indicator		NAS-Synchronisation-Indicator
}

RAB-InformationReconfig-r8 ::=		SEQUENCE {
	rab-Identity						RAB-Identity,
	cn-DomainIdentity					CN-DomainIdentity,
	nas-Synchronisation-Indicator		NAS-Synchronisation-Indicator,
	cs-HSPA-Information					CS-HSPA-Information				OPTIONAL
}

RAB-Info-Post ::=						SEQUENCE {
	rab-Identity						RAB-Identity,
	cn-DomainIdentity					CN-DomainIdentity,
	nas-Synchronisation-Indicator		NAS-Synchronisation-Indicator	OPTIONAL
}

RAB-InformationMBMSPtp ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	mbms-ServiceIdentity				OCTET STRING (SIZE (3)),
	mbms-SessionIdentity				MBMS-SessionIdentity				OPTIONAL
}

RAB-InformationMBMSPtpList ::=		SEQUENCE (SIZE (1..maxMBMSservSelect)) OF
										RAB-InformationMBMSPtp

RAB-InformationSetup ::=			SEQUENCE {
	rab-Info							RAB-Info,
	rb-InformationSetupList				RB-InformationSetupList
}

RAB-InformationSetup-r4 ::=			SEQUENCE {
	rab-Info							RAB-Info,
	rb-InformationSetupList				RB-InformationSetupList-r4
}

RAB-InformationSetup-r5 ::=			SEQUENCE {
	rab-Info							RAB-Info,
	rb-InformationSetupList				RB-InformationSetupList-r5
}

RAB-InformationSetup-r6-ext ::=		SEQUENCE {
	rab-Info-r6-ext						RAB-Info-r6-ext
}

RAB-InformationSetup-r6 ::=			SEQUENCE {
	rab-Info							RAB-Info-r6,
	rb-InformationSetupList				RB-InformationSetupList-r6
}

RAB-InformationSetup-v6b0ext ::=	SEQUENCE {
	rab-Info-v6b0ext					RAB-Info-v6b0ext			OPTIONAL
}

RAB-InformationSetup-r7 ::=			SEQUENCE {
	rab-Info							RAB-Info-r7,
	rb-InformationSetupList				RB-InformationSetupList-r7
}

RAB-InformationSetup-r8 ::=			SEQUENCE {
	rab-Info							RAB-Info-r7,
	cs-HSPA-Information					CS-HSPA-Information			OPTIONAL,
	rab-InfoReplace						RAB-InfoReplace				OPTIONAL,
	rb-InformationSetupList				RB-InformationSetupList-r8
}

RAB-InformationSetup-v820ext ::=	SEQUENCE {
	cs-HSPA-Information					CS-HSPA-Information			OPTIONAL
}

RAB-InformationSetup-r11 ::=			SEQUENCE {
	rab-Info							RAB-Info-r7,
	cs-HSPA-Information					CS-HSPA-Information			OPTIONAL,
	rab-InfoReplace						RAB-InfoReplace				OPTIONAL,
	rb-InformationSetupList				RB-InformationSetupList-r11
}

RAB-InformationSetupList ::=		SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationSetup

RAB-InformationSetupList-r4 ::=		SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationSetup-r4

RAB-InformationSetupList-r5 ::=		SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationSetup-r5

RAB-InformationSetupList-r6 ::=		SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationSetup-r6

-- The IE 'RAB-InformationSetupList-r6-ext' provides elements of extension information, which
-- are added to the corresponding elements of the IE 'RAB-InformationSetupList/-r4/-r5'.
RAB-InformationSetupList-r6-ext ::= SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationSetup-r6-ext

RAB-InformationSetupList-v6b0ext ::= SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationSetup-v6b0ext

RAB-InformationSetupList-r7 ::=		SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationSetup-r7

RAB-InformationSetupList-r8 ::=		SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationSetup-r8

RAB-InformationSetupList-v820ext ::= SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationSetup-v820ext

RAB-InformationSetupList-r11 ::=		SEQUENCE (SIZE (1..maxRABsetup)) OF
										RAB-InformationSetup-r11

RB-ActivationTimeInfo ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	rlc-SequenceNumber					RLC-SequenceNumber
}	

RB-ActivationTimeInfoList ::=		SEQUENCE (SIZE (1..maxRB)) OF
										RB-ActivationTimeInfo

RB-COUNT-C-Information ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	count-C-UL							COUNT-C,
	count-C-DL							COUNT-C
}

RB-COUNT-C-InformationList ::=		SEQUENCE (SIZE (1..maxRBallRABs)) OF
										RB-COUNT-C-Information

RB-COUNT-C-MSB-Information ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	count-C-MSB-UL						COUNT-C-MSB,
	count-C-MSB-DL						COUNT-C-MSB
}

RB-COUNT-C-MSB-InformationList ::=	SEQUENCE (SIZE (1..maxRBallRABs)) OF
										RB-COUNT-C-MSB-Information

RB-Identity ::=						INTEGER (1..32)

RB-IdentityList ::=					SEQUENCE (SIZE (1..maxRB)) OF
										RB-Identity

RB-InformationAffected ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	rb-MappingInfo						RB-MappingInfo
}

RB-InformationAffected-r5 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	rb-MappingInfo						RB-MappingInfo-r5
}

RB-InformationAffected-r6 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	rb-MappingInfo						RB-MappingInfo-r6
}

RB-InformationAffected-r7 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	rb-MappingInfo						RB-MappingInfo-r7
}

RB-InformationAffected-r8 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	rb-MappingInfo						RB-MappingInfo-r8
}

RB-InformationAffectedList ::=		SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationAffected

RB-InformationAffectedList-r5 ::=	SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationAffected-r5

RB-InformationAffectedList-r6 ::=	SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationAffected-r6

RB-InformationAffectedList-r7 ::=	SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationAffected-r7

RB-InformationAffectedList-r8 ::=	SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationAffected-r8

RB-InformationChanged-r6 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	rb-Change							CHOICE {
		release								NULL,
		re-mapToDefaultRb					RB-Identity
	}
}

RB-InformationChangedList-r6 ::= 		SEQUENCE (SIZE (1..maxRB)) OF
											RB-InformationChanged-r6

RB-InformationReconfig ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-InfoReconfig					OPTIONAL,
	pdcp-SN-Info						PDCP-SN-Info						OPTIONAL,
	rlc-Info							RLC-Info							OPTIONAL,
	rb-MappingInfo						RB-MappingInfo						OPTIONAL,
	rb-StopContinue						RB-StopContinue						OPTIONAL
}

RB-InformationReconfig-r4 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-InfoReconfig-r4				OPTIONAL,
	pdcp-SN-Info						PDCP-SN-Info						OPTIONAL,
	rlc-Info							RLC-Info							OPTIONAL,
	rb-MappingInfo						RB-MappingInfo						OPTIONAL,
	rb-StopContinue						RB-StopContinue						OPTIONAL
}

RB-InformationReconfig-r5 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-InfoReconfig-r4				OPTIONAL,
	pdcp-SN-Info						PDCP-SN-Info						OPTIONAL,
	rlc-Info							RLC-Info-r5							OPTIONAL,
	rb-MappingInfo						RB-MappingInfo-r5					OPTIONAL,
	rb-StopContinue						RB-StopContinue						OPTIONAL
}

RB-InformationReconfig-r6 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-InfoReconfig-r4				OPTIONAL,
	pdcp-SN-Info						PDCP-SN-Info						OPTIONAL,
	rlc-Info							RLC-Info-r6							OPTIONAL,
	rb-MappingInfo						RB-MappingInfo-r6					OPTIONAL,
	rb-StopContinue						RB-StopContinue						OPTIONAL
}

RB-InformationReconfig-r7 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-InfoReconfig-r4				OPTIONAL,
	pdcp-SN-Info						PDCP-SN-Info						OPTIONAL,
	rlc-Info							RLC-Info-r7							OPTIONAL,
	rb-MappingInfo						RB-MappingInfo-r7					OPTIONAL,
	rb-StopContinue						RB-StopContinue						OPTIONAL
}

RB-InformationReconfig-r8 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-InfoReconfig-r4				OPTIONAL,
	pdcp-SN-Info						PDCP-SN-Info						OPTIONAL,
	rlc-Info							RLC-Info-r7							OPTIONAL,
	rb-MappingInfo						RB-MappingInfo-r8					OPTIONAL,
	rb-StopContinue						RB-StopContinue						OPTIONAL
}

RB-InformationReconfig-r11 ::=		SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-InfoReconfig-r4				OPTIONAL,
	pdcp-SN-Info						PDCP-SN-Info						OPTIONAL,
	rlc-Info							RLC-Info-r11						OPTIONAL,
	rb-MappingInfo						RB-MappingInfo-r8					OPTIONAL,
	rb-StopContinue						RB-StopContinue						OPTIONAL
}

RB-InformationReconfigList ::=		SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationReconfig

RB-InformationReconfigList-r4 ::=	SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationReconfig-r4

RB-InformationReconfigList-r5 ::=	SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationReconfig-r5

RB-InformationReconfigList-r6 ::=	SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationReconfig-r6

RB-InformationReconfigList-r7 ::=	SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationReconfig-r7

RB-InformationReconfigList-r8 ::=	SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationReconfig-r8

RB-InformationReconfigList-r11 ::=	SEQUENCE (SIZE (1..maxRB)) OF
										RB-InformationReconfig-r11

RB-InformationReleaseList ::=		SEQUENCE (SIZE (1..maxRB)) OF
										RB-Identity

RB-InformationSetup ::=				SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-Info							OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice,
	rb-MappingInfo						RB-MappingInfo
}

RB-InformationSetup-r4 ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-Info-r4						OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice,
	rb-MappingInfo						RB-MappingInfo
}

RB-InformationSetup-r5 ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-Info-r4						OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice-r5,
	rb-MappingInfo						RB-MappingInfo-r5
}

RB-InformationSetup-r6 ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-Info-r4						OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice-r6,
	rb-MappingInfo						RB-MappingInfo-r6
}

RB-InformationSetup-r7 ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-Info-r4						OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice-r7,
	rb-MappingInfo						RB-MappingInfo-r7
}

RB-InformationSetup-r8 ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-Info-r4						OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice-r7,
	rb-MappingInfo						RB-MappingInfo-r8
}

RB-InformationSetup-r11 ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-Info							PDCP-Info-r4						OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice-r11,
	rb-MappingInfo						RB-MappingInfo-r8
}

RB-InformationSetupList ::=			SEQUENCE (SIZE (1..maxRBperRAB)) OF
										RB-InformationSetup

RB-InformationSetupList-r4 ::=		SEQUENCE (SIZE (1..maxRBperRAB)) OF
										RB-InformationSetup-r4

RB-InformationSetupList-r5 ::=		SEQUENCE (SIZE (1..maxRBperRAB)) OF
										RB-InformationSetup-r5

RB-InformationSetupList-r6 ::=		SEQUENCE (SIZE (1..maxRBperRAB)) OF
										RB-InformationSetup-r6

RB-InformationSetupList-r7 ::=		SEQUENCE (SIZE (1..maxRBperRAB)) OF
										RB-InformationSetup-r7

RB-InformationSetupList-r8 ::=		SEQUENCE (SIZE (1..maxRBperRAB)) OF
										RB-InformationSetup-r8

RB-InformationSetupList-r11 ::=		SEQUENCE (SIZE (1..maxRBperRAB)) OF
										RB-InformationSetup-r11

RB-MappingInfo ::=					SEQUENCE (SIZE (1..maxRBMuxOptions)) OF
										RB-MappingOption

RB-MappingInfo-r5 ::=				SEQUENCE (SIZE (1..maxRBMuxOptions)) OF
										RB-MappingOption-r5

RB-MappingInfo-r6 ::=				SEQUENCE (SIZE (1..maxRBMuxOptions)) OF
										RB-MappingOption-r6

RB-MappingInfo-r7 ::=				SEQUENCE (SIZE (1..maxRBMuxOptions)) OF
										RB-MappingOption-r7

RB-MappingInfo-r8 ::=				SEQUENCE (SIZE (1..maxRBMuxOptions)) OF
										RB-MappingOption-r8

RB-MappingOption ::=				SEQUENCE {
	ul-LogicalChannelMappings			UL-LogicalChannelMappings			OPTIONAL,
	dl-LogicalChannelMappingList		DL-LogicalChannelMappingList		OPTIONAL
}

RB-MappingOption-r5 ::=				SEQUENCE {
	ul-LogicalChannelMappings			UL-LogicalChannelMappings			OPTIONAL,
	dl-LogicalChannelMappingList		DL-LogicalChannelMappingList-r5		OPTIONAL
}

RB-MappingOption-r6 ::=				SEQUENCE {
	ul-LogicalChannelMappings			UL-LogicalChannelMappings-r6		OPTIONAL,
	dl-LogicalChannelMappingList		DL-LogicalChannelMappingList-r5		OPTIONAL
}

RB-MappingOption-r7 ::=				SEQUENCE {
	ul-LogicalChannelMappings			UL-LogicalChannelMappings-r6		OPTIONAL,
	dl-LogicalChannelMappingList		DL-LogicalChannelMappingList-r7		OPTIONAL
}

RB-MappingOption-r8 ::=				SEQUENCE {
	ul-LogicalChannelMappings			UL-LogicalChannelMappings-r8		OPTIONAL,
	dl-LogicalChannelMappingList		DL-LogicalChannelMappingList-r7		OPTIONAL
}

RB-PDCPContextRelocation ::=			SEQUENCE {
	rb-Identity								RB-Identity,
	dl-RFC3095-Context-Relocation			BOOLEAN,
	ul-RFC3095-Context-Relocation			BOOLEAN
}

RB-PDCPContextRelocationList ::=			SEQUENCE (SIZE (1..maxRBallRABs)) OF
											RB-PDCPContextRelocation

RB-StopContinue ::=					ENUMERATED {
										stopRB, continueRB }

RB-WithPDCP-Info ::=				SEQUENCE {
	rb-Identity							RB-Identity,
	pdcp-SN-Info						PDCP-SN-Info
}

RB-WithPDCP-InfoList ::=			SEQUENCE (SIZE (1..maxRBallRABs)) OF
										RB-WithPDCP-Info

ReceivingWindowSize ::=				ENUMERATED {
										rw1, rw8, rw16, rw32, rw64, rw128, rw256,
										rw512, rw768, rw1024, rw1536, rw2047, 
										rw2560, rw3072, rw3584, rw4095 }

RetrievableConfig ::=	SEQUENCE {
	retrievableConfigIdentity			RetrievableConfigIdentity,
	retrievableConfigData				RetrievableConfigData
}

RetrievableConfigData ::=	SEQUENCE {
	srb-InformationSetupList			SRB-InformationSetupList-r11			OPTIONAL,
	rab-InformationSetupList			RAB-InformationSetupList-r11			OPTIONAL,
	rb-InformationReconfigList		RB-InformationReconfigList-r11		OPTIONAL,
	ul-CommonTransChInfo				UL-CommonTransChInfo-r12				OPTIONAL,
	ul-TransChInfoList					UL-AddReconfTransChInfoList-r8		OPTIONAL,
	dl-CommonTransChInfo				DL-CommonTransChInfo-r4				OPTIONAL,
	dl-TransChInfoList					DL-AddReconfTransChInfoList-r13		OPTIONAL,
	dtx-drx-Info						DTX-DRX-Info-r12						OPTIONAL,
	hs-scch-LessInfo					HS-SCCH-LessInfo-r7					OPTIONAL,
	mimoParameters						MIMO-Parameters-r9						OPTIONAL,
	mimo4x4Parameters					MIMO4x4-Parameters						OPTIONAL,
	dch-Enhancements-Info-FDD			DCH-Enhancements-Info-FDD				OPTIONAL,
	ul-EDCH-Information				UL-EDCH-Information-r11				OPTIONAL,
	dl-HSPDSCH-Information			DL-HSPDSCH-Information-r12			OPTIONAL,
	dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11			OPTIONAL,
	additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
	additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL
}

RetrievableConfigIdentity ::=		INTEGER (0..maxRetrievConfig-1)

RetrievableConfigInfo ::=			SEQUENCE {
	retrievableConfigToBeInvoked		RetrievableConfigIdentity			OPTIONAL,
	retrievableConfigToBeStored		RetrievableConfigIdentity			OPTIONAL,
	retrievableConfigToBeRemoved		RetrievableConfigListToRemove		OPTIONAL,
	preconfiguredRetrievableConfig	RetrievableConfig-List			OPTIONAL
}

RetrievableConfig-List ::= 	SEQUENCE (SIZE(1.. maxRetrievConfig)) OF
										RetrievableConfig

RetrievableConfigListToRemove ::=	SEQUENCE (SIZE (1..maxRetrievConfig)) OF
											RetrievableConfigIdentity



RFC2507-Info ::=					SEQUENCE {
	f-MAX-PERIOD						INTEGER (1..65535)					DEFAULT 256,
	f-MAX-TIME							INTEGER (1..255)					DEFAULT 5,
	max-HEADER							INTEGER (60..65535)					DEFAULT 168,
	tcp-SPACE							INTEGER (3..255)					DEFAULT 15,
	non-TCP-SPACE						INTEGER (3..65535)					DEFAULT 15,
	-- TABULAR: expectReordering has only two possible values, so using Optional or Default
	-- would be wasteful
	expectReordering					ExpectReordering
}

RFC3095-Info-r4 ::=				SEQUENCE {
	rohcProfileList						ROHC-ProfileList-r4,
	ul-RFC3095							UL-RFC3095-r4						OPTIONAL,
	dl-RFC3095							DL-RFC3095-r4						OPTIONAL
}

RLC-Info ::=						SEQUENCE {
	ul-RLC-Mode							UL-RLC-Mode							OPTIONAL,
	dl-RLC-Mode							DL-RLC-Mode							OPTIONAL
}

RLC-Info-r5 ::=						SEQUENCE {
	ul-RLC-Mode							UL-RLC-Mode							OPTIONAL,
	dl-RLC-Mode							DL-RLC-Mode-r5						OPTIONAL,
	rlc-OneSidedReEst					BOOLEAN
}

RLC-Info-r6 ::=						SEQUENCE {
	ul-RLC-Mode							UL-RLC-Mode							OPTIONAL,
	dl-RLC-Mode							DL-RLC-Mode-r6						OPTIONAL,
	rlc-OneSidedReEst					BOOLEAN,
	altE-bitInterpretation				ENUMERATED { true }					OPTIONAL
}

RLC-Info-r7 ::=						SEQUENCE {
	ul-RLC-Mode							UL-RLC-Mode							OPTIONAL,
	dl-RLC-Mode							DL-RLC-Mode-r7						OPTIONAL,
	rlc-OneSidedReEst					BOOLEAN,
	altE-bitInterpretation				ENUMERATED { true }					OPTIONAL,
	useSpecialValueOfHEField			ENUMERATED { true }					OPTIONAL
}

RLC-Info-r11 ::=						SEQUENCE {
	ul-RLC-Mode							UL-RLC-Mode							OPTIONAL,
	dl-RLC-Mode							DL-RLC-Mode-r11						OPTIONAL,
	rlc-OneSidedReEst					BOOLEAN,
	altE-bitInterpretation				ENUMERATED { true }					OPTIONAL,
	useSpecialValueOfHEField			ENUMERATED { true }					OPTIONAL
}

RLC-Info-MCCH-r6 ::=				SEQUENCE {
	dl-UM-RLC-LI-size					DL-UM-RLC-LI-size,
	dl-UM-RLC-OutOSeqDelivery-Info		UM-RLC-OutOSeqDelivery-Info-r6		OPTIONAL
}

RLC-Info-MSCH-r6 ::=				SEQUENCE {
	dl-UM-RLC-LI-size					DL-UM-RLC-LI-size
}

RLC-Info-MTCH-r6 ::=				SEQUENCE {
	dl-UM-RLC-LI-size					DL-UM-RLC-LI-size,
	dl-UM-RLC-DuplAvoid-Reord-Info		UM-RLC-DuplAvoid-Reord-Info-r6		OPTIONAL
}

RLC-InfoChoice ::=					CHOICE {
	rlc-Info							RLC-Info,
	same-as-RB							RB-Identity
}

RLC-InfoChoice-r5 ::=				CHOICE {
	rlc-Info							RLC-Info-r5,
	same-as-RB							RB-Identity
}

RLC-InfoChoice-r6 ::=				CHOICE {
	rlc-Info							RLC-Info-r6,
	same-as-RB							RB-Identity
}

RLC-InfoChoice-r7 ::=				CHOICE {
	rlc-Info							RLC-Info-r7,
	same-as-RB							RB-Identity
}

RLC-InfoChoice-r11 ::=				CHOICE {
	rlc-Info							RLC-Info-r11,
	same-as-RB							RB-Identity
}

RLC-PDU-Size ::=					OctetModeRLC-SizeInfoType1

RLC-PDU-SizeConstraint ::=			SEQUENCE {
	lengthIndicatorSize					ENUMERATED { size7, size15 }		OPTIONAL,
	-- the actual values are (IE value * 8) + 16
	minRLC-PDU-Size						INTEGER (0..1503),
	largestRLC-PDU-Size					INTEGER (0..1503)
}

RLC-PDU-SizeList ::=				SEQUENCE (SIZE (1..maxRLCPDUsizePerLogChan)) OF
										RLC-PDU-Size

RLC-SequenceNumber ::=				INTEGER (0..4095)

RLC-SizeInfo ::=					SEQUENCE {
	rlc-SizeIndex						INTEGER (1..maxTF)
}

RLC-SizeExplicitList ::=			SEQUENCE (SIZE	(1..maxTF))	OF
										RLC-SizeInfo

ROHC-Profile-r4 ::=					INTEGER (1..3)

ROHC-ProfileList-r4 ::=				SEQUENCE (SIZE	(1..maxROHC-Profile-r4))	OF
										ROHC-Profile-r4

ROHC-PacketSize-r4 ::=				INTEGER (2..1500)

ROHC-PacketSizeList-r4 ::=			SEQUENCE (SIZE	(1..maxROHC-PacketSizes-r4))	OF
										ROHC-PacketSize-r4

SRB-InformationSetup ::=			SEQUENCE {
	-- The default value for rb-Identity is the smallest value not used yet.
	rb-Identity							RB-Identity							OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice,
	rb-MappingInfo						RB-MappingInfo
}

SRB-InformationSetup-r5 ::=			SEQUENCE {
	-- The default value for rb-Identity is the smallest value not used yet.
	rb-Identity							RB-Identity							OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice-r5,
	rb-MappingInfo						RB-MappingInfo-r5
}

SRB-InformationSetup-r6 ::=			SEQUENCE {
	-- The default value for rb-Identity is the smallest value not used yet.
	rb-Identity							RB-Identity							OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice-r6,
	rb-MappingInfo						RB-MappingInfo-r6
}

SRB-InformationSetup-r7 ::=			SEQUENCE {
	-- The default value for rb-Identity is the smallest value not used yet.
	rb-Identity							RB-Identity							OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice-r7,
	rb-MappingInfo						RB-MappingInfo-r7
}

SRB-InformationSetup-r8 ::=			SEQUENCE {
	-- The default value for rb-Identity is the smallest value not used yet.
	rb-Identity							RB-Identity							OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice-r7,
	rb-MappingInfo						RB-MappingInfo-r8
}

SRB-InformationSetup-r11 ::=			SEQUENCE {
	-- The default value for rb-Identity is the smallest value not used yet.
	rb-Identity							RB-Identity							OPTIONAL,
	rlc-InfoChoice						RLC-InfoChoice-r11,
	rb-MappingInfo						RB-MappingInfo-r8
}

SRB-InformationSetupList ::=		SEQUENCE (SIZE (1..maxSRBsetup)) OF
										SRB-InformationSetup

SRB-InformationSetupList-r5 ::=		SEQUENCE (SIZE (1..maxSRBsetup)) OF
										SRB-InformationSetup-r5

SRB-InformationSetupList-r6 ::=		SEQUENCE (SIZE (1..maxSRBsetup)) OF
										SRB-InformationSetup-r6

SRB-InformationSetupList-r7 ::=		SEQUENCE (SIZE (1..maxSRBsetup)) OF
										SRB-InformationSetup-r7

SRB-InformationSetupList-r8 ::=		SEQUENCE (SIZE (1..maxSRBsetup)) OF
										SRB-InformationSetup-r8

SRB-InformationSetupList-r11 ::=	SEQUENCE (SIZE (1..maxSRBsetup)) OF
										SRB-InformationSetup-r11

SRB-InformationSetupList2 ::=		SEQUENCE (SIZE (3..4)) OF
										SRB-InformationSetup

SRB-InformationSetupList2-r6 ::=	SEQUENCE (SIZE (3..4)) OF
										SRB-InformationSetup-r6

SRB-InformationSetupList2-r7 ::=	SEQUENCE (SIZE (3..4)) OF
										SRB-InformationSetup-r7

SRB-InformationSetupList2-r8 ::=	SEQUENCE (SIZE (3..4)) OF
										SRB-InformationSetup-r8

TimerDAR-r6 ::=						ENUMERATED {
										ms40, ms80, ms120, ms160, ms240, ms320, ms480, ms640,
										ms960, ms1280, ms1920, ms2560, ms3840, ms5120 }

TimerDiscard ::=					ENUMERATED {
										td0-1, td0-25, td0-5, td0-75,
										td1, td1-25, td1-5, td1-75,
										td2, td2-5, td3, td3-5, td4,
										td4-5, td5, td7-5 }

TimerEPC ::=						ENUMERATED {
										te50, te60, te70, te80, te90,
										te100, te120, te140, te160, te180,
										te200, te300, te400, te500, te700,
										te900 }

TimerMRW ::=						ENUMERATED {
										te50, te60, te70, te80, te90, te100, 
										te120, te140, te160, te180, te200, 
										te300, te400, te500, te700, te900 }

TimerOSD-r6 ::=						ENUMERATED {
										ms40, ms80, ms120, ms160, ms240, ms320, ms480, ms640,
										ms960, ms1280, ms1920, ms2560, ms3840, ms5120 }

TimerPoll ::=						ENUMERATED {
										tp10, tp20, tp30, tp40, tp50,
										tp60, tp70, tp80, tp90, tp100,
										tp110, tp120, tp130, tp140, tp150,
										tp160, tp170, tp180, tp190, tp200,
										tp210, tp220, tp230, tp240, tp250,
										tp260, tp270, tp280, tp290, tp300,
										tp310, tp320, tp330, tp340, tp350,
										tp360, tp370, tp380, tp390, tp400,
										tp410, tp420, tp430, tp440, tp450,
										tp460, tp470, tp480, tp490, tp500,
										tp510, tp520, tp530, tp540, tp550,
										tp600, tp650, tp700, tp750, tp800,
										tp850, tp900, tp950, tp1000 }

TimerPollPeriodic ::=				ENUMERATED {
										tper100, tper200, tper300, tper400,
										tper500, tper750, tper1000, tper2000 }

TimerPollProhibit ::=				ENUMERATED {
										tpp10, tpp20, tpp30, tpp40, tpp50,
										tpp60, tpp70, tpp80, tpp90, tpp100,
										tpp110, tpp120, tpp130, tpp140, tpp150,
										tpp160, tpp170, tpp180, tpp190, tpp200,
										tpp210, tpp220, tpp230, tpp240, tpp250,
										tpp260, tpp270, tpp280, tpp290, tpp300,
										tpp310, tpp320, tpp330, tpp340, tpp350,
										tpp360, tpp370, tpp380, tpp390, tpp400,
										tpp410, tpp420, tpp430, tpp440, tpp450,
										tpp460, tpp470, tpp480, tpp490, tpp500,
										tpp510, tpp520, tpp530, tpp540, tpp550,
										tpp600, tpp650, tpp700, tpp750, tpp800,
										tpp850, tpp900, tpp950, tpp1000 }

TimerReordering ::=					ENUMERATED {
										tr50, tr100, tr150, tr200, tr400, tr600, tr800, tr1000 }

TimerRST ::=						ENUMERATED {
										tr50, tr100, tr150, tr200, tr250, tr300, 
										tr350, tr400, tr450, tr500, tr550,
										tr600, tr700, tr800, tr900, tr1000 }

TimerStatusPeriodic ::=				ENUMERATED {
										tsp100, tsp200,	tsp300, tsp400, tsp500,
										tsp750, tsp1000, tsp2000 }

TimerStatusProhibit ::=				ENUMERATED {
										tsp10,tsp20,tsp30,tsp40,tsp50,
										tsp60,tsp70,tsp80,tsp90,tsp100,
										tsp110,tsp120,tsp130,tsp140,tsp150,
										tsp160,tsp170,tsp180,tsp190,tsp200,
										tsp210,tsp220,tsp230,tsp240,tsp250,
										tsp260,tsp270,tsp280,tsp290,tsp300,
										tsp310,tsp320,tsp330,tsp340,tsp350,
										tsp360,tsp370,tsp380,tsp390,tsp400,
										tsp410,tsp420,tsp430,tsp440,tsp450,
										tsp460,tsp470,tsp480,tsp490,tsp500,
										tsp510,tsp520,tsp530,tsp540,tsp550,
										tsp600,tsp650,tsp700,tsp750,tsp800,
										tsp850,tsp900,tsp950,tsp1000 }

TransmissionRLC-Discard ::=			CHOICE {
	timerBasedExplicit					ExplicitDiscard,
	timerBasedNoExplicit				NoExplicitDiscard,
	maxDAT-Retransmissions				MaxDAT-Retransmissions,
	noDiscard							MaxDAT
}

TransmissionWindowSize ::=			ENUMERATED {
										tw1, tw8, tw16, tw32, tw64, tw128, tw256,
										tw512, tw768, tw1024, tw1536, tw2047, 
										tw2560, tw3072, tw3584, tw4095 }

-- Actual bit rate per each value is defined in [62] and [63]
UL-AMR-Rate ::=						ENUMERATED { 
										t0, t1, t2, t3, t4, t5, t6, t7, t8, spare7, spare6, spare5,
										spare4, spare3, spare2, spare1 }

UL-AM-RLC-Mode ::=					SEQUENCE {
	transmissionRLC-Discard				TransmissionRLC-Discard,
	transmissionWindowSize				TransmissionWindowSize,
	timerRST							TimerRST,
	max-RST								MaxRST,
	pollingInfo							PollingInfo							OPTIONAL
}

UL-CounterSynchronisationInfo ::=		SEQUENCE {
	rB-WithPDCP-InfoList					RB-WithPDCP-InfoList 	OPTIONAL,
	startList								STARTList
}

UL-LogicalChannelMapping ::=		SEQUENCE {
	-- TABULAR: UL-TransportChannelType contains TransportChannelIdentity as well.
	ul-TransportChannelType				UL-TransportChannelType,
	logicalChannelIdentity				LogicalChannelIdentity				OPTIONAL,
	rlc-SizeList						CHOICE {
		allSizes							NULL,
		configured							NULL,
		explicitList						RLC-SizeExplicitList
	},
	mac-LogicalChannelPriority			MAC-LogicalChannelPriority
}

UL-LogicalChannelMapping-r6 ::=		SEQUENCE {
	ul-TrCH-Type						CHOICE {
		dch-rach-usch						SEQUENCE {
			-- TABULAR: UL-TransportChannelType contains TransportChannelIdentity as well.
			ul-TransportChannelType				UL-TransportChannelType,
			logicalChannelIdentity				LogicalChannelIdentity				OPTIONAL,
			rlc-SizeList						CHOICE {
				allSizes							NULL,
				configured							NULL,
				explicitList						RLC-SizeExplicitList
			}
		},
		e-dch								SEQUENCE {
			logicalChannelIdentity				LogicalChannelIdentity,
			e-DCH-MAC-d-FlowIdentity			E-DCH-MAC-d-FlowIdentity,
			ddi									DDI,
			rlc-PDU-SizeList					RLC-PDU-SizeList,
			includeInSchedulingInfo				BOOLEAN
		}
	},
	mac-LogicalChannelPriority			MAC-LogicalChannelPriority
}

UL-LogicalChannelMapping-r8 ::=		SEQUENCE {
	ul-TrCH-Type						CHOICE {
		dch-rach-usch						SEQUENCE {
			-- TABULAR: UL-TransportChannelType contains TransportChannelIdentity as well.
			ul-TransportChannelType				UL-TransportChannelType,
			logicalChannelIdentity				LogicalChannelIdentity				OPTIONAL,
			rlc-SizeList						CHOICE {
				allSizes							NULL,
				configured							NULL,
				explicitList						RLC-SizeExplicitList
			}
		},
		e-dch								SEQUENCE {
			logicalChannelIdentity				LogicalChannelIdentity,
			e-DCH-MAC-d-FlowIdentity			E-DCH-MAC-d-FlowIdentity,
			rlc-PDU-Size						CHOICE {
				fixedSize							SEQUENCE {
					ddi									DDI,
					rlc-PDU-SizeList					RLC-PDU-SizeList
				},
				flexibleSize						RLC-PDU-SizeConstraint
			},
			includeInSchedulingInfo				BOOLEAN
		}
	},
	mac-LogicalChannelPriority			MAC-LogicalChannelPriority
}

UL-LogicalChannelMappingList ::=	SEQUENCE {
	-- rlc-LogicalChannelMappingIndicator shall be set to TRUE in this version
	-- of the specification
	rlc-LogicalChannelMappingIndicator	BOOLEAN,
	ul-LogicalChannelMapping			SEQUENCE (SIZE (maxLoCHperRLC)) OF
										UL-LogicalChannelMapping
}

UL-LogicalChannelMappingList-r6 ::=	SEQUENCE {
	-- rlc-LogicalChannelMappingIndicator shall be set to TRUE in this version
	-- of the specification
	rlc-LogicalChannelMappingIndicator	BOOLEAN,
	ul-LogicalChannelMapping			SEQUENCE (SIZE (maxLoCHperRLC)) OF
											UL-LogicalChannelMapping-r6
}

UL-LogicalChannelMappingList-r8 ::=	SEQUENCE {
	-- rlc-LogicalChannelMappingIndicator shall be set to TRUE in this version
	-- of the specification
	rlc-LogicalChannelMappingIndicator	BOOLEAN,
	ul-LogicalChannelMapping			SEQUENCE (SIZE (maxLoCHperRLC)) OF
											UL-LogicalChannelMapping-r8
}

UL-LogicalChannelMappings ::=		CHOICE {
	oneLogicalChannel					UL-LogicalChannelMapping,
	twoLogicalChannels					UL-LogicalChannelMappingList
}

UL-LogicalChannelMappings-r6 ::=	CHOICE {
	oneLogicalChannel					UL-LogicalChannelMapping-r6,
	twoLogicalChannels					UL-LogicalChannelMappingList-r6
}

UL-LogicalChannelMappings-r8 ::=	CHOICE {
	oneLogicalChannel					UL-LogicalChannelMapping-r8,
	twoLogicalChannels					UL-LogicalChannelMappingList-r8
}

UL-RFC3095-r4 ::=					SEQUENCE {
	-- dummy1 is not used in this version of the specification and shall be ignored by the receiver.
	dummy1								CID-InclusionInfo-r4,
	max-CID								INTEGER (1..16383)					DEFAULT 15,
	-- dummy is not used in this version of the specification and
	-- it should be ignored by the receiver.
	dummy								ROHC-PacketSizeList-r4
}

UL-RLC-Mode ::=						CHOICE {
	ul-AM-RLC-Mode						UL-AM-RLC-Mode,
	ul-UM-RLC-Mode						UL-UM-RLC-Mode,
	ul-TM-RLC-Mode						UL-TM-RLC-Mode,
	spare								NULL
}

UL-TM-RLC-Mode ::=					SEQUENCE {
	transmissionRLC-Discard				TransmissionRLC-Discard				OPTIONAL,
	segmentationIndication				BOOLEAN
}

UL-UM-RLC-Mode ::=					SEQUENCE {
	transmissionRLC-Discard				TransmissionRLC-Discard				OPTIONAL
}

UL-TransportChannelType ::=			CHOICE {
	dch									TransportChannelIdentity,
	rach								NULL,
	-- dummy is not used in this version of the specification and
	-- if received the UE behaviour is not specified.
	dummy								NULL,
	usch								TransportChannelIdentity
}

UM-RLC-DuplAvoid-Reord-Info-r6 ::=	SEQUENCE {
	timer-DAR							TimerDAR-r6,
	widowSize-DAR						WindowSizeDAR-r6
}

UM-RLC-OutOSeqDelivery-Info-r6 ::=	SEQUENCE {
	timer-OSD							TimerOSD-r6							OPTIONAL,
	windowSize-OSD						WindowSizeOSD-r6
}

WindowSizeDAR-r6 ::=				ENUMERATED {
										ws4, ws8, ws16, ws32, ws40, ws48,
										ws56, ws64 }

WindowSizeOSD-r6 ::=				ENUMERATED {
										ws8, ws16, ws32, ws40, ws48,
										ws56, ws64 }

-- ***************************************************
--
--     TRANSPORT CHANNEL INFORMATION ELEMENTS (10.3.5)
--
-- ***************************************************

AddOrReconfMAC-dFlow ::=			SEQUENCE {
	mac-hs-AddReconfQueue-List			MAC-hs-AddReconfQueue-List		OPTIONAL,
	mac-hs-DelQueue-List				MAC-hs-DelQueue-List			OPTIONAL
}

AddOrReconfMAC-ehs-ReordQ ::=		SEQUENCE {
	mac-ehs-AddReconfQueue-List			MAC-ehs-AddReconfReordQ-List	OPTIONAL,
	-- dummy is not used in this version of the specification, it should 
	-- not be sent and if received it should be ignored.
	dummy								MAC-ehs-DelReordQ-List			OPTIONAL
}

AddOrReconfMAC-ehs-ReordQ-r9 ::=		SEQUENCE {
	mac-ehs-AddReconfQueue-List			MAC-ehs-AddReconfReordQ-List-r9	OPTIONAL
}

AddOrReconfMAC-ehs-ReordQ-TDD128-v9c0ext ::=		SEQUENCE {
	mac-ehs-AddReconfQueue-List			MAC-ehs-AddReconfReordQ-List-TDD128-v9c0ext	OPTIONAL
}

AddOrReconfMAC-ehs-ReordQ-r11 ::=		SEQUENCE {
	mac-ehs-AddReconfQueue-List			MAC-ehs-AddReconfReordQ-List-r11	OPTIONAL
}

AllowedTFC-List ::=					SEQUENCE (SIZE (1..maxTFC)) OF
										TFC-Value

AllowedTFI-List ::=					SEQUENCE (SIZE (1..maxTF)) OF
										INTEGER (0..31)

BitModeRLC-SizeInfo ::=				CHOICE {
	sizeType1							INTEGER (0..127),
	-- Actual value sizeType2 = (part1 * 8) + 128 + part2
	sizeType2							SEQUENCE {
		part1								INTEGER (0..15),
		part2								INTEGER (1..7)					OPTIONAL
	},
	-- Actual value sizeType3 = (part1 * 16) + 256 + part2
	sizeType3							SEQUENCE {
		part1								INTEGER (0..47),
		part2								INTEGER (1..15)					OPTIONAL
	},
	-- Actual value sizeType4 = (part1 * 64) + 1024 + part2
	sizeType4							SEQUENCE {
		part1								INTEGER (0..62),
		part2								INTEGER (1..63)					OPTIONAL
	}
}

-- Actual value BLER-QualityValue = IE value * 0.1
BLER-QualityValue ::=				INTEGER (-63..0)

ChannelCodingType ::=				CHOICE { 
	-- noCoding is only used for TDD in this version of the specification,
	-- otherwise it should be ignored
	noCoding							NULL,
	convolutional						CodingRate,
	turbo								NULL 
}

CodingRate ::=						ENUMERATED {
										half,
										third }

Common-E-DCH-MAC-d-Flow ::=		SEQUENCE {
	mac-d-FlowIdentity					E-DCH-MAC-d-FlowIdentity,
	mac-d-FlowPowerOffset				E-DCH-MAC-d-FlowPowerOffset,
	mac-d-FlowMaxRetrans				E-DCH-MAC-d-FlowMaxRetrans,
	mac-d-FlowMultiplexingList			E-DCH-MAC-d-FlowMultiplexingList	OPTIONAL,
	e-dch-mac-d-flow-retransmission-timer	E-DCH-MAC-d-FlowRetransTimer	OPTIONAL
}

Common-E-DCH-MAC-d-FlowList ::=		SEQUENCE (SIZE (1..maxE-DCHMACdFlow)) OF
										Common-E-DCH-MAC-d-Flow

Common-E-DCH-MAC-d-Flow-Info-ConcurrentTTI ::=		SEQUENCE {
	mac-d-FlowIdentity					E-DCH-MAC-d-FlowIdentity,
	mac-d-FlowPowerOffset				E-DCH-MAC-d-FlowPowerOffset	OPTIONAL,
	mac-d-FlowMaxRetrans				E-DCH-MAC-d-FlowMaxRetrans	OPTIONAL
}

Common-E-DCH-MAC-d-Flow-Info-List-ConcurrentTTI ::=		SEQUENCE (SIZE (1..maxE-DCHMACdFlow)) OF
													Common-E-DCH-MAC-d-Flow-Info-ConcurrentTTI

CommonDynamicTF-Info ::=			SEQUENCE {
	rlc-Size							CHOICE {
		fdd									SEQUENCE {
			octetModeRLC-SizeInfoType2			OctetModeRLC-SizeInfoType2
		},
		tdd									SEQUENCE {
			commonTDD-Choice					CHOICE {
				bitModeRLC-SizeInfo					BitModeRLC-SizeInfo,
				octetModeRLC-SizeInfoType1			OctetModeRLC-SizeInfoType1
			}
		}
	},
	numberOfTbSizeList				SEQUENCE (SIZE (1..maxTF)) OF		
											NumberOfTransportBlocks,
	logicalChannelList				LogicalChannelList
}

CommonDynamicTF-Info-DynamicTTI ::=	SEQUENCE {
	commonTDD-Choice					CHOICE {
		bitModeRLC-SizeInfo					BitModeRLC-SizeInfo,
		octetModeRLC-SizeInfoType1			OctetModeRLC-SizeInfoType1
	},
	numberOfTbSizeAndTTIList			NumberOfTbSizeAndTTIList,
	logicalChannelList					LogicalChannelList
}

CommonDynamicTF-InfoList ::=		SEQUENCE (SIZE (1..maxTF)) OF
										CommonDynamicTF-Info

CommonDynamicTF-InfoList-DynamicTTI ::= SEQUENCE (SIZE (1..maxTF)) OF
										CommonDynamicTF-Info-DynamicTTI

CommonTransChTFS ::=				SEQUENCE {
	tti									CHOICE {
		tti10								CommonDynamicTF-InfoList,
		tti20								CommonDynamicTF-InfoList,
		tti40								CommonDynamicTF-InfoList,
		tti80								CommonDynamicTF-InfoList,
		dynamic								CommonDynamicTF-InfoList-DynamicTTI
	},
	semistaticTF-Information			SemistaticTF-Information
}

CommonTransChTFS-LCR ::=				SEQUENCE {
	tti									CHOICE {
		tti5								CommonDynamicTF-InfoList,
		tti10								CommonDynamicTF-InfoList,
		tti20								CommonDynamicTF-InfoList,
		tti40								CommonDynamicTF-InfoList,
		tti80								CommonDynamicTF-InfoList,
		dynamic								CommonDynamicTF-InfoList-DynamicTTI
	},
	semistaticTF-Information			SemistaticTF-Information
}

Common-MAC-ehs-ReorderingQueue ::=	SEQUENCE {
	mac-ehs-QueueId						MAC-ehs-QueueId,
	t1-ReleaseTimer						T1-ReleaseTimer,
	reorderingResetTimer				Treset-ResetTimer						OPTIONAL,
	mac-ehsWindowSize					MAC-hs-WindowSize
}

Common-MAC-ehs-ReorderingQueueList ::=	SEQUENCE (SIZE (1.. maxCommonQueueID)) OF
										Common-MAC-ehs-ReorderingQueue

Concurrent-Deployment-2ms-10ms-TTI ::=	SEQUENCE {
	tti-selection							CHOICE	{
		fixed									SEQUENCE	{
			fixed-TTI-Selection							ENUMERATED { tti2, tti10 }
		},
		threshold-based							SEQUENCE	{
			common-E-DCH-TTI-Selection-Thresh			INTEGER (0..15)
		}
	},
	concurrent-TTI-Partition-Index				INTEGER (0..maxEDCHs-1),
	commonEDCHSystemInfoParamConcurrentTTI		CommonEDCHSystemInfoParamConcurrentTTI	OPTIONAL
}

CPCH-SetID ::=						INTEGER (1..maxCPCHsets)

CRC-Size ::=						ENUMERATED { 
										crc0, crc8, crc12, crc16, crc24 }

DedicatedDynamicTF-Info ::=			SEQUENCE {
	rlc-Size							CHOICE {
		bitMode								BitModeRLC-SizeInfo,
		octetModeType1						OctetModeRLC-SizeInfoType1
	},
	numberOfTbSizeList				SEQUENCE (SIZE (1..maxTF)) OF
										NumberOfTransportBlocks,
	logicalChannelList				LogicalChannelList 
}

DedicatedDynamicTF-Info-DynamicTTI ::= SEQUENCE {
	rlc-Size							CHOICE {
		bitMode								BitModeRLC-SizeInfo,
		octetModeType1						OctetModeRLC-SizeInfoType1
	},
	numberOfTbSizeAndTTIList			NumberOfTbSizeAndTTIList,
	logicalChannelList				LogicalChannelList 
}

DedicatedDynamicTF-InfoList ::=		SEQUENCE (SIZE (1..maxTF)) OF
										DedicatedDynamicTF-Info

DedicatedDynamicTF-InfoList-DynamicTTI ::= SEQUENCE (SIZE (1..maxTF)) OF
										DedicatedDynamicTF-Info-DynamicTTI

DedicatedTransChTFS ::=				SEQUENCE {
	tti									CHOICE {
		tti10								DedicatedDynamicTF-InfoList,
		tti20								DedicatedDynamicTF-InfoList,
		tti40								DedicatedDynamicTF-InfoList,
		tti80								DedicatedDynamicTF-InfoList,
		dynamic								DedicatedDynamicTF-InfoList-DynamicTTI
	},
	semistaticTF-Information			SemistaticTF-Information
}

-- The maximum allowed size of DL-AddReconfTransChInfo2List sequence is 16
DL-AddReconfTransChInfo2List ::=	SEQUENCE (SIZE (1..maxTrCHpreconf)) OF
										DL-AddReconfTransChInformation2

-- The maximum allowed size of DL-AddReconfTransChInfoList sequence is 16
DL-AddReconfTransChInfoList ::=		SEQUENCE (SIZE (1..maxTrCHpreconf)) OF
										DL-AddReconfTransChInformation

-- The maximum allowed size of DL-AddReconfTransChInfoList-r4 sequence is 16
DL-AddReconfTransChInfoList-r4 ::=	SEQUENCE (SIZE (1..maxTrCHpreconf)) OF
										DL-AddReconfTransChInformation-r4

-- The maximum allowed size of DL-AddReconfTransChInfoList-r5 sequence is 16
DL-AddReconfTransChInfoList-r5 ::=	SEQUENCE (SIZE (1..maxTrCHpreconf)) OF
										DL-AddReconfTransChInformation-r5

-- The maximum allowed size of DL-AddReconfTransChInfoList-r7 sequence is 16
DL-AddReconfTransChInfoList-r7 ::=	SEQUENCE (SIZE (1..maxTrCHpreconf)) OF
										DL-AddReconfTransChInformation-r7

DL-AddReconfTransChInfoList-r9 ::=	SEQUENCE (SIZE (1..maxTrCHpreconf)) OF
										DL-AddReconfTransChInformation-r9

DL-AddReconfTransChInfoList-r11 ::=	SEQUENCE (SIZE (1..maxTrCHpreconf)) OF
										DL-AddReconfTransChInformation-r11

DL-AddReconfTransChInfoList-r13 ::=	SEQUENCE (SIZE (1..maxTrCH)) OF
										DL-AddReconfTransChInformation-r13

DL-AddReconfTransChInfoList-TDD128-v9c0ext ::=	SEQUENCE (SIZE (1..maxTrCHpreconf)) OF
										DL-AddReconfTransChInformation-TDD128-v9c0ext


-- ASN.1 for IE "Added or Reconfigured DL TrCH information" 
-- in case of messages other than: Radio Bearer Release message and 
-- Radio Bearer Reconfiguration message
DL-AddReconfTransChInformation ::= 	SEQUENCE {
	dl-TransportChannelType				DL-TrCH-Type,
	dl-transportChannelIdentity			TransportChannelIdentity,
	tfs-SignallingMode					CHOICE {
		explicit-config						TransportFormatSet,
		sameAsULTrCH						UL-TransportChannelIdentity
	},
	dch-QualityTarget					QualityTarget						OPTIONAL,
	-- dummy is not used in this version of the specification, it should 
	-- not be sent and if received it should be ignored.
	dummy								TM-SignallingInfo					OPTIONAL
}

DL-AddReconfTransChInformation-r4 ::= 	SEQUENCE {
	dl-TransportChannelType				DL-TrCH-Type,
	dl-transportChannelIdentity			TransportChannelIdentity,
	tfs-SignallingMode					CHOICE {
		explicit-config						TransportFormatSet,
		sameAsULTrCH						UL-TransportChannelIdentity
	},
	dch-QualityTarget					QualityTarget						OPTIONAL
}

DL-AddReconfTransChInformation-r5 ::= 	SEQUENCE {
	dl-TransportChannelType				DL-TrCH-TypeId1-r5,
	tfs-SignallingMode					CHOICE {
		explicit-config						TransportFormatSet,
		sameAsULTrCH						UL-TransportChannelIdentity,
		hsdsch								HSDSCH-Info
	},
	dch-QualityTarget					QualityTarget						OPTIONAL
}

DL-AddReconfTransChInformation-r7 ::= SEQUENCE {
	dl-TransportChannelType				DL-TrCH-TypeId1-r5,
	tfs-SignallingMode					CHOICE {
		explicit-config						TransportFormatSet,
		sameAsULTrCH						UL-TransportChannelIdentity,
		hsdsch								HSDSCH-Info-r7
	},
	dch-QualityTarget					QualityTarget						OPTIONAL
}

DL-AddReconfTransChInformation-r9 ::= SEQUENCE {
	dl-TransportChannelType				DL-TrCH-TypeId1-r5,
	tfs-SignallingMode					CHOICE {
		explicit-config						TransportFormatSet,
		sameAsULTrCH						UL-TransportChannelIdentity,
		hsdsch								HSDSCH-Info-r9
	},
	dch-QualityTarget					QualityTarget						OPTIONAL
}

DL-AddReconfTransChInformation-r11 ::= SEQUENCE {
	dl-TransportChannelType				DL-TrCH-TypeId1-r5,
	tfs-SignallingMode					CHOICE {
		explicit-config						TransportFormatSet,
		sameAsULTrCH						UL-TransportChannelIdentity,
		hsdsch								HSDSCH-Info-r11
	},
	dch-QualityTarget					QualityTarget						OPTIONAL
}

DL-AddReconfTransChInformation-r13 ::= SEQUENCE {
	dl-TransportChannelType				DL-TrCH-TypeId1-r5,
	tfs-SignallingMode						CHOICE {
		explicit-config						TransportFormatSet,
		sameAsULTrCH							UL-TransportChannelIdentity,
		hsdsch									HSDSCH-Info-r13
	},
	dch-QualityTarget						QualityTarget					OPTIONAL
}

DL-AddReconfTransChInformation-TDD128-v9c0ext ::= SEQUENCE {
	hsdsch								HSDSCH-Info-TDD128-v9c0ext		OPTIONAL
}

-- ASN.1 for IE "Added or Reconfigured DL TrCH information" 
-- in case of Radio Bearer Release message and 
-- Radio Bearer Reconfiguration message
DL-AddReconfTransChInformation2 ::= SEQUENCE {
	dl-TransportChannelType				DL-TrCH-Type,
	transportChannelIdentity			TransportChannelIdentity,
	tfs-SignallingMode					CHOICE {
		explicit-config						TransportFormatSet,
		sameAsULTrCH						UL-TransportChannelIdentity
	},
	qualityTarget						QualityTarget						OPTIONAL
}

DL-CommonTransChInfo ::=			SEQUENCE {
	sccpch-TFCS							TFCS								OPTIONAL,
	-- modeSpecificInfo should be optional. A new version of this IE should be defined 
	-- to be used in later versions of messages using this IE
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			dl-Parameters						CHOICE {
				dl-DCH-TFCS							TFCS,
				sameAsUL							NULL
			}																OPTIONAL
		},
		tdd									SEQUENCE {
			individualDL-CCTrCH-InfoList		IndividualDL-CCTrCH-InfoList
																			OPTIONAL
		}
	}
}

DL-CommonTransChInfo-r4 ::=			SEQUENCE {
	sccpch-TFCS							TFCS								OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			dl-Parameters						CHOICE {
				dl-DCH-TFCS							SEQUENCE {
					tfcs								TFCS				OPTIONAL
				},
				sameAsUL							NULL
			}																OPTIONAL
		},
		tdd									SEQUENCE {
			individualDL-CCTrCH-InfoList		IndividualDL-CCTrCH-InfoList
																			OPTIONAL
		}
	}	OPTIONAL
}

DL-DeletedTransChInfoList ::=		SEQUENCE (SIZE (1..maxTrCH)) OF
										DL-TransportChannelIdentity

DL-DeletedTransChInfoList-r5 ::=	SEQUENCE (SIZE (1..maxTrCH)) OF
										DL-TransportChannelIdentity-r5

DL-DeletedTransChInfoList-r7 ::=	SEQUENCE (SIZE (1..maxTrCH)) OF
										DL-TransportChannelIdentity-r7

DL-TransportChannelIdentity ::=		SEQUENCE {
	dl-TransportChannelType				DL-TrCH-Type,
	dl-TransportChannelIdentity			TransportChannelIdentity
}

DL-TransportChannelIdentity-r5 ::=	SEQUENCE {
	dl-TransportChannelType				DL-TrCH-TypeId2-r5
}

DL-TransportChannelIdentity-r7 ::=	SEQUENCE {
	dl-TransportChannelType				DL-TrCH-TypeId2-r7
}

-- The choice "dsch" should not be used in FDD mode, and if received the UE behaviour is unspecified
DL-TrCH-Type ::=					ENUMERATED {dch, dsch}

DL-TrCH-TypeId1-r5 ::=				CHOICE {
	dch									TransportChannelIdentity,
	-- The choice "dsch" should not be used in FDD mode, and if received
	-- the UE behaviour is unspecified.
	dsch								TransportChannelIdentity,
	hsdsch								NULL
}

DL-TrCH-TypeId2-r5 ::=				CHOICE {
	dch									TransportChannelIdentity,
	-- The choice "dsch" should not be used in FDD mode, and if received
	-- the UE behaviour is unspecified.
	dsch								TransportChannelIdentity,
	hsdsch								MAC-d-FlowIdentity
}

DL-TrCH-TypeId2-r7 ::=				CHOICE {
	dch									TransportChannelIdentity,
	-- The choice "dsch" should not be used in FDD mode, and if received
	-- the UE behaviour is unspecified.
	dsch								TransportChannelIdentity,
	hsdsch								CHOICE {
		mac-hs								MAC-d-FlowIdentity,
		mac-ehs								MAC-ehs-QueueId
	}
}

DRAC-ClassIdentity ::=				INTEGER (1..maxDRACclasses)

DRAC-StaticInformation ::=			SEQUENCE {
	transmissionTimeValidity			TransmissionTimeValidity,
	timeDurationBeforeRetry				TimeDurationBeforeRetry,
	drac-ClassIdentity					DRAC-ClassIdentity
}

DRAC-StaticInformationList ::=		SEQUENCE (SIZE (1..maxTrCH)) OF 
										DRAC-StaticInformation

E-DCH-AddReconf-MAC-d-Flow ::=		SEQUENCE {
	mac-d-FlowIdentity					E-DCH-MAC-d-FlowIdentity,
	mac-d-FlowPowerOffset				E-DCH-MAC-d-FlowPowerOffset			OPTIONAL,
	mac-d-FlowMaxRetrans				E-DCH-MAC-d-FlowMaxRetrans			OPTIONAL,
	mac-d-FlowMultiplexingList			E-DCH-MAC-d-FlowMultiplexingList	OPTIONAL,
	transmissionGrantType				CHOICE {
		non-ScheduledTransGrantInfo			SEQUENCE {
			maxMAC-e-PDUContents				INTEGER (1..19982),
			ms2-NonSchedTransmGrantHARQAlloc	BIT STRING (SIZE (8))		OPTIONAL
		},
		scheduledTransmissionGrantInfo		NULL
	}	OPTIONAL
}

E-DCH-AddReconf-MAC-d-Flow-r7 ::=	SEQUENCE {
	mac-d-FlowIdentity					E-DCH-MAC-d-FlowIdentity,
	mac-d-FlowPowerOffset				E-DCH-MAC-d-FlowPowerOffset			OPTIONAL,
	mac-d-FlowMaxRetrans				E-DCH-MAC-d-FlowMaxRetrans			OPTIONAL,
	mac-d-FlowRetransTimer				E-DCH-MAC-d-FlowRetransTimer		OPTIONAL,
	mac-d-FlowMultiplexingList			E-DCH-MAC-d-FlowMultiplexingList	OPTIONAL,
	transmissionGrantType				CHOICE {
		non-ScheduledTransGrantInfo			SEQUENCE {
			modeSpecificInfo					CHOICE {
				fdd									SEQUENCE {
					maxMAC-e-PDUContents				INTEGER (1..19982),
					ms2-NonSchedTransmGrantHARQAlloc	BIT STRING (SIZE (8))		OPTIONAL
				},
				tdd									NULL
			}
		},
		scheduledTransmissionGrantInfo		NULL
	}	OPTIONAL
}

E-DCH-AddReconf-MAC-d-FlowList ::=	SEQUENCE (SIZE (1..maxE-DCHMACdFlow)) OF
							E-DCH-AddReconf-MAC-d-Flow

E-DCH-AddReconf-MAC-d-FlowList-r7 ::= SEQUENCE (SIZE (1..maxE-DCHMACdFlow)) OF
										E-DCH-AddReconf-MAC-d-Flow-r7

E-DCH-MAC-d-FlowIdentity ::=		INTEGER (0..maxE-DCHMACdFlow-1)

E-DCH-MAC-d-FlowMaxRetrans ::=		INTEGER (0..15)

E-DCH-MAC-d-FlowMultiplexingList ::= BIT STRING (SIZE (maxE-DCHMACdFlow))

E-DCH-MAC-d-FlowPowerOffset ::=		INTEGER (0..6)

E-DCH-MAC-d-FlowRetransTimer ::=	ENUMERATED {
										ms10, ms15, ms20, ms25, ms30, ms35, ms40, ms45, ms50,
										ms55, ms60, ms65, ms70, ms75, ms80, ms85, ms90, ms95,
										ms100, ms110, ms120, ms140, ms160, ms200, ms240, ms280,
										ms320, ms400, ms480, ms560 }

E-DCH-TTI ::=						ENUMERATED { tti2, tti10 }

ExplicitTFCS-Configuration ::=		CHOICE {
	complete							TFCS-ReconfAdd,
	addition							TFCS-ReconfAdd,
	removal								TFCS-RemovalList,
	replacement							SEQUENCE {
		tfcsRemoval							TFCS-RemovalList,
		tfcsAdd								TFCS-ReconfAdd
	}
}

ExplicitTFCS-Configuration-r12 ::=		CHOICE {
	complete							TFCS-ReconfAdd-r12,
	addition							TFCS-ReconfAdd-r12,
	removal								TFCS-RemovalList,
	replacement							SEQUENCE {
		tfcsRemoval							TFCS-RemovalList,
		tfcsAdd								TFCS-ReconfAdd-r12
	}
}

GainFactor ::=						INTEGER (0..15)

GainFactorInformation ::=			CHOICE {
	signalledGainFactors				SignalledGainFactors,
	computedGainFactors					ReferenceTFC-ID
}

GainFactorInformation-10msMode ::=	CHOICE {
	signalledGainFactors				SEQUENCE {
		gainFactorBetaC						GainFactor,
		gainFactorBetaD						GainFactor,
		referenceTFC-ID						ReferenceTFC-ID					OPTIONAL
	},
	computedGainFactors					ReferenceTFC-ID
}


HSDSCH-Info ::=						SEQUENCE {
	harqInfo							HARQ-Info 				OPTIONAL,
	addOrReconfMAC-dFlow				AddOrReconfMAC-dFlow	OPTIONAL
}

HSDSCH-Info-r7 ::=					SEQUENCE {
	harqInfo							HARQ-Info-r7			OPTIONAL,
	dl-MAC-HeaderType					CHOICE {
		mac-hs								AddOrReconfMAC-dFlow,
		mac-ehs								AddOrReconfMAC-ehs-ReordQ
	}		OPTIONAL
}

HSDSCH-Info-r9 ::=					SEQUENCE {
	harqInfo							HARQ-Info-r7			OPTIONAL,
	dl-MAC-HeaderType					CHOICE {
		mac-hs								AddOrReconfMAC-dFlow,
		mac-ehs								AddOrReconfMAC-ehs-ReordQ-r9
	}		OPTIONAL
}

HSDSCH-Info-r11 ::=					SEQUENCE {
	harqInfo							HARQ-Info-r11			OPTIONAL,
	dl-MAC-HeaderType					CHOICE {
		mac-hs								AddOrReconfMAC-dFlow,
		mac-ehs								AddOrReconfMAC-ehs-ReordQ-r11
	}		OPTIONAL
}

HSDSCH-Info-r13 ::=				SEQUENCE {
	harqInfo							HARQ-Info-r13			OPTIONAL,
	dl-MAC-HeaderType					CHOICE {
		mac-hs								AddOrReconfMAC-dFlow,
		mac-ehs								AddOrReconfMAC-ehs-ReordQ-r11
	}		OPTIONAL
}

HSDSCH-Info-TDD128-v9c0ext ::=			SEQUENCE {
	mac-ehs								AddOrReconfMAC-ehs-ReordQ-TDD128-v9c0ext		OPTIONAL
}

HARQ-Info ::=						SEQUENCE {
	numberOfProcesses					INTEGER (1..8),
	memoryPartitioning					CHOICE {
		implicit							NULL,
		explicit							SEQUENCE (SIZE (1..maxHProcesses)) OF
												HARQMemorySize
	}
}

HARQ-Info-r7 ::=					SEQUENCE {
	numberOfProcesses					ENUMERATED { n1, n2, n3, n4, n5, n6, n7, n8,
											n12, n14, n16 },
	memoryPartitioning					CHOICE {
		implicit							NULL,
		explicit							SEQUENCE {
			memorySize							SEQUENCE (SIZE (1..maxHProcesses)) OF
													HARQMemorySize,
			additionalMemorySizesForMIMO		SEQUENCE (SIZE (1..maxHProcesses)) OF
													HARQMemorySize		OPTIONAL
		}
	}
}

HARQ-Info-r11 ::=					SEQUENCE {
	numberOfProcesses					ENUMERATED { n1, n2, n3, n4, n5, n6, n7, n8,
											n12, n14, n16, n24, n28, n32 },
	memoryPartitioning					CHOICE {
		implicit							NULL,
		explicit							SEQUENCE {
			memorySize							SEQUENCE (SIZE (1..maxHProcesses)) OF
													HARQMemorySize,
			additionalMemorySizesForMIMO		SEQUENCE (SIZE (1..maxHProcesses)) OF
													HARQMemorySize		OPTIONAL,
			additionalMemorySizesThirdMIMOStream		SEQUENCE (SIZE (1..maxHProcesses)) OF
													HARQMemorySize		OPTIONAL,
			additionalMemorySizesFourthMIMOStream		SEQUENCE (SIZE (1..maxHProcesses)) OF
													HARQMemorySize		OPTIONAL
		}
	}
}

HARQ-Info-r13 ::=					SEQUENCE {
	numberOfProcesses					ENUMERATED { n1, n2, n3, n4, n5, n6, n7, n8,
											n12, n14, n16, n24, n28, n32 },
	memoryPartitioning					CHOICE {
		implicit							NULL,
		explicit							SEQUENCE {
			memorySize							SEQUENCE (SIZE (1..maxHProcesses)) OF
													HARQMemorySize,
			additionalMemorySizesForMIMO		SEQUENCE (SIZE (1..maxHProcesses)) OF
													HARQMemorySize		OPTIONAL,
			additionalMemorySizesThirdMIMOStream		SEQUENCE (SIZE (1..maxHProcesses)) OF
													HARQMemorySize		OPTIONAL,
			additionalMemorySizesFourthMIMOStream		SEQUENCE (SIZE (1..maxHProcesses)) OF
													HARQMemorySize		OPTIONAL
		}
	},
	blindHARQRetransmissionsForHSDPA			ENUMERATED { true }				OPTIONAL
}

HARQMemorySize ::= 					ENUMERATED {
										hms800, hms1600, hms2400, hms3200, hms4000,
										hms4800, hms5600, hms6400, hms7200, hms8000,
										hms8800, hms9600, hms10400, hms11200, hms12000,
										hms12800, hms13600, hms14400, hms15200, hms16000,
										hms17600, hms19200, hms20800, hms22400, hms24000,
										hms25600, hms27200, hms28800, hms30400, hms32000,
										hms36000, hms40000, hms44000, hms48000, hms52000,
										hms56000, hms60000, hms64000, hms68000, hms72000,
										hms76000, hms80000, hms88000, hms96000, hms104000,
										hms112000, hms120000, hms128000, hms136000, hms144000,
										hms152000, hms160000, hms176000, hms192000, hms208000,
										hms224000, hms240000, hms256000, hms272000, hms288000,
										hms304000 }

IndividualDL-CCTrCH-Info ::=		SEQUENCE {
	dl-TFCS-Identity					TFCS-Identity,
	tfcs-SignallingMode					CHOICE {
		explicit-config						TFCS,
		sameAsUL							TFCS-Identity
	}
}

IndividualDL-CCTrCH-InfoList ::=	SEQUENCE (SIZE (1..maxCCTrCH)) OF
										IndividualDL-CCTrCH-Info

IndividualUL-CCTrCH-Info ::=		SEQUENCE {
	ul-TFCS-Identity					TFCS-Identity,
	ul-TFCS								TFCS ,
	tfc-Subset							TFC-Subset
}

IndividualUL-CCTrCH-InfoList ::=	SEQUENCE (SIZE (1..maxCCTrCH)) OF
										IndividualUL-CCTrCH-Info

LogicalChannelByRB ::=				SEQUENCE {
	rb-Identity							RB-Identity,	
	logChOfRb							INTEGER (0..1)						OPTIONAL
}

LogicalChannelList ::=				CHOICE {
		allSizes							NULL,
		configured							NULL,
		explicitList						SEQUENCE (SIZE (1..15)) OF
												LogicalChannelByRB				
}

MAC-d-FlowIdentityDCHandHSDSCH ::=	SEQUENCE {
	dch-transport-ch-id				TransportChannelIdentity,
	hsdsch-mac-d-flow-id			MAC-d-FlowIdentity
}

MAC-d-FlowIdentity ::=				INTEGER (0..7)

MAC-d-PDU-SizeInfo-List ::=			SEQUENCE (SIZE(1.. maxMAC-d-PDUsizes)) OF
										MAC-d-PDUsizeInfo

--MAC-d-Pdu sizes need to be defined
MAC-d-PDUsizeInfo ::=				SEQUENCE{
	mac-d-PDU-Size						INTEGER (1..5000),
	mac-d-PDU-Index						INTEGER(0..7)
}

MAC-hs-AddReconfQueue-List ::=		SEQUENCE (SIZE(1..maxQueueIDs)) OF
										MAC-hs-AddReconfQueue

MAC-hs-AddReconfQueue ::=			SEQUENCE {
	mac-hsQueueId						INTEGER(0..7),
	mac-dFlowId							MAC-d-FlowIdentity,
	reorderingReleaseTimer				T1-ReleaseTimer,
	mac-hsWindowSize					MAC-hs-WindowSize,
	mac-d-PDU-SizeInfo-List				MAC-d-PDU-SizeInfo-List				OPTIONAL
}

MAC-hs-DelQueue-List ::=			SEQUENCE (SIZE(1..maxQueueIDs)) OF
										MAC-hs-DelQueue

MAC-hs-DelQueue ::=					SEQUENCE {
	mac-hsQueueId						INTEGER(0..7)
}

MAC-ehs-AddReconfReordQ-List ::=	SEQUENCE (SIZE(1..maxQueueIDs)) OF
										MAC-ehs-AddReconfReordQ

MAC-ehs-AddReconfReordQ-List-r9 ::=	SEQUENCE (SIZE(1..maxQueueIDs)) OF
										MAC-ehs-AddReconfReordQ-r9

MAC-ehs-AddReconfReordQ-List-TDD128-v9c0ext ::=	SEQUENCE (SIZE(1..maxQueueIDs)) OF
										MAC-ehs-AddReconfReordQ-TDD128-v9c0ext

MAC-ehs-AddReconfReordQ-List-r11 ::=	SEQUENCE (SIZE(1..maxQueueIDs)) OF
										MAC-ehs-AddReconfReordQ-r11

MAC-ehs-AddReconfReordQ ::=			SEQUENCE {
	mac-ehs-QueueId						MAC-ehs-QueueId,
	reorderingReleaseTimer				T1-ReleaseTimer,
	reorderingResetTimer				Treset-ResetTimer						OPTIONAL,
	mac-ehsWindowSize					MAC-hs-WindowSize
}

MAC-ehs-AddReconfReordQ-r9 ::=			SEQUENCE {
	mac-ehs-QueueId						MAC-ehs-QueueId,
	reorderingReleaseTimer				T1-ReleaseTimer,
	reorderingResetTimer				Treset-ResetTimer						OPTIONAL,
	mac-ehsWindowSize					MAC-hs-WindowSize-r9
}

MAC-ehs-AddReconfReordQ-TDD128-v9c0ext ::=			SEQUENCE {
	mac-ehsWindowSize-extension					MAC-ehs-WindowSize-TDD128-v9c0ext		OPTIONAL
}

MAC-ehs-AddReconfReordQ-r11 ::=			SEQUENCE {
	mac-ehs-QueueId						MAC-ehs-QueueId,
	reorderingReleaseTimer				T1-ReleaseTimer,
	reorderingResetTimer				Treset-ResetTimer						OPTIONAL,
	mac-ehsWindowSize					MAC-hs-WindowSize-r11,
	-- For 1.28Mcps TDD only
	mac-ehsWindowSize-extension			MAC-ehs-WindowSize-TDD128-v9c0ext		OPTIONAL
}

MAC-ehs-DelReordQ-List ::=			SEQUENCE (SIZE(1..maxQueueIDs)) OF
										MAC-ehs-DelReordQ

MAC-ehs-DelReordQ ::=				SEQUENCE {
	mac-ehs-QueueId						MAC-ehs-QueueId
}

MAC-ehs-QueueIdDCHandHSDSCH ::=		SEQUENCE {
	dch-transport-ch-id					TransportChannelIdentity,
	hsdsch-mac-ehs-QueueId				MAC-ehs-QueueId
}

MAC-ehs-QueueId ::=					INTEGER (0..7)

MAC-hs-WindowSize ::=				ENUMERATED {
										mws4, mws6, mws8, mws12, mws16, mws24, mws32 }

MAC-hs-WindowSize-r9 ::=			ENUMERATED {
										mws4, mws6, mws8, mws12, mws16, mws24, mws32,
										mw64, mw128 }

MAC-ehs-WindowSize-TDD128-v9c0ext ::=		ENUMERATED {
										mws96, mws160, mws192, mws256 }

MAC-hs-WindowSize-r11 ::=			ENUMERATED {
										mws4, mws6, mws8, mws12, mws16, mws24, mws32,
										mws64, mws128, mws256, spare6, spare5, spare4, 
										spare3, spare2, spare1 }

NumberOfTbSizeAndTTIList ::=		SEQUENCE (SIZE (1..maxTF)) OF SEQUENCE {
		numberOfTransportBlocks				NumberOfTransportBlocks,
		transmissionTimeInterval			TransmissionTimeInterval
}

MessType ::=						ENUMERATED {
										transportFormatCombinationControl }

MinimumTEBS-threshold ::=				ENUMERATED {
										pl2, pl4, pl8, pl16, pl32,
										pl64, pl128, pl256, pl512, pl1024,
										pl2k, pl4k, pl8k, pl16k, pl32k,
										pl64k, pl128k, pl256k, pl512k, pl1024k,
										spare12, spare11, spare10, spare9, spare8,
										spare7, spare6, spare5, spare4, spare3,
										spare2, spare1 }

Non-allowedTFC-List ::=				SEQUENCE (SIZE (1..maxTFC)) OF
										TFC-Value

NumberOfTransportBlocks ::=			CHOICE {
	zero								NULL,
	one									NULL,
	small								INTEGER (2..17),
	large								INTEGER (18..512)
}

OctetModeRLC-SizeInfoType1 ::=		CHOICE {
	-- Actual size = (8 * sizeType1) + 16
	sizeType1							INTEGER (0..31),
	sizeType2							SEQUENCE {
		-- Actual size = (32 * part1) + 272 + (part2 * 8)
		part1								INTEGER (0..23),
		part2								INTEGER (1..3)					OPTIONAL
	},
	sizeType3							SEQUENCE {
		-- Actual size = (64 * part1) + 1040 + (part2 * 8)
		part1								INTEGER (0..61),
		part2								INTEGER (1..7)					OPTIONAL
	}
}

OctetModeRLC-SizeInfoType2 ::=		CHOICE {
	-- Actual size = (sizeType1 * 8) + 48
	sizeType1							INTEGER (0..31),
	-- Actual size = (sizeType2 * 16) + 312
	sizeType2							INTEGER (0..63),
	-- Actual size = (sizeType3 *64) + 1384
	sizeType3							INTEGER (0..56)
}

PowerOffsetInfoShort ::=			SEQUENCE {
	referenceTFC						TFC-Value,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			gainFactorBetaC						GainFactor
		},
		tdd									NULL
	},
	gainFactorBetaD						GainFactor
}

PowerOffsetInformation ::=			SEQUENCE {
	gainFactorInformation				GainFactorInformation,
	-- PowerOffsetPp-m is always absent in TDD
	powerOffsetPp-m						PowerOffsetPp-m						OPTIONAL
}

PowerOffsetInformation-10msMode ::=			SEQUENCE {
	gainFactorInformation				GainFactorInformation-10msMode
}

PowerOffsetPp-m ::=					INTEGER (-5..10)

PreDefTransChConfiguration ::=		SEQUENCE {
	ul-CommonTransChInfo				UL-CommonTransChInfo,
	ul-AddReconfTrChInfoList			UL-AddReconfTransChInfoList,
	dl-CommonTransChInfo				DL-CommonTransChInfo,
	dl-TrChInfoList						DL-AddReconfTransChInfoList
}	

QualityTarget ::=					SEQUENCE {
	bler-QualityValue					BLER-QualityValue
}

RateMatchingAttribute ::=			INTEGER (1..hiRM)


ReferenceTFC-ID ::=					INTEGER (0..3)

RestrictedTrChInfo ::=				SEQUENCE {
	ul-TransportChannelType				UL-TrCH-Type,
	restrictedTrChIdentity				TransportChannelIdentity,
	allowedTFI-List						AllowedTFI-List						OPTIONAL
}

RestrictedTrChInfoList ::=			SEQUENCE (SIZE (1..maxTrCH)) OF
										RestrictedTrChInfo

SemistaticTF-Information ::=		SEQUENCE {
	-- TABULAR: Transmission time interval has been included in the IE CommonTransChTFS.
	channelCodingType					ChannelCodingType,
	rateMatchingAttribute				RateMatchingAttribute,
	crc-Size							CRC-Size
}

SignalledGainFactors ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			gainFactorBetaC						GainFactor
		},
		tdd									NULL
	},
	gainFactorBetaD						GainFactor,
	referenceTFC-ID						ReferenceTFC-ID						OPTIONAL
}

SplitTFCI-Signalling ::=			SEQUENCE {
	splitType							SplitType						OPTIONAL,
	tfci-Field2-Length					INTEGER (1..10)					OPTIONAL,
	tfci-Field1-Information				ExplicitTFCS-Configuration		OPTIONAL,
	tfci-Field2-Information				TFCI-Field2-Information			OPTIONAL
}

SplitType ::=						ENUMERATED {
										hardSplit, logicalSplit }

T1-ReleaseTimer ::=					ENUMERATED {
										rt10, rt20, rt30, rt40, rt50,
										rt60, rt70, rt80, rt90, rt100,
										rt120, rt140, rt160, rt200, rt300,
										rt400 }

TFC-Subset ::=						CHOICE {
	minimumAllowedTFC-Number			TFC-Value,
	allowedTFC-List						AllowedTFC-List,
	non-allowedTFC-List					Non-allowedTFC-List,
	restrictedTrChInfoList				RestrictedTrChInfoList,
	fullTFCS							NULL
}

TFC-SubsetList ::=					SEQUENCE (SIZE (1.. maxTFCsub)) OF SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									NULL,
		tdd									SEQUENCE {
			tfcs-ID								TFCS-Identity				OPTIONAL
		}
	},
	tfc-Subset							TFC-Subset
}

TFC-Value ::=						INTEGER (0..1023)

TFCI-Field2-Information ::=			CHOICE {
	tfci-Range							TFCI-RangeList,
	explicit-config						ExplicitTFCS-Configuration
}

TFCI-Range ::=						SEQUENCE {
	maxTFCIField2Value					INTEGER (1..1023),
	tfcs-InfoForDSCH					TFCS-InfoForDSCH
}

TFCI-RangeList ::=					SEQUENCE (SIZE (1..maxPDSCH-TFCIgroups)) OF
										TFCI-Range

TFCS ::=							CHOICE {
	normalTFCI-Signalling				ExplicitTFCS-Configuration,
	-- dummy is not used in this version of specification, it should
	-- not be sent and if received the UE behaviour is not specified.
	dummy								SplitTFCI-Signalling
}

TFCS-r12 ::=							CHOICE {
	normalTFCI-Signalling				ExplicitTFCS-Configuration-r12
}

TFCS-Identity ::=					SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	sharedChannelIndicator				BOOLEAN
}

TFCS-IdentityPlain ::=				INTEGER (1..8)

TFCS-InfoForDSCH ::=				CHOICE {
	ctfc2bit							INTEGER (0..3),
	ctfc4bit							INTEGER (0..15),
	ctfc6bit							INTEGER (0..63),
	ctfc8bit							INTEGER (0..255),
	ctfc12bit							INTEGER (0..4095),
	ctfc16bit							INTEGER (0..65535),
	ctfc24bit							INTEGER (0..16777215)
}

TFCS-ReconfAdd ::=					SEQUENCE{
	ctfcSize							CHOICE{
		ctfc2Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc2								INTEGER (0..3),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL
		},
		ctfc4Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc4 								INTEGER (0..15),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL
		},
		ctfc6Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc6								INTEGER (0..63),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL
		},
		ctfc8Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc8								INTEGER (0..255),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL
		},
		ctfc12Bit							SEQUENCE (SIZE(1..maxTFC)) OF SEQUENCE {
			ctfc12								INTEGER (0..4095),
 			powerOffsetInformation				PowerOffsetInformation			OPTIONAL
		},
		ctfc16Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc16								INTEGER(0..65535),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL
		},
		ctfc24Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc24								INTEGER(0..16777215),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL
		}
	}
}

TFCS-ReconfAdd-r12 ::=					SEQUENCE{
	ctfcSize							CHOICE{
		ctfc2Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc2								INTEGER (0..3),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL,
			powerOffsetInformation-10msMode		PowerOffsetInformation-10msMode	OPTIONAL
		},
		ctfc4Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc4 								INTEGER (0..15),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL,
			powerOffsetInformation-10msMode		PowerOffsetInformation-10msMode	OPTIONAL
		},
		ctfc6Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc6								INTEGER (0..63),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL,
			powerOffsetInformation-10msMode		PowerOffsetInformation-10msMode	OPTIONAL
		},
		ctfc8Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc8								INTEGER (0..255),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL,
			powerOffsetInformation-10msMode		PowerOffsetInformation-10msMode	OPTIONAL
		},
		ctfc12Bit							SEQUENCE (SIZE(1..maxTFC)) OF SEQUENCE {
			ctfc12								INTEGER (0..4095),
 			powerOffsetInformation				PowerOffsetInformation			OPTIONAL,
			powerOffsetInformation-10msMode		PowerOffsetInformation-10msMode	OPTIONAL
		},
		ctfc16Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc16								INTEGER(0..65535),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL,
			powerOffsetInformation-10msMode		PowerOffsetInformation-10msMode	OPTIONAL
		},
		ctfc24Bit							SEQUENCE (SIZE (1..maxTFC)) OF SEQUENCE {
			ctfc24								INTEGER(0..16777215),
			powerOffsetInformation				PowerOffsetInformation			OPTIONAL,
			powerOffsetInformation-10msMode		PowerOffsetInformation-10msMode	OPTIONAL
		}
	}
}

TFCS-Removal ::=					SEQUENCE {
	tfci								INTEGER (0..1023)
}

TFCS-RemovalList ::=				SEQUENCE (SIZE (1..maxTFC)) OF
										TFCS-Removal

TimeDurationBeforeRetry ::=			INTEGER (1..256)

TM-SignallingInfo ::=				SEQUENCE {
	messType							MessType,
	tm-SignallingMode					CHOICE {
		mode1								NULL,
		mode2								SEQUENCE {
			-- in ul-controlledTrChList, TrCH-Type is always DCH
			ul-controlledTrChList				UL-ControlledTrChList
		}
	}
}

TransmissionTimeInterval ::=		ENUMERATED {
										tti10, tti20, tti40, tti80 }

TransmissionTimeValidity ::=		INTEGER (1..256)

TransportChannelConcatInfo ::=		SEQUENCE (SIZE (1..maxTrCHConcat)) OF
										TransportChannelIdentity

TransportChannelIdentity ::=		INTEGER (1..32)

TransportChannelIdentityDCHandDSCH ::=	SEQUENCE {
	dch-transport-ch-id				TransportChannelIdentity,
	dsch-transport-ch-id			TransportChannelIdentity
}


TransportFormatSet ::=				CHOICE {
	dedicatedTransChTFS					DedicatedTransChTFS,
	commonTransChTFS					CommonTransChTFS
}

TransportFormatSet-LCR ::=				CHOICE {
	dedicatedTransChTFS					DedicatedTransChTFS,
	commonTransChTFS-LCR				CommonTransChTFS-LCR
}

Treset-ResetTimer ::=				ENUMERATED {
										rt1, rt2, rt3, rt4 }

-- The maximum allowed size of UL-AddReconfTransChInfoList sequence is 16
UL-AddReconfTransChInfoList ::=		SEQUENCE (SIZE (1..maxTrCHpreconf)) OF
										UL-AddReconfTransChInformation

-- The maximum allowed size of UL-AddReconfTransChInfoList-r6 sequence is 32
UL-AddReconfTransChInfoList-r6 ::=	SEQUENCE (SIZE (1..maxTrCH)) OF
										UL-AddReconfTransChInformation-r6

-- The maximum allowed size of UL-AddReconfTransChInfoList-r7 sequence is 32
UL-AddReconfTransChInfoList-r7 ::=	SEQUENCE (SIZE (1..maxTrCH)) OF
										UL-AddReconfTransChInformation-r7

-- The maximum allowed size of UL-AddReconfTransChInfoList-r8 sequence is 32
UL-AddReconfTransChInfoList-r8 ::=	SEQUENCE (SIZE (1..maxTrCH)) OF
										UL-AddReconfTransChInformation-r8

-- The maximum allowed size of UL-AddReconfTransChInfoList-r14 sequence is 32
UL-AddReconfTransChInfoList-r14 ::=	SEQUENCE (SIZE (1..maxTrCH)) OF
										UL-AddReconfTransChInformation-r14

UL-AddReconfTransChInformation ::= SEQUENCE {
	ul-TransportChannelType				UL-TrCH-Type,
	transportChannelIdentity			TransportChannelIdentity,
	transportFormatSet					TransportFormatSet
}

UL-AddReconfTransChInformation-r6 ::= CHOICE {
	dch-usch							SEQUENCE {
		ul-TransportChannelType				UL-TrCH-Type,
		transportChannelIdentity			TransportChannelIdentity,
		transportFormatSet					TransportFormatSet
	},
	e-dch								SEQUENCE {
		tti									E-DCH-TTI,
		harq-Info							ENUMERATED { rv0, rvtable },
		addReconf-MAC-d-FlowList			E-DCH-AddReconf-MAC-d-FlowList	OPTIONAL
	}
}

UL-AddReconfTransChInformation-r7 ::= CHOICE {
	dch-usch							SEQUENCE {
		ul-TransportChannelType				UL-TrCH-Type,
		transportChannelIdentity			TransportChannelIdentity,
		transportFormatSet					TransportFormatSet
	},
	e-dch								SEQUENCE {
		modeSpecific						CHOICE {
			fdd									SEQUENCE {
				tti									E-DCH-TTI
			},
			tdd									NULL
		},
		harq-Info							ENUMERATED { rv0, rvtable },
		addReconf-MAC-d-FlowList			E-DCH-AddReconf-MAC-d-FlowList-r7	OPTIONAL
	}
}

UL-AddReconfTransChInformation-r8 ::= CHOICE {
	dch-usch							SEQUENCE {
		ul-TransportChannelType				UL-TrCH-Type,
		transportChannelIdentity			TransportChannelIdentity,
		transportFormatSet					TransportFormatSet
	},
	e-dch								SEQUENCE {
		ul-MAC-HeaderType					ENUMERATED { mac-iis }				OPTIONAL,
		modeSpecific						CHOICE {
			fdd									SEQUENCE {
				tti									E-DCH-TTI
			},
			tdd									NULL
		},
		harq-Info							ENUMERATED { rv0, rvtable },
		addReconf-MAC-d-FlowList			E-DCH-AddReconf-MAC-d-FlowList-r7	OPTIONAL
	}
}

UL-AddReconfTransChInformation-r14 ::= CHOICE {
	dch-usch							SEQUENCE {
		ul-TransportChannelType				UL-TrCH-Type,
		transportChannelIdentity			TransportChannelIdentity,
		transportFormatSet					TransportFormatSet
	},
	e-dch								SEQUENCE {
		ul-MAC-HeaderType					ENUMERATED { mac-iis }				OPTIONAL,
		modeSpecific						CHOICE {
			fdd									SEQUENCE {
				tti									E-DCH-TTI,
				secondaryTTI						E-DCH-TTI					OPTIONAL
			},
			tdd									NULL
		},
		harq-Info							ENUMERATED { rv0, rvtable },
		addReconf-MAC-d-FlowList			E-DCH-AddReconf-MAC-d-FlowList-r7	OPTIONAL
	}
}

UL-CommonTransChInfo ::=			SEQUENCE {
	-- TABULAR: tfc-subset is applicable to FDD only, TDD specifies tfc-subset in individual 
	-- CCTrCH Info.
	tfc-Subset							TFC-Subset							OPTIONAL,
	prach-TFCS							TFCS								OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			ul-TFCS							TFCS
		},
		tdd									SEQUENCE {

			individualUL-CCTrCH-InfoList		IndividualUL-CCTrCH-InfoList
																			OPTIONAL
		}
	}																		OPTIONAL
}

UL-CommonTransChInfo-r4 ::=			SEQUENCE {
	-- TABULAR: tfc-subset is applicable to FDD only, TDD specifies tfc-subset in individual 
	-- CCTrCH Info.
	tfc-Subset							TFC-Subset							OPTIONAL,
	prach-TFCS							TFCS								OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			ul-TFCS								TFCS
		},
		tdd									SEQUENCE {
			individualUL-CCTrCH-InfoList		IndividualUL-CCTrCH-InfoList		OPTIONAL
		}
	}																		OPTIONAL,
	tfc-SubsetList						TFC-SubsetList						OPTIONAL
}

UL-CommonTransChInfo-r12 ::=			SEQUENCE {
	-- TABULAR: tfc-subset is applicable to FDD only, TDD specifies tfc-subset in individual 
	-- CCTrCH Info.
	tfc-Subset							TFC-Subset							OPTIONAL,
	prach-TFCS							TFCS								OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			ul-TFCS								TFCS-r12
		},
		tdd									SEQUENCE {
			individualUL-CCTrCH-InfoList		IndividualUL-CCTrCH-InfoList		OPTIONAL
		}
	}																		OPTIONAL,
	tfc-SubsetList						TFC-SubsetList						OPTIONAL
}

-- In UL-ControlledTrChList, TrCH-Type is always DCH
UL-ControlledTrChList ::=			SEQUENCE (SIZE (1..maxTrCH)) OF
										TransportChannelIdentity

UL-DeletedTransChInfoList ::=		SEQUENCE (SIZE (1..maxTrCH)) OF
										UL-TransportChannelIdentity

UL-DeletedTransChInfoList-r6 ::=	SEQUENCE (SIZE (1..maxTrCH)) OF
										UL-TransportChannelIdentity-r6

UL-TransportChannelIdentity ::=		SEQUENCE {
	ul-TransportChannelType				UL-TrCH-Type,
	ul-TransportChannelIdentity			TransportChannelIdentity
}

UL-TransportChannelIdentity-r6 ::=	CHOICE {
	dch-usch							SEQUENCE {
		ul-TransportChannelType				UL-TrCH-Type,
		ul-TransportChannelIdentity			TransportChannelIdentity
	},
	e-dch								E-DCH-MAC-d-FlowIdentity
}

UL-TrCH-Type ::=					ENUMERATED {dch, usch}

USCH-TransportChannelsInfo ::=		SEQUENCE (SIZE (1..maxTrCH)) OF
										SEQUENCE {
	usch-TransportChannelIdentity			TransportChannelIdentity,
	usch-TFS								TransportFormatSet
}

-- ***************************************************
--
--     PHYSICAL CHANNEL INFORMATION ELEMENTS (10.3.6)
--
-- ***************************************************

ACK-NACK-repetitionFactor ::=		INTEGER(1..4)

ActivationDelay::=					ENUMERATED {
										radio-frames-0,
										radio-frames-1,
										radio-frames-2,
										radio-frames-3,
										radio-frames-4,
										radio-frames-5,
										spare2,
										spare1 }

AC-To-ASC-Mapping ::=				INTEGER (0..7)

AC-To-ASC-MappingTable ::=			SEQUENCE (SIZE (maxASCmap)) OF
										AC-To-ASC-Mapping

AccessServiceClass-FDD ::=			SEQUENCE {
	availableSignatureStartIndex		INTEGER (0..15),
	availableSignatureEndIndex			INTEGER (0..15),

	assignedSubChannelNumber			BIT STRING {
											b3(0),
											b2(1),
											b1(2),
											b0(3)
											}	 (SIZE(4))
}

AccessServiceClass-TDD ::=			SEQUENCE {
	channelisationCodeIndices			BIT STRING	{
											chCodeIndex7(0),
											chCodeIndex6(1),
											chCodeIndex5(2),
											chCodeIndex4(3),
											chCodeIndex3(4),
											chCodeIndex2(5),
											chCodeIndex1(6),
											chCodeIndex0(7)
											} (SIZE(8))				OPTIONAL,
	subchannelSize						CHOICE {
		size1								NULL,
		size2								SEQUENCE {
			-- subch0 means bitstring '01' in the tabular, subch1 means bitsring '10'
			subchannels							ENUMERATED	{ subch0, subch1 }	OPTIONAL
		},
		size4								SEQUENCE {
			subchannels							BIT STRING	{
													subCh3(0), 
													subCh2(1), 
													subCh1(2), 
													subCh0(3) 
													} (SIZE(4))		OPTIONAL
		},
		size8								SEQUENCE {
			subchannels							BIT STRING	{
													subCh7(0), 
													subCh6(1), 
													subCh5(2), 
													subCh4(3), 
													subCh3(4), 
													subCh2(5), 
													subCh1(6), 
													subCh0(7) 
													} (SIZE(8))		OPTIONAL
		}
	}
}

AccessServiceClass-TDD-r7 ::=			SEQUENCE {
	channelisationCodeIndices			BIT STRING	{
											chCodeIndex15(0),
											chCodeIndex14(1),
											chCodeIndex13(2),
											chCodeIndex12(3),
											chCodeIndex11(4),
											chCodeIndex10(5),
											chCodeIndex9(6),
											chCodeIndex8(7),
											chCodeIndex7(8),
											chCodeIndex6(9),
											chCodeIndex5(10),
											chCodeIndex4(11),
											chCodeIndex3(12),
											chCodeIndex2(13),
											chCodeIndex1(14),
											chCodeIndex0(15)
											} (SIZE(16))				OPTIONAL,
	subchannelSize						CHOICE {
		size1								NULL,
		size2								SEQUENCE {
			-- subch0 means bitstring '01' in the tabular, subch1 means bitsring '10'
			subchannels							ENUMERATED	{ subch0, subch1 }	OPTIONAL
		},
		size4								SEQUENCE {
			subchannels							BIT STRING	{
													subCh3(0),
													subCh2(1),
													subCh1(2),
													subCh0(3)
													} (SIZE(4))		OPTIONAL
		},
		size8								SEQUENCE {
			subchannels							BIT STRING	{
													subCh7(0),
													subCh6(1),
													subCh5(2),
													subCh4(3),
													subCh3(4),
													subCh2(5),
													subCh1(6),
													subCh0(7)
													} (SIZE(8))		OPTIONAL
		},
		size16								SEQUENCE {
			subchannels							BIT STRING	{
													subCh15(0),
													subCh14(1),
													subCh13(2),
													subCh12(3),
													subCh11(4),
													subCh10(5),
													subCh9(6),
													subCh8(7),
													subCh7(8),
													subCh6(9),
													subCh5(10),
													subCh4(11),
													subCh3(12),
													subCh2(13),
													subCh1(14),
													subCh0(15)
													} (SIZE(16))		OPTIONAL
		}
	}
}

AccessServiceClass-TDD-LCR-r4 ::=	SEQUENCE {
	availableSYNC-UlCodesIndics		    BIT STRING {
											sulCodeIndex7(0),
											sulCodeIndex6(1),
											sulCodeIndex5(2),
											sulCodeIndex4(3),
											sulCodeIndex3(4),
											sulCodeIndex2(5),
											sulCodeIndex1(6),
											sulCodeIndex0(7)
											} (SIZE(8))               OPTIONAL,
	subchannelSize						CHOICE {
		size1								NULL,
		size2								SEQUENCE {
			-- subch0 means bitstring '01' in the tabular, subch1 means bitsring '10'.
			subchannels							ENUMERATED	{ subch0, subch1 }	OPTIONAL
		},
		size4								SEQUENCE {
			subchannels							BIT STRING	{
													subCh3(0), 
													subCh2(1), 
													subCh1(2), 
													subCh0(3) 
													} (SIZE(4))			OPTIONAL
		},
		size8								SEQUENCE {
			subchannels							BIT STRING	{
													subCh7(0), 
													subCh6(1), 
													subCh5(2), 
													subCh4(3), 
													subCh3(4), 
													subCh2(5), 
													subCh1(6), 
													subCh0(7) 
													} (SIZE(8))			OPTIONAL
		}
	}
	
}

ActivationTimeOffset ::=				INTEGER (0 .. 255)

AdditionalPRACH-TF-and-TFCS-CCCH-IEs ::= SEQUENCE {
	powerOffsetInformation				PowerOffsetInformation,
	dynamicTFInformationCCCH			DynamicTFInformationCCCH
}

AdditionalPRACH-TF-and-TFCS-CCCH ::=	SEQUENCE {
	additionalPRACH-TF-and-TFCS-CCCH-IEs	AdditionalPRACH-TF-and-TFCS-CCCH-IEs	OPTIONAL
}

-- The order is the same as in the PRACH-SystemInformationList
AdditionalPRACH-TF-and-TFCS-CCCH-List ::=	SEQUENCE (SIZE (1..maxPRACH)) OF
										AdditionalPRACH-TF-and-TFCS-CCCH

AdditionalDLSecCellInfoListFDD ::=	SEQUENCE (SIZE (2)) OF
										AdditionalDLSecCellInfoFDD

AdditionalDLSecCellInfoListFDD-r11 ::=	SEQUENCE (SIZE (2)) OF
										AdditionalDLSecCellInfoFDD-r11

AdditionalDLSecCellInfoListFDD2 ::=	SEQUENCE (SIZE (4)) OF
										AdditionalDLSecCellInfoFDD-r11

AdditionalDLSecCellInfoHandoverToUtranListFDD ::=	SEQUENCE (SIZE (2)) OF
										AdditionalDLSecCellInfoFDD-HandoverToUtran

-- AdditionalDLSecCellInfoFDD is introduced to avoid a SEQUENCE of SEQUENCE, a convention in RAN2.
AdditionalDLSecCellInfoFDD ::=	SEQUENCE {
	dl-SecondaryCellInfoFDD					DL-SecondaryCellInfoFDD-r10				OPTIONAL
}

AdditionalDLSecCellInfoFDD-r11 ::=	SEQUENCE {
	dl-SecondaryCellInfoFDD					DL-SecondaryCellInfoFDD-r11				OPTIONAL
}

AdditionalDLSecCellInfoFDD-HandoverToUtran::=	SEQUENCE {
	dl-SecondaryCellInfoFDD					DL-SecondaryCellInfoFDD-HandoverToUtran				OPTIONAL
}

AdditionalSecondaryCellInfoForMixedTTIConfiguration ::=		SEQUENCE {
	eDPCCH-DPCCH-PowerOffset			E-DPCCH-DPCCH-PowerOffset			OPTIONAL,
	happyBit-DelayCondition				HappyBit-DelayCondition				OPTIONAL,
	e-TFC-Boost-Info					E-TFC-Boost-Info-r7					OPTIONAL,
	e-TFCI-TableIndex					E-TFCI-TableIndex					OPTIONAL,
	reference-E-TFCIs					E-DPDCH-Reference-E-TFCIList-r7		OPTIONAL,
	maxChannelisationCodes				E-DPDCH-MaxChannelisationCodes		OPTIONAL,
	schedulingInfoConfiguration			E-DPDCH-SchedulingInfoConfiguration	OPTIONAL
}

AICH-Info ::=						SEQUENCE {
	channelisationCode256				ChannelisationCode256,
	sttd-Indicator						BOOLEAN,
	aich-TransmissionTiming				AICH-TransmissionTiming
}

AICH-Info-Compressed ::=						SEQUENCE {
	channelisationCode256				ChannelisationCode256
}

AICH-PowerOffset ::=				INTEGER (-22..5)

AICH-TransmissionTiming ::=			ENUMERATED {
										e0, e1 }

AllocationPeriodInfo ::=			SEQUENCE {
	allocationActivationTime			INTEGER (0..255),
	allocationDuration					INTEGER (1..256)
}

-- Actual value Alpha = IE value * 0.125
Alpha ::=							INTEGER (0..8)

Antenna3And4 ::= SEQUENCE {
	antenna3And4-S-CPICH		Antenna3And4-S-CPICH	OPTIONAL,
	antenna3And4-D-CPICH		Antenna3And4-D-CPICH	OPTIONAL
}

Antenna3And4-S-CPICH ::= SEQUENCE {
	antenna3-S-CPICH			Antenna3-S-CPICH			OPTIONAL,
	antenna4-S-CPICH			Antenna4-S-CPICH			OPTIONAL,
	s-cpich-PowerOffset-Mimo	S-CPICH-PowerOffset-4x4MIMO	OPTIONAL
}

Antenna3And4-D-CPICH ::= SEQUENCE {
	antenna3-D-CPICH			Antenna3-D-CPICH			OPTIONAL,
	antenna4-D-CPICH			Antenna4-D-CPICH			OPTIONAL,
	d-cpich-PowerOffset-Mimo	D-CPICH-PowerOffset-4x4MIMO	OPTIONAL,
	initialD-CPICHStatus		ENUMERATED { activated }			OPTIONAL
}

Antenna3-D-CPICH ::= SEQUENCE {
	channelisationCode			ChannelisationCode256
}

Antenna4-D-CPICH ::= SEQUENCE {
	channelisationCode			ChannelisationCode256
}

Antenna3-S-CPICH ::= SEQUENCE {
	channelisationCode			ChannelisationCode256
}

Antenna4-S-CPICH ::= SEQUENCE {
	channelisationCode			ChannelisationCode256
}

AP-AICH-ChannelisationCode ::=		INTEGER (0..255)

AP-PreambleScramblingCode ::=		INTEGER (0..79)

AP-Signature ::=					INTEGER (0..15)

AP-Signature-VCAM ::=				SEQUENCE {
	ap-Signature						AP-Signature,
	availableAP-SubchannelList			AvailableAP-SubchannelList OPTIONAL
}

AP-Subchannel ::=					INTEGER (0..11)

ASCSetting-FDD ::=						SEQUENCE {
	-- TABULAR: accessServiceClass-FDD is MD in tabular description
	-- Default value is previous ASC
	-- If this is the first ASC, the default value is all available signature and sub-channels
	accessServiceClass-FDD					AccessServiceClass-FDD	OPTIONAL
}

ASCSetting-TDD ::=						SEQUENCE {
	-- TABULAR: accessServiceClass-TDD is MD in tabular description
	-- Default value is previous ASC
	-- If this is the first ASC, the default value is all available channelisation codes and
	-- all available sub-channels with subchannelSize=size1.
	accessServiceClass-TDD					AccessServiceClass-TDD	OPTIONAL
}

ASCSetting-TDD-r7 ::=						SEQUENCE {
	-- TABULAR: accessServiceClass-TDD is MD in tabular description
	-- Default value is previous ASC
	-- If this is the first ASC, the default value is all available channelisation codes and
	-- all available sub-channels with subchannelSize=size1.
	accessServiceClass-TDD						AccessServiceClass-TDD-r7	OPTIONAL
}

ASCSetting-TDD-LCR-r4 ::=						SEQUENCE {
	-- TABULAR: accessServiceClass-TDD-LCR is MD in tabular description
	-- Default value is previous ASC
	-- If this is the first ASC, the default value is all available SYNC_UL codes and
	-- all available sub-channels with subchannelSize=size1. 
	accessServiceClass-TDD-LCR					AccessServiceClass-TDD-LCR-r4  	OPTIONAL
}

AvailableAP-Signature-VCAMList ::=	SEQUENCE (SIZE (1..maxPCPCH-APsig)) OF
										AP-Signature-VCAM

AvailableAP-SignatureList ::=		SEQUENCE (SIZE (1..maxPCPCH-APsig)) OF
										AP-Signature

AvailableAP-SubchannelList ::=		SEQUENCE (SIZE (1..maxPCPCH-APsubCh)) OF
										AP-Subchannel

AvailableMinimumSF-ListVCAM ::=		SEQUENCE (SIZE (1..maxPCPCH-SF)) OF
										AvailableMinimumSF-VCAM

AvailableMinimumSF-VCAM ::=			SEQUENCE {
	minimumSpreadingFactor				MinimumSpreadingFactor,
	nf-Max								NF-Max,
	maxAvailablePCPCH-Number			MaxAvailablePCPCH-Number,
	availableAP-Signature-VCAMList		AvailableAP-Signature-VCAMList
}

AvailableSignatures ::=			BIT STRING {
									signature15(0),
									signature14(1),
									signature13(2),
									signature12(3),
									signature11(4),
									signature10(5),
									signature9(6),
									signature8(7),
									signature7(8),
									signature6(9),
									signature5(10),
									signature4(11),
									signature3(12),
									signature2(13),
									signature1(14),
									signature0(15)
									}	 (SIZE(16))

AvailableSubChannelNumbers ::=		BIT STRING {
										subCh11(0),
										subCh10(1),
									 	subCh9(2),
									 	subCh8(3),
									 	subCh7(4),
									 	subCh6(5),
									 	subCh5(6),
									 	subCh4(7),
									 	subCh3(8),
									 	subCh2(9),
									 	subCh1(10),
									 	subCh0(11)
										} 	 (SIZE(12))

BEACON-PL-Est ::=					ENUMERATED { true }

BurstType ::=						ENUMERATED {
										type1, type2 }

-- Actual value Bler-Target = IE value * 0.05
Bler-Target ::=						INTEGER (-63..0)

CCTrCH-PowerControlInfo ::=			SEQUENCE {
	tfcs-Identity						TFCS-Identity						OPTIONAL,
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfo
}

CCTrCH-PowerControlInfo-r4 ::=		SEQUENCE {
	tfcs-Identity						TFCS-Identity						OPTIONAL,
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfo-r4
}

CCTrCH-PowerControlInfo-r5 ::=		SEQUENCE {
	tfcs-Identity						TFCS-Identity						OPTIONAL,
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfo-r5
}

CCTrCH-PowerControlInfo-r7 ::=		SEQUENCE {
	tfcs-Identity						TFCS-Identity						OPTIONAL,
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfo-r7
}

CD-AccessSlotSubchannel ::=			INTEGER (0..11)

CD-AccessSlotSubchannelList ::=		SEQUENCE (SIZE (1..maxPCPCH-CDsubCh)) OF
										CD-AccessSlotSubchannel

CD-CA-ICH-ChannelisationCode ::=	INTEGER (0..255)

CD-PreambleScramblingCode ::=		INTEGER (0..79)

CD-SignatureCode ::=				INTEGER (0..15)

CD-SignatureCodeList ::=			SEQUENCE (SIZE (1..maxPCPCH-CDsig)) OF
										CD-SignatureCode

CellAndChannelIdentity ::=			SEQUENCE {
	-- burstType may be set to either value and should be ignored by the receiver for 1.28 Mcps TDD.
	burstType							BurstType,
	midambleShift						MidambleShiftLong,
	timeslot							TimeslotNumber,
	cellParametersID					CellParametersID
	}

CellParametersID ::=				INTEGER (0..127)

Cfntargetsfnframeoffset ::=				INTEGER(0..255)

ChannelAssignmentActive ::=			CHOICE {
	notActive							NULL,
	isActive							AvailableMinimumSF-ListVCAM
}

ChannelisationCode256 ::=			INTEGER (0..255)

ChannelReqParamsForUCSM ::=			SEQUENCE {
	availableAP-SignatureList			AvailableAP-SignatureList,
	availableAP-SubchannelList			AvailableAP-SubchannelList			OPTIONAL
}

ClosedLoopTimingAdjMode ::=			ENUMERATED {
										slot1, slot2 }

CodeNumberDSCH ::=					INTEGER (0..255)

CodeRange ::=						SEQUENCE {
	pdsch-CodeMapList					PDSCH-CodeMapList
}

CodeResourceInformation-TDD128 ::=	SEQUENCE {
	start-code							HS-ChannelisationCode-LCR,
	stop-code							HS-ChannelisationCode-LCR
}

CodeWordSet ::=						ENUMERATED {
										longCWS,
										mediumCWS,
										shortCWS,
										ssdtOff }

Common-E-DCH-ResourceInfoList ::=	SEQUENCE {
	s-offset							INTEGER (0..9)						OPTIONAL,
	f-dpch-ChannelisationCodeNumber		INTEGER (0..255)					OPTIONAL,
	e-RGCH-Information					E-RGCH-Information-CommonEdch		OPTIONAL,
	e-hich-Info							E-HICH-Information-CommonEdch,
	ul-DPCH-CodeInfoForCommonEDCH		UL-DPCH-CodeInfoForCommonEDCH
}

Common-E-DCH-ResourceInfoListExt ::=	SEQUENCE {
	twoMsHarqConfiguration				TwoMsHarqConfiguration
}

Common-E-RNTI-Info ::=				SEQUENCE (SIZE (1..maxERUCCH)) OF
										SEQUENCE {
	starting-E-RNTI							E-RNTI,
	number-of-group							INTEGER (1..maxERNTIgroup),
	number-of-ENRTI-per-group				INTEGER (1..maxERNTIperGroup)
}

CommonEDCHResourceConfigInfoListExt::=			SEQUENCE {
	scheduledTransmissionConfiguration	ScheduledTransmissionConfiguration	OPTIONAL,
	cOffset								INTEGER (0..29)						OPTIONAL
}

	-- For FDD, the network should not include the IE CommonEDCHSystemInfo.
	-- Instead, the IE commonEDCHSystemInfoFDD should be used.
	-- If included, the UE behavior is unspecified.
CommonEDCHSystemInfo ::=			SEQUENCE {
	ul-InterferenceForCommonEDCH		UL-Interference								OPTIONAL,
	common-E-DCH-MAC-d-FlowList			Common-E-DCH-MAC-d-FlowList,
	modeSpecificInfo					CHOICE {
		dummy								SEQUENCE {},
		tdd									CHOICE {
			tdd768	NULL,
			tdd384	NULL,
			tdd128								SEQUENCE {
				e-RUCCH-Info						E-RUCCH-Info-TDD128,
				e-PUCH-Info							E-PUCH-Info-TDD128,
				e-hich-Information					E-HICH-Information-TDD128,
				e-agch-Information					E-AGCH-Information-TDD128,
				harq-Info							ENUMERATED { rv0, rvtable },
				ccch-transmission-Info				SEQUENCE {
					common-e-rnti-Info					Common-E-RNTI-Info,
					harq-MaximumNumberOfRetransmissions	INTEGER (0..7),
					harq-retransmission-timer			ENUMERATED {
															ms10, ms15, ms20, ms25,
															ms30, ms35, ms40, ms45,
															ms50, ms55, ms60, ms65,
															ms70, ms75, ms80, ms85,
															ms90, ms95, ms100, ms110,
															ms120, ms140, ms160 },
					harq-power-offset					INTEGER (0..6)
				}
			}
		}
	}
}

CommonEDCHSystemInfoFDD ::=			SEQUENCE {
	ul-InterferenceForCommonEDCH		UL-Interference					OPTIONAL,
	common-E-DCH-MAC-d-FlowList			Common-E-DCH-MAC-d-FlowList,
	prach-PreambleForEnhancedUplink		PRACH-PreambleForEnhancedUplink,
	initialServingGrantValue			INTEGER (0..37),
	e-dch-TTI							E-DCH-TTI,
	e-agch-Information					E-AGCH-Information,
	harq-Info							ENUMERATED { rv0, rvtable },
	ul-DPCHpowerControlInfoForCommonEDCH
										UL-DPCHpowerControlInfoForCommonEDCH,
	e-dpcch-Info						E-DPCCH-Info-r7,
	e-dpdch-Info						E-DPDCH-Info-r8,
	-- Actual value dl-FDPCH-TPCcommandErrorRate = IE value * 0.01
	dl-FDPCH-TPCcommandErrorRate		INTEGER (1..10),
	additional-E-DCH-TransmitBackoff	INTEGER (0..15),
	max-CCCH-ResourceAllocation			ENUMERATED { 
											tti8, tti12, tti16, tti20, tti24, tti32,
											tti40, tti80 },
	max-PeriodForCollisionResolution	INTEGER (8..24),
	e-dch-TransmitContinuationOffset	ENUMERATED {
											tti0, tti4, tti8, tti16, tti24, tti40,
											tti80,infinity },
	ack-nack-support-on-HS-DPCCH		BOOLEAN,
	measurement-Feedback-Info			Measurement-Feedback-Info-r7		OPTIONAL,
	common-E-DCH-ResourceInfoList		SEQUENCE (SIZE (1..maxEDCHs)) OF
											Common-E-DCH-ResourceInfoList
}

CommonEDCHSystemInfoParamConcurrentTTI ::=			SEQUENCE {
	common-E-DCH-MAC-d-Flow-Info-List-ConcurrentTTI			
										Common-E-DCH-MAC-d-Flow-Info-List-ConcurrentTTI	OPTIONAL,
	initialServingGrantValue				INTEGER (0..37)	OPTIONAL,
	e-agch-Information					E-AGCH-Information	OPTIONAL,
	ul-DPCHpowerControlInfoConcurrentTTI
										UL-DPCHpowerControlInfoConcurrentTTI	OPTIONAL,
	e-DPCCH-DPCCH-PowerOffset			E-DPCCH-DPCCH-PowerOffset	OPTIONAL,
	e-dpdch-Info						E-DPDCH-Info-r8,
	additional-E-DCH-TransmitBackoff	INTEGER (0..15)	OPTIONAL,
	max-CCCH-ResourceAllocation			ENUMERATED { 
											tti8, tti12, tti16, tti20, tti24, tti32,
											tti40, tti80 }	OPTIONAL,
	max-PeriodForCollisionResolution	INTEGER (8..24)	OPTIONAL,
	e-dch-TransmitContinuationOffset	ENUMERATED {
											tti0, tti4, tti8, tti16, tti24, tti40,
											tti80,infinity }	OPTIONAL,
	measurement-Feedback-Info-ConcurrentTTI			Measurement-Feedback-Info-ConcurrentTTI		OPTIONAL
}

CommonERGCHChannelConfig ::=	SEQUENCE {
	channelisationCode					INTEGER (0..127)		OPTIONAL,
	signatureSequence					INTEGER (0..39)		OPTIONAL
}

CommonERGCHInfoFDD ::=		SEQUENCE {
	configurationInfo					CHOICE {
		continue							NULL,
		newConfiguration					SEQUENCE {
			eRGCHNeighbourCellList			BIT STRING (SIZE (maxCellMeas)),
			commonERGCHChannelConfigList	SEQUENCE (SIZE (1.. maxCellMeas)) OF
												CommonERGCHChannelConfig,
			minimumServingGrantValue			INTEGER (0..37) 			OPTIONAL,
			reportingRange						ReportingRange,
			filterCoefficient					FilterCoefficient					DEFAULT fc0
		}
	}
}

CommonTimeslotInfo ::=				SEQUENCE {
	-- TABULAR: secondInterleavingMode is MD, but since it can be encoded in a single
	-- bit it is not defined as OPTIONAL.
	secondInterleavingMode				SecondInterleavingMode,
	tfci-Coding							TFCI-Coding							OPTIONAL,
	puncturingLimit						PuncturingLimit,
	repetitionPeriodAndLength			RepetitionPeriodAndLength			OPTIONAL
}

CommonTimeslotInfoMBMS ::=			SEQUENCE {
	-- TABULAR: secondInterleavingMode is MD, but since it can be encoded in a single
	-- bit it is not defined as OPTIONAL.
	secondInterleavingMode				SecondInterleavingMode,
	tfci-Coding							TFCI-Coding							OPTIONAL,
	puncturingLimit						PuncturingLimit
}

CommonTimeslotInfoSCCPCH ::=		SEQUENCE {
	-- TABULAR: secondInterleavingMode is MD, but since it can be encoded in a single
	-- bit it is not defined as OPTIONAL.
	secondInterleavingMode				SecondInterleavingMode,
	tfci-Coding							TFCI-Coding							OPTIONAL,
	puncturingLimit						PuncturingLimit,
	repetitionPeriodLengthAndOffset		RepetitionPeriodLengthAndOffset		OPTIONAL
}

ConstantValue ::=					INTEGER (-35..-10)

ConstantValueTdd ::=				INTEGER (-35..10)

ControlChannelDRXCycle-TDD128 ::=	ENUMERATED {
										sub-frames-1, sub-frames-2, sub-frames-4, sub-frames-8,
										sub-frames-16, sub-frames-32, sub-frames-64, spare1 }

ControlChannelDRXInfo-TDD128-r8 ::=	SEQUENCE {
	controlChannelDrxOperation			CHOICE {
		continue							SEQUENCE {
			enablingDelay						EnablingDelay-TDD128			OPTIONAL
		},
		newOperation 					SEQUENCE {
			hS-SCCH-Drx-Info				HS-SCCH-DRX-Info-TDD128,
			e-AGCH-Drx-Info					E-AGCH-DRX-Info-TDD128	OPTIONAL,
			enablingDelay					EnablingDelay-TDD128
		}
	}
}

CPCH-PersistenceLevels ::=			SEQUENCE {
	cpch-SetID							CPCH-SetID,
	dynamicPersistenceLevelTF-List		DynamicPersistenceLevelTF-List	
}

CPCH-PersistenceLevelsList ::=		SEQUENCE (SIZE (1..maxCPCHsets)) OF
										CPCH-PersistenceLevels

CPCH-SetInfo ::=					SEQUENCE {
	cpch-SetID							CPCH-SetID,
	transportFormatSet					TransportFormatSet,
	tfcs								TFCS,
	ap-PreambleScramblingCode			AP-PreambleScramblingCode,
	ap-AICH-ChannelisationCode			AP-AICH-ChannelisationCode,
	cd-PreambleScramblingCode			CD-PreambleScramblingCode,
	cd-CA-ICH-ChannelisationCode		CD-CA-ICH-ChannelisationCode,
	cd-AccessSlotSubchannelList			CD-AccessSlotSubchannelList			OPTIONAL,
	cd-SignatureCodeList				CD-SignatureCodeList				OPTIONAL,
	deltaPp-m							DeltaPp-m,
	ul-DPCCH-SlotFormat					UL-DPCCH-SlotFormat,
	n-StartMessage						N-StartMessage,
	n-EOT								N-EOT,
	-- TABULAR: VCAM info has been nested inside ChannelAssignmentActive,
	-- which in turn is mandatory since it's only a binary choice.
	channelAssignmentActive				ChannelAssignmentActive,
	cpch-StatusIndicationMode			CPCH-StatusIndicationMode,
	pcpch-ChannelInfoList				PCPCH-ChannelInfoList
}

CPCH-SetInfoList ::=				SEQUENCE (SIZE (1..maxCPCHsets)) OF
										CPCH-SetInfo

CPCH-StatusIndicationMode ::=		ENUMERATED {
										pa-mode,
										pamsf-mode }

CQI-CycleSwitchTimer ::=			ENUMERATED {
										sub-frames-4,
										sub-frames-8,
										sub-frames-16,
										sub-frames-32,
										sub-frames-64,
										sub-frames-128,
										sub-frames-256,
										sub-frames-512,
										sub-frames-Infinity,
										spare7,
										spare6,
										spare5,
										spare4,
										spare3,
										spare2,
										spare1 }

CQI-DTX-Timer ::=					ENUMERATED {
										sub-frames-0,
										sub-frames-1,
										sub-frames-2,
										sub-frames-4,
										sub-frames-8,
										sub-frames-16,
										sub-frames-32,
										sub-frames-64,
										sub-frames-128,
										sub-frames-256,
										sub-frames-512,
										sub-frames-Infinity,
										spare4,
										spare3,
										spare2,
										spare1 }

CQI-RepetitionFactor ::=			INTEGER(1..4)

CSICH-PowerOffset ::=				INTEGER (-10..5)

D-CPICH-PowerOffset-4x4MIMO ::=			INTEGER (-12..0)

DCH-Enhancements-Info-FDD ::=			SEQUENCE {
	configurationInfo		CHOICE {
		continue					NULL,
		newConfiguration			SEQUENCE {
			ulTransmissionMode			CHOICE {
				tenMSOnly					NULL,
				twentyMSOnly				NULL,
				tenORtwentyMS				SEQUENCE {
					ul-TransModeSwitchingParam		UL-TransModeSwitchingParam
				}
			},
			dlFETMode					CHOICE {
				basic						NULL,
				full						SEQUENCE {
					early-dch-QualityTarget	QualityTarget,
					early-dch-TargetSlot		INTEGER (11..28),
					trChConcatInfo				TransportChannelConcatInfo
				}
			}
		}
	}
}

-- DefaultDPCH-OffsetValueFDD and DefaultDPCH-OffsetValueTDD corresponds to 
-- IE "Default DPCH Offset Value" depending on the mode.
-- Actual value DefaultDPCH-OffsetValueFDD = IE value * 512 

DefaultDPCH-OffsetValueFDD ::=		INTEGER (0..599)

DefaultDPCH-OffsetValueTDD ::=		INTEGER (0..7)

DeltaPp-m ::=						INTEGER (-10..10)

DeltaCQI ::=						INTEGER (0..8)

DeltaCQI-r11 ::=					INTEGER (0..10)

DeltaNACK ::=						INTEGER (0..8)

DeltaNACK-r11 ::=					INTEGER (0..10)

DeltaACK ::=						INTEGER (0..8)

DeltaACK-r11 ::=					INTEGER (0..10)

-- Actual value DeltaSIR = IE value * 0.1
DeltaSIR ::=						INTEGER (0..30)

DesignatedNonServingHS-DSCHCellInfo ::=	SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info
}

DHS-Sync ::=						INTEGER (-20..10)

DL-CCTrCh ::=						SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	timeInfo							TimeInfo,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	dl-CCTrCH-TimeslotsCodes			DownlinkTimeslotsCodes				OPTIONAL,
	ul-CCTrChTPCList					UL-CCTrChTPCList					OPTIONAL	
}

DL-CCTrCh-r4 ::=					SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	timeInfo							TimeInfo,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	tddOption							CHOICE {
		tdd384								SEQUENCE {
			dl-CCTrCH-TimeslotsCodes			DownlinkTimeslotsCodes	OPTIONAL
		},
		tdd128								SEQUENCE {
			dl-CCTrCH-TimeslotsCodes			DownlinkTimeslotsCodes-LCR-r4	OPTIONAL
		}
	},
	ul-CCTrChTPCList					UL-CCTrChTPCList		OPTIONAL
}

DL-CCTrCh-r7 ::=					SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	timeInfo							TimeInfo,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	tddOption							CHOICE {
		tdd384								SEQUENCE {
			dl-CCTrCH-TimeslotsCodes			DownlinkTimeslotsCodes-r7	OPTIONAL
		},
		tdd768								SEQUENCE {
			dl-CCTrCH-TimeslotsCodes			DownlinkTimeslotsCodes-VHCR		OPTIONAL
		},
		tdd128								SEQUENCE {
			dl-CCTrCH-TimeslotsCodes			DownlinkTimeslotsCodes-LCR-r4	OPTIONAL
		}
	},
	ul-CCTrChTPCList					UL-CCTrChTPCList		OPTIONAL
}

DL-CCTrChList ::=					SEQUENCE (SIZE (1..maxCCTrCH)) OF
										DL-CCTrCh

DL-CCTrChList-r7 ::=				SEQUENCE (SIZE (1..maxCCTrCH)) OF
										DL-CCTrCh-r7

DL-CCTrChList-r4 ::=				SEQUENCE (SIZE (1..maxCCTrCH)) OF
										DL-CCTrCh-r4

DL-CCTrChListToRemove ::=			SEQUENCE (SIZE (1..maxCCTrCH)) OF
										TFCS-IdentityPlain

DL-ChannelisationCode ::=			SEQUENCE {
	secondaryScramblingCode				SecondaryScramblingCode				OPTIONAL,
	sf-AndCodeNumber					SF512-AndCodeNumber,
	scramblingCodeChange				ScramblingCodeChange				OPTIONAL
}

DL-ChannelisationCodeList ::=		SEQUENCE (SIZE (1..maxDPCH-DLchan)) OF
										DL-ChannelisationCode

DL-CommonInformation ::=			SEQUENCE {
	dl-DPCH-InfoCommon					DL-DPCH-InfoCommon			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueFDD	OPTIONAL,
			dpch-CompressedModeInfo				DPCH-CompressedModeInfo		OPTIONAL,
			tx-DiversityMode					TX-DiversityMode			OPTIONAL,
			-- dummy is not used in this version of the specification, it should
			-- not be sent and if received it should be ignored.
			dummy								SSDT-Information			OPTIONAL
		},
		tdd									SEQUENCE {
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueTDD	OPTIONAL
		}
	}
}

DL-CommonInformation-r4 ::=			SEQUENCE {
	dl-DPCH-InfoCommon					DL-DPCH-InfoCommon-r4		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueFDD	OPTIONAL,
			dpch-CompressedModeInfo				DPCH-CompressedModeInfo		OPTIONAL,
			tx-DiversityMode					TX-DiversityMode			OPTIONAL,
			-- dummy is not used in this version of the specification, it should
			-- not be sent and if received it should be ignored.
			dummy								SSDT-Information-r4			OPTIONAL
		},
		tdd									SEQUENCE {
			tddOption							CHOICE {
				tdd384								NULL,
				tdd128								SEQUENCE {
					tstd-Indicator						BOOLEAN
				}
			},
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueTDD	OPTIONAL
		}
	}
}


DL-CommonInformation-r5 ::=			SEQUENCE {
	dl-DPCH-InfoCommon					DL-DPCH-InfoCommon-r4			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueFDD	OPTIONAL,
			dpch-CompressedModeInfo				DPCH-CompressedModeInfo		OPTIONAL,
			tx-DiversityMode					TX-DiversityMode			OPTIONAL,
			-- dummy is not used in this version of the specification, it should
			-- not be sent and if received it should be ignored.
			dummy								SSDT-Information-r4			OPTIONAL
		},
		tdd									SEQUENCE {
			tddOption							CHOICE {
				tdd384								NULL,
				tdd128								SEQUENCE {
					tstd-Indicator						BOOLEAN
				}
			},
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueTDD	OPTIONAL
		}
	},
	mac-hsResetIndicator				ENUMERATED { true }			OPTIONAL
}

DL-CommonInformation-r6 ::=			SEQUENCE {
	dl-dpchInfoCommon					CHOICE {
		dl-DPCH-InfoCommon					DL-DPCH-InfoCommon-r6,
		dl-FDPCH-InfoCommon					DL-FDPCH-InfoCommon-r6
	}																		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueFDD	OPTIONAL,
			dpch-CompressedModeInfo				DPCH-CompressedModeInfo		OPTIONAL,
			tx-DiversityMode					TX-DiversityMode			OPTIONAL
		},
		tdd									SEQUENCE {
			tddOption							CHOICE {
				tdd384								NULL,
				tdd128								SEQUENCE {
					tstd-Indicator						BOOLEAN
				}
			},
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueTDD	OPTIONAL
		}
	},
	mac-hsResetIndicator				ENUMERATED { true }			OPTIONAL,
	postVerificationPeriod				ENUMERATED { true }			OPTIONAL
}

DL-CommonInformation-r7 ::=			SEQUENCE {
	dl-dpchInfoCommon					CHOICE {
		dl-DPCH-InfoCommon					DL-DPCH-InfoCommon-r6,
		dl-FDPCH-InfoCommon					DL-FDPCH-InfoCommon-r6
	}																		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueFDD	OPTIONAL,
			dpch-CompressedModeInfo				DPCH-CompressedModeInfo		OPTIONAL,
			tx-DiversityMode					TX-DiversityMode			OPTIONAL
		},
		tdd									SEQUENCE {
			tddOption							CHOICE {
				tdd384								NULL,
				tdd768								NULL,
				tdd128								SEQUENCE {
					tstd-Indicator						BOOLEAN
				}
			},
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueTDD	OPTIONAL
		}
	},
	mac-hsResetIndicator				ENUMERATED { true }			OPTIONAL,
	postVerificationPeriod				ENUMERATED { true }			OPTIONAL
}

DL-CommonInformation-r8 ::=			SEQUENCE {
	dl-dpchInfoCommon					CHOICE {
		dl-DPCH-InfoCommon					DL-DPCH-InfoCommon-r6,
		dl-FDPCH-InfoCommon					DL-FDPCH-InfoCommon-r6
	}																		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueFDD	OPTIONAL,
			dpch-CompressedModeInfo				DPCH-CompressedModeInfo-r8	OPTIONAL,
			tx-DiversityMode					TX-DiversityMode			OPTIONAL
		},
		tdd									SEQUENCE {
			tddOption							CHOICE {
				tdd384								NULL,
				tdd768								NULL,
				tdd128								SEQUENCE {
					tstd-Indicator						BOOLEAN
				}
			},
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueTDD	OPTIONAL
		}
	},
	mac-hsResetIndicator				ENUMERATED { true }			OPTIONAL,
	postVerificationPeriod				ENUMERATED { true }			OPTIONAL
}

DL-CommonInformation-r10 ::=			SEQUENCE {
	dl-dpchInfoCommon					CHOICE {
		dl-DPCH-InfoCommon					DL-DPCH-InfoCommon-r6,
		dl-FDPCH-InfoCommon					DL-FDPCH-InfoCommon-r6
	}																		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueFDD	OPTIONAL,
			dpch-CompressedModeInfo				DPCH-CompressedModeInfo-r10	OPTIONAL,
			tx-DiversityMode					TX-DiversityMode			OPTIONAL
		},
		tdd									SEQUENCE {
			tddOption							CHOICE {
				tdd384								NULL,
				tdd768								NULL,
				tdd128								SEQUENCE {
					tstd-Indicator						BOOLEAN
				}
			},
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueTDD	OPTIONAL
		}
	},
	mac-hsResetIndicator				ENUMERATED { true }			OPTIONAL,
	postVerificationPeriod				ENUMERATED { true }			OPTIONAL
}

DL-CommonInformation-r11 ::=			SEQUENCE {
	dl-dpchInfoCommon					CHOICE {
		dl-DPCH-InfoCommon					DL-DPCH-InfoCommon-r6,
		dl-FDPCH-InfoCommon					DL-FDPCH-InfoCommon-r6
	}																		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueFDD	OPTIONAL,
			dpch-CompressedModeInfo				DPCH-CompressedModeInfo-r10	OPTIONAL,
			tx-DiversityMode					TX-DiversityMode			OPTIONAL
		},
		tdd									SEQUENCE {
			tddOption							CHOICE {
				tdd384								NULL,
				tdd768								NULL,
				tdd128								SEQUENCE {
					tstd-Indicator						BOOLEAN
				}
			},
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueTDD	OPTIONAL
		}
	},
	mac-hsResetIndicator				ENUMERATED { true }			OPTIONAL,
	postVerificationPeriod				ENUMERATED { true }			OPTIONAL,
	mac-hsResetIndicator-assisting				ENUMERATED { true }			OPTIONAL
}

DL-CommonInformation-r12 ::=			SEQUENCE {
	dl-dpchInfoCommon					CHOICE {
		dl-DPCH-InfoCommon					DL-DPCH-InfoCommon-r12,
		dl-FDPCH-InfoCommon					DL-FDPCH-InfoCommon-r6
	}																		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueFDD	OPTIONAL,
			dpch-CompressedModeInfo				DPCH-CompressedModeInfo-r10	OPTIONAL,
			tx-DiversityMode					TX-DiversityMode			OPTIONAL
		},
		tdd									SEQUENCE {
			tddOption							CHOICE {
				tdd384								NULL,
				tdd768								NULL,
				tdd128								SEQUENCE {
					tstd-Indicator						BOOLEAN
				}
			},
			defaultDPCH-OffsetValue				DefaultDPCH-OffsetValueTDD	OPTIONAL
		}
	},
	mac-hsResetIndicator				ENUMERATED { true }			OPTIONAL,
	postVerificationPeriod				ENUMERATED { true }			OPTIONAL,
	mac-hsResetIndicator-assisting				ENUMERATED { true }			OPTIONAL
}

DL-CommonInformationPost ::=		SEQUENCE {
	dl-DPCH-InfoCommon					DL-DPCH-InfoCommonPost
}

DL-CommonInformationPredef ::=		SEQUENCE {
	dl-DPCH-InfoCommon					DL-DPCH-InfoCommonPredef	OPTIONAL
}

DL-CompressedModeMethod ::=			ENUMERATED {
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received the UE behaviour is not specified.
										dummy, sf-2,
										higherLayerScheduling }

DL-DPCH-InfoCommon ::=				SEQUENCE {
	cfnHandling							CHOICE {
		maintain							NULL,
		initialise							SEQUENCE {
			-- IE dummy is not used in this version of the specification
			-- The IE should not be sent and if received it should be ignored
			dummy								Cfntargetsfnframeoffset				OPTIONAL
		}
	},
	modeSpecificInfo					CHOICE {
		fdd 								SEQUENCE {
			dl-DPCH-PowerControlInfo			DL-DPCH-PowerControlInfo			OPTIONAL,
			powerOffsetPilot-pdpdch				PowerOffsetPilot-pdpdch,
			dl-rate-matching-restriction		Dl-rate-matching-restriction		OPTIONAL,
			-- TABULAR: The number of pilot bits is nested inside the spreading factor.
			spreadingFactorAndPilot				SF512-AndPilot,
			positionFixedOrFlexible				PositionFixedOrFlexible,
			tfci-Existence						BOOLEAN
		},
		tdd									SEQUENCE {
			dl-DPCH-PowerControlInfo			DL-DPCH-PowerControlInfo			OPTIONAL
		}
	}
}

DL-DPCH-InfoCommon-r4 ::=			SEQUENCE {
	cfnHandling							CHOICE {
		maintain							NULL,
		initialise							SEQUENCE {
			-- IE dummy is not used in this version of the specification
			-- The IE should not be sent and if received it should be ignored
			dummy								Cfntargetsfnframeoffset				OPTIONAL
		}
	},
	modeSpecificInfo					CHOICE {
		fdd 								SEQUENCE {
			dl-DPCH-PowerControlInfo			DL-DPCH-PowerControlInfo			OPTIONAL,
			powerOffsetPilot-pdpdch				PowerOffsetPilot-pdpdch,
			dl-rate-matching-restriction		Dl-rate-matching-restriction		OPTIONAL,
			-- TABULAR: The number of pilot bits is nested inside the spreading factor.
			spreadingFactorAndPilot				SF512-AndPilot,
			positionFixedOrFlexible				PositionFixedOrFlexible,
			tfci-Existence						BOOLEAN
		},
		tdd									SEQUENCE {
			dl-DPCH-PowerControlInfo			DL-DPCH-PowerControlInfo			OPTIONAL
		}
	},
-- The IE mac-d-HFN-initial-value should be absent in the RRCConnectionSetup-r4-IEs or 
-- RRCConnectionSetup-r5-IEs or HandoverToUTRANCommand-r4-IEs or HandoverToUTRANCommand-r5-IEs and
-- if the IE is included, the general error handling for conditional IEs applies.
	mac-d-HFN-initial-value				MAC-d-HFN-initial-value				OPTIONAL

}

DL-DPCH-InfoCommon-r6 ::=				SEQUENCE {
	cfnHandling								CHOICE {
		maintain								SEQUENCE {
			timingmaintainedsynchind				TimingMaintainedSynchInd			OPTIONAL
		},
		initialise								NULL
	},
	modeSpecificInfo						CHOICE {
		fdd 									SEQUENCE {
			dl-DPCH-PowerControlInfo				DL-DPCH-PowerControlInfo			OPTIONAL,
			powerOffsetPilot-pdpdch					PowerOffsetPilot-pdpdch,
			dl-rate-matching-restriction			Dl-rate-matching-restriction		OPTIONAL,
			-- TABULAR: The number of pilot bits is nested inside the spreading factor.
			spreadingFactorAndPilot					SF512-AndPilot,
			positionFixedOrFlexible					PositionFixedOrFlexible,
			tfci-Existence							BOOLEAN
		},
		tdd									SEQUENCE {
			dl-DPCH-PowerControlInfo			DL-DPCH-PowerControlInfo			OPTIONAL
		}
	},
	-- The IE mac-d-HFN-initial-value should be absent in the RRCConnectionSetup and the
	-- HandoverToUTRANCommand messages. If the IE is included, the general error handling
	-- for conditional IEs applies.
	mac-d-HFN-initial-value				MAC-d-HFN-initial-value				OPTIONAL
}

DL-DPCH-InfoCommon-r12 ::=				SEQUENCE {
	cfnHandling								CHOICE {
		maintain								SEQUENCE {
			timingmaintainedsynchind				TimingMaintainedSynchInd			OPTIONAL
		},
		initialise								NULL
	},
	modeSpecificInfo						CHOICE {
		fdd 									SEQUENCE {
			dl-DPCH-PowerControlInfo				DL-DPCH-PowerControlInfo			OPTIONAL,
			powerOffsetPilot-pdpdch					PowerOffsetPilot-pdpdch,
			dl-rate-matching-restriction			Dl-rate-matching-restriction		OPTIONAL,
			-- TABULAR: The number of pilot bits is nested inside the spreading factor.
			spreadingFactorAndPilot					SF512-AndPilot-r12,
			positionFixedOrFlexible					PositionFixedOrFlexible,
			tfci-Existence							BOOLEAN
		},
		tdd									SEQUENCE {
			dl-DPCH-PowerControlInfo			DL-DPCH-PowerControlInfo			OPTIONAL
		}
	},
	-- The IE mac-d-HFN-initial-value should be absent in the RRCConnectionSetup and the
	-- HandoverToUTRANCommand messages. If the IE is included, the general error handling
	-- for conditional IEs applies.
	mac-d-HFN-initial-value				MAC-d-HFN-initial-value				OPTIONAL
}

DL-DPCH-InfoCommonPost ::=			SEQUENCE {
	dl-DPCH-PowerControlInfo			DL-DPCH-PowerControlInfo				OPTIONAL
}

DL-DPCH-InfoCommonPredef ::=		SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			-- TABULAR: The number of pilot bits is nested inside the spreading factor.
			spreadingFactorAndPilot				SF512-AndPilot,
			positionFixedOrFlexible				PositionFixedOrFlexible,
			tfci-Existence						BOOLEAN
		},
		tdd									SEQUENCE {
			commonTimeslotInfo					CommonTimeslotInfo
		}
	}
}

DL-DPCH-InfoPerRL ::=				CHOICE {
	fdd									SEQUENCE {
		pCPICH-UsageForChannelEst			PCPICH-UsageForChannelEst,
		dpch-FrameOffset					DPCH-FrameOffset,
		secondaryCPICH-Info					SecondaryCPICH-Info				OPTIONAL,
		dl-ChannelisationCodeList			DL-ChannelisationCodeList,
		tpc-CombinationIndex				TPC-CombinationIndex,
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy								SSDT-CellIdentity				OPTIONAL,
		closedLoopTimingAdjMode				ClosedLoopTimingAdjMode			OPTIONAL
	},
	tdd									SEQUENCE {
		dl-CCTrChListToEstablish			DL-CCTrChList					OPTIONAL,
		dl-CCTrChListToRemove				DL-CCTrChListToRemove			OPTIONAL
	}
}

DL-DPCH-InfoPerRL-r4 ::=			CHOICE {
	fdd									SEQUENCE {
		pCPICH-UsageForChannelEst			PCPICH-UsageForChannelEst,
		dpch-FrameOffset					DPCH-FrameOffset,
		secondaryCPICH-Info					SecondaryCPICH-Info				OPTIONAL,
		dl-ChannelisationCodeList			DL-ChannelisationCodeList,
		tpc-CombinationIndex				TPC-CombinationIndex,
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy								SSDT-CellIdentity				OPTIONAL,
		closedLoopTimingAdjMode				ClosedLoopTimingAdjMode			OPTIONAL
	},
	tdd									SEQUENCE {
		dl-CCTrChListToEstablish			DL-CCTrChList-r4				OPTIONAL,
		dl-CCTrChListToRemove				DL-CCTrChListToRemove			OPTIONAL
	}
}

DL-DPCH-InfoPerRL-r5 ::=			CHOICE {
	fdd									SEQUENCE {
		pCPICH-UsageForChannelEst			PCPICH-UsageForChannelEst,
		dpch-FrameOffset					DPCH-FrameOffset,
		secondaryCPICH-Info					SecondaryCPICH-Info				OPTIONAL,
		dl-ChannelisationCodeList			DL-ChannelisationCodeList,
		tpc-CombinationIndex				TPC-CombinationIndex,
		powerOffsetTPC-pdpdch				PowerOffsetTPC-pdpdch			OPTIONAL,
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy								SSDT-CellIdentity				OPTIONAL,
		closedLoopTimingAdjMode				ClosedLoopTimingAdjMode			OPTIONAL
	},
	tdd									SEQUENCE {
		dl-CCTrChListToEstablish			DL-CCTrChList-r4				OPTIONAL,
		dl-CCTrChListToRemove				DL-CCTrChListToRemove			OPTIONAL
	}
}

DL-DPCH-InfoPerRL-r6 ::=			CHOICE {
	fdd									SEQUENCE {
		pCPICH-UsageForChannelEst			PCPICH-UsageForChannelEst,
		dpch-FrameOffset					DPCH-FrameOffset,
		secondaryCPICH-Info					SecondaryCPICH-Info				OPTIONAL,
		dl-ChannelisationCodeList			DL-ChannelisationCodeList,
		tpc-CombinationIndex				TPC-CombinationIndex,
		powerOffsetTPC-pdpdch				PowerOffsetTPC-pdpdch			OPTIONAL,
		closedLoopTimingAdjMode				ClosedLoopTimingAdjMode			OPTIONAL
	},
	tdd									SEQUENCE {
		dl-CCTrChListToEstablish			DL-CCTrChList-r4				OPTIONAL,
		dl-CCTrChListToRemove				DL-CCTrChListToRemove			OPTIONAL
	}
}

DL-DPCH-InfoPerRL-r7 ::=			CHOICE {
	fdd									SEQUENCE {
		pCPICH-UsageForChannelEst			PCPICH-UsageForChannelEst,
		dpch-FrameOffset					DPCH-FrameOffset,
		secondaryCPICH-Info					SecondaryCPICH-Info				OPTIONAL,
		dl-ChannelisationCodeList			DL-ChannelisationCodeList,
		tpc-CombinationIndex				TPC-CombinationIndex,
		powerOffsetTPC-pdpdch				PowerOffsetTPC-pdpdch			OPTIONAL,
		closedLoopTimingAdjMode				ClosedLoopTimingAdjMode			OPTIONAL
	},
	tdd									SEQUENCE {
		dl-CCTrChListToEstablish			DL-CCTrChList-r7				OPTIONAL,
		dl-CCTrChListToRemove				DL-CCTrChListToRemove			OPTIONAL
	}
}

DL-DPCH-InfoPerRL-r12 ::=			CHOICE {
	fdd									SEQUENCE {
		pCPICH-UsageForChannelEst			PCPICH-UsageForChannelEst,
		dpch-FrameOffset					DPCH-FrameOffset,
		secondaryCPICH-Info					SecondaryCPICH-Info				OPTIONAL,
		dl-ChannelisationCodeList			DL-ChannelisationCodeList,
		tpc-CombinationIndex				TPC-CombinationIndex,
		powerOffsetTPC-pdpdch				PowerOffsetTPC-pdpdch			OPTIONAL,
		powerOffsetPO-SRB					PowerOffsetPO-SRB				OPTIONAL,
		closedLoopTimingAdjMode				ClosedLoopTimingAdjMode			OPTIONAL
	},
	tdd									SEQUENCE {
		dl-CCTrChListToEstablish			DL-CCTrChList-r7				OPTIONAL,
		dl-CCTrChListToRemove				DL-CCTrChListToRemove			OPTIONAL
	}
}


DL-DPCH-InfoPerRL-ASU ::=			CHOICE {
	fdd									SEQUENCE {
		pCPICH-UsageForChannelEst			PCPICH-UsageForChannelEst,
		dpch-FrameOffset					DPCH-FrameOffset,
		secondaryCPICH-Info					SecondaryCPICH-Info				OPTIONAL,
		dl-ChannelisationCodeList			DL-ChannelisationCodeList,
		tpc-CombinationIndex				TPC-CombinationIndex,
		powerOffsetTPC-pdpdch				PowerOffsetTPC-pdpdch			OPTIONAL,
		powerOffsetPO-SRB					PowerOffsetPO-SRB				OPTIONAL,
		closedLoopTimingAdjMode				ClosedLoopTimingAdjMode			OPTIONAL
	},
	tdd									SEQUENCE {
		dl-CCTrChListToEstablish			DL-CCTrChList-r4				OPTIONAL,
		dl-CCTrChListToRemove				DL-CCTrChListToRemove			OPTIONAL
	}
}

DL-FDPCH-InfoPerRL-r6 ::=			SEQUENCE {
	pCPICH-UsageForChannelEst			PCPICH-UsageForChannelEst,
	fdpch-FrameOffset					DPCH-FrameOffset,
	secondaryCPICH-Info					SecondaryCPICH-Info				OPTIONAL,
	secondaryScramblingCode				SecondaryScramblingCode			OPTIONAL,
	dl-ChannelisationCode				INTEGER (0..255),
	tpc-CombinationIndex				TPC-CombinationIndex
}

DL-FDPCH-InfoPerRL-r7 ::=			SEQUENCE {
	pCPICH-UsageForChannelEst			PCPICH-UsageForChannelEst,
	fdpch-FrameOffset					DPCH-FrameOffset,
	fdpch-SlotFormat					FDPCH-SlotFormat				OPTIONAL,
	secondaryCPICH-Info					SecondaryCPICH-Info				OPTIONAL,
	secondaryScramblingCode				SecondaryScramblingCode			OPTIONAL,
	dl-ChannelisationCode				INTEGER (0..255),
	tpc-CombinationIndex				TPC-CombinationIndex,
	sttdIndication						STTDIndication					OPTIONAL
}

DL-FDPCH-InfoPerRL-r13 ::=		SEQUENCE {
	pCPICH-UsageForChannelEst			PCPICH-UsageForChannelEst,
	fdpch-FrameOffset					DPCH-FrameOffset,
	fdpch-SlotFormat					FDPCH-SlotFormat						OPTIONAL,
	secondaryCPICH-Info				SecondaryCPICH-Info					OPTIONAL,
	secondaryScramblingCode			SecondaryScramblingCode				OPTIONAL,
	dl-ChannelisationCode				INTEGER (0..255),
	tpc-CombinationIndex				TPC-CombinationIndex,
	sttdIndication						STTDIndication							OPTIONAL,
	powerControlAlgorithm3-Config	PowerControlAlgorithm3-Config			OPTIONAL
}

DL-DPCH-InfoPerRL-PostFDD ::=								SEQUENCE {
		pCPICH-UsageForChannelEst				PCPICH-UsageForChannelEst,
		dl-ChannelisationCode					DL-ChannelisationCode,
		tpc-CombinationIndex					TPC-CombinationIndex
}

DL-DPCH-InfoPerRL-PostTDD ::=				SEQUENCE {
	dl-DPCH-TimeslotsCodes						DownlinkTimeslotsCodes
}

DL-DPCH-InfoPerRL-PostTDD-LCR-r4 ::=		SEQUENCE {
	dl-CCTrCH-TimeslotsCodes					DownlinkTimeslotsCodes-LCR-r4
}

DL-DPCH-PowerControlInfo ::=			SEQUENCE {
	modeSpecificInfo						CHOICE {
		fdd										SEQUENCE {
			dpc-Mode								DPC-Mode
		},
		tdd										SEQUENCE {
			tpc-StepSizeTDD							TPC-StepSizeTDD			OPTIONAL
		}
	}
}

DL-FDPCH-InfoCommon-r6 ::=			SEQUENCE {
	cfnHandling							CHOICE {
		maintain							SEQUENCE {
			timingmaintainedsynchind			TimingMaintainedSynchInd			OPTIONAL
		},
		initialise							NULL
	},
	dl-FDPCH-PowerControlInfo			DL-DPCH-PowerControlInfo			OPTIONAL,
	-- Actual value dl-FDPCH-TPCcommandErrorRate = IE value * 0.01
	-- dl-FDPCH-TPCcommandErrorRate values 11..16 are spare and shall not be used in this version of 
	-- the protocol.
	-- In addition, this IE shall always be included otherwise the UE behaviour is unspecified.
	dl-FDPCH-TPCcommandErrorRate		INTEGER (1..16)		OPTIONAL
}

DL-FrameType ::=					ENUMERATED {
										dl-FrameTypeA, dl-FrameTypeB }

DL-HSPDSCH-Information ::=			SEQUENCE {
	hs-scch-Info					HS-SCCH-Info	OPTIONAL,
	measurement-feedback-Info		Measurement-Feedback-Info	OPTIONAL,
	modeSpecificInfo				CHOICE {
	tdd								CHOICE{
			tdd384							SEQUENCE {
				dl-HSPDSCH-TS-Configuration	DL-HSPDSCH-TS-Configuration	  	OPTIONAL
			},
			tdd128							SEQUENCE {
				hs-PDSCH-Midamble-Configuration-tdd128
						HS-PDSCH-Midamble-Configuration-TDD128				OPTIONAL
			}
		},
		fdd							NULL
	}
}

DL-HSPDSCH-Information-r6 ::=	SEQUENCE {
	hs-scch-Info					HS-SCCH-Info-r6							OPTIONAL,
	measurement-feedback-Info		Measurement-Feedback-Info				OPTIONAL,
	modeSpecificInfo				CHOICE {
		tdd								CHOICE {
			tdd384							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration	OPTIONAL
			},
			tdd128							SEQUENCE {
				hs-PDSCH-Midamble-Configuration-tdd128
						HS-PDSCH-Midamble-Configuration-TDD128				OPTIONAL
			}
		},
		fdd							NULL
	}
}

DL-HSPDSCH-Information-r7 ::=	SEQUENCE {
	hs-scch-Info					HS-SCCH-Info-r7							OPTIONAL,
	measurement-feedback-Info		Measurement-Feedback-Info-r7			OPTIONAL,
	modeSpecificInfo				CHOICE {
		tdd								CHOICE {
			tdd384							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration	OPTIONAL
			},
			tdd768							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration-VHCR	OPTIONAL
			},
			tdd128							SEQUENCE {
				hs-PDSCH-Midamble-Configuration-tdd128
						HS-PDSCH-Midamble-Configuration-TDD128						OPTIONAL,
				dl-MultiCarrier-Information		DL-MultiCarrier-Information			OPTIONAL
			}
		},
		fdd								SEQUENCE {
			dl-64QAM-Configured				ENUMERATED { true }					OPTIONAL
		}
	}
}

DL-HSPDSCH-Information-r8 ::=	SEQUENCE {
	hs-scch-Info					HS-SCCH-Info-r7							OPTIONAL,
	measurement-feedback-Info		Measurement-Feedback-Info-r7			OPTIONAL,
	modeSpecificInfo				CHOICE {
		tdd								CHOICE {
			tdd384							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration	OPTIONAL
			},
			tdd768							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration-VHCR	OPTIONAL
			},
			tdd128							SEQUENCE {
				hs-PDSCH-Midamble-Configuration-tdd128
						HS-PDSCH-Midamble-Configuration-TDD128						OPTIONAL,
				dl-MultiCarrier-Information		DL-MultiCarrier-Information			OPTIONAL
			}
		},
		fdd								SEQUENCE {
			dl-64QAM-Configured				ENUMERATED { true }					OPTIONAL,
			hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable					OPTIONAL
		}
	}
}

DL-HSPDSCH-Information-r8-ext ::=	SEQUENCE {
	modeSpecificInfo				CHOICE {
		tdd								CHOICE {
			tdd384						NULL,
			tdd768						NULL,
			tdd128							SEQUENCE {
				outofSyncWindow					OutofSyncWindow					OPTIONAL
			}
		},
		fdd								NULL
	}
}

DL-HSPDSCH-Information-r8-ext2 ::=	SEQUENCE {
	hs-scch-Info						HS-SCCH-Info-r8-ext							OPTIONAL
}

DL-HSPDSCH-Information-r9 ::=	SEQUENCE {
	hs-scch-Info					HS-SCCH-Info-r9							OPTIONAL,
	measurement-feedback-Info		Measurement-Feedback-Info-r7			OPTIONAL,
	modeSpecificInfo				CHOICE {
		tdd								CHOICE {
			tdd384							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration	OPTIONAL
			},
			tdd768							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration-VHCR	OPTIONAL
			},
			tdd128							SEQUENCE {
				hs-PDSCH-Midamble-Configuration-tdd128
						HS-PDSCH-Midamble-Configuration-TDD128						OPTIONAL,
				dl-MultiCarrier-Information		DL-MultiCarrier-Information			OPTIONAL,
				tS0-Indicator					ENUMERATED { true }					OPTIONAL,
				outofSyncWindow								OutofSyncWindow			OPTIONAL
			}
		},
		fdd								SEQUENCE {
			dl-64QAM-Configured				ENUMERATED { true }					OPTIONAL,
			hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable					OPTIONAL
		}
	}
}

DL-HSPDSCH-Information-r11 ::=	SEQUENCE {
	hs-scch-Info					HS-SCCH-Info-r9							OPTIONAL,
	measurement-feedback-Info		Measurement-Feedback-Info-r11			OPTIONAL,
	modeSpecificInfo				CHOICE {
		tdd								CHOICE {
			tdd384							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration	OPTIONAL
			},
			tdd768							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration-VHCR	OPTIONAL
			},
			tdd128							SEQUENCE {
				hs-PDSCH-Midamble-Configuration-tdd128
						HS-PDSCH-Midamble-Configuration-TDD128						OPTIONAL,
				dl-MultiCarrier-Information		DL-MultiCarrier-Information			OPTIONAL,
				tS0-Indicator					ENUMERATED { true }					OPTIONAL,
				outofSyncWindow								OutofSyncWindow			OPTIONAL
			}
		},
		fdd								SEQUENCE {
			dl-64QAM-Configured				ENUMERATED { true }					OPTIONAL,
			hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable					OPTIONAL
		}
	}
}

DL-HSPDSCH-Information-r12 ::=	SEQUENCE {
	hs-scch-Info					HS-SCCH-Info-r9									OPTIONAL,
	measurement-feedback-Info		Measurement-Feedback-Info-r12					OPTIONAL,
	modeSpecificInfo				CHOICE {
		tdd								CHOICE {
			tdd384							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration			OPTIONAL
			},
			tdd768							SEQUENCE {
				dl-HSPDSCH-TS-Configuration		DL-HSPDSCH-TS-Configuration-VHCR	OPTIONAL
			},
			tdd128							SEQUENCE {
				hs-PDSCH-Midamble-Configuration-tdd128
						HS-PDSCH-Midamble-Configuration-TDD128						OPTIONAL,
				dl-MultiCarrier-Information		DL-MultiCarrier-Information			OPTIONAL,
				tS0-Indicator					ENUMERATED { true }					OPTIONAL,
				outofSyncWindow								OutofSyncWindow			OPTIONAL,
				ts0ChannelizationCodes			DL-TS-ChannelisationCodesShort		OPTIONAL
			}
		},
		fdd								SEQUENCE {
			dl-64QAM-Configured				ENUMERATED { true }						OPTIONAL,
			hs-DSCH-TBSizeTable				HS-DSCH-TBSizeTable						OPTIONAL
		}
	}
}

OutofSyncWindow ::=						ENUMERATED {
											ms40, ms80, ms160, ms320,
											ms640, spare3, spare2, spare1 }

DL-HSPDSCH-MultiCarrier-Information ::=	SEQUENCE (SIZE (1..maxTDD128Carrier)) OF
											SEQUENCE {
		uarfcn-Carrier							UARFCN,
		harqInfo								HARQ-Info								OPTIONAL,
		hs-PDSCH-Midamble-Configuration			HS-PDSCH-Midamble-Configuration-TDD128	OPTIONAL,
		hs-SCCH-TDD128-MultiCarrier				SEQUENCE (SIZE (1..maxHSSCCHs)) OF
													HS-SCCH-TDD128-MultiCarrier			OPTIONAL
	}

-- The IE 'DL-HSPDSCH-TS-Configuration' applies to tdd-384 REL-5 onward
DL-HSPDSCH-TS-Configuration ::=		SEQUENCE (SIZE (1..maxTS-1)) OF
										SEQUENCE {
	timeslot								TimeslotNumber,
	midambleShiftAndBurstType				MidambleShiftAndBurstType-DL
}

-- The IE 'DL-HSPDSCH-TS-Configuration-VHCR' applies to tdd-768 REL-7 onward
DL-HSPDSCH-TS-Configuration-VHCR ::= SEQUENCE (SIZE (1..maxTS-1)) OF
										SEQUENCE {
	timeslot								TimeslotNumber,
	midambleShiftAndBurstType				MidambleShiftAndBurstType-DL-VHCR
}

DL-InformationPerRL ::=				SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			-- dummy1 and dummy 2 are not used in this version of specification, they should
			-- not be sent and if received they should be ignored.
			dummy1								PDSCH-SHO-DCH-Info			OPTIONAL,
			dummy2								PDSCH-CodeMapping			OPTIONAL
		},
		tdd									PrimaryCCPCH-Info
	},
	dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL					OPTIONAL,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received it should be ignored.
	dummy								SCCPCH-InfoForFACH					OPTIONAL
}

DL-InformationPerRL-r4 ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			-- dummy1 and dummy 2 are not used in this version of specification, they should
			-- not be sent and if received they should be ignored.
			dummy1								PDSCH-SHO-DCH-Info			OPTIONAL,
			dummy2								PDSCH-CodeMapping			OPTIONAL
		},
		tdd									PrimaryCCPCH-Info-r4
	},
	dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-r4				OPTIONAL,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received it should be ignored.
	dummy								SCCPCH-InfoForFACH-r4				OPTIONAL,
	cell-id								CellIdentity						OPTIONAL
}

DL-InformationPerRL-r5 ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			-- dummy1 and dummy 2 are not used in this version of specification, they should
			-- not be sent and if received they should be ignored.
			dummy1								PDSCH-SHO-DCH-Info			OPTIONAL,
			dummy2								PDSCH-CodeMapping			OPTIONAL,
			servingHSDSCH-RL-indicator			BOOLEAN
		},
		tdd									PrimaryCCPCH-Info-r4
	},
	dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-r5				OPTIONAL,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received it should be ignored.
	dummy								SCCPCH-InfoForFACH-r4				OPTIONAL,
	cell-id								CellIdentity						OPTIONAL
}

DL-InformationPerRL-r5bis ::=		SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			-- dummy1 and dummy 2 are not used in this version of specification, they should
			-- not be sent and if received they should be ignored.
			dummy1								PDSCH-SHO-DCH-Info			OPTIONAL,
			dummy2								PDSCH-CodeMapping			OPTIONAL
		},
		tdd									PrimaryCCPCH-Info-r4
	},
	dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-r5				OPTIONAL,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received it should be ignored.
	dummy								SCCPCH-InfoForFACH-r4				OPTIONAL,
	cell-id								CellIdentity						OPTIONAL
}

DL-InformationPerRL-r6 ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			servingHSDSCH-RL-indicator			BOOLEAN,
			servingEDCH-RL-indicator			BOOLEAN
		},
		tdd									PrimaryCCPCH-Info-r4
	},
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-r6,
		dl-FDPCH-InfoPerRL					DL-FDPCH-InfoPerRL-r6
	}																		OPTIONAL,
	e-AGCH-Information					E-AGCH-Information					OPTIONAL,
	e-HICH-Info							CHOICE	{
		e-HICH-Information					E-HICH-Information,
		releaseIndicator					NULL
	}	OPTIONAL,
	e-RGCH-Info							CHOICE	{
		e-RGCH-Information					E-RGCH-Information,
		releaseIndicator					NULL
	}	OPTIONAL,
	cell-id								CellIdentity						OPTIONAL
}

DL-InformationPerRL-v6b0ext ::=		SEQUENCE {
		sttdIndication					STTDIndication						OPTIONAL
}

DL-InformationPerRL-r7 ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			servingHSDSCH-RL-indicator			BOOLEAN,
			servingEDCH-RL-indicator			BOOLEAN
		},
		tdd									PrimaryCCPCH-Info-r4
	},
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-r7,
		dl-FDPCH-InfoPerRL					DL-FDPCH-InfoPerRL-r7
	}																		OPTIONAL,
	e-AGCH-Information					E-AGCH-Information-r7				OPTIONAL,
	modeSpecificInfo2					CHOICE {
		fdd									SEQUENCE {
			e-HICH-Info							CHOICE {
				e-HICH-Information					E-HICH-Information,
				releaseIndicator					NULL
			}	OPTIONAL,
			e-RGCH-Info							CHOICE {
				e-RGCH-Information					E-RGCH-Information,
				releaseIndicator					NULL
			}	OPTIONAL
		},
		tdd									CHOICE {
			tdd384-tdd768						SEQUENCE {
				e-HICH-Info							E-HICH-Information-TDD384-768	OPTIONAL
			},
			tdd128								SEQUENCE {
				e-HICH-Info							E-HICH-Information-TDD128	OPTIONAL
			}
		}
	},
	cell-id								CellIdentity						OPTIONAL
}

DL-InformationPerRL-r8 ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			servingHSDSCH-RL-indicator			BOOLEAN,
			servingEDCH-RL-indicator			BOOLEAN
		},
		tdd									PrimaryCCPCH-Info-r4
	},
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-r7,
		dl-FDPCH-InfoPerRL					DL-FDPCH-InfoPerRL-r7
	}																		OPTIONAL,
	e-AGCH-Information					E-AGCH-Information-r8				OPTIONAL,
	modeSpecificInfo2					CHOICE {
		fdd									SEQUENCE {
			e-HICH-Info							CHOICE {
				e-HICH-Information					E-HICH-Information,
				releaseIndicator					NULL
			}	OPTIONAL,
			e-RGCH-Info							CHOICE {
				e-RGCH-Information					E-RGCH-Information,
				releaseIndicator					NULL
			}	OPTIONAL
		},
		tdd									CHOICE {
			tdd384-tdd768						SEQUENCE {
				e-HICH-Info							E-HICH-Information-TDD384-768	OPTIONAL
			},
			tdd128								SEQUENCE {
				e-HICH-Info							E-HICH-Information-TDD128	OPTIONAL
			}
		}
	},
	cell-id								CellIdentity						OPTIONAL
}

DL-InformationPerRL-r11 ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			servingHSDSCH-RL-indicator			BOOLEAN,
			servingEDCH-RL-indicator			BOOLEAN
		},
		tdd									PrimaryCCPCH-Info-r4
	},
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-r7,
		dl-FDPCH-InfoPerRL					DL-FDPCH-InfoPerRL-r7
	}																		OPTIONAL,
	e-AGCH-Information					E-AGCH-Information-r8				OPTIONAL,
	e-ROCH-Information					E-ROCH-Information					OPTIONAL,
	modeSpecificInfo2					CHOICE {
		fdd									SEQUENCE {
			e-HICH-Info							CHOICE {
				e-HICH-Information					E-HICH-Information-r11,
				releaseIndicator					NULL,
				secondaryReleaseIndicator			NULL
			}	OPTIONAL,
			e-RGCH-Info							CHOICE {
				e-RGCH-Information					E-RGCH-Information,
				releaseIndicator					NULL
			}	OPTIONAL,
			f-TPICH-Info							CHOICE {
				f-TPICH-Information					F-TPICH-Information,
				releaseIndicator					NULL
			}	OPTIONAL
		},
		tdd									CHOICE {
			tdd384-tdd768						SEQUENCE {
				e-HICH-Info							E-HICH-Information-TDD384-768	OPTIONAL
			},
			tdd128								SEQUENCE {
				e-HICH-Info							E-HICH-Information-TDD128		OPTIONAL
			}
		}
	},
	cell-id								CellIdentity						OPTIONAL
}

DL-InformationPerRL-r12 ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			servingHSDSCH-RL-indicator		BOOLEAN,
			servingEDCH-RL-indicator			BOOLEAN
		},
		tdd									PrimaryCCPCH-Info-r4
	},
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-r12,
		dl-FDPCH-InfoPerRL					DL-FDPCH-InfoPerRL-r7,
		radioLinkswithoutDPCHFDPCHInfo		RadioLinkswithoutDPCHFDPCHInfo
	}																		OPTIONAL,
	e-AGCH-Information					E-AGCH-Information-r8				OPTIONAL,
	e-ROCH-Information					E-ROCH-Information					OPTIONAL,
	modeSpecificInfo2					CHOICE {
		fdd									SEQUENCE {
			e-HICH-Info							CHOICE {
				e-HICH-Information					E-HICH-Information-r11,
				releaseIndicator					NULL,
				secondaryReleaseIndicator			NULL
			}	OPTIONAL,
			e-RGCH-Info							CHOICE {
				e-RGCH-Information					E-RGCH-Information,
				releaseIndicator					NULL
			}	OPTIONAL,
			f-TPICH-Info							CHOICE {
				f-TPICH-Information					F-TPICH-Information,
				releaseIndicator					NULL
			}	OPTIONAL
		},
		tdd									CHOICE {
			tdd384-tdd768						SEQUENCE {
				e-HICH-Info							E-HICH-Information-TDD384-768	OPTIONAL
			},
			tdd128								SEQUENCE {
				e-HICH-Info							E-HICH-Information-TDD128		OPTIONAL
			}
		}
	},
	cell-id								CellIdentity						OPTIONAL
}

DL-InformationPerRL-r13 ::=		SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			servingHSDSCH-RL-indicator		BOOLEAN,
			servingEDCH-RL-indicator			BOOLEAN
		},
		tdd									PrimaryCCPCH-Info-r4
	},
	dl-dpchInfo						CHOICE {
		dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-r12,
		dl-FDPCH-InfoPerRL					DL-FDPCH-InfoPerRL-r13,
		radioLinkswithoutDPCHFDPCHInfo	RadioLinkswithoutDPCHFDPCHInfo
	}																		OPTIONAL,
	e-AGCH-Information					E-AGCH-Information-r8				OPTIONAL,
	e-ROCH-Information					E-ROCH-Information					OPTIONAL,
	modeSpecificInfo2					CHOICE {
		fdd									SEQUENCE {
			e-HICH-Info							CHOICE {
				e-HICH-Information						E-HICH-Information-r11,
				releaseIndicator						NULL,
				secondaryReleaseIndicator				NULL
			}	OPTIONAL,
			e-RGCH-Info							CHOICE {
				e-RGCH-Information						E-RGCH-Information,
				releaseIndicator						NULL
			}	OPTIONAL,
			f-TPICH-Info							CHOICE {
				f-TPICH-Information					F-TPICH-Information,
				releaseIndicator						NULL
			}	OPTIONAL
		},
		tdd									CHOICE {
			tdd384-tdd768						SEQUENCE {
				e-HICH-Info							E-HICH-Information-TDD384-768	OPTIONAL
			},
			tdd128								SEQUENCE {
				e-HICH-Info							E-HICH-Information-TDD128		OPTIONAL
			}
		}
	},
	cell-id								CellIdentity						OPTIONAL
}

DL-InformationPerRL-List ::=		SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL

DL-InformationPerRL-List-r4 ::=		SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL-r4

DL-InformationPerRL-List-r5 ::=		SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL-r5

DL-InformationPerRL-List-r6 ::=		SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL-r6

DL-InformationPerRL-List-v6b0ext ::= SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL-v6b0ext

DL-InformationPerRL-List-r5bis ::=		SEQUENCE (SIZE (1..maxRL)) OF
											DL-InformationPerRL-r5bis

DL-InformationPerRL-List-r7 ::=		SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL-r7

DL-InformationPerRL-List-r8 ::=		SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL-r8

DL-InformationPerRL-List-r11 ::=	SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL-r11

DL-InformationPerRL-List-r12 ::=	SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL-r12

DL-InformationPerRL-List-r13 ::=	SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL-r13

DL-InformationPerRL-ListPostFDD ::=	SEQUENCE (SIZE (1..maxRL)) OF
										DL-InformationPerRL-PostFDD

DL-InformationPerRL-PostFDD ::=		SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
	dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-PostFDD
}

DL-InformationPerRL-PostTDD ::=		SEQUENCE {
	primaryCCPCH-Info					PrimaryCCPCH-InfoPost,
	dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-PostTDD
}

DL-InformationPerRL-PostTDD-LCR-r4 ::=	SEQUENCE {
	primaryCCPCH-Info					PrimaryCCPCH-InfoPostTDD-LCR-r4,
	dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-PostTDD-LCR-r4
}

--for 1.28Mcps TDD Multi-Carrier
DL-MultiCarrier-Information ::=		SEQUENCE {
	tsn-Length							ENUMERATED { tsn-6bits, tsn-9bits }		OPTIONAL,
	multiCarrierNumber					INTEGER (1..maxTDD128Carrier)			OPTIONAL,
	dl-HSPDSCH-MultiCarrier-Information	DL-HSPDSCH-MultiCarrier-Information		OPTIONAL
}

DL-PDSCH-Information ::=			SEQUENCE {
	-- dummy1 and dummy 2 are not used in this version of specification, it should
	-- not be sent and if received it should be ignored.
	dummy1								PDSCH-SHO-DCH-Info					OPTIONAL,
	dummy2								PDSCH-CodeMapping					OPTIONAL
}

Dl-rate-matching-restriction ::=	SEQUENCE {
	restrictedTrCH-InfoList				RestrictedTrCH-InfoList				OPTIONAL
}

DL-SecondaryCellInfoFDD ::=			CHOICE {
	continue							NULL,
	newConfiguration					SEQUENCE {
		new-H-RNTI							H-RNTI,
		dl-64QAM-Configured					ENUMERATED { true }				OPTIONAL,
		hs-DSCH-TBSizeTable					HS-DSCH-TBSizeTable				OPTIONAL,
		primaryCPICH-Info					PrimaryCPICH-Info,
		dl-ScramblingCode					SecondaryScramblingCode			OPTIONAL,
		hS-SCCHChannelisationCodeInfo		SEQUENCE (SIZE (1..maxHSSCCHs)) OF
												HS-SCCH-Codes,
		measurementPowerOffset				MeasurementPowerOffset,
		uarfcn-DL							UARFCN
	}
}

DL-SecondaryCellInfoFDD-v890ext ::=	SEQUENCE {
	differentTxModeFromServingHS-DSCHCell			ENUMERATED { different }		OPTIONAL
}

DL-SecondaryCellInfoFDD-r9 ::=		SEQUENCE {
	configurationInfo					CHOICE {
		continue							NULL,
		newConfiguration					SEQUENCE {
			new-H-RNTI							H-RNTI,
			dl-64QAM-Configured					ENUMERATED { true }				OPTIONAL,
			hs-DSCH-TBSizeTable					HS-DSCH-TBSizeTable				OPTIONAL,
			primaryCPICH-Info					PrimaryCPICH-Info,
			dl-ScramblingCode					SecondaryScramblingCode			OPTIONAL,
			hS-SCCHChannelisationCodeInfo		SEQUENCE (SIZE (1..maxHSSCCHs)) OF
													HS-SCCH-Codes,
			measurementPowerOffset				MeasurementPowerOffset,
			uarfcn-DL							UARFCN,
			differentTxModeFromServingHS-DSCHCell	ENUMERATED { different }	OPTIONAL
		}
	},
	secondaryCellMIMOparameters			SecondaryCellMIMOparametersFDD	OPTIONAL
}

DL-SecondaryCellInfoFDD-r10 ::=		SEQUENCE {
	configurationInfo					CHOICE {
		continue							NULL,
		newConfiguration					SEQUENCE {
			new-H-RNTI							H-RNTI,
			dl-64QAM-Configured					ENUMERATED { true }				OPTIONAL,
			hs-DSCH-TBSizeTable					HS-DSCH-TBSizeTable				OPTIONAL,
			primaryCPICH-Info					PrimaryCPICH-Info,
			dl-ScramblingCode					SecondaryScramblingCode			OPTIONAL,
			hS-SCCHChannelisationCodeInfo		SEQUENCE (SIZE (1..maxHSSCCHs)) OF
													HS-SCCH-Codes,
			measurementPowerOffset				MeasurementPowerOffset,
			uarfcn-DL							UARFCN,
			differentTxModeFromServingHS-DSCHCell	ENUMERATED { different }	OPTIONAL
		}
	},
	secondaryCellMIMOparameters			SecondaryCellMIMOparametersFDD-r10	OPTIONAL
}

DL-SecondaryCellInfoFDD-r11 ::=		SEQUENCE {
	configurationInfo					CHOICE {
		continue							NULL,
		newConfiguration					SEQUENCE {
			new-H-RNTI							H-RNTI,
			dl-64QAM-Configured					ENUMERATED { true }				OPTIONAL,
			hs-DSCH-TBSizeTable					HS-DSCH-TBSizeTable				OPTIONAL,
			primaryCPICH-Info					PrimaryCPICH-Info,
			dl-ScramblingCode					SecondaryScramblingCode			OPTIONAL,
			hS-SCCHChannelisationCodeInfo		SEQUENCE (SIZE (1..maxHSSCCHs)) OF
													HS-SCCH-Codes,
			measurementPowerOffset				MeasurementPowerOffset,
			measurementPowerOffset1				MeasurementPowerOffset			OPTIONAL,
			uarfcn-DL							UARFCN,
			differentTxModeFromServingHS-DSCHCell	ENUMERATED { different }	OPTIONAL,
			multiflowConfigurationInfo			MultiflowConfigurationInfo		OPTIONAL
		}
	},
	secondaryCellMIMOparameters			SecondaryCellMIMOparametersFDD-r10	OPTIONAL,
	secondaryCell4x4MIMOparameters		SecondaryCell4x4MIMOparametersFDD	OPTIONAL
}

DL-SecondaryCellInfoFDD-HandoverToUtran ::=		SEQUENCE {
	configurationInfo					CHOICE {
		continue							NULL,
		newConfiguration					SEQUENCE {
			new-H-RNTI							H-RNTI,
			primaryCPICH-Info					PrimaryCPICH-Info,
			dl-ScramblingCode					SecondaryScramblingCode			OPTIONAL,
			hS-SCCHChannelisationCodeInfo		SEQUENCE (SIZE (1..maxHSSCCHs)) OF
													HS-SCCH-Codes,
			measurementPowerOffset				MeasurementPowerOffset,
			uarfcn-DL							UARFCN,
			differentTxModeFromServingHS-DSCHCell	ENUMERATED { different }	OPTIONAL
		}
	}
}

DL-TPC-PowerOffsetPerRL ::=		SEQUENCE {
		powerOffsetTPC-pdpdch				PowerOffsetTPC-pdpdch			OPTIONAL
}

-- NOTE: The radio links in the following list have a one-to-one mapping with the 
-- radio links in the message.
DL-TPC-PowerOffsetPerRL-List ::=	SEQUENCE (SIZE (1..maxRL)) OF
										DL-TPC-PowerOffsetPerRL

DL-TS-ChannelisationCode ::=		ENUMERATED {
										cc16-1, cc16-2, cc16-3, cc16-4,
										cc16-5, cc16-6, cc16-7, cc16-8,
										cc16-9, cc16-10, cc16-11, cc16-12,
										cc16-13, cc16-14, cc16-15, cc16-16 }

DL-TS-ChannelisationCode-VHCR ::=	ENUMERATED {
										cc32-1, cc32-2, cc32-3, cc32-4,
										cc132-5, cc32-6, cc32-7, cc32-8,
										cc32-9, cc32-10, cc32-11, cc32-12,
										cc32-13, cc32-14, cc32-15, cc32-16,
										cc32-17, cc32-18, cc32-19, cc32-20,
										cc32-21, cc32-22, cc32-23, cc32-24,
										cc32-25, cc32-26, cc32-27, cc32-28,
										cc32-29, cc32-30, cc32-31, cc32-32 }

DL-TS-ChannelisationCodesShort ::=	SEQUENCE {
	codesRepresentation					CHOICE {
		consecutive							SEQUENCE {
			firstChannelisationCode				DL-TS-ChannelisationCode,
			lastChannelisationCode				DL-TS-ChannelisationCode
		},
		bitmap								BIT STRING {
												chCode16-SF16(0),
												chCode15-SF16(1),
												chCode14-SF16(2),
												chCode13-SF16(3),
												chCode12-SF16(4),
												chCode11-SF16(5),
												chCode10-SF16(6),
												chCode9-SF16(7),
												chCode8-SF16(8),
												chCode7-SF16(9),
												chCode6-SF16(10),
												chCode5-SF16(11),
												chCode4-SF16(12),
												chCode3-SF16(13),
												chCode2-SF16(14),
												chCode1-SF16(15)
												} 	(SIZE (16))
	}
}

DL-TS-ChannelisationCodesShort-VHCR ::=	SEQUENCE {
	codesRepresentation					CHOICE {
		consecutive							SEQUENCE {
			firstChannelisationCode				DL-TS-ChannelisationCode-VHCR,
			lastChannelisationCode				DL-TS-ChannelisationCode-VHCR
		},
		bitmap								BIT STRING {
												chCode32-SF32(0),
												chCode31-SF32(1),
												chCode30-SF32(2),
												chCode29-SF32(3),
												chCode28-SF32(4),
												chCode27-SF32(5),
												chCode26-SF32(6),
												chCode25-SF32(7),
												chCode24-SF32(8),
												chCode23-SF32(9),
												chCode22-SF32(10),
												chCode21-SF32(11),
												chCode20-SF32(12),
												chCode19-SF32(13),
												chCode18-SF32(14),
												chCode17-SF32(15),
												chCode16-SF32(16),
												chCode15-SF32(17),
												chCode14-SF32(18),
												chCode13-SF32(19),
												chCode12-SF32(20),
												chCode11-SF32(21),
												chCode10-SF32(22),
												chCode9-SF32(23),
												chCode8-SF32(24),
												chCode7-SF32(25),
												chCode6-SF32(26),
												chCode5-SF32(27),
												chCode4-SF32(28),
												chCode3-SF32(29),
												chCode2-SF32(30),
												chCode1-SF32(31)
												} 	(SIZE (32))
	}
}

DL-ChannelCodes-MBSFN-IMB384 ::=	SEQUENCE {
	firstChannelisationCode				INTEGER (1..15),
	lastChannelisationCode				INTEGER (1..15)						OPTIONAL
}

DLUL-HSPA-Information-r8 ::=			SEQUENCE {
	ul-EDCH-Information						UL-EDCH-Information-r8,
	dl-CommonInformation					DL-CommonInformation-r8,
	dl-InformationPerRL-List				DL-InformationPerRL-List-r7,
	dl-HSPDSCH-Information					DL-HSPDSCH-Information-r8
}

DLUL-HSPA-Information-r9 ::=			SEQUENCE {
	ul-EDCH-Information						UL-EDCH-Information-r9,
	dl-CommonInformation					DL-CommonInformation-r8,
	dl-InformationPerRL-List				DL-InformationPerRL-List-r7,
	dl-HSPDSCH-Information					DL-HSPDSCH-Information-r9
}

DLUL-HSPA-Information-r10 ::=			SEQUENCE {
	ul-EDCH-Information						UL-EDCH-Information-r9,
	dl-CommonInformation					DL-CommonInformation-r10,
	dl-InformationPerRL-List				DL-InformationPerRL-List-r7,
	dl-HSPDSCH-Information					DL-HSPDSCH-Information-r9
}

DownlinkAdditionalTimeslots ::=		SEQUENCE {
	parameters							CHOICE {
		sameAsLast							SEQUENCE {
			timeslotNumber						TimeslotNumber
		},
		newParameters						SEQUENCE {
			individualTimeslotInfo				IndividualTimeslotInfo,
			dl-TS-ChannelisationCodesShort		DL-TS-ChannelisationCodesShort
		}
	}
}

DownlinkAdditionalTimeslots-VHCR ::= SEQUENCE {
	parameters							CHOICE {
		sameAsLast							SEQUENCE {
			timeslotNumber						TimeslotNumber
		},
		newParameters						SEQUENCE {
			individualTimeslotInfo				IndividualTimeslotInfo-VHCR,
			dl-TS-ChannelisationCodesShort		DL-TS-ChannelisationCodesShort-VHCR
		}
	}
}

DownlinkAdditionalTimeslots-LCR-r4 ::=	SEQUENCE {
	parameters							CHOICE {
		sameAsLast							SEQUENCE {
			timeslotNumber						TimeslotNumber-LCR-r4
		},
		newParameters						SEQUENCE {
			individualTimeslotInfo				IndividualTimeslotInfo-LCR-r4,
			dl-TS-ChannelisationCodesShort		DL-TS-ChannelisationCodesShort
		}
	}
}

DownlinkAdditionalTimeslots-r7 ::=	SEQUENCE {
	parameters							CHOICE {
		sameAsLast							SEQUENCE {
			timeslotNumber						TimeslotNumber
		},
		newParameters						SEQUENCE {
			individualTimeslotInfo				IndividualTimeslotInfo-r7,
			dl-TS-ChannelisationCodesShort		DL-TS-ChannelisationCodesShort
		}
	}
}

DownlinkTimeslotsCodes ::=		SEQUENCE {
	firstIndividualTimeslotInfo			IndividualTimeslotInfo,
	dl-TS-ChannelisationCodesShort		DL-TS-ChannelisationCodesShort,
	moreTimeslots						CHOICE {
		noMore								NULL,
		additionalTimeslots					CHOICE {
			consecutive							INTEGER (1..maxTS-1),
			timeslotList						SEQUENCE (SIZE (1..maxTS-1)) OF
													DownlinkAdditionalTimeslots
		}
	}
}

DownlinkTimeslotsCodes-VHCR ::=		SEQUENCE {
	firstIndividualTimeslotInfo			IndividualTimeslotInfo-VHCR,
	dl-TS-ChannelisationCodesShort		DL-TS-ChannelisationCodesShort-VHCR,
	moreTimeslots						CHOICE {
		noMore								NULL,
		additionalTimeslots					CHOICE {
			consecutive							INTEGER (1..maxTS-1),
			timeslotList						SEQUENCE (SIZE (1..maxTS-1)) OF
													DownlinkAdditionalTimeslots-VHCR
		}
	}
}

DownlinkTimeslotsCodes-LCR-r4 ::=	SEQUENCE {
	firstIndividualTimeslotInfo			IndividualTimeslotInfo-LCR-r4,
	dl-TS-ChannelisationCodesShort		DL-TS-ChannelisationCodesShort,
	moreTimeslots						CHOICE {
		noMore								NULL,
		additionalTimeslots					CHOICE {
			consecutive							INTEGER (1..maxTS-LCR-1),
			timeslotList						SEQUENCE (SIZE (1..maxTS-LCR-1)) OF
													DownlinkAdditionalTimeslots-LCR-r4
		}
	}
}
DownlinkTimeslotsCodes-r7 ::=		SEQUENCE {
	firstIndividualTimeslotInfo			IndividualTimeslotInfo-r7,
	dl-TS-ChannelisationCodesShort		DL-TS-ChannelisationCodesShort,
	moreTimeslots						CHOICE {
		noMore								NULL,
		additionalTimeslots					CHOICE {
			consecutive							INTEGER (1..maxTS-1),
			timeslotList						SEQUENCE (SIZE (1..maxTS-1)) OF
													DownlinkAdditionalTimeslots-r7
		}
	}
}

DPC-Mode ::=						ENUMERATED {
										singleTPC,
										tpcTripletInSoft }	

DPCCH2Info ::=	SEQUENCE {
	dpcch2TxPowerOffset			Dpcch2TxPowerOffset
}

DPCCH2InfoFDD ::=	SEQUENCE {
	configurationInfo			CHOICE {
		continue					NULL,
		newConfiguration			SEQUENCE {
			dpcch2Info					DPCCH2Info									OPTIONAL,
			f-dpchInfo					F-DPCHInfo									OPTIONAL,
			extended-E-DPCCH-DPCCHPO	Extended-E-DPCCH-DPCCH-PowerOffset			OPTIONAL,
			designatedNonServingHS-DSCHCellInfo	DesignatedNonServingHS-DSCHCellInfo	OPTIONAL
		} 
	}
}

Dpcch2TxPowerOffset ::=				INTEGER (0..20)

-- Actual value DPCCH-PowerOffset = IE value * 2
DPCCH-PowerOffset ::=				INTEGER (-82..-3)

-- Actual value DPCCH-PowerOffset2 = 2 + (IE value * 4)
DPCCH-PowerOffset2 ::=				INTEGER (-28..-13)

DPCH-CompressedModeInfo ::=			SEQUENCE {
	tgp-SequenceList					TGP-SequenceList
}

DPCH-CompressedModeInfo-r8 ::=		SEQUENCE {
	tgp-SequenceList					TGP-SequenceList-r8
}

DPCH-CompressedModeInfo-r10 ::=		SEQUENCE {
	tgp-SequenceList					TGP-SequenceList-r10
}

DPCH-CompressedModeStatusInfo ::=	SEQUENCE {
	tgps-Reconfiguration-CFN			TGPS-Reconfiguration-CFN,
	tgp-SequenceShortList					SEQUENCE (SIZE (1..maxTGPS)) OF
											TGP-SequenceShort
}

DPCH-CompressedModeStatusInfo-r10 ::=	SEQUENCE {
	tgps-Reconfiguration-CFN			TGPS-Reconfiguration-CFN,
	tgp-SequenceShortList				SEQUENCE (SIZE (1..maxTGPS)) OF
										TGP-SequenceShort-r10
}

-- Actual value DPCH-FrameOffset = IE value * 256
DPCH-FrameOffset ::=				INTEGER (0..149)

FDPCH-SlotFormat ::=				INTEGER (0..9)

UE-DRX-Cycle-InactivityThreshold ::= ENUMERATED {
										sub-frames-0,
										sub-frames-1,
										sub-frames-2,
										sub-frames-4,
										sub-frames-8,
										sub-frames-16,
										sub-frames-32,
										sub-frames-64,
										sub-frames-128,
										sub-frames-256,
										sub-frames-512,
										spare5,
										spare4,
										spare3,
										spare2,
										spare1 }

DRX-Info ::=						SEQUENCE {
	ue-drx-Cycle						UE-DRX-Cycle,
	ue-drx-Cycle-InactivityThreshold	UE-DRX-Cycle-InactivityThreshold,
	ue-GrantMonitoring-InactivityThreshold
										UE-GrantMonitoring-InactivityThreshold,
	ue-drx-GrantMonitoring				BOOLEAN
}

DRX-Info-r12 ::=					SEQUENCE {
	ue-drx-Cycle						UE-DRX-Cycle,
	ue-drx-Cycle2						UE-DRX-Cycle2						OPTIONAL,
	ue-drx-Cycle-InactivityThreshold	UE-DRX-Cycle-InactivityThreshold,
	ue-drx-Cycle2-InactivityThreshold	UE-DRX-Cycle-InactivityThreshold	OPTIONAL,
	ue-GrantMonitoring-InactivityThreshold
										UE-GrantMonitoring-InactivityThreshold,
	ue-drx-GrantMonitoring				BOOLEAN
}

DSCH-Mapping ::=					SEQUENCE {
	maxTFCI-Field2Value					MaxTFCI-Field2Value,
	spreadingFactor						SF-PDSCH,
	codeNumber							CodeNumberDSCH,
	multiCodeInfo						MultiCodeInfo
}

DSCH-MappingList ::=				SEQUENCE (SIZE (1..maxPDSCH-TFCIgroups)) OF
										DSCH-Mapping

DSCH-RadioLinkIdentifier ::=		INTEGER (0..511)

DSCH-TransportChannelsInfo ::=		SEQUENCE (SIZE (1..maxTrCH)) OF
										SEQUENCE {
	dsch-transport-channel-identity			TransportChannelIdentity,
	dsch-TFS								TransportFormatSet
}

DTX-DRX-Info-r7 ::=					SEQUENCE {
	dtx-Info							DTX-Info							OPTIONAL,
	drx-Info							DRX-Info							OPTIONAL,
	uplink-DPCCHSlotFormatInformation	Uplink-DPCCH-Slot-Format-Information
}

DTX-DRX-Info-r12 ::=					SEQUENCE {
	dtx-Info							DTX-Info							OPTIONAL,
	dtx-Info-SecondaryUplinkFrequency	DTX-Info-SecondaryUplinkFrequency	OPTIONAL,
	drx-Info							DRX-Info-r12						OPTIONAL,
	uplink-DPCCHSlotFormatInformation	Uplink-DPCCH-Slot-Format-Information
}

DTX-E-DCH-TTI-10ms ::=				SEQUENCE {
	ue-dtx-Cycle1-10ms					UE-DTX-Cycle1-10ms,
	ue-dtx-Cycle2-10ms					UE-DTX-Cycle2-10ms,
	mac-dtx-Cycle-10ms					MAC-DTX-Cycle-10ms
}

DTX-E-DCH-TTI-2ms ::=				SEQUENCE {
	ue-dtx-Cycle1-2ms					UE-DTX-Cycle1-2ms,
	ue-dtx-Cycle2-2ms					UE-DTX-Cycle2-2ms,
	mac-dtx-Cycle-2ms					MAC-DTX-Cycle-2ms
}

DTX-Info ::=						SEQUENCE {
	e-dch-TTI-Length					CHOICE {
		dtx-e-dch-TTI-10ms					DTX-E-DCH-TTI-10ms,
		dtx-e-dch-TTI-2ms					DTX-E-DCH-TTI-2ms
	},
	ue-dtx-cycle2InactivityThreshold	UE-DTX-Cycle2InactivityThreshold,
	ue-dtx-cycle2DefaultSG				INTEGER (0..38)						OPTIONAL,
	-- if ue-dtx-long-preamble-length is not present, the value is '2 slots'
	ue-dtx-long-preamble-length			UE-DTX-long-preamble-length			OPTIONAL,
	mac-InactivityThreshold				MAC-InactivityThreshold,
	cqi-dtx-Timer						CQI-DTX-Timer,
	ue-dpcch-Burst1						UE-DPCCH-Burst,
	ue-dpcch-Burst2						UE-DPCCH-Burst
}

DTX-Info-SecondaryUplinkFrequency ::=	SEQUENCE {
	e-dch-TTI-Length					CHOICE {
		dtx-e-dch-TTI-10ms					NULL,
		dtx-e-dch-TTI-2ms					SEQUENCE {
			ue-dtx-Cycle1-2ms-Secondary				UE-DTX-Cycle1-2ms					OPTIONAL,
			ue-dtx-Cycle2-2ms-Secondary				UE-DTX-Cycle2-2ms-Secondary		}
	},
	ue-dtx-cycle2InactivityThreshold-Secondary		UE-DTX-Cycle2InactivityThreshold	OPTIONAL,
	-- if ue-dtx-long-preamble-length is not present, the value is '2 slots'
	ue-dtx-long-preamble-length-Secondary			UE-DTX-long-preamble-length			OPTIONAL,
	ue-dpcch-Burst1-Secondary						UE-DPCCH-Burst						OPTIONAL,
	ue-dpcch-Burst2-Secondary						UE-DPCCH-Burst						OPTIONAL
}

DurationTimeInfo ::=				INTEGER (1..4096)

DynamicPersistenceLevel ::=			INTEGER (1..8)

DynamicPersistenceLevelList ::=		SEQUENCE (SIZE (1..maxPRACH)) OF
										DynamicPersistenceLevel

DynamicPersistenceLevelTF-List ::= SEQUENCE (SIZE (1..maxTF-CPCH)) OF
										DynamicPersistenceLevel

DynamicTFInformationCCCH ::=		SEQUENCE {
	octetModeRLC-SizeInfoType2			OctetModeRLC-SizeInfoType2
}

E-AGCH-ChannelisationCode ::=		INTEGER (0..255)

E-AGCH-DRX-Info-TDD128 ::=			SEQUENCE {
	e-AGCH-DRX-InfoType					CHOICE {
		sameAsHS-SCCH						NULL,
		e-AGCH-DRX-Parameters				SEQUENCE {
			e-AGCH-DRX-Cycle					ControlChannelDRXCycle-TDD128,
			e-AGCH-InactivityMonitorThreshold	E-AGCH-InactivityMonitorThreshold-TDD128
																						OPTIONAL,
			e-AGCH-DRX-Offset 					INTEGER (0..63)
		}
	}
}

E-AGCH-InactivityMonitorThreshold-TDD128 ::= ENUMERATED {
										radio-frames-0, radio-frames-1, radio-frames-2,
										radio-frames-4, radio-frames-8, radio-frames-16,
										radio-frames-32, radio-frames-64, radio-frames-128,
										radio-frames-256, radio-frames-512,
										spare5, spare4, spare3, spare2, infinity }

E-AGCH-Individual ::=				SEQUENCE {
	tS-number							INTEGER (0..14),
	channelisation-code					DL-TS-ChannelisationCode,
	midambleShiftAndBurstType			MidambleShiftAndBurstType-EDCH
}

E-AGCH-Individual-VHCR ::=			SEQUENCE {
	tS-number							INTEGER (0..14),
	channelisation-code					DL-TS-ChannelisationCode-VHCR,
	midambleShiftAndBurstType			MidambleShiftAndBurstType-EDCH
}

E-AGCH-Individual-LCR ::=			SEQUENCE {
	timeslotNumber						TimeslotNumber-LCR-r4,
	firstChannelisationCode				HS-ChannelisationCode-LCR,
	secondChannelisationCode			HS-ChannelisationCode-LCR,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		commonMidamble						NULL,
		ueSpecificMidamble					INTEGER (0..15)
	},
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration				INTEGER (1..8)
}

E-AGCH-Information ::=				SEQUENCE {
	e-AGCH-ChannelisationCode			E-AGCH-ChannelisationCode
}

E-AGCH-Information-r7 ::=			SEQUENCE {
	modeSpecific						CHOICE {
		fdd									SEQUENCE {
			e-AGCH-ChannelisationCode			E-AGCH-ChannelisationCode
			},
		tdd									CHOICE {
			tdd384								SEQUENCE {
				long-Term-Grant-Indicator			BOOLEAN		OPTIONAL,
				length-of-TTRI-field				INTEGER (1..12),
				e-AGCH-Set-Config					E-AGCH-Set-Config,
				e-AGCH-BLER-Target					Bler-Target
			},
			tdd768								SEQUENCE {
				long-Term-Grant-Indicator			BOOLEAN		OPTIONAL,
				length-of-TTRI-field				INTEGER (1..12),
				e-AGCH-Set-Config					E-AGCH-Set-Config-VHCR,
				e-AGCH-BLER-Target					Bler-Target
			},
			tdd128								SEQUENCE {
				rdi-Indicator						BOOLEAN,
				tpc-StepSize						TPC-StepSizeTDD,
				e-AGCH-Set-Config					E-AGCH-Set-Config-LCR,
				e-AGCH-BLER-Target					Bler-Target
			}
		}
	}
}

E-AGCH-Information-r8 ::=			SEQUENCE {
	modeSpecific						CHOICE {
		fdd									SEQUENCE {
			e-AGCH-ChannelisationCode			E-AGCH-ChannelisationCode
			},
		tdd									CHOICE {
			tdd384								SEQUENCE {
				long-Term-Grant-Indicator			BOOLEAN							OPTIONAL,
				length-of-TTRI-field				INTEGER (1..12),
				e-AGCH-Set-Config					E-AGCH-Set-Config,
				e-AGCH-BLER-Target					Bler-Target
			},
			tdd768								SEQUENCE {
				long-Term-Grant-Indicator			BOOLEAN							OPTIONAL,
				length-of-TTRI-field				INTEGER (1..12),
				e-AGCH-Set-Config					E-AGCH-Set-Config-VHCR,
				e-AGCH-BLER-Target					Bler-Target
			},
			tdd128								SEQUENCE {
				rdi-Indicator						BOOLEAN,
				tpc-StepSize						TPC-StepSizeTDD,
				e-AGCH-Set-Config					E-AGCH-Set-Config-LCR,
				e-AGCH-BLER-Target					Bler-Target,
				e-AGCH-InactivityMonitorThreshold	E-AGCH-InactivityMonitorThreshold-TDD128
																							OPTIONAL
			}
		}
	}
}

E-AGCH-Information-TDD128 ::=		SEQUENCE {
	rdi-Indicator						BOOLEAN,
	tpc-StepSize						TPC-StepSizeTDD,
	e-AGCH-Set-Config					E-AGCH-Set-Config-LCR,
	e-AGCH-BLER-Target					Bler-Target
}

E-AGCH-Set-Config ::=				SEQUENCE (SIZE (1..maxNumE-AGCH)) OF
										E-AGCH-Individual

E-AGCH-Set-Config-VHCR ::=			SEQUENCE (SIZE (1..maxNumE-AGCH)) OF
										E-AGCH-Individual-VHCR

E-AGCH-Set-Config-LCR ::=			SEQUENCE (SIZE (1..maxNumE-AGCH)) OF
										E-AGCH-Individual-LCR

E-ROCH-ChannelisationCode ::=		INTEGER (0..255)

E-ROCH-Information ::=	SEQUENCE {
	e-ROCH-ChannelisationCode			E-ROCH-ChannelisationCode,
	e-roch-e-rnti							E-RNTI
}

E-DCH-MinimumSet-E-TFCI ::=			INTEGER (0..127)

E-DCH-ReconfigurationInfo ::=	SEQUENCE {
	e-DCH-RL-InfoNewServingCell			E-DCH-RL-InfoNewServingCell				OPTIONAL,
	e-DCH-RL-InfoOtherCellList			SEQUENCE (SIZE (1..maxEDCHRL)) OF
											E-DCH-RL-InfoOtherCell				OPTIONAL
}

E-DCH-ReconfigurationInfo-r7 ::=	SEQUENCE {
	e-DCH-RL-InfoNewServingCell			E-DCH-RL-InfoNewServingCell-r7			OPTIONAL,
	e-DCH-RL-InfoOtherCellList			SEQUENCE (SIZE (1..maxEDCHRL)) OF
											E-DCH-RL-InfoOtherCell				OPTIONAL
}

E-DCH-ReconfigurationInfo-r11 ::=	SEQUENCE {
	e-DCH-RL-InfoNewServingCell			E-DCH-RL-InfoNewServingCell-r11			OPTIONAL,
	e-DCH-RL-InfoOtherCellList			SEQUENCE (SIZE (1..maxEDCHRL)) OF
											E-DCH-RL-InfoOtherCell-r11			OPTIONAL
}

E-DCH-ReconfigurationInfo-SecULFrequency ::=		SEQUENCE {
	e-DCH-RL-InfoNewSecServingCell			E-DCH-RL-InfoNewSecServingCell			OPTIONAL,
	e-DCH-RL-InfoOtherCellList-SecULFreq	SEQUENCE (SIZE (1..maxEDCHRL)) OF
												E-DCH-RL-InfoOtherCell-SecULFreq		OPTIONAL
}

E-DCH-RL-InfoNewServingCell ::=		SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	e-AGCH-Information					E-AGCH-Information,
	servingGrant						SEQUENCE {
		value								INTEGER (0..38)						OPTIONAL,
		primary-Secondary-GrantSelector		ENUMERATED { primary, secondary }
	}	OPTIONAL,
	e-DPCCH-DPCCH-PowerOffset			E-DPCCH-DPCCH-PowerOffset				OPTIONAL,
	reference-E-TFCIs					E-DPDCH-Reference-E-TFCIList			OPTIONAL,
	powerOffsetForSchedInfo				INTEGER (0..6)							OPTIONAL,
	threeIndexStepThreshold				INTEGER (0..37)							OPTIONAL,
	twoIndexStepThreshold				INTEGER (0..37)							OPTIONAL,
	e-HICH-Information					E-HICH-Information		OPTIONAL,
	e-RGCH-Info							CHOICE	{
		e-RGCH-Information					E-RGCH-Information,
		releaseIndicator					NULL
	}	OPTIONAL
}

E-DCH-RL-InfoNewServingCell-r7 ::=	SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	e-AGCH-Information					E-AGCH-Information,
	servingGrant						SEQUENCE {
		value								INTEGER (0..38)						OPTIONAL,
		primary-Secondary-GrantSelector		ENUMERATED { primary, secondary }
	}	OPTIONAL,
	e-DPCCH-DPCCH-PowerOffset			E-DPCCH-DPCCH-PowerOffset				OPTIONAL,
	reference-E-TFCIs					E-DPDCH-Reference-E-TFCIList-r7			OPTIONAL,
	powerOffsetForSchedInfo				INTEGER (0..6)							OPTIONAL,
	threeIndexStepThreshold				INTEGER (0..37)							OPTIONAL,
	twoIndexStepThreshold				INTEGER (0..37)							OPTIONAL,
	e-HICH-Information					E-HICH-Information		OPTIONAL,
	e-RGCH-Info							CHOICE	{
		e-RGCH-Information					E-RGCH-Information,
		releaseIndicator					NULL
	}	OPTIONAL
}

E-DCH-RL-InfoNewServingCell-r11 ::=	SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	e-AGCH-Information					E-AGCH-Information,
	e-ROCH-Information					E-ROCH-Information						OPTIONAL,
	servingGrant						SEQUENCE {
		value								INTEGER (0..38)						OPTIONAL,
		primary-Secondary-GrantSelector		ENUMERATED { primary, secondary }
	}	OPTIONAL,
	e-DPCCH-DPCCH-PowerOffset			E-DPCCH-DPCCH-PowerOffset				OPTIONAL,
	reference-E-TFCIs					E-DPDCH-Reference-E-TFCIList-r7			OPTIONAL,
	powerOffsetForSchedInfo				INTEGER (0..6)							OPTIONAL,
	threeIndexStepThreshold				INTEGER (0..37)							OPTIONAL,
	twoIndexStepThreshold				INTEGER (0..37)							OPTIONAL,
	e-HICH-Information					E-HICH-Information-r11					OPTIONAL,
	e-RGCH-Info							CHOICE	{
		e-RGCH-Information					E-RGCH-Information,
		releaseIndicator					NULL
	}	OPTIONAL
}

E-DCH-RL-InfoNewSecServingCell ::=	SEQUENCE {
	e-AGCH-Information					E-AGCH-Information,
	e-HICH-Information					E-HICH-Information		OPTIONAL,
	e-RGCH-Info							CHOICE	{
		e-RGCH-Information					E-RGCH-Information,
		releaseIndicator					NULL
	}	OPTIONAL
}

E-DCH-RL-InfoOtherCell ::=			SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	e-HICH-Info							CHOICE {
		e-HICH-Information					E-HICH-Information,
		releaseIndicator					NULL
	}	OPTIONAL,
	e-RGCH-Info							CHOICE {
		e-RGCH-Information					E-RGCH-Information,
		releaseIndicator					NULL
	}	OPTIONAL
}

E-DCH-RL-InfoOtherCell-r11 ::=			SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	e-HICH-Info							CHOICE {
		e-HICH-Information					E-HICH-Information-r11,
		releaseIndicator					NULL,
		secondaryReleaseIndicator			NULL
	}	OPTIONAL,
	e-RGCH-Info							CHOICE {
		e-RGCH-Information					E-RGCH-Information,
		releaseIndicator					NULL
	}	OPTIONAL
}

E-DCH-RL-InfoOtherCell-SecULFreq ::=	SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	e-HICH-Information					E-HICH-Information		OPTIONAL,
	e-RGCH-Info							CHOICE	{
		e-RGCH-Information					E-RGCH-Information,
		releaseIndicator					NULL
	}	OPTIONAL
}

E-DCH-RL-InfoSameServingCell ::=	SEQUENCE {
	e-DPCCH-DPCCH-PowerOffset			E-DPCCH-DPCCH-PowerOffset				OPTIONAL,
	reference-E-TFCIs					E-DPDCH-Reference-E-TFCIList-r7			OPTIONAL
}

E-DCH-SPS-Information-TDD128 ::=	SEQUENCE {
	e-dch-SPS-Operation					CHOICE {
		continue							NULL,
		newOperation						E-DCH-SPS-NewOperation-TDD128
	}
}

E-DCH-SPS-NewOperation-TDD128 ::=	SEQUENCE {
	e-hich-Info							E-HICH-Information-For-SPS-TDD128,
	e-dch-TxPattern						E-DCH-TxPatternList-TDD128				OPTIONAL,
	initialSPSInfoForEDCH				SEQUENCE {
		n-E-UCCH							INTEGER (1..8),
		codeResourceInfo					UL-TS-ChannelisationCode,
		timeslotResourceRelatedInfo			BIT STRING (SIZE (5)),
		powerResourceRelatedInfo			INTEGER (1..32),
		activationTime						ActivationTime,
		subframeNum							INTEGER (0..1),
		initialTxPatternIndex				INTEGER (0..maxEDCHTxPattern-TDD128-1)
	}		OPTIONAL
}

E-DCH-TxPatternList-TDD128 ::=		SEQUENCE (SIZE (1..maxEDCHTxPattern-TDD128)) OF
										SEQUENCE {
	repetitionPeriodAndLength				RepetitionPeriodAndLengthForSPS
}

E-DPCCH-Info ::=					SEQUENCE {
	e-DPCCH-DPCCH-PowerOffset			E-DPCCH-DPCCH-PowerOffset,
	happyBit-DelayCondition				HappyBit-DelayCondition
}

E-DPCCH-Info-r7 ::=					SEQUENCE {
	e-DPCCH-DPCCH-PowerOffset			E-DPCCH-DPCCH-PowerOffset,
	happyBit-DelayCondition				HappyBit-DelayCondition,
	e-TFC-Boost-Info					E-TFC-Boost-Info-r7					OPTIONAL,
	e-DPDCH-PowerInterpolation			E-DPDCH-PowerInterpolation			OPTIONAL
}

E-DPCCH-DPCCH-PowerOffset ::=		INTEGER (0..8)

Extended-E-DPCCH-DPCCH-PowerOffset ::=		INTEGER (9..15)

E-DPDCH-Info ::=					SEQUENCE {
	e-TFCI-TableIndex					E-TFCI-TableIndex,
	e-DCH-MinimumSet-E-TFCI				E-DCH-MinimumSet-E-TFCI				OPTIONAL,
	reference-E-TFCIs					E-DPDCH-Reference-E-TFCIList,
	maxChannelisationCodes				E-DPDCH-MaxChannelisationCodes,
	pl-NonMax							E-DPDCH-PL-NonMax,
	schedulingInfoConfiguration			E-DPDCH-SchedulingInfoConfiguration,
	threeIndexStepThreshold				INTEGER (0..37)						OPTIONAL,
	twoIndexStepThreshold				INTEGER (0..37)						OPTIONAL
}

E-DPDCH-Info-r7 ::=					SEQUENCE {
	e-TFCI-TableIndex					E-TFCI-TableIndex,
	e-DCH-MinimumSet-E-TFCI				E-DCH-MinimumSet-E-TFCI				OPTIONAL,
	reference-E-TFCIs					E-DPDCH-Reference-E-TFCIList-r7,
	maxChannelisationCodes				E-DPDCH-MaxChannelisationCodes,
	pl-NonMax							E-DPDCH-PL-NonMax,
	schedulingInfoConfiguration			E-DPDCH-SchedulingInfoConfiguration,
	threeIndexStepThreshold				INTEGER (0..37)						OPTIONAL,
	twoIndexStepThreshold				INTEGER (0..37)						OPTIONAL
}

E-DPDCH-Info-r8 ::=					SEQUENCE {
	e-TFCI-TableIndex					E-TFCI-TableIndex,
	e-DCH-MinimumSet-E-TFCI				E-DCH-MinimumSet-E-TFCI				OPTIONAL,
	reference-E-TFCIs					E-DPDCH-Reference-E-TFCIList-r7,
	minReduced-E-DPDCH-GainFactor		MinReduced-E-DPDCH-GainFactor		OPTIONAL,
	maxChannelisationCodes				E-DPDCH-MaxChannelisationCodes,
	pl-NonMax							E-DPDCH-PL-NonMax,
	schedulingInfoConfiguration			E-DPDCH-SchedulingInfoConfiguration,
	threeIndexStepThreshold				INTEGER (0..37)						OPTIONAL,
	twoIndexStepThreshold				INTEGER (0..37)						OPTIONAL
}

E-DPDCH-PeriodicyOfSchedInfo ::=	ENUMERATED {
										everyEDCHTTI, ms4, ms10, ms20, ms50, ms100, ms200, ms500,
										ms1000 }

-- The actual value of E-DPDCH-PL-NonMax is: IE value * 0.04
E-DPDCH-PL-NonMax ::=				INTEGER (11..25)

E-DPDCH-PowerInterpolation ::=		BOOLEAN

E-DPDCH-Reference-E-TFCI ::=		SEQUENCE {
	reference-E-TFCI					INTEGER (0..127),
	reference-E-TFCI-PO					INTEGER (0..29)
}

E-DPDCH-Reference-E-TFCI-r7 ::=		SEQUENCE {
	reference-E-TFCI					INTEGER (0..127),
	reference-E-TFCI-PO-r7				INTEGER (0..31)
}

E-DPDCH-Reference-E-TFCIList ::=	SEQUENCE (SIZE (1..8)) OF E-DPDCH-Reference-E-TFCI

E-DPDCH-Reference-E-TFCIList-r7 ::=	SEQUENCE (SIZE (1..8)) OF E-DPDCH-Reference-E-TFCI-r7

E-DPDCH-SchedulingInfoConfiguration ::= SEQUENCE {
	periodicityOfSchedInfo-NoGrant		E-DPDCH-PeriodicyOfSchedInfo		OPTIONAL,
	periodicityOfSchedInfo-Grant		E-DPDCH-PeriodicyOfSchedInfo		OPTIONAL,
	powerOffsetForSchedInfo				INTEGER (0..6)
}

E-DPDCH-SchedulingTransmConfiguration ::= SEQUENCE {
	ms2-SchedTransmGrantHARQAlloc		BIT STRING (SIZE (8))				OPTIONAL,
	servingGrant						SEQUENCE {
		value								INTEGER (0..38),
		primary-Secondary-GrantSelector		ENUMERATED { primary, secondary }
	}		OPTIONAL
}

E-DPDCH-MaxChannelisationCodes ::=	ENUMERATED {
										sf256, sf128, sf64, sf32, sf16, sf8, sf4, sf4x2,
										sf2x2, sf4x2-and-sf2x2 }

E-HICH-ChannelisationCode ::=		INTEGER (0..127)

E-HICH-Information ::=				SEQUENCE {
	channelisationCode					E-HICH-ChannelisationCode,
	signatureSequence					E-HICH-RGCH-SignatureSequence
}

E-HICH-Information-r11 ::=				SEQUENCE {
	channelisationCode					E-HICH-ChannelisationCode,
	signatureSequence					E-HICH-RGCH-SignatureSequence,
	secondarySignatureSequence			E-HICH-RGCH-SignatureSequence			OPTIONAL
}

E-HICH-Information-CommonEdch ::=		SEQUENCE {
	channelisationCode					E-HICH-ChannelisationCode					OPTIONAL,
	signatureSequence					E-HICH-RGCH-SignatureSequence				OPTIONAL
}

E-HICH-Information-TDD384-768 ::=	SEQUENCE {
	n-E-HICH							INTEGER (4..44),
	tS-Number							INTEGER (0..14),
	modeSpecificInfo						CHOICE	{
		tdd384									DL-TS-ChannelisationCode,
		tdd768									DL-TS-ChannelisationCode-VHCR
	},
	burst-Type							ENUMERATED { type1, type2 },
	midamble-Allocation-Mode			ENUMERATED { default, common }
}

E-HICH-Information-LCR ::=			SEQUENCE {
	ei									INTEGER (0..3),
	timeslotNumber						TimeslotNumber-LCR-r4,
	channelisation-Code					HS-ChannelisationCode-LCR,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		ueSpecificMidamble					INTEGER (0..15)
	},
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration				INTEGER (1..8)
}

E-HICH-Information-TDD128 ::=		SEQUENCE {
	n-E-HICH							INTEGER (4..15),
	e-HICH-InfoList						E-HICH-Information-LCR-List
}

E-HICH-Information-LCR-List ::=		SEQUENCE (SIZE (1..maxNumE-HICH)) OF
										E-HICH-Information-LCR

E-HICH-RGCH-SignatureSequence ::=	INTEGER (0..39)

E-HICH-Information-For-SPS-TDD128 ::= SEQUENCE {
	configurationmode					CHOICE{
		implicit							SEQUENCE {
			ei									INTEGER (0..3)				OPTIONAL
		},
		explicit							SEQUENCE {
			timeslotNumber						TimeslotNumber-LCR-r4,
			channelisation-Code					HS-ChannelisationCode-LCR,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				ueSpecificMidamble					INTEGER (0..15)
			},
			-- Actual value midambleConfiguration = IE value * 2
			midambleConfiguration			INTEGER (1..8)
		}
	},
	signatureSequenceGroupIndex			INTEGER (0..19)
}


E-PUCH-Info ::=						SEQUENCE {
	e-TFCS-Info							E-TFCS-Info,
	modeSpecificInfo					CHOICE {
		tdd348-tdd768						SEQUENCE {
			noSlotsForTFCIandTPC				INTEGER (1..12),
			e-PUCH-ContantValue					INTEGER (-35..10),
			e-PUCH-TS-ConfigurationList			SEQUENCE (SIZE (1..maxTS-2)) OF E-PUCH-TS-Slots,
			e-PUCH-CodeHopping					BOOLEAN,
			e-PUCH-TPC-Step-Size				INTEGER (1..3),
			minimum-Allowed-Code-Rate			INTEGER (0..63),
			maximum-Allowed-Code-Rate			INTEGER (0..63)
		},
		tdd128								SEQUENCE {
			snpl-ReportType						ENUMERATED { type1, type2 }				OPTIONAL,
			prxdes-base							INTEGER (-112..-50),
			beaconPLEst							BOOLEAN									OPTIONAL,
			tpc-StepSize						TPC-StepSizeTDD,
			pebase-PowerControlGAP				PowerControlGAP							OPTIONAL,
			ul-SynchronisationParameters		UL-SynchronisationParameters-r4			OPTIONAL,
			e-PUCH-TS-ConfigurationList			SEQUENCE (SIZE (1..maxTS-LCR-1)) OF
													E-PUCH-TS-Slots-LCR,
			minimum-Allowed-Code-Rate			INTEGER (0..63),
			maximum-Allowed-Code-Rate			INTEGER (0..63),
			maximumNumOfRetransSchedInfo		INTEGER (0..15),
			retransTimerForSchedInfo			ENUMERATED { ms10, ms15, ms20, ms25, ms30, ms35,
													ms40, ms45, ms50, ms55, ms60, ms65, ms70, ms75,
													ms80, ms85, ms90, ms95, ms100, ms110, ms120,
													ms140, ms160, ms200, ms240,ms280, ms320, ms400,
													ms480, ms560 }
		}
	},
	-- For 3.84/7.68 TDD only, should be ignored for 1.28Mcps TDD mode
	powerOffsetForSchedInfo				INTEGER (0..6)									OPTIONAL
}

E-PUCH-Info-TDD128 ::=				SEQUENCE {
	e-TFCS-Info							E-TFCS-Info,
	snpl-ReportType						ENUMERATED { type1, type2 }					OPTIONAL,
	prxdes-base							INTEGER (-112..-50),
	beaconPLEst							BOOLEAN										OPTIONAL,
	tpc-StepSize						TPC-StepSizeTDD,
	pebase-PowerControlGAP				INTEGER (1..255)							OPTIONAL,
	ul-SynchronisationParameters		UL-SynchronisationParameters-r4				OPTIONAL,
	e-PUCH-TS-ConfigurationList			SEQUENCE (SIZE (1..maxTS-LCR-1)) OF
											E-PUCH-TS-Slots-LCR,
	minimum-Allowed-Code-Rate			INTEGER (0..63),
	maximum-Allowed-Code-Rate			INTEGER (0..63),
	maximumNumOfRetransSchedInfo		INTEGER (0..15),
	retransTimerForSchedInfo			ENUMERATED { ms10, ms15, ms20, ms25, ms30, ms35,
											ms40, ms45, ms50, ms55, ms60, ms65, ms70, ms75,
											ms80, ms85, ms90, ms95, ms100, ms110, ms120,
											ms140, ms160, ms200, ms240,ms280, ms320, ms400,
											ms480, ms560 },
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received it should be ignored.
	dummy								INTEGER (0..6)								OPTIONAL
}

E-PUCH-Info-MulticarrierEDCH-TDD128 ::=				SEQUENCE {
	e-PUCH-TS-ConfigurationList			SEQUENCE (SIZE (1..maxTS-LCR-1)) OF
											E-PUCH-TS-Slots-LCR
}

E-PUCH-TS-Slots ::=					SEQUENCE {
	ts-Number							INTEGER (0..14),
	midambleShiftAndBurstType			MidambleShiftAndBurstType-EDCH
}

E-PUCH-TS-Slots-LCR ::=				SEQUENCE {
	-- Note: For 1.28Mcps TDD operation, valid value for timeslotNumber is INTEGER (1..5)
	timeslotNumber						TimeslotNumber-LCR-r4,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		ueSpecificMidamble					INTEGER (0..15)
	},
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration				INTEGER (1..8)
}

E-RGCH-CombinationIndex ::=			INTEGER (0..5)

E-RGCH-Information ::=				SEQUENCE {
	signatureSequence					E-HICH-RGCH-SignatureSequence,
	rg-CombinationIndex					E-RGCH-CombinationIndex
}

E-RGCH-Information-CommonEdch ::=	SEQUENCE {
	signatureSequence					E-HICH-RGCH-SignatureSequence				OPTIONAL
}

E-RUCCH-AccessServiceClass ::=		PRACH-Partitioning-LCR-r4

E-RUCCH-Info ::=					SEQUENCE {
	modeSpecificInfo					CHOICE {
		tdd384-tdd768						SEQUENCE {
			e-RUCCH-ConstantValue				INTEGER (-35..10),
			e-RUCCH-PersistenceScalingFactor	PersistenceScalingFactor,
			t-RUCCH								ENUMERATED {ms40, ms80, ms120, ms160, ms200,
													ms240, ms280, ms320}				OPTIONAL,
			e-RUCCH-TS-Number					INTEGER (0..14)							OPTIONAL,
			e-RUCCH-Midamble					ENUMERATED {direct, direct-Inverted}	OPTIONAL,
			t-adv								ENUMERATED { sec1, sec2, sec4, sec8, sec16,
													sec32, sec128, infinity }			OPTIONAL,
			t-SCHED								ENUMERATED { zero, ms40, ms80, ms160, ms250,
													sec1, sec2, sec4 }					OPTIONAL,
			modeSpecificInfo					CHOICE {
				tdd384								CHOICE {
					sF16								SEQUENCE (SIZE (1..8)) OF SF16Codes,
					sF8									SEQUENCE (SIZE (1..8)) OF SF8Codes
					},
				tdd768							CHOICE {
					sF32								SEQUENCE (SIZE (1..16)) OF SF32Codes,
					sF816								SEQUENCE (SIZE (1..16)) OF SF16Codes2
				}
			}
		},
		tdd128								SEQUENCE {
			t-RUCCH								ENUMERATED { ms20, ms40, ms60, ms80, ms120,
													ms160, ms200, ms240, ms280, ms320,
													ms400, ms500, ms600, ms800, ms1000,
													ms2000 }							OPTIONAL,
			n-RUCCH								INTEGER (0..7)							OPTIONAL,
			t-WAIT								ENUMERATED { everyEDCHTTI, ms40, ms80, ms160,
													ms320, ms640, ms1000, ms2000 }		OPTIONAL,
			t-SI								ENUMERATED { everyEDCHTTI, ms20, ms40, ms60, ms80,
													ms160, ms200 }						OPTIONAL,
			extendedEstimationWindow			INTEGER (2..5)							OPTIONAL,
			e-RUCCH-AccessServiceClass			E-RUCCH-AccessServiceClass				OPTIONAL,
			e-RUCCH-PersistenceScalingFactor	PersistenceScalingFactorList			OPTIONAL,
			sync-UL-InfoForE-RUCCH				SYNC-UL-InfoForE-RUCCH					OPTIONAL,
			prach-information					PRACH-Information-LCR-List				OPTIONAL
		}
	}
}

E-RUCCH-Info-TDD128 ::=				SEQUENCE {
	t-RUCCH								ENUMERATED { ms20, ms40, ms60, ms80, ms120,
											ms160, ms200, ms240, ms280, ms320,
											ms400, ms500, ms600, ms800, ms1000,
											ms2000 }								OPTIONAL,
	n-RUCCH								INTEGER (0..7)								OPTIONAL,
	t-WAIT								ENUMERATED { everyEDCHTTI, ms40, ms80, ms160,
											ms320, ms640, ms1000, ms2000 }			OPTIONAL,
	t-SI								ENUMERATED { everyEDCHTTI, ms20, ms40, ms60, ms80,
											ms160, ms200 }							OPTIONAL,
	extendedEstimationWindow			INTEGER (2..5)								OPTIONAL,
	e-RUCCH-AccessServiceClass			E-RUCCH-AccessServiceClass					OPTIONAL,
	e-RUCCH-PersistenceScalingFactor	PersistenceScalingFactorList				OPTIONAL,
	sync-UL-InfoForE-RUCCH				SYNC-UL-InfoForE-RUCCH						OPTIONAL,
	prach-information					PRACH-Information-LCR-List					OPTIONAL
}

E-TFC-Boost-Info-r7 ::=			SEQUENCE {
	e-TFCI-Boost						INTEGER (0..127),
	delta-T2TP							INTEGER (0..6)						OPTIONAL
}

E-TFCI-TableIndex ::=				INTEGER (0..1)

E-TFCS-Info ::=						SEQUENCE {
	reference-Beta-QPSK-List			SEQUENCE (SIZE (1..8)) OF Reference-Beta-QPSK,
	reference-Beta-16QAM-List			SEQUENCE (SIZE (1..8)) OF Reference-Beta-16QAM
}

EARFCN ::=							INTEGER (0..65535)

EARFCNExtension ::=					INTEGER (65536..262143)

EARFCNExtension2 ::=				INTEGER (0..262143)

EARFCNRange ::= SEQUENCE {
-- If the IE earfcn is set to a value of 65535, then the EARFCN 
--	value for that instance shall be read from the IE earfcnExt.
	earfcn							EARFCN,
	earfcnExt						EARFCNExtension					OPTIONAL
}

EnablingDelay ::=					ENUMERATED {
										radio-frames-0,
										radio-frames-1,
										radio-frames-2,
										radio-frames-4,
										radio-frames-8,
										radio-frames-16,
										radio-frames-32,
										radio-frames-64,
										radio-frames-128,
										spare7,
										spare6,
										spare5,
										spare4,
										spare3,
										spare2,
										spare1 }

EnablingDelay-TDD128 ::=			ENUMERATED {
										radio-frames-0, radio-frames-1, radio-frames-2,
										radio-frames-4, radio-frames-8, radio-frames-16,
										radio-frames-32, radio-frames-64, radio-frames-128,
										spare7, spare6, spare5, spare4, spare3, spare2,
										infinity }

EXT-UL-TimingAdvance ::=			SEQUENCE {
	modeSpecificInfo				CHOICE {
		tdd384							SEQUENCE {
			ex-ul-TimingAdvance			INTEGER (0..255)
		},
		tdd768							SEQUENCE {
			ex-ul-TimingAdvance			INTEGER (0..511)
		}
	}
}

F-DPCHInfo ::=			SEQUENCE {
	fdpch-SlotFormat					INTEGER (0..9)				OPTIONAL,
	codeNumber							INTEGER (0..255)			OPTIONAL,
	-- Actual value dl-FDPCH-TPCcommandErrorRate = IE value * 0.01
	dl-FDPCH-TPCcommandErrorRate		INTEGER (1..10)				OPTIONAL
}

FACH-PCH-Information ::=			SEQUENCE {
	transportFormatSet					TransportFormatSet,
	transportChannelIdentity			TransportChannelIdentity,
	ctch-Indicator						BOOLEAN
}

FACH-PCH-InformationList ::=		SEQUENCE (SIZE (1..maxFACHPCH)) OF
										FACH-PCH-Information

Fallback-R99-PRACH-info-IEs::=		SEQUENCE {
	cCCH-Fallback			BOOLEAN,
	dCCH-Fallback			BOOLEAN
}

Feedback-cycle ::=					ENUMERATED {
										fc0, fc2, fc4, fc8, fc10, fc20, fc40, fc80, fc160}

Feedback-cycle2 ::=					ENUMERATED {
										fc0, fc8, fc10, fc16, 
										fc20, f32, fc40, f64, 
										fc80, fc160, spare6, spare5,
										spare4, spare3, spare2, spare1}

Feedback-cycle-r7 ::=				ENUMERATED {
										fc0, fc2, fc4, fc8, fc10, fc20, fc40, fc80, fc160,
										fc16, fc32, fc64, spare4, spare3, spare2, spare1 }

FPACH-Info-r4 ::=						SEQUENCE {
	timeslot							TimeslotNumber-LCR-r4,
	channelisationCode					TDD-FPACH-CCode16-r4,
	midambleShiftAndBurstType			MidambleShiftAndBurstType-LCR-r4,
	wi									Wi-LCR
}

F-TPICH-InfoNewServingCell ::=	SEQUENCE {
	f-tpich-Information						F-TPICH-Information
}

F-TPICH-InfoOtherCell ::=			SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	f-tpich-Info						CHOICE {
		f-tpich-Information				F-TPICH-Information,
		releaseIndicator					NULL
	}
}

F-TPICH-Information ::=		SEQUENCE {
	ftpich-SlotFormat					FTPICH-SlotFormat,
	ftpich-CodeNumber					INTEGER (0..255),
	ftpich-FrameOffset					FTPICH-FrameOffset
}

F-TPICH-ReconfigurationInfo ::=	SEQUENCE {
	f-tpich-InfoNewServingCell			F-TPICH-InfoNewServingCell				OPTIONAL,
	f-tpich-InfoOtherCellList			SEQUENCE (SIZE (1..maxRL)) OF
											F-TPICH-InfoOtherCell				OPTIONAL
}

-- Actual value FTPICH-FrameOffset = IE value * 256
FTPICH-FrameOffset ::=				INTEGER (0..149)

FTPICH-SlotFormat ::=				INTEGER (0..9)

FreqIndexListForEnhancedMeas ::=	SEQUENCE (SIZE (1..maxFreqMeasWithoutCM)) OF
										FrequencyIndexForEnhancedMeas

FreqIndexListForEnhancedMeas-r12 ::=	SEQUENCE (SIZE (1..maxFreqMeasWithoutCM)) OF
										FrequencyIndexForEnhancedMeas-r12

FrequencyInfo ::=					SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									FrequencyInfoFDD,
		tdd									FrequencyInfoTDD	}
}

FrequencyInfoFDD ::=				SEQUENCE {
	uarfcn-UL							UARFCN				OPTIONAL,
	uarfcn-DL							UARFCN
}

FrequencyInfoTDD ::=				SEQUENCE {
	uarfcn-Nt							UARFCN
}

FrequencyIndexForEnhancedMeas ::=	INTEGER (0..maxCellMeas-1)

FrequencyIndexForEnhancedMeas-r12 ::=	INTEGER (0..maxCellMeas-ext-1)

HappyBit-DelayCondition ::=			ENUMERATED { 
										ms2, ms10, ms20, ms50, ms100, ms200, ms500, ms1000 }

HARQ-Preamble-Mode ::=				INTEGER (0..1)

HS-ChannelisationCode-LCR ::=		ENUMERATED {
										cc16-1, cc16-2, cc16-3, cc16-4,
										cc16-5, cc16-6, cc16-7, cc16-8,
										cc16-9, cc16-10, cc16-11, cc16-12,
										cc16-13, cc16-14, cc16-15, cc16-16 }

HS-ChannelisationCodeSetInfo-LCR ::= SEQUENCE {
	startCode							HS-ChannelisationCode-LCR,
	stopCode							HS-ChannelisationCode-LCR
}

HS-DSCH-CommonSystemInformation ::=		SEQUENCE {
	ccch-MappingInfo						CommonRBMappingInfo,
	srb1-MappingInfo						CommonRBMappingInfo						OPTIONAL,
	common-MAC-ehs-ReorderingQueueList		Common-MAC-ehs-ReorderingQueueList,
	hs-scch-SystemInfo						HS-SCCH-SystemInfo,
	harq-SystemInfo							HARQ-Info,
	common-H-RNTI-information				SEQUENCE (SIZE (1..maxCommonHRNTI)) OF
												H-RNTI,
	bcchSpecific-H-RNTI						H-RNTI
}

HS-DSCH-CommonSystemInformation-TDD128 ::= SEQUENCE {
	ccch-MappingInfo						CommonRBMappingInfo,
	srb1-MappingInfo						CommonRBMappingInfo						OPTIONAL,
	common-MAC-ehs-ReorderingQueueList		Common-MAC-ehs-ReorderingQueueList,
	hs-scch-SystemInfo-tdd128				HS-SCCH-SystemInfo-TDD128,
	harq-SystemInfo							HARQ-Info,
	hs-pdsch-MidambleConfiguration			HS-PDSCH-Midamble-Configuration-TDD128,
	common-H-RNTI-information				SEQUENCE (SIZE (1..maxCommonHRNTI)) OF H-RNTI,
	bcchSpecific-H-RNTI						H-RNTI
}

HS-DSCH-DrxBurstFach ::=				ENUMERATED {
											f1, f2, f4, f8, f16, spare3, spare2, spare1 }

HS-DSCH-DrxCellfach-info ::=			SEQUENCE {
	t-321									T-321,
	hs-dsch-DrxCycleFach					HS-DSCH-DrxCycleFach,
	hs-dsch-DrxBurstFach					HS-DSCH-DrxBurstFach,
	drxInterruption-hs-dsch					BOOLEAN
}

HS-DSCH-DrxCellfach-info-TDD128 ::=		SEQUENCE {
	t-321									T-321,
	hs-dsch-DrxCycleFach					HS-DSCH-DrxCycleFach,
	hs-dsch-DrxBurstFach					HS-DSCH-DrxBurstFach
}

HS-DSCH-DrxCellfach-SecondDrx-info ::=	SEQUENCE {
	hs-dsch-SecondDrx-CycleFach		HS-DSCH-SecondDrx-CycleFach,
	drx-level							CHOICE	{
		one-level-DRX						SEQUENCE	{
			hs-dsch-Second-Rx-BurstFach				HS-DSCH-Second-Rx-BurstFach	OPTIONAL,
			t329										T-329							OPTIONAL
		},
		two-level-DRX						SEQUENCE	{
			t328									T-328								OPTIONAL,
			hs-dsch-First-Rx-BurstFach				HS-DSCH-First-Rx-BurstFach			OPTIONAL,
			hs-dsch-First-Drx-CycleFach				HS-DSCH-First-Drx-CycleFach	OPTIONAL,
			hs-dsch-Second-Rx-BurstFach				HS-DSCH-Second-Rx-BurstFach	OPTIONAL,
			t329									T-329								OPTIONAL
		}
	}
}

HS-DSCH-DrxCycleFach ::=				ENUMERATED {
											f4, f8, f16, f32 }

HS-DSCH-First-Drx-CycleFach ::=			ENUMERATED {
											f2, f4, f8, f16, f32, f64 }

HS-DSCH-First-Rx-BurstFach ::=			ENUMERATED {
											f0p4, f0p8 }

HS-DSCH-PagingSystemInformation ::=		SEQUENCE {
	dlScramblingCode						SecondaryScramblingCode					OPTIONAL,
	pich-ForHSDPASupportedPagingList		SEQUENCE (SIZE (1..maxSCCPCH)) OF
												PICH-ForHSDPASupportedPaging,
	numberOfPcchTransmissions				INTEGER(1..5),
	transportBlockSizeList					SEQUENCE (SIZE (1..2)) OF
												TransportBlockSizeIndex
}

HS-DSCH-PagingSystemInformation-TDD128 ::= SEQUENCE {
	pich-ForHsdschList						SEQUENCE (SIZE (1..maxSCCPCH)) OF
												PICH-ForHSDPASupportedPaging-TDD128,
	dtch-DCCH-reception-window-size			INTEGER (1..16),
	pcch-InformationList					PCCH-InformationList					OPTIONAL
}

HS-DSCH-RxPatternList-TDD128 ::=	SEQUENCE (SIZE (1..maxRxPatternForHSDSCH-TDD128)) OF
										SEQUENCE {
	repetitionPeriodAndLength				RepetitionPeriodAndLengthForSPS
}

HS-DSCH-Second-Rx-BurstFach ::=				ENUMERATED {
											f1, f2 }

HS-DSCH-SecondDrx-CycleFach ::=				ENUMERATED {
											f4, f8, f16, f32, f64, f128, f256, f512 }

HS-DSCH-TBSizeTable ::=					ENUMERATED { octetAligned }

HS-DSCH-TbsList-TDD128 ::=			SEQUENCE (SIZE (1..maxTbsForHSDSCH-TDD128)) OF
										SEQUENCE {
	hs-dsch-TBSizeIndex						INTEGER (1..63)
}

HS-DSCH-SPS-Information-TDD128 ::=	SEQUENCE {
	hs-dsch-SPS-Operation				CHOICE {
		continue							NULL,
		newOperation						HS-DSCH-SPS-NewOperation-TDD128
	}
}

HS-DSCH-SPS-NewOperation-TDD128 ::=	SEQUENCE {
	hs-dsch-TbsList						HS-DSCH-TbsList-TDD128					OPTIONAL,
	hs-dsch-RxPatternList				HS-DSCH-RxPatternList-TDD128			OPTIONAL,
	hARQInfoForSPS						SEQUENCE {
		numberOfProcesses					INTEGER (1..8),
		memorySize							HARQMemorySize
	}		OPTIONAL,
	hs-sich-List						HS-SICH-List-TDD128,
	initialSPSInfoForHSDSCH				SEQUENCE {
		timeslotInfo						BIT STRING (SIZE (5)),
		codeResourceInfo					HS-ChannelisationCodeSetInfo-LCR,
		activationTime						ActivationTime,
		sfnNum								INTEGER (0..1),
		initialRxPatternIndex				INTEGER (0..maxRxPatternForHSDSCH-TDD128-1),
		initialTfsIndex						INTEGER (0..maxTbsForHSDSCH-TDD128-1),
		modulation							ENUMERATED { modQPSK, mod16QAM },
		hs-sich-Index						INTEGER (0..maxHSSICH-TDD128-1)
	}		OPTIONAL
}

HS-DPCCHOverheadReduction ::=	SEQUENCE {
	hs-dpcch-ReductionType			ENUMERATED { reductionType1, reductionType2}		OPTIONAL,
	feedback-cycle2					Feedback-cycle2,
	cqi-CycleSwitchTimer			CQI-CycleSwitchTimer
}

HS-PDSCH-Midamble-Configuration-TDD128 ::=	SEQUENCE {
	midambleAllocationMode				CHOICE{
		defaultMidamble						NULL,
		commonMidamble						NULL,
		ueSpecificMidamble					INTEGER (0..15)
    },
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration				INTEGER (1..8)
}

HS-SCCH-Info ::=					SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			hS-SCCHChannelisationCodeInfo		SEQUENCE (SIZE (1..maxHSSCCHs)) OF
													HS-SCCH-Codes,
			dl-ScramblingCode					SecondaryScramblingCode		OPTIONAL
		},
		tdd									CHOICE {
			tdd384								SEQUENCE {
                nack-ack-power-offset      		   INTEGER (-7..8), 
                hs-SICH-PowerControl-Info  		   HS-SICH-Power-Control-Info-TDD384,
				hS-SCCH-SetConfiguration 		   SEQUENCE (SIZE (1..maxHSSCCHs)) OF
						HS-SCCH-TDD384
				},
			tdd128								SEQUENCE (SIZE (1..maxHSSCCHs)) OF
													HS-SCCH-TDD128
		}
	}
}

HS-SCCH-Info-r6 ::=					SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			hS-SCCHChannelisationCodeInfo		SEQUENCE (SIZE (1..maxHSSCCHs)) OF
													HS-SCCH-Codes,
			dl-ScramblingCode					SecondaryScramblingCode			OPTIONAL
		},
		tdd									CHOICE {
			tdd384								SEQUENCE {
				nack-ack-power-offset				INTEGER (-7..8), 
				hs-SICH-PowerControl-Info			HS-SICH-Power-Control-Info-TDD384,
				dhs-sync							DHS-Sync					OPTIONAL,
				bler-target							Bler-Target,
				hS-SCCH-SetConfiguration			SEQUENCE (SIZE (1..maxHSSCCHs)) OF
														HS-SCCH-TDD384-r6
				},
			tdd128								SEQUENCE {
				nack-ack-power-offset				INTEGER (-7..8),
				power-level-HSSICH					INTEGER (-120..-58),
				tpc-step-size						ENUMERATED { s1, s2, s3 , spare1 },
				bler-target							Bler-Target,
				hS-SCCH-SetConfiguration			SEQUENCE (SIZE (1..maxHSSCCHs)) OF
														HS-SCCH-TDD128-r6
			}
		}
	}
}

HS-SCCH-Info-r7 ::=					SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			hS-SCCHChannelisationCodeInfo		SEQUENCE (SIZE (1..maxHSSCCHs)) OF
													HS-SCCH-Codes,
			dl-ScramblingCode					SecondaryScramblingCode			OPTIONAL
		},
		tdd									CHOICE {
			tdd384								SEQUENCE {
				nack-ack-power-offset				INTEGER (-7..8), 
				hs-SICH-PowerControl-Info			HS-SICH-Power-Control-Info-TDD384,
				dhs-sync							DHS-Sync					OPTIONAL,
				bler-target							Bler-Target,
				hS-SCCH-SetConfiguration			SEQUENCE (SIZE (1..maxHSSCCHs)) OF
														HS-SCCH-TDD384-r6
				},
			tdd768								SEQUENCE {
				nack-ack-power-offset				INTEGER (-7..8), 
				hs-SICH-PowerControl-Info			HS-SICH-Power-Control-Info-TDD768,
				dhs-sync							DHS-Sync					OPTIONAL,
				bler-target							Bler-Target,
				hS-SCCH-SetConfiguration			SEQUENCE (SIZE (1..maxHSSCCHs)) OF
														HS-SCCH-TDD768
				},
			tdd128								SEQUENCE {
				nack-ack-power-offset				INTEGER (-7..8),
				power-level-HSSICH					INTEGER (-120..-58),
				tpc-step-size						ENUMERATED { s1, s2, s3 , spare1 },
				bler-target							Bler-Target,
				powerControlGAP						PowerControlGAP					OPTIONAL,
				pathlossCompensationSwitch			BOOLEAN							OPTIONAL,
				hS-SCCH-SetConfiguration			SEQUENCE (SIZE (1..maxHSSCCHs)) OF
														HS-SCCH-TDD128-r6
			}
		}
	}
}

HS-SCCH-Info-r8-ext ::=					SEQUENCE {
	modeSpecificInfo						CHOICE {
		fdd										NULL,
		tdd										CHOICE {
			tdd384									NULL,
			tdd768									NULL,
			tdd128									SEQUENCE {
				hS-SCCH-tpc-step-size					ENUMERATED { s1, s2, s3, spare1 }	OPTIONAL
			}
		}
	}
}

HS-SCCH-Info-r9 ::=					SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			hS-SCCHChannelisationCodeInfo		SEQUENCE (SIZE (1..maxHSSCCHs)) OF
													HS-SCCH-Codes,
			dl-ScramblingCode					SecondaryScramblingCode			OPTIONAL
		},
		tdd									CHOICE {
			tdd384								SEQUENCE {
				nack-ack-power-offset				INTEGER (-7..8), 
				hs-SICH-PowerControl-Info			HS-SICH-Power-Control-Info-TDD384,
				dhs-sync							DHS-Sync					OPTIONAL,
				bler-target							Bler-Target,
				hS-SCCH-SetConfiguration			SEQUENCE (SIZE (1..maxHSSCCHs)) OF
														HS-SCCH-TDD384-r6
				},
			tdd768								SEQUENCE {
				nack-ack-power-offset				INTEGER (-7..8), 
				hs-SICH-PowerControl-Info			HS-SICH-Power-Control-Info-TDD768,
				dhs-sync							DHS-Sync					OPTIONAL,
				bler-target							Bler-Target,
				hS-SCCH-SetConfiguration			SEQUENCE (SIZE (1..maxHSSCCHs)) OF
														HS-SCCH-TDD768
				},
			tdd128								SEQUENCE {
				nack-ack-power-offset				INTEGER (-7..8),
				power-level-HSSICH					INTEGER (-120..-58),
				tpc-step-size						ENUMERATED { s1, s2, s3, spare1 },
				bler-target							Bler-Target,
				hS-SCCH-tpc-step-size				ENUMERATED { s1, s2, s3, spare1 }	OPTIONAL,
				powerControlGAP						PowerControlGAP					OPTIONAL,
				pathlossCompensationSwitch			BOOLEAN							OPTIONAL,
				hS-SCCH-SetConfiguration			SEQUENCE (SIZE (1..maxHSSCCHs)) OF
														HS-SCCH-TDD128-r6
			}
		}
	}
}

HS-SCCH-DRX-InactivityThreshold-TDD128 ::= ENUMERATED {
											sub-frames-1, sub-frames-2, sub-frames-4,
											sub-frames-8, sub-frames-16, sub-frames-32,
											sub-frames-64, sub-frames-128, sub-frames-256,
											sub-frames-512,
											spare6, spare5, spare4, spare3, spare2,
											infinity }

HS-SCCH-DRX-Info-TDD128 ::=			SEQUENCE {
	hS-SCCH-DRX-Cycle					ControlChannelDRXCycle-TDD128,
	hS-SCCH-DRX-InactivityThreshold		HS-SCCH-DRX-InactivityThreshold-TDD128	OPTIONAL,
	hS-SCCH-DRX-Offset					INTEGER (0..63)
}

HS-SCCH-Codes ::=					INTEGER (0..127)

HS-SCCH-Less-NewOperation ::=		SEQUENCE {
	hs-pdsch-CodeIndex					INTEGER (1..15),
	hs-scch-LessTFS						HS-SCCH-LessTFSList
}

HS-SCCH-LessInfo-r7 ::=				SEQUENCE {
	hs-scchLessOperation				CHOICE {
		continue							NULL,
		newOperation						HS-SCCH-Less-NewOperation
	}
}

HS-SCCH-LessTFSList ::=				SEQUENCE (SIZE (1..maxHS-SCCHLessTrBlk)) OF
										SEQUENCE {
	hs-scch-LessTFSI						INTEGER (1..90),
	hs-scch-LessSecondCodeSupport			BOOLEAN
}

HS-SCCH-SystemInfo ::=				SEQUENCE {
	dl-ScramblingCode					SecondaryScramblingCode					OPTIONAL,
	hS-SCCHChannelisationCodeInfo		SEQUENCE (SIZE (1..maxHSSCCHs)) OF
											HS-SCCH-Codes
}

HS-SCCH-SystemInfo-TDD128 ::=		SEQUENCE {
	hs-SCCH-SetConfiguration			SEQUENCE (SIZE (1..maxHSSCCHs)) OF
											HS-SCCH-TDD128-r6,
	power-level-HSSICH					INTEGER (-120..-58),
	nack-ack-power-offset				INTEGER (-7..8),
	tpc-step-size						ENUMERATED { s1, s2, s3 , spare1 },
	bler-target							Bler-Target,
	power-control-gap					INTEGER (1..255)						OPTIONAL,
	pathloss-compensation-switch		BOOLEAN									OPTIONAL
}

HS-SCCH-TDD128 ::=				SEQUENCE {
	timeslotNumber						TimeslotNumber-LCR-r4,
	firstChannelisationCode				HS-ChannelisationCode-LCR,
	secondChannelisationCode			HS-ChannelisationCode-LCR,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		commonMidamble						NULL,
		ueSpecificMidamble					INTEGER(0..15)
	},
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration				INTEGER (1..8),
	bler-target							Bler-Target,
	hs-sich-configuration				HS-SICH-Configuration-TDD128
}

HS-SCCH-TDD128-r6 ::=				SEQUENCE {
	timeslotNumber						TimeslotNumber-LCR-r4,
	firstChannelisationCode				HS-ChannelisationCode-LCR,
	secondChannelisationCode			HS-ChannelisationCode-LCR,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		commonMidamble						NULL,
		ueSpecificMidamble					INTEGER(0..15)
	},
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration				INTEGER (1..8),
	hs-sich-configuration				HS-SICH-Configuration-TDD128-r6
}

--for TDD128 Multi-Carrier
HS-SCCH-TDD128-MultiCarrier ::=		SEQUENCE {
	uarfcn-HS-SCCH-Rx					UARFCN,
	timeslotNumber						TimeslotNumber-LCR-r4,
	firstChannelisationCode				HS-ChannelisationCode-LCR,
	secondChannelisationCode			HS-ChannelisationCode-LCR,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		commonMidamble						NULL,
		ueSpecificMidamble					INTEGER(0..15)
	},
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration				INTEGER (1..8),
	bler-target							Bler-Target,
	hs-sich-configuration				HS-SICH-Configuration-TDD128
}

HS-SICH-Configuration-TDD128 ::=	SEQUENCE {
	timeslotNumber						TimeslotNumber-LCR-r4,
	channelisationCode					HS-ChannelisationCode-LCR,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		ueSpecificMidamble					SEQUENCE {
			midambleShift						MidambleShiftLong
		}
	},
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration				INTEGER (1..8),
	nack-ack-power-offset				INTEGER (-7..8),
	power-level-HSSICH					INTEGER (-120..-58),
	tpc-step-size						ENUMERATED { s1, s2, s3 , spare1}
}

HS-SICH-Configuration-TDD128-r6 ::=	SEQUENCE {
	timeslotNumber						TimeslotNumber-LCR-r4,
	channelisationCode					HS-ChannelisationCode-LCR,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		ueSpecificMidamble					SEQUENCE {
			midambleShift						MidambleShiftLong
		}
	},
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration				INTEGER (1..8)
}

HS-SICH-List-TDD128 ::=				SEQUENCE (SIZE (1..maxHSSICH-TDD128)) OF
										CHOICE {
	implicit								SEQUENCE {
		hS-SCCH-Index							INTEGER (0..maxHSSCCHs-1)
	},
	explicit								SEQUENCE {
		hS-SICH-Info							HS-SICH-Configuration-TDD128-r6
	}
}

--The order of the list corresponds to the order of HS-SCCHs in HS-SCCH info
HS-SICH-ReferenceSignalInfoList ::=		SEQUENCE ( SIZE (1.. maxHSSCCHs)) OF
											SEQUENCE {
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration						INTEGER (1..8),
	midambleShift								INTEGER (0..15),
	timeSlot									INTEGER (1..5)
}

HS-SCCH-TDD384 ::=					SEQUENCE {
	timeslotNumber						TimeslotNumber,
	channelisationCode					DL-TS-ChannelisationCode,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		commonMidamble						NULL,
		ueSpecificMidamble					SEQUENCE {
			midambleShift						MidambleShiftLong
		}
	},
	midambleconfiguration				MidambleConfigurationBurstType1and3,
	bler-target							Bler-Target,
	hs-sich-configuration				HS-SICH-Configuration-TDD384
}

HS-SCCH-TDD384-r6 ::=				SEQUENCE {
	timeslotNumber						TimeslotNumber,
	channelisationCode					DL-TS-ChannelisationCode,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		commonMidamble						NULL,
		ueSpecificMidamble					SEQUENCE {
			midambleShift						MidambleShiftLong
		}
	},
	midambleconfiguration				MidambleConfigurationBurstType1and3,
	hs-sich-configuration				HS-SICH-Configuration-TDD384
}

HS-SCCH-TDD768 ::=				SEQUENCE {
	timeslotNumber						TimeslotNumber,
	channelisationCode					DL-TS-ChannelisationCode-VHCR,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		commonMidamble						NULL,
		ueSpecificMidamble					SEQUENCE {
			midambleShift						MidambleShiftLong
		}
	},
	midambleconfiguration				MidambleConfigurationBurstType1and3,
	hs-sich-configuration				HS-SICH-Configuration-TDD768
}

HS-SICH-Configuration-TDD384 ::=	SEQUENCE {
	timeslotNumber						TimeslotNumber,
	channelisationCode					DL-TS-ChannelisationCode,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		ueSpecificMidamble					SEQUENCE {
			midambleShift						MidambleShiftLong
		}
	},
	midambleconfiguration				MidambleConfigurationBurstType1and3
}

HS-SICH-Configuration-TDD768 ::=	SEQUENCE {
	timeslotNumber						TimeslotNumber,
	channelisationCode					DL-TS-ChannelisationCode-VHCR,
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		ueSpecificMidamble					SEQUENCE {
			midambleShift						MidambleShiftLong
		}
	},
	midambleconfiguration				MidambleConfigurationBurstType1and3
}

HS-SICH-Power-Control-Info-TDD384 ::= SEQUENCE {
	-- Actual value ul-target-SIR = IE value * 0.5
	ul-target-SIR						INTEGER (-22..40),
	-- Note: IE 'ConstantValue' is used (instead of IE 'ConstantValueTDD') to keep
	-- compatibility with REL-5
	hs-sich-ConstantValue				ConstantValue
}

HS-SICH-Power-Control-Info-TDD768 ::= SEQUENCE {
	-- Actual value ul-target-SIR = IE value * 0.5
	ul-target-SIR						INTEGER (-22..40),
	-- Note: IE 'ConstantValue' is used (instead of IE 'ConstantValueTDD') to keep
	-- compatibility with REL-5
	hs-sich-ConstantValue				ConstantValue
}

IndividualTimeslotInfo ::=			SEQUENCE {
	timeslotNumber						TimeslotNumber,
	tfci-Existence						BOOLEAN,
	midambleShiftAndBurstType			MidambleShiftAndBurstType
}

IndividualTimeslotInfo-VHCR ::=			SEQUENCE {
	timeslotNumber						TimeslotNumber,
	tfci-Existence						BOOLEAN,
	midambleShiftAndBurstType-VHCR		MidambleShiftAndBurstType-VHCR
}

IndividualTimeslotInfo-LCR-r4 ::=	SEQUENCE {
	timeslotNumber						TimeslotNumber-LCR-r4,
	tfci-Existence						BOOLEAN,
	midambleShiftAndBurstType			MidambleShiftAndBurstType-LCR-r4,
	modulation							ENUMERATED { mod-QPSK, mod-8PSK },
	ss-TPC-Symbols						ENUMERATED { zero, one, sixteenOverSF },
	additionalSS-TPC-Symbols			INTEGER(1..15)		OPTIONAL
}

IndividualTimeslotInfo-LCR-r4-ext ::=		SEQUENCE {
-- timeslotNumber and tfci-Existence is taken from IndividualTimeslotInfo.
-- midambleShiftAndBurstType in IndividualTimeslotInfo shall be ignored.
	midambleShiftAndBurstType			MidambleShiftAndBurstType-LCR-r4,
	modulation							ENUMERATED { mod-QPSK, mod-8PSK },
	ss-TPC-Symbols						ENUMERATED { zero, one, sixteenOverSF }
}

IndividualTimeslotInfo-r7 ::=		SEQUENCE {
	timeslotNumber						TimeslotNumber,
	tfci-Existence						BOOLEAN,
	midambleShiftAndBurstType			MidambleShiftAndBurstType-r7
}

IndividualTS-Interference ::=		SEQUENCE {
	timeslot							TimeslotNumber,
	ul-TimeslotInterference				TDD-UL-Interference
}

IndividualTS-InterferenceList ::=	SEQUENCE (SIZE (1..maxTS)) OF
										IndividualTS-Interference

ITP ::=								ENUMERATED {
										mode0, mode1 }

NidentifyAbort ::=	INTEGER (1..128)

MAC-DTX-Cycle-10ms ::=				ENUMERATED {
										sub-frames-5,
										sub-frames-10,
										sub-frames-20,
										spare1 }

MAC-DTX-Cycle-2ms ::=				ENUMERATED {
										sub-frames-1,
										sub-frames-4,
										sub-frames-5,
										sub-frames-8,
										sub-frames-10,
										sub-frames-16,
										sub-frames-20,
										spare1 }

MAC-InactivityThreshold ::=			ENUMERATED {
										e-dch-tti-1,
										e-dch-tti-2,
										e-dch-tti-4,
										e-dch-tti-8,
										e-dch-tti-16,
										e-dch-tti-32,
										e-dch-tti-64,
										e-dch-tti-128,
										e-dch-tti-256,
										e-dch-tti-512,
										e-dch-tti-Infinity,
										spare5,
										spare4,
										spare3,
										spare2,
										spare1 }

MaxAllowedUL-TX-Power ::=			INTEGER (-50..33)

MaxAvailablePCPCH-Number ::=		INTEGER (1..64)
MaxPowerIncrease-r4 ::=				INTEGER (0..3)

MaxTFCI-Field2Value ::=				INTEGER (1..1023)

Measurement-Feedback-Info ::=		SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			measurementPowerOffset			MeasurementPowerOffset,
			feedback-cycle					Feedback-cycle,
			cqi-RepetitionFactor			CQI-RepetitionFactor,
			deltaCQI						DeltaCQI
		},
		tdd								NULL
	}
}

Measurement-Feedback-Info-r7 ::= SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			measurementPowerOffset			MeasurementPowerOffset,
			feedback-cycle					Feedback-cycle-r7,
			cqi-RepetitionFactor			CQI-RepetitionFactor,
			deltaCQI						DeltaCQI
		},
		tdd								NULL
	}
}

Measurement-Feedback-Info-r11 ::= SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			measurementPowerOffset			MeasurementPowerOffset,
			feedback-cycle					Feedback-cycle-r7,
			cqi-RepetitionFactor			CQI-RepetitionFactor,
			cqi-RepetitionFactor-Assisting	CQI-RepetitionFactor			OPTIONAL,
			deltaCQI						DeltaCQI-r11
		},
		tdd								NULL
	}
}

Measurement-Feedback-Info-r12 ::= SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			measurementPowerOffset			MeasurementPowerOffset,
			feedback-cycle					Feedback-cycle-r7,
			hs-DPCCHOverheadReduction		HS-DPCCHOverheadReduction		OPTIONAL,
			cqi-RepetitionFactor			CQI-RepetitionFactor,
			cqi-RepetitionFactor-Assisting	CQI-RepetitionFactor			OPTIONAL,
			deltaCQI						DeltaCQI-r11
		},
		tdd								NULL
	}
}

Measurement-Feedback-Info-ConcurrentTTI ::= SEQUENCE {
			feedback-cycle					Feedback-cycle-r7				OPTIONAL,
			cqi-RepetitionFactor			CQI-RepetitionFactor			OPTIONAL,
			deltaCQI						DeltaCQI						OPTIONAL
}

MidambleConfigurationBurstType1and3 ::= ENUMERATED {ms4, ms8, ms16}

MidambleConfigurationBurstType1 ::= ENUMERATED {ms4, ms8, ms16}

MidambleConfigurationBurstType2 ::=		ENUMERATED {ms3, ms6}

MidambleConfigurationBurstType2-VHCR ::=		ENUMERATED {ms4, ms8}

MidambleShiftAndBurstType ::=		SEQUENCE {
	burstType							CHOICE {	
		type1								SEQUENCE {
			midambleConfigurationBurstType1and3	MidambleConfigurationBurstType1and3,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftLong
				}
			}
		},
		type2								SEQUENCE {
			midambleConfigurationBurstType2		MidambleConfigurationBurstType2,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftShort
				}
			}
		},
		type3								SEQUENCE {
			midambleConfigurationBurstType1and3	MidambleConfigurationBurstType1and3,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftLong
				}
			}
		}
	}
}

MidambleShiftAndBurstType-VHCR ::=	SEQUENCE {
	burstType							CHOICE {
		type1								SEQUENCE {
			midambleConfigurationBurstType1and3	MidambleConfigurationBurstType1and3,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftLong
				}
			}
		},
		type2								SEQUENCE {
			midambleConfigurationBurstType2		MidambleConfigurationBurstType2-VHCR,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftShort-VHCR
				}
			}
		},
		type3								SEQUENCE {
			midambleConfigurationBurstType1and3	MidambleConfigurationBurstType1and3,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftLong
				}
			}
		},
		-- mbsfnBurstType4 is only used DL
		mbsfnBurstType4						NULL
	}
}

MidambleShiftAndBurstType-r7 ::=	SEQUENCE {
	burstType							CHOICE {
		type1								SEQUENCE {
			midambleConfigurationBurstType1and3	MidambleConfigurationBurstType1and3,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftLong
				}
			}
		},
		type2								SEQUENCE {
			midambleConfigurationBurstType2		MidambleConfigurationBurstType2,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftShort
				}
			}
		},
		type3								SEQUENCE {
			midambleConfigurationBurstType1and3	MidambleConfigurationBurstType1and3,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftLong
				}
			}
		},
		-- mbsfnBurstType4 is only used DL
		mbsfnBurstType4						NULL
	}
}

MidambleShiftAndBurstType-DL ::=		SEQUENCE {
	burstType							CHOICE {	
		type1								SEQUENCE {
			midambleConfigurationBurstType1and3	MidambleConfigurationBurstType1and3,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftLong
				}
			}
		},
		type2								SEQUENCE {
			midambleConfigurationBurstType2		MidambleConfigurationBurstType2,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftShort
				}
			}
		}
	}
}

MidambleShiftAndBurstType-DL-VHCR ::= SEQUENCE {
	burstType							CHOICE {	
		type1								SEQUENCE {
			midambleConfigurationBurstType1and3	MidambleConfigurationBurstType1and3,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftLong
				}
			}
		},
		type2								SEQUENCE {
			midambleConfigurationBurstType2		MidambleConfigurationBurstType2-VHCR,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftShort-VHCR
				}
			}
		}
	}
}

MidambleShiftAndBurstType-LCR-r4 ::=	SEQUENCE {
	midambleAllocationMode				CHOICE {
		defaultMidamble						NULL,
		commonMidamble						NULL,
		ueSpecificMidamble					SEQUENCE {
			midambleShift						INTEGER (0..15)
		}
	},
	-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration				INTEGER (1..8)
}

MidambleShiftAndBurstType-EDCH ::=	SEQUENCE {
	burstType							CHOICE {
		type1								SEQUENCE {
			midambleConfigurationBurstType1		MidambleConfigurationBurstType1,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftLong
				}
			}
		},
		type2								SEQUENCE {
			midambleConfigurationBurstType2		MidambleConfigurationBurstType2,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				commonMidamble						NULL,
				ueSpecificMidamble					SEQUENCE {
					midambleShift						MidambleShiftShort
				}
			}
		}
	}
}

MidambleShiftLong ::=				INTEGER (0..15)


MidambleShiftShort ::=				INTEGER (0..5)

MidambleShiftShort-VHCR ::=			INTEGER (0..7)

MIMO-N-M-Ratio ::=					ENUMERATED {
										mnm1-2, mnm2-3, mnm3-4, mnm4-5, mnm5-6,
										mnm6-7, mnm7-8, mnm8-9, mnm9-10, mnm1-1 }

MIMO-Operation ::=					ENUMERATED {
										start, continue }

MIMO-Parameters-r7 ::=				SEQUENCE {
	mimoOperation						MIMO-Operation,
	mimoN-M-Ratio						MIMO-N-M-Ratio					OPTIONAL,
	mimoPilotConfiguration				MIMO-PilotConfiguration			OPTIONAL
}

MIMO4x4-Parameters ::=				SEQUENCE {
    configurationInfo                   CHOICE {
		continue							NULL,
		newConfiguration					SEQUENCE {
			mimo4x4N-M-Ratio					MIMO-N-M-Ratio					OPTIONAL,
			mimo4x4PilotConfiguration			MIMO4x4-PilotConfiguration		OPTIONAL,
			precodingWeightSetRestriction		BIT STRING (SIZE (64))			OPTIONAL
		}
	}
}

MIMO-Parameters-v7f0ext ::=			MIMO-PilotConfiguration-v7f0ext

MIMO-Parameters-v7g0ext ::= SEQUENCE {
	precodingWeightSetRestriction		ENUMERATED { true }			OPTIONAL
}

MIMO-Parameters-r8 ::=				SEQUENCE {
	mimoOperation						MIMO-Operation,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			mimoN-M-Ratio						MIMO-N-M-Ratio					OPTIONAL,
			mimoPilotConfiguration				MIMO-PilotConfiguration			OPTIONAL
		},
		tdd									CHOICE {
			tdd128								SEQUENCE {
				mimoSFModeForHSPDSCHDualStream		ENUMERATED {sf1, sf1sf16},
				hs-sich-ReferenceSignalInfoList		HS-SICH-ReferenceSignalInfoList	OPTIONAL
			},
			tdd384-tdd768					NULL
		}
	}
}

MIMO-Parameters-r9 ::=				SEQUENCE {
	mimoOperation						MIMO-Operation,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			mimoN-M-Ratio						MIMO-N-M-Ratio						OPTIONAL,
			mimoPilotConfiguration				MIMO-PilotConfiguration-r9			OPTIONAL,
			precodingWeightSetRestriction		ENUMERATED { true }					OPTIONAL
		},
		tdd									CHOICE {
			tdd128								SEQUENCE {
				mimoSFModeForHSPDSCHDualStream		ENUMERATED {sf1, sf1sf16},
				hs-sich-ReferenceSignalInfoList		HS-SICH-ReferenceSignalInfoList	OPTIONAL
			},
			tdd384-tdd768					NULL
		}
	}
}

MIMO-PilotConfiguration ::=			SEQUENCE {
	secondCPICH-Pattern					CHOICE {
		normalPattern						NULL,
		diversityPattern					SEQUENCE {
			channelisationCode					ChannelisationCode256
		}
	}
}

MIMO-PilotConfiguration-v7f0ext ::=	SEQUENCE {
	s-cpich-PowerOffset-Mimo			S-CPICH-PowerOffset-MIMO			OPTIONAL
}

MIMO-PilotConfiguration-r9 ::=			SEQUENCE {
	secondCPICH-Pattern					CHOICE {
		normalPattern						NULL,
		diversityPattern					SEQUENCE {
			channelisationCode					ChannelisationCode256,
			s-cpich-PowerOffset-Mimo			S-CPICH-PowerOffset-MIMO	OPTIONAL
		}
	}
}

MIMO4x4-PilotConfiguration ::=	SEQUENCE {
	antenna2					MIMO-PilotConfiguration-r9	OPTIONAL,
	antenna3And4				Antenna3And4				OPTIONAL
}

MinimumSpreadingFactor ::=			ENUMERATED {
										sf4, sf8, sf16, sf32,
										sf64, sf128, sf256 }

MinReduced-E-DPDCH-GainFactor ::=	ENUMERATED {
										m8-15, m11-15, m15-15, m21-15, m30-15,
										m42-15, m60-15, m84-15 }

MultiCodeInfo ::=					INTEGER (1..16)

-- These IEs are applied for 1.28 Mcps TDD only
Multi-frequencyInfo-LCR-r7 ::=		SEQUENCE {
	-- If the secondary frequency is present, it indicates working frequency
	secondFrequencyInfo					FrequencyInfoTDD				OPTIONAL,
	fPachFrequencyInfo					FrequencyInfoTDD				OPTIONAL,
	--If a cell UpPCH uses other uplink service timeslot, it indicates the UpPCH position
	upPCHpositionInfo					UpPCHposition-LCR				OPTIONAL
}

MultiflowCellType ::= 				ENUMERATED { intra-nodeB, inter-nodeB }

MultiflowConfigurationInfo ::=		SEQUENCE {
	cellType							MultiflowCellType,
	timeReferenceCell					ENUMERATED { true }				OPTIONAL
}

MU-MIMO-Info-TDD128 ::=		CHOICE {
		continue						NULL,
		newConfiguration					SEQUENCE {
			mu-MIMO-Operation				MU-MIMO-Operation,
			standaloneMidambleInfo			StandaloneMidambleInfo-TDD128			OPTIONAL
	}
}

MU-MIMO-Operation ::=			ENUMERATED {
								uL, dL, uLandDL, spare }

N-EOT ::=							INTEGER (0..7)

N-GAP ::=							ENUMERATED {
										f2, f4, f8 }

N-PCH ::=							INTEGER (1..8)

N-StartMessage ::=					INTEGER (1..8)

NB01 ::=							INTEGER (0..50)

NewTiming ::=						SEQUENCE {
	enablingDelay						EnablingDelay,
	ue-dtx-drx-Offset					UE-DTX-DRX-Offset
}

NF-Max ::=							INTEGER (1..64)

NodeB-Trigger-HS-DPCCH-Transmission ::=		SEQUENCE {
	hs-dpcch-TransmitContinuationOffset		ENUMERATED {
													ms10, ms20, ms30, ms40, ms80, ms160,
													ms320, ms800}						OPTIONAL
}

Non-ScheduledTransGrantInfoTDD ::=	CHOICE {
	tdd384-768							SEQUENCE {
		timeslotResourceRelatedInfo			BIT STRING (SIZE (13)),
		powerResourceRelatedInfo			INTEGER (1..32),
		activationTime						ActivationTime,
		repetitionPeriodAndLength			RepetitionPeriodAndLength			OPTIONAL,
		codeResourceInfo					UL-TS-ChannelisationCode
	},
	tdd128								SEQUENCE {
		n-E-UCCH							INTEGER (1..8)		OPTIONAL,
		n-E-HICH							INTEGER (4..15)		OPTIONAL,
		timeslotResourceRelatedInfo			BIT STRING (SIZE (5)),
		powerResourceRelatedInfo			INTEGER (1..32),
		activationTime						ActivationTime,
		sfnNum								INTEGER (0..1),
		repetitionPeriodAndLength			RepetitionPeriodAndLength			OPTIONAL,
		codeResourceInfo					UL-TS-ChannelisationCode,
		e-HICH-Info							SEQUENCE {
			timeslotNumber						TimeslotNumber-LCR-r4,
			channelisation-Code					HS-ChannelisationCode-LCR,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				ueSpecificMidamble					INTEGER (0..15)
			},
			-- Actual value midambleConfiguration = IE value * 2
			midambleConfiguration				INTEGER (1..8),
			signatureSequenceGroupIndex			INTEGER (0..19)
		}
	}
}

Non-ScheduledTransGrantInfoTDD-ext ::= 	CHOICE {
	tdd384-768							NULL,
	tdd128									SEQUENCE {
		t-SI-nst								ENUMERATED { 
													everyEDCHTTI, ms20, ms40, ms60, ms80, ms160,
													ms200 }							OPTIONAL
	}
}

Non-ScheduledTransGrantInfoTDD-r9 ::=	CHOICE {
	tdd384-768							SEQUENCE {
		timeslotResourceRelatedInfo			BIT STRING (SIZE (13)),
		powerResourceRelatedInfo			INTEGER (1..32),
		activationTime						ActivationTime,
		repetitionPeriodAndLength			RepetitionPeriodAndLength			OPTIONAL,
		codeResourceInfo					UL-TS-ChannelisationCode
	},
	tdd128								SEQUENCE {
		n-E-UCCH							INTEGER (1..8)		OPTIONAL,
		n-E-HICH							INTEGER (4..15)		OPTIONAL,
		timeslotResourceRelatedInfo			BIT STRING (SIZE (5)),
		powerResourceRelatedInfo			INTEGER (1..32),
		activationTime						ActivationTime,
		sfnNum								INTEGER (0..1),
		repetitionPeriodAndLength			RepetitionPeriodAndLength			OPTIONAL,
		codeResourceInfo					UL-TS-ChannelisationCode,
		e-HICH-Info							SEQUENCE {
			timeslotNumber						TimeslotNumber-LCR-r4,
			channelisation-Code					HS-ChannelisationCode-LCR,
			midambleAllocationMode				CHOICE {
				defaultMidamble						NULL,
				ueSpecificMidamble					INTEGER (0..15)
			},
			-- Actual value midambleConfiguration = IE value * 2
			midambleConfiguration				INTEGER (1..8),
			signatureSequenceGroupIndex			INTEGER (0..19)
		},
		t-SI-nst							ENUMERATED { 
												everyEDCHTTI, ms20, ms40, ms60, ms80, ms160,
												ms200 }							OPTIONAL
	}
}

Non-rectResAllocInd-TDD128 ::=			ENUMERATED { true }

Non-rectResSpecTSset-TDD128 ::=			BIT STRING (SIZE (7))

NumberOfDPDCH ::=					INTEGER (1..maxDPDCH-UL)

NumberOfFBI-Bits ::=				INTEGER (1..2)

NumberOfTPC-Bits ::=				ENUMERATED { tpc4 }

OpenLoopPowerControl-TDD ::=		SEQUENCE {
	primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power,
	-- alpha, prach-ConstantValue, dpch-ConstantValue and pusch-ConstantValue
	-- shall be ignored in 1.28Mcps TDD mode.
	alpha								Alpha						OPTIONAL,
	prach-ConstantValue					ConstantValueTdd,
	dpch-ConstantValue					ConstantValueTdd,
	pusch-ConstantValue					ConstantValueTdd			OPTIONAL
}

OpenLoopPowerControl-IPDL-TDD-r4 ::=	SEQUENCE {
	ipdl-alpha							Alpha,
	maxPowerIncrease					MaxPowerIncrease-r4
}

OtherStateConfig ::=		SEQUENCE {
	otherStateConfigList		OtherStateConfigList				OPTIONAL,
	otherStateRemoveList		OtherStateRemoveList				OPTIONAL
}

OtherStateConfigList ::= 	SEQUENCE (SIZE(1..maxOtherStateConfig)) OF
										OtherStateConfigData

OtherStateConfigData ::=		SEQUENCE {
	otherStateConfigIdentity			OtherStateConfigIdentity,
	source-rrc-StateIndicator			RRC-StateIndicator,
	target-rrc-StateIndicator			RRC-StateIndicator,
	ura-Identity						URA-Identity					OPTIONAL,
	rntis			CHOICE {
		clear				NULL,
		continue			NULL,
		new					SEQUENCE {
					new-C-RNTI			C-RNTI,
					new-H-RNTI			H-RNTI,
					newPrimary-E-RNTI	E-RNTI
		}
	},
	configuration	CHOICE {
		id				INTEGER (0..maxRetrievConfig-1),
		full			RetrievableConfigData
	} OPTIONAL
}

OtherStateRemoveList ::=			SEQUENCE (SIZE (1..maxOtherStateConfig)) OF
										OtherStateConfigIdentity

OtherStateConfigIdentity ::=		INTEGER (0..maxOtherStateConfig-1)

PagingIndicatorLength ::=			ENUMERATED {
										pi4, pi8, pi16 }

PC-Preamble ::=						INTEGER (0..7)

PCCH-InformationList ::=			SEQUENCE {
	paging-associatedHspdschInfo		SEQUENCE (SIZE (1.. maxSCCPCH)) OF
											SEQUENCE {
		hs-pdsch-MidambleConfiguration			HS-PDSCH-Midamble-Configuration-TDD128,
		timeslotResourceRelatedInfo				BIT STRING (SIZE (6)),
		codeResourceInformation					CodeResourceInformation-TDD128
	},
	paging-sub-Channel-size				INTEGER (1..3),
	transportBlockSizeList				SEQUENCE (SIZE (1..2)) OF TransportBlockSizeIndex
}

PCP-Length ::=						ENUMERATED {
										as0, as8 }

PCPCH-ChannelInfo ::=				SEQUENCE {
	pcpch-UL-ScramblingCode				INTEGER (0..79),
	pcpch-DL-ChannelisationCode			INTEGER (0..511),
	pcpch-DL-ScramblingCode				SecondaryScramblingCode				OPTIONAL,
	pcp-Length							PCP-Length,
	ucsm-Info							UCSM-Info							OPTIONAL
}

PCPCH-ChannelInfoList ::=			SEQUENCE (SIZE (1..maxPCPCHs)) OF
										PCPCH-ChannelInfo

PCPICH-UsageForChannelEst ::=		ENUMERATED {
										mayBeUsed,
										shallNotBeUsed }

PDSCH-CapacityAllocationInfo ::=	SEQUENCE {
	-- pdsch-PowerControlInfo is conditional on new-configuration branch below, if this
	-- selected the IE is OPTIONAL otherwise it should not be sent
	pdsch-PowerControlInfo				PDSCH-PowerControlInfo				OPTIONAL,
	pdsch-AllocationPeriodInfo			AllocationPeriodInfo,
	configuration						CHOICE {
		old-Configuration					SEQUENCE {
			tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
			pdsch-Identity						PDSCH-Identity
		},
		new-Configuration					SEQUENCE {
			pdsch-Info							PDSCH-Info,
			pdsch-Identity						PDSCH-Identity				OPTIONAL
		}
	}
}

PDSCH-CapacityAllocationInfo-r4 ::=	SEQUENCE {
	pdsch-AllocationPeriodInfo			AllocationPeriodInfo,
	configuration						CHOICE {
		old-Configuration					SEQUENCE {
			tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
			pdsch-Identity						PDSCH-Identity
		},
		new-Configuration					SEQUENCE {
			pdsch-Info							PDSCH-Info-r4,
			pdsch-Identity						PDSCH-Identity				OPTIONAL,
			pdsch-PowerControlInfo				PDSCH-PowerControlInfo		OPTIONAL
		}
	}
}

PDSCH-CapacityAllocationInfo-r7 ::=	SEQUENCE {
	pdsch-AllocationPeriodInfo			AllocationPeriodInfo,
	configuration						CHOICE {
		old-Configuration					SEQUENCE {
			tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
			pdsch-Identity						PDSCH-Identity
		},
		new-Configuration					SEQUENCE {
			pdsch-Info							PDSCH-Info-r7,
			pdsch-Identity						PDSCH-Identity				OPTIONAL,
			pdsch-PowerControlInfo				PDSCH-PowerControlInfo		OPTIONAL
		}
	}
}

PDSCH-CodeInfo ::=					SEQUENCE {
	spreadingFactor						SF-PDSCH,
	codeNumber							CodeNumberDSCH,
	multiCodeInfo						MultiCodeInfo
}

PDSCH-CodeInfoList ::=				SEQUENCE (SIZE (1..maxTFCI-2-Combs)) OF
										PDSCH-CodeInfo

PDSCH-CodeMap ::=					SEQUENCE {
	spreadingFactor						SF-PDSCH,
	multiCodeInfo						MultiCodeInfo,
	codeNumberStart						CodeNumberDSCH,
	codeNumberStop						CodeNumberDSCH
}

PDSCH-CodeMapList ::=				SEQUENCE (SIZE (1..maxPDSCH-TFCIgroups)) OF
										PDSCH-CodeMap

PDSCH-CodeMapping ::=				SEQUENCE {
	dl-ScramblingCode					SecondaryScramblingCode				OPTIONAL,
	signallingMethod					CHOICE {
		codeRange							CodeRange,
		tfci-Range							DSCH-MappingList,
		explicit-config						PDSCH-CodeInfoList,
		replace								ReplacedPDSCH-CodeInfoList
	}
}	

PDSCH-Identity ::=					INTEGER (1..hiPDSCHidentities)

PDSCH-Info ::=						SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	pdsch-TimeslotsCodes				DownlinkTimeslotsCodes				OPTIONAL
}

PDSCH-Info-r4 ::=						SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	tddOption							CHOICE {
		tdd384								SEQUENCE {
			pdsch-TimeslotsCodes				DownlinkTimeslotsCodes		OPTIONAL
		},
		tdd128								SEQUENCE {
			pdsch-TimeslotsCodes				DownlinkTimeslotsCodes-LCR-r4	OPTIONAL
		}
	}
}

PDSCH-Info-r7 ::=						SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	tddOption							CHOICE {
		tdd384								SEQUENCE {
			pdsch-TimeslotsCodes				DownlinkTimeslotsCodes		OPTIONAL
		},
		tdd768								SEQUENCE {
			pdsch-TimeslotsCodes				DownlinkTimeslotsCodes-VHCR		OPTIONAL
		},
		tdd128								SEQUENCE {
			pdsch-TimeslotsCodes				DownlinkTimeslotsCodes-LCR-r4	OPTIONAL
		}
	}
}

PDSCH-Info-LCR-r4 ::=				SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	pdsch-TimeslotsCodes				DownlinkTimeslotsCodes-LCR-r4		OPTIONAL
}

PDSCH-PowerControlInfo ::=			SEQUENCE {
	tpc-StepSizeTDD						TPC-StepSizeTDD						OPTIONAL,
	ul-CCTrChTPCList					UL-CCTrChTPCList					OPTIONAL
}

PDSCH-SHO-DCH-Info ::=				SEQUENCE {
	dsch-RadioLinkIdentifier			DSCH-RadioLinkIdentifier,
	rl-IdentifierList					RL-IdentifierList					OPTIONAL
}

PDSCH-SysInfo ::=					SEQUENCE {
	pdsch-Identity						PDSCH-Identity,
	pdsch-Info							PDSCH-Info,
	dsch-TFS							TransportFormatSet					OPTIONAL,
	dsch-TFCS							TFCS								OPTIONAL
}

PDSCH-SysInfo-VHCR-r7 ::=			SEQUENCE {
	pdsch-Identity						PDSCH-Identity,
	pdsch-Info							PDSCH-Info-r7,
	dsch-TransportChannelsInfo			DSCH-TransportChannelsInfo			OPTIONAL,
	dsch-TFCS							TFCS								OPTIONAL
}

PDSCH-SysInfo-HCR-r5 ::=			SEQUENCE {
	pdsch-Identity						PDSCH-Identity,
	pdsch-Info							PDSCH-Info,
	dsch-TransportChannelsInfo			DSCH-TransportChannelsInfo			OPTIONAL,
	dsch-TFCS							TFCS								OPTIONAL
}

PDSCH-SysInfo-LCR-r4 ::=			SEQUENCE {
	pdsch-Identity						PDSCH-Identity,
	pdsch-Info							PDSCH-Info-LCR-r4,
	dsch-TFS							TransportFormatSet					OPTIONAL,
	dsch-TFCS							TFCS								OPTIONAL
}

PDSCH-SysInfoList ::=				SEQUENCE (SIZE (1..maxPDSCH)) OF
										PDSCH-SysInfo

PDSCH-SysInfoList-VHCR-r7 ::=		SEQUENCE (SIZE (1..maxPDSCH)) OF PDSCH-SysInfo-VHCR-r7

PDSCH-SysInfoList-HCR-r5 ::=		SEQUENCE (SIZE (1..maxPDSCH)) OF PDSCH-SysInfo-HCR-r5

PDSCH-SysInfoList-LCR-r4 ::=		SEQUENCE (SIZE (1..maxPDSCH)) OF
										PDSCH-SysInfo-LCR-r4

PDSCH-SysInfoList-SFN ::=			SEQUENCE (SIZE (1..maxPDSCH)) OF
										SEQUENCE {
	pdsch-SysInfo							PDSCH-SysInfo,
	sfn-TimeInfo							SFN-TimeInfo					OPTIONAL
}

PDSCH-SysInfoList-SFN-HCR-r5 ::=			SEQUENCE (SIZE (1..maxPDSCH)) OF
										SEQUENCE {
	pdsch-SysInfo							PDSCH-SysInfo-HCR-r5,
	sfn-TimeInfo							SFN-TimeInfo					OPTIONAL
}

PDSCH-SysInfoList-SFN-LCR-r4 ::=	SEQUENCE (SIZE (1..maxPDSCH)) OF
										SEQUENCE {
	pdsch-SysInfo							PDSCH-SysInfo-LCR-r4,
	sfn-TimeInfo							SFN-TimeInfo					OPTIONAL
}

PersistenceScalingFactor ::=		ENUMERATED {
										psf0-9, psf0-8, psf0-7, psf0-6,
										psf0-5, psf0-4, psf0-3, psf0-2 }

PersistenceScalingFactorList ::=	SEQUENCE (SIZE (1..maxASCpersist)) OF
										PersistenceScalingFactor

PI-CountPerFrame ::=				ENUMERATED {
										e18, e36, e72, e144 }

PichChannelisationCodeList-LCR-r4 ::=	SEQUENCE (SIZE (1..2)) OF
											DL-TS-ChannelisationCode

PICH-ForHSDPASupportedPaging ::=		SEQUENCE {
	hsdpa-AssociatedPichInfo				PICH-Info,
	hs-pdschChannelisationCode				INTEGER(1..15)
}

PICH-ForHSDPASupportedPaging-TDD128 ::= CHOICE {
	implicit							SEQUENCE {
		occurrenceSequenceNumberOfPICH		OccurrenceSequenceNumberOfPICH		OPTIONAL
	},
	explicit							PICH-Info-LCR-r4
}

PICH-Info ::=						CHOICE {
	fdd									SEQUENCE {
		channelisationCode256				ChannelisationCode256,
		pi-CountPerFrame					PI-CountPerFrame,
		sttd-Indicator						BOOLEAN
	},
	tdd									SEQUENCE {
		channelisationCode					TDD-PICH-CCode					OPTIONAL,
		timeslot							TimeslotNumber					OPTIONAL,
		midambleShiftAndBurstType			MidambleShiftAndBurstType,
		repetitionPeriodLengthOffset		RepPerLengthOffset-PICH			OPTIONAL,
		pagingIndicatorLength				PagingIndicatorLength			DEFAULT pi4,
		n-GAP								N-GAP							DEFAULT f4,
		n-PCH								N-PCH							DEFAULT 2
	}	
}

PICH-Info-HCR-VHCR-r7 ::=			SEQUENCE {
	channelisationCode					CHOICE {
		tdd384								TDD-PICH-CCode,
		tdd768								TDD768-PICH-CCode
	}		OPTIONAL,
	timeslot							TimeslotNumber					OPTIONAL,
	midambleShiftAndBurstType			MidambleShiftAndBurstType,
	repetitionPeriodLengthOffset		RepPerLengthOffset-PICH			OPTIONAL,
	pagingIndicatorLength				PagingIndicatorLength			DEFAULT pi4,
	n-GAP								N-GAP							DEFAULT f4,
	n-PCH								N-PCH							DEFAULT 2
}

PICH-Info-LCR-r4 ::=				SEQUENCE {
	timeslot							TimeslotNumber-LCR-r4				OPTIONAL,
	pichChannelisationCodeList-LCR-r4	PichChannelisationCodeList-LCR-r4,
	midambleShiftAndBurstType			MidambleShiftAndBurstType-LCR-r4,
	repetitionPeriodLengthOffset		RepPerLengthOffset-PICH				OPTIONAL,
	pagingIndicatorLength				PagingIndicatorLength			DEFAULT pi4,
	n-GAP								N-GAP							DEFAULT f4,
	n-PCH								N-PCH							DEFAULT 2
}

PICH-PowerOffset ::=				INTEGER (-10..5)

PilotBits128 ::=					ENUMERATED {
										pb4, pb8 }

PilotBits128-r12 ::=					ENUMERATED {
										pb0, pb4, pb8 }

PilotBits256 ::=					ENUMERATED {
										pb2, pb4, pb8 }

PilotBits256-r12 ::=					ENUMERATED {
										pb0, pb2, pb4, pb8 }

	-- Actual measurement power offset value = IE value * 0.5
MeasurementPowerOffset ::=			INTEGER (-12..26)

PLCCH-Info ::=					SEQUENCE {
	plcchSequenceNumber				INTEGER(1..14),
	timeslotNumber					TimeslotNumber-LCR-r4,
	channelisationCode				DL-TS-ChannelisationCode,
	tpcCommandTargetRate			TPC-CommandTargetRate
}

PositionFixedOrFlexible ::=		ENUMERATED {
										fixed,
										flexible }

PowerControlAlgorithm ::=			CHOICE {
	algorithm1							TPC-StepSizeFDD,
	algorithm2							NULL
}

PowerControlAlgorithm3-Config ::=	SEQUENCE {
	tpcSlotPosition						INTEGER (0..4)					OPTIONAL,
	tpcStepSize						TPC-StepSizeFDD					OPTIONAL,
	decimationFactor					ENUMERATED {slots3, slots5}		OPTIONAL
}

PowerControlGAP ::=				INTEGER (0..255)

PowerOffsetPilot-pdpdch ::=		INTEGER (0..24)

PowerOffsetPO-SRB ::=				INTEGER (0..24)

PowerOffsetTPC-pdpdch ::=			INTEGER (0..24)

PowerRampStep ::=					INTEGER (1..8)

PRACH-ChanCodes-LCR-r4 ::=		SEQUENCE (SIZE (1..4)) OF
										TDD-PRACH-CCode-LCR-r4

PRACH-ChanCodes-List-LCR ::=		SEQUENCE (SIZE (1..2)) OF
										TDD-PRACH-CCode-LCR-r4

PRACH-Definition-LCR-r4 ::=		SEQUENCE {
	timeslot							TimeslotNumber-PRACH-LCR-r4,
	prach-ChanCodes-LCR				PRACH-ChanCodes-LCR-r4,
	midambleShiftAndBurstType			MidambleShiftAndBurstType-LCR-r4,
	fpach-Info							FPACH-Info-r4
}

PRACH-Information-LCR ::=			SEQUENCE {
	timeslot							TimeslotNumber-PRACH-LCR-r4,
	prach-ChanCodes-list-LCR			PRACH-ChanCodes-List-LCR,
	midambleShiftAndBurstType			MidambleShiftAndBurstType-LCR-r4,
	fpach-Info							FPACH-Info-r4							OPTIONAL
}

PRACH-Information-LCR-List ::=	SEQUENCE (SIZE (1..maxPRACH-FPACH)) OF
										PRACH-Information-LCR

PRACH-Midamble ::=					ENUMERATED {
										direct,
										direct-Inverted }

PRACH-Partitioning ::=			CHOICE {
	fdd									SEQUENCE (SIZE (1..maxASC)) OF
	-- TABULAR: If only "NumASC+1" (with, NumASC+1 < maxASC) ASCSetting-FDD are listed, 
	-- the remaining (NumASC+2 through maxASC) ASCs are unspecified.
											ASCSetting-FDD,
	tdd									SEQUENCE (SIZE (1..maxASC)) OF
	-- TABULAR: If only "NumASC+1" (with, NumASC+1 < maxASC) ASCSetting-TDD are listed, 
	-- the remaining (NumASC+2 through maxASC) ASCs are unspecified.
											ASCSetting-TDD
}	

PRACH-Partitioning-r7 ::=			CHOICE {
	fdd									SEQUENCE (SIZE (1..maxASC)) OF
	-- TABULAR: If only "NumASC+1" (with, NumASC+1 < maxASC) ASCSetting-FDD are listed,
	-- the remaining (NumASC+2 through maxASC) ASCs are unspecified.
											ASCSetting-FDD,
	tdd									SEQUENCE (SIZE (1..maxASC)) OF
	-- TABULAR: If only "NumASC+1" (with, NumASC+1 < maxASC) ASCSetting-TDD are listed,
	-- the remaining (NumASC+2 through maxASC) ASCs are unspecified.
											ASCSetting-TDD-r7
}

PRACH-Partitioning-LCR-r4 ::=		SEQUENCE (SIZE (1..maxASC)) OF
	-- TABULAR: If only "NumASC+1" (with, NumASC+1 < maxASC) ASCSetting-TDD-LCR-r4 are listed, 
	-- the remaining (NumASC+2 through maxASC) ASCs are unspecified.
											ASCSetting-TDD-LCR-r4

PRACH-PowerOffset ::=				SEQUENCE {
	powerRampStep						PowerRampStep,
	preambleRetransMax					PreambleRetransMax
}

PRACH-PreambleForEnhancedUplink ::=	SEQUENCE {
	availableSignatures					AvailableSignatures				OPTIONAL,
	e-ai-Indication						BOOLEAN,
	preambleScramblingCodeWordNumber		PreambleScramblingCodeWordNumber	OPTIONAL,
	availableSubChannelNumbers			AvailableSubChannelNumbers		OPTIONAL,
	prach-Partitioning						PRACH-Partitioning-r7				OPTIONAL,
	persistenceScalingFactorList			PersistenceScalingFactorList		OPTIONAL,
	ac-To-ASC-MappingTable				AC-To-ASC-MappingTable			OPTIONAL,
	primaryCPICH-TX-Power					PrimaryCPICH-TX-Power				OPTIONAL,
	constantValue							ConstantValue						OPTIONAL,
	prach-PowerOffset						PRACH-PowerOffset					OPTIONAL,
	rach-TransmissionParameters			RACH-TransmissionParameters		OPTIONAL,
	aich-Info								AICH-Info							OPTIONAL,
	powerOffsetPp-e						INTEGER (-5..10)
}
PRACH-PreambleForEnhancedUplinkExt ::=	SEQUENCE {
	availableSignatures						AvailableSignatures,
	preambleScramblingCodeWordNumber			PreambleScramblingCodeWordNumber,
	aich-Info									AICH-Info-Compressed				OPTIONAL
}

PRACH-PreambleForEnhancedUplinkExtList ::=	SEQUENCE (SIZE (1..maxPRACH-EUL)) OF
													PRACH-PreambleForEnhancedUplinkExtWithWeight


PRACH-PreambleForEnhancedUplinkExtWithWeight ::=	SEQUENCE {
	prach-PreambleForEnhancedUplinkExt		PRACH-PreambleForEnhancedUplinkExt,
	-- Actual value weight = IE value * 0.2
	weight										INTEGER (1..5)		OPTIONAL
}

PRACH-RACH-Info ::=				SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			availableSignatures					AvailableSignatures,
			availableSF							SF-PRACH,
			preambleScramblingCodeWordNumber		PreambleScramblingCodeWordNumber,
			puncturingLimit						PuncturingLimit,
			availableSubChannelNumbers			AvailableSubChannelNumbers
		},
		tdd									SEQUENCE {
			timeslot							TimeslotNumber,
			channelisationCodeList			TDD-PRACH-CCodeList,
			prach-Midamble						PRACH-Midamble
		}
	}
}

PRACH-RACH-Info-VHCR-r7 ::=		SEQUENCE {
	timeslot							TimeslotNumber,
	channelisationCodeList			TDD768-PRACH-CCodeList,
	prach-Midamble						PRACH-Midamble
}

PRACH-RACH-Info-LCR-v770ext ::=	SEQUENCE {
	e-RUCCH-Sync-UL-Codes-Bitmap		Sync-UL-Codes-Bitmap
}

PRACH-RACH-Info-LCR-r4 ::=		SEQUENCE {
	sync-UL-Info						SYNC-UL-Info-r4,
	prach-DefinitionList				SEQUENCE (SIZE (1..maxPRACH-FPACH)) OF
											PRACH-Definition-LCR-r4
}

PRACH-SystemInformation ::=		SEQUENCE {
	prach-RACH-Info					PRACH-RACH-Info,
	transportChannelIdentity			TransportChannelIdentity,
	rach-TransportFormatSet			TransportFormatSet					OPTIONAL,
	rach-TFCS							TFCS								OPTIONAL,
	prach-Partitioning					PRACH-Partitioning					OPTIONAL,
	persistenceScalingFactorList		PersistenceScalingFactorList		OPTIONAL,
	ac-To-ASC-MappingTable			AC-To-ASC-MappingTable			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-TX-Power				PrimaryCPICH-TX-Power			OPTIONAL,
			constantValue						ConstantValue					OPTIONAL,
			prach-PowerOffset					PRACH-PowerOffset				OPTIONAL,
			rach-TransmissionParameters		RACH-TransmissionParameters	OPTIONAL,
			aich-Info							AICH-Info						OPTIONAL
		},
		tdd									NULL
	}	
}

PRACH-SystemInformation-VHCR-r7 ::=	SEQUENCE {
	prach-RACH-Info						PRACH-RACH-Info-VHCR-r7,
	prach-Partitioning						PRACH-Partitioning-r7				OPTIONAL
}

PRACH-SystemInformation-LCR-r4 ::=	SEQUENCE {
	prach-RACH-Info-LCR					PRACH-RACH-Info-LCR-r4,
	rach-TransportFormatSet-LCR			TransportFormatSet-LCR			OPTIONAL,
	prach-Partitioning-LCR				PRACH-Partitioning-LCR-r4			OPTIONAL
}

PRACH-SystemInformation-LCR-v770ext ::= SEQUENCE {
	prach-RACH-Info-LCR						PRACH-RACH-Info-LCR-v770ext
}

PRACH-SystemInformationList ::=	SEQUENCE (SIZE (1..maxPRACH)) OF
										PRACH-SystemInformation

PRACH-SystemInformationList-VHCR-r7 ::= SEQUENCE (SIZE (1..maxPRACH)) OF
												PRACH-SystemInformation-VHCR-r7

PRACH-SystemInformationList-LCR-r4 ::=	SEQUENCE (SIZE (1..maxPRACH)) OF
												PRACH-SystemInformation-LCR-r4

PRACH-SystemInformationList-LCR-v770ext ::= SEQUENCE (SIZE (1..maxPRACH)) OF
													PRACH-SystemInformation-LCR-v770ext

PreambleRetransMax ::=				INTEGER (1..64)

PreambleScramblingCodeWordNumber ::=	INTEGER (0..15)

PreDefPhyChConfiguration ::=		SEQUENCE {
	ul-DPCH-InfoPredef					UL-DPCH-InfoPredef,
	dl-CommonInformationPredef		DL-CommonInformationPredef	OPTIONAL
}

PreDefPhyChConfiguration-v770ext ::= SEQUENCE {
	ul-DPCH-InfoPredef						UL-DPCH-InfoPredef-v770ext
}

PrimaryCCPCH-Info ::=				CHOICE {
	fdd									SEQUENCE {
		tx-DiversityIndicator				BOOLEAN
	},
	tdd									SEQUENCE {
		-- syncCase should be ignored for 1.28Mcps TDD mode
		syncCase 							CHOICE {
			syncCase1							SEQUENCE {
				timeslot							TimeslotNumber
			},
			syncCase2							SEQUENCE {
				timeslotSync2						TimeslotSync2
			}
		}																	OPTIONAL,
		cellParametersID					CellParametersID				OPTIONAL,
		sctd-Indicator						BOOLEAN
	}
}

PrimaryCCPCH-Info-r4 ::=			CHOICE {
	fdd									SEQUENCE {
		tx-DiversityIndicator				BOOLEAN
	},
	tdd									SEQUENCE {
		tddOption							CHOICE {
			tdd384-tdd768						SEQUENCE {
				syncCase							CHOICE {
					syncCase1							SEQUENCE {
						timeslot							TimeslotNumber
					},
					syncCase2							SEQUENCE {
						timeslotSync2						TimeslotSync2
					}
				}															OPTIONAL
			},
			tdd128								SEQUENCE {
				tstd-Indicator						BOOLEAN
			}
		},
		cellParametersID					CellParametersID				OPTIONAL,
		sctd-Indicator						BOOLEAN
	}
}

PrimaryCCPCH-Info-LCR-r4 ::=		SEQUENCE {
	tstd-Indicator						BOOLEAN,
	cellParametersID					CellParametersID				OPTIONAL,
	sctd-Indicator						BOOLEAN
}

-- For 1.28Mcps TDD, the following IE includes elements for the PCCPCH Info additional to those
-- in PrimaryCCPCH-Info
PrimaryCCPCH-Info-LCR-r4-ext ::=	SEQUENCE {
	tstd-Indicator						BOOLEAN
}

PrimaryCCPCH-InfoPost ::=			SEQUENCE {
	syncCase 							CHOICE {
		syncCase1							SEQUENCE {
			timeslot							TimeslotNumber					
		},
		syncCase2							SEQUENCE {
			timeslotSync2						TimeslotSync2
		}
	},
	cellParametersID					CellParametersID,
	sctd-Indicator						BOOLEAN
}

PrimaryCCPCH-InfoPostTDD-LCR-r4 ::=	SEQUENCE {
	tstd-Indicator							BOOLEAN,
	cellParametersID						CellParametersID,
	sctd-Indicator							BOOLEAN
}

PrimaryCCPCH-TX-Power ::=			INTEGER (6..43)

PrimaryCPICH-Info ::=				SEQUENCE {
	primaryScramblingCode				PrimaryScramblingCode
}

PrimaryCPICH-TX-Power ::=			INTEGER (-10..50)

PrimaryScramblingCode ::=			INTEGER (0..511)

PuncturingLimit ::=				ENUMERATED {
										pl0-40, pl0-44, pl0-48, pl0-52, pl0-56,
										pl0-60, pl0-64, pl0-68, pl0-72, pl0-76,
										pl0-80, pl0-84, pl0-88, pl0-92, pl0-96, pl1 }

PUSCH-CapacityAllocationInfo ::=	SEQUENCE {
	pusch-Allocation					CHOICE {
		pusch-AllocationPending				NULL,
		pusch-AllocationAssignment			SEQUENCE {
			pusch-AllocationPeriodInfo			AllocationPeriodInfo,
			pusch-PowerControlInfo				UL-TargetSIR				OPTIONAL,
			configuration						CHOICE {
				old-Configuration					SEQUENCE {
					tfcs-ID								TFCS-IdentityPlain			DEFAULT 1,
					pusch-Identity						PUSCH-Identity
				},
				new-Configuration					SEQUENCE {
					pusch-Info							PUSCH-Info,
					pusch-Identity						PUSCH-Identity		OPTIONAL
				}
			}
		}
	}
}

PUSCH-CapacityAllocationInfo-r4 ::=	SEQUENCE {
	pusch-Allocation					CHOICE {
		pusch-AllocationPending				NULL,
		pusch-AllocationAssignment			SEQUENCE {
			pusch-AllocationPeriodInfo			AllocationPeriodInfo,
			pusch-PowerControlInfo				PUSCH-PowerControlInfo-r4	OPTIONAL,
			configuration						CHOICE {
				old-Configuration					SEQUENCE {
					tfcs-ID								TFCS-IdentityPlain			DEFAULT 1,
					pusch-Identity						PUSCH-Identity
				},
				new-Configuration					SEQUENCE {
					pusch-Info							PUSCH-Info-r4,
					pusch-Identity						PUSCH-Identity		OPTIONAL
				}
			}
		}
	}
}

PUSCH-CapacityAllocationInfo-r7 ::=	SEQUENCE {
	pusch-Allocation						CHOICE {
		pusch-AllocationPending				NULL,
		pusch-AllocationAssignment			SEQUENCE {
			pusch-AllocationPeriodInfo			AllocationPeriodInfo,
			pusch-PowerControlInfo				PUSCH-PowerControlInfo-r7	OPTIONAL,
			configuration						CHOICE {
				old-Configuration					SEQUENCE {
					tfcs-ID								TFCS-IdentityPlain			DEFAULT 1,
					pusch-Identity						PUSCH-Identity
				},
				new-Configuration					SEQUENCE {
					pusch-Info							PUSCH-Info-VHCR,
					pusch-Identity						PUSCH-Identity		OPTIONAL
				}
			}
		}
	}
}

PUSCH-Identity ::=					INTEGER (1..hiPUSCHidentities)

PUSCH-Info ::=						SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	pusch-TimeslotsCodes				UplinkTimeslotsCodes				OPTIONAL
}

PUSCH-Info-r4 ::=					SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	tddOption							CHOICE {
		tdd384								SEQUENCE {
			pusch-TimeslotsCodes				UplinkTimeslotsCodes		OPTIONAL
		},
		tdd128								SEQUENCE {
			pusch-TimeslotsCodes				UplinkTimeslotsCodes-LCR-r4	OPTIONAL
		}
	}
}

PUSCH-Info-VHCR ::=				SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	pusch-TimeslotsCodes-VHCR			UplinkTimeslotsCodes-VHCR			OPTIONAL
}

PUSCH-Info-LCR-r4 ::=				SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	pusch-TimeslotsCodes				UplinkTimeslotsCodes-LCR-r4		OPTIONAL
}

PUSCH-PowerControlInfo-r4 ::=		SEQUENCE {
	-- The IE ul-TargetSIR corresponds to PRX-PUSCHdes for 1.28Mcps TDD
	-- Actual value PRX-PUSCHdes = (value of IE "ul-TargetSIR" - 120)
	ul-TargetSIR						UL-TargetSIR,
	tddOption							CHOICE {
		tdd384								NULL,
		tdd128								SEQUENCE {
			tpc-StepSize						TPC-StepSizeTDD				OPTIONAL
		}
	}
}

PUSCH-PowerControlInfo-r7 ::=		SEQUENCE {
	-- The IE ul-TargetSIR corresponds to PRX-PUSCHdes for 1.28Mcps TDD
	-- Actual value PRX-PUSCHdes = (value of IE "ul-TargetSIR" - 120)
	ul-TargetSIR						UL-TargetSIR,
	tddOption							CHOICE {
		tdd384								NULL,
		tdd768								NULL,
		tdd128								SEQUENCE {
			tpc-StepSize						TPC-StepSizeTDD				OPTIONAL
		}
	}
}

PUSCH-SysInfo ::=					SEQUENCE {
	pusch-Identity						PUSCH-Identity,
	pusch-Info							PUSCH-Info,
	usch-TFS							TransportFormatSet					OPTIONAL,
	usch-TFCS							TFCS								OPTIONAL
}

PUSCH-SysInfo-VHCR ::=			SEQUENCE {
	pusch-Identity						PUSCH-Identity,
	pusch-Info-VHCR					PUSCH-Info-VHCR,
	usch-TransportChannelsInfo		USCH-TransportChannelsInfo		OPTIONAL,
	usch-TFCS							TFCS								OPTIONAL
}

PUSCH-SysInfo-HCR-r5 ::=			SEQUENCE {
	pusch-Identity						PUSCH-Identity,
	pusch-Info							PUSCH-Info,
	usch-TransportChannelsInfo		USCH-TransportChannelsInfo		OPTIONAL,
	usch-TFCS							TFCS								OPTIONAL
}

PUSCH-SysInfo-LCR-r4 ::=			SEQUENCE {
	pusch-Identity						PUSCH-Identity,
	pusch-Info							PUSCH-Info-LCR-r4,
	usch-TFS							TransportFormatSet					OPTIONAL,
	usch-TFCS							TFCS								OPTIONAL
}

PUSCH-SysInfoList ::=				SEQUENCE (SIZE (1..maxPUSCH)) OF
										PUSCH-SysInfo

PUSCH-SysInfoList-HCR-r5 ::=		SEQUENCE (SIZE (1..maxPUSCH)) OF PUSCH-SysInfo-HCR-r5

PUSCH-SysInfoList-LCR-r4 ::=		SEQUENCE (SIZE (1..maxPUSCH)) OF
										PUSCH-SysInfo-LCR-r4

PUSCH-SysInfoList-SFN ::=			SEQUENCE (SIZE (1..maxPUSCH)) OF
										SEQUENCE {
	pusch-SysInfo							PUSCH-SysInfo,
	sfn-TimeInfo							SFN-TimeInfo					OPTIONAL
}

PUSCH-SysInfoList-SFN-HCR-r5 ::=	SEQUENCE (SIZE (1..maxPUSCH)) OF
										SEQUENCE {
	pusch-SysInfo							PUSCH-SysInfo-HCR-r5,
	sfn-TimeInfo							SFN-TimeInfo					OPTIONAL
}

PUSCH-SysInfoList-SFN-LCR-r4 ::=	SEQUENCE (SIZE (1..maxPUSCH)) OF
										SEQUENCE {
	pusch-SysInfo							PUSCH-SysInfo-LCR-r4,
	sfn-TimeInfo							SFN-TimeInfo					OPTIONAL
}

PUSCH-SysInfoList-SFN-VHCR ::=	SEQUENCE (SIZE (1..maxPUSCH)) OF
										SEQUENCE {
	pusch-SysInfo-VHCR						PUSCH-SysInfo-VHCR,
	sfn-TimeInfo							SFN-TimeInfo					OPTIONAL
}

RACH-TransmissionParameters ::=	SEQUENCE {
	mmax								INTEGER (1..32),
	nb01Min								NB01,
	nb01Max								NB01
}

RadioLinkswithoutDPCHFDPCHInfo ::=	SEQUENCE {
	frameOffset							DPCH-FrameOffset
}

ReducedScramblingCodeNumber ::=		INTEGER (0..8191) 

Reference-Beta-QPSK ::=				SEQUENCE {
	reference-Code-Rate					INTEGER (0..10),
	reference-Beta							INTEGER (-15..16)
}

Reference-Beta-16QAM ::=			SEQUENCE {
	reference-Code-Rate				INTEGER (0..10),
	reference-Beta						INTEGER (-15..16)
}

RepetitionPeriodAndLength ::=		CHOICE {
	repetitionPeriod1					NULL,
	-- repetitionPeriod2 could just as well be NULL also.
	repetitionPeriod2					INTEGER (1..1),
	repetitionPeriod4					INTEGER (1..3),
	repetitionPeriod8					INTEGER (1..7),
	repetitionPeriod16					INTEGER (1..15),
	repetitionPeriod32					INTEGER (1..31),
	repetitionPeriod64					INTEGER (1..63)
}

RepetitionPeriodLengthAndOffset ::= CHOICE {
	repetitionPeriod1						NULL,
	repetitionPeriod2						SEQUENCE {
		length									NULL,
		offset									INTEGER (0..1)
	},
	repetitionPeriod4						SEQUENCE {
		length									INTEGER (1..3),
		offset									INTEGER (0..3)
	},
	repetitionPeriod8						SEQUENCE {
		length									INTEGER (1..7),
		offset									INTEGER (0..7)
	},
	repetitionPeriod16						SEQUENCE {
		length									INTEGER (1..15),
		offset									INTEGER (0..15)
	},
	repetitionPeriod32						SEQUENCE {
		length									INTEGER (1..31),
		offset									INTEGER (0..31)
	},
	repetitionPeriod64						SEQUENCE {
		length									INTEGER (1..63),
		offset									INTEGER (0..63)
	}
}

RepetitionPeriodAndLengthForSPS ::=	CHOICE {
	repetitionPeriod1						NULL,
	-- repetitionPeriod2 could just as well be NULL also.
	repetitionPeriod2						INTEGER (1..1),
	repetitionPeriod4						INTEGER (1..3),
	repetitionPeriod8						INTEGER (1..7),
	repetitionPeriod16						INTEGER (1..15),
	repetitionPeriod32						INTEGER (1..31)
}

ReplacedPDSCH-CodeInfo ::=		SEQUENCE {
	tfci-Field2						MaxTFCI-Field2Value,
	spreadingFactor					SF-PDSCH,
	codeNumber							CodeNumberDSCH,
	multiCodeInfo						MultiCodeInfo
}

ReplacedPDSCH-CodeInfoList ::=	SEQUENCE (SIZE (1..maxTFCI-2-Combs)) OF
										ReplacedPDSCH-CodeInfo

RepPerLengthOffset-PICH ::=		CHOICE {
	rpp4-2								INTEGER (0..3), 
	rpp8-2								INTEGER (0..7), 
	rpp8-4								INTEGER (0..7),
	rpp16-2								INTEGER (0..15), 
	rpp16-4								INTEGER (0..15), 
	rpp32-2								INTEGER (0..31), 
	rpp32-4								INTEGER (0..31), 
	rpp64-2								INTEGER (0..63), 
	rpp64-4								INTEGER (0..63)
}

RepPerLengthOffset-MICH ::=		CHOICE {
	rpp4-2								INTEGER (0..3),
	rpp8-2								INTEGER (0..7),
	rpp8-4								INTEGER (0..7),
	rpp16-2								INTEGER (0..15),
	rpp16-4								INTEGER (0..15),
	rpp32-2								INTEGER (0..31),
	rpp32-4								INTEGER (0..31),
	rpp64-2								INTEGER (0..63),
	rpp64-4								INTEGER (0..63)
}

RestrictedTrCH ::=					SEQUENCE {
	dl-restrictedTrCh-Type			DL-TrCH-Type,
	restrictedDL-TrCH-Identity		TransportChannelIdentity,
	allowedTFIList						AllowedTFI-List
}

RestrictedTrCH-InfoList ::=		SEQUENCE (SIZE(1..maxTrCH)) OF
										RestrictedTrCH

RL-AdditionInformation ::=		SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL,
	-- dummy and dummy2 are not used in this version of specification
	-- and the IEs should be ignored.
	dummy								BOOLEAN,
	dummy2								SCCPCH-InfoForFACH					OPTIONAL
}

RL-AdditionInformation-r6 ::=		SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	cell-Id								CellIdentity						OPTIONAL,
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL						DL-DPCH-InfoPerRL-r5,
		dl-FDPCH-InfoPerRL						DL-FDPCH-InfoPerRL-r6
	},
	e-HICH-Information					E-HICH-Information					OPTIONAL,
	e-RGCH-Information					E-RGCH-Information					OPTIONAL
}

RL-AdditionInformation-r7 ::=		SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	cell-Id								CellIdentity						OPTIONAL,
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL						DL-DPCH-InfoPerRL-r5,
		dl-FDPCH-InfoPerRL						DL-FDPCH-InfoPerRL-r7
	},
	e-HICH-Information					E-HICH-Information					OPTIONAL,
	e-RGCH-Information					E-RGCH-Information					OPTIONAL
}

RL-AdditionInformation-r8 ::=		SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	cell-Id								CellIdentity						OPTIONAL,
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL						DL-DPCH-InfoPerRL-r5,
		dl-FDPCH-InfoPerRL						DL-FDPCH-InfoPerRL-r7
	},
	e-HICH-Information					E-HICH-Information					OPTIONAL,
	e-RGCH-Information					E-RGCH-Information					OPTIONAL,
	targetCellPreconfigInfo			TargetCellPreconfigInfo			OPTIONAL
}

RL-AdditionInformation-r9 ::=		SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	cell-Id								CellIdentity						OPTIONAL,
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL						DL-DPCH-InfoPerRL-r5,
		dl-FDPCH-InfoPerRL						DL-FDPCH-InfoPerRL-r7
	},
	e-HICH-Information					E-HICH-Information					OPTIONAL,
	e-RGCH-Information					E-RGCH-Information					OPTIONAL,
	targetCellPreconfigInfo			TargetCellPreconfigInfo-r9		OPTIONAL
}

RL-AdditionInformation-r10 ::=		SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	cell-Id								CellIdentity						OPTIONAL,
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL						DL-DPCH-InfoPerRL-r5,
		dl-FDPCH-InfoPerRL						DL-FDPCH-InfoPerRL-r7
	},
	e-HICH-Information					E-HICH-Information					OPTIONAL,
	e-RGCH-Information					E-RGCH-Information					OPTIONAL,
	targetCellPreconfigInfo			TargetCellPreconfigInfo-r10		OPTIONAL
}

RL-AdditionInformation-vb50ext ::=	SEQUENCE {
	targetCellPreconfigInfo				TargetCellPreconfigInfo-vb50ext	OPTIONAL
}

RL-AdditionInformation-r11 ::=	SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	cell-Id								CellIdentity						OPTIONAL,
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL						DL-DPCH-InfoPerRL-r5,
		dl-FDPCH-InfoPerRL						DL-FDPCH-InfoPerRL-r7
	},
	e-HICH-Information					E-HICH-Information-r11			OPTIONAL,
	e-RGCH-Information					E-RGCH-Information					OPTIONAL,
	f-TPICH-Information				F-TPICH-Information				OPTIONAL,
	targetCellPreconfigInfo			TargetCellPreconfigInfo-r11		OPTIONAL
}

RL-AdditionInformation-r12 ::=	SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	cell-Id								CellIdentity						OPTIONAL,
	dl-dpchInfo							CHOICE {
		dl-DPCH-InfoPerRL						DL-DPCH-InfoPerRL-ASU,
		dl-FDPCH-InfoPerRL						DL-FDPCH-InfoPerRL-r7,
		radioLinkswithoutDPCHFDPCHInfo		RadioLinkswithoutDPCHFDPCHInfo
	},
	e-HICH-Information					E-HICH-Information-r11			OPTIONAL,
	e-RGCH-Information					E-RGCH-Information					OPTIONAL,
	f-TPICH-Information				F-TPICH-Information				OPTIONAL,
	targetCellPreconfigInfo			TargetCellPreconfigInfo-r12		OPTIONAL
}

RL-AdditionInformation-r13 ::=	SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	cell-Id								CellIdentity						OPTIONAL,
	dl-dpchInfo						CHOICE {
		dl-DPCH-InfoPerRL					DL-DPCH-InfoPerRL-ASU,
		dl-FDPCH-InfoPerRL					DL-FDPCH-InfoPerRL-r13,
		radioLinkswithoutDPCHFDPCHInfo	RadioLinkswithoutDPCHFDPCHInfo
	},
	e-HICH-Information					E-HICH-Information-r11			OPTIONAL,
	e-RGCH-Information					E-RGCH-Information					OPTIONAL,
	f-TPICH-Information				F-TPICH-Information				OPTIONAL,
	targetCellPreconfigInfo			TargetCellPreconfigInfo-r13		OPTIONAL
}

RL-AdditionInformation-v6b0ext ::=	SEQUENCE {
		sttdIndication						STTDIndication					OPTIONAL
}

RL-AdditionInformation-v890ext ::=	SEQUENCE {
	targetCellPreconfigInfo				TargetCellPreconfigInfo-v890ext	OPTIONAL
}

RL-AdditionInformation-v950ext ::=	SEQUENCE {
	targetCellPreconfigInfo				TargetCellPreconfigInfo-v950ext	OPTIONAL
}

RL-AdditionInformationList ::=	SEQUENCE (SIZE (1..maxRL-1)) OF
										RL-AdditionInformation

RL-AdditionInformationList-r6 ::=	SEQUENCE (SIZE (1..maxRL-1)) OF
											RL-AdditionInformation-r6

RL-AdditionInformationList-r7 ::=	SEQUENCE (SIZE (1..maxRL-1)) OF
											RL-AdditionInformation-r7

RL-AdditionInformation-list-v6b0ext ::= SEQUENCE (SIZE (1..maxRL)) OF
												RL-AdditionInformation-v6b0ext

RL-AdditionInformationList-r8 ::=	SEQUENCE (SIZE(1..maxRL-1)) OF
											RL-AdditionInformation-r8

RL-AdditionInformationList-v890ext ::=	SEQUENCE (SIZE (1..maxRL-1)) OF
												RL-AdditionInformation-v890ext

RL-AdditionInformationList-r9 ::=	SEQUENCE (SIZE(1..maxRL-1)) OF
											RL-AdditionInformation-r9

RL-AdditionInformationList-v950ext ::=	SEQUENCE (SIZE(1..maxRL-1)) OF
												RL-AdditionInformation-v950ext

RL-AdditionInformationList-r10 ::=	SEQUENCE (SIZE(1..maxRL-1)) OF
											RL-AdditionInformation-r10

RL-AdditionInformationList-vb50ext ::=	SEQUENCE (SIZE(1..maxRL-1)) OF
												RL-AdditionInformation-vb50ext

RL-AdditionInformationList-r11 ::=	SEQUENCE (SIZE(1..maxRL-1)) OF
											RL-AdditionInformation-r11

RL-AdditionInformationList-r12 ::=	SEQUENCE (SIZE(1..maxRL-1)) OF
											RL-AdditionInformation-r12

RL-AdditionInformationList-r13 ::=	SEQUENCE (SIZE(1..maxRL-1)) OF
											RL-AdditionInformation-r13

RL-AdditionInformationList-SecULFreq ::=	SEQUENCE (SIZE(1..maxEDCHRL-1)) OF
												RL-AdditionInformation-SecULFreq

RL-AdditionInformationList-SecULFreq-r12 ::=	SEQUENCE (SIZE(1..maxEDCHRL-1)) OF
														RL-AdditionInformation-SecULFreq-r12

RL-AdditionInformationList-SecULFreq-r13 ::=	SEQUENCE (SIZE(1..maxEDCHRL-1)) OF
														RL-AdditionInformation-SecULFreq-r13

RL-AdditionInformation-SecULFreq ::=	SEQUENCE {
	primaryCPICH-Info						PrimaryCPICH-Info,
	cell-id									CellIdentity				OPTIONAL,
	dl-FDPCH-InfoPerRL 					DL-FDPCH-InfoPerRL-r7,
	e-HICH-Information						E-HICH-Information,
	e-RGCH-Information						E-RGCH-Information			OPTIONAL
}

RL-AdditionInformation-SecULFreq-r12 ::=	SEQUENCE {
	primaryCPICH-Info							PrimaryCPICH-Info,
	cell-id										CellIdentity				OPTIONAL,
	dl-FDPCH-InfoPerRL 						DL-FDPCH-InfoPerRL-r7,
	e-HICH-Information							E-HICH-Information,
	e-RGCH-Information							E-RGCH-Information			OPTIONAL,
	radioLinkswithoutDPCHFDPCHIndicator		NULL						OPTIONAL
}

RL-AdditionInformation-SecULFreq-r13 ::=	SEQUENCE {
	primaryCPICH-Info							PrimaryCPICH-Info,
	cell-id										CellIdentity				OPTIONAL,
	dl-FDPCH-InfoPerRL 						DL-FDPCH-InfoPerRL-r13,
	e-HICH-Information							E-HICH-Information,
	e-RGCH-Information							E-RGCH-Information			OPTIONAL,
	radioLinkswithoutDPCHFDPCHIndicator		NULL						OPTIONAL
}

RL-IdentifierList ::=				SEQUENCE (SIZE (1..maxRL)) OF
										PrimaryCPICH-Info

RL-RemovalInformationList ::=		SEQUENCE (SIZE (1..maxRL)) OF
										PrimaryCPICH-Info

RL-RemovalInformationList-SecULFreq ::= SEQUENCE (SIZE(1..maxEDCHRL)) OF
												PrimaryCPICH-Info

RPP ::=								ENUMERATED {
										mode0, mode1 }

S-Field ::=						ENUMERATED {
										e1bit, e2bits }

SCCPCH-ChannelisationCode ::=		ENUMERATED {
										cc16-1, cc16-2, cc16-3, cc16-4,
										cc16-5, cc16-6, cc16-7, cc16-8,
										cc16-9, cc16-10, cc16-11, cc16-12,
										cc16-13, cc16-14, cc16-15, cc16-16 }

SCCPCH-ChannelisationCode-VHCR ::=	ENUMERATED {
										cc32-1, cc32-2, cc32-3, cc32-4,
										cc32-5, cc32-6, cc32-7, cc32-8,
										cc32-9, cc32-10, cc32-11, cc32-12,
										cc32-13, cc32-14, cc32-15, cc32-16,
										cc32-17, cc32-18, cc32-19, cc32-20,
										cc32-21, cc32-22, cc32-23, cc32-24,
										cc32-25, cc32-26, cc32-27, cc32-28,
										cc32-29, cc32-30, cc32-31, cc32-32 }

SCCPCH-ChannelisationCodeList ::=	SEQUENCE (SIZE (1..16)) OF
											SCCPCH-ChannelisationCode

SCCPCH-ChannelisationCodeList-VHCR ::=	SEQUENCE (SIZE (1..32)) OF
												SCCPCH-ChannelisationCode-VHCR

SCCPCH-InfoForFACH ::=			SEQUENCE {
	secondaryCCPCH-Info				SecondaryCCPCH-Info,
	tfcs								TFCS,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			fach-PCH-InformationList			FACH-PCH-InformationList,
			sib-ReferenceListFACH				SIB-ReferenceListFACH
		},
		tdd									SEQUENCE {
			fach-PCH-InformationList			FACH-PCH-InformationList
		}
	}
}

SCCPCH-InfoForFACH-r4 ::=			SEQUENCE {
	secondaryCCPCH-Info				SecondaryCCPCH-Info-r4,
	tfcs								TFCS,
	fach-PCH-InformationList			FACH-PCH-InformationList,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			sib-ReferenceListFACH				SIB-ReferenceListFACH
		},
		tdd									NULL
	}
}

SCCPCH-SystemInformation ::=		SEQUENCE {
	secondaryCCPCH-Info				SecondaryCCPCH-Info,
	tfcs								TFCS								OPTIONAL,
	fach-PCH-InformationList			FACH-PCH-InformationList			OPTIONAL,
	pich-Info							PICH-Info							OPTIONAL
}

SCCPCH-SystemInformation-LCR-r4-ext ::=	SEQUENCE {
	secondaryCCPCH-LCR-Extensions			SecondaryCCPCH-Info-LCR-r4-ext,
	-- pich-Info in the SCCPCH-SystemInformation IE shall be absent,
	-- and instead the following used.
	pich-Info									PICH-Info-LCR-r4			OPTIONAL
}

SCCPCH-SystemInformation-HCR-VHCR-r7 ::=	SEQUENCE {
	secondaryCCPCH-Info						SecondaryCCPCH-Info-HCR-VHCR-r7,
	tfcs										TFCS								OPTIONAL,
	fach-PCH-InformationList					FACH-PCH-InformationList			OPTIONAL,
	pich-Info									PICH-Info-HCR-VHCR-r7				OPTIONAL
}

SCCPCH-SystemInformationList ::=	SEQUENCE (SIZE (1..maxSCCPCH)) OF
										SCCPCH-SystemInformation

SCCPCH-SystemInformationList-HCR-VHCR-r7 ::=	SEQUENCE (SIZE (1..maxSCCPCH)) OF
														SCCPCH-SystemInformation-HCR-VHCR-r7

-- SCCPCH-SystemInformationList-LCR-r4-ext includes elements additional to those in
-- SCCPCH-SystemInformationList for the 1.28Mcps TDD. The order of the IEs
-- indicates which SCCPCH-SystemInformation-LCR-r4-ext IE extends which
-- SCCPCH-SystemInformation IE.
SCCPCH-SystemInformationList-LCR-r4-ext ::=	SEQUENCE (SIZE (1..maxSCCPCH)) OF
													SCCPCH-SystemInformation-LCR-r4-ext

-- The SCCPCH-SystemInformation-MBMS-r6 is used for an S-CCPCH dedicated for MBMS purposes.
SCCPCH-SystemInformation-MBMS-r6 ::=	SEQUENCE {
	secondaryCCPCHInfo-MBMS				SecondaryCCPCHInfo-MBMS-r6,
	transportFormatCombinationSet		TFCS,
	fachCarryingMCCH						SEQUENCE {
		mcch-transportFormatSet				TransportFormatSet,
		mcch-ConfigurationInfo				MBMS-MCCH-ConfigurationInfo-r6
	},
	fachCarryingMTCH-List					MBMS-FACHCarryingMTCH-List			OPTIONAL,
	-- If schedulingInformation is provided
	fachCarryingMSCH						SEQUENCE {
		msch-transportFormatSet				TransportFormatSet,
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy									MBMS-MSCH-ConfigurationInfo-r6
	}		OPTIONAL
}

-- The SCCPCH-SystemInformation-MBMS-r7 is used for an S-CCPCH dedicated for MBMS purposes.
SCCPCH-SystemInformation-MBMS-r7 ::=	SEQUENCE {
	secondaryCCPCHInfo-MBMS				SecondaryCCPCHInfo-MBMS-r7,
	transportFormatCombinationSet		TFCS,
	fachCarryingMCCH						SEQUENCE {
		mcch-transportFormatSet				TransportFormatSet,
		mcch-ConfigurationInfo				MBMS-MCCH-ConfigurationInfo-r6
	},
	fachCarryingMTCH-List					MBMS-FACHCarryingMTCH-List			OPTIONAL,
	-- If schedulingInformation is provided
	fachCarryingMSCH						SEQUENCE {
		msch-transportFormatSet				TransportFormatSet
	}		OPTIONAL
}

S-CPICH-PowerOffset-MIMO ::=			INTEGER (-6..0)

S-CPICH-PowerOffset-4x4MIMO ::=		INTEGER (-12..0)

ScheduledTransmissionConfiguration ::=	SEQUENCE {
	common-E-DCH-ResourceInfoListExt			SEQUENCE (SIZE (1..maxEDCHs)) OF
										Common-E-DCH-ResourceInfoListExt
}

ScramblingCodeChange ::=			ENUMERATED {
										codeChange, noCodeChange }

ScramblingCodeType ::=			ENUMERATED {
										shortSC,
										longSC }

SecondaryCCPCH-Info ::=		SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			-- dummy1 is not used in this version of the specification and should be ignored.
			dummy1							PCPICH-UsageForChannelEst,
			-- dummy2 is not used in this version of the specification.  It should not
			-- be sent and if received it should be ignored.
			dummy2							SecondaryCPICH-Info				OPTIONAL,
			secondaryScramblingCode			SecondaryScramblingCode			OPTIONAL,
			sttd-Indicator					BOOLEAN,
			sf-AndCodeNumber				SF256-AndCodeNumber,
			pilotSymbolExistence			BOOLEAN,
			tfci-Existence					BOOLEAN,
			positionFixedOrFlexible		PositionFixedOrFlexible,
			timingOffset					TimingOffset					DEFAULT 0
		},
		tdd 							SEQUENCE {
			-- TABULAR: the offset is included in CommonTimeslotInfoSCCPCH
			commonTimeslotInfo				CommonTimeslotInfoSCCPCH,
			individualTimeslotInfo		IndividualTimeslotInfo,
			channelisationCode				SCCPCH-ChannelisationCodeList
		}
	}
}

SecondaryCCPCH-Info-r4 ::=	SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			secondaryScramblingCode		SecondaryScramblingCode			OPTIONAL,
			sttd-Indicator					BOOLEAN,
			sf-AndCodeNumber				SF256-AndCodeNumber,
			pilotSymbolExistence			BOOLEAN,
			tfci-Existence					BOOLEAN,
			positionFixedOrFlexible		PositionFixedOrFlexible,
			timingOffset					TimingOffset					DEFAULT 0
		},
		tdd 							SEQUENCE {
			-- TABULAR: the offset is included in CommonTimeslotInfoSCCPCH
			commonTimeslotInfo				CommonTimeslotInfoSCCPCH,
			tddOption						CHOICE {
				tdd384							SEQUENCE {
					individualTimeslotInfo		IndividualTimeslotInfo
				},
				tdd128							SEQUENCE {
					individualTimeslotInfo		IndividualTimeslotInfo-LCR-r4
				}
			},
			channelisationCode				SCCPCH-ChannelisationCodeList
		}
	}
}

SecondaryCCPCH-Info-HCR-VHCR-r7 ::=	SEQUENCE {
	modeSpecificInfo						CHOICE {
		tdd384									SEQUENCE {
			individualTimeslotInfo				IndividualTimeslotInfo-r7,
			channelisationCode						SCCPCH-ChannelisationCodeList
		},
		tdd768									SEQUENCE {
			individualTimeslotInfo				IndividualTimeslotInfo-VHCR,
			channelisationCode						SCCPCH-ChannelisationCodeList-VHCR
		}
	}
}

SecondaryCCPCH-Info-LCR-r4-ext ::=	SEQUENCE {
	individualTimeslotLCR-Ext				IndividualTimeslotInfo-LCR-r4-ext
}

SecondaryCCPCHFrameType2Info ::=	SEQUENCE {
	subFrameNumber						INTEGER (0..4),
	dl-ChannelisationCodes			DL-ChannelCodes-MBSFN-IMB384,
	modulation							CHOICE {
		modQPSK								NULL,
		mod16QAM							SEQUENCE {
			cpich-SecCCPCH-PowerOffset			INTEGER (-11..4)
		}
	}
}

SecondaryCCPCHInfo-MBMS-r6 ::=		SEQUENCE {
	modeSpecificInfo						CHOICE {
		fdd										SEQUENCE {
			secondaryScramblingCode				SecondaryScramblingCode		OPTIONAL,
			sttd-Indicator							BOOLEAN,
			sf-AndCodeNumber						SF256-AndCodeNumber,
			timingOffset							TimingOffset					DEFAULT 0
		},
		tdd384									SEQUENCE {
			commonTimeslotInfoMBMS				CommonTimeslotInfoMBMS,
			downlinkTimeslotsCodes				DownlinkTimeslotsCodes
		},
		tdd128									SEQUENCE {
			commonTimeslotInfoMBMS				CommonTimeslotInfoMBMS,
			downlinkTimeslotsCodes				DownlinkTimeslotsCodes-LCR-r4
		}
	}
}

SecondaryCCPCHInfo-MBMS-r7 ::=		SEQUENCE {
	modeSpecificInfo						CHOICE {
		-- The CHOICE fdd is used for both "fdd" and "3.84 Mcps TDD MBSFN IMB"
		fdd										SEQUENCE {
			-- The IE secondaryScramblingCode is not applicable for "3.84 Mcps TDD MBSFN IMB"
			secondaryScramblingCode				SecondaryScramblingCode			OPTIONAL,
			-- The IE sttd-Indicator is not applicable for cells operating in MBSFN mode,
			-- the UE behaviour is unspecified
			sttd-Indicator							BOOLEAN,
			sf-AndCodeNumber						SF256-AndCodeNumber,
			-- The IE timingOffset is not applicable for "3.84 Mcps TDD MBSFN IMB"
			timingOffset							TimingOffset					DEFAULT 0,
			modulation								CHOICE {
				modQPSK									NULL,
				-- The CHOICE mod16QAM is not applicable for MCCH in "3.84 Mcps TDD MBSFN IMB"
				mod16QAM								INTEGER (-11..4)
			}	OPTIONAL
		},
		tdd384									SEQUENCE {
			commonTimeslotInfoMBMS				CommonTimeslotInfoMBMS,
			downlinkTimeslotsCodes				DownlinkTimeslotsCodes-r7,
			modulation								ENUMERATED { modQPSK, mod16QAM }
		},
		tdd768									SEQUENCE {
			commonTimeslotInfoMBMS				CommonTimeslotInfoMBMS,
			downlinkTimeslotsCodes				DownlinkTimeslotsCodes-VHCR,
			modulation								ENUMERATED { modQPSK, mod16QAM }
		},
		tdd128									SEQUENCE {
			commonTimeslotInfoMBMS				CommonTimeslotInfoMBMS,
			downlinkTimeslotsCodes				DownlinkTimeslotsCodes-LCR-r4,
			mbsfnSpecialTimeSlot					TimeSlotLCR-ext					OPTIONAL,
			modulation								ENUMERATED { modQPSK, mod16QAM }
		}
	}
}

SecondaryCCPCHInfoDiff-MBMS ::=		SEQUENCE {
	secondaryScramblingCode				SecondaryScramblingCode		OPTIONAL,
	sttd-Indicator							BOOLEAN,
	sf-AndCodeNumber						SF256-AndCodeNumber			OPTIONAL,
	timingOffset							TimingOffset					OPTIONAL
}

SecondaryCPICH-Info ::=				SEQUENCE {
	secondaryDL-ScramblingCode			SecondaryScramblingCode		OPTIONAL,
	channelisationCode						ChannelisationCode256
}

SecondaryScramblingCode ::=			INTEGER (1..15)

SecondaryCellMIMOparametersFDD ::=	CHOICE {
	continue								NULL,
	newConfiguration						SEQUENCE {
			mimoN-M-Ratio						MIMO-N-M-Ratio					OPTIONAL,
			mimoPilotConfiguration			MIMO-PilotConfiguration-r9	OPTIONAL
	}
}

SecondaryCellMIMOparametersFDD-v950ext ::=	SEQUENCE {
	precodingWeightSetRestriction				ENUMERATED { true }		OPTIONAL
}

SecondaryCellMIMOparametersFDD-r10 ::=	CHOICE {
	continue									NULL,
	newConfiguration							SEQUENCE {
			mimoN-M-Ratio							MIMO-N-M-Ratio					OPTIONAL,
			mimoPilotConfiguration				MIMO-PilotConfiguration-r9	OPTIONAL,
			precodingWeightSetRestriction			ENUMERATED { true }			OPTIONAL
	}
}

SecondaryCell4x4MIMOparametersFDD ::=	SEQUENCE {
	configurationInfo							CHOICE {
		continue									NULL,
		newConfiguration							SEQUENCE {
			mimoN-M-Ratio								MIMO-N-M-Ratio					OPTIONAL,
			mimoPilotConfiguration					MIMO4x4-PilotConfiguration	OPTIONAL,
			precodingWeightSetRestriction				BIT STRING (SIZE (64))		OPTIONAL
		}
	}
}

SecondInterleavingMode ::=		ENUMERATED {
										frameRelated, timeslotRelated }

ServingCellChangeMACreset ::=		BOOLEAN

ServingCellChangeMsgType ::=		ENUMERATED {
										radioBearerSetup,
										radioBearerReconfiguration,
										transportChannelReconfiguration,
										physicalChannelReconfiguration }

ServingCellChangeParameters ::=	SEQUENCE {
	servingCellChangeMACreset			ServingCellChangeMACreset,
	servingCellChangeMsgType			ServingCellChangeMsgType,
	servingCellChangeTrId				ServingCellChangeTrId
}

ServingCellChangeParameters-r12 ::=	SEQUENCE {
	servingCellChangeMACreset				ServingCellChangeMACreset,
	servingCellChangeMsgType				ServingCellChangeMsgType,
	servingCellChangeTrId					ServingCellChangeTrId,
	enhancedServingCellChangeforEvent1CsupportIndicator	ENUMERATED { true }	OPTIONAL
}
ServingCellChangeTrId ::=			INTEGER (0..3)

SF8Codes ::=						ENUMERATED {
										cc8-1, cc8-2, cc8-3, cc8-4, cc8-5, cc8-6,  cc8-7, cc8-8}

SF16Codes ::=						ENUMERATED {
										cc16-1, cc16-2, cc16-3, cc16-4, cc16-5, cc16-6, cc16-7,
										cc16-8}

SF16Codes2 ::=						ENUMERATED {
										cc16-1, cc16-2, cc16-3, cc16-4, cc16-5, cc16-6, cc16-7,
										cc16-8, cc16-9, cc16-10, cc16-11, cc16-12, cc16-13, cc16-14,
										cc16-15, cc16-16}

SF32Codes ::=						ENUMERATED {
										cc32-1, cc32-2, cc32-3, cc32-4, cc32-5, cc32-6, cc32-7,
										cc32-8, cc32-9, cc32-10, cc32-11, cc32-12, cc32-13, cc32-14,
										cc32-15, cc32-16}

-- SF256-AndCodeNumber encodes both "Spreading factor" and "Code Number"
SF256-AndCodeNumber ::=			CHOICE {
	sf4									INTEGER (0..3),
	sf8									INTEGER (0..7),
	sf16								INTEGER (0..15),
	sf32								INTEGER (0..31),
	sf64								INTEGER (0..63),
	sf128								INTEGER (0..127),
	sf256								INTEGER (0..255)
}

-- SF512-AndCodeNumber encodes both "Spreading factor" and "Code Number"
SF512-AndCodeNumber ::=			CHOICE {
	sf4									INTEGER (0..3),
	sf8									INTEGER (0..7),
	sf16								INTEGER (0..15),
	sf32								INTEGER (0..31),
	sf64								INTEGER (0..63),
	sf128								INTEGER (0..127),
	sf256								INTEGER (0..255),
	sf512								INTEGER (0..511)
}

-- SF512-AndPilot encodes both "Spreading factor" and "Number of bits for Pilot bits"
SF512-AndPilot ::=					CHOICE {
	sfd4								NULL, 
	sfd8								NULL, 
	sfd16								NULL, 
	sfd32								NULL,
	sfd64								NULL, 
	sfd128								PilotBits128, 
	sfd256								PilotBits256, 
	sfd512								NULL
}

SF512-AndPilot-r12 ::=			CHOICE {
	sfd4								NULL, 
	sfd8								NULL, 
	sfd16								NULL, 
	sfd32								NULL,
	sfd64								NULL, 
	sfd128								PilotBits128-r12, 
	sfd256								PilotBits256-r12, 
	sfd512								NULL
}

SF-PDSCH ::=						ENUMERATED {
										sfp4, sfp8, sfp16, sfp32,
										sfp64, sfp128, sfp256 }

SF-PRACH ::=						ENUMERATED {
										sfpr32, sfpr64, sfpr128, sfpr256 }

SFN-TimeInfo ::=					SEQUENCE {
	activationTimeSFN					INTEGER (0..4095),
	physChDuration						DurationTimeInfo
}

-- actual scheduling value = 2(signalled value +1) and is the periodicity of sending
-- special burst frames
SpecialBurstScheduling ::=		INTEGER (0..7)

SpreadingFactor ::=				ENUMERATED {
										sf4, sf8, sf16, sf32,
										sf64, sf128, sf256 }

SPS-Information-TDD128-r8 ::=		SEQUENCE {
	e-dch-SPS-Info						E-DCH-SPS-Information-TDD128			OPTIONAL,
	hs-dsch-SPS-Info					HS-DSCH-SPS-Information-TDD128		OPTIONAL
}

SRB-delay ::=						INTEGER (0..7)

SSDT-CellIdentity ::=				ENUMERATED {
										ssdt-id-a, ssdt-id-b, ssdt-id-c,
										ssdt-id-d, ssdt-id-e, ssdt-id-f,
										ssdt-id-g, ssdt-id-h }

SSDT-Information ::=				SEQUENCE {
	s-Field								S-Field,
	codeWordSet						CodeWordSet
}

SSDT-Information-r4 ::=			SEQUENCE {
	s-Field								S-Field,
	codeWordSet						CodeWordSet,
	ssdt-UL-r4							SSDT-UL									OPTIONAL
}

SSDT-UL ::=						ENUMERATED {
										ul, ul-AndDL }

StandaloneMidambleInfo-TDD128 ::=	SEQUENCE {
		-- Actual value midambleConfiguration = IE value * 2
	midambleConfiguration					INTEGER (1..8),
	midambleShift							INTEGER (0..15),
	timeSlotInformation					BIT STRING (SIZE (5)),
	activationTime							ActivationTime,
	subframeNum							INTEGER (0..1),
	repetitionPeriod						ENUMERATED {
												v1, v2, v4, v8,
												v16, v32, v64, spare},
	referenceBeta							INTEGER (-15..16)	OPTIONAL
}

STTDIndication ::=					ENUMERATED { true }

SynchronisationParameters-r4 ::=	SEQUENCE {
	sync-UL-CodesBitmap				BIT STRING {
											code7(0),
											code6(1),
											code5(2),
											code4(3),
											code3(4),
											code2(5),
											code1(6),
											code0(7)
											} (SIZE (8)),
	fpach-Info							FPACH-Info-r4,
	-- Actual value prxUpPCHdes = IE value - 120
	prxUpPCHdes						INTEGER (0..62),
	sync-UL-Procedure					SYNC-UL-Procedure-r4	OPTIONAL
}

Sync-UL-Codes-Bitmap ::=			BIT STRING {
										code7(0),
										code6(1),
										code5(2),
										code4(3),
										code3(4),
										code2(5),
										code1(6),
										code0(7)
									} (SIZE (8))

SYNC-UL-Procedure-r4 ::=			SEQUENCE {
	max-SYNC-UL-Transmissions			ENUMERATED { tr1, tr2, tr4, tr8 },
	powerRampStep						INTEGER (0..3)
}

SYNC-UL-Info-r4 ::=				SEQUENCE {
	sync-UL-Codes-Bitmap				Sync-UL-Codes-Bitmap,
	-- Actual value prxUpPCHdes = IE value - 120
	prxUpPCHdes						INTEGER (0..62),
	powerRampStep						INTEGER (0..3),
	max-SYNC-UL-Transmissions			ENUMERATED { tr1, tr2, tr4, tr8 },
	mmax								INTEGER(1..32)
}

SYNC-UL-InfoForE-RUCCH ::=		SEQUENCE {
	prxUpPCHdes						INTEGER (0..62)						OPTIONAL,
	powerRampStep						INTEGER (0..3)							OPTIONAL,
	max-SYNC-UL-Transmissions			ENUMERATED { tr1, tr2, tr4, tr8 }	OPTIONAL,
	e-RUCCH-Sync-UL-Codes-Bitmap		Sync-UL-Codes-Bitmap,
	mmax								INTEGER(1..32)
}

TargetCellPreconfigInfo ::=		SEQUENCE {
	activationTimeOffset				ActivationTimeOffset				OPTIONAL,
	new-H-RNTI							H-RNTI,
	newPrimary-E-RNTI					E-RNTI								OPTIONAL,
	newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r8,
	e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r7,
	dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
	dtx-drx-Info						DTX-DRX-Info-r7					OPTIONAL,
	hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
	mimoParameters						MIMO-Parameters-r8					OPTIONAL,
	dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD			OPTIONAL
}

TargetCellPreconfigInfo-v890ext ::=		MIMO-Parameters-v7f0ext

TargetCellPreconfigInfo-r9 ::=	SEQUENCE {
	activationTimeOffset				ActivationTimeOffset				OPTIONAL,
	new-H-RNTI							H-RNTI,
	newPrimary-E-RNTI					E-RNTI								OPTIONAL,
	newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r9,
	e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r7,
	dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
	dtx-drx-Info						DTX-DRX-Info-r7					OPTIONAL,
	hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
	mimoParameters						MIMO-Parameters-r9					OPTIONAL,
	dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r9		OPTIONAL,
	ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD			OPTIONAL,
	e-dch-ReconfigurationInfo-SecULFrequency	
								E-DCH-ReconfigurationInfo-SecULFrequency	OPTIONAL
}

TargetCellPreconfigInfo-v950ext ::=		SecondaryCellMIMOparametersFDD-v950ext

TargetCellPreconfigInfo-r10 ::=		SEQUENCE {
	activationTimeOffset					ActivationTimeOffset			OPTIONAL,
	new-H-RNTI							H-RNTI,
	newPrimary-E-RNTI					E-RNTI								OPTIONAL,
	newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r9,
	e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r7,
	dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
	dtx-drx-Info						DTX-DRX-Info-r7					OPTIONAL,
	hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
	mimoParameters						MIMO-Parameters-r9					OPTIONAL,
	dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r10		OPTIONAL,
	additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD	OPTIONAL,
	ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD			OPTIONAL,
	e-dch-ReconfigurationInfo-SecULFrequency	
								E-DCH-ReconfigurationInfo-SecULFrequency	OPTIONAL
}

TargetCellPreconfigInfo-vb50ext ::=	SEQUENCE {
	ulOLTDInfoFDD							UL-OLTD-InfoFDD				OPTIONAL
}

TargetCellPreconfigInfo-r11 ::=	SEQUENCE {
	activationTimeOffset				ActivationTimeOffset				OPTIONAL,
	new-H-RNTI							H-RNTI,
	newPrimary-E-RNTI					E-RNTI								OPTIONAL,
	newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r11,
	e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r11,
	dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
	dtx-drx-Info						DTX-DRX-Info-r7					OPTIONAL,
	hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
	mimoParameters						MIMO-Parameters-r9					OPTIONAL,
	mimo4x4Parameters					MIMO4x4-Parameters					OPTIONAL,
	dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11		OPTIONAL,
	additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
	additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2	OPTIONAL,
	ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD			OPTIONAL,
	e-dch-ReconfigurationInfo-SecULFrequency	
								E-DCH-ReconfigurationInfo-SecULFrequency	OPTIONAL,
	ul-CLTD-InfoFDD					UL-CLTD-InfoFDD					OPTIONAL,
	f-tpich-ReconfigurationInfo		F-TPICH-ReconfigurationInfo		OPTIONAL,
	uL-OLTD-InfoFDD					UL-OLTD-InfoFDD					OPTIONAL,
	ul-16QAM-Config					UL-16QAM-Config					OPTIONAL,
	ul-64QAM-Config					UL-64QAM-Config					OPTIONAL,
	ul-MIMO-Info						UL-MIMO-InfoFDD					OPTIONAL
}

TargetCellPreconfigInfo-r12 ::=	SEQUENCE {
	activationTimeOffset				ActivationTimeOffset				OPTIONAL,
	new-H-RNTI							H-RNTI,
	newPrimary-E-RNTI					E-RNTI								OPTIONAL,
	newSecondary-E-RNTI				E-RNTI								OPTIONAL,
	serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r12,
	e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r11,
	dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7				OPTIONAL,
	dtx-drx-Info						DTX-DRX-Info-r12					OPTIONAL,
	hs-scch-LessInfo					HS-SCCH-LessInfo-r7				OPTIONAL,
	mimoParameters						MIMO-Parameters-r9					OPTIONAL,
	mimo4x4Parameters					MIMO4x4-Parameters					OPTIONAL,
	dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11		OPTIONAL,
	additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
	additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2	OPTIONAL,
	ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r12		OPTIONAL,
	e-dch-ReconfigurationInfo-SecULFrequency	
								E-DCH-ReconfigurationInfo-SecULFrequency	OPTIONAL,
	ul-CLTD-InfoFDD					UL-CLTD-InfoFDD					OPTIONAL,
	f-tpich-ReconfigurationInfo		F-TPICH-ReconfigurationInfo		OPTIONAL,
	uL-OLTD-InfoFDD					UL-OLTD-InfoFDD					OPTIONAL,
	ul-16QAM-Config					UL-16QAM-Config					OPTIONAL,
	ul-64QAM-Config					UL-64QAM-Config					OPTIONAL,
	ul-MIMO-Info						UL-MIMO-InfoFDD					OPTIONAL,
	dPCCH2InfoFDD						DPCCH2InfoFDD						OPTIONAL
}

TargetCellPreconfigInfo-r13 ::=	SEQUENCE {
	activationTimeOffset				ActivationTimeOffset					OPTIONAL,
	new-H-RNTI							H-RNTI,
	newPrimary-E-RNTI					E-RNTI									OPTIONAL,
	newSecondary-E-RNTI				E-RNTI									OPTIONAL,
	serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r12,
	e-dch-ReconfigurationInfo			E-DCH-ReconfigurationInfo-r11,
	dtx-drx-TimingInfo					DTX-DRX-TimingInfo-r7					OPTIONAL,
	dtx-drx-Info						DTX-DRX-Info-r12						OPTIONAL,
	hs-scch-LessInfo					HS-SCCH-LessInfo-r7					OPTIONAL,
	mimoParameters						MIMO-Parameters-r9						OPTIONAL,
	mimo4x4Parameters					MIMO4x4-Parameters						OPTIONAL,
	dl-SecondaryCellInfoFDD			DL-SecondaryCellInfoFDD-r11			OPTIONAL,
	additionalDLSecCellInfoListFDD	AdditionalDLSecCellInfoListFDD-r11	OPTIONAL,
	additionalDLSecCellInfoListFDD2	AdditionalDLSecCellInfoListFDD2		OPTIONAL,
	ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r13			OPTIONAL,
	e-dch-ReconfigurationInfo-SecULFrequency	
								E-DCH-ReconfigurationInfo-SecULFrequency	OPTIONAL,
	ul-CLTD-InfoFDD					UL-CLTD-InfoFDD						OPTIONAL,
	f-tpich-ReconfigurationInfo		F-TPICH-ReconfigurationInfo			OPTIONAL,
	uL-OLTD-InfoFDD					UL-OLTD-InfoFDD						OPTIONAL,
	ul-16QAM-Config					UL-16QAM-Config						OPTIONAL,
	ul-64QAM-Config					UL-64QAM-Config						OPTIONAL,
	ul-MIMO-Info						UL-MIMO-InfoFDD						OPTIONAL,
	dPCCH2InfoFDD						DPCCH2InfoFDD							OPTIONAL
}


TDD-FPACH-CCode16-r4 ::=			ENUMERATED {
										cc16-1, cc16-2, cc16-3, cc16-4,
										cc16-5, cc16-6, cc16-7, cc16-8,
										cc16-9, cc16-10, cc16-11, cc16-12,
										cc16-13, cc16-14, cc16-15, cc16-16 }

TDD-UL-Interference ::=			INTEGER (-110..-52)

TDD-PICH-CCode ::=					ENUMERATED {
										cc16-1, cc16-2, cc16-3, cc16-4,
										cc16-5, cc16-6, cc16-7, cc16-8,
										cc16-9, cc16-10, cc16-11, cc16-12,
										cc16-13, cc16-14, cc16-15, cc16-16 }

TDD768-PICH-CCode ::=				ENUMERATED {
										cc32-1, cc32-2, cc32-3, cc32-4,
										cc32-5, cc32-6, cc32-7, cc32-8,
										cc32-9, cc32-10, cc32-11, cc32-12,
										cc32-13, cc32-14, cc32-15, cc32-16,
										cc32-17, cc32-18, cc32-19, cc32-20,
										cc32-21, cc32-22, cc32-23, cc32-24,
										cc32-25, cc32-26, cc32-27, cc32-28,
										cc32-29, cc32-30, cc32-31, cc32-32 }

TDD-MBSFNInformation ::=			SEQUENCE (SIZE (1..maxTS)) OF
										TDD-MBSFNTSlotInfo

TDD-MBSFNTSlotInfo ::=			SEQUENCE {
	timeSlotNumber						TimeslotNumber,
	cellParametersID					CellParametersID
}

TDD-PRACH-CCode8 ::=				ENUMERATED {
										cc8-1, cc8-2, cc8-3, cc8-4,
										cc8-5, cc8-6, cc8-7, cc8-8 }

TDD-PRACH-CCode16 ::=				ENUMERATED {
										cc16-1, cc16-2, cc16-3, cc16-4,
										cc16-5, cc16-6, cc16-7, cc16-8,
										cc16-9, cc16-10, cc16-11, cc16-12,
										cc16-13, cc16-14, cc16-15, cc16-16 }

TDD-PRACH-CCode-LCR-r4 ::=		ENUMERATED {
										cc4-1, cc4-2, cc4-3, cc4-4,
										cc8-1, cc8-2, cc8-3, cc8-4,
										cc8-5, cc8-6, cc8-7, cc8-8,
										cc16-1, cc16-2, cc16-3, cc16-4,
										cc16-5, cc16-6, cc16-7, cc16-8,
										cc16-9, cc16-10, cc16-11, cc16-12,
										cc16-13, cc16-14, cc16-15, cc16-16 }

TDD-PRACH-CCodeList ::= 			CHOICE {
	sf8									SEQUENCE (SIZE (1..8)) OF 
											TDD-PRACH-CCode8,
-- Channelisation codes cc16-9, cc16-10, cc16-11, cc16-12, cc16-13, cc16-14,
-- cc16-15 and cc16-16 shall not be used
	sf16								SEQUENCE (SIZE (1..8)) OF
											TDD-PRACH-CCode16
}

TDD768-PRACH-CCode16 ::=				ENUMERATED {
										cc16-1, cc16-2, cc16-3, cc16-4,
										cc16-5, cc16-6, cc16-7, cc16-8,
										cc16-9, cc16-10, cc16-11, cc16-12,
										cc16-13, cc16-14, cc16-15, cc16-16 }

TDD768-PRACH-CCode32 ::=				ENUMERATED {
										cc32-1, cc32-2, cc32-3, cc32-4,
										cc32-5, cc32-6, cc32-7, cc32-8,
										cc32-9, cc32-10, cc32-11, cc32-12,
										cc32-13, cc32-14, cc32-15, cc32-16 }

TDD768-PRACH-CCodeList ::= 			CHOICE {
	sf32								SEQUENCE (SIZE (1..16)) OF 
											TDD768-PRACH-CCode32,
-- Channelisation codes cc32-17, cc32-18, cc32-19, cc32-20, cc32-21, cc32-22,
-- cc32-23, cc32-24, cc32-25, cc32-26, cc32-27, cc32-28, cc32-29, cc32-30, cc32-31
-- and cc32-32 shall not be used
	sf16								SEQUENCE (SIZE (1..16)) OF
											TDD768-PRACH-CCode16
}

TFC-ControlDuration ::=				ENUMERATED {
										tfc-cd1, tfc-cd2, tfc-cd4, tfc-cd8,
										tfc-cd16, tfc-cd24, tfc-cd32,
										tfc-cd48, tfc-cd64, tfc-cd128,
										tfc-cd192, tfc-cd256, tfc-cd512 }

TFCI-Coding ::=						ENUMERATED { 
										tfci-bits-4, tfci-bits-8,
										tfci-bits-16, tfci-bits-32 }

TGCFN ::=							INTEGER (0..255)

-- In TGD, value 270 represents "undefined" in the tabular description.
TGD ::=								INTEGER (15..270)

TGL ::=								INTEGER (1..14)

TGMP ::=							ENUMERATED {
										tdd-Measurement, fdd-Measurement,
										gsm-CarrierRSSIMeasurement, 
										gsm-initialBSICIdentification, gsmBSICReconfirmation,
										multi-carrier }

TGMP-r8 ::=							ENUMERATED {
										tdd-Measurement, fdd-Measurement,
										gsm-CarrierRSSIMeasurement,
										gsm-initialBSICIdentification, gsmBSICReconfirmation,
										multi-carrier, e-UTRA, spare }

TGP-Sequence ::=					SEQUENCE {
	tgpsi								TGPSI,
	tgps-Status							CHOICE {
		activate							SEQUENCE {
			tgcfn								TGCFN
		},
		deactivate							NULL
	},
	tgps-ConfigurationParams			TGPS-ConfigurationParams			OPTIONAL
}

TGP-Sequence-r8 ::=					SEQUENCE {
	tgpsi								TGPSI,
	tgps-Status							CHOICE {
		activate							SEQUENCE {
			tgcfn								TGCFN
		},
		deactivate							NULL
	},
	tgps-ConfigurationParams			TGPS-ConfigurationParams-r8			OPTIONAL
}

TGP-Sequence-r10 ::=					SEQUENCE {
	tgpsi								TGPSI,
	tgps-Status							CHOICE {
		activate							SEQUENCE {
			tgcfn								TGCFN
		},
		deactivate							NULL
	},
	tgps-ConfigurationParams			TGPS-ConfigurationParams-r10			OPTIONAL
}

TGPS-Reconfiguration-CFN ::=		INTEGER (0..255)

TGP-SequenceList ::=				SEQUENCE (SIZE (1..maxTGPS)) OF
										TGP-Sequence

TGP-SequenceList-r8 ::=				SEQUENCE (SIZE (1..maxTGPS)) OF
										TGP-Sequence-r8

TGP-SequenceList-r10 ::=			SEQUENCE (SIZE (1..maxTGPS)) OF
										TGP-Sequence-r10

TGP-SequenceShort ::=				SEQUENCE {
	tgpsi								TGPSI,
	tgps-Status							CHOICE {
		activate							SEQUENCE {
			tgcfn								TGCFN
		},
		deactivate							NULL
	}
}

TGP-SequenceShort-r10 ::=				SEQUENCE {
	tgpsi								TGPSI,
	tgps-Status							CHOICE {
		activate							SEQUENCE {
			tgcfn								TGCFN
		},
		deactivate							NULL
	},
	freqSpecificCompressedMode			ENUMERATED { true }					OPTIONAL
}

TGPL ::=							INTEGER (1..144)

-- TABULAR: In TGPRC, value 0 represents "infinity" in the tabular description.
TGPRC ::=							INTEGER (0..511)

TGPS-ConfigurationParams ::=		SEQUENCE {
	tgmp								TGMP,
	tgprc								TGPRC,
	tgsn								TGSN,
	tgl1								TGL,
	tgl2								TGL									OPTIONAL,
	tgd									TGD,
	tgpl1								TGPL,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received it shall be ignored.
	dummy							TGPL								OPTIONAL,
	rpp									RPP,
	itp									ITP,
	-- TABULAR: Compressed mode method is nested inside UL-DL-Mode
	ul-DL-Mode							UL-DL-Mode,
	dl-FrameType						DL-FrameType,
	deltaSIR1							DeltaSIR,
	deltaSIRAfter1						DeltaSIR,
	deltaSIR2							DeltaSIR							OPTIONAL,
	deltaSIRAfter2						DeltaSIR							OPTIONAL,
	nidentifyAbort						NidentifyAbort						OPTIONAL,
	treconfirmAbort						TreconfirmAbort						OPTIONAL
}

TGPS-ConfigurationParams-r8 ::=		SEQUENCE {
	tgmp								TGMP-r8,
	tgprc								TGPRC,
	tgsn								TGSN,
	tgl1								TGL,
	tgl2								TGL									OPTIONAL,
	tgd									TGD,
	tgpl1								TGPL,
	rpp									RPP,
	itp									ITP,
	-- TABULAR: Compressed mode method is nested inside UL-DL-Mode
	ul-DL-Mode							UL-DL-Mode,
	dl-FrameType						DL-FrameType,
	deltaSIR1							DeltaSIR,
	deltaSIRAfter1						DeltaSIR,
	deltaSIR2							DeltaSIR							OPTIONAL,
	deltaSIRAfter2						DeltaSIR							OPTIONAL,
	nidentifyAbort						NidentifyAbort						OPTIONAL,
	treconfirmAbort						TreconfirmAbort						OPTIONAL
}

TGPS-ConfigurationParams-r10 ::=		SEQUENCE {
	tgmp								TGMP-r8,
	freqSpecificCompressedMode			ENUMERATED { true }					OPTIONAL,
	tgprc								TGPRC,
	tgsn								TGSN,
	tgl1								TGL,
	tgl2								TGL									OPTIONAL,
	tgd									TGD,
	tgpl1								TGPL,
	rpp									RPP,
	itp									ITP,
	-- TABULAR: Compressed mode method is nested inside UL-DL-Mode
	ul-DL-Mode							UL-DL-Mode,
	dl-FrameType						DL-FrameType,
	deltaSIR1							DeltaSIR,
	deltaSIRAfter1						DeltaSIR,
	deltaSIR2							DeltaSIR							OPTIONAL,
	deltaSIRAfter2						DeltaSIR							OPTIONAL,
	nidentifyAbort						NidentifyAbort						OPTIONAL,
	treconfirmAbort						TreconfirmAbort						OPTIONAL
}

TGPSI ::=							INTEGER (1..maxTGPS)

TGSN ::=							INTEGER (0..14)

TimeInfo ::=						SEQUENCE {
	activationTime						ActivationTime						OPTIONAL,
	durationTimeInfo					DurationTimeInfo					OPTIONAL
}

TimeSlotLCR-ext ::=					ENUMERATED {
										ts7, spare3, spare2, spare1 }

TimeslotList ::=					SEQUENCE (SIZE (1..maxTS)) OF
										TimeslotNumber

TimeslotList-r4 ::=					CHOICE {
-- the choice for 7.68 Mcps TDD is as for 3.84 Mcps TDD  --
	tdd384								SEQUENCE (SIZE (1..maxTS)) OF
											TimeslotNumber,
	tdd128								SEQUENCE (SIZE (1..maxTS-LCR)) OF
											TimeslotNumber-LCR-r4
}

-- If TimeslotNumber is included for a 1.28Mcps TDD description, it shall take values from 0..6
TimeslotNumber ::=						INTEGER (0..14)

TimeslotNumber-LCR-r4 ::=				INTEGER (0..6)

TimeslotNumber-PRACH-LCR-r4 ::=		INTEGER (1..6)

TimeslotSync2 ::=				INTEGER (0..6)

DTX-DRX-TimingInfo-r7 ::=			SEQUENCE {
	timing								CHOICE {
		continue							NULL,
		newTiming							NewTiming
	}
}

-- Actual value TimingOffset = IE value * 256
TimingOffset ::=					INTEGER (0..149)

TimingMaintainedSynchInd ::=		ENUMERATED { false }

TPC-CombinationIndex ::=			INTEGER (0..5)

TPC-CommandTargetRate ::=			INTEGER (0..10)

-- Actual value TPC-StepSizeFDD = IE value + 1
TPC-StepSizeFDD ::=					INTEGER (0..1)

TPC-StepSizeTDD ::=					INTEGER (1..3)

TransportBlockSizeIndex ::=			INTEGER (1..32)

-- Actual value TreconfirmAbort = IE value * 0.5 seconds
TreconfirmAbort ::=	INTEGER (1..20)

TwoMsHarqConfiguration ::=				SEQUENCE {
	harqProcessAllocation				BIT STRING (SIZE (8))				OPTIONAL
}

TX-DiversityMode ::=				ENUMERATED {
										noDiversity,
										sttd,
										closedLoopMode1,
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
										dummy }

UARFCN ::=						INTEGER (0..16383)

UCSM-Info ::=						SEQUENCE {
	minimumSpreadingFactor				MinimumSpreadingFactor,
	nf-Max								NF-Max,
	channelReqParamsForUCSM				ChannelReqParamsForUCSM
}

UE-DPCCH-Burst ::=					ENUMERATED {
										sub-frames-1,
										sub-frames-2,
										sub-frames-5,
										spare1 }

UE-DPCCHPowerResetAfterDTXOnSecUplink ::=	SEQUENCE {
	filterCoefficient					INTEGER (0..5),
    -- Actual value range powerOffset = (-4..10) * 2
	powerOffset							INTEGER (-8..20),
	inactivityThresholdForResetPower	ENUMERATED {
										ms10, ms20, ms30, ms40,
										ms50, ms60, ms80, ms120}			OPTIONAL
}

UE-DRX-Cycle ::=					ENUMERATED {
										sub-frames-4,
										sub-frames-5,
										sub-frames-8,
										sub-frames-10,
										sub-frames-16,
										sub-frames-20,
										spare2,
										spare1 }

UE-DRX-Cycle2 ::=					ENUMERATED {
										sub-frames-4,
										sub-frames-5,
										sub-frames-8,
										sub-frames-10,
										sub-frames-16,
										sub-frames-20,
										sub-frames-32,
										sub-frames-40,
										sub-frames-64,
										sub-frames-80,
										spare6,
										spare5,
										spare4,
										spare3,
										spare2,
										spare1 }

UE-DTX-Cycle1-10ms ::=				ENUMERATED {
										sub-frames-1,
										sub-frames-5,
										sub-frames-10,
										sub-frames-20 }

UE-DTX-Cycle1-2ms ::=				ENUMERATED {
										sub-frames-1,
										sub-frames-4,
										sub-frames-5,
										sub-frames-8,
										sub-frames-10,
										sub-frames-16,
										sub-frames-20,
										spare1 }

UE-DTX-Cycle2-10ms ::=				ENUMERATED {
										sub-frames-5,
										sub-frames-10,
										sub-frames-20,
										sub-frames-40,
										sub-frames-80,
										sub-frames-160,
										spare2,
										spare1 }

UE-DTX-Cycle2-2ms ::=				ENUMERATED {
										sub-frames-4,
										sub-frames-5,
										sub-frames-8,
										sub-frames-10,
										sub-frames-16,
										sub-frames-20,
										sub-frames-32,
										sub-frames-40,
										sub-frames-64,
										sub-frames-80,
										sub-frames-128,
										sub-frames-160,
										spare4,
										spare3,
										spare2,
										spare1 }

UE-DTX-Cycle2-2ms-Secondary ::=		ENUMERATED {
										sub-frames-4,
										sub-frames-5,
										sub-frames-8,
										sub-frames-10,
										sub-frames-16,
										sub-frames-20,
										sub-frames-32,
										sub-frames-40,
										sub-frames-64,
										sub-frames-80,
										sub-frames-128,
										sub-frames-160,
										sub-frames-256,
										sub-frames-320,
										sub-frames-512,
										sub-frames-640,
										sub-frames-1024,
										sub-frames-1280,
										spare14,
										spare13,
										spare12,
										spare11,
										spare10,
										spare9,
										spare8,
										spare7,
										spare6,
										spare5,
										spare4,
										spare3,
										spare2,
										spare1 }

UE-DTX-Cycle2InactivityThreshold ::=	ENUMERATED {
											e-dch-tti-1,
											e-dch-tti-4,
											e-dch-tti-8,
											e-dch-tti-16,
											e-dch-tti-32,
											e-dch-tti-64,
											e-dch-tti-128,
											e-dch-tti-256,
											spare8,
											spare7,
											spare6,
											spare5,
											spare4,
											spare3,
											spare2,
											spare1 }

UE-DTX-long-preamble-length ::=			ENUMERATED {
											slots-4,
											slots-15 }

UE-DTX-DRX-Offset ::=					INTEGER (0..159)

UE-GrantMonitoring-InactivityThreshold ::=	ENUMERATED {
												e-dch-tti-0,
												e-dch-tti-1,
												e-dch-tti-2,
												e-dch-tti-4,
												e-dch-tti-8,
												e-dch-tti-16,
												e-dch-tti-32,
												e-dch-tti-64,
												e-dch-tti-128,
												e-dch-tti-256,
												spare6,
												spare5,
												spare4,
												spare3,
												spare2,
												spare1 }

UL-16QAM-Config ::=		SEQUENCE {
	ul-16QAM-Settings					UL-16QAM-Settings					OPTIONAL,
	e-TFCI-TableIndex					E-TFCI-TableIndex					OPTIONAL,
	mac-es-e-resetIndicator				ENUMERATED { true }					OPTIONAL
}

UL-16QAM-Settings ::=				SEQUENCE {
	beta-Ed-Gain-E-AGCH-Table-Selection	INTEGER (0..1)
}

UL-64QAM-Config ::=		SEQUENCE {
	ul-64QAM-Settings					UL-64QAM-Settings					OPTIONAL,
	mac-is-i-resetIndicator				ENUMERATED { true }					OPTIONAL
}

UL-64QAM-Settings ::=				SEQUENCE {
	beta-Ed-Gain-E-AGCH-Table-Selection	INTEGER (0..1)
}

UL-CCTrCH ::=						SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	ul-TargetSIR						UL-TargetSIR,
	timeInfo							TimeInfo,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	ul-CCTrCH-TimeslotsCodes			UplinkTimeslotsCodes				OPTIONAL
}

UL-CCTrCH-r4 ::=					SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	-- The IE ul-TargetSIR corresponds to PRX-DPCHdes for 1.28Mcps TDD
	-- Actual value PRX-DPCHdes = (value of IE "ul-TargetSIR" - 120)
	ul-TargetSIR						UL-TargetSIR,
	timeInfo							TimeInfo,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	tddOption							CHOICE {
		tdd384								SEQUENCE {
			ul-CCTrCH-TimeslotsCodes			UplinkTimeslotsCodes		OPTIONAL
		},
		tdd128								SEQUENCE {
			ul-CCTrCH-TimeslotsCodes			UplinkTimeslotsCodes-LCR-r4	OPTIONAL
		}
	}
}

UL-CCTrCH-r7 ::=					SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain					DEFAULT 1,
	-- The IE ul-TargetSIR corresponds to PRX-DPCHdes for 1.28Mcps TDD
	-- Actual value PRX-DPCHdes = (value of IE "ul-TargetSIR" - 120)
	ul-TargetSIR						UL-TargetSIR,
	timeInfo							TimeInfo,
	commonTimeslotInfo					CommonTimeslotInfo					OPTIONAL,
	tddOption							CHOICE {
		tdd384								SEQUENCE {
			ul-CCTrCH-TimeslotsCodes			UplinkTimeslotsCodes		OPTIONAL
		},
		tdd768								SEQUENCE {
			ul-CCTrCH-TimeslotsCodes			UplinkTimeslotsCodes-VHCR	OPTIONAL
		},
		tdd128								SEQUENCE {
			ul-CCTrCH-TimeslotsCodes			UplinkTimeslotsCodes-LCR-r7	OPTIONAL
		}
	}
}

UL-CCTrCHList ::=					SEQUENCE (SIZE (1..maxCCTrCH)) OF
										UL-CCTrCH

UL-CCTrCHList-r4 ::=				SEQUENCE (SIZE (1..maxCCTrCH)) OF
										UL-CCTrCH-r4

UL-CCTrCHList-r7 ::=				SEQUENCE (SIZE (1..maxCCTrCH)) OF
										UL-CCTrCH-r7

UL-CCTrCHListToRemove ::=			SEQUENCE (SIZE (1..maxCCTrCH)) OF
										TFCS-IdentityPlain

UL-CCTrChTPCList ::=				SEQUENCE (SIZE (0..maxCCTrCH)) OF
											TFCS-Identity

UL-ChannelRequirement ::=			CHOICE {
	ul-DPCH-Info						UL-DPCH-Info,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received the UE behaviour is not specified.
	dummy								CPCH-SetInfo
}

UL-ChannelRequirement-r4 ::=		CHOICE {
	ul-DPCH-Info						UL-DPCH-Info-r4,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received the UE behaviour is not specified.
	dummy								CPCH-SetInfo
}

UL-ChannelRequirement-r5 ::=		CHOICE {
	ul-DPCH-Info						UL-DPCH-Info-r5,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received the UE behaviour is not specified.
	dummy								CPCH-SetInfo
}

-- Note: the reference to CPCH in the element name below is incorrect. The name is not
-- changed to keep it aligned with R99.
UL-ChannelRequirementWithCPCH-SetID ::=	CHOICE {
	ul-DPCH-Info						UL-DPCH-Info,
	-- dummy1 and dummy 2 are not used in this version of the specification, they should
	-- not be sent and if received the UE behaviour is not specified.
	dummy1								CPCH-SetInfo,
	dummy2								CPCH-SetID
}

-- Note: the reference to CPCH in the element name below is incorrect. The name is not
-- changed to keep it aligned with R99.
UL-ChannelRequirementWithCPCH-SetID-r4 ::=	CHOICE {
	ul-DPCH-Info						UL-DPCH-Info-r4,
	-- dummy1 and dummy2 are not used in this version of the specification, they 
	-- should not be sent and if received the UE behaviour is not specified.
	dummy1								CPCH-SetInfo,
	dummy2								CPCH-SetID
}

-- Note: the reference to CPCH in the element name below is incorrect. The name is not
-- changed to keep it aligned with R99.
UL-ChannelRequirementWithCPCH-SetID-r5 ::=	CHOICE {
	ul-DPCH-Info						UL-DPCH-Info-r5,
	-- dummy1 and dummy2 are not used in this version of the specification, they should
	-- not be sent and if received the UE behaviour is not specified.
	dummy1								CPCH-SetInfo,
	dummy2								CPCH-SetID
}


UL-CLTD-InfoFDD ::=	SEQUENCE {
	configurationInfo					CHOICE {
		continue							NULL,
		newConfiguration					SEQUENCE {
			s-dpcch-Info					S-DPCCH-Information,
			initial-CLTD-ActivationState	ENUMERATED { first-state, second-state } OPTIONAL,
			primaryCPICH-Info				PrimaryCPICH-Info		OPTIONAL
		}
	}
}

UL-CompressedModeMethod ::=			ENUMERATED {
										sf-2, 
										higherLayerScheduling }

UL-DL-Mode ::=						CHOICE {
	ul									UL-CompressedModeMethod,
	dl									DL-CompressedModeMethod,
	ul-and-dl								SEQUENCE {
		ul									UL-CompressedModeMethod,
		dl									DL-CompressedModeMethod
	}}

UL-DPCCH-SlotFormat ::=				ENUMERATED {
										slf0, slf1, slf2 }

UL-DPCH-CodeInfoForCommonEDCH ::=	SEQUENCE {
	ul-DPCCHscramblingCodeType			ScramblingCodeType,
	ul-DPCCHscramblingCode				UL-ScramblingCode					OPTIONAL
}

UL-DPCH-Info ::=					SEQUENCE {
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfo			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			scramblingCodeType					ScramblingCodeType,
			scramblingCode						UL-ScramblingCode,
			numberOfDPDCH						NumberOfDPDCH				DEFAULT 1,
			spreadingFactor						SpreadingFactor,
			tfci-Existence						BOOLEAN,
			-- numberOfFBI-Bits is conditional based on history
			numberOfFBI-Bits					NumberOfFBI-Bits			OPTIONAL,
			puncturingLimit						PuncturingLimit
		},
		tdd									SEQUENCE {
			ul-TimingAdvance					UL-TimingAdvanceControl		OPTIONAL,
			ul-CCTrCHList						UL-CCTrCHList				OPTIONAL,
			ul-CCTrCHListToRemove				UL-CCTrCHListToRemove		OPTIONAL
		}
	}
}

UL-DPCH-Info-r4 ::=					SEQUENCE {
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfo-r4			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			scramblingCodeType					ScramblingCodeType,
			scramblingCode						UL-ScramblingCode,
			numberOfDPDCH						NumberOfDPDCH				DEFAULT 1,
			spreadingFactor						SpreadingFactor,
			tfci-Existence						BOOLEAN,
			-- numberOfFBI-Bits is conditional based on history
			numberOfFBI-Bits					NumberOfFBI-Bits			OPTIONAL,
			puncturingLimit						PuncturingLimit
		},
		tdd									SEQUENCE {
			ul-TimingAdvance					UL-TimingAdvanceControl-r4	OPTIONAL,
			ul-CCTrCHList						UL-CCTrCHList-r4			OPTIONAL,
			ul-CCTrCHListToRemove				UL-CCTrCHListToRemove		OPTIONAL
		}
	}
}

UL-DPCH-Info-r5 ::=					SEQUENCE {
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfo-r5			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			scramblingCodeType					ScramblingCodeType,
			scramblingCode						UL-ScramblingCode,
			numberOfDPDCH						NumberOfDPDCH				DEFAULT 1,
			spreadingFactor						SpreadingFactor,
			tfci-Existence						BOOLEAN,
			-- numberOfFBI-Bits is conditional based on history
			numberOfFBI-Bits					NumberOfFBI-Bits			OPTIONAL,
			puncturingLimit						PuncturingLimit
		},
		tdd									SEQUENCE {
			ul-TimingAdvance					UL-TimingAdvanceControl-r4	OPTIONAL,
			ul-CCTrCHList						UL-CCTrCHList-r4			OPTIONAL,
			ul-CCTrCHListToRemove				UL-CCTrCHListToRemove		OPTIONAL
		}
	}
}

UL-DPCH-Info-r6 ::=					SEQUENCE {
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfo-r6			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			scramblingCodeType					ScramblingCodeType,
			scramblingCode						UL-ScramblingCode,
			dpdchPresence						CHOICE {
				present								SEQUENCE {
					numberOfDPDCH						NumberOfDPDCH				DEFAULT 1,
					spreadingFactor						SpreadingFactor,
					tfci-Existence						BOOLEAN,
					-- numberOfFBI-Bits is conditional based on history
					numberOfFBI-Bits					NumberOfFBI-Bits			OPTIONAL,
					puncturingLimit						PuncturingLimit
				},
				notPresent							SEQUENCE {
					tfci-Existence						BOOLEAN,
					-- numberOfFBI-Bits is conditional based on history
					numberOfFBI-Bits					NumberOfFBI-Bits			OPTIONAL
				}
			}
		},
		tdd									SEQUENCE {
			ul-TimingAdvance					UL-TimingAdvanceControl-r4	OPTIONAL,
			ul-CCTrCHList						UL-CCTrCHList-r4			OPTIONAL,
			ul-CCTrCHListToRemove				UL-CCTrCHListToRemove		OPTIONAL
		}
	}
}

UL-DPCH-Info-r7 ::=					SEQUENCE {
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfo-r7			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			scramblingCodeType					ScramblingCodeType,
			scramblingCode						UL-ScramblingCode,
			dpdchPresence						CHOICE {
				present								SEQUENCE {
					numberOfDPDCH						NumberOfDPDCH				DEFAULT 1,
					spreadingFactor						SpreadingFactor,
					tfci-Existence						BOOLEAN,
					-- numberOfFBI-Bits is conditional based on history
					numberOfFBI-Bits					NumberOfFBI-Bits			OPTIONAL,
					numberOfTPC-Bits					NumberOfTPC-Bits			OPTIONAL,
					puncturingLimit						PuncturingLimit
						},
				notPresent							SEQUENCE {
					tfci-Existence						BOOLEAN,
					-- numberOfFBI-Bits is conditional based on history
					numberOfFBI-Bits					NumberOfFBI-Bits			OPTIONAL,
					numberOfTPC-Bits					NumberOfTPC-Bits			OPTIONAL
				}
			}
		},
		tdd									SEQUENCE {
			ul-TimingAdvance					UL-TimingAdvanceControl-r7	OPTIONAL,
			ul-CCTrCHList						UL-CCTrCHList-r7			OPTIONAL,
			ul-CCTrCHListToRemove				UL-CCTrCHListToRemove		OPTIONAL
		}
	}
}

UL-DPCH-Info-r11 ::=					SEQUENCE {
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfo-r11			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			scramblingCodeType					ScramblingCodeType,
			scramblingCode						UL-ScramblingCode,
			dpdchPresence						CHOICE {
				present								SEQUENCE {
					numberOfDPDCH						NumberOfDPDCH				DEFAULT 1,
					spreadingFactor						SpreadingFactor,
					tfci-Existence						BOOLEAN,
					-- numberOfFBI-Bits is conditional based on history
					numberOfFBI-Bits					NumberOfFBI-Bits			OPTIONAL,
					numberOfTPC-Bits					NumberOfTPC-Bits			OPTIONAL,
					puncturingLimit						PuncturingLimit
						},
				notPresent							SEQUENCE {
					tfci-Existence						BOOLEAN,
					-- numberOfFBI-Bits is conditional based on history
					numberOfFBI-Bits					NumberOfFBI-Bits			OPTIONAL,
					numberOfTPC-Bits					NumberOfTPC-Bits			OPTIONAL
				}
			}
		},
		tdd									SEQUENCE {
			ul-TimingAdvance					UL-TimingAdvanceControl-r7	OPTIONAL,
			ul-CCTrCHList						UL-CCTrCHList-r7			OPTIONAL,
			ul-CCTrCHListToRemove				UL-CCTrCHListToRemove		OPTIONAL
		}
	}
}

UL-DPCH-InfoPostFDD ::=				SEQUENCE {
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfoPostFDD,
			scramblingCodeType					ScramblingCodeType,
			reducedScramblingCodeNumber			ReducedScramblingCodeNumber,
			spreadingFactor						SpreadingFactor

}

UL-DPCH-InfoPostTDD ::=				SEQUENCE {
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfoPostTDD,
	ul-TimingAdvance					UL-TimingAdvanceControl					OPTIONAL,
	ul-CCTrCH-TimeslotsCodes			UplinkTimeslotsCodes
}

UL-DPCH-InfoPostTDD-LCR-r4 ::=		SEQUENCE {
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfoPostTDD-LCR-r4,
	ul-TimingAdvance					UL-TimingAdvanceControl-LCR-r4				OPTIONAL,
	ul-CCTrCH-TimeslotsCodes			UplinkTimeslotsCodes-LCR-r4
}

UL-DPCH-InfoPredef ::=				SEQUENCE {
	ul-DPCH-PowerControlInfo			UL-DPCH-PowerControlInfoPredef,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			tfci-Existence						BOOLEAN,
			puncturingLimit						PuncturingLimit
		},
		tdd									SEQUENCE {
			commonTimeslotInfo					CommonTimeslotInfo
		}
	}
}

UL-DPCH-InfoPredef-v770ext ::=		SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			numberOfTPC-Bits					NumberOfTPC-Bits				OPTIONAL
		},
		tdd									NULL	}
}

UL-DPCH-PowerControlInfo ::=		CHOICE {
	fdd									SEQUENCE {
		dpcch-PowerOffset					DPCCH-PowerOffset,
		pc-Preamble							PC-Preamble,
		sRB-delay							SRB-delay,
		-- TABULAR: TPC step size nested inside PowerControlAlgorithm
		powerControlAlgorithm				PowerControlAlgorithm
	},
	tdd									SEQUENCE {
		ul-TargetSIR						UL-TargetSIR				OPTIONAL,
		ul-OL-PC-Signalling					CHOICE {
			broadcast-UL-OL-PC-info				NULL,
			individuallySignalled				SEQUENCE {
				individualTS-InterferenceList		IndividualTS-InterferenceList,
				dpch-ConstantValue					ConstantValueTdd,
				primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power	
			}	
		}																OPTIONAL
	}
}

UL-DPCH-PowerControlInfo-r4 ::=		CHOICE {
	fdd									SEQUENCE {
		dpcch-PowerOffset					DPCCH-PowerOffset,
		pc-Preamble							PC-Preamble,
		sRB-delay							SRB-delay,
		-- TABULAR: TPC step size nested inside PowerControlAlgorithm
		powerControlAlgorithm				PowerControlAlgorithm
	},
	tdd									SEQUENCE {
		-- The IE ul-TargetSIR corresponds to PRX-DPCHdes for 1.28Mcps TDD
		-- Actual value PRX-DPCHdes = (value of IE "ul-TargetSIR" - 120)
		ul-TargetSIR						UL-TargetSIR				OPTIONAL,
		ul-OL-PC-Signalling					CHOICE {
			broadcast-UL-OL-PC-info				NULL,
			individuallySignalled				SEQUENCE {
				tddOption							CHOICE {
					tdd384								SEQUENCE {
						individualTS-InterferenceList		IndividualTS-InterferenceList,
						dpch-ConstantValue					ConstantValue
					},
					tdd128								SEQUENCE {
						tpc-StepSize						TPC-StepSizeTDD
					}
				},
				primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
			}
		}
	}
}

UL-DPCH-PowerControlInfo-r5 ::=		CHOICE {
	fdd									SEQUENCE {
		dpcch-PowerOffset					DPCCH-PowerOffset,
		pc-Preamble							PC-Preamble,
		sRB-delay							SRB-delay,
		-- TABULAR: TPC step size nested inside PowerControlAlgorithm
		powerControlAlgorithm				PowerControlAlgorithm,
		deltaACK							DeltaACK	OPTIONAL,
		deltaNACK							DeltaNACK	OPTIONAL,
		ack-NACK-repetition-factor			ACK-NACK-repetitionFactor	OPTIONAL
	},
	tdd									SEQUENCE {
		-- The IE ul-TargetSIR corresponds to PRX-DPCHdes for 1.28Mcps TDD
		-- Actual value PRX-DPCHdes = (value of IE "ul-TargetSIR" - 120)
		ul-TargetSIR						UL-TargetSIR				OPTIONAL,
		ul-OL-PC-Signalling					CHOICE {
			broadcast-UL-OL-PC-info				NULL,
			individuallySignalled				SEQUENCE {
				tddOption							CHOICE {
					tdd384								SEQUENCE {
						individualTS-InterferenceList		IndividualTS-InterferenceList,
						dpch-ConstantValue					ConstantValue
					},
					tdd128								SEQUENCE {
						tpc-StepSize						TPC-StepSizeTDD
					}
				},
				primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
			}
		}
	}
}

UL-DPCH-PowerControlInfo-r6 ::=		CHOICE {
	fdd									SEQUENCE {
		dpcch-PowerOffset					DPCCH-PowerOffset,
		pc-Preamble							PC-Preamble,
		sRB-delay							SRB-delay,
		-- TABULAR: TPC step size nested inside PowerControlAlgorithm
		powerControlAlgorithm				PowerControlAlgorithm,
		deltaACK							DeltaACK	OPTIONAL,
		deltaNACK							DeltaNACK	OPTIONAL,
		ack-NACK-repetition-factor			ACK-NACK-repetitionFactor	OPTIONAL,
		harq-Preamble-Mode					HARQ-Preamble-Mode
	},
	tdd									SEQUENCE {
		-- The IE ul-TargetSIR corresponds to PRX-DPCHdes for 1.28Mcps TDD
		-- Actual value PRX-DPCHdes = (value of IE "ul-TargetSIR" - 120)
		ul-TargetSIR						UL-TargetSIR				OPTIONAL,
		ul-OL-PC-Signalling					CHOICE {
			broadcast-UL-OL-PC-info				NULL,
			individuallySignalled				SEQUENCE {
				tddOption							CHOICE {
					tdd384								SEQUENCE {
						individualTS-InterferenceList		IndividualTS-InterferenceList,
						dpch-ConstantValue					ConstantValue
					},
					tdd128								SEQUENCE {
						beaconPLEst							BEACON-PL-Est		OPTIONAL,
						tpc-StepSize						TPC-StepSizeTDD
					}
				},
				primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
			}
		}
	}
}

UL-DPCH-PowerControlInfo-r7 ::=		CHOICE {
	fdd									SEQUENCE {
		dpcch-PowerOffset					DPCCH-PowerOffset,
		pc-Preamble							PC-Preamble,
		sRB-delay							SRB-delay,
		-- TABULAR: TPC step size nested inside PowerControlAlgorithm
		powerControlAlgorithm				PowerControlAlgorithm,
		deltaACK							DeltaACK	OPTIONAL,
		deltaNACK							DeltaNACK	OPTIONAL,
		ack-NACK-repetition-factor			ACK-NACK-repetitionFactor	OPTIONAL,
		harq-Preamble-Mode					HARQ-Preamble-Mode
	},
	tdd									SEQUENCE {
		-- The IE ul-TargetSIR corresponds to PRX-DPCHdes for 1.28Mcps TDD
		-- Actual value PRX-DPCHdes = (value of IE "ul-TargetSIR" - 120)
		ul-TargetSIR						UL-TargetSIR				OPTIONAL,
		ul-OL-PC-Signalling					CHOICE {
			broadcast-UL-OL-PC-info				NULL,
			individuallySignalled				SEQUENCE {
				tddOption							CHOICE {
					tdd384								SEQUENCE {
						individualTS-InterferenceList		IndividualTS-InterferenceList,
						dpch-ConstantValue					ConstantValue
					},
					tdd768								SEQUENCE {
						individualTS-InterferenceList		IndividualTS-InterferenceList,
						dpch-ConstantValue					ConstantValue
					},
					tdd128								SEQUENCE {
						beaconPLEst							BEACON-PL-Est		OPTIONAL,
						tpc-StepSize						TPC-StepSizeTDD
					}
				},
				primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
			}
		}
	}
}

UL-DPCH-PowerControlInfo-r11 ::=		CHOICE {
	fdd									SEQUENCE {
		dpcch-PowerOffset					DPCCH-PowerOffset,
		pc-Preamble							PC-Preamble,
		sRB-delay							SRB-delay,
		-- TABULAR: TPC step size nested inside PowerControlAlgorithm
		powerControlAlgorithm				PowerControlAlgorithm,
		deltaACK							DeltaACK-r11	OPTIONAL,
		deltaNACK							DeltaNACK-r11	OPTIONAL,
		ack-NACK-repetition-factor			ACK-NACK-repetitionFactor	OPTIONAL,
		ack-NACK-repetition-factor-assisting	ACK-NACK-repetitionFactor	OPTIONAL,
		harq-Preamble-Mode					HARQ-Preamble-Mode
	},
	tdd									SEQUENCE {
		-- The IE ul-TargetSIR corresponds to PRX-DPCHdes for 1.28Mcps TDD
		-- Actual value PRX-DPCHdes = (value of IE "ul-TargetSIR" - 120)
		ul-TargetSIR						UL-TargetSIR				OPTIONAL,
		ul-OL-PC-Signalling					CHOICE {
			broadcast-UL-OL-PC-info				NULL,
			individuallySignalled				SEQUENCE {
				tddOption							CHOICE {
					tdd384								SEQUENCE {
						individualTS-InterferenceList		IndividualTS-InterferenceList,
						dpch-ConstantValue					ConstantValue
					},
					tdd768								SEQUENCE {
						individualTS-InterferenceList		IndividualTS-InterferenceList,
						dpch-ConstantValue					ConstantValue
					},
					tdd128								SEQUENCE {
						beaconPLEst							BEACON-PL-Est		OPTIONAL,
						tpc-StepSize						TPC-StepSizeTDD
					}
				},
				primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power
			}
		}
	}
}

UL-DPCHpowerControlInfoConcurrentTTI ::=	SEQUENCE {
	deltaACK									DeltaACK					OPTIONAL,
	deltaNACK									DeltaNACK					OPTIONAL,
	ack-NACK-repetition-factor					ACK-NACK-repetitionFactor	OPTIONAL
}

UL-DPCHpowerControlInfoForCommonEDCH ::=	SEQUENCE {
	-- TABULAR: TPC step size nested inside PowerControlAlgorithm
	powerControlAlgorithm						PowerControlAlgorithm,
	deltaACK									DeltaACK					OPTIONAL,
	deltaNACK									DeltaNACK					OPTIONAL,
	ack-NACK-repetition-factor					ACK-NACK-repetitionFactor	OPTIONAL
}

UL-DPCH-PowerControlInfoPostFDD ::=	SEQUENCE {
	-- DPCCH-PowerOffset2 has a smaller range to save bits
	dpcch-PowerOffset					DPCCH-PowerOffset2,
	pc-Preamble							PC-Preamble,
	sRB-delay							SRB-delay
}

UL-DPCH-PowerControlInfoPostTDD ::=	SEQUENCE {
	ul-TargetSIR						UL-TargetSIR,
	ul-TimeslotInterference				TDD-UL-Interference
}

UL-DPCH-PowerControlInfoPostTDD-LCR-r4 ::=	SEQUENCE {
	-- The IE ul-TargetSIR corresponds to PRX-DPCHdes for 1.28Mcps TDD
	-- Actual value PRX-DPCHdes = (value of IE "ul-TargetSIR" - 120)
	ul-TargetSIR						UL-TargetSIR
}

UL-DPCH-PowerControlInfoPredef ::=		CHOICE {
	fdd									SEQUENCE {
		-- TABULAR: TPC step size nested inside PowerControlAlgorithm
		powerControlAlgorithm				PowerControlAlgorithm
	},
	tdd									SEQUENCE {
		-- dpch-ConstantValue shall be ignored if in 1.28Mcps TDD mode.
		dpch-ConstantValue					ConstantValueTdd
	}
}


UL-EDCH-Information-ext ::=			CHOICE {
	fdd									NULL,
	tdd									SEQUENCE {
		non-ScheduledTransGrantInfo			Non-ScheduledTransGrantInfoTDD-ext		OPTIONAL
	}
}

UL-EDCH-Information-r6 ::=			SEQUENCE {
	mac-es-e-resetIndicator				ENUMERATED { true }						OPTIONAL,
	e-DPCCH-Info						E-DPCCH-Info							OPTIONAL,
	e-DPDCH-Info						E-DPDCH-Info							OPTIONAL,
	schedulingTransmConfiguration		E-DPDCH-SchedulingTransmConfiguration	OPTIONAL
}

UL-EDCH-Information-r7 ::=			SEQUENCE {
	mac-es-e-resetIndicator				ENUMERATED { true }						OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			e-DPCCH-Info						E-DPCCH-Info-r7					OPTIONAL,
			e-DPDCH-Info						E-DPDCH-Info-r7					OPTIONAL,
			schedulingTransmConfiguration		E-DPDCH-SchedulingTransmConfiguration	OPTIONAL,
			ul-16QAM-Settings					UL-16QAM-Settings				OPTIONAL
		},
		tdd									SEQUENCE {
			e-RUCCH-Info						E-RUCCH-Info					OPTIONAL,
			e-PUCH-Info							E-PUCH-Info						OPTIONAL,
			non-ScheduledTransGrantInfo			Non-ScheduledTransGrantInfoTDD	OPTIONAL
		}
	}
}

UL-EDCH-Information-r8 ::=			SEQUENCE {
	mac-es-e-resetIndicator				ENUMERATED { true }						OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			e-DPCCH-Info						E-DPCCH-Info-r7					OPTIONAL,
			e-DPDCH-Info						E-DPDCH-Info-r8					OPTIONAL,
			schedulingTransmConfiguration		E-DPDCH-SchedulingTransmConfiguration	OPTIONAL,
			ul-16QAM-Settings					UL-16QAM-Settings				OPTIONAL
		},
		tdd									SEQUENCE {
			e-RUCCH-Info						E-RUCCH-Info					OPTIONAL,
			e-PUCH-Info							E-PUCH-Info						OPTIONAL,
			non-ScheduledTransGrantInfo			Non-ScheduledTransGrantInfoTDD	OPTIONAL
		}
	}
}

UL-EDCH-Information-r9 ::=			SEQUENCE {
	mac-es-e-resetIndicator				ENUMERATED { true }								OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			e-DPCCH-Info						E-DPCCH-Info-r7							OPTIONAL,
			e-DPDCH-Info						E-DPDCH-Info-r8							OPTIONAL,
			schedulingTransmConfiguration		E-DPDCH-SchedulingTransmConfiguration	OPTIONAL,
			ul-16QAM-Settings					UL-16QAM-Settings						OPTIONAL
		},
		tdd									SEQUENCE {
			e-RUCCH-Info						E-RUCCH-Info							OPTIONAL,
			e-PUCH-Info							E-PUCH-Info								OPTIONAL,
			non-ScheduledTransGrantInfo			Non-ScheduledTransGrantInfoTDD-r9		OPTIONAL
		}
	}
}

UL-EDCH-Information-r11 ::=			SEQUENCE {
	mac-es-e-resetIndicator				ENUMERATED { true }								OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			e-DPCCH-Info						E-DPCCH-Info-r7							OPTIONAL,
			e-DPDCH-Info						E-DPDCH-Info-r8							OPTIONAL,
			ul-MIMO-Info						UL-MIMO-InfoFDD							OPTIONAL,
			schedulingTransmConfiguration		E-DPDCH-SchedulingTransmConfiguration	OPTIONAL,
			ul-16QAM-Settings					UL-16QAM-Settings						OPTIONAL,
			ul-64QAM-Settings					UL-64QAM-Settings						OPTIONAL
		},
		tdd									SEQUENCE {
			e-RUCCH-Info						E-RUCCH-Info							OPTIONAL,
			e-PUCH-Info							E-PUCH-Info								OPTIONAL,
			non-ScheduledTransGrantInfo			Non-ScheduledTransGrantInfoTDD-r9		OPTIONAL
		}
	}
}

UL-MIMO-InfoFDD ::= SEQUENCE {
	configurationInfo		CHOICE {
		continue					NULL,
		newConfiguration			SEQUENCE {
			s-e-dpcch-power-offset			INTEGER(0..17),
			rank2-minimum-E-TFCI			E-DCH-MinimumSet-E-TFCI,
			inter-stream-compensation		INTEGER(0..15)					OPTIONAL
		}
	}
}

UL-MulticarrierEDCH-InfolistItem-TDD128 ::=			SEQUENCE {
	uarfcn				UARFCN,
	prxdes-base			INTEGER (-112..-50),
	e-PUCH-info			E-PUCH-Info-MulticarrierEDCH-TDD128	OPTIONAL,
	e-AGCH-info			E-AGCH-Information-TDD128			OPTIONAL,
	e-HICH-info			E-HICH-Information-TDD128			OPTIONAL
}

UL-MulticarrierEDCH-Infolist-TDD128 ::= 	SEQUENCE (SIZE (1..maxTDD128Carrier-1)) OF
										UL-MulticarrierEDCH-InfolistItem-TDD128

UL-MulticarrierEDCH-Deletelist-TDD128 ::= 	SEQUENCE (SIZE (1..maxTDD128Carrier-1)) OF
										UARFCN

UL-MulticarrierEDCHInfo-TDD128 ::=			SEQUENCE {
	configuration-info				CHOICE {
		continue							NULL,
		newConfiguration					UL-MulticarrierEDCH-NewConfigurationInfo-TDD128
	}
}

UL-MulticarrierEDCH-NewConfigurationInfo-TDD128 ::=			SEQUENCE {
	tsn-Length						ENUMERATED { tsn-14bits }				OPTIONAL,
	ul-MulticarrierEDCH-Infolist	UL-MulticarrierEDCH-Infolist-TDD128		OPTIONAL,
	ul-MulticarrierEDCH-Deletelist	UL-MulticarrierEDCH-Deletelist-TDD128	OPTIONAL
}

UL-Interference ::=					INTEGER (-110..-70)

UL-ScramblingCode ::=				INTEGER (0..16777215)


UL-SynchronisationParameters-r4 ::=	SEQUENCE {
	stepSize							INTEGER (1..8),
	frequency							INTEGER (1..8)
}

-- Actual value UL-TargetSIR = (IE value * 0.5) - 11
UL-TargetSIR ::=					INTEGER (0..62)

UL-TimingAdvance ::=				INTEGER (0..63)

UL-TimingAdvanceControl ::=			CHOICE {
	disabled							NULL,
	enabled								SEQUENCE {
		ul-TimingAdvance					UL-TimingAdvance				OPTIONAL,
		activationTime						ActivationTime					OPTIONAL
	}
}

UL-TimingAdvanceControl-r4 ::=		CHOICE {
	disabled							NULL,
	enabled								SEQUENCE {
		tddOption							CHOICE {
			tdd384								SEQUENCE {
				ul-TimingAdvance					UL-TimingAdvance				OPTIONAL,
				activationTime						ActivationTime					OPTIONAL
			},
			tdd128								SEQUENCE {
				ul-SynchronisationParameters		UL-SynchronisationParameters-r4	OPTIONAL,
				synchronisationParameters			SynchronisationParameters-r4	OPTIONAL
			}
		}
	}
}

UL-TimingAdvanceControl-r7 ::=		CHOICE {
	disabled							NULL,
	enabled								SEQUENCE {
		tddOption							CHOICE {
			tdd384								SEQUENCE {
				ul-TimingAdvance					UL-TimingAdvance				OPTIONAL,
				ext-UL-TimingAdvance				EXT-UL-TimingAdvance			OPTIONAL,
				activationTime						ActivationTime					OPTIONAL
			},
			tdd768								SEQUENCE {
				ext-UL-TimingAdvance				EXT-UL-TimingAdvance			OPTIONAL,
				activationTime						ActivationTime					OPTIONAL
			},
			tdd128								SEQUENCE {
				ul-SynchronisationParameters		UL-SynchronisationParameters-r4	OPTIONAL,
				synchronisationParameters			SynchronisationParameters-r4	OPTIONAL
			}
		}
	}
}

UL-TimingAdvanceControl-LCR-r4 ::=	CHOICE {
	disabled							NULL,
	enabled								SEQUENCE {
		ul-SynchronisationParameters		UL-SynchronisationParameters-r4	OPTIONAL,
		synchronisationParameters			SynchronisationParameters-r4	OPTIONAL
	}
}

UL-TransModeSwitchingParam ::=		SEQUENCE {
	k				INTEGER (1..32),
	l				INTEGER (1..32),
	m				INTEGER (1..32)
}

UL-TS-ChannelisationCode ::=		ENUMERATED {
										cc1-1, cc2-1, cc2-2,
										cc4-1, cc4-2, cc4-3, cc4-4,
										cc8-1, cc8-2, cc8-3, cc8-4,
										cc8-5, cc8-6, cc8-7, cc8-8,
										cc16-1, cc16-2, cc16-3, cc16-4,
										cc16-5, cc16-6, cc16-7, cc16-8,
										cc16-9, cc16-10, cc16-11, cc16-12,
										cc16-13, cc16-14, cc16-15, cc16-16 }

UL-TS-ChannelisationCodeList ::= 	SEQUENCE (SIZE (1..2)) OF
										UL-TS-ChannelisationCode

UL-TS-ChannelisationCodeList-r7 ::= 	SEQUENCE (SIZE (1..2)) OF
											SEQUENCE {
		ul-TS-Channelisation-Code				UL-TS-ChannelisationCode,
		plcch-info								PLCCH-Info		OPTIONAL
}

UL-TS-ChannelisationCode-VHCR ::=		ENUMERATED {
										cc1-1, cc2-1, cc2-2,
										cc4-1, cc4-2, cc4-3, cc4-4,
										cc8-1, cc8-2, cc8-3, cc8-4,
										cc8-5, cc8-6, cc8-7, cc8-8,
										cc16-1, cc16-2, cc16-3, cc16-4,
										cc16-5, cc16-6, cc16-7, cc16-8,
										cc16-9, cc16-10, cc16-11, cc16-12,
										cc16-13, cc16-14, cc16-15, cc16-16,
										cc32-1, cc32-2, cc32-3, cc32-4,
										cc32-5, cc32-6, cc32-7, cc32-8,
										cc32-9, cc32-10, cc32-11, cc32-12,
										cc32-13, cc32-14, cc32-15, cc32-16,
										cc32-17, cc32-18, cc32-19, cc32-20,
										cc32-21, cc32-22, cc32-23, cc32-24,
										cc32-25, cc32-26, cc32-27, cc32-28,
										cc32-29, cc32-30, cc32-31, cc32-32 }

UL-TS-ChannelisationCodeList-VHCR ::=	SEQUENCE (SIZE (1..2)) OF
											UL-TS-ChannelisationCode-VHCR

Uplink-DPCCH-Slot-Format-Information ::=	ENUMERATED {
												slot-format-1,
										-- dummy is not used in this version of 
										-- specification, it should not be sent and if
										-- received it should be ignored.
												dummy,
												slot-format-4,
												spare1 }

UplinkAdditionalTimeslots ::=		SEQUENCE {
	parameters							CHOICE {
		sameAsLast							SEQUENCE {
			timeslotNumber						TimeslotNumber
		},
		newParameters						SEQUENCE {
			individualTimeslotInfo						IndividualTimeslotInfo,
			ul-TS-ChannelisationCodeList				UL-TS-ChannelisationCodeList
		}
	}
}

UplinkAdditionalTimeslots-LCR-r4 ::=	SEQUENCE {
	parameters							CHOICE {
		sameAsLast							SEQUENCE {
			timeslotNumber						TimeslotNumber
		},
		newParameters						SEQUENCE {
			individualTimeslotInfo						IndividualTimeslotInfo-LCR-r4,
			ul-TS-ChannelisationCodeList				UL-TS-ChannelisationCodeList
		}
	}
}

UplinkAdditionalTimeslots-LCR-r7 ::=	SEQUENCE {
	parameters							CHOICE {
		sameAsLast							SEQUENCE {
			timeslotNumber						TimeslotNumber
			-- plcch-info assigned as previously defined slot
		},
		newParameters						SEQUENCE {
			individualTimeslotInfo				IndividualTimeslotInfo-LCR-r4,
			ul-TS-ChannelisationCodeList		UL-TS-ChannelisationCodeList-r7
		}
	}
}

UplinkAdditionalTimeslots-VHCR ::=	SEQUENCE {
	parameters							CHOICE {
		sameAsLast							SEQUENCE {
			timeslotNumber						TimeslotNumber
		},
		newParameters						SEQUENCE {
			individualTimeslotInfo				IndividualTimeslotInfo-VHCR,
			ul-TS-ChannelisationCodeList		UL-TS-ChannelisationCodeList
		}
	}
}

UplinkTimeslotsCodes ::=			SEQUENCE {
	dynamicSFusage						BOOLEAN,
	firstIndividualTimeslotInfo			IndividualTimeslotInfo,
	ul-TS-ChannelisationCodeList		UL-TS-ChannelisationCodeList,
	moreTimeslots						CHOICE {
		noMore								NULL,
		additionalTimeslots					CHOICE {
			consecutive							SEQUENCE {
				numAdditionalTimeslots				INTEGER (1..maxTS-1)
			},
			timeslotList						SEQUENCE (SIZE (1..maxTS-1)) OF
													UplinkAdditionalTimeslots
		}
	}
}

UplinkTimeslotsCodes-VHCR ::=		SEQUENCE {
	dynamicSFusage						BOOLEAN,
	firstIndividualTimeslotInfo			IndividualTimeslotInfo-VHCR,
	ul-TS-ChannelisationCodeList		UL-TS-ChannelisationCodeList-VHCR,
	moreTimeslots						CHOICE {
		noMore								NULL,
		additionalTimeslots					CHOICE {
			consecutive							SEQUENCE {
				numAdditionalTimeslots				INTEGER (1..maxTS-1)
			},
			timeslotList						SEQUENCE (SIZE (1..maxTS-1)) OF
													UplinkAdditionalTimeslots-VHCR
		}
	}
}

UplinkTimeslotsCodes-LCR-r4 ::=		SEQUENCE {
	dynamicSFusage						BOOLEAN,
	firstIndividualTimeslotInfo			IndividualTimeslotInfo-LCR-r4,
	ul-TS-ChannelisationCodeList		UL-TS-ChannelisationCodeList,
	moreTimeslots						CHOICE {
		noMore								NULL,
		additionalTimeslots					CHOICE {
			consecutive							SEQUENCE {
				numAdditionalTimeslots				INTEGER (1..maxTS-LCR-1)
			},
			timeslotList						SEQUENCE (SIZE (1..maxTS-LCR-1)) OF
													UplinkAdditionalTimeslots-LCR-r4
		}
	}
}

UplinkTimeslotsCodes-LCR-r7 ::=		SEQUENCE {
	dynamicSFusage						BOOLEAN,
	firstIndividualTimeslotInfo			IndividualTimeslotInfo-LCR-r4,
	ul-TS-ChannelisationCodeList		UL-TS-ChannelisationCodeList-r7,
	moreTimeslots						CHOICE {
		noMore								NULL,
		additionalTimeslots					CHOICE {
			consecutive							SEQUENCE {
			-- the choice of 'consecutive' is not needed because there is only 1 option. 
				numAdditionalTimeslots				INTEGER (1..maxTS-LCR-1)
			},
			timeslotList						SEQUENCE (SIZE (1..maxTS-LCR-1)) OF
													UplinkAdditionalTimeslots-LCR-r7
		}
	}
}

UpPCHposition-LCR ::=				INTEGER (0..127)

Wi-LCR ::=							INTEGER (1..4)

-- ***************************************************
--
--     MEASUREMENT INFORMATION ELEMENTS (10.3.7)
--
-- ***************************************************

AcquisitionSatInfo ::=				SEQUENCE {
	satID								SatID,
	-- Actual value dopplerOthOrder = IE value * 2.5
	doppler0thOrder						INTEGER (-2048..2047),
	extraDopplerInfo					ExtraDopplerInfo					OPTIONAL,
	codePhase							INTEGER (0..1022),
	integerCodePhase					INTEGER (0..19),
	gps-BitNumber						INTEGER (0..3),
	codePhaseSearchWindow				CodePhaseSearchWindow,
	azimuthAndElevation					AzimuthAndElevation					OPTIONAL
}	

AcquisitionSatInfo-va40ext ::=		SEQUENCE {
	azimuthAndElevation					AzimuthAndElevation-va40ext			OPTIONAL
}

AcquisitionSatInfo-r10 ::=			SEQUENCE {
	satID								SatID,
	-- Actual value dopplerOthOrder = IE value * 2.5
	doppler0thOrder						INTEGER (-2048..2047),
	extraDopplerInfo					ExtraDopplerInfo					OPTIONAL,
	codePhase							INTEGER (0..1022),
	integerCodePhase					INTEGER (0..19),
	gps-BitNumber						INTEGER (0..3),
	codePhaseSearchWindow				CodePhaseSearchWindow,
	azimuthAndElevation					AzimuthAndElevation-r10				OPTIONAL
}
AcquisitionSatInfo-vc50ext ::=		SEQUENCE {
	extraDopplerInfoExtension			ExtraDopplerInfoExtension			OPTIONAL
}	

AcquisitionSatInfo-r12 ::=			SEQUENCE {
	satID								SatID,
	-- Actual value dopplerOthOrder = IE value * 2.5
	doppler0thOrder						INTEGER (-2048..2047),
	extraDopplerInfo					ExtraDopplerInfo					OPTIONAL,
-- If the extraDopplerInfoExtension is present, the extraDopplerInfo should not be present
	extraDopplerInfoExtension			ExtraDopplerInfoExtension			OPTIONAL,
	codePhase							INTEGER (0..1022),
	integerCodePhase					INTEGER (0..19),
	gps-BitNumber						INTEGER (0..3),
	codePhaseSearchWindow				CodePhaseSearchWindow,
	azimuthAndElevation					AzimuthAndElevation-r10				OPTIONAL
}

AcquisitionSatInfoList ::=			SEQUENCE (SIZE (1..maxSat)) OF
										AcquisitionSatInfo

AcquisitionSatInfoList-va40ext ::=	SEQUENCE (SIZE (1..maxSat)) OF
										AcquisitionSatInfo-va40ext

AcquisitionSatInfoList-r10 ::=		SEQUENCE (SIZE (1..maxSat)) OF
										AcquisitionSatInfo-r10

AcquisitionSatInfoList-vc50ext ::=	SEQUENCE (SIZE (1..maxSat)) OF
										AcquisitionSatInfo-vc50ext

AcquisitionSatInfoList-r12 ::=		SEQUENCE (SIZE (1..maxSat)) OF
										AcquisitionSatInfo-r12

AdditionalMeasurementID-List ::=	SEQUENCE (SIZE (1..maxAdditionalMeas)) OF
										MeasurementIdentity

AdditionalMeasurementID-List-r9 ::=	SEQUENCE (SIZE (1..maxAdditionalMeas)) OF
												MeasurementIdentity-r9

AlmanacSatInfo ::=					SEQUENCE {
	dataID								INTEGER (0..3),
	satID								SatID,
	e									BIT STRING (SIZE (16)),
	t-oa								BIT STRING (SIZE (8)),
	deltaI								BIT STRING (SIZE (16)),
	omegaDot							BIT STRING (SIZE (16)),
	satHealth							BIT STRING (SIZE (8)),
	a-Sqrt								BIT STRING (SIZE (24)),
	omega0								BIT STRING (SIZE (24)),
	m0									BIT STRING (SIZE (24)),
	omega								BIT STRING (SIZE (24)),
	af0									BIT STRING (SIZE (11)),
	af1									BIT STRING (SIZE (11))
}

AlmanacSatInfoList ::=				SEQUENCE (SIZE (1..maxSat)) OF
										AlmanacSatInfo

ALM-BDSKeplerianSet	::=			SEQUENCE {
	sat-info-BDSkpList					GANSS-SAT-Info-Almanac-BDSkpList
}

ALM-ECEFsbasAlmanacSet ::=			SEQUENCE {
	sat-info-SBASecefList				GANSS-SAT-Info-Almanac-SBASecefList
}

ALM-GlonassAlmanacSet ::=			SEQUENCE {
	sat-info-GLOkpList					GANSS-SAT-Info-Almanac-GLOkpList
}

ALM-keplerianParameters ::=			SEQUENCE {
	-- time of week by 600s steps
	t-oa								INTEGER (0..1023),
	iod-a								INTEGER (0..15),
	sat-info-kpList						GANSS-SAT-Info-Almanac-KpList
}

ALM-MidiAlmanacSet ::=				SEQUENCE {
	-- time of week by 4096s steps
	t-oa								INTEGER (0..147),
	sat-info-MIDIkpList					GANSS-SAT-Info-Almanac-MIDIkpList
}

ALM-NAVKeplerianSet ::=				SEQUENCE {
	-- time of week by 4096s steps
	t-oa								INTEGER (0..147),
	sat-info-NAVkpList					GANSS-SAT-Info-Almanac-NAVkpList
}

ALM-ReducedKeplerianSet ::=			SEQUENCE {
	-- time of week by 4096s steps
	t-oa								INTEGER (0..147),
	sat-info-REDkpList					GANSS-SAT-Info-Almanac-REDkpList
}

AuxInfoGANSS-ID1 ::=				SEQUENCE (SIZE (1..maxGANSSSat)) OF AuxInfoGANSS-ID1-element

AuxInfoGANSS-ID1-element ::=		SEQUENCE {
	svID								INTEGER(0..63),
	signalsAvailable					BIT STRING (SIZE(8))
}

AuxInfoGANSS-ID3 ::=				SEQUENCE (SIZE (1.. maxGANSSSat)) OF AuxInfoGANSS-ID3-element

AuxInfoGANSS-ID3-element ::=		SEQUENCE {
	svID								INTEGER (0..63),
	signalsAvailable					BIT STRING (SIZE (8)),
	channelNumber						INTEGER (-7..13)
}

AverageRLC-BufferPayload ::=		ENUMERATED {
										pla0, pla4, pla8, pla16, pla32,
										pla64, pla128, pla256, pla512,
										pla1024, pla2k, pla4k, pla8k, pla16k,
										pla32k, pla64k, pla128k, pla256k,
										pla512k, pla1024k, spare12, spare11,
										spare10, spare9, spare8, spare7, spare6,
										spare5, spare4, spare3, spare2, spare1 }
	
AzimuthAndElevation ::=				SEQUENCE {
	-- Actual value azimuth = IE value * 11.25 + IE value of azimuthLSB * 0.703125 degrees
	azimuth								INTEGER (0..31),
	-- Actual value elevation = IE value * 11.25 + IE value of elevationLSB * 0.703125 degrees
	elevation							INTEGER (0..7)
}

AzimuthAndElevation-va40ext ::=		SEQUENCE {
	azimuthLSB							INTEGER (0..15),
	elevationLSB						INTEGER (0..15)
}

AzimuthAndElevation-r10 ::=	SEQUENCE {
	-- Actual value azimuth = IE value * 11.25 + IE value of azimuthLSB * 0.703125 degrees
	azimuth								INTEGER (0..31),
	-- Actual value elevation = IE value * 11.25 + IE value of elevationLSB * 0.703125 degrees
	elevation							INTEGER (0..7),
	azimuthLSB							INTEGER (0..15),
	elevationLSB						INTEGER (0..15)
}

BadSatList ::=						SEQUENCE (SIZE (1..maxSat)) OF
										INTEGER (0..63)

Frequency-Band ::=					ENUMERATED {
										dcs1800BandUsed, pcs1900BandUsed }

BCCH-ARFCN ::=						INTEGER (0..1023)

BDSclockModel ::=			SEQUENCE {
	bdsAODC				BIT STRING (SIZE (5)),
	bdsToc				BIT STRING (SIZE (17)),
	bdsa0				BIT STRING (SIZE (24)),
	bdsa1				BIT STRING (SIZE (22)),
	bdsa2				BIT STRING (SIZE (11)),
	bdsTgd1				BIT STRING (SIZE (10))
}

BDS-IGPInfoList ::= SEQUENCE (SIZE (1..maxIGPInfo)) OF SEQUENCE {
	bds-IGPNumber				INTEGER (1..320),
	bds-VerticalDelay			BIT STRING (SIZE (9)),
	bds-GIVEI					BIT STRING (SIZE (4))
}

DBDS-InfoList ::= SEQUENCE (SIZE (1..maxSgnType)) OF DBDS-Info

DBDS-Info ::= SEQUENCE {
	bds-SignalID			GANSS-Signal-Id		OPTIONAL,	
	dbds-SignalInfoList		DBDS-SignalInfoList
}

DBDS-SignalInfoList ::= SEQUENCE (SIZE (1..maxGANSSSat)) OF 
									DBDS-SignalInfo

DBDS-SignalInfo ::= SEQUENCE {
	svID 				INTEGER(0..63),
	bds-UDREI			INTEGER (0..15),
	bds-RURAI			INTEGER (0..15),
	bds-ECC-DeltaT		BIT STRING (SIZE (13))
}

BLER-MeasurementResults ::=			SEQUENCE {
	transportChannelIdentity			TransportChannelIdentity,
	dl-TransportChannelBLER				DL-TransportChannelBLER				OPTIONAL
}

BLER-MeasurementResultsList ::=		SEQUENCE (SIZE (1..maxTrCH)) OF
										BLER-MeasurementResults

BLER-TransChIdList ::=				SEQUENCE (SIZE (1..maxTrCH)) OF
										TransportChannelIdentity

BSIC-VerificationRequired ::=		ENUMERATED {
										required, notRequired }

BSICReported ::=					CHOICE {
	-- Value maxCellMeas is not allowed for verifiedBSIC
	verifiedBSIC						INTEGER (0..maxCellMeas),
	nonVerifiedBSIC						BCCH-ARFCN
}

BurstModeParameters ::=				SEQUENCE {
	burstStart							INTEGER (0..15),
	burstLength							INTEGER (10..25),
	burstFreq							INTEGER (1..16)
}

CellDCH-ReportCriteria ::=			CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria,
	periodicalReportingCriteria			PeriodicalReportingCriteria
}

CellDCH-ReportCriteria-LCR-r4 ::=	CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-LCR-r4,
	periodicalReportingCriteria			PeriodicalReportingCriteria
}

CellDCHMeasOccasionPattern-LCR ::=		SEQUENCE {
	patternIdentifier					INTEGER(0..maxMeasOccasionPattern-1),
	statusFlag							ENUMERATED	{
											activate, deactivate},
	measurementPurpose					BIT STRING (SIZE (5))				OPTIONAL,
	measurementOccasionPatternParameter	MeasurementOccasionPatternParameter	OPTIONAL
}
CellDCHMeasOccasionInfo-TDD128-r9::=	SEQUENCE {
	cellDCHMeasOccasionSequenceList 			SEQUENCE (SIZE (1..maxMeasOccasionPattern)) OF
										CellDCHMeasOccasionPattern-LCR
}

-- Actual value CellIndividualOffset = IE value * 0.5
CellIndividualOffset ::=			INTEGER (-20..20)


CellInfo ::=						SEQUENCE {
	cellIndividualOffset				CellIndividualOffset			 	DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info			OPTIONAL,
			primaryCPICH-TX-Power				PrimaryCPICH-TX-Power		OPTIONAL,
			readSFN-Indicator					BOOLEAN,
			tx-DiversityIndicator				BOOLEAN		
		},
		tdd									SEQUENCE {
			primaryCCPCH-Info					PrimaryCCPCH-Info,
			primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power		OPTIONAL,
			timeslotInfoList					TimeslotInfoList			OPTIONAL,
			readSFN-Indicator					BOOLEAN
		}
	}
}

CellInfo-r4 ::=						SEQUENCE {
	cellIndividualOffset				CellIndividualOffset			 	DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info			OPTIONAL,
			primaryCPICH-TX-Power				PrimaryCPICH-TX-Power		OPTIONAL,
			readSFN-Indicator					BOOLEAN,
			tx-DiversityIndicator				BOOLEAN		
		},
		tdd									SEQUENCE {
			primaryCCPCH-Info					PrimaryCCPCH-Info-r4,
			primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power		OPTIONAL,
			timeslotInfoList					TimeslotInfoList-r4			OPTIONAL,
			readSFN-Indicator					BOOLEAN

		}
	}
}

CellInfo-LCR-r8-ext ::=						SEQUENCE {
	cellSelectionReselectionInfo		CellSelectReselectInfoMC-RSCP	OPTIONAL
}

CellInfo-r9 ::=						SEQUENCE {
	cellIndividualOffset				CellIndividualOffset			 	DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info			OPTIONAL,
			primaryCPICH-TX-Power				PrimaryCPICH-TX-Power		OPTIONAL,
			readSFN-Indicator					BOOLEAN,
			tx-DiversityIndicator				BOOLEAN		
		},
		tdd									SEQUENCE {
			primaryCCPCH-Info					PrimaryCCPCH-Info-r4,
			primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power		OPTIONAL,
			timeslotInfoList					TimeslotInfoList-r4			OPTIONAL,
			readSFN-Indicator					BOOLEAN
		}
	},
	-- For 1.28 Mcps TDD, cellSelectionReselectionInfo is optional present when sent 
	-- in Measurement Control.For FDD, this IE is not needed.
	cellSelectionReselectionInfo		CellSelectReselectInfoMC-RSCP		OPTIONAL
}

CellInfoListToBeExcluded::=		SEQUENCE (SIZE (1..maxExcludedDetectedSetCells )) OF
										PrimaryCPICH-Info 

CellInfoSI-RSCP ::=					SEQUENCE {
	cellIndividualOffset				CellIndividualOffset		 		DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info			OPTIONAL,
			primaryCPICH-TX-Power				PrimaryCPICH-TX-Power		OPTIONAL,
			readSFN-Indicator					BOOLEAN,
			tx-DiversityIndicator				BOOLEAN		
		},
		tdd									SEQUENCE {
			primaryCCPCH-Info					PrimaryCCPCH-Info,
			primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power		OPTIONAL,
			timeslotInfoList					TimeslotInfoList			OPTIONAL,
			readSFN-Indicator					BOOLEAN
		}
	},
	cellSelectionReselectionInfo		CellSelectReselectInfoSIB-11-12-RSCP		OPTIONAL
}

CellInfoSI-RSCP-LCR-r4 ::=			SEQUENCE {
	cellIndividualOffset				CellIndividualOffset		 		DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	primaryCCPCH-Info					PrimaryCCPCH-Info-LCR-r4,
	primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power				OPTIONAL,
	timeslotInfoList					TimeslotInfoList-LCR-r4				OPTIONAL,
	readSFN-Indicator					BOOLEAN,
	cellSelectionReselectionInfo		CellSelectReselectInfoSIB-11-12-RSCP		OPTIONAL
}

CellInfoSI-ECN0 ::=					SEQUENCE {
	cellIndividualOffset				CellIndividualOffset		 		DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info			OPTIONAL,
			primaryCPICH-TX-Power				PrimaryCPICH-TX-Power		OPTIONAL,
			readSFN-Indicator					BOOLEAN,
			tx-DiversityIndicator				BOOLEAN		
		},
		tdd									SEQUENCE {
			primaryCCPCH-Info					PrimaryCCPCH-Info,
			primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power		OPTIONAL,
			timeslotInfoList					TimeslotInfoList			OPTIONAL,
			readSFN-Indicator					BOOLEAN
		}
	},
	cellSelectionReselectionInfo		CellSelectReselectInfoSIB-11-12-ECN0	OPTIONAL
}

CellInfoSI-ECN0-LCR-r4 ::=			SEQUENCE {
	cellIndividualOffset				CellIndividualOffset		 		DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	primaryCCPCH-Info					PrimaryCCPCH-Info-LCR-r4,
	primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power				OPTIONAL,
	timeslotInfoList					TimeslotInfoList-LCR-r4				OPTIONAL,
	readSFN-Indicator					BOOLEAN,
	cellSelectionReselectionInfo		CellSelectReselectInfoSIB-11-12-ECN0	OPTIONAL
}

CellInfoSI-HCS-RSCP ::=				SEQUENCE {
	cellIndividualOffset				CellIndividualOffset		 		DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info			OPTIONAL,
			primaryCPICH-TX-Power				PrimaryCPICH-TX-Power		OPTIONAL,
			readSFN-Indicator					BOOLEAN,
			tx-DiversityIndicator				BOOLEAN		
		},
		tdd									SEQUENCE {
			primaryCCPCH-Info					PrimaryCCPCH-Info,
			primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power		OPTIONAL,
			timeslotInfoList					TimeslotInfoList			OPTIONAL,
			readSFN-Indicator					BOOLEAN
		}
	},
	cellSelectionReselectionInfo		CellSelectReselectInfoSIB-11-12-HCS-RSCP	OPTIONAL
}

CellInfoSI-HCS-RSCP-LCR-r4 ::=		SEQUENCE {
	cellIndividualOffset				CellIndividualOffset		 		DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	primaryCCPCH-Info					PrimaryCCPCH-Info-LCR-r4,
	primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power				OPTIONAL,
	timeslotInfoList					TimeslotInfoList-LCR-r4				OPTIONAL,
	readSFN-Indicator					BOOLEAN,
	cellSelectionReselectionInfo		CellSelectReselectInfoSIB-11-12-HCS-RSCP	OPTIONAL
}

CellInfoSI-HCS-ECN0 ::=				SEQUENCE {
	cellIndividualOffset				CellIndividualOffset		 		DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info			OPTIONAL,
			primaryCPICH-TX-Power				PrimaryCPICH-TX-Power		OPTIONAL,
			readSFN-Indicator					BOOLEAN,
			tx-DiversityIndicator				BOOLEAN		
		},
		tdd									SEQUENCE {
			primaryCCPCH-Info					PrimaryCCPCH-Info,
			primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power		OPTIONAL,
			timeslotInfoList					TimeslotInfoList			OPTIONAL,
			readSFN-Indicator					BOOLEAN
		}
	},
	cellSelectionReselectionInfo		CellSelectReselectInfoSIB-11-12-HCS-ECN0	OPTIONAL
}

CellInfoSI-HCS-ECN0-LCR-r4 ::=		SEQUENCE {
	cellIndividualOffset				CellIndividualOffset		 		DEFAULT 0,
	referenceTimeDifferenceToCell		ReferenceTimeDifferenceToCell		OPTIONAL,
	primaryCCPCH-Info					PrimaryCCPCH-Info-LCR-r4,
	primaryCCPCH-TX-Power				PrimaryCCPCH-TX-Power				OPTIONAL,
	timeslotInfoList					TimeslotInfoList-LCR-r4				OPTIONAL,
	readSFN-Indicator					BOOLEAN,
	cellSelectionReselectionInfo		CellSelectReselectInfoSIB-11-12-HCS-ECN0	OPTIONAL
}

CellMeasuredResults ::=				SEQUENCE {
	cellIdentity						CellIdentity						OPTIONAL,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received it should be ignored.
	dummy			SFN-SFN-ObsTimeDifference			OPTIONAL,
	cellSynchronisationInfo			CellSynchronisationInfo			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			cpich-Ec-N0							CPICH-Ec-N0					OPTIONAL,
			cpich-RSCP							CPICH-RSCP					OPTIONAL,
			pathloss							Pathloss					OPTIONAL
		},
		tdd									SEQUENCE {
			cellParametersID					CellParametersID,
			proposedTGSN						TGSN						OPTIONAL,
			primaryCCPCH-RSCP					PrimaryCCPCH-RSCP			OPTIONAL,
			pathloss							Pathloss					OPTIONAL,
			timeslotISCP-List					TimeslotISCP-List			OPTIONAL
		}
	}
}

-- The IE is created in order to add missing DeltaRSCPPerCell IE from Rel-5.
CellMeasuredResults-r9 ::=				SEQUENCE {
	cellIdentity						CellIdentity						OPTIONAL,
	cellSynchronisationInfo			CellSynchronisationInfo			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			cpich-Ec-N0							CPICH-Ec-N0					OPTIONAL,
			cpich-RSCP							CPICH-RSCP					OPTIONAL,
			deltaRSCPPerCell					DeltaRSCPPerCell			OPTIONAL,
			pathloss							Pathloss					OPTIONAL
		},
		tdd									SEQUENCE {
			cellParametersID					CellParametersID,
			proposedTGSN						TGSN						OPTIONAL,
			primaryCCPCH-RSCP					PrimaryCCPCH-RSCP			OPTIONAL,
			pathloss							Pathloss					OPTIONAL,
			timeslotISCP-List					TimeslotISCP-List			OPTIONAL
		}
	}
}

CellMeasuredResults-v920ext ::= SEQUENCE {
	csgIdentity							CSG-Identity						OPTIONAL,
	csgMemberIndication					ENUMERATED { member }				OPTIONAL
}

CellMeasuredResults-vc50ext ::= SEQUENCE {
	csg-MemberPLMNList					CSG-MemberPLMNList					OPTIONAL
}

CellMeasurementEventResults ::=		CHOICE {
	fdd									SEQUENCE (SIZE (1..maxCellMeas)) OF
											PrimaryCPICH-Info,
	tdd									SEQUENCE (SIZE (1..maxCellMeas)) OF
											PrimaryCCPCH-Info
}

CellMeasurementEventResultsOnSecUlFreq ::=	CHOICE {
	fdd									SEQUENCE (SIZE (1.. maxCellMeasOnSecULFreq)) OF
											PrimaryCPICH-Info,
	spare								NULL
}

CellMeasurementEventResults-LCR-r4 ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
											PrimaryCCPCH-Info-LCR-r4

CellReportingQuantities ::=			SEQUENCE {
	-- dummy is not used in this version of the specification
	-- and if received it should be ignored.
	dummy					SFN-SFN-OTD-Type,
	cellIdentity-reportingIndicator						BOOLEAN,
	cellSynchronisationInfoReportingIndicator			BOOLEAN,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			cpich-Ec-N0-reportingIndicator							BOOLEAN,
			cpich-RSCP-reportingIndicator							BOOLEAN,
			pathloss-reportingIndicator							BOOLEAN
		},
		tdd									SEQUENCE {
			timeslotISCP-reportingIndicator						BOOLEAN,
			proposedTGSN-ReportingRequired						BOOLEAN,
			primaryCCPCH-RSCP-reportingIndicator					BOOLEAN,
			pathloss-reportingIndicator							BOOLEAN
		}
	}
}

CellSelectReselectInfoMC-RSCP ::=	SEQUENCE {
	q-OffsetS-N						Q-OffsetS-N						DEFAULT 0,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
	hcs-NeighbouringCellInformation-RSCP
										HCS-NeighbouringCellInformation-RSCP	OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			q-QualMin							Q-QualMin					OPTIONAL,
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		tdd									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		gsm									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		}
	}
}

CellSelectReselectInfoSIB-11-12 ::=	SEQUENCE {
	q-Offset1S-N						Q-OffsetS-N							DEFAULT 0,
	q-Offset2S-N						Q-OffsetS-N							OPTIONAL,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
	hcs-NeighbouringCellInformation-RSCP
										HCS-NeighbouringCellInformation-RSCP	OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			q-QualMin							Q-QualMin					OPTIONAL,
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		tdd									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		gsm									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		}
	}
}

CellSelectReselectInfoSIB-11-12-RSCP ::=	SEQUENCE {
	q-OffsetS-N						Q-OffsetS-N						DEFAULT 0,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			q-QualMin							Q-QualMin					OPTIONAL,
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		tdd									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		gsm									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		}
	}
}

CellSelectReselectInfoSIB-11-12-ECN0 ::=	SEQUENCE {
	q-Offset1S-N						Q-OffsetS-N						DEFAULT 0,
	q-Offset2S-N						Q-OffsetS-N						DEFAULT 0,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			q-QualMin							Q-QualMin					OPTIONAL,
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		tdd									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		gsm									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		}
	}
}

CellSelectReselectInfoSIB-11-12-HCS-RSCP ::=	SEQUENCE {
	q-OffsetS-N						Q-OffsetS-N						DEFAULT 0,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
	hcs-NeighbouringCellInformation-RSCP
										HCS-NeighbouringCellInformation-RSCP	OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			q-QualMin							Q-QualMin					OPTIONAL,
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		tdd									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		gsm									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		}
	}
}

CellSelectReselectInfoSIB-11-12-HCS-ECN0 ::=	SEQUENCE {
	q-Offset1S-N						Q-OffsetS-N						DEFAULT 0,
	q-Offset2S-N						Q-OffsetS-N						DEFAULT 0,
	maxAllowedUL-TX-Power				MaxAllowedUL-TX-Power				OPTIONAL,
	hcs-NeighbouringCellInformation-ECN0
										HCS-NeighbouringCellInformation-ECN0	OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			q-QualMin							Q-QualMin					OPTIONAL,
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		tdd									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		},
		gsm									SEQUENCE {
			q-RxlevMin							Q-RxlevMin					OPTIONAL
		}
	}
}

CellSelectReselectInfo-v590ext ::= SEQUENCE {
	deltaQrxlevmin					DeltaQrxlevmin					OPTIONAL,
	deltaQhcs						DeltaRSCP						OPTIONAL
}

CellSelectReselectInfoPCHFACH-v5b0ext ::= SEQUENCE {
	q-Hyst-l-S-PCH				Q-Hyst-S-Fine						OPTIONAL,
	q-Hyst-l-S-FACH				Q-Hyst-S-Fine						OPTIONAL,
	q-Hyst-2-S-PCH				Q-Hyst-S-Fine						OPTIONAL,
	q-Hyst-2-S-FACH				Q-Hyst-S-Fine						OPTIONAL,
	t-Reselection-S-PCH			T-Reselection-S						OPTIONAL,
	t-Reselection-S-FACH		T-Reselection-S-Fine				OPTIONAL
}

CellSelectReselectInfoTreselectionScaling-v5c0ext ::= SEQUENCE {
	-- For speed detection, the same HCS parameters are utilised
	non-HCS-t-CR-Max							T-CRMax									OPTIONAL,
	speedDependentScalingFactor					SpeedDependentScalingFactor				OPTIONAL,
	interFrequencyTreselectionScalingFactor		TreselectionScalingFactor				OPTIONAL,
	interRATTreselectionScalingFactor			TreselectionScalingFactor				OPTIONAL
}

CellsForInterFreqMeasList ::=		SEQUENCE (SIZE  (1..maxCellMeas)) OF
										InterFreqCellID

CellsForInterFreqMeasList-r12 ::=		SEQUENCE (SIZE  (1..maxCellMeas-ext)) OF
										InterFreqCellID-r12

CellsForInterRATMeasList ::=			SEQUENCE (SIZE  (1..maxCellMeas)) OF
										InterRATCellID

CellsForIntraFreqMeasList ::=		SEQUENCE (SIZE  (1..maxCellMeas)) OF
										IntraFreqCellID

CellsForIntraFreqMeasListOnSecULFreq ::=	SEQUENCE (SIZE  (1..maxCellMeasOnSecULFreq)) OF
												IntraFreqCellIDOnSecULFreq

CellSynchronisationInfo ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			countC-SFN-Frame-difference			CountC-SFN-Frame-difference		OPTIONAL,
			tm									INTEGER(0..38399)	
		},
		tdd									SEQUENCE {
			countC-SFN-Frame-difference			CountC-SFN-Frame-difference		OPTIONAL
		}
	}							
}

CellToReport ::=					SEQUENCE {
	bsicReported						BSICReported
}

CellToReportList ::=				SEQUENCE (SIZE (1..maxCellMeas)) OF
										CellToReport

CNAVclockModel ::=					SEQUENCE {
	cnavToc								BIT STRING (SIZE (11)),
	cnavTop								BIT STRING (SIZE (11)),
	cnavURA0							BIT STRING (SIZE (5)),
	cnavURA1							BIT STRING (SIZE (3)),
	cnavURA2							BIT STRING (SIZE (3)),
	cnavAf2								BIT STRING (SIZE (10)),
	cnavAf1								BIT STRING (SIZE (20)),
	cnavAf0								BIT STRING (SIZE (26)),
	cnavTgd								BIT STRING (SIZE (13)),
	cnavISCl1cp							BIT STRING (SIZE (13))				OPTIONAL,
	cnavISCl1cd							BIT STRING (SIZE (13))				OPTIONAL,
	cnavISCl1ca							BIT STRING (SIZE (13))				OPTIONAL,
	cnavISCl2c							BIT STRING (SIZE (13))				OPTIONAL,
	cnavISCl5i5							BIT STRING (SIZE (13))				OPTIONAL,
	cnavISCl5q5							BIT STRING (SIZE (13))				OPTIONAL
}

CodePhaseSearchWindow ::=			ENUMERATED {
										w1023, w1, w2, w3, w4, w6, w8,
										w12, w16, w24, w32, w48, w64,
										w96, w128, w192 }

CountC-SFN-Frame-difference ::= SEQUENCE {
	-- Actual value countC-SFN-High = IE value * 256
	countC-SFN-High					INTEGER(0..15),
	off								INTEGER(0..255)
}

-- SPARE: CPICH-Ec-No, Max = 49
-- Values above Max are spare
CPICH-Ec-N0 ::=						INTEGER (0..63)

-- SPARE: CPICH- RSCP, Max = 91
-- Values above Max are spare
CPICH-RSCP ::=						INTEGER (0..127)

CPICH-Ec-N0-RSCP ::=	SEQUENCE {
	cpich-Ec-N0						CPICH-Ec-N0,
	cpich-RSCP						CPICH-RSCP
}

CSG-MemberPLMNList ::=	SEQUENCE(SIZE (1..6)) OF
										PLMN-Identity

CSGCellInfo ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			startPSC							PrimaryCPICH-Info,
			numberOfPSCs						INTEGER (1..512)
		},
		tdd								NULL
	}
}

CSGCellInfoList ::=		SEQUENCE (SIZE (1..maxMeasCSGRange)) OF
										CSGCellInfo

CSGInterFreqCellInfo ::=			SEQUENCE {
	frequencyInfo						FrequencyInfo,
	cSGInterFreqCellInfoListperFreq		CSGCellInfoList
}

CSGInterFreqCellInfoList ::=		SEQUENCE (SIZE (1..maxFreq)) OF
										CSGInterFreqCellInfo

CSGIntraFreqCellInfoList ::=			CSGCellInfoList

CSGProximityDetection ::=			SEQUENCE {
	uTRACSGProximityDetec					ENUMERATED { enable }			OPTIONAL,
	e-UTRACSGProximityDetec					ENUMERATED { enable }			OPTIONAL
}

CSGProximityIndication ::=				SEQUENCE {
	cSGproximityInd						ENUMERATED {entering, leaving },
	radioAccessTechnology				CHOICE {
		uTRA								SEQUENCE {
			cSGFrequencyInfoUTRA					FrequencyInfo
		},
		e-UTRA								SEQUENCE {
			cSGFrequencyInfoEUTRA					EARFCN
		}
	}
}

CSGProximityIndication-vb50ext ::=				SEQUENCE {
	cSGFrequencyInfoEUTRA					EARFCNExtension						OPTIONAL
}

DataBitAssistance ::=				SEQUENCE {
	ganss-signal-id						GANSS-Signal-Id,
	data-bits							BIT STRING (SIZE (1..1024))
}

DataBitAssistanceList ::=			SEQUENCE (SIZE (1..maxGANSSSat)) OF
										DataBitAssistanceSat

DataBitAssistanceSat ::= 			SEQUENCE {
	satID								INTEGER(0..63),
	dataBitAssistanceSgnList			DataBitAssistanceSgnList
}

DataBitAssistanceSgnList ::= 		SEQUENCE (SIZE (1..maxSgnType)) OF
										DataBitAssistance

DeltaPRC ::=						INTEGER (-127..127)

--Actual value DeltaQrxlevmin = IE value * 2
DeltaQrxlevmin ::= INTEGER (-2..-1)

DeltaRSCP ::= INTEGER (-5..-1)

DeltaRSCPPerCell ::= SEQUENCE {
	deltaRSCP						DeltaRSCP	OPTIONAL
}

-- Actual value DeltaRRC = IE value * 0.032
DeltaRRC ::=						INTEGER (-7..7)

DeltaUT1 ::=						SEQUENCE {
	b1									BIT STRING (SIZE (11)),
	b2									BIT STRING (SIZE (10))
}

DGANSSInfo ::=						SEQUENCE {
	ganssSignalId						GANSS-Signal-Id						OPTIONAL,
	ganssStatusHealth					GANSS-Status-Health,
	dgansssignalInformationList			DGANSSSignalInformationList			OPTIONAL
}

DGANSSInfo-r9 ::=						SEQUENCE {
	ganssSignalId						GANSS-Signal-Id						OPTIONAL,
	ganssStatusHealth					GANSS-Status-Health,
	dgansssignalInformationList			DGANSSSignalInformationList-r9		OPTIONAL
}

DGANSSInfo-v920ext ::=				SEQUENCE {
	dgansssignalInformationList			DGANSSSignalInformationList-v920ext	OPTIONAL
}

DGANSSInfoList ::=					SEQUENCE (SIZE (1..maxSgnType)) OF
										DGANSSInfo

DGANSSInfoList-r9 ::=					SEQUENCE (SIZE (1..maxSgnType)) OF
										DGANSSInfo-r9

DGANSSInfoList-v920ext ::=			SEQUENCE (SIZE (1..maxSgnType)) OF
										DGANSSInfo-v920ext

DGANSSSignalInformation ::=			SEQUENCE {
	satId								INTEGER (0..63),
	iode-dganss							BIT STRING (SIZE (10)),
	udre								UDRE,
	ganss-prc							INTEGER (-2047..2047),		-- scale factor 0.32
	ganss-rrc							INTEGER (-127..127)			-- scale factor 0.032
}

DGANSSSignalInformation-r9 ::=			SEQUENCE {
	satId								INTEGER (0..63),
	iode-dganss							BIT STRING (SIZE (10)),
	udre								UDRE,
	ganss-prc							INTEGER (-2047..2047),		-- scale factor 0.32
	ganss-rrc							INTEGER (-127..127),		-- scale factor 0.032
	udreGrowthRate						UDREGrowthRate 						OPTIONAL,
	udreValidityTime					UDREValidityTime					OPTIONAL
}

DGANSSSignalInformation-v920ext ::=	SEQUENCE	{
	udreGrowthRate						UDREGrowthRate 			OPTIONAL,
	udreValidityTime					UDREValidityTime		OPTIONAL
}

DGANSSSignalInformationList ::=		SEQUENCE (SIZE (1..maxGANSSSat)) OF
										DGANSSSignalInformation

DGANSSSignalInformationList-r9 ::=		SEQUENCE (SIZE (1..maxGANSSSat)) OF
										DGANSSSignalInformation-r9

DGANSSSignalInformationList-v920ext ::= SEQUENCE (SIZE (1..maxGANSSSat)) OF
											DGANSSSignalInformation-v920ext

DGANSS-Sig-Id-Req ::=				BIT STRING (SIZE (8))

DGPS-CorrectionSatInfo ::=			SEQUENCE {
	satID								SatID,
	iode								IODE,
	udre								UDRE,
	prc									PRC,
	rrc									RRC,
-- dummy1 and dummy2 are not used in this version of the specification and should be ignored.
	dummy1							DeltaPRC,
	dummy2							DeltaRRC,
	-- dummy3 and dummy4 are not used in this version of the specification. They should not
	-- be sent and if received they should be ignored.
	dummy3							DeltaPRC			OPTIONAL,
	dummy4							DeltaRRC			OPTIONAL
}

DGPS-CorrectionSatInfo-r9 ::=			SEQUENCE {
	satID								SatID,
	iode								IODE,
	udre								UDRE,
	prc									PRC,
	rrc									RRC,
	udreGrowthRate						UDREGrowthRate 						OPTIONAL,
	udreValidityTime					UDREValidityTime					OPTIONAL
}

DGPS-CorrectionSatInfo-v920ext ::=	SEQUENCE {
	udreGrowthRate						UDREGrowthRate 			OPTIONAL,
	udreValidityTime					UDREValidityTime		OPTIONAL
}

DGPS-CorrectionSatInfoList ::=		SEQUENCE (SIZE (1..maxSat)) OF
										DGPS-CorrectionSatInfo

DGPS-CorrectionSatInfoList-r9 ::=		SEQUENCE (SIZE (1..maxSat)) OF
										DGPS-CorrectionSatInfo-r9

DGPS-CorrectionSatInfoList-v920ext ::=	SEQUENCE (SIZE (1..maxSat)) OF
											DGPS-CorrectionSatInfo-v920ext

DiffCorrectionStatus ::=			ENUMERATED {
										udre-1-0, udre-0-75, udre-0-5, udre-0-3,
										udre-0-2, udre-0-1, noData, invalidData }

DL-TransportChannelBLER ::=			INTEGER (0..63)

DopplerUncertainty ::=				ENUMERATED {
										hz12-5, hz25, hz50, hz100, hz200,
										spare3, spare2, spare1 }

DopplerUncertaintyExt ::=			ENUMERATED {
										hz300, hz400, hz500, hz600, noInformation,
										spare3, spare2, spare1 }

EllipsoidPoint ::=					SEQUENCE {	
	latitudeSign		ENUMERATED { north, south },
	latitude			INTEGER (0..8388607),
	longitude			INTEGER (-8388608..8388607)
}


EllipsoidPointAltitude ::=			SEQUENCE {
	latitudeSign		ENUMERATED { north, south },
	latitude			INTEGER (0..8388607),
	longitude			INTEGER (-8388608..8388607),
	altitudeDirection	ENUMERATED {height, depth},
	altitude			INTEGER (0..32767)
}


EllipsoidPointAltitudeEllipsoide ::=	SEQUENCE {
	latitudeSign			ENUMERATED { north, south },
	latitude				INTEGER (0..8388607),
	longitude				INTEGER (-8388608..8388607),
	altitudeDirection		ENUMERATED {height, depth},
	altitude				INTEGER (0..32767),
	uncertaintySemiMajor	INTEGER (0..127),
	uncertaintySemiMinor	INTEGER (0..127),
	-- Actual value orientationMajorAxis = IE value * 2
	orientationMajorAxis	INTEGER (0..89),
	uncertaintyAltitude		INTEGER (0..127),
	confidence				INTEGER (0..100)
}


EllipsoidPointUncertCircle ::=		SEQUENCE {
	latitudeSign			ENUMERATED { north, south },
	latitude				INTEGER (0..8388607),
	longitude				INTEGER (-8388608..8388607),
	uncertaintyCode			INTEGER (0..127)
}


EllipsoidPointUncertEllipse ::=		SEQUENCE {
	latitudeSign			ENUMERATED { north, south },
	latitude				INTEGER (0..8388607),
	longitude				INTEGER (-8388608..8388607),
	uncertaintySemiMajor	INTEGER (0..127),
	uncertaintySemiMinor	INTEGER (0..127),
	-- Actual value orientationMajorAxis = IE value * 2
	orientationMajorAxis	INTEGER (0..89),
	confidence				INTEGER (0..100)
}


EnvironmentCharacterisation ::=		ENUMERATED {
										possibleHeavyMultipathNLOS,
										lightMultipathLOS,
										notDefined,
										spare }

EUTRA-CSGMemberPLMNList ::=	SEQUENCE(SIZE (1..5)) OF
										PLMN-Identity

Eutra-EventResult ::=				SEQUENCE {
	earfcn								EARFCN,
	reportedCells						SEQUENCE (SIZE (1..maxReportedEUTRACellPerFreq)) OF
											EUTRA-PhysicalCellIdentity
}

EUTRA-EventResult-vb50ext ::=		SEQUENCE {
	earfcn								EARFCNExtension							OPTIONAL
}

EUTRA-EventResult-vc50ext ::=		SEQUENCE {
	earfcn								EARFCNExtension2,
	reportedCells						SEQUENCE (SIZE (1..maxReportedEUTRACellPerFreq)) OF
											EUTRA-PhysicalCellIdentity
}

Eutra-EventResultList ::=			SEQUENCE (SIZE (1..maxReportedEUTRAFreqs)) OF
										Eutra-EventResult

EUTRA-EventResultList-vb50ext ::=	SEQUENCE (SIZE (1..maxReportedEUTRAFreqs)) OF
										EUTRA-EventResult-vb50ext

EUTRA-EventResultList-vc50ext ::=	SEQUENCE (SIZE (1..maxReportedEUTRAFreqs-ext)) OF
										EUTRA-EventResult-vc50ext

EUTRA-EventResults ::=				SEQUENCE {
	eventID								EventIDInterRAT,
	eutra-EventResultsList				Eutra-EventResultList
}

EUTRA-EventResults-vb50ext ::=		SEQUENCE {
	eutra-EventResultsList				EUTRA-EventResultList-vb50ext
}

EUTRA-EventResults-vc50ext ::=		SEQUENCE {
	eutra-EventResultsList				EUTRA-EventResultList-vc50ext
}

EUTRA-EventResultsForCELLFACH ::= 				SEQUENCE {
	eutraFrequencyIndicator						BIT STRING (SIZE (maxNumEUTRAFreqs-FACH))
}

EUTRA-EventResultsForCELLFACH-vc50ext ::= 			SEQUENCE {
	eutraFrequencyIndicator						BIT STRING (SIZE (maxNumEUTRAFreqs-FACH))
}

EUTRA-FrequencyAndPriorityInfo ::=	SEQUENCE {
	earfcn								EARFCN,
	measurementBandwidth				EUTRA-MeasurementBandwidth				OPTIONAL,
	priority							INTEGER (0..maxPrio-1),
	-- Actual value = IE value * 2
	qRxLevMinEUTRA						INTEGER (-70..-22),
	-- Actual value = IE value * 2
	threshXhigh							INTEGER (0..31),
	-- Actual value = IE value * 2
	threshXlow							INTEGER (0..31),
	eutra-blackListedCellList			EUTRA-BlacklistedCellPerFreqList		OPTIONAL,
	eutraDetection						BOOLEAN
}

EUTRA-FrequencyAndPriorityInfo-v920ext ::=	SEQUENCE {
	qqualMinEUTRA						INTEGER (-34..-3)						OPTIONAL,
	threshXhigh2						INTEGER (0..31)							OPTIONAL,
	threshXlow2							INTEGER (0..31)							OPTIONAL
}

EUTRA-FrequencyAndPriorityInfo-vb50ext ::=	SEQUENCE {
	qqualMinEUTRA-WB					INTEGER (-34..-3)							OPTIONAL
}

EUTRA-FrequencyAndPriorityInfo-vc50ext ::=	SEQUENCE {
	qqualMinRSRQ-OnAllSymbols				INTEGER (-34..-3)						OPTIONAL,
	reducedMeasurementPerformance		ENUMERATED {true}							OPTIONAL
}

EUTRA-FrequencyAndPriorityInfo-vd20ext ::=	SEQUENCE {
	subpriority							ENUMERATED {oDot2,oDot4,oDot6,oDot8}		OPTIONAL
}

EUTRA-FrequencyAndPriorityInfoExtension-vb50ext ::=	SEQUENCE {
	earfcn								EARFCNExtension,
	measurementBandwidth				EUTRA-MeasurementBandwidth				OPTIONAL,
	priority							INTEGER (0..maxPrio-1),
	-- Actual value = IE value * 2
	qRxLevMinEUTRA						INTEGER (-70..-22),
	-- Actual value = IE value * 2
	threshXhigh							INTEGER (0..31),
	-- Actual value = IE value * 2
	threshXlow							INTEGER (0..31),
	qqualMinEUTRA						INTEGER (-34..-3)						OPTIONAL,
	threshXhigh2						INTEGER (0..31)							OPTIONAL,
	threshXlow2							INTEGER (0..31)							OPTIONAL,
	eutra-blackListedCellList			EUTRA-BlacklistedCellPerFreqList		OPTIONAL,
	eutraDetection						BOOLEAN
}

EUTRA-FrequencyAndPriorityInfoExtension-vb80ext ::=	SEQUENCE {
	qqualMinEUTRA-WB					INTEGER (-34..-3)						OPTIONAL
}

EUTRA-FrequencyAndPriorityInfoExtension-vc50ext ::=	SEQUENCE {
	qqualMinRSRQ-OnAllSymbols				INTEGER (-34..-3)						OPTIONAL,
	reducedMeasurementPerformance		ENUMERATED {true}							OPTIONAL
}

EUTRA-FrequencyAndPriorityInfoExtension-vd20ext ::=	SEQUENCE {
	subpriority							ENUMERATED {oDot2,oDot4,oDot6,oDot8}		OPTIONAL
}

EUTRA-FrequencyAndPriorityInfoExtensionList ::=	SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
											EUTRA-FrequencyAndPriorityInfoExtension-vb50ext

EUTRA-FrequencyAndPriorityInfoExtensionList-vb80ext ::=	SEQUENCE  (SIZE (1..maxNumEUTRAFreqs)) OF
											EUTRA-FrequencyAndPriorityInfoExtension-vb80ext

EUTRA-FrequencyAndPriorityInfoExtensionList-vc50ext ::=	SEQUENCE  (SIZE (1..maxNumEUTRAFreqs)) OF
											EUTRA-FrequencyAndPriorityInfoExtension-vc50ext

EUTRA-FrequencyAndPriorityInfoExtensionList-vd20ext ::=	SEQUENCE  (SIZE (1..maxNumEUTRAFreqs)) OF
											EUTRA-FrequencyAndPriorityInfoExtension-vd20ext

EUTRA-FrequencyAndPriorityInfoList ::=	SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
											EUTRA-FrequencyAndPriorityInfo

EUTRA-FrequencyAndPriorityInfoList-v920ext ::=	SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
											EUTRA-FrequencyAndPriorityInfo-v920ext

EUTRA-FrequencyAndPriorityInfoList-vb50ext ::=	SEQUENCE  (SIZE (1..maxNumEUTRAFreqs)) OF
											EUTRA-FrequencyAndPriorityInfo-vb50ext

EUTRA-FrequencyAndPriorityInfoList-vc50ext ::=	SEQUENCE  (SIZE (1..maxNumEUTRAFreqs)) OF
											EUTRA-FrequencyAndPriorityInfo-vc50ext

EUTRA-FrequencyAndPriorityInfoList-vd20ext ::=	SEQUENCE  (SIZE (1..maxNumEUTRAFreqs)) OF
											EUTRA-FrequencyAndPriorityInfo-vd20ext

EUTRA-FrequencyList ::=				SEQUENCE {
	eutraFrequencyRemoval				EUTRA-FrequencyRemoval,
	eutraNewFrequencies					EUTRA-FrequencyInfoList					OPTIONAL
}

EUTRA-FrequencyList-r9 ::=			SEQUENCE {
	eutraFrequencyRemoval				EUTRA-FrequencyRemoval,
	eutraNewFrequencies					EUTRA-FrequencyInfoList					OPTIONAL,
	eutraSIAcquisition					EUTRA-SIAcquisition						OPTIONAL
}

EUTRA-FrequencyList-r11 ::=			SEQUENCE {
	eutraFrequencyRemoval				EUTRA-FrequencyRemoval-r11,
	eutraNewFrequencies					EUTRA-FrequencyInfoList-r11				OPTIONAL,
	eutraSIAcquisition					EUTRA-SIAcquisition-r11					OPTIONAL
}

EUTRA-FrequencyList-r12 ::=			SEQUENCE {
	eutraFrequencyRemoval				EUTRA-FrequencyRemoval-r11,
	eutraNewFrequencies				EUTRA-FrequencyInfoList-r12				OPTIONAL,
	eutraSIAcquisition					EUTRA-SIAcquisition-r11					OPTIONAL,
	rsrqMeasOnAllSymbols				BOOLEAN										OPTIONAL
}

EUTRA-SIAcquisition ::=				SEQUENCE {
	earfcn								EARFCN,
	physicalCellIdentity				EUTRA-PhysicalCellIdentity
}

EUTRA-SIAcquisition-r11 ::=				SEQUENCE {
-- If the IE earfcn is set to a value of 65535, then the EARFCN
--	value for that instance shall be read from the IE earfcnExt.
	earfcn								EARFCN,
	earfcnExt							EARFCNExtension					OPTIONAL,
	physicalCellIdentity				EUTRA-PhysicalCellIdentity
}

EUTRA-MeasuredCells ::=				SEQUENCE {
	physicalCellIdentity				EUTRA-PhysicalCellIdentity,
	rSRP								INTEGER (0..97)		OPTIONAL,
	rSRQ								INTEGER (0..33)		OPTIONAL
}

Eutra-MeasuredResult ::=			SEQUENCE {
	earfcn								EARFCN,
	measuredEUTRACells					SEQUENCE (SIZE (1..maxReportedEUTRACellPerFreq)) OF
											EUTRA-MeasuredCells
}

EUTRA-MeasuredResult-vb50ext ::=		SEQUENCE {
	earfcn								EARFCNExtension							OPTIONAL
}

Eutra-MeasuredResultList ::=		SEQUENCE (SIZE (1..maxReportedEUTRAFreqs)) OF
										Eutra-MeasuredResult

EUTRA-MeasuredResultList-vb50ext ::=	SEQUENCE (SIZE (1..maxReportedEUTRAFreqs)) OF
										EUTRA-MeasuredResult-vb50ext

EUTRA-MeasuredResults ::=			SEQUENCE {
	eutraMeasuredResultList				Eutra-MeasuredResultList
}

EUTRA-MeasuredResults-vb50ext ::=	SEQUENCE {
	eutraMeasuredResultList				EUTRA-MeasuredResultList-vb50ext
}

EUTRA-MeasuredCells-v920ext ::=		SEQUENCE {
	eutraSIacquisitionResults			EUTRA-SIacquisitionResults
}

EUTRA-MeasuredCells-vc50ext ::=		SEQUENCE {
	physicalCellIdentity				EUTRA-PhysicalCellIdentity	OPTIONAL,
	rSRP								INTEGER (0..97)				OPTIONAL,
	rSRQ								INTEGER (0..33)				OPTIONAL,
	eutraSIacquisitionResults			EUTRA-SIacquisitionResults-vc50ext,
	rsrqExtension						INTEGER (-30..46)		OPTIONAL
}

Eutra-MeasuredResult-v920ext ::=	SEQUENCE {
	measuredEUTRACells-v920ext			SEQUENCE (SIZE (1..maxReportedEUTRACellPerFreq)) OF
											EUTRA-MeasuredCells-v920ext
}

Eutra-MeasuredResult-vc50ext ::=	SEQUENCE {
	earfcn								EARFCNExtension2			OPTIONAL,
	measuredEUTRACells-vc50ext			SEQUENCE (SIZE (1..maxReportedEUTRACellPerFreq)) OF
											EUTRA-MeasuredCells-vc50ext
}

Eutra-MeasuredResultList-v920ext ::=	SEQUENCE (SIZE (1..maxReportedEUTRAFreqs)) OF
											Eutra-MeasuredResult-v920ext

Eutra-MeasuredResultList-vc50ext ::=	SEQUENCE (SIZE (1..maxReportedEUTRAFreqs)) OF
											Eutra-MeasuredResult-vc50ext

EUTRA-MeasuredResults-v920ext ::=	SEQUENCE {
	eutraMeasuredResultList-v920ext		Eutra-MeasuredResultList-v920ext
}

EUTRA-MeasuredResults-vc50ext ::=	SEQUENCE {
	eutraMeasuredResultList-vc50ext		Eutra-MeasuredResultList-vc50ext
}

EUTRA-SIacquisitionResults ::= 		SEQUENCE {
	cgiInfo								SEQUENCE {
		plmn-Identity 						PLMN-Identity,
		cellIdentity 						BIT STRING (SIZE (28)),
		trackingAreaCode 					BIT STRING (SIZE (16))
	},
	csgIdentity							CSG-Identity						OPTIONAL,
	csgMemberIndication					ENUMERATED { member }				OPTIONAL
}

EUTRA-SIacquisitionResults-vc50ext ::= 		SEQUENCE {
	cgiInfo								CGI-Info							OPTIONAL,
	csgIdentity							CSG-Identity						OPTIONAL,
	csgMemberIndication					ENUMERATED { member }				OPTIONAL,
	csgMemberPLMN 						EUTRA-CSGMemberPLMNList				OPTIONAL,
	primaryPLMNSuitable					ENUMERATED { true }					OPTIONAL
}

CGI-Info ::=						SEQUENCE {
		plmn-Identity 						PLMN-Identity,
		cellIdentity 						BIT STRING (SIZE (28)),
		trackingAreaCode 					BIT STRING (SIZE (16))
}

EUTRA-FrequencyRemoval ::=			CHOICE {
		removeAllFrequencies			NULL,
		removeSomeFrequencies			SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
											EARFCN,
		removeNoFrequencies				NULL
}

EUTRA-FrequencyRemoval-r11 ::=			CHOICE {
		removeAllFrequencies			NULL,
		removeSomeFrequencies			FrequenciesToRemove,
		removeNoFrequencies				NULL
}

EUTRA-FrequencyInfoList ::=			SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
										EUTRA-FrequencyInfo

EUTRA-FrequencyInfoList-r11 ::=			SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
										EUTRA-FrequencyInfo-r11

EUTRA-FrequencyInfoList-r12 ::=			SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
										EUTRA-FrequencyInfo-r12

EUTRA-FrequencyInfo ::=				SEQUENCE {
	earfcn								EARFCN,
	measurementBandwidth				EUTRA-MeasurementBandwidth				OPTIONAL,
	eutra-blackListedCellList			EUTRA-BlacklistedCellPerFreqList		OPTIONAL
}

EUTRA-FrequencyInfo-r11 ::=	SEQUENCE {
-- If the IE earfcn is set to a value of 65535, then the EARFCN
-- value for that instance shall be read from the IE earfcnExt.
	earfcn								EARFCN,
	earfcnExt							EARFCNExtension							OPTIONAL,
	measurementBandwidth				EUTRA-MeasurementBandwidth				OPTIONAL,
	eutra-blackListedCellList			EUTRA-BlacklistedCellPerFreqList		OPTIONAL,
	widebandRSRQMeasurements			ENUMERATED {true}						OPTIONAL
}

EUTRA-FrequencyInfo-r12 ::=	SEQUENCE {
	earfcn								EARFCNExtension2,
	reducedMeasurementPerformance		ENUMERATED {true}						OPTIONAL,
	measurementBandwidth				EUTRA-MeasurementBandwidth				OPTIONAL,
	eutra-blackListedCellList			EUTRA-BlacklistedCellPerFreqList		OPTIONAL,
	widebandRSRQMeasurements			ENUMERATED {true}						OPTIONAL
}

EUTRA-FrequencyRACHReportingInfo ::= SEQUENCE {
	eutra-FrequencyListIndicator				BIT STRING (SIZE (maxNumEUTRAFreqs)),
	eutra-FrequencyRepQuantityRACH				ENUMERATED { rsrp, rsrq },
	eutra-FrequencyRACHReportingThreshold		INTEGER (0..97),
	rachReportingPriority				ENUMERATED { 	intraEUTRAInter, interIntraEUTRA, 
														interEUTRAIntra, eUTRAIntraInter, 
														eUTRAInterIntra, spare3,
														spare2, spare1		 }		OPTIONAL
}

EUTRA-FrequencyRACHReportingInfo-vc50ext ::= SEQUENCE {
    eutra-FrequencyListIndicator               BIT STRING (SIZE (maxNumEUTRAFreqs)),
	eutra-FrequencyRACHReportingThresholdExtension		INTEGER (-30..-1)		OPTIONAL
}

EUTRA-MeasurementBandwidth ::=		ENUMERATED { mbw6, mbw15, mbw25, mbw50, mbw75, mbw100 }

EUTRA-MeasurementForCELLFACH ::=			SEQUENCE {
	eutraFrequenciesForMeasurement			SEQUENCE (SIZE (1..maxNumEUTRAFreqs-FACH)) OF
												EARFCNRange,
	reportCriteria							ENUMERATED { event-triggeredreporting,																						periodicalReporting },
	measurementQuantity						ENUMERATED { rsrp, rsrq },
	reportingThreshold						INTEGER (0..97)
}

EUTRA-MeasurementForCELLFACH-r12 ::=		SEQUENCE {
	eutraFrequenciesForMeasurement			SEQUENCE (SIZE (1..maxNumEUTRAFreqs-FACH-ext)) OF
												EARFCNRange,
	reportCriteria							ENUMERATED { event-triggeredreporting,																						periodicalReporting },
	measurementQuantity						ENUMERATED { rsrp, rsrq },
	reportingThreshold						INTEGER (-30..97)
}
FrequenciesToRemove ::= SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
											EARFCNRange

Event1a ::=							SEQUENCE {
	triggeringCondition					TriggeringCondition2,
	reportingRange						ReportingRange,
	forbiddenAffectCellList				ForbiddenAffectCellList					OPTIONAL,
	w									W,
	reportDeactivationThreshold			ReportDeactivationThreshold,
	reportingAmount						ReportingAmount,
	reportingInterval					ReportingInterval
}

Event1a-r4 ::=						SEQUENCE {
	triggeringCondition					TriggeringCondition2,
	reportingRange						ReportingRange,
	forbiddenAffectCellList				ForbiddenAffectCellList-r4				OPTIONAL,
	w									W,
	reportDeactivationThreshold			ReportDeactivationThreshold,
	reportingAmount						ReportingAmount,
	reportingInterval					ReportingInterval
}

Event1a-OnSecUlFreq-r9 ::=						SEQUENCE {
	triggeringCondition					TriggeringCondition2,
	reportingRange						ReportingRange,
	forbiddenAffectCellListOnSecULFreq	ForbiddenAffectCellListOnSecULFreq		OPTIONAL,
	w									W,
	reportDeactivationThreshold			ReportDeactivationThreshold,
	reportingAmount						ReportingAmount,
	reportingInterval					ReportingInterval
}

Event1a-LCR-r4 ::=					SEQUENCE {
	triggeringCondition					TriggeringCondition2,
	reportingRange						ReportingRange,
	forbiddenAffectCellList				ForbiddenAffectCellList-LCR-r4			OPTIONAL,
	w									W,
	reportDeactivationThreshold			ReportDeactivationThreshold,
	reportingAmount						ReportingAmount,
	reportingInterval					ReportingInterval
}

Event1b ::=							SEQUENCE {
	triggeringCondition					TriggeringCondition1,
	reportingRange						ReportingRange,
	forbiddenAffectCellList				ForbiddenAffectCellList					OPTIONAL,
	w									W
}

Event1b-r4 ::=						SEQUENCE {
	triggeringCondition					TriggeringCondition1,
	reportingRange						ReportingRange,
	forbiddenAffectCellList				ForbiddenAffectCellList-r4				OPTIONAL,
	w									W
}

Event1b-r7 ::=						SEQUENCE {
	triggeringCondition					TriggeringCondition1,
	reportingRange						ReportingRange,
	forbiddenAffectCellList				ForbiddenAffectCellList-r4				OPTIONAL,
	w									W,
	periodicReportingInfo-1b			PeriodicReportingInfo-1b				OPTIONAL
}

Event1b-OnSecUlFreq-r9 ::=						SEQUENCE {
	triggeringCondition					TriggeringCondition1,
	reportingRange						ReportingRange,
	forbiddenAffectCellListOnSecULFreq	ForbiddenAffectCellListOnSecULFreq		OPTIONAL,
	w									W,
	periodicReportingInfo-1b			PeriodicReportingInfo-1b				OPTIONAL
}

Event1b-LCR-r4 ::=					SEQUENCE {
	triggeringCondition					TriggeringCondition1,
	reportingRange						ReportingRange,
	forbiddenAffectCellList				ForbiddenAffectCellList-LCR-r4			OPTIONAL,
	w									W
}

Event1c ::=							SEQUENCE {
	replacementActivationThreshold		ReplacementActivationThreshold,
	reportingAmount						ReportingAmount,
	reportingInterval					ReportingInterval
}

Event1d ::=							SEQUENCE {
	triggeringCondition					TriggeringCondition2	OPTIONAL,
	useCIO								BOOLEAN					OPTIONAL
}

Event1e ::=						SEQUENCE {
	triggeringCondition					TriggeringCondition2,
	thresholdUsedFrequency				ThresholdUsedFrequency
}

Event1e-r6 ::=					SEQUENCE {
	triggeringCondition					TriggeringCondition2,
	thresholdUsedFrequency				ThresholdUsedFrequency-r6
}

Event1f ::=						SEQUENCE {
	triggeringCondition					TriggeringCondition1,
	thresholdUsedFrequency				ThresholdUsedFrequency
}

Event1f-r6 ::=					SEQUENCE {
	triggeringCondition					TriggeringCondition1,
	thresholdUsedFrequency				ThresholdUsedFrequency-r6
}

Event1j-r6 ::=					SEQUENCE {
	replacementActivationThreshold		ReplacementActivationThreshold,
	reportingAmount						ReportingAmount,
	reportingInterval					ReportingInterval
}

Event2a ::=							SEQUENCE {
	-- dummy is not used in this version of the specification and should be ignored
	dummy								Threshold,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList			OPTIONAL
}

Event2a-r6 ::=						SEQUENCE {
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqWList-r6					OPTIONAL
}

Event2a-r10 ::=					SEQUENCE {
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreq2aParameterList-r10		OPTIONAL
}

Event2a-r11 ::=					SEQUENCE {
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreq2aParameterList-r11		OPTIONAL
}

Event2b ::=							SEQUENCE {
	usedFreqThreshold					Threshold,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList			OPTIONAL
}

Event2b-r6 ::=						SEQUENCE {
	usedFreqThreshold					Threshold-r6,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList-r6			OPTIONAL
}

Event2b-r10 ::=					SEQUENCE {
	usedFreqThreshold					Threshold-r6,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList-r10		OPTIONAL
}

Event2b-r11 ::=					SEQUENCE {
	usedFreqThreshold					Threshold-r6,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList-r11		OPTIONAL
}

Event2c ::=							SEQUENCE {
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList			OPTIONAL
}

Event2c-r6 ::=						SEQUENCE {
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList-r6			OPTIONAL
}

Event2c-r10 ::=					SEQUENCE {
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList-r10		OPTIONAL
}

Event2c-r11 ::=					SEQUENCE {
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList-r11		OPTIONAL
}

Event2d ::=							SEQUENCE {
	usedFreqThreshold					Threshold,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

Event2d-r6 ::=						SEQUENCE {
	usedFreqThreshold					Threshold-r6,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

Event2d-r10 ::=					SEQUENCE {
	usedFreqThreshold					Threshold-r6,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL
}

Event2e ::=							SEQUENCE {
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList			OPTIONAL
}

Event2e-r6 ::=						SEQUENCE {
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList-r6			OPTIONAL
}

Event2e-r10 ::=					SEQUENCE {
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList-r10		OPTIONAL
}

Event2e-r11 ::=					SEQUENCE {
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL,
	nonUsedFreqParameterList			NonUsedFreqParameterList-r11		OPTIONAL
}

Event2f ::=							SEQUENCE {
	usedFreqThreshold					Threshold,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}	

Event2f-r6 ::=						SEQUENCE {
	usedFreqThreshold					Threshold-r6,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

Event2f-r10 ::=					SEQUENCE {
	usedFreqThreshold					Threshold-r6,
	usedFreqW							W,
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL
}


Event2g ::=					SEQUENCE {
	hysteresis							HysteresisInterFreq,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL,
	useCIO								ENUMERATED {true}					OPTIONAL
}

Event3a ::=							SEQUENCE {
	thresholdOwnSystem					Threshold,
	w									W,
	thresholdOtherSystem				Threshold,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}	

Event3b ::=							SEQUENCE {
	thresholdOtherSystem				Threshold,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
	
}	

Event3c ::=							SEQUENCE {
	thresholdOtherSystem				Threshold,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}	

Event3d ::=							SEQUENCE {
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}	

Event3a-r12 ::=							SEQUENCE {
	thresholdOwnSystem					Threshold,
	w									W,
	thresholdOtherSystem				Threshold-r12,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}	

Event3b-r12 ::=							SEQUENCE {
	thresholdOtherSystem				Threshold-r12,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
	
}	

Event3c-r12 ::=							SEQUENCE {
	thresholdOtherSystem				Threshold-r12,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}	

EventIDInterFreq ::=				ENUMERATED {
										e2a, e2b, e2c, e2d, e2e, e2f, e2g, spare1 }

EventIDInterRAT ::=					ENUMERATED {
										e3a, e3b, e3c, e3d }

EventIDIntraFreq ::=				ENUMERATED {
										e1a, e1b, e1c, e1d, e1e,
										e1f, e1g, e1h, e1i, e1j,
										spare6, spare5, spare4, spare3, spare2,
										spare1 }

EventResults ::=					CHOICE {
	intraFreqEventResults				IntraFreqEventResults,
	interFreqEventResults				InterFreqEventResults,
	interRATEventResults				InterRATEventResults,
	trafficVolumeEventResults			TrafficVolumeEventResults,
	qualityEventResults					QualityEventResults,
	ue-InternalEventResults				UE-InternalEventResults,
	ue-positioning-MeasurementEventResults	UE-Positioning-MeasurementEventResults,
	spare								NULL
}

EventResults-v770ext ::=			CHOICE {
	ue-positioning-MeasurementEventResults	UE-Positioning-MeasurementEventResults-v770ext
}

EventResults-v860ext ::=			CHOICE {
	ue-positioning-MeasurementEventResults	UE-Positioning-MeasurementEventResults-v860ext
}

EventResults-va40ext ::=			CHOICE {
	interFreqEventResults				InterFreqEventResults-va40ext
}

EventResultsOnSecUlFreq ::= SEQUENCE {
	intraFreqEventResults						IntraFreqEventResultsOnSecUlFreq
}

ExtraDoppler ::=					SEQUENCE {
	-- Doppler 1st order term, -0.2..+0.1 m/s2
	-- ( = -42..+21 with 1/210 m/s2 resolution)
	dopplerFirstOrder					INTEGER (-42.. 21),
	dopplerUncertainty					ENUMERATED { dopU40, dopU20, dopU10, dopU5, dopU2-5,
											spare3, spare2, spare1 }
}

ExtraDopplerExtension ::=			SEQUENCE {
	-- Doppler 1st order term, -0.2..+0.1 m/s2
	-- ( = -42..+21 with 1/210 m/s2 resolution)
	dopplerFirstOrder					INTEGER (-42.. 21),
	dopplerUncertaintyExt				ENUMERATED { dopU60, dopU80, dopU100, dopU120,
 												noInformation, spare3, spare2, spare1 }
}


ExtraDopplerInfo ::=				SEQUENCE {
	-- Actual value doppler1stOrder = IE value * 0.023
	doppler1stOrder						INTEGER (-42..21),
	dopplerUncertainty					DopplerUncertainty
}

ExtraDopplerInfoExtension ::=		SEQUENCE {
	-- Actual value doppler1stOrder = IE value * 0.023
	doppler1stOrder						INTEGER (-42..21),
	dopplerUncertaintyExt				DopplerUncertaintyExt
}

FACH-MeasurementOccasionInfo ::=	SEQUENCE {
	fACH-meas-occasion-coeff			INTEGER (1..12)						OPTIONAL,
	inter-freq-FDD-meas-ind				BOOLEAN,
	-- inter-freq-TDD-meas-ind is for 3.84Mcps TDD and 7.68 Mcps TDD. For 1.28Mcps TDD, the IE in
	-- FACH-MeasurementOccasionInfo-LCR-r4-ext is used.
	inter-freq-TDD-meas-ind				BOOLEAN,
	inter-RAT-meas-ind					SEQUENCE (SIZE (1..maxOtherRAT)) OF
											RAT-Type						OPTIONAL
}

FACH-MeasurementOccasionInfo-LCR-r4-ext ::=	SEQUENCE {
	inter-freq-TDD128-meas-ind					BOOLEAN
}

FilterCoefficient ::=				ENUMERATED {
										fc0, fc1, fc2, fc3, fc4, fc5, 
										fc6, fc7, fc8, fc9, fc11, fc13, 
										fc15, fc17, fc19, spare1 }

FilteredUEPowerHeadroomReportInfo ::=	SEQUENCE {
	timeToTrigger						TimeToTrigger,
	hysteresis1						Hysteresis							OPTIONAL,
	hysteresis2						Hysteresis							OPTIONAL,
	uePowerHeadroomThreshold1			UE-PowerHeadroomThreshold			OPTIONAL,
	uePowerHeadroomThreshold2			UE-PowerHeadroomThreshold			OPTIONAL,
	filterCoefficient					FilterCoefficient					OPTIONAL
}

-- Actual value FineSFN-SFN = IE value * 0.0625
FineSFN-SFN ::=						INTEGER (0..15)

ForbiddenAffectCell ::=				CHOICE {
	fdd									PrimaryCPICH-Info,
	tdd									PrimaryCCPCH-Info
}

ForbiddenAffectCell-r4 ::=			CHOICE {
	fdd									PrimaryCPICH-Info,
	tdd									PrimaryCCPCH-Info-r4
}

ForbiddenAffectCell-LCR-r4 ::=		SEQUENCE {
	tdd									PrimaryCCPCH-Info-LCR-r4
}

ForbiddenAffectCellList ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										ForbiddenAffectCell

ForbiddenAffectCellList-r4 ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										ForbiddenAffectCell-r4

ForbiddenAffectCellList-LCR-r4 ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
										ForbiddenAffectCell-LCR-r4

ForbiddenAffectCellListOnSecULFreq ::=	SEQUENCE (SIZE (1.. maxCellMeasOnSecULFreq)) OF
											ForbiddenAffectCellOnSecULFreq

ForbiddenAffectCellOnSecULFreq ::=	SEQUENCE {
	primaryCPICH						PrimaryCPICH-Info
}

FreqQualityEstimateQuantity-FDD ::= ENUMERATED {
										cpich-Ec-N0,
										cpich-RSCP }

FreqQualityEstimateQuantity-TDD ::= ENUMERATED {
										primaryCCPCH-RSCP }

GanssDataBits ::=					SEQUENCE {
	ganssTod							INTEGER (0..86399),
	dataBitAssistance					ReqDataBitAssistance
}

GANSSDecipheringKeys ::=			SEQUENCE {
	currentDecipheringKey				BIT STRING (SIZE (56)),
	nextDecipheringKey					BIT STRING (SIZE (56))
}

GANSSGenericData ::=				SEQUENCE {
	ganssId								INTEGER (0..7)									OPTIONAL,
	ganssTimeModelsList					GANSSTimeModelsList								OPTIONAL,
	uePositioningDGANSSCorrections		UE-Positioning-DGANSSCorrections				OPTIONAL,
	uePositioningGANSSNavigationModel	UE-Positioning-GANSS-NavigationModel			OPTIONAL,
	uePositioningGANSSRealTimeIntegrity		UE-Positioning-GANSS-RealTimeIntegrity		OPTIONAL,
	uePositioningGANSSDataBitAssistance		UE-Positioning-GANSS-Data-Bit-Assistance	OPTIONAL,
	uePositioningGANSSReferenceMeasurementInfo
										UE-Positioning-GANSS-ReferenceMeasurementInfo	OPTIONAL,
	uePositioningGANSSAlmanac			UE-Positioning-GANSS-Almanac					OPTIONAL,
	uePositioningGANSSUTCModel			UE-Positioning-GANSS-UTCModel					OPTIONAL
}

GANSSGenericData-v860ext ::=		SEQUENCE {
	uePositiningGANSSsbasID				UE-Positioning-GANSS-SBAS-ID					OPTIONAL,
	uePositioningGANSSAddNavigationModels
										UE-Positioning-GANSS-AddNavigationModels		OPTIONAL,
	uePositioningGANSSAlmanac			UE-Positioning-GANSS-Almanac-v860ext			OPTIONAL,
	uePositioningGANSSAddUTCModels		UE-Positioning-GANSS-AddUTCModels				OPTIONAL,
	uePositioningGANSSAuxiliaryInfo		UE-Positioning-GANSS-AuxiliaryInfo				OPTIONAL
}

GANSSGenericData-r8 ::=				SEQUENCE {
	ganssId								INTEGER (0..7)									OPTIONAL,
	uePositiningGANSSsbasID				UE-Positioning-GANSS-SBAS-ID					OPTIONAL,
	ganssTimeModelsList					GANSSTimeModelsList								OPTIONAL,
	uePositioningDGANSSCorrections		UE-Positioning-DGANSSCorrections				OPTIONAL,
	uePositioningGANSSNavigationModel	UE-Positioning-GANSS-NavigationModel			OPTIONAL,
	uePositioningGANSSAddNavigationModels
										UE-Positioning-GANSS-AddNavigationModels		OPTIONAL,
	uePositioningGANSSRealTimeIntegrity	UE-Positioning-GANSS-RealTimeIntegrity			OPTIONAL,
	uePositioningGANSSDataBitAssistance	UE-Positioning-GANSS-Data-Bit-Assistance		OPTIONAL,
	uePositioningGANSSReferenceMeasurementInfo
										UE-Positioning-GANSS-ReferenceMeasurementInfo	OPTIONAL,
	uePositioningGANSSAlmanac			UE-Positioning-GANSS-Almanac-r8					OPTIONAL,
	uePositioningGANSSUTCModel			UE-Positioning-GANSS-UTCModel					OPTIONAL,
	uePositioningGANSSAddUTCModels		UE-Positioning-GANSS-AddUTCModels				OPTIONAL,
	uePositioningGANSSAuxiliaryInfo		UE-Positioning-GANSS-AuxiliaryInfo				OPTIONAL
}

GANSSGenericData-r9 ::=				SEQUENCE {
	ganssId								INTEGER (0..7)									OPTIONAL,
	uePositiningGANSSsbasID				UE-Positioning-GANSS-SBAS-ID					OPTIONAL,
	ganssTimeModelsList					GANSSTimeModelsList								OPTIONAL,
	uePositioningDGANSSCorrections		UE-Positioning-DGANSSCorrections-r9				OPTIONAL,
	uePositioningGANSSNavigationModel	UE-Positioning-GANSS-NavigationModel			OPTIONAL,
	uePositioningGANSSAddNavigationModels
										UE-Positioning-GANSS-AddNavigationModels		OPTIONAL,
	uePositioningGANSSRealTimeIntegrity	UE-Positioning-GANSS-RealTimeIntegrity			OPTIONAL,
	uePositioningGANSSDataBitAssistance	UE-Positioning-GANSS-Data-Bit-Assistance		OPTIONAL,
	uePositioningGANSSReferenceMeasurementInfo
										UE-Positioning-GANSS-ReferenceMeasurementInfo	OPTIONAL,
	uePositioningGANSSAlmanac			UE-Positioning-GANSS-Almanac-r8					OPTIONAL,
	uePositioningGANSSUTCModel			UE-Positioning-GANSS-UTCModel					OPTIONAL,
	uePositioningGANSSAddUTCModels		UE-Positioning-GANSS-AddUTCModels				OPTIONAL,
	uePositioningGANSSAuxiliaryInfo		UE-Positioning-GANSS-AuxiliaryInfo				OPTIONAL
}

GANSSGenericData-v920ext ::=		SEQUENCE {
	uePositioningDGANSSCorrections		UE-Positioning-DGANSSCorrections-v920ext		OPTIONAL
}

GANSSGenericData-va40ext ::=		SEQUENCE {
	ganssTimeModelsList					GANSSTimeModelsList-va40ext						OPTIONAL,
	uePositioningGANSSReferenceMeasurementInfo
										UE-Positioning-GANSS-ReferenceMeasurementInfo-va40ext
																						OPTIONAL,
	uePositioningGANSSAlmanac			UE-Positioning-GANSS-Almanac-va40ext			OPTIONAL
}

GANSSGenericData-vc50ext ::=		SEQUENCE {
	uePositioningDBDSCorrections			UE-Positioning-DBDSCorrections				OPTIONAL,
	uePositioningBDSIonoGridModel			UE-Positioning-BDS-IonoGridModel			OPTIONAL,
	ue-positioning-GANSS-AddNavigationModels 	
											UE-Positioning-GANSS-AddNavigationModels-vc50ext
																						OPTIONAL, 	uePositioningGANSSReferenceMeasurementInfo
											UE-Positioning-GANSS-ReferenceMeasurementInfo-vc50ext
																						OPTIONAL,
	ue-Positioning-GANSS-Almanac			UE-Positioning-GANSS-Almanac-vc50ext		OPTIONAL,
	ue-Positioning-GANSS-AddUTCModels		UE-Positioning-GANSS-AddUTCModels-vc50ext	OPTIONAL
}

GANSSGenericData-r10 ::=			SEQUENCE {
	ganssId								INTEGER (0..7)									OPTIONAL,
	uePositiningGANSSsbasID				UE-Positioning-GANSS-SBAS-ID					OPTIONAL,
	ganssTimeModelsList					GANSSTimeModelsList-r10							OPTIONAL,
	uePositioningDGANSSCorrections		UE-Positioning-DGANSSCorrections-r9				OPTIONAL,
	uePositioningGANSSNavigationModel	UE-Positioning-GANSS-NavigationModel			OPTIONAL,
	uePositioningGANSSAddNavigationModels
										UE-Positioning-GANSS-AddNavigationModels		OPTIONAL,
	uePositioningGANSSRealTimeIntegrity	UE-Positioning-GANSS-RealTimeIntegrity			OPTIONAL,
	uePositioningGANSSDataBitAssistance	UE-Positioning-GANSS-Data-Bit-Assistance		OPTIONAL,
	uePositioningGANSSReferenceMeasurementInfo
										UE-Positioning-GANSS-ReferenceMeasurementInfo-r10
																						OPTIONAL,
	uePositioningGANSSAlmanac			UE-Positioning-GANSS-Almanac-r10				OPTIONAL,
	uePositioningGANSSUTCModel			UE-Positioning-GANSS-UTCModel					OPTIONAL,
	uePositioningGANSSAddUTCModels		UE-Positioning-GANSS-AddUTCModels				OPTIONAL,
	uePositioningGANSSAuxiliaryInfo		UE-Positioning-GANSS-AuxiliaryInfo				OPTIONAL
}

GANSSGenericData-r12 ::=			SEQUENCE {
	ganssId									INTEGER (0..7)								OPTIONAL,
	uePositiningGANSSsbasID					UE-Positioning-GANSS-SBAS-ID				OPTIONAL,
	ganssTimeModelsList						GANSSTimeModelsList-r10						OPTIONAL,
	uePositioningDGANSSCorrections			UE-Positioning-DGANSSCorrections-r9			OPTIONAL,
	uePositioningDBDSCorrections			UE-Positioning-DBDSCorrections				OPTIONAL,
	uePositioningBDSIonoGridModel			UE-Positioning-BDS-IonoGridModel			OPTIONAL,
	uePositioningGANSSNavigationModel		UE-Positioning-GANSS-NavigationModel		OPTIONAL,
	uePositioningGANSSAddNavigationModels	UE-Positioning-GANSS-AddNavigationModels-r12
																						OPTIONAL,
	uePositioningGANSSRealTimeIntegrity		UE-Positioning-GANSS-RealTimeIntegrity		OPTIONAL,
	uePositioningGANSSDataBitAssistance		UE-Positioning-GANSS-Data-Bit-Assistance	OPTIONAL,
	uePositioningGANSSReferenceMeasurementInfo
											UE-Positioning-GANSS-ReferenceMeasurementInfo-r12
																						OPTIONAL,
	uePositioningGANSSAlmanac				UE-Positioning-GANSS-Almanac-r12			OPTIONAL,
	uePositioningGANSSUTCModel				UE-Positioning-GANSS-UTCModel				OPTIONAL,
	uePositioningGANSSAddUTCModels			UE-Positioning-GANSS-AddUTCModels-r12		OPTIONAL,
	uePositioningGANSSAuxiliaryInfo			UE-Positioning-GANSS-AuxiliaryInfo			OPTIONAL
}

GANSSGenericDataList ::=			SEQUENCE (SIZE (1..maxGANSS)) OF
										GANSSGenericData

GANSSGenericDataList-v860ext ::=	SEQUENCE (SIZE (1..maxGANSS)) OF
										GANSSGenericData-v860ext

GANSSGenericDataList-r8 ::=			SEQUENCE (SIZE (1..maxGANSS)) OF
										GANSSGenericData-r8

GANSSGenericDataList-r9 ::=			SEQUENCE (SIZE (1..maxGANSS)) OF
										GANSSGenericData-r9

GANSSGenericDataList-v920ext ::=	SEQUENCE (SIZE (1..maxGANSS)) OF
										GANSSGenericData-v920ext

GANSSGenericDataList-va40ext ::=	SEQUENCE (SIZE (1..maxGANSS)) OF
										GANSSGenericData-va40ext

GANSSGenericDataList-vc50ext ::=	SEQUENCE (SIZE (1..maxGANSS)) OF
										GANSSGenericData-vc50ext

GANSSGenericDataList-r10 ::=		SEQUENCE (SIZE (1..maxGANSS)) OF
										GANSSGenericData-r10

GANSSGenericDataList-r12 ::=		SEQUENCE (SIZE (1..maxGANSS)) OF
										GANSSGenericData-r12

GANSSGenericMeasurementInfo ::=		SEQUENCE (SIZE (1..maxGANSS)) OF SEQUENCE {
	ganssId								INTEGER (0..7)						OPTIONAL,
	ganssMeasurementSignalList			GANSSMeasurementSignalList
}

GANSSGenericMeasurementInfo-v860ext ::= SEQUENCE (SIZE (1..maxGANSS)) OF SEQUENCE {
	ganssMeasurementSignalList			GANSSMeasurementSignalList-v860ext
}

GANSSMeasurementParameters ::=		SEQUENCE (SIZE (1..maxGANSSSat)) OF SEQUENCE {
	satId								INTEGER (0..63),
	cSurNzero							INTEGER (0..63),
	multipathIndicator					ENUMERATED { nm, low, medium, high },
	carrierQualityIndication			BIT STRING (SIZE (2))				OPTIONAL,
	ganssCodePhase						INTEGER (0..2097151),
	ganssIntegerCodePhase				INTEGER (0..63)						OPTIONAL,
	codePhaseRmsError					INTEGER (0..63),
	doppler								INTEGER (-32768..32767),
	adr									INTEGER (0..33554431)				OPTIONAL
}

GANSSMeasurementParameters-v860ext ::= SEQUENCE (SIZE (1..maxGANSSSat)) OF SEQUENCE {
	ganssIntegerCodePhaseExt			INTEGER (64..127)					OPTIONAL
}

GANSSMeasurementSignalList ::=		SEQUENCE (SIZE (1..maxSgnType)) OF SEQUENCE {
	ganssSignalId						GANSS-Signal-Id						OPTIONAL,
	ganssCodePhaseAmbiguity				INTEGER (0..31)						OPTIONAL,
	ganssMeasurementParameters			GANSSMeasurementParameters
}

GANSSMeasurementSignalList-v860ext ::= SEQUENCE (SIZE (1..maxSgnType)) OF SEQUENCE {
	ganssCodePhaseAmbiguityExt			INTEGER (32..127)					OPTIONAL,
	ganssMeasurementParameters			GANSSMeasurementParameters-v860ext
}

GanssNavigationModelAdditionalData ::= SEQUENCE {
	ganssWeek							INTEGER (0..4095),
	ganssToe							INTEGER (0..167),
	t-toeLimit							INTEGER (0..10),
	satellitesListRelatedDataList		SatellitesListRelatedDataList		OPTIONAL
}

GANSSReferenceTimeOnly ::=			SEQUENCE {
	gANSS-tod							INTEGER (0..3599999),
	gANSS-timeId						INTEGER (0..7)						OPTIONAL,
	gANSS-tod-uncertainty				INTEGER (0..127)					OPTIONAL
}

GanssReqGenericData ::=				SEQUENCE {
	ganssId								INTEGER (0..7)						OPTIONAL,
	ganssRealTimeIntegrity				BOOLEAN,
	ganssDifferentialCorrection			DGANSS-Sig-Id-Req					OPTIONAL,
	ganssAlmanac						BOOLEAN,
	ganssNavigationModel				BOOLEAN,
	ganssTimeModelGNSS-GNSS				BIT STRING (SIZE (8))				OPTIONAL,
	ganssReferenceMeasurementInfo		BOOLEAN,
	ganssDataBits						GanssDataBits						OPTIONAL,
	ganssUTCModel						BOOLEAN,
	ganssNavigationModelAdditionalData	GanssNavigationModelAdditionalData	OPTIONAL
}

GanssReqGenericData-v860ext ::=		SEQUENCE {
	sbasId								UE-Positioning-GANSS-SBAS-ID		OPTIONAL,
	ganssAddNavigationModel				ENUMERATED { true }					OPTIONAL,
	ganssAddUTCmodel					ENUMERATED { true }					OPTIONAL,
	ganssAuxInfo						ENUMERATED { true }					OPTIONAL,
	ganssAddADchoices					SEQUENCE {
		orbitModelID						INTEGER (0..7)					OPTIONAL,
		clockModelID						INTEGER (0..7)					OPTIONAL,
		utcModelID							INTEGER (0..7)					OPTIONAL,
		almanacModelID						INTEGER (0..7)					OPTIONAL
	}		OPTIONAL
}

GanssReqGenericData-vc50ext ::=		SEQUENCE {
	bdsIonoGridModelReq			ENUMERATED { true }		OPTIONAL,
	bdsCorrectionsReq			DGANSS-Sig-Id-Req		OPTIONAL	
}

GanssRequestedGenericAssistanceDataList ::= SEQUENCE (SIZE (1..maxGANSS)) OF
										GanssReqGenericData

GanssRequestedGenericAssistanceDataList-v860ext ::= SEQUENCE (SIZE (1..maxGANSS)) OF
										GanssReqGenericData-v860ext

GanssRequestedGenericAssistanceDataList-vc50ext ::= SEQUENCE (SIZE (1..maxGANSS)) OF
										GanssReqGenericData-vc50ext

GANSSSatelliteInformation ::=		SEQUENCE {
	ganssSatId							INTEGER (0..63),
	dopplerZeroOrder					INTEGER (-2048..2047),			-- scale factor 0.5m/s
	extraDoppler						ExtraDoppler						OPTIONAL,
	codePhase							INTEGER (0..1023),
	integerCodePhase					INTEGER (0..127),
	codePhaseSearchWindow				BIT STRING (SIZE (5)),
	azimuthandElevation					AzimuthAndElevation					OPTIONAL
}

GANSSSatelliteInformation-va40ext ::= SEQUENCE {
	azimuthAndElevation					AzimuthAndElevation-va40ext			OPTIONAL
}

GANSSSatelliteInformation-r10 ::=	SEQUENCE {
	ganssSatId							INTEGER (0..63),
	dopplerZeroOrder					INTEGER (-2048..2047),			-- scale factor 0.5m/s
	extraDoppler						ExtraDoppler						OPTIONAL,
	codePhase							INTEGER (0..1023),
	integerCodePhase					INTEGER (0..127),
	codePhaseSearchWindow				BIT STRING (SIZE (5)),
	azimuthandElevation					AzimuthAndElevation-r10				OPTIONAL
}

GANSSSatelliteInformation-vc50ext ::= SEQUENCE {
	extraDopplerExtension				ExtraDopplerExtension				OPTIONAL
}

GANSSSatelliteInformation-r12 ::=	SEQUENCE {
	ganssSatId							INTEGER (0..63),
	dopplerZeroOrder					INTEGER (-2048..2047),			-- scale factor 0.5m/s
	extraDoppler						ExtraDoppler						OPTIONAL,
-- If the extraDopplerExtension is present, the extraDoppler should not be present
	extraDopplerExtension				ExtraDopplerExtension				OPTIONAL,
	codePhase							INTEGER (0..1023),
	integerCodePhase					INTEGER (0..127),
	codePhaseSearchWindow				BIT STRING (SIZE (5)),
	azimuthandElevation					AzimuthAndElevation-r10				OPTIONAL
}

GANSSSatelliteInformationList ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
										GANSSSatelliteInformation

GANSSSatelliteInformationList-va40ext ::= SEQUENCE (SIZE (1..maxGANSSSat)) OF
										GANSSSatelliteInformation-va40ext

GANSSSatelliteInformationList-r10 ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
										GANSSSatelliteInformation-r10

GANSSSatelliteInformationList-vc50ext ::= SEQUENCE (SIZE (1..maxGANSSSat)) OF
										GANSSSatelliteInformation-vc50ext

GANSSSatelliteInformationList-r12 ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
										GANSSSatelliteInformation-r12

GANSSTimeModelsList ::=				SEQUENCE (SIZE (1..maxGANSS-1)) OF
										UE-Positioning-GANSS-TimeModel

GANSSTimeModelsList-va40ext ::=		SEQUENCE (SIZE (1.. maxGANSS-1)) OF
										UE-Positioning-GANSS-TimeModel-va40ext

GANSSTimeModelsList-r10 ::=			SEQUENCE (SIZE (1..maxGANSS-1)) OF
										UE-Positioning-GANSS-TimeModel-r10

GANSS-SAT-Info-Almanac-BDSkp ::=	SEQUENCE {
	svID					INTEGER(0..63),
	bdsAlmToa				BIT STRING (SIZE (8)),	
	bdsAlmSqrtA				BIT STRING (SIZE (24)),
	bdsAlmE					BIT STRING (SIZE (17)),
	bdsAlmW					BIT STRING (SIZE (24)),
	bdsAlmM0				BIT STRING (SIZE (24)),
	bdsAlmOmega0			BIT STRING (SIZE (24)),
	bdsAlmOmegaDot			BIT STRING (SIZE (17)),
	bdsAlmDeltaI			BIT STRING (SIZE (16)),
	bdsAlmA0				BIT STRING (SIZE (11)),
	bdsAlmA1				BIT STRING (SIZE (11)),
	bdsSvHealth				BIT STRING (SIZE(9))	OPTIONAL
}

GANSS-SAT-Info-Almanac-GLOkp ::=	SEQUENCE {
	gloAlmNA							BIT STRING (SIZE (11)),
	gloAlmnA							BIT STRING (SIZE (5)),
	gloAlmHA							BIT STRING (SIZE (5)),
	gloAlmLambdaA						BIT STRING (SIZE (21)),
	gloAlmTlambdaA						BIT STRING (SIZE (21)),
	gloAlmDeltaIA						BIT STRING (SIZE (18)),
	gloAkmDeltaTA						BIT STRING (SIZE (22)),
	gloAlmDeltaTdotA					BIT STRING (SIZE (7)),
	gloAlmEpsilonA						BIT STRING (SIZE (15)),
	gloAlmOmegaA						BIT STRING (SIZE (16)),
	gloAlmTauA							BIT STRING (SIZE (10)),
	gloAlmCA							BIT STRING (SIZE (1)),
	gloAlmMA							BIT STRING (SIZE (2))				OPTIONAL
}

GANSS-SAT-Info-Almanac-Kp ::=		SEQUENCE {
	svId								INTEGER(0..63),
	ganss-alm-e							BIT STRING (SIZE (11)),
	ganss-delta-I-alm					BIT STRING (SIZE (11)),
	ganss-omegadot-alm					BIT STRING (SIZE (11)),
	ganss-svstatusINAV-alm				BIT STRING (SIZE (4)),
	ganss-svstatusFNAV-alm				BIT STRING (SIZE (2))				OPTIONAL,
	ganss-delta-a-sqrt-alm				BIT STRING (SIZE (13)),
	ganss-omegazero-alm					BIT STRING (SIZE (16)),
	ganss-m-zero-alm					BIT STRING (SIZE (16)),
	ganss-omega-alm						BIT STRING (SIZE (16)),
	ganss-af-zero-alm					BIT STRING (SIZE (16)),
	ganss-af-one-alm					BIT STRING (SIZE (13))
}

GANSS-SAT-Info-Almanac-MIDIkp ::=	SEQUENCE {
	svID								INTEGER(0..63),
	midiAlmE							BIT STRING (SIZE (11)),
	midiAlmDeltaI						BIT STRING (SIZE (11)),
	midiAlmOmegaDot						BIT STRING (SIZE (11)),
	midiAlmSqrtA						BIT STRING (SIZE (17)),
	midiAlmOmega0						BIT STRING (SIZE (16)),
	midiAlmOmega						BIT STRING (SIZE (16)),
	midiAlmMo							BIT STRING (SIZE (16)),
	midiAlmaf0							BIT STRING (SIZE (11)),
	midiAlmaf1							BIT STRING (SIZE (10)),
	midiAlmL1Health						BIT STRING (SIZE (1)),
	midiAlmL2Health						BIT STRING (SIZE (1)),
	midiAlmL5Health						BIT STRING (SIZE (1))
}

GANSS-SAT-Info-Almanac-NAVkp ::=	SEQUENCE {
	svID								INTEGER(0..63),
	navAlmE								BIT STRING (SIZE (16)),
	navAlmDeltaI						BIT STRING (SIZE (16)),
	navAlmOMEGADOT						BIT STRING (SIZE (16)),
	navAlmSVHealth						BIT STRING (SIZE (8)),
	navAlmSqrtA							BIT STRING (SIZE (24)),
	navAlmOMEGAo						BIT STRING (SIZE (24)),
	navAlmOmega							BIT STRING (SIZE (24)),
	navAlmMo							BIT STRING (SIZE (24)),
	navAlmaf0							BIT STRING (SIZE (11)),
	navAlmaf1							BIT STRING (SIZE (11))
}

GANSS-SAT-Info-Almanac-REDkp ::=	SEQUENCE {
	svID								INTEGER(0..63),
	redAlmDeltaA						BIT STRING (SIZE (8)),
	redAlmOmega0						BIT STRING (SIZE (7)),
	redAlmPhi0							BIT STRING (SIZE (7)),
	redAlmL1Health						BIT STRING (SIZE (1)),
	redAlmL2Health						BIT STRING (SIZE (1)),
	redAlmL5Health						BIT STRING (SIZE (1))
}

GANSS-SAT-Info-Almanac-SBASecef ::=	SEQUENCE {
	sbasAlmDataID						BIT STRING (SIZE (2)),
	svID								INTEGER (0..63),
	sbasAlmHealth						BIT STRING (SIZE (8)),
	sbasAlmXg							BIT STRING (SIZE (15)),
	sbasAlmYg							BIT STRING (SIZE (15)),
	sbasAlmZg							BIT STRING (SIZE (9)),
	sbasAlmXgdot						BIT STRING (SIZE (3)),
	sbasAlmYgDot						BIT STRING (SIZE (3)),
	sbasAlmZgDot						BIT STRING (SIZE (4)),
	sbasAlmTo							BIT STRING (SIZE (11))
}

GANSS-SAT-Info-Almanac-BDSkpList ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
											GANSS-SAT-Info-Almanac-BDSkp

GANSS-SAT-Info-Almanac-GLOkpList ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
											GANSS-SAT-Info-Almanac-GLOkp

GANSS-SAT-Info-Almanac-KpList ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
										GANSS-SAT-Info-Almanac-Kp

GANSS-SAT-Info-Almanac-MIDIkpList ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
											GANSS-SAT-Info-Almanac-MIDIkp

GANSS-SAT-Info-Almanac-NAVkpList ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
											GANSS-SAT-Info-Almanac-NAVkp

GANSS-SAT-Info-Almanac-REDkpList ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
											GANSS-SAT-Info-Almanac-REDkp

GANSS-SAT-Info-Almanac-SBASecefList ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
											GANSS-SAT-Info-Almanac-SBASecef

Ganss-Sat-Info-AddNav ::=			SEQUENCE {
	satId								INTEGER (0..63),
	svHealth							BIT STRING (SIZE (6)),
	iod									BIT STRING (SIZE (11)),
	ganssClockModel						UE-Positioning-GANSS-AddClockModels,
	ganssOrbitModel						UE-Positioning-GANSS-AddOrbitModels
}

Ganss-Sat-Info-AddNav-r12 ::=			SEQUENCE {
	satId								INTEGER (0..63),
	svHealth							BIT STRING (SIZE (6)),
	iod									BIT STRING (SIZE (11)),
	ganssClockModel						UE-Positioning-GANSS-AddClockModels-r12,
	ganssOrbitModel						UE-Positioning-GANSS-AddOrbitModels-r12
}

Ganss-Sat-Info-AddNav-vc50ext ::=			SEQUENCE {
	ganssClockModel				UE-Positioning-GANSS-AddClockModels-vc50ext,
	ganssOrbitModel				UE-Positioning-GANSS-AddOrbitModels-vc50ext 
}

Ganss-Sat-Info-Nav ::=				SEQUENCE {
	satId								INTEGER (0..63),
	svHealth							BIT STRING (SIZE (9)),
	iod									BIT STRING (SIZE (10)),
	ganssClockModel						UE-Positioning-GANSS-ClockModel,
	ganssOrbitModel						UE-Positioning-GANSS-OrbitModel
}

Ganss-Sat-Info-AddNavList ::= 		SEQUENCE (SIZE (1..maxGANSSSat)) OF
										Ganss-Sat-Info-AddNav

Ganss-Sat-Info-AddNavList-r12 ::= 	SEQUENCE (SIZE (1..maxGANSSSat)) OF
										Ganss-Sat-Info-AddNav-r12

Ganss-Sat-Info-AddNavList-vc50ext ::= 	SEQUENCE (SIZE (1..maxGANSSSat)) OF
										Ganss-Sat-Info-AddNav-vc50ext

Ganss-Sat-Info-NavList ::=			SEQUENCE (SIZE (1..maxGANSSSat)) OF
										Ganss-Sat-Info-Nav

GANSS-Signal-Id ::=					INTEGER (0..7)

GANSS-Status-Health ::=				ENUMERATED {
										udre-scale-1dot0,
										udre-scale-0dot75,
										udre-scale-0dot5,
										udre-scale-0dot3,
										udre-scale-0dot2,
										udre-scale-0dot1,
										no-data,
										invalid-data }

GANSS-Storm-Flag ::=				SEQUENCE {
	storm-flag-one						BOOLEAN,
	storm-flag-two						BOOLEAN,
	storm-flag-three					BOOLEAN,
	storm-flag-four						BOOLEAN,
	storm-flag-five						BOOLEAN
}

GLONASSclockModel ::=				SEQUENCE {
	gloTau								BIT STRING (SIZE (22)),
	gloGamma							BIT STRING (SIZE (11)),
	gloDeltaTau							BIT STRING (SIZE (5)) 				OPTIONAL
}

GPS-MeasurementParam ::=			SEQUENCE {
	satelliteID							INTEGER (0..63),
	c-N0								INTEGER (0..63),
	doppler								INTEGER (-32768..32768),
	wholeGPS-Chips						INTEGER (0..1022),
	fractionalGPS-Chips					INTEGER (0..1023),
	multipathIndicator					MultipathIndicator,
	pseudorangeRMS-Error				INTEGER (0..63)
}

GPS-MeasurementParamList ::=		SEQUENCE (SIZE (1..maxSat)) OF
										GPS-MeasurementParam

GSM-CarrierRSSI ::=					BIT STRING (SIZE (6))

GSM-CellGroup ::=					SEQUENCE {
	startingARFCN						BCCH-ARFCN,
	bandIndicator						ENUMERATED { dcs1800, pcs1900 },
	followingARFCNs						CHOICE {
		explicitListOfARFCNs				SEQUENCE (SIZE (0..31)) OF BCCH-ARFCN,
		equallySpacedARFCNs					SEQUENCE {
			arfcn-Spacing						INTEGER (1..8),
			numberOfFollowingARFCNs				INTEGER (0..31)
		},
		variableBitMapOfARFCNs				OCTET STRING (SIZE (1..16)),
		continuousRangeOfARFCNs				SEQUENCE {
			endingARFCN							BCCH-ARFCN
		}
	}
}

GSM-MeasuredResults ::= 			SEQUENCE {
	gsm-CarrierRSSI						GSM-CarrierRSSI						OPTIONAL,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received it should be ignored.
	dummy								INTEGER (46..173)					OPTIONAL,
	bsicReported						BSICReported,
	-- dummy2 is not used in this version of the specification, it should
	-- not be sent and if received it should be ignored.
	dummy2								ObservedTimeDifferenceToGSM			OPTIONAL
}

GSM-MeasuredResultsList ::=			SEQUENCE (SIZE (1..maxReportedGSMCells)) OF
										GSM-MeasuredResults	

GPS-TOW-1msec ::=					INTEGER (0..604799999)

GPS-TOW-1sec ::=					INTEGER (0..604799)

GPS-TOW-Assist ::=					SEQUENCE {
	satID								SatID,
	tlm-Message							BIT STRING (SIZE (14)),
	tlm-Reserved						BIT STRING (SIZE (2)),
	alert								BOOLEAN,
	antiSpoof							BOOLEAN
}

GPS-TOW-AssistList ::=				SEQUENCE (SIZE (1..maxSat)) OF
										GPS-TOW-Assist

GSM-CellID ::=						SEQUENCE {
	gsm-CellID							INTEGER (0..maxCellMeas-1)
}

GSM-PriorityInfo ::=				SEQUENCE {
	gsmCellGroup						GSM-CellGroup,
	priority							INTEGER (0..maxPrio-1),
	-- Actual value = IE value * 2 + 1
	qRxLevMinGSM						INTEGER (-58..-13),
	-- Actual value = IE value * 2
	threshXhigh							INTEGER (0..31),
	-- Actual value = IE value * 2
	threshXlow							INTEGER (0..31)
}

GSM-PriorityInfoList ::=			SEQUENCE (SIZE (1..maxNumGSMCellGroup)) OF
										GSM-PriorityInfo

GSMCellGroupingList ::=				SEQUENCE (SIZE (1..maxCellMeas)) OF
										GSM-CellID

HCS-CellReselectInformation-RSCP ::=		SEQUENCE {
	-- TABULAR: The default value for penaltyTime is "notUsed"
	-- Temporary offset is nested inside PenaltyTime-RSCP
	penaltyTime									PenaltyTime-RSCP
}

HCS-CellReselectInformation-ECN0 ::=		SEQUENCE {
	-- TABULAR: The default value for penaltyTime is "notUsed"
	-- Temporary offset is nested inside PenaltyTime-ECN0
	penaltyTime							PenaltyTime-ECN0
}

HCS-NeighbouringCellInformation-RSCP ::= SEQUENCE {
	hcs-PRIO							HCS-PRIO							DEFAULT 0,
	q-HCS								Q-HCS								DEFAULT 0,
	hcs-CellReselectInformation			HCS-CellReselectInformation-RSCP
}

HCS-NeighbouringCellInformation-ECN0 ::= SEQUENCE {
	hcs-PRIO							HCS-PRIO							DEFAULT 0,
	q-HCS								Q-HCS								DEFAULT 0,
	hcs-CellReselectInformation			HCS-CellReselectInformation-ECN0
}

HCS-PRIO ::=						INTEGER (0..7)

HCS-ServingCellInformation ::=		SEQUENCE {
	hcs-PRIO							HCS-PRIO							DEFAULT 0,
	q-HCS								Q-HCS								DEFAULT 0,
	t-CR-Max							T-CRMax								OPTIONAL
}

HorizontalVelocity ::=				SEQUENCE {
	bearing								INTEGER (0..359),
	horizontalSpeed						INTEGER (0..2047)
	}

HorizontalWithVerticalVelocity ::=	SEQUENCE {
	verticalSpeedDirection				ENUMERATED { upward, downward },
	bearing								INTEGER (0..359),
	horizontalSpeed						INTEGER (0..2047),
	verticalSpeed						INTEGER (0..255)
}

HorizontalVelocityWithUncertainty ::=	SEQUENCE {
	bearing								INTEGER (0..359),
	horizontalSpeed						INTEGER (0..2047),
	horizontalSpeedUncertainty			INTEGER (0..255)
}

HorizontalWithVerticalVelocityAndUncertainty ::=	SEQUENCE {
	verticalSpeedDirection				ENUMERATED { upward, downward },
	bearing								INTEGER (0..359),
	horizontalSpeed						INTEGER (0..2047),
	verticalSpeed						INTEGER (0..255),
	horizontalUncertaintySpeed			INTEGER (0..255),
	verticalUncertaintySpeed			INTEGER (0..255)
}

-- Actual value Hysteresis = IE value * 0.5
Hysteresis ::=						INTEGER (0..15)

-- Actual value HysteresisInterFreq = IE value * 0.5
HysteresisInterFreq ::=				INTEGER (0..29)

IdleIntervalInfo ::=				SEQUENCE {
	k									INTEGER (2..3)						OPTIONAL,
	offset								INTEGER (0..7)						OPTIONAL
}

InterFreqCell ::=					SEQUENCE {
	frequencyInfo						FrequencyInfo,
	nonFreqRelatedEventResults			CellMeasurementEventResults
}

InterFreqCell-LCR-r4 ::=			SEQUENCE {
	frequencyInfo						FrequencyInfo,
	nonFreqRelatedEventResults			CellMeasurementEventResults-LCR-r4
}

InterFreqCellID ::=					INTEGER (0..maxCellMeas-1)

InterFreqCellID-r12 ::=				INTEGER (0..maxCellMeas-ext-1)

InterFreqCellInfoList ::=			SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellList				OPTIONAL,
	cellsForInterFreqMeasList			CellsForInterFreqMeasList			OPTIONAL
}

InterFreqCellInfoList-r4 ::=		SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellList-r4				OPTIONAL,
	cellsForInterFreqMeasList			CellsForInterFreqMeasList			OPTIONAL
}

InterFreqCellInfoList-r8 ::=	SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellList-r8				OPTIONAL,
	cellsForInterFreqMeasList			CellsForInterFreqMeasList			OPTIONAL
}

InterFreqCellInfoList-r9 ::=	SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellList-r9				OPTIONAL,
	cellsForInterFreqMeasList			CellsForInterFreqMeasList			OPTIONAL,
	cSGInterFreqCellInfoList			CSGInterFreqCellInfoList			OPTIONAL,
	interFreqSIAcquisition				InterFreqSIAcquisition				OPTIONAL
}

InterFreqCellInfoList-r10 ::=	SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellList-r10			OPTIONAL,
	cellsForInterFreqMeasList			CellsForInterFreqMeasList			OPTIONAL,
	cSGInterFreqCellInfoList			CSGInterFreqCellInfoList			OPTIONAL,
	interFreqSIAcquisition				InterFreqSIAcquisition				OPTIONAL
}

InterFreqCellInfoList-r12 ::=	SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList-r12		OPTIONAL,
	newInterFreqCellList				NewInterFreqCellList-r12			OPTIONAL,
	cellsForInterFreqMeasList			CellsForInterFreqMeasList-r12		OPTIONAL,
	cSGInterFreqCellInfoList			CSGInterFreqCellInfoList			OPTIONAL,
	interFreqSIAcquisition				InterFreqSIAcquisition				OPTIONAL,
	rmp-Frequency-List					RMP-Frequency-List					OPTIONAL
}

InterFreqSIAcquisition ::=			SEQUENCE {
	frequencyInfo						FrequencyInfo,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryScramblingCode				PrimaryCPICH-Info
		},
		tdd								NULL
	}
}


InterFreqCellInfoSI-List-RSCP ::=		SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellSI-List-RSCP		OPTIONAL
}

InterFreqCellInfoSI-List-ECN0 ::=		SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellSI-List-ECN0		OPTIONAL
}

InterFreqCellInfoSI-List-HCS-RSCP ::=		SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellSI-List-HCS-RSCP	OPTIONAL
}
InterFreqCellInfoSI-List-HCS-ECN0 ::=		SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellSI-List-HCS-ECN0	OPTIONAL
}

InterFreqCellInfoSI-List-RSCP-LCR ::=		SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellSI-List-RSCP-LCR-r4		OPTIONAL
}

InterFreqCellInfoSI-List-ECN0-LCR ::=		SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellSI-List-ECN0-LCR-r4		OPTIONAL
}

InterFreqCellInfoSI-List-HCS-RSCP-LCR ::=		SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellSI-List-HCS-RSCP-LCR-r4	OPTIONAL
}
InterFreqCellInfoSI-List-HCS-ECN0-LCR ::=		SEQUENCE {
	removedInterFreqCellList			RemovedInterFreqCellList			OPTIONAL,
	newInterFreqCellList				NewInterFreqCellSI-List-HCS-ECN0-LCR-r4	OPTIONAL
}

InterFreqCellList ::=				SEQUENCE (SIZE (1..maxFreq)) OF
										InterFreqCell

InterFreqCellList-LCR-r4-ext ::=	SEQUENCE (SIZE (1..maxFreq)) OF
										InterFreqCell-LCR-r4

InterFreqCellMeasuredResultsList ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
										CellMeasuredResults

InterFreqCellMeasuredResultsList-v920ext ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
												CellMeasuredResults-v920ext

InterFreqCellMeasuredResultsList-vc50ext ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
												CellMeasuredResults-vc50ext

InterFreqEvent ::=					CHOICE {
	event2a								Event2a,
	event2b								Event2b,
	event2c								Event2c,
	event2d								Event2d,
	event2e								Event2e,
	event2f								Event2f
}

InterFreqEvent-r6 ::=				CHOICE {
	event2a								Event2a-r6,
	event2b								Event2b-r6,
	event2c								Event2c-r6,
	event2d								Event2d-r6,
	event2e								Event2e-r6,
	event2f								Event2f-r6
}

InterFreqEvent-r10 ::=				CHOICE {
	event2a								Event2a-r10,
	event2b								Event2b-r10,
	event2c								Event2c-r10,
	event2d								Event2d-r10,
	event2e								Event2e-r10,
	event2f								Event2f-r10
}

InterFreqEvent-r11 ::=				CHOICE {
	event2a								Event2a-r11,
	event2b								Event2b-r11,
	event2c								Event2c-r11,
	event2d								Event2d-r10,
	event2e								Event2e-r11,
	event2f								Event2f-r10
}

InterFreqEvent-r12 ::=				CHOICE {
	event2a								Event2a-r11,
	event2b								Event2b-r11,
	event2c								Event2c-r11,
	event2d								Event2d-r10,
	event2e								Event2e-r11,
	event2f								Event2f-r10,
	event2g								Event2g
}

InterFreqEventList ::=				SEQUENCE (SIZE (1..maxMeasEvent)) OF
										InterFreqEvent

InterFreqEventList-r6 ::=			SEQUENCE (SIZE (1..maxMeasEvent)) OF
										InterFreqEvent-r6

InterFreqEventList-r10 ::=			SEQUENCE (SIZE (1..maxMeasEvent)) OF
										InterFreqEvent-r10

InterFreqEventList-r11 ::=			SEQUENCE (SIZE (1..maxMeasEvent)) OF
										InterFreqEvent-r11


InterFreqEventList-r12 ::=			SEQUENCE (SIZE (1..maxMeasEvent)) OF
										InterFreqEvent-r12

--Following IE shall be used regardless of CPICH RSCP(FDD) or Primary CCPCH RSCP(TDD)
--The order of the list corresponds to the order of the cells in InterFrequencyMeasuredResultsList
--The IE is only used for measured results and not for additional measured results.
InterFrequencyMeasuredResultsList-v590ext ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
												DeltaRSCPPerCell

Inter-FreqEventCriteria-v590ext ::= SEQUENCE {
	threholdUsedFrequency-delta				DeltaRSCP,
	threholdNonUsedFrequency-deltaList		ThreholdNonUsedFrequency-deltaList  	OPTIONAL
}

--The order of the list corresponds to the order of the events in Inter-FreqEventList
Inter-FreqEventCriteriaList-v590ext ::= SEQUENCE (SIZE (1..maxMeasEvent)) OF
											Inter-FreqEventCriteria-v590ext

--The order of the list corresponds to the order of relevant events in Intra-FreqEventCriteriaList
--i.e. the first element of the list corresponds to the first occurance of event 1e, 1f, 1h, 1i,
--the second element of the list corresponds to the second occurance of event 1e, 1f, 1h, 1i 
Intra-FreqEventCriteriaList-v590ext ::= SEQUENCE (SIZE (1..maxMeasEvent)) OF
											DeltaRSCP

--Following IE shall be used regardless of CPICH RSCP(FDD) or Primary CCPCH RSCP(TDD)
--The order of the list corresponds to the order of the cells in IntraFrequencyMeasuredResultsList
--The IE is only used for measured results and not for additional measured results.
IntraFrequencyMeasuredResultsList-v590ext ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
												DeltaRSCPPerCell


InterFreqEventResults ::=			SEQUENCE {
	eventID								EventIDInterFreq,
	interFreqCellList					InterFreqCellList					OPTIONAL
}

InterFreqEventResults-va40ext ::=	SEQUENCE {
	detectedSetTrigger					ENUMERATED {true}			OPTIONAL
}

InterFreqEventResults-LCR-r4-ext ::=	SEQUENCE {
	eventID								EventIDInterFreq,
	interFreqCellList					InterFreqCellList-LCR-r4-ext		OPTIONAL
}

InterFreqMeasQuantity ::=			SEQUENCE {
	reportingCriteria					CHOICE {
		intraFreqReportingCriteria			SEQUENCE {
			intraFreqMeasQuantity				IntraFreqMeasQuantity
		},
		interFreqReportingCriteria			SEQUENCE {
			filterCoefficient					FilterCoefficient			DEFAULT fc0,
			modeSpecificInfo					CHOICE {
				fdd									SEQUENCE {
					freqQualityEstimateQuantity-FDD		FreqQualityEstimateQuantity-FDD
				},
				tdd									SEQUENCE {
					freqQualityEstimateQuantity-TDD		FreqQualityEstimateQuantity-TDD
				}
			}
		}
	}
}

InterFreqMeasuredResults ::=		SEQUENCE {
	frequencyInfo						FrequencyInfo						OPTIONAL,
	utra-CarrierRSSI					UTRA-CarrierRSSI					OPTIONAL,
	interFreqCellMeasuredResultsList	InterFreqCellMeasuredResultsList	OPTIONAL
}

InterFreqMeasuredResults-v920ext ::=	SEQUENCE {
	interFreqCellMeasuredResultsList		InterFreqCellMeasuredResultsList-v920ext	OPTIONAL
}
InterFreqMeasuredResults-vc50ext ::=	SEQUENCE {
	interFreqCellMeasuredResultsList		InterFreqCellMeasuredResultsList-vc50ext	OPTIONAL
}

InterFreqMeasuredResultsList ::=	SEQUENCE (SIZE (1..maxFreq)) OF
										InterFreqMeasuredResults

InterFreqMeasuredResultsList-v920ext ::= SEQUENCE (SIZE (1..maxFreq)) OF
												InterFreqMeasuredResults-v920ext

InterFreqMeasuredResultsList-vc50ext ::= SEQUENCE (SIZE (1..maxFreq)) OF
												InterFreqMeasuredResults-vc50ext

InterFreqMeasurementSysInfo-RSCP ::=	SEQUENCE {
	interFreqCellInfoSI-List				InterFreqCellInfoSI-List-RSCP		OPTIONAL
}

InterFreqMeasurementSysInfo-ECN0 ::=		SEQUENCE {
	interFreqCellInfoSI-List			InterFreqCellInfoSI-List-ECN0		OPTIONAL
}

InterFreqMeasurementSysInfo-HCS-RSCP ::=		SEQUENCE {
	interFreqCellInfoSI-List			InterFreqCellInfoSI-List-HCS-RSCP	OPTIONAL
}

InterFreqMeasurementSysInfo-HCS-ECN0 ::=		SEQUENCE {
	interFreqCellInfoSI-List			InterFreqCellInfoSI-List-HCS-ECN0	OPTIONAL
}

InterFreqMeasurementSysInfo-RSCP-LCR-r4 ::=	SEQUENCE {
	interFreqCellInfoSI-List				InterFreqCellInfoSI-List-RSCP-LCR		OPTIONAL
}

InterFreqMeasurementSysInfo-ECN0-LCR-r4 ::=		SEQUENCE {
	interFreqCellInfoSI-List			InterFreqCellInfoSI-List-ECN0-LCR		OPTIONAL
}

InterFreqMeasurementSysInfo-HCS-RSCP-LCR-r4 ::=		SEQUENCE {
	interFreqCellInfoSI-List			InterFreqCellInfoSI-List-HCS-RSCP-LCR	OPTIONAL
}

InterFreqMeasurementSysInfo-HCS-ECN0-LCR-r4 ::=		SEQUENCE {
	interFreqCellInfoSI-List			InterFreqCellInfoSI-List-HCS-ECN0-LCR	OPTIONAL
}

InterFreqRACHRepCellsList ::=			SEQUENCE (SIZE (1..maxFreq)) OF
InterFreqCellID

InterFreqRACHRepCellsList-r12 ::=			SEQUENCE (SIZE (1..maxFreq)) OF
InterFreqCellID-r12

Dummy-InterFreqRACHReportingInfo ::= SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			interFreqRepQuantityRACH-FDD		InterFreqRepQuantityRACH-FDD
		},
		tdd									SEQUENCE {
			interFreqRepQuantityRACH-TDDList	InterFreqRepQuantityRACH-TDDList
		},
	interFreqRACHReportingThreshold		Threshold,
	maxReportedCellsOnRACHinterFreq		MaxReportedCellsOnRACHinterFreq
	}
}

InterFreqRACHReportingInfo ::= SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			interFreqRepQuantityRACH-FDD		InterFreqRepQuantityRACH-FDD
		},
		tdd									SEQUENCE {
			interFreqRepQuantityRACH-TDDList	InterFreqRepQuantityRACH-TDDList
		}
	},
	interFreqRACHReportingThreshold		Threshold,
	maxReportedCellsOnRACHinterFreq		MaxReportedCellsOnRACHinterFreq
}

InterFreqBlacklistedCellsList-r12 ::=		SEQUENCE (SIZE (1..maxFreq)) OF
													InterFreqBlacklistedCells-r12

InterFreqBlacklistedCells-r12 ::=		SEQUENCE {
	frequencyInfo						FrequencyInfo,
	excludedCellInfoList				CellInfoListToBeExcluded
}

InterFreqReportCriteria ::=			CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria,
	interFreqReportingCriteria			InterFreqReportingCriteria,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

InterFreqReportCriteria-r4 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r4,
	interFreqReportingCriteria			InterFreqReportingCriteria,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

InterFreqReportCriteria-r6 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r6,
	interFreqReportingCriteria			InterFreqReportingCriteria-r6,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

InterFreqReportCriteria-r7 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r7,
	interFreqReportingCriteria			InterFreqReportingCriteria-r6,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

InterFreqReportCriteria-r9 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r9,
	interFreqReportingCriteria			InterFreqReportingCriteria-r6,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

InterFreqReportCriteria-r10 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r9,
	interFreqReportingCriteria			InterFreqReportingCriteria-r10,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus-r10,
	noReporting							ReportingCellStatusOpt-r10
}

InterFreqReportCriteria-r11 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r11,
	interFreqReportingCriteria			InterFreqReportingCriteria-r11,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus-r10,
	noReporting							ReportingCellStatusOpt-r10
}


InterFreqReportCriteria-r12 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r11,
	interFreqReportingCriteria			InterFreqReportingCriteria-r12,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus-r10,
	noReporting							ReportingCellStatusOpt-r10
}

InterFreqReportingCriteria ::=		SEQUENCE {
	interFreqEventList					InterFreqEventList					OPTIONAL
}

InterFreqReportingCriteria-r6 ::=	SEQUENCE {
	interFreqEventList					InterFreqEventList-r6				OPTIONAL
}

InterFreqReportingCriteria-r10 ::=	SEQUENCE {
	interFreqEventList					InterFreqEventList-r10			OPTIONAL
}

InterFreqReportingCriteria-r11 ::=	SEQUENCE {
	interFreqEventList					InterFreqEventList-r11			OPTIONAL
}

InterFreqReportingCriteria-r12 ::=	SEQUENCE {
	interFreqEventList					InterFreqEventList-r12			OPTIONAL,
	interFreqBlacklistedCellsList		InterFreqBlacklistedCellsList-r12	OPTIONAL
}

InterFreqReportingQuantity ::=		SEQUENCE {
	utra-Carrier-RSSI					BOOLEAN,
	frequencyQualityEstimate			BOOLEAN,
	nonFreqRelatedQuantities			CellReportingQuantities
}

InterFreqRepQuantityRACH-FDD ::=	ENUMERATED {
										cpich-EcN0, cpich-RSCP }

-- dummy is not used in this version of the specification, it should
-- not be sent and if received the UE behaviour is not specified.
InterFreqRepQuantityRACH-TDD ::=	ENUMERATED {
										dummy,
										primaryCCPCH-RSCP }

InterFreqRepQuantityRACH-TDDList ::= SEQUENCE (SIZE (1..2)) OF
										InterFreqRepQuantityRACH-TDD

InterFrequencyMeasurement ::=		SEQUENCE {
	interFreqCellInfoList				InterFreqCellInfoList,
	interFreqMeasQuantity				InterFreqMeasQuantity				OPTIONAL,
	interFreqReportingQuantity			InterFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	interFreqSetUpdate					UE-AutonomousUpdateMode				OPTIONAL,
	reportCriteria						InterFreqReportCriteria
}


InterFrequencyMeasurement-r4 ::=	SEQUENCE {
	interFreqCellInfoList				InterFreqCellInfoList-r4,
	interFreqMeasQuantity				InterFreqMeasQuantity				OPTIONAL,
	interFreqReportingQuantity			InterFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	interFreqSetUpdate					UE-AutonomousUpdateMode				OPTIONAL,
	reportCriteria						InterFreqReportCriteria-r4
}

InterFrequencyMeasurement-r6 ::=	SEQUENCE {
	interFreqCellInfoList				InterFreqCellInfoList-r4,
	interFreqMeasQuantity				InterFreqMeasQuantity				OPTIONAL,
	interFreqReportingQuantity			InterFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	interFreqSetUpdate					UE-AutonomousUpdateMode				OPTIONAL,
	reportCriteria						InterFreqReportCriteria-r6
}

InterFrequencyMeasurement-r7 ::=	SEQUENCE {
	interFreqCellInfoList				InterFreqCellInfoList-r4,
	interFreqMeasQuantity				InterFreqMeasQuantity				OPTIONAL,
	interFreqReportingQuantity			InterFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	interFreqSetUpdate					UE-AutonomousUpdateMode				OPTIONAL,
	reportCriteria						InterFreqReportCriteria-r7
}

InterFrequencyMeasurement-r8 ::=	SEQUENCE {
	interFreqCellInfoList				InterFreqCellInfoList-r8,
	interFreqMeasQuantity				InterFreqMeasQuantity				OPTIONAL,
	interFreqReportingQuantity			InterFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	interFreqSetUpdate					UE-AutonomousUpdateMode				OPTIONAL,
	adjacentFrequencyIndex				INTEGER (0..31)						OPTIONAL,
	reportCriteria						InterFreqReportCriteria-r7
}

InterFrequencyMeasurement-r9 ::=	SEQUENCE {
	interFreqCellInfoList				InterFreqCellInfoList-r9,
	interFreqMeasQuantity				InterFreqMeasQuantity				OPTIONAL,
	interFreqReportingQuantity			InterFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	interFreqSetUpdate					UE-AutonomousUpdateMode				OPTIONAL,
	adjacentFrequencyIndex				INTEGER (0..31)						OPTIONAL,
	interBandFrequencyIndex				INTEGER (0..31)						OPTIONAL,
	reportCriteria						InterFreqReportCriteria-r9
}

InterFrequencyMeasurement-r10 ::=	SEQUENCE {
	interFreqCellInfoList				InterFreqCellInfoList-r10,
	interFreqMeasQuantity				InterFreqMeasQuantity				OPTIONAL,
	interFreqReportingQuantity			InterFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	interFreqSetUpdate					UE-AutonomousUpdateMode				OPTIONAL,
	adjacentFrequencyIndex				INTEGER (0..31)						OPTIONAL,
	interBandFrequencyIndex				INTEGER (0..31)						OPTIONAL,
	freqIndexListForEnhancedMeas		FreqIndexListForEnhancedMeas		OPTIONAL,
	reportCriteria						InterFreqReportCriteria-r10
}

InterFrequencyMeasurement-r11 ::=	SEQUENCE {
	interFreqCellInfoList				InterFreqCellInfoList-r10,
	interFreqMeasQuantity				InterFreqMeasQuantity				OPTIONAL,
	interFreqReportingQuantity			InterFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	interFreqSetUpdate					UE-AutonomousUpdateMode				OPTIONAL,
	adjacentFrequencyIndex				INTEGER (0..31)						OPTIONAL,
	interBandFrequencyIndex				INTEGER (0..31)						OPTIONAL,
	freqIndexListForEnhancedMeas		FreqIndexListForEnhancedMeas		OPTIONAL,
	reportCriteria						InterFreqReportCriteria-r11
}


InterFrequencyMeasurement-r12 ::=	SEQUENCE {
	interFreqCellInfoList				InterFreqCellInfoList-r12,
	interFreqMeasQuantity				InterFreqMeasQuantity				OPTIONAL,
	interFreqReportingQuantity			InterFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	interFreqSetUpdate					UE-AutonomousUpdateMode				OPTIONAL,
	adjacentFrequencyIndex				INTEGER (0..79)						OPTIONAL,
	interBandFrequencyIndex				INTEGER (0..79)						OPTIONAL,
	freqIndexListForEnhancedMeas		FreqIndexListForEnhancedMeas-r12	OPTIONAL,
	reportCriteria						InterFreqReportCriteria-r12
}

InterRAT-TargetCellDescription ::=	SEQUENCE {
	technologySpecificInfo				CHOICE {
		gsm									SEQUENCE {
			bsic								BSIC,
			frequency-band						Frequency-Band,
			bcch-ARFCN							BCCH-ARFCN,
			ncMode								NC-Mode				OPTIONAL
		},
		is-2000								NULL,
		spare2								NULL,
		spare1								NULL
	}
}

InterRATCellID ::=				INTEGER (0..maxCellMeas-1)

InterRATCellInfoIndication ::=		INTEGER (0..3)

InterRATCellInfoList ::=			SEQUENCE {
	removedInterRATCellList			RemovedInterRATCellList,
	-- NOTE: Future revisions of dedicated messages including IE newInterRATCellList
	-- should use a corrected version of this IE
	newInterRATCellList				NewInterRATCellList,
	cellsForInterRATMeasList			CellsForInterRATMeasList			OPTIONAL
}

InterRATCellInfoList-B ::=			SEQUENCE {
	removedInterRATCellList			RemovedInterRATCellList,
	-- NOTE: IE newInterRATCellList should be optional.  However, system information
	-- does not support message versions.  Hence, this can not be corrected
	newInterRATCellList				NewInterRATCellList-B
}

InterRATCellInfoList-r4 ::=			SEQUENCE {
	removedInterRATCellList					RemovedInterRATCellList,
	newInterRATCellList						NewInterRATCellList					OPTIONAL,
	cellsForInterRATMeasList				CellsForInterRATMeasList			OPTIONAL
}

InterRATCellInfoList-r6 ::=			SEQUENCE {
	removedInterRATCellList					RemovedInterRATCellList,
	newInterRATCellList						NewInterRATCellList					OPTIONAL,
	cellsForInterRATMeasList				CellsForInterRATMeasList			OPTIONAL,
	interRATCellInfoIndication-r6			InterRATCellInfoIndication			OPTIONAL
}

InterRATCellIndividualOffset ::=			INTEGER (-50..50)

InterRATEvent ::=				CHOICE {
	event3a								Event3a,
	event3b								Event3b,
	event3c								Event3c,
	event3d								Event3d
}

InterRATEvent-r12 ::=				CHOICE {
	event3a								Event3a-r12,
	event3b								Event3b-r12,
	event3c								Event3c-r12,
	event3d								Event3d
}

InterRATEventList ::=			SEQUENCE (SIZE (1..maxMeasEvent)) OF
										InterRATEvent

InterRATEventList-r12 ::=			SEQUENCE (SIZE (1..maxMeasEvent)) OF
										InterRATEvent-r12

InterRATEventResults ::=			SEQUENCE {
	eventID								EventIDInterRAT,
	cellToReportList					CellToReportList
}

InterRATInfo ::=					ENUMERATED {
										gsm }

InterRATInfo-r6 ::=					SEQUENCE {
	rat									InterRATInfo,
	gsm-TargetCellInfoList				GSM-TargetCellInfoList			OPTIONAL
}

InterRATInfo-v860ext ::=			CHOICE {
	-- CHOICE gsm is provided in IE InterRATInfo or IE InterRATInfo-r6
	gsm									NULL,
	eutra								SEQUENCE {
		eutra-TargetFreqInfoList			EUTRA-TargetFreqInfoList
	}
}

InterRATMeasQuantity ::=				SEQUENCE {
	measQuantityUTRAN-QualityEstimate		IntraFreqMeasQuantity			OPTIONAL,
	ratSpecificInfo						CHOICE {
		gsm										SEQUENCE {
			measurementQuantity						MeasurementQuantityGSM,
			filterCoefficient						FilterCoefficient		DEFAULT fc0,
			bsic-VerificationRequired				BSIC-VerificationRequired
		},
		is-2000									SEQUENCE {
			tadd-EcIo								INTEGER (0..63),
			tcomp-EcIo								INTEGER (0..15),
			softSlope								INTEGER (0..63)			OPTIONAL,
			addIntercept							INTEGER (0..63)			OPTIONAL
		}
	}	
}

InterRATMeasQuantity-r8 ::=				SEQUENCE {
	measQuantityUTRAN-QualityEstimate		IntraFreqMeasQuantity			OPTIONAL,
	ratSpecificInfo							CHOICE {
		gsm										SEQUENCE {
			measurementQuantity						MeasurementQuantityGSM,
			filterCoefficient						FilterCoefficient		DEFAULT fc0,
			bsic-VerificationRequired				BSIC-VerificationRequired
		},
		is-2000									SEQUENCE {
			tadd-EcIo								INTEGER (0..63),
			tcomp-EcIo								INTEGER (0..15),
			softSlope								INTEGER (0..63)			OPTIONAL,
			addIntercept							INTEGER (0..63)			OPTIONAL
		},
		e-UTRA									SEQUENCE {
			measurementQuantity						MeasurementQuantityEUTRA,
			filterCoefficient						FilterCoefficient		DEFAULT fc0
		}
	}	
}

InterRATMeasuredResults ::=		CHOICE {
	gsm									GSM-MeasuredResultsList,
	spare								NULL
}

InterRATMeasuredResultsList ::= SEQUENCE (SIZE (1..maxOtherRAT-16)) OF
										InterRATMeasuredResults

InterRATMeasurement ::=			SEQUENCE {
	interRATCellInfoList				InterRATCellInfoList				OPTIONAL,
	interRATMeasQuantity				InterRATMeasQuantity				OPTIONAL,
	interRATReportingQuantity			InterRATReportingQuantity		OPTIONAL,
	reportCriteria						InterRATReportCriteria
}

InterRATMeasurement-r4 ::=			SEQUENCE {
	interRATCellInfoList				InterRATCellInfoList-r4				OPTIONAL,
	interRATMeasQuantity				InterRATMeasQuantity				OPTIONAL,
	interRATReportingQuantity			InterRATReportingQuantity		OPTIONAL,
	reportCriteria						InterRATReportCriteria
}

InterRATMeasurement-r6 ::=			SEQUENCE {
	interRATCellInfoList				InterRATCellInfoList-r6				OPTIONAL,
	interRATMeasQuantity				InterRATMeasQuantity				OPTIONAL,
	interRATReportingQuantity			InterRATReportingQuantity		OPTIONAL,
	reportCriteria						InterRATReportCriteria
}

InterRATMeasurement-r8 ::=			SEQUENCE {
	interRATMeasurementObjects			CHOICE {
		interRATCellInfoList				InterRATCellInfoList-r6,
		eutra-FrequencyList					EUTRA-FrequencyList
	}		OPTIONAL,
	interRATMeasQuantity				InterRATMeasQuantity-r8				OPTIONAL,
	interRATReportingQuantity			InterRATReportingQuantity-r8		OPTIONAL,
	reportCriteria						InterRATReportCriteria,
	idleIntervalInfo					IdleIntervalInfo					OPTIONAL
}

InterRATMeasurement-r9 ::=			SEQUENCE {
	interRATMeasurementObjects			CHOICE {
		interRATCellInfoList				InterRATCellInfoList-r6,
		eutra-FrequencyList					EUTRA-FrequencyList-r9
	}		OPTIONAL,
	interRATMeasQuantity				InterRATMeasQuantity-r8				OPTIONAL,
	interRATReportingQuantity			InterRATReportingQuantity-r8		OPTIONAL,
	reportCriteria						InterRATReportCriteria,
	idleIntervalInfo					IdleIntervalInfo					OPTIONAL
}

InterRATMeasurement-r11 ::=			SEQUENCE {
	interRATMeasurementObjects			CHOICE {
		interRATCellInfoList				InterRATCellInfoList-r6,
		eutra-FrequencyList					EUTRA-FrequencyList-r11
	}		OPTIONAL,
	interRATMeasQuantity				InterRATMeasQuantity-r8				OPTIONAL,
	interRATReportingQuantity			InterRATReportingQuantity-r8		OPTIONAL,
	reportCriteria						InterRATReportCriteria,
	idleIntervalInfo					IdleIntervalInfo					OPTIONAL
}

InterRATMeasurement-r12 ::=			SEQUENCE {
	interRATMeasurementObjects			CHOICE {
		interRATCellInfoList				InterRATCellInfoList-r6,
		eutra-FrequencyList					EUTRA-FrequencyList-r12
	}		OPTIONAL,
	interRATMeasQuantity				InterRATMeasQuantity-r8				OPTIONAL,
	interRATReportingQuantity			InterRATReportingQuantity-r8		OPTIONAL,
	reportCriteria						InterRATReportCriteria-r12,
	idleIntervalInfo					IdleIntervalInfo					OPTIONAL
}


InterRATMeasurementSysInfo ::=	SEQUENCE {
	interRATCellInfoList				InterRATCellInfoList				OPTIONAL
}

InterRATMeasurementSysInfo-B ::=	SEQUENCE {
	interRATCellInfoList				InterRATCellInfoList-B			OPTIONAL
}

InterRATReportCriteria ::=		CHOICE {
	interRATReportingCriteria			InterRATReportingCriteria,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}			

InterRATReportCriteria-r12 ::=		CHOICE {
	interRATReportingCriteria			InterRATReportingCriteria-r12,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}			

InterRATReportingCriteria ::= 	SEQUENCE {
	interRATEventList				InterRATEventList				OPTIONAL
}

InterRATReportingCriteria-r12 ::= 	SEQUENCE {
	interRATEventList				InterRATEventList-r12				OPTIONAL
}

InterRATReportingQuantity ::=	SEQUENCE {
	utran-EstimatedQuality				BOOLEAN,
	ratSpecificInfo					CHOICE {
		gsm									SEQUENCE {
			-- dummy and dummy2 are not used in this version of the specification
			-- and when received they should be ignored.
			dummy								BOOLEAN,
			dummy2								BOOLEAN,
			gsm-Carrier-RSSI					BOOLEAN
		}
	}
}

InterRATReportingQuantity-r8 ::=	SEQUENCE {
	utran-EstimatedQuality				BOOLEAN,
	ratSpecificInfo						CHOICE {
		gsm									SEQUENCE {
			gsm-Carrier-RSSI					BOOLEAN
		},
		eutra								SEQUENCE {
			reportingQuantity					ENUMERATED { measurementQuantity, 
													both }
		}
	}
}

IntraFreqCellID ::=					INTEGER (0..maxCellMeas-1)

IntraFreqCellIDOnSecULFreq ::=		INTEGER (0..maxCellMeasOnSecULFreq-1)

IntraFreqCellInfoList ::=			SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellList				OPTIONAL,
	cellsForIntraFreqMeasList			CellsForIntraFreqMeasList			OPTIONAL
}

IntraFreqCellInfoList-r4 ::=		SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellList-r4				OPTIONAL,
	cellsForIntraFreqMeasList			CellsForIntraFreqMeasList			OPTIONAL
}

IntraFreqCellInfoListInfoOnSecULFreq ::=		SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellListOnSecULFreq			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellListOnSecULFreq				OPTIONAL,
	cellsForIntraFreqMeasList			CellsForIntraFreqMeasListOnSecULFreq		OPTIONAL
}

IntraFreqCellInfoListOnSecULFreq ::=		SEQUENCE {
	intraFreqCellInfoListOnSecULFreq		IntraFreqCellInfoListInfoOnSecULFreq
}

IntraFreqCellInfoList-r9 ::=		SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellList-r9				OPTIONAL,
	cellsForIntraFreqMeasList			CellsForIntraFreqMeasList			OPTIONAL,
	cSGIntraFreqCellInfoList			CSGIntraFreqCellInfoList			OPTIONAL,
	intraFreqSIAcquisition				IntraFreqSIAcquisition				OPTIONAL

}

IntraFreqCellInfoList-r10 ::=		SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellList-r10			OPTIONAL,
	cellsForIntraFreqMeasList			CellsForIntraFreqMeasList			OPTIONAL,
	cSGIntraFreqCellInfoList			CSGIntraFreqCellInfoList			OPTIONAL,
	intraFreqSIAcquisition				IntraFreqSIAcquisition				OPTIONAL
}

IntraFreqSIAcquisitionInfo::=		SEQUENCE (SIZE (1..maxSIrequest)) OF
										PrimaryCPICH-Info

IntraFreqSIAcquisition ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			intraFreqSIAcquisitionInfo		IntraFreqSIAcquisitionInfo		OPTIONAL
		},
		tdd								NULL
	}
}

IntraFreqCellInfoSI-List-RSCP ::=	SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellSI-List-RSCP
}

IntraFreqCellInfoSI-List-ECN0 ::=		SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellSI-List-ECN0
}

IntraFreqCellInfoSI-List-HCS-RSCP ::=		SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellSI-List-HCS-RSCP
}

IntraFreqCellInfoSI-List-HCS-ECN0 ::=		SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellSI-List-HCS-ECN0
}

IntraFreqCellInfoSI-List-RSCP-LCR-r4 ::=	SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellSI-List-RSCP-LCR-r4
}

IntraFreqCellInfoSI-List-ECN0-LCR-r4 ::=		SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellSI-List-ECN0-LCR-r4
}

IntraFreqCellInfoSI-List-HCS-RSCP-LCR-r4 ::=		SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellSI-List-HCS-RSCP-LCR-r4
}

IntraFreqCellInfoSI-List-HCS-ECN0-LCR-r4 ::=		SEQUENCE {
	removedIntraFreqCellList			RemovedIntraFreqCellList			OPTIONAL,
	newIntraFreqCellList				NewIntraFreqCellSI-List-HCS-ECN0-LCR-r4
}

IntraFreqEvent ::=					CHOICE {
	e1a									Event1a,
	e1b									Event1b,
	e1c									Event1c,
	e1d									NULL,
	e1e									Event1e,
	e1f									Event1f,
	e1g									NULL,
	e1h									ThresholdUsedFrequency,
	e1i									ThresholdUsedFrequency
}

IntraFreqEvent-r4 ::=				CHOICE {
	e1a									Event1a-r4,
	e1b									Event1b-r4,
	e1c									Event1c,
	e1d									NULL,
	e1e									Event1e,
	e1f									Event1f,
	e1g									NULL,
	e1h									ThresholdUsedFrequency,
	e1i									ThresholdUsedFrequency
}

IntraFreqEvent-LCR-r4 ::=			CHOICE {
	e1a									Event1a-LCR-r4,
	e1b									Event1b-LCR-r4,
	e1c									Event1c,
	e1d									NULL,
	e1e									Event1e,
	e1f									Event1f,
	e1g									NULL,
	e1h									ThresholdUsedFrequency,
	e1i									ThresholdUsedFrequency
}

IntraFreqEvent-r6 ::=				CHOICE {
	e1a									Event1a-r4,
	e1b									Event1b-r4,
	e1c									Event1c,
	e1d									Event1d,
	e1e									Event1e-r6,
	e1f									Event1f-r6,
	e1g									NULL,
	e1h									ThresholdUsedFrequency-r6,
	e1i									ThresholdUsedFrequency-r6,
	e1j									Event1j-r6
}

IntraFreqEvent-r7 ::=				CHOICE {
	e1a									Event1a-r4,
	e1b									Event1b-r7,
	e1c									Event1c,
	e1d									Event1d,
	e1e									Event1e-r6,
	e1f									Event1f-r6,
	e1g									NULL,
	e1h									ThresholdUsedFrequency-r6,
	e1i									ThresholdUsedFrequency-r6,
	e1j									Event1j-r6
}

IntraFreqEventOnSecULFreq ::=		CHOICE {
	e1a									Event1a-OnSecUlFreq-r9,
	e1b									Event1b-OnSecUlFreq-r9,
	e1c									Event1c,
	e1e									Event1e-r6,
	e1f									Event1f-r6
}

IntraFreqEvent-1d-r5 ::=		SEQUENCE {
	triggeringCondition					TriggeringCondition2	OPTIONAL,
	useCIO								BOOLEAN					OPTIONAL
}

IntraFreqEventCriteria ::=			SEQUENCE {
	event								IntraFreqEvent,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

IntraFreqEventCriteria-r4 ::=		SEQUENCE {
	event								IntraFreqEvent-r4,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

IntraFreqEventCriteria-LCR-r4 ::=	SEQUENCE {
	event								IntraFreqEvent-LCR-r4,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

IntraFreqEventCriteria-r6 ::=	SEQUENCE {
	event								IntraFreqEvent-r6,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

IntraFreqEventCriteria-r7 ::=	SEQUENCE {
	event								IntraFreqEvent-r7,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

IntraFreqEventCriteriaOnSecULFreq ::=	SEQUENCE {
	event								IntraFreqEventOnSecULFreq,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

IntraFreqEventCriteriaList ::=		SEQUENCE (SIZE (1..maxMeasEvent)) OF
										IntraFreqEventCriteria

IntraFreqEventCriteriaList-r4 ::=	SEQUENCE (SIZE (1..maxMeasEvent)) OF
										IntraFreqEventCriteria-r4

IntraFreqEventCriteriaList-LCR-r4 ::=	SEQUENCE (SIZE (1..maxMeasEvent)) OF
										IntraFreqEventCriteria-LCR-r4

IntraFreqEventCriteriaList-r6 ::=		SEQUENCE (SIZE (1..maxMeasEvent)) OF
										IntraFreqEventCriteria-r6

IntraFreqEventCriteriaList-r7 ::=		SEQUENCE (SIZE (1..maxMeasEvent)) OF
										IntraFreqEventCriteria-r7

IntraFreqEventCriteriaListOnSecULFreq ::= 		SEQUENCE{
	frequencyInfo						FrequencyInfo,
	intraFreqEventCriteria				SEQUENCE (SIZE (1..maxMeasEventOnSecULFreq)) OF
										IntraFreqEventCriteriaOnSecULFreq
}

IntraFreqEventResults ::=			SEQUENCE {
	eventID								EventIDIntraFreq,
	cellMeasurementEventResults			CellMeasurementEventResults
}

IntraFreqEventResultsOnSecUlFreq ::=			SEQUENCE {
	eventID										EventIDIntraFreq,
	cellMeasurementEventResultsOnSecUlFreq		CellMeasurementEventResultsOnSecUlFreq
}

IntraFreqMeasQuantity ::=			SEQUENCE {
	filterCoefficient					FilterCoefficient					DEFAULT fc0,
	modeSpecificInfo 					CHOICE {
		fdd								SEQUENCE {
			intraFreqMeasQuantity-FDD		IntraFreqMeasQuantity-FDD
		},
		tdd								SEQUENCE {
			intraFreqMeasQuantity-TDDList	IntraFreqMeasQuantity-TDDList
		}
	}
}

-- If IntraFreqMeasQuantity-FDD is used in InterRATMeasQuantity, then only 
-- cpich-Ec-N0 and cpich-RSCP are allowed.
-- dummy is not used in this version of the specification, it should
-- not be sent and if received the UE behaviour is not specified.
IntraFreqMeasQuantity-FDD ::=		ENUMERATED {
										cpich-Ec-N0,
										cpich-RSCP,
										pathloss,
										dummy }

IntraFreqMeasQuantity-FDD-sib3 ::=	ENUMERATED {
										cpich-Ec-N0, cpich-RSCP }

-- dummy is not used in this version of the specification, it should
-- not be sent and if received the UE behaviour is not specified.
IntraFreqMeasQuantity-TDD ::=		ENUMERATED {
										primaryCCPCH-RSCP,
										pathloss,
										timeslotISCP,
										dummy }

IntraFreqMeasQuantity-TDDList ::=	SEQUENCE (SIZE (1..4)) OF
										IntraFreqMeasQuantity-TDD

IntraFreqMeasQuantity-TDD-sib3List ::= SEQUENCE (SIZE (1..2)) OF
										ENUMERATED { primaryCCPCH-RSCP, timeslotISCP }

IntraFreqMeasuredResultsList ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
										CellMeasuredResults

IntraFreqMeasuredResultsList-v920ext ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
												CellMeasuredResults-v920ext

IntraFreqMeasuredResultsList-vc50ext ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
												CellMeasuredResults-vc50ext

IntraFreqMeasurementSysInfo-RSCP ::=	SEQUENCE {
	intraFreqMeasurementID				MeasurementIdentity			DEFAULT 1,
	intraFreqCellInfoSI-List			IntraFreqCellInfoSI-List-RSCP		OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantityForRACH	IntraFreqReportingQuantityForRACH	OPTIONAL,
	maxReportedCellsOnRACH				MaxReportedCellsOnRACH				OPTIONAL,
	reportingInfoForCellDCH				ReportingInfoForCellDCH				OPTIONAL
}

IntraFreqMeasurementSysInfo-ECN0 ::=		SEQUENCE {
	intraFreqMeasurementID				MeasurementIdentity			DEFAULT 1,
	intraFreqCellInfoSI-List			IntraFreqCellInfoSI-List-ECN0		OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantityForRACH	IntraFreqReportingQuantityForRACH	OPTIONAL,
	maxReportedCellsOnRACH				MaxReportedCellsOnRACH				OPTIONAL,
	reportingInfoForCellDCH				ReportingInfoForCellDCH				OPTIONAL
}

IntraFreqMeasurementSysInfo-HCS-RSCP ::=	SEQUENCE {
	intraFreqMeasurementID				MeasurementIdentity			DEFAULT 1,
	intraFreqCellInfoSI-List			IntraFreqCellInfoSI-List-HCS-RSCP	OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantityForRACH	IntraFreqReportingQuantityForRACH	OPTIONAL,
	maxReportedCellsOnRACH				MaxReportedCellsOnRACH				OPTIONAL,
	reportingInfoForCellDCH				ReportingInfoForCellDCH				OPTIONAL
}

IntraFreqMeasurementSysInfo-HCS-ECN0 ::=	SEQUENCE {
	intraFreqMeasurementID				MeasurementIdentity			DEFAULT 1,
	intraFreqCellInfoSI-List			IntraFreqCellInfoSI-List-HCS-ECN0	OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantityForRACH	IntraFreqReportingQuantityForRACH	OPTIONAL,
	maxReportedCellsOnRACH				MaxReportedCellsOnRACH				OPTIONAL,
	reportingInfoForCellDCH				ReportingInfoForCellDCH				OPTIONAL
}

IntraFreqMeasurementSysInfo-RSCP-LCR-r4 ::=	SEQUENCE {
	intraFreqMeasurementID				MeasurementIdentity			DEFAULT 1,
	intraFreqCellInfoSI-List			IntraFreqCellInfoSI-List-RSCP-LCR-r4	OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantityForRACH	IntraFreqReportingQuantityForRACH	OPTIONAL,
	maxReportedCellsOnRACH				MaxReportedCellsOnRACH				OPTIONAL,
	reportingInfoForCellDCH				ReportingInfoForCellDCH-LCR-r4		OPTIONAL
}

IntraFreqMeasurementSysInfo-ECN0-LCR-r4 ::=		SEQUENCE {
	intraFreqMeasurementID				MeasurementIdentity			DEFAULT 1,
	intraFreqCellInfoSI-List			IntraFreqCellInfoSI-List-ECN0-LCR-r4	OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantityForRACH	IntraFreqReportingQuantityForRACH	OPTIONAL,
	maxReportedCellsOnRACH				MaxReportedCellsOnRACH				OPTIONAL,
	reportingInfoForCellDCH				ReportingInfoForCellDCH-LCR-r4		OPTIONAL
}

IntraFreqMeasurementSysInfo-HCS-RSCP-LCR-r4 ::=	SEQUENCE {
	intraFreqMeasurementID				MeasurementIdentity			DEFAULT 1,
	intraFreqCellInfoSI-List			IntraFreqCellInfoSI-List-HCS-RSCP-LCR-r4	OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantityForRACH	IntraFreqReportingQuantityForRACH	OPTIONAL,
	maxReportedCellsOnRACH				MaxReportedCellsOnRACH				OPTIONAL,
	reportingInfoForCellDCH				ReportingInfoForCellDCH-LCR-r4		OPTIONAL
}

IntraFreqMeasurementSysInfo-HCS-ECN0-LCR-r4 ::=	SEQUENCE {
	intraFreqMeasurementID				MeasurementIdentity			DEFAULT 1,
	intraFreqCellInfoSI-List			IntraFreqCellInfoSI-List-HCS-ECN0-LCR-r4	OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantityForRACH	IntraFreqReportingQuantityForRACH	OPTIONAL,
	maxReportedCellsOnRACH				MaxReportedCellsOnRACH				OPTIONAL,
	reportingInfoForCellDCH				ReportingInfoForCellDCH-LCR-r4		OPTIONAL
}

IntraFreqReportCriteria ::=			CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

IntraFreqReportCriteria-r4 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r4,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

IntraFreqReportCriteria-r6 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r6,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

IntraFreqReportCriteria-r7 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r7,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

IntraFreqReportCriteria-r9 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r9,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

IntraFreqReportCriteria-r11 ::=		CHOICE {
	intraFreqReportingCriteria			IntraFreqReportingCriteria-r11,
	periodicalReportingCriteria			PeriodicalWithReportingCellStatus,
	noReporting							ReportingCellStatusOpt
}

IntraFreqReportingCriteria ::=		SEQUENCE {
	eventCriteriaList					IntraFreqEventCriteriaList		OPTIONAL
}

IntraFreqReportingCriteria-r4 ::=	SEQUENCE {
	eventCriteriaList					IntraFreqEventCriteriaList-r4	OPTIONAL
}

IntraFreqReportingCriteria-LCR-r4 ::=	SEQUENCE {
	eventCriteriaList					IntraFreqEventCriteriaList-LCR-r4	OPTIONAL
}

IntraFreqReportingCriteria-r6 ::= SEQUENCE {
	eventCriteriaList					IntraFreqEventCriteriaList-r6	OPTIONAL
}

IntraFreqReportingCriteria-r7 ::= SEQUENCE {
	eventCriteriaList					IntraFreqEventCriteriaList-r7	OPTIONAL
}

IntraFreqReportingCriteria-r9 ::= SEQUENCE {
	eventCriteriaList					IntraFreqEventCriteriaList-r7			OPTIONAL,
	eventCriteriaListOnSecULFreq		IntraFreqEventCriteriaListOnSecULFreq	OPTIONAL
}

IntraFreqReportingCriteria-r11 ::= SEQUENCE {
	eventCriteriaList					IntraFreqEventCriteriaList-r7			OPTIONAL,
	eventCriteriaListOnSecULFreq		IntraFreqEventCriteriaListOnSecULFreq	OPTIONAL,
	excludedCellInfoList				CellInfoListToBeExcluded				OPTIONAL
}

IntraFreqReportingCriteria-1b-r5 ::= SEQUENCE {
	periodicReportingInfo-1b			PeriodicReportingInfo-1b
}

IntraFreqReportingQuantity ::=		SEQUENCE {
	activeSetReportingQuantities		CellReportingQuantities,
	monitoredSetReportingQuantities		CellReportingQuantities,
	detectedSetReportingQuantities		CellReportingQuantities				OPTIONAL
}

IntraFreqReportingQuantityForRACH ::= SEQUENCE {
	sfn-SFN-OTD-Type					SFN-SFN-OTD-Type,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			intraFreqRepQuantityRACH-FDD		IntraFreqRepQuantityRACH-FDD
		},
		tdd									SEQUENCE {
			intraFreqRepQuantityRACH-TDDList	IntraFreqRepQuantityRACH-TDDList
		}
	}
}

IntraFreqReportingQuantityForRACH-vc50ext ::= SEQUENCE {
	intraFreqRepQuantityRACH-FDD		ENUMERATED {
											cpich-EcN0-RSCP, spare1}
}

IntraFreqRepQuantityRACH-FDD ::=	ENUMERATED {
										cpich-EcN0, cpich-RSCP, 
										pathloss, noReport }

IntraFreqRepQuantityRACH-TDD ::=	ENUMERATED {
										timeslotISCP,
										primaryCCPCH-RSCP,
										noReport }

IntraFreqRepQuantityRACH-TDDList ::= SEQUENCE (SIZE (1..2)) OF
										IntraFreqRepQuantityRACH-TDD

IntraFrequencyMeasurement ::=		SEQUENCE {
	intraFreqCellInfoList				IntraFreqCellInfoList				OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantity			IntraFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	reportCriteria						IntraFreqReportCriteria				OPTIONAL
}

IntraFrequencyMeasurement-r4 ::=	SEQUENCE {
	intraFreqCellInfoList				IntraFreqCellInfoList-r4			OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantity			IntraFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	reportCriteria						IntraFreqReportCriteria-r4			OPTIONAL
}

IntraFrequencyMeasurement-r6 ::=		SEQUENCE {
	intraFreqCellInfoList				IntraFreqCellInfoList-r4			OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantity			IntraFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	-- reportCriteria is optional in later versions of this message
	reportCriteria						IntraFreqReportCriteria-r6
}

IntraFrequencyMeasurement-r7 ::=		SEQUENCE {
	intraFreqCellInfoList				IntraFreqCellInfoList-r4			OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantity			IntraFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	reportCriteria						IntraFreqReportCriteria-r7			OPTIONAL
}

IntraFrequencyMeasurement-r9 ::=		SEQUENCE {
	intraFreqCellInfoList				IntraFreqCellInfoList-r9			OPTIONAL,
	intraFreqCellInfoListOnSecULFreq	IntraFreqCellInfoListOnSecULFreq	OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantity			IntraFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	reportCriteria						IntraFreqReportCriteria-r9			OPTIONAL
}

IntraFrequencyMeasurement-r10 ::=		SEQUENCE {
	intraFreqCellInfoList				IntraFreqCellInfoList-r10			OPTIONAL,
	intraFreqCellInfoListOnSecULFreq	IntraFreqCellInfoListOnSecULFreq	OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantity			IntraFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	reportCriteria						IntraFreqReportCriteria-r9			OPTIONAL
}

IntraFrequencyMeasurement-r11 ::=		SEQUENCE {
	intraFreqCellInfoList				IntraFreqCellInfoList-r10			OPTIONAL,
	intraFreqCellInfoListOnSecULFreq	IntraFreqCellInfoListOnSecULFreq	OPTIONAL,
	intraFreqMeasQuantity				IntraFreqMeasQuantity				OPTIONAL,
	intraFreqReportingQuantity			IntraFreqReportingQuantity			OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	reportCriteria						IntraFreqReportCriteria-r11			OPTIONAL,
	periodicalReportingCriteriaOnSecULFreq
										PeriodicalWithReportingCellStatusOnSecULFreq	OPTIONAL
}

IntraFrequencyMeasuredResultsListOnSecULFreq ::= SEQUENCE (SIZE (1..maxCellMeasOnSecULFreq)) OF
												CellMeasuredResults-r9

IntraFrequencyMeasuredResultsListOnSecULFreq-vc50ext ::= SEQUENCE (SIZE (1..maxCellMeasOnSecULFreq))
															 OF	CellMeasuredResults-vc50ext

IntraUTRAANR ::= SEQUENCE {
	loggingAbsoluteThreshold			LoggingAbsoluteThreshold,
	loggingRelativeThreshold			LoggingRelativeThreshold			OPTIONAL
}

IODE ::=							INTEGER (0..255)

IP-Length ::=						ENUMERATED {
										ipl5, ipl10 }

IP-PCCPCH-r4 ::=					BOOLEAN

IP-Spacing ::=						ENUMERATED {
										e5, e7, e10, e15, e20,
										e30, e40, e50 }

IP-Spacing-TDD ::=						ENUMERATED {
										e30, e40, e50, e70, e100}

IS-2000SpecificMeasInfo ::=			ENUMERATED {
										frequency, timeslot, colourcode,
										outputpower, pn-Offset }

LoggedANRConfigurationInfo ::= SEQUENCE {
	loggingDuration						ENUMERATED { min10, min30, hr1, spare2, spare1 },
	intraUTRAANR						IntraUTRAANR					OPTIONAL,
	interRATANRforEUTRAIndicator		ENUMERATED { true }				OPTIONAL,
	interRATANRforGSMIndicator			ENUMERATED { true }				OPTIONAL
}

LoggedANRReportInfoList ::= SEQUENCE (SIZE (1..maxNumANRLoggedItems)) OF
								LoggedANRReportInfo

LoggedANRReportInfoList-vb50ext ::= SEQUENCE (SIZE (1..maxNumANRLoggedItems)) OF
										LoggedANRReportInfo-vb50ext

LoggedANRReportInfo ::= SEQUENCE {
	plmn-Identity 						PLMN-Identity,
	servingCell							CellIdentity,
	loggedCellInfo						LoggedCellInfo
}

LoggedANRReportInfo-vb50ext ::= SEQUENCE {
	loggedCellInfo						LoggedCellInfo-vb50ext
}

LoggedCellInfo ::= CHOICE {
	loggedUTRACellInfo					LoggedUTRACellInfo,
	loggedEUTRACellInfo					LoggedEUTRACellInfo,
	loggedGSMCellInfo					LoggedGSMCellInfo
}

LoggedCellInfo-vb50ext ::= CHOICE {
	loggedEUTRACellInfo					LoggedEUTRACellInfo-vb50ext
}

LoggedConnectionEstablishmentFailureInfo-FDD ::=		SEQUENCE {
	loggedConnectionEstablishmentFailureAccessInfo-FDD
				LoggedConnectionEstablishmentFailureAccessInfo-FDD,
	loggedMeasFailedCellMeas				LoggedMeasServingCellMeas-FDD,
	loggedMeasIntrafreqNeighbourList		LoggedMeasIntrafreqNeighbourList-FDD		OPTIONAL,
	loggedMeasInterfreqList					LoggedMeasInterfreqList-FDD					OPTIONAL,
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas-vb50ext		OPTIONAL,
	loggedConnectionEstablishmentFailureLocationInfo
								LoggedConnectionEstablishmentFailureLocationInfo		OPTIONAL
}

LoggedConnectionEstablishmentFailureInfo-FDD-vc50ext ::=		SEQUENCE {
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas-vc50ext		OPTIONAL
}

LoggedConnectionEstablishmentFailureInfo-FDD-r11 ::=		SEQUENCE {
	loggedConnectionEstablishmentFailureAccessInfo-FDD
				LoggedConnectionEstablishmentFailureAccessInfo-FDD,
	loggedMeasFailedCellMeas				LoggedMeasServingCellMeas-FDD,
	loggedMeasIntrafreqNeighbourList		LoggedMeasIntrafreqNeighbourList-FDD		OPTIONAL,
	loggedMeasInterfreqList					LoggedMeasInterfreqList-FDD					OPTIONAL,
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas-r11			OPTIONAL,
	loggedConnectionEstablishmentFailureLocationInfo
								LoggedConnectionEstablishmentFailureLocationInfo		OPTIONAL
}

LoggedConnectionEstablishmentFailureInfo-TDD128 ::=		SEQUENCE {
	loggedConnectionEstablishmentFailureAccessInfo-TDD
				LoggedConnectionEstablishmentFailureAccessInfo-TDD,
	loggedMeasFailedCellMeas				LoggedMeasServingCellMeas-TDD128,
	loggedMeasIntrafreqNeighbourList		LoggedMeasIntrafreqNeighbourMeasList-TDD128	OPTIONAL,
	loggedMeasInterfreqList					LoggedMeasInterfreqList-TDD128				OPTIONAL,
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas-vb50ext		OPTIONAL,
	loggedConnectionEstablishmentFailureLocationInfo
 								LoggedConnectionEstablishmentFailureLocationInfo		OPTIONAL
}

LoggedConnectionEstablishmentFailureInfo-TDD128-r11 ::=		SEQUENCE {
	loggedConnectionEstablishmentFailureAccessInfo-TDD
				LoggedConnectionEstablishmentFailureAccessInfo-TDD,
	loggedMeasFailedCellMeas				LoggedMeasServingCellMeas-TDD128,
	loggedMeasIntrafreqNeighbourList		LoggedMeasIntrafreqNeighbourMeasList-TDD128	OPTIONAL,
	loggedMeasInterfreqList					LoggedMeasInterfreqList-TDD128				OPTIONAL,
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas-r11			OPTIONAL,
	loggedConnectionEstablishmentFailureLocationInfo
 								LoggedConnectionEstablishmentFailureLocationInfo		OPTIONAL
}

LoggedConnectionEstablishmentFailureInfo-TDD128-vc50ext ::= 		SEQUENCE {
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas-vc50ext			OPTIONAL
}


LoggedConnectionEstablishmentFailureAccessInfo-FDD ::= SEQUENCE {
	numberOfRRCMsgTransmitted 				INTEGER (0..8)
}

LoggedConnectionEstablishmentFailureAccessInfo-TDD ::= SEQUENCE {
	numberOfRRCMsgTransmitted 				INTEGER (0..8),
	fpachReceived							BOOLEAN,
	e-RUCCHFailure							BOOLEAN		OPTIONAL
}

LoggedConnectionEstablishmentFailureLocationInfo ::= SEQUENCE {
	location	CHOICE {
		ellipsoidPoint						EllipsoidPoint,
		ellipsoidPointUncertCircle			EllipsoidPointUncertCircle,
		ellipsoidPointUncertEllipse			EllipsoidPointUncertEllipse,
		ellipsoidPointAltitude				EllipsoidPointAltitude,
		ellipsoidPointAltitudeEllipse		EllipsoidPointAltitudeEllipsoide
	},
	horizontalVelocity			HorizontalVelocity		OPTIONAL
}

ConnectionEstablishmentFailureReport ::=		SEQUENCE {
	timeSinceFailure				INTEGER (0..172800),
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			loggedConnectionEstablishmentFailureInfo
											LoggedConnectionEstablishmentFailureInfo-FDD 
		},
		tdd								SEQUENCE {
			loggedConnectionEstablishmentFailureInfo
											LoggedConnectionEstablishmentFailureInfo-TDD128
		}
	}
}

ConnectionEstablishmentFailureReport-r11 ::=	SEQUENCE {
	timeSinceFailure				INTEGER (0..172800),
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			loggedConnectionEstablishmentFailureInfo
											LoggedConnectionEstablishmentFailureInfo-FDD-r11 
		},
		tdd								SEQUENCE {
			loggedConnectionEstablishmentFailureInfo
											LoggedConnectionEstablishmentFailureInfo-TDD128-r11
		}
	}
}

ConnectionEstablishmentFailureReport-vc50ext ::=		SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			loggedConnectionEstablishmentFailureInfo
											LoggedConnectionEstablishmentFailureInfo-FDD-vc50ext 
		},
		tdd								SEQUENCE {
			loggedConnectionEstablishmentFailureInfo
											LoggedConnectionEstablishmentFailureInfo-TDD128-vc50ext
		}

	}
}

LoggedEUTRACellInfo ::= SEQUENCE {
	plmn-Identity 							PLMN-Identity,
	trackingAreaCode 						BIT STRING (SIZE (16)),
	eutraCellIdentity 						BIT STRING (SIZE (28)),
	earfcn									EARFCN,
	physicalCellIdentity					EUTRA-PhysicalCellIdentity
}

LoggedEUTRACellInfo-vb50ext ::= SEQUENCE {
	earfcn									EARFCNExtension						OPTIONAL
}

LoggedGSMCellInfo ::= SEQUENCE {
	plmn-Identity 							PLMN-Identity,
	lac										BIT STRING (SIZE (16)),
	gsmCellIdentity 						BIT STRING (SIZE (16)),
	bcch-ARFCN								BCCH-ARFCN,
	bandIndicator							Frequency-Band,
	bsic									BSIC			
}

LoggedMeasurementsConfigurationInfo ::= SEQUENCE {
	absoluteTimeInfo			BIT STRING (SIZE(48)),
	loggingDuration				ENUMERATED {min10, min20, min40, hr1, hr1min30,hr2,spare2,spare1},
	loggingInterval				ENUMERATED {li128,li256,li512,li1024,li2048,li3072,li4096,li6144},
	traceReference				TraceReference,
	traceRecordingSession		TraceRecordingSession,
	tce-Id						TCE-Id,
	areaConfiguration		CHOICE {
		cellIDList	SEQUENCE (SIZE (1..32)) OF
		CellIdentity,
		locationAreaList	SEQUENCE (SIZE (1..8)) OF
			LAI,
		routingAreaList		SEQUENCE (SIZE (1..8)) OF
			RAI
	}	OPTIONAL
}

LoggedMeasurementsConfigurationInfo-r11 ::= SEQUENCE {
	absoluteTimeInfo			BIT STRING (SIZE(48)),
	loggingDuration				ENUMERATED {min10, min20, min40, hr1, hr1min30,hr2,spare2,spare1},
	loggingInterval				ENUMERATED {li128,li256,li512,li1024,li2048,li3072,li4096,li6144},
	traceReference				TraceReference,
	traceRecordingSession		TraceRecordingSession,
	tce-Id						TCE-Id,
	plmnList					PlmnList		OPTIONAL,
	areaConfiguration		CHOICE {
		cellIDList	SEQUENCE (SIZE (1..32)) OF CellIDListItem,
		locationAreaList	SEQUENCE (SIZE (1..8)) OF
			LAI,
		routingAreaList		SEQUENCE (SIZE (1..8)) OF
			RAI
	}	OPTIONAL
}

LoggedMeasInterfreqList-FDD ::=	SEQUENCE (SIZE (1..maxNumFDDFreqs)) OF
	LoggedMeasInterfreqInfo-FDD

LoggedMeasInterfreqInfo-FDD ::= SEQUENCE {
	frequencyInfo		FrequencyInfo,
	loggedMeasInterfreqNeighbourList	SEQUENCE (SIZE (1..maxnumLoggedMeas)) OF 
		LoggedMeasNeighbourInfo-FDD
}

LoggedMeasInterfreqInfo-TDD128 ::=	SEQUENCE {
	frequencyInfo							FrequencyInfo,
	loggedMeasInterfreqNeighbourList		LoggedMeasInterfreqNeighbourList-TDD128
}

LoggedMeasInterRATNeighbourMeas ::=		SEQUENCE {
	loggedMeasEUTRAFreqList					LoggedMeasEUTRAFreqList			OPTIONAL,
	loggedMeasGSMNeighbourCellsList			LoggedMeasGSMNeighbourCellsList	OPTIONAL
}

LoggedMeasInterRATNeighbourMeas-vb50ext ::=		SEQUENCE {
	loggedMeasEUTRAFreqList					LoggedMeasEUTRAFreqList-vb50ext
}

LoggedMeasInterRATNeighbourMeas-vc50ext ::=		SEQUENCE {
	loggedMeasEUTRAFreqList					LoggedMeasEUTRAFreqList-vc50ext			OPTIONAL
}

LoggedMeasInterRATNeighbourMeas-r11 ::=		SEQUENCE {
	loggedMeasEUTRAFreqList					LoggedMeasEUTRAFreqList-r11 	OPTIONAL,
	loggedMeasGSMNeighbourCellsList			LoggedMeasGSMNeighbourCellsList	OPTIONAL
}

LoggedMeasIntrafreqNeighbourList-FDD ::=	SEQUENCE (SIZE (1..maxnumLoggedMeas)) OF 
	LoggedMeasNeighbourInfo-FDD

LoggedMeasNeighbourInfo-FDD ::= SEQUENCE {
	primaryCPICH-Info	PrimaryCPICH-Info,
	cpich-RSCP			CPICH-RSCP,
	cpich-Ec-N0			CPICH-Ec-N0
}

LoggedMeasIntrafreqNeighbourMeasList-TDD128 ::=		SEQUENCE (SIZE (1..maxnumLoggedMeas)) OF
	LoggedMeasNeighbourMeas-TDD128

LoggedMeasNeighbourMeas-TDD128 ::=	SEQUENCE {
	cellParametersID					CellParametersID,
	primaryCCPCH-RSCP					PrimaryCCPCH-RSCP
}

LoggedMeasGSMNeighbourCellsList ::=	SEQUENCE (SIZE (1..maxnumLoggedMeas)) OF 
	LoggedMeasGSMNeighbourCellsinfo

LoggedMeasGSMNeighbourCellsinfo ::= SEQUENCE {
	bsic			BSIC,
	frequency-band	Frequency-Band,
	bcch-ARFCN		BCCH-ARFCN,
	gsm-CarrierRSSI	GSM-CarrierRSSI
}

LoggedMeasEUTRAFreqList ::= SEQUENCE (SIZE (1..maxNumEUTRAFreqs))OF 
	LoggedMeasEUTRAFreqInfo

LoggedMeasEUTRAFreqList-vb50ext ::= SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
										LoggedMeasEUTRAFreqInfo-vb50ext

LoggedMeasEUTRAFreqList-r11 ::= SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
										LoggedMeasEUTRAFreqInfo-r11

LoggedMeasEUTRAFreqList-vc50ext ::= SEQUENCE (SIZE (1..maxNumEUTRAFreqs)) OF
										LoggedMeasEUTRAFreqInfo-vc50ext

LoggedMeasEUTRAFreqInfo		::= SEQUENCE {
	earfcn										EARFCN,
	loggedMeasEUTRAFreqNeighbourInfoList		SEQUENCE (SIZE (1.. maxnumLoggedMeas)) OF	
		LoggedMeasEUTRAFreqNeighbourInfo
}

LoggedMeasEUTRAFreqInfo-vb50ext	::= SEQUENCE {
	earfcn						EARFCNExtension										OPTIONAL
}

LoggedMeasEUTRAFreqInfo-r11		::= SEQUENCE {
	earfcn										EARFCNRange,
	loggedMeasEUTRAFreqNeighbourInfoList		SEQUENCE (SIZE (1.. maxnumLoggedMeas)) OF	
		LoggedMeasEUTRAFreqNeighbourInfo
}

LoggedMeasEUTRAFreqInfo-vc50ext		::= SEQUENCE {
	rSRQType								RsrqType			OPTIONAL,
	loggedMeasEUTRAFreqNeighbourInfoList	SEQUENCE (SIZE (1.. maxnumLoggedMeas)) OF	
		LoggedMeasEUTRAFreqNeighbourInfo-vc50ext
}

LoggedMeasEUTRAFreqNeighbourInfo ::= SEQUENCE {
	physicalCellIdentity		EUTRA-PhysicalCellIdentity,
	rSRP						INTEGER (0..97)	,
	rSRQ						INTEGER (0..33)		
}

LoggedMeasEUTRAFreqNeighbourInfo-vc50ext ::= SEQUENCE {
	rSRQExtension						INTEGER (-30..46)		OPTIONAL
}

LoggedMeasInfo-FDD ::=		SEQUENCE {
	relativeTimeStamp						INTEGER (0..7200),
	loggedMeasServingCellMeas				LoggedMeasServingCellMeas-FDD,
	loggedMeasIntrafreqNeighbourList		LoggedMeasIntrafreqNeighbourList-FDD	OPTIONAL,
	loggedMeasInterfreqList					LoggedMeasInterfreqList-FDD				OPTIONAL,
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas			OPTIONAL,
	loggedMeasLocationInfo 					LoggedMeasLocationInfo					OPTIONAL
}

LoggedMeasInfo-FDD-vb50ext ::=		SEQUENCE {
	loggedMeasServingCellMeas				LoggedMeasServingCellMeas-FDD-vb50ext	OPTIONAL,
	loggedMeasLocationInfo 					LoggedMeasLocationInfo-vb50ext			OPTIONAL,
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas-vb50ext	OPTIONAL
}

LoggedMeasInfo-FDD-vc50ext ::=		SEQUENCE {
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas-vc50ext	OPTIONAL
}

LoggedMeasInfo-TDD128 ::=			SEQUENCE {
	relativeTimeStamp						INTEGER (0..7200),
	loggedMeasServingCellMeas				LoggedMeasServingCellMeas-TDD128,
	loggedMeasIntrafreqNeighbourList		LoggedMeasIntrafreqNeighbourMeasList-TDD128	OPTIONAL,
	loggedMeasInterfreqList					LoggedMeasInterfreqList-TDD128			OPTIONAL,
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas			OPTIONAL,
	loggedMeasLocationInfo 					LoggedMeasLocationInfo					OPTIONAL
}

LoggedMeasInfo-TDD128-vb50ext ::=		SEQUENCE {
	loggedMeasServingCellMeas				LoggedMeasServingCellMeas-TDD128-vb50ext	OPTIONAL,
	loggedMeasLocationInfo 					LoggedMeasLocationInfo-vb50ext				OPTIONAL,
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas-vb50ext		OPTIONAL
}

LoggedMeasInfo-TDD128-vc50ext ::=		SEQUENCE {
	loggedMeasInterRATNeighbourMeas			LoggedMeasInterRATNeighbourMeas-vc50ext		OPTIONAL
}

LoggedMeasInfoList-FDD ::=		SEQUENCE (SIZE (1.. maxLoggedMeasReport)) OF LoggedMeasInfo-FDD

LoggedMeasInfoList-FDD-vb50ext ::=		SEQUENCE (SIZE (1..maxLoggedMeasReport)) OF LoggedMeasInfo-FDD-vb50ext

LoggedMeasInfoList-FDD-vc50ext ::=		SEQUENCE (SIZE (1..maxLoggedMeasReport)) OF LoggedMeasInfo-FDD-vc50ext

LoggedMeasInfoList-TDD128 ::=	SEQUENCE (SIZE (1.. maxLoggedMeasReport)) OF LoggedMeasInfo-TDD128

LoggedMeasInfoList-TDD128-vb50ext ::=	SEQUENCE (SIZE (1..maxLoggedMeasReport)) OF LoggedMeasInfo-TDD128-vb50ext

LoggedMeasInfoList-TDD128-vc50ext ::=	SEQUENCE (SIZE (1..maxLoggedMeasReport)) OF LoggedMeasInfo-TDD128-vc50ext

LoggedMeasInfoList ::=			SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			loggedMeasInfoList				LoggedMeasInfoList-FDD
		},
		tdd								SEQUENCE {
			loggedMeasInfoList				LoggedMeasInfoList-TDD128
		}
	}
}

LoggedMeasInfoList-vb50ext ::=			SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			loggedMeasInfoList				LoggedMeasInfoList-FDD-vb50ext
		},
		tdd								SEQUENCE {
			loggedMeasInfoList				LoggedMeasInfoList-TDD128-vb50ext
		}
	}
}

LoggedMeasInfoList-vc50ext ::=			SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			loggedMeasInfoList				LoggedMeasInfoList-FDD-vc50ext
		},
		tdd								SEQUENCE {
			loggedMeasInfoList				LoggedMeasInfoList-TDD128-vc50ext
		}
	}
}

LoggedMeasInterfreqList-TDD128 ::=	SEQUENCE (SIZE (1..maxNumTDDFreqs)) OF
	LoggedMeasInterfreqInfo-TDD128

LoggedMeasInterfreqNeighbourList-TDD128 ::=	SEQUENCE (SIZE (1..maxnumLoggedMeas)) OF
	LoggedMeasNeighbourMeas-TDD128

LoggedMeasLocationInfo ::= CHOICE {
	ellipsoidPoint				EllipsoidPoint,
	ellipsoidPointAltitude		EllipsoidPointAltitude
}

LoggedMeasLocationInfo-vb50ext ::= CHOICE {
	ellipsoidPointUncertCircle			EllipsoidPointUncertCircle,
	ellipsoidPointUncertEllipse			EllipsoidPointUncertEllipse,
	ellipsoidPointAltitudeEllipse		EllipsoidPointAltitudeEllipsoide
}

LoggedMeasReport ::=			SEQUENCE {
	absoluteTimeInfo					BIT STRING (SIZE(48)),
	traceReference						TraceReference,
	traceRecordingSession				TraceRecordingSession,
	tce-Id								TCE-Id,
	loggedMeasInfoList					LoggedMeasInfoList		OPTIONAL,
	loggedMeasAvailable					ENUMERATED { true }		OPTIONAL
}

LoggedMeasReport-vb50ext ::=	SEQUENCE {
	loggedMeasInfoList					LoggedMeasInfoList-vb50ext		OPTIONAL
}

LoggedMeasReport-vc50ext ::=	SEQUENCE {
	loggedMeasInfoList					LoggedMeasInfoList-vc50ext		OPTIONAL
}

LoggedMeasServingCellMeas-FDD ::=		SEQUENCE {
	cellIdentity					CellIdentity,
	cpich-RSCP						CPICH-RSCP,
	cpich-Ec-N0						CPICH-Ec-N0
}

LoggedMeasServingCellMeas-FDD-vb50ext ::=		SEQUENCE {
	plmnIdentity					PLMN-Identity		OPTIONAL
}

LoggedMeasServingCellMeas-TDD128 ::=		SEQUENCE {
	cellIdentity					CellIdentity,
	primaryCCPCH-RSCP				PrimaryCCPCH-RSCP
}

LoggedMeasServingCellMeas-TDD128-vb50ext ::=		SEQUENCE {
	plmnIdentity					PLMN-Identity		OPTIONAL
}

LoggedUTRACellInfo ::= SEQUENCE {
	plmn-Identity 							PLMN-Identity,
	cellIdentity							CellIdentity,
	uarfcn									UARFCN,
	cellParametersID						CellParametersID			OPTIONAL,
	primaryScramblingCode					PrimaryScramblingCode		OPTIONAL
}

LoggingAbsoluteThreshold ::= CHOICE {
	rscpforANR							RSCPforANR,
	ec-N0forANR							Ec-N0forANR
}

-- it applies to RSCP by step of 2 and Ec/N0 by step of 1
-- Actual value LoggingRelativeThreshold = IE value * 2	(RSCP)
-- Actual value LoggingRelativeThreshold = IE value 	(Ec/N0)
LoggingRelativeThreshold ::= 			INTEGER (-4..16)

KeplerianParameters ::=				SEQUENCE {
	toe-nav								BIT STRING (SIZE (14)),
	ganss-omega-nav						BIT STRING (SIZE (32)),
	delta-n-nav							BIT STRING (SIZE (16)),
	m-zero-nav							BIT STRING (SIZE (32)),
	omegadot-nav						BIT STRING (SIZE (24)),
	ganss-e-nav							BIT STRING (SIZE (32)),
	idot-nav							BIT STRING (SIZE (14)),
	a-sqrt-nav							BIT STRING (SIZE (32)),
	i-zero-nav							BIT STRING (SIZE (32)),
	omega-zero-nav						BIT STRING (SIZE (32)),
	c-rs-nav							BIT STRING (SIZE (16)),
	c-is-nav							BIT STRING (SIZE (16)),
	c-us-nav							BIT STRING (SIZE (16)),
	c-rc-nav							BIT STRING (SIZE (16)),
	c-ic-nav							BIT STRING (SIZE (16)),
	c-uc-nav							BIT STRING (SIZE (16))
}

MaxNumberOfReportingCellsType1 ::=	ENUMERATED {
										e1, e2, e3, e4, e5, e6}

MaxNumberOfReportingCellsType2 ::=	ENUMERATED {
										e1, e2, e3, e4, e5, e6, e7, e8, e9, e10, e11, e12}

MaxNumberOfReportingCellsType3 ::=	ENUMERATED {
										viactCellsPlus1,
										viactCellsPlus2,
										viactCellsPlus3,
										viactCellsPlus4,
										viactCellsPlus5,
										viactCellsPlus6 }

MaxReportedCellsOnRACH ::=			ENUMERATED {
										noReport,
										currentCell,
										currentAnd-1-BestNeighbour,
										currentAnd-2-BestNeighbour,
										currentAnd-3-BestNeighbour,
										currentAnd-4-BestNeighbour,
										currentAnd-5-BestNeighbour,
										currentAnd-6-BestNeighbour }

MaxReportedCellsOnRACHinterFreq ::=		INTEGER (1..8)

MeasuredResults ::=					CHOICE {
	intraFreqMeasuredResultsList		IntraFreqMeasuredResultsList,
	interFreqMeasuredResultsList		InterFreqMeasuredResultsList,
	interRATMeasuredResultsList			InterRATMeasuredResultsList,
	trafficVolumeMeasuredResultsList	TrafficVolumeMeasuredResultsList,
	qualityMeasuredResults				QualityMeasuredResults,
	ue-InternalMeasuredResults			UE-InternalMeasuredResults,
	ue-positioning-MeasuredResults		UE-Positioning-MeasuredResults,
	spare								NULL
}

MeasuredResultsOnSecUlFreq ::=		SEQUENCE {
	intraFreqMeasuredResultsList		IntraFrequencyMeasuredResultsListOnSecULFreq
}

MeasuredResultsOnSecUlFreq-vc50ext ::=	SEQUENCE {
	intraFreqMeasuredResultsList		IntraFrequencyMeasuredResultsListOnSecULFreq-vc50ext
}

MeasuredResults-v390ext ::=					SEQUENCE {
	ue-positioning-MeasuredResults-v390ext					UE-Positioning-MeasuredResults-v390ext
}


MeasuredResults-v590ext ::= CHOICE {
	intraFrequencyMeasuredResultsList		IntraFrequencyMeasuredResultsList-v590ext,
	interFrequencyMeasuredResultsList		InterFrequencyMeasuredResultsList-v590ext
}

MeasuredResults-v770ext ::= CHOICE {
	ueInternalMeasuredResults				UE-InternalMeasuredResults-v770ext,
	ue-positioning-MeasuredResults			UE-Positioning-MeasuredResults-v770ext
}

MeasuredResults-v860ext ::= CHOICE {
	ue-positioning-MeasuredResults		UE-Positioning-MeasuredResults-v860ext
}

MeasuredResults-vd20ext ::= CHOICE {
	ue-positioning-MeasuredResults		UE-Positioning-MeasuredResults-vd20ext
}

MeasuredResults-ve30ext ::= CHOICE {
	ueInternalMeasuredResults				UE-InternalMeasuredResults-ve30ext
}


MeasuredResultsList-v920ext ::=		SEQUENCE (SIZE (1..maxAdditionalMeas)) OF 
										MeasuredResults-v920ext

MeasuredResultsList-vc50ext ::=		SEQUENCE (SIZE (1..maxAdditionalMeas)) OF 
										MeasuredResults-vc50ext

MeasuredResultsList-vd20ext ::=		SEQUENCE (SIZE (1..maxAdditionalMeas)) OF
										MeasuredResults-vd20ext

MeasuredResultsListOnSecUlFreq ::=	SEQUENCE (SIZE (1..maxAdditionalMeas)) OF
										MeasuredResultsOnSecUlFreq

MeasuredResultsListOnSecUlFreq-vc50ext ::=	SEQUENCE (SIZE (1..maxAdditionalMeas)) OF
										MeasuredResultsOnSecUlFreq-vc50ext

MeasuredResults-v920ext ::= CHOICE {
	intraFreqMeasuredResultsList		IntraFreqMeasuredResultsList-v920ext,
	interFreqMeasuredResultsList		InterFreqMeasuredResultsList-v920ext
}

MeasuredResults-vc50ext ::= CHOICE {
	intraFreqMeasuredResultsList		IntraFreqMeasuredResultsList-vc50ext,
	interFreqMeasuredResultsList		InterFreqMeasuredResultsList-vc50ext,
	ue-positioning-MeasuredResults		UE-Positioning-MeasuredResults-vc50ext
}

MeasuredResults-LCR-r4 ::=			CHOICE {
	intraFreqMeasuredResultsList		IntraFreqMeasuredResultsList,
	interFreqMeasuredResultsList		InterFreqMeasuredResultsList,
	interRATMeasuredResultsList			InterRATMeasuredResultsList,
	trafficVolumeMeasuredResultsList	TrafficVolumeMeasuredResultsList,
	qualityMeasuredResults				QualityMeasuredResults,
	ue-InternalMeasuredResults			UE-InternalMeasuredResults-LCR-r4,
	ue-positioniing-MeasuredResults		UE-Positioning-MeasuredResults,
	spare								NULL
}

MeasuredResultsList ::=				SEQUENCE (SIZE (1..maxAdditionalMeas)) OF
										MeasuredResults

MeasuredResultsList-LCR-r4-ext ::=	SEQUENCE (SIZE (1..maxAdditionalMeas)) OF
										MeasuredResults-LCR-r4

MeasuredResultsList-v770xet ::=		SEQUENCE (SIZE (1..maxAdditionalMeas)) OF SEQUENCE {
	-- The 'measuredResults' element shall be present, if 'v770' extended measurement results
	-- associated with the corresponding element in the IE 'MeasuredResultList' shall be
	-- provided, otherwise it is not needed
	measuredResults						MeasuredResults-v770ext					OPTIONAL
}

MeasuredResultsList-v860ext ::=		SEQUENCE (SIZE (1..maxAdditionalMeas)) OF SEQUENCE {
	-- The 'measuredResults' element shall be present, if 'v860' extended measurement results
	-- associated with the corresponding element in the IE 'MeasuredResultList' shall be
	-- provided, otherwise it is not needed
	measuredResults						MeasuredResults-v860ext					OPTIONAL
}

MeasuredResultsOnRACH ::=			SEQUENCE {
	currentCell 						SEQUENCE {
		modeSpecificInfo					CHOICE {
			fdd									SEQUENCE {
				measurementQuantity					CHOICE {
					cpich-Ec-N0							CPICH-Ec-N0,
					cpich-RSCP							CPICH-RSCP,
					pathloss							Pathloss,
					cpich-Ec-N0-RSCP					CPICH-Ec-N0-RSCP				 
				}
			},
			tdd									SEQUENCE {
				-- For 3.84 Mcps, 7.68 Mcps and 1.28 Mcps TDD
				timeslotISCP						TimeslotISCP-List		OPTIONAL,
				primaryCCPCH-RSCP					PrimaryCCPCH-RSCP		OPTIONAL
			}
		}
	},
	monitoredCells						MonitoredCellRACH-List				OPTIONAL
}

MeasuredResultsOnRACH-v7g0ext ::= 	SEQUENCE {
		currentCell-DeltaRSCP				DeltaRSCPPerCell					OPTIONAL,
		monitoredCellRACH-List-v7g0ext		MonitoredCellRACH-List-v7g0ext		OPTIONAL
}

--The order of the list corresponds to the order of the cells in MonitoredCellRACH-List
MonitoredCellRACH-List-v7g0ext ::= SEQUENCE (SIZE (1..8)) OF
												DeltaRSCPPerCell

--TDD choice is removed, compared to tabular, in order to optimise FDD format
MeasuredResultsOnRACHFDD-r11 ::=	SEQUENCE {
	currentCell 						SEQUENCE {
		measurementQuantity					CHOICE {
			cpich-Ec-N0							CPICH-Ec-N0,
			cpich-RSCP							CPICH-RSCP,
			pathloss							Pathloss,
			cpich-Ec-N0-RSCP				CPICH-Ec-N0-RSCP				 
		}
	},
	measuredResultsUsedFreq				MonitoredCellRACH-ListFDD-r11	OPTIONAL,
	measuredResultsNonUsedFreq			MeasuredResultsOnRACHinterFreq	OPTIONAL,
	measuredResultsEUTRAFreq			MeasuredResultsOnRACH-EUTRAFreq	OPTIONAL
}

MeasuredResultsOnRACHinterFreq ::=		SEQUENCE {
	interFreqCellIndication-SIB11			INTEGER (0..1),
	interFreqCellIndication-SIB12			INTEGER (0..1),
	interFreqRACHRepCellsList				InterFreqRACHRepCellsList
}

MeasuredResultsOnRACHinterFreq-vc50ext ::=		SEQUENCE {
	interFreqRACHRepCellsList			InterFreqRACHRepCellsList-r12
}

MeasuredResultsOnRACH-vc50ext ::=		SEQUENCE {
	measuredResultsNonUsedFreq			MeasuredResultsOnRACHinterFreq-vc50ext		OPTIONAL,
	measuredResultsEUTRAFreq			MeasuredResultsOnRACH-EUTRAFreq-vc50ext		OPTIONAL
}

MeasuredResultsOnRACH-EUTRAFreq ::=		SEQUENCE {
	eutraFrequencyIndication-SIB19			INTEGER (0..1),
	eutraFrequencyIndicator					BIT STRING (SIZE (maxNumEUTRAFreqs-FACH))
}

MeasuredResultsOnRACH-EUTRAFreq-vc50ext ::=		SEQUENCE {
	eutraFrequencyIndicator					BIT STRING (SIZE (maxNumEUTRAFreqs-FACH))
}

MeasurementCommand ::=				CHOICE {
	setup								MeasurementType,
	modify								SEQUENCE {
		measurementType						MeasurementType					OPTIONAL
	},
	release								NULL
}

MeasurementCommand-r4 ::=			CHOICE {
	setup								MeasurementType-r4,
	modify								SEQUENCE {
		measurementType						MeasurementType-r4				OPTIONAL
	},
	release								NULL
}

MeasurementCommand-r6 ::=			CHOICE {
	setup								MeasurementType-r6,
	modify								SEQUENCE {
		measurementType						MeasurementType-r6				OPTIONAL
	},
	release								NULL
}

MeasurementCommand-r7 ::=			CHOICE {
	setup								MeasurementType-r7,
	modify								SEQUENCE {
		measurementType						MeasurementType-r7				OPTIONAL
	},
	release								NULL
}

MeasurementCommand-r8 ::=			CHOICE {
	setup								MeasurementType-r8,
	modify								SEQUENCE {
		measurementType						MeasurementType-r8				OPTIONAL
	},
	release								NULL
}

MeasurementCommand-r9 ::=			CHOICE {
	setup								MeasurementType-r9,
	modify								SEQUENCE {
		measurementType						MeasurementType-r9				OPTIONAL
	},
	release								NULL
}

MeasurementCommand-r10 ::=			CHOICE {
	setup								MeasurementType-r10,
	modify								SEQUENCE {
		measurementType						MeasurementType-r10				OPTIONAL
	},
	release								NULL
}

MeasurementCommand-r11 ::=			CHOICE {
	setup								MeasurementType-r11,
	modify								SEQUENCE {
		measurementType						MeasurementType-r11				OPTIONAL
	},
	release								NULL
}

MeasurementCommand-r12 ::=			CHOICE {
	setup								MeasurementType-r12,
	modify								SEQUENCE {
		measurementType						MeasurementType-r12				OPTIONAL
	},
	release								NULL,
	releaseAll							NULL,
	releaseSome						MeasurementsToRelease
}

MeasurementCommand-r13 ::=			CHOICE {
	setup								MeasurementType-r13,
	modify								SEQUENCE {
		measurementType						MeasurementType-r13				OPTIONAL
	},
	release								NULL,
	releaseAll							NULL,
	releaseSome						MeasurementsToRelease
}

MeasurementCommand-r14 ::=			CHOICE {
	setup								MeasurementType-r14,
	modify								SEQUENCE {
		measurementType						MeasurementType-r14				OPTIONAL
	},
	release								NULL,
	releaseAll							NULL,
	releaseSome						MeasurementsToRelease
}

MeasurementCommand-r15 ::=			CHOICE {
	setup								MeasurementType-r15,
	modify								SEQUENCE {
		measurementType						MeasurementType-r15				OPTIONAL
	},
	release								NULL,
	releaseAll							NULL,
	releaseSome						MeasurementsToRelease
}

MeasurementControlSysInfo ::=		SEQUENCE {
	-- CHOICE cellSelectQualityMeasure represents PCCPCH-RSCP in TDD mode.
	use-of-HCS							CHOICE {
		hcs-not-used 						SEQUENCE {
			cellSelectQualityMeasure			CHOICE {
				cpich-RSCP							SEQUENCE {
					intraFreqMeasurementSysInfo			IntraFreqMeasurementSysInfo-RSCP	OPTIONAL,
					interFreqMeasurementSysInfo			InterFreqMeasurementSysInfo-RSCP	OPTIONAL
				},
				cpich-Ec-N0							SEQUENCE {
					intraFreqMeasurementSysInfo			IntraFreqMeasurementSysInfo-ECN0	OPTIONAL,
					interFreqMeasurementSysInfo			InterFreqMeasurementSysInfo-ECN0	OPTIONAL
				}
			},
			interRATMeasurementSysInfo			InterRATMeasurementSysInfo-B		OPTIONAL
		},
		hcs-used							SEQUENCE {
			cellSelectQualityMeasure			CHOICE {
				cpich-RSCP							SEQUENCE {
					intraFreqMeasurementSysInfo			IntraFreqMeasurementSysInfo-HCS-RSCP	OPTIONAL,
					interFreqMeasurementSysInfo			InterFreqMeasurementSysInfo-HCS-RSCP	OPTIONAL
				},
				cpich-Ec-N0							SEQUENCE {
					intraFreqMeasurementSysInfo			IntraFreqMeasurementSysInfo-HCS-ECN0	OPTIONAL,
					interFreqMeasurementSysInfo			InterFreqMeasurementSysInfo-HCS-ECN0	OPTIONAL
				}
			},
			interRATMeasurementSysInfo			InterRATMeasurementSysInfo		OPTIONAL
		}
	},
	trafficVolumeMeasSysInfo			TrafficVolumeMeasSysInfo			OPTIONAL,
	-- dummy is not used in this version of specification and it shall be ignored by the UE.
	dummy		UE-InternalMeasurementSysInfo		OPTIONAL
}

MeasurementControlSysInfo-vc50ext ::=	SEQUENCE {
	intraFreqReportingQuantityForRACH	IntraFreqReportingQuantityForRACH-vc50ext 	OPTIONAL,
	rmp-Frequency-List					RMP-Frequency-List							OPTIONAL
}

MeasurementControlSysInfoExtension ::= SEQUENCE {
	-- CHOICE cellSelectQualityMeasure represents PCCPCH-RSCP in TDD mode.
	use-of-HCS						CHOICE {
		hcs-not-used 					SEQUENCE {
			cellSelectQualityMeasure		CHOICE {
				cpich-RSCP						SEQUENCE {
					newIntraFreqCellList			NewIntraFreqCellSI-List-RSCP	OPTIONAL,
					newInterFreqCellList			NewInterFreqCellSI-List-RSCP	OPTIONAL
				},
				cpich-Ec-N0						SEQUENCE {
					newIntraFreqCellList			NewIntraFreqCellSI-List-ECN0	OPTIONAL,
					newInterFreqCellList			NewInterFreqCellSI-List-ECN0	OPTIONAL
				}
			},
			newInterRATCellList				NewInterRATCellList				OPTIONAL
		},
		hcs-used						SEQUENCE {
			cellSelectQualityMeasure		CHOICE {
				cpich-RSCP						SEQUENCE {
					newIntraFreqCellList			NewIntraFreqCellSI-List-HCS-RSCP	OPTIONAL,
					newInterFreqCellList			NewInterFreqCellSI-List-HCS-RSCP	OPTIONAL
				},
				cpich-Ec-N0						SEQUENCE {
					newIntraFreqCellList			NewIntraFreqCellSI-List-HCS-ECN0	OPTIONAL,
					newInterFreqCellList			NewInterFreqCellSI-List-HCS-ECN0	OPTIONAL
				}
			},
			newInterRATCellList				NewInterRATCellList				OPTIONAL
		}
	}
}

MeasurementControlSysInfoExtensionAddon-r5 ::= SEQUENCE {
	--The order of the list corresponds to the order of cell in newIntraFrequencyCellInfoList
	newIntraFrequencyCellInfoListAddon-r5	SEQUENCE (SIZE (1..maxCellMeas)) OF
												CellSelectReselectInfo-v590ext	OPTIONAL,
	--The order of the list corresponds to the order of cell in newInterFrequencyCellInfoList
	newInterFrequencyCellInfoListAddon-r5	SEQUENCE (SIZE (1..maxCellMeas)) OF
												CellSelectReselectInfo-v590ext	OPTIONAL,
	--The order of the list corresponds to the order of cell in newInterRATCellInfoList
	newInterRATCellInfoListAddon-r5			SEQUENCE (SIZE (1..maxCellMeas)) OF
												CellSelectReselectInfo-v590ext	OPTIONAL
}

MeasureControlSysInfoInterFreqExt	::= SEQUENCE {
	-- CHOICE cellSelectQualityMeasure represents PCCPCH-RSCP in TDD mode.
	use-of-HCS						CHOICE {
		hcs-not-used 					SEQUENCE {
			cellSelectQualityMeasure		CHOICE {
				cpich-RSCP						SEQUENCE {
					newInterFreqCellList			NewInterFreqCellSI-List-RSCP-ext	OPTIONAL
				},
				cpich-Ec-N0						SEQUENCE {
					newInterFreqCellList			NewInterFreqCellSI-List-ECN0-ext	OPTIONAL
				}
			}
		},
		hcs-used						SEQUENCE {
			cellSelectQualityMeasure		CHOICE {
				cpich-RSCP						SEQUENCE {
					newInterFreqCellList			NewInterFreqCellSI-List-HCS-RSCP-ext	OPTIONAL
				},
				cpich-Ec-N0						SEQUENCE {
					newInterFreqCellList			NewInterFreqCellSI-List-HCS-ECN0-ext	OPTIONAL
				}
			}
		}
	},
	rmp-Frequency-List					RMP-Frequency-List							OPTIONAL
}

MeasurementControlSysInfoExtension-LCR-r4 ::= SEQUENCE {
	-- CHOICE cellSelectQualityMeasure represents PCCPCH-RSCP in TDD mode.
	use-of-HCS					CHOICE {
		hcs-not-used 				SEQUENCE {
			cellSelectQualityMeasure	CHOICE {
				cpich-RSCP					SEQUENCE {
					newIntraFreqCellList		NewIntraFreqCellSI-List-RSCP-LCR-r4	OPTIONAL,
					newInterFreqCellList		NewInterFreqCellSI-List-RSCP-LCR-r4	OPTIONAL
				},
				cpich-Ec-N0					SEQUENCE {
					newIntraFreqCellList		NewIntraFreqCellSI-List-ECN0-LCR-r4	OPTIONAL,
					newInterFreqCellList		NewInterFreqCellSI-List-ECN0-LCR-r4	OPTIONAL
				}
			},
			newInterRATCellList			NewInterRATCellList					OPTIONAL
		},
		hcs-used					SEQUENCE {
			cellSelectQualityMeasure	CHOICE {
				cpich-RSCP					SEQUENCE {
					newIntraFreqCellList		NewIntraFreqCellSI-List-HCS-RSCP-LCR-r4	OPTIONAL,
					newInterFreqCellList		NewInterFreqCellSI-List-HCS-RSCP-LCR-r4	OPTIONAL
				},
				cpich-Ec-N0					SEQUENCE {
					newIntraFreqCellList		NewIntraFreqCellSI-List-HCS-ECN0-LCR-r4	OPTIONAL,
					newInterFreqCellList		NewInterFreqCellSI-List-HCS-ECN0-LCR-r4	OPTIONAL
				}
			},
			newInterRATCellList			NewInterRATCellList					OPTIONAL
		}
	}
}

MeasurementControlSysInfo-LCR-r4-ext ::=	SEQUENCE {
	-- CHOICE use-of-HCS shall have the same value as the use-of-HCS
	-- in MeasurementControlSysInfo
	-- CHOICE cellSelectQualityMeasure represents PCCPCH-RSCP in TDD mode.
	use-of-HCS							CHOICE	{
		hcs-not-used 					SEQUENCE	{
			-- CHOICE cellSelectQualityMeasure shall have the same value as the
			-- cellSelectQualityMeasure in MeasurementControlSysInfo
			cellSelectQualityMeasure	CHOICE	{
				cpich-RSCP				SEQUENCE	{
					intraFreqMeasurementSysInfo	IntraFreqMeasurementSysInfo-RSCP-LCR-r4	OPTIONAL,
					interFreqMeasurementSysInfo	InterFreqMeasurementSysInfo-RSCP-LCR-r4	OPTIONAL
				},
				cpich-Ec-N0				SEQUENCE	{
					intraFreqMeasurementSysInfo	IntraFreqMeasurementSysInfo-ECN0-LCR-r4	OPTIONAL,
					interFreqMeasurementSysInfo	InterFreqMeasurementSysInfo-ECN0-LCR-r4	OPTIONAL
				}
			}
		},
		hcs-used						SEQUENCE	{
			-- CHOICE cellSelectQualityMeasure shall have the same value as the
			-- cellSelectQualityMeasure in MeasurementControlSysInfo
			cellSelectQualityMeasure	CHOICE	{
				cpich-RSCP				SEQUENCE	{
					intraFreqMeasurementSysInfo	IntraFreqMeasurementSysInfo-HCS-RSCP-LCR-r4	OPTIONAL,
					interFreqMeasurementSysInfo	InterFreqMeasurementSysInfo-HCS-RSCP-LCR-r4	OPTIONAL
				},
				cpich-Ec-N0				SEQUENCE	{
					intraFreqMeasurementSysInfo	IntraFreqMeasurementSysInfo-HCS-ECN0-LCR-r4	OPTIONAL,
					interFreqMeasurementSysInfo	InterFreqMeasurementSysInfo-HCS-ECN0-LCR-r4	OPTIONAL
				}
			}
		}
	}
}

MeasurementIdentity ::=		INTEGER (1..16)

MeasurementIdentityExt ::=		INTEGER (17..32)

MeasurementIdentity-r9 ::=		INTEGER (1..32)

MeasurementOccasionPatternParameter ::=		SEQUENCE {
	measurement-Occasion-Coeff			INTEGER (1..9),
	measurement-Occasion-Offset			INTEGER (0..511),
	measurement-Occasion-Length			INTEGER	(1..512),
	timeslotBitmap						BIT STRING (SIZE (7))	OPTIONAL
}

MeasurementReleaseEnhancement ::=	CHOICE {
		releaseAllMeasurements			NULL,
		releaseSomeMeasurements			MeasurementsToRelease
}

MeasurementsToRelease ::= SEQUENCE (SIZE (1..maxMeasIdentity)) OF
						MeasurementIdentity-r9

MeasurementQuantityGSM ::=			ENUMERATED {
										gsm-CarrierRSSI,
										dummy }

MeasurementQuantityEUTRA ::=		ENUMERATED {
										rsrp,
										rsrq }

MeasurementReportingMode ::=		SEQUENCE {
	measurementReportTransferMode		TransferMode,
	periodicalOrEventTrigger			PeriodicalOrEventTrigger
}

MeasurementType ::=					CHOICE {
	intraFrequencyMeasurement			IntraFrequencyMeasurement,
	interFrequencyMeasurement			InterFrequencyMeasurement,
	interRATMeasurement					InterRATMeasurement,
	ue-positioning-Measurement			UE-Positioning-Measurement,
	trafficVolumeMeasurement			TrafficVolumeMeasurement,
	qualityMeasurement					QualityMeasurement,
	ue-InternalMeasurement				UE-InternalMeasurement
}

MeasurementType-r4 ::=				CHOICE {
	intraFrequencyMeasurement			IntraFrequencyMeasurement-r4,
	interFrequencyMeasurement			InterFrequencyMeasurement-r4,
	interRATMeasurement					InterRATMeasurement-r4,
	up-Measurement						UE-Positioning-Measurement-r4,
	trafficVolumeMeasurement			TrafficVolumeMeasurement,
	qualityMeasurement					QualityMeasurement,
	ue-InternalMeasurement				UE-InternalMeasurement-r4
}

MeasurementType-r6 ::=				CHOICE {
	intraFrequencyMeasurement			IntraFrequencyMeasurement-r6,
	interFrequencyMeasurement			InterFrequencyMeasurement-r6,
	interRATMeasurement					InterRATMeasurement-r6,
	up-Measurement						UE-Positioning-Measurement-r4,
	trafficVolumeMeasurement			TrafficVolumeMeasurement,
	qualityMeasurement					QualityMeasurement,
	ue-InternalMeasurement				UE-InternalMeasurement-r4
}

MeasurementType-r7 ::=				CHOICE {
	intraFrequencyMeasurement			IntraFrequencyMeasurement-r7,
	interFrequencyMeasurement			InterFrequencyMeasurement-r7,
	interRATMeasurement					InterRATMeasurement-r6,
	up-Measurement						UE-Positioning-Measurement-r7,
	trafficVolumeMeasurement			TrafficVolumeMeasurement,
	qualityMeasurement					QualityMeasurement,
	ue-InternalMeasurement				UE-InternalMeasurement-r4
}

MeasurementType-r8 ::=				CHOICE {
	intraFrequencyMeasurement			IntraFrequencyMeasurement-r7,
	interFrequencyMeasurement			InterFrequencyMeasurement-r8,
	interRATMeasurement					InterRATMeasurement-r8,
	up-Measurement						UE-Positioning-Measurement-r8,
	trafficVolumeMeasurement			TrafficVolumeMeasurement,
	qualityMeasurement					QualityMeasurement,
	ue-InternalMeasurement				UE-InternalMeasurement-r4
}

MeasurementType-r9 ::=				CHOICE {
	intraFrequencyMeasurement			IntraFrequencyMeasurement-r9,
	interFrequencyMeasurement			InterFrequencyMeasurement-r9,
	interRATMeasurement					InterRATMeasurement-r9,
	up-Measurement						UE-Positioning-Measurement-r9,
	trafficVolumeMeasurement			TrafficVolumeMeasurement,
	qualityMeasurement					QualityMeasurement,
	ue-InternalMeasurement				UE-InternalMeasurement-r4,
	csgProximityDetection				CSGProximityDetection
}

MeasurementType-r10 ::=				CHOICE {
	intraFrequencyMeasurement			IntraFrequencyMeasurement-r10,
	interFrequencyMeasurement			InterFrequencyMeasurement-r10,
	interRATMeasurement					InterRATMeasurement-r9,
	up-Measurement						UE-Positioning-Measurement-r10,
	trafficVolumeMeasurement			TrafficVolumeMeasurement,
	qualityMeasurement					QualityMeasurement,
	ue-InternalMeasurement				UE-InternalMeasurement-r4,
	csgProximityDetection				CSGProximityDetection
}

MeasurementType-r11 ::=				CHOICE {
	intraFrequencyMeasurement			IntraFrequencyMeasurement-r11,
	interFrequencyMeasurement			InterFrequencyMeasurement-r11,
	interRATMeasurement					InterRATMeasurement-r11,
	up-Measurement						UE-Positioning-Measurement-r10,
	trafficVolumeMeasurement			TrafficVolumeMeasurement,
	qualityMeasurement					QualityMeasurement,
	ue-InternalMeasurement				UE-InternalMeasurement-r4,
	csgProximityDetection				CSGProximityDetection,
	eutraMeasurementForCELLFACH			EUTRA-MeasurementForCELLFACH
}

MeasurementType-r12 ::=				CHOICE {
	intraFrequencyMeasurement			IntraFrequencyMeasurement-r11,
	interFrequencyMeasurement			InterFrequencyMeasurement-r12,
	interRATMeasurement					InterRATMeasurement-r12,
	up-Measurement						UE-Positioning-Measurement-r12,
	trafficVolumeMeasurement			TrafficVolumeMeasurement,
	qualityMeasurement					QualityMeasurement,
	ue-InternalMeasurement				UE-InternalMeasurement-r4,
	csgProximityDetection				CSGProximityDetection,
	eutraMeasurementForCELLFACH			EUTRA-MeasurementForCELLFACH-r12
}

MeasurementType-r13 ::=				CHOICE {
	intraFrequencyMeasurement			IntraFrequencyMeasurement-r11,
	interFrequencyMeasurement			InterFrequencyMeasurement-r12,
	interRATMeasurement				InterRATMeasurement-r12,
	up-Measurement						UE-Positioning-Measurement-r13,
	trafficVolumeMeasurement			TrafficVolumeMeasurement,
	qualityMeasurement					QualityMeasurement,
	ue-InternalMeasurement			UE-InternalMeasurement-r4,
	csgProximityDetection				CSGProximityDetection,
	eutraMeasurementForCELLFACH		EUTRA-MeasurementForCELLFACH-r12
}

MeasurementType-r14 ::=							CHOICE {
	intraFrequencyMeasurement						IntraFrequencyMeasurement-r11,
	interFrequencyMeasurement						InterFrequencyMeasurement-r12,
	interRATMeasurement							InterRATMeasurement-r12,
	up-Measurement									UE-Positioning-Measurement-r13,
	trafficVolumeMeasurement						TrafficVolumeMeasurement,
	qualityMeasurement								QualityMeasurement,
	ue-InternalMeasurement						UE-InternalMeasurement-r14,
	csgProximityDetection							CSGProximityDetection,
	eutraMeasurementForCELLFACH					EUTRA-MeasurementForCELLFACH-r12,
	applicationLayerMeasurementConfiguration	ApplicationLayerMeasurementConfiguration
}

MeasurementType-r15 ::=							CHOICE {
	intraFrequencyMeasurement						IntraFrequencyMeasurement-r11,
	interFrequencyMeasurement						InterFrequencyMeasurement-r12,
	interRATMeasurement							InterRATMeasurement-r12,
	up-Measurement									UE-Positioning-Measurement-r13,
	trafficVolumeMeasurement						TrafficVolumeMeasurement,
	qualityMeasurement								QualityMeasurement,
	ue-InternalMeasurement						UE-InternalMeasurement-r14,
	csgProximityDetection							CSGProximityDetection,
	eutraMeasurementForCELLFACH					EUTRA-MeasurementForCELLFACH-r12,
	applicationLayerMeasurementConfiguration 	ApplicationLayerMeasurementConfiguration,
	applicationLayerMeasurementConfiguration-r15 ApplicationLayerMeasurementConfiguration-r15
}


MeasurementType-Relocation-r14 ::=				CHOICE {
	intraFrequencyMeasurement						IntraFrequencyMeasurement-r11,
	interFrequencyMeasurement						InterFrequencyMeasurement-r12,
	interRATMeasurement							InterRATMeasurement-r12,
	up-Measurement									UE-Positioning-Measurement-r13,
	trafficVolumeMeasurement						TrafficVolumeMeasurement,
	qualityMeasurement								QualityMeasurement,
	ue-InternalMeasurement						UE-InternalMeasurement-r14,
	csgProximityDetection							CSGProximityDetection,
	eutraMeasurementForCELLFACH					EUTRA-MeasurementForCELLFACH-r12,
	applicationLayerMeasurement					NULL
}

MeasurementType-Relocation-r15 ::=				CHOICE {
	intraFrequencyMeasurement						IntraFrequencyMeasurement-r11,
	interFrequencyMeasurement						InterFrequencyMeasurement-r12,
	interRATMeasurement							InterRATMeasurement-r12,
	up-Measurement									UE-Positioning-Measurement-r13,
	trafficVolumeMeasurement						TrafficVolumeMeasurement,
	qualityMeasurement								QualityMeasurement,
	ue-InternalMeasurement						UE-InternalMeasurement-r14,
	csgProximityDetection							CSGProximityDetection,
	eutraMeasurementForCELLFACH					EUTRA-MeasurementForCELLFACH-r12,
	applicationLayerMeasurement					NULL,
	applicationLayerMeasurement-r15				NULL
	
}

MeasurementValidity ::=				SEQUENCE {
	ue-State							ENUMERATED {
											cell-DCH, all-But-Cell-DCH, all-States }
}

MonitoredCellRACH-List ::=			SEQUENCE (SIZE (1..8)) OF
										MonitoredCellRACH-Result

MonitoredCellRACH-Result ::=		SEQUENCE {
	sfn-SFN-ObsTimeDifference			SFN-SFN-ObsTimeDifference			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info,
			measurementQuantity					CHOICE {
				cpich-Ec-N0							CPICH-Ec-N0,
				cpich-RSCP							CPICH-RSCP,
				pathloss							Pathloss,
				spare								NULL
			}																OPTIONAL
		},
		tdd									SEQUENCE {
			cellParametersID					CellParametersID,
			primaryCCPCH-RSCP					PrimaryCCPCH-RSCP
		}
	}
}

MonitoredCellRACH-ListFDD-r11 ::=	SEQUENCE (SIZE (1..8)) OF
										MonitoredCellRACH-ResultFDD-r11

--TDD choice is removed, compared to tabular, in order to optimise FDD format
MonitoredCellRACH-ResultFDD-r11 ::=	SEQUENCE {
	sfn-SFN-ObsTimeDifference			SFN-SFN-ObsTimeDifference			OPTIONAL,
	primaryCPICH-Info					PrimaryCPICH-Info,
		measurementQuantity					CHOICE {
			cpich-Ec-N0							CPICH-Ec-N0,
			cpich-RSCP							CPICH-RSCP,
			pathloss							Pathloss,
			spare								NULL
	}
}

MultipathIndicator ::=				ENUMERATED {
										nm,
										low,
										medium,
										high }

MultipleEUTRAFrequencyBandIndicatorList ::=	SEQUENCE (SIZE (1.. maxMultipleFrequencyBandsEUTRA)) OF
												RadioFrequencyBandEUTRA

MultipleEUTRAFrequencyBandIndicatorExtensionList ::= SEQUENCE (SIZE (1.. maxMultipleFrequencyBandsEUTRA))
														OF	RadioFrequencyBandEUTRAExt

MultipleEUTRAFrequencyBandInfo ::=	SEQUENCE {
	multipleEUTRAFrequencyBandIndicatorlist		MultipleEUTRAFrequencyBandIndicatorList		OPTIONAL
}

MultipleEUTRAFrequencyBandExtensionInfo ::=	SEQUENCE {
	multipleEUTRAFrequencyBandIndicatorlist		MultipleEUTRAFrequencyBandIndicatorExtensionList	OPTIONAL
}

MultipleEUTRAFrequencyInfoList ::=	SEQUENCE (SIZE (1.. maxNumEUTRAFreqs)) OF
												MultipleEUTRAFrequencyBandInfo

MultipleEUTRAFrequencyInfoExtensionList ::=	SEQUENCE (SIZE (1.. maxNumEUTRAFreqs)) OF
												MultipleEUTRAFrequencyBandExtensionInfo

MultipleFrequencyBandIndicatorListFDD::=	SEQUENCE (SIZE (1..maxMultipleFrequencyBandsFDD)) OF
												FrequencyBandsIndicatorFDD 

MultipleFrequencyBandInfo ::=	SEQUENCE {
	multipleFrequencyBandIndicatorListFDD		MultipleFrequencyBandIndicatorListFDD		OPTIONAL
}

MultipleFrequencyInfoListFDD ::=	SEQUENCE (SIZE (1.. maxNumFDDFreqs)) OF
												MultipleFrequencyBandInfo

N-CR-T-CRMaxHyst ::=				SEQUENCE {
	n-CR								INTEGER (1..16)						DEFAULT 8,
	t-CRMaxHyst							T-CRMaxHyst
}

NAVclockModel ::=					SEQUENCE {
	navToc								BIT STRING (SIZE (16)),
	navaf2								BIT STRING (SIZE (8)),
	navaf1								BIT STRING (SIZE (16)),
	navaf0								BIT STRING (SIZE (22)),
	navTgd								BIT STRING (SIZE (8))
}

NavigationModelSatInfo ::=			SEQUENCE {
	satID								SatID,
	satelliteStatus						SatelliteStatus,
	ephemerisParameter					EphemerisParameter		OPTIONAL
}

NavigationModelSatInfoList ::=		SEQUENCE (SIZE (1..maxSat)) OF
										NavigationModelSatInfo

NavModel-BDSKeplerianSet ::= 		SEQUENCE {
	bdsAODE				BIT STRING (SIZE (5)),
	bdsURAI				BIT STRING (SIZE (4)),
	bdsToe				BIT STRING (SIZE (17)),
	bdsAPowerHalf		BIT STRING (SIZE (32)),
	bdsE				BIT STRING (SIZE (32)),
	bdsW				BIT STRING (SIZE (32)),
	bdsDeltaN			BIT STRING (SIZE (16)),
	bdsM0				BIT STRING (SIZE (32)),
	bdsOmega0			BIT STRING (SIZE (32)),
	bdsOmegaDot			BIT STRING (SIZE (24)),
	bdsI0				BIT STRING (SIZE (32)),
	bdsIDot				BIT STRING (SIZE (14)),
	bdsCuc				BIT STRING (SIZE (18)),
	bdsCus				BIT STRING (SIZE (18)),
	bdsCrc				BIT STRING (SIZE (18)),
	bdsCrs				BIT STRING (SIZE (18)),
	bdsCic				BIT STRING (SIZE (18)),
	bdsCis				BIT STRING (SIZE (18))
}

NavModel-CNAVKeplerianSet ::= 		SEQUENCE {
	cnavTop								BIT STRING (SIZE (11)),
	cnavURAindex						BIT STRING (SIZE (5)),
	cnavDeltaA							BIT STRING (SIZE (26)),
	cnavAdot							BIT STRING (SIZE (25)),
	cnavDeltaNo							BIT STRING (SIZE (17)),
	cnavDeltaNoDot						BIT STRING (SIZE (23)),
	cnavMo								BIT STRING (SIZE (33)),
	cnavE								BIT STRING (SIZE (33)),
	cnavOmega							BIT STRING (SIZE (33)),
	cnavOMEGA0							BIT STRING (SIZE (33)),
	cnavDeltaOmegaDot					BIT STRING (SIZE (17)),
	cnavIo								BIT STRING (SIZE (33)),
	cnavIoDot							BIT STRING (SIZE (15)),
	cnavCis								BIT STRING (SIZE (16)),
	cnavCic								BIT STRING (SIZE (16)),
	cnavCrs								BIT STRING (SIZE (24)),
	cnavCrc								BIT STRING (SIZE (24)),
	cnavCus								BIT STRING (SIZE (21)),
	cnavCuc								BIT STRING (SIZE (21))
}

NavModel-GLONASSecef ::=			SEQUENCE {
	gloEn								BIT STRING (SIZE (5)),
	gloP1								BIT STRING (SIZE (2)),
	gloP2								BIT STRING (SIZE (1)),
	gloM								BIT STRING (SIZE (2))				OPTIONAL,
	gloX								BIT STRING (SIZE (27)),
	gloXdot								BIT STRING (SIZE (24)),
	gloXdotdot							BIT STRING (SIZE (5)),
	gloY								BIT STRING (SIZE (27)),
	gloYdot								BIT STRING (SIZE (24)),
	gloYdotdot							BIT STRING (SIZE (5)),
	gloZ								BIT STRING (SIZE (27)),
	gloZdot								BIT STRING (SIZE (24)),
	gloZdotdot							BIT STRING (SIZE (5))
}

NavModel-NAVKeplerianSet ::=		SEQUENCE {
	navURA								BIT STRING (SIZE (4)),
	navFitFlag							BIT STRING (SIZE (1)),
	navToe								BIT STRING (SIZE (16)),
	navOmega							BIT STRING (SIZE (32)),
	navDeltaN							BIT STRING (SIZE (16)),
	navM0								BIT STRING (SIZE (32)),
	navOmegaADot						BIT STRING (SIZE (24)),
	navE								BIT STRING (SIZE (32)),
	navIDot								BIT STRING (SIZE (14)),
	navAPowerHalf						BIT STRING (SIZE (32)),
	navI0								BIT STRING (SIZE (32)),
	navOmegaA0							BIT STRING (SIZE (32)),
	navCrs								BIT STRING (SIZE (16)),
	navCis								BIT STRING (SIZE (16)),
	navCus								BIT STRING (SIZE (16)),
	navCrc								BIT STRING (SIZE (16)),
	navCic								BIT STRING (SIZE (16)),
	navCuc								BIT STRING (SIZE (16))
}

NavModel-SBASecef ::=				SEQUENCE {
	sbasTo								BIT STRING (SIZE (13))				OPTIONAL,
	sbasAccuracy						BIT STRING (SIZE (4)),
	sbasXg								BIT STRING (SIZE (30)),
	sbasYg								BIT STRING (SIZE (30)),
	sbasZg								BIT STRING (SIZE (25)),
	sbasXgDot							BIT STRING (SIZE (17)),
	sbasYgDot							BIT STRING (SIZE (17)),
	sbasZgDot							BIT STRING (SIZE (18)),
	sbasXgDotDot						BIT STRING (SIZE (10)),
	sbagYgDotDot						BIT STRING (SIZE (10)),
	sbasZgDotDot						BIT STRING (SIZE (10))
}

EphemerisParameter ::=						SEQUENCE {
	codeOnL2							BIT STRING (SIZE (2)),
	uraIndex							BIT STRING (SIZE (4)),
	satHealth							BIT STRING (SIZE (6)),
	iodc								BIT STRING (SIZE (10)),
	l2Pflag								BIT STRING (SIZE (1)),
	sf1Revd								SubFrame1Reserved,
	t-GD								BIT STRING (SIZE (8)),
	t-oc								BIT STRING (SIZE (16)),
	af2									BIT STRING (SIZE (8)),
	af1									BIT STRING (SIZE (16)),
	af0									BIT STRING (SIZE (22)),
	c-rs								BIT STRING (SIZE (16)),
	delta-n								BIT STRING (SIZE (16)),
	m0									BIT STRING (SIZE (32)),
	c-uc								BIT STRING (SIZE (16)),
	e									BIT STRING (SIZE (32)),
	c-us								BIT STRING (SIZE (16)),
	a-Sqrt								BIT STRING (SIZE (32)),
	t-oe								BIT STRING (SIZE (16)),
	fitInterval							BIT STRING (SIZE (1)),
	aodo								BIT STRING (SIZE (5)),
	c-ic								BIT STRING (SIZE (16)),
	omega0								BIT STRING (SIZE (32)),
	c-is								BIT STRING (SIZE (16)),
	i0									BIT STRING (SIZE (32)),
	c-rc								BIT STRING (SIZE (16)),
	omega								BIT STRING (SIZE (32)),
	omegaDot							BIT STRING (SIZE (24)),
	iDot								BIT STRING (SIZE (14))
}
NC-Mode ::=							BIT STRING (SIZE (3))

Neighbour ::=						SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			neighbourIdentity					PrimaryCPICH-Info					OPTIONAL,
			uE-RX-TX-TimeDifferenceType2Info	UE-RX-TX-TimeDifferenceType2Info	OPTIONAL
		},
		tdd								SEQUENCE {
			neighbourAndChannelIdentity		CellAndChannelIdentity					OPTIONAL
		}
	},	
	neighbourQuality					NeighbourQuality,
	sfn-SFN-ObsTimeDifference2			SFN-SFN-ObsTimeDifference2}

Neighbour-v390ext ::=						SEQUENCE {
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			frequencyInfo						FrequencyInfo
		},
		tdd								NULL
	}
}

NeighbourList ::=					SEQUENCE (SIZE (1..maxCellMeas)) OF
										Neighbour

Neighbour-TDD-r7 ::=				SEQUENCE {
	uarfcn								UARFCN									OPTIONAL
}

-- The order of the cells in IE NeighbourList-TDD-r7 shall be the
-- same as the order in IE NeighbourList
NeighbourList-TDD-r7 ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF Neighbour-TDD-r7

-- The order of the cells in IE NeighbourList-v390ext shall be the
-- same as the order in IE NeighbourList
NeighbourList-v390ext ::=					SEQUENCE (SIZE (1..maxCellMeas)) OF
										Neighbour-v390ext

NeighbourQuality ::=				SEQUENCE {
	ue-Positioning-OTDOA-Quality		UE-Positioning-OTDOA-Quality
}

NewInterFreqCell ::=				SEQUENCE {
	interFreqCellID						InterFreqCellID						OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfo
}

NewInterFreqCell-r4 ::=				SEQUENCE {
	interFreqCellID						InterFreqCellID						OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfo-r4
}

NewInterFreqCell-v7b0ext ::=		SEQUENCE {
	intraSecondaryFreqIndicator			BOOLEAN
}

NewInterFreqCell-LCR-v8a0ext ::=		SEQUENCE {
	cellInfo-LCR-r8							CellInfo-LCR-r8-ext				OPTIONAL
}

NewInterFreqCell-r8 ::= SEQUENCE {
	interFreqCellID						InterFreqCellID					OPTIONAL,
	frequencyInfo						FrequencyInfo					OPTIONAL,
	cellInfo							CellInfo-r4,
	modeSpecificInfo					CHOICE {
		noInfo								NULL,
		tdd128								SEQUENCE {
			intraSecondaryFreqIndicator			BOOLEAN
		}
	}
}

NewInterFreqCell-r9 ::= SEQUENCE {
	interFreqCellID						InterFreqCellID					OPTIONAL,
	frequencyInfo						FrequencyInfo					OPTIONAL,
	cellInfo							CellInfo-r9,
	modeSpecificInfo					CHOICE {
		noInfo								NULL,
		tdd128								SEQUENCE {
			intraSecondaryFreqIndicator			BOOLEAN
		}
	}
}

NewInterFreqCell-r10 ::= SEQUENCE {
	interFreqCellID						InterFreqCellID					OPTIONAL,
	frequencyInfo						FrequencyInfo					OPTIONAL,
	cellInfo							CellInfo-r9,
	modeSpecificInfo					CHOICE {
		noInfo								NULL,
		tdd128								SEQUENCE {
			intraSecondaryFreqIndicator			BOOLEAN,
			sNPLMonitorSetIndicator-TDD128		BIT STRING (SIZE (5))		OPTIONAL
		}	
	}
}

NewInterFreqCell-r12 ::= SEQUENCE {
	interFreqCellID						InterFreqCellID-r12				OPTIONAL,
	frequencyInfo						FrequencyInfo					OPTIONAL,
	cellInfo							CellInfo-r9,
	modeSpecificInfo					CHOICE {
		noInfo								NULL,
		tdd128								SEQUENCE {
			intraSecondaryFreqIndicator			BOOLEAN,
			sNPLMonitorSetIndicator-TDD128		BIT STRING (SIZE (5))	OPTIONAL
		}	
	}
}

NewInterFreqCellList ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCell

NewInterFreqCellList-r4 ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCell-r4

NewInterFreqCellList-r12 ::=			SEQUENCE (SIZE (1..maxCellMeas-ext)) OF
										NewInterFreqCell-r12

-- The order of the list corresponds to the order of cells in newInterFreqCellList
NewInterFreqCellList-v7b0ext ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCell-v7b0ext

-- The order of the list corresponds to the order of cells in newInterFreqCellList
NewInterFreqCellList-LCR-v8a0ext ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
											NewInterFreqCell-LCR-v8a0ext

NewInterFreqCellList-r8 ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCell-r8

NewInterFreqCellList-r9 ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCell-r9

NewInterFreqCellList-r10 ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCell-r10

NewInterFreqCellSI-RSCP ::=				SEQUENCE {
	interFreqCellID						InterFreqCellID						OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-RSCP
}

NewInterFreqCellSI-RSCP-ext ::=				SEQUENCE {
	interFreqCellID						InterFreqCellID-r12					OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-RSCP
}

NewInterFreqCellSI-ECN0 ::=				SEQUENCE {
	interFreqCellID						InterFreqCellID						OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-ECN0
}

NewInterFreqCellSI-ECN0-ext ::=				SEQUENCE {
	interFreqCellID						InterFreqCellID-r12					OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-ECN0
}

NewInterFreqCellSI-HCS-RSCP ::=				SEQUENCE {
	interFreqCellID						InterFreqCellID						OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-HCS-RSCP
}

NewInterFreqCellSI-HCS-RSCP-ext ::=				SEQUENCE {
	interFreqCellID						InterFreqCellID-r12					OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-HCS-RSCP
}

NewInterFreqCellSI-HCS-ECN0 ::=				SEQUENCE {
	interFreqCellID						InterFreqCellID						OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-HCS-ECN0
}

NewInterFreqCellSI-HCS-ECN0-ext ::=				SEQUENCE {
	interFreqCellID						InterFreqCellID-r12					OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-HCS-ECN0
}

NewInterFreqCellSI-RSCP-LCR-r4 ::=			SEQUENCE {
	interFreqCellID						InterFreqCellID						OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-RSCP-LCR-r4
}

NewInterFreqCellSI-ECN0-LCR-r4 ::=			SEQUENCE {
	interFreqCellID						InterFreqCellID						OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-ECN0-LCR-r4
}

NewInterFreqCellSI-HCS-RSCP-LCR-r4 ::=		SEQUENCE {
	interFreqCellID						InterFreqCellID						OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-HCS-RSCP-LCR-r4
}

NewInterFreqCellSI-HCS-ECN0-LCR-r4 ::=		SEQUENCE {
	interFreqCellID						InterFreqCellID						OPTIONAL,
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellInfo							CellInfoSI-HCS-ECN0-LCR-r4
}

NewInterFreqCellSI-List-ECN0 ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCellSI-ECN0

NewInterFreqCellSI-List-ECN0-ext ::=	SEQUENCE (SIZE (1..maxCellMeas-ext2)) OF
										NewInterFreqCellSI-ECN0-ext

NewInterFreqCellSI-List-HCS-RSCP ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCellSI-HCS-RSCP

NewInterFreqCellSI-List-HCS-RSCP-ext ::=		SEQUENCE (SIZE (1..maxCellMeas-ext2)) OF
										NewInterFreqCellSI-HCS-RSCP-ext

NewInterFreqCellSI-List-HCS-ECN0 ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCellSI-HCS-ECN0

NewInterFreqCellSI-List-HCS-ECN0-ext ::=		SEQUENCE (SIZE (1..maxCellMeas-ext2)) OF
										NewInterFreqCellSI-HCS-ECN0-ext

NewInterFreqCellSI-List-RSCP ::=		SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCellSI-RSCP

NewInterFreqCellSI-List-RSCP-ext ::=	SEQUENCE (SIZE (1..maxCellMeas-ext2)) OF
										NewInterFreqCellSI-RSCP-ext

NewInterFreqCellSI-List-ECN0-LCR-r4 ::=		SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCellSI-ECN0-LCR-r4

NewInterFreqCellSI-List-HCS-RSCP-LCR-r4 ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCellSI-HCS-RSCP-LCR-r4

NewInterFreqCellSI-List-HCS-ECN0-LCR-r4 ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCellSI-HCS-ECN0-LCR-r4

NewInterFreqCellSI-List-RSCP-LCR-r4 ::=		SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterFreqCellSI-RSCP-LCR-r4

NewInterRATCell ::=				SEQUENCE {
	interRATCellID						InterRATCellID			OPTIONAL,
	technologySpecificInfo				CHOICE {
		gsm									SEQUENCE {
			cellSelectionReselectionInfo		CellSelectReselectInfoSIB-11-12		OPTIONAL,
			interRATCellIndividualOffset 		InterRATCellIndividualOffset,
			bsic								BSIC,
			frequency-band						Frequency-Band,
			bcch-ARFCN							BCCH-ARFCN,
			-- dummy is not used in this version of the specification, it should
			-- not be sent and if received it should be ignored.
			dummy								NULL				OPTIONAL
		},
		is-2000								SEQUENCE {
			is-2000SpecificMeasInfo				IS-2000SpecificMeasInfo
		},
		-- ASN.1 inconsistency: NewInterRATCellList should be optional within
		-- InterRATCellInfoList. The UE shall consider IE NewInterRATCell with
		-- technologySpecificInfo set to "absent" as valid and handle the
		-- message as if the IE NewInterRATCell was absent
		absent								NULL,
		spare1								NULL
	}
}

NewInterRATCell-B ::=				SEQUENCE {
	interRATCellID						InterRATCellID				OPTIONAL,
	technologySpecificInfo				CHOICE {
		gsm									SEQUENCE {
			cellSelectionReselectionInfo		CellSelectReselectInfoSIB-11-12		OPTIONAL,
			interRATCellIndividualOffset 		InterRATCellIndividualOffset,
			bsic								BSIC,
			frequency-band						Frequency-Band,
			bcch-ARFCN							BCCH-ARFCN,
			-- dummy is not used in this version of the specification, it should
			-- not be sent and if received it should be ignored.
			dummy								NULL				OPTIONAL
		},
		is-2000								SEQUENCE {
			is-2000SpecificMeasInfo				IS-2000SpecificMeasInfo
		},
		-- ASN.1 inconsistency: NewInterRATCellList-B should be optional within
		-- InterRATCellInfoList-B. The UE shall consider IE NewInterRATCell-B with
		-- technologySpecificInfo set to "absent" as valid and handle the
		-- message as if the IE NewInterRATCell-B was absent
		absent								NULL,
		spare1								NULL
	}
}

NewInterRATCellList ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterRATCell

NewInterRATCellList-B ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewInterRATCell-B

NewIntraFreqCell ::=				SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfo
}

NewIntraFreqCell-r4 ::=				SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfo-r4
}
NewIntraFreqCell-r9 ::=				SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfo-r9
}

NewIntraFreqCell-r10 ::=				SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfo-r9,
	modeSpecificInfo					CHOICE {
		noInfo								NULL,
		tdd128								SEQUENCE {
			sNPLMonitorSetIndicator-TDD128		BIT STRING (SIZE (5))		OPTIONAL
		}
	}
}

NewIntraFreqCellOnSecULFreq ::=		SEQUENCE {
	intraFreqCellIDOnSecULFreq			IntraFreqCellIDOnSecULFreq			OPTIONAL,
	cellInfo							CellInfo-r4
}

NewIntraFreqCellList ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewIntraFreqCell

NewIntraFreqCellList-r4 ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewIntraFreqCell-r4

NewIntraFreqCellList-r9 ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewIntraFreqCell-r9

NewIntraFreqCellList-r10 ::=		SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewIntraFreqCell-r10

NewIntraFreqCell-LCR-v8a0ext ::=		SEQUENCE {
	cellInfo-LCR-r8							CellInfo-LCR-r8-ext				OPTIONAL
}

-- The order of the list corresponds to the order of cells in newIntraFreqCellList
NewIntraFreqCellList-LCR-v8a0ext ::=		SEQUENCE (SIZE (1..maxCellMeas)) OF
												NewIntraFreqCell-LCR-v8a0ext

NewIntraFreqCellListOnSecULFreq ::=	SEQUENCE (SIZE (1..maxCellMeasOnSecULFreq)) OF
										NewIntraFreqCellOnSecULFreq

NewIntraFreqCellSI-RSCP ::=				SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfoSI-RSCP
}

NewIntraFreqCellSI-ECN0 ::=			SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfoSI-ECN0
}
NewIntraFreqCellSI-HCS-RSCP ::=		SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfoSI-HCS-RSCP
}

NewIntraFreqCellSI-HCS-ECN0 ::=		SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfoSI-HCS-ECN0
}

NewIntraFreqCellSI-RSCP-LCR-r4 ::=		SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfoSI-RSCP-LCR-r4
}

NewIntraFreqCellSI-ECN0-LCR-r4 ::=		SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfoSI-ECN0-LCR-r4
}
NewIntraFreqCellSI-HCS-RSCP-LCR-r4 ::=	SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfoSI-HCS-RSCP-LCR-r4
}

NewIntraFreqCellSI-HCS-ECN0-LCR-r4 ::=	SEQUENCE {
	intraFreqCellID						IntraFreqCellID						OPTIONAL,
	cellInfo							CellInfoSI-HCS-ECN0-LCR-r4
}

NewIntraFreqCellSI-List-RSCP ::=		SEQUENCE (SIZE (1..maxCellMeas)) OF
											NewIntraFreqCellSI-RSCP

NewIntraFreqCellSI-List-ECN0 ::=		SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewIntraFreqCellSI-ECN0

NewIntraFreqCellSI-List-HCS-RSCP ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewIntraFreqCellSI-HCS-RSCP

NewIntraFreqCellSI-List-HCS-ECN0 ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewIntraFreqCellSI-HCS-ECN0

NewIntraFreqCellSI-List-RSCP-LCR-r4 ::=		SEQUENCE (SIZE (1..maxCellMeas)) OF
											NewIntraFreqCellSI-RSCP-LCR-r4

NewIntraFreqCellSI-List-ECN0-LCR-r4 ::=		SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewIntraFreqCellSI-ECN0-LCR-r4

NewIntraFreqCellSI-List-HCS-RSCP-LCR-r4 ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewIntraFreqCellSI-HCS-RSCP-LCR-r4

NewIntraFreqCellSI-List-HCS-ECN0-LCR-r4 ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
										NewIntraFreqCellSI-HCS-ECN0-LCR-r4

	-- IE "nonUsedFreqThreshold" is not needed in case of event 2a
	-- In case of event 2a UTRAN should include value 0 within IE "nonUsedFreqThreshold"
	-- In case of event 2a, the UE shall be ignore IE "nonUsedFreqThreshold"
	-- In later versions of the message including this IE, a special version of
	-- IE "NonUsedFreqParameterList" may be defined for event 2a, namely a
	-- version not including IE "nonUsedFreqThreshold"
NonUsedFreqParameter ::=			SEQUENCE {
	nonUsedFreqThreshold				Threshold,
	nonUsedFreqW						W
}

NonUsedFreqParameter-r6 ::=			SEQUENCE {
	nonUsedFreqThreshold				Threshold-r6,
	nonUsedFreqW						W
}

NonUsedFreqParameter-r10 ::=		SEQUENCE {
	nonUsedFreqThreshold				Threshold-r6,
	nonUsedFreqW						W,
	nonUsedFreqTriggeringConditionDetectedCells	ENUMERATED { true }			OPTIONAL
}

NonUsedFreqParameter-r11 ::=		SEQUENCE {
	nonUsedFreqThreshold						Threshold-r6,
	nonUsedFreqW								W,
	nonUsedFreqTriggeringConditionDetectedCells	ENUMERATED { true }				OPTIONAL,
	-- dummy is not used in this version of the specification and
	-- it should be ignored by the receiver.
	dummy						CellInfoListToBeExcluded		OPTIONAL
}

NonUsedFreq2aParameter-r10 ::=	SEQUENCE {
	nonUsedFreqW						W,
	nonUsedFreqTriggeringConditionDetectedCells	ENUMERATED { true }			OPTIONAL
}

NonUsedFreq2aParameter-r11 ::=	SEQUENCE {
	nonUsedFreqW								W,
	nonUsedFreqTriggeringConditionDetectedCells	ENUMERATED { true }				OPTIONAL,
	-- dummy is not used in this version of the specification and
	-- it should be ignored by the receiver.
	dummy						CellInfoListToBeExcluded		OPTIONAL
}

NonUsedFreqParameterList ::=		SEQUENCE (SIZE (1..maxFreq)) OF
										NonUsedFreqParameter

NonUsedFreqParameterList-r6 ::=		SEQUENCE (SIZE (1..maxFreq)) OF
										NonUsedFreqParameter-r6

NonUsedFreqParameterList-r10 ::=	SEQUENCE (SIZE (1..maxFreq)) OF
										NonUsedFreqParameter-r10

NonUsedFreqParameterList-r11 ::=	SEQUENCE (SIZE (1..maxFreq)) OF
										NonUsedFreqParameter-r11

NonUsedFreq2aParameterList-r10 ::=	SEQUENCE (SIZE (1..maxFreq)) OF
										NonUsedFreq2aParameter-r10

NonUsedFreq2aParameterList-r11 ::=	SEQUENCE (SIZE (1..maxFreq)) OF
										NonUsedFreq2aParameter-r11

NonUsedFreqWList-r6 ::=		SEQUENCE (SIZE (1..maxFreq)) OF W

ApplicationLayerMeasurementConfiguration ::=		SEQUENCE {
	containerForApplicationLayerMeasurementConfiguration	OCTET STRING ( SIZE (1..1000))
}

ApplicationLayerMeasurementConfiguration-r15 ::=	 SEQUENCE {
	containerForApplicationLayerMeasurementConfiguration	 OCTET STRING ( SIZE (1..1000)),
	serviceType										ENUMERATED { qoe, qoemtsi }
}

ApplicationLayerMeasurementReporting ::=		SEQUENCE {
	containerForApplicationLayerMeasurementReporting		OCTET STRING ( SIZE (1..8000))
}

ApplicationLayerMeasurementReporting-r15 ::=		SEQUENCE {
	containerForApplicationLayerMeasurementReporting		OCTET STRING ( SIZE (1..8000)),
	serviceType										ENUMERATED { qoe, qoemtsi }		
}

ObservedTimeDifferenceToGSM ::=		INTEGER (0..4095)

OTDOA-SearchWindowSize ::=			ENUMERATED {
										c20, c40, c80, c160, c320,
										c640, c1280, moreThan1280 }

-- SPARE: Pathloss, Max = 158
-- Values above Max are spare
Pathloss ::=						INTEGER (46..173)

PenaltyTime-RSCP ::=				CHOICE {
	notUsed								NULL,
	pt10								TemporaryOffset1,
	pt20								TemporaryOffset1,
	pt30								TemporaryOffset1,
	pt40								TemporaryOffset1,
	pt50								TemporaryOffset1,
	pt60								TemporaryOffset1
}

PenaltyTime-ECN0 ::=				CHOICE {
	notUsed								NULL,
	pt10								TemporaryOffsetList,
	pt20								TemporaryOffsetList,
	pt30								TemporaryOffsetList,
	pt40								TemporaryOffsetList,
	pt50								TemporaryOffsetList,
	pt60								TemporaryOffsetList
}

PendingTimeAfterTrigger ::=			ENUMERATED {
										ptat0-25, ptat0-5, ptat1,
										ptat2, ptat4, ptat8, ptat16 }

PeriodicalOrEventTrigger ::=		ENUMERATED {
										periodical,
										eventTrigger }

PeriodicalReportingCriteria ::=		SEQUENCE {
	reportingAmount						ReportingAmount					DEFAULT ra-Infinity,
	reportingInterval					ReportingIntervalLong
}

PeriodicReportingInfo-1b ::= SEQUENCE {
	reportingAmount						ReportingAmount,
	reportingInterval					ReportingInterval
}

PeriodicalWithReportingCellStatus ::= SEQUENCE {
	periodicalReportingCriteria			PeriodicalReportingCriteria,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

PeriodicalWithReportingCellStatus-r10 ::= SEQUENCE {
	periodicalReportingCriteria			PeriodicalReportingCriteria,
	reportingCellStatus					ReportingCellStatus-r10				OPTIONAL
}

PeriodicalWithReportingCellStatusOnSecULFreq ::= SEQUENCE {
	frequencyInfo						FrequencyInfo,
	periodicalWithReportingCellStatus 	PeriodicalWithReportingCellStatus-r10
}

PLMNIdentitiesOfNeighbourCells ::=	SEQUENCE {
		plmnsOfIntraFreqCellsList		PLMNsOfIntraFreqCellsList			OPTIONAL,
		plmnsOfInterFreqCellsList		PLMNsOfInterFreqCellsList			OPTIONAL,
		plmnsOfInterRATCellsList		PLMNsOfInterRATCellsList			OPTIONAL
}

PLMNIdentitiesOfNeighbourCells-v860ext ::=	SEQUENCE {
		multipleplmnsOfIntraFreqCellsList	MultiplePLMNsOfIntraFreqCellsList	OPTIONAL,
		multipleplmnsOfInterFreqCellsList	MultiplePLMNsOfInterFreqCellsList	OPTIONAL
}

PLMNIdentitiesOfNeighbourCells-vc50ext	::=	SEQUENCE {
		plmnsOfInterFreqCellsList 			PLMNsOfInterFreqCellsList-vc50ext			OPTIONAL,
		multipleplmnsOfInterFreqCellsList	MultiplePLMNsOfInterFreqCellsList-vc50ext	OPTIONAL
}

PlmnList ::= SEQUENCE (SIZE (1..maxNumMDTPLMN)) OF  PLMN-Identity

PLMNsOfInterFreqCellsList ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
											SEQUENCE {
	plmn-Identity								PLMN-Identity				OPTIONAL
}

PLMNsOfInterFreqCellsList-vc50ext ::=		SEQUENCE (SIZE (1..maxCellMeas-ext)) OF	InterFreqCellPLMN

InterFreqCellPLMN ::=						SEQUENCE {
	plmn-Identity								PLMN-Identity				OPTIONAL
}

MultiplePLMNsOfInterFreqCellsList ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
											SEQUENCE {
	multiplePLMN-list							SEQUENCE (SIZE (1..6)) OF
													PLMN-IdentityWithOptionalMCC-r6		OPTIONAL
}

MultiplePLMNsOfInterFreqCellsList-vc50ext ::=	SEQUENCE (SIZE (1..maxCellMeas-ext)) OF 	MultiplePLMNInfo

MultiplePLMNInfo ::=					SEQUENCE {
	multiplePLMN-list						MultiplePLMN-List			OPTIONAL
}

MultiplePLMN-List ::=					SEQUENCE (SIZE (1..6)) OF	PLMN-IdentityWithOptionalMCC-r6

PLMNsOfIntraFreqCellsList ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
											SEQUENCE {
	plmn-Identity								PLMN-Identity				OPTIONAL
}

MultiplePLMNsOfIntraFreqCellsList ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
											SEQUENCE {
	multiplePLMN-list							SEQUENCE (SIZE (1..6)) OF
													PLMN-IdentityWithOptionalMCC-r6		OPTIONAL
}

PLMNsOfInterRATCellsList ::=			SEQUENCE (SIZE (1..maxCellMeas)) OF
											SEQUENCE {
	plmn-Identity								PLMN-Identity				OPTIONAL
}

PositionEstimate ::=				CHOICE {
	ellipsoidPoint						EllipsoidPoint,
	ellipsoidPointUncertCircle			EllipsoidPointUncertCircle,
	ellipsoidPointUncertEllipse			EllipsoidPointUncertEllipse,
	ellipsoidPointAltitude				EllipsoidPointAltitude,
	ellipsoidPointAltitudeEllipse		EllipsoidPointAltitudeEllipsoide
}

PositioningMethod ::=				ENUMERATED {
										otdoa,
										gps,
										otdoaOrGPS, cellID }

-- Actual value PRC = IE value * 0.32
PRC ::=								INTEGER (-2047..2047)

-- SPARE: PrimaryCCPCH-RSCP, Max = 91
-- Values above Max are spare
PrimaryCCPCH-RSCP ::=				INTEGER (0..127)

Q-HCS ::=							INTEGER (0..99)

Q-OffsetS-N ::=						INTEGER (-50..50)

Q-QualMin ::=						INTEGER (-24..0)

Q-QualMin-Offset ::=				INTEGER (1..16)

-- Actual value Q-RxlevMin = (IE value * 2) + 1
Q-RxlevMin ::=						INTEGER (-58..-13)

-- Actual value Q-RxlevMin-Offset = (IE value * 2)
Q-RxlevMin-Offset ::=				INTEGER (1..8)

QualityEventResults ::=				SEQUENCE (SIZE (1..maxTrCH)) OF
										TransportChannelIdentity

QualityMeasuredResults ::=			SEQUENCE {
	blerMeasurementResultsList			BLER-MeasurementResultsList			OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									NULL,
		tdd									SEQUENCE {
			sir-MeasurementResults				SIR-MeasurementList			OPTIONAL
		}
	}
}

QualityMeasurement ::=				SEQUENCE {
	qualityReportingQuantity			QualityReportingQuantity			OPTIONAL,
	reportCriteria						QualityReportCriteria
}

QualityReportCriteria ::=			CHOICE {
	qualityReportingCriteria			QualityReportingCriteria,
	periodicalReportingCriteria			PeriodicalReportingCriteria,
	noReporting							NULL
}

QualityReportingCriteria ::=		SEQUENCE (SIZE (1..maxTrCH)) OF
										QualityReportingCriteriaSingle

QualityReportingCriteriaSingle ::=	SEQUENCE {
	transportChannelIdentity			TransportChannelIdentity,
	totalCRC							INTEGER (1..512),
	badCRC								INTEGER (1..512),
	pendingAfterTrigger					INTEGER (1..512)
}

QualityReportingQuantity ::=		SEQUENCE {
	dl-TransChBLER						BOOLEAN,
	bler-dl-TransChIdList				BLER-TransChIdList					OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									NULL,
		tdd									SEQUENCE {
			sir-TFCS-List						SIR-TFCS-List				OPTIONAL
		}
	}
}

RAT-Type ::=						ENUMERATED {
										gsm, is2000 }

ReferenceCellPosition ::=			CHOICE {
	ellipsoidPoint						EllipsoidPoint,
	ellipsoidPointWithAltitude			EllipsoidPointAltitude
}

-- ReferenceLocation, as defined in 23.032
ReferenceLocation ::=			SEQUENCE {
	ellipsoidPointAltitudeEllipsoide		EllipsoidPointAltitudeEllipsoide
}

ReferenceLocationGANSS ::=			SEQUENCE {
	ellipsoidPointAltitudeEllipsoide	EllipsoidPointAltitudeEllipsoide
}

ReferenceTimeDifferenceToCell ::= 	CHOICE {
	-- Actual value accuracy40 = IE value * 40
	accuracy40							INTEGER (0..960),
	-- Actual value accuracy256 = IE value * 256
	accuracy256							INTEGER (0..150),
	-- Actual value accuracy2560 = IE value * 2560
	accuracy2560						INTEGER (0..15)
}

RemovedInterFreqCellList ::=		CHOICE {
	removeAllInterFreqCells				NULL,
	removeSomeInterFreqCells			SEQUENCE (SIZE (1..maxCellMeas)) OF
											InterFreqCellID,
	removeNoInterFreqCells				NULL
}

RemovedInterFreqCellList-r12 ::=		CHOICE {
	removeAllInterFreqCells				NULL,
	removeSomeInterFreqCells			SEQUENCE (SIZE (1..maxCellMeas-ext)) OF
											InterFreqCellID-r12,
	removeNoInterFreqCells				NULL
}

RemovedInterRATCellList ::=		CHOICE {
	removeAllInterRATCells			NULL,
	removeSomeInterRATCells			SEQUENCE (SIZE (1..maxCellMeas)) OF
											InterRATCellID,
	removeNoInterRATCells			NULL
}

RemovedIntraFreqCellList ::=		CHOICE {
	removeAllIntraFreqCells				NULL,
	removeSomeIntraFreqCells			SEQUENCE (SIZE (1..maxCellMeas)) OF
											IntraFreqCellID,
	removeNoIntraFreqCells				NULL
}

RemovedIntraFreqCellListOnSecULFreq ::=		CHOICE {
	removeAllIntraFreqCells				NULL,
	removeSomeIntraFreqCells			SEQUENCE (SIZE (1..maxCellMeasOnSecULFreq)) OF
											IntraFreqCellIDOnSecULFreq,
	removeNoIntraFreqCells				NULL
}

ReplacementActivationThreshold ::= 	ENUMERATED {
										notApplicable, t1, t2,
										t3, t4, t5, t6, t7 }

ReportDeactivationThreshold ::=		ENUMERATED {
										notApplicable, t1, t2,
										t3, t4, t5, t6, t7 }

ReportingAmount ::=					ENUMERATED {
										ra1, ra2, ra4, ra8, ra16, ra32,
										ra64, ra-Infinity }

ReportingCellStatus ::=				CHOICE{
	withinActiveSet						MaxNumberOfReportingCellsType1,
	withinMonitoredSetUsedFreq			MaxNumberOfReportingCellsType1,
	withinActiveAndOrMonitoredUsedFreq	MaxNumberOfReportingCellsType1,
	withinDetectedSetUsedFreq			MaxNumberOfReportingCellsType1,
	withinMonitoredAndOrDetectedUsedFreq
										MaxNumberOfReportingCellsType1,
	allActiveplusMonitoredSet			MaxNumberOfReportingCellsType3,
	allActivePlusDetectedSet			MaxNumberOfReportingCellsType3,
	allActivePlusMonitoredAndOrDetectedSet
										MaxNumberOfReportingCellsType3,
	withinVirtualActSet				MaxNumberOfReportingCellsType1,
	withinMonitoredSetNonUsedFreq		MaxNumberOfReportingCellsType1,
	withinMonitoredAndOrVirtualActiveSetNonUsedFreq
										MaxNumberOfReportingCellsType1,
	allVirtualActSetplusMonitoredSetNonUsedFreq	
										MaxNumberOfReportingCellsType3,
	withinActSetOrVirtualActSet-InterRATcells
										MaxNumberOfReportingCellsType2,
	withinActSetAndOrMonitoredUsedFreqOrVirtualActSetAndOrMonitoredNonUsedFreq	
										MaxNumberOfReportingCellsType2
}

ReportingCellStatus-r10 ::=				CHOICE{
	withinActiveSet						MaxNumberOfReportingCellsType1,
	withinMonitoredSetUsedFreq			MaxNumberOfReportingCellsType1,
	withinActiveAndOrMonitoredUsedFreq	MaxNumberOfReportingCellsType1,
	withinDetectedSetUsedFreq			MaxNumberOfReportingCellsType1,
	withinMonitoredAndOrDetectedUsedFreq
										MaxNumberOfReportingCellsType1,
	allActiveplusMonitoredSet			MaxNumberOfReportingCellsType3,
	allActivePlusDetectedSet			MaxNumberOfReportingCellsType3,
	allActivePlusMonitoredAndOrDetectedSet
										MaxNumberOfReportingCellsType3,
	withinVirtualActSet				MaxNumberOfReportingCellsType1,
	withinMonitoredSetNonUsedFreq		MaxNumberOfReportingCellsType1,
	withinMonitoredAndOrVirtualActiveSetNonUsedFreq
										MaxNumberOfReportingCellsType1,
	allVirtualActSetplusMonitoredSetNonUsedFreq	
										MaxNumberOfReportingCellsType3,
	withinActSetOrVirtualActSet-InterRATcells
										MaxNumberOfReportingCellsType2,
	withinActSetAndOrMonitoredUsedFreqOrVirtualActSetAndOrMonitoredNonUsedFreq	
										MaxNumberOfReportingCellsType2,
	allVirtualActSetplusMonitoredSetplusDetectedSetNonUsedFreq	
										MaxNumberOfReportingCellsType3
}

ReportingCellStatusOpt ::=			SEQUENCE {
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

ReportingCellStatusOpt-r10 ::=		SEQUENCE {
	reportingCellStatus					ReportingCellStatus-r10			OPTIONAL
}

ReportingInfoForCellDCH ::=			SEQUENCE {
	intraFreqReportingQuantity			IntraFreqReportingQuantity,
	measurementReportingMode			MeasurementReportingMode,
	reportCriteria						CellDCH-ReportCriteria
}

ReportingInfoForCellDCH-LCR-r4 ::=	SEQUENCE {
	intraFreqReportingQuantity			IntraFreqReportingQuantity,
	measurementReportingMode			MeasurementReportingMode,
	reportCriteria						CellDCH-ReportCriteria-LCR-r4
}

ReportingInterval ::=				ENUMERATED {
										noPeriodicalreporting, ri0-25, 
										ri0-5, ri1, ri2, ri4, ri8, ri16 }

ReportingIntervalLong ::=			ENUMERATED {
										ril0, ril0-25, ril0-5, ril1,
										ril2, ril3, ril4, ril6, ril8,
										ril12, ril16, ril20, ril24,
										ril28, ril32, ril64 }
									-- When the value "ril0" is used, the UE behaviour is not
									-- defined.

-- Actual value ReportingRange = IE value * 0.5
ReportingRange ::=					INTEGER (0..29)

ReqDataBitAssistance ::=			SEQUENCE {
	ganssSignalID						DGANSS-Sig-Id-Req,
	ganssDataBitInterval				INTEGER(0..15),
	ganssSatelliteInfo					SEQUENCE (SIZE (1..maxGANSSSat)) OF INTEGER(0..63) OPTIONAL
}

RL-AdditionInfoList ::=				SEQUENCE (SIZE (1..maxRL)) OF
										PrimaryCPICH-Info

RL-InformationLists ::=				SEQUENCE {
	rl-AdditionInfoList					RL-AdditionInfoList					OPTIONAL,
	rL-RemovalInformationList			RL-RemovalInformationList			OPTIONAL
}

RLC-BuffersPayload ::=				ENUMERATED {
										pl0, pl4, pl8, pl16, pl32,
										pl64, pl128, pl256, pl512, pl1024,
										pl2k, pl4k, pl8k, pl16k, pl32k,
										pl64k, pl128k, pl256k, pl512k, pl1024k,
										spare12, spare11, spare10, spare9, spare8,
										spare7, spare6, spare5, spare4, spare3,
										spare2, spare1 }


RMP-Frequency-List ::=				SEQUENCE (SIZE (1..maxRMPfrequencies)) OF
										BOOLEAN

-- Actual value RRC = IE value * 0.032
RRC ::=								INTEGER (-127..127)

RSCPforANR ::= SEQUENCE {
	rSCP 								INTEGER (-120..-25)					OPTIONAL
}

RsrqType ::= 						SEQUENCE{
	allSymbols							BOOLEAN,
	wideBand							BOOLEAN
}
	

SatData ::=							SEQUENCE{
	satID								SatID,
	iode								IODE
}

SatDataList ::=						SEQUENCE (SIZE (0..maxSat)) OF
										SatData

SatellitesListRelatedData ::=		SEQUENCE {
	satId								INTEGER (0..63),
	iod									INTEGER (0..1023)
}

SatellitesListRelatedDataList ::=	SEQUENCE (SIZE (1..maxGANSSSat)) OF
										SatellitesListRelatedData

SatelliteStatus ::=					ENUMERATED {
										ns-NN-U,
										es-SN,
										es-NN-U,
										rev2,
										rev }

Satellite-clock-model ::=			SEQUENCE {
	t-oc								BIT STRING (SIZE (14)),
	af2									BIT STRING (SIZE (6)),
	af1									BIT STRING (SIZE (21)),
	af0									BIT STRING (SIZE (31)),
	tgd									BIT STRING (SIZE (10))				OPTIONAL,
	sisa								BIT STRING (SIZE (8)),
	model-id							INTEGER (0..1) 						OPTIONAL
}

Satellite-clock-modelList ::=		SEQUENCE (SIZE (1..maxSatClockModels)) OF Satellite-clock-model

-- Identifies the satellite and is equal to (SV ID No - 1) where SV ID No is defined in [12].
SatID ::=							INTEGER (0..63)

SBASclockModel ::=					SEQUENCE {
	sbasTo								BIT STRING (SIZE (13)),
	sbasAgfo							BIT STRING (SIZE (12)),
	sbasAgf1							BIT STRING (SIZE (8))
}

S-DPCCH-Information ::=		SEQUENCE {
	s-DPCCH-DPCCH-PowerOffset				S-DPCCH-DPCCH-PowerOffset
}

S-DPCCH-DPCCH-PowerOffset ::=		INTEGER (0..6)

SFN-Offset-Validity ::=			ENUMERATED { false }

SFN-SFN-Drift ::= 					ENUMERATED {
										sfnsfndrift0, sfnsfndrift1, sfnsfndrift2,
										sfnsfndrift3, sfnsfndrift4, sfnsfndrift5,
										sfnsfndrift8, sfnsfndrift10, sfnsfndrift15,
										sfnsfndrift25, sfnsfndrift35, sfnsfndrift50,
										sfnsfndrift65, sfnsfndrift80, sfnsfndrift100,
										sfnsfndrift-1, sfnsfndrift-2, sfnsfndrift-3,
										sfnsfndrift-4, sfnsfndrift-5, sfnsfndrift-8,
										sfnsfndrift-10, sfnsfndrift-15, sfnsfndrift-25,
										sfnsfndrift-35, sfnsfndrift-50, sfnsfndrift-65,
										sfnsfndrift-80, sfnsfndrift-100}

SFN-SFN-ObsTimeDifference ::=		CHOICE {
	type1								SFN-SFN-ObsTimeDifference1,
	type2								SFN-SFN-ObsTimeDifference2
}

-- SPARE: SFN-SFN-ObsTimeDifference1, Max = 9830399
-- For 1.28Mcps TDD, Max value of SFN-SFN-ObsTimeDifference1 is 3276799.
-- Values above Max are spare
SFN-SFN-ObsTimeDifference1 ::=		INTEGER (0..16777215)

-- SPARE: SFN-SFN-ObsTimeDifference2, Max = 40961
-- For 1.28Mcps TDD, Max value of SFN-SFN-ObsTimeDifference2 is 27649.
-- Values above Max are spare
SFN-SFN-ObsTimeDifference2 ::=		INTEGER (0..65535)

SFN-SFN-OTD-Type ::=				ENUMERATED {
										noReport,
										type1,
										type2 }

SFN-SFN-RelTimeDifference1 ::=		SEQUENCE {
	sfn-Offset							INTEGER (0 .. 4095),
	sfn-sfn-Reltimedifference			INTEGER (0.. 38399)
}

SFN-TOW-Uncertainty ::=				ENUMERATED {
										lessThan10,
										moreThan10 }


SIR ::=								INTEGER (0..63)


SIR-MeasurementList ::=				SEQUENCE (SIZE (1..maxCCTrCH)) OF
										SIR-MeasurementResults


SIR-MeasurementResults ::=			SEQUENCE {
	tfcs-ID								TFCS-IdentityPlain,
	sir-TimeslotList					SIR-TimeslotList
}

SIR-TFCS ::=						TFCS-IdentityPlain


SIR-TFCS-List ::=					SEQUENCE (SIZE (1..maxCCTrCH)) OF
										SIR-TFCS

SIR-TimeslotList ::=				SEQUENCE (SIZE (1..maxTS)) OF
										SIR

-- SubFrame1Reserved, reserved bits in subframe 1 of the GPS navigation message
SubFrame1Reserved ::= 				SEQUENCE {
 	reserved1							BIT STRING (SIZE (23)),
	reserved2							BIT STRING (SIZE (24)),
	reserved3							BIT STRING (SIZE (24)),
	reserved4							BIT STRING (SIZE (16))
}

T-ADVinfo ::=						SEQUENCE {
				t-ADV					INTEGER(0..2047),
				sfn						INTEGER(0..4095)
}

T-ADVinfo-ext ::=					SEQUENCE {
	t-ADV								INTEGER (0..8191),
	sfn									INTEGER (0..4095)
}

T-CRMax ::=							CHOICE {
	notUsed								NULL,
	t30									N-CR-T-CRMaxHyst,
	t60									N-CR-T-CRMaxHyst,
	t120								N-CR-T-CRMaxHyst,
	t180								N-CR-T-CRMaxHyst,
	t240								N-CR-T-CRMaxHyst
}

T-CRMaxHyst ::=						ENUMERATED {
										notUsed, t10, t20, t30,
										t40, t50, t60, t70 }

TCE-Id ::=			SEQUENCE {
	tce-Id				OCTET STRING (SIZE (1))
}

TemporaryOffset1 ::=				ENUMERATED {
										to3, to6, to9, to12, to15,
										to18, to21, infinite }

TemporaryOffset2 ::=				ENUMERATED {
										to2, to3, to4, to6, to8,
										to10, to12, infinite }

TemporaryOffsetList ::=				SEQUENCE 	{
		temporaryOffset1 				TemporaryOffset1,
		temporaryOffset2 				TemporaryOffset2
}

Threshold ::=						INTEGER (-115..0)

Threshold-r12 ::=					INTEGER (-115..6)

Threshold-r6 ::=							INTEGER (-120..0)

-- The order of the list corresponds to the order of frequency defined in Inter-FreqEventCriteria
ThreholdNonUsedFrequency-deltaList ::= SEQUENCE (SIZE (1..maxFreq)) OF
											DeltaRSCPPerCell

ThresholdPositionChange ::=			ENUMERATED {
										pc10, pc20, pc30, pc40, pc50,
										pc100, pc200, pc300, pc500,
										pc1000, pc2000, pc5000, pc10000,
										pc20000, pc50000, pc100000 }

ThresholdSFN-GANSS-TOW ::=			ENUMERATED {
										us1, us2, us3, us5, us10,
										us20, us50, us100 }

ThresholdSFN-GPS-TOW ::=			ENUMERATED {
										ms1, ms2, ms3, ms5, ms10,
										ms20, ms50, ms100 }

ThresholdSFN-GPS-TOW-us ::=			ENUMERATED {
										us1, us2, us3, us5, us10,
										us20, us50, us100 }

ThresholdSFN-SFN-Change ::=			ENUMERATED {
										c0-25, c0-5, c1, c2, c3, c4, c5,
										c10, c20, c50, c100, c200, c500,
										c1000, c2000, c5000 }

ThresholdUsedFrequency ::=			INTEGER (-115..165)

ThresholdUsedFrequency-r6 ::=		INTEGER (-120..165)

-- Actual value TimeInterval = IE value * 20.
TimeInterval ::=					INTEGER (1..13)


TimeslotInfo ::=					SEQUENCE {
	timeslotNumber						TimeslotNumber,
	burstType							BurstType
}

TimeslotInfo-LCR-r4 ::=				SEQUENCE {
	timeslotNumber						TimeslotNumber-LCR-r4
}

TimeslotInfoList ::=				SEQUENCE (SIZE (1..maxTS)) OF
										TimeslotInfo

TimeslotInfoList-LCR-r4 ::=			SEQUENCE (SIZE (1..maxTS-LCR)) OF
										TimeslotInfo-LCR-r4

TimeslotInfoList-r4 ::=				CHOICE {
	-- the choice for 7.68 Mcps TDD is the same as for 3.84 Mcps TDD --
	tdd384								SEQUENCE (SIZE (1..maxTS)) OF
											TimeslotInfo,
	tdd128								SEQUENCE (SIZE (1..maxTS-LCR)) OF
											TimeslotInfo-LCR-r4
}

-- SPARE: TimeslotISCP, Max = 91
-- Values above Max are spare
TimeslotISCP ::=					INTEGER (0..127)


-- TimeslotISCP-List shall not include more than 6 elements in 1.28Mcps TDD mode.
TimeslotISCP-List ::=				SEQUENCE (SIZE (1..maxTS)) OF
										TimeslotISCP

TimeslotListWithISCP ::=			SEQUENCE (SIZE (1..maxTS)) OF
										TimeslotWithISCP

TimeslotWithISCP ::=				SEQUENCE {
	timeslot							TimeslotNumber,
	timeslotISCP						TimeslotISCP
}

TimeToTrigger ::=					ENUMERATED {
										ttt0, ttt10, ttt20, ttt40, ttt60,
										ttt80, ttt100, ttt120, ttt160,
										ttt200, ttt240, tt320, ttt640,
										ttt1280, ttt2560, ttt5000 }

TraceReference ::=					SEQUENCE {
	plmn-Identity						PLMN-Identity,
	traceId								OCTET STRING (SIZE (3))
}

TraceRecordingSession ::=			SEQUENCE {
	traceRecordingSession				OCTET STRING (SIZE (2))
}

TrafficVolumeEventParam ::=			SEQUENCE {
	eventID								TrafficVolumeEventType,
	reportingThreshold					TrafficVolumeThreshold,
	timeToTrigger						TimeToTrigger						OPTIONAL,
	pendingTimeAfterTrigger				PendingTimeAfterTrigger				OPTIONAL,
	tx-InterruptionAfterTrigger			TX-InterruptionAfterTrigger			OPTIONAL
}

TrafficVolumeEventResults ::=		SEQUENCE {
	ul-transportChannelCausingEvent		UL-TrCH-Identity,
	trafficVolumeEventIdentity			TrafficVolumeEventType
}

TrafficVolumeEventType ::=			ENUMERATED {
										e4a,
										e4b }

TrafficVolumeMeasQuantity ::=		CHOICE {
	rlc-BufferPayload					NULL,
	averageRLC-BufferPayload			TimeInterval,
	varianceOfRLC-BufferPayload			TimeInterval
}

TrafficVolumeMeasSysInfo ::=		SEQUENCE {
	trafficVolumeMeasurementID			MeasurementIdentity			DEFAULT 4,
	trafficVolumeMeasurementObjectList	TrafficVolumeMeasurementObjectList	OPTIONAL,
	trafficVolumeMeasQuantity			TrafficVolumeMeasQuantity			OPTIONAL,
	trafficVolumeReportingQuantity		TrafficVolumeReportingQuantity		OPTIONAL,
	-- dummy is not used in this version of specification, it should
	-- not be sent and if received it should be ignored.
	dummy								TrafficVolumeReportingCriteria		OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	measurementReportingMode			MeasurementReportingMode,
	reportCriteriaSysInf				TrafficVolumeReportCriteriaSysInfo

}

TrafficVolumeMeasuredResults ::=	SEQUENCE {
	rb-Identity							RB-Identity,
	rlc-BuffersPayload					RLC-BuffersPayload					OPTIONAL,
	averageRLC-BufferPayload			AverageRLC-BufferPayload			OPTIONAL,
	varianceOfRLC-BufferPayload			VarianceOfRLC-BufferPayload			OPTIONAL
}

TrafficVolumeMeasuredResultsList ::= SEQUENCE (SIZE (1..maxRB)) OF
										TrafficVolumeMeasuredResults

TrafficVolumeMeasurement ::= 		SEQUENCE {
	trafficVolumeMeasurementObjectList	TrafficVolumeMeasurementObjectList	OPTIONAL,
	trafficVolumeMeasQuantity			TrafficVolumeMeasQuantity			OPTIONAL,
	trafficVolumeReportingQuantity		TrafficVolumeReportingQuantity		OPTIONAL,
	measurementValidity					MeasurementValidity					OPTIONAL,
	reportCriteria						TrafficVolumeReportCriteria
}

TrafficVolumeMeasurementObjectList ::= SEQUENCE (SIZE (1..maxTrCH)) OF
											UL-TrCH-Identity

TrafficVolumeReportCriteria ::=		CHOICE {
	trafficVolumeReportingCriteria		TrafficVolumeReportingCriteria,
	periodicalReportingCriteria			PeriodicalReportingCriteria,
	noReporting							NULL
}

TrafficVolumeReportCriteriaSysInfo ::=	CHOICE {
	trafficVolumeReportingCriteria		TrafficVolumeReportingCriteria,
	periodicalReportingCriteria			PeriodicalReportingCriteria
}

TrafficVolumeReportingCriteria ::= SEQUENCE {
	-- NOTE: transChCriteriaList should be mandatory in later versions of this message
	transChCriteriaList					TransChCriteriaList					OPTIONAL
}

TrafficVolumeReportingQuantity ::= SEQUENCE {
	rlc-RB-BufferPayload				BOOLEAN,
	rlc-RB-BufferPayloadAverage			BOOLEAN,
	rlc-RB-BufferPayloadVariance		BOOLEAN
}

TrafficVolumeThreshold ::=			ENUMERATED {
										th8, th16, th32, th64, th128,
										th256, th512, th1024, th2k, th3k, 
										th4k, th6k, th8k, th12k, th16k, 
										th24k, th32k, th48k, th64k, th96k, 
										th128k, th192k, th256k, th384k, 
										th512k, th768k }

TransChCriteria ::=					SEQUENCE {
	ul-transportChannelID				UL-TrCH-Identity					OPTIONAL,
	eventSpecificParameters				SEQUENCE (SIZE (1..maxMeasParEvent)) OF 
											TrafficVolumeEventParam			OPTIONAL
}

TransChCriteriaList ::=			SEQUENCE (SIZE (1..maxTrCH)) OF
										TransChCriteria

TransferMode ::=					ENUMERATED {
										acknowledgedModeRLC,
										unacknowledgedModeRLC }

TransmittedPowerThreshold ::=		INTEGER (-50..33)

TriggeringCondition1 ::=			ENUMERATED {
										activeSetCellsOnly,
										monitoredSetCellsOnly,
										activeSetAndMonitoredSetCells }

TriggeringCondition2 ::=			ENUMERATED {
										activeSetCellsOnly,
										monitoredSetCellsOnly,
										activeSetAndMonitoredSetCells,
										detectedSetCellsOnly,
										detectedSetAndMonitoredSetCells }

Tutran-Ganss-DriftRate ::=			ENUMERATED {
										ugdr0, ugdr1, ugdr2, ugdr5, ugdr10, ugdr15 , ugdr25,
										ugdr50, ugdr-1, ugdr-2, ugdr-5, ugdr-10, ugdr-15,
										ugdr-25, ugdr-50, spare }

TX-InterruptionAfterTrigger ::=		ENUMERATED {
										txiat0-25, txiat0-5, txiat1,
										txiat2, txiat4, txiat8, txiat16 }

UDRE ::=							ENUMERATED {
										lessThan1,
										between1-and-4,
										between4-and-8,
										over8 }

UDREGrowthRate ::=					ENUMERATED {
										growth-1-5,
										growth-2,
										growth-4,
										growth-6,
										growth-8,
										growth-10,
										growth-12,
										growth-16 }

UDREValidityTime	::=					ENUMERATED {
											val-20sec,
											val-40sec,
											val-80sec,
											val-160sec,
											val-320sec,
											val-640sec,
											val-1280sec,
											val-2560sec }

UE-6AB-Event ::=					SEQUENCE {
	timeToTrigger						TimeToTrigger,
	transmittedPowerThreshold			TransmittedPowerThreshold
}

UE-6FG-Event ::=					SEQUENCE {
	timeToTrigger						TimeToTrigger,
	-- in 1.28 Mcps TDD ue-RX-TX-TimeDifferenceThreshold corresponds to TADV Threshold
	ue-RX-TX-TimeDifferenceThreshold	UE-RX-TX-TimeDifferenceThreshold
}

UE-6HI-Event ::=					SEQUENCE {
	timeToTrigger						TimeToTrigger,
	hysteresis							Hysteresis,
	ue-powerheadroomthreshold			UE-PowerHeadroomThreshold,
	filtercoefficient					FilterCoefficient,
	pendingtimeaftertrigger				PendingTimeAfterTrigger			OPTIONAL
}

-- dummy and dummy2 are not used in this version of the specification, they should
-- not be sent and if received the UE behaviour is not specified.
UE-AutonomousUpdateMode ::=			CHOICE {
	dummy								NULL,
	onWithNoReporting					NULL,
	dummy2								RL-InformationLists 
}

UE-InternalEventParam ::=			CHOICE {
	event6a								UE-6AB-Event,
	event6b								UE-6AB-Event,
	event6c								TimeToTrigger,
	event6d								TimeToTrigger,
	event6e								TimeToTrigger,
	event6f								UE-6FG-Event,
	event6g								UE-6FG-Event
}

UE-InternalEventParam-r14::=		CHOICE {
	event6a								UE-6AB-Event,
	event6b								UE-6AB-Event,
	event6c								TimeToTrigger,
	event6d								TimeToTrigger,
	event6e								TimeToTrigger,
	event6f								UE-6FG-Event,
	event6g								UE-6FG-Event,
	event6h								UE-6HI-Event,
	event6i								UE-6HI-Event,
	spare7								NULL,
	spare6								NULL,
	spare5								NULL,
	spare4								NULL,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}


UE-InternalEventParamList ::=		SEQUENCE (SIZE (1..maxMeasEvent)) OF
										UE-InternalEventParam

UE-InternalEventParamList-r14 ::=	SEQUENCE (SIZE (1..maxMeasEvent)) OF
										UE-InternalEventParam-r14

UE-InternalEventResults ::=			CHOICE {
	event6a								NULL,
	event6b								NULL,
	event6c								NULL,
	event6d								NULL,
	event6e								NULL,
	event6f								PrimaryCPICH-Info,
	event6g								PrimaryCPICH-Info,
	ue-InternalEventResults-v30ext				UE-InternalEventResults-v30ext-IEs
}

UE-InternalEventResults-v30ext-IEs ::=	CHOICE {
	event6h								NULL,
	event6i								NULL,
	spare6								NULL,
	spare5								NULL,
	spare4								NULL,
	spare3								NULL,
    spare2								NULL,
	spare1								NULL
}

UE-InternalMeasQuantity ::=			SEQUENCE {
	measurementQuantity					UE-MeasurementQuantity,
	filterCoefficient					FilterCoefficient					DEFAULT fc0
}

UE-InternalMeasQuantity-r14 ::=		SEQUENCE {
	measurementQuantity					UE-MeasurementQuantity-r14,
	filterCoefficient					FilterCoefficient					DEFAULT fc0
}

UE-InternalMeasuredResults ::=		SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			ue-TransmittedPowerFDD				UE-TransmittedPower			OPTIONAL,
			ue-RX-TX-ReportEntryList			UE-RX-TX-ReportEntryList	OPTIONAL
		},
		tdd									SEQUENCE {
			ue-TransmittedPowerTDD-List			UE-TransmittedPowerTDD-List	OPTIONAL,
			appliedTA							UL-TimingAdvance			OPTIONAL
		}
	}
}

UE-InternalMeasuredResults-ve30ext ::=	SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			ue-powerheadroom					UE-PowerHeadroom			OPTIONAL
		},
		tdd								NULL
	}
}

UE-InternalMeasuredResults-LCR-r4 ::=	SEQUENCE {
		ue-TransmittedPowerTDD-List			UE-TransmittedPowerTDD-List		OPTIONAL,
		-- If TA value is not greater than 2047, then use this IE to report.
		t-ADVinfo							T-ADVinfo						OPTIONAL
}

UE-InternalMeasuredResults-v770ext ::= SEQUENCE {
	modeSpecificInfo					CHOICE {
		tdd384-768							SEQUENCE {
			appliedTA							EXT-UL-TimingAdvance		OPTIONAL
		},
		tdd128								SEQUENCE {
			-- If TA value is greater than 2047, then use this IE to report
			t-ADVinfo							T-ADVinfo-ext				OPTIONAL
		}
	}
}

UE-InternalMeasurement ::=			SEQUENCE {
	ue-InternalMeasQuantity				UE-InternalMeasQuantity				OPTIONAL,
	ue-InternalReportingQuantity		UE-InternalReportingQuantity		OPTIONAL,
	reportCriteria						UE-InternalReportCriteria
}

UE-InternalMeasurement-r4 ::=		SEQUENCE {
	ue-InternalMeasQuantity				UE-InternalMeasQuantity				OPTIONAL,
	ue-InternalReportingQuantity		UE-InternalReportingQuantity-r4		OPTIONAL,
	reportCriteria						UE-InternalReportCriteria
}

UE-InternalMeasurement-r14 ::=		SEQUENCE {
	ue-InternalMeasQuantity				UE-InternalMeasQuantity-r14			OPTIONAL,
	ue-InternalReportingQuantity		UE-InternalReportingQuantity-r14	OPTIONAL,
	reportCriteria						UE-InternalReportCriteria-r14
}

UE-InternalMeasurementSysInfo ::= 	SEQUENCE {
	ue-InternalMeasurementID			MeasurementIdentity			DEFAULT 5,
	ue-InternalMeasQuantity				UE-InternalMeasQuantity
}

UE-InternalReportCriteria ::=		CHOICE {
	ue-InternalReportingCriteria		UE-InternalReportingCriteria,
	periodicalReportingCriteria			PeriodicalReportingCriteria,
	noReporting							NULL
}

UE-InternalReportCriteria-r14 ::=	CHOICE {
	ue-InternalReportingCriteria		UE-InternalReportingCriteria-r14,
	periodicalReportingCriteria			PeriodicalReportingCriteria,
	noReporting							NULL
}

UE-InternalReportingCriteria ::=	SEQUENCE {
	ue-InternalEventParamList			UE-InternalEventParamList			OPTIONAL
}

UE-InternalReportingCriteria-r14 ::=	SEQUENCE {
	ue-InternalEventParamList				UE-InternalEventParamList-r14			OPTIONAL
}

UE-InternalReportingQuantity ::=	SEQUENCE {
	ue-TransmittedPower					BOOLEAN,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			ue-RX-TX-TimeDifference				BOOLEAN
		},
		tdd									SEQUENCE {
			appliedTA							BOOLEAN
		}
	}
}

UE-InternalReportingQuantity-r4 ::=	SEQUENCE {
	ue-TransmittedPower					BOOLEAN,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			ue-RX-TX-TimeDifference				BOOLEAN
		},
		tdd									SEQUENCE {
			tddOption							CHOICE {
			-- appliedTA applies to both 3.84 Mcps TDD and to 7.68 Mcps TDD.
			-- Therefore, no additional choice of TDD mode is necessary
				tdd384								SEQUENCE {
					appliedTA							BOOLEAN
				},
				tdd128								SEQUENCE {
					t-ADVinfo							BOOLEAN
				}
			}
		}
	}
}

UE-InternalReportingQuantity-r14 ::=	SEQUENCE {
	ue-TransmittedPower					BOOLEAN,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			ue-RX-TX-TimeDifference				BOOLEAN,
			ue-powerheadroom					BOOLEAN
		},
		tdd									SEQUENCE {
			tddOption							CHOICE {
			-- appliedTA applies to both 3.84 Mcps TDD and to 7.68 Mcps TDD.
			-- Therefore, no additional choice of TDD mode is necessary
				tdd384								SEQUENCE {
					appliedTA							BOOLEAN
				},
				tdd128								SEQUENCE {
					t-ADVinfo							BOOLEAN
				}
			}
		}
	}
}

-- TABULAR: UE-MeasurementQuantity, for 3.84 Mcps TDD only the first two values
-- ue-TransmittedPower and utra-Carrier-RSSI are used.
-- For 1.28 Mcps TDD ue-RX-TX-TimeDifference corresponds to T-ADV in the tabular
UE-MeasurementQuantity ::=			ENUMERATED {
										ue-TransmittedPower,
										utra-Carrier-RSSI,
										ue-RX-TX-TimeDifference }

UE-MeasurementQuantity-r14 ::=		ENUMERATED {
										ue-TransmittedPower,
										utra-Carrier-RSSI,
										ue-RX-TX-TimeDifference,
										ue-powerheadroom }

UE-PowerHeadroom ::=				INTEGER (0..31)

UE-PowerHeadroomThreshold ::=		INTEGER (-50..33)

UE-RX-TX-ReportEntry ::=			SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	ue-RX-TX-TimeDifferenceType1		UE-RX-TX-TimeDifferenceType1
}

UE-RX-TX-ReportEntryList ::=		SEQUENCE (SIZE (1..maxRL)) OF
										UE-RX-TX-ReportEntry

-- SPARE: UE-RX-TX-TimeDifferenceType1, Max = 1280
-- Values above Max are spare
UE-RX-TX-TimeDifferenceType1 ::=			INTEGER (768..1791)


UE-RX-TX-TimeDifferenceType2 ::=	INTEGER (0..8191)

UE-RX-TX-TimeDifferenceType2Info ::=	SEQUENCE {
	ue-RX-TX-TimeDifferenceType2			UE-RX-TX-TimeDifferenceType2,
	neighbourQuality						NeighbourQuality
}

-- In 1.28 Mcps TDD, actual value for
-- T-ADV Threshold = (UE-RX-TX-TimeDifferenceThreshold - 768) * 0.125
UE-RX-TX-TimeDifferenceThreshold ::= INTEGER (768..1280)

UE-TransmittedPower ::=				INTEGER (0..104)

UE-TransmittedPowerTDD-List ::=		SEQUENCE (SIZE (1..maxTS)) OF
										UE-TransmittedPower

UL-TrCH-Identity ::=					CHOICE{
	dch									TransportChannelIdentity,
	-- Note: the reference to CPCH in the element name below is incorrect. The name is not changed
	-- to keep it aligned with R99.
	rachorcpch							NULL,
	usch								TransportChannelIdentity
}

UE-Positioning-Accuracy ::=					BIT STRING (SIZE (7))

UE-Positioning-DBDSCorrections ::= SEQUENCE {
	bds-RefTime				INTEGER (0..119),	
	bds-DBDS-InfoList		DBDS-InfoList 
}

UE-Positioning-CipherParameters ::=			SEQUENCE {
	cipheringKeyFlag					BIT STRING (SIZE (1)),
	cipheringSerialNumber				INTEGER (0..65535)
}

UE-Positioning-DGANSSCorrections ::= SEQUENCE {
	dganssreferencetime					INTEGER (0..119),			-- scale factor 30s
	dganssInfoList						DGANSSInfoList
}

UE-Positioning-DGANSSCorrections-r9 ::= SEQUENCE {
	dganssreferencetime					INTEGER (0..119),			-- scale factor 30s
	dganssInfoList						DGANSSInfoList-r9
}

UE-Positioning-DGANSSCorrections-v920ext ::= SEQUENCE {
	dganssInfoList						DGANSSInfoList-v920ext
}

UE-Positioning-Error ::=			SEQUENCE {
	errorReason							UE-Positioning-ErrorCause,
	ue-positioning-GPS-additionalAssistanceDataRequest
										UE-Positioning-GPS-AdditionalAssistanceDataRequest	OPTIONAL
}

UE-Positioning-Error-r7 ::=			SEQUENCE {
	errorReason							UE-Positioning-ErrorCause-r7,
	ue-positioning-GPS-additionalAssistanceDataRequest
								UE-Positioning-GPS-AdditionalAssistanceDataRequest		OPTIONAL,
	ue-positioning-GANSS-additionalAssistanceDataRequest
								UE-Positioning-GANSS-AdditionalAssistanceDataRequest	OPTIONAL
}

UE-Positioning-Error-v860ext ::=	SEQUENCE {
	ue-positioning-GANSS-additionalAssistanceDataRequest
						UE-Positioning-GANSS-AdditionalAssistanceDataRequest-v860ext	OPTIONAL
}

UE-Positioning-Error-vc50ext ::=	SEQUENCE {
	ue-positioning-GANSS-additionalAssistanceDataRequest
						UE-Positioning-GANSS-AdditionalAssistanceDataRequest-vc50ext	OPTIONAL
}

UE-Positioning-ErrorCause ::=		ENUMERATED {
										notEnoughOTDOA-Cells,
										notEnoughGPS-Satellites,
										assistanceDataMissing,
										notAccomplishedGPS-TimingOfCellFrames,
										undefinedError,
										requestDeniedByUser,
										notProcessedAndTimeout,
										referenceCellNotServingCell }

UE-Positioning-ErrorCause-r7 ::=	ENUMERATED {
										notEnoughOTDOA-Cells,
										notEnoughGPS-Satellites,
										assistanceDataMissing,
										notAccomplishedGPS-TimingOfCellFrames,
										undefinedError,
										requestDeniedByUser,
										notProcessedAndTimeout,
										referenceCellNotServingCell,
										notEnoughGANSS-Satellites,
										notAccomplishedGANSS-TimingOfCellFrames,
										spare6, spare5, spare4, spare3, spare2, spare1 }

UE-Positioning-EventParam ::=					SEQUENCE {
	reportingAmount						ReportingAmount,
	reportFirstFix						BOOLEAN,
	measurementInterval					UE-Positioning-MeasurementInterval,
	eventSpecificInfo					UE-Positioning-EventSpecificInfo
}

UE-Positioning-EventParam-r7 ::=	SEQUENCE {
	reportingAmount						ReportingAmount,
	reportFirstFix						BOOLEAN,
	measurementInterval					UE-Positioning-MeasurementInterval,
	eventSpecificInfo					UE-Positioning-EventSpecificInfo-r7
}

UE-Positioning-EventParamList ::=				SEQUENCE (SIZE (1..maxMeasEvent)) OF
										UE-Positioning-EventParam

UE-Positioning-EventParamList-r7 ::= SEQUENCE (SIZE (1..maxMeasEvent)) OF
										UE-Positioning-EventParam-r7

UE-Positioning-EventSpecificInfo ::=			CHOICE {
	e7a									ThresholdPositionChange,
	e7b									ThresholdSFN-SFN-Change,
	e7c									ThresholdSFN-GPS-TOW
}

UE-Positioning-EventSpecificInfo-r7 ::= CHOICE {
	e7a									ThresholdPositionChange,
	e7b									ThresholdSFN-SFN-Change,
	e7c									ThresholdSFN-GPS-TOW-us,
	e7d									ThresholdSFN-GANSS-TOW
}

-- This IE, if included,  shall contain exactly one of the optional elements
UE-Positioning-GANSS-AddUTCModels ::= SEQUENCE {
	utcModel1							UTCmodelSet1							OPTIONAL,
	utcModel2							UTCmodelSet2							OPTIONAL,
	utcModel3							UTCmodelSet3							OPTIONAL
}

-- This IE, if included,  shall contain exactly one of the optional elements
UE-Positioning-GANSS-AddUTCModels-r12 ::= SEQUENCE {
	utcModel1							UTCmodelSet1							OPTIONAL,
	utcModel2							UTCmodelSet2							OPTIONAL,
	utcModel3							UTCmodelSet3							OPTIONAL,
	utcModel4							UTCmodelSet4							OPTIONAL
}

UE-Positioning-GANSS-AddUTCModels-vc50ext ::= SEQUENCE {
	utcModel4							UTCmodelSet4			OPTIONAL
}

UE-Positioning-GANSS-Almanac ::=	SEQUENCE{
	ganss-wk-number						INTEGER (0..255),
	alm-keplerianParameters				ALM-keplerianParameters					OPTIONAL
}

-- This IE, if included,  shall contain exactly one of the optional elements
UE-Positioning-GANSS-Almanac-v860ext ::= SEQUENCE {
	alm-keplerianNAVAlmanac	 			ALM-NAVKeplerianSet						OPTIONAL,
	alm-keplerianReducedAlmanac			ALM-ReducedKeplerianSet					OPTIONAL,
	alm-keplerianMidiAlmanac			ALM-MidiAlmanacSet						OPTIONAL,
	alm-keplerianGLONASS				ALM-GlonassAlmanacSet					OPTIONAL,
	alm-ecefSBASAlmanac					ALM-ECEFsbasAlmanacSet					OPTIONAL
}

UE-Positioning-GANSS-Almanac-r8 ::=	SEQUENCE{
	ganss-wk-number						INTEGER (0..255),
	alm-keplerianParameters				ALM-keplerianParameters					OPTIONAL,
	alm-keplerianNAVAlmanac	 			ALM-NAVKeplerianSet						OPTIONAL,
	alm-keplerianReducedAlmanac			ALM-ReducedKeplerianSet					OPTIONAL,
	alm-keplerianMidiAlmanac			ALM-MidiAlmanacSet						OPTIONAL,
	alm-keplerianGLONASS				ALM-GlonassAlmanacSet					OPTIONAL,
	alm-ecefSBASAlmanac					ALM-ECEFsbasAlmanacSet					OPTIONAL
}

UE-Positioning-GANSS-Almanac-va40ext ::= SEQUENCE {
	complete-Almanac-Provided			BOOLEAN									OPTIONAL
}

UE-Positioning-GANSS-Almanac-r10 ::=	SEQUENCE{
	ganss-wk-number						INTEGER (0..255),
	complete-Almanac-Provided			BOOLEAN									OPTIONAL,
	alm-keplerianParameters				ALM-keplerianParameters					OPTIONAL,
	alm-keplerianNAVAlmanac	 			ALM-NAVKeplerianSet						OPTIONAL,
	alm-keplerianReducedAlmanac			ALM-ReducedKeplerianSet					OPTIONAL,
	alm-keplerianMidiAlmanac			ALM-MidiAlmanacSet						OPTIONAL,
	alm-keplerianGLONASS				ALM-GlonassAlmanacSet					OPTIONAL,
	alm-ecefSBASAlmanac					ALM-ECEFsbasAlmanacSet					OPTIONAL
}

UE-Positioning-GANSS-Almanac-r12 ::=	SEQUENCE{
	ganss-wk-number						INTEGER (0..255),
	complete-Almanac-Provided			BOOLEAN									OPTIONAL,
	alm-keplerianParameters				ALM-keplerianParameters					OPTIONAL,
	alm-keplerianNAVAlmanac	 			ALM-NAVKeplerianSet						OPTIONAL,
	alm-keplerianReducedAlmanac			ALM-ReducedKeplerianSet					OPTIONAL,
	alm-keplerianMidiAlmanac				ALM-MidiAlmanacSet						OPTIONAL,
	alm-keplerianGLONASS					ALM-GlonassAlmanacSet					OPTIONAL,
	alm-ecefSBASAlmanac					ALM-ECEFsbasAlmanacSet					OPTIONAL,
	alm-keplerianBDSAlmanac				ALM-BDSKeplerianSet						OPTIONAL
}

UE-Positioning-GANSS-Almanac-vc50ext ::= SEQUENCE {
	alm-keplerianBDSAlmanac				ALM-BDSKeplerianSet			OPTIONAL
}

UE-Positioning-GANSS-AdditionalAssistanceDataRequest ::= SEQUENCE {
	ganssReferenceTime					BOOLEAN,
	ganssreferenceLocation				BOOLEAN,
	ganssIonosphericModel				BOOLEAN,
	ganssRequestedGenericAssistanceDataList	GanssRequestedGenericAssistanceDataList
}

UE-Positioning-GANSS-AdditionalAssistanceDataRequest-v860ext ::= SEQUENCE {
	ganssAddIonoModelReq				BIT STRING (SIZE (2))					OPTIONAL,
	ganssEOPreq							ENUMERATED { true }						OPTIONAL,
	ganssRequestedGenericAssistanceDataList
										GanssRequestedGenericAssistanceDataList-v860ext
}

UE-Positioning-GANSS-AdditionalAssistanceDataRequest-vc50ext ::= SEQUENCE {
	ganssRequestedGenericAssistanceDataList
										GanssRequestedGenericAssistanceDataList-vc50ext
}

UE-Positioning-GANSS-AddIonoModel ::= SEQUENCE {
	dataID								BIT STRING (SIZE (2)),
	alpha-beta-parameters				UE-Positioning-GPS-IonosphericModel
}

UE-Positioning-GANSS-AddNavigationModels ::= SEQUENCE {
	non-broadcastIndication				ENUMERATED { true }						OPTIONAL,
	ganssSatInfoNavList					Ganss-Sat-Info-AddNavList
}

UE-Positioning-GANSS-AddNavigationModels-r12 ::= SEQUENCE {
	non-broadcastIndication				ENUMERATED { true }						OPTIONAL,
	ganssSatInfoNavList					Ganss-Sat-Info-AddNavList-r12
}

UE-Positioning-GANSS-AddNavigationModels-vc50ext ::= SEQUENCE {
	ganssSatInfoNavList					Ganss-Sat-Info-AddNavList-vc50ext
}

UE-Positioning-GANSS-AssistanceData ::= SEQUENCE {
	ue-positioning-GANSS-ReferenceTime	UE-Positioning-GANSS-ReferenceTime		OPTIONAL,
	uePositioningGanssReferencePosition	ReferenceLocationGANSS					OPTIONAL,
	uePositioningGanssIonosphericModel	UE-Positioning-GANSS-IonosphericModel	OPTIONAL,
	ganssGenericDataList				GANSSGenericDataList					OPTIONAL
}

UE-Positioning-GANSS-AssistanceData-v860ext ::= SEQUENCE {
	uePositioningGanssAddIonoModel			UE-Positioning-GANSS-AddIonoModel		OPTIONAL,
	uePositioningGanssEarthOrientationPara	UE-Positioning-GANSS-EarthOrientPara	OPTIONAL,
	ganssGenericDataList					GANSSGenericDataList-v860ext			OPTIONAL
}

UE-Positioning-GANSS-AssistanceData-r8 ::= SEQUENCE {
	ue-positioning-GANSS-ReferenceTime	UE-Positioning-GANSS-ReferenceTime		OPTIONAL,
	uePositioningGanssReferencePosition	ReferenceLocationGANSS					OPTIONAL,
	uePositioningGanssIonosphericModel	UE-Positioning-GANSS-IonosphericModel	OPTIONAL,
	uePositioningGanssAddIonoModel		UE-Positioning-GANSS-AddIonoModel		OPTIONAL,
	uePositioningGanssEarthOrientationPara
										UE-Positioning-GANSS-EarthOrientPara	OPTIONAL,
	ganssGenericDataList				GANSSGenericDataList-r8					OPTIONAL
}

UE-Positioning-GANSS-AssistanceData-r9 ::= SEQUENCE {
	ue-positioning-GANSS-ReferenceTime	UE-Positioning-GANSS-ReferenceTime		OPTIONAL,
	uePositioningGanssReferencePosition	ReferenceLocationGANSS					OPTIONAL,
	uePositioningGanssIonosphericModel	UE-Positioning-GANSS-IonosphericModel	OPTIONAL,
	uePositioningGanssAddIonoModel		UE-Positioning-GANSS-AddIonoModel		OPTIONAL,
	uePositioningGanssEarthOrientationPara
										UE-Positioning-GANSS-EarthOrientPara	OPTIONAL,
	ganssGenericDataList				GANSSGenericDataList-r9					OPTIONAL
}

UE-Positioning-GANSS-AssistanceData-v920ext ::= SEQUENCE {
	ganssGenericDataList				GANSSGenericDataList-v920ext			OPTIONAL
}

UE-Positioning-GANSS-AssistanceData-va40ext ::= SEQUENCE {
	ue-positioning-GANSS-ReferenceTime	UE-Positioning-GANSS-ReferenceTime-va40ext	OPTIONAL,
	ganssGenericDataList				GANSSGenericDataList-va40ext				OPTIONAL
}

UE-Positioning-GANSS-AssistanceData-vc50ext ::= SEQUENCE {
	ganssGenericDataList				GANSSGenericDataList-vc50ext				OPTIONAL
}

UE-Positioning-GANSS-AssistanceData-r10 ::= SEQUENCE {
	ue-positioning-GANSS-ReferenceTime	UE-Positioning-GANSS-ReferenceTime-r10	OPTIONAL,
	uePositioningGanssReferencePosition	ReferenceLocationGANSS					OPTIONAL,
	uePositioningGanssIonosphericModel	UE-Positioning-GANSS-IonosphericModel	OPTIONAL,
	uePositioningGanssAddIonoModel		UE-Positioning-GANSS-AddIonoModel		OPTIONAL,
	uePositioningGanssEarthOrientationPara
										UE-Positioning-GANSS-EarthOrientPara	OPTIONAL,
	ganssGenericDataList				GANSSGenericDataList-r10				OPTIONAL
}

UE-Positioning-GANSS-AssistanceData-r12 ::= SEQUENCE {
	ue-positioning-GANSS-ReferenceTime		UE-Positioning-GANSS-ReferenceTime-r10	OPTIONAL,
	uePositioningGanssReferencePosition		ReferenceLocationGANSS					OPTIONAL,
	uePositioningGanssIonosphericModel		UE-Positioning-GANSS-IonosphericModel	OPTIONAL,
	uePositioningGanssAddIonoModel			UE-Positioning-GANSS-AddIonoModel		OPTIONAL,
	uePositioningGanssEarthOrientationPara	UE-Positioning-GANSS-EarthOrientPara	OPTIONAL,
	ganssGenericDataList					GANSSGenericDataList-r12				OPTIONAL
}

UE-Positioning-GANSS-AuxiliaryInfo ::= CHOICE {
	-- This choice may only be present if GANSS ID indicates Modernized GPS
	ganssID1	AuxInfoGANSS-ID1,
	-- This choice may only be present if GANSS ID indicates GLONASS
	ganssID3	AuxInfoGANSS-ID3
}

UE-Positioning-GANSS-ClockModel ::=	SEQUENCE {
	satellite-clock-modelList			Satellite-clock-modelList
}

-- This IE, if included,  shall contain exactly one of the optional elements
UE-Positioning-GANSS-AddClockModels ::= SEQUENCE {
	navClockModel			 			NAVclockModel							OPTIONAL,
	cnavClockModel			 			CNAVclockModel							OPTIONAL,
	glonassClockModel		 			GLONASSclockModel						OPTIONAL,
	sbasClockModel			 			SBASclockModel							OPTIONAL
}

-- This IE, if included,  shall contain exactly one of the optional elements
UE-Positioning-GANSS-AddClockModels-r12 ::= SEQUENCE {
	navClockModel			 			NAVclockModel							OPTIONAL,
	cnavClockModel			 			CNAVclockModel							OPTIONAL,
	glonassClockModel		 			GLONASSclockModel						OPTIONAL,
	sbasClockModel			 			SBASclockModel							OPTIONAL,
	bdsClockModel			 			BDSclockModel							OPTIONAL
}

UE-Positioning-GANSS-AddClockModels-vc50ext ::= SEQUENCE {
	bdsClockModel			 			BDSclockModel							OPTIONAL
}

-- This IE, if included, shall contain exactly one of the optional elements
UE-Positioning-GANSS-AddOrbitModels ::= SEQUENCE {
	navKeplerianSet	 					NavModel-NAVKeplerianSet				OPTIONAL,
	cnavKeplerianSet					NavModel-CNAVKeplerianSet				OPTIONAL,
	glonassECEF							NavModel-GLONASSecef					OPTIONAL,
	sbasECEF							NavModel-SBASecef						OPTIONAL
}

UE-Positioning-GANSS-AddOrbitModels-r12 ::= SEQUENCE {
	navKeplerianSet	 				NavModel-NAVKeplerianSet					OPTIONAL,
	cnavKeplerianSet				NavModel-CNAVKeplerianSet					OPTIONAL,
	glonassECEF						NavModel-GLONASSecef						OPTIONAL,
	sbasECEF						NavModel-SBASecef							OPTIONAL,
	bdsKeplerianSet					NavModel-BDSKeplerianSet					OPTIONAL
}

UE-Positioning-GANSS-AddOrbitModels-vc50ext ::= SEQUENCE {
	bdsKeplerianSet					NavModel-BDSKeplerianSet					OPTIONAL
}

UE-Positioning-GANSS-Data ::=		SEQUENCE {
	ganssDataCipheringInfo				UE-Positioning-CipherParameters			OPTIONAL,
	ganssDecipheringKeys				GANSSDecipheringKeys					OPTIONAL,
	uePositioningGanssReferenceTime		UE-Positioning-GANSS-ReferenceTime		OPTIONAL,
	uePositioningGanssReferencePosition	ReferenceLocationGANSS					OPTIONAL,
	uePositioningGanssIonosphericModel	UE-Positioning-GANSS-IonosphericModel	OPTIONAL,
	ganssGenericDataList				GANSSGenericDataList					OPTIONAL
}

UE-Positioning-GANSS-Data-Bit-Assistance ::= SEQUENCE {
	ganss-tod							INTEGER (0..59),
	dataBitAssistanceList				DataBitAssistanceList
}

UE-Positioning-GANSS-EarthOrientPara ::= SEQUENCE {
	teop								BIT STRING (SIZE (16)),
	pmX									BIT STRING (SIZE (21)),
	pmXdot								BIT STRING (SIZE (15)),
	pmY									BIT STRING (SIZE (21)),
	pmYdot								BIT STRING (SIZE (15)),
	deltaUT1							BIT STRING (SIZE (31)),
	deltaUT1dot							BIT STRING (SIZE (19))
}

UE-Positioning-GANSS-IonosphericModel ::= SEQUENCE {
	alpha-zero-ionos					BIT STRING (SIZE (11)),
	alpha-one-ionos						BIT STRING (SIZE (11)),
	alpha-two-ionos						BIT STRING (SIZE (14)),
	gANSS-storm-flags					GANSS-Storm-Flag					OPTIONAL
}

UE-Positioning-BDS-IonoGridModel ::= SEQUENCE {
-- Actual value bds-RefTime = ((30..3600) / 30) - 1.
	bds-RefTime					INTEGER (0..119),
	bds-IGPInfoList				BDS-IGPInfoList
}

UE-Positioning-GANSS-MeasuredResults ::= SEQUENCE {
	referenceTime						CHOICE {
		utran-GANSSReferenceTimeResult		UTRAN-GANSSReferenceTime,
		ganssReferenceTimeOnly				GANSSReferenceTimeOnly
	},
	ganssGenericMeasurementInfo			GANSSGenericMeasurementInfo
}

UE-Positioning-GANSS-MeasuredResults-v860ext ::= SEQUENCE {
	ganssGenericMeasurementInfo			GANSSGenericMeasurementInfo-v860ext
}

UE-Positioning-GANSS-NavigationModel ::= SEQUENCE {
	non-broadcastIndication				ENUMERATED { true }					OPTIONAL,
	ganssSatInfoNavList					Ganss-Sat-Info-NavList
}

UE-Positioning-GANSS-OrbitModel ::=	SEQUENCE {
	keplerianParameters					KeplerianParameters					OPTIONAL
}

UE-Positioning-GANSS-RealTimeIntegrity ::= SEQUENCE (SIZE (1..maxGANSSSat)) OF SEQUENCE {
	bad-ganss-satId						INTEGER (0..63),
	bad-ganss-signalId					BIT STRING (SIZE (8))				OPTIONAL
}

UE-Positioning-GANSS-ReferenceMeasurementInfo ::= SEQUENCE {
	ganssSignalId						GANSS-Signal-Id						OPTIONAL,
	satelliteInformationList			GANSSSatelliteInformationList
}

UE-Positioning-GANSS-ReferenceMeasurementInfo-va40ext ::= SEQUENCE {
	satelliteInformationList			GANSSSatelliteInformationList-va40ext
}

UE-Positioning-GANSS-ReferenceMeasurementInfo-r10 ::= SEQUENCE {
	ganssSignalId						GANSS-Signal-Id						OPTIONAL,
	satelliteInformationList			GANSSSatelliteInformationList-r10
}

UE-Positioning-GANSS-ReferenceMeasurementInfo-vc50ext ::= SEQUENCE {
	confidence							INTEGER (0..100)					OPTIONAL,
	satelliteInformationList			GANSSSatelliteInformationList-vc50ext
}

UE-Positioning-GANSS-ReferenceMeasurementInfo-r12 ::= SEQUENCE {
	ganssSignalId						GANSS-Signal-Id						OPTIONAL,
	confidence							INTEGER (0..100)					OPTIONAL,
	satelliteInformationList			GANSSSatelliteInformationList-r12
}

UE-Positioning-GANSS-ReferenceTime ::= SEQUENCE {
	ganssDay							INTEGER (0..8191)					OPTIONAL,
	ganssTod							INTEGER (0..86399),
	ganssTodUncertainty					INTEGER (0..127)					OPTIONAL,
	ganssTimeId							INTEGER (0..7)						OPTIONAL,
	utran-ganssreferenceTime			SEQUENCE {
		timingOfCellFrames					INTEGER (0..3999999),
		mode									CHOICE {
			fdd										SEQUENCE {
				primary-CPICH-Info						PrimaryCPICH-Info
			},
			tdd										SEQUENCE {
				cellParameters							CellParametersID
			}
		},
		referenceSfn						INTEGER (0..4095)
	}		OPTIONAL,
	tutran-ganss-driftRate				Tutran-Ganss-DriftRate				OPTIONAL
}

UE-Positioning-GANSS-ReferenceTime-va40ext ::= SEQUENCE {
	ganss-Day-Cycle-Number				INTEGER (0..7)						OPTIONAL
}

UE-Positioning-GANSS-ReferenceTime-r10 ::= SEQUENCE {
	ganssDay							INTEGER (0..8191)					OPTIONAL,
	ganss-Day-Cycle-Number				INTEGER (0..7)						OPTIONAL,
	ganssTod							INTEGER (0..86399),
	ganssTodUncertainty					INTEGER (0..127)					OPTIONAL,
	ganssTimeId							INTEGER (0..7)						OPTIONAL,
	utran-ganssreferenceTime			SEQUENCE {
		timingOfCellFrames					INTEGER (0..3999999),
		mode									CHOICE {
			fdd										SEQUENCE {
				primary-CPICH-Info						PrimaryCPICH-Info
			},
			tdd										SEQUENCE {
				cellParameters							CellParametersID
			}
		},
		referenceSfn						INTEGER (0..4095)
	}		OPTIONAL,
	tutran-ganss-driftRate				Tutran-Ganss-DriftRate				OPTIONAL
}

UE-Positioning-GANSS-SBAS-ID ::=	ENUMERATED {
										waas,
										egnos,
										msas,
										gagan,
										spare4,
										spare3,
										spare2,
										spare1 }

UE-Positioning-GANSS-TimeModel ::=	SEQUENCE {
	ganss-timeModelreferenceTime		INTEGER (0..37799),						-- scale factor 16s
	ganss-t-a0							INTEGER (-2147483648..2147483647),		-- scale factor 2-35
	-- 'ganss-t-al' scale factor 2-51
	ganss-t-a1							INTEGER (-8388608..8388607)			OPTIONAL,
	-- 'ganss-t-a2' scale factor 2-68
	ganss-t-a2							INTEGER (-64..63)					OPTIONAL,
	gnss-to-id							ENUMERATED { gps, galileo, qzss,
											glonass, spare4, spare3, spare2, spare1 },
	ganss-wk-number						INTEGER (0..8191)					OPTIONAL
}

UE-Positioning-GANSS-TimeModel-va40ext ::= SEQUENCE {
	deltaT								INTEGER (-128..127)					OPTIONAL
}

UE-Positioning-GANSS-TimeModel-r10 ::=	SEQUENCE {
	ganss-timeModelreferenceTime		INTEGER (0..37799),						-- scale factor 16s
	ganss-t-a0							INTEGER (-2147483648..2147483647),		-- scale factor 2-35
	-- 'ganss-t-al' scale factor 2-51
	ganss-t-a1							INTEGER (-8388608..8388607)			OPTIONAL,
	-- 'ganss-t-a2' scale factor 2-68
	ganss-t-a2							INTEGER (-64..63)					OPTIONAL,
	gnss-to-id							ENUMERATED { gps, galileo, qzss,
											glonass, bds, spare3, spare2, spare1 },
	ganss-wk-number						INTEGER (0..8191)					OPTIONAL,
	deltaT								INTEGER (-128..127)					OPTIONAL
}

UE-Positioning-GANSS-TimeModels ::= SEQUENCE (SIZE (1..maxGANSS-1)) OF
										UE-Positioning-GANSS-TimeModel

UE-Positioning-GANSS-TimeModels-va40ext ::= SEQUENCE (SIZE (1..maxGANSS-1)) OF
										UE-Positioning-GANSS-TimeModel-va40ext

UE-Positioning-GANSS-UTCModel ::=	SEQUENCE {
	a-one-utc							BIT STRING (SIZE (24)),
	a-zero-utc							BIT STRING (SIZE (32)),
	t-ot-utc							BIT STRING (SIZE (8)),
	delta-t-ls-utc						BIT STRING (SIZE (8)),
	w-n-t-utc							BIT STRING (SIZE (8)),
	w-n-lsf-utc							BIT STRING (SIZE (8)),
	dn-utc								BIT STRING (SIZE (8)),
	delta-t-lsf-utc						BIT STRING (SIZE (8))
}

UE-Positioning-GPS-AcquisitionAssistance ::=	SEQUENCE {
	gps-ReferenceTime					GPS-TOW-1msec,
	utran-GPSReferenceTime				UTRAN-GPSReferenceTime			OPTIONAL,
	satelliteInformationList			AcquisitionSatInfoList
}

UE-Positioning-GPS-AcquisitionAssistance-v770ext ::= SEQUENCE {
	ue-Positioning-GPS-ReferenceTimeUncertainty
										UE-Positioning-GPS-ReferenceTimeUncertainty		OPTIONAL
}

UE-Positioning-GPS-AcquisitionAssistance-r7 ::= SEQUENCE {
	gps-ReferenceTime					GPS-TOW-1msec,
	utran-GPSReferenceTime				UTRAN-GPSReferenceTime			OPTIONAL,
	ue-Positioning-GPS-ReferenceTimeUncertainty
										UE-Positioning-GPS-ReferenceTimeUncertainty		OPTIONAL,
	satelliteInformationList			AcquisitionSatInfoList
}

UE-Positioning-GPS-AcquisitionAssistance-va40ext ::=	SEQUENCE {
	satelliteInformationList			AcquisitionSatInfoList-va40ext
}

UE-Positioning-GPS-AcquisitionAssistance-r10 ::= SEQUENCE {
	gps-ReferenceTime					GPS-TOW-1msec,
	utran-GPSReferenceTime				UTRAN-GPSReferenceTime			OPTIONAL,
	ue-Positioning-GPS-ReferenceTimeUncertainty
										UE-Positioning-GPS-ReferenceTimeUncertainty
																		OPTIONAL,
	satelliteInformationList			AcquisitionSatInfoList-r10
}

UE-Positioning-GPS-AcquisitionAssistance-vc50ext ::=	SEQUENCE {
	confidence							INTEGER (0..100)					OPTIONAL,
	satelliteInformationList			AcquisitionSatInfoList-vc50ext
}

UE-Positioning-GPS-AcquisitionAssistance-r12 ::= SEQUENCE {
	gps-ReferenceTime					GPS-TOW-1msec,
	utran-GPSReferenceTime				UTRAN-GPSReferenceTime			OPTIONAL,
	ue-Positioning-GPS-ReferenceTimeUncertainty
										UE-Positioning-GPS-ReferenceTimeUncertainty
																		OPTIONAL,
	confidence							INTEGER (0..100)				OPTIONAL,
	satelliteInformationList			AcquisitionSatInfoList-r12
}

UE-Positioning-GPS-AdditionalAssistanceDataRequest ::=		SEQUENCE {
	almanacRequest						BOOLEAN,
	utcModelRequest						BOOLEAN,
	ionosphericModelRequest				BOOLEAN,
	navigationModelRequest				BOOLEAN,
	dgpsCorrectionsRequest				BOOLEAN,
	referenceLocationRequest			BOOLEAN,
	referenceTimeRequest				BOOLEAN,
	aquisitionAssistanceRequest			BOOLEAN,
	realTimeIntegrityRequest			BOOLEAN,
	navModelAddDataRequest				UE-Positioning-GPS-NavModelAddDataReq		OPTIONAL
}

UE-Positioning-GPS-Almanac ::=					SEQUENCE {
	wn-a								BIT STRING (SIZE (8)),
	almanacSatInfoList					AlmanacSatInfoList,
	sv-GlobalHealth						BIT STRING (SIZE (364))				OPTIONAL
}

UE-Positioning-GPS-Almanac-va40ext ::=	SEQUENCE {
	complete-Almanac-Provided				BOOLEAN							OPTIONAL
}

UE-Positioning-GPS-Almanac-r10 ::= SEQUENCE {
	wn-a								BIT STRING (SIZE (8)),
	complete-Almanac-Provided			BOOLEAN								OPTIONAL,
	almanacSatInfoList					AlmanacSatInfoList,
	sv-GlobalHealth						BIT STRING (SIZE (364))				OPTIONAL
}

UE-Positioning-GPS-AssistanceData ::=	SEQUENCE {
	ue-positioning-GPS-ReferenceTime		UE-Positioning-GPS-ReferenceTime			OPTIONAL,
	ue-positioning-GPS-ReferenceLocation	ReferenceLocation							OPTIONAL,
	ue-positioning-GPS-DGPS-Corrections		UE-Positioning-GPS-DGPS-Corrections			OPTIONAL,
	ue-positioning-GPS-NavigationModel		UE-Positioning-GPS-NavigationModel			OPTIONAL,
	ue-positioning-GPS-IonosphericModel		UE-Positioning-GPS-IonosphericModel			OPTIONAL,
	ue-positioning-GPS-UTC-Model			UE-Positioning-GPS-UTC-Model				OPTIONAL,
	ue-positioning-GPS-Almanac				UE-Positioning-GPS-Almanac					OPTIONAL,
	ue-positioning-GPS-AcquisitionAssistance
											UE-Positioning-GPS-AcquisitionAssistance	OPTIONAL,
	ue-positioning-GPS-Real-timeIntegrity	BadSatList									OPTIONAL,
	-- dummy is not used in this version of the specification, it should
	-- not be sent and if received it should be ignored.
	dummy			UE-Positioning-GPS-ReferenceCellInfo		OPTIONAL
}

UE-Positioning-GPS-AssistanceData-v770ext ::= SEQUENCE {
	ue-positioning-GPS-ReferenceTime		UE-Positioning-GPS-ReferenceTime-v770ext	OPTIONAL,
	ue-positioning-GPS-AcquisitionAssistance
									UE-Positioning-GPS-AcquisitionAssistance-v770ext	OPTIONAL
}

UE-Positioning-GPS-AssistanceData-r7 ::= SEQUENCE {
	ue-positioning-GPS-ReferenceTime		UE-Positioning-GPS-ReferenceTime-r7			OPTIONAL,
	ue-positioning-GPS-ReferenceLocation	ReferenceLocation							OPTIONAL,
	ue-positioning-GPS-DGPS-Corrections		UE-Positioning-GPS-DGPS-Corrections			OPTIONAL,
	ue-positioning-GPS-NavigationModel		UE-Positioning-GPS-NavigationModel			OPTIONAL,
	ue-positioning-GPS-IonosphericModel		UE-Positioning-GPS-IonosphericModel			OPTIONAL,
	ue-positioning-GPS-UTC-Model			UE-Positioning-GPS-UTC-Model				OPTIONAL,
	ue-positioning-GPS-Almanac				UE-Positioning-GPS-Almanac					OPTIONAL,
	ue-positioning-GPS-AcquisitionAssistance
											UE-Positioning-GPS-AcquisitionAssistance-r7	OPTIONAL,
	ue-positioning-GPS-Real-timeIntegrity	BadSatList									OPTIONAL
}

UE-Positioning-GPS-AssistanceData-r9 ::= SEQUENCE {
	ue-positioning-GPS-ReferenceTime		UE-Positioning-GPS-ReferenceTime-r7			OPTIONAL,
	ue-positioning-GPS-ReferenceLocation	ReferenceLocation							OPTIONAL,
	ue-positioning-GPS-DGPS-Corrections		UE-Positioning-GPS-DGPS-Corrections-r9		OPTIONAL,
	ue-positioning-GPS-NavigationModel		UE-Positioning-GPS-NavigationModel			OPTIONAL,
	ue-positioning-GPS-IonosphericModel		UE-Positioning-GPS-IonosphericModel			OPTIONAL,
	ue-positioning-GPS-UTC-Model			UE-Positioning-GPS-UTC-Model				OPTIONAL,
	ue-positioning-GPS-Almanac				UE-Positioning-GPS-Almanac					OPTIONAL,
	ue-positioning-GPS-AcquisitionAssistance
											UE-Positioning-GPS-AcquisitionAssistance-r7	OPTIONAL,
	ue-positioning-GPS-Real-timeIntegrity	BadSatList									OPTIONAL
}

UE-Positioning-GPS-AssistanceData-v920ext ::= SEQUENCE {
	ue-positioning-GPS-DGPS-Corrections		UE-Positioning-GPS-DGPS-Corrections-v920ext	OPTIONAL
}

UE-Positioning-GPS-AssistanceData-va40ext ::= SEQUENCE {
	ue-positioning-GPS-ReferenceTime		UE-Positioning-GPS-ReferenceTime-va40ext	OPTIONAL,
	ue-positioning-GPS-Almanac				UE-Positioning-GPS-Almanac-va40ext			OPTIONAL,
	ue-positioning-GPS-AcquisitionAssistance
											UE-Positioning-GPS-AcquisitionAssistance-va40ext
																						OPTIONAL
}

UE-Positioning-GPS-AssistanceData-r10 ::=	SEQUENCE {
	ue-positioning-GPS-ReferenceTime		UE-Positioning-GPS-ReferenceTime-r10		OPTIONAL,
	ue-positioning-GPS-ReferenceLocation	ReferenceLocation							OPTIONAL,
	ue-positioning-GPS-DGPS-Corrections		UE-Positioning-GPS-DGPS-Corrections-r9		OPTIONAL,
	ue-positioning-GPS-NavigationModel		UE-Positioning-GPS-NavigationModel			OPTIONAL,
	ue-positioning-GPS-IonosphericModel		UE-Positioning-GPS-IonosphericModel			OPTIONAL,
	ue-positioning-GPS-UTC-Model			UE-Positioning-GPS-UTC-Model				OPTIONAL,
	ue-positioning-GPS-Almanac				UE-Positioning-GPS-Almanac-r10				OPTIONAL,
	ue-positioning-GPS-AcquisitionAssistance
											UE-Positioning-GPS-AcquisitionAssistance-r10
																						OPTIONAL,
	ue-positioning-GPS-Real-timeIntegrity	BadSatList									OPTIONAL
} 

UE-Positioning-GPS-AssistanceData-vc50ext ::= SEQUENCE {
	ue-positioning-GPS-AcquisitionAssistance
											UE-Positioning-GPS-AcquisitionAssistance-vc50ext
																						OPTIONAL
}

UE-Positioning-GPS-AssistanceData-r12 ::=	SEQUENCE {
	ue-positioning-GPS-ReferenceTime		UE-Positioning-GPS-ReferenceTime-r10		OPTIONAL,
	ue-positioning-GPS-ReferenceLocation	ReferenceLocation							OPTIONAL,
	ue-positioning-GPS-DGPS-Corrections		UE-Positioning-GPS-DGPS-Corrections-r9		OPTIONAL,
	ue-positioning-GPS-NavigationModel		UE-Positioning-GPS-NavigationModel			OPTIONAL,
	ue-positioning-GPS-IonosphericModel		UE-Positioning-GPS-IonosphericModel			OPTIONAL,
	ue-positioning-GPS-UTC-Model			UE-Positioning-GPS-UTC-Model				OPTIONAL,
	ue-positioning-GPS-Almanac				UE-Positioning-GPS-Almanac-r10				OPTIONAL,
	ue-positioning-GPS-AcquisitionAssistance
											UE-Positioning-GPS-AcquisitionAssistance-r12
																						OPTIONAL,
	ue-positioning-GPS-Real-timeIntegrity	BadSatList									OPTIONAL
}

UE-Positioning-GPS-DGPS-Corrections ::=		SEQUENCE {
	gps-TOW								GPS-TOW-1sec,
	statusHealth						DiffCorrectionStatus,
	dgps-CorrectionSatInfoList			DGPS-CorrectionSatInfoList
}

UE-Positioning-GPS-DGPS-Corrections-r9 ::=		SEQUENCE {
	gps-TOW								GPS-TOW-1sec,
	statusHealth						DiffCorrectionStatus,
	dgps-CorrectionSatInfoList			DGPS-CorrectionSatInfoList-r9
}

UE-Positioning-GPS-DGPS-Corrections-v920ext ::=	SEQUENCE {
	dgps-CorrectionSatInfoList			DGPS-CorrectionSatInfoList-v920ext
}

UE-Positioning-GPS-IonosphericModel ::=		SEQUENCE {
	alpha0								BIT STRING (SIZE (8)),
	alpha1								BIT STRING (SIZE (8)),
	alpha2								BIT STRING (SIZE (8)),
	alpha3								BIT STRING (SIZE (8)),
	beta0								BIT STRING (SIZE (8)),
	beta1								BIT STRING (SIZE (8)),
	beta2								BIT STRING (SIZE (8)),
	beta3								BIT STRING (SIZE (8))
}

UE-Positioning-GPS-MeasurementResults ::=		SEQUENCE {
	referenceTime						CHOICE {
		utran-GPSReferenceTimeResult		UTRAN-GPSReferenceTimeResult,
		gps-ReferenceTimeOnly				GPS-TOW-1msec
	},
	gps-MeasurementParamList			GPS-MeasurementParamList
}

UE-Positioning-GPS-MeasurementResults-v770ext ::= SEQUENCE {
	ue-Positioning-GPS-ReferenceTimeUncertainty
										UE-Positioning-GPS-ReferenceTimeUncertainty		OPTIONAL
}

UE-Positioning-GPS-NavigationModel ::=			SEQUENCE {
	navigationModelSatInfoList			NavigationModelSatInfoList
}

UE-Positioning-GPS-NavModelAddDataReq ::=		SEQUENCE {
	gps-Week							INTEGER (0..1023),
	-- SPARE: gps-Toe, Max = 167
	-- Values above Max are spare
	gps-Toe								INTEGER (0..255),
	-- SPARE: tToeLimit, Max = 10
	-- Values above Max are spare
	tToeLimit							INTEGER (0..15),
	satDataList							SatDataList
}

UE-Positioning-GPS-ReferenceCellInfo ::=		SEQUENCE{
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			referenceIdentity				PrimaryCPICH-Info
		},
		tdd								SEQUENCE {
			referenceIdentity				CellParametersID
		}
	}
}

UE-Positioning-GPS-ReferenceTime ::= SEQUENCE {
	gps-Week							INTEGER (0..1023),
	gps-tow-1msec						GPS-TOW-1msec,
	utran-GPSReferenceTime				UTRAN-GPSReferenceTime				OPTIONAL,
	sfn-tow-Uncertainty					SFN-TOW-Uncertainty					OPTIONAL,
	utran-GPS-DriftRate					UTRAN-GPS-DriftRate					OPTIONAL,
	gps-TOW-AssistList					GPS-TOW-AssistList					OPTIONAL
}

UE-Positioning-GPS-ReferenceTime-v770ext ::= SEQUENCE {
	ue-Positioning-GPS-ReferenceTimeUncertainty
										UE-Positioning-GPS-ReferenceTimeUncertainty		OPTIONAL
}

UE-Positioning-GPS-ReferenceTime-r7 ::= SEQUENCE {
	gps-Week							INTEGER (0..1023),
	gps-tow-1msec						GPS-TOW-1msec,
	utran-GPSReferenceTime				UTRAN-GPSReferenceTime				OPTIONAL,
	ue-Positioning-GPS-ReferenceTimeUncertainty
										UE-Positioning-GPS-ReferenceTimeUncertainty		OPTIONAL,
	sfn-tow-Uncertainty					SFN-TOW-Uncertainty					OPTIONAL,
	utran-GPS-DriftRate					UTRAN-GPS-DriftRate					OPTIONAL,
	gps-TOW-AssistList					GPS-TOW-AssistList					OPTIONAL
}

UE-Positioning-GPS-ReferenceTime-va40ext ::= SEQUENCE {
	gps-Week-Cycle-Number				INTEGER (0..7)						OPTIONAL
}

UE-Positioning-GPS-ReferenceTime-r10 ::= SEQUENCE {
	gps-Week							INTEGER (0..1023),
	gps-Week-Cycle-Number				INTEGER (0..7)						OPTIONAL,
	gps-tow-1msec						GPS-TOW-1msec,
	utran-GPSReferenceTime				UTRAN-GPSReferenceTime				OPTIONAL,
	ue-Positioning-GPS-ReferenceTimeUncertainty
										UE-Positioning-GPS-ReferenceTimeUncertainty
																			OPTIONAL,
	sfn-tow-Uncertainty					SFN-TOW-Uncertainty					OPTIONAL,
	utran-GPS-DriftRate					UTRAN-GPS-DriftRate					OPTIONAL,
	gps-TOW-AssistList					GPS-TOW-AssistList					OPTIONAL
}

UE-Positioning-GPS-ReferenceTimeUncertainty ::= INTEGER (0..127)

UE-Positioning-GPS-UTC-Model ::=				SEQUENCE {
	a1									BIT STRING (SIZE (24)),
	a0									BIT STRING (SIZE (32)),
	t-ot								BIT STRING (SIZE (8)),
	wn-t								BIT STRING (SIZE (8)),
	delta-t-LS							BIT STRING (SIZE (8)),
	wn-lsf								BIT STRING (SIZE (8)),
	dn									BIT STRING (SIZE (8)),
	delta-t-LSF							BIT STRING (SIZE (8))
}

UE-Positioning-IPDL-Parameters ::=				SEQUENCE {
	ip-Spacing							IP-Spacing,
	ip-Length							IP-Length,
	ip-Offset							INTEGER (0..9),
	seed								INTEGER (0..63),
	burstModeParameters					BurstModeParameters 		OPTIONAL
}

UE-Positioning-IPDL-Parameters-r4 ::=			SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			ip-Spacing							IP-Spacing,
			ip-Length							IP-Length,
			ip-Offset							INTEGER (0..9),
			seed								INTEGER (0..63)
		},
		tdd									SEQUENCE {
			ip-Spacing-TDD						IP-Spacing-TDD,
			ip-slot								INTEGER (0..14),
			ip-Start							INTEGER (0..4095),
			ip-PCCPCG							IP-PCCPCH-r4			OPTIONAL
		}
	},
	burstModeParameters					BurstModeParameters				OPTIONAL
}

UE-Positioning-IPDL-Parameters-TDD-r4-ext ::=	SEQUENCE {
	ip-Spacing							IP-Spacing-TDD,
	ip-slot								INTEGER (0..14),
	ip-Start							INTEGER (0..4095),
	ip-PCCPCG							IP-PCCPCH-r4					OPTIONAL,
	burstModeParameters					BurstModeParameters
}

UE-Positioning-MeasuredResults ::=		SEQUENCE {
	ue-positioning-OTDOA-Measurement		UE-Positioning-OTDOA-Measurement			OPTIONAL,
	-- Extended 'ue-positioning-PositionEstimateInfo' information may be provided using IE 
	-- 'UE-Positioning-PositionEstimateInfo-v770ext' in IE 'UE-Positioning-MeasuredResults-v770ext'.
	ue-positioning-PositionEstimateInfo		UE-Positioning-PositionEstimateInfo			OPTIONAL,
	ue-positioning-GPS-Measurement			UE-Positioning-GPS-MeasurementResults		OPTIONAL,
	-- The 'ue-positioning-Error' information may be provided using IE 'UE-Positioning-Error-r7' in
	-- IE 'UE-Positioning-MeasuredResults-v770ext'.
	-- If IE 'UE-Positioning-Error-r7' is present, the corresponding IE 'UE-Positioning-Error' shall
	-- be excluded.
	ue-positioning-Error					UE-Positioning-Error						OPTIONAL
}

UE-Positioning-MeasuredResults-v770ext ::= SEQUENCE {
	ue-positioning-PositionEstimateInfo		UE-Positioning-PositionEstimateInfo-v770ext	OPTIONAL,
	ue-positioning-GPS-Measurement			UE-Positioning-GPS-MeasurementResults-v770ext
																						OPTIONAL,
	ue-positioning-Error					UE-Positioning-Error-r7						OPTIONAL,
	ue-positioning-Ganss-MeasuredResults	UE-Positioning-GANSS-MeasuredResults		OPTIONAL
}

UE-Positioning-MeasuredResults-v390ext ::=		SEQUENCE {
	ue-Positioning-OTDOA-Measurement-v390ext		UE-Positioning-OTDOA-Measurement-v390ext
}

UE-Positioning-MeasuredResults-v860ext ::= SEQUENCE {
	ue-positioning-Error					UE-Positioning-Error-v860ext				OPTIONAL,
	ue-positioning-Ganss-MeasurementResults	UE-Positioning-GANSS-MeasuredResults-v860ext	OPTIONAL
}

UE-Positioning-MeasuredResults-vc50ext ::= SEQUENCE {
	ue-positioning-Error					UE-Positioning-Error-vc50ext				OPTIONAL
}

UE-Positioning-MeasuredResults-vd20ext ::= SEQUENCE {
	ue-positioning-AddPos-MeasurementResults	UE-Positioning-AddPos-MeasuredResults	OPTIONAL,
	ue-positioning-PositionEstimateInfo		UE-Positioning-PositionEstimateInfo-vd20ext
																						OPTIONAL
}

UE-Positioning-Measurement ::=			SEQUENCE {
	ue-positioning-ReportingQuantity		UE-Positioning-ReportingQuantity,
	reportCriteria							UE-Positioning-ReportCriteria,
	ue-positioning-OTDOA-AssistanceData		UE-Positioning-OTDOA-AssistanceData			OPTIONAL,
	ue-positioning-GPS-AssistanceData		UE-Positioning-GPS-AssistanceData				OPTIONAL
}

UE-Positioning-Measurement-v390ext ::=	SEQUENCE {
	ue-positioning-ReportingQuantity-v390ext
											UE-Positioning-ReportingQuantity-v390ext	OPTIONAL,
	measurementValidity						MeasurementValidity							OPTIONAL,
	ue-positioning-OTDOA-AssistanceData-UEB	UE-Positioning-OTDOA-AssistanceData-UEB		OPTIONAL
}

UE-Positioning-Measurement-r4 ::=		SEQUENCE {
	ue-positioning-ReportingQuantity		UE-Positioning-ReportingQuantity-r4,
	measurementValidity						MeasurementValidity						OPTIONAL,
	reportCriteria							UE-Positioning-ReportCriteria,
	ue-positioning-OTDOA-AssistanceData		UE-Positioning-OTDOA-AssistanceData-r4	OPTIONAL,
	ue-positioning-GPS-AssistanceData		UE-Positioning-GPS-AssistanceData		OPTIONAL
}

UE-Positioning-Measurement-r7 ::=		SEQUENCE {
	ue-positioning-ReportingQuantity		UE-Positioning-ReportingQuantity-r7,
	measurementValidity						MeasurementValidity						OPTIONAL,
	reportCriteria							UE-Positioning-ReportCriteria-r7,
	ue-positioning-OTDOA-AssistanceData		UE-Positioning-OTDOA-AssistanceData-r7	OPTIONAL,
	ue-positioning-GPS-AssistanceData		UE-Positioning-GPS-AssistanceData-r7	OPTIONAL,
	ue-positioning-GANSS-AssistanceData		UE-Positioning-GANSS-AssistanceData		OPTIONAL
}

UE-Positioning-Measurement-r8 ::=		SEQUENCE {
	ue-positioning-ReportingQuantity		UE-Positioning-ReportingQuantity-r8,
	measurementValidity						MeasurementValidity						OPTIONAL,
	reportCriteria							UE-Positioning-ReportCriteria-r7,
	ue-positioning-OTDOA-AssistanceData		UE-Positioning-OTDOA-AssistanceData-r7	OPTIONAL,
	ue-positioning-GPS-AssistanceData		UE-Positioning-GPS-AssistanceData-r7	OPTIONAL,
	ue-positioning-GANSS-AssistanceData		UE-Positioning-GANSS-AssistanceData-r8	OPTIONAL
}

UE-Positioning-Measurement-r9 ::=		SEQUENCE {
	ue-positioning-ReportingQuantity		UE-Positioning-ReportingQuantity-r8,
	measurementValidity						MeasurementValidity						OPTIONAL,
	reportCriteria							UE-Positioning-ReportCriteria-r7,
	ue-positioning-OTDOA-AssistanceData		UE-Positioning-OTDOA-AssistanceData-r7	OPTIONAL,
	ue-positioning-GPS-AssistanceData		UE-Positioning-GPS-AssistanceData-r9	OPTIONAL,
	ue-positioning-GANSS-AssistanceData		UE-Positioning-GANSS-AssistanceData-r9	OPTIONAL
}

UE-Positioning-Measurement-r10 ::=		SEQUENCE {
	ue-positioning-ReportingQuantity		UE-Positioning-ReportingQuantity-r8,
	measurementValidity						MeasurementValidity						OPTIONAL,
	reportCriteria							UE-Positioning-ReportCriteria-r7,
	ue-positioning-OTDOA-AssistanceData		UE-Positioning-OTDOA-AssistanceData-r7	OPTIONAL,
	ue-positioning-GPS-AssistanceData		UE-Positioning-GPS-AssistanceData-r10	OPTIONAL,
	ue-positioning-GANSS-AssistanceData		UE-Positioning-GANSS-AssistanceData-r10	OPTIONAL
}

UE-Positioning-Measurement-r12 ::=		SEQUENCE {
	ue-positioning-ReportingQuantity		UE-Positioning-ReportingQuantity-r8,
	measurementValidity						MeasurementValidity						OPTIONAL,
	reportCriteria							UE-Positioning-ReportCriteria-r7,
	ue-positioning-OTDOA-AssistanceData		UE-Positioning-OTDOA-AssistanceData-r7	OPTIONAL,
	ue-positioning-GPS-AssistanceData		UE-Positioning-GPS-AssistanceData-r12	OPTIONAL,
	ue-positioning-GANSS-AssistanceData		UE-Positioning-GANSS-AssistanceData-r12	OPTIONAL
}

UE-Positioning-Measurement-r13 ::=	SEQUENCE {
	ue-positioning-ReportingQuantity		UE-Positioning-ReportingQuantity-r13,
	measurementValidity					MeasurementValidity						OPTIONAL,
	reportCriteria							UE-Positioning-ReportCriteria-r7,
	ue-positioning-OTDOA-AssistanceData	UE-Positioning-OTDOA-AssistanceData-r7	OPTIONAL,
	ue-positioning-GPS-AssistanceData	UE-Positioning-GPS-AssistanceData-r12	OPTIONAL,
	ue-positioning-GANSS-AssistanceData	UE-Positioning-GANSS-AssistanceData-r12	OPTIONAL
}

UE-Positioning-MeasurementEventResults ::= CHOICE {
	-- In case of 'event7a' reporting, if IE 'UE-Positioning-PositionEstimateInfo' is not needed,
	-- CHOICE shall be set to 'additionalOrReplacedPosMeasEvent'and the 'event7a' shall be included
	-- in IE 'UE-Positioning-MeasurementEventResults-v770ext'.
	event7a								UE-Positioning-PositionEstimateInfo,
	event7b								UE-Positioning-OTDOA-Measurement,
	event7c								UE-Positioning-GPS-MeasurementResults,
	-- If CHOICE is set to 'additionalOrReplacedPosMeasEvent',
	-- IE 'UE-Positioning-MeasurementEventResults-v770ext' shall be present.
	additionalOrReplacedPosMeasEvent	NULL
}

UE-Positioning-MeasurementEventResults-v770ext ::= CHOICE {
	event7a								UE-Positioning-PositionEstimateInfo-v770ext,
	event7c								UE-Positioning-GPS-MeasurementResults-v770ext,
	event7d								UE-Positioning-GANSS-MeasuredResults,
	spare								NULL
}

UE-Positioning-MeasurementEventResults-v860ext ::= CHOICE {
	event7d								UE-Positioning-GANSS-MeasuredResults-v860ext
}

UE-Positioning-MeasurementInterval ::=			ENUMERATED {
										e5, e15, e60, e300,
										e900, e1800, e3600, e7200 }

UE-Positioning-MethodType ::=					ENUMERATED {
										ue-Assisted,
										ue-Based,
										ue-BasedPreferred,
										ue-AssistedPreferred }

UE-Positioning-OTDOA-AssistanceData ::=	SEQUENCE {
	ue-positioning-OTDOA-ReferenceCellInfo
										UE-Positioning-OTDOA-ReferenceCellInfo			OPTIONAL,
	ue-positioning-OTDOA-NeighbourCellList
										UE-Positioning-OTDOA-NeighbourCellList			OPTIONAL
}

UE-Positioning-OTDOA-AssistanceData-r4 ::= SEQUENCE {
	ue-positioning-OTDOA-ReferenceCellInfo
										UE-Positioning-OTDOA-ReferenceCellInfo-r4		OPTIONAL,
	ue-positioning-OTDOA-NeighbourCellList
										UE-Positioning-OTDOA-NeighbourCellList-r4		OPTIONAL
}

UE-Positioning-OTDOA-AssistanceData-r4ext ::= SEQUENCE {
	-- In case of TDD these IPDL parameters shall be used for the reference cell instead of
	-- IPDL Parameters in IE UE-Positioning-OTDOA-ReferenceCellInfo
	ue-Positioning-IPDL-Parameters-TDD-r4-ext
										UE-Positioning-IPDL-Parameters-TDD-r4-ext		OPTIONAL,
	-- These IPDL parameters shall be used for the neighbour cells in case of TDD instead of
	-- IPDL Parameters in IE UE-Positioning-OTDOA-NeighbourCellInfoList. The cells shall be 
	-- listed in the same order as in IE UE-Positioning-OTDOA-NeighbourCellInfoList
	ue-Positioning-IPDL-Parameters-TDDList-r4-ext
										UE-Positioning-IPDL-Parameters-TDDList-r4-ext	OPTIONAL
}

UE-Positioning-OTDOA-AssistanceData-UEB ::=		SEQUENCE {
	ue-positioning-OTDOA-ReferenceCellInfo-UEB
										UE-Positioning-OTDOA-ReferenceCellInfo-UEB		OPTIONAL,
	ue-positioning-OTDOA-NeighbourCellList-UEB
										UE-Positioning-OTDOA-NeighbourCellList-UEB		OPTIONAL
}

UE-Positioning-OTDOA-AssistanceData-UEB-ext ::=	SEQUENCE {
	ue-positioning-OTDOA-ReferenceCellInfo-UEB-ext
										UE-Positioning-OTDOA-ReferenceCellInfo-UEB-ext	OPTIONAL,
	ue-positioning-OTDOA-NeighbourCellList-UEB-ext
										UE-Positioning-OTDOA-NeighbourCellList-UEB-ext	OPTIONAL
}

UE-Positioning-OTDOA-AssistanceData-r7 ::= SEQUENCE {
	ue-positioning-OTDOA-ReferenceCellInfo	UE-Positioning-OTDOA-ReferenceCellInfo-r7	OPTIONAL,
	ue-positioning-OTDOA-NeighbourCellList	UE-Positioning-OTDOA-NeighbourCellList-r7	OPTIONAL
}

UE-Positioning-IPDL-Parameters-TDDList-r4-ext ::=	SEQUENCE (SIZE (1..maxCellMeas)) OF
											UE-Positioning-IPDL-Parameters-TDD-r4-ext

UE-Positioning-OTDOA-MeasuredResultsTDD-ext ::= SEQUENCE {
	neighbourList						NeighbourList-TDD-r7					OPTIONAL
}

UE-Positioning-OTDOA-Measurement ::=			SEQUENCE {
	sfn									INTEGER (0..4095),
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			referenceCellIDentity				PrimaryCPICH-Info,
			ue-RX-TX-TimeDifferenceType2Info	UE-RX-TX-TimeDifferenceType2Info
		},
		tdd									SEQUENCE {
			referenceCellIdentity			CellParametersID
		}
	},
	neighbourList						NeighbourList						OPTIONAL
}

UE-Positioning-OTDOA-Measurement-v390ext ::=			SEQUENCE {
	neighbourList-v390ext						NeighbourList-v390ext
}

UE-Positioning-OTDOA-NeighbourCellInfo ::= SEQUENCE {
	modeSpecificInfo	CHOICE	{
		fdd								SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info
		},
		tdd								SEQUENCE{
			cellAndChannelIdentity				CellAndChannelIdentity
		}
	},
	frequencyInfo						FrequencyInfo						OPTIONAL,
	ue-positioning-IPDL-Paremeters		UE-Positioning-IPDL-Parameters		OPTIONAL,
	sfn-SFN-RelTimeDifference			SFN-SFN-RelTimeDifference1,
	sfn-SFN-Drift						SFN-SFN-Drift						OPTIONAL,
	searchWindowSize					OTDOA-SearchWindowSize,
	positioningMode 	CHOICE{
		ueBased									SEQUENCE {},
		ueAssisted								SEQUENCE {}
	}
}

UE-Positioning-OTDOA-NeighbourCellInfo-r4 ::= SEQUENCE {
	modeSpecificInfo	CHOICE	{
		fdd								SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info
		},
		tdd								SEQUENCE{
			cellAndChannelIdentity				CellAndChannelIdentity
		}
	},
	frequencyInfo						FrequencyInfo						OPTIONAL,
	ue-positioning-IPDL-Paremeters		UE-Positioning-IPDL-Parameters-r4	OPTIONAL,
	sfn-SFN-RelTimeDifference			SFN-SFN-RelTimeDifference1,
	sfn-Offset-Validity					SFN-Offset-Validity					OPTIONAL,
	sfn-SFN-Drift						SFN-SFN-Drift						OPTIONAL,
	searchWindowSize					OTDOA-SearchWindowSize,
	positioningMode 	CHOICE {
		ueBased									SEQUENCE {
			relativeNorth						INTEGER (-20000..20000)				OPTIONAL,
			relativeEast						INTEGER (-20000..20000)				OPTIONAL,
			relativeAltitude					INTEGER (-4000..4000)				OPTIONAL,
			fineSFN-SFN							FineSFN-SFN							OPTIONAL,
			-- actual value roundTripTime = (IE value * 0.0625) + 876
			roundTripTime						INTEGER (0.. 32766)					OPTIONAL
		},
		ueAssisted								SEQUENCE {}
	}
}

UE-Positioning-OTDOA-NeighbourCellInfo-UEB ::= SEQUENCE {
	modeSpecificInfo	CHOICE	{
		fdd								SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info
		},
		tdd								SEQUENCE{
			cellAndChannelIdentity				CellAndChannelIdentity
		}
	},
	frequencyInfo						FrequencyInfo						OPTIONAL,
	ue-positioning-IPDL-Paremeters		UE-Positioning-IPDL-Parameters		OPTIONAL,
	sfn-SFN-RelTimeDifference			SFN-SFN-RelTimeDifference1,
	sfn-SFN-Drift						SFN-SFN-Drift						OPTIONAL,
	searchWindowSize					OTDOA-SearchWindowSize,
	relativeNorth						INTEGER (-20000..20000)				OPTIONAL,
	relativeEast						INTEGER (-20000..20000)				OPTIONAL,
	relativeAltitude					INTEGER (-4000..4000)				OPTIONAL,
	fineSFN-SFN							FineSFN-SFN,
	-- actual value roundTripTime = (IE value * 0.0625) + 876
	roundTripTime						INTEGER (0..32766)					OPTIONAL
}

UE-Positioning-OTDOA-NeighbourCellInfo-UEB-ext ::= SEQUENCE {
	-- actual value roundTripTimeExtension = (IE value * 0.0625)
	roundTripTimeExtension				INTEGER (0..70274)					OPTIONAL
}

UE-Positioning-OTDOA-NeighbourCellInfo-r7 ::= SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info
		},
		tdd									SEQUENCE{
			cellAndChannelIdentity				CellAndChannelIdentity
		}
	},
	frequencyInfo						FrequencyInfo						OPTIONAL,
	ue-positioning-IPDL-Paremeters		UE-Positioning-IPDL-Parameters-r4	OPTIONAL,
	sfn-SFN-RelTimeDifference			SFN-SFN-RelTimeDifference1,
	sfn-Offset-Validity					SFN-Offset-Validity					OPTIONAL,
	sfn-SFN-Drift						SFN-SFN-Drift						OPTIONAL,
	searchWindowSize					OTDOA-SearchWindowSize,
	positioningMode						CHOICE {
		ueBased								SEQUENCE {
			relativeNorth						INTEGER (-20000..20000)				OPTIONAL,
			relativeEast						INTEGER (-20000..20000)				OPTIONAL,
			relativeAltitude					INTEGER (-4000..4000)				OPTIONAL,
			fineSFN-SFN							FineSFN-SFN							OPTIONAL,
			-- actual value roundTripTime = (IE value * 0.0625) + 876
			roundTripTime						INTEGER (0.. 32766)					OPTIONAL,
			-- actual value roundTripTimeExtension = (IE value * 0.0625)
			roundTripTimeExtension				INTEGER (0..70274)					OPTIONAL
		},
		ueAssisted							SEQUENCE {}
	}
}

UE-Positioning-OTDOA-NeighbourCellList ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
											UE-Positioning-OTDOA-NeighbourCellInfo

UE-Positioning-OTDOA-NeighbourCellList-r4 ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
												UE-Positioning-OTDOA-NeighbourCellInfo-r4

UE-Positioning-OTDOA-NeighbourCellList-UEB ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
											UE-Positioning-OTDOA-NeighbourCellInfo-UEB

-- The order of the list corresponds to the order of UE-Positioning-OTDOA-NeighbourCellInfo-UEB
-- in UE-Positioning-OTDOA-NeighbourCellList-UEB
UE-Positioning-OTDOA-NeighbourCellList-UEB-ext ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
										UE-Positioning-OTDOA-NeighbourCellInfo-UEB-ext

UE-Positioning-OTDOA-NeighbourCellList-r7 ::= SEQUENCE (SIZE (1..maxCellMeas)) OF
												UE-Positioning-OTDOA-NeighbourCellInfo-r7

UE-Positioning-OTDOA-Quality ::=			SEQUENCE {
	stdResolution						BIT STRING (SIZE (2)),
	numberOfOTDOA-Measurements			BIT STRING (SIZE (3)),
	stdOfOTDOA-Measurements				BIT STRING (SIZE (5))
} 

UE-Positioning-OTDOA-ReferenceCellInfo ::=	SEQUENCE {
	sfn									INTEGER (0..4095)					OPTIONAL,
	modeSpecificInfo CHOICE {
		fdd										SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info
		},
		tdd										SEQUENCE{
			cellAndChannelIdentity				CellAndChannelIdentity
		}
	},
	frequencyInfo						FrequencyInfo						OPTIONAL,
	positioningMode CHOICE {
		ueBased									SEQUENCE {},
		ueAssisted								SEQUENCE {}
	},
	ue-positioning-IPDL-Paremeters				UE-Positioning-IPDL-Parameters	OPTIONAL
}

UE-Positioning-OTDOA-ReferenceCellInfo-r4 ::=	SEQUENCE {
	sfn									INTEGER (0..4095)					OPTIONAL,
	modeSpecificInfo CHOICE {
		fdd										SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info
		},
		tdd										SEQUENCE{
			cellAndChannelIdentity				CellAndChannelIdentity
		}
	},
	frequencyInfo						FrequencyInfo						OPTIONAL,
	positioningMode CHOICE {
		ueBased									SEQUENCE {
			cellPosition								ReferenceCellPosition	OPTIONAL,
			-- actual value roundTripTime = (IE value * 0.0625) + 876
			roundTripTime						INTEGER (0..32766)				OPTIONAL
		},
		ueAssisted								SEQUENCE {}
	},
	ue-positioning-IPDL-Paremeters				UE-Positioning-IPDL-Parameters-r4	OPTIONAL
}

UE-Positioning-OTDOA-ReferenceCellInfo-UEB ::=			SEQUENCE {
	sfn									INTEGER (0..4095)					OPTIONAL,
	modeSpecificInfo CHOICE {
		fdd										SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info
		},
		tdd										SEQUENCE{
			cellAndChannelIdentity				CellAndChannelIdentity
		}
	},
	frequencyInfo						FrequencyInfo						OPTIONAL,
	cellPosition						ReferenceCellPosition				OPTIONAL,
	-- actual value roundTripTime = (IE value * 0.0625) + 876
	roundTripTime						INTEGER (0..32766)					OPTIONAL,
	ue-positioning-IPDL-Paremeters		UE-Positioning-IPDL-Parameters		OPTIONAL
}

UE-Positioning-OTDOA-ReferenceCellInfo-UEB-ext ::= SEQUENCE {
	-- actual value roundTripTimeExtension = (IE value * 0.0625)
	roundTripTimeExtension				INTEGER (0..70274)					OPTIONAL
}

UE-Positioning-OTDOA-ReferenceCellInfo-r7 ::= SEQUENCE {
	sfn									INTEGER (0..4095)					OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			primaryCPICH-Info					PrimaryCPICH-Info
		},
		tdd									SEQUENCE{
			cellAndChannelIdentity				CellAndChannelIdentity
		}
	},
	frequencyInfo						FrequencyInfo						OPTIONAL,
	positioningMode						CHOICE {
		ueBased								SEQUENCE {
			cellPosition						ReferenceCellPosition			OPTIONAL,
			-- actual value roundTripTime = (IE value * 0.0625) + 876
			roundTripTime						INTEGER (0..32766)				OPTIONAL,
			-- actual value roundTripTimeExtension = (IE value * 0.0625)
			roundTripTimeExtension				INTEGER (0..70274)				OPTIONAL
		},
		ueAssisted							SEQUENCE {}
	},
	ue-positioning-IPDL-Paremeters		UE-Positioning-IPDL-Parameters-r4	OPTIONAL
}

UE-Positioning-PositionEstimateInfo ::= SEQUENCE {
	referenceTime						CHOICE {
		utran-GPSReferenceTimeResult		UTRAN-GPSReferenceTimeResult,
		gps-ReferenceTimeOnly				GPS-TOW-1msec,
		cell-Timing							SEQUENCE {
			sfn											INTEGER (0..4095),
			modeSpecificInfo 				CHOICE {
				fdd									SEQUENCE {
					primaryCPICH-Info					PrimaryCPICH-Info
				},
				tdd									SEQUENCE{
					cellAndChannelIdentity				CellAndChannelIdentity
				}
			}
		}
	},
	positionEstimate					PositionEstimate
}

UE-Positioning-PositionEstimateInfo-v770ext ::= SEQUENCE {
	referenceTimeOptions				CHOICE {
		-- If 'earlier-than-r7', IE 'UE-Positioning-PositionEstimateInfo' shall be included.
		earlier-than-r7						NULL,
		-- If 'r7', the corresponding IE 'UE-Positioning-PositionEstimateInfo' shall be excluded.
		r7									SEQUENCE {
			referenceTime						CHOICE {
				utran-GANSSReferenceTimeResult		UTRAN-GANSSReferenceTime,
				ganssReferenceTimeOnly				GANSSReferenceTimeOnly
			},
			positionEstimate					PositionEstimate
		}
	},
	positionData						BIT STRING (SIZE (16)),
	velocityEstimate					VelocityEstimate					OPTIONAL,
	ue-Positioning-GPS-ReferenceTimeUncertainty
								UE-Positioning-GPS-ReferenceTimeUncertainty	OPTIONAL
}

UE-Positioning-PositionEstimateInfo-vd20ext ::= SEQUENCE {
	locationTimeStamp					UTCTime OPTIONAL
}

UE-Positioning-ReportCriteria ::=				CHOICE {
	ue-positioning-ReportingCriteria				UE-Positioning-EventParamList,
	periodicalReportingCriteria			PeriodicalReportingCriteria,
	noReporting							NULL
}

UE-Positioning-ReportCriteria-r7 ::=	CHOICE {
	ue-positioning-ReportingCriteria		UE-Positioning-EventParamList-r7,
	periodicalReportingCriteria				PeriodicalReportingCriteria,
	noReporting								NULL
}

UE-Positioning-ReportingQuantity ::=			SEQUENCE {
	methodType							UE-Positioning-MethodType,
	positioningMethod					PositioningMethod,
	-- dummy1 is not used in this version of specification and it should
	-- be ignored.
	dummy1								UE-Positioning-ResponseTime,
	horizontal-Accuracy					UE-Positioning-Accuracy				OPTIONAL,
	gps-TimingOfCellWanted				BOOLEAN,
	-- dummy2 is not used in this version of specification and it should
	-- be ignored.
	dummy2								BOOLEAN,
	additionalAssistanceDataRequest		BOOLEAN,
	environmentCharacterisation			EnvironmentCharacterisation			OPTIONAL
}

UE-Positioning-ReportingQuantity-v390ext ::=		SEQUENCE {
	vertical-Accuracy							UE-Positioning-Accuracy
}

UE-Positioning-ReportingQuantity-r4 ::=			SEQUENCE {
	methodType							UE-Positioning-MethodType,
	positioningMethod					PositioningMethod,
	horizontalAccuracy					UE-Positioning-Accuracy				OPTIONAL,
	verticalAccuracy					UE-Positioning-Accuracy				OPTIONAL,
	gps-TimingOfCellWanted				BOOLEAN,
	additionalAssistanceDataReq			BOOLEAN,
	environmentCharacterisation			EnvironmentCharacterisation			OPTIONAL
}

UE-Positioning-ReportingQuantity-r7 ::= SEQUENCE {
	methodType							UE-Positioning-MethodType,
	positioningMethod					PositioningMethod,
	horizontalAccuracy					UE-Positioning-Accuracy				OPTIONAL,
	verticalAccuracy					UE-Positioning-Accuracy				OPTIONAL,
	gps-TimingOfCellWanted				BOOLEAN,
	additionalAssistanceDataReq			BOOLEAN,
	environmentCharacterisation			EnvironmentCharacterisation			OPTIONAL,
	velocityRequested					ENUMERATED { true }					OPTIONAL,
	gANSSPositioningMethods				BIT STRING (SIZE (16))				OPTIONAL,
	gANSSTimingOfCellWanted				BIT STRING (SIZE (8))				OPTIONAL,
	gANSSCarrierPhaseMeasurementRequested
										BIT STRING (SIZE (8))				OPTIONAL
}

UE-Positioning-ReportingQuantity-r8 ::= SEQUENCE {
	methodType							UE-Positioning-MethodType,
	positioningMethod					PositioningMethod,
	horizontalAccuracy					UE-Positioning-Accuracy				OPTIONAL,
	verticalAccuracy					UE-Positioning-Accuracy				OPTIONAL,
	gps-TimingOfCellWanted				BOOLEAN,
	additionalAssistanceDataReq			BOOLEAN,
	environmentCharacterisation			EnvironmentCharacterisation			OPTIONAL,
	velocityRequested					ENUMERATED { true }					OPTIONAL,
	gANSSPositioningMethods				BIT STRING (SIZE (16))				OPTIONAL,
	gANSSTimingOfCellWanted				BIT STRING (SIZE (8))				OPTIONAL,
	gANSSCarrierPhaseMeasurementRequested
										BIT STRING (SIZE (8))				OPTIONAL,
	gANSSMultiFreqMeasurementRequested	BIT STRING (SIZE (8))				OPTIONAL
}

UE-Positioning-ReportingQuantity-r13 ::= SEQUENCE {
	methodType								UE-Positioning-MethodType,
	positioningMethod						PositioningMethod,
	horizontalAccuracy						UE-Positioning-Accuracy				OPTIONAL,
	verticalAccuracy						UE-Positioning-Accuracy				OPTIONAL,
	gps-TimingOfCellWanted				BOOLEAN,
	additionalAssistanceDataReq			BOOLEAN,
	environmentCharacterisation			EnvironmentCharacterisation			OPTIONAL,
	velocityRequested						ENUMERATED { true }					OPTIONAL,
	gANSSPositioningMethods				BIT STRING (SIZE (16))				OPTIONAL,
	gANSSTimingOfCellWanted				BIT STRING (SIZE (8))					OPTIONAL,
	gANSSCarrierPhaseMeasurementRequested
											BIT STRING (SIZE (8))					OPTIONAL,
	gANSSMultiFreqMeasurementRequested	BIT STRING (SIZE (8))					OPTIONAL,
	additionalPositioningMethods			BIT STRING (SIZE (8))					OPTIONAL
}

UE-Positioning-ResponseTime ::=				ENUMERATED {
										s1, s2, s4, s8, s16,
										s32, s64, s128 }

UE-Positioning-AddPos-MeasuredResults ::= SEQUENCE (SIZE (1..maxAddPos)) OF 
												UE-Positioning-AddPos-MeasuredResults-element

UE-Positioning-AddPos-MeasuredResults-element ::=SEQUENCE {
	timestamp							UTCTime OPTIONAL,
	addPos-ID							CHOICE { 
	barometricPressure						UE-Positioning-BarometricPressureMeasurement,
	wlan									UE-Positioning-WLANMeasurementList,
	bt										UE-Positioning-BTMeasurementList,
	mbs										UE-Positioning-MBSMeasurementList,
	spare4									NULL,
	spare3									NULL,
	spare2									NULL,
	spare1									NULL
	}
}

UE-Positioning-BarometricPressureMeasurement ::= SEQUENCE {
	ubpMeasurement		 				INTEGER (30000..115000)
}

UE-Positioning-WLANMeasurementList ::=  SEQUENCE (SIZE (1..maxWLANs))OF 
											UE-Positioning-WLANMeasurementList-element

UE-Positioning-WLANMeasurementList-element ::=	SEQUENCE {
	wlanBSSID								OCTET STRING (SIZE (6)),
	wlanSSID								OCTET STRING (SIZE(1..32)) 				OPTIONAL,
	wlanRSSI								INTEGER(-127..128) OPTIONAL,
	wlanRTTvalue							INTEGER(0..16777215) OPTIONAL,
	wlanRTTunits							ENUMERATED { microseconds,hundredsofnanoseconds,
															tensofnanoseconds,nanoseconds,
															tenthsofnanosecond,
															spare3, spare2, spare1}	OPTIONAL,
	wlanRTTaccuracy						INTEGER(0..255) 							OPTIONAL,
	wlanAPChannelFrequency				INTEGER(0..256) 							OPTIONAL,
	wlanServingFlag						BOOLEAN 									OPTIONAL
}

UE-Positioning-BTMeasurementList ::= SEQUENCE (SIZE (1..maxBTs)) OF 
											UE-Positioning-BTMeasurementList-element

UE-Positioning-BTMeasurementList-element ::= SEQUENCE {
	btAddr									OCTET STRING (SIZE(6)),
	-- Actual value = IE value - 1
	btRSSI									INTEGER(-127..128) OPTIONAL
}

UE-Positioning-MBSMeasurementList ::=	SEQUENCE (SIZE (1..maxBeacons)) OF 
											UE-Positioning-MBSMeasurementList-element

UE-Positioning-MBSMeasurementList-element ::= SEQUENCE {
	transmitterId							INTEGER (0..32767),
	codePhase								INTEGER (0..2097151),
	codePhaseRmsError						INTEGER (0..63)
}

UTCmodelSet1 ::=						SEQUENCE {
	utcA0									BIT STRING (SIZE (16)),
	utcA1									BIT STRING (SIZE (13)),
	utcA2									BIT STRING (SIZE (7)),
	utcDeltaTls								BIT STRING (SIZE (8)),
	utcTot									BIT STRING (SIZE (16)),
	utcWNot									BIT STRING (SIZE (13)),
	utcWNlsf								BIT STRING (SIZE (8)),
	utcDN									BIT STRING (SIZE (4)),
	utcDeltaTlsf							BIT STRING (SIZE (8))
}

UTCmodelSet2 ::=						SEQUENCE {
	nA										BIT STRING (SIZE (11)),
	tauC									BIT STRING (SIZE (32)),
	deltaUT1								DeltaUT1							OPTIONAL,
	kp										BIT STRING (SIZE (2))				OPTIONAL
}

UTCmodelSet3 ::=						SEQUENCE {
	utcA1wnt								BIT STRING (SIZE (24)),
	utcA0wnt								BIT STRING (SIZE (32)),
	utcTot									BIT STRING (SIZE (8)),
	utcWNt									BIT STRING (SIZE (8)),
	utcDeltaTls								BIT STRING (SIZE (8)),
	utcWNlsf								BIT STRING (SIZE (8)),
	utcDN									BIT STRING (SIZE (8)),
	utcDeltaTlsf							BIT STRING (SIZE (8)),
	utcStandardID							BIT STRING (SIZE (3))
}

UTCmodelSet4 ::=		SEQUENCE {
	utcA0			BIT STRING (SIZE (32)),
	utcA1			BIT STRING (SIZE (24)),
	utcDeltaTls		BIT STRING (SIZE (8)),
	utcWNlsf		BIT STRING (SIZE (8)),
	utcDN			BIT STRING (SIZE (8)),
	utcDeltaTlsf	BIT STRING (SIZE (8))
}

-- SPARE: UTRA-CarrierRSSI, Max = 76
-- Values above Max are spare
UTRA-CarrierRSSI ::=				INTEGER (0..127)

UTRAN-GANSSReferenceTime ::=		SEQUENCE {
	ue-GANSSTimingOfCellFrames			SEQUENCE {
		-- Actual value [ns] = (ms-Part * 4294967296 + ls-Part) * 250
		-- Actual values [ns] > 86399999999750 are reserved and are considered a protocol error
		ms-Part								INTEGER (0..80),
		ls-Part								INTEGER (0..4294967295)
	},
	gANSS-TimeId						INTEGER (0..7)						OPTIONAL,
	gANSS-TimeUncertainty				INTEGER (0..127)					OPTIONAL,
	mode								CHOICE {
		fdd									SEQUENCE {
			primary-CPICH-Info					PrimaryCPICH-Info
		},
		tdd									SEQUENCE {
			cellParameters						CellParametersID
		}
	},
	referenceSfn						INTEGER (0..4095)
}

UTRAN-FDD-FrequencyList ::=			SEQUENCE (SIZE(1..maxNumFDDFreqs)) OF
										UTRAN-FDD-Frequency

UTRAN-FDD-Frequency ::=				SEQUENCE {
	uarfcn								UARFCN,
	priority							INTEGER (0..maxPrio-1),
	-- Actual value = IE value * 2
	threshXhigh							INTEGER (0..31),
	-- Actual value = IE value * 2
	threshXlow							INTEGER (0..31),
	qQualMinFDD							INTEGER (-24..0)					OPTIONAL,
	-- Actual value = IE value * 2 + 1
	qRxLevMinFDD						INTEGER (-60..-13) 					OPTIONAL
}

UTRAN-TDD-FrequencyList ::=			SEQUENCE (SIZE(1..maxNumTDDFreqs)) OF
										UTRAN-TDD-Frequency

UTRAN-TDD-Frequency ::=				SEQUENCE {
	uarfcn								UARFCN,
	priority							INTEGER (0..maxPrio-1),
	-- Actual value = IE value * 2
	threshXhigh							INTEGER (0..31),
	-- Actual value = IE value * 2
	threshXlow							INTEGER (0..31),
	-- Actual value = IE value * 2 + 1
	qRxLevMinTDD						INTEGER (-60..-13) 					OPTIONAL
}

UTRAN-GPS-DriftRate ::=				ENUMERATED {
									utran-GPSDrift0, utran-GPSDrift1, utran-GPSDrift2,
									utran-GPSDrift5, utran-GPSDrift10, utran-GPSDrift15,
									utran-GPSDrift25, utran-GPSDrift50, utran-GPSDrift-1,
									utran-GPSDrift-2, utran-GPSDrift-5, utran-GPSDrift-10,
									utran-GPSDrift-15, utran-GPSDrift-25, utran-GPSDrift-50}

UTRAN-GPSReferenceTime ::=				SEQUENCE {
	-- For utran-GPSTimingOfCell values above 2322431999999 are not 
	-- used in this version of the specification
	-- Actual value utran-GPSTimingOfCell = (ms-part * 4294967296) + ls-part
	utran-GPSTimingOfCell			SEQUENCE {
		ms-part 						INTEGER (0..1023),
		ls-part							INTEGER (0..4294967295)
	},
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			referenceIdentity				PrimaryCPICH-Info
		},
		tdd								SEQUENCE {
			referenceIdentity				CellParametersID
		}
	} 				OPTIONAL,
	sfn									INTEGER (0..4095)
}

UTRAN-GPSReferenceTimeResult ::=				SEQUENCE {
	-- For ue-GPSTimingOfCell values above 37158911999999 are not 
	-- used in this version of the specification
	-- Actual value ue-GPSTimingOfCell = (ms-part * 4294967296) + ls-part
	ue-GPSTimingOfCell			SEQUENCE {
		ms-part 						INTEGER (0.. 16383),
		ls-part							INTEGER (0..4294967295)
	},
	modeSpecificInfo				CHOICE {
		fdd								SEQUENCE {
			referenceIdentity				PrimaryCPICH-Info
		},
		tdd								SEQUENCE {
			referenceIdentity				CellParametersID
		}
	},
	sfn									INTEGER (0..4095)
}

UTRA-PriorityInfoList ::=			SEQUENCE {
	utra-ServingCell					SEQUENCE {
		priority							INTEGER (0..maxPrio-1),
		-- Actual value = IE value * 2
		s-PrioritySearch1					INTEGER (0..31),
		-- Actual value = IE value, default value is 0
		s-PrioritySearch2					INTEGER (0..7)						OPTIONAL,
		-- Actual value = IE value * 2
		threshServingLow					INTEGER (0..31)
	},
	utran-FDD-FrequencyList				UTRAN-FDD-FrequencyList			OPTIONAL,
	utran-TDD-FrequencyList				UTRAN-TDD-FrequencyList			OPTIONAL
}

UTRA-PriorityInfoList-v920ext ::=	SEQUENCE {
	threshServingLow2						INTEGER (0..31) 					OPTIONAL
}

VarianceOfRLC-BufferPayload ::=	ENUMERATED {
										plv0, plv4, plv8, plv16, plv32, plv64, 
										plv128, plv256, plv512, plv1024, 
										plv2k, plv4k, plv8k, plv16k, spare2, spare1 }

VelocityEstimate ::=				CHOICE {
	horizontalVelocity									HorizontalVelocity,
	horizontalWithVerticalVelocity					HorizontalWithVerticalVelocity,
	horizontalVelocityWithUncertainty				HorizontalVelocityWithUncertainty,
	horizontalWithVerticalVelocityAndUncertainty	HorizontalWithVerticalVelocityAndUncertainty
}

-- Actual value W = IE value * 0.1
W ::=								INTEGER (0..20)

-- ***************************************************
--
--     OTHER INFORMATION ELEMENTS (10.3.8)
--
-- ***************************************************

ACDC-Barring ::= 					CHOICE {
	acdc-Barred						ENUMERATED {true, false},
	acdc-acb-barringBitmap			BIT STRING (SIZE (10))
}

ACDC-Parameters ::= 				SEQUENCE {
	barringRepresentation				CHOICE {
		acdc-ParametersPerPLMN-List		ACDC-ParametersPerPLMN-List,
		acdc-ParametersForAll				ACDC-ParametersForAll
	}
}

ACDC-ParametersForAll ::=			SEQUENCE {
	acdc-Information					SpecificACDC-BarringInformation			OPTIONAL,
	acdcApplicableForRoamer			ENUMERATED { true }						OPTIONAL
}

ACDC-ParametersPerPLMN-List ::= 	SEQUENCE (SIZE (1..6)) OF 
										SEQUENCE {
	plmnSpecificACDC-Parameters			SpecificACDC-BarringInformation		OPTIONAL,
	acdcApplicableForRoamer				ENUMERATED { true }					OPTIONAL
}

BCC ::=								INTEGER (0..7)

BCCH-ModificationInfo ::=			SEQUENCE {
	mib-ValueTag						MIB-ValueTag,
	bcch-ModificationTime				BCCH-ModificationTime						OPTIONAL
}

BCCH-ModificationInfo-vc50ext ::= 	SEQUENCE {
	mib-ValueTagExt						MIB-ValueTagExt						OPTIONAL,
	sb3-ValueTag							CellValueTag2							OPTIONAL
}

-- Actual value BCCH-ModificationTime = IE value * 8
BCCH-ModificationTime ::=			INTEGER (0..511)

BSIC ::=							SEQUENCE {
	ncc									NCC,
	bcc									BCC
}

CBS-DRX-Level1Information ::=		SEQUENCE {
	ctch-AllocationPeriod				INTEGER (1..256),
	cbs-FrameOffset					INTEGER (0..255)
}

CBS-DRX-Level1Information-extension-r6 ::=	ENUMERATED {p8, p16, p32, p64, p128, p256}

CDMA2000-Message ::=				SEQUENCE {
	msg-Type							BIT STRING (SIZE (8)),
	payload								BIT STRING (SIZE (1..512))
}

CDMA2000-MessageList ::=				SEQUENCE (SIZE (1..maxInterSysMessages)) OF
											CDMA2000-Message

CDMA2000-UMTS-Frequency-List ::=		SEQUENCE (SIZE (1..maxNumCDMA2000Freqs)) OF
											FrequencyInfoCDMA2000

CellValueTag ::=						INTEGER (1..4)

CellValueTag2 ::=						INTEGER (1..16)

CellValueTagExt ::=					INTEGER (0..3)

CellValueTag3 ::=					SEQUENCE {
	cellValueTag						CellValueTag,
	cellValueTagExt					CellValueTagExt							OPTIONAL
}

DataTransmFrequency ::=			SEQUENCE {
	dataTransmFreqGranularity			ENUMERATED { ms100, ms250, ms500, ms1000,
											ms2000, ms5000, ms10000, ms60000 },
	numberOfDataTransmOcc				INTEGER (1..610)
}

DataVolumeHistory ::=				SEQUENCE {
	dataVolumeMontoringWindow			INTEGER (1..120),
	dataTransmFrequency				DataTransmFrequency						OPTIONAL,
	dataVolumePerRB					DataVolumePerRB-List						OPTIONAL
}

DataVolumePerRB ::=				SEQUENCE {
	rb-Identity						RB-Identity,
	dataVolume							INTEGER (0..4294967295)
}

DataVolumePerRB-List ::=			SEQUENCE (SIZE (1..maxRB)) OF DataVolumePerRB

DeferredMeasurementControlReadingSupport ::= SEQUENCE {
	-- If modeSpecificInfo is not present, deferred SIB11, SIB11bis and SIB12 reading 
	-- with default measurement quantities applies
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			intraFreqMeasQuantity-FDD			IntraFreqMeasQuantity-FDD-sib3
		},
		tdd									SEQUENCE {
			intraFreqMeasQuantity-TDDList		IntraFreqMeasQuantity-TDD-sib3List
		}
	}		OPTIONAL
}

ETWS-Information ::=				SEQUENCE {
	warningType						OCTET STRING (SIZE (1..2)),
	messageIdentifier					OCTET STRING (SIZE (2)),
	serialNumber						OCTET STRING (SIZE (2))
}

-- This IE is not used in the specification.
ETWS-WarningSecurityInfo ::=		OCTET STRING

EUTRA-BlacklistedCell ::=			SEQUENCE {
	physicalCellIdentity				EUTRA-PhysicalCellIdentity
}

EUTRA-BlacklistedCellPerFreqList ::= SEQUENCE (SIZE (1..maxEUTRACellPerFreq)) OF
											EUTRA-BlacklistedCell

EUTRA-PhysicalCellIdentity ::=		INTEGER (0..503)

EUTRA-RadioAccessCapability ::=		SEQUENCE {
	ue-EUTRA-Capability					OCTET STRING
}

EUTRA-TargetFreqInfoList ::=		SEQUENCE (SIZE (1..maxEUTRATargetFreqs)) OF
										EUTRA-TargetFreqInfo

EUTRA-TargetFreqInfoList-vb50ext ::=	SEQUENCE (SIZE (1..maxEUTRATargetFreqs)) OF
											EUTRA-TargetFreqInfo-vb50ext

EUTRA-TargetFreqInfo ::=			SEQUENCE {
	dlEUTRACarrierFreq					EARFCN,
	eutraBlacklistedCellPerFreqList		EUTRA-BlacklistedCellPerFreqList	OPTIONAL
}

EUTRA-TargetFreqInfo-vb50ext ::=	SEQUENCE {
	earfcn								EARFCNExtension						OPTIONAL
}

--Actual value = 2^(IE value) 
ExpirationTimeFactor ::=			INTEGER (1..8)

ExpirationTimeFactor2 ::=			INTEGER (0..15)


ExtGANSS-SchedulingInfo ::=		SEQUENCE {
	extensionGANSS-SIBType			SIB-TypeExtGANSS,
	schedulingInfo						SchedulingInformation,
	valueTagInfo						ValueTagInfo
}

-- For each extended GANSS SIB type the value tag information is added at the end
ExtGANSS-SIBTypeInfoSchedulingInfoList ::= SEQUENCE (SIZE (1..maxGANSS)) OF 
										ExtGANSS-SIBTypeInfoSchedulingInfo

ExtGANSS-SIBTypeInfoSchedulingInfo ::= SEQUENCE {
	ganssID										INTEGER (0..7)							OPTIONAL,
	sbasID										UE-Positioning-GANSS-SBAS-ID			OPTIONAL,
	ganssScheduling							SEQUENCE (SIZE (1..maxSIB)) OF
													ExtGANSS-SchedulingInfo
}

-- For each extended SIB type the value tag information is added at the end
ExtSIBTypeInfoSchedulingInfo-List ::=	SEQUENCE (SIZE (1..maxSIB)) OF
												ExtSIBTypeInfoSchedulingInfo

ExtSIBTypeInfoSchedulingInfo ::=	SEQUENCE {
	extensionSIB-Type					SIB-TypeExt,
	schedulingInfo						SchedulingInformation,
	valueTagInfo						ValueTagInfo
}

-- For each extended SIB type the value tag information is added at the end
ExtSIBTypeInfoSchedulingInfo-List2 ::=	SEQUENCE (SIZE (1..maxSIB)) OF
												ExtSIBTypeInfoSchedulingInfo2

ExtSIBTypeInfoSchedulingInfo-List3 ::=	SEQUENCE (SIZE (1..maxSIB)) OF
												ExtSIBTypeInfoSchedulingInfo3

ExtSIBTypeInfoSchedulingInfo2 ::=	SEQUENCE {
	extensionSIB-Type2						SIB-TypeExt2,
	schedulingInfo							SchedulingInformation,
	valueTagInfo							ValueTagInfo
}

ExtSIBTypeInfoSchedulingInfo3 ::=	SEQUENCE {
	extensionSIB-Type3						SIB-TypeExt3,
	schedulingInfo							SchedulingInformation2,
	valueTagInfo							ValueTagInfoExtValueTag
}

FDD-UMTS-Frequency-List ::=			SEQUENCE (SIZE (1..maxNumFDDFreqs)) OF
											-- NOTE1: The IE "UARFCN (Nlow)" corresponds to
											-- "uarfcn-DL" in FrequencyInfoFDD.
											-- NOTE2: The IE "UARFCN (Nupper)" corresponds to
											-- "uarfcn-UL" in FrequencyInfoFDD.
											FrequencyInfoFDD

FrequencyInfoCDMA2000 ::=				SEQUENCE {
											band-Class		BIT STRING (SIZE (5)),
											cdma-Freq		BIT STRING (SIZE(11))
}

GERAN-SystemInfoBlock ::=				OCTET STRING (SIZE (1..23))

GERAN-SystemInformation ::=			SEQUENCE (SIZE (1..maxGERAN-SI)) OF GERAN-SystemInfoBlock

GSM-BA-Range ::= 						SEQUENCE {
											gsmLowRangeUARFCN		UARFCN,
											gsmUpRangeUARFCN		UARFCN
}

GSM-BA-Range-List ::= 				SEQUENCE (SIZE (1..maxNumGSMFreqRanges)) OF
											GSM-BA-Range


-- This IE is formatted as 'TLV' and is coded in the same way as the Mobile Station Classmark 2 
-- information element in [5]. The first octet is the Mobile station classmark 2 IEI and its value
-- shall be set to 33H. The second octet is the Length of mobile station classmark 2 and its value 
-- shall be set to 3. The octet 3 contains the first octet of the value part of the Mobile Station 
-- Classmark 2 information element, the octet 4 contains the second octet of the value part of the 
-- Mobile Station Classmark 2 information element and so on. For each of these octets, the first/
-- leftmost/ most significant bit of the octet contains b8 of the corresponding octet of the Mobile
-- Station Classmark 2.
GSM-Classmark2 ::=					OCTET STRING (SIZE (5))

-- This IE is formatted as 'V' and is coded in the same way as the value part in the Mobile station
-- classmark 3 information element in [5]
-- The value part is specified by means of CSN.1, which encoding results in a bit string, to which
-- final padding may be appended upto the next octet boundary [5]. The first/ leftmost bit of the
-- CSN.1 bit string is placed in the first/ leftmost/ most significant bit of the first
-- octet. This continues until the last bit of the CSN.1 bit string, which is placed in the last/
-- rightmost/ least significant bit of the last octet.
GSM-Classmark3 ::=					OCTET STRING (SIZE (1..32))

GSM-MessageList ::=				SEQUENCE (SIZE (1..maxInterSysMessages)) OF
										BIT STRING (SIZE (1..512))

GSM-MS-RadioAccessCapability ::=	OCTET STRING (SIZE (1..64))

GsmSecurityCapability ::=			BIT STRING {
										-- For each bit value "0" means false/ not supported
										a5-7(0),
										a5-6(1),
									 	a5-5(2),
									 	a5-4(3),
									 	a5-3(4),
									 	a5-2(5),
									 	a5-1(6)
										}	(SIZE (7))

GSM-TargetCellInfoList ::=		SEQUENCE (SIZE (1..maxGSMTargetCells)) OF
										GSM-TargetCellInfo


GSM-TargetCellInfo ::= 			SEQUENCE {
	bcch-ARFCN							BCCH-ARFCN,
	frequency-band						Frequency-Band,
	bsic								BSIC			OPTIONAL
}

HNBName ::=						OCTET STRING (SIZE(1..maxHNBNameSize))

IdentificationOfReceivedMessage ::=	SEQUENCE {
		rrc-TransactionIdentifier			RRC-TransactionIdentifier,
		receivedMessageType				ReceivedMessageType
}

InterRAT-ChangeFailureCause ::=	CHOICE {
	configurationUnacceptable			NULL,
	physicalChannelFailure			NULL,
	protocolError						ProtocolErrorInformation,
	unspecified						NULL,
	spare4								NULL,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}							

GERANIu-MessageList ::=			SEQUENCE (SIZE (1..maxInterSysMessages)) OF
										BIT STRING (SIZE (1..32768))

GERANIu-RadioAccessCapability ::=	BIT STRING (SIZE (1..170))

InterRAT-UE-RadioAccessCapability ::= CHOICE {
	gsm										SEQUENCE {
		gsm-Classmark2							GSM-Classmark2,
		gsm-Classmark3							GSM-Classmark3
	},
	cdma2000								SEQUENCE {
		cdma2000-MessageList					CDMA2000-MessageList
	}
}

InterRAT-UE-RadioAccessCapabilityList ::= 	SEQUENCE (SIZE(1..maxInterSysMessages)) OF
											InterRAT-UE-RadioAccessCapability

InterRAT-UE-RadioAccessCapability-v590ext ::= SEQUENCE {
	geranIu-RadioAccessCapability		GERANIu-RadioAccessCapability
}

InterRAT-UE-RadioAccessCapability-v690ext ::= SEQUENCE {
	supportOfInter-RAT-PS-Handover		ENUMERATED { doesSupporInter-RAT-PS-Handover }	OPTIONAL,
	gsm-MS-RadioAccessCapability			GSM-MS-RadioAccessCapability
}

InterRAT-UE-RadioAccessCapability-v860ext ::= SEQUENCE {
	eutra-RadioAccessCapability			EUTRA-RadioAccessCapability				OPTIONAL
}

InterRAT-UE-SecurityCapability ::= CHOICE {
	gsm									SEQUENCE {
		gsmSecurityCapability			GsmSecurityCapability
	}
}

InterRAT-UE-SecurityCapList ::= 	SEQUENCE (SIZE(1..maxInterSysMessages)) OF
										InterRAT-UE-SecurityCapability

InterRAT-HO-FailureCause ::=		CHOICE {
	configurationUnacceptable			NULL,
	physicalChannelFailure			NULL,
	protocolError						ProtocolErrorInformation,
	interRAT-ProtocolError			NULL,
	unspecified						NULL,
	spare11								NULL,
	spare10								NULL,
	spare9								NULL,
	spare8								NULL,
	spare7								NULL,
	spare6								NULL,
	spare5								NULL,
	spare4								NULL,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}							

MasterInformationBlock ::=		SEQUENCE {
		mib-ValueTag					MIB-ValueTag,
		-- TABULAR: The PLMN identity and ANSI-41 core network information
		-- are included in PLMN-Type.
		plmn-Type						PLMN-Type,
		sibSb-ReferenceList			SIBSb-ReferenceList,
	-- Extension mechanism for non- release99 information
		v690NonCriticalExtensions			SEQUENCE {
			masterInformationBlock-v690ext		MasterInformationBlock-v690ext,
			v6b0NonCriticalExtensions			SEQUENCE {
				masterInformationBlock-v6b0ext		MasterInformationBlock-v6b0ext-IEs,
				v860NonCriticalExtensions			SEQUENCE {
					masterInformationBlock-v860ext		MasterInformationBlock-v860ext-IEs,
					vc50NonCriticalExtensions			SEQUENCE {
						masterInformationBlock-vc50ext		MasterInformationBlock-vc50ext-IEs,
						nonCriticalExtensions				SEQUENCE {}							OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

MasterInformationBlock-v690ext ::=	SEQUENCE {
	multiplePLMN-List						MultiplePLMN-List-r6						OPTIONAL
}

MasterInformationBlock-v6b0ext-IEs ::=	SEQUENCE {
	extSIBTypeInfoSchedulingInfo-List		ExtSIBTypeInfoSchedulingInfo-List	OPTIONAL
}

MasterInformationBlock-v860ext-IEs ::=	SEQUENCE {
	extSIBTypeInfoSchedulingInfo-List		ExtSIBTypeInfoSchedulingInfo-List2	OPTIONAL,
	extGANSS-SIBTypeInfoSchedulingInfoList
										ExtGANSS-SIBTypeInfoSchedulingInfoList		OPTIONAL,
	csg-Indicator								ENUMERATED { true }					OPTIONAL
}

MasterInformationBlock-vc50ext-IEs ::=	SEQUENCE {
	mib-ValueTagExt							MIB-ValueTagExt						OPTIONAL,
	sibSb-ReferenceList						SIBSb-ReferenceList2					OPTIONAL,
	extSIBTypeInfoSchedulingInfo-List		ExtSIBTypeInfoSchedulingInfo-List3	OPTIONAL,
	sb3-Information							SB3-Information						OPTIONAL
}

SB3-Information ::=	SEQUENCE {
	sb3-SegCount						SegCount										DEFAULT 1,
	sb3-Sib-Rep						SIB-Rep,
	second-BCH-Channelizationcode	BCH-Channelizationcode
}

MIB-ValueTag ::=					INTEGER (1..8)

MIB-ValueTagExt ::=				INTEGER (0..1)

NCC ::=								INTEGER (0..7)

PLMN-ValueTag ::=					INTEGER (1..256)


PredefinedConfigIdentityAndValueTag ::=	SEQUENCE {
	predefinedConfigIdentity					PredefinedConfigIdentity,
	predefinedConfigValueTag					PredefinedConfigValueTag
}

ProtocolErrorInformation ::=		SEQUENCE {
	diagnosticsType					CHOICE {
		type1								SEQUENCE {
			protocolErrorCause					ProtocolErrorCause
		},
		spare								NULL
	}
}

ReceivedMessageType ::=			ENUMERATED {
										activeSetUpdate,
										cellChangeOrderFromUTRAN,
										cellUpdateConfirm,
										counterCheck,
										downlinkDirectTransfer,
										interRATHandoverCommand,
										measurementControl,
										pagingType2,
										physicalChannelReconfiguration,
										physicalSharedChannelAllocation,
										radioBearerReconfiguration,
										radioBearerRelease,
										radioBearerSetup,
										rrcConnectionRelease,
										rrcConnectionReject,
										rrcConnectionSetup,
										securityModeCommand,
										signallingConnectionRelease,
										transportChannelReconfiguration,
										transportFormatCombinationControl,
										ueCapabilityEnquiry,
										ueCapabilityInformationConfirm,
										uplinkPhysicalChannelControl,
										uraUpdateConfirm,
										utranMobilityInformation,
										assistanceDataDelivery,
										spare6, spare5, spare4, spare3, spare2,
										spare1
}

Rplmn-Information ::=			SEQUENCE {
	gsm-BA-Range-List				GSM-BA-Range-List						OPTIONAL,
	fdd-UMTS-Frequency-List		FDD-UMTS-Frequency-List				OPTIONAL,
	tdd-UMTS-Frequency-List		TDD-UMTS-Frequency-List				OPTIONAL,
	cdma2000-UMTS-Frequency-List	CDMA2000-UMTS-Frequency-List			OPTIONAL
}

Rplmn-Information-r4 ::=		SEQUENCE {
	gsm-BA-Range-List				GSM-BA-Range-List						OPTIONAL,
	fdd-UMTS-Frequency-List		FDD-UMTS-Frequency-List				OPTIONAL,
	-- the option is the same for 7.68 Mcps TDD as for 3.84 Mcps TDD
	-- i.e. TDD-UMTS-Frequency-List applies
	tdd384-UMTS-Frequency-List	TDD-UMTS-Frequency-List				OPTIONAL,
	tdd128-UMTS-Frequency-List	TDD-UMTS-Frequency-List				OPTIONAL,
	cdma2000-UMTS-Frequency-List	CDMA2000-UMTS-Frequency-List			OPTIONAL
}

SIB-Rep::=			ENUMERATED {
						frame-8,
						frame-16,
						frame-32,
						frame-64
}

BCH-Channelizationcode ::=			INTEGER (2..33)

SchedulingInformation ::=			SEQUENCE {
	scheduling							SEQUENCE {
		segCount							SegCount				 		 DEFAULT 1,
		sib-Pos								CHOICE {
			-- The element name indicates the repetition period and the value
			-- (multiplied by two) indicates the position of the first segment.
			rep4								INTEGER (0..1),
			rep8								INTEGER (0..3),
			rep16								INTEGER (0..7),
			rep32								INTEGER (0..15),
			rep64								INTEGER (0..31),
			rep128								INTEGER (0..63),
			rep256								INTEGER (0..127),
			rep512								INTEGER (0..255),
			rep1024								INTEGER (0..511),
			rep2048								INTEGER (0..1023),
			rep4096								INTEGER (0..2047)
		},
		sib-PosOffsetInfo					SibOFF-List						OPTIONAL
	}
}

SchedulingInformation2 ::=	CHOICE {
	scheduling						SEQUENCE {
		segCount						SegCount						OPTIONAL,
		sib-Pos							CHOICE {
			-- The element name indicates the repetition period and the value
			-- (multiplied by two) indicates the position of the first segment.
			rep4								INTEGER (0..1),
			rep8								INTEGER (0..3),
			rep16								INTEGER (0..7),
			rep32								INTEGER (0..15),
			rep64								INTEGER (0..31),
			rep128								INTEGER (0..63),
			rep256								INTEGER (0..127),
			rep512								INTEGER (0..255),
			rep1024								INTEGER (0..511),
			rep2048								INTEGER (0..1023),
			rep4096								INTEGER (0..2047)
		},
		sib-PosOffsetInfo					SibOFF-List2					OPTIONAL
	}
}

SchedulingInformationSIB ::=		SEQUENCE {
	sib-Type							SIB-TypeAndTag,
	scheduling							SchedulingInformation
}

SchedulingInformationSIB2 ::=		SEQUENCE {
	sib-Type							SIB-TypeAndTag2,
	scheduling							SchedulingInformation2
}

SchedulingInformationSIBSb ::=	SEQUENCE {
	sibSb-Type							SIBSb-TypeAndTag,
	scheduling							SchedulingInformation
}

SchedulingInformationSIBSb2 ::=	SEQUENCE {
	sibSb-Type							SIBSb-TypeAndTagExtValueTag
}

SegCount ::=						INTEGER (1..16)

SegmentIndex ::=					INTEGER (1..15)

-- Actual value SFN-Prime = 2 * IE value
SFN-Prime ::=						INTEGER (0..2047)


SIB-Data-fixed ::=					BIT STRING (SIZE (222))

SIB-Data2-fixed ::=				BIT STRING (SIZE (232))

SIB-Data-variable ::=				BIT STRING (SIZE (1..214))

SIB-Data2-variable ::=			BIT STRING (SIZE (1..224))

SIBOccurIdentity ::=				INTEGER (0..15)

SIBOccurrenceIdentityAndValueTag ::=	SEQUENCE {
	sibOccurIdentity						SIBOccurIdentity,
	sibOccurValueTag						SIBOccurValueTag
}

SIBOccurValueTag ::=			INTEGER (0..15)

SIB-ReferenceList ::=				SEQUENCE (SIZE (1..maxSIB)) OF
										SchedulingInformationSIB

SIB-ReferenceList2 ::=			SEQUENCE (SIZE (1..maxSIB2)) OF
										SchedulingInformationSIB2

SIBSb-ReferenceList ::=			SEQUENCE (SIZE (1..maxSIB)) OF
										SchedulingInformationSIBSb

SIBSb-ReferenceList2 ::=			SEQUENCE (SIZE (1..maxSIB)) OF
										SchedulingInformationSIBSb2

SIB-ReferenceListFACH ::=			SEQUENCE (SIZE (1..maxSIB-FACH)) OF 
										SchedulingInformationSIB

SIB-Type ::=						ENUMERATED {
										masterInformationBlock,
										systemInformationBlockType1,
										systemInformationBlockType2,
										systemInformationBlockType3,
										systemInformationBlockType4,
										systemInformationBlockType5,
										systemInformationBlockType6,
										systemInformationBlockType7,
		-- dummy, dummy2 and dummy3 are not used in this version of the specification,
		-- they should not be sent. If they are received they should be ignored
										dummy,
										dummy2,
										dummy3,
										systemInformationBlockType11,
										systemInformationBlockType12,
										systemInformationBlockType13,
										systemInformationBlockType13-1,
										systemInformationBlockType13-2,
										systemInformationBlockType13-3,
										systemInformationBlockType13-4,
										systemInformationBlockType14,
										systemInformationBlockType15,
										systemInformationBlockType15-1,
										systemInformationBlockType15-2,
										systemInformationBlockType15-3,
										systemInformationBlockType16,
										systemInformationBlockType17,
										systemInformationBlockType15-4,
										systemInformationBlockType18,
										schedulingBlock1,
										schedulingBlock2,
										systemInformationBlockType15-5,
										systemInformationBlockType5bis, 
										extensionType }

SIB-Type2 ::=						ENUMERATED {
										schedulingBlock3,
										systemInformationBlockType1,
										systemInformationBlockType2,
										systemInformationBlockType3,
										systemInformationBlockType4,
										systemInformationBlockType5,
										systemInformationBlockType5bis, 
										systemInformationBlockType6,
										systemInformationBlockType7,
										systemInformationBlockType11,
										systemInformationBlockType11bis,
										systemInformationBlockType12,
										systemInformationBlockType13,
										systemInformationBlockType13-1,
										systemInformationBlockType13-2,
										systemInformationBlockType13-3,
										systemInformationBlockType13-4,
										systemInformationBlockType14,
										systemInformationBlockType15,
										systemInformationBlockType15bis,
										systemInformationBlockType15-1,
										systemInformationBlockType15-1bis,
										systemInformationBlockType15-1ter,
										systemInformationBlockType15-2,
										systemInformationBlockType15-2bis,
										systemInformationBlockType15-2ter,
										systemInformationBlockType15-3,
										systemInformationBlockType15-3bis,
										systemInformationBlockType15-4,
										systemInformationBlockType15-5,
										systemInformationBlockType15-6,
										systemInformationBlockType15-7,
										systemInformationBlockType15-8,
										systemInformationBlockType16,
										systemInformationBlockType17,
										systemInformationBlockType18,
										systemInformationBlockType19,
										systemInformationBlockType20,
										systemInformationBlockType21,
										systemInformationBlockType22,
										systemInformationBlockType23,
										systemInformationBlockType24,
										systemInformationBlockType11ter,
										systemInformationBlockType25,
										spare20, spare19, spare18,
										spare17, spare16, spare15, spare14, spare13, spare12,
										spare11, spare10, spare9, spare8, spare7, spare6,
										spare5, 
										spare4, spare3, spare2, spare1 }

SIB-TypeAndTag ::=					CHOICE {
	sysInfoType1						PLMN-ValueTag,
	sysInfoType2						CellValueTag,
	sysInfoType3						CellValueTag,
	sysInfoType4						CellValueTag,
	sysInfoType5						CellValueTag,
	sysInfoType6						CellValueTag,
	sysInfoType7						NULL,
	-- dummy, dummy2 and dummy3 are not used in this version of the specification,
	-- they should not be sent. If they are received the UE behaviour is not specified.
	dummy								CellValueTag,
	dummy2								NULL,
	dummy3								NULL,
	sysInfoType11						CellValueTag,
	sysInfoType12 						CellValueTag,
	sysInfoType13						CellValueTag,
	sysInfoType13-1					CellValueTag, 
	sysInfoType13-2					CellValueTag,
	sysInfoType13-3					CellValueTag,
	sysInfoType13-4					CellValueTag,
	sysInfoType14						NULL,
	sysInfoType15						CellValueTag,
	sysInfoType16						PredefinedConfigIdentityAndValueTag,
	sysInfoType17						NULL,
	sysInfoType15-1					CellValueTag,
	sysInfoType15-2					SIBOccurrenceIdentityAndValueTag,
	sysInfoType15-3					SIBOccurrenceIdentityAndValueTag,
	sysInfoType15-4					CellValueTag,
	sysInfoType18						CellValueTag,
	sysInfoType15-5					CellValueTag,
	sysInfoType5bis					CellValueTag,
	spare4								NULL,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}

SIB-TypeAndTag2 ::=				CHOICE {
	sysInfoType1						PLMN-ValueTag,
	sysInfoType2						CellValueTag,
	sysInfoType3						CellValueTag3,
	sysInfoType4						CellValueTag,
	sysInfoType5						CellValueTag3,
	sysInfoType5bis					CellValueTag3,
	sysInfoType6						CellValueTag,
	sysInfoType7						NULL,
	sysInfoType11						CellValueTag,
	sysInfoType11bis					CellValueTag,
	sysInfoType12 						CellValueTag,
	sysInfoType13						CellValueTag,
	sysInfoType13-1					CellValueTag, 
	sysInfoType13-2					CellValueTag,
	sysInfoType13-3					CellValueTag,
	sysInfoType13-4					CellValueTag,
	sysInfoType14						NULL,
	sysInfoType15						CellValueTag,
	sysInfoType15bis					CellValueTag,
	sysInfoType15-1					CellValueTag,
	sysInfoType15-1bis					CellValueTag,
	sysInfoType15-1ter					CellValueTag,
	sysInfoType15-2					SIBOccurrenceIdentityAndValueTag,
	sysInfoType15-2bis					SIBOccurrenceIdentityAndValueTag,
	sysInfoType15-2ter					SIBOccurrenceIdentityAndValueTag,
	sysInfoType15-3					SIBOccurrenceIdentityAndValueTag,
	sysInfoType15-3bis					SIBOccurrenceIdentityAndValueTag,
	sysInfoType15-4					CellValueTag,
	sysInfoType15-5					CellValueTag,
	sysInfoType15-6					CellValueTag,
	sysInfoType15-7					CellValueTag,
	sysInfoType15-8					CellValueTag,
	sysInfoType16						PredefinedConfigIdentityAndValueTag,
	sysInfoType17						NULL,
	sysInfoType18						CellValueTag,
	sysInfoType19						CellValueTag,
	sysInfoType20						CellValueTag,
	sysInfoType21						CellValueTag3,
	sysInfoType22						CellValueTag3,
	sysInfoType23						CellValueTag,
	sysInfoType24						NULL,
	sysInfoType11ter					CellValueTag3,
	sysInfoType25						NULL,
	spare21								NULL,
	spare20								NULL,
	spare19								NULL,
	spare18								NULL,
	spare17								NULL,
	spare16								NULL,
	spare15								NULL,
	spare14								NULL,
	spare13								NULL,
	spare12								NULL,
	spare11								NULL,
	spare10								NULL,
	spare9								NULL,
	spare8								NULL,
	spare7								NULL,
	spare6								NULL,
	spare5								NULL,
	spare4								NULL,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}

SIBSb-TypeAndTag ::=				CHOICE {
	sysInfoType1						PLMN-ValueTag,
	sysInfoType2						CellValueTag,
	sysInfoType3						CellValueTag,
	sysInfoType4						CellValueTag,
	sysInfoType5						CellValueTag,
	sysInfoType6						CellValueTag,
	sysInfoType7						NULL,
	-- dummy, dummy2 and dummy3 are not used in this version of the specification,
	-- they should not be sent. If they are received the UE behaviour is not specified.
	dummy								CellValueTag,
	dummy2								NULL,
	dummy3								NULL,
	sysInfoType11						CellValueTag,
	sysInfoType12 						CellValueTag,
	sysInfoType13						CellValueTag,
	sysInfoType13-1					CellValueTag, 
	sysInfoType13-2					CellValueTag,
	sysInfoType13-3					CellValueTag,
	sysInfoType13-4					CellValueTag,
	sysInfoType14						NULL,
	sysInfoType15						CellValueTag,
	sysInfoType16						PredefinedConfigIdentityAndValueTag,
	sysInfoType17						NULL,
	sysInfoTypeSB1						CellValueTag,
	sysInfoTypeSB2						CellValueTag,
	sysInfoType15-1					CellValueTag,
	sysInfoType15-2					SIBOccurrenceIdentityAndValueTag,
	sysInfoType15-3					SIBOccurrenceIdentityAndValueTag,
	sysInfoType15-4					CellValueTag,
	sysInfoType18						CellValueTag,
	sysInfoType15-5					CellValueTag,
	sysInfoType5bis					CellValueTag,
	spare2								NULL,
	spare1								NULL
}


SIBSb-TypeAndTagExtValueTag ::=	CHOICE {
	sysInfoType3						CellValueTagExt,
	sysInfoType5						CellValueTagExt,
	sysInfoType5bis					CellValueTagExt,
	sysInfoType21						CellValueTagExt,
	sysInfoType22						CellValueTagExt,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}

SIB-TypeExt ::=					CHOICE {
	systemInfoType11bis				NULL,
	systemInfoType15bis				NULL,
	systemInfoType15-1bis				NULL,
	systemInfoType15-2bis				NULL,
	systemInfoType15-3bis				NULL,
	systemInfoType15-6					NULL,
	systemInfoType15-7					NULL,
	systemInfoType15-8					NULL
}

SIB-TypeExt2 ::=					CHOICE {
	systemInfoType19					NULL,
	systemInfoType15-2ter				NULL,
	systemInfoType20					NULL,
	systemInfoType21					NULL,
	systemInfoType22					NULL,
	systemInfoType15-1ter				NULL,
	systemInfoType23					NULL,
	systemInfoType24					NULL
}

SIB-TypeExt3 ::=					CHOICE {
	systemInfoType11ter				NULL,
	systemInfoType25					NULL,
	spare6								NULL,
	spare5								NULL,
	spare4								NULL,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}

SIB-TypeExtGANSS ::=				CHOICE {
	systemInfoType15-1bis				NULL,
	systemInfoType15-2bis				NULL,
	systemInfoType15-2ter				NULL,
	systemInfoType15-3bis				NULL,
	systemInfoType15-6					NULL,
	systemInfoType15-7					NULL,
	systemInfoType15-8					NULL,
	spare9								NULL,
	spare8								NULL,
	spare7								NULL,
	spare6								NULL,
	spare5								NULL,
	spare4								NULL,
	spare3								NULL,
	spare2								NULL,
	spare1								NULL
}

SibOFF ::=							ENUMERATED {
										so2, so4, so6, so8, so10,
										so12, so14, so16, so18,
										so20, so22, so24, so26,
										so28, so30, so32 }

SibOFF-vc50ext ::=					SEQUENCE {
	sibOFF								SibOFF							OPTIONAL
}

SibOFF-List ::=					SEQUENCE (SIZE (1..15)) OF
										SibOFF

SibOFF-List2 ::=					SEQUENCE (SIZE (1..15)) OF
										SibOFF-vc50ext

SpecificACDC-BarringInformation ::=		SEQUENCE (SIZE (1.. maxNumAcdcCategory)) OF
												SEQUENCE {
	acdc-Barring									ACDC-Barring					OPTIONAL,
	expirationTimeFactor							ExpirationTimeFactor2			OPTIONAL
}

SysInfoType1 ::=					SEQUENCE {
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,	
		cn-DomainSysInfoList			CN-DomainSysInfoList,
	-- User equipment IEs
		ue-ConnTimersAndConstants		UE-ConnTimersAndConstants			OPTIONAL,
		ue-IdleTimersAndConstants		UE-IdleTimersAndConstants			OPTIONAL,
	-- Extension mechanism for non- release99 information
		v3a0NonCriticalExtensions		SEQUENCE {
			sysInfoType1-v3a0ext			SysInfoType1-v3a0ext-IEs,
			v860NonCriticalExtentions		SEQUENCE {
				sysInfoType1-v860ext			SysInfoType1-v860ext-IEs,
				nonCriticalExtensions			SEQUENCE {} OPTIONAL
			}							OPTIONAL
		}							OPTIONAL
}

SysInfoType1-v3a0ext-IEs ::=	SEQUENCE {
	ue-ConnTimersAndConstants-v3a0ext		UE-ConnTimersAndConstants-v3a0ext,
	ue-IdleTimersAndConstants-v3a0ext		UE-IdleTimersAndConstants-v3a0ext
}

SysInfoType1-v860ext-IEs ::=	SEQUENCE {
	ue-ConnTimersAndConstants				UE-ConnTimersAndConstants-v860ext
}

SysInfoType2 ::=				SEQUENCE {
	-- UTRAN mobility IEs
		ura-IdentityList				URA-IdentityList,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions			SEQUENCE {}							OPTIONAL
}

SysInfoType3 ::=				SEQUENCE {
		sib4indicator					BOOLEAN,
	-- UTRAN mobility IEs
		cellIdentity					CellIdentity,
		cellSelectReselectInfo			CellSelectReselectInfoSIB-3-4,
		cellAccessRestriction			CellAccessRestriction,
	-- Extension mechanism for non- release99 information
		v4b0NonCriticalExtensions		SEQUENCE { 
			sysInfoType3-v4b0ext			SysInfoType3-v4b0ext-IEs,
			v590NonCriticalExtension		SEQUENCE {
				sysInfoType3-v590ext			SysInfoType3-v590ext,
				v5c0NoncriticalExtension		SEQUENCE {
					sysInfoType3-v5c0ext			SysInfoType3-v5c0ext-IEs,
					v670NonCriticalExtension			SEQUENCE {
						sysInfoType3-v670ext				SysInfoType3-v670ext,
						v770NonCriticalExtension			SEQUENCE {
							sysInfoType3-v770ext				SysInfoType3-v770ext-IEs,
							v830NonCriticalExtension			SEQUENCE {
								sysInfoType3-v830ext				SysInfoType3-v830ext-IEs,
								v860NonCriticalExtension			SEQUENCE {
									sysInfoType3-v860ext				SysInfoType3-v860ext-IEs,
									v870NonCriticalExtension			SEQUENCE {
										sysInfoType3-v870ext			SysInfoType3-v870ext-IEs,
										v900NonCriticalExtension		SEQUENCE {
											sysInfoType3-v920ext		SysInfoType3-v920ext-IEs,
											vc50NonCriticalExtension		SEQUENCE {
												sysInfoType3-vc50ext		SysInfoType3-vc50ext-IEs,
												nonCriticalExtensions	SEQUENCE {}	OPTIONAL
											}							OPTIONAL
										}							OPTIONAL
									}							OPTIONAL
								}							OPTIONAL
							}							OPTIONAL
						}							OPTIONAL
					}							OPTIONAL
				}							OPTIONAL
			}							OPTIONAL
		}							OPTIONAL
}

SysInfoType3-v4b0ext-IEs ::=	SEQUENCE {
	mapping-LCR					Mapping-LCR-r4							OPTIONAL
}

SysInfoType3-v590ext ::=	SEQUENCE {
	cellSelectReselectInfo-v590ext	CellSelectReselectInfo-v590ext 		OPTIONAL
}

SysInfoType3-v5c0ext-IEs ::=	SEQUENCE {
	cellSelectReselectInfoTreselectionScaling-v5c0ext
										CellSelectReselectInfoTreselectionScaling-v5c0ext	OPTIONAL
}

SysInfoType3-v670ext ::=	SEQUENCE {
	 	domainSpecificAccessRestrictionParametersForPLMNOfMIB
									DomainSpecificAccessRestrictionParam-v670ext	OPTIONAL,
		domainSpecificAccessRestictionForSharedNetwork
									DomainSpecificAccessRestrictionForSharedNetwork-v670ext	OPTIONAL
}

SysInfoType3-v770ext-IEs ::=		SEQUENCE {
	deferredMeasurementControlReadingSupport
											DeferredMeasurementControlReadingSupport	OPTIONAL,
	q-QualMin-Offset						Q-QualMin-Offset				OPTIONAL,
	q-RxlevMin-Offset						Q-RxlevMin-Offset				OPTIONAL,
	mbsfnOnlyService						MBSFNOnlyService				OPTIONAL
}

SysInfoType3-v830ext-IEs ::=		SEQUENCE {
	pagingPermissionWithAccessControlParametersForPLMNOfMIB
										PagingPermissionWithAccessControlParameters		OPTIONAL,
	pagingPermissionWithAccessControlParametersForSharedNetwork
										PagingPermissionWithAccessControlForSharedNetwork	OPTIONAL
}

SysInfoType3-v860ext-IEs ::=		SEQUENCE {
	csgIdentity						CSG-Identity							OPTIONAL,
	csg-PSCSplitInfo					CSG-PSCSplitInfo						OPTIONAL
}

SysInfoType3-v870ext-IEs ::=		SEQUENCE {
	cellAccessRestriction				CellAccessRestriction-v870ext		OPTIONAL
}

SysInfoType3-v920ext-IEs ::=		SEQUENCE {
	imsEmergencySupportIndicator		ENUMERATED { supported }			OPTIONAL
}

SysInfoType3-vc50ext-IEs ::=		SEQUENCE {
	txFailParams						TxFailParams						OPTIONAL
}

SysInfoType4 ::=					SEQUENCE {
	-- UTRAN mobility IEs
		cellIdentity					CellIdentity,
		cellSelectReselectInfo		CellSelectReselectInfoSIB-3-4,
		cellAccessRestriction			CellAccessRestriction,
	-- Extension mechanism for non- release99 information
		v4b0NonCriticalExtensions		SEQUENCE { 
			sysInfoType4-v4b0ext			SysInfoType4-v4b0ext-IEs,
			v590NonCriticalExtension		SEQUENCE {
				sysInfoType4-v590ext			SysInfoType4-v590ext,
				v5b0NonCriticalExtension		SEQUENCE {
					sysInfoType4-v5b0ext			SysInfoType4-v5b0ext-IEs,
					v5c0NonCriticalExtension			SEQUENCE {
						sysInfoType4-v5c0ext				SysInfoType4-v5c0ext-IEs,
						nonCriticalExtensions			SEQUENCE {}		OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType4-v4b0ext-IEs ::=	SEQUENCE {
	mapping-LCR					Mapping-LCR-r4							OPTIONAL
}


SysInfoType4-v590ext ::=	SEQUENCE {
	cellSelectReselectInfo-v590ext		CellSelectReselectInfo-v590ext		OPTIONAL
}

SysInfoType4-v5b0ext-IEs ::=	SEQUENCE {
	cellSelectReselectInfoPCHFACH-v5b0ext	CellSelectReselectInfoPCHFACH-v5b0ext		OPTIONAL
}

SysInfoType4-v5c0ext-IEs ::=	SEQUENCE {
	cellSelectReselectInfoTreselectionScaling-v5c0ext
										CellSelectReselectInfoTreselectionScaling-v5c0ext	OPTIONAL
}

SysInfoType5 ::=				SEQUENCE {
		sib6indicator				BOOLEAN,
	-- Physical channel IEs
		pich-PowerOffset			PICH-PowerOffset,
		modeSpecificInfo			CHOICE {
			fdd								SEQUENCE {
				aich-PowerOffset				AICH-PowerOffset
			},
			tdd								SEQUENCE {
	-- If PDSCH/PUSCH is configured for 1.28Mcps or 7.68Mcps TDD, the following IEs should be absent
	-- and the info included in the respective tdd128SpecificInfo or tdd768SpecificInfo instead.
	-- If PDSCH/PUSCH is configured for 3.84Mcps TDD in R5, HCR-r5-SpecificInfo should also be 
	-- included. 
				pusch-SysInfoList-SFN			PUSCH-SysInfoList-SFN		OPTIONAL,
				pdsch-SysInfoList-SFN			PDSCH-SysInfoList-SFN		OPTIONAL,
				openLoopPowerControl-TDD		OpenLoopPowerControl-TDD
			}
		},
		primaryCCPCH-Info				PrimaryCCPCH-Info					OPTIONAL,
		prach-SystemInformationList	PRACH-SystemInformationList,
		sCCPCH-SystemInformationList	SCCPCH-SystemInformationList,
		-- cbs-DRX-Level1Information is conditional on any of the CTCH indicator IEs in
		-- sCCPCH-SystemInformationList
		cbs-DRX-Level1Information		CBS-DRX-Level1Information			OPTIONAL,
	-- Extension mechanism for non- release99 information
		v4b0NonCriticalExtensions		SEQUENCE {
			sysInfoType5-v4b0ext			SysInfoType5-v4b0ext-IEs		OPTIONAL,
		-- Extension mechanism for non- rel-4 information
			v590NonCriticalExtensions		SEQUENCE {
				sysInfoType5-v590ext			SysInfoType5-v590ext-IEs		OPTIONAL,
				v650NonCriticalExtensions		SEQUENCE {
					sysInfoType5-v650ext			SysInfoType5-v650ext-IEs		OPTIONAL,
					v680NonCriticalExtensions		SEQUENCE {
						sysInfoType5-v680ext			SysInfoType5-v680ext-IEs		OPTIONAL,
						v690NonCriticalExtensions		SEQUENCE {
							sysInfoType5-v690ext			SysInfoType5-v690ext-IEs,
							v770NonCriticalExtensions		SEQUENCE {
								sysInfoType5-v770ext			SysInfoType5-v770ext-IEs,
								v860NonCriticalExtensions		SEQUENCE {
									sysInfoType5-v860ext			SysInfoType5-v860ext-IEs,
									v890NonCriticalExtensions		SEQUENCE {
										sysInfoType5-v890ext			SysInfoType5-v890ext-IEs,
										v8b0NonCriticalExtensions		SEQUENCE {
											sysInfoType5-v8b0ext
																		SysInfoType5-v8b0ext-IEs,
											v8d0NonCriticalExtensions		SEQUENCE {
												sysInfoType5-v8d0ext
																			SysInfoType5-v8d0ext-IEs,
												va40NonCriticalExtensions		SEQUENCE {
													sysInfoType5-va40ext		
																			SysInfoType5-va40ext-IEs,
													va80NonCriticalExtensions		SEQUENCE {
														sysInfoType5-va80ext	SysInfoType5-va80ext-IEs,
														vb50NonCriticalExtensions
															SysInfoType5-NonCriticalExtensions-vb50-IEs
	OPTIONAL
													}		OPTIONAL
												}		OPTIONAL
											}		OPTIONAL
										}		OPTIONAL
									}		OPTIONAL
								}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

SysInfoType5-v4b0ext-IEs ::=	SEQUENCE {
	--The following IE PNBSCH-Allocation-r4 shall be used for 3.84Mcps TDD only.
	pNBSCH-Allocation-r4 			PNBSCH-Allocation-r4			OPTIONAL,
	-- In case of TDD, the following IE is included instead of the
	-- IE up-IPDL-Parameter in up-OTDOA-AssistanceData.
	openLoopPowerControl-IPDL-TDD	OpenLoopPowerControl-IPDL-TDD-r4	OPTIONAL,
-- If SysInfoType5 is sent to describe a 1.28Mcps TDD cell, the IE PRACH-RACH-Info included in
-- PRACH-SystemInformationList shall be ignored, the IE PRACH-Partitioning and the 
-- IE rach-TransportFormatSet shall be absent and the corresponding IE in the following 
-- PRACH-SystemInformationList-LCR-r4 shall be used
	prach-SystemInformationList-LCR-r4	PRACH-SystemInformationList-LCR-r4	OPTIONAL, 
	tdd128SpecificInfo				SEQUENCE {
		pusch-SysInfoList-SFN			PUSCH-SysInfoList-SFN-LCR-r4	OPTIONAL,
		pdsch-SysInfoList-SFN			PDSCH-SysInfoList-SFN-LCR-r4	OPTIONAL,
		pCCPCH-LCR-Extensions			PrimaryCCPCH-Info-LCR-r4-ext	OPTIONAL,
		sCCPCH-LCR-ExtensionsList		SCCPCH-SystemInformationList-LCR-r4-ext
	}																OPTIONAL,
	frequencyBandIndicator			RadioFrequencyBandFDD			OPTIONAL
}

SysInfoType5-v590ext-IEs ::=	SEQUENCE {
	hcr-r5-SpecificInfo				SEQUENCE {
		pusch-SysInfoList-SFN			PUSCH-SysInfoList-SFN-HCR-r5	OPTIONAL,
		pdsch-SysInfoList-SFN			PDSCH-SysInfoList-SFN-HCR-r5	OPTIONAL
	}																	OPTIONAL
}

SysInfoType5-v650ext-IEs ::=	SEQUENCE {
	frequencyBandIndicator2		RadioFrequencyBandFDD2
}

SysInfoType5-v680ext-IEs ::=	SEQUENCE {
	-- TABULAR: HSDPA Cell Indicator is MD in tabular description
	-- Default value is 'HSDPA Capability not indicated'
	hsdpa-CellIndicator			ENUMERATED { hsdpa-CapableCell }			OPTIONAL
}

SysInfoType5-v690ext-IEs ::=		SEQUENCE {
	-- TABULAR: E-DCH Cell Indicator is MD in tabular description
	-- Default value is 'E-DCH Capability not indicated'
	edch-CellIndicator					ENUMERATED { edch-CapableCell }		OPTIONAL,
	sccpch-SystemInformation-MBMS		CHOICE {
		mcchOnSCCPCHusedForNonMBMS			MBMS-MCCH-ConfigurationInfo-r6,
		mcchOnSCCPCHusedOnlyForMBMS			SCCPCH-SystemInformation-MBMS-r6
	}		OPTIONAL,
	additionalPRACH-TF-and-TFCS-CCCH-List	AdditionalPRACH-TF-and-TFCS-CCCH-List	OPTIONAL,
	cBS-DRX-Level1Information-extension		CBS-DRX-Level1Information-extension-r6	OPTIONAL
}

SysInfoType5-v770ext-IEs ::=		SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			hs-dsch-CommonSystemInformation		HS-DSCH-CommonSystemInformation,
			hs-dsch-PagingSystemInformation		HS-DSCH-PagingSystemInformation		OPTIONAL
		},
		tdd768								SEQUENCE {
			pusch-SysInfoList-SFN				PUSCH-SysInfoList-SFN-VHCR			OPTIONAL,
			pdsch-SysInfoList-SFN				PDSCH-SysInfoList-VHCR-r7			OPTIONAL,
			-- If SysInfoType5 is sent to configure a 7.68Mcps TDD cell, the 'prach-RACH-Info' in
			-- IE PRACH-SystemInformationList shall be ignored, 'prach-Partitioning' shall be absent
			-- and the corresponding IE in the following IE PRACH-SystemInformationList-VHCR-r7
			-- shall be used instead.
			prach-SystemInformationList		PRACH-SystemInformationList-VHCR-r7	OPTIONAL
		},
		tdd128								SEQUENCE {
			prach-SystemInformationList		PRACH-SystemInformationList-LCR-v770ext	OPTIONAL
		}
	}		OPTIONAL,
	-- If SysInfoType5 is sent to configure a 7.68 Mcps TDD cell (in any mode) or a 3.84 Mcps TDD 
	-- cell operating in MBSFN mode, IE SCCPCH-SystemInformationList-HCR-VHCR-r7 is used, otherwise
	-- IE SCCPCH-SystemInformationList-r6 is used.
	sccpch-SystemInformationList			SCCPCH-SystemInformationList-HCR-VHCR-r7	OPTIONAL,
	sccpch-SystemInformation-MBMS		CHOICE {
		-- If choice is 'mcchOnSCCPCHusedForNonMBMS', IE MBMS-MCCH-ConfigurationInfo-r6 is used.
		-- If choice is 'mcchOnSCCPCHusedOnlyForMBMS', IE MBMS-MCCH-ConfigurationInfo-r7 is used
		-- to configure a 7.68Mcps TDD cell or a cell operating in MBSFN mode, otherwise IE
		-- SCCPCH-SystemInformation-MBMS-r6 is used.
		mcchOnSCCPCHusedOnlyForMBMS			SCCPCH-SystemInformation-MBMS-r7
	}		OPTIONAL,
	tDD-MBSFNInformation				TDD-MBSFNInformation			OPTIONAL
}

SysInfoType5-v860ext-IEs ::=	SEQUENCE {
	-- The field 'dummy' shall be marked absent in SysInfoType5 and SysInfoType5bis. A failure to
	-- comply with this requirement may prevent the UE to receive any service in the cell. The UE
	-- may treat the cell as barred.
	dummy								SEQUENCE {}								OPTIONAL,
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			hs-dsch-DrxCellfach-info			HS-DSCH-DrxCellfach-info				OPTIONAL
		},
		tdd128								SEQUENCE {
			hs-dsch-CommonSysInfo				SEQUENCE {
				hs-dsch-CommonSystemInformation	HS-DSCH-CommonSystemInformation-TDD128,
				hs-dsch-PagingSystemInformation	HS-DSCH-PagingSystemInformation-TDD128	OPTIONAL
			}		OPTIONAL,
			hs-dsch-DrxCellfach-info			HS-DSCH-DrxCellfach-info-TDD128			OPTIONAL
		}
	}
}

SysInfoType5-v890ext-IEs ::= SEQUENCE {
	secondFrequencyInfo			FrequencyInfoTDD						OPTIONAL,
	commonEDCHSystemInfo			CommonEDCHSystemInfo					OPTIONAL
}

SysInfoType5-v8b0ext-IEs ::= SEQUENCE {
	tresetUsageIndicator				ENUMERATED { true }				OPTIONAL,
	upPCHpositionInfo					UpPCHposition-LCR					OPTIONAL
}

SysInfoType5-v8d0ext-IEs ::=	SEQUENCE {
	commonEDCHSystemInfoFDD				CommonEDCHSystemInfoFDD		OPTIONAL
}

SysInfoType5-va40ext-IEs ::=	SEQUENCE {
	frequencyBandsIndicatorSupport		FrequencyBandsIndicatorSupport	OPTIONAL,
	frequencyBandIndicator3				RadioFrequencyBandFDD3			OPTIONAL
}

SysInfoType5-va80ext-IEs ::=	SEQUENCE {
	multipleFrequencyBandIndicatorListFDD		MultipleFrequencyBandIndicatorListFDD		OPTIONAL
}

SysInfoType5-NonCriticalExtensions-vb50-IEs::=	SEQUENCE {
	sysInfoType5-vb50ext				SysInfoType5-vb50ext-IEs,
	ve30NonCriticalExtensions			SysInfoType5-NonCriticalExtensions-ve30-IEs						OPTIONAL

}

SysInfoType5-NonCriticalExtensions-ve30-IEs::= SEQUENCE {
	sysInfoType5-ve30ext				SysInfoType5-ve30ext-IEs,
	nonCriticalExtensions				SEQUENCE {}						OPTIONAL

}

SysInfoType5-ve30ext-IEs ::= SEQUENCE {
	adjacentchannelinterferencelevel	ENUMERATED { moderate, high }		OPTIONAL
}

SysInfoType5-vb50ext-IEs ::=	SEQUENCE {
	sib22indicator					BOOLEAN,
	cellUpdateMessageOptimisedEncoding	ENUMERATED { true }		OPTIONAL
}

-- SysInfoType5bis uses the same structure as SysInfoType5
SysInfoType5bis ::= SysInfoType5

SysInfoType6 ::=					SEQUENCE {
	-- Physical channel IEs
		pich-PowerOffset				PICH-PowerOffset,
		modeSpecificInfo				CHOICE {
			fdd								SEQUENCE {
				aich-PowerOffset				AICH-PowerOffset,
				-- dummy is not used in this version of specification, it should
				-- not be sent and if received it should be ignored.
				dummy							CSICH-PowerOffset			OPTIONAL
			},
			tdd								SEQUENCE {
				-- If PDSCH/PUSCH is configured for 1.28Mcps TDD, pusch-SysInfoList-SFN,
				-- pdsch-SysInfoList-SFN and openLoopPowerControl-TDD should be absent
				-- and the info included in the tdd128SpecificInfo instead.
				-- If PDSCH/PUSCH is configured for 7.68Mcps TDD, pusch-SysInfoList-SFN
				-- and pdsch-SysInfoList-SFN should be absent and the info included in the
				-- tdd768SpecificInfo instead.
				-- If PDSCH/PUSCH is configured for 3.84Mcps TDD in R5, HCR-r5-SpecificInfo should 
				-- also be included.
				pusch-SysInfoList-SFN			PUSCH-SysInfoList-SFN		OPTIONAL,
				pdsch-SysInfoList-SFN			PDSCH-SysInfoList-SFN		OPTIONAL,
				openLoopPowerControl-TDD		OpenLoopPowerControl-TDD
			}
		},
		primaryCCPCH-Info				PrimaryCCPCH-Info					OPTIONAL,
		prach-SystemInformationList	PRACH-SystemInformationList			OPTIONAL,
		sCCPCH-SystemInformationList	SCCPCH-SystemInformationList		OPTIONAL,
		cbs-DRX-Level1Information		CBS-DRX-Level1Information			OPTIONAL,
		-- Conditional on any of the CTCH indicator IEs in
		-- sCCPCH-SystemInformationList
	-- Extension mechanism for non- release99 information
		v4b0NonCriticalExtensions		SEQUENCE {
			sysInfoType6-v4b0ext			SysInfoType6-v4b0ext-IEs		OPTIONAL,
		-- Extension mechanism for non- rel-4 information
			v590NonCriticalExtensions	SEQUENCE {
				sysInfoType6-v590ext			SysInfoType6-v590ext-IEs		OPTIONAL,
				v650nonCriticalExtensions		SEQUENCE {
					sysInfoType6-v650ext			SysInfoType6-v650ext-IEs		OPTIONAL,
					v690nonCriticalExtensions		SEQUENCE {
						sysInfoType6-v690ext			SysInfoType6-v690ext-IEs,
						v770NonCriticalExtensions		SEQUENCE {
							sysInfoType6-v770ext			SysInfoType6-v770ext-IEs,
							va40NonCriticalExtensions			SEQUENCE {
								sysInfoType6-va40ext				SysInfoType6-va40ext-IEs,
								va80NonCriticalExtensions			SEQUENCE {
									sysInfoType6-va80ext				SysInfoType6-va80ext-IEs,
									ve30NonCriticalExtensions	SysInfoType6-NonCriticalExtensions-ve30-IEs	OPTIONAL 
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType6-NonCriticalExtensions-ve30-IEs::= SEQUENCE {
	sysInfoType6-ve30ext				SysInfoType6-ve30ext-IEs,
	nonCriticalExtensions				SEQUENCE {}			OPTIONAL
}

SysInfoType6-ve30ext-IEs ::= SEQUENCE {
	adjacentchannelinterferencelevel		ENUMERATED { moderate, high }	OPTIONAL
}

SysInfoType6-v4b0ext-IEs ::=	SEQUENCE {
	-- openLoopPowerControl-IPDL-TDD is present only if IPDLs are applied for TDD
	openLoopPowerControl-IPDL-TDD	OpenLoopPowerControl-IPDL-TDD-r4	OPTIONAL,
	-- If SysInfoType6 is sent to describe a 1.28Mcps TDD cell, the IE PRACH-RACH-Info included
	-- in PRACH-SystemInformationList shall be ignored, the IE PRACH-Partitioning and the 
	-- IE rach-TransportFormatSet shall be absent and the corresponding IEs in the following 
	-- PRACH-SystemInformationList-LCR-r4 shall be used
	prach-SystemInformationList-LCR-r4	PRACH-SystemInformationList-LCR-r4	OPTIONAL, 
	tdd128SpecificInfo				SEQUENCE {
		pusch-SysInfoList-SFN			PUSCH-SysInfoList-SFN-LCR-r4	OPTIONAL,
		pdsch-SysInfoList-SFN			PDSCH-SysInfoList-SFN-LCR-r4	OPTIONAL,
		pCCPCH-LCR-Extensions			PrimaryCCPCH-Info-LCR-r4-ext	OPTIONAL,
		sCCPCH-LCR-ExtensionsList		SCCPCH-SystemInformationList-LCR-r4-ext	OPTIONAL
	}																OPTIONAL,
	frequencyBandIndicator			RadioFrequencyBandFDD			OPTIONAL
}

SysInfoType6-v590ext-IEs ::=	SEQUENCE {
	hcr-r5-SpecificInfo				SEQUENCE {
		pusch-SysInfoList-SFN			PUSCH-SysInfoList-SFN-HCR-r5	OPTIONAL,
		pdsch-SysInfoList-SFN			PDSCH-SysInfoList-SFN-HCR-r5	OPTIONAL
	}																	OPTIONAL
}

SysInfoType6-v650ext-IEs ::=	SEQUENCE {
	frequencyBandIndicator2			RadioFrequencyBandFDD2
}

SysInfoType6-v690ext-IEs ::=	SEQUENCE {
	additionalPRACH-TF-and-TFCS-CCCH-List	AdditionalPRACH-TF-and-TFCS-CCCH-List	OPTIONAL
}

SysInfoType6-v770ext-IEs ::=		SEQUENCE {
	tdd768SpecificInfo					SEQUENCE {
		pusch-SysInfoList-SFN				PUSCH-SysInfoList-SFN-VHCR			OPTIONAL,
		pdsch-SysInfoList-SFN				PDSCH-SysInfoList-VHCR-r7			OPTIONAL,
		-- If SysInfoType6 is sent to configure a 7.68Mcps TDD cell, the 'prach-RACH-Info' in
		-- IE PRACH-SystemInformationList shall be ignored, 'prach-Partitioning' shall be absent
		-- and the corresponding IE in the following IE PRACH-SystemInformationList-VHCR-r7
		-- shall be used instead.
		prach-SystemInformationList		PRACH-SystemInformationList-VHCR-r7	OPTIONAL
	}		OPTIONAL,
	-- If SysInfoType6 is sent to configure a 7.68 Mcps TDD cell,
	-- IE SCCPCH-SystemInformationList-HCR-VHCR-r7 is used, otherwise
	-- IE SCCPCH-SystemInformationList-r6 is used.
	sccpch-SystemInformationList		SCCPCH-SystemInformationList-HCR-VHCR-r7	OPTIONAL
}

SysInfoType6-va40ext-IEs ::= SEQUENCE {
	frequencyBandIndicator3			RadioFrequencyBandFDD3				OPTIONAL
}

SysInfoType6-va80ext-IEs ::= SEQUENCE {
	multipleFrequencyBandIndicatorListFDD		MultipleFrequencyBandIndicatorListFDD		OPTIONAL
}

SysInfoType7 ::=					SEQUENCE {
	-- Physical channel IEs
		modeSpecificInfo				CHOICE {
			fdd								SEQUENCE {
				ul-Interference				UL-Interference
			},
			tdd								NULL
		},
		prach-Information-SIB5-List	DynamicPersistenceLevelList,
		prach-Information-SIB6-List	DynamicPersistenceLevelList			OPTIONAL,
		expirationTimeFactor			ExpirationTimeFactor				OPTIONAL,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions			SEQUENCE {}							OPTIONAL
}

-- This IE is not used in this version of the specification.
-- It was kept only for backwards compatibility reasons
SysInfoType8 ::=					SEQUENCE {
	-- User equipment IEs
		-- dummy1, dummy2, dummy3 are not used in this version of the specification and
		-- they should be ignored by the receiver.
		dummy1							CPCH-Parameters,
	-- Physical channel IEs
		dummy2							CPCH-SetInfoList,
		dummy3							CSICH-PowerOffset,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions			SEQUENCE {}							OPTIONAL
}

-- This IE is not used in this version of the specification.
-- It was kept only for backwards compatibility reasons
SysInfoType9 ::=					SEQUENCE {
	-- Physical channel IEs
		-- dummy is not used in this version of the specification and
		-- it should be ignored by the receiver.
		dummy							CPCH-PersistenceLevelsList,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions			SEQUENCE {}							OPTIONAL
}

-- This IE is not used in this version of the specification.
-- It was kept only for backwards compatibility reasons
SysInfoType10 ::=					SEQUENCE {
	-- User equipment IEs
		-- dummy is not used in this version of the specification, it should
		-- not be sent and if received it should be ignored.
		dummy							DRAC-SysInfoList,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions			SEQUENCE {}							OPTIONAL
}

SysInfoType11 ::=					SEQUENCE {
		sib12indicator					BOOLEAN,
	-- Measurement IEs
		fach-MeasurementOccasionInfo	FACH-MeasurementOccasionInfo		OPTIONAL,
		measurementControlSysInfo		MeasurementControlSysInfo,
	-- Extension mechanism for non- release99 information
		v4b0NonCriticalExtensions		SEQUENCE {
			sysInfoType11-v4b0ext			SysInfoType11-v4b0ext-IEs		OPTIONAL,
			v590NonCriticalExtension		SEQUENCE {
				sysInfoType11-v590ext			SysInfoType11-v590ext-IEs,
				v690NonCriticalExtensions		SEQUENCE {
					sysInfoType11-v690ext			SysInfoType11-v690ext-IEs,
					v6b0NonCriticalExtensions		SEQUENCE {
						sysInfoType11-v6b0ext			SysInfoType11-v6b0ext-IEs,
						v770NonCriticalExtensions		SEQUENCE {
							sysInfoType11-v770ext			SysInfoType11-v770ext-IEs,
							v7b0NonCriticalExtensions		SEQUENCE {
								sysInfoType11-v7b0ext			SysInfoType11-v7b0ext-IEs,
								v860NonCriticalExtensions		SEQUENCE {
									sysInfoType11-v860ext			SysInfoType11-v860ext-IEs,
									va80NonCriticalExtensions		SEQUENCE {
										sysInfoType11-va80ext			SysInfoType11-va80ext-IEs,
										vc50NonCriticalExtensions		SEQUENCE {
											sysInfoType11-vc50ext			SysInfoType11-vc50ext-IEs,
											nonCriticalExtensions			SEQUENCE {}		OPTIONAL
										}		OPTIONAL
									}		OPTIONAL
								}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

SysInfoType11-v4b0ext-IEs ::=	SEQUENCE {
	fach-MeasurementOccasionInfo-LCR-Ext	FACH-MeasurementOccasionInfo-LCR-r4-ext	OPTIONAL,
	measurementControlSysInfo-LCR			MeasurementControlSysInfo-LCR-r4-ext
}

SysInfoType11-v590ext-IEs ::=	SEQUENCE {
	--The order of the list corresponds to the order of cell in newIntraFrequencyCellInfoList
	newIntraFrequencyCellInfoList-v590ext	SEQUENCE (SIZE (1..maxCellMeas)) OF
													CellSelectReselectInfo-v590ext	OPTIONAL,
	--The order of the list corresponds to the order of cell in newInterFrequencyCellInfoList
	newInterFrequencyCellInfoList-v590ext	SEQUENCE (SIZE (1..maxCellMeas)) OF
													CellSelectReselectInfo-v590ext	OPTIONAL,
	--The order of the list corresponds to the order of cell in newInterRATCellInfoList
	newInterRATCellInfoList-v590ext			SEQUENCE (SIZE (1..maxCellMeas)) OF
													CellSelectReselectInfo-v590ext	OPTIONAL,
	intraFreqEventCriteriaList-v590ext		Intra-FreqEventCriteriaList-v590ext	OPTIONAL,
	intraFreqReportingCriteria-1b-r5			IntraFreqReportingCriteria-1b-r5		OPTIONAL,
	intraFreqEvent-1d-r5						IntraFreqEvent-1d-r5					OPTIONAL
}

SysInfoType11-v690ext-IEs ::=		SEQUENCE {
	-- dummy is not used in this version of the specification. If received, the UE behaviour
	-- is not specified.
	dummy								Dummy-InterFreqRACHReportingInfo	OPTIONAL
}

SysInfoType11-v6b0ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
	interFreqRACHReportingInfo			InterFreqRACHReportingInfo			OPTIONAL
}

SysInfoType11-v770ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		mbsfnFrequencyList				MBSFNFrequencyList					OPTIONAL
}

SysInfoType11-v7b0ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		newInterFreqCellList			NewInterFreqCellList-v7b0ext		OPTIONAL
}

SysInfoType11-v860ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		mbsfnFrequencyList				MBSFNFrequencyList-v860ext			OPTIONAL
}

SysInfoType11-va80ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		multipleFrequencyInfoListFDD		MultipleFrequencyInfoListFDD	OPTIONAL
}

SysInfoType11-vc50ext-IEs ::=		SEQUENCE {
	measurementControlSysInfo			MeasurementControlSysInfo-vc50ext	OPTIONAL,
	-- Measurement IEs
		measurementScalingFactor		MeasurementScalingFactor			OPTIONAL
}

MeasurementScalingFactor ::=	ENUMERATED { 
									sf-utra-cf1, sf-utra-cf2}


SysInfoType11bis ::=				SEQUENCE {
	-- Measurement IEs
		measurementControlSysInfo		MeasurementControlSysInfoExtension			OPTIONAL,
		measurementControlSysInfo-LCR	MeasurementControlSysInfoExtension-LCR-r4	OPTIONAL,
		measurementControlSysInfoExtensionAddon-r5
										MeasurementControlSysInfoExtensionAddon-r5	OPTIONAL,
	-- Extension mechanism for non-release99 information
		v7b0NonCriticalExtensions		SEQUENCE {
			sysInfoType11bis-v7b0ext		SysInfoType11bis-v7b0ext-IEs,
			v860NonCriticalExtensions		SEQUENCE {
				sysInfoType11bis-v860ext		SysInfoType11bis-v860ext-IEs,
				va80NonCriticalExtensions		SEQUENCE {
					sysInfoType11bis-va80ext		SysInfoType11bis-va80ext-IEs,
					vc50NonCriticalExtensions		SEQUENCE {
						sysInfoType11bis-vc50ext		SysInfoType11bis-vc50ext-IEs,
						nonCriticalExtensions			SEQUENCE {}				OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

SysInfoType11bis-v7b0ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		newInterFreqCellList				NewInterFreqCellList-v7b0ext		OPTIONAL
}

SysInfoType11bis-v860ext-IEs ::=		SEQUENCE {
	-- UTRAN mobility IEs
		csg-PSCSplitInfo					CSG-PSCSplitInfo					OPTIONAL,
		csg-DedicatedFrequencyInfoList	CSG-DedicatedFrequencyInfoList		OPTIONAL
}

SysInfoType11bis-va80ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		multipleFrequencyInfoListFDD		MultipleFrequencyInfoListFDD	OPTIONAL
}

SysInfoType11bis-vc50ext-IEs ::=		SEQUENCE {
	measurementControlSysInfo				MeasurementControlSysInfo-vc50ext	OPTIONAL
}

SysInfoType11ter ::=				SEQUENCE {
	-- Measurement IEs
		measureControlSysInfoInterFreqExt	MeasureControlSysInfoInterFreqExt	OPTIONAL,
		multipleFrequencyInfoListFDD			MultipleFrequencyInfoListFDD		OPTIONAL,
		nonCriticalExtensions					SEQUENCE {}							OPTIONAL
}

SysInfoType12 ::=					SEQUENCE {
	-- Measurement IEs
		fach-MeasurementOccasionInfo	FACH-MeasurementOccasionInfo		OPTIONAL,
		measurementControlSysInfo		MeasurementControlSysInfo,
	-- Extension mechanism for non- release99 information
		v4b0NonCriticalExtensions		SEQUENCE {
			sysInfoType12-v4b0ext			SysInfoType12-v4b0ext-IEs		OPTIONAL,
			v590NonCriticalExtension		SEQUENCE {
				sysInfoType12-v590ext			SysInfoType12-v590ext-IEs,
				v690NonCriticalExtensions		SEQUENCE {
					sysInfoType12-v690ext			SysInfoType12-v690ext-IEs,
					v6b0NonCriticalExtensions		SEQUENCE {
						sysInfoType12-v6b0ext			SysInfoType12-v6b0ext-IEs,
						v7b0NonCriticalExtensions		SEQUENCE {
							sysInfoType12-v7b0ext			SysInfoType12-v7b0ext-IEs,
							va80NonCriticalExtensions		SEQUENCE {
								sysInfoType12-va80ext			SysInfoType12-va80ext-IEs,
								vc50NonCriticalExtensions		SEQUENCE {
									sysInfoType12-vc50ext			SysInfoType12-vc50ext-IEs,
									nonCriticalExtensions			SEQUENCE {}				OPTIONAL
								}							OPTIONAL
							}							OPTIONAL
						}							OPTIONAL
					}							OPTIONAL
				}							OPTIONAL
			}							OPTIONAL
		}							OPTIONAL
}

SysInfoType12-v4b0ext-IEs ::=	SEQUENCE {
	fach-MeasurementOccasionInfo-LCR-Ext	FACH-MeasurementOccasionInfo-LCR-r4-ext	OPTIONAL,
	measurementControlSysInfo-LCR			MeasurementControlSysInfo-LCR-r4-ext
}

SysInfoType12-v590ext-IEs ::=	SEQUENCE {
	--The order of the list corresponds to the order of cell in newIntraFrequencyCellInfoList
	newIntraFrequencyCellInfoList-v590ext	SEQUENCE (SIZE (1..maxCellMeas)) OF
													CellSelectReselectInfo-v590ext	OPTIONAL,
	--The order of the list corresponds to the order of cell in newInterFrequencyCellInfoList
	newInterFrequencyCellInfoList-v590ext	SEQUENCE (SIZE (1..maxCellMeas)) OF
													CellSelectReselectInfo-v590ext	OPTIONAL,
	--The order of the list corresponds to the order of cell in newInterRATCellInfoList
	newInterRATCellInfoList-v590ext			SEQUENCE (SIZE (1..maxCellMeas)) OF
													CellSelectReselectInfo-v590ext	OPTIONAL,
	intraFreqEventCriteriaList-v590ext		Intra-FreqEventCriteriaList-v590ext		OPTIONAL,
	intraFreqReportingCriteria-1b-r5			IntraFreqReportingCriteria-1b-r5		OPTIONAL,
	intraFreqEvent-1d-r5						IntraFreqEvent-1d-r5					OPTIONAL
}

SysInfoType12-v690ext-IEs ::=		SEQUENCE {
	-- dummy is not used in this version of the specification. If received, the UE behaviour
	-- is not specified.
	dummy								Dummy-InterFreqRACHReportingInfo	OPTIONAL
}

SysInfoType12-v6b0ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
	interFreqRACHReportingInfo			InterFreqRACHReportingInfo			OPTIONAL
}

SysInfoType12-v7b0ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		newInterFreqCellList			NewInterFreqCellList-v7b0ext		OPTIONAL
}

SysInfoType12-va80ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		multipleFrequencyInfoListFDD		MultipleFrequencyInfoListFDD	OPTIONAL
}

SysInfoType12-vc50ext-IEs ::=		SEQUENCE {
	measurementControlSysInfo			MeasurementControlSysInfo-vc50ext	OPTIONAL
}

SysInfoType13 ::=					SEQUENCE {
	-- Core network IEs
		cn-DomainSysInfoList			CN-DomainSysInfoList,
	-- User equipment IEs
		ue-IdleTimersAndConstants		UE-IdleTimersAndConstants			OPTIONAL,
		capabilityUpdateRequirement		CapabilityUpdateRequirement			OPTIONAL,
	-- Extension mechanism for non- release99 information
		v3a0NonCriticalExtensions			SEQUENCE { 
			sysInfoType13-v3a0ext			SysInfoType13-v3a0ext-IEs,
			v4b0NonCriticalExtensions		SEQUENCE {
				sysInfoType13-v4b0ext			SysInfoType13-v4b0ext-IEs,
			-- Extension mechanism for non- release99 information
				v770NonCriticalExtensions		SEQUENCE {
					sysInfoType13-v770ext			SysInfoType13-v770ext-IEs,
					nonCriticalExtensions			SEQUENCE {}						OPTIONAL
				}							OPTIONAL
			}							OPTIONAL
		}							OPTIONAL
}

SysInfoType13-v3a0ext-IEs ::=		SEQUENCE {
	ue-IdleTimersAndConstants-v3a0ext		UE-IdleTimersAndConstants-v3a0ext
}

SysInfoType13-v4b0ext-IEs ::=		SEQUENCE {
	capabilityUpdateRequirement-r4Ext	CapabilityUpdateRequirement-r4-ext	OPTIONAL
}

SysInfoType13-v770ext-IEs ::=		SEQUENCE {
	capabilityUpdateRequirement			CapabilityUpdateRequirement-v770ext	OPTIONAL
}

SysInfoType13-1 ::=				SEQUENCE {
	-- ANSI-41 IEs
		ansi-41-RAND-Information		ANSI-41-RAND-Information,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions			SEQUENCE {}							OPTIONAL
}

SysInfoType13-2 ::=					SEQUENCE {
	-- ANSI-41 IEs
		ansi-41-UserZoneID-Information	ANSI-41-UserZoneID-Information,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions				SEQUENCE {}						OPTIONAL
}

SysInfoType13-3 ::=					SEQUENCE {
	-- ANSI-41 IEs
		ansi-41-PrivateNeighbourListInfo ANSI-41-PrivateNeighbourListInfo,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions				SEQUENCE {}						OPTIONAL
}

SysInfoType13-4 ::=					SEQUENCE {
	-- ANSI-41 IEs
		ansi-41-GlobalServiceRedirectInfo
										ANSI-41-GlobalServiceRedirectInfo,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions			SEQUENCE {}							OPTIONAL
}

SysInfoType14 ::=					SEQUENCE {
	-- Physical channel IEs
		individualTS-InterferenceList	IndividualTS-InterferenceList,
		expirationTimeFactor			ExpirationTimeFactor				OPTIONAL,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions			SEQUENCE {}							OPTIONAL
}

SysInfoType15 ::=					SEQUENCE {
	-- Measurement IEs
		ue-positioning-GPS-CipherParameters		UE-Positioning-CipherParameters		OPTIONAL,
		ue-positioning-GPS-ReferenceLocation		ReferenceLocation,
		ue-positioning-GPS-ReferenceTime			UE-Positioning-GPS-ReferenceTime,
		ue-positioning-GPS-Real-timeIntegrity	BadSatList							OPTIONAL,
	-- Extension mechanism for non- release99 information
		v4b0NonCriticalExtensions			SEQUENCE { 
			sysInfoType15-v4b0ext				SysInfoType15-v4b0ext-IEs,
		-- Extension mechanism for non- release4 information
			v770NonCriticalExtensions			SEQUENCE { 
				sysInfoType15-v770ext				SysInfoType15-v770ext-IEs,
					va40NonCriticalExtensions		SEQUENCE {
						sysInfoType15-va40ext			SysInfoType15-va40ext-IEs,
					nonCriticalExtensions			SEQUENCE {}				OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType15-v4b0ext-IEs ::=		SEQUENCE {
	up-Ipdl-Parameters-TDD			UE-Positioning-IPDL-Parameters-TDD-r4-ext	OPTIONAL
}

SysInfoType15-v770ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		ue-Positioning-GPS-ReferenceTime		UE-Positioning-GPS-ReferenceTime-v770ext
}

SysInfoType15-va40ext-IEs ::= 	SEQUENCE {
	-- Measurement IEs
		ue-Positioning-GPS-ReferenceTime		UE-Positioning-GPS-ReferenceTime-va40ext
}

SysInfoType15bis ::=				SEQUENCE {
	-- Measurement IEs
		ue-positioning-GANSS-ReferencePosition	ReferenceLocationGANSS,
		ue-positioning-GANSS-ReferenceTime		UE-Positioning-GANSS-ReferenceTime,
		ue-positioning-GANSS-IonosphericModel	UE-Positioning-GANSS-IonosphericModel	OPTIONAL,
	-- Extension mechanism for non-release99 information
		v860NonCriticalExtensions		SEQUENCE {
			sysInfoType15bis-v860ext		SysInfoType15bis-v860ext-IEs,
				va40NonCriticalExtensions	SEQUENCE {
				sysInfoType15bis-va40ext		SysInfoType15bis-va40ext-IEs,
				nonCriticalExtensions			SEQUENCE {}				OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType15bis-v860ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		ue-Positioning-GANSS-AddIonoModel	UE-Positioning-GANSS-AddIonoModel			OPTIONAL,
		ue-Positioning-GANSS-EarthOrientationPara
											UE-Positioning-GANSS-EarthOrientPara		OPTIONAL
}

SysInfoType15bis-va40ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		ue-positioning-GANSS-ReferenceTime	UE-Positioning-GANSS-ReferenceTime-va40ext
}

SysInfoType15-1 ::=					SEQUENCE {
	-- DGPS corrections
		ue-positioning-GPS-DGPS-Corrections			UE-Positioning-GPS-DGPS-Corrections,
	-- Extension mechanism for non- release99 information
			v920NonCriticalExtensions		SEQUENCE { 
				sysInfoType15-1-v920ext			SysInfoType15-1-v920ext-IEs,
				nonCriticalExtensions			SEQUENCE {}				OPTIONAL
			}	OPTIONAL
}

SysInfoType15-1-v920ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
	ue-positioning-GPS-DGPS-Corrections				UE-Positioning-GPS-DGPS-Corrections-v920ext
}

SysInfoType15-1bis ::=				SEQUENCE {
	-- Measurement IEs
		ue-positioning-GANSS-DGANSS-Corrections	UE-Positioning-DGANSSCorrections,
	-- Extension mechanism for non-release99 information
			v920NonCriticalExtensions		SEQUENCE { 
				sysInfoType15-1bis-v920ext		SysInfoType15-1bis-v920ext-IEs,
				nonCriticalExtensions			SEQUENCE {}				OPTIONAL
			}	OPTIONAL
}

SysInfoType15-1bis-v920ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
	ue-positioning-GANSS-DGANSS-Corrections		UE-Positioning-DGANSSCorrections-v920ext 
}

SysInfoType15-1ter ::=				SEQUENCE {
	-- Measurement IEs
		uePositioning-BDSCorrections		UE-Positioning-DBDSCorrections		OPTIONAL,
		uePositioningBDSIonoGridModel		UE-Positioning-BDS-IonoGridModel		OPTIONAL,
	-- Extension mechanism for non-release12 information
		nonCriticalExtensions				SEQUENCE {}							OPTIONAL
}

SysInfoType15-2 ::=					SEQUENCE {
	-- Ephemeris and clock corrections
		transmissionTOW					GPS-TOW-1sec,
		satID								SatID,
		ephemerisParameter					EphemerisParameter,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions				SEQUENCE {}							OPTIONAL
}

SysInfoType15-2bis ::=				SEQUENCE {
	-- Measurement IEs
		ue-positioning-GANSS-navigationModel		UE-Positioning-GANSS-NavigationModel,
	-- Extension mechanism for non-release99 information
		nonCriticalExtensions						SEQUENCE {}					OPTIONAL
}

SysInfoType15-2ter ::=				SEQUENCE {
	-- Measurement IEs
		ue-positioning-GANSS-AddNavigationModels	UE-Positioning-GANSS-AddNavigationModels,
	-- Extension mechanism for non-release99 information
		vc50NonCriticalExtensions		SEQUENCE { 
			sysInfoType15-2ter-vc50ext		SysInfoType15-2ter-vc50ext-IEs,
			nonCriticalExtensions				SEQUENCE {}						OPTIONAL
		}	OPTIONAL
}

SysInfoType15-2ter-vc50ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
		ue-positioning-GANSS-AddNavigationModels 	UE-Positioning-GANSS-AddNavigationModels-vc50ext	OPTIONAL
}

SysInfoType15-3 ::=					SEQUENCE {
	-- Almanac and other data
		transmissionTOW					GPS-TOW-1sec,
		ue-positioning-GPS-Almanac		UE-Positioning-GPS-Almanac			OPTIONAL,
		ue-positioning-GPS-IonosphericModel	UE-Positioning-GPS-IonosphericModel		OPTIONAL,
		ue-positioning-GPS-UTC-Model		UE-Positioning-GPS-UTC-Model			OPTIONAL,
		satMask								BIT STRING (SIZE (1..32))				OPTIONAL,
		lsbTOW								BIT STRING (SIZE (8))					OPTIONAL,
	-- Extension mechanism for non- release99 information
		va40NonCriticalExtensions			SEQUENCE {
			sysInfoType15-3-va40ext			SysInfoType15-3-va40ext-IEs,
			nonCriticalExtensions				SEQUENCE {}						OPTIONAL
		}	OPTIONAL
}

SysInfoType15-3-va40ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		ue-positioning-GPS-Almanac		UE-Positioning-GPS-Almanac-va40ext	OPTIONAL
}

SysInfoType15-3bis ::=				SEQUENCE {
	-- Measurement IEs
		ue-positioning-GANSS-Almanac	UE-Positioning-GANSS-Almanac				OPTIONAL,
		ue-positioning-GANSS-TimeModels	UE-Positioning-GANSS-TimeModels		OPTIONAL,
		ue-positioning-GANSS-UTC-Model	UE-Positioning-GANSS-UTCModel		OPTIONAL,
	-- Extension mechanism for non-release99 information
		v860NonCriticalExtensions		SEQUENCE {
			sysInfoType15-3bis-v860ext		SysInfoType15-3bis-v860ext-IEs,
			va40NonCriticalExtensions	SEQUENCE {
				sysInfoType15-3bis-va40ext	SysInfoType15-3bis-va40ext-IEs,
				vc50NonCriticalExtensions	SEQUENCE {
					sysInfoType15-3bis-vc50ext		SysInfoType15-3bis-vc50ext-IEs,
					nonCriticalExtensions			SEQUENCE {}					OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType15-3bis-v860ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
		ue-Positioning-GANSS-Almanac			UE-Positioning-GANSS-Almanac-v860ext	OPTIONAL,
		ue-Positioning-GANSS-AddUTCModels	UE-Positioning-GANSS-AddUTCModels	OPTIONAL,
		ue-Positioning-GANSS-AuxiliaryInfo	UE-Positioning-GANSS-AuxiliaryInfo	OPTIONAL
}

SysInfoType15-3bis-va40ext-IEs ::=	SEQUENCE {
	-- Measurement IEs
		ue-Positioning-GANSS-Almanac		UE-Positioning-GANSS-Almanac-va40ext		OPTIONAL,
		ue-positioning-GANSS-TimeModels	UE-Positioning-GANSS-TimeModels-va40ext	OPTIONAL
}

SysInfoType15-3bis-vc50ext-IEs ::= SEQUENCE {
	-- Measurement IEs
		ue-Positioning-GANSS-Almanac			UE-Positioning-GANSS-Almanac-vc50ext	OPTIONAL,
		ue-Positioning-GANSS-AddUTCModels	UE-Positioning-GANSS-AddUTCModels-vc50ext	OPTIONAL
}

SysInfoType15-4 ::=					SEQUENCE {
	-- Measurement IEs
		ue-positioning-OTDOA-CipherParameters	UE-Positioning-CipherParameters	OPTIONAL,
		ue-positioning-OTDOA-AssistanceData		UE-Positioning-OTDOA-AssistanceData,
		v3a0NonCriticalExtensions			SEQUENCE {
			sysInfoType15-4-v3a0ext				SysInfoType15-4-v3a0ext,
		-- Extension mechanism for non- release99 information
			v4b0NonCriticalExtensions			SEQUENCE {
				sysInfoType15-4-v4b0ext				SysInfoType15-4-v4b0ext,
				nonCriticalExtensions				SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType15-4-v3a0ext ::=	SEQUENCE {
	sfn-Offset-Validity				SFN-Offset-Validity							OPTIONAL
}

SysInfoType15-4-v4b0ext ::= SEQUENCE {
	ue-Positioning-OTDOA-AssistanceData-r4ext	UE-Positioning-OTDOA-AssistanceData-r4ext	OPTIONAL
}

SysInfoType15-5 ::=			SEQUENCE {
	-- Measurement IEs
		ue-positioning-OTDOA-AssistanceData-UEB		UE-Positioning-OTDOA-AssistanceData-UEB,
		v3a0NonCriticalExtensions			SEQUENCE {
			sysInfoType15-5-v3a0ext				SysInfoType15-5-v3a0ext,
			-- Extension mechanism for non- release99 information
			v770NonCriticalExtensions			SEQUENCE {
				sysInfoType15-5-v770ext				SysInfoType15-5-v770ext-IEs,
				nonCriticalExtensions				SEQUENCE {}		OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType15-5-v3a0ext ::=	SEQUENCE {
	sfn-Offset-Validity			SFN-Offset-Validity		OPTIONAL
}

SysInfoType15-5-v770ext-IEs ::=		SEQUENCE {
	ue-Positioning-OTDOA-AssistanceData-UEB-ext
											UE-Positioning-OTDOA-AssistanceData-UEB-ext		OPTIONAL
}

SysInfoType15-6 ::=					SEQUENCE {
	-- Measurement IEs
		ue-positioning-GANSS-TOD		INTEGER (0..86399),
		ue-positioning-GANSS-ReferenceMeasurementInformation
										UE-Positioning-GANSS-ReferenceMeasurementInfo,
	-- Extension mechanism for non-release99 information
		va40NonCriticalExtensions		SEQUENCE {
			sysInfoType15-6-va40ext			SysInfoType15-6-va40ext-IEs, 
				vc50NonCriticalExtensions	SEQUENCE {
				sysInfoType15-6-vc50ext			SysInfoType15-6-vc50ext-IEs,
				nonCriticalExtensions			SEQUENCE {}				OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType15-6-va40ext-IEs ::=		SEQUENCE {
	ue-positioning-GANSS-ReferenceMeasurementInformation	
										UE-Positioning-GANSS-ReferenceMeasurementInfo-va40ext
}

SysInfoType15-6-vc50ext-IEs ::=		SEQUENCE {
	ue-positioning-GANSS-ReferenceMeasurementInformation	
										UE-Positioning-GANSS-ReferenceMeasurementInfo-vc50ext
}

SysInfoType15-7 ::=					SEQUENCE {
	-- Measurement IEs
		ue-positioning-GANSS-DataBitAssistance	UE-Positioning-GANSS-Data-Bit-Assistance,
	-- Extension mechanism for non-release99 information
		nonCriticalExtensions			SEQUENCE {}				OPTIONAL
}

SysInfoType15-8 ::=					SEQUENCE {
	-- Measurement IEs
		ue-positioning-GANSS-DataCipheringInfo	UE-Positioning-CipherParameters	OPTIONAL,
		ue-positioning-GANSS-realTimeIntegrity	UE-Positioning-GANSS-RealTimeIntegrity	OPTIONAL,
	-- Extension mechanism for non-release99 information
		nonCriticalExtensions			SEQUENCE {}				OPTIONAL
}

SysInfoType16 ::=					SEQUENCE {
	-- Radio bearer IEs
		preDefinedRadioConfiguration	PreDefRadioConfiguration,
	-- Extension mechanism for non- release99 information
		v770NonCriticalExtensions		SEQUENCE {
			sysInfoType16-v770ext			SysInfoType16-v770ext-IEs,
			v920NonCriticalExtensions		SEQUENCE {
				sysInfoType16-v920ext			SysInfoType16-v920ext-IEs,
				nonCriticalExtensions			SEQUENCE {}			OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType16-v770ext-IEs ::=		SEQUENCE {
		preDefinedRadioConfiguration	PreDefRadioConfiguration-v770ext
}

SysInfoType16-v920ext-IEs ::=		SEQUENCE {
		preDefinedRadioConfiguration	PreDefRadioConfiguration-v920ext
}

SysInfoType17 ::=					SEQUENCE {
	-- Physical channel IEs
		-- If PDSCH/PUSCH is configured for 1.28Mcps or 7.68Mcps TDD, pusch-SysInfoList and
		-- pdsch-SysInfoList should be absent and the info included in the respective
		-- tdd128SpecificInfo or tdd768SpecificInfo instead.
		-- If PDSCH/PUSCH is configured for 3.84Mcps TDD in R5, HCR-r5-SpecificInfo should also be 
		-- included.
		pusch-SysInfoList				PUSCH-SysInfoList				OPTIONAL,
		pdsch-SysInfoList				PDSCH-SysInfoList				OPTIONAL,
	-- Extension mechanism for non- release99 information
		v4b0NonCriticalExtensions		SEQUENCE {
			sysInfoType17-v4b0ext			SysInfoType17-v4b0ext-IEs,
			v590NonCriticalExtensions	SEQUENCE {
				sysInfoType17-v590ext			SysInfoType17-v590ext-IEs		OPTIONAL,
				v770NonCriticalExtensions		SEQUENCE {
					sysInfoType17-v770ext			SysInfoType17-v770ext-IEs,
					nonCriticalExtensions			SEQUENCE {}				OPTIONAL
				}							OPTIONAL
			}							OPTIONAL
		}							OPTIONAL
}

SysInfoType17-v4b0ext-IEs ::=		SEQUENCE {
	tdd128SpecificInfo					SEQUENCE {
		pusch-SysInfoList					PUSCH-SysInfoList-LCR-r4		OPTIONAL,
		pdsch-SysInfoList					PDSCH-SysInfoList-LCR-r4		OPTIONAL
	}																	OPTIONAL
}

SysInfoType17-v590ext-IEs ::=		SEQUENCE {
	hcr-r5-SpecificInfo				SEQUENCE {
		pusch-SysInfoList					PUSCH-SysInfoList-HCR-r5	OPTIONAL,
		pdsch-SysInfoList					PDSCH-SysInfoList-HCR-r5	OPTIONAL
	}															OPTIONAL
}

SysInfoType17-v770ext-IEs ::=		SEQUENCE {
	tdd768SpecificInfo					SEQUENCE {
		pusch-SysInfoList-SFN				PUSCH-SysInfoList-SFN-VHCR	OPTIONAL,
		pdsch-SysInfoList-SFN				PDSCH-SysInfoList-VHCR-r7		OPTIONAL
	}		OPTIONAL
}

SysInfoType18 ::=						SEQUENCE {
		idleModePLMNIdentities			PLMNIdentitiesOfNeighbourCells		OPTIONAL,
		connectedModePLMNIdentities	PLMNIdentitiesOfNeighbourCells		OPTIONAL,
	-- Extension mechanism for non- release99 information
		v6b0NonCriticalExtensions		SEQUENCE {
			sysInfoType18-v6b0ext			SysInfoType18-v6b0ext,
			v860NonCriticalExtensions		SEQUENCE {
				sysInfoType18-v860ext			SysInfoType18-v860ext, 
				vc50NonCriticalExtensions	SEQUENCE {
					sysInfoType18-vc50ext		SysInfoType18-vc50ext,
					nonCriticalExtensions			SEQUENCE {}		OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType18-v6b0ext ::=				SEQUENCE {
		idleModePLMNIdentitiesSIB11bis		PLMNIdentitiesOfNeighbourCells		OPTIONAL,
		connectedModePLMNIdentitiesSIB11bis	PLMNIdentitiesOfNeighbourCells		OPTIONAL
}

SysInfoType18-v860ext ::=				SEQUENCE {
		idleModePLMNIdentities			PLMNIdentitiesOfNeighbourCells-v860ext	OPTIONAL,
		connectedModePLMNIdentities		PLMNIdentitiesOfNeighbourCells-v860ext	OPTIONAL
}

SysInfoType18-vc50ext	::=				SEQUENCE {
		idleModePLMNIdentitiesSIB11ter	PLMNIdentitiesOfNeighbourCells-vc50ext	OPTIONAL,
		connectedModePLMNIdentitiesSIB11ter	PLMNIdentitiesOfNeighbourCells-vc50ext	OPTIONAL
}

SysInfoType19 ::=						SEQUENCE {
	-- Measurement IEs
		utra-PriorityInfoList				UTRA-PriorityInfoList,
		gsm-PriorityInfoList				GSM-PriorityInfoList					OPTIONAL,
		eutra-FrequencyAndPriorityInfoList	EUTRA-FrequencyAndPriorityInfoList		OPTIONAL,
	-- Extension mechanism for non-release8 information
		v920NonCriticalExtensions		SEQUENCE {
			sysInfoType19-v920ext			SysInfoType19-v920ext,
			va80NonCriticalExtensions		SEQUENCE {
				sysInfoType19-va80ext			SysInfoType19-va80ext,
				vb30NonCriticalExtensions		SEQUENCE {
					sysInfoType19-vb30ext			SysInfoType19-vb30ext,
					vb50NonCriticalExtensions		SEQUENCE {
						sysInfoType19-vb50ext			SysInfoType19-vb50ext,
						vb80NonCriticalExtensions		SEQUENCE {
							sysInfoType19-vb80ext			SysInfoType19-vb80ext,
							vc50NonCriticalExtensions		SEQUENCE {
								sysInfoType19-vc50ext			SysInfoType19-vc50ext,
								vd20NonCriticalExtensions			SEQUENCE {
									sysInfoType19-vd20ext			SysInfoType19-vd20ext,
									nonCriticalExtensions			SEQUENCE {}			OPTIONAL
								}			OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		}	OPTIONAL
}

SysInfoType19-v920ext ::=				SEQUENCE {
		utra-PriorityInfoList-v920ext					UTRA-PriorityInfoList-v920ext,
		eutra-FrequencyAndPriorityInfoList-v920ext		EUTRA-FrequencyAndPriorityInfoList-v920ext
}

SysInfoType19-va80ext ::=				SEQUENCE {
		multipleEutraFrequencyInfoList		MultipleEUTRAFrequencyInfoList		OPTIONAL
}

SysInfoType19-vb30ext ::=				SEQUENCE {
		cell-fach-meas-ind					ENUMERATED { high-priority-layers, all-layers }	OPTIONAL
}

SysInfoType19-vb50ext ::=				SEQUENCE {
		gsmTreselectionScalingFactor			TreselectionScalingFactor2			OPTIONAL,
		eutraTreselectionScalingFactor			TreselectionScalingFactor2		OPTIONAL,
		numberOfApplicableEARFCN					INTEGER (0..7)						OPTIONAL,
		eutra-FrequencyAndPriorityInfoList-vb50ext	EUTRA-FrequencyAndPriorityInfoList-vb50ext					OPTIONAL,
		eutra-FrequencyAndPriorityInfoExtensionList	EUTRA-FrequencyAndPriorityInfoExtensionList					OPTIONAL,
		multipleEutraFrequencyInfoExtensionList		MultipleEUTRAFrequencyInfoExtensionList	OPTIONAL,
	-- Measurement IEs
		eutra-FrequencyRACHReportingInfo		EUTRA-FrequencyRACHReportingInfo		OPTIONAL
}

SysInfoType19-vb80ext ::=				SEQUENCE {
		eutra-FrequencyAndPriorityInfoExtensionList-vb80ext		EUTRA-FrequencyAndPriorityInfoExtensionList-vb80ext							OPTIONAL
}

SysInfoType19-vc50ext	::=				SEQUENCE {
		eutra-FrequencyRACHReportingInfo-vc50ext		EUTRA-FrequencyRACHReportingInfo-vc50ext							OPTIONAL,
		eutra-FrequencyAndPriorityInfoList-vc50ext	EUTRA-FrequencyAndPriorityInfoList-vc50ext OPTIONAL,
		eutra-FrequencyAndPriorityInfoExtensionList-vc50ext		
									EUTRA-FrequencyAndPriorityInfoExtensionList-vc50ext		OPTIONAL
}

SysInfoType19-vd20ext	::=				SEQUENCE {
		eutra-FrequencyAndPriorityInfoList-vd20ext	EUTRA-FrequencyAndPriorityInfoList-vd20ext OPTIONAL,
		eutra-FrequencyAndPriorityInfoExtensionList-vd20ext		
									EUTRA-FrequencyAndPriorityInfoExtensionList-vd20ext		OPTIONAL
}

SysInfoType20 ::=					SEQUENCE {
		hNBName							HNBName										OPTIONAL,
		nonCriticalExtensions			SEQUENCE {}									OPTIONAL
}

SysInfoType21 ::=					SEQUENCE {
		eab-Parameters					EAB-Parameters								OPTIONAL,
		nonCriticalExtensions			SEQUENCE {}									OPTIONAL
}

SysInfoType22 ::=				SEQUENCE {
--	In the Tabular there are separate definitions for prach-PreambleForEnhancedUplinkListType1Ext
--	and prach-PreambleForEnhancedUplinkListType2Ext/prach-PreambleForEnhancedUplinkListType3Ext even
--		though the contents are the same. The only difference is in how the IE “Weight” is used in 
--		calculating the weight for each signalled PRACH Control Parameters.
--	To simplify the ASN.1, a single definition is used here for all three cases. 
	prach-PreambleForEnhancedUplinkListType1Ext
										PRACH-PreambleForEnhancedUplinkExtList OPTIONAL,
	prach-PreambleForEnhancedUplinkListType2Ext	
										PRACH-PreambleForEnhancedUplinkExtList OPTIONAL,
	prach-PreambleForEnhancedUplinkListType3Ext	
										PRACH-PreambleForEnhancedUplinkExtList OPTIONAL,
	concurrent-Deployment-2ms-10ms-TTI	Concurrent-Deployment-2ms-10ms-TTI	   		OPTIONAL,
	nodeB-Trigger-HS-DPCCH-Transmission	NodeB-Trigger-HS-DPCCH-Transmission	   		OPTIONAL,
	fallback-R99-PRACH-info				Fallback-R99-PRACH-info-IEs				   	OPTIONAL,
	commonEDCHResourceConfigInfoListExt	CommonEDCHResourceConfigInfoListExt		   	OPTIONAL,
	hs-dsch-DrxCellfach-SecondDrx-info	HS-DSCH-DrxCellfach-SecondDrx-info			OPTIONAL,
	-- Extension mechanism for non- release11 information
	vc50NonCriticalExtensions			SEQUENCE {
		sysInfoType22-vc50ext				SysInfoType22-vc50ext-IEs,
		nonCriticalExtensions				SEQUENCE {}	OPTIONAL
	}	OPTIONAL
}

SysInfoType22-vc50ext-IEs ::= SEQUENCE {
	cell-Reselection-indication-reporting		ENUMERATED { true }					OPTIONAL
}

SysInfoType23 ::=					SEQUENCE {
		wlanRepresentation				CHOICE {
			wlanOffloadInformationPerPLMN-List			WLANOffloadInformationPerPLMN-List,
			wlanOffloadInformationForAll				WLANOffloadInformation
		},
		nonCriticalExtensions			SEQUENCE {}									OPTIONAL
}

SysInfoType24 ::=				SEQUENCE {
	dtchTransmissionBlocked				BIT STRING (SIZE (maxNumAccessGroups))		OPTIONAL,
	expirationTimeFactor				ExpirationTimeFactor2						OPTIONAL,
	nonCriticalExtensions				SEQUENCE {}	OPTIONAL
}

SysInfoType25 ::=					SEQUENCE {
	acdc-Parameters					ACDC-Parameters,
	nonCriticalExtensions				SEQUENCE {}								OPTIONAL
}

SysInfoTypeSB1 ::=					SEQUENCE {
	-- Other IEs
		sib-ReferenceList				SIB-ReferenceList,
	-- Extension mechanism for non- release99 information
		v6b0NonCriticalExtensions		SEQUENCE {
			sysInfoTypeSB1-v6b0ext			SysInfoTypeSB1-v6b0ext,
			v860NonCriticalExtensions		SEQUENCE {
				sysInfoTypeSB1-v860ext			SysInfoTypeSB1-v860ext,
					vc50NonCriticalExtensions	SEQUENCE {
						sysInfoTypeSB1-vc50ext		SysInfoTypeSB1-vc50ext, 
				nonCriticalExtensions			SEQUENCE {}						OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

SysInfoTypeSB1-v6b0ext ::=			SEQUENCE {
	extSIBTypeInfoSchedulingInfo-List	ExtSIBTypeInfoSchedulingInfo-List		OPTIONAL
}

SysInfoTypeSB1-v860ext ::=			SEQUENCE {
	extSIBTypeInfoSchedulingInfo-List	ExtSIBTypeInfoSchedulingInfo-List2		OPTIONAL,
	extGANSS-SIBTypeInfoSchedulingInfoList
										ExtGANSS-SIBTypeInfoSchedulingInfoList	OPTIONAL
}

SysInfoTypeSB1-vc50ext ::=			SEQUENCE {
	sib-ReferenceList					SIBSb-ReferenceList2					OPTIONAL,
	extSIBTypeInfoSchedulingInfo-List	ExtSIBTypeInfoSchedulingInfo-List3		OPTIONAL
}

SysInfoTypeSB2 ::=					SEQUENCE {
	-- Other IEs
		sib-ReferenceList				SIB-ReferenceList,
	-- Extension mechanism for non- release99 information
		v6b0NonCriticalExtensions		SEQUENCE {
			sysInfoTypeSB2-v6b0ext			SysInfoTypeSB2-v6b0ext,
			v860NonCriticalExtensions		SEQUENCE {
				sysInfoTypeSB2-v860ext			SysInfoTypeSB2-v860ext,
					vc50NonCriticalExtensions	SEQUENCE {
						sysInfoTypeSB2-vc50ext		SysInfoTypeSB2-vc50ext, 
				nonCriticalExtensions			SEQUENCE {}						OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
}

SysInfoTypeSB2-v6b0ext ::=			SEQUENCE {
	extSIBTypeInfoSchedulingInfo-List	ExtSIBTypeInfoSchedulingInfo-List		OPTIONAL
}

SysInfoTypeSB2-v860ext ::=			SEQUENCE {
	extSIBTypeInfoSchedulingInfo-List	ExtSIBTypeInfoSchedulingInfo-List2		OPTIONAL,
	extGANSS-SIBTypeInfoSchedulingInfoList
										ExtGANSS-SIBTypeInfoSchedulingInfoList	OPTIONAL
}

SysInfoTypeSB2-vc50ext ::=			SEQUENCE {
	sib-ReferenceList					SIBSb-ReferenceList2					OPTIONAL,
	extSIBTypeInfoSchedulingInfo-List	ExtSIBTypeInfoSchedulingInfo-List3		OPTIONAL
}


SysInfoTypeSB3 ::=					SEQUENCE {
	-- Other IEs
		sb3-ValueTag					CellValueTag2,
		sib-ReferenceList				SIB-ReferenceList2,
	-- Extension mechanism for non- release99 information
		nonCriticalExtensions			SEQUENCE {}							OPTIONAL
}

TDD-UMTS-Frequency-List ::= 			SEQUENCE (SIZE (1..maxNumTDDFreqs)) OF
											FrequencyInfoTDD

TxFailParams ::=					SEQUENCE {
	modeSpecificInfo					CHOICE {
		fdd									SEQUENCE {
			connEstFailCount					ENUMERATED {n1, n2, n3, n4},
			offsetValidity						ENUMERATED {s30, s60, s120, s240, 
															s300, s420, s600, s900},
			connEstFailTempQoffset				INTEGER (0..15)			OPTIONAL
		},
		tdd									NULL
	}
}

UE-HistoryInformation ::=			SEQUENCE {
	ue-InactivityPeriod					INTEGER (1..120),
	ueMobilityStateIndicator			High-MobilityDetected				OPTIONAL,
	ul-dataVolumeHistory				DataVolumeHistory					OPTIONAL,
	dl-dataVolumeHistory				DataVolumeHistory					OPTIONAL
}

-- For systemInformationBlockType11bis the Value Tag Info "CellValueTag" is used
ValueTagInfo ::= CHOICE {
	none								NULL,
	cellValueTag						CellValueTag,
	plmn-ValueTag						PLMN-ValueTag,
	sIBOccurrenceIdentityAndValueTag	SIBOccurrenceIdentityAndValueTag
}

ValueTagInfoExtValueTag ::= CHOICE {
	cellValueTag						CellValueTag2
}

-- ***************************************************
--
--     ANSI-41 INFORMATION ELEMENTS (10.3.9)
--
-- ***************************************************

ANSI-41-GlobalServiceRedirectInfo ::= 	ANSI-41-NAS-Parameter
ANSI-41-PrivateNeighbourListInfo ::= 	ANSI-41-NAS-Parameter
ANSI-41-RAND-Information ::=			ANSI-41-NAS-Parameter
ANSI-41-UserZoneID-Information ::= 		ANSI-41-NAS-Parameter
ANSI-41-NAS-Parameter ::=				BIT STRING (SIZE (1..2048))

Min-P-REV ::=							BIT STRING (SIZE (8))

NAS-SystemInformationANSI-41 ::=		ANSI-41-NAS-Parameter
NID ::=									BIT STRING (SIZE (16))

P-REV ::=								BIT STRING (SIZE (8))

SID ::=									BIT STRING (SIZE (15))

-- ***************************************************
--
--     MBMS INFORMATION ELEMENTS (10.3.9a)
--
-- ***************************************************

MBMS-AccessProbabilityFactor ::=	ENUMERATED {
										apf0, apf32, apf64, apf96, apf128, apf160, apf192,
										apf224, apf256, apf288, apf320, apf352, apf384, apf416,
										apf448, apf480, apf512, apf544, apf576, apf608, apf640,
										apf672, apf704, apf736, apf768, apf800, apf832, apf864,
										apf896, apf928, apf960, apf1000 }

MBMS-CellGroupIdentity-r6 ::=		BIT STRING (SIZE (12))

MBMS-CommonCCTrChIdentity ::=		INTEGER (1..32)

MBMS-CommonPhyChIdentity ::=		INTEGER (1..32)

MBMS-CommonRBIdentity ::=			INTEGER (1..32)

MBMS-CommonRBInformation-r6 ::=		SEQUENCE {
	commonRBIdentity					MBMS-CommonRBIdentity,
	pdcp-Info							PDCP-Info-r4,
	rlc-Info							RLC-Info-MTCH-r6
}

MBMS-CommonRBInformationList-r6 ::= SEQUENCE (SIZE (1..maxMBMS-CommonRB)) OF
										MBMS-CommonRBInformation-r6

MBMS-CommonTrChIdentity ::=			INTEGER (1..32)

MBMS-ConnectedModeCountingScope ::= SEQUENCE {
	countingForUraPCH								BOOLEAN,
	countingForCellPCH								BOOLEAN,
	countingForCellFACH								BOOLEAN
}

MBMS-CurrentCell-SCCPCH-r6 ::=		SEQUENCE {
	sccpchIdentity						MBMS-SCCPCHIdentity					OPTIONAL,
	secondaryCCPCH-Info					MBMS-CommonPhyChIdentity,
	softComb-TimingOffset				MBMS-SoftComb-TimingOffset			OPTIONAL,
	-- If the IE transpCh-InfoCommonForAllTrCh is absent, the default TFCS as specified
	-- in 14.10.1 applies
	transpCh-InfoCommonForAllTrCh		MBMS-CommonCCTrChIdentity			OPTIONAL,
	transpCHInformation					MBMS-TrCHInformation-CurrList
}

MBMS-CurrentCell-SCCPCHList-r6 ::=	SEQUENCE (SIZE (1..maxSCCPCH)) OF
										MBMS-CurrentCell-SCCPCH-r6

MBMS-FACHCarryingMTCH-List ::=		SEQUENCE (SIZE (1..maxFACHPCH)) OF
											TransportFormatSet

MBMS-JoinedInformation-r6 ::=		SEQUENCE {
	p-TMSI								P-TMSI-GSM-MAP						OPTIONAL
}

MBMS-L1CombiningSchedule-32 ::=		SEQUENCE {
	-- Actual L1 combining schedule values (offset, start, duration) = IE value * 4
	cycleOffset							INTEGER (0..7)						OPTIONAL,
	mtch-L1CombiningPeriodList			SEQUENCE (SIZE (1..maxMBMS-L1CP)) OF SEQUENCE {
		periodStart							INTEGER (0..7),
		periodDuration						INTEGER (1..8)
	}
}

MBMS-L1CombiningSchedule-64 ::=		SEQUENCE {
	-- Actual L1 combining schedule values (offset, start, duration) = IE value * 4
	cycleOffset							INTEGER (0..15)						OPTIONAL,
	mtch-L1CombiningPeriodList			SEQUENCE (SIZE (1..maxMBMS-L1CP)) OF SEQUENCE {
		periodStart							INTEGER (0..15),
		periodDuration						INTEGER (1..16)
	}
}

MBMS-L1CombiningSchedule-128 ::=	SEQUENCE {
	-- Actual L1 combining schedule values (offset, start, duration) = IE value * 4
	cycleOffset							INTEGER (0..31)						OPTIONAL,
	mtch-L1CombiningPeriodList			SEQUENCE (SIZE (1..maxMBMS-L1CP)) OF SEQUENCE {
		periodStart							INTEGER (0..31),
		periodDuration						INTEGER (1..32)
	}
}

MBMS-L1CombiningSchedule-256 ::=	SEQUENCE {
	-- Actual L1 combining schedule values (offset, start, duration) = IE value * 4
	cycleOffset							INTEGER (0..63)						OPTIONAL,
	mtch-L1CombiningPeriodList			SEQUENCE (SIZE (1..maxMBMS-L1CP)) OF SEQUENCE {
		periodStart							INTEGER (0..63),
		periodDuration						INTEGER (1..64)
	}
}

MBMS-L1CombiningSchedule-512 ::=	SEQUENCE {
	-- Actual L1 combining schedule values (offset, start, duration) = IE value * 4
	cycleOffset							INTEGER (0..127)						OPTIONAL,
	mtch-L1CombiningPeriodList			SEQUENCE (SIZE (1..maxMBMS-L1CP)) OF SEQUENCE {
		periodStart							INTEGER (0..127),
		periodDuration						INTEGER (1..128)
	}
}

MBMS-L1CombiningSchedule-1024 ::=	SEQUENCE {
	-- Actual L1 combining schedule values (offset, start, duration) = IE value * 4
	cycleOffset							INTEGER (0..255)						OPTIONAL,
	mtch-L1CombiningPeriodList			SEQUENCE (SIZE (1..maxMBMS-L1CP)) OF SEQUENCE {
		periodStart							INTEGER (0..255),
		periodDuration						INTEGER (1..256)
	}
}

MBMS-L1CombiningSchedule ::=		CHOICE {
	cycleLength-32						MBMS-L1CombiningSchedule-32,
	cycleLength-64						MBMS-L1CombiningSchedule-64,
	cycleLength-128						MBMS-L1CombiningSchedule-128,
	cycleLength-256						MBMS-L1CombiningSchedule-256,
	cycleLength-512						MBMS-L1CombiningSchedule-512,
	cycleLength-1024					MBMS-L1CombiningSchedule-1024
}

MBMS-L1CombiningTransmTimeDiff ::=	INTEGER (0..3)

MBMS-L23Configuration ::=			CHOICE {
	sameAsCurrent						SEQUENCE {
		currentCell-SCCPCH					MBMS-SCCPCHIdentity,
		msch-ConfigurationInfo				MBMS-MSCH-ConfigurationInfo-r6		OPTIONAL
	},
	different							SEQUENCE {
		-- If the IE transpCh-InfoCommonForAllTrCh is absent, the default TFCS as specified
		-- in 14.10.1 applies
		transpCh-InfoCommonForAllTrCh		MBMS-CommonCCTrChIdentity			OPTIONAL,
		transpCHInformation					MBMS-TrCHInformation-NeighbList
	}
}

MBMS-LogicalChIdentity ::=			INTEGER (1..15)

MBMS-MCCH-ConfigurationInfo-r6 ::=	SEQUENCE {
	accessInfoPeriodCoefficient			INTEGER (0..3),
	repetitionPeriodCoefficient			INTEGER (0..3),
	modificationPeriodCoefficient		INTEGER (7..10),
	rlc-Info							RLC-Info-MCCH-r6,
	tctf-Presence						MBMS-TCTF-Presence					OPTIONAL
}

MBMS-MICHConfigurationInfo-r6 ::=	SEQUENCE {
	michPowerOffset						MBMS-MICHPowerOffset,
	mode								CHOICE {
		fdd									SEQUENCE {
			channelisationCode256				ChannelisationCode256,
			ni-CountPerFrame					MBMS-NI-CountPerFrame,
			sttd-Indicator						BOOLEAN
		},
		-- The CHOICE tdd384 is used for both tdd384 and tdd768. If IE
		-- 'MBMS-MICHConfigurationInfo-v770ext' is not present, tdd384 applies.
		tdd384								SEQUENCE {
			timeslot							TimeslotNumber,
			midambleShiftAndBurstType			MidambleShiftAndBurstType,
			channelisationCode					DL-TS-ChannelisationCode,
			repetitionPeriodLengthOffset		RepPerLengthOffset-MICH		OPTIONAL,
			mbmsNotificationIndLength			MBMS-MICHNotificationIndLength	DEFAULT mn4
		},
		tdd128								SEQUENCE {
			timeslot							TimeslotNumber-LCR-r4,
			midambleShiftAndBurstType			MidambleShiftAndBurstType-LCR-r4,
			channelisationCodeList				SEQUENCE (SIZE (1..2)) OF
													DL-TS-ChannelisationCode,
			repetitionPeriodLengthOffset		RepPerLengthOffset-MICH		OPTIONAL,
			mbmsNotificationIndLength			MBMS-MICHNotificationIndLength	DEFAULT mn4
		}
	}
}

MBMS-MICHConfigurationInfo-v770ext ::= SEQUENCE {
	mode								CHOICE {
		-- For tdd384, IE 'MidambleShiftAndBurstType-r7' replaces IE 'MidambleShiftAndBurstType'
		-- in IE 'MBMS-MICHConfigurationInfo-r6'. IE 'MidambleShiftAndBurstType' shall be ignored.
		tdd384								SEQUENCE {
			midambleShiftAndBurstType			MidambleShiftAndBurstType-r7
		},
		-- For tdd768, the CHIOCE tdd384 in IE 'MBMS-MICHConfigurationInfo-r6' applies, except
		-- that IE 'MidambleShiftAndBurstType-VHCR' replaces IE 'MidambleShiftAndBurstType'. IE
		-- 'MidambleShiftAndBurstType' shall be ignored.
		tdd768								SEQUENCE {
			midambleShiftAndBurstType			MidambleShiftAndBurstType-VHCR
		},
		tdd128								SEQUENCE {
			mbsfnSpecialTimeSlot				TimeSlotLCR-ext					OPTIONAL
		}
	}
}

MBMS-MICHConfigurationInfo-v890ext ::= SEQUENCE {
	mode								CHOICE {
		imb384								SEQUENCE {
			channelisationCode256				ChannelisationCode256,
			ni-CountPerFrame					MBMS-NI-CountPerFrame-IMB384
		}
	}
}

MBMS-MICHNotificationIndLength ::=	ENUMERATED { mn4, mn8, mn16 }

MBMS-MICHPowerOffset ::=			INTEGER (-10..5)

MBMS-ModifedService-r6 ::=			SEQUENCE {
	mbms-TransmissionIdentity			MBMS-TransmissionIdentity,
	mbms-RequiredUEAction				MBMS-RequiredUEAction-Mod,
	mbms-PreferredFrequency				CHOICE {
		mcch								MBMS-PFLIndex,
		dcch								MBMS-PFLInfo
	}		OPTIONAL,
	--dummy is not used. If received it shall be ignored.
	dummy								ENUMERATED { true }					OPTIONAL,
	continueMCCHReading					BOOLEAN
}

MBMS-ModifedServiceList-r6 ::=		SEQUENCE (SIZE (1..maxMBMSservModif)) OF
										MBMS-ModifedService-r6

MBMS-ModifiedService-v770ext ::=	SEQUENCE {
	mbsfnClusterFrequency				MBSFN-ClusterFrequency-r7			OPTIONAL
}

MBMS-ModifiedService-LCR-v7c0ext ::= SEQUENCE {
	rbReleaseCause						MBMS-PTM-RBReleaseCause-LCR-r7		OPTIONAL
}

-- IE 'MBMS-ModifiedServiceList-v770ext' contains a list of extension data 
-- associated with the MBMS transmission identities at the corresponding 
-- positions in IE 'MBMS-ModifedServiceList-r6'
MBMS-ModifiedServiceList-v770ext ::= SEQUENCE (SIZE (1..maxMBMSservModif)) OF
										MBMS-ModifiedService-v770ext

-- IE 'MBMS-ModifiedServiceList-LCR-v7c0ext' contains a list of extension data
-- associated with the MBMS transmission identities at the corresponding
-- positions in IE 'MBMS-ModifedServiceList-r6'
MBMS-ModifiedServiceList-LCR-v7c0ext ::= SEQUENCE (SIZE (1..maxMBMSservModif)) OF
										MBMS-ModifiedService-LCR-v7c0ext

MBMS-MSCH-ConfigurationInfo-r6 ::=	SEQUENCE {
	mschShedulingInfo					MBMS-MSCHSchedulingInfo				OPTIONAL,
	rlc-Info							RLC-Info-MSCH-r6					OPTIONAL,
	tctf-Presence						MBMS-TCTF-Presence					OPTIONAL
}

MBMS-MSCHSchedulingInfo ::=			CHOICE {
	schedulingPeriod-32-Offset			INTEGER (0..31),
	schedulingPeriod-64-Offset			INTEGER (0..63),
	schedulingPeriod-128-Offset			INTEGER (0..127),
	schedulingPeriod-256-Offset			INTEGER (0..255),
	schedulingPeriod-512-Offset			INTEGER (0..511),
	schedulingPeriod-1024-Offset		INTEGER (0..1023)
}

MBMS-NeighbouringCellSCCPCH-r6 ::=	SEQUENCE {
	secondaryCCPCH-Info					MBMS-CommonPhyChIdentity,
	secondaryCCPCHPwrOffsetDiff			MBMS-SCCPCHPwrOffsetDiff			OPTIONAL,
	layer1Combining						CHOICE {
		fdd									SEQUENCE {
			softComb-TimingOffset				MBMS-SoftComb-TimingOffset,
			mbms-L1CombiningTransmTimeDiff		MBMS-L1CombiningTransmTimeDiff,
			mbms-L1CombiningSchedule			MBMS-L1CombiningSchedule	OPTIONAL
		},
		tdd									NULL
	}		OPTIONAL,
	mbms-L23Configuration				MBMS-L23Configuration
}

MBMS-NeighbouringCellSCCPCH-v770ext ::= SEQUENCE {
	secondaryCCPCH-Info					MBMS-CommonPhyChIdentity			OPTIONAL,
	secondaryCCPCH-InfoDiff				SecondaryCCPCHInfoDiff-MBMS,
	secondaryCCPCHPwrOffsetDiff			MBMS-SCCPCHPwrOffsetDiff			OPTIONAL,
	layer1Combining						CHOICE {
		fdd									SEQUENCE {
			softComb-TimingOffset				MBMS-SoftComb-TimingOffset,
			mbms-L1CombiningTransmTimeDiff		MBMS-L1CombiningTransmTimeDiff,
			mbms-L1CombiningSchedule			MBMS-L1CombiningSchedule	OPTIONAL
		},
		tdd									NULL
	}		OPTIONAL,
	mbms-L23Configuration				MBMS-L23Configuration
}

MBMS-NeighbouringCellSCCPCHList-r6 ::= SEQUENCE (SIZE (1..maxSCCPCH)) OF
										MBMS-NeighbouringCellSCCPCH-r6

-- IE "MBMS-NeighbouringCellSCCPCHList-v770ext" may be received as an extension of the IE
-- "MBMS-NeighbouringCellSCCPCHList-r6". When both lists are received in the same message
-- and the total number of list elements is greater than constant value 'maxSCCPCH', the
-- UE behaviour is unspecified.
MBMS-NeighbouringCellSCCPCHList-v770ext ::= SEQUENCE (SIZE (1..maxSCCPCH)) OF
										MBMS-NeighbouringCellSCCPCH-v770ext

MBMS-NetworkStandardTimeInformation-LCR-v890ext ::= SEQUENCE {
	networkStandardTime					BIT STRING (SIZE (40)),
	correlativeSFN						INTEGER (0..4095) 			OPTIONAL
}

MBMS-NI-CountPerFrame ::=			ENUMERATED { ni18, ni36, ni72, ni144 }

MBMS-NI-CountPerFrame-IMB384 ::=	ENUMERATED { ni16, ni32, ni64, ni128 }

MBMS-NumberOfNeighbourCells-r6 ::=		INTEGER (0..32)

MBMS-PFLIndex ::=					INTEGER (1..maxMBMS-Freq)

MBMS-PFLInfo ::=					FrequencyInfo

MBMS-PhyChInformation-IMB384 ::=	SEQUENCE {
	mbms-CommonPhyChIdentity			MBMS-CommonPhyChIdentity,
	secondaryCCPCHInfo-MBMS				SecondaryCCPCHFrameType2Info
}

MBMS-PhyChInformationList-IMB384 ::= SEQUENCE (SIZE (1..maxMBMS-CommonPhyCh)) OF
										MBMS-PhyChInformation-IMB384

MBMS-PhyChInformation-r6 ::=		SEQUENCE {
	mbms-CommonPhyChIdentity			MBMS-CommonPhyChIdentity,
	secondaryCCPCHInfo-MBMS				SecondaryCCPCHInfo-MBMS-r6
}

MBMS-PhyChInformation-r7 ::=		SEQUENCE {
	mbms-CommonPhyChIdentity			MBMS-CommonPhyChIdentity,
	secondaryCCPCHInfo-MBMS				SecondaryCCPCHInfo-MBMS-r7
}

MBMS-PhyChInformationList-r6 ::=	SEQUENCE (SIZE (1..maxMBMS-CommonPhyCh)) OF
										MBMS-PhyChInformation-r6

MBMS-PhyChInformationList-r7 ::=	SEQUENCE (SIZE (1..maxMBMS-CommonPhyCh)) OF
										MBMS-PhyChInformation-r7

MBMS-PL-ServiceRestrictInfo-r6 ::=	ENUMERATED { true }

MBMS-PreferredFrequencyInfo-r6 ::=	SEQUENCE {
	mbmsPreferredFrequency				INTEGER (1..maxMBMS-Freq)			OPTIONAL,
	layerConvergenceInformation			CHOICE {
		mbms-Qoffset						MBMS-Qoffset,
		mbms-HCSoffset						INTEGER (0..7)
	},
	mbms-PL-ServiceRestrictInfo			MBMS-PL-ServiceRestrictInfo-r6		OPTIONAL
}

MBMS-PreferredFrequencyList-r6 ::=	SEQUENCE (SIZE (1..maxMBMS-Freq)) OF
										MBMS-PreferredFrequencyInfo-r6

MBMS-PTMActivationTime-r6 ::=		INTEGER (0..2047)

MBMS-PTM-RBInformation-C ::=		SEQUENCE {
	rbInformation						MBMS-CommonRBIdentity,
	shortTransmissionID					MBMS-ShortTransmissionID,
	logicalChIdentity					MBMS-LogicalChIdentity
}

MBMS-PTM-RBInformation-CList ::=	SEQUENCE (SIZE (1..maxRBperTrCh)) OF
										MBMS-PTM-RBInformation-C

MBMS-PTM-RBInformation-N ::=		SEQUENCE {
	shortTransmissionID					MBMS-ShortTransmissionID,
	logicalChIdentity					MBMS-LogicalChIdentity,
	layer1-CombiningStatus				BOOLEAN}

MBMS-PTM-RBInformation-NList ::=	SEQUENCE (SIZE (1..maxRBperTrCh)) OF
										MBMS-PTM-RBInformation-N

MBMS-PTM-RBReleaseCause-LCR-r7 ::=	ENUMERATED {
										normalRelease, outOfMBMSServiceCoverageInRAN,
										networkAbnormalRelease,
										spare5, spare4, spare3, spare2, spare1 }

MBMS-Qoffset ::=					ENUMERATED { q4, q8, q12, q16, q20, q30, q40, qInfinity }

MBMS-RequiredUEAction-Mod ::=		ENUMERATED {
										none,
										acquireCountingInfo,
										acquireCountingInfoPTM-RBsUnmodified,
										acquirePTM-RBInfo,
										requestPTPRB,
										releasePTM-RB }

MBMS-RequiredUEAction-UMod ::=		ENUMERATED {
										none,
										acquirePTM-RBInfo,
										requestPTPRB }

MBMS-SCCPCHIdentity ::=				INTEGER (1..maxSCCPCH)

MBMS-SCCPCHPwrOffsetDiff ::=		ENUMERATED { mcpo-minus6, mcpo-minus3, mcpo-plus3, mcpo-plus6 }

MBMS-SelectedServiceInfo ::=		SEQUENCE {
	status								CHOICE {
		none								NULL,
		some								MBMS-SelectedServicesListFull
	}
}

MBMS-SelectedServicesListFull ::=	SEQUENCE (SIZE (1..maxMBMSservSelect)) OF
										MBMS-ServiceIdentity-r6

MBMS-SelectedServicesListShort ::=	SEQUENCE (SIZE (1..maxMBMSservSelect)) OF
										MBMS-ShortTransmissionID

MBMS-SelectedServicesShort ::=		SEQUENCE {
	mbms-SelectedServicesList			MBMS-SelectedServicesListShort,
	modificationPeriodIdentity			INTEGER (0..1)
}

MBMS-ServiceAccessInfo-r6 ::=		SEQUENCE {
	shortTransmissionID					MBMS-ShortTransmissionID,
	accessprobabilityFactor-Idle		MBMS-AccessProbabilityFactor,
	accessprobabilityFactor-Connected	MBMS-AccessProbabilityFactor		OPTIONAL,
	mbms-ConnectedModeCountingScope		MBMS-ConnectedModeCountingScope
}

MBMS-ServiceAccessInfoList-r6 ::=	SEQUENCE (SIZE (1..maxMBMSservCount)) OF
										MBMS-ServiceAccessInfo-r6

MBMS-ServiceIdentity-r6 ::=			SEQUENCE {
	serviceIdentity						OCTET STRING (SIZE (3)),
	plmn-Identity						CHOICE {
		-- The 'sameAsMIB-PLMN-Id' choice refers to the 'PLMN Identity' (R99) in MIB.
		sameAsMIB-PLMN-Id					NULL,
		other								CHOICE {
			-- The 'sameAsMIB-MultiPLMN-Id' choice refers to one of the (1..5) PLMN Identities
			-- provided in the 'Multiple PLMN List' (REL-6) in MIB.
			sameAsMIB-MultiPLMN-Id				INTEGER (1..5),
			explicitPLMN-Id						PLMN-Identity
		}
	}
}

MBMS-ServiceSchedulingInfo-r6 ::=	SEQUENCE {
	mbms-TransmissionIdentity			MBMS-TransmissionIdentity,
	mbms-ServiceTransmInfoList			MBMS-ServiceTransmInfoList			OPTIONAL,
	nextSchedulingperiod				INTEGER (0..31)
}

MBMS-ServiceSchedulingInfoList-r6 ::= SEQUENCE (SIZE (1..maxMBMSservSched)) OF
										MBMS-ServiceSchedulingInfo-r6

MBMS-ServiceTransmInfo ::=			SEQUENCE {
	-- Actual values (start, duration) = IE values * 4
	start								INTEGER (0..255),
	duration							INTEGER (1..256)
}

MBMS-ServiceTransmInfoList ::=		SEQUENCE (SIZE (1..maxMBMSTransmis)) OF
										MBMS-ServiceTransmInfo

MBMS-SessionIdentity ::=			OCTET STRING (SIZE (1))

MBMS-ShortTransmissionID ::=		INTEGER (1..maxMBMSservUnmodif)

MBMS-SIBType5-SCCPCH-r6 ::=			SEQUENCE {
	sccpchIdentity						MBMS-SCCPCHIdentity,
	transpCHInformation					MBMS-TrCHInformation-SIB5List
}

MBMS-SIBType5-SCCPCHList-r6 ::=		SEQUENCE (SIZE (1..maxSCCPCH)) OF
										MBMS-SIBType5-SCCPCH-r6

MBMS-SoftComb-TimingOffset ::=		ENUMERATED { ms0, ms10, ms20, ms40 }

MBMS-TCTF-Presence ::=				ENUMERATED { false }

MBMS-TimersAndCounters-r6 ::=		SEQUENCE {
	t-318								T-318								DEFAULT ms1000
}

MBMS-TransmissionIdentity ::=		SEQUENCE {
	mbms-ServiceIdentity				MBMS-ServiceIdentity-r6,
	mbms-SessionIdentity				MBMS-SessionIdentity				OPTIONAL
}

MBMS-TranspChInfoForCCTrCh-r6 ::=	SEQUENCE {
	commonCCTrChIdentity				MBMS-CommonCCTrChIdentity,
	transportFormatCombinationSet		TFCS
}


MBMS-TranspChInfoForEachCCTrCh-r6 ::= SEQUENCE (SIZE (1..maxMBMS-CommonCCTrCh)) OF
										MBMS-TranspChInfoForCCTrCh-r6

MBMS-TranspChInfoForEachTrCh-r6 ::= SEQUENCE (SIZE (1..maxMBMS-CommonTrCh)) OF
										MBMS-TranspChInfoForTrCh-r6

MBMS-TranspChInfoForTrCh-r6 ::=		SEQUENCE {
	commonTrChIdentity					MBMS-CommonTrChIdentity,
	transportFormatSet					TransportFormatSet
}

MBMS-TrCHInformation-Curr ::=		SEQUENCE {
	transpCh-Info						MBMS-CommonTrChIdentity,
	rbInformation						MBMS-PTM-RBInformation-CList		OPTIONAL,
	msch-ConfigurationInfo				MBMS-MSCH-ConfigurationInfo-r6		OPTIONAL
}

MBMS-TrCHInformation-CurrList ::=	SEQUENCE (SIZE (1..maxFACHPCH)) OF
										MBMS-TrCHInformation-Curr

MBMS-TrCHInformation-Neighb ::=		SEQUENCE {
	transpCh-Info						MBMS-CommonTrChIdentity,
	transpCh-CombiningStatus			BOOLEAN,
	rbInformation						MBMS-PTM-RBInformation-NList		OPTIONAL,
	msch-ConfigurationInfo				MBMS-MSCH-ConfigurationInfo-r6		OPTIONAL
}

MBMS-TrCHInformation-NeighbList ::=	SEQUENCE (SIZE (1..maxFACHPCH)) OF
										MBMS-TrCHInformation-Neighb

MBMS-TrCHInformation-SIB5 ::=		SEQUENCE {
	transpCh-Identity					INTEGER (1..maxFACHPCH),
	rbInformation						MBMS-PTM-RBInformation-CList		OPTIONAL,
	msch-ConfigurationInfo				MBMS-MSCH-ConfigurationInfo-r6		OPTIONAL
}

MBMS-TrCHInformation-SIB5List ::=	SEQUENCE (SIZE (1..maxFACHPCH)) OF
										MBMS-TrCHInformation-SIB5

MBMS-UnmodifiedService-r6 ::=		SEQUENCE {
	mbms-TransmissionIdentity			MBMS-TransmissionIdentity,
	mbms-RequiredUEAction				MBMS-RequiredUEAction-UMod,
	mbms-PreferredFrequency				MBMS-PFLIndex						OPTIONAL
}

MBMS-UnmodifiedServiceList-r6 ::=	SEQUENCE (SIZE (1..maxMBMSservUnmodif)) OF
										MBMS-UnmodifiedService-r6

MBMS-UnmodifiedService-v770ext ::=	SEQUENCE {
	mbsfnClusterFrequency				MBSFN-ClusterFrequency-r7			OPTIONAL
}

-- IE 'MBMS-UnmodifiedServiceList-v770ext' contains a list of extension data 
-- associated with the MBMS transmission identities at the corresponding 
-- positions in IE 'MBMS-UnmodifiedServiceList-r6'
MBMS-UnmodifiedServiceList-v770ext ::= SEQUENCE (SIZE (1..maxMBMSservUnmodif)) OF
										MBMS-UnmodifiedService-v770ext

MBSFN-ClusterFrequency-r7 ::=		INTEGER (1..maxMBSFNClusters)

MBSFNFrequency ::=					SEQUENCE {
	frequencyInfo						FrequencyInfo,
	-- IE "cellParameterID" is used only for MBSFN clusters operating in 1.28 Mcps TDD mode.
	cellParametersID					CellParametersID					OPTIONAL
}

MBSFNFrequency-v860ext ::=			SEQUENCE {
	imb-Indication						ENUMERATED { true }					OPTIONAL
}

MBSFNFrequencyList ::=				SEQUENCE (SIZE (0..maxMBSFNClusters)) OF
										MBSFNFrequency

-- List of extensions to the corresponding elements of IE "MBSFNFrequencyList"
MBSFNFrequencyList-v860ext ::=		SEQUENCE (SIZE (0..maxMBSFNClusters)) OF
										MBSFNFrequency-v860ext

MBSFNOnlyService ::=				ENUMERATED {true}

MBSFNservicesNotNotified-r7 ::=		SEQUENCE {
	notificationOfAllMBSFNServicesInTheBand
										ENUMERATED { true }					OPTIONAL
}

MBSFNInterFrequencyNeighbour-r7 ::=	SEQUENCE {
	mbsfnFrequency						FrequencyInfo,
	mbsfnServicesNotification			CHOICE {
		mbsfnServicesNotified				NULL,
		mbsfnServicesNotNotified			MBSFNservicesNotNotified-r7
	}
}

MBSFNInterFrequencyNeighbour-v860ext ::= SEQUENCE {
	imb-Indication						ENUMERATED { true }					OPTIONAL
}

MBSFN-InterFrequencyNeighbourList-r7 ::= SEQUENCE (SIZE (1..maxMBSFNClusters)) OF
										MBSFNInterFrequencyNeighbour-r7

-- List of extensions to the corresponding elements of IE "MBSFN-InterFrequencyNeighbourList-r7"
MBSFN-InterFrequencyNeighbourList-v860ext ::= SEQUENCE (SIZE (1..maxMBSFNClusters)) OF
										MBSFNInterFrequencyNeighbour-v860ext

MBSFN-TDDInformation ::=			SEQUENCE (SIZE (1..maxTS)) OF
										MBSFN-TDDTimeSlotInfo

MBSFN-TDDInformation-LCR ::=		SEQUENCE (SIZE (1..maxMBSFNClusters)) OF
										MBSFN-TDDTimeSlotInfo-LCR

MBSFN-TDDTimeSlotInfo ::=			SEQUENCE {
	timeSlotNumber						TimeslotNumber-LCR-r4,
	cellParametersID					CellParametersID
}

MBSFN-TDDTimeSlotInfo-LCR ::=		SEQUENCE {
	frequencyIndex						INTEGER (1..maxMBSFNClusters),
	timeSlotList						MBSFN-TDDInformation
}

MBSFN-TDM-Info ::=					SEQUENCE {
	shortTransmissionID					MBMS-ShortTransmissionID,
	tDMPeriod							INTEGER (2..9),
	tDMOffset							INTEGER (0..8),
	tDMLength							INTEGER (1..8)
}

MBSFN-TDM-Info-List ::=				SEQUENCE (SIZE (1..maxMBMSservUnmodif)) OF
										MBSFN-TDM-Info
 
-- ***************************************************
--
--     WLAN Offload INFORMATION ELEMENTS (10.3.9b)
--
-- ***************************************************

WLANOffloadConfig	::=		SEQUENCE {	
	threshServingRSCP 				WLANThreshServingRSCP					OPTIONAL,
	threshServingECNO 				WLANThreshServingECNO					OPTIONAL,
	threshChannelUtilization		WLANThreshChannelUtilization			OPTIONAL,
	threshBackhaulBandwidth			WLANThreshBackhaulBandwidth				OPTIONAL,
	threshBeaconRSSI				WLANThreshBeaconRSSI					OPTIONAL,
	offloadPreferenceIndicator		BIT STRING (SIZE (16))					OPTIONAL,
	t-SteeringWLAN					T-Reselection-S							OPTIONAL
}

WLANThreshServingRSCP	::=	SEQUENCE {
	-- Actual value = IE value * 2 + 1
	threshServingLow				INTEGER (-60..-13),
	-- Actual value = IE value * 2 + 1
	threshServingHigh				INTEGER (-60..-13)
}

WLANThreshServingECNO	::=	SEQUENCE {
	threshServingLow2				INTEGER (-24..0),
	threshServingHigh2 				INTEGER (-24..0)
}

WLANThreshChannelUtilization	::=	SEQUENCE {
	threshChannelUtilizationLow			INTEGER (0..255),
	threshChannelUtilizationHigh		INTEGER (0..255)
}

WLANThreshBackhaulBandwidth	::=		SEQUENCE {
	threshBackhaulDLBandwidthLow		WLANThreshBackhaulRate,
	threshBackhaulDLBandwidthHigh 		WLANThreshBackhaulRate,
	threshBackhaulULBandwidthLow		WLANThreshBackhaulRate,
	threshBackhaulULBandwidthHigh		WLANThreshBackhaulRate
}

WLANThreshBeaconRSSI 		::=		SEQUENCE {
	-- Actual value = IE value - 128
threshBeaconRSSILow					INTEGER (0..255),
	-- Actual value = IE value - 128
threshBeaconRSSIHigh				INTEGER (0..255)
}

WLANIdentifierList ::=				SEQUENCE (SIZE (1..maxWLANID)) OF
										WLANIdentifier

WLANIdentifier ::=				SEQUENCE {
	ssid							OCTET STRING (SIZE (1..32))		OPTIONAL,
	bssid							OCTET STRING (SIZE (6))			OPTIONAL,
	hessid							OCTET STRING (SIZE (6))			OPTIONAL
}

WLANOffloadInformationPerPLMN-List ::= 		SEQUENCE (SIZE (1..6)) OF WLANOffloadInformation

WLANOffloadInformation ::=	SEQUENCE {
	wlanOffloadConfig					WLANOffloadConfig 					OPTIONAL,
	wlanIdentifierList					WLANIdentifierList 					OPTIONAL
}

WLANThreshBackhaulRate	::=	ENUMERATED { r0, r4, r8, r16, r32, r64, r128, r256,
											 r512, r1024, r2048, r4096, r8192, r16384, r32768,
											 r65536, r131072, r262144, r524288, r1048576,
											 r2097152, r4194304, r8388608, r16777216,
											 r33554432, r67108864, r134217728, r268435456,
											 r536870912, r1073741824, r2147483648, r4294967296
}

END
11.4	Constant definitions
Constant-definitions DEFINITIONS AUTOMATIC TAGS ::=

BEGIN

hiPDSCHidentities			INTEGER ::= 64
hiPUSCHidentities			INTEGER ::= 64
hiRM						INTEGER ::= 256
maxAC						INTEGER ::= 16
maxAdditionalMeas 			INTEGER ::= 4
maxAddPos					INTEGER ::= 8
maxASC						INTEGER ::= 8
maxASCmap					INTEGER ::= 7
maxASCpersist				INTEGER ::= 6
maxBeacons					INTEGER ::= 64
maxBTs						INTEGER ::= 32
maxCCTrCH					INTEGER ::= 8
maxCellMeas 				INTEGER ::= 32
maxCellMeas-ext 				INTEGER ::= 80
maxCellMeas-ext2			INTEGER ::= 48
maxCellMeasOnSecULFreq 		INTEGER ::= 32
maxCellMeas-1				INTEGER ::= 31
maxCellMeas-ext-1 			INTEGER ::= 79
maxCellMeasOnSecULFreq-1	INTEGER ::= 31
maxCNdomains				INTEGER ::= 4
maxCommonHRNTI				INTEGER ::= 4
maxCommonQueueID			INTEGER ::= 2
maxCPCHsets					INTEGER ::= 16
maxDedicatedCSGFreq			INTEGER ::= 4
maxDPCH-DLchan				INTEGER ::= 8
maxDPDCH-UL					INTEGER ::= 6
maxDRACclasses				INTEGER ::= 8
maxExcludedDetectedSetCells	INTEGER ::= 64
maxE-DCHMACdFlow			INTEGER ::= 8
maxE-DCHMACdFlow-1			INTEGER ::= 7
maxMultipleFrequencyBandsFDD	INTEGER ::= 8
maxMultipleFrequencyBandsEUTRA	INTEGER ::= 8
maxEUTRACellPerFreq			INTEGER ::= 16
maxEUTRATargetFreqs			INTEGER ::= 8
maxEDCHRL					INTEGER ::= 4
maxEDCHRL-1					INTEGER ::= 3
maxEDCHs					INTEGER ::= 32
maxEDCHs-1					INTEGER ::= 31
maxEDCHTxPattern-TDD128		INTEGER ::= 4 -- maxEDCHTxPattern-TDD128	should be 3
maxEDCHTxPattern-TDD128-1	INTEGER ::= 3 -- maxEDCHTxPattern-TDD128-1	should be 2
maxERNTIgroup				INTEGER ::= 32
maxERNTIperGroup			INTEGER ::= 2
maxERUCCH					INTEGER ::= 256
maxFACHPCH					INTEGER ::= 8
maxFreq						INTEGER ::= 8
maxFreqBandsEUTRA			INTEGER ::= 16
maxFreqBandsEUTRA-ext		INTEGER ::= 48
maxFreqBandsFDD				INTEGER ::= 8
maxFreqBandsFDD2			INTEGER ::= 22
maxFreqBandsFDD3			INTEGER ::= 86
maxFreqBandsFDD-ext			INTEGER ::= 15	-- maxFreqBandsFDD-ext ::= 22 - (maxFreqBandsFDD - 1)
maxFreqBandsFDD-ext2		INTEGER ::= 64	-- maxFreqBandsFDD-ext2 ::= 86 - maxFreqBandsFDD2
maxFreqBandsFDD-ext3		INTEGER ::= 78	-- maxFreqBandsFDD-ext3 ::= 86 - maxFreqBandsFDD
maxFreqBandsIndicatorSupport	INTEGER ::= 2
maxFreqBandsTDD				INTEGER ::= 4
maxFreqBandsTDD-ext			INTEGER ::= 16
maxFreqBandsGSM				INTEGER ::= 16
maxFreqMeasWithoutCM		INTEGER ::= 2
maxGANSS					INTEGER ::= 8
maxGANSS-1					INTEGER ::= 7
maxGANSSSat					INTEGER ::= 64
maxGANSSSat-1				INTEGER ::= 63
maxGERAN-SI					INTEGER ::= 8
maxGSMTargetCells			INTEGER ::= 32
maxHNBNameSize				INTEGER ::= 48
maxHProcesses 				INTEGER ::= 8
maxHS-SCCHLessTrBlk			INTEGER ::= 4
maxHSDSCHTBIndex			INTEGER ::= 64
maxHSDSCHTBIndex-tdd384		INTEGER ::= 512
maxHSSCCHs					INTEGER ::= 4
maxHSSCCHs-1				INTEGER ::= 3
maxHSSICH-TDD128			INTEGER ::= 4
maxHSSICH-TDD128-1			INTEGER ::= 3
maxIGPInfo					INTEGER ::= 320
maxInterSysMessages			INTEGER ::= 4
maxLoCHperRLC				INTEGER ::= 2
maxLoggedMeasReport			INTEGER	::=	128
maxMAC-d-PDUsizes			INTEGER ::= 8
maxMBMS-CommonCCTrCh		INTEGER ::= 32
maxMBMS-CommonPhyCh			INTEGER ::= 32
maxMBMS-CommonRB			INTEGER ::= 32
maxMBMS-CommonTrCh			INTEGER ::= 32
maxMBMS-Freq				INTEGER ::= 4
maxMBMS-L1CP				INTEGER ::= 4
maxMBMSservCount			INTEGER ::= 8
maxMBMSservModif			INTEGER ::= 32
maxMBMSservSched			INTEGER ::= 16
maxMBMSservSelect			INTEGER ::= 8
maxMBMSservUnmodif			INTEGER ::= 64
maxMBMSTransmis				INTEGER ::= 4
maxMBSFNClusters			INTEGER ::= 16
maxMeasCSGRange				INTEGER ::= 4
maxMeasEvent				INTEGER ::= 8
maxMeasEventOnSecULFreq		INTEGER ::= 8
maxMeasIdentity				INTEGER ::= 32
maxMeasIntervals			INTEGER ::= 3
maxMeasOccasionPattern		INTEGER ::= 5
maxMeasOccasionPattern-1	INTEGER ::= 4
maxMeasParEvent				INTEGER ::= 2
maxNonContiguousMultiCellCombinations	INTEGER ::= 3
maxNumAccessGroups			INTEGER ::= 16
maxNumAcdcCategory			INTEGER ::= 16
maxNumCDMA2000Freqs			INTEGER ::=  8
maxNumE-AGCH				INTEGER ::= 4
maxNumE-HICH				INTEGER ::= 4
maxNumEUTRAFreqs			INTEGER ::= 8
maxNumEUTRAFreqs-FACH		INTEGER ::= 4
maxNumEUTRAFreqs-FACH-ext	INTEGER ::= 8
maxNumGSMCellGroup			INTEGER ::= 16
maxNumGSMFreqRanges			INTEGER ::= 32
maxNumFDDFreqs				INTEGER ::=  8
maxNumANRLoggedItems		INTEGER ::= 4
maxnumLoggedMeas			INTEGER ::=  8
maxNumMDTPLMN               INTEGER ::= 15
maxNumTDDFreqs				INTEGER ::=  8
maxNoOfMeas					INTEGER ::= 16
maxOtherRAT					INTEGER ::= 15
maxOtherRAT-16				INTEGER ::= 16
maxPage1					INTEGER ::= 8
maxPCPCH-APsig				INTEGER ::= 16
maxPCPCH-APsubCh			INTEGER ::= 12
maxPCPCH-CDsig				INTEGER ::= 16
maxPCPCH-CDsubCh			INTEGER ::= 12
maxPCPCH-SF					INTEGER ::= 7
maxPCPCHs					INTEGER ::= 64
maxPDCPAlgoType				INTEGER ::= 8
maxPDSCH					INTEGER ::= 8
maxPDSCH-TFCIgroups	 		INTEGER ::= 256
maxPRACH					INTEGER ::= 16
maxPRACH-EUL				INTEGER ::= 4
maxPRACH-FPACH				INTEGER ::= 8
maxPredefConfig				INTEGER ::= 16
maxOtherStateConfig			INTEGER ::= 4
maxOtherStateConfig-1		INTEGER ::= 3
maxPrio						INTEGER ::= 8
maxPrio-1					INTEGER ::= 7
maxPrio-ext					INTEGER	::= 16
maxPUSCH					INTEGER ::= 8
maxQueueIDs					INTEGER ::= 8
maxRABsetup					INTEGER ::= 16
maxRAT						INTEGER ::= 16
maxRB						INTEGER ::= 32
maxRBallRABs				INTEGER ::= 27
maxRBMuxOptions				INTEGER ::= 8
maxRBperRAB					INTEGER ::= 8
maxRBperTrCh				INTEGER ::= 16
maxReportedEUTRACellPerFreq	INTEGER ::= 4
maxReportedEUTRAFreqs		INTEGER ::= 4
maxReportedEUTRAFreqs-ext	INTEGER ::= 8
maxReportedGSMCells			INTEGER ::= 8
maxRetrievConfig			INTEGER ::= 8
maxRetrievConfig-1			INTEGER ::= 7
maxRL						INTEGER ::= 8
maxRL-1						INTEGER ::= 7
maxRLCPDUsizePerLogChan		INTEGER ::= 32
maxRMPfrequencies			INTEGER ::= 8
maxRFC3095-CID				INTEGER ::= 16384
maxROHC-PacketSizes-r4		INTEGER ::= 16
maxROHC-Profile-r4			INTEGER ::= 8
maxRxPatternForHSDSCH-TDD128	INTEGER ::= 4 -- maxRxPatternForHSDSCH-TDD128	should be 3
maxRxPatternForHSDSCH-TDD128-1	INTEGER ::= 3 -- maxRxPatternForHSDSCH-TDD128-1 should be 2
maxSat						INTEGER ::= 16
maxSatClockModels			INTEGER ::= 4
maxSCCPCH					INTEGER ::= 16
maxSgnType					INTEGER ::= 8
maxSIB						INTEGER ::= 32
maxSIB2						INTEGER ::= 64
maxSIB-FACH					INTEGER ::= 8
maxSIBperMsg				INTEGER ::= 16
maxSIrequest				INTEGER ::= 4
maxSRBsetup					INTEGER ::= 8
maxSystemCapability			INTEGER ::= 16
maxTDD128Carrier			INTEGER ::= 6
maxTDD128Carrier-1			INTEGER ::= 5
maxTbsForHSDSCH-TDD128		INTEGER ::= 4
maxTbsForHSDSCH-TDD128-1	INTEGER ::= 3
maxTF						INTEGER ::= 32
maxTF-CPCH					INTEGER ::= 16
maxTFC						INTEGER ::= 1024
maxTFCsub					INTEGER ::= 1024
maxTFCI-2-Combs	 			INTEGER ::= 512
maxTGPS						INTEGER ::= 6
maxTrCH						INTEGER ::= 32
maxTrCHConcat				INTEGER ::= 3
-- maxTrCHpreconf should be 16 but has been set to 32 for compatibility
maxTrCHpreconf				INTEGER ::= 32
maxTS						INTEGER ::= 14
maxTS-1						INTEGER ::= 13 
maxTS-2						INTEGER ::= 12
maxTS-LCR					INTEGER ::= 6
maxTS-LCR-1					INTEGER ::= 5 
maxURA						INTEGER ::= 8
maxURNTI-Group				INTEGER ::= 8
maxWLANID					INTEGER ::= 16
maxWLANs					INTEGER ::= 64

END
11.5	RRC information between network nodes
Internode-definitions DEFINITIONS AUTOMATIC TAGS ::=

BEGIN

IMPORTS

	HandoverToUTRANCommand,
	MeasurementReport,
	PhysicalChannelReconfiguration,
	RadioBearerReconfiguration,
	RadioBearerRelease,
	RadioBearerSetup,
	RRCConnectionSetupComplete-r3-add-ext-IEs,
	RRC-FailureInfo,
	TransportChannelReconfiguration,
	UECapabilityInformation-r3-add-ext-IEs
FROM PDU-definitions

-- Core Network IEs :
	CN-DomainIdentity,
	CN-DomainInformationList,
	CN-DomainInformationListFull,
	CN-DRX-CycleLengthCoefficient,
	NAS-SystemInformationGSM-MAP,
-- UTRAN Mobility IEs :
	CellIdentity,
	URA-Identity,
-- User Equipment IEs :
	AccessStratumReleaseIndicator,
	C-RNTI,
	ChipRateCapability,
	DL-CapabilityWithSimultaneousHS-DSCHConfig,
	DL-PhysChCapabilityFDD-v380ext,
	DL-PhysChCapabilityTDD,
	DL-PhysChCapabilityTDD-LCR-r4,
	GSM-Measurements,
	HSDSCH-physical-layer-category,
	FailureCauseWithProtErr,
	MaxHcContextSpace,
	MaximumAM-EntityNumberRLC-Cap,
	MaximumRLC-WindowSize,
	MaxNoPhysChBitsReceived,
	MaxNoDPDCH-BitsTransmitted,
	MaxPhysChPerFrame,
	MaxPhysChPerSubFrame-r4,
	MaxPhysChPerTS,
	MaxROHC-ContextSessions-r4,
	MaxTS-PerFrame,
	MaxTS-PerSubFrame-r4,
	MinimumSF-DL,
	MultiModeCapability,
	MultiRAT-Capability,
	NetworkAssistedGPS-Supported,
	PhysicalChannelCapability-edch-r6,
	RadioFrequencyBandTDDList,
	RLC-Capability,
	RRC-MessageSequenceNumber,
	SecurityCapability,
	SimultaneousSCCPCH-DPCH-Reception,
	STARTList,
	STARTSingle,
	START-Value,
	SupportOfDedicatedPilotsForChEstimation,
	T-305,
	TransportChannelCapability,
	TxRxFrequencySeparation,
	U-RNTI,
	UE-CapabilityContainer-IEs,
	UE-GANSSPositioning-Capability,
	UE-MultiModeRAT-Capability,
	UE-PowerClassExt,
	UE-RadioAccessCapabBandFDDList,
	UE-RadioAccessCapabBandFDDList2,
	UE-RadioAccessCapabBandFDDList-ext,
	UE-RadioAccessCapability,
	UE-RadioAccessCapability-v370ext,
	UE-RadioAccessCapability-v380ext,
	UE-RadioAccessCapability-v3a0ext,
	UE-RadioAccessCapability-v3g0ext,
	UE-RadioAccessCapability-v4b0ext,
	UE-RadioAccessCapability-v590ext,
	UE-RadioAccessCapability-v5c0ext,
	UE-RadioAccessCapability-v7e0ext,
	UE-RadioAccessCapability-v7f0ext,
	UL-PhysChCapabilityFDD,
	UL-PhysChCapabilityFDD-r6,
	UL-PhysChCapabilityTDD,
	UL-PhysChCapabilityTDD-LCR-r4,
-- Radio Bearer IEs :
	PDCP-ROHC-TargetMode,
	PredefinedConfigStatusList,
	PredefinedConfigValueTag,
	RAB-InformationSetupList,
	RAB-InformationSetupList-r4,
	RAB-InformationSetupList-r5,
	RAB-InformationSetupList-r6-ext,
	RAB-InformationSetupList-r6,
	RAB-InformationSetupList-v6b0ext,
	RAB-InformationSetupList-r7,
	RAB-InformationSetupList-r8,
	RAB-InformationSetupList-v820ext,
	RAB-InformationSetupList-r11,
	RB-Identity,
	SRB-InformationSetupList,
	SRB-InformationSetupList-r5,
	SRB-InformationSetupList-r6,
	SRB-InformationSetupList-r7,
	SRB-InformationSetupList-r8,
	SRB-InformationSetupList-r11,
-- Transport Channel IEs :
	CPCH-SetID,
	DL-CommonTransChInfo,
	DL-CommonTransChInfo-r4,
	DL-AddReconfTransChInfoList,
	DL-AddReconfTransChInfoList-r4,
	DL-AddReconfTransChInfoList-r5,
	DL-AddReconfTransChInfoList-r7,
	DL-AddReconfTransChInfoList-r9,
	DL-AddReconfTransChInfoList-TDD128-v9c0ext,
	DL-AddReconfTransChInfoList-r11,
	DRAC-StaticInformationList,
	UL-CommonTransChInfo,
	UL-CommonTransChInfo-r4,
	UL-CommonTransChInfo-r12,
	UL-AddReconfTransChInfoList,
	UL-AddReconfTransChInfoList-r6,
	UL-AddReconfTransChInfoList-r7,
	UL-AddReconfTransChInfoList-r8,
-- Physical Channel IEs :
	DCH-Enhancements-Info-FDD,
	DL-CommonInformation-r12,
	DL-InformationPerRL-List-r12,
	DL-InformationPerRL-List-r13,
	DTX-DRX-Info-r12,
	FrequencyInfo,
	PrimaryCPICH-Info,
	TPC-CombinationIndex,
	ScramblingCodeChange,
	Serving-HSDSCH-CellInformation-r12,
	TGCFN,
	TGPSI,
	TGPS-ConfigurationParams,
	TGPS-ConfigurationParams-r8,
	UL-SecondaryCellInfoFDD-r12,
	UL-SecondaryCellInfoFDD-r13,
-- Measurement IEs :
	Event1j-r6,
	Hysteresis,
	Inter-FreqEventCriteriaList-v590ext,
	Intra-FreqEventCriteriaList-v590ext,
	IntraFreqEvent-1d-r5,
	IntraFreqReportingCriteria-1b-r5,
	InterRATCellInfoIndication,
	MeasuredResultsOnRACHinterFreq,
	MeasurementIdentity,
	MeasurementIdentity-r9,
	MeasurementReportingMode,
	MeasurementType,
	MeasurementType-r4,
	MeasurementType-r6,
	MeasurementType-r7,
	MeasurementType-r8,
	MeasurementType-r9,
	MeasurementType-r10,
	MeasurementType-r11,
	MeasurementType-r12,
	MeasurementType-r13,
	MeasurementType-r14,
	MeasurementType-Relocation-r14,
	MeasurementType-Relocation-r15,
	AdditionalMeasurementID-List,
	AdditionalMeasurementID-List-r9,
	PositionEstimate,
	ReportingCellStatus,
	ThresholdSFN-GPS-TOW-us,
	TimeToTrigger,
-- MBMS IEs :
	MBMS-JoinedInformation-r6,
	MBMS-SelectedServiceInfo,
-- Other IEs :
	GERANIu-RadioAccessCapability,
	GSM-MS-RadioAccessCapability,
	InterRAT-UE-RadioAccessCapabilityList,
	InterRAT-UE-RadioAccessCapability-v590ext,
	InterRAT-UE-RadioAccessCapability-v690ext,
	InterRAT-UE-RadioAccessCapability-v860ext,
	UE-HistoryInformation,
	UESpecificBehaviourInformation1idle,
	UESpecificBehaviourInformation1interRAT

FROM InformationElements


	maxCNdomains,
	maxEDCHRL,
	maxGANSS,
	maxNoOfMeas,
	maxRB,
	maxRBallRABs,
	maxRFC3095-CID,
	maxSRBsetup,
	maxRL,
	maxTGPS
FROM Constant-definitions;

-- Part 1: Class definitions similar to what has been defined in 11.1 for RRC messages
-- Information that is tranferred in the same direction and across the same path is grouped

-- ***************************************************
--
-- RRC information, to target RNC
--
-- ***************************************************
-- RRC Information to target RNC sent either from source RNC or from another RAT

ToTargetRNC-Container ::= CHOICE {
	interRATHandoverInfo				InterRATHandoverInfoWithInterRATCapabilities-r3,
	srncRelocation						SRNC-RelocationInfo-r3,
	rfc3095-ContextInfo					RFC3095-ContextInfo-r5,
	extension							NULL
}

-- ***************************************************
--
-- RRC information, target RNC to source RNC
--
-- ***************************************************


TargetRNC-ToSourceRNC-Container ::= CHOICE {
	radioBearerSetup					RadioBearerSetup,
	radioBearerReconfiguration			RadioBearerReconfiguration,
	radioBearerRelease					RadioBearerRelease,
	transportChannelReconfiguration		TransportChannelReconfiguration,
	physicalChannelReconfiguration		PhysicalChannelReconfiguration,
	rrc-FailureInfo						RRC-FailureInfo,
	-- IE dl-DCCHmessage consists of an octet string that includes the IE DL-DCCH-Message
	dL-DCCHmessage						OCTET STRING,
	extension							NULL
}

-- Part 2: Container definitions, similar to the PDU definitions in 11.2 for RRC messages
-- In alphabetical order


-- ***************************************************
--
-- Handover to UTRAN information
--
-- ***************************************************

InterRATHandoverInfoWithInterRATCapabilities-r3 ::= CHOICE {
	r3								SEQUENCE {
		-- IE InterRATHandoverInfoWithInterRATCapabilities-r3-IEs also 
		-- includes non critical extensions
		interRATHandoverInfo-r3			InterRATHandoverInfoWithInterRATCapabilities-r3-IEs,
		v390NonCriticalExtensions		SEQUENCE {
			interRATHandoverInfoWithInterRATCapabilities-v390ext
										InterRATHandoverInfoWithInterRATCapabilities-v390ext-IEs,
			-- Reserved for future non critical extension
			v690NonCriticalExtensions		SEQUENCE {
				interRATHandoverInfoWithInterRATCapabilities-v690ext
										InterRATHandoverInfoWithInterRATCapabilities-v690ext-IEs,
				v860NonCriticalExtensions		SEQUENCE {
					interRATHandoverInfoWithInterRATCapabilities-v860ext
										InterRATHandoverInfoWithInterRATCapabilities-v860ext-IEs,
					v920NonCriticalExtensions		SEQUENCE {
						interRATHandoverInfoWithInterRATCapabilities-v920ext
										InterRATHandoverInfoWithInterRATCapabilities-v920ext-IEs,
						nonCriticalExtensions			SEQUENCE {}	OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
	},
	criticalExtensions				SEQUENCE {}
}

InterRATHandoverInfoWithInterRATCapabilities-r3-IEs ::=		SEQUENCE {
		-- The order of the IEs may not reflect the tabular format
		--  but has been chosen to simplify the handling of the information in the BSC
	--	Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList	OPTIONAL,
		-- interRATHandoverInfo, Octet string is used to obtain 8 bit length field prior to 
		-- actual information.  This makes it possible for BSS to transparently handle information
		-- received via GSM air interface even when it includes non critical extensions.
		-- The octet string shall include the InterRATHandoverInfo information
		-- The BSS can re-use the 44.018 length field received from the MS
		interRATHandoverInfo			OCTET STRING (SIZE (0..255))
}

InterRATHandoverInfoWithInterRATCapabilities-v390ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		failureCauseWithProtErr				FailureCauseWithProtErr					OPTIONAL
}

InterRATHandoverInfoWithInterRATCapabilities-v690ext-IEs ::= SEQUENCE {
	-- Other IEs
		ue-RATSpecificCapability-v690ext	InterRAT-UE-RadioAccessCapability-v690ext	OPTIONAL
}

InterRATHandoverInfoWithInterRATCapabilities-v860ext-IEs ::= SEQUENCE {
	-- Other IEs
		ue-RATSpecificCapability			InterRAT-UE-RadioAccessCapability-v860ext	OPTIONAL
}

InterRATHandoverInfoWithInterRATCapabilities-v920ext-IEs ::= SEQUENCE {
	-- Other IEs
		ue-Inactivity-Period				INTEGER (1..120)	OPTIONAL
}

-- ***************************************************
--
-- RFC3095 context, source RNC to target RNC
--
-- ***************************************************

RFC3095-ContextInfo-r5 ::= CHOICE {
	r5								SEQUENCE {
		rFC3095-ContextInfoList-r5		RFC3095-ContextInfoList-r5,
		-- Reserved for future non critical extension
		nonCriticalExtensions			SEQUENCE {}	OPTIONAL
	},
	criticalExtensions				SEQUENCE {}
}

RFC3095-ContextInfoList-r5 ::=		SEQUENCE (SIZE (1..maxRBallRABs)) OF
										RFC3095-ContextInfo


-- ***************************************************
--
-- SRNC Relocation information
--
-- ***************************************************

SRNC-RelocationInfo-r3 ::= CHOICE {
	r3								SEQUENCE {
		sRNC-RelocationInfo-r3			SRNC-RelocationInfo-r3-IEs,
		v380NonCriticalExtensions			SEQUENCE {
			sRNC-RelocationInfo-v380ext	SRNC-RelocationInfo-v380ext-IEs,
			-- Reserved for future non critical extension
			v390NonCriticalExtensions			SEQUENCE {
				sRNC-RelocationInfo-v390ext			SRNC-RelocationInfo-v390ext-IEs,
				v3a0NonCriticalExtensions			SEQUENCE {
					sRNC-RelocationInfo-v3a0ext			SRNC-RelocationInfo-v3a0ext-IEs,
					v3b0NonCriticalExtensions			SEQUENCE {
						sRNC-RelocationInfo-v3b0ext			SRNC-RelocationInfo-v3b0ext-IEs,
						v3c0NonCriticalExtensions			SEQUENCE {
							sRNC-RelocationInfo-v3c0ext			SRNC-RelocationInfo-v3c0ext-IEs,
							laterNonCriticalExtensions			SEQUENCE {
								sRNC-RelocationInfo-v3d0ext			SRNC-RelocationInfo-v3d0ext-IEs,
								-- Container for additional R99 extensions
								sRNC-RelocationInfo-r3-add-ext		BIT STRING
												(CONTAINING	SRNC-RelocationInfo-v3h0ext-IEs)	OPTIONAL,
								v3g0NonCriticalExtensions			SEQUENCE {
									sRNC-RelocationInfo-v3g0ext			SRNC-RelocationInfo-v3g0ext-IEs,
									v4b0NonCriticalExtensions			SEQUENCE {
										sRNC-RelocationInfo-v4b0ext			SRNC-RelocationInfo-v4b0ext-IEs,
										v590NonCriticalExtensions			SEQUENCE {
											sRNC-RelocationInfo-v590ext
																			SRNC-RelocationInfo-v590ext-IEs,
											v5a0NonCriticalExtensions			SEQUENCE {
												sRNC-RelocationInfo-v5a0ext
																			SRNC-RelocationInfo-v5a0ext-IEs,
												v5b0NonCriticalExtensions			SEQUENCE {
													sRNC-RelocationInfo-v5b0ext
																			SRNC-RelocationInfo-v5b0ext-IEs,
													v5c0NonCriticalExtensions			SEQUENCE {
														sRNC-RelocationInfo-v5c0ext
																			SRNC-RelocationInfo-v5c0ext-IEs,
														v690NonCriticalExtensions		SEQUENCE {
															sRNC-RelocationInfo-v690ext
																			SRNC-RelocationInfo-v690ext-IEs,
															v6b0NonCriticalExtensions		SEQUENCE {
																sRNC-RelocationInfo-v6b0ext
																			SRNC-RelocationInfo-v6b0ext-IEs,
																v770NonCriticalExtensions	SEQUENCE {
																	sRNC-RelocationInfo-v770ext
																			SRNC-RelocationInfo-v770ext-IEs,
																	v7e0NonCriticalExtensions	SEQUENCE {
																		sRNC-RelocationInfo-v7e0ext
																			SRNC-RelocationInfo-v7e0ext-IEs,
																		v7f0NonCriticalExtensions	SEQUENCE {
																			sRNC-RelocationInfo-v7f0ext
																			SRNC-RelocationInfo-v7f0ext-IEs,
																			nonCriticalExtensions
																						SEQUENCE {}	OPTIONAL
																		}		OPTIONAL
																	}		OPTIONAL
																}		OPTIONAL
															}		OPTIONAL
														}		OPTIONAL
													}		OPTIONAL
												}		OPTIONAL
											}		OPTIONAL
										}		OPTIONAL
									}		OPTIONAL
								}		OPTIONAL
							}		OPTIONAL
						}		OPTIONAL
					}		OPTIONAL
				}		OPTIONAL
			}		OPTIONAL
		}		OPTIONAL
	},
	later-than-r3					CHOICE {
		r4								SEQUENCE {
			sRNC-RelocationInfo-r4			SRNC-RelocationInfo-r4-IEs,
			v4d0NonCriticalExtensions		SEQUENCE {
				sRNC-RelocationInfo-v4d0ext		SRNC-RelocationInfo-v4d0ext-IEs,
				-- Container for adding non critical extensions after freezing REL-5
				sRNC-RelocationInfo-r4-add-ext		BIT STRING		OPTIONAL,
				v590NonCriticalExtensions			SEQUENCE {
					sRNC-RelocationInfo-v590ext			SRNC-RelocationInfo-v590ext-IEs,
					v5a0NonCriticalExtensions			SEQUENCE {
						sRNC-RelocationInfo-v5a0ext			SRNC-RelocationInfo-v5a0ext-IEs,
						v5b0NonCriticalExtensions			SEQUENCE {
							sRNC-RelocationInfo-v5b0ext			SRNC-RelocationInfo-v5b0ext-IEs,
							v5c0NonCriticalExtensions			SEQUENCE {
								sRNC-RelocationInfo-v5c0ext			SRNC-RelocationInfo-v5c0ext-IEs,
								v690NonCriticalExtensions			SEQUENCE {
									sRNC-RelocationInfo-v690ext		SRNC-RelocationInfo-v690ext-IEs,
									v6b0NonCriticalExtensions			SEQUENCE {
										sRNC-RelocationInfo-v6b0ext
																	SRNC-RelocationInfo-v6b0ext-IEs,
										v770NonCriticalExtensions			SEQUENCE {
											sRNC-RelocationInfo-v770ext
																	SRNC-RelocationInfo-v770ext-IEs,
											v7e0NonCriticalExtensions			SEQUENCE {
												sRNC-RelocationInfo-v7e0ext
																	SRNC-RelocationInfo-v7e0ext-IEs,
												v7f0NonCriticalExtensions			SEQUENCE {
													sRNC-RelocationInfo-v7f0ext
																	SRNC-RelocationInfo-v7f0ext-IEs,
													nonCriticalExtensions			SEQUENCE {}	OPTIONAL
												}	OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			}	OPTIONAL
		},
		criticalExtensions				CHOICE {
			r5								SEQUENCE {
				sRNC-RelocationInfo-r5			SRNC-RelocationInfo-r5-IEs,
				sRNC-RelocationInfo-r5-add-ext	BIT STRING		OPTIONAL,
				v5a0NonCriticalExtensions		SEQUENCE {
					sRNC-RelocationInfo-v5a0ext		SRNC-RelocationInfo-v5a0ext-IEs,
					v5b0NonCriticalExtensions		SEQUENCE {
						sRNC-RelocationInfo-v5b0ext		SRNC-RelocationInfo-v5b0ext-IEs,
						v5c0NonCriticalExtensions			SEQUENCE {
							sRNC-RelocationInfo-v5c0ext			SRNC-RelocationInfo-v5c0ext-IEs,
							v690NonCriticalExtensions			SEQUENCE {
								sRNC-RelocationInfo-v690ext			SRNC-RelocationInfo-v690ext-IEs,
								v6b0NonCriticalExtensions			SEQUENCE {
									sRNC-RelocationInfo-v6b0ext		SRNC-RelocationInfo-v6b0ext-IEs,
										v770NonCriticalExtensions		SEQUENCE {
											sRNC-RelocationInfo-v770ext
																	SRNC-RelocationInfo-v770ext-IEs,
											v7e0NonCriticalExtensions			SEQUENCE {
												sRNC-RelocationInfo-v7e0ext
																	SRNC-RelocationInfo-v7e0ext-IEs,
												v7f0NonCriticalExtensions			SEQUENCE {
													sRNC-RelocationInfo-v7f0ext
																	SRNC-RelocationInfo-v7f0ext-IEs,
													nonCriticalExtensions			SEQUENCE {}		OPTIONAL
											}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				}	OPTIONAL
			},
			criticalExtensions				CHOICE {
				r6								SEQUENCE {
					sRNC-RelocationInfo-r6			SRNC-RelocationInfo-r6-IEs,
					sRNC-RelocationInfo-r6-add-ext	BIT STRING
									(CONTAINING SRNC-RelocationInfo-r6-add-ext-IEs)		OPTIONAL,
					v6b0NonCriticalExtensions		SEQUENCE {
						sRNC-RelocationInfo-v6b0ext		SRNC-RelocationInfo-v6b0ext-IEs,
						v770NonCriticalExtensions		SEQUENCE {
							sRNC-RelocationInfo-v770ext		SRNC-RelocationInfo-v770ext-IEs,
							v820NonCriticalExtensions		SEQUENCE {
								srnc-RelocationInfo-v820ext		SRNC-RelocationInfo-v820ext-IEs,
								v860NonCriticalExtensions		SEQUENCE {
									sRNC-RelocationInfo-v860ext		SRNC-RelocationInfo-v860ext-IEs,
									nonCriticalExtensions			SEQUENCE {}		OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					}	OPTIONAL
				},
				criticalExtensions				CHOICE {
					r7								SEQUENCE {
						sRNC-RelocationInfo-r7			SRNC-RelocationInfo-r7-IEs,
						sRNC-RelocationInfo-r7-add-ext	BIT STRING
									(CONTAINING SRNC-RelocationInfo-r7-add-ext-IEs)		OPTIONAL,
						v820NonCriticalExtensions		SEQUENCE {
							srnc-RelocationInfo-v820ext		SRNC-RelocationInfo-v820ext-IEs,
							v860NonCriticalExtensions		SEQUENCE {
								sRNC-RelocationInfo-v860ext		SRNC-RelocationInfo-v860ext-IEs,
								nonCriticalExtensions			SEQUENCE {}	OPTIONAL
							}	OPTIONAL
						}	OPTIONAL
					},
					criticalExtensions				CHOICE {
						r8								SEQUENCE {
							sRNC-RelocationInfo-r8			SRNC-RelocationInfo-r8-IEs,
							sRNC-RelocationInfo-r8-add-ext	BIT STRING		OPTIONAL,
							v7e0NonCriticalExtensions		SEQUENCE {
								sRNC-RelocationInfo-v7e0ext		SRNC-RelocationInfo-v7e0ext-IEs,
								v7f0NonCriticalExtensions		SEQUENCE {
									sRNC-RelocationInfo-v7f0ext
															SRNC-RelocationInfo-v7f0ext-IEs,
									v8d0NonCriticalExtensions		SEQUENCE {
										sRNC-RelocationInfo-v8d0ext
															SRNC-RelocationInfo-v8d0ext-IEs,
										nonCriticalExtensions			SEQUENCE {}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							}	OPTIONAL
						},
						criticalExtensions				CHOICE {
							r9								SEQUENCE {
								sRNC-RelocationInfo-r9			SRNC-RelocationInfo-r9-IEs,
								sRNC-RelocationInfo-r9-add-ext	BIT STRING		OPTIONAL,
								v8d0NonCriticalExtensions		SEQUENCE {
									sRNC-RelocationInfo-v8d0ext		SRNC-RelocationInfo-v8d0ext-IEs,
									v970NonCriticalExtensions			SEQUENCE {
										sRNC-RelocationInfo-v970ext	
															SRNC-RelocationInfo-v970ext-IEs,
										v9c0NonCriticalExtensions		SEQUENCE {
											sRNC-RelocationInfo-v9c0ext	
																SRNC-RelocationInfo-v9c0ext-IEs,
											nonCriticalExtensions	SEQUENCE {}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								}	OPTIONAL
							},
							criticalExtensions				CHOICE {
								r10								SEQUENCE {
									sRNC-RelocationInfo-r10			SRNC-RelocationInfo-r10-IEs,
									sRNC-RelocationInfo-r10-add-ext	BIT STRING		OPTIONAL,
									v9c0NonCriticalExtensions		SEQUENCE {
										sRNC-RelocationInfo-v9c0ext	
															SRNC-RelocationInfo-v9c0ext-IEs,
										vab0NonCriticalExtensions			SEQUENCE {
											sRNC-RelocationInfo-vab0ext	
															SRNC-RelocationInfo-vab0ext-IEs,
											nonCriticalExtensions			SEQUENCE {}	OPTIONAL
										}	OPTIONAL
									}	OPTIONAL
								},
								criticalExtensions				CHOICE {
									r11								SEQUENCE {
										sRNC-RelocationInfo-r11			SRNC-RelocationInfo-r11-IEs,
										sRNC-RelocationInfo-r11-add-ext	BIT STRING		OPTIONAL,
										nonCriticalExtensions	SEQUENCE {}	OPTIONAL
									},
									criticalExtensions				CHOICE {
										r12								SEQUENCE {
											sRNC-RelocationInfo-r12		SRNC-RelocationInfo-r12-IEs,
											sRNC-RelocationInfo-r12-add-ext	BIT STRING	OPTIONAL,
											nonCriticalExtensions	SEQUENCE {}	OPTIONAL
										},
										criticalExtensions				CHOICE {
											r13								SEQUENCE {
												sRNC-RelocationInfo-r13		SRNC-RelocationInfo-r13-IEs,
												sRNC-RelocationInfo-r13-add-ext	BIT STRING	OPTIONAL,
												nonCriticalExtensions	SEQUENCE {}	OPTIONAL
											},
										criticalExtensions				SRNC-RelocationInfo-LaterCriticalExtensions
										}
									}
								}
							}
						}
					}
				}
			}
		}
	}
}

SRNC-RelocationInfo-r3-IEs ::=		SEQUENCE {
	-- Non-RRC IEs
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
	-- If the extension v380 is included use the extension for the ciphering status per CN domain
		cipheringStatus					CipheringStatus,
		-- If ciphering status is started and the IE latestConfiguredCN-Domain should be included,
		-- the IE cn-DomainIdentity (in SRNC-RelocationInfo-v380ext-IEs) shall be used instead.
		calculationTimeForCiphering		CalculationTimeForCiphering			OPTIONAL,
		-- The order of occurrence in the IE cipheringInfoPerRB-List is the
		-- same as the RBs in SRB-InformationSetupList in RAB-InformationSetupList.
		-- The signalling RBs are supposed to be listed
		-- first. Only UM and AM RBs that are ciphered are listed here
		cipheringInfoPerRB-List			CipheringInfoPerRB-List				OPTIONAL,
		count-C-List					COUNT-C-List						OPTIONAL,
		integrityProtectionStatus		IntegrityProtectionStatus,
		-- In the IE srb-SpecificIntegrityProtInfo, the first information listed corresponds to
      -- signalling radio bearer RB0 and after the order of occurrence is the same as the SRBs in
	 -- SRB-InformationSetupList
		-- The target RNC may ignore the IE srb-SpecificIntegrityProtInfo if the
		-- IE integrityProtectionStatus has the value "not started".
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList,
		implementationSpecificParams	ImplementationSpecificParams		OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI								OPTIONAL,
		ue-RadioAccessCapability		UE-RadioAccessCapability,
		ue-Positioning-LastKnownPos		UE-Positioning-LastKnownPos			OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationList			OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList					OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList		PredefinedConfigStatusList,
		srb-InformationList				SRB-InformationSetupList,
		rab-InformationList				RAB-InformationSetupList			OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo				OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList			OPTIONAL,
		modeSpecificInfo				CHOICE {
			fdd								SEQUENCE {
				-- dummy and dummy2 are not used in this version of the specification, they should
				-- not be sent and if received they should be ignored.
				dummy							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		},
		dl-CommonTransChInfo			DL-CommonTransChInfo				OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList			OPTIONAL,
	-- Measurement report
		measurementReport				MeasurementReport					OPTIONAL
}

SRNC-RelocationInfo-v380ext-IEs ::= SEQUENCE {
	-- Ciphering related information IEs
		-- In the SRNC-RelocationInfo-r3-IEs, the IE 'cn-DomainIdentity' is used to represent the 
		-- IE 'Latest configured CN domain' in the tabular.
		cn-DomainIdentity					CN-DomainIdentity,
		cipheringStatusList					CipheringStatusList
}

SRNC-RelocationInfo-v390ext-IEs ::= SEQUENCE {
		cn-DomainInformationList-v390ext	CN-DomainInformationList-v390ext		OPTIONAL,
		ue-RadioAccessCapability-v370ext	UE-RadioAccessCapability-v370ext		OPTIONAL,
		ue-RadioAccessCapability-v380ext	UE-RadioAccessCapability-v380ext		OPTIONAL,
		dl-PhysChCapabilityFDD-v380ext		DL-PhysChCapabilityFDD-v380ext,
		failureCauseWithProtErr				FailureCauseWithProtErr					OPTIONAL
}

SRNC-RelocationInfo-v3a0ext-IEs ::= SEQUENCE {
		cipheringInfoForSRB1-v3a0ext		CipheringInfoPerRB-List-v3a0ext,
		ue-RadioAccessCapability-v3a0ext	UE-RadioAccessCapability-v3a0ext		OPTIONAL,
		-- cn-domain identity for IE startValueForCiphering-v3a0ext is specified
		-- in subsequent extension (SRNC-RelocationInfo-v3b0ext-IEs)
		startValueForCiphering-v3a0ext		START-Value
}

SRNC-RelocationInfo-v3b0ext-IEs ::= SEQUENCE {
		-- cn-domain identity for IE startValueForCiphering-v3a0ext included in previous extension
		cn-DomainIdentity				CN-DomainIdentity,
		-- the IE startValueForCiphering-v3b0ext contains the start values for each CN Domain. The 
		-- value of start indicated by the IE startValueForCiphering-v3a0ext should be set to the
		-- same value as the start-Value for the corresponding cn-DomainIdentity in the IE 
		-- startValueForCiphering-v3b0ext
		startValueForCiphering-v3b0ext		STARTList2								OPTIONAL
}

SRNC-RelocationInfo-v3c0ext-IEs ::= SEQUENCE {
		-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
		-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
		-- Only included if type is "UE involved"
		rb-IdentityForHOMessage				RB-Identity								OPTIONAL
}

SRNC-RelocationInfo-v3d0ext-IEs ::= SEQUENCE {
	-- User equipment IEs
		uESpecificBehaviourInformation1idle		UESpecificBehaviourInformation1idle		OPTIONAL,
		uESpecificBehaviourInformation1interRAT	UESpecificBehaviourInformation1interRAT	OPTIONAL
}

SRNC-RelocationInfo-v3g0ext-IEs ::= SEQUENCE {
		ue-RadioAccessCapability-v3g0ext	UE-RadioAccessCapability-v3g0ext		OPTIONAL
}

SRNC-RelocationInfo-v3h0ext-IEs ::= SEQUENCE {
		tpc-CombinationInfoList			TPC-CombinationInfoList		OPTIONAL,
		nonCriticalExtension				SEQUENCE {}				OPTIONAL
}

SRNC-RelocationInfo-v4d0ext-IEs ::= SEQUENCE {
		tpc-CombinationInfoList		TPC-CombinationInfoList		OPTIONAL
}

TPC-CombinationInfoList ::= SEQUENCE (SIZE (1..maxRL)) OF
		TPC-Combination-Info

TPC-CombinationInfoList-r9 ::= SEQUENCE (SIZE (1..maxEDCHRL)) OF
		TPC-Combination-Info-r9

STARTList2 ::=						SEQUENCE (SIZE (2..maxCNdomains)) OF
										STARTSingle

SRNC-RelocationInfo-v4b0ext-IEs ::= SEQUENCE {
		ue-RadioAccessCapability-v4b0ext	UE-RadioAccessCapability-v4b0ext		OPTIONAL
}

SRNC-RelocationInfo-v590ext-IEs ::= SEQUENCE {
		ue-RadioAccessCapability-v590ext	UE-RadioAccessCapability-v590ext		OPTIONAL,
		ue-RATSpecificCapability-v590ext	InterRAT-UE-RadioAccessCapability-v590ext	OPTIONAL
}

SRNC-RelocationInfo-v5a0ext-IEs ::= SEQUENCE {
		storedCompressedModeInfo		StoredCompressedModeInfo	OPTIONAL
}

SRNC-RelocationInfo-v5b0ext-IEs ::= SEQUENCE {
	interRATCellInfoIndication			InterRATCellInfoIndication			OPTIONAL
}

SRNC-RelocationInfo-v5c0ext-IEs ::= SEQUENCE {
		ue-RadioAccessCapability-v5c0ext	UE-RadioAccessCapability-v5c0ext		OPTIONAL
}

CipheringInfoPerRB-List-v3a0ext ::= SEQUENCE {
		dl-UM-SN						BIT STRING (SIZE (7))
}

CipheringStatusList ::=			SEQUENCE (SIZE (1..maxCNdomains)) OF
										CipheringStatusCNdomain

CipheringStatusCNdomain ::=				SEQUENCE {
		cn-DomainIdentity				CN-DomainIdentity,
		cipheringStatus					CipheringStatus
}

CodeChangeStatusList ::= SEQUENCE (SIZE (1..maxRL)) OF
		CodeChangeStatus

CodeChangeStatus ::= SEQUENCE {
		primaryCPICH-Info					PrimaryCPICH-Info,
		scramblingCodeChange				ScramblingCodeChange
}

StoredCompressedModeInfo ::= SEQUENCE {
		storedTGP-SequenceList		StoredTGP-SequenceList,
		codeChangeStatusList		CodeChangeStatusList	OPTIONAL
}

StoredCompressedModeInfo-r8 ::=		SEQUENCE {
		storedTGP-SequenceList			StoredTGP-SequenceList-r8,
		codeChangeStatusList			CodeChangeStatusList				OPTIONAL
}

StoredTGP-SequenceList ::=			SEQUENCE (SIZE (1..maxTGPS)) OF
										StoredTGP-Sequence

StoredTGP-SequenceList-r8 ::=		SEQUENCE (SIZE (1..maxTGPS)) OF
										StoredTGP-Sequence-r8

StoredTGP-Sequence ::=				SEQUENCE {
	tgpsi								TGPSI,
	current-tgps-Status					CHOICE {
		active								SEQUENCE {
			tgcfn								TGCFN
		},
		inactive							NULL
	},
	tgps-ConfigurationParams			TGPS-ConfigurationParams			OPTIONAL
}

StoredTGP-Sequence-r8 ::=			SEQUENCE {
	tgpsi								TGPSI,
	current-tgps-Status					CHOICE {
		active								SEQUENCE {
			tgcfn								TGCFN
		},
		inactive							NULL
	},
	tgps-ConfigurationParams			TGPS-ConfigurationParams-r8			OPTIONAL
}

SRNC-RelocationInfo-r4-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
		-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
		-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
		-- Only included if type is "UE involved"
		rb-IdentityForHOMessage			RB-Identity							OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList				CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering		CalculationTimeForCiphering			OPTIONAL,
		count-C-List					COUNT-C-List						OPTIONAL,
		cipheringInfoPerRB-List			CipheringInfoPerRB-List-r4			OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		-- The target RNC may ignore the IE srb-SpecificIntegrityProtInfo if the
		-- IE integrityProtectionStatus has the value "not started".
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList,
		implementationSpecificParams	ImplementationSpecificParams		OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI								OPTIONAL,
		ue-RadioAccessCapability		UE-RadioAccessCapability-r4,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList		OPTIONAL,
		ue-Positioning-LastKnownPos		UE-Positioning-LastKnownPos			OPTIONAL,
		uESpecificBehaviourInformation1idle		UESpecificBehaviourInformation1idle		OPTIONAL,
		uESpecificBehaviourInformation1interRAT	UESpecificBehaviourInformation1interRAT	OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull		OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r4				OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList		PredefinedConfigStatusList,
		srb-InformationList				SRB-InformationSetupList,
		rab-InformationList				RAB-InformationSetupList-r4			OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r4		OPTIONAL,
	-- Measurement report
		measurementReport				MeasurementReport					OPTIONAL,
		failureCause					FailureCauseWithProtErr				OPTIONAL
}

SRNC-RelocationInfo-r5-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
		-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
		-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
		-- Only included if type is "UE involved"
		rb-IdentityForHOMessage			RB-Identity							OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList				CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering		CalculationTimeForCiphering			OPTIONAL,
		count-C-List					COUNT-C-List						OPTIONAL,
		cipheringInfoPerRB-List			CipheringInfoPerRB-List-r4			OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList	OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams		OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI								OPTIONAL,
		ue-RadioAccessCapability		UE-RadioAccessCapability-r5,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList		OPTIONAL,
		ue-Positioning-LastKnownPos		UE-Positioning-LastKnownPos			OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle		OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull		OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r5				OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList		PredefinedConfigStatusList,
		srb-InformationList				SRB-InformationSetupList-r5,
		rab-InformationList				RAB-InformationSetupList-r5			OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList			OPTIONAL,
		-- 'dummy', 'dummy1' and 'dummy2' are not used in this version of the specification,
		-- they should not be sent and if received they should be ignored.
		dummy							CHOICE {
			fdd								SEQUENCE {
				dummy1							CPCH-SetID					OPTIONAL,
				dummy2							DRAC-StaticInformationList	OPTIONAL
			},
			tdd								NULL
		}																	OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r5		OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList			TPC-CombinationInfoList				OPTIONAL,
	-- Measurement report
		measurementReport				MeasurementReport					OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr				OPTIONAL
}

SRNC-RelocationInfo-v690ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		-- IE ueCapabilityContainer is used for the transparent transfer of capability information
		-- received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
		-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
		-- transparent transfer of capability information received from the UE that was introduced 
		-- in a release independent manner, i.e., transferred within a VLEC. These UE capabilities 
		-- are included both in the RRC CONNECTION SETUP COMPLETE and the UE CAPABILITY INFORMATION 
		-- messages. Only the VLEC of one message needs to be included i.e. the one from these
		-- messages that was last received.
		-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
		-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Radio bearer IEs
		rab-InformationSetupList		RAB-InformationSetupList-r6-ext		OPTIONAL,
	-- Measurement report
		measuredResultsOnRACHinterFreq	MeasuredResultsOnRACHinterFreq		OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation			MBMS-JoinedInformation-r6			OPTIONAL,
	-- Measurement IEs
		intraFreqReportingCriteria		IntraFreqReportingCriteria-r6-ext		OPTIONAL
}

SRNC-RelocationInfo-r6-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
		-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
		-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
		-- Only included if type is "UE involved"
		rb-IdentityForHOMessage			RB-Identity							OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList				CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering		CalculationTimeForCiphering			OPTIONAL,
		count-C-List					COUNT-C-List						OPTIONAL,
		cipheringInfoPerRB-List			CipheringInfoPerRB-List-r4			OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList	OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams		OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI								OPTIONAL,
		ue-RadioAccessCapability		UE-RadioAccessCapability-r6,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList		OPTIONAL,
		ue-Positioning-LastKnownPos		UE-Positioning-LastKnownPos			OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle		OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
		-- IE ueCapabilityContainer is used for the transparent transfer of capability information
		-- received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
		-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
		-- transparent transfer of capability information received from the UE that was introduced 
		-- in a release independent manner, i.e., transferred within a VLEC. These UE capabilities 
		-- are included both in the RRC CONNECTION SETUP COMPLETE and the UE CAPABILITY INFORMATION 
		-- messages. Only the VLEC of one message needs to be included i.e. the one from these
		-- messages that was last received.
		-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
		-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull		OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r6				OPTIONAL,
		interRATCellInfoIndication		InterRATCellInfoIndication			OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList		PredefinedConfigStatusList,
		srb-InformationList				SRB-InformationSetupList-r6,
		rab-InformationList				RAB-InformationSetupList-r6			OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList-r6		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r5		OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList			TPC-CombinationInfoList				OPTIONAL,
		storedCompressedModeInfo		StoredCompressedModeInfo			OPTIONAL,
	-- Measurement report
		measurementReport				BIT STRING
							(CONTAINING MeasurementReport)					OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr				OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation			MBMS-JoinedInformation-r6			OPTIONAL
}

SRNC-RelocationInfo-r6-add-ext-IEs ::= SEQUENCE {
		sRNC-RelocationInfo-v7e0ext		SRNC-RelocationInfo-v7e0ext-IEs,
		v7f0NonCriticalExtensions			SEQUENCE {
			sRNC-RelocationInfo-v7f0ext		SRNC-RelocationInfo-v7f0ext-IEs,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
	}	OPTIONAL
}

SRNC-RelocationInfo-v6b0ext-IEs ::=	SEQUENCE {
		-- The order of the RABs in IE rab-InformationSetupListExt is the same as
		-- in IE rab-InformationSetupList that is included in this message
		rab-InformationSetupListExt		RAB-InformationSetupList-v6b0ext	OPTIONAL,
		mbmsSelectedServiceInfo			MBMS-SelectedServiceInfo
}

SRNC-RelocationInfo-r7-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
		-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
		-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
		-- Only included if type is "UE involved"
		rb-IdentityForHOMessage			RB-Identity							OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList				CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering		CalculationTimeForCiphering			OPTIONAL,
		count-C-List					COUNT-C-List						OPTIONAL,
		cipheringInfoPerRB-List			CipheringInfoPerRB-List-r4			OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList	OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams		OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI								OPTIONAL,
		-- IE 'UE-RadioAccessCapability-r6' includes the Rel-5 radio access capability extensions
		-- and earlier. Rel-6 and later extensions are included in IE 'UE-CapabilityContainer-IEs'.
		ue-RadioAccessCapability		UE-RadioAccessCapability-r6,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList		OPTIONAL,
		ue-Positioning-LastKnownPos		UE-Positioning-LastKnownPos			OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle		OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
		-- IE ueCapabilityContainer is used for the transparent transfer of capability information
		-- received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
		-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
		-- transparent transfer of capability information received from the UE that was introduced 
		-- in a release independent manner, i.e., transferred within a VLEC. These UE capabilities 
		-- are included both in the RRC CONNECTION SETUP COMPLETE and the UE CAPABILITY INFORMATION 
		-- messages. Only the VLEC of one message needs to be included i.e. the one from these
		-- messages that was last received.
		-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
		-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		srns-t-305						T-305								OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull		OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r7				OPTIONAL,
		interRATCellInfoIndication		InterRATCellInfoIndication			OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList		PredefinedConfigStatusList,
		srb-InformationList				SRB-InformationSetupList-r7,
		rab-InformationList				RAB-InformationSetupList-r7			OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList-r7		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r7		OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList			TPC-CombinationInfoList				OPTIONAL,
		storedCompressedModeInfo		StoredCompressedModeInfo			OPTIONAL,
	-- Measurement report
		measurementReport				BIT STRING
							(CONTAINING MeasurementReport)					OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr				OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation			MBMS-JoinedInformation-r6			OPTIONAL,
		mbmsSelectedServiceInfo			MBMS-SelectedServiceInfo			OPTIONAL
}

SRNC-RelocationInfo-r7-add-ext-IEs ::= SEQUENCE {
		sRNC-RelocationInfo-v7e0ext		SRNC-RelocationInfo-v7e0ext-IEs,
		v7f0NonCriticalExtensions			SEQUENCE {
			sRNC-RelocationInfo-v7f0ext		SRNC-RelocationInfo-v7f0ext-IEs,
			nonCriticalExtensions			SEQUENCE {}		OPTIONAL
	}	OPTIONAL
}

SRNC-RelocationInfo-v770ext-IEs ::= SEQUENCE {
		thresholdSFN-GPS-TOW-us				ThresholdSFN-GPS-TOW-us					OPTIONAL,
		srns-t-305							T-305									OPTIONAL
}

SRNC-RelocationInfo-v7e0ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability			UE-RadioAccessCapability-v7e0ext
}

SRNC-RelocationInfo-v7f0ext-IEs ::=	SEQUENCE {
	-- User equipment IEs
		ue-RadioAccessCapability			UE-RadioAccessCapability-v7f0ext		OPTIONAL
}

SRNC-RelocationInfo-r8-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
		-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
		-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
		-- Only included if type is "UE involved"
		rb-IdentityForHOMessage			RB-Identity							OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList				CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering		CalculationTimeForCiphering			OPTIONAL,
		count-C-List					COUNT-C-List						OPTIONAL,
		cipheringInfoPerRB-List			CipheringInfoPerRB-List-r4			OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList	OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams		OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI								OPTIONAL,
		-- IE 'UE-RadioAccessCapability-r6' includes the Rel-5 radio access capability extensions
		-- and earlier. Rel-6 and later extensions are included in IE 'UE-CapabilityContainer-IEs'.
		ue-RadioAccessCapability		UE-RadioAccessCapability-r6,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList		OPTIONAL,
		ue-Positioning-LastKnownPos		UE-Positioning-LastKnownPos			OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle		OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
		-- IE ueCapabilityContainer is used for the transparent transfer of capability information
		-- received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
		-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
		-- transparent transfer of capability information received from the UE that was introduced 
		-- in a release independent manner, i.e., transferred within a VLEC. These UE capabilities 
		-- are included both in the RRC CONNECTION SETUP COMPLETE and the UE CAPABILITY INFORMATION 
		-- messages. Only the VLEC of one message needs to be included i.e. the one from these
		-- messages that was last received.
		-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
		-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		srns-t-305						T-305								OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull		OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r8				OPTIONAL,
		interRATCellInfoIndication		InterRATCellInfoIndication			OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList		PredefinedConfigStatusList,
		srb-InformationList				SRB-InformationSetupList-r8,
		rab-InformationList				RAB-InformationSetupList-r8			OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r7		OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList			TPC-CombinationInfoList				OPTIONAL,
		e-RGCH-CombinationInfoList		E-RGCH-CombinationInfoList			OPTIONAL,
		storedCompressedModeInfo		StoredCompressedModeInfo-r8			OPTIONAL,
	-- Measurement report
		measurementReport				BIT STRING
							(CONTAINING MeasurementReport)					OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr				OPTIONAL,
		ue-HistoryInformation			UE-HistoryInformation				OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation			MBMS-JoinedInformation-r6			OPTIONAL,
		mbmsSelectedServiceInfo			MBMS-SelectedServiceInfo			OPTIONAL
}

SRNC-RelocationInfo-v820ext-IEs ::=	SEQUENCE {
	-- Radio bearer IEs
		rab-InformationList				RAB-InformationSetupList-v820ext	OPTIONAL
}

SRNC-RelocationInfo-v860ext-IEs ::=	SEQUENCE {
	-- PhyCH IEs
		e-RGCH-CombinationInfoList		E-RGCH-CombinationInfoList			OPTIONAL
}

SRNC-RelocationInfo-v8d0ext-IEs ::=	SEQUENCE {
	--Radio Bearer IEs
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL
}

SRNC-RelocationInfo-r9-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
		-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
		-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
		-- Only included if type is "UE involved"
		rb-IdentityForHOMessage			RB-Identity							OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList				CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering		CalculationTimeForCiphering			OPTIONAL,
		count-C-List					COUNT-C-List						OPTIONAL,
		cipheringInfoPerRB-List			CipheringInfoPerRB-List-r4			OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList	OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams		OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI								OPTIONAL,
		-- IE 'UE-RadioAccessCapability-r6' includes the Rel-5 radio access capability extensions
		-- and earlier. Rel-6 and later extensions are included in IE 'UE-CapabilityContainer-IEs'.
		ue-RadioAccessCapability		UE-RadioAccessCapability-r6,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList		OPTIONAL,
		ue-Positioning-LastKnownPos		UE-Positioning-LastKnownPos			OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle		OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
		-- IE ueCapabilityContainer is used for the transparent transfer of capability information
		-- received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
		-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
		-- transparent transfer of capability information received from the UE that was introduced 
		-- in a release independent manner, i.e., transferred within a VLEC. These UE capabilities 
		-- are included both in the RRC CONNECTION SETUP COMPLETE and the UE CAPABILITY INFORMATION 
		-- messages. Only the VLEC of one message needs to be included i.e. the one from these
		-- messages that was last received.
		-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
		-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		srns-t-305						T-305								OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull		OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r9				OPTIONAL,
		interRATCellInfoIndication		InterRATCellInfoIndication			OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList		PredefinedConfigStatusList,
		srb-InformationList				SRB-InformationSetupList-r8,
		rab-InformationList				RAB-InformationSetupList-r8			OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r9		OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList			TPC-CombinationInfoList				OPTIONAL,
		e-RGCH-CombinationInfoList		E-RGCH-CombinationInfoList			OPTIONAL,
		storedCompressedModeInfo		StoredCompressedModeInfo-r8			OPTIONAL,
		secondary-tpc-CombinationInfoList		TPC-CombinationInfoList-r9		OPTIONAL,
		secondary-e-RGCH-CombinationInfoList	E-RGCH-CombinationInfoList-r9	OPTIONAL,
	-- Measurement report
		measurementReport				BIT STRING
							(CONTAINING MeasurementReport)					OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr				OPTIONAL,
		ue-HistoryInformation			UE-HistoryInformation				OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation			MBMS-JoinedInformation-r6			OPTIONAL,
		mbmsSelectedServiceInfo			MBMS-SelectedServiceInfo			OPTIONAL
}

SRNC-RelocationInfo-v970ext-IEs ::=		SEQUENCE {
	-- Measurement IEs
		ongoingMeasRepList					OngoingMeasRepList-v970ext-IE		OPTIONAL
}

SRNC-RelocationInfo-v9c0ext-IEs ::= SEQUENCE {
	-- For 1.28Mcps TDD only
		dl-AddReconfTransChInfoList		DL-AddReconfTransChInfoList-TDD128-v9c0ext			OPTIONAL
}

SRNC-RelocationInfo-r10-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
		-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
		-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
		-- Only included if type is "UE involved"
		rb-IdentityForHOMessage			RB-Identity							OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList				CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering		CalculationTimeForCiphering			OPTIONAL,
		count-C-List					COUNT-C-List						OPTIONAL,
		cipheringInfoPerRB-List			CipheringInfoPerRB-List-r4			OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList	OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams		OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI								OPTIONAL,
		-- IE 'UE-RadioAccessCapability-r6' includes the Rel-5 radio access capability extensions
		-- and earlier. Rel-6 and later extensions are included in IE 'UE-CapabilityContainer-IEs'.
		ue-RadioAccessCapability		UE-RadioAccessCapability-r6,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList		OPTIONAL,
		ue-Positioning-LastKnownPos		UE-Positioning-LastKnownPos			OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle		OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
		-- IE ueCapabilityContainer is used for the transparent transfer of capability information
		-- received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
		-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
		-- transparent transfer of capability information received from the UE that was introduced 
		-- in a release independent manner, i.e., transferred within a VLEC. These UE capabilities 
		-- are included both in the RRC CONNECTION SETUP COMPLETE and the UE CAPABILITY INFORMATION 
		-- messages. Only the VLEC of one message needs to be included i.e. the one from these
		-- messages that was last received.
		-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
		-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		srns-t-305						T-305								OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull		OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r10				OPTIONAL,
		interRATCellInfoIndication		InterRATCellInfoIndication			OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList		PredefinedConfigStatusList,
		srb-InformationList				SRB-InformationSetupList-r8,
		rab-InformationList				RAB-InformationSetupList-r8			OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r9		OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList			TPC-CombinationInfoList				OPTIONAL,
		e-RGCH-CombinationInfoList		E-RGCH-CombinationInfoList			OPTIONAL,
		storedCompressedModeInfo		StoredCompressedModeInfo-r8			OPTIONAL,
		secondary-tpc-CombinationInfoList		TPC-CombinationInfoList-r9		OPTIONAL,
		secondary-e-RGCH-CombinationInfoList	E-RGCH-CombinationInfoList-r9	OPTIONAL,
	-- Measurement report
		measurementReport				BIT STRING
							(CONTAINING MeasurementReport)					OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr				OPTIONAL,
		ue-HistoryInformation			UE-HistoryInformation				OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation			MBMS-JoinedInformation-r6			OPTIONAL,
		mbmsSelectedServiceInfo			MBMS-SelectedServiceInfo			OPTIONAL
}

SRNC-RelocationInfo-vab0ext-IEs ::=		SRNC-RelocationInfo-v970ext-IEs
 
SRNC-RelocationInfo-r11-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
		-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
		-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
		-- Only included if type is "UE involved"
		rb-IdentityForHOMessage			RB-Identity							OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList				CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering		CalculationTimeForCiphering			OPTIONAL,
		count-C-List					COUNT-C-List						OPTIONAL,
		cipheringInfoPerRB-List			CipheringInfoPerRB-List-r4			OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList	OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams		OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI								OPTIONAL,
		-- IE 'UE-RadioAccessCapability-r6' includes the Rel-5 radio access capability extensions
		-- and earlier. Rel-6 and later extensions are included in IE 'UE-CapabilityContainer-IEs'.
		ue-RadioAccessCapability		UE-RadioAccessCapability-r6,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList		OPTIONAL,
		ue-Positioning-LastKnownPos		UE-Positioning-LastKnownPos			OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle		OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
		-- IE ueCapabilityContainer is used for the transparent transfer of capability information
		-- received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
		-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
		-- transparent transfer of capability information received from the UE that was introduced 
		-- in a release independent manner, i.e., transferred within a VLEC. These UE capabilities 
		-- are included both in the RRC CONNECTION SETUP COMPLETE and the UE CAPABILITY INFORMATION 
		-- messages. Only the VLEC of one message needs to be included i.e. the one from these
		-- messages that was last received.
		-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
		-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity						OPTIONAL,
		srns-t-305						T-305								OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull		OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r11				OPTIONAL,
		interRATCellInfoIndication		InterRATCellInfoIndication			OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList		PredefinedConfigStatusList,
		srb-InformationList				SRB-InformationSetupList-r11,
		rab-InformationList				RAB-InformationSetupList-r11			OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode				OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r4				OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList-r8		OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4				OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r11		OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList			TPC-CombinationInfoList				OPTIONAL,
		e-RGCH-CombinationInfoList		E-RGCH-CombinationInfoList			OPTIONAL,
		storedCompressedModeInfo		StoredCompressedModeInfo-r8			OPTIONAL,
		secondary-tpc-CombinationInfoList		TPC-CombinationInfoList-r9		OPTIONAL,
		secondary-e-RGCH-CombinationInfoList	E-RGCH-CombinationInfoList-r9	OPTIONAL,
	-- Measurement report
		measurementReport				BIT STRING
							(CONTAINING MeasurementReport)					OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr				OPTIONAL,
		ue-HistoryInformation			UE-HistoryInformation				OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation			MBMS-JoinedInformation-r6			OPTIONAL,
		mbmsSelectedServiceInfo			MBMS-SelectedServiceInfo			OPTIONAL
}

SRNC-RelocationInfo-r12-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
		-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
		-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
		-- Only included if type is "UE involved"
		rb-IdentityForHOMessage			RB-Identity									OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList				CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering		CalculationTimeForCiphering					OPTIONAL,
		count-C-List					COUNT-C-List								OPTIONAL,
		cipheringInfoPerRB-List			CipheringInfoPerRB-List-r4					OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList			OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams				OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI										OPTIONAL,
		-- IE 'UE-RadioAccessCapability-r6' includes the Rel-5 radio access capability extensions
		-- and earlier. Rel-6 and later extensions are included in IE 'UE-CapabilityContainer-IEs'.
		ue-RadioAccessCapability		UE-RadioAccessCapability-r6,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList				OPTIONAL,
		ue-Positioning-LastKnownPos		UE-Positioning-LastKnownPos					OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle			OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
		-- IE ueCapabilityContainer is used for the transparent transfer of capability information
		-- received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
		-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
		-- transparent transfer of capability information received from the UE that was introduced 
		-- in a release independent manner, i.e., transferred within a VLEC. These UE capabilities 
		-- are included both in the RRC CONNECTION SETUP COMPLETE and the UE CAPABILITY INFORMATION 
		-- messages. Only the VLEC of one message needs to be included i.e. the one from these
		-- messages that was last received.
		-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
		-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5	OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity								OPTIONAL,
		srns-t-305						T-305										OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull				OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r12						OPTIONAL,
		interRATCellInfoIndication		InterRATCellInfoIndication					OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList		PredefinedConfigStatusList,
		srb-InformationList				SRB-InformationSetupList-r11,
		rab-InformationList				RAB-InformationSetupList-r11				OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode						OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12					OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList-r8				OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4						OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r11				OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList			TPC-CombinationInfoList						OPTIONAL,
		e-RGCH-CombinationInfoList		E-RGCH-CombinationInfoList					OPTIONAL,
		storedCompressedModeInfo		StoredCompressedModeInfo-r8					OPTIONAL,
		secondary-tpc-CombinationInfoList		TPC-CombinationInfoList-r9			OPTIONAL,
		secondary-e-RGCH-CombinationInfoList	E-RGCH-CombinationInfoList-r9		OPTIONAL, 
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r12			OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12							OPTIONAL,
		ul-SecondaryCellInfoFDD			UL-SecondaryCellInfoFDD-r12					OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD					OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12					OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r12				OPTIONAL,
	-- Measurement report
		measurementReport				BIT STRING
							(CONTAINING MeasurementReport)							OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr						OPTIONAL,
		ue-HistoryInformation			UE-HistoryInformation						OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation			MBMS-JoinedInformation-r6					OPTIONAL,
		mbmsSelectedServiceInfo			MBMS-SelectedServiceInfo					OPTIONAL
}

SRNC-RelocationInfo-r13-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
	-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
	-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
	-- Only included if type is "UE involved"
		rb-IdentityForHOMessage		RB-Identity									OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList			CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering	CalculationTimeForCiphering					OPTIONAL,
		count-C-List					COUNT-C-List									OPTIONAL,
		cipheringInfoPerRB-List		CipheringInfoPerRB-List-r4					OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList			OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams					OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI											OPTIONAL,
	-- IE 'UE-RadioAccessCapability-r6' includes the Rel-5 radio access capability
 	-- extensions and earlier. Rel-6 and later extensions are included in IE 'UE-CapabilityContainer-IEs'.
		ue-RadioAccessCapability		UE-RadioAccessCapability-r6,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList				OPTIONAL,
		ue-Positioning-LastKnownPos	UE-Positioning-LastKnownPos					OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle			OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
	-- IE ueCapabilityContainer is used for the transparent transfer of capability
 	-- information received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
	-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
	-- transparent transfer of capability information received from the UE that was
 	-- introduced in a release independent manner, i.e., transferred within a VLEC. 
	-- These UE capabilities are included both in the RRC CONNECTION SETUP COMPLETE and 
	-- the UE CAPABILITY INFORMATION messages. 
	-- Only the VLEC of one message needs to be included i.e. the one from these
	-- messages that was last received.
	-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
	-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5		OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity									OPTIONAL,
		srns-t-305						T-305											OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull					OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r13						OPTIONAL,
		interRATCellInfoIndication	InterRATCellInfoIndication					OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList	PredefinedConfigStatusList,
		srb-InformationList			SRB-InformationSetupList-r11,
		rab-InformationList			RAB-InformationSetupList-r11					OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode							OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12						OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList-r8				OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4						OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r11				OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList		TPC-CombinationInfoList						OPTIONAL,
		e-RGCH-CombinationInfoList	E-RGCH-CombinationInfoList					OPTIONAL,
		storedCompressedModeInfo		StoredCompressedModeInfo-r8					OPTIONAL,
		secondary-tpc-CombinationInfoList		TPC-CombinationInfoList-r9		OPTIONAL,
		secondary-e-RGCH-CombinationInfoList	E-RGCH-CombinationInfoList-r9			OPTIONAL, 
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r12		OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12								OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r13					OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD						OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12						OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13					OPTIONAL,
	-- Measurement report
		measurementReport				BIT STRING
							(CONTAINING MeasurementReport)							OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr						OPTIONAL,
		ue-HistoryInformation			UE-HistoryInformation							OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation		MBMS-JoinedInformation-r6						OPTIONAL,
		mbmsSelectedServiceInfo		MBMS-SelectedServiceInfo						OPTIONAL
}

SRNC-RelocationInfo-LaterCriticalExtensions ::=	   SEQUENCE {
	criticalExtensions							CHOICE {
		r14										SEQUENCE {
			sRNC-RelocationInfo-r14			SRNC-RelocationInfo-r14-IEs,
			sRNC-RelocationInfo-r14-add-ext	BIT STRING	OPTIONAL,
			nonCriticalExtensions	SEQUENCE {}	OPTIONAL
		},
		sRNC-RelocationInfo-CriticalExtensions-r15-IEs			SRNC-RelocationInfo-CriticalExtensions-r15-IEs
	}
}

SRNC-RelocationInfo-CriticalExtensions-r15-IEs ::=	SEQUENCE {
	criticalExtensions							CHOICE {
		r15										SEQUENCE {
			sRNC-RelocationInfo-r15			SRNC-RelocationInfo-r15-IEs,
			sRNC-RelocationInfo-r15-add-ext	BIT STRING	OPTIONAL,
			nonCriticalExtensions	SEQUENCE {}	OPTIONAL
		},
		criticalExtensions						SEQUENCE {}
	}
}

SRNC-RelocationInfo-r14-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
	-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
	-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
	-- Only included if type is "UE involved"
		rb-IdentityForHOMessage		RB-Identity									OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList			CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering	CalculationTimeForCiphering					OPTIONAL,
		count-C-List					COUNT-C-List									OPTIONAL,
		cipheringInfoPerRB-List		CipheringInfoPerRB-List-r4					OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList			OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams					OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI											OPTIONAL,
	-- IE 'UE-RadioAccessCapability-r6' includes the Rel-5 radio access capability
	-- extensions and earlier. Rel-6 and later extensions are included in IE 'UE-CapabilityContainer-IEs'.
		ue-RadioAccessCapability		UE-RadioAccessCapability-r6,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList				OPTIONAL,
		ue-Positioning-LastKnownPos	UE-Positioning-LastKnownPos					OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle			OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
	-- IE ueCapabilityContainer is used for the transparent transfer of capability
 	-- information received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
	-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
	-- transparent transfer of capability information received from the UE that was
 	-- introduced in a release independent manner, i.e., transferred within a VLEC. 
	-- These UE capabilities are included both in the RRC CONNECTION SETUP COMPLETE and 
	-- the UE CAPABILITY INFORMATION messages. 
	-- Only the VLEC of one message needs to be included i.e. the one from these
	-- messages that was last received.
	-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
	-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5		OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity									OPTIONAL,
		srns-t-305						T-305											OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull					OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r14						OPTIONAL,
		interRATCellInfoIndication	InterRATCellInfoIndication					OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList	PredefinedConfigStatusList,
		srb-InformationList			SRB-InformationSetupList-r11,
		rab-InformationList			RAB-InformationSetupList-r11					OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode							OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12						OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList-r8				OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4						OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r11				OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList		TPC-CombinationInfoList						OPTIONAL,
		e-RGCH-CombinationInfoList	E-RGCH-CombinationInfoList					OPTIONAL,
		storedCompressedModeInfo		StoredCompressedModeInfo-r8					OPTIONAL,
		secondary-tpc-CombinationInfoList		TPC-CombinationInfoList-r9		OPTIONAL,
		secondary-e-RGCH-CombinationInfoList	E-RGCH-CombinationInfoList-r9			OPTIONAL,
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r12		OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12								OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r13					OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD						OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12						OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13					OPTIONAL,
	-- Measurement report
		measurementReport				BIT STRING
							(CONTAINING MeasurementReport)							OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr						OPTIONAL,
		ue-HistoryInformation			UE-HistoryInformation							OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation		MBMS-JoinedInformation-r6						OPTIONAL,
		mbmsSelectedServiceInfo		MBMS-SelectedServiceInfo						OPTIONAL
}

SRNC-RelocationInfo-r15-IEs ::=			SEQUENCE {
	-- Non-RRC IEs
	-- IE rb-IdentityForHOMessage includes the identity of the RB used by the source SRNC
	-- to send the message contained in the IE "TargetRNC-ToSourceRNC-Container".
	-- Only included if type is "UE involved"
		rb-IdentityForHOMessage		RB-Identity									OPTIONAL,
		stateOfRRC						StateOfRRC,
		stateOfRRC-Procedure			StateOfRRC-Procedure,
	-- Ciphering related information IEs
		cipheringStatusList			CipheringStatusList-r4,
		latestConfiguredCN-Domain		CN-DomainIdentity,
		calculationTimeForCiphering	CalculationTimeForCiphering					OPTIONAL,
		count-C-List					COUNT-C-List									OPTIONAL,
		cipheringInfoPerRB-List		CipheringInfoPerRB-List-r4					OPTIONAL,
	-- Integrity protection related information IEs
		integrityProtectionStatus		IntegrityProtectionStatus,
		srb-SpecificIntegrityProtInfo	SRB-SpecificIntegrityProtInfoList			OPTIONAL,
		implementationSpecificParams	ImplementationSpecificParams					OPTIONAL,
	-- User equipment IEs
		u-RNTI							U-RNTI,
		c-RNTI							C-RNTI											OPTIONAL,
	-- IE 'UE-RadioAccessCapability-r6' includes the Rel-5 radio access capability
 	-- extensions and earlier. Rel-6 and later extensions are included in IE 'UE-CapabilityContainer-IEs'.
		ue-RadioAccessCapability		UE-RadioAccessCapability-r6,
		ue-RadioAccessCapability-ext	UE-RadioAccessCapabBandFDDList				OPTIONAL,
		ue-Positioning-LastKnownPos	UE-Positioning-LastKnownPos					OPTIONAL,
		uESpecificBehaviourInformation1idle
										UESpecificBehaviourInformation1idle			OPTIONAL,
		uESpecificBehaviourInformation1interRAT
										UESpecificBehaviourInformation1interRAT		OPTIONAL,
	-- IE ueCapabilityContainer is used for the transparent transfer of capability
 	-- information received from the UE
		ueCapabilityContainer			BIT STRING
											(CONTAINING UE-CapabilityContainer-IEs)	OPTIONAL,
	-- IE ueCapabilityContainer-RSC and IE ueCapabilityContainer-UCI are used for the 
	-- transparent transfer of capability information received from the UE that was
 	-- introduced in a release independent manner, i.e., transferred within a VLEC. 
	-- These UE capabilities are included both in the RRC CONNECTION SETUP COMPLETE and 
	-- the UE CAPABILITY INFORMATION messages. 
	-- Only the VLEC of one message needs to be included i.e. the one from these
	-- messages that was last received.
	-- Case 1: If the last received message was a RRC CONNECTION SETUP COMPLETE (RSC)
		ueCapabilityContainer-RSC		BIT STRING
							(CONTAINING RRCConnectionSetupComplete-r3-add-ext-IEs)	OPTIONAL,
	-- Case 2: If the last received message was a UE CAPABILITY INFORMATION (UCI)
		ueCapabilityContainer-UCI		BIT STRING
							(CONTAINING UECapabilityInformation-r3-add-ext-IEs)		OPTIONAL,
	-- Other IEs
		ue-RATSpecificCapability		InterRAT-UE-RadioAccessCapabilityList-r5		OPTIONAL,
	-- UTRAN mobility IEs
		ura-Identity					URA-Identity									OPTIONAL,
		srns-t-305						T-305											OPTIONAL,
	-- Core network IEs
		cn-CommonGSM-MAP-NAS-SysInfo	NAS-SystemInformationGSM-MAP,
		cn-DomainInformationList		CN-DomainInformationListFull					OPTIONAL,
	-- Measurement IEs
		ongoingMeasRepList				OngoingMeasRepList-r15						OPTIONAL,
		interRATCellInfoIndication	InterRATCellInfoIndication					OPTIONAL,
	-- Radio bearer IEs
		predefinedConfigStatusList	PredefinedConfigStatusList,
		srb-InformationList			SRB-InformationSetupList-r11,
		rab-InformationList			RAB-InformationSetupList-r11					OPTIONAL,
		pdcp-ROHC-TargetMode			PDCP-ROHC-TargetMode							OPTIONAL,
	-- Transport channel IEs
		ul-CommonTransChInfo			UL-CommonTransChInfo-r12						OPTIONAL,
		ul-TransChInfoList				UL-AddReconfTransChInfoList-r8				OPTIONAL,
		dl-CommonTransChInfo			DL-CommonTransChInfo-r4						OPTIONAL,
		dl-TransChInfoList				DL-AddReconfTransChInfoList-r11				OPTIONAL,
	-- PhyCH IEs
		tpc-CombinationInfoList		TPC-CombinationInfoList						OPTIONAL,
		e-RGCH-CombinationInfoList	E-RGCH-CombinationInfoList					OPTIONAL,
		storedCompressedModeInfo		StoredCompressedModeInfo-r8					OPTIONAL,
		secondary-tpc-CombinationInfoList		TPC-CombinationInfoList-r9		OPTIONAL,
		secondary-e-RGCH-CombinationInfoList	E-RGCH-CombinationInfoList-r9			OPTIONAL,
		serving-HSDSCH-CellInformation	Serving-HSDSCH-CellInformation-r12		OPTIONAL,
		dtx-drx-Info					DTX-DRX-Info-r12								OPTIONAL,
		ul-SecondaryCellInfoFDD		UL-SecondaryCellInfoFDD-r13					OPTIONAL,
		dch-Enhancements-Info-FDD		DCH-Enhancements-Info-FDD						OPTIONAL,
		dl-CommonInformation			DL-CommonInformation-r12						OPTIONAL,
		dl-InformationPerRL-List		DL-InformationPerRL-List-r13					OPTIONAL,
	-- Measurement report
		measurementReport				BIT STRING
							(CONTAINING MeasurementReport)							OPTIONAL,
	-- Other IEs
		failureCause					FailureCauseWithProtErr						OPTIONAL,
		ue-HistoryInformation			UE-HistoryInformation							OPTIONAL,
	-- MBMS IEs
		mbms-JoinedInformation		MBMS-JoinedInformation-r6						OPTIONAL,
		mbmsSelectedServiceInfo		MBMS-SelectedServiceInfo						OPTIONAL
}

-- IE definitions

CalculationTimeForCiphering ::=		SEQUENCE {
	cell-Id								CellIdentity,
	sfn									INTEGER (0..4095)
}

CipheringInfoPerRB ::=				SEQUENCE {
	dl-HFN								BIT STRING (SIZE (20..25)),
	ul-HFN								BIT STRING (SIZE (20..25))
}

CipheringInfoPerRB-r4 ::=			SEQUENCE {
	rb-Identity							RB-Identity,
	dl-HFN								BIT STRING (SIZE (20..25)),
	dl-UM-SN							BIT STRING (SIZE (7)) 				OPTIONAL,
	ul-HFN								BIT STRING (SIZE (20..25))
}

-- TABULAR: CipheringInfoPerRB-List, multiplicity value numberOfRadioBearers 
-- has been replaced with maxRB.
CipheringInfoPerRB-List ::=			SEQUENCE (SIZE (1..maxRB)) OF
										CipheringInfoPerRB

CipheringInfoPerRB-List-r4 ::=		SEQUENCE (SIZE (1..maxRB)) OF
										CipheringInfoPerRB-r4


CipheringStatus ::=					ENUMERATED {
										started, notStarted }

CipheringStatusList-r4 ::=			SEQUENCE (SIZE (1..maxCNdomains)) OF
										CipheringStatusCNdomain-r4

CipheringStatusCNdomain-r4 ::=		SEQUENCE {
		cn-DomainIdentity				CN-DomainIdentity,
		cipheringStatus					CipheringStatus,
		start-Value						START-Value
}

CN-DomainInformation-v390ext ::=		SEQUENCE {
	cn-DRX-CycleLengthCoeff				CN-DRX-CycleLengthCoefficient
}

CN-DomainInformationList-v390ext ::=	SEQUENCE (SIZE (1..maxCNdomains)) OF
										CN-DomainInformation-v390ext

CompressedModeMeasCapability-r4 ::=	SEQUENCE {
	fdd-Measurements					BOOLEAN,
	-- TABULAR: The IEs tdd-Measurements, gsm-Measurements and multiCarrierMeasurements
	-- are made optional since they are conditional based on another information element.
	-- Their absence corresponds to the case where the condition is not true.
	tdd384-Measurements					BOOLEAN								OPTIONAL,
	tdd128-Measurements					BOOLEAN								OPTIONAL,
	gsm-Measurements					GSM-Measurements					OPTIONAL,
	multiCarrierMeasurements			BOOLEAN								OPTIONAL
}

COUNT-C-List ::=						SEQUENCE (SIZE (1..maxCNdomains)) OF
										COUNT-CSingle

COUNT-CSingle ::=						SEQUENCE {
	cn-DomainIdentity					CN-DomainIdentity,
	count-C								BIT STRING (SIZE (32))			
}

DL-PhysChCapabilityFDD-r4 ::=		SEQUENCE {
	-- The IE "maxNoDPCH-PDSCH-Codes" only gives information on the maximum number of DPCH Codes.
	maxNoDPCH-PDSCH-Codes				INTEGER (1..8),
	maxNoPhysChBitsReceived				MaxNoPhysChBitsReceived,
	supportForSF-512					BOOLEAN,
	-- dummy, dummy2 and dummy3 are not used in this version of the specification
	-- and if received they should be ignored.
	dummy								BOOLEAN,
	dummy2								SimultaneousSCCPCH-DPCH-Reception,
	dummy3								SupportOfDedicatedPilotsForChEstimation		OPTIONAL
}

DL-PhysChCapabilityFDD-r5 ::=		SEQUENCE {
	-- The IE "maxNoDPCH-PDSCH-Codes" only gives information on the maximum number of DPCH Codes.
	maxNoDPCH-PDSCH-Codes				INTEGER (1..8),
	maxNoPhysChBitsReceived				MaxNoPhysChBitsReceived,
	supportForSF-512					BOOLEAN,
	-- dummy, dumy2 and dummy3 are not used in this version of the specification
	-- and if received they should be ignored.
	dummy								BOOLEAN,
	dummy2								SimultaneousSCCPCH-DPCH-Reception,
	dummy3								SupportOfDedicatedPilotsForChEstimation		OPTIONAL,
	fdd-hspdsch							CHOICE {
		supported							SEQUENCE {
			hsdsch-physical-layer-category		HSDSCH-physical-layer-category,
			-- dummy and dummy2 are not used in this version of the specification
			-- and if received they should be ignored.
			dummy								BOOLEAN,
			dummy2								BOOLEAN
		},
		unsupported							NULL
	}
}

DL-PhysChCapabilityTDD-r5 ::=		SEQUENCE {
	maxTS-PerFrame						MaxTS-PerFrame,
	maxPhysChPerFrame					MaxPhysChPerFrame,
	minimumSF							MinimumSF-DL,
	supportOfPDSCH						BOOLEAN,
	maxPhysChPerTS						MaxPhysChPerTS,
	tdd384-hspdsch						CHOICE {
		supported							HSDSCH-physical-layer-category,
		unsupported							NULL
	}
}

DL-PhysChCapabilityTDD-LCR-r5 ::=	SEQUENCE {
	maxTS-PerSubFrame					MaxTS-PerSubFrame-r4,
	maxPhysChPerFrame					MaxPhysChPerSubFrame-r4,
	minimumSF							MinimumSF-DL,
	supportOfPDSCH						BOOLEAN,
	maxPhysChPerTS						MaxPhysChPerTS,
	supportOf8PSK						BOOLEAN,
	tdd128-hspdsch						CHOICE {
		supported							HSDSCH-physical-layer-category,
		unsupported							NULL
	}
}

DL-RFC3095-Context ::=				SEQUENCE {
	rfc3095-Context-Identity			INTEGER (0..16383),
	dl-mode								ENUMERATED {u, o, r},
	dl-ref-ir							OCTET STRING ( SIZE (1..3000)),
	dl-ref-time							INTEGER (0..4294967295)		OPTIONAL,
	dl-curr-time						INTEGER (0..4294967295)		OPTIONAL,
	dl-syn-offset-id					INTEGER (0..65535)			OPTIONAL,
	dl-syn-slope-ts						INTEGER (0..4294967295)		OPTIONAL,
	dl-dyn-changed						BOOLEAN
}

E-RGCH-Combination-Info ::=			SEQUENCE{
	primaryCPICH-Info					PrimaryCPICH-Info,
	rg-CombinationIndex					INTEGER (0..5)
}

E-RGCH-Combination-Info-r9 ::=			SEQUENCE{
	primaryCPICH-Info					PrimaryCPICH-Info,
	rg-CombinationIndex					INTEGER (0..5)
}

E-RGCH-CombinationInfoList ::=		SEQUENCE (SIZE (1..maxEDCHRL)) OF
										E-RGCH-Combination-Info

E-RGCH-CombinationInfoList-r9 ::=		SEQUENCE (SIZE (1..maxEDCHRL)) OF
										E-RGCH-Combination-Info-r9

ImplementationSpecificParams ::=	BIT STRING (SIZE (1..512))

IntegrityProtectionStatus ::=		ENUMERATED {
										started, notStarted }

InterRAT-UE-RadioAccessCapabilityList-r5 ::=	SEQUENCE {
	interRAT-UE-RadioAccessCapability	InterRAT-UE-RadioAccessCapabilityList,
	geranIu-RadioAccessCapability		GERANIu-RadioAccessCapability				OPTIONAL
}

IntraFreqReportingCriteria-r6-ext ::= SEQUENCE {
	-- The content of the v690 non-critical extension should be
	-- considered as an extension of IE IntraFreqEventCriteriaList
	event								Event1j-r6,
	hysteresis							Hysteresis,
	timeToTrigger						TimeToTrigger,
	reportingCellStatus					ReportingCellStatus					OPTIONAL
}

-- dummy is not used in this version of the specification, it should
-- not be sent and if received it should be ignored.
MaxHcContextSpace-r5 ::=				ENUMERATED { 
											dummy, by1024, by2048, by4096, by8192, 
											by16384, by32768, by65536, by131072 }

MeasurementCapability-r4 ::=		SEQUENCE {
	downlinkCompressedMode				CompressedModeMeasCapability-r4,
	uplinkCompressedMode				CompressedModeMeasCapability-r4	
}

MeasurementCommandWithType ::=		CHOICE {
	setup								MeasurementType,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r4 ::=	CHOICE {
	setup								MeasurementType-r4,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r6 ::=	CHOICE {
	setup								MeasurementType-r6,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r7 ::=	CHOICE {
	setup								MeasurementType-r7,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r8 ::=	CHOICE {
	setup								MeasurementType-r8,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r9 ::=	CHOICE {
	setup								MeasurementType-r9,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r10 ::=	CHOICE {
	setup								MeasurementType-r10,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r11 ::=	CHOICE {
	setup								MeasurementType-r11,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r12 ::=	CHOICE {
	setup								MeasurementType-r12,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r13 ::=	CHOICE {
	setup								MeasurementType-r13,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r14 ::=	CHOICE {
	setup								MeasurementType-Relocation-r14,
	modify								NULL,
	release								NULL
}

MeasurementCommandWithType-r15 ::=	CHOICE {
	setup								MeasurementType-Relocation-r15,
	modify								NULL,
	release								NULL
}

OngoingMeasRep ::=					SEQUENCE {
	measurementIdentity					MeasurementIdentity,
	-- TABULAR: The CHOICE Measurement in the tabular description is included
	-- in MeasurementCommandWithType
	measurementCommandWithType			MeasurementCommandWithType,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List		OPTIONAL
}

OngoingMeasRep-r4 ::=				SEQUENCE {
	measurementIdentity					MeasurementIdentity,
	-- TABULAR: The CHOICE Measurement in the tabular description is included
	-- in MeasurementCommandWithType-r4.
	measurementCommandWithType			MeasurementCommandWithType-r4,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List		OPTIONAL
}

OngoingMeasRep-r5 ::=				SEQUENCE {
	measurementIdentity					MeasurementIdentity,
	-- TABULAR: The CHOICE Measurement in the tabular description is included
	-- in MeasurementCommandWithType-r4.
	measurementCommandWithType			MeasurementCommandWithType-r4,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List		OPTIONAL,
	measurementCommand-v590ext			CHOICE {
		-- the choice "intra-frequency" shall be used for the case of intra-frequency measurement,
		-- as well as when intra-frequency events are configured for inter-frequency measurement
		intra-frequency						Intra-FreqEventCriteriaList-v590ext,
		inter-frequency						Inter-FreqEventCriteriaList-v590ext
	}		OPTIONAL,
	intraFreqReportingCriteria-1b-r5		IntraFreqReportingCriteria-1b-r5	OPTIONAL,
	intraFreqEvent-1d-r5					IntraFreqEvent-1d-r5				OPTIONAL
}

OngoingMeasRep-r6 ::=				SEQUENCE {
	measurementIdentity					MeasurementIdentity,
	measurementCommandWithType			MeasurementCommandWithType-r6,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List		OPTIONAL
}

OngoingMeasRep-r7 ::=				SEQUENCE {
	measurementIdentity					MeasurementIdentity,
	measurementCommandWithType			MeasurementCommandWithType-r7,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List		OPTIONAL
}

OngoingMeasRep-r8 ::=				SEQUENCE {
	measurementIdentity					MeasurementIdentity,
	measurementCommandWithType			MeasurementCommandWithType-r8,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List		OPTIONAL
}

OngoingMeasRep-r9 ::=				SEQUENCE {
	measurementIdentity					MeasurementIdentity,
	measurementCommandWithType			MeasurementCommandWithType-r9,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	-- if any of the additional measurement ID is within the range 17 to 32,
	-- "OngoingMeasRep-v970ext-IEs" should be present and should include 
	-- the IE "measurementIdentity" and "additionalMeasurementID-List".
	-- The value of the IE "measurementIdentity" in "OngoingMeasRep-v970ext-IEs"
	-- should be the same as the "measurementIdentity" value in "OngoingMeasRep-r9",
	-- and "additionalMeasurementID-List" should contain the complete list.
	-- The IE "additionalMeasurementID-List" in "OngoingMeasRep-r9" should still 
	-- contain the additional measurement ID which value is within the range 1 to 16.
	additionalMeasurementID-List		AdditionalMeasurementID-List		OPTIONAL
}

-- The IE "OngoingMeasRep-v970ext-IEs" should be included to report 
-- measurementIdentity values within the range 17 to 32 and when a 
-- "measurementIdentity" in "OngoingMeasRep-r9" needs to contain one of the 
-- values within the range 17 to 32 in the IE "additionalMeasurementID-List".

OngoingMeasRep-v970ext-IEs ::=		SEQUENCE {
	measurementIdentity					MeasurementIdentity-r9				OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List-r9		OPTIONAL
}

OngoingMeasRep-r10 ::=				SEQUENCE {
	measurementIdentity					MeasurementIdentity,
	measurementCommandWithType			MeasurementCommandWithType-r10,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	-- if any of the additional measurement ID is within the range 17 to 32,
	-- "OngoingMeasRep-v970ext-IEs" (in SRNC-RelocationInfo-vab0ext-IEs)should be present 
	-- and should include the IE "measurementIdentity" and 
	-- "additionalMeasurementID-List". In this case, the value of the IE "measurementIdentity" in
	-- "OngoingMeasRep-v970ext-IEs" (in SRNC-RelocationInfo-vab0ext-IEs) should be the same as the 
	-- "measurementIdentity" value in "OngoingMeasRep-r10", and "additionalMeasurementID-List"
	-- should contain the complete list.
	-- The IE "additionalMeasurementID-List" in "OngoingMeasRep-r10" should still 
	-- contain the additional measurement ID which value is within the range 1 to 16. 
	additionalMeasurementID-List		AdditionalMeasurementID-List		OPTIONAL
}

OngoingMeasRep-r11 ::=				SEQUENCE {
	measurementIdentity					MeasurementIdentity-r9,
	measurementCommandWithType			MeasurementCommandWithType-r11,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List-r9		OPTIONAL
}

OngoingMeasRep-r12 ::=				SEQUENCE {
	measurementIdentity				MeasurementIdentity-r9,
	measurementCommandWithType		MeasurementCommandWithType-r12,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List-r9		OPTIONAL
}

OngoingMeasRep-r13 ::=				SEQUENCE {
	measurementIdentity				MeasurementIdentity-r9,
	measurementCommandWithType		MeasurementCommandWithType-r13,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List-r9		OPTIONAL
}

OngoingMeasRep-r14 ::=				SEQUENCE {
	measurementIdentity				MeasurementIdentity-r9,
	measurementCommandWithType		MeasurementCommandWithType-r14,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List-r9		OPTIONAL
}

OngoingMeasRep-r15 ::=				SEQUENCE {
	measurementIdentity				MeasurementIdentity-r9,
	measurementCommandWithType		MeasurementCommandWithType-r15,
	measurementReportingMode			MeasurementReportingMode			OPTIONAL,
	additionalMeasurementID-List		AdditionalMeasurementID-List-r9		OPTIONAL
}

OngoingMeasRepList ::=				SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep

OngoingMeasRepList-r4 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r4

OngoingMeasRepList-r5 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r5

OngoingMeasRepList-r6 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r6

OngoingMeasRepList-r7 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r7

OngoingMeasRepList-r8 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r8

OngoingMeasRepList-r9 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r9

OngoingMeasRepList-v970ext-IE ::=	SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-v970ext-IEs

OngoingMeasRepList-r10 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r10

OngoingMeasRepList-r11 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r11

OngoingMeasRepList-r12 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r12

OngoingMeasRepList-r13 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r13

OngoingMeasRepList-r14 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r14

OngoingMeasRepList-r15 ::=			SEQUENCE (SIZE (1..maxNoOfMeas)) OF
										OngoingMeasRep-r15

PDCP-Capability-r4 ::=				SEQUENCE {
	losslessSRNS-RelocationSupport		BOOLEAN,
	supportForRfc2507					CHOICE {
		notSupported						NULL,
		supported							MaxHcContextSpace
	},
	supportForRfc3095					CHOICE {
		notSupported						NULL,
		supported							SEQUENCE {
			maxROHC-ContextSessions				MaxROHC-ContextSessions-r4	DEFAULT s16,
			reverseCompressionDepth				INTEGER (0..65535)			DEFAULT 0
		}
	}
}

PDCP-Capability-r5 ::=				SEQUENCE {
	losslessSRNS-RelocationSupport		BOOLEAN,
	supportForRfc2507					CHOICE {
		notSupported						NULL,
		supported							MaxHcContextSpace-r5
	},
	supportForRfc3095					CHOICE {
		notSupported						NULL,
		supported							SEQUENCE {
			maxROHC-ContextSessions				MaxROHC-ContextSessions-r4	DEFAULT s16,
			reverseCompressionDepth				INTEGER (0..65535)			DEFAULT 0,
			supportForRfc3095ContextRelocation	BOOLEAN
		}
	}
}

PDCP-Capability-r6 ::=				SEQUENCE {
	losslessSRNS-RelocationSupport		BOOLEAN,
	losslessDLRLC-PDUSizeChange			ENUMERATED { true }					OPTIONAL,
	supportForRfc2507					CHOICE {
		notSupported						NULL,
		supported							MaxHcContextSpace-r5
	},
	supportForRfc3095					CHOICE {
		notSupported						NULL,
		supported							SEQUENCE {
			maxROHC-ContextSessions				MaxROHC-ContextSessions-r4	DEFAULT s16,
			reverseCompressionDepth				INTEGER (0..65535)			DEFAULT 0,
			supportForRfc3095ContextRelocation	BOOLEAN
		}
	}
}

PhysicalChannelCapability-r4 ::=		SEQUENCE {
		fddPhysChCapability					SEQUENCE {
			downlinkPhysChCapability			DL-PhysChCapabilityFDD-r4,
			uplinkPhysChCapability				UL-PhysChCapabilityFDD
		}											OPTIONAL,
		tdd384-PhysChCapability				SEQUENCE {
			downlinkPhysChCapability			DL-PhysChCapabilityTDD,
			uplinkPhysChCapability				UL-PhysChCapabilityTDD
		}											OPTIONAL,
		tdd128-PhysChCapability				SEQUENCE {
			downlinkPhysChCapability			DL-PhysChCapabilityTDD-LCR-r4,
			uplinkPhysChCapability				UL-PhysChCapabilityTDD-LCR-r4
		}											OPTIONAL
}

PhysicalChannelCapability-r5 ::=		SEQUENCE {
		fddPhysChCapability					SEQUENCE {
			downlinkPhysChCapability			DL-PhysChCapabilityFDD-r5,
			uplinkPhysChCapability				UL-PhysChCapabilityFDD
		}											OPTIONAL,
		tdd384-PhysChCapability				SEQUENCE {
			downlinkPhysChCapability			DL-PhysChCapabilityTDD-r5,
			uplinkPhysChCapability				UL-PhysChCapabilityTDD
		}											OPTIONAL,
		tdd128-PhysChCapability				SEQUENCE {
			downlinkPhysChCapability			DL-PhysChCapabilityTDD-LCR-r5,
			uplinkPhysChCapability				UL-PhysChCapabilityTDD-LCR-r4
		}											OPTIONAL
}

RF-Capability-r4 ::=				SEQUENCE {
		fddRF-Capability				SEQUENCE {
			ue-PowerClass					UE-PowerClassExt,
			txRxFrequencySeparation			TxRxFrequencySeparation
		}																OPTIONAL,
		tdd384-RF-Capability			SEQUENCE {
			ue-PowerClass					UE-PowerClassExt,
			radioFrequencyBandTDDList		RadioFrequencyBandTDDList,
			chipRateCapability				ChipRateCapability
		}																OPTIONAL,
		tdd128-RF-Capability			SEQUENCE {
			ue-PowerClass					UE-PowerClassExt,
			radioFrequencyBandTDDList		RadioFrequencyBandTDDList,
			chipRateCapability				ChipRateCapability
		}																OPTIONAL
}

RFC3095-ContextInfo ::= 			SEQUENCE {
	rb-Identity							RB-Identity,
	rfc3095-Context-List				RFC3095-Context-List
}

RFC3095-Context-List ::=			SEQUENCE (SIZE (1..maxRFC3095-CID)) OF SEQUENCE {
	dl-RFC3095-Context					DL-RFC3095-Context		OPTIONAL,
	ul-RFC3095-Context					UL-RFC3095-Context		OPTIONAL
}

RLC-Capability-r5 ::=				SEQUENCE {
	totalRLC-AM-BufferSize				TotalRLC-AM-BufferSize-r5,
	maximumRLC-WindowSize				MaximumRLC-WindowSize,
	maximumAM-EntityNumber				MaximumAM-EntityNumberRLC-Cap
}


SRB-SpecificIntegrityProtInfo ::=	SEQUENCE {
	ul-RRC-HFN							BIT STRING (SIZE (28)),
	dl-RRC-HFN							BIT STRING (SIZE (28)),
	ul-RRC-SequenceNumber				RRC-MessageSequenceNumber,
	dl-RRC-SequenceNumber				RRC-MessageSequenceNumber
}

SRB-SpecificIntegrityProtInfoList ::= SEQUENCE (SIZE (4..maxSRBsetup)) OF
										SRB-SpecificIntegrityProtInfo

StateOfRRC ::=						ENUMERATED {
										cell-DCH, cell-FACH,
										cell-PCH, ura-PCH }

StateOfRRC-Procedure ::=			ENUMERATED {
										awaitNoRRC-Message,
										awaitRB-ReleaseComplete,
										awaitRB-SetupComplete,
										awaitRB-ReconfigurationComplete,
										awaitTransportCH-ReconfigurationComplete,
										awaitPhysicalCH-ReconfigurationComplete,
										awaitActiveSetUpdateComplete,
										awaitHandoverComplete,
										sendCellUpdateConfirm,
										sendUraUpdateConfirm,
										-- dummy is not used in this version of specification
										-- It should not be sent
										dummy,
										otherStates 
}

TotalRLC-AM-BufferSize-r5 ::=		ENUMERATED { 
										kb10, kb50, kb100, kb150, kb200, 
										kb300, kb400, kb500, kb750, kb1000 }

TPC-Combination-Info ::= SEQUENCE {
		primaryCPICH-Info					PrimaryCPICH-Info,
		tpc-CombinationIndex				TPC-CombinationIndex
}

TPC-Combination-Info-r9 ::= SEQUENCE {
	primaryCPICH-Info					PrimaryCPICH-Info,
	tpc-CombinationIndex				TPC-CombinationIndex
}

UE-MultiModeRAT-Capability-r5 ::=	SEQUENCE {
	multiRAT-CapabilityList				MultiRAT-Capability,
	multiModeCapability					MultiModeCapability,
	supportOfUTRAN-ToGERAN-NACC			BOOLEAN
}

UE-Positioning-Capability-r4 ::=	SEQUENCE {
	standaloneLocMethodsSupported			BOOLEAN,
	ue-BasedOTDOA-Supported					BOOLEAN,
	networkAssistedGPS-Supported			NetworkAssistedGPS-Supported,
	supportForUE-GPS-TimingOfCellFrames		BOOLEAN,
	supportForIPDL							BOOLEAN,
	rx-tx-TimeDifferenceType2Capable 		BOOLEAN,
	validity-CellPCH-UraPCH 				ENUMERATED { true }		OPTIONAL,
	sfn-sfnType2Capability					ENUMERATED { true }			OPTIONAL
}

UE-Positioning-LastKnownPos ::=		SEQUENCE { 
		sfn								INTEGER (0..4095),
		cell-id							CellIdentity,
		positionEstimate				PositionEstimate
}

UE-RadioAccessCapability-r4 ::=		SEQUENCE {
	accessStratumReleaseIndicator		AccessStratumReleaseIndicator,
	pdcp-Capability						PDCP-Capability-r4,
	rlc-Capability						RLC-Capability,
	transportChannelCapability			TransportChannelCapability,
	rf-Capability						RF-Capability-r4,
	physicalChannelCapability			PhysicalChannelCapability-r4,
	ue-MultiModeRAT-Capability			UE-MultiModeRAT-Capability,
	securityCapability					SecurityCapability,
	ue-positioning-Capability			UE-Positioning-Capability-r4,
	measurementCapability				MeasurementCapability-r4		OPTIONAL
}

UE-RadioAccessCapability-r5 ::=		SEQUENCE {
	accessStratumReleaseIndicator		AccessStratumReleaseIndicator,
	dl-CapabilityWithSimultaneousHS-DSCHConfig
										DL-CapabilityWithSimultaneousHS-DSCHConfig	OPTIONAL,
	pdcp-Capability						PDCP-Capability-r5,
	rlc-Capability						RLC-Capability-r5,
	transportChannelCapability			TransportChannelCapability,
	rf-Capability						RF-Capability-r4,
	physicalChannelCapability			PhysicalChannelCapability-r5,
	ue-MultiModeRAT-Capability			UE-MultiModeRAT-Capability-r5,
	securityCapability					SecurityCapability,
	ue-positioning-Capability			UE-Positioning-Capability-r4,
	measurementCapability				MeasurementCapability-r4		OPTIONAL
}

UE-RadioAccessCapability-r6 ::=		SEQUENCE {
	accessStratumReleaseIndicator		AccessStratumReleaseIndicator,
	dl-CapabilityWithSimultaneousHS-DSCHConfig
										DL-CapabilityWithSimultaneousHS-DSCHConfig	OPTIONAL,
	pdcp-Capability						PDCP-Capability-r6,
	rlc-Capability						RLC-Capability-r5,
	transportChannelCapability			TransportChannelCapability,
	rf-Capability						RF-Capability-r4,
	physicalChannelCapability			PhysicalChannelCapability-r5,
	ue-MultiModeRAT-Capability			UE-MultiModeRAT-Capability-r5,
	securityCapability					SecurityCapability,
	ue-positioning-Capability			UE-Positioning-Capability-r4,
	measurementCapability				MeasurementCapability-r4		OPTIONAL
}

UL-RFC3095-Context ::=				SEQUENCE {
	rfc3095-Context-Identity			INTEGER (0..16383),
	ul-mode								ENUMERATED {u, o, r},
	ul-ref-ir							OCTET STRING ( SIZE (1..3000)),
	ul-ref-time							INTEGER (0..4294967295)		OPTIONAL,
	ul-curr-time						INTEGER (0..4294967295)		OPTIONAL,
	ul-syn-offset-id					INTEGER (0..65535)			OPTIONAL,
	ul-syn-slope-ts						INTEGER (0..4294967295)		OPTIONAL,
	ul-ref-sn-1							INTEGER (0..65535)			OPTIONAL
}

END

12	Message transfer syntax
Transfer syntax for RRC PDUs is derived from their ASN.1 definitions by use of Packed Encoding Rules, unaligned as specified in X.691 [49], and with adapted final padding. If special encoding is used, it is indicated in the ECN module defined for each ASN.1 module. The use of special encoding is defined in [14].
The following encoding rules apply in addition to what has been specified in X.691 [49]:
-	When a bit string value is placed in a bit-field as specified in 15.6 to 15.11 in [11], the leading bit of the bit string value shall be placed in the leading bit of the bit-field, and the trailing bit of the bit string value shall be placed in the trailing bit of the bit-field.
NOTE:	The terms "leading bit" and "trailing bit" are defined in ITU-T Rec. X.680 | ISO/IEC 8824-1. When using the "bstring" notation, the leading bit of the bit string value is on the left, and the trailing bit of the bit string value is on the right.
12.1	Structure of encoded RRC messages
An RRC PDU, which is the bit string that is exchanged between peer entities/ across the radio interface, is the concatenation of a basic production, an extension and padding, in that order.
RRC PDUs shall be mapped to and from RLC SDUs upon transmission and reception as follows:
-	when delivering an RRC PDU as an RLC SDU to the RLC layer for transmission, the first bit of the RRC PDU shall be represented as the first bit in the RLC SDU and onwards; and
-	upon reception of an RLC SDU from the RLC layer, the first bit of the RLC SDU shall represent the first bit of the RRC PDU and onwards.
12.1.1	Basic production
The 'basic production' is obtained by applying UNALIGNED PER to the abstract syntax value (the ASN.1 description) as specified in X.691, except for the 0 to 7 bits added at the end to produce a multiple of 8 bits. The basic production can have any positive number of bits, not necessarily a multiple of 8 bits.
12.1.2	Extension
Emitters compliant with this version of the specification of the protocol shall, unless indicated otherwise on a PDU type basis, set the extension part empty. Emitters compliant with a later version might send non-empty extensions.
12.1.3	Padding
Emitters compliant with this version of the specification of the protocol shall, unless indicated otherwise on a PDU type basis, pad the basic production with the smallest number of bits required to meet the size constraints of the lower layers. Padding bits shall be set to 0.
Receivers compliant with this version of the specification have no need to distinguish the extension and padding parts, and shall, unless indicated otherwise on a PDU type basis, accept RRC PDUs with any bit string in the extension and padding parts.

Figure 12.1.3-1: Padding
When using AM or UM mode, RLC requires that the RRC PDU length is a multiple of 8 bits.
When using Tr mode, RLC does neither impose size requirements nor perform padding. This implies that RRC has to take into account the transport format set defined for the transport channel across which the message is to be sent. RRC shall add the lowest number of padding bits required to fit the size specified for the selected transport format. In case of Enhanced Uplink in CELL_FACH state and Idle mode, when using Tr mode, RRC shall add the lowest number of padding bits to ensure octet alignment.
For paging type 1 messages, in case the PCCH is mapped on HS-DSCH, padding needs to apply only to ensure octet alignment.
For SYSTEM INFORMATION CHANGE INDICATION message, in case the BCCH is mapped on HS-DSCH, padding needs to apply only to ensure octet alignment.
For system information blocks, building the PDU involves two steps. The first step is the building of the System Information Blocks, in which step padding is not applied (the rules for extension apply). The second step is the building of the RRC PDUs, involving segmentation and concatenation of System Information Blocks, and then padding as described above for Tr mode if the BCCH carrying the System Information Blocks is mapped on BCH. The procedure is shown by means of an example as described in Figure 12.1.3-2. The example includes two System Information Blocks, SIBn and SIBn+1, of which only SIBn includes a protocol extension. The two System Information Blocks used in the example do not require segmentation and are concatenated into one SYSTEM INFORMATION message or one SYSTEM INFORMATION 2 message.

Figure 12.1.3-2: Padding for System Information
PCI: Protocol control information at SYSTEM INFORMATION message or SYSTEM INFORMATION 2 message level
SI: SYSTEM INFORMATION message or SYSTEM INFORMATION 2 message
For system information blocks, RRC may also add padding information at the end of IE "SIB data fixed", used both within IE "Last segment" and IE "Complete SIB". The IE "SIB data fixed" has a fixed length i.e. no length denominator used. In case the remaining amount of "SIB data" information is insufficient to fill the IE completely, RRC includes padding bits.
Since no length denominator is included, the receiving RRC cannot remove the padding added by the sender. However, since the padding used is the same as the padding added by the PER encoder to achieve octet alignment, the receiver can handle it.
NOTE 1	The mechanism described above implies that the PDU provided to the ASN.1 decoder may have more than 7 padding bits included. For a complete System Information Block of length 215 bits, 11 padding bits are added by RRC. Since the decoder requires an octet aligned input, 6 additional bits need to be added. In this (worst) case, a total of 17 padding bits is included.
NOTE 2	For the above cases, use of padding bits is possible and more efficient than including a length denominator.
When using the RRC padding described above, the segment has a fixed length, which completely fills the transport block. Therefore, in this case no RRC padding is added within the SYSTEM INFORMATION message or SYSTEM INFORMATION 2 message. This is illustrated by means of the following figure.

Figure 12.1.3-3: No RRC padding for System Information
12.2	ECN link module for RRC
RRC-ECN-Link-Module LINK-DEFINITIONS ::=
BEGIN

IMPORTS
	RRC-encodings				-- Encoding objects for RRC messages
FROM RRC-Encoding-Definitions;

ENCODE Class-definitions
	WITH RRC-encodings
	COMPLETED BY PER-BASIC-UNALIGNED

ENCODE PDU-definitions
	WITH RRC-encodings
	COMPLETED BY PER-BASIC-UNALIGNED

ENCODE InformationElements
	WITH RRC-encodings
	COMPLETED BY PER-BASIC-UNALIGNED

ENCODE Internode-definitions
	WITH RRC-encodings
	COMPLETED BY PER-BASIC-UNALIGNED

END

12.3	ECN modules for RRC
The encoding definition module "RRC-Encoding-Definitions" contains definition of the encoding object set "RRC‑encodings". The encoding object set contains all the specialized encoding for RRC.
RRC-Encoding-Definitions ENCODING-DEFINITIONS ::=

BEGIN

EXPORTS
	RRC-encodings;

RRC-encodings #ENCODINGS ::= {
	-- Trailing bits
	outer-encoding
}

--**************************************************************
--
-- The trailing bits in all RRC messages shall be ignored
-- (including unknown message contents & unknown extensions).
-- This overrides the default PER behaviour which pads the last
-- octet with zero bits.
--
--**************************************************************

outer-encoding #OUTER ::= {
	ENCODER-DECODER {
	}
	DECODE AS IF {
		POST-PADDING	encoder-option
	}
}

END

Class-definitions-ECN-Module ENCODING-DEFINITIONS ::=
BEGIN
END

PDU-definitions-ECN-Module ENCODING-DEFINITIONS ::=
BEGIN
END

InformationElements-ECN-Module ENCODING-DEFINITIONS ::=
BEGIN
END


Internode-definitions-ECN-Module ENCODING-DEFINITIONS ::=
BEGIN
END
12.4	RRC messages encoded otherwise
NOTE:		The messages included in this section are not specified by means of ASN.1.
12.4.1	Messages using tabular encoding specification
The encoding of the message is specified by means of a table listing the information elements known in the message and their order of their appearance in the message.
When a field extends over more than one octet, the order of bit values progressively decreases as the octet number increases. The least significant bit of the field is represented by the lowest numbered bit of the highest numbered octet of the field.
12.4.1.1	TRANSPORT FORMAT COMBINATION CONTROL using transparent DCCH
12.4.1.1.1	TRANSPORT FORMAT COMBINATION CONTROL, 3 bit format
The 3 bit format is as follows:
3
2
1
Transport Format Combination Set Identity value
0
0
0
0
0
0
1
1
0
1
0
2




1
1
1
7

12.4.1.1.2	Void

12.4.1.1.3	Void

13	Protocol timers, counters, other parameters and default configurations
The information provided in subclauses 13.1 and 13.2 shall be treated as informative. The normative text is specified in the relevant subclauses in clause 8 and clause 8 shall prevail.
13.1	Timers for UE
Timer
Start
Stop
At expiry
T300
Transmission of RRC CONNECTION REQUEST in case of connection establishment for reasons other than MBMS reception
Reception of RRC CONNECTION SETUP
Retransmit RRC CONNECTION REQUEST if V300 =< N300, else go to Idle mode
T302
Transmission of CELL UPDATE/URA UPDATE
Reception of CELL UPDATE CONFIRM/URA UPDATE CONFIRM 
Retransmit CELL UPDATE/URA UPDATE if V302 =< N302, else, go to Idle mode
T304
Transmission of UE CAPABILITY INFORMATION
Reception of UE CAPABILITY INFORMATION CONFIRM
Retransmit UE CAPABILITY INFORMATION if V304 =< N304, else initiate a cell update procedure
T305
Entering CELL_FACH or URA_PCH or CELL_PCH state. Reception of CELL UPDATE CONFIRM/URA UPDATE CONFIRM. 
Entering another state.
Transmit CELL UPDATE if T307 is not activated and the UE detects "in service area". Otherwise, if T307 is not active, start T307.
T307
When the timer T305 has expired and the UE detects "out of service area".
When the UE detects "in service area".
Transit to idle mode
T308
Transmission of RRC CONNECTION RELEASE COMPLETE
Not stopped
Transmit RRC CONNECTION RELEASE COMPLETE if V308 <=N308, else go to idle mode. 
T309
Upon reception of CELL CHANGE ORDER FROM UTRAN message
Successful response to a connection establishment request in the new cell. 
Resume the connection to UTRAN
T310
Transmission of PUSCH CAPACITY REQUEST
Reception of PHYSICAL SHARED CHANNEL ALLOCATION
Transmit PUSCH CAPACITY REQUEST if V310 =< N310, else procedure stops.
T311
Reception of PHYSICAL SHARED CHANNEL ALLOCATION message with the CHOICE "PUSCH allocation" set to "PUSCH allocation pending".
Reception of PHYSICAL SHARED CHANNEL ALLOCATION message with CHOICE "PUSCH allocation" set to "PUSCH allocation assignment".
UE may initiate a PUSCH capacity request procedure.
T312
When the UE starts to establish dedicated CH. For 1.28 Mcps TDD, it can also apply for physical shared channel establishment.
For FDD, timer T312 runs independently for the downlink frequency associated with the primary uplink frequency and for the downlink frequency associated with the secondary uplink frequency.
When the UE detects N312 "in sync" indication from L1. 
The criteria for physical channel establishment failure is fulfilled
T313
When the UE detects consecutive N313 "out of sync" indication from L1.
For FDD, timer T313 runs independently for the downlink frequency associated with the primary uplink frequency and for the downlink frequency associated with the secondary uplink frequency.
When the UE detects consecutive N315 "in sync" indication from L1.
The criteria for Radio Link failure is fulfilled.
T314
When the criteria for radio link failure are fulfilled.
The timer is started if radio bearer(s) that are associated with T314 exist or if only RRC connection exists only to the CS domain.
When the Cell Update procedure has been completed.
See subclause 8.3.1.13.
T315
When the criteria for radio link failure are fulfilled.
The timer is started only if radio bearer(s) that are associated with T315 exist or if RRC connection exists to PS domain.
When the Cell Update procedure has been completed.
See subclause 8.3.1.14.
T316
When the UE detects "out of service area" in URA_PCH or CELL_PCH state
When the UE detects "in service area".
Initiate cell update procedure if in service area is detected. Otherwise start timer T317, transit to CELL_FACH state and initiate cell update procedure when the UE detects "in service area".
T317
When the T316 expires or when in CELL_FACH state, the UE detects "out of service area".
When the UE detects "in service area".
T317 never expires.
T318
Transmission of RRC CONNECTION REQUEST in case of connection establishment for MBMS reception
Reception of RRC CONNECTION SETUP
Enter idle mode
T319
When entering CELL_PCH or URA_PCH.
When leaving CELL_PCH or URA_PCH state.
The UE activates starts the DRX cycle based on “DRX cycle length coefficient”. 
T320
When receiving the CELL UPDATE CONFIRM message with IE “Wait time” and IE “RRC State Indicator” set to the value “CELL_PCH” or “URA_PCH”.
When initiating the cell update or URA update procedure, see subclause 8.3.1.2.
See subclause 8.3.1.16.
T321
See subclause 8.5.49.
See subclause 8.5.49.
See subclause 8.5.49.
T322
When received in UTRAN MOBILITY INFORMATION message in the IE “Dedicated Priority Information” or upon cell (re)selection to UTRA from another RAT with validity time configured for dedicated priorities (in which case the remaining validity time is applied).
When dedicated priorities are cleared, when new dedicated priorities are received, when PLMN selection is performed on request by NAS, or upon cell (re)selection to another RAT (in which case the timer is carried on to the other RAT).
See subclause 8.3.3.7
T323
When transmitting a SIGNALLING CONNECTION RELEASE INDICATION message including the IE "Signalling Connection Release Indication Cause"
See subclauses 8.2.2.3, 8.3.1.6, and 8.5.2.
See subclause 8.1.14.4
T324
When a measurement report is triggered by intra frequency event 1d and the table "Target cell preconfigurations" in the variable TARGET_CELL_PRECONFIGURATION includes the cell that triggered the event or, when a measurement report is triggered by intra frequency 
event 1c requesting the serving HS-DSCH cell change and the table "Target cell preconfigurations" in the variable TARGET_CELL_PRECONFIGURATION includes the new best cell that reported in this event 1c report, and an Activation time offset equal to 0 is configured
Upon successful reception of a Target cell HS-SCCH order or after 4 seconds or upon reception of any RRC reconfiguration message or ACTIVE SET UPDATE message
Stop monitoring target cell HS-SCCH
T326
Upon receiving LOGGING MEASUREMENT CONFIGURATION including the Logged Measurements Configuration Info
Upon reception of a new LOGGING MEASUREMENT CONFIGURATION or upon log volume exceeding the available UE memory.
See subclause 8.5.63.4
T327
Upon receiving LOGGING MEASUREMENT CONFIGURATION including the Logged ANR Configuration Info
When reaching the maximum number of entries in the LOG_ ANR_REPORT_VARIABLE or the ANR logging info is reported to the network.

See subclause 8.5.63.5
T328
If HS-DSCH DRX in CELL_FACH with 2-level DRX is configured: Upon release of the common E-DCH resource or upon Fallback to R99 PRACH transmission termination, or upon HS-SCCH reception when no common E-DCH resource is allocated.
Upon allocation of a common E-DCH resource or upon initiation of Fallback to R99 PRACH transmission.
See subclause 8.5.49b
T329
If HS-DSCH DRX in CELL_FACH with 1-level DRX is configured: Upon release of the common E-DCH resource or upon Fallback to R99 PRACH transmission termination, or upon HS-SCCH reception when no common E-DCH resource is allocated.
If HS-DSCH DRX in CELL_FACH with 2-level DRX is configured:  upon expiry of T328.
Upon allocation of a common E-DCH resource, or upon initiation of Fallback to R99 PRACH transmission. If HS-DSCH DRX in CELL_FACH with 2-level DRX is configured: Upon HS-SCCH reception when no common E-DCH resource is allocated.
See subclause 8.5.49b
T330
When entering Idle mode, CELL_PCH or URA_PCH and the variable WLAN_OFFLOAD_INFO is not empty.
When entering CELL_FACH or CELL_DCH state, or upon cell reselection.
See subclause 8.6.7.30
T331
When upper layers indicate T331 timer value is received, see subcause 8.6.1.4.
When upper layers indicate no T331 timer value is received, see subclause 8.6.1.4.
See subclause 8.6.1.4.1
T332
When the T331 expires and T332 is configured, see subclause 8.6.1.4.
When upper layers indicate T332 timer value is configured or no T332 timer value is received, see subclause 8.6.1.4.
See subclause 8.6.1.4.2
T333
See subclause 8.5.89
Whenever variable HS-SCCH_DRX_CELL_FACH_STATUS operation is set to FALSE.
See subclause 8.5.89

13.2	Counters for UE
Counter
Reset
Incremented
When reaching max value
V300
When initiating the procedure RRC connection establishment 
Upon expiry of T300.
When V300 > N300, the UE enters idle mode.
V302
When initiating the procedure Cell update or URA update
Upon expiry of T302
When V302 > N302 the UE enters idle mode.
V304
When sending the first UE CAPABILITY INFORMATION message.
Upon expiry of T304
When V304 > N304 the UE initiates the Cell update procedure
V308
When sending the first RRC CONNECTION RELEASE COMPLETE message in a RRC connection release procedure.
Upon expiry of T308
When V308 > N308 the UE stops re-transmitting the RRC CONNECTION RELEASE COMPLETE message.
V310
When sending the first PUSCH CAPACITY REQUEST message in a PUSCH capacity request procedure
Upon expiry of T310
When V310 > N310 the UE stops re-transmitting the PUSCH CAPACITY REQUEST message.
V316
At transmission or reception of PS data or signalling on SRB3 or upwards, or entering RRC Connected mode, or successful SRNS relocation.
Upon sending the SIGNALLING CONNECTION RELEASE INDICATION message, with the IE "Signalling Connection Release Indication Cause" set to "UE Requested PS Data session end" in CELL_PCH state or URA_PCH state or in CELL_FACH state and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE and the DRX cycle length in use is equal to or longer than the shorter CN domain specific DRX cycle length for the PS domain and CS domain and V316 < 1.
When V316 >= 1 the UE stops sending any further SIGNALLING CONNECTION RELEASE INDICATION messages, with the IE "Signalling Connection Release Indication Cause" set to "UE Requested PS Data session end" in CELL_PCH state or URA_PCH state or in CELL_FACH state and the variable HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS is set to TRUE for as long as the DRX cycle length in use is equal to or longer than the shorter CN domain specific DRX cycle length for the PS domain and CS domain.

13.3	UE constants and parameters
Constant
Usage
N300
Maximum number of retransmissions of the RRC CONNECTION REQUEST message 
N302
Maximum number of retransmissions of the CELL UPDATE / URA UPDATE message
N304
Maximum number of retransmissions of the UE CAPABILITY INFORMATION message
N308
Maximum number of retransmissions of the RRC CONNECTION RELEASE COMPLETE message
N310
Maximum number of retransmission of the PUSCH CAPACITY REQUEST message
N312
Maximum number of "in sync" received from L1. 
N313
Maximum number of successive "out of sync" received from L1.
N315
Maximum number of successive "in sync" received from L1 during T313 is activated.

13.4	UE variables
13.4.ob	AM_RLC_ERROR_PENDING_RB234
This variable indicates whether an AM RLC unrecoverable error has been detected during the current cell update procedure on RB 2, 3, or 4.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
AM RLC error pending
MP

Boolean
TRUE means an unrecoverable error was detected on AM RLC during the current cell update procedure..
Set to FALSE when the cell update procedure is completed.

13.4.oc	AM_RLC_ERROR_PENDING_RB5_AND_UP
This variable indicates whether an AM RLC unrecoverable error has been detected during the current cell update procedure on RB 5 or above.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
AM RLC error pending
MP

Boolean
TRUE means an unrecoverable error was detected on AM RLC during the current cell update procedure..
Set to FALSE when the cell update procedure is completed.

13.4.0	CELL_INFO_LIST
This variable contains cell information on intra-frequency, inter-frequency and inter-RAT cells, as received in messages System Information Block Type 11, System Information Block Type 11bis, System Information Block Type 12, System Information Block Type 11ter, and MEASUREMENT CONTROL.
The first position in Intra-frequency cell info list corresponds to Intra-frequency cell id 0, the second to Intra-frequency cell id 1, etc.
The first position in Inter-frequency cell info list corresponds to Inter-frequency cell id 0, the second to Inter-frequency cell id 1, etc.
The first position in Inter-RAT cell info list corresponds to Inter-RAT cell id 0, the second to Inter-RAT cell id 1, etc.
This variable shall be cleared at cell re-selection, when leaving UTRA RRC connected mode, when switched off as well as at selection of a new PLMN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Intra-frequency cell info
OP
1..<maxCellMeas>



>CHOICE position status
MP




>>Occupied





>>>Cell info
MP

Cell info
10.3.7.2


>>Vacant



No data

Frequency info
OP

Frequency info 10.3.6.36
Frequency info for secondary uplink frequency. NOTE.
REL-9
Intra-frequency cell info on secondary UL frequency
OP
1..<maxCellMeasOnSecULFreq>


REL-9
>CHOICE position status
MP



REL-9
>>Occupied




REL-9
>>>Cell info
MP

Cell info
10.3.7.2

REL-9
>>Vacant



No data
REL-9
Inter-frequency cell info
OP
1..<maxCellMeas>





1..<maxCellMeas-e xt>


REL-12
>CHOICE position status
MP




>>Occupied





>>>Frequency info
MP

Frequency info
10.3.6.36


>>>Cell info
MP

Cell info
10.3.7.2


>>Vacant



No data

Adjacent frequency info
OP

Frequency info
10.3.6.36

REL-8
Inter-band frequency info
OP

Frequency info
10.3.6.36

REL-9
Frequency info list for enhanced measurement
OP
1.. < maxFreqMeasWithoutCM >


REL-10
>Frequency info for enhanced measurement
MP

Frequency info
10.3.6.36

REL-10
Inter-RAT cell info list
OP



REL-5
>Inter-RAT cell info
OP
1..<maxCellMeas>



>>CHOICE position status
MP




>>>Occupied





>>>>CHOICE Radio Access Technology





>>>>>GSM





>>>>>>Cell selection and re-selection info
MP

Cell selection and re-selection info for SIB11/12
10.3.2.4


>>>>>>BSIC
MP

BSIC 10.3.8.2


>>>>>>BCCH ARFCN
MP

Integer (0..1023)
[43]

>>>>>IS-2000





>>>>>>System specific measurement info


enumerated (frequency, timeslot, colour code, output power, PN offset)
For IS-2000, use fields from TIA/EIA/IS-2000.5,
subclause 3. 7.3.3.2.27, Candidate Frequency Neighbour List Message

>>>Vacant



No data

>CHOICE indication status
MP



REL-5
>>Present




REL-5
>>>Inter-RAT cell info indication
OP

Integer (0..3)

REL-5
>>Not present



No data
REL-5

NOTE:	This IE is not used in this release of the specification.
13.4.00	Void

13.4.0a	CELL_UPDATE_STARTED
This variable indicates whether a cell update or URA update procedure is in progress.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cell update started
MP

Boolean
TRUE means a cell or URA update procedure is in progress.
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.1	CIPHERING_STATUS
This variable contains information about the current status of ciphering in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Status for each CN domain
MP
<1 to
maxCNDomains>


>CN domain identity
MP

CN domain identity 10.3.1.1

>Status
MP

Enumerated(Not started, Started)
Set to "Not started" when entering UTRA RRC connected mode.
Set to "Not started" when leaving UTRA RRC connected mode.
Reconfiguration
MP

Boolean
TRUE means an RRC procedure performing reconfiguration of ciphering is ongoing.
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.1a	COMMON_E_DCH_TRANSMISSION
This variable indicates whether E-DPDCH and E-DPCCH transmission procedures for FDD or E-RUCCH and E-PUCH transmission procedure for 1.28 Mcps TDD in CELL_FACH state or Idle mode are ongoing. See subclause 8.5.46 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Common E-DCH transmission
MP

Boolean
See subclause 8.5.46
REL-8

13.4.2	Void

13.4.2a	CONFIGURATION_INCOMPLETE
This variable indicates whether a received measurement control message contains invalid an incomplete measurement configuration.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Configuration incomplete
MP

Boolean
TRUE: An incomplete configuration has been detected.
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.3	C_RNTI
This variable stores the assigned C-RNTI for this UE when in CELL_FACH state. For FDD and 1.28 Mcps TDD, this variable stores the assigned C-RNTI for this UE in CELL_PCH state, if in CELL_PCH state a HS-DSCH transport channel has been allocated. For FDD, this variable stores the assigned C-RNTI for this UE in URA_PCH state, if in URA_PCH state the UE supports URA_PCH with seamless transition and the C-RNTI has been allocated.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
C-RNTI
OP

C-RNTI
10.3.3.8
Cleared when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Cleared when leaving UTRA RRC connected mode.

13.4.3a	DEFERRED_MEASUREMENT_STATUS
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Deferred measurement status
MP

Boolean
If TRUE, the UE can transmit RRC messages on RACH and receive RRC messages commanding it to enter CELL_DCH without having read and acted on SIB11, SIB11bis, SIB12, SIB18 and SIB19. 
REL-7

13.4.3b	 DTX_DRX_PARAMS
NOTE:	For FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE parameters for DTX-DRX
MD

DTX-DRX Information in 10.3.6.34a

REL-7

13.4.3c	DTX_DRX_STATUS
NOTE:	For FDD only.
This variable indicates whether discontinuous UL DPCCH transmission and discontinuous reception of F-DPCH and HSPA DL channel procedures are ongoing. See subclause 8.5.34 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
DTX_DRX_STATUS
MP

Boolean
TRUE: discontinuous transmission and reception is ongoing.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-7

13.4.3d	DSAC_PARAM
This variable contains Domain Specific Access Restriction Parameters during the connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CS Domain Specific Access Restriction
MP

Domain Access Restriction 10.3.1.3b
This IE contains CS Domain Specific Access Restriction Parameters
Cleared when leaving UTRA RRC connected mode.
REL-6




Cleared upon successful SRNS relocation.
REL-11
PS Domain Specific Access Restriction
MP

Domain Access Restriction 10.3.1.3b
This IE contains PS Domain Specific Access Restriction Parameters
Cleared when leaving UTRA RRC connected mode.
REL-6




Cleared upon successful SRNS relocation.
REL-11

13.4.3e	DSCH_RNTI
In TDD this variable stores the assigned DSCH-RNTI for this UE when in CELL_DCH state.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
DSCH-RNTI
OP

DSCH-RNTI
10.3.3.9a
Cleared when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Cleared when leaving UTRA RRC connected mode.

13.4.3f	DOWNLINK_SECONDARY_CELL_INFO
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Downlink secondary cell info FDD
OP
1 to 7
Downlink secondary cell info FDD 10.3.6.31a

REL-11

13.4.3g	EAB_PARAM
This variable contains EAB Parameters during the connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Domain Specific EAB Parameters
MP

Domain Specific EAB Parameters
10.3.1.3d
Cleared when leaving UTRA RRC connected mode and cleared upon successful SRNS relocation.
REL-11

13.4.3h	DSAC_PARAM_2
This variable contains Domain Specific Access Restriction Parameters during CELL_DCH state.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CS Domain Specific Access Restriction
MP

Domain Access Restriction 10.3.1.3b
This IE contains CS Domain Specific Access Restriction Parameters.
Cleared when leaving CELL_DCH state or upon successful SRNS relocation.
REL-12
PS Domain Specific Access Restriction
MP

Domain Access Restriction 10.3.1.3b
This IE contains PS Domain Specific Access Restriction Parameters.
Cleared when leaving CELL_DCH state or upon successful SRNS relocation.
REL-12

13.4.3i	CONNECTED_MODE_ACCESS_CONTROL
This variable contains information for controlling access in CELL_FACH state, CELL_PCH state and URA_PCH state.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Access Group identity
OP

Integer (0..15)
This IE indicates the Access Group to which the UE is assigned.
Cleared when leaving UTRA RRC connected mode, and upon successful SRNS relocation.
REL-12
DTCH transmission blocked
OP

Bit string(maxNumAccessGroups)

Bit 0 is the first/leftmost bit of the bit string. 
Bit n corresponds to the n-th defined Access Group. 
Value '1' for a bit means UEs in that Access Group are blocked for DTCH transmission in CELL_FACH state, and for DCCH/CCCH due to uplink DTCH transmission in CELL_PCH state and URA_PCH state.

Cleared when leaving UTRA RRC connected mode, and upon successful SRNS relocation.
REL-12

13.4.4	Void

13.4.4o	E_DCH_TRANSMISSION
This variable indicates whether E-DPDCH and E-DPCCH transmission procedures are ongoing. See subclause 8.5.28 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-DCH transmission
MP

Boolean
TRUE: E-DCH transmission is ongoing.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-6

13.4.4a	E_RNTI
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Primary E-RNTI
OP

E-RNTI
10.3.3.10a
Cleared when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Cleared when leaving UTRA RRC connected mode.
REL-6
Secondary E-RNTI
OP

E-RNTI
10.3.3.10a
Cleared when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Cleared when leaving UTRA RRC connected mode.
REL-6

13.4.5	ESTABLISHED_RABS
This variable is used to store information about the established radio access bearers and signalling radio bearers in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RAB information 
OP
1 to <maxRABsetup>

For each RAB established.
Cleared when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Cleared when leaving UTRA RRC connected mode.
>RAB info
MP

RAB info 10.3.4.8

>RB information
MP
1 to <maxRBper RAB>

For each RB belonging to the RAB
>>RB identity
MP

RB identity 10.3.4.16

>>Subflow
MP

Integer(0..<maxSubflowcount>)
Reference to the RAB subflow implemented by this RB
>>RB started
MD

Enumerated(stopped, started)
Default value is started
Signalling radio bearer information 
OP
1 to < maxSRBsetup>

In the order of RB0 and upwards.
Cleared when leaving UTRA RRC connected mode.
>RB started
MD

Enumerated(stopped, started)
Default value is started

13.4.5a	ESTABLISHED_SIGNALLING_CONNECTIONS
This variable is used to store information about established signalling connections.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Signalling connection list 
OP
1 to <maxCNdomains>

For each established signalling connection.
Cleared when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Cleared when leaving UTRA RRC connected mode.
>Signalling connection identity
MP

CN domain identity 10.3.1.1


13.4.6	ESTABLISHMENT_CAUSE
This variable is used to store the cause for establishment of a signalling connection received by upper layers, to be used at RRC connection establishment or Initial Direct Transfer.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Establishment cause
OP

Establishment cause
10.3.3.11
Cleared when leaving UTRA RRC connected mode.

13.4.6a	EUTRA_FREQUENCY_INFO_LIST
This variable contains cell information on E-UTRA frequencies (possibly with associated blacklists), as received in messages System Information Block Type 19 and MEASUREMENT CONTROL.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Frequency Info List
MP
1 to <maxNumEUTRAFreqs>


REL-8
>EARFCN
MP

Integer(0 .. 65535)
EARFCN of the downlink carrier frequency [64]. 
REL-8



Integer(0..262143)

REL-11
>Measurement Bandwidth
MD

Enumerated(6, 15, 25, 50, 75, 100)
Measurement bandwidth information common for all neighbouring cells on the carrier frequency. It is defined by the parameter Transmission Bandwidth Configuration, NRB [36.104]. The values indicate the number of resource blocks over which the UE could measure. Default value is 6.
REL-8
>Blacklisted cells per freq list
OP
1 to <maxEUTRACellPerFreq>


REL-8
>>Physical Cell identity
MP

Integer (0..503)
A list of blacklisted cells can be signalled per frequency
REL-8
>Wideband RSRQ measurements
OP

Enumerated (TRUE)
If this field is present, the UE shall use a wider bandwidth when performing RSRQ measurements according to TS 36.133 [74].
REL-11

13.4.6b	Void

13.4.6c	ETWS_INFO_IN_PROGRESS
This variable is not used in this version of the specification.

13.4.7	FAILURE_CAUSE
This variable contains the cause for failure of a UE initiated procedure, to be reported in a retransmitted message.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Failure cause
OP

Failure cause 10.3.3.13
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

13.4.7a	FREQUENCY_BAND_INDICATOR_SUPPORT
This variable indicates which frequency bands broadcasted in IE "Frequency Bands Indicator Support" UE supports. For 1.28Mcps TDD, if no frequency band is broadcasted in IE "Frequency Bands Indicator Support", UE sets the variable according to own capability. See subclause 8.1.1.6.5 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Support of the first Frequency Band
MP

Boolean
For FDD, cleared when leaving the camped cell or no IE “Frequency Bands Indicator Support” in SIB5/5bis.
For 1.28Mcps TDD, cleared when leaving the camped cell.
REL-10
Support of the second Frequency Band
MP

Boolean
For FDD, cleared when leaving the camped cell or no “Frequency Bands Indicator Support” in SIB5/5bis.
For 1.28Mcps TDD, cleared when leaving the camped cell.
REL-10

13.4.8	FAILURE_INDICATOR
This variable indicates whether the procedure has failed for a UE initiated procedure.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Failure indicator
MP

Boolean
TRUE: Procedure has failed.
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.8o	H_RNTI
This variable stores the assigned H-RNTI for this UE when in CELL-DCH, CELL_FACH (FDD and 1.28 Mcps TDD only) or CELL_PCH (FDD and 1.28 Mcps TDD only) state, and when an HS-DSCH transport channel has been allocated. This variable stores the assigned H-RNTI for this UE when in URA_PCH (FDD) state, and when the UE supports URA_PCH with seamless transition.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
H-RNTI
OP

H-RNTI
10.3.3.14a
Cleared when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Cleared when leaving UTRA RRC connected mode.
REL-5

13.4.8oo	HS_DSCH_RECEPTION
This variable indicates whether HS-SCCH and HS-DSCH reception procedures are ongoing. See subclause 8.5.25 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-DSCH reception
MP

Boolean
TRUE: HS-DSCH reception is ongoing.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-5

13.4.8oa	HS_DSCH_RECEPTION_CELL_FACH_STATE
This variable indicates whether HS-SCCH and HS-DSCH reception procedures are ongoing in CELL_FACH for BCCH, DCCH and, if configured, DTCH reception. See subclause 8.5.36 for actions related to the setting of this variable.
NOTE:	FDD and 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-DSCH reception in CELL_FACH state
MP

Boolean
TRUE: HS-DSCH reception in CELL_FACH is ongoing.
Set to FALSE when entering UTRA RRC connected mode, CELL_PCH, URA_PCH and CELL_DCH.
Set to FALSE when leaving UTRA RRC connected mode, 
REL-7

13.4.8ob	HS_DSCH_RECEPTION_OF_CCCH_ENABLED
This variable indicates whether HS-SCCH and HS-DSCH reception procedures are enabled for CCCH and BCCH, and for SRB1 if the UE is in CELL_FACH state. See subclause 8.5.37 for actions related to the setting of this variable.
NOTE:	For FDD and 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-DSCH reception of CCCH
MP

Boolean
TRUE: HS-DSCH reception for the CCCH is enabled.
Set to FALSE when leaving UTRA RRC connected mode.
Set to FALSE when entering CELL_PCH, URA_PCH and CELL_DCH. 
REL-7

13.4.8oc	HS_DSCH_RECEPTION_GENERAL
This variable indicates whether HS-SCCH and HS-DSCH reception procedures are ongoing in CELL_DCH, CELL_FACH, CELL_PCH, or URA_PCH. See subclause 8.5.37a for actions related to the setting of this variable.
NOTE:	FDD and 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-DSCH reception in all states
MP

Boolean
TRUE: HS-DSCH reception in CELL_DCH, CELL_FACH, CELL_PCH or URA_PCH is ongoing.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode
REL-7

13.4.8od	SECONDARY_CELL_HS_DSCH_RECEPTION
Each entry in this variable indicates whether HS-SCCH and HS-DSCH reception procedures are configured for a secondary serving, assisting serving or assisting secondary serving HS-DSCH cell. See subclause 8.5.51 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-DSCH reception
MP
1 to 7
Boolean
TRUE: HS-DSCH reception is configured for a secondary serving, assisting serving or assisting secondary serving HS-DSCH cell.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-11

13.4.8oe	HS_DSCH_DRX_CELL_FACH_STATUS
This variable indicates whether HS-DSCH DRX operation is supported in CELL_FACH. See subclause 8.5.48 for actions related to the setting of this variable.
NOTE:	FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-DSCH DRX in CELL_FACH status
MP

Boolean
TRUE: HS-DSCH DRX operation in CELL_FACH is supported.
Set to FALSE when leaving CELL_FACH or when dedicated H-RNTI is cleared.
REL-8

13.4.8of	HS_DSCH_RECEPTION_OF_ETWS_ENABLED
This variable is not used in this version of the specification.

13.4.8ooo	HS_SCCH_LESS_PARAMS
NOTE:	For FDD only.
This variable contains the parameters for UE operation in HS-SCCH less mode. The parameters are listed in subclause 10.3.6.36ab.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE parameters for HS-SCCH less
MD

HS-SCCH less Information in 10.3.6.36ab

REL-7

13.4.8ooa	HS_SCCH_DRX_CELL_FACH_STATUS
This variable indicates whether HS-SCCH DRX operation is supported in CELL_FACH. See subclause 8.5.88 for actions related to the setting of this variable.
NOTE:	FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-SCCH DRX in CELL_FACH status
MP

Boolean
TRUE: HS-SCCH DRX operation in CELL_FACH is supported.
Set to FALSE when "HS_SCCH DRX in CELL_FACH Information" is not included in RADIO BEARER RECONFIGURATION/CELL UPDATE CONFIRM message or when leaving CELL_FACH or when dedicated H-RNTI is cleared or upon successful SRNS relocation.
REL-14

13.4.8oooo	HS_SCCH_LESS_STATUS
NOTE:	For FDD only.
This variable indicates whether HS-SCCH less HS-DSCH transmission procedures are ongoing. See subclause 8.5.35 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS_SCCH_LESS_STATUS
MP

Boolean
TRUE: HS-SCCH less HS-DSCH transmission is ongoing.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-7

13.4.8a	INCOMPATIBLE_SECURITY_RECONFIGURATION
This variable indicates whether an incompatible simultaneous reconfiguration of a security function has been received.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Incompatible security reconfiguration
MP

Boolean
TRUE: An incompatible simultaneous security reconfiguration has been detected.
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.8b	Void

13.4.8c	Void

13.4.8d	HSPA_RNTI_STORED _PCH
This variable indicates whether variables H_RNTI, C_RNTI and E_RNTI are stored in CELL_PCH or URA_PCH state.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HSPA_RNTI_STORED _PCH
MP

Boolean
TRUE: variables H_RNTI, C_RNTI and E_RNTI are stored in CELL_PCH or URA_PCH state.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-8

13.4.9	INITIAL_UE_IDENTITY
In this variable the identity used by the UE when establishing an RRC connection is stored.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Initial UE identity
OP

Initial UE identity
10.3.3.15
Cleared when leaving UTRA RRC connected mode.

13.4.9a	INTEGRITY_PROTECTION_ACTIVATION_INFO
This variable contains information to be sent to UTRAN about when a new integrity protection configuration shall be activated in the uplink for signalling radio bearers in case of modification of integrity protection.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Uplink Integrity protection activation info
OP

Integrity protection activation info 10.3.3.17
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

13.4.10	INTEGRITY_PROTECTION_INFO
This variable contains information about the current status of the integrity protection in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Status
MP

Enumerated(Not started, Started)
Set to "Not started" when entering UTRA RRC connected mode.
Set to "Not started" when leaving UTRA RRC connected mode.
Reconfiguration
MP

Boolean
TRUE means a reconfiguration of integrity protection is ongoing.
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.
Signalling radio bearer specific integrity protection information
OP
1 to <maxSRBsetup>

When integrity protection is started, status information for RB0- RB4 in that order.
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.
>Uplink RRC HFN
MP

Bit string (28)

>Downlink RRC HFN
MP

Bit string (28)

>Uplink RRC Message sequence number
MP

Integer (0..
15)

>Downlink RRC Message sequence number
OP

Integer (0..
15)


13.4.10a	INTER_RAT_HANDOVER_INFO_TRANSFERRED
This variable stores information about the inter RAT handover info that has been transferred to another RAT.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Predefined configuration status information
OP

Predefined configuration status information 10.3.4.5a
Cleared upon entering connected mode in another RAT

Predefined configuration status information compressed
OP

Predefined configuration status information compressed 10.3.4.5b
Cleared upon entering connected mode in another RAT
REL-5
UE security information
OP

UE security information 10.3.3.42b
Cleared upon entering connected mode in another RAT

UE security information2
OP

UE security information2 10.3.3.42c
Cleared upon entering connected mode in another RAT
REL-6
UE radio access capability
OP

UE radio access capability 10.3.3.42
Cleared upon entering connected mode in another RAT


UE radio access capability extension
OP

UE radio access capability extension 10.3.3.42a
Cleared upon entering connected mode in another RAT


UE radio access capability compressed
OP

UE radio access capability compressed
10.3.3.42o

REL-5
UE system specific capability
OP
1 to <maxSystemCapability>
Inter-RAT UE radio access capability 10.3.8.7
Cleared upon entering connected mode in another RAT


>Inter-RAT UE radio access capability 
MP

Inter-RAT UE radio access capability 10.3.8.7



13.4.11	INVALID_CONFIGURATION
This variable indicates whether a received message contained an invalid configuration, by means of invalid values or invalid combinations of information elements.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Invalid configuration
MP

Boolean
TRUE: An invalid configuration has been detected.
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.11a	LATEST_CONFIGURED_CN_DOMAIN
This variable stores the CN-domain that was most recently configured to be used for ciphering and integrity protection.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Latest configured CN domain
OP

CN domain identity 10.3.1.1
Cleared when entering UTRA RRC connected mode when not stated otherwise in the procedure.
Cleared when leaving UTRA RRC connected mode.

13.4.11b	LATEST_CONFIGURED_SRB_DELAY_AND_PC_PREAMBLE
This variable stores the SRB delay and PC preamble to be used for establishing the DPCH after failure of hard handover, inter-RAT handover from UTRAN, or cell change order from UTRAN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
SRB delay
OP

Integer (0..7)
Cleared when entering UTRA RRC connected mode when not stated otherwise in the procedure.
PC preamble
OP

Integer (0..7)
Cleared when entering UTRA RRC connected mode when not stated otherwise in the procedure.

13.4.11c	MBMS_ACTIVATED_services
This variable stores the MBMS multicast services the UE has joined as well as the MBMS broadcast services the UE is interested to receive. Whenever the list of joined multicast services and/ or interested broadcast services changes, upper layers provide an indication upon which the UE shall update the variable accordingly. In case upper layers de-select an MBMS Selected Services, the UE shall remove the concerned service from the variable. Likewise, when upper layers select an MBMS Selected Services, the UE shall add the concerned service to the variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Activated service list
OP
1 to <maxMBMS-Services>


>Service Identity
MP

MBMS Service identity 10.3.9a.8

>Service type
MP

Enumerated (Multicast, Broadcast)

>MBMS Selected Services Indicator
CV-Broadcast

Boolean
TRUE means that the service is currently a MBMS Selected Service

Condition
Explanation
Broadcast
This IE is mandatory present if the IE "Service type" is set to ‘Broadcast’ and not needed otherwise.

NOTE: 	An independent instance of the variable MBMS_ACTIVATED_SERVICES is used by UEs supporting reception of MBMS services from cells operating in MBSFN mode and will contain the services available in MBSFN mode only as indicated by higher layers.

13.4.11d	MBMS_PREV_FREQUENCY_INFO
This variable stores the frequency information of the cell the UE is camped on, upon moving to the MBMS preferred layer indicated MBMS FLC preferred frequency information.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PREV Frequency Information





CHOICE mode





>FDD cell





>>UARFCN downlink (Nd)
MP

Integer(0 .. 16383)
[21]

>3.84 Mcps TDD cell





>>UARFCN (Nt)
MP

Integer(0 .. 16383)
[22]

>1.28 Mcps TDD cell list





>>UARFCN (Nt)
MP

Integer(0 .. 16383)
[22] 


13.4.11e		MBMS_PL_Service_Restriction_Info_dedicated
This variable stores the value of the IE "MBMS PL Service Restriction Information" restriction applicable to preferred frequency received in the latest Radio Bearer Control or Cell Update Confirm message.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MBMS_PL_SERVICE_RESTRICTION_INFO_DEDICATED
MP

Enumerated (TRUE, FALSE)
Set to FALSE when entering UTRA connected mode.
REL-6

13.4.12	MEASUREMENT_IDENTITY
This variable stores the measurements configured in the UE. For each configured measurement, the information below shall be stored.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
MEASUREMENT CONTROL
OP

MEASUREMENT CONTROL 10.2.17, System Information Block type 11 10.2.48.8.14, System Information Block type 12 10.2.48.8.15, System Information Block type 11ter 10.2.48.8.14b
Information as contained in these messages.
Cleared when entering UTRA RRC connected mode when not stated otherwise in the procedure (8.4.1.8-8.4.1.9).
Cleared when leaving UTRA RRC connected mode when not stated otherwise in the procedure (8.4.1.9a).
NOTE: "Container for application layer measurement configuration" is not required to be stored as part of this variable.

13.4.13	Void
13.4.13a	MIMO_PARAMS
This variable indicates the values of the parameters for operation in MIMO mode. See subclause 8.5.32 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP



REL-8
>FDD




REL-8
>>MIMO N_cqi_typeA/M_cqi ratio
OP

Enumerated(1/2, 2/3, 3/4, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10, 1/1)


>>MIMO pilot configuration
OP

MIMO pilot configuration 10.3.6.41b


>>Precoding weight set  restriction

OP

Enumerated (TRUE)
If present, UE applies precoding weight set restriction.
REL-7
>TDD




REL-8
>>CHOICE TDD option
MP



REL-8
>>>1.28 Mcps TDD




REL-8
>>>>MIMO SF Mode for HS-PDSCH dual stream
MP

Enumerated (SF1, SF1/SF16)

REL-8
>>>>HS-SICH Reference Signal Info
OP
<1 to maxHSSCCHs >

The order of the list corresponds to the order of HS-SCCHs in HS-SCCH info
REL-8
>>>>> Reference Signal Midamble configuration
MP

Integer
(2, 4, 6, 8, 10, 12, 14, 16)
Midamble Allocation mode is UE specific midamble allocation
REL-8
>>>>>Reference Signal Midamble Shift
MP

Integer
(0..15)
The allocated midamble shift.
REL-8
>>>>>Reference Signal Timeslot number
MP

Integer
(1..5)

REL-8
>>>3.84 Mcps TDD or 7.68 Mcps TDD



(no data)
REL-8

13.4.13b	MIMO_STATUS
This variable indicates whether the UE is operating in MIMO mode.   See subclause 8.5.33 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIMO status
MP

Boolean
TRUE means the UE is operating in MIMO mode.

Cleared when leaving CELL_DCH state.


13.4.14	ORDERED_RECONFIGURATION
This variable stores information about an ongoing Reconfiguration procedure.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Ordered reconfiguration
MP

Boolean
TRUE means that a Reconfiguration procedure is ongoing.
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.14o	OTHER_TTI_EDCH_CONFIGURATION
This variable stores information about the other TTI length which is not currently configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
2ms TTI Configuration Information
OP

Other TTI E-DCH Configuration Information 
10.3.6.152

REL-12
10ms TTI Configuration Information
OP

Other TTI E-DCH Configuration Information 10.3.6.152

REL-12

13.4.14a	PDCP_ROHC_TARGET_MODE
This variable contains the ROHC target mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Target Mode
OP

Enumerated (O-mode, R-mode)
The UE shall only transit to the signalled mode for operation of ROHC as decribed in [36].
REL-5

13.4.15	PDCP_SN_INFO
This variable contains PDCP receive sequence numbers for one or several radio bearers to be included in a response message to UTRAN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RB with PDCP information list
OP
1 to <maxRBallRABs>

Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.
>RB with PDCP information
MP

RB with PDCP information
10.3.4.22


13.4.15a	PHYSICAL_SHARED_CHANNEL_CONFIGURATION
This variable is used only for TDD to store information about the physical shared channel configuration in the UE. 
Information Element/Group name
Need
Multi
Type and reference
Semantics description
PUSCH configuration
OP


Cleared when entering and leaving UTRA RRC connected mode.
>PUSCH info
MP

PUSCH info
10.3.6.63

>PUSCH Identity
OP

Integer(1.. hiPUSCHidentities)

>PUSCH power control info
OP

PUSCH power control info
10.3.6.65

PDSCH configuration
OP


Cleared when entering and leaving UTRA RRC connected mode.
>PDSCH Info
MP

PDSCH Info 10.3.6.44

>PDSCH Identity
OP

Integer(1..hiPDSCHidentities)

>PDSCH power control info
OP

PDSCH power control info 10.3.6.45

ISCP Timeslot list
OP
1 to maxTS

Cleared when entering and leaving UTRA RRC connected mode.
>Timeslot number
MP

Timeslot number 10.3.6.84
Timeslot numbers, for which the UE shall report the timeslot ISCP in PUSCH CAPACITY REQUEST message

13.4.15b	PPAC_PARAM
This variable contains Paging Permission with Access Control Parameters during the connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Paging Response Restriction Indication
MP

Enumerated(All, CS, PS, None)
Cleared when leaving UTRA RRC connected mode.
REL-8




Cleared upon successful SRNS relocation.
REL-11
Location/Registration Restriction Indicator
MP

Enumerated(All, CS, PS)
Cleared when leaving UTRA RRC connected mode.
REL-8




Cleared upon successful SRNS relocation.
REL-11
Location/Registration
MP

Location /Registration Parameters
10.3.1.7oa
Cleared when leaving UTRA RRC connected mode.
REL-8




Cleared upon successful SRNS relocation.
REL-11

13.4.15c	PRIORITY_INFO_LIST
This variable contains cell information on UTRA and inter-RAT priorities to be applied to neighbour cells stored in CELL_INFO_LIST and EUTRA_FREQUENCY_INFO_LIST, as received in messages System Information Block Type 19 and UTRAN MOBILITY INFORMATION.
The contents of this variable are inherited at inter-RAT cell (re)selection, including the remaining validity time (i.e., T320 in E-UTRAN, T322 in UTRAN, and T3230 in GERAN), if configured.
This variable can be configured in CELL_DCH, CELL_FACH, CELL_PCH, URA_PCH and Idle states. However, it is only used in CELL_FACH, CELL_PCH, URA_PCH and Idle states.
In Camped on any cell in [4], the UE implicitly takes actions as described in subclause 8.1.1.6.19 assuming the IE "Priority status" equals "sys_info_priority" using stored System information Block type 19. In Camped normally in [4], if the UE assumes it has valid UE specific priorities according to [4], the UE implicitly takes actions as described in subclause 8.6.7.23 without stopping T322 using stored IE "Dedicated Priority Information".
For UTRA and E-UTRA frequencies, a UE that supports multi-band cells for the concerned RAT considers the dedicated priorities to be common for all overlapping bands (i.e. independent of the ARFCN that is used).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Priority status
MP

Enumerated (sys_info_priority, dedicated_priority)

REL-8
UTRA Serving Cell
OP



REL-8
>priority
OP

Integer (0..<maxPrio–1>)
Absence of this IE indicates that the lowest priority is assigned to the serving frequency (lower than any assigned priority)
REL-8
>Sprioritysearch1
MP

Integer (0..62 by step of 2)
RSCP, dB
REL-8
>Sprioritysearch2
MD

Integer (0..7 by step of 1)
dB, default value is 0
REL-8
>Threshserving,low
MP

Integer (0..62 by step of 2)
RSCP, dB
REL-8
>Threshserving,low2
MD

Integer (0..31)
Ec/N0, [dB], default value is 0
REL-9
Priority Info List
OP
1 to <maxNumPrio>


REL-8
>priority
OP

Integer (0..<maxPrio–1>)
Absence of this IE indicates that no priority is assigned to the indicated  frequencies 
REL-8
>subpriority
CV-E-UTRA-priority

Enumerated(oDot2, oDot4, oDot6, oDot8)
Fractional priority value. If present, this value is added to the value of IE "priority".
REL-13
>CHOICE Radio Access Technology
MP



REL-8
>>UTRA FDD




REL-8
>>>Frequency List

1 to <maxNumFDDFreqs>



>>>>UARFCN
MP

Integer (0.. 16383)

REL-8
>>>>QqualminFDD
MD

Integer (-24..0)
Ec/N0, [dB]
Default value is -24.

REL-8
>>>>QrxlevminFDD
MD

Integer (-119..-25 by step of 2)
RSCP, dBm
Default value is -119.

REL-8
>>>>Threshx, high
OP

Integer (0..62 by step of 2)
RSCP, dB

REL-8
>>>>Threshx, low
OP

Integer (0..62 by step of 2)
RSCP, dB

REL-8
>>UTRA TDD




REL-8
>>>Frequency List

1 to <maxNumTDDFreqs>



>>>>UARFCN
MP

Integer (0.. 16383)

REL-8
>>>>QrxlevminTDD
MD

Integer (-119..-25 by step of 2)
RSCP, dBm
Default value is -119.

REL-8
>>>>Threshx, high
OP

Integer (0..62 by step of 2)
RSCP, dB

REL-8
>>>>Threshx, low
OP

Integer (0..62 by step of 2)
RSCP, dB

REL-8
>>E-UTRA




REL-8
>>>Frequency List

1 to <maxNumEUTRAFreqs>



>>>>EARFCN
MP

Integer(0 .. 65535)
EARFCN of the downlink carrier frequency [64]
REL-8



Integer(0..262143)

REL-11
>>>>QrxlevminEUTRA
MD

Integer (-140..-44 by step of 2)
RSRP, dBm
Default value is -140.

REL-8
>>>> Threshx, high
OP

Integer (0..62 by step of 2)  
RSRP, dB

REL-8
>>>>Threshx, low
OP

Integer (0..62 by step of 2)
RSRP, dB

REL-8
>>>>QqualminEUTRA
MD

Integer (-34..-3)
RSRQ, dB
default value is negative infinity
REL-9
>>>>Threshx, high2
OP

Integer (0..31)
RSRQ, dB 
REL-9
>>>>Threshx, low2
OP

Integer (0..31)
RSRQ, dB
REL-9
>>>>EUTRA-RSRQ-offsetWB
OP

Integer (-31.. 31)
Offset in dB used for Measured results on RACH
REL-11
>>>>EUTRARSRQ-OnAllSymbolsOffset
OP

Integer (-31.. 31)
RSRQ all OFDM symbols Offset in dB used for Measured results on RACH
REL-12
>>GSM




REL-8
>>>NCC permitted
MD

Bit string (8) {NCC 0 to 7}
Bitmap indicating NCC values; 
reselection of GERAN cells is permitted when the corresponding NCC bit = "1". Default is “11111111”

>>>Frequency List
MP
1 to < maxCellMeas>


REL-8
>>>>Band indicator
MP

Enumerated (DCS 1800 band used, PCS 1900 band used)
Indicates how to interpret the BCCH ARFCN
REL-8
>>>>BCCH ARFCN
MP

Integer (0..1023) 
[45]
REL-8
>>>>QrxlevminGSM
MD

Integer (-115..-56 by step of 2)
GSM RSSI, dBm
Default value is -115.

REL-8
>>>>Threshx, high
OP

Integer (0..62 by step of 2)
GSM RSSI, dB
REL-8
>>>>Threshx, low
OP

Integer (0..62 by step of 2)
GSM RSSI, dB
REL-8
E-UTRA detection
OP

Boolean
‘TRUE’ means that the UE may detect the presence of a E-UTRA cell and report to NAS
REL-8

Condition
Explanation
E-UTRA-priority
This IE is optionally present if IE "Radio Access Technology" is set to E-UTRA and if IE "priority" is present. Otherwise it is not needed.

13.4.15d	PPAC_PARAM_2
This variable contains Paging Permission with Access Control Parameters during CELL_DCH state.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Paging Response Restriction Indication
MP

Enumerated(All, CS, PS, None)
Cleared when leaving CELL_DCH state or upon successful SRNS relocation.
REL-12
Location/Registration Restriction Indicator
MP

Enumerated(All, CS, PS)
Cleared when leaving CELL_DCH state or upon successful SRNS relocation.
REL-12
Location/Registration
MP

Location /Registration Parameters
10.3.1.7oa
Cleared when leaving CELL_DCH state or upon successful SRNS relocation.
REL-12

13.4.16	PROTOCOL_ERROR_INDICATOR
This variable indicates whether there exist a protocol error that is to be reported to UTRAN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Protocol error indicator
MP

Protocol error indicator 10.3.3.27
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.17	PROTOCOL_ERROR_INFORMATION
This variable contains diagnostics to be reported to UTRAN for a message that was not completely understood.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Protocol error information
OP

Protocol error information 10.3.8.12
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

13.4.18	PROTOCOL_ERROR_REJECT
This variable indicates whether there has occurred a severe protocol error causing the ongoing procedure to fail.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Protocol error reject
MP

Boolean
TRUE: a severe protocol error has occurred.
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.19	RB_TIMER_INDICATOR
This variable contains information to be sent to UTRAN if any of the timers T314 or T315 has expired when the UE sends a cell update with cause RL failure.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RB timer indicator
OP

RB timer indicator 10.3.3.28
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

13.4.20	RB_UPLINK_CIPHERING_ACTIVATION_TIME_INFO
This variable contains information to be sent to UTRAN about when a new ciphering configuration shall be activated in the uplink for radio bearers using RLC-AM or RLC-UM.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RB uplink ciphering activation time info
OP

RB activation time info 10.3.4.13
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

13.4.20o	RNC_CAPABILITY_CHANGE_SUPPORT
This variable indicates whether the serving RNC supports changes of UE capability in connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
RNC support for change of UE capability
MP

Boolean
Cleared when leaving UTRA RRC connected mode.

13.4.20oo	READY_FOR_COMMON_EDCH
In CELL_FACH state or Idle mode, this variable indicates whether E-DPDCH and E-DPCCH transmission procedures for FDD or E-RUCCH and E-PUCH transmission procedure for 1.28 Mcps can be immediately started by the UE. See subclause 8.5.47 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Ready for common EDCH 
MP

Boolean
See subclause 8.5.47
REL-8

13.4.20a	SECURITY_MODIFICATION
This variable contains information on which CN domain is affected by the ongoing security reconfiguration.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Status for each CN domain
MP
<1 to
maxCNDomains>


>CN domain identity
MP

CN domain identity 10.3.1.1

>Status
MP

Enumerated(Affected, Not Affected)


13.4.21	Void

13.4.22	START_THRESHOLD
This variable contains information about the maximum allowed value of the START for a CN domain.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
THRESHOLD
OP

Integer (0..1048576)
20 bits.
Cleared when entering UTRA RRC connected mode when not stated otherwise in the procedure.
Cleared when leaving UTRA RRC connected mode.

13.4.23	START_VALUE_TO_TRANSMIT
This variable contains the value of START for new radio bearer(s) to be transmitted in a response message.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
START
OP

START 10.3.3.38
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

13.4.23a	TARGET_CELL_PRECONFIGURATION 
This variable indicates whether HS-SCCH reception procedures are configured for a target cell for which HS-DSCH serving Cell Change may be initiated by HS-SCCH order sent from target cell. See subclause 8.3.4.3 and 8.5.52 for actions related to the setting of this variable.
NOTE:	FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Serving Cell Change MAC reset
OP

Boolean 

REL-8
Serving Cell Change Message Type
OP

Enumerated (RadioBearerSetup, RadioBearerReconfiguration, TransportChannelReconfiguration, PhysicalChannelReconfiguration)

REL-8
Serving Cell Change Transaction Id
OP

Integer (0..3)

REL-8
Target cell preconfigurations
OP
1 to <maxRL>


REL-8
>Primary scrambling code
MP

Integer(0..511)

REL-8
>Target cell preconfiguration information
MP

Target cell preconfiguration information 10.3.6.79a

REL-8
Enhanced Serving Cell Change for Event 1c Support Indicator
OP

Enumerated (TRUE)
TRUE means that Enhanced Serving Cell Change for Event 1c for CELL_DCH UE is enabled 
REL-12

13.4.24	TFC_SUBSET
This variable contains information about the TFC subset(s) applicable to the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode
MP




>FDD





>>Current TFC subset
MP

Transport Format Combination Subset
10.3.5.22
Set to "Full transport format set" when entering UTRA RRC connected mode when not stated otherwise in the procedure.

>>Duration
OP

TFC Control duration 10.3.6.80
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

>>Default TFC subset
OP

Transport Format Combination Subset
10.3.5.22
The TFC subset to go back to when any temporary limitation is released.
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

>>TFC subset list
MP
1 to <maxTFCsub>


REL-4
>>>TFC subset
MP

Transport Format Combination Subset
10.3.5.22

REL-4
>TDD





>>TFCS list
MP
1 to < maxCCTrCH >

One TFCS is created when entering UTRA RRC connected mode when not stated otherwise in the procedure.

>>>TFCS identity
MP

Transport Format Combination Set Identity 10.3.5.21
"TFCS ID" is set to 1 when entering UTRA RRC connected mode when not stated otherwise in the procedure.
"Shared channel indicator" is set to FALSE when entering UTRA RRC connected mode when not stated otherwise in the procedure.

>>>Current TFC subset
MP

Transport Format Combination Subset
10.3.5.22
Set to "Full transport format set" when entering UTRA RRC connected mode when not stated otherwise in the procedure.

>>>>Duration
OP

TFC Control duration 10.3.6.80
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

>>>>Default TFC subset
OP

Transport Format Combination Subset
10.3.5.22
The TFC subset to go back to when any temporary limitation is released.
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

>>TFC subset list
MP
1 to <maxTFCsub2>


REL-4
>>>TFCS identity
MP

Transport Format Combination Set Identity 10.3.5.21

REL-4
>>>TFC subset
MP

Transport Format Combination Subset
10.3.5.22

REL-4

13.4.25	TGPS_IDENTITY
This variable contains the configuration parameters of all the configured compressed mode transmission gap pattern sequences.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Transmission gap pattern sequence
OP
1 to <maxTGPS>

Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.
>TGPSI
MP

TGPSI 10.3.6.82

>TGPS Status Flag
MP






Enumerated(activate, deactivate)
This flag indicates whether the Transmission Gap Pattern Sequence shall be activated or deactivated.
> Current TGPS Status Flag
MP

Enumerated(active, inactive)
This flag indicates the current status of the Transmission Gap Pattern Sequence, whether it is active or inactive
>TGCFN
CV-Active

Integer (0..255)
Connection Frame Number of the first frame of the first pattern within the Transmission Gap Pattern Sequence.
>Transmission gap pattern sequence configuration parameters
MP


Information as contained in the IE group "Transmission gap pattern sequence configuration parameters" in IE "DPCH compressed mode info"
10.3.6.33.


Condition
Explanation
Active
This IE is mandatory present when the value of the IE "TGPS Status Flag" is "Activate" and not needed otherwise.

13.4.26	TGSN_REPORTED
This variable specifies whether an IE "Proposed TGSN" was reported to the UTRAN
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Proposed TGSN reported
MP

Boolean
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.26a	TIMERS_AND_CONSTANTS
This variable contains the values for all timers and constants used in connected mode.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UE Timers and constants in connected mode
MD

UE Timers and constants in connected mode 10.3.3.43
Default value means that for all timers and constants
-	for parameters with need MD, the defaults specified in 10.3.3.43 apply and
-	for parameters with need OP, the parameters are absent.
All parameters are set to the default value when leaving UTRA RRC connected mode to another RAT.

13.4.27	TRANSACTIONS
This variable stores the identifications of the ongoing RRC procedure transactions.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Accepted transactions
OP
1 to <maxtransactions>

Cleared when leaving UTRA RRC connected mode.
>Message type
MP

Message Type

>RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

>Measurement identity 
CV-MeasCtrl

Measurement identity 10.3.7.48

Rejected transactions
OP
1 to <maxtransactions>

Cleared when leaving UTRA RRC connected mode.
>Message type
MP

Message Type

>RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36

>Measurement identity 
CV-MeasCtrl

Measurement identity 10.3.7.48

Processed transactions
OP
1 to <maxtransactions>

Cleared when leaving UTRA RRC connected.
>Message type
MP

Message Type

>RRC transaction identifier
MP

RRC transaction identifier 10.3.3.36


Condition
Explanation
MeasCtrl
The IE is mandatory if IE "Message type" is set to MEASUREMENT CONTROL, otherwise it is not needed.

13.4.27o	Void

13.4.27a	TRIGGERED_1A_EVENT
This variable contains information about a 1a event that has been triggered in the UE. There is one such variable per 1a event per active set configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cells triggered
OP
1 to < maxCellMeas>

Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.
>primary CPICH
MP

Primary CPICH info 10.3.6.60

>sent reports
MP

Integer(1..Infinity)
Number of reports sent to UTRAN in case of event triggered periodical reporting
Cells recently triggered
OP
1 to < maxCellMeas>


>primary CPICH
MP

Primary CPICH info 10.3.6.60

>sent reports
MP

Integer(1..Infinity)
Number of reports sent to UTRAN in case of event triggered periodical reporting
Periodical reporting running
MP

Boolean


13.4.27b	TRIGGERED_1B_EVENT
This variable contains information about a 1b event that has been triggered in the UE. There is one such variable per 1b event per active set configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Cells triggered
OP
1 to < maxCellMeas>

Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

>primary CPICH
MP

Primary CPICH info 10.3.6.60


>sent reports
MP

Integer(1..Infinity)
Number of reports sent to UTRAN in case of event triggered periodical reporting
REL-5
Cells recently triggered
OP
1 to < maxCellMeas>


REL-5
>primary CPICH
MP

Primary CPICH info 10.3.6.60

REL-5
>sent reports
MP

Integer(1..Infinity)
Number of reports sent to UTRAN in case of event triggered periodical reporting.
REL-5
Periodical reporting running
MP

 Boolean

REL-5

13.4.27c	TRIGGERED_1C_EVENT
This variable contains information about a 1c event that has been triggered in the UE. There is one such variable per 1c event per active set configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cells triggered
OP
1 to < maxCellMeas>

Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.
>primary CPICH
MP

Primary CPICH info 10.3.6.60

>sent reports
MP

Integer(1..Infinity)
Number of reports sent to UTRAN in case of event triggered periodical reporting
Cells recently triggered
OP
1 to < maxCellMeas>


>primary CPICH
MP

Primary CPICH info 10.3.6.60

>sent reports
MP

Integer(1..Infinity)
Number of reports sent to UTRAN in case of event triggered periodical reporting
Periodical reporting running
MP

Boolean


13.4.27d	BEST_CELL_1D_EVENT
This variable contains information about a 1d event that has been triggered in the UE. There is one such variable per 1d event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Best cell
OP

Primary CPICH info 10.3.6.60
Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.

13.4.27e	TRIGGERED_1E_EVENT
This variable contains information about a 1e event that has been triggered in the UE. There is one such variable per 1e event per active set configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cells triggered
OP
1 to < maxCellMeas>

Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.
>primary CPICH
MP

Primary CPICH info 10.3.6.60

Cells recently triggered
OP
1 to < maxCellMeas>


>primary CPICH
MP

Primary CPICH info 10.3.6.60


13.4.27f	TRIGGERED_1F_EVENT
This variable contains information about a 1f event that has been triggered in the UE. There is one such variable per 1f event per active set configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cells triggered
OP
1 to < maxCellMeas>

Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.
>primary CPICH
MP

Primary CPICH info 10.3.6.60

Cells recently triggered
OP
1 to < maxCellMeas>


>primary CPICH
MP

Primary CPICH info 10.3.6.60


13.4.27f1	TRIGGERED_1G_EVENT
This variable contains information about a 1g event that has been triggered in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cells triggered
OP
1 to < maxCellMeas>


>Primary CCPCH info
MP

Primary CCPCH info 10.3.6.57


13.4.27f2	TRIGGERED_1H_EVENT
This variable contains information about a 1h event that has been triggered in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cells triggered
OP
1 to < maxCellMeas>


>Primary CCPCH info
MP

Primary CCPCH info 10.3.6.57


13.4.27f3	TRIGGERED_1I_EVENT
This variable contains information about a 1i event that has been triggered in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cells triggered
OP
1 to < maxCellMeas>


>Primary CCPCH info
MP

Primary CCPCH info 10.3.6.57


13.4.27f4	BEST_FREQUENCY_2A_EVENT
This variable contains information about a 2a event that has been configured in the UE.  For FDD, there is one such variable per virtual active set used per 2a event configured in the UE. For TDD, there is one such variable per 2a event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Best frequency
MP

Frequency info 10.3.6.36


13.4.27f5	TRIGGERED_2B_EVENT
This variable contains information about a 2b event that has been configured in the UE. For FDD, there is one such variable per virtual active set used per 2b event configured in the UE. For TDD, there is one such variable per 2b event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Frequency triggered
OP
1 to < maxCellMeas>


>Frequency
MP
Frequency info 10.3.6.36



13.4.27f6	TRIGGERED_2C_EVENT
This variable contains information about a 2c event that has been configured in the UE. For FDD, there is one such variable per virtual active set used per 2c event configured in the UE. For TDD, there is one such variable per 2c event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Frequency triggered
OP
1 to < maxCellMeas>


>Frequency
MP
Frequency info 10.3.6.36



13.4.27f7	TRIGGERED_2D_EVENT
This variable contains information about a 2d event that has been configured in the UE. There is one such variable per 2d event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Event triggered
OP

Boolean


13.4.27f8	TRIGGERED_2E_EVENT
This variable contains information about a 2e event that has been configured in the UE. For FDD, there is one such variable per virtual active set used per 2e event configured in the UE. For TDD, there is one such variable per 2e event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Frequency triggered
OP
1 to < maxCellMeas>


>Frequency
MP
Frequency info 10.3.6.36



13.4.27f9	TRIGGERED_2F_EVENT
This variable contains information about a 2f event that have been configured in the UE. There is one such variable per 2f event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Event triggered
OP

Boolean


13.4.27f10	TRIGGERED_3A_EVENT
This variable contains information about a 3a event that has been configured in the UE. There is one such variable per event 3a configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE system
OP




>GSM





>>CHOICE BSIC
MP




>>>Verified BSIC

0 to <maxCellMeas>



>>>>Inter-RAT cell id
MP

Integer (0..<maxCellMeas>-1)


>>>Non verified BSIC

0 to <maxCellMeas>



>>>>BCCH ARFCN
MP

Integer (0..1023)


>E-UTRA




REL-8
>>E-UTRA Carrier Frequency list
MP
1 to <maxReportedEUTRAFreqs>


REL-8


1 to <maxReportedEUTRAFreqs-ext>


REL-12
>>>E-UTRA Carrier Frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64].
REL-8



Integer (0..262143)

REL-11
>>>Cell list
MP
1 to <maxReportedEUTRACellsPerFreq>


REL-8
>>>>Physical Cell Identity
MP

Integer (0..503)

REL-8

13.4.27f11	TRIGGERED_3B_EVENT
This variable contains information about a 3b event that has been configured in the UE. There is one such variable per event 3b configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE system
OP




>GSM





>>CHOICE BSIC
MP




>>>Verified BSIC

0 to <maxCellMeas>



>>>>Inter-RAT cell id
MP

Integer (0..<maxCellMeas>-1)


>>>Non verified BSIC

0 to <maxCellMeas>



>>>>BCCH ARFCN
MP

Integer (0..1023)


>E-UTRA




REL-8
>>E-UTRA Carrier Frequency list
MP
1 to <maxReportedEUTRAFreqs>


REL-8


1 to <maxReportedEUTRAFreqs-ext>


REL-12
>>>E-UTRA Carrier Frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64].
REL-8



Integer (0..262143)

REL-11
>>>Cell list
MP
1 to <maxReportedEUTRACellsPerFreq>


REL-8
>>>>Physical Cell Identity
MP

Integer (0..503)

REL-8

13.4.27f12	TRIGGERED_3C_EVENT
This variable contains information about a 3c event that has been configured in the UE. There is one such variable per event 3c configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE system
OP




>GSM





>>CHOICE BSIC
MP




>>>Verified BSIC

0 to <maxCellMeas>



>>>>Inter-RAT cell id
MP

Integer (0..<maxCellMeas>-1)


>>>Non verified BSIC

0 to <maxCellMeas>



>>>>BCCH ARFCN
MP

Integer (0..1023)


>E-UTRA




REL-8
>>E-UTRA Carrier Frequency list
MP
1 to <maxReportedEUTRAFreqs>


REL-8


1 to <maxReportedEUTRAFreqs-ext>


REL-12
>>>E-UTRA Carrier Frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64].
REL-8



Integer (0..262143)

REL-11
>>>Cell list
MP
1 to <maxReportedEUTRACellsPerFreq>


REL-8
>>>>Physical Cell Identity
MP

Integer (0..503)

REL-8

13.4.27f13	BEST_CELL_3D_EVENT
This variable contains information about a 3d event that has been configured in the UE. There is one such variable per event 3d configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE system





>GSM





>>CHOICE BSIC
MP




>>>Verified BSIC





>>>>Inter-RAT cell id
MP

Integer (0..<maxCellMeas>-1)


>>>Non verified BSIC





>>>>BCCH ARFCN
MP

Integer (0..1023)


>E-UTRA




REL-8
>>E-UTRA Carrier Frequency
MP

Integer (0..65535)
EARFCN of the downlink carrier frequency [64].
REL-8



Integer (0..262143)

REL-11
>>Physical Cell Identity
MP

Integer (0..503)

REL-8

13.4.27f14	TRIGGERED_6A_EVENT
This variable contains information about a 6a event that has been configured in the UE. There is one such variable per 6a event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Event triggered
OP

Boolean


13.4.27f15	TRIGGERED_6B_EVENT
This variable contains information about a 6b event that has been configured in the UE. There is one such variable per 6b event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Event triggered
OP

Boolean


13.4.27f16	TRIGGERED_6C_EVENT
This variable contains information about a 6c event that has been configured in the UE. There is one such variable per 6c event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Event triggered
OP

Boolean


13.4.27f17	TRIGGERED_6D_EVENT
This variable contains information about a 6d event that has been configured in the UE. There is one such variable per 6d event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Event triggered
OP

Boolean


13.4.27f18	TRIGGERED_6E_EVENT
This variable contains information about a 6e event that has been configured in the UE. There is one such variable per 6e event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Event triggered
OP

Boolean


13.4.27f19	TRIGGERED_6F_EVENT
This variable contains information about a 6f event that has been configured in the UE. There is one such variable per 6f event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CHOICE mode





>FDD





Event triggered_RL
OP
<maxRL>
Boolean


>1.28 Mcps TDD




REL-4
>>TADV
MP

TADV info 10.3.7.112

REL-4

13.4.27f20	TRIGGERED_6G_EVENT
This variable contains information about a 6g event that has been configured in the UE. There is one such variable per 6g event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Event triggered_RL
OP
<maxRL>
Boolean


13.4.27f21	TRIGGERED_1J_EVENT
This variable contains information about a 1j event that has been triggered in the UE. There is one such variable per 1j event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Cells triggered
OP
1 to < maxCellMeas>

Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.
REL-6
>primary CPICH
MP

Primary CPICH info 10.3.6.60

REL-6
>sent reports
MP

Integer(1..Infinity)
Number of reports sent to UTRAN in case of event triggered periodical reporting
REL-6
Cells recently triggered
OP
1 to < maxCellMeas>


REL-6
>primary CPICH
MP

Primary CPICH info 10.3.6.60

REL-6
>sent reports
MP

Integer(1..Infinity)
Number of reports sent to UTRAN in case of event triggered periodical reporting
REL-6
Periodical reporting running
MP

Boolean

REL-6

13.4.27f22	BEST_CELL_2G_EVENT
This variable contains information about a 2g event that has been triggered in the UE. There is one such variable per 2g event configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Frequency triggered
OP
1 to < maxCellMeas>

Cleared when entering UTRA RRC connected mode. Cleared when leaving UTRA RRC connected mode.
>Frequency
MP

Frequency info 10.3.6.36

>Best cell
MP

Primary CPICH info 10.3.6.60


13.4.27g	UE_CAPABILITY_REQUESTED
This variable stores information about the UE capabilities that have been requested by UTRAN but that have not yet been transferred to UTRAN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UE radio access capability
OP

UE radio access capability 10.3.3.42
Cleared when entering UTRA RRC connected mode.
Cleared when leaving UTRA RRC connected mode.
UE radio access capability extension
OP

UE radio access capability extension 10.3.3.42a
Cleared when entering UTRA RRC connected mode.
Cleared when leaving UTRA RRC connected mode.
UE system specific capability
OP
1 to < maxInterSysMessages>


>Inter-RAT UE radio access capability 
MP

Inter-RAT UE radio access capability 10.3.8.7
Includes inter-RAT classmark.
Cleared when entering UTRA RRC connected mode.
Cleared when leaving UTRA RRC connected mode.

13.4.28	UE_CAPABILITY_TRANSFERRED
This variable stores information about which UE capabilities that have been transferred to UTRAN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE radio access capability
OP

UE radio access capability 10.3.3.42
Cleared when entering UTRA RRC connected mode when not stated otherwise in the procedure.
Cleared when leaving UTRA RRC connected mode.

UE radio access capability extension
OP

UE radio access capability extension 10.3.3.42a
Cleared when entering UTRA RRC connected mode when not stated otherwise in the procedure.
Cleared when leaving UTRA RRC connected mode.

UE system specific capability
OP
1 to <maxSystemCapability>



>Inter-RAT UE radio access capability 
MP

Inter-RAT UE radio access capability 10.3.8.7
Includes inter-RAT classmark.
Cleared when entering UTRA RRC connected mode when not stated otherwise in the procedure.
Cleared when leaving UTRA RRC connected mode.

UE radio access capability compressed
OP

UE radio access capability compressed
10.3.3.42o

REL-5
Security capability
OP

Security capability 10.3.3.37

REL-5

13.4.28a	UE_POSITIONING_GPS_DATA
Information Element/Group name
Need
Multi
Type and reference
Semantics description
GPS Data ciphering info
OP

UE positioning Ciphering info 10.3.7.86

GPS Deciphering Keys
OP



>Current deciphering key
MP

Bit string(56)

>Next deciphering key
MP

Bit string(56)

UE positioning GPS reference time
OP

UE positioning GPS reference time
10.3.7.96

UE positioning GPS reference UE position
OP

Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c
A priori knowledge of UE 3-D position.
UE positioning GPS DGPS corrections
OP

UE positioning GPS DGPS corrections 10.3.7.91

UE positioning GPS navigation model
OP
1 to <maxSat>


>SatID
MP

Enumerated(0..63)
Satellite ID
>GPS Ephemeris and Clock Correction parameters
MP

UE positioning GPS Ephemeris and Clock Correction parameters 10.3.7.91a

UE positioning GPS ionospheric model
OP

UE positioning GPS ionospheric model 10.3.7.92

UE positioning GPS UTC model
OP

UE positioning GPS UTC model
10.3.7.97

UE positioning GPS almanac
OP



>SatID 
MP
1 to <maxSatAlmanacStorage>


>>WNa
MP


Same as IE in 10.3.7.89
>>DataID
MP


Same as IE in 10.3.7.89
>>e
MP


Same as IE in 10.3.7.89
>>toa
MP


Same as IE in 10.3.7.89
>>I
MP


Same as IE in 10.3.7.89
>>OMEGADOT
MP


Same as IE in 10.3.7.89
>>SV Health
MP


Same as IE in 10.3.7.89
>>A1/2
MP


Same as IE in 10.3.7.89
>>OMEGA0
MP


Same as IE in 10.3.7.89
>>M0
MP


Same as IE in 10.3.7.89
>>
MP


Same as IE in 10.3.7.89
>>af0
MP


Same as IE in 10.3.7.89
>>af1
MP


Same as IE in 10.3.7.89
>SV Global Health
OP


Same as IE in 10.3.7.89
UE positioning GPS acquisition assistance
OP

UE positioning GPS acquisition assistance 10.3.7.88

UE positioning GPS real-time integrity
OP

UE positioning GPS real-time integrity 10.3.7.95


13.4.28b	UE_POSITIONING_OTDOA_DATA_UE_ASSISTED
Information Element/Group name
Need
Multi
Type and reference
Semantics description
UE positioning OTDOA reference cell info for UE-assisted
OP

UE positioning OTDOA reference cell info
10.3.7.108

UE positioning OTDOA neighbour cell list for UE-assisted
OP
1 to <maxCellMeas>


>UE positioning OTDOA neighbour cell info for UE-assisted
MP

UE positioning OTDOA neighbour cell info
10.3.7.106


13.4.28c	UE_POSITIONING_OTDOA_DATA_UE_BASED
Information Element/Group name
Need
Multi
Type and reference
Semantics description
OTDOA Deciphering Keys
OP



>Current deciphering key
MP

Bit string(56)

>Next deciphering key
MP

Bit string(56)

OTDOA Data ciphering info
OP

UE positioning Ciphering info 10.3.7.86

UE positioning OTDOA reference cell info for UE-based
OP

UE positioning OTDOA reference cell info for UE-based
10.3.7.108a

UE positioning OTDOA neighbour cell list for UE-based
OP
1 to <maxCellMeas>


>UE positioning OTDOA neighbour cell info for UE-based
MP

UE positioning OTDOA neighbour cell info for UE-based
10.3.7.106


13.4.28d	UE_POSITIONING_GANSS_DATA
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
GANSS Data ciphering info
OP

UE positioning Ciphering info 10.3.7.86

REL-7
GANSS Deciphering Keys
OP



REL-7
>Current deciphering key
MP

Bit string(56)

REL-7
>Next deciphering key
MP

Bit string(56)

REL-7
UE positioning GANSS reference time
OP

UE positioning GANSS reference time 10.3.7.96o

REL-7
UE positioning GANSS reference UE position
OP

Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c
A priori knowledge of UE 3-D position.
REL-7
UE positioning GANSS additional ionospheric model
OP

UE positioning GANSS ionospheric model 10.3.7.92b

REL-8
UE positioning GANSS Earth orientation parameters
OP

UE positioning GANSS Earth orientation parameters 10.3.7.92c

REL-8
UE positioning GANSS ionospheric model
OP

UE positioning GANSS ionospheric model 10.3.7.92a

REL-7
GANSS Generic DataList
OP
1 to <maxGANSS>


REL-7
>GANSS ID
OP

Integer (0..7)
Same as IE in 10.3.7.90b
REL-7
>SBAS ID
CV-GANSS‑ID‑SBAS

UE positioning GANSS SBAS ID 10.3.7.97e

REL-8
>GANSS Time Models List

1 to <maxGANSS-1>


REL-7
>>Positioning GANSS Time Model
OP

UE positioning GANSS time model 10.3.7.97a 


>UE positioning DGANSS corrections
OP

UE positioning DGANSS corrections 10.3.7.91b

REL-7
>UE positioning DBDS corrections
CV-GANSS‑ID‑BDS

UE positioning DBDS corrections 10.3.7.92e

REL-12
>UE positioning BDS Ionospheric Grid Model
CV-GANSS‑ID‑BDS

UE positioning BDS Ionospheric Grid Model 
10.3.7.92d

REL-12
>UE positioning GANSS navigation model
OP

UE positioning GANSS navigation model 10.3.7.94a

REL-7
>UE positioning GANSS  additional navigation models
OP

UE positioning GANSS additional navigation models 10.3.7.94b

REL-8
>UE positioning GANSS real-time integrity
OP

UE positioning GANSS real-time integrity 10.3.7.95a

REL-7
>UE positioning GANSS data bit assistance
OP

UE positioning GANSS data bit assistance 10.3.7.97b

REL-7
>UE positioning GANSS reference measurement information
OP

UE positioning GANSS reference measurement information 10.3.7.88b

REL-7
>UE positioning GANSS almanac
OP

UE positioning GANSS almanac 10.3.7.89a

REL-7
>UE positioning GANSS UTC model
OP

UE positioning GANSS UTC model
10.3.7.97c

REL-7
>UE positioning GANSS additional UTC models
OP

UE positioning GANSS additional UTC models 10.3.7.97d

REL-8
>UE positioning GANSS auxiliary information
OP

UE positioning GANSS auxiliary information 10.3.7.97f

REL-8

Condition
Explanation
GANSS-ID-SBAS
The IE is mandatory present if the IE "GANSS ID" is "SBAS" and never stored otherwise.
GANSS-ID-BDS
The IE is optionally present if the IE "GANSS ID" is "BDS" and never stored otherwise.

13.4.29	UNSUPPORTED_CONFIGURATION
This variable indicates whether a received message contained a configuration that is not supported by the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Unsupported configuration
MP

Boolean
TRUE: An unsupported configuration has been detected.
Set to FALSE when entering UTRA RRC connected mode.
Set to FALSE when leaving UTRA RRC connected mode.

13.4.30	URA_IDENTITY
This variable stores the assigned URA identity for this UE when in URA_PCH state.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
URA identity
OP

URA identity 10.3.2.6
Cleared when entering UTRA RRC connected mode.
Cleared when leaving UTRA RRC connected mode.

13.4.31	U_RNTI
This variable stores the assigned U-RNTI for this UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
U-RNTI
OP

U-RNTI 10.3.3.47
Cleared when leaving UTRA RRC connected mode.

13.4.32	VALUE_TAG
This variable contains information about the value tag for the last received system information block of a given type, for all system information blocks using value tags. The UE shall maintain one instance of this variable for the current selected cell. The UE may store several instances of this variable, one for each cell, to be used if the UE returns to these cells.
All IEs in this variable shall be cleared when switched off. All IEs in this variable except for the IE "SIB 16 value tag list" shall be cleared at selection of a new cell and this cell broadcasts an IE "PLMN Identity" in the MIB which is different from the IE "PLMN Identity" broadcast in the MIB in the previously selected cell. The IE "SIB 16 value tag list" is cleared when NAS informs AS about a new selected PLMN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIB value tag
OP

MIB value tag 10.3.8.9
Value tag for the master information block

SB 1 value tag
OP

Cell value tag 10.3.8.4
Value tag for the scheduling block type 1

SB 2 value tag
OP

Cell value tag 10.3.8.4
Value tag for the scheduling block type 2

SB 3 value tag
OP

Cell Value tag 2 10.3.8.4o
Value tag for the scheduling block type 3

SIB 1 value tag
CV-GSM

PLMN value tag 10.3.8.10
Value tag for the system information block type 1
Note: IE ‘PLMN value tag’ is used for SIB1 but the area scope for SIB 1 is Cell.

SIB 2 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 2

SIB 3 value tag
OP

Cell value tag 10.3.8.4 or Cell Value tag 2 10.3.8.4o
Value tag for the system information block type 3

SIB 4 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 4

SIB 5 value tag
OP

Cell value tag 10.3.8.4 or Cell Value tag 2 10.3.8.4o
Value tag for the system information block type 5 or 5bis

SIB 6 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 6

CHOICE mode
MP




>FDD





>TDD



(no data)

SIB 11 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 11

SIB 11bis value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 11bis
REL-6
SIB 11ter value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 11ter
REL-12
SIB 12 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 12

SIB 13 value tag
CV-ANSI

Cell value tag 10.3.8.4
Value tag for the system information block type 13

SIB 13.1 value tag
CV-ANSI

Cell value tag 10.3.8.4
Value tag for the system information block type 13.1

SIB 13.2 value tag
CV-ANSI

Cell value tag 10.3.8.4
Value tag for the system information block type 13.2

SIB 13.3 value tag
CV-ANSI

Cell value tag 10.3.8.4
Value tag for the system information block type 13.3

SIB 13.4 value tag
CV-ANSI

Cell value tag 10.3.8.4
Value tag for the system information block type 13.4

SIB 15 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 15

SIB 15bis value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 15bis
REL-7
SIB 15.1 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 15.1

SIB 15.1ter value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 15.1ter
REL-12
SIB 15.2 value tag list
OP
1 to <maxSat>

List of value tags for all stored occurrences of system information block type 15.2

>SIB 15.2 value tag
MP

Cell value tag 10.3.8.4


>SIB occurrence identity and value tag
MP

SIB occurrence identity and value tag 10.3.8.20b


SIB 15.3 value tag list
OP
1 to <maxSat>

List of value tags for all stored occurrences of system information block type 15.3

>SIB 15.3 value tag
MP

PLMN value tag 10.3.8.10
Value tag for the system information block type 15.3

>SIB occurrence identity and value tag
MP

SIB occurrence identity and value tag 10.3.8.20b


SIB 15.4 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 15.4

SIB 15.5 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 15.5

GANSS specific SIBs
OP
1 to <maxGANSS>


REL-7
>GANSS ID
MD

Integer(0..7)
Identifier for GANSS, absence of this IE means Galileo.
For coding description see NOTE 1 in 10.3.7.90b.
REL-7
>SBAS ID
CV-GANSS‑ID‑SBAS

UE positioning GANSS SBAS ID 10.3.7.97e

REL-8
>SIB 15.1bis value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 15.1bis
REL-7
>SIB 15.2bis value tag list
OP
1 to <maxSat>

List of value tags for all stored occurrences of system information block type 15.2bis
REL-7
>>SIB 15.2bis value tag
MP

Cell value tag 10.3.8.4

REL-7
>>SIB occurrence identity and value tag
MP

SIB occurrence identity and value tag 10.3.8.20b

REL-7
>SIB 15.2ter value tag list
OP
1 to <maxSat>

List of value tags for all stored occurrences of system information block type 15.2ter
REL-8
>>SIB 15.2ter value tag
MP

Cell value tag 10.3.8.4

REL-8
>>SIB occurrence identity and value tag
MP

SIB occurrence identity and value tag 10.3.8.20b

REL-8
>SIB 15.3bis value tag list
OP
1 to <maxSat>

List of value tags for all stored occurrences of system information block type 15.3bis
REL-7
>>SIB 15.3bis value tag
MP

PLMN value tag 10.3.8.10
Value tag for the system information block type 15.3bis
REL-7
>>SIB occurrence identity and value tag
MP

SIB occurrence identity and value tag 10.3.8.20b

REL-7
>SIB 15.6 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 15.6
REL-7
>SIB 15.7 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 15.7
REL-7
>SIB 15.8 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 15.8
REL-7
SIB 16 value tag list
OP
1 to <maxPredefConfig>

List of value tags for all stored occurrences of the system information block type 16

>Predefined configuration identity and value tag
MP

Predefined configuration identity and value tag 10.3.8.11


SIB 18 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 18

SIB 19 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 19
REL-8
SIB 20 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 20
REL-8
SIB 21 value tag
OP

Cell value tag 10.3.8.4 or Cell Value tag 2 10.3.8.4o
Value tag for the system information block type 21
REL-11
SIB 22 value tag
OP

Cell value tag 10.3.8.4 or Cell Value tag 2 10.3.8.4o
Value tag for the system information block type 22
REL-11
SIB 23 value tag
OP

Cell value tag 10.3.8.4
Value tag for the system information block type 23
REL-12

Condition
Explanation
GSM
This information is optional when the UE is operating in "GSM-MAP mode" and never stored otherwise.
ANSI
This information is optional when the UE is operating in "ANSI-41 mode" and never stored otherwise.
GANSS‑ID‑SBAS
The IE is mandatory present if the IE "GANSS ID" is "SBAS" and never stored otherwise.

13.4.33	CONTROL_CHANNEL_DRX_PARAMS
NOTE:	For 1.28 Mcps TDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE parameters for Control Channel DRX
MP

Control Channel DRX Information 1.28Mcps TDD in 10.3.6.107

REL-8

13.4.34	CONTROL_CHANNEL_DRX_STATUS
NOTE:	For 1.28 Mcps TDD only.
This variable indicates whether discontinuous reception of Control Channel procedures is enable. See subclause 8.5.53 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CONTROL_CHANNEL_DRX_STATUS
MP

Boolean
TRUE: 
control channel discontinuous reception is enable.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-8

13.4.35	E_DCH_SPS_PARAMS
NOTE:	For 1.28 Mcps TDD only.
This variable contains the parameters for E-DCH Semi-persistent Scheduling. The parameters are listed in subclause 10.3.6.111.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE parameters for E-DCH SPS
MP

E-DCH SPS Information 1.28Mcps TDD in 10.3.6.111

REL-8

13.4.36	E_DCH_SPS_STATUS
NOTE:	For 1.28 Mcps TDD only.
This variable indicates whether E-DCH Semi-persistent Scheduling procedures are ongoing. See subclause 8.5.54 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E_DCH_SPS_STATUS
MP

Boolean
TRUE: E-DCH SPS operation is ongoing.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-8

13.4.37	HS_DSCH_SPS_PARAMS
NOTE:	For 1.28 Mcps only.
This variable contains the parameters for HS-DSCH Semi-persistent Scheduling. The parameters are listed in subclause 10.3.6.112.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
UE parameters for HS-DSCH SPS
MP

HS-DSCH SPS Information 1.28Mcps TDD in 10.3.6.112

REL-8

13.4.38	HS_DSCH_SPS_STATUS
NOTE:	For 1.28 Mcps only.
This variable indicates whether HS-DSCH Semi-persistent Scheduling procedures are ongoing. See subclause 8.5.55 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS_DSCH_SPS_STATUS
MP

Boolean
TRUE: HS-DSCH SPS is ongoing.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-8

13.4.39	SECONDARY_CELL_MIMO_PARAMS
This variable indicates the values of the parameters for operation in MIMO mode in the secondary serving HS-DSCH cell. See subclause 8.5.57 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIMO N_cqi_typeA/M_cqi ratio
OP
1 to 7
Enumerated(1/2, 2/3, 3/4, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10, 1/1)

REL-11
MIMO pilot configuration
OP
1 to 7
MIMO pilot configuration 10.3.6.41b

REL-11
Precoding weight set  restriction
OP
1 to 7
Enumerated (TRUE)

REL-11

13.4.40	SECONDARY_CELL_MIMO_STATUS
This variable indicates whether the secondary serving HS-DSCH cells are operating in MIMO mode. See subclause 8.5.57 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIMO status
MP
1 to 7
Boolean
TRUE means the secondary cell of the UE is operating in MIMO mode.

Cleared when leaving CELL_DCH state or leaving multi-cell operation.
REL-11

13.4.41	SECONDARY_CELL_E_DCH_TRANSMISSION
This variable indicates whether E-DPCCH and E-DPDCH transmission procedures are configured on the secondary UL frequency. See subclause 8.5.58 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Secondary cell E-DCH transmission
MP

Boolean
TRUE: E-DCH transmission is configured on the secondary uplink frequency.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-9

13.4.42	CELL_INFO_CSG_LIST
This variable contains CSG/Hybrid cell information on intra-frequency and inter-frequency cells as received in MEASUREMENT CONTROL message.
This variable shall be cleared at cell re-selection, when leaving UTRA RRC connected mode, when switched off as well as at selection of a new PLMN.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
CSG Intra-frequency cell info
OP

10.3.7.121

REL-9
CSG Inter-frequency cell info
OP

10.3.7.120

REL-9

13.4.43	DCH_MOPS_IDENTITY
This variable is use to store the CELL_DCH measurement occasion pattern sequences configured to the UE for 1.28Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CELL_DCH measurement occasion pattern sequence
OP

CELL_DCH measurement occasion info LCR
10.3.7.126
Information as contained in these messages.
Cleared when leaving CELL_DCH state.

13.4.44	SYSTEM_INFORMATION_CONTAINER
This variable contains the system information for the current serving cell.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
System Information Container
OP

System Information Container 10.2.48a
Cleared when entering UTRA RRC connected mode, when leaving UTRA RRC connected mode and when UE changes a serving cell to the other cell than the cell associated with this variable.
REL-9

13.4.45	MU_MIMO_INFO
This variable contains MU-MIMO parameters for 1.28 Mcps TDD.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
MU-MIMO info
MP

MU-MIMO info 1.28 Mcps TDD 10.3.6.122


13.4.46	MU_MIMO_STATUS
This variable indicates whether the UE is operating in MU-MIMO mode. See subclause 8.5.61 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MU_MIMO status
MP

Boolean
TRUE means the UE is operating in MU-MIMO mode.

Cleared when leaving CELL_DCH and CELL_FACH state.
REL-10

13.4.47	MULTI_CARRIER_ E_DCH_TRANSMISSION
NOTE:	For 1.28 Mcps TDD only.
This variable indicates whether multi-carrier E-PUCH transmission procedures are configured on the additional E-DCH carrier. See subclause 8.5.62 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Multi carrier E-DCH transmission
MP

Boolean
TRUE: E-DCH transmission is configured on the additional E-DCH carrier.
Set to FALSE when entering UTRA RRC connected mode when not otherwise stated in the procedure.
Set to FALSE when leaving UTRA RRC connected mode.
REL-10

13.4.48	LOGGED_MEAS_CONFIG
This variable contains parameters related to Logged Measurements. This variable should not be deleted upon transition to Idle mode and when the UE move to another RAT.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Logged Measurements Configuration Info
MP

Logged Measurements Configuration Info
10.3.7.132

REL-10

13.4.49	LOGGED_MEAS_REPORT_VARIABLE
This variable includes the logged measurements information.This variable should not be deleted upon transition to Idle mode and when the UE move to another RAT. The UE shall store the logged measurements during 48 hours after expiry of the timer T326.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Trace reference
MP

Trace Reference 10.3.7.133
Parameter trace reference: See TS 32.422 [81]
REL-10
Trace recording session
MP

Trace Recording Session 10.3.7.134
Parameter trace recording session reference: See TS 32.422 [81]
REL-10
TCE Id
MP

TCE Id 10.3.7.135
Parameter TCE Id: See TS 32.422 [81]
REL-10
Absolute Time Info
MP

Bit Sting (48)
Indicates the reference to network absolute time absoluteTimeInfo provided at the point of measurement logging configuration. Format is YY-MM-DD HH:MM:SS using BCD encoding
REL-10
CHOICE mode
MP



REL-10
>FDD




REL-10
>>List of measurements FDD

0..MaxLoggedMeas


REL-10
>>>Logged Measurement Info-FDD
MP

Logged Measurement Info-FDD 10.3.7.129

REL-10
>TDD




REL-10
>>List of measurements TDD

0..MaxLoggedMeas


REL-10
>>>Logged Measurement Info-TDD
MP

Logged Measurement Info-TDD 10.3.7.130

REL-10
PLMN Identity List
OP
1.. MaxnumMDTPLMN


REL-11
>PLMN identity
MP

PLMN identity 10.3.1.11

REL-11

13.4.50	LOG_ANR_CONFIG
This variable contains parameters related to logged ANR measurements. This variable should not be deleted upon transition to Idle mode and when the UE move to another RAT or a PLMN not included in the IE "PLMN Identity" or IE "Equivalent PLMN Identity List" stored in variable LOG_ANR_REPORT_VARIABLE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Logged ANR Configuration Info
MP

Logged ANR Configuration Info
10.3.7.42a

REL-10

13.4.51	LOG_ANR_REPORT_VARIABLE
This variable includes the logged ANR measurements information.This variable should not be deleted upon transition to Idle mode and when the UE move to another RAT or a PLMN not included in the IE "PLMN Identity" or IE "Equivalent PLMN Identity List" stored in variable LOG_ ANR_REPORT_VARIABLE. The UE shall store the logged measurements during 48 hours after start of the timer T327.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PLMN Identity
MP

PLMN identity 10.3.1.11
RPLMN when receiving the LOGGING MEASUREMENT CONFIGURATION message
REL-10
Equivalent PLMN Identity List
OP
1..15


REL-10
>Equivalent PLMN Identity


PLMN identity 10.3.1.11
Equivalent PLMN Identity of the RPLMN when receiving the LOGGING MEASUREMENT CONFIGURATION message 
REL-10
Logged ANR Report Info
MP

Logged ANR Report Info 10.3.7.42b

REL-10

13.4.52	UPLINK_CLTD_TRANSMISSION
This variable indicates whether the UE is operating in uplink CLTD transmission. See subclause 8.5.69 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Uplink CLTD transmission
MP

Boolean
TRUE means the UE is operating in uplink CLTD transmission.
Set to FALSE when leaving UTRA RRC connected mode.
REL-11

13.4.53	UPLINK_OLTD_TRANSMISSION
This variable indicates whether the UE is operating in uplink OLTD transmission. See subclause 8.5.70 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Uplink OLTD transmission
MP

Boolean
TRUE means the UE is operating in uplink OLTD transmission.
Set to FALSE when leaving UTRA RRC connected mode.
REL-11

13.4.54	LOGGED_CONNECTION_ESTABLISHMENT_FAILURE
This variable includes the logged information from the latest failed RRC connection establishment. This variable should not be deleted upon transition to Idle mode and when the UE move to another RAT. The UE shall store the logged information during 48 hours or until reported to the network and UE may keep the information beyond 48 hours. The UE may discard the variable upon switch off or detach.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
PLMN identity
MP

PLMN identity 10.3.1.11

REL-11
CHOICE mode
MP



REL-11
>FDD




REL-11
>> Logged Connection Establishment Failure Info-FDD
MP

Logged Connection Establishment Failure Info-FDD 10.3.7.129a

REL-11
>TDD




REL-11
>> Logged Connection Establishment Failure Info-TDD
MP

Logged Connection Establishment Failure Info-TDD 10.3.7.130a

REL-11

13.4.55	MULTIFLOW_STATUS
This variable indicates whether the UE is configured with Multiflow operation. See subclause 8.5.71 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Multiflow status
MP

Boolean
TRUE means that the Multiflow transmission is configured for the UE.

Set to FALSE when entering the RRC connected mode, or when leaving the CELL_DCH state, or when leaving the RRC connected mode.
REL-11

13.4.56	CELL_RESELECTION_INFO_LCRTDD
NOTE:	For 1.28 Mcps TDD only.
This variable contains the frequencies and PCCPCH RSCP threshold information used for cell reselection from GERAN to 1.28 Mcps TDD. The variable should not be cleared unless UE receives SIB3 without mapping info for 3.84 Mcps TDD.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Version
Mapping Info
OP

Mapping info 10.3.2.5
 
REL-11

13.4.57	EUTRA_FREQUENCY_INFO_LIST_FACH
NOTE:	For FDD only.
This variable contains E-UTRA frequency information to be measured under CELL_FACH state, as received in MEASUREMENT CONTROL, and the E-UTRA frequency RACH reporting information as received in System Information Block Type 19.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
E-UTRA Frequency Info List
MP
1 to <maxNumEUTRAFreqs_FACH>


REL-11


1 to <maxNumEUTRAFreqs_FACH-ext>


REL-12
>EARFCN
MP

Integer(0 .. 262143)
EARFCN of the downlink carrier frequency [64]. 
REL-11
E-UTRA frequency RACH reporting information
OP


E-UTRA frequency RACH reporting information 10.3.7.139
REL-11

13.4.58	FALLBACK_R99_PRACH_ENABLED
For FDD, in CELL_FACH state or Idle mode, this variable indicates whether R99 PRACH transmission procedure is ongoing to transmit CCCH or DCCH data even when/if READY_FOR_COMMON_EDCH is set to TRUE. See subclause 8.5.76 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Fallback R99 PRACH Enabled
MP

Boolean
See subclause 8.5.76
REL-11

13.4.59	HS_DSCH_DRX_CELL_FACH_2CYCLE_STATUS
This variable indicates whether HS-DSCH DRX operation with second DRX cycle is supported in CELL_FACH. See subclause 8.5.48 for actions related to the setting of this variable.
NOTE:	FDD only.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
HS-DSCH DRX in CELL_FACH with second DRX cycle status
MP

Boolean
TRUE: HS-DSCH DRX operation in CELL_FACH with second DRX cycle is supported.
Set to FALSE when leaving CELL_FACH or when dedicated H-RNTI is cleared.
REL-11

13.4.60	READY_FOR_COMMON_ERGCH
NOTE:	For FDD only.
In CELL_FACH or CELL_PCH state, this variable indicates whether the UE has been configured for E-RGCH reception on radio links other than the serving E-DCH radio link. See subclause 8.5.75 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Ready for common ERGCH 
MP

Boolean
See subclause 8.5.75
REL-11

13.4.61	READY_FOR_FALLBACK_R99_PRACH
For FDD, in CELL_FACH state or Idle mode, this variable indicates whether a NACK on the E-AI in AICH indicates to the UE that the UE should initiate the R99 PRACH procedure to transmit CCCH or DCCH data even when/if READY_FOR_COMMON_EDCH is set to TRUE. See subclause 8.5.77 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Ready for Fallback R99 PRACH
MP

Boolean
See subclause 8.5.77
REL-11

13.4.62	MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS
This variable indicates the values of the parameters for operation in MIMO mode with four transmit antennas. See subclause 8.5.78 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIMO N_cqi_typeA/M_cqi ratio
OP

Enumerated(1/2, 2/3, 3/4, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10, 1/1)

REL-11
MIMO mode with four transmit antennas pilot configuration
OP

MIMO mode with four transmit antennas pilot configuration 10.3.6.143

REL-11
Precoding weight set  restriction
OP

Bit string (64)

REL-11

13.4.63	MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS
This variable indicates whether the UE is operating in MIMO mode with four transmit antennas.  See subclause 8.5.79 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIMO mode with four transmit antennas status
MP

Boolean
TRUE means the UE is operating in MIMO mode with four transmit antennas.
Cleared when leaving CELL_DCH state.
REL-11

13.4.64		SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_PARAMS
This variable indicates the values of the parameters for operation in MIMO mode with four transmit antennas in the secondary serving HS-DSCH cell. See subclause 8.5.80 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
MIMO mode with four transmit antennas  N_cqi_typeA/M_cqi ratio
OP
1 to 3
Enumerated(1/2, 2/3, 3/4, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10, 1/1)

REL-11
MIMO mode with four transmit antennas pilot configuration
OP
1 to 3
MIMO mode with four transmit antennas pilot configuration 10.3.6.143

REL-11
Precoding weight set  restriction
OP
1 to 3
Bit string (64)

REL-11

13.4.65		SECONDARY_CELL_MIMO_MODE_WITH_FOUR_TRANSMIT_ANTENNAS_STATUS
This variable indicates whether the secondary serving HS-DSCH cells are operating in MIMO mode with four transmit antennas. See subclause 8.5.80 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Secondary cell MIMO mode with four transmit antennas status
MP
1 to 3
Boolean
TRUE means the secondary cell of the UE is operating in MIMO mode with four transmit antennas.
Cleared when leaving CELL_DCH state or leaving multi-cell operation.
REL-11

13.4.66	UPLINK_MIMO_TRANSMISSION
This variable indicates whether the UE is operating in uplink MIMO transmission. See subclause 8.5.81 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Uplink MIMO transmission
MP

Boolean
TRUE means the UE is operating in uplink MIMO transmission.
Set to FALSE when leaving UTRA RRC connected mode or the DCH state.
REL-11

13.4.67	BCCH_MODIFICATION_ACCESS_PROHIBITION
This variable indicates whether any RRC connection establishment except for emergency call and CS connection setup is prohibited or not.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
BCCH modification access prohibition
MP

Boolean
TRUE means any RRC connection establishment except for emergency call and CS connection setup is prohibited.

It is cleared when entering idle mode, receiving SIB3 after the detection of the value tag change for SIB3, detecting that SIB3 value tag has not changed during the BCCH modification or reselection to another UTRA cell.
REL-11

13.4.68	NON_RECTANGULAR_RESOURCE_ALLOCATION_STATUS
For 1.28 Mcps TDD only. This variable indicates whether the UE is configured for non-rectangular resource allocation. See subclause 8.5.82 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
NON_RECTANGULAR_RESOURCE_ALLOCATION_STATUS
MP

Boolean
For 1.28 Mcps TDD only.
TRUE means the non-rectangular resource allocation is configured
REL-12

13.4.69	WLAN_OFFLOAD_INFO
This variable contains dedicated parameters for RAN-assisted WLAN interworking. 
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
T330
OP

Integer (5, 10, 20, 30, 60, 120, 180)

REL-12
WLAN Offload Configuration
MP

WLAN Offload Configuration 10.3.9b.1

REL-12
WLAN Identifier List
OP
1 to <maxWLANID>


REL-12
>WLAN Identifier
MP

WLAN Identifier 10.3.9b.2

REL-12

13.4.70	SYSTEM_INFO_WLAN_OFFLOAD_INFO
This variable contains the broadcasted parameters for RAN-assisted WLAN interworking. 
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
WLAN Offload Configuration
OP

WLAN Offload Configuration 10.3.9b.1

REL-12
WLAN Identifier List
OP
1 to <maxWLANID>


REL-12
>WLAN Identifier
MP

WLAN Identifier 10.3.9b.2

REL-12

13.4.71	DPCCH2_TRANSMISSION
NOTE:	For FDD only.
This variable indicates whether the UE is operating in DPCCH2 transmission. See subclause 8.5.83 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
DPCCH2 transmission
MP

Boolean
TRUE means the UE is operating in DPCCH2 transmission.
Set to FALSE when leaving CELL_DCH state.
REL-12

13.4.72	DCH_ENHANCEMENTS_INFO
This variable indicates the values of the parameters for operation with DCH Enhancements. See subclause 8.6.6.64 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149
Indicates the values of the parameters for operation with DCH Enhancements
REL-12

13.4.73	DCH_ENHANCEMENTS_STATUS
This variable indicates whether the UE is operating with DCH Enhancements. See subclause 8.5.84 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
DCH Enhancements Status
MP

Boolean
TRUE means the UE is operating with DCH Enhancements.
Set to FALSE when leaving UTRA RRC connected mode.
REL-12

13.4.74	RETRIEVABLE_CONFIGURATION
The variable indicates the content of a retrievable configuration. The UE shall only store the parameters obtained via dedicated signalling into this variable. See subclause 8.6.4.16 for actions related to the setting of this variable.
This variable shall be cleared when leaving UTRA RRC connected mode and upon successful SRNS relocation.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Retrievable configuration information
MP
1 to <maxRetrievConfig>


REL-13
>Retrievable configuration identity
MP

Integer (0.. maxRetrievConfig-1)

REL-13
RB Information Elements





>RAB list
MP
1 to <maxRABsetup>


REL-13
>>RAB identity
MP

10.3.1.14

REL-13
>>RB list
MP
1 to <maxRBperRAB>


REL-13
>>>RB identity
MP

10.3.4.16

REL-13
>>>RLC info
OP

10.3.4.23

REL-13
>>>RB mapping info
OP

10.3.4.21

REL-13
>SRB list
MP
1 to < maxSRBsetup>


REL-13
>>RB identity
MP

10.3.4.16

REL-13
>>RLC info
OP

10.3.4.23

REL-13
>>RB mapping info
OP

10.3.4.21

REL-13
TrCH Information Elements





Uplink transport channels





>UL Transport channel information common for all transport channels
OP


Note 1.
REL-13
>>TFC subset
MD



REL-13
>>>Transport Format Combination Subset


10.3.5.22

REL-13
>>UL DCH TFCS
MP



REL-13
>>>TFCS complete reconfiguration information
MP

10.3.5.15

REL-13
>>TFC subset list
OP
1 to <maxTFCsub>


REL-13
>>> Transport Format Combination Subset


10.3.5.22

REL-13
>Added or Reconfigured TrCH information list
OP
1 to <maxTrCHpreconf>

Note 1.
REL-13
>>Added or Reconfigured UL TrCH information
MP

10.3.5.2

REL-13
Downlink transport channels





>DL Transport channel information common for all transport channels
OP


Note 1.
REL-13
>>DL DCH TFCS
OP



REL-13
>>>TFCS complete reconfiguration information
MP

10.3.5.15

REL-13
>Added or Reconfigured TrCH information list
OP
1 to <maxTrCHpreconf>

Note 1.
REL-13
>>Added or Reconfigured DL TrCH information
MP

10.3.5.1
Note 2.
REL-13
PhyCH information elements





>DTX-DRX Information
OP

DTX-DRX Information 10.3.6.34a
Note 1.
REL-13
>HS-SCCH less Information
OP

HS-SCCH less Information 10.3.6.36ab
Note 1. Note 3.
REL-13
>MIMO parameters
OP

MIMO parameters 10.3.6.41a
Note 1. Note 3.
REL-13
>MIMO mode with four transmit antennas parameters
OP

MIMO mode with four transmit antennas parameters 10.3.6.142
Note 1. Note 3.
REL-13
>DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149
Note 1. Note 3.
REL-13
Uplink radio resources





>E-DCH Info
OP

E-DCH Info 10.3.6.97
Note 1. Note 4.
REL-13
Downlink radio resources





>Downlink HS-PDSCH Information
OP

Downlink HS-PDSCH Information 10.3.6.23a
Note 1.
REL-13
>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
Note 1. Note 3.
REL-13
>Additional downlink secondary cell info list FDD
OP
2

Note 1.
REL-13
>>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
Note 1. Note 3.
REL-13
>Additional downlink secondary cell info list FDD 2
OP
4

Note 1.
REL-13
>>Downlink secondary cell info FDD
OP

Downlink secondary cell info FDD 10.3.6.31a
Note 1. Note 3.
REL-13

NOTE 1:	Void.
NOTE 2:	The IE "MAC-hs queue to delete list" shall not be stored as part of RETRIEVABLE_CONFIGURATION.
NOTE 3:	Only values for "New configuration" or "New operation" or "start" shall be stored.
NOTE 4:	The IE "MAC-es/e reset indicator" shall not be stored as part of RETRIEVABLE_CONFIGURATION.
13.4.75	RNTI_HANDLING_AT_CELL_RE-SELECTION
This variable indicates whether the UE shall clear the variable H_RNTI, E_RNTI and C_RNTI upon cell re-selection when operating in URA_PCH with seamless transition or not. See subclause 8.6.3.18 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RNTI handling at cell re-selection
MP

Boolean
TRUE means that the UE shall clear the variable H_RNTI, C_RNTI and E_RNTI upon cell re-selection when operating in URA_PCH with seamless transition. 

Cleared when leaving UTRA RRC connected mode.
REL-13

13.4.76	DETERMINED_ACTIVATION_TIME
This variable indicates a determined activation time. See subclause 8.6.3.19 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Determined activation time
MP

Integer(0..
255)
CFN [10].

Cleared when leaving the CELL_DCH state.
REL-13

13.4.77	OTHER_STATE_CONFIGURATION
The variable indicates the content of an other state configuration. See subclause 8.6.4.17 for actions related to the setting of this variable.
This variable shall be cleared when leaving UTRA RRC connected mode and upon successful SRNS relocation.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Other state configuration information
MP
1 to < maxOtherStateConfig>


REL-13
>Other state configuration identity
MP

Integer (0.. maxOtherStateConfig-1)

REL-13
>Source RRC State Indicator
MP

RRC State Indicator 10.3.3.35a

REL-13
>Target RRC State Indicator
MP

RRC State Indicator 10.3.3.35a

REL-13
>URA identity
OP

URA identity 10.3.2.6

REL-13
>C-RNTI
OP

C-RNTI 10.3.3.8

REL-13
>H-RNTI
OP

H-RNTI 10.3.3.14a

REL-13
>Primary E-RNTI
OP

E-RNTI 10.3.3.10a

REL-13
>CHOICE configuration
OP



REL-13
>>Retrievable configuration id


Integer (0.. maxRetrievConfig-1)

REL-13
>>Retrievable configuration


Retrievable configuration 10.3.8.26

REL-13

13.4.78	BLIND_HARQ_HSDPA
This variable indicates whether the UE is configured to operate with blind HARQ retransmissions for HSDPA. See subclause 8.5.87 for actions related to the setting of this variable.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
Blind HARQ retransmissions for HSDPA
OP

Enumerated(TRUE)
FDD only.
TRUE means that blind HARQ retransmissions for HSDPA is enabled.
REL-13

13.4.79	ACDC_ACCESS_CONTROL

Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
ACDC Parameters
MP
1 to < maxNumAcdcCategory >

The first entry represents the ACDC category 1 and so on. 1 is the highest ranked ACDC category value and 16 is the lowest ranked ACDC category value, refer to [75]

If the cell is operating in MBSFN mode as indicated in subclause 8.1.1.6.3, the UE behaviour upon reception of this IE is unspecified.
REL-13
>CHOICE ACDC per Category
OP




>>barred


Enumerated (TRUE, FALSE)
Value of TRUE indicates access for this ACDC category is barred.
Value of FALSE indicates access for this ACDC category is not barred.
REL-13
>>ACDC- ACB-barringBitmap


Bit string(SIZE (10))
Bit 0 is the first/leftmost bit of the bit string. 
Bit 0 corresponds to Access Class 0, bit 1 to Access Class 1 and so on up to Access Class 9. The value 1 of a bit indicates that the corresponding Access Class is blocked. The value 0 of a bit indicates that the corresponding Access Class is not blocked.
REL-13

13.4.80	OTHER_TTI_EDCH_CONFIGURATION_ON_SECONDARY_UL_FREQUENCY
This variable stores information about the other TTI length on secondary UL frequency which is not currently configured in the UE.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
2ms TTI Configuration Information
OP

Other TTI E-DCH Configuration Information on secondary UL Frequency 10.3.6.156

REL-14
10ms TTI Configuration Information
OP

Other TTI E-DCH Configuration Information on secondary UL Frequency 10.3.6.156

REL-14

13.5	UE RRC Procedure Performance
This subclause defines the performance requirements related to RRC procedures in the UE. Where the total delay is impacted by processing of variable length on the physical layer (e.g. physical layer synchronisation), references to appropriate specifications are given.
13.5.1	Definitions
The following definitions of N1 and N2 are valid only for this UE RRC Procedure Performance specification.
N1 = upper limit on the time required to execute modifications in UE after the reception of a UTRAN -> UE message has been completed. Where applicable (e.g. the physical layer transmission is impacted), the changes shall be adopted in the beginning of the next TTI starting after N1. N1 is specified as a multiple of 10 ms.
N2 = number of 10 ms radio frames from end of reception of UTRAN -> UE message on UE physical layer before the transmission of the UE -> UTRAN response message must be ready to start on a transport channel with no access delay other than the TTI alignment (e.g. DCH, therefore excluding delays caused by RACH procedure etc). The UE response message transmission from the physical layer shall begin at the latest (N2*10)+TTI ms after completion of the reception of the last TTI carrying the triggering UTRAN -> UE message. When Target State is CELL_DCH, the UE response message transmission from the physical layer may be additionally delayed by the value of IE "SRB delay".
N1 and N2 are independent (e.g. N2-N1 is not restricted to being less than or equal to 10ms).
13.5.2	RRC procedure performance values
NOTE: Times indicated in the table do not include cell reselection.
Procedure title:
UTRAN -> UE
UE -> UTRAN
N1
N2
Notes
RRC Connection Management Procedures





Broadcast of system information
SYSTEM INFORMATION



N2 is not applicable for any system information messages, because there is no response message from the UE.
Master Information Block
SYSTEM INFORMATION

5
NA
No system information data shall be lost due to processing of a MIB received with no detectable errors. This means that the UE shall buffer all system information data received after the MIB until the data can be processed according to the information in the MIB, unless the MIB was received erroneously.
System Information Block type 1
SYSTEM INFORMATION

10
NA

System Information Block type 2
SYSTEM INFORMATION

10
NA

System Information Block type 3
SYSTEM INFORMATION

10
NA

System Information Block type 4
SYSTEM INFORMATION

10
NA

System Information Block type 5 or System Information Block type 5bis
SYSTEM INFORMATION

10
NA

System Information Block type 6
SYSTEM INFORMATION

10
NA

System Information Block type 7
SYSTEM INFORMATION

5
NA
 
System Information Block type 11 or System Information Block type 11bis
SYSTEM INFORMATION

10
NA

System Information Block type 11ter
SYSTEM INFORMATION

10
NA

System Information Block type 12
SYSTEM INFORMATION

10
NA

System Information Block type 13
SYSTEM INFORMATION

10
NA

System Information Block type 14
SYSTEM INFORMATION

10
NA

System Information Block type 15 or 15bis or 15.1 or 15.1bis or 15.1ter or 15.2 or 15.2bis or 15.2ter or 15.3 or 15.3bis or 15.4 or 15.5 or 15.6 or 15.7 or 15.8
SYSTEM INFORMATION

10
NA

System Information Block type 16
SYSTEM INFORMATION

10
NA

System Information Block type 18
SYSTEM INFORMATION

10
NA

System Information Block type 19
SYSTEM INFORMATION

10
NA

System Information Block type 20
SYSTEM INFORMATION

10
NA

System Information Block type 21
SYSTEM INFORMATION

10
NA

System Information Block type 22
SYSTEM INFORMATION

10
NA

System Information Block type 23
SYSTEM INFORMATION

10
NA

System Information Block type 24
SYSTEM INFORMATION

5
NA

System Information Block type 25
SYSTEM INFORMATION

5
NA

System Information Change Indication
SYSTEM INFORMATION

10
NA

RRC connection establishment
Target state CELL_DCH
RRC CONNECTION SETUP
RRC CONNECTION SETUP COMPLETE
10
NA
N1 measures time to the start of tx / rx on DPCH. N2 cannot be specified, because RRC CONNECTION SETUP COMPLETE message is transmitted only after physical layer synchronisation, which also depends on the Node B.

The performance of the physical layer synchronisation procedure is specified in [19] and [20]
RRC connection establishment
Target state CELL_FACH
RRC CONNECTION SETUP
RRC CONNECTION SETUP COMPLETE
10
11
N1 and N2 applicable as defined (N2 can be tested from the initiation of the power ramp on RACH).
RRC connection release
From CELL_DCH state
RRC CONNECTION RELEASE
RRC CONNECTION RELEASE COMPLETE
5
8
N1 sets the requirement for the time from the completion of the last repetition of the RRC CONNECTION RELEASE COMPLETE message to the release of the physical channel.

N2 sets the requirement from the end of successful reception of the RRC CONNECTION RELEASE message to the start of the first transmission of the RRC CONNECTION RELEASE COMPLETE message.
RRC connection release
From CELL_FACH state
RRC CONNECTION RELEASE
RRC CONNECTION RELEASE COMPLETE
NA
11
N1 represents UE internal configuration that cannot be externally observed.
Paging
PAGING TYPE 1
CELL UPDATE
10
11+T
T is the repetition period of SIB7 (applicable for FDD) and SIB14 (applicable for TDD)
UE capability enquiry
UE CAPABILITY ENQUIRY
UE CAPABILITY INFORMATION
NA
8
N1 is not applicable because the UE configuration does not change. 
Security mode control
SECURITY MODE COMMAND
SECURITY MODE COMPLETE
5
8

Signalling connection release procedure
SIGNALLING CONNECTION RELEASE

5
NA
N2 is not applicable because there is no response message.
Counter check
COUNTER CHECK
COUNTER CHECK RESPONSE
NA
8
N1 is not applicable because the UE configuration does not change.
ETWS Primary Notification with Security
ETWS PRIMARY NOTIFICATION
WITH SECURITY


10
NA
N2 is not applicable because there is no response message.
Radio Bearer control procedures





Radio bearer establishment

Target state CELL_DCH
RADIO BEARER SETUP
RADIO BEARER SETUP COMPLETE / FAILURE
10
NA
N2 cannot be specified, because the RADIO BEARER SETUP COMPLETE / FAILURE message is transmitted only after physical layer synchronisation, which depends also on Node B.
Radio bearer establishment

From state CELL_FACH to state CELL_FACH
RADIO BEARER SETUP
RADIO BEARER SETUP COMPLETE / FAILURE
10
11

Radio bearer establishment

From CELL_DCH to CELL_FACH
RADIO BEARER SETUP
RADIO BEARER SETUP COMPLETE 
NA
NA
N1 and N2 cannot be specified, because UE need to read SIBs on BCH before sending RADIO BEARER SETUP COMPLETE
Radio bearer reconfiguration

Target state CELL_DCH
RADIO BEARER RECONFIGURATION
RADIO BEARER RECONFIGURATION COMPLETE / FAILURE
5 or 10
NA
N2 cannot be specified, because the RADIO BEARER RECONFIGURATION COMPLETE / FAILURE message is transmitted only after physical layer synchronisation, which depends also on Node B.
NOTE 1
Radio bearer reconfiguration

From Idle Mode and state CELL_FACH to state CELL_DCH
RADIO BEARER RECONFIGURATION
RADIO BEARER RECONFIGURATION COMPLETE / FAILURE
10
11
This requirement applies when the UE has a common E-DCH resource and is not required to perform any synchronization. 
Radio bearer reconfiguration

From state CELL_FACH to state CELL_FACH
RADIO BEARER RECONFIGURATION
RADIO BEARER RECONFIGURATION COMPLETE / FAILURE
10
11

Radio bearer reconfiguration

From state CELL_DCH to state CELL_FACH
RADIO BEARER RECONFIGURATION
RADIO BEARER RECONFIGURATION COMPLETE
NA
NA
N1 and N2 cannot be specified, because UE need to read SIBs on BCH before sending RADIO BEARER RECONFIGURATION COMPLETE
Radio bearer release
Target state CELL_DCH
RADIO BEARER RELEASE
RADIO BEARER RELEASE COMPLETE / FAILURE
10
11

Radio bearer release
From state CELL_FACH to state CELL_FACH
RADIO BEARER RELEASE
RADIO BEARER RELEASE COMPLETE / FAILURE
10
11

Radio bearer release
From state CELL_DCH to state CELL_FACH
RADIO BEARER RELEASE
RADIO BEARER RELEASE COMPLETE 
NA
NA
N1 and N2 cannot be specified, because UE need to read SIBs on BCH before sending RADIO BEARER RECONFIGURATION COMPLETE
Transport channel reconfiguration

Target state CELL_DCH
TRANSPORT CHANNEL RECONFIGURATION
TRANSPORT CHANNEL RECONFIGURATION COMPLETE / FAILURE
5 or 10
NA
N2 cannot be specified, because the TRANSPORT CHANNEL RECONFIGURATION COMPLETE / FAILURE message is transmitted only after physical layer synchronisation, which depends also on Node B.
NOTE 1
Transport channel reconfiguration

From state CELL_FACH to state CELL_FACH
TRANSPORT CHANNEL RECONFIGURATION
TRANSPORT CHANNEL RECONFIGURATION COMPLETE / FAILURE
10
11

Transport channel reconfiguration

From state CELL_DCH to state CELL_FACH
TRANSPORT CHANNEL RECONFIGURATION
TRANSPORT CHANNEL RECONFIGURATION COMPLETE 
NA
NA
N1 and N2 cannot be specified, because UE need to read SIBs on BCH before sending TRANSPORT CHANNEL RECONFIGURATION COMPLETE
Transport format combination control

AM or UM RLC mode
TRANSPORT FORMAT COMBINATION CONTROL
TRANSPORT FORMAT COMBINATION CONTROL FAILURE
5
8

Transport format combination control

Transparent mode
TRANSPORT FORMAT COMBINATION CONTROL

5
NA
N2 is not applicable because no response message is defined.
Physical channel reconfiguration

Target state CELL_DCH
PHYSICAL CHANNEL RECONFIGURATION
PHYSICAL CHANNEL RECONFIGURATION COMPLETE / FAILURE
5 or 8
NA
N2 cannot be specified, because the PHYSICAL CHANNEL RECONFIGURATION COMPLETE / FAILURE message is transmitted only after physical layer synchronisation, which depends also on Node B.
NOTE 1
Physical channel reconfiguration

From state CELL_FACH to state CELL_FACH
PHYSICAL CHANNEL RECONFIGURATION
PHYSICAL CHANNEL RECONFIGURATION COMPLETE / FAILURE
8
9

Physical channel reconfiguration

From state CELL_DCH to state CELL_FACH
PHYSICAL CHANNEL RECONFIGURATION
PHYSICAL CHANNEL RECONFIGURATION COMPLETE 
NA
NA
N1 and N2 cannot be specified, because UE need to read SIBs on BCH before sending PHYSICAL CHANNEL RECONFIGURATION COMPLETE
Physical Shared Channel Allocation [TDD only]
PHYSICAL SHARED CHANNEL ALLOCATION

5
NA
N2 is not applicable because no response message is defined.
Uplink Physical Channel Control [TDD only]
UPLINK PHYSICAL CHANNEL CONTROL

8
NA
Requirements for outer loop and timing advance adjustments are defined in [22] and [20]. N2 is not applicable because there is no response message.
RRC connection mobility procedures





Cell update
CELL UPDATE CONFIRM
UTRAN MOBILITY INFORMATION CONFIRM
5
8

      
      
PHYSICAL CHANNEL RECONFIGURATION COMPLETE
Target state CELL_FACH
8
9

      
      
PHYSICAL CHANNEL RECONFIGURATION COMPLETE
Target state CELL_DCH
8
NA
N2 cannot be specified, because the PHYSICAL CHANNEL RECONFIGURATION COMPLETE / FAILURE message is transmitted only after physical layer synchronisation, which depends also on Node B.
      
      
TRANSPORT CHANNEL RECONFIGURATION COMPLETE
Target state CELL_FACH
10
11

      
      
TRANSPORT CHANNEL RECONFIGURATION COMPLETE
Target state CELL_DCH
10
NA
N2 cannot be specified, because the PHYSICAL CHANNEL RECONFIGURATION COMPLETE / FAILURE message is transmitted only after physical layer synchronisation, which depends also on Node B.
      
      
RADIO BEARER RECONFIGURATION COMPLETE
Target state CELL_FACH
10
11

      
      
RADIO BEARER RECONFIGURATION COMPLETE
Target state CELL_DCH
10
NA
N2 cannot be specified, because the PHYSICAL CHANNEL RECONFIGURATION COMPLETE / FAILURE message is transmitted only after physical layer synchronisation, which depends also on Node B.
      
      
RADIO BEARER RELEASE COMPLETE
Target state CELL_DCH
10
11

URA update
URA UPDATE CONFIRM
UTRAN MOBILITY INFORMATION CONFIRM
5
8

UTRAN mobility information
UTRAN MOBILITY INFORMATION
UTRAN MOBILITY INFORMATION CONFIRM / FAILURE
5
8

Active set update
ACTIVE SET UPDATE
ACTIVE SET UPDATE COMPLETE / FAILURE
NA
5
The requirements on UE combining and power control performance for both UL and DL are specified by RAN WG4 in [21] and [19].

Also in case of branch addition the COMPLETE / FAILURE message is transmitted without waiting for the new branch to stabilise, therefore N2 is specified.

Inter-RAT handover to UTRAN
HANDOVER TO UTRAN COMMAND (other system)
HANDOVER TO UTRAN COMPLETE
NA
NA
The performance of this procedure is specified in 3GPP TS 45.010 in case of handover from GSM and 3GPP TS 36.133 in case of handover from E-UTRA.
Inter-RAT handover from UTRAN
HANDOVER FROM UTRAN COMMAND
HANDOVER FROM UTRAN FAILURE
NA
NA
The performance of this procedure is specified in [19] and [20].
Measurement procedures





Measurement control
MEASUREMENT CONTROL
MEASUREMENT CONTROL FAILURE
5
8
Response to measurement inquiry depends on physical layer measurement. Response time is defined in [19] and [20]. N1 and N2 only define the processing of the message.
UE INFORMATION





UE INFORMATION
UE INFORMATION REQUEST
UE INFORMATION RESPONSE
5
8


NOTE 1:	The lower value applies when the UE is ordered to do a serving HS-DSCH cell change, changing no other information than contained in the IE "H-RNTI", the IE "Downlink HS-PDSCH information", the IE "Uplink DPCH power control info" and/or the IE "Serving HS-DSCH radio link indicator" (FDD only).
13.6	RB information parameters for signalling radio bearer RB 0
The following Radio Bearer parameter values apply for signalling radio bearer RB0 for TDD and for FDD, if either UE or UTRAN do not support common channel mapping on HS-DSCH:
Information element/ Group name
Value
Comment
RLC info


>Uplink RLC mode
TM

>>Transmission RLC discard
omitted
Neither discard is used, nor will there be a reset
>>Segmentation indication
FALSE

>Downlink RLC mode
UM

>>Length indicator size
7

RB mapping info

Single multiplexing option
>Uplink mapping info


>>UL transport channel
RACH
RACH corresponding with selected PRACH
>>RLC size list
N/A
If available the size in the IE “Additional Dynamic Transport Format Information for CCCH” for the transport channel used.
Else the first TF defined in the Transport Format Set for the transport channel is used.
>>MAC logical channel priority
1

>Downlink mapping info


>>DL transport channel
FACH


Procedure descriptions in subclause 8.6.4.8 shall not be applied for the IE "RB mapping info" that is used for signalling radio bearer RB0.
13.6a	RB information parameters for SHCCH
The following Radio Bearer parameter values apply for SHCCH:
Information element/ Group name
Value
Comment
RLC info


>Uplink RLC mode
TM

>>Transmission RLC discard
omitted
Neither discard is used, nor will there be a reset
>>Segmentation indication
FALSE

>Downlink RLC mode
UM

RB mapping info


>Uplink mapping info

Option 1
>>UL transport channel
RACH
RACH corresponding with selected PRACH
>>RLC size list
N/A
The first TF defined in the Transport Format Set for the transport channel that is used
>>MAC logical channel priority
1

>Downlink mapping info


>>DL transport channel
FACH

>Uplink mapping info

Option 2
>>UL transport channel
USCH

>>UL Transport Channel Identity
1

>>MAC logical channel priority
1

>>RLC size list
N/A
The first TF defined in the Transport Format Set for the transport channel that is used
>Downlink mapping info


>>DL transport channel
DSCH

>>DL Transport Channel Identity
1


13.6b	RB information parameters for BCCH mapped to FACH
The following Radio Bearer parameter values apply for BCCH mapped to FACH:
Information element/ Group name
Value
Comment
Downlink RLC mode
TM

Segmentation indication
FALSE


13.6c	RB information parameters for PCCH mapped to PCH
The following Radio Bearer parameter values apply for PCCH mapped to PCH:
Information element/ Group name
Value
Comment
Downlink RLC mode
TM

Segmentation indication
FALSE


13.6d	Parameters for BCCH mapped to BCH
The transport format parameters for BCH are specified in [34].
13.6e	RB information parameters for signalling radio bearer RB 0 mapped on HS-DSCH and RACH
The following Radio Bearer parameter values apply for signalling radio bearer RB0, if UE and UTRAN support common channel mapping on HS-DSCH:
NOTE:	FDD only.
Information element/ Group name
Value
Comment
RLC info


>Uplink RLC mode
TM

>>Transmission RLC discard
omitted
Neither discard is used, nor will there be a reset
>>Segmentation indication
FALSE

>Downlink RLC mode
UM

>>Length indicator size
7

RB mapping info

Single multiplexing option
>Uplink mapping info


>>UL transport channel
RACH
RACH corresponding with selected PRACH
>>RLC size list
N/A
If available the size in the IE “Additional Dynamic Transport Format Information for CCCH” for the transport channel used.
Else the first TF defined in the Transport Format Set for the transport channel is used.
>>MAC logical channel priority
1

>Downlink mapping info


>>DL transport channel
HS-DSCH


13.6f	RB information parameters for BCCH mapped to HS-DSCH
The following Radio Bearer parameter values apply for BCCH mapped to HS-DSCH:
NOTE:	FDD and 1.28 Mcps TDD only.
Information element/ Group name
Value
Comment
Downlink RLC mode
TM

Segmentation indication
FALSE

MAC-ehs reordering queue
N/A
No MAC-ehs reordering queue is configured for BCCH reception. 

13.6g	RB information parameters for PCCH mapped to HS-DSCH
The following Radio Bearer parameter values apply for PCCH mapped to HS-DSCH:
NOTE:	FDD and 1.28 Mcps TDD only.
Information element/ Group name
Value
Comment
Downlink RLC mode
TM

Segmentation indication
FALSE

MAC-ehs reordering queue
N/A
No MAC-ehs reordering queue is configured for PCCH reception. 

13.6h	RB information parameters for signalling radio bearer RB 0 mapped on HS-DSCH and common E-DCH
The following Radio Bearer parameter values apply for signalling radio bearer RB0, if UE and UTRAN support common channel mapping on HS-DSCH and E-DCH:
NOTE:	FDD and 1.28 Mcps TDD only.
Information element/ Group name
Value
Comment
RLC info


>Uplink RLC mode
TM

>>Transmission RLC discard
omitted
Neither discard is used, nor will there be a reset
>>Segmentation indication
FALSE

>Downlink RLC mode
UM

>>Length indicator size
7

RB mapping info

Single multiplexing option
>Uplink mapping info


>>UL transport channel
E-DCH
E-DCH corresponding with the Node B allocated common E-DCH resource, i.e. UL DPCCH/E-DPCCH/E-DPDCH. 
>>RLC size list
N/A

>>MAC logical channel priority
1

>Downlink mapping info


>>DL transport channel
HS-DSCH


13.6i	Parameters for BCCH mapped to BCH on SCCPCH
The transport format parameters for second system information broadcast channel are specified in [34].

13.7	Parameter values for default radio configurations
The UE shall support the use of the default radio configurations that are specified in the following.
In each of the tables that are used to specify the parameter values for these default configurations, the following principle is used:
-	Optional IEs that are not used are omitted;
NOTE 1:	These configurations are based on [41] and cover a number of RAB and signalling connection configurations.
NOTE 2:	If needed, signalling radio bearer RB4 is established after the completion of handover.
NOTE 3:	For each default configuration, the value of FDD, 3.84 Mcps TDD, 7.68 Mcps TDD and 1.28 Mcps TDD parameters are specified. All parameters apply to FDD, 3.84 Mcps TDD, 7.68 Mcps and 1.28 Mcps TDD modes, unless explicitly stated otherwise. It should be noted that in this respect default configurations differ from pre-defined configurations, which only include parameter values for one mode.
NOTE 4:	The transport format sizes, indicated in the following table, concern the RLC PDU size, since all configurations concern dedicated channels. The transport block sizes indicated in TS 34.108 are different since these include the size of the MAC header.
NOTE 5:	The tabular values included in this subclause, represent the actual IE values as in clause 10, and not the ASN.1 representation of these values.
NOTE 5A:	Default configuration identity 11 can not be used with release 4 UEs
NOTE 6:	The difference between default configuration #22 and default configuration #1 (13.6 kbps signalling) resides in the RLC configuration and the DCH quality target
NOTE 7:	The difference between default configuration #23 and default configuration #17 (Signalling on E-DCH & HS-DSCH) resides in the IE "E-DCH MAC-d flow identity" and IE "MAC-d Flow Identity" (6 in #23, 0 in #17), in IE "transmissionGrantType" (scheduledTransmissionGrantInfo in #23, non-ScheduledTransGrantInfo in #17) and in IE "Include in Scheduling Info" (TRUE in #23, FALSE in #17).
13.7.1	Default configuration 3.4 kbps signalling
Parameters
Value
Ref 34.108
2
Default configuration identity
0
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3

rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
>>>maxDat
RB1: N/A
RB2- RB3: 15
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
>>timerRST
RB1: N/A
RB2- RB3: 300
>>max-RST
RB1: N/A
RB2- RB3: 1
>>pollingInfo
RB1: N/A
RB2- RB3: as below
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 1
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
>>rlc-SizeList
RB1- RB3: configured
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 1
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x144, 1x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero, one
>>>>logicalChannelList
All
>>>tf 1
N/A
>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 2
N/A
>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>semistaticTF-Information

>>>tti
TrCH1: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1: Third
>>>rateMatchingAttribute
TrCH1: 160
>>>crc-Size
TrCH1: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1
>tfs-SignallingMode
SameAsUL
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1

>>>>rlcSize

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>ULTrCH-Id
TrCH1: 1
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 5x10-2
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc2Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 4

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId

>>>>>>TFCS 5

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 6

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId

dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
256
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
N/A
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
8
>>puncturingLimit
1
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
8
>>>puncturingLimit
1
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
8
>>puncturingLimit
1
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
8
>>>puncturingLimit
1
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.2	Default configuration 13.6 kbps signalling
Parameters
Value
Ref 34.108
1
Default configuration identity
1
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3

rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
>>>maxDat
RB1: N/A
RB2- RB3: 15
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
>>timerRST
RB1: N/A
RB2- RB3: 300
>>max-RST
RB1: N/A
RB2- RB3: 1
>>pollingInfo
RB1: N/A
RB2- RB3: as below
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 100
>>segmentationIndication
RB1- RB3: N/A
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 100
>>segmentationIndication
RB1- RB3: N/A
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 1
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
>>rlc-SizeList
RB1- RB3: configured
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 1
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x144, 1x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero, one
>>>>logicalChannelList
All
>>>tf 1
N/A
>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 2
N/A
>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>semistaticTF-Information

>>>tti
TrCH1: 10
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1: Third
>>>rateMatchingAttribute
TrCH1: 160
>>>crc-Size
TrCH1: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1
>tfs-SignallingMode
SameAsUL
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1

>>>>rlcSize

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>ULTrCH-Id
TrCH1: 1
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 5x10-2
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc2Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 4

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId

>>>>>>TFCS 5

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 6

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId

dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
N/A
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
8
>>puncturingLimit
0.92
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
8
>>>puncturingLimit
0.92
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
8
>>puncturingLimit
0.64
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
8
>>>puncturingLimit
0.64
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.3	Default configuration 12.2 kbps Speech & 3.4 kbps signalling
Parameters
Value
Ref 34.108
4a
Default configuration identity
3
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB7: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB7: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 4
RB5: 1, RB6: 2, RB7: 3
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 4
RB5: 1, RB6: 2, RB7: 3
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x81)
TrCH2: (0x 103, 1x103)
TrCH3: (0x 60, 1x60)
TrCH4: (0x144, 1x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 81
TrCH2: type 1: 103
TrCH3: type 1: 60
TrCH4: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero
TrCH2-4: Zero, one
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x39)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: 1: 39
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>>tf 2
TrCH1: (1x81)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 81
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semistaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH2: Third
TrCH3: Half
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 235
TrCH4: 160
>>>crc-Size
TrCH1: 12
TrCH2- TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>tfs-SignallingMode
Explicit
<Only tf0 on TrCH1 is different and shown below>
>>transportFormatSet
DedicatedTransChTFS
>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
>>>>rlcSize
bitMode
>>>>>sizeType
TrCH1: type 1: 0
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
All
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2- TrCH4: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc6Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF2, TF1, TF1, TF0)
>>>>>>>ctfc
11
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF0, TF0, TF0, TF1)
>>>>>>>ctfc
12
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
(TF1, TF0, TF0, TF1)
>>>>>>>ctfc
13
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 6
(TF2, TF1, TF1, TF1)
>>>>>>>ctfc
23
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.88
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
Fixed
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.88
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.92
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.60
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.60
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.4	Default configuration 28.8 kbps conv. CS- data & 3.4 kbps signalling
Parameters
Value
Ref 34.108
4a
Default configuration identity
4
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x576, 1x576, 2x576)
TrCH2: (0x144, 1x144)
>>>>rlcSize
TrCH1: OctetMode
TrCH2:BitMode
>>>>>sizeType
TrCH1: type 2, part1= 9, part2= 2 (576)
TrCH2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero,1, 2 
TrCH2: Zero, one
>>>>logicalChannelList
All
>>semiStaticTF-Information

>>>tti
TrCH1: 40
TrCH2: 40
>>>channelCodingType
TrCH1: Turbo
TrCH2: Convolutional
>>>>codingRate
TrCH1: N/A
TrCH2: Third
>>>rateMatchingAttribute
TrCH1: 180
TrCH2: 160
>>>crc-Size
TrCH1: 16
TrCH2: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2
>tfs-SignallingMode
SameAsUL
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1

>>>>rlcSize

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>ULTrCH-Id
TrCH1: 1, TrCH2: 2
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 2x10-3
TrCH2: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc4Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF2, TF0)
>>>>>>>ctfc
2
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF0, TF1)
>>>>>>>ctfc
3
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
(TF1, TF1)
>>>>>>>ctfc
4
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 6
(TF2, TF1)
>>>>>>>ctfc
5
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
8
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 7

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 8

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 9

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 10

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd 

>>>>>>>>referenceTFCId

dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.92
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
64
>>tfci-Existence
TRUE
>>pilotBits
8
>>positionFixed
Flexible
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.44
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.44
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.64
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.64
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.5	Default configuration 32 kbps conversational CS- data & 3.4 kbps signalling
Parameters
Value
Ref 34.108
4a
Default configuration identity
5
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x640, 1x640)
TrCH2: (0x144, 1x144)
>>>>rlcSize
TrCH1: OctetMode
TrCH2:BitMode
>>>>>sizeType
TrCH1: type 2, part1= 11, part2= 2 (640)
TrCH2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero, one
TrCH2: Zero, one
>>>>logicalChannelList
All
>>semiStaticTF-Information

>>>tti
TrCH1: 20
TrCH2: 40
>>>channelCodingType
TrCH1: Turbo
TrCH2: Convolutional
>>>>codingRate
TrCH1: N/A
TrCH2: Third
>>>rateMatchingAttribute
TrCH1: 185
TrCH2: 160
>>>crc-Size
TrCH1: 16
TrCH2: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2
>tfs-SignallingMode
SameAsUL
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1

>>>>rlcSize

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>ULTrCH-Id
TrCH1: 1, TrCH2: 2
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 2x10-3
TrCH2: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc2Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF0, TF1)
>>>>>>>ctfc
2
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF1, TF1)
>>>>>>>ctfc
3
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
8
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
N/A
>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 6
N/A
>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId

>>>>>>TFCS 7

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 8

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 9

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 10

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd 

>>>>>>>>referenceTFCId

dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.8
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
64
>>tfci-Existence
TRUE
>>pilotBits
8
>>positionFixed
Flexible
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.8
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.64
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.60
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.60
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.6	Default configuration 64 kbps conversational CS- data & 3.4 kbps signalling
Parameters
Value
Ref 34.108
4a
Default configuration identity
6
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x640, 2x640)
TrCH2: (0x144, 1x144)
>>>>rlcSize
TrCH1: OctetMode
TrCH2:BitMode
>>>>>sizeType
TrCH1: type 2, part1= 11, part2= 2 (640)
TrCH2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero, 2 
TrCH2: Zero, one
>>>>logicalChannelList
All
>>semiStaticTF-Information

>>>tti
TrCH1: 20
TrCH2: 40
>>>channelCodingType
TrCH1: Turbo
TrCH2: Convolutional
>>>>codingRate
TrCH1: N/A
TrCH2: Third
>>>rateMatchingAttribute
TrCH1: 170
TrCH2: 160
>>>crc-Size
TrCH1: 16
TrCH2: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2
>tfs-SignallingMode
SameAsUL
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1

>>>>rlcSize

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>ULTrCH-Id
TrCH1: 1, TrCH2: 2
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 2x10-3
TrCH2: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc2Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF0, TF1)
>>>>>>>ctfc
2
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF1, TF1)
>>>>>>>ctfc
3
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
8
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
N/A
>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 6
N/A
>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId

>>>>>>TFCS 7

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 8

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 9

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 10

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd 

>>>>>>>>referenceTFCId

dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.92
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
32
>>tfci-Existence
TRUE
>>pilotBits
8
>>positionFixed
Flexible
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.56
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.56
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.64
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.64
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.7	Default configuration 14.4 kbps streaming CS- data & 3.4 kbps signalling
Parameters
Value
Ref 34.108
2
Default configuration identity
7
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x576, 1x576)
TrCH2: (0x144, 1x144)
>>>>rlcSize
TrCH1: OctetMode
TrCH2:BitMode
>>>>>sizeType
TrCH1: type 2, part1= 9,
part2= 2 (576)
TrCH2: type 2, part1= 2,
part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero, one,
TrCH2: Zero, one
>>>>logicalChannelList
All
>>semiStaticTF-Information

>>>tti
TrCH1: 40
TrCH2: 40
>>>channelCodingType
TrCH1: Turbo
TrCH2: Convolutional
>>>>codingRate
TrCH1: N/A
TrCH2: Third
>>>rateMatchingAttribute
TrCH1: 165
TrCH2: 160
>>>crc-Size
TrCH1: 16
TrCH2: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2
>tfs-SignallingMode
SameAsUL
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1

>>>>rlcSize

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>ULTrCH-Id
TrCH1: 1, TrCH2: 2
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 1x10-2
TrCH2: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc4Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF0, TF1)
>>>>>>>ctfc
2
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF1, TF1)
>>>>>>>ctfc
3
>>>>>>>gainFactorInformation
 Signalled
>>>>>>>>bc (FDD only)
 11
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
N/A
>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 6
N/A
>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId

>>>>>>TFCS 7

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 8

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 9

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 10

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd 

>>>>>>>>referenceTFCId

dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
TRUE
>>pilotBits
8
>>positionFixed
Flexible
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.8
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.8
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
1
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.88
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.8	Default configuration 28 kbps streaming CS- data & 3.4 kbps signalling
Parameters
Value
Ref 34.108
2
Default configuration identity
8
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x576, 1x576, 2x576)
TrCH2: (0x144, 1x144)
>>>>rlcSize
TrCH1: OctetMode
TrCH2:BitMode
>>>>>sizeType
TrCH1: type 2, part1= 9,
part2= 2 (576)
TrCH2: type 2, part1= 2,
part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero, one, 2
TrCH2: Zero, one
>>>>logicalChannelList
All
>>>tf 1

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 2

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 3

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 4

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 5

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>semiStaticTF-Information

>>>tti
TrCH1: 40
TrCH2: 40
>>>channelCodingType
TrCH1: Turbo
TrCH2: Convolutional
>>>>codingRate
TrCH1: N/A
TrCH2: Third
>>>rateMatchingAttribute
TrCH1: 155
TrCH2: 160
>>>crc-Size
TrCH1: 16
TrCH2: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2
>tfs-SignallingMode
SameAsUL
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1

>>>>rlcSize

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>ULTrCH-Id
TrCH1: 1, TrCH2: 2
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 1x10-2
TrCH2: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc4Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF2, TF0)
>>>>>>>ctfc
2
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF0, TF1)
>>>>>>>ctfc
3
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
(TF1, TF1)
>>>>>>>ctfc
4
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 6
(TF2, TF1)
>>>>>>>ctfc
5
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
8
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 7

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 8

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 9

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 10

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd 

>>>>>>>>referenceTFCId

>>>>>>TFCS 11

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 12

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd 

>>>>>>>>referenceTFCId

dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
64
>>tfci-Existence
TRUE
>>pilotBits
8
>>positionFixed
Flexible
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.44
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.44
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.64
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.64
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.9	Default configuration 57.6 kbps streaming CS- data & 3.4 kbps signalling
Parameters
Value
Ref 34.108
2
Default configuration identity
9
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 2
RB5: 1
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x576, 1x576, 2x576, 3x576, 4x576)
TrCH2: (0x144, 1x144)
>>>>rlcSize
TrCH1: OctetMode
TrCH2:BitMode
>>>>>sizeType
TrCH1: type 2, part1= 9,
part2= 2 (576)
TrCH2: type 2, part1= 2,
part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero, one, 2, 3, 4
TrCH2: Zero, one
>>>>logicalChannelList
All
>>>tf 1

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 2

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 3

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 4

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 5

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>semiStaticTF-Information

>>>tti
TrCH1: 40
TrCH2: 40
>>>channelCodingType
TrCH1: Turbo
TrCH2: Convolutional
>>>>codingRate
TrCH1: N/A
TrCH2: Third
>>>rateMatchingAttribute
TrCH1: 145
TrCH2: 160
>>>crc-Size
TrCH1: 16
TrCH2: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2
>tfs-SignallingMode
SameAsUL
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1

>>>>rlcSize

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>ULTrCH-Id
TrCH1: 1, TrCH2: 2
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 1x10-2
TrCH2: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc4Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF2, TF0)
>>>>>>>ctfc
2
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF3, TF0)
>>>>>>>ctfc
3
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
(TF4, TF0)
>>>>>>>ctfc
4
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 6
(TF0, TF1)
>>>>>>>ctfc
5
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 7
(TF1, TF1)
>>>>>>>ctfc
6
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 8
(TF2, TF1)
>>>>>>>ctfc
7
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 9
(TF3, TF1)
>>>>>>>ctfc
8
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 10
(TF4, TF1)
>>>>>>>ctfc
9
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
8
>>>>>>>>bd 
15
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 11

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFCS 12

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd 

>>>>>>>>referenceTFCId

dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
32
>>tfci-Existence
TRUE
>>pilotBits
8
>>positionFixed
Flexible
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.48
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.48
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.72
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.72
>>>repetitionPeriodAndLength
repetitionPeriod1


13.7.10	Default configuration 12.2/7.95/5.9/4.75 kbps speech & 3.4 kbps signalling
Parameters
Value
Ref 34.108
4a
Default configuration identity
10
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB7: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB7: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 4
RB5: 1, RB6: 2, RB7: 3
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 4
RB5: 1, RB6: 2, RB7: 3
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x81)
TrCH2: (0x 103
TrCH3: (0x 60)
TrCH4: (0x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 81
TrCH2: type 1: 103
TrCH3: type 1: 60
TrCH4: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-4: Zero
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x39)
TrCH2: (1x53)
TrCH3: (1x60)
TrCH4: (1x144)
>>>>numberOfTransportBlocks
TrCH1-4: One
>>>>rlc-Size
TrCH1-3: BitMode
>>>>>sizeType
TrCH1: type 1: 39
TrCH2: type 1: 53
TrCH3: type 1: 60 TrCH4: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-4: One
>>>>logicalChannelList
TrCH1-4: all
>>>tf 2
TrCH1: (1x42)
TrCH2: (1x63)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 42
TrCH2: type 1: 63
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 3
TrCH1: (1x55)
TrCH2: (1x84)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 55
TrCH2: type 1: 84
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 4
TrCH1: (1x75)
TrCH2: (1x103)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 75
TrCH2: type 1: 103
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 5
TrCH1: (1x81)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 81
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semiStaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH2: Third
TrCH3: Half
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 235
TrCH4: 160
>>>crc-Size
TrCH1: 12
TrCH2- TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>tfs-SignallingMode
Independent
<Only tf0 on TrCH1 is different and shown below>
>>transportFormatSet
DedicatedTransChTFS
>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
>>>>rlcSize
bitMode
>>>>>sizeType
TrCH1: type 1: 0
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
All
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2- TrCH4: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc8Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF2, TF1, TF0, TF0)
>>>>>>>ctfc
8
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF3, TF2, TF0, TF0)
>>>>>>>ctfc
15
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
(TF4, TF3, TF0, TF0)
>>>>>>>ctfc
22
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 6
(TF5, TF4, TF1, TF0)
>>>>>>>ctfc
59
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 7
(TF0,TF0,TF0,TF1)
>>>>>>>ctfc
60
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 8
(TF1,TF0,TF0,TF1)
>>>>>>>ctfc
61
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 9
(TF2,TF1,TF0,TF1)
>>>>>>>ctfc
68
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 10
(TF3,TF2,TF0,TF1)
>>>>>>>ctfc
75
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd 
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 11
(TF4,TF3,TF0,TF1)
>>>>>>>ctfc
82
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 12
(TF5,TF4,TF1,TF1)
>>>>>>>ctfc
119
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd 
15
>>>>>>>>referenceTFCId
0
dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.88
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
Fixed
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.88
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.92
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.72
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.92
>>>repetitionPeriodAndLength
repetitionPeriod1


13.7.11	Default configuration 12.2/7.4/5.9/4.75 kbps speech & 3.4 kbps signalling (without SRB#5)
Parameters
Value
Ref 34.108
-
Default configuration identity
24
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: TRUE
>>>lastRetransmissionPDU-Poll
RB2- RB3: TRUE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB7: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB7: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 4
RB5: 1, RB6: 2, RB7: 3
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 4
RB5: 1, RB6: 2, RB7: 3
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x81)
TrCH2: (0x 103
TrCH3: (0x 60)
TrCH4: (0x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 81
TrCH2: type 1: 103
TrCH3: type 1: 60
TrCH4: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-4: Zero
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x39)
TrCH2: (1x53)
TrCH3: (1x60)
TrCH4: (1x144)
>>>>numberOfTransportBlocks
TrCH1-4: One
>>>>rlc-Size
TrCH1-3: BitMode
>>>>>sizeType
TrCH1: type 1: 39
TrCH2: type 1: 53
TrCH3: type 1: 60 TrCH4: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-4: One
>>>>logicalChannelList
TrCH1-4: all
>>>tf 2
TrCH1: (1x42)
TrCH2: (1x63)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 42
TrCH2: type 1: 63
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 3
TrCH1: (1x55)
TrCH2: (1x87)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 55
TrCH2: type 1: 87
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 4
TrCH1: (1x61)
TrCH2: (1x103)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 61
TrCH2: type 1: 103
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 5
TrCH1: (1x81)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 81
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semiStaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH2: Third
TrCH3: Half
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 235
TrCH4: 160
>>>crc-Size
TrCH1: 12
TrCH2- TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>tfs-SignallingMode
Independent
<Only tf0 on TrCH1 is different and shown below>
>>transportFormatSet
DedicatedTransChTFS
>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
>>>>rlcSize
bitMode
>>>>>sizeType
TrCH1: type 1: 0
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
All
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2- TrCH4: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc8Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF2, TF1, TF0, TF0)
>>>>>>>ctfc
8
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF3, TF2, TF0, TF0)
>>>>>>>ctfc
15
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
(TF4, TF3, TF0, TF0)
>>>>>>>ctfc
22
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 6
(TF5, TF4, TF1, TF0)
>>>>>>>ctfc
59
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 7
(TF0,TF0,TF0,TF1)
>>>>>>>ctfc
60
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 8
(TF1,TF0,TF0,TF1)
>>>>>>>ctfc
61
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 9
(TF2,TF1,TF0,TF1)
>>>>>>>ctfc
68
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 10
(TF3,TF2,TF0,TF1)
>>>>>>>ctfc
75
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd 
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 11
(TF4,TF3,TF0,TF1)
>>>>>>>ctfc
82
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 12
(TF5,TF4,TF1,TF1)
>>>>>>>ctfc
119
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd 
15
>>>>>>>>referenceTFCId
0
dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.88
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
Fixed
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.88
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.92
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.72
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.92
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.12	Default configuration 10.2/6.7/5.9/4.75 kbps speech & 3.4 kbps signalling & 0.15 kbps SRB#5
Parameters
Value
Ref 34.108
5a
Default configuration identity
11
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7, RB8: 8
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
RB8: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB8: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB8: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB8: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB8: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 4
RB5: 1, RB6: 2, RB7: 3,
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 4
RB5: 1, RB6: 2, RB7: 3, RB8: 5
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB8: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x65)
TrCH2: (0x 99)
TrCH3: (0x 40, 1x40)
TrCH4: (0x144, 1x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 65
TrCH2: type 1: 99
TrCH3: type 1: 40
TrCH4: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-2: Zero
TrCH3-4: Zero, one
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x39)
TrCH2: (1x 53)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCH2: One
>>>>rlc-Size
TrCH1-2: BitMode
>>>>>sizeType
TrCH1: 1: 39
TrCH2: 1: 53
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 2
TrCH1: (1x42)
TrCH2: (1x63)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 42
TrCH2: type 1: 63
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 3
TrCH1: (1x55)
TrCH2: (1x76)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 55
TrCH2: type 1: 76
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 4
TrCH1: (1x58)
TrCH2: (1x99)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 58
TrCH2: type 1: 99
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 5
TrCH1: (1x65)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 65
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semistaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH2: Third
TrCH3: Half
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 235
TrCH4: 160
>>>crc-Size
TrCH1: 12
TrCH2- TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity 
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4, TrCH5: 5
>tfs-SignallingMode
Independent
<Only tf0 on TrCH1 and tf0/tf1 on TrCH5 are different and shown below>
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
TrCH5: (0x3, 1x3)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 0
TrCH5: type 1: 3
>>>>numberOfTbSizeList
TrCH1: One
TrCH5: Zero, one
>>>>logicalChannelList
All
>>>semistaticTF-Information
same as UL except for TrCH5
>>>>tti
TrCH5: 20
>>>>channelCodingType
Convolutional
>>>>>codingRate
TrCH5: Third
>>>>rateMatchingAttribute
TrCH5: 200
>>>>crc-Size
TrCH5: 12
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4, 
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2- TrCH5: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc8Bit
>>>>TFCS representation
Addition
>>>>>TFC list

>>>>>>TFC 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFC 3
(TF2, TF1, TF0, TF0)
>>>>>>>ctfc
8
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 4
(TF3, TF2, TF0, TF0)
>>>>>>>ctfc
15
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 5
(TF4, TF3, TF0, TF0)
>>>>>>>ctfc
22
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 6
(TF5, TF4, TF1, TF0)
>>>>>>>ctfc
59
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 7
(TF0, TF0, TF0, TF1)
>>>>>>>ctfc
60
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 8
(TF1, TF0, TF0, TF1)
>>>>>>>ctfc
61
>>>>>>>gainFactorInformation
computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 9
(TF2, TF1, TF0, TF1)
>>>>>>>ctfc
68
>>>>>>>gainFactorInformation
computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 10
(TF3, TF2, TF0, TF1)
>>>>>>>ctfc
75
>>>>>>>gainFactorInformation
computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 11
(TF4, TF3, TF0, TF1)
>>>>>>>ctfc
82
>>>>>>>gainFactorInformation
computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 12
(TF5, TF4, TF1, TF1)
>>>>>>>ctfc
119
>>>>>>>gainFactorInformation
signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
> TFC subset list

>>TFC subset 1
(speech rate 10.2)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC5, TFC7, TFC8, TFC6, TFC9, TFC10, TFC11, TFC12)
>>TFC subset 2
(speech rate 6.7)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC7, TFC8, TFC5, TFC9, TFC10, TFC11)
>>TFC subset 3
(speech rate 5.9)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC7, TFC8, TFC4, TFC9, TFC10)
>>TFC subset 4
(speech rate 4.75)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC7, TFC8, TFC3, TFC9)
dl-CommonTransChInfo

>tfcs-SignallingMode
Independent
>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
>dl-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc8Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFC 1
(TF0, TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>TFC 2
(TF1, TF0, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>TFC 3
(TF2, TF1, TF0, TF0, TF0)
>>>>>>>ctfc
8
>>>>>>TFC 4
(TF3, TF2, TF0, TF0, TF0)
>>>>>>>ctfc
15
>>>>>>TFC 5
(TF4, TF3, TF0, TF0, TF0)
>>>>>>>ctfc
22
>>>>>>TFC 6
(TF5, TF4, TF1, TF0, TF0)
>>>>>>>ctfc
59
>>>>>>TFC 7
(TF0, TF0, TF0, TF1, TF0)
>>>>>>>ctfc
60
>>>>>>TFC 8
(TF1, TF0, TF0, TF1, TF0)
>>>>>>>ctfc
61
>>>>>>TFC 9
(TF2, TF1, TF0, TF1, TF0)
>>>>>>>ctfc
68
>>>>>>TFC 10
(TF3, TF2, TF0, TF1, TF0)
>>>>>>>ctfc
75
>>>>>>TFC 11
(TF4, TF3, TF0, TF1, TF0)
>>>>>>>ctfc
82
>>>>>>TFC 12
(TF5, TF4, TF1, TF1, TF0)
>>>>>>>ctfc
119
>>>>>>TFC 13
(TF0, TF0, TF0, TF0, TF1)
>>>>>>>ctfc
120
>>>>>>TFC 14
(TF1, TF0, TF0, TF0, TF1)
>>>>>>>ctfc
121
>>>>>>TFC 15
(TF2, TF1, TF0, TF0, TF1)
>>>>>>>ctfc
128
>>>>>>TFC 16
(TF3, TF2, TF0, TF0, TF1)
>>>>>>>ctfc
135
>>>>>>TFC 17
(TF4, TF3, TF0, TF0, TF1)
>>>>>>>ctfc
142
>>>>>>TFC 18
(TF5, TF4, TF1, TF0, TF1)
>>>>>>>ctfc
179
>>>>>>TFC 19
(TF0, TF0, TF0, TF1, TF1)
>>>>>>>ctfc
180
>>>>>>TFC 20
(TF1, TF0, TF0, TF1, TF1)
>>>>>>>ctfc
181
>>>>>>TFC 21
(TF2, TF1, TF0, TF1, TF1)
>>>>>>>ctfc
188
>>>>>>TFC 22
(TF3, TF2, TF0, TF1, TF1)
>>>>>>>ctfc
195
>>>>>>TFC 23
(TF4, TF3, TF0, TF1, TF1)
>>>>>>>ctfc
202
>>>>>>TFC 24
(TF5, TF4, TF1, TF1, TF1)
>>>>>>>ctfc
239
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.88
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
Fixed
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.60
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.60
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frame Related
>>tfci-Coding
16
>>puncturingLimit
0.64
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frame Related
>>>tfci-Coding
16
>>>puncturingLimit
0.64
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.13	Default configuration 7.4/6.7/5.9/4.75 kbps speech & 3.4 kbps signalling & 0.15 kbps SRB#5
Parameters
Value
Ref 34.108
7a
Default configuration identity
12
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB6: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB6: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5- RB6: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB6: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5- RB6: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB6: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB6: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB6: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB6: TM
RB7: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB7: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB7: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 3
RB5: 1, RB6: 2
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB6: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB6: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB6: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 3
RB5: 1, RB6: 2, RB7:4
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x61)
TrCH2: (0x 87)
TrCH3: (0x 144, 1x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 61
TrCH2: type 1: 87
TrCH3: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-2: Zero
TrCH3: Zero, one
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x39)
TrCH2: (1x53)
TrCH3: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCH2: One
>>>>rlc-Size
TrCH1-2: BitMode
>>>>>sizeType
TrCH1: 1: 39
TrCH1: 1: 53
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 2
TrCH1: (1x42)
TrCH2: (1x63)
TrCH3: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 42
TrCH2: type 1: 63
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 3
TrCH1: (1x55)
TrCH2: (1x76)
TrCH3: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 55
TrCH2: type 1: 76
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 4
TrCH1: (1x58)
TrCH2: (1x87)
TrCH3: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 58
TrCH2: type 1: 87
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 5
TrCH1: (1x61)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 61
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semistaticTF-Information

>>>tti
TrCH1- TrCH2: 20
TrCH3: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH2: Third
TrCH3: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 160
>>>crc-Size
TrCH1: 12
TrCH2: 0
TrCH3: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity 
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4
>tfs-SignallingMode
Independent
<Only tf0 on TrCH1 and tf0/tf1 on TrCH4 are different and shown below>
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
TrCH4: (0x3, 1x3)
>>>>rlcSize
bitMode
>>>>>sizeType
TrCH1: type 1: 0
TrCH4: type 1: 3
>>>>numberOfTbSizeList
TrCH1: One
TrCH4: Zero, one
>>>>logicalChannelList
All
>>>semistaticTF-Information
same as UL except for TrCH4
>>>>tti
TrCH4: 20
>>>>channelCodingType
Convolutional
>>>>>codingRate
TrCH4: Third
>>>>rateMatchingAttribute
TrCH4: 200
>>>>crc-Size
TrCH4: 12
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2- TrCH4: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc6Bit
>>>>TFCS representation
Addition
>>>>>TFC list

>>>>>>TFC 1
(TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 2
(TF1, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFC 3
(TF2, TF1, TF0)
>>>>>>>ctfc
8
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 4
(TF3, TF2, TF0)
>>>>>>>ctfc
15
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 5
(TF4, TF3, TF0)
>>>>>>>ctfc
22
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 6
(TF5, TF4, TF0)
>>>>>>>ctfc
29
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 7
(TF0, TF0, TF1)
>>>>>>>ctfc
30
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 8
(TF1, TF0, TF1)
>>>>>>>ctfc
31
>>>>>>>gainFactorInformation
computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 9
(TF2, TF1, TF1)
>>>>>>>ctfc
38
>>>>>>>gainFactorInformation
computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 10
(TF3, TF2, TF1)
>>>>>>>ctfc
45
>>>>>>>gainFactorInformation
computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 11
(TF4, TF3, TF1)
>>>>>>>ctfc
52
>>>>>>>gainFactorInformation
computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 12
(TF5, TF4, TF1)
>>>>>>>ctfc
59
>>>>>>>gainFactorInformation
signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
> TFC subset list

>>TFC subset 1
(speech rate 7.4)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC5, TFC7, TFC8, TFC6, TFC9, TFC10, TFC11, TFC12)
>>TFC subset 2
(speech rate 6.7)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC7, TFC8, TFC5, TFC9, TFC10, TFC11)
>>TFC subset 3
(speech rate 5.9)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC7, TFC8, TFC4, TFC9, TFC10)
>>TFC subset 4
(speech rate 4.75)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC7, TFC8, TFC3, TFC9)
dl-CommonTransChInfo

>tfcs-SignallingMode
Independent
>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
>dl-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc8Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFC 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>TFC 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>TFC 3
(TF2, TF1, TF0, TF0)
>>>>>>>ctfc
8
>>>>>>TFC 4
(TF3, TF2, TF0, TF0)
>>>>>>>ctfc
15
>>>>>>TFC 5
(TF4, TF3, TF0, TF0)
>>>>>>>ctfc
22
>>>>>>TFC 6
(TF5, TF4, TF0, TF0)
>>>>>>>ctfc
29
>>>>>>TFC 7
(TF0, TF0, TF1, TF0)
>>>>>>>ctfc
30
>>>>>>TFC 8
(TF1, TF0, TF1, TF0)
>>>>>>>ctfc
31
>>>>>>TFC 9
(TF2, TF1, TF1, TF0)
>>>>>>>ctfc
38
>>>>>>TFC 10
(TF3, TF2, TF1, TF0)
>>>>>>>ctfc
45
>>>>>>TFC 11
(TF4, TF3, TF1, TF0)
>>>>>>>ctfc
52
>>>>>>TFC 12
(TF5, TF4, TF1, TF0)
>>>>>>>ctfc
59
>>>>>>TFC 13
(TF0, TF0, TF0, TF1)
>>>>>>>ctfc
60
>>>>>>TFC 14
(TF1, TF0, TF0, TF1)
>>>>>>>ctfc
61
>>>>>>TFC 15
(TF2, TF1, TF0, TF1)
>>>>>>>ctfc
68
>>>>>>TFC 16
(TF3, TF2, TF0, TF1)
>>>>>>>ctfc
75
>>>>>>TFC 17
(TF4, TF3, TF0, TF1)
>>>>>>>ctfc
82
>>>>>>TFC 18
(TF5, TF4, TF0, TF1)
>>>>>>>ctfc
89
>>>>>>TFC 19
(TF0, TF0, TF1, TF1)
>>>>>>>ctfc
90
>>>>>>TFC 20
(TF1, TF0, TF1, TF1)
>>>>>>>ctfc
91
>>>>>>TFC 21
(TF2, TF1, TF1, TF1)
>>>>>>>ctfc
98
>>>>>>TFC 22
(TF3, TF2, TF1, TF1)
>>>>>>>ctfc
105
>>>>>>TFC 23
(TF4, TF3, TF1, TF1)
>>>>>>>ctfc
112
>>>>>>TFC 24
(TF5, TF4, TF1, TF1)
>>>>>>>ctfc
119
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.88
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
Fixed
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.60
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.60
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frame Related
>>tfci-Coding
16
>>puncturingLimit
0.64
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frame Related
>>>tfci-Coding
16
>>>puncturingLimit
0.64
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.14	Default configuration 12.65/8.85/6.6 kbps speech & 3.4 kbps signalling & 0.15 kbps SRB#5
Parameters
Value
Ref 34.108
62
Default configuration identity
13
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7, RB8: 8
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 300
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>timerPollPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
RB8: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB7: N/A
RB8: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 for UEs with more than 10 kbyte "total RLC AM buffer size" and 32 otherwise
RB5- RB7: N/A
RB8: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
RB8: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: FALSE
>>>timerStatusPeriodic
RB2- RB3: 300
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
RB8: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 4
RB5: 1, RB6: 2, RB7: 3.
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 4
RB5: 1, RB6: 2, RB7: 3, RB8: 5
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
RB8: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3,  TrCH4: 4
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x72)
TrCH2: (0x 181)
TrCH3: (0x60)
TrCH4: (0x144, 1x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 72
TrCH2: type 2: part1= 6, part2= 5
TrCH3: type1: 60
TrCH4: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-3: Zero
TrCH4: Zero, one
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x40)
TrCH2: (1x 78)
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCH2: One
>>>>rlc-Size
TrCH1-2: BitMode
>>>>>sizeType
TrCH1: 1: 40
TrCH2: 1: 78
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 2
TrCH1: (1x54)
TrCH2: (1x113)
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 54
TrCH2: type 1: 113
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 3
TrCH1: (1x64)
TrCH2: (1x181)
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 64
TrCH2: type 2: part1=6, part2= 5
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 4
TrCH1: (1x72)
TrCH2: N/A
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 72
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semistaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH3: Third
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 256
TrCH4: 170
>>>crc-Size
TrCH1: 12
TrCH2: 0
TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity 
TrCH1: 1, TrCH2: 2, TrCH3: 3,  TrCH4: 4, TrCH5: 5
>tfs-SignallingMode
Independent
<Only tf0 on TrCH1 and tf0/tf1 on TrCH5 are different and shown below>
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
TrCH5: (0x3, 1x3)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 0
TrCH5: type 1: 3
>>>>numberOfTbSizeList
TrCH1: One
TrCH5: Zero, one
>>>>logicalChannelList
All
>>>semistaticTF-Information
same as UL except for TrCH5
>>>>tti
TrCH5: 20
>>>>channelCodingType
Convolutional
>>>>>codingRate
TrCH5: Third
>>>>rateMatchingAttribute
TrCH5: 205
>>>>crc-Size
TrCH5: 8
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 4, 
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2: Absent
TrCH3: Absent
TrCH4- TrCH5: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc6Bit
>>>>TFCS representation
Addition
>>>>>TFC list

>>>>>>TFC 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFC 3
(TF2, TF1, TF0, TF0)
>>>>>>>ctfc
7
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 4
(TF3, TF2, TF0, TF0)
>>>>>>>ctfc
13
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 5
(TF4, TF3, TF0, TF0)
>>>>>>>ctfc
19
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 6
(TF0, TF0, TF0, TF1)
>>>>>>>ctfc
20
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 7
(TF1, TF0, TF0, TF1)
>>>>>>>ctfc
21
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 8
(TF2, TF1, TF0, TF1)
>>>>>>>ctfc
27
>>>>>>>gainFactorInformation
computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 9
(TF3, TF2, TF0, TF1)
>>>>>>>ctfc
33
>>>>>>>gainFactorInformation
computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 10
(TF4, TF3, TF0, TF1)
>>>>>>>ctfc
39
>>>>>>>gainFactorInformation
signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
> TFC subset list

>>TFC subset 1
(speech rate 6.6)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC6, TFC7, TFC8)
>>TFC subset 2
(speech rate 8.85)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC6, TFC7, TFC8, TFC9)
>>TFC subset 3
(speech rate 12.65)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC5, TFC6, TFC7, TFC8, TFC9, TFC10)
dl-CommonTransChInfo

>tfcs-SignallingMode
Independent
ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
>dl-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc8Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFC 1
(TF0, TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>TFC 2
(TF1, TF0, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>TFC 3
(TF2, TF1, TF0, TF0, TF0)
>>>>>>>ctfc
7
>>>>>>TFC 4
(TF3, TF2, TF0, TF0, TF0)
>>>>>>>ctfc
13
>>>>>>TFC 5
(TF4, TF3, TF0, TF0, TF0)
>>>>>>>ctfc
19
>>>>>>TFC 6
(TF0, TF0, TF0, TF1, TF0)
>>>>>>>ctfc
20
>>>>>>TFC 7
(TF1, TF0, TF0, TF1, TF0)
>>>>>>>ctfc
21
>>>>>>TFC 8
(TF2, TF1, TF0, TF1, TF0)
>>>>>>>ctfc
27
>>>>>>TFC 9
(TF3, TF2, TF0, TF1, TF0)
>>>>>>>ctfc
33
>>>>>>TFC 10
(TF4, TF3, TF0,  TF1, TF0)
>>>>>>>ctfc
39
>>>>>>TFC 11
(TF0, TF0, TF0, TF0, TF1)
>>>>>>>ctfc
40
>>>>>>TFC 12
(TF1, TF0, TF0, TF0, TF1)
>>>>>>>ctfc
41
>>>>>>TFC 13
(TF2, TF1, TF0, TF0, TF1)
>>>>>>>ctfc
47
>>>>>>TFC 14
(TF3, TF2, TF0, TF0, TF1)
>>>>>>>ctfc
53
>>>>>>TFC 15
(TF4, TF3, TF0, TF0, TF1)
>>>>>>>ctfc
59
>>>>>>TFC 16
(TF0, TF0, TF0, TF1, TF1)
>>>>>>>ctfc
60
>>>>>>TFC 17
(TF1, TF0, TF0, TF1, TF1)
>>>>>>>ctfc
61
>>>>>>TFC 18
(TF2, TF1, TF0, TF1, TF1)
>>>>>>>ctfc
67
>>>>>>TFC 19
(TF3, TF2, TF0, TF1, TF1)
>>>>>>>ctfc
73
>>>>>>TFC 20
(TF4, TF3, TF0, TF1, TF1)
>>>>>>>ctfc
79
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.84
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
Fixed

13.7.15	Default configuration 12.2/7.4/5.9/4.75 kbps speech & 3.4 kbps signalling & 0.15 kbps SRB#5
Parameters
Value
Ref 34.108
4b
Default configuration identity
14
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7, RB8: 8
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 25
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 200
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>TimerPoll
RB2- RB3: 200
>>>PollPDU
RB2- RB3: n/a
>>>PollSDU
RB2- RB3: 1
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: TRUE
>>>PollWindow
RB2- RB3: 99
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
RB8: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB8: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB8: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB8: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: TRUE
>>segmentationIndication
RB1- RB3: N/A
RB5- RB8: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3.
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3, RB8: 5
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB8: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3,  TrCH4: 9
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x81)
TrCH2: (0x 103)
TrCH3: (0x60)
TrCH4: (0x144, 1x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 81
TrCH2: type 1: 103 
TrCH3: type1: 60
TrCH4: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-3: Zero
TrCH4: Zero, one
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x39)
TrCH2: (1x53)
TrCH3: (1x60)
TrCH4: (1x144)
>>>>numberOfTransportBlocks
TrCH1-3: One
>>>>rlc-Size
TrCH1-3: BitMode
>>>>>sizeType
TrCH1: 1: 39
TrCH2: 1: 53
TrCH3: 1: 60
>>>>numberOfTbSizeList
TrCH1-3: One
>>>>logicalChannelList
TrCH1-3: all
>>>tf 2
TrCH1: (1x42)
TrCH2: (1x63)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 42
TrCH2: type 1: 63
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 3
TrCH1: (1x55)
TrCH2: (1x87)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 55
TrCH2: type 1: 87
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 4
TrCH1: (1x61)
TrCH2: (1x103)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 61
TrCH2: type 1: 103
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 5
TrCH1: (1x81)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 81
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semiStaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH2: Third
TrCH3: Half
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 235
TrCH4: 160
>>>crc-Size
TrCH1: 12
TrCH2- TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type

>dl-TransportChannelIdentity 
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9, TrCH5: 5
>tfs-SignallingMode
Independent
<Only tf0 on TrCH1 and tf0/tf1 on TrCH5 are different and shown below>
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
TrCH5: (0x3, 1x3)
>>>>rlcSize
bitMode
>>>>>sizeType
TrCH1: type 1: 0
TrCH5: type 1: 3
>>>>numberOfTbSizeList
TrCH1: One
TrCH5: Zero, one
>>>>logicalChannelList
all
>>>semistaticTF-Information
same as UL except for TrCH5
>>>>tti
TrCH5: 20
>>>>channelCodingType
Convolutional
>>>>>codingRate
TrCH5: Third
>>>>rateMatchingAttribute
TrCH5: 205
>>>>crc-Size
TrCH5: 8
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2: Absent
TrCH3: Absent
TrCH4- TrCH5: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc8Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF2, TF1, TF0, TF0)
>>>>>>>ctfc
8
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF3, TF2, TF0, TF0)
>>>>>>>ctfc
15
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
(TF4, TF3, TF0, TF0)
>>>>>>>ctfc
22
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 6
(TF5, TF4, TF1, TF0)
>>>>>>>ctfc
59
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 7
(TF0,TF0,TF0,TF1)
>>>>>>>ctfc
60
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 8
(TF1,TF0,TF0,TF1)
>>>>>>>ctfc
61
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 9
(TF2,TF1,TF0,TF1)
>>>>>>>ctfc
68
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 10
(TF3,TF2,TF0,TF1)
>>>>>>>ctfc
75
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd 
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 11
(TF4,TF3,TF0,TF1)
>>>>>>>ctfc
82
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 12
(TF5,TF4,TF1,TF1)
>>>>>>>ctfc
119
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd 
15
>>>>>>>>referenceTFCId
0
> TFC subset list

>>TFC subset 1
(speech rate 4.75)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC7, TFC8, TFC9)
>>TFC subset 2
(speech rate 5.9)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC7, TFC8, TFC9, TFC10)
>>TFC subset 3
(speech rate 7.4)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC5, TFC7, TFC8, TFC9,
TFC10, TFC11)
>>TFC subset 4
(speech rate 12.2)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC5, TFC6, TFC7, TFC8, TFC9, TFC10, TFC11, TFC12)
dl-CommonTransChInfo

>tfcs-SignallingMode
Independent
ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
>dl-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc8Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFC 1
(TF0, TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>TFC 2
(TF1, TF0, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>TFC 3
(TF2, TF1, TF0, TF0, TF0)
>>>>>>>ctfc
8
>>>>>>TFC 4
(TF3, TF2, TF0, TF0, TF0)
>>>>>>>ctfc
15
>>>>>>TFC 5
(TF4, TF3, TF0, TF0, TF0)
>>>>>>>ctfc
22
>>>>>>TFC 6
(TF5,TF4,TF1,TF0,TF0)
>>>>>>>ctfc
59
>>>>>>TFC 7
(TF0, TF0, TF0, TF1, TF0)
>>>>>>>ctfc
60
>>>>>>TFC 8
(TF1, TF0, TF0, TF1, TF0)
>>>>>>>ctfc
61
>>>>>>TFC 9
(TF2, TF1, TF0, TF1, TF0)
>>>>>>>ctfc
68
>>>>>>TFC 10
(TF3, TF2, TF0, TF1, TF0)
>>>>>>>ctfc
75
>>>>>>TFC 11
(TF4, TF3, TF0,  TF1, TF0)
>>>>>>>ctfc
82
>>>>>>TFC 12
(TF5,TF4,TF1,TF1,TF0)
>>>>>>>ctfc
119
>>>>>>TFC 13
(TF0, TF0, TF0, TF0, TF1)
>>>>>>>ctfc
120
>>>>>>TFC 14
(TF1, TF0, TF0, TF0, TF1)
>>>>>>>ctfc
121
>>>>>>TFC 15
(TF2, TF1, TF0, TF0, TF1)
>>>>>>>ctfc
128
>>>>>>TFC 16
(TF3, TF2, TF0, TF0, TF1)
>>>>>>>ctfc
135
>>>>>>TFC 17
(TF4, TF3, TF0, TF0, TF1)
>>>>>>>ctfc
142
>>>>>>TFC 18
(TF5,TF4,TF1,TF0,TF1)
>>>>>>>ctfc
179
>>>>>>TFC 19
(TF0, TF0, TF0, TF1, TF1)
>>>>>>>ctfc
180
>>>>>>TFC 20
(TF1, TF0, TF0, TF1, TF1)
>>>>>>>ctfc
181
>>>>>>TFC 21
(TF2, TF1, TF0, TF1, TF1)
>>>>>>>ctfc
188
>>>>>>TFC 22
(TF3, TF2, TF0, TF1, TF1)
>>>>>>>ctfc
195
>>>>>>TFC 23
(TF4, TF3, TF0, TF1, TF1)
>>>>>>>ctfc
202
>>>>>>TFC 24
(TF5,TF4,TF1,TF1,TF1)
>>>>>>>ctfc
239
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.84
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
Fixed
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue

>commonTimeslotInfo

>>secondInterleavingMode

>>tfci-Coding

>>puncturingLimit

>>repetitionPeriodAndLength

DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode

>>>tfci-Coding

>>>puncturingLimit

>>>repetitionPeriodAndLength

PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode

>>tfci-Coding

>>puncturingLimit

>>repetitionPeriodAndLength

DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode

>>>tfci-Coding

>>>puncturingLimit

>>>repetitionPeriodAndLength


13.7.16	Default configuration 7.95 kbps speech & 3.4 kbps signalling
Parameters
Value
Ref 34.108
6
Default configuration identity
15
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 25
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 200
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>TimerPoll
RB2- RB3: 200
>>>PollPDU
RB2- RB3: n/a
>>>PollSDU
RB2- RB3: 1
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: TRUE
>>>PollWindow
RB2- RB3: 99
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB7: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: TRUE
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3:3, TrCH4: 9
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x75)
TrCH2: (0x 84 1x84)
TrCH3: (0x 60)
TrCH4: (0x144, 1x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 75
TrCH2: type 1: 84
TrCH3: type 1: 60
TrCH4: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero
TrCH2-4: Zero, one
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x39)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: 1: 39
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>>tf 2
TrCH1: (1x75)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 75
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semistaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH2: Third
TrCH3: Half
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 235
TrCH4: 160
>>>crc-Size
TrCH1: 12
TrCH2-TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
Dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9
>tfs-SignallingMode
Explicit
<Only tf0 on TrCH1 is different and shown below>
>>transportFormatSet
DedicatedTransChTFS
>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 0
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
All
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3:3, TrCH4: 9
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2- TrCH4: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc4Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 3
(TF2, TF1, TF0, TF0)
>>>>>>>ctfc
5
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 4
(TF0, TF0, TF0, TF1)
>>>>>>>ctfc
6
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 5
(TF1, TF0, TF0, TF1)
>>>>>>>ctfc
7
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 6
(TF2, TF1, TF0, TF1)
>>>>>>>ctfc
11
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.96
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
Fixed
PhyCH INFORMATION 3.84/7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.52
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.52
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
16
>>puncturingLimit
0.80
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
16
>>>puncturingLimit
0.80
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.17	Default configuration 12.65/8.85/6.6 kbps speech & 3.4 kbps signalling (without SRB#5)
Parameters
Value
Ref 25.993
7.1.106
Default configuration identity
16
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7, 
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 25
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 200
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>TimerPoll
RB2- RB3: 200
>>>PollPDU
RB2- RB3: n/a
>>>PollSDU
RB2- RB3: 1
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: TRUE
>>>PollWindow
RB2- RB3: 99
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB7: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: TRUE
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3.
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3,
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
Dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x72)
TrCH2: (0x 181)
TrCH3: (0x60)
TrCH4: (0x144, 1x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 72
TrCH2: type 2: part1= 6, part2= 5
TrCH3: type1: 60
TrCH4: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-3: Zero
TrCH4: Zero, one
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x40)
TrCH2: (1x 78)
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCH2: One
>>>>rlc-Size
TrCH1-2: BitMode
>>>>>sizeType
TrCH1: 1: 40
TrCH2: 1: 78
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 2
TrCH1: (1x54)
TrCH2: (1x113)
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 54
TrCH2: type 1: 113
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 3
TrCH1: (1x64)
TrCH2: (1x181)
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 64
TrCH2: type 2: part1=6, part2= 5
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 4
TrCH1: (1x72)
TrCH2: N/A
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 72
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semistaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH3: Third
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 256
TrCH4: 170
>>>crc-Size
TrCH1: 12
TrCH2: 0
TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
Dch
>dl-TransportChannelIdentity 

>tfs-SignallingMode
Independent
<Only tf0 on TrCH1 is different and shown below>
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 0
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
All
>>>semistaticTF-Information
same as UL 
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9, 
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2: Absent
TrCH3: Absent
TrCH4: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc6Bit
>>>>TFCS representation
Addition
>>>>>TFC list

>>>>>>TFC 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFC 3
(TF2, TF1, TF0, TF0)
>>>>>>>ctfc
7
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 4
(TF3, TF2, TF0, TF0)
>>>>>>>ctfc
13
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 5
(TF4, TF3, TF0, TF0)
>>>>>>>ctfc
19
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 6
(TF0, TF0, TF0, TF1)
>>>>>>>ctfc
20
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 7
(TF1, TF0, TF0, TF1)
>>>>>>>ctfc
21
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 8
(TF2, TF1, TF0, TF1)
>>>>>>>ctfc
27
>>>>>>>gainFactorInformation
computed
>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId
0
>>>>>>TFC 9
(TF3, TF2, TF0, TF1)
>>>>>>>ctfc
33
>>>>>>>gainFactorInformation
computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 10
(TF4, TF3, TF0, TF1)
>>>>>>>ctfc
39
>>>>>>>gainFactorInformation
signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
> TFC subset list

>>TFC subset 1
(speech rate 6.6)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC6, TFC7, TFC8)
>>TFC subset 2
(speech rate 8.85)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC6, TFC7, TFC8, TFC9)
>>TFC subset 3
(speech rate 12.65)
>>> Allowed transport format combination list
(TFC1, TFC2, TFC3, TFC4, TFC5, TFC6, TFC7, TFC8, TFC9, TFC10)
dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.84
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
Fixed

13.7.18	Default configuration Signalling on E-DCH on UL depending based on minimum E-DCH UE category & Signalling on HS-DSCH based minimum HS-DSCH UE category
Parameters
Value
Ref 25.993
7.5.10
Default configuration identity
17
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
>>>maxDat
RB1: N/A
RB2- RB3: 25
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 
>>timerRST
RB1: N/A
RB2- RB3: 200
>>max-RST
RB1: N/A
RB2- RB3: 1
>>pollingInfo
RB1: N/A
RB2- RB3: as below
>>>TimerPoll
RB2- RB3: 100
>>>PollPDU
RB2- RB3: n/a
>>>PollSDU
RB2- RB3: 1
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>PollWindow
RB2- RB3: 99
>>segmentationIndication
RB1- RB3: N/A
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
>>DL RLC PDU size
RB1-RB3: 144
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: TRUE
>>segmentationIndication
RB1- RB3: N/A
>>dl-UM-RLC-LI-size
7
Rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>UplinkTransport ChannelTypeChoice

>>ul-TransportChannelType
E-DCH
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
>>>E-DCH MAC-d flow identity 
RB1-RB3:0
>>>DDI
RB1: 1, RB2: 2, RB3: 3
>>>>RLC PDU size
144
>>>Include in Scheduling Info
FALSE
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
>DL-logicalChannelMappings
OneLogicalChannel
>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
HS-DSCH
>>>>Mac-d flow identity
RB1- RB3: 0
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
E-DCH
>UL Transport channel identity

> UL-ParametersChoice

>> E-DCH Transmission Time Interval
10
>> HARQ info for E-DCH

>>> HARQ RV Configuration
Rvtable
>> Added or reconfigured E-DCH MAC-d flow
One MAC-d flow
>>> E-DCH MAC-d  flow identity
0
>>> E-DCH MAC-d flow power offset
4
>>> E-DCH MAC-d flow maximum number of  retransmissions
5
>>> E-DCH MAC-d flow multiplexing list
0
>>> transmission grant typeChoice

>>>> Non-scheduled transmission grant info
Non-scheduled
>>>>> Max MAC-e PDU contents size
162
DL-AddReconfTransChInfoList

>Downlink transport channel type
HS-DSCH
>DL-ParametersChoice

>>HARQ Info

>>>Number of Processes 
6
>>>Memory PartitioningChoice

>>>>Implicit

>>Added or reconfigured MAC-d flow

>>> MAC-hs queue to add or reconfigure list

>>>>MAC-hs queue Id
0
>>>>MAC-d Flow Identity
0
>>>>T1
100
>>>>MAC-hs window size
12
>>>>MAC-d PDU size info

>>>>>MAC-d PDU size
148
>>>>>MAC-d PDU size index
0
TrCH INFORMATION, COMMON
Null

13.7.19	Default configuration 12.2 kbps speech &13.6 kbps signalling
Parameters
Value
Ref 25.993
7.1.131
Default configuration identity
18
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 200
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>TimerPoll
RB2- RB3: 100
>>>PollPDU
RB2- RB3: n/a
>>>PollSDU
RB2- RB3: 1
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: TRUE
>>>PollWindow
RB2- RB3: 99
>>>timerPollPeriodic
RB2- RB3: n/a
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB7: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: TRUE
>>>timerStatusPeriodic
RB2- RB3: n/a
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x81)
TrCH2: (0x 103, 1x103)
TrCH3: (0x 60, 1x60)
TrCH4: (0x144, 1x144, 2x144, 3x144, 4x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 81
TrCH2: type 1: 103
TrCH3: type 1: 60
TrCH4: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero
TrCH2-3: Zero, One 
TrCH4: Zero, one, 2, 3, 4
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x39)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: 1: 39
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>>tf 2
TrCH1: (1x81)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 81
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>>tf 3

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 4

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 5

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>semistaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH2: Third
TrCH3: Half
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 235
TrCH4: 160
>>>crc-Size
TrCH1: 12
TrCH2- TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9
>tfs-SignallingMode
Explicit
<Only tf0 on TrCH1 is different and shown below>
>>transportFormatSet
DedicatedTransChTFS
>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
>>>>rlcSize
bitMode
>>>>>sizeType
TrCH1: type 1: 0
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
All
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2- TrCH4: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc6Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFC 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 3
(TF2, TF1, TF1, TF0)
>>>>>>>ctfc
11
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 4
(TF0, TF0, TF0, TF1)
>>>>>>>ctfc
12
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 5
(TF1, TF0, TF0, TF1)
>>>>>>>ctfc
13
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 6
(TF2, TF1, TF1, TF1)
>>>>>>>ctfc
23
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
10
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFC 7
(TF0, TF0, TF0, TF2)
>>>>>>>ctfc
24
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 8
(TF1, TF0, TF0, TF2)
>>>>>>>ctfc
25
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 9
(TF0, TF0, TF0, TF3)
>>>>>>>ctfc
36
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 10
(TF1, TF0, TF0, TF3)
>>>>>>>ctfc
37
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 11
(TF0, TF0, TF0, TF4)
>>>>>>>ctfc
48
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 12

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId

>>>>>>TFC 13

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFC 14

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFC 15

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFC 16

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFC 17

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.84
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
TRUE
>>pilotBits
4
>>positionFixed
Flexible

13.7.20	Default configuration 12.2/7.95/5.9/4.75 kbps speech & 13.6 kbps signalling
Parameters
Value
Ref 25.993
7.1.132
Default configuration identity
19
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 15
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 200
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>TimerPoll
RB2- RB3: 100
>>>PollPDU
RB2- RB3: n/a
>>>PollSDU
RB2- RB3: 1
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: TRUE
>>>PollWindow
RB2- RB3: 99
>>>timerPollPeriodic
RB2- RB3: n/a
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB7: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: TRUE
>>>timerStatusPeriodic
RB2- RB3: n/a
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x 81)
TrCH2: (0x 103)
TrCH3: (0x 60)
TrCH4: (0x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 81
TrCH2: type 1: 103
TrCH3: type 1: 60
TrCH4: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-4: Zero
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x39)
TrCH2: (1x53)
TrCH3: (1x60)
TrCH4: (1x144, 2x144, 3x144, 4x144)
>>>>numberOfTransportBlocks
TrCH1-3: One
TrCH4: One, 2, 3, 4
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: 1: 39
TrCH2: 1: 53
TrCH3: 1: 60
TrCH4: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>>tf 2
TrCH1: (1x42)
TrCH2: (1x63)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 42
TrCH2: type 1: 63
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>>tf 3
TrCH1: (1x55)
TrCH2: (1x84)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 55
TrCH2: type 1: 84
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 4
TrCH1: (1x75)
TrCH2: (1x103)
TrCH3- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1-2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 75
TrCH2: type 1: 103
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 5
TrCH1: (1x81)
TrCH2- TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 81
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semistaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH2: Third
TrCH3: Half
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 235
TrCH4: 160
>>>crc-Size
TrCH1: 12
TrCH2- TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9
>tfs-SignallingMode
Explicit
<Only tf0 on TrCH1 is different and shown below>
>>transportFormatSet
DedicatedTransChTFS
>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
>>>>rlcSize
bitMode
>>>>>sizeType
TrCH1: type 1: 0
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
All
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2- TrCH4: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc8Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFC 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 3
(TF2, TF1, TF0, TF0)
>>>>>>>ctfc
8
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 4
(TF3, TF2, TF0, TF0)
>>>>>>>ctfc
15
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 5
(TF4, TF3, TF0, TF0)
>>>>>>>ctfc
22
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 6
(TF5, TF4, TF1, TF0)
>>>>>>>ctfc
59
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFC 7
(TF0,TF0,TF0,TF1)
>>>>>>>ctfc
60
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 8
(TF1,TF0,TF0,TF1)
>>>>>>>ctfc
61
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 9
(TF2,TF1,TF0,TF1)
>>>>>>>ctfc
68
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 10
(TF3,TF2,TF0,TF1)
>>>>>>>ctfc
75
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 11
(TF4,TF3,TF0,TF1)
>>>>>>>ctfc
82
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 12
(TF5,TF4,TF1,TF1)
>>>>>>>ctfc
119
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
10
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFC 13
(TF0,TF0,TF0,TF2)
>>>>>>>ctfc
120
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 14
(TF1, TF0, TF0, TF2)
>>>>>>>ctfc
121
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 15
(TF0,TF0,TF0,TF3)
>>>>>>>ctfc
180
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 16
(TF1, TF0, TF0, TF3)
>>>>>>>ctfc
181
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 17
(TF0,TF0,TF0,TF4)
>>>>>>>ctfc
240
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.84
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
TRUE
>>pilotBits
4
>>positionFixed
Flexible

13.7.21	Default configuration 64 kbps conversation CS-data & 13.6 kbps signalling
Parameter
Value
Ref 25.993
7.1.133
Default configuration identity
20
RB INFORMATION

Rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 25
RB5: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 32
RB5: N/A
>>timerRST
RB1: N/A
RB2- RB3: 200
RB5: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>TimerPoll
RB2- RB3: 100
>>>PollPDU
RB2- RB3: n/a
>>>PollSDU
RB2- RB3: 1
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: TRUE
>>>PollWindow
RB2- RB3: 99
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 32
RB5: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: TRUE
>>segmentationIndication
RB1- RB3: N/A
RB5: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 9
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1,2,3,4
TrCH1: (0x640, 2x640)
TrCH2: (0x144, 1x144, 2x144, 3x144, 4x144)
>>>>rlcSize
TrCH1: OctetMode
TrCH2:BitMode
>>>>>sizeType
TrCH1: type 2, part1= 11, part2= 2 (640)
TrCH2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero, 2 
TrCH2: Zero, one, 2, 3, 4
>>>>logicalChannelList
All
>>>tf 1

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 2

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 3

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 4

>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>semistaticTF-Information

>>>tti
TrCH1: 20
TrCH2: 40
>>>channelCodingType
TrCH1: Turbo
TrCH2: Convolutional
>>>>codingRate
TrCH1: N/A
TrCH2: Third
>>>rateMatchingAttribute
TrCH1: 170
TrCH2: 160
>>>crc-Size
TrCH1: 16
TrCH2: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
dch
>dl-TransportChannelIdentity 
TrCH1: 1, TrCH2: 9
>tfs-SignallingMode
SameAsUL
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1

>>>>rlcSize

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>semistaticTF-Information

>>ULTrCH-Id
TrCH1: 1, TrCH2: 9
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 2x10-3
TrCH2: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc4Bit
>>>>TFCS representation
Addition
>>>>>TFC list

>>>>>>TFC 1
(TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 2
(TF1, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFC 3
(TF0, TF1)
>>>>>>>ctfc
2
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 4
(TF1, TF1)
>>>>>>>ctfc
3
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
8
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFC 5
(TF0, TF2)
>>>>>>>ctfc
4
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 6
(TF0, TF3)
>>>>>>>ctfc
6
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 7
(TF0, TF4)
>>>>>>>ctfc
8
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 8

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFC 9

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFC 10

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>bc (FDD only)

>>>>>>>>bd

>>>>>>>>referenceTFCId

>>>>>>TFC 11

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFC 12

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFC 13

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFC 14

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

>>>>>>TFC 15

>>>>>>>ctfc

>>>>>>>gainFactorInformation

>>>>>>>>referenceTFCId

dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
ul-CommonTransChInfo

>tfcs-ID (TDD only)

>sharedChannelIndicator (TDD only)

> tfc-Subset

PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.88
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
32
>>tfci-Existence
TRUE
>>pilotBits
8
>>positionFixed
Flexible
PhyCH INFORMATION 3.84 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue

>commonTimeslotInfo

>>secondInterleavingMode

>>tfci-Coding

>>puncturingLimit

>>repetitionPeriodAndLength

DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode

>>>tfci-Coding

>>>puncturingLimit

>>>repetitionPeriodAndLength

PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode

>>tfci-Coding

>>puncturingLimit

>>repetitionPeriodAndLength

DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode

>>>tfci-Coding

>>>puncturingLimit

>>>repetitionPeriodAndLength


13.7.22	Default configuration 12.65/8.85/6.6 kbps speech & 13.6 kbps signalling (without SRB#5)
Parameters
Value
Ref 25.993
7.1.134
Default configuration identity
21
RB INFORMATION

Rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB5: 5, RB6: 6, RB7: 7, 
rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5-RB7: TM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
RB5- RB7: N/A
>>>maxDat
RB1: N/A
RB2- RB3: 25
RB5- RB7: N/A
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>timerRST
RB1: N/A
RB2- RB3: 200
RB5- RB7: N/A
>>max-RST
RB1: N/A
RB2- RB3: 1
RB5- RB7: N/A
>>pollingInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>TimerPoll
RB2- RB3: 100
>>>PollPDU
RB2- RB3: n/a
>>>PollSDU
RB2- RB3: 1
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: TRUE
>>>PollWindow
RB2- RB3: 99
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
RB5- RB7: TM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
RB5- RB7: N/A
>>receivingWindowSize
RB1: N/A
RB2- RB3: 32
RB5- RB7: N/A
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
RB5- RB7: N/A
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: TRUE
>>segmentationIndication
RB1- RB3: N/A
RB5- RB7: FALSE
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3.
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
>>rlc-SizeList
RB1- RB3: configured
RB5- RB7: N/A
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: 5
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 9
RB5: 1, RB6: 2, RB7: 3,
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
RB5- RB7: N/A
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
Dch
>transportChannelIdentity
TrCH1: 1, TrCH2: 2, TrCH3: 3,  TrCH4: 9
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1,2,3,4
TrCH1: (0x72)
TrCH2: (0x 181)
TrCH3: (0x60)
TrCH4: (0x144, 1x144, 2x144, 3x144, 4x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 72
TrCH2: type 2: part1= 6, part2= 5
TrCH3: type1: 60
TrCH4: 2: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1-3: Zero
TrCH4: Zero, one, 2, 3, 4
>>>>logicalChannelList
All
>>>tf 1
TrCH1: (1x40)
TrCH2: (1x 78)
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCH2: One
>>>>rlc-Size
TrCH1-2: BitMode
>>>>>sizeType
TrCH1: 1: 40
TrCH2: 1: 78
>>>>numberOfTbSizeList
TrCH1-2: One
>>>>logicalChannelList
TrCH1: all
>>>tf 2
TrCH1: (1x54)
TrCH2: (1x113)
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 54
TrCH2: type 1: 113
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 3
TrCH1: (1x64)
TrCH2: (1x181)
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
TrCh2: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 64
TrCH2: type 2: part1=6, part2= 5
>>>>numberOfTbSizeList
TrCH1: One
TrCH2: One
>>>>logicalChannelList
TrCH1: all
TrCH2: all
>>>tf 4
TrCH1: (1x72)
TrCH2: N/A
TrCH3: N/A
TrCH4: N/A
>>>>numberOfTransportBlocks
TrCH1: One
>>>>rlc-Size
TrCH1: BitMode
>>>>>sizeType
TrCH1: type 1: 72
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
TrCH1: all
>>semistaticTF-Information

>>>tti
TrCH1- TrCH3: 20
TrCH4: 40
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1- TrCH3: Third
TrCH4: Third
>>>rateMatchingAttribute
TrCH1: 200
TrCH2: 190
TrCH3: 256
TrCH4: 170
>>>crc-Size
TrCH1: 12
TrCH2: 0
TrCH3: 0
TrCH4: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
Dch
>dl-TransportChannelIdentity 

>tfs-SignallingMode
Independent
<Only tf0 on TrCH1 is different and shown below>
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1
TrCH1: (1x0)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 1: 0
>>>>numberOfTbSizeList
TrCH1: One
>>>>logicalChannelList
All
>>>semistaticTF-Information
same as UL 
>>ULTrCH-Id
TrCH1: 1, TrCH2: 2, TrCH3: 3, TrCH4: 9, 
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 7x10-3
TrCH2: Absent
TrCH3: Absent
TrCH4: Absent
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc6Bit
>>>>TFCS representation
Addition
>>>>>TFC list

>>>>>>TFC 1
(TF0, TF0, TF0, TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 2
(TF1, TF0, TF0, TF0)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFC 3
(TF2, TF1, TF0, TF0)
>>>>>>>ctfc
7
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 4
(TF3, TF2, TF0, TF0)
>>>>>>>ctfc
13
>>>>>>>gainFactorInformation
Computed
>>>>>>>>bc (FDD only)
N/A
>>>>>>>>bd
N/A
>>>>>>>>referenceTFCId
0
>>>>>>TFC 5
(TF4, TF3, TF0, TF0)
>>>>>>>ctfc
19
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 6
(TF0, TF0, TF0, TF1)
>>>>>>>ctfc
20
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 7
(TF1, TF0, TF0, TF1)
>>>>>>>ctfc
21
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 8
(TF2, TF1, TF0, TF1)
>>>>>>>ctfc
27
>>>>>>>gainFactorInformation
computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 9
(TF3, TF2, TF0, TF1)
>>>>>>>ctfc
33
>>>>>>>gainFactorInformation
computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 10
(TF4, TF3, TF0, TF1)
>>>>>>>ctfc
39
>>>>>>>gainFactorInformation
signalled
>>>>>>>>bc (FDD only)
10
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
>>>>>>TFC 11
(TF0, TF0, TF0, TF2)
>>>>>>>ctfc
40
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 12
(TF1, TF0, TF0, TF2)
>>>>>>>ctfc
41
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 13
(TF0, TF0, TF0, TF3)
>>>>>>>ctfc
60
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 14
(TF1, TF0, TF0, TF3)
>>>>>>>ctfc
61
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFC 15
(TF0, TF0, TF0, TF4)
>>>>>>>ctfc
80
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
> tfc-Subset
Absent, not required
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
0.84
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
TRUE
>>pilotBits
4
>>positionFixed
Flexible
PhyCH INFORMATION 3.84 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue

>commonTimeslotInfo

>>secondInterleavingMode

>>tfci-Coding

>>puncturingLimit

>>repetitionPeriodAndLength

DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode

>>>tfci-Coding

>>>puncturingLimit

>>>repetitionPeriodAndLength

PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode

>>tfci-Coding

>>puncturingLimit

>>repetitionPeriodAndLength

DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode

>>>tfci-Coding

>>>puncturingLimit

>>>repetitionPeriodAndLength


13.7.23	Default configuration 13.6 kbps signalling
Parameter
Value
Ref 34.108
3
Default configuration identity
22
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3

rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
>>>maxDat
RB1: N/A
RB2- RB3: 25
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 32
>>timerRST
RB1: N/A
RB2- RB3: 200
>>max-RST
RB1: N/A
RB2- RB3: 1
>>pollingInfo
RB1: N/A
RB2- RB3: as below
>>>TimerPoll
RB2- RB3: 100
>>>PollPDU
RB2- RB3: n/a
>>>PollSDU
RB2- RB3: 1
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: TRUE
>>>PollWindow
RB2- RB3: 99
>>segmentationIndication
RB1- RB3: N/A
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
>>receivingWindowSize
RB1: N/A
RB2- RB3: 32
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: TRUE
>>segmentationIndication
RB1- RB3: N/A
rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>ul-TransportChannelType
Dch
>>>transportChannelIdentity
RB1- RB3:9
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
>>rlc-SizeList
RB1- RB3: configured
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
>DL-logicalChannelMappingList

>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
Dch
>>>>transportChannelIdentity
RB1- RB3: 9
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
Dch
>transportChannelIdentity
TrCH1: 9
>transportFormatSet
DedicatedTransChTFS
>>dynamicTF-information

>>>tf0/ tf0,1
TrCH1: (0x144, 1x144)
>>>>rlcSize
BitMode
>>>>>sizeType
TrCH1: type 2, part1= 2, part2= 0 (144)
>>>>numberOfTbSizeList
TrCH1: Zero, one
>>>>logicalChannelList
All
>>>tf 1
N/A
>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>>tf 2
N/A
>>>>numberOfTransportBlocks

>>>>rlc-Size

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>semistaticTF-Information

>>>tti
TrCH1: 10
>>>channelCodingType
Convolutional
>>>>codingRate
TrCH1: Third
>>>rateMatchingAttribute
TrCH1: 160
>>>crc-Size
TrCH1: 16
DL-AddReconfTransChInfoList

>Downlink transport channel type
Dch
>dl-TransportChannelIdentity (should be as for UL)
TrCH1: 9
>tfs-SignallingMode
SameAsUL
>>transportFormatSet

>>>dynamicTF-information

>>>>tf0/ tf0,1

>>>>rlcSize

>>>>>sizeType

>>>>numberOfTbSizeList

>>>>logicalChannelList

>>ULTrCH-Id
TrCH1: 9
>dch-QualityTarget

>>bler-QualityValue
TrCH1: 1x10-2
TrCH INFORMATION, COMMON

ul-CommonTransChInfo

>tfcs-ID (TDD only)
1
>sharedChannelIndicator (TDD only)
FALSE
>tfc-Subset
Absent, not required
>ul-TFCS
Normal TFCI signalling 
>>explicitTFCS-ConfigurationMode
Complete
>>>ctfcSize
Ctfc2Bit
>>>>TFCS representation
Addition
>>>>>TFCS list

>>>>>>TFCS 1
(TF0)
>>>>>>>ctfc
0
>>>>>>>gainFactorInformation
Computed
>>>>>>>>referenceTFCId
0
>>>>>>TFCS 2
(TF1)
>>>>>>>ctfc
1
>>>>>>>gainFactorInformation
Signalled
>>>>>>>>bc (FDD only)
11
>>>>>>>>bd
15
>>>>>>>>referenceTFCId
0
dl-CommonTransChInfo

>tfcs-SignallingMode
Same as UL
PhyCH INFORMATION FDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>powerControlAlgorithm
Algorithm 1
>>>tpcStepSize
1 dB
>tfci-Existence
TRUE
>puncturingLimit
1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>spreadingFactor
128
>>tfci-Existence
FALSE
>>pilotBits
4
>>positionFixed
N/A
PhyCH INFORMATION 3.84 / 7.68 Mcps TDD

UL-DPCH-InfoPredef

>ul-DPCH-PowerControlInfo

>>dpch-ConstantValue
0
>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
8
>>puncturingLimit
0.92
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
8
>>>puncturingLimit
0.92
>>>repetitionPeriodAndLength
repetitionPeriod1
PhyCH INFORMATION 1.28 Mcps TDD 

UL-DPCH-InfoPredef

>commonTimeslotInfo

>>secondInterleavingMode
frameRelated
>>tfci-Coding
8
>>puncturingLimit
0.64
>>repetitionPeriodAndLength
repetitionPeriod1
DL-CommonInformationPredef

>dl-DPCH-InfoCommon

>>commonTimeslotInfo

>>>secondInterleavingMode
frameRelated
>>>tfci-Coding
8
>>>puncturingLimit
0.64
>>>repetitionPeriodAndLength
repetitionPeriod1

13.7.24	Default configuration Signalling on E-DCH & HS-DSCH; Scheduled
Parameter
Value
Ref 25.993
-
Default configuration identity
23
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3

rlc-InfoChoice
Rlc-info
>ul-RLC-Mode
RB1: UM
RB2- RB3: AM
>>transmissionRLC-DiscardMode
RB1: N/A
RB2- RB3: NoDiscard
>>>maxDat
RB1: N/A
RB2- RB3: 25
>>transmissionWindowSize
RB1: N/A
RB2- RB3: 128 
>>timerRST
RB1: N/A
RB2- RB3: 200
>>max-RST
RB1: N/A
RB2- RB3: 1
>>pollingInfo
RB1: N/A
RB2- RB3: as below
>>>TimerPoll
RB2- RB3: 100
>>>PollPDU
RB2- RB3: n/a
>>>PollSDU
RB2- RB3: 1
>>>lastTransmissionPDU-Poll
RB2- RB3: FALSE
>>>lastRetransmissionPDU-Poll
RB2- RB3: FALSE
>>>PollWindow
RB2- RB3: 99
>>segmentationIndication
RB1- RB3: N/A
>dl-RLC-Mode
RB1: UM
RB2- RB3: AM
>>DL RLC PDU size
RB1-RB3: 144
>>inSequenceDelivery
RB1: N/A
RB2- RB3: TRUE
>>receivingWindowSize
RB1: N/A
RB2- RB3: 128 
>>dl-RLC-StatusInfo
RB1: N/A
RB2- RB3: as below
>>>timerStatusProhibit
RB2- RB3: 100
>>>missingPDU-Indicator
RB2- RB3: TRUE
>>segmentationIndication
RB1- RB3: N/A
>>dl-UM-RLC-LI-size
7
Rb-MappingInfo

>UL-LogicalChannelMappings
OneLogicalChannel
>>UplinkTransport ChannelTypeChoice

>>ul-TransportChannelType
E-DCH
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
>>>E-DCH MAC-d flow identity 
RB1-RB3: 6
>>>DDI
RB1: 1, RB2: 2, RB3: 3
>>>>RLC PDU size
144
>>>Include in Scheduling Info
TRUE
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3
>DL-logicalChannelMappings
OneLogicalChannel
>>Mapping option 1
One mapping option
>>>dl-TransportChannelType
HS-DSCH
>>>>Mac-d flow identity
RB1- RB3: 6
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3
TrCH INFORMATION PER TrCH

UL-AddReconfTransChInfoList

>Uplink transport channel type
E-DCH
>UL Transport channel identity

> UL-ParametersChoice

>> E-DCH Transmission Time Interval
10
>> HARQ info for E-DCH

>>> HARQ RV Configuration
Rvtable
>> Added or reconfigured E-DCH MAC-d flow
One MAC-d flow
>>> E-DCH MAC-d flow identity
6
>>> E-DCH MAC-d flow power offset
4
>>> E-DCH MAC-d flow maximum number of  retransmissions
5
>>> E-DCH MAC-d flow multiplexing list
0
>>> transmission grant typeChoice

>>>> Scheduled transmission grant info

DL-AddReconfTransChInfoList

>Downlink transport channel type
HS-DSCH
>DL-ParametersChoice

>>HARQ Info

>>>Number of Processes 
6
>>>Memory PartitioningChoice

>>>>Implicit

>>Added or reconfigured MAC-d flow

>>> MAC-hs queue to add or reconfigure list

>>>>MAC-hs queue Id
0
>>>>MAC-d Flow Identity
6
>>>>T1
100
>>>>MAC-hs window size
12
>>>>MAC-d PDU size info

>>>>>MAC-d PDU size
148
>>>>>MAC-d PDU size index
0
TrCH INFORMATION, COMMON
Null

13.8	Parameter values for default radio configurations in CELL_FACH
The UE shall support the use of the default parameter values that are specified in the following. Optional IEs that are not used, are omitted. The tabular values included in this subclause, represent the actual IE values as in clause 10, and not the ASN.1 representation of these values.
The UE shall for each RB with radio bearer identity n listed in the default configuration with the Default configuration identity given in IE "Default configuration identity for CELL_FACH":
1>	if a multiplexing option containing the combination "FACH" for the DL and "RACH" for the UL for a RB with radio bearer identity n is included in the default configuration:
2>	 if the radio bearer identity n is listed in explicit or another default configuration in the message received by the UE:
3>	if there is no multiplexing option containing the combination "FACH" for the DL and "RACH" for the UL for this radio bearer identity n:
4>	append the radio bearer mapping information in accordance with the default parameters for RB with radio bearer identity n to the radio bearer mapping information for RB with radio bearer identity n.
2>	else
3>	store the radio bearer mapping information in accordance with the default parameters for RB with radio bearer identity n and configure the transmitting and receiving RLC entities in the UE for that radio bearer according to Table 13.8.1
1>	if a multiplexing option containing the combination "HS-DSCH" for the DL and "RACH" for the UL for a RB with radio bearer identity n is included in the default configuration:
2>	if the radio bearer identity n is listed in explicit or another default configuration in the message received by the UE:
3>	if there is no multiplexing option containing the combination "HS-DSCH" for the DL and "RACH" for the UL for this radio bearer identity n:
4>	append the radio bearer mapping information in accordance with the default parameters for RB with radio bearer identity n to the radio bearer mapping information for RB with radio bearer identity n.
2>	else
3>	store the radio bearer mapping information in accordance with the default parameters for RB with radio bearer identity n and configure the transmitting and receiving RLC entities in the UE for that radio bearer according to Table 13.8.1
1>	if a multiplexing option containing the combination "HS-DSCH" for the DL and "E-DCH" for the UL for a RB with radio bearer identity n is included in the default configuration:
2>	if the radio bearer identity n is listed in explicit or another default configuration in the message received by the UE:
3>	if there is no multiplexing option containing the combination "HS-DSCH" for the DL and "E-DCH" for the UL for this radio bearer identity n:
4>	append the radio bearer mapping information in accordance with the default parameters for RB with radio bearer identity n to the radio bearer mapping information for RB with radio bearer identity n.
2>	else
3>	store the radio bearer mapping information in accordance with the default parameters for RB with radio bearer identity n and configure the transmitting and receiving RLC entities in the UE for that radio bearer according to Table 13.8.1
Table 13.8.1: Default radio configuration 0 in CELL_FACH
Ref 34.108 / 25.993

Default configuration identity
0
RB INFORMATION

rb-Identity
RB1: 1, RB2: 2, RB3: 3, RB4: 4
rlc-InfoChoice
RLC info for CELL_FACH signalling
>ul-RLC-Mode
RB1: UM, RB2-RB4: AM
>>transmissionRLC-DiscardMode
RB1: N/A, RB2-RB4: NoDiscard
>>>maxDat
RB1: N/A, RB2-RB4: 40
>>transmissionWindowSize
RB1: N/A, RB2-RB4: 64
>>timerRST
RB1: N/A, RB2-RB4: 200
>>max-RST
RB1: N/A, RB2-RB4: 1
>>pollingInfo
RB1: N/A, RB2-RB4: as below
>>>TimerPoll
RB1: N/A, RB2-RB4: 1000
>>>PollSDU
RB1: N/A, RB2-RB4: 1
>>>lastTransmissionPDU-Poll
RB1: N/A, RB2-RB4: FALSE
>>>lastRetransmissionPDU-Poll
RB1: N/A, RB2-RB4: TRUE 
>>>PollWindow
RB1: N/A, RB2-RB4: 99
>dl-RLC-Mode
RB1: UM, RB2-RB4: AM
>>dl-RLC-PDU-size
RB1: N/A, RB2-RB4: 128 (actual size 144 bits)
>>inSequenceDelivery
RB1: N/A, RB2-RB4: TRUE
>>receivingWindowSize
RB1: N/A, RB2-RB4: 64
>>dl-RLC-StatusInfo
RB1: N/A, RB2-RB4: as below
>>>missingPDU-Indicator
RB1: N/A, RB2-RB4: TRUE
>>dl-UM-RLC-LI-size
RB1: 7, RB2-RB4: N/A
rlc-OneSidedReEst 
RB1-RB4: FALSE
rb-MappingInfo
For RACH/FACH as a mapping option
>UL-LogicalChannelMappings

>>ul-TransportChannelType
RACH
>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3, RB4: 4
>>rlc-SizeList
RB1-RB4: explicitList (refers to SIB5/6)
>>>rlc-SizeIndex
1 (refers to RACH TFS in SIB5/6)
>>mac-LogicalChannelPriority
RB1: 1, RB2: 2, RB3: 3, RB4: 4
>DL-logicalChannelMappingList

>>>dl-TransportChannelType
FACH
>>>logicalChannelIdentity
RB1: 1, RB2: 2, RB3: 3, RB4: 4

NOTE:	In SRNC relocation, the target SRNC shall check IE "Signalling RB information" in IE "SRNS RELOCATION INFO" to find out the current RLC info and RB mapping info used by the UE.

14	Specific functions
14.1	Intra-frequency measurements
14.1.1	Intra-frequency measurement quantities
A measurement quantity is used to evaluate whether an intra-frequency event has occurred or not. It can be:
1	Downlink Ec/N0.
2	Downlink path loss.
For FDD:
Pathloss in dB = Primary CPICH Tx power - CPICH RSCP.
For Primary CPICH Tx power the IE "Primary CPICH Tx power" shall be used. The unit is dBm.
CPICH RSCP is the result of the CPICH RSCP measurement. The unit is dBm.
For TDD:
Pathloss in dB = Primary CCPCH TX power - Primary CCPCH RSCP.
For Primary CCPCH TX power the IE "Primary CCPCH TX Power" shall be used. The unit is dBm.
Primary CCPCH RSCP is the result of the Primary CCPCH RSCP measurement. The unit is dBm.
If necessary Pathloss shall be rounded up to the next higher integer.
Results higher than 158 shall be reported as 158.
Results lower than 46 shall be reported as 46.
3	Downlink received signal code power (RSCP) after despreading.
4	ISCP measured on Timeslot basis.
A description of those values can be found in [7] and [8].
14.1.2	Intra-frequency reporting events for FDD
Within the measurement reporting criteria field in the Measurement Control message the UTRAN notifies the UE which events should trigger a measurement report. If present, the "reporting criteria for secondary UL frequency" notifies the UE which events should trigger a measurement report for the secondary uplink frequency. The listed events are the toolbox from which the UTRAN can choose the reporting events that are needed for the implemented handover evaluation function, or other radio network functions. If present, the IE "Cells to be excluded in detected set cells" notifies the UE to exclude cells from corresponding measurement report and UE shall exclude indicated cells from measurement report for intra-frequency measurement.
All the specified events are measured with respect to any of the measurement quantities given in subclause 14.1.1. The measurement quantities are measured on the monitored primary common pilot channels (CPICH) of the cell defined in the measurement object and measurement object on secondary UL frequency.
Special mechanisms for the events are illustrated in subclause 14.1.4 and 14.1.5.
NOTE:	The events below are numbered 1A, 1B, 1C,… since all intra-frequency reporting events would be labelled 1X, inter-frequency reporting events would be labelled 2X, and so on for the other measurement types.
When one intra-frequency measurement identity corresponds to multiple intra-frequency events with identical event identities, the UE behaviour is not specified.
14.1.2.1	Reporting event 1A: A Primary CPICH enters the reporting range
When an intra-frequency measurement configuring event 1a is set up, the UE shall:
1>	create a variable TRIGGERED_1A_EVENT per active set related to that measurement, which shall initially be empty;
1>	delete the corresponding variable when the measurement is released.
When event 1A is configured in the UE, the UE shall:
1>	if "Measurement quantity" is "pathloss" and Equation 1 below is fulfilled for one or more primary CPICHs, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 2 below is fulfilled for one or more primary CPICHs, for each of these primary CPICHs:
2>	if all required reporting quantities are available for that cell; and
2>	if the equations have been fulfilled for a time period indicated by "Time to trigger", and if that primary CPICH is part of cells allowed to trigger the event according to "Triggering condition 2", and if that primary CPICH is not included in the "cells triggered" in the corresponding variable TRIGGERED_1A_EVENT:
3>	include that primary CPICH in the "cells recently triggered" in the corresponding variable TRIGGERED_1A_EVENT.
1>	if the value of "Reporting deactivations threshold" for this event is greater than or equal to the current number of cells in the active set or equal to 0 and any primary CPICHs are stored in the "cells recently triggered" in the corresponding variable TRIGGERED_1A_EVENT:
2>	if "Reporting interval" for this event is not equal to 0:
3>	if the IE "Periodical reporting running" in the corresponding variable TRIGGERED_1A_EVENT is set to FALSE:
4>	start a timer with the value of "Reporting interval" for this event and set the IE "Periodical reporting running" in the corresponding variable TRIGGERED_1A_EVENT to TRUE;
3>	set "sent reports" for the primary CPICHs in "cells recently triggered" in the corresponding variable TRIGGERED_1A_EVENT to 1.
2>	send a measurement report with IEs set as below:
3>	set in "intra-frequency measurement event results" or in "cell measurement event results on secondary UL frequency": "Intrafrequency event identity" to "1a"; and
3>	include in "cell measurement event results" or in "cell measurement event results on secondary UL frequency" all entries of the "cells recently triggered" in the corresponding variable TRIGGERED_1A_EVENT in descending order according to the configured measurement quantity taking into account the cell individual offset for each of those cells;
3>	set the IE "measured results" and the IE "additional measured results", and/or the IE "measured results on secondary UL frequency" and the IE "additional measured results on secondary UL frequency" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
2>	move all entries from "cells recently triggered" to "cells triggered" in the corresponding variable TRIGGERED_1A_EVENT.
1>	if the timer for the corresponding periodical reporting has expired:
2>	if any primary CPICH is included in the "cells triggered" in the corresponding variable TRIGGERED_1A_EVENT:
3>	if "Reporting interval" for this event is not equal to 0, and if "Amount of reporting" is greater than "sent reports" stored for any of these primary CPICHs, in "cells triggered" in the corresponding variable TRIGGERED_1A_EVENT:
4>	increment the stored counter "sent reports" for all CPICHs in "cell triggered" in the corresponding variable TRIGGERED_1A_EVENT;
4>	start a timer with the value of "Reporting interval" for this event;
4>	send a measurement report with IEs set as below:
5>	set in "intra-frequency measurement event results" or in "cell measurement event results on secondary UL frequency": "Intrafrequency event identity" to "1a"; and
5>	include in "cell measurement event results" or in "cell measurement event results on secondary UL frequency" all entries of the corresponding variable TRIGGERED_1A_EVENT with value of IE "sent reports" equal to or smaller than value of "Amount of reporting" in descending order according to the configured measurement quantity taking into account the cell individual offset for each of those cells;
5>	set the IE "measured results" and the IE "additional measured results", and/or the IE "measured results on secondary UL frequency" and the IE "additional measured results on secondary UL frequency" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
4>	if "sent reports" in the corresponding variable TRIGGERED_1A_EVENT is equal to "Amount of reporting" for all entries:
5>	set the IE "Periodical Reporting running" in the corresponding variable TRIGGERED_1A_EVENT to FALSE and disable the timer for the corresponding periodical reporting.
1>	if "Measurement quantity" is "pathloss" and Equation 3 below is fulfilled for a primary CPICH, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 4 below is fulfilled for a primary CPICH; or
1>	if a primary CPICH is no longer part of the cells allowed to trigger the event according to the "Triggering condition 2":
2>	if that primary CPICH is included in the "cells triggered" or "cells recently triggered" in the corresponding variable TRIGGERED_1A_EVENT:
3>	remove the entry of that primary CPICH from "cells triggered" or "cells recently triggered" in the corresponding variable TRIGGERED_1A_EVENT.
3>	if no entry in the corresponding variable TRIGGERED_1A_EVENT has a value of "sent reports" smaller than "Amount of reporting"; or
3>	if there is no entry in the corresponding variable TRIGGERED_1A_EVENT:
4>	if the corresponding reporting interval timer is running:
5>	stop the reporting interval timer;
5>	set the IE "Periodical reporting running" in the corresponding variable TRIGGERED_1A_EVENT to FALSE.
This event is only applicable to the CELL_DCH state. When the measurement is setup in CELL_DCH or upon transition to CELL_DCH the UE shall:
1>	if the "Triggering condition 2" includes active set cells:
2>	include the primary CPICH of all cells in the current active set into the "cells triggered" in the variable TRIGGERED_1A_EVENT with the counter "sent reports" set to "Amount of reporting".
Equation 1 (Triggering condition for pathloss)

Equation 2 (Triggering condition for all the other measurement quantities)

Equation 3 (Leaving triggering condition for pathloss)

Equation 4 (Leaving triggering condition for all the other measurement quantities)

The variables in the formula are defined as follows:
MNew is the measurement result of the cell entering the reporting range.
CIONew is the individual cell offset for the cell entering the reporting range if an individual cell offset is stored for that cell. Otherwise it is equal to 0.
Mi is a measurement result of a cell not forbidden to affect reporting range in the active set.
NA is the number of cells not forbidden to affect reporting range in the current active set.
For pathloss
MBest is the measurement result of the cell not forbidden to affect reporting range in the active set with the lowest measurement result, not taking into account any cell individual offset.
for other measurements quantities.
MBest is the measurement result of the cell not forbidden to affect reporting range in the active set with the highest measurement result, not taking into account any cell individual offset.
W is a parameter sent from UTRAN to UE.
R1a is the reporting range constant.
H1a is the hysteresis parameter for the event 1a.
If the measurement results are pathloss or CPICH-Ec/No then MNew, Mi and MBest are expressed as ratios.
If the measurement result is CPICH-RSCP then MNew, Mi and MBest are expressed in mW.
14.1.2.2	Reporting event 1B: A primary CPICH leaves the reporting range
When an intra-frequency measurement configuring event 1b is set up, the UE shall:
1>	create a variable TRIGGERED_1B_EVENT per active set related to that measurement, which shall initially be empty;
1>	delete the corresponding variable when the measurement is released.
When event 1B is configures in the UE, the UE shall:
1>	if "Measurement quantity" is "pathloss" and Equation 1 below is fulfilled for one or more primary CPICHs, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 2 below is fulfilled for one or more primary CPICHs, for each of these primary CPICHs:
2>	if all required reporting quantities are available for that cell, and if the equations have been fulfilled for a time period indicated by "Time to trigger", and if that primary CPICH is part of cells allowed to trigger the event according to "Triggering condition 1", and if that primary CPICH is not included in the "cells triggered" in the corresponding variable TRIGGERED_1B_EVENT:
3>	include that primary CPICH in the "cells recently triggered" in the corresponding variable TRIGGERED_1B_EVENT.
1>	if any primary CPICHs are stored in the "cells recently triggered" in the corresponding variable TRIGGERED_1B_EVENT:
2>	if "Periodic reporting info-1b" is present, and "Reporting interval" for this event is not equal to 0:
3>	if the IE "Periodical reporting running" in the corresponding variable TRIGGERED_1B_EVENT is set to FALSE:
4>	start a timer with the value of "Reporting interval" for this event and set the IE "Periodical reporting running" in the corresponding variable TRIGGERED_1B_EVENT to TRUE;
3>	set "sent reports" for the primary CPICHs in "cells recently triggered" in the corresponding variable TRIGGERED_1B_EVENT to 1.
2>	send a measurement report with IEs set as below:
3>	set in "intra-frequency measurement event results" or in "cell measurement event results on secondary UL frequency": "Intrafrequency event identity" to "1b"; and
3>	include in "cell measurement event results" or in "cell measurement event results on secondary UL frequency" all entries of "cells recently triggered" in the corresponding variable TRIGGERED_1B_EVENT in ascending order according to the configured measurement quantity taking into account the cell individual offset for each of those cells;
3>	set the IE "measured results" and the IE "additional measured results", and/or the IE "measured results on secondary UL frequency" and the IE "additional measured results on secondary UL frequency" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
2>	move all entries from IE "cells recently triggered" to "cells triggered" in the corresponding variable TRIGGERED_1B_EVENT.
1>	if the timer for the corresponding periodical reporting has expired:
2>	if any primary CPICH is included in the "cells triggered" in the corresponding variable TRIGGERED_1B_EVENT:
3>	if "Periodic reporting info-1b" is present:
4>	if "Reporting interval" is not equal to 0, and if "Amount of reporting" is greater than "sent reports" stored for any of these primary CPICHs, in "cells triggered" in the corresponding variable TRIGGERED_1B_EVENT:
5>	increment the stored counter "sent reports" for all CPICHs in "cell triggered" in the corresponding variable TRIGGERED_1B_EVENT;
5>	start a timer with the value of "Reporting interval-1b" for this event;
5>	send a measurement report with IEs set as below:
6>	set in "intra-frequency measurement event results" or in "cell measurement event results on secondary UL frequency": "Intrafrequency event identity" to "1b"; and
6>	include in "cell measurement event results" or in "measurement event results on secondary UL frequency" all entries of the corresponding variable TRIGGERED_1B_EVENT with value of IE "sent reports" equal to or smaller than value of "Amount of reporting" in ascending order according to the configured measurement quantity taking into account the cell individual offset for each of those cells;
6>	set the IE "measured results" and the IE "additional measured results", and/or the IE "measured results on secondary UL frequency" and the IE "additional measured results on secondary UL frequency" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
5>	if "sent reports" in the corresponding variable TRIGGERED_1B_EVENT is equal to "Amount of reporting" for all entries:
6>	set the IE "Periodical Reporting running" in the corresponding variable TRIGGERED_1B_EVENT to FALSE and disable the timer for the corresponding periodical reporting.
1>	if "Measurement quantity" is "pathloss" and Equation 3 below is fulfilled for a primary CPICH, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 4 below is fulfilled for a primary CPICH; or
1>	if a primary CPICH is no longer part of the cells allowed to trigger the event according to the "Triggering condition 1":
2>	if that primary CPICH is included in the "cells triggered" in the corresponding variable TRIGGERED_1B_EVENT:
3>	remove the entry of that primary CPICH from "cells triggered" in the corresponding variable TRIGGERED_1B_EVENT;
3>	if there is no entry in the corresponding variable TRIGGERED_1B_EVENT:
4>	if the corresponding reporting interval timer is running:
5>	stop the reporting interval timer;
5>	set the IE "Periodical reporting running" in the corresponding variable TRIGGERED_1B_EVENT to FALSE.
Equation 1 (Triggering condition for pathloss)

Equation 2 (Triggering condition for all the other measurement quantities)

Equation 3 (Leaving triggering condition for pathloss)

Equation 4 (Leaving triggering condition for all the other measurement quantities)

The variables in the formula are defined as follows:
MOld is the measurement result of the cell leaving the reporting range.
CIOOld is the individual cell offset for the cell leaving the reporting range if an individual cell offset is stored for that cell. Otherwise it is equal to 0.
Mi is a measurement result of a cell not forbidden to affect reporting range in the active set.
NA is the number of cells not forbidden to affect reporting range in the current active set.
For pathloss
MBest is the measurement result of the cell not forbidden to affect reporting range in the active set with the lowest measurement result, not taking into account any cell individual offset.
for other measurements quantities.
MBest is the measurement result of the cell not forbidden to affect reporting range in the active set with the highest measurement result, not taking into account any cell individual offset.
W is a parameter sent from UTRAN to UE.
R1b is the reporting range constant.
H1b is the hysteresis parameter for the event 1b.
If the measurement results are pathloss or CPICH-Ec/No then MOld, Mi and MBest are expressed as ratios.
If the measurement result is CPICH-RSCP then MOld, Mi and MBest are expressed in mW.
14.1.2.3	Reporting event 1C: A non-active primary CPICH becomes better than an active primary CPICH
When an intra-frequency measurement configuring event 1c is set up, the UE shall:
1>	create a variable TRIGGERED_1C_EVENT per active set related to that measurement, which shall initially be empty;
1>	delete the corresponding variable when the measurement is released.
When event 1C is configured in the UE, the UE shall:
1>	if "Measurement quantity" is "pathloss" and Equation 1 below is fulfilled for one or more primary CPICHs, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 2 below is fulfilled for one or more primary CPICHs, for each of these primary CPICHs:
2>	if all required reporting quantities are available for that cell; and
2>	if the equations have been fulfilled for a time period indicated by "Time to trigger", and if the primary CPICH that is better is not included in the active set but the other primary CPICH is any of the primary CPICHs included in the active set, and if that first primary CPICH is not included in the "cells triggered" in the corresponding variable TRIGGERED_1C_EVENT:
3>	include that primary CPICH in the "cells recently triggered" in the corresponding variable TRIGGERED_1C_EVENT.
1>	if the value of "Replacement activation threshold" for this event is less than or equal to the current number of cells in the active set or equal to 0 and if any primary CPICHs are stored in the "cells recently triggered" in the corresponding variable TRIGGERED_1C_EVENT:
2>	if "Reporting interval" for this event is not equal to 0:
3>	if the IE "Periodical reporting running" in the corresponding variable TRIGGERED_1C_EVENT is set to FALSE:
4>	start a timer for with the value of "Reporting interval" for this event and set the IE "Periodical reporting running" in the corresponding variable TRIGGERED_1C_EVENT to TRUE.
3>	set "sent reports" for that primary CPICH in the corresponding variable TRIGGERED_1C_EVENT to 1.
2>	send a measurement report with IEs set as below:
3>	set in "intra-frequency measurement event results" or in "cell measurement event results on secondary UL frequency": "Intrafrequency event identity" to "1c"; and
3>	include in "cell measurement event results" or in "cell measurement event results on secondary UL frequency" all entries of the "cells recently triggered" in the corresponding variable TRIGGERED_1C_EVENT not in the active set as well as the "primary CPICH info" of all the primary CPICHs in the active set for which the measured value is worse (i.e. greater for pathloss and less for the other measurement quantities) than the one of the entry in "cell recently triggered" that has the best measured value taking into account their cell individual offset. The "primary CPICH info" for those cells shall be ordered according to their measured value taking into account their cell individual offset, beginning with the best cell to the worst one;
3>	set the IE "measured results" and the IE "additional measured results", and/or the IE "measured results on secondary UL frequency" and the IE "additional measured results on secondary UL frequency" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
2>	move all entries from "cells recently triggered" to "cells triggered" in the corresponding variable TRIGGERED_1C_EVENT.
1>	if the timer for the periodical reporting has expired:
2>	if any primary CPICH is included in the "cells triggered" in the corresponding variable TRIGGERED_1C_EVENT, and not included in the current active set:
3>	if "Reporting interval" for this event is not equal to 0, and if "Amount of reporting" is greater than "sent reports" stored for that primary CPICH, in "cells triggered" in the corresponding variable TRIGGERED_1C_EVENT:
4>	increment the stored counter "sent reports" for all CPICH in "cell triggered" in the corresponding variable TRIGGERED_1C_EVENT;
4>	start a timer with the value of "Reporting interval" for this event;
4>	send a measurement report with IEs set as below:
5>	set in "intra-frequency measurement event results" or in "cell measurement event results on secondary UL frequency": "Intrafrequency event identity" to "1c"; and
5>	include in "cell measurement event results" or in "measurement event results on secondary UL frequency" all entries of the corresponding variable TRIGGERED_1C_EVENT with value of IE "sent report" equal to or smaller than value of "Amount of reporting" and that are not part of the active set as well as the "primary CPICH info" of all the primary CPICHs in the active set for which the measured value is worse (i.e. greater for pathloss and less for the other measurement quantities) than the one of the entry in "cell triggered" that has the best measured value, ordering the "primary CPICH info" according to their measured value beginning with the best cell to the worst one, taking into account the cell individual offset for each cell;
5>	set the IE "measured results" and the IE "additional measured results", and/or the IE "measured results on secondary UL frequency" and the IE "additional measured results on secondary UL frequency" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
4>	if "sent reports" in the corresponding variable TRIGGERED_1C_EVENT is equal to "Amount of reporting" for all entries:
5>	set the IE "Periodical Reporting running" in the corresponding variable TRIGGERED_1C_EVENT to FALSE and disable the timer for the corresponding periodical reporting.
1>	if "Measurement quantity" is "pathloss" and Equation 3 below is fulfilled for a primary CPICH, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 4 below is fulfilled for a primary CPICH or;
1>	if a primary CPICH is added to the active set:
2>	if that primary CPICH is included in the "cells triggered" or "cells recently triggered" in the corresponding variable TRIGGERED_1C_EVENT:
3>	remove the entry of that primary CPICH from "cells triggered" or "cells recently triggered" in the variable TRIGGERED_1C_EVENT.
3>	if no entry in the corresponding variable TRIGGERED_1C_EVENT has a value of "sent reports" smaller than "Amount of reporting" or
3>	if there is no entry in the corresponding variable TRIGGERED_1C_EVENT:
4>	if the corresponding reporting interval timer is running:
5>	stop the reporting interval timer;
5>	set the IE "Periodical reporting running" in the corresponding variable TRIGGERED_1C_EVENT to FALSE.
Equation 1 (Triggering condition for pathloss)

Equation 2 (Triggering condition for all the other measurement quantities)

Equation 3 (Leaving triggering condition for pathloss)

Equation 4 (Leaving triggering condition for all the other measurement quantities)

The variables in the formula are defined as follows:
MNew is the measurement result of the cell not included in the active set.
CIONew is the individual cell offset for the cell becoming better than the cell in the active set if an individual cell offset is stored for that cell. Otherwise it is equal to 0.
For pathloss:
MInAS is the measurement result of the cell in the active set with the highest measurement result.
For other measurement quantities:
MInAS is the measurement result of the cell in the active set with the lowest measurement result.
CIOInAS is the individual cell offset for the cell in the active set that is becoming worse than the new cell.
H1c is the hysteresis parameter for the event 1c.
If the measurement results are pathloss or CPICH-Ec/No then MNew and MinAS are expressed as ratios.
If the measurement result is CPICH-RSCP then MNew and MinAS are expressed in mW.

Figure 14.1.2.3-1 [Informative]: A primary CPICH that is not included in the active set becomes better than a primary CPICH that is in the active set
In this figure, the parameters hysteresis and time to trigger, as well as the cell individual offsets for all cells are equal to 0. In this example the cells belonging to primary CPICH 1 and 2 are in the active set, but the cells transmitting primary CPICH 3 and CPICH 4 are not (yet) in the active set.
The first measurement report is sent when primary CPICH 4 becomes better than primary CPICH 2. The "cell measurement event result" of the measurement report contains the information of primary CPICH 4 and CPICH 2.
Assuming that the active set has been updated after the first measurement report (active set is now primary CPICH 1 and primary CPICH 4), the second report is sent when primary CPICH 3 becomes better than primary CPICH 1. The "cell measurement event result" of the second measurement report contains the information of primary CPICH 3 and primary CPICH 1.
14.1.2.4	Reporting event 1D: Change of best cell
When an intra-frequency measurement configuring event 1d is set up, the UE shall:
1>	create a variable BEST_CELL_1D_EVENT related to that measurement, which shall initially contain the best cell in the active set when the measurement is initiated;
1>	delete this variable when the measurement is released.
1>	As soon as the best cell in the active set has been evaluated by the UE (and stored in the BEST_CELL_1D_EVENT variable) and provided that there is more than one cell in the active set,  trigger an immediate measurement report with IEs set as below:
2>	set in "intra-frequency measurement event results"; "Intrafrequency event identity" to "1d" and "cell measurement event results" to the CPICH info of the primary CPICH stored in the BEST_CELL_1D_EVENT variable;
2>	set the IE "measured results" and the IE "additional measured results", and the IE "measured results on secondary UL frequency" and the IE "additional measured results on secondary UL frequency" according to subclause 8.4.2
When event 1D is configured in the UE, the UE shall:
1>	if IE "useCIO" is present and its value is TRUE, take into account the Cell Individual Offset for evaluation of the Equation 1 and 2, otherwise do not take it into account.
1>	if "Measurement quantity" is "pathloss" and Equation 1 below is fulfilled for a primary CPICH that is not stored in "Best cell" in variable BEST_CELL_1D_EVENT, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 2 below is fulfilled for a primary CPICH that is not stored in "Best cell" in variable BEST_CELL_1D_EVENT:
NOTE:	If the equations are simultaneously fulfilled for more than one primary CPICH, the UE should report only one event 1D, triggered by the best primary CPICH.
2>	if all required reporting quantities are available for that cell, and if the equations have been fulfilled for a time period indicated by "Time to trigger" and if IE "Triggering condition 2" is absent or if it is present and that primary CPICH is part of cells allowed to trigger the event according to "Triggering condition 2":
3>	set "best cell" in the variable BEST_CELL_1D_EVENT to that primary CPICH that triggered the event;
3>	send a measurement report with IEs set as below:
4>	set in "intra-frequency measurement event results"; "Intrafrequency event identity" to "1d" and "cell measurement event results" to the CPICH info of the primary CPICH that triggered the report.
4>	set the IE "measured results" and the IE "additional measured results", and the IE "measured results on secondary UL frequency" and the IE "additional measured results on secondary UL frequency" according to subclause 8.4.2.
This event is only applicable to the CELL_DCH state. Upon transition to CELL_DCH the UE shall:
1>	set "best cell" in the variable BEST_CELL_1D_EVENT to the best cell of the primary CPICHs included in the active set.
Equation 1 (Triggering condition for pathloss)

Equation 2 (Triggering condition for all the other measurement quantities)

The variables in the formula are defined as follows:
MNotBest is the measurement result of a cell not stored in "best cell" in the variable BEST_CELL_1D_EVENT.
CIONotBest is the cell individual offset of a cell not stored in "best cell" in the variable BEST_CELL_1D_EVENT.
MBest is the measurement result of the cell stored in "best cell" in variable BEST_CELL_1D_EVENT.
CIOBest is the cell individual offset of a cell stored in "best cell" in the variable BEST_CELL_1D_EVENT.
H1d is the hysteresis parameter for the event 1d.
If the measurement results are pathloss or CPICH-Ec/No then MNot Best and MBest are expressed as ratios.
If the measurement result is CPICH-RSCP then MNot Best and MBest are expressed in mW.

Figure 14.1.2.4-1 [Informative]: A primary CPICH becomes better than the previously best primary CPICH
In this figure, the parameters hysteresis and time to trigger, as well as the cell individual offsets for all cells are equal to 0.
14.1.2.5	Reporting event 1E: A Primary CPICH becomes better than an absolute threshold
When an intra-frequency measurement configuring event 1e is set up, the UE shall:
1>	create a variable TRIGGERED_1E_EVENT per active set related to that measurement, which shall initially be empty;
1>	delete the corresponding variable when the measurement is released.
When event 1E is configured in the UE, the UE shall:
1>	if "Measurement quantity" is "pathloss" and Equation 1 below is fulfilled for a primary CPICH, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 2 below is fulfilled for one or more primary CPICHs, for each of these primary CPICHs:
2>	if all required reporting quantities are available for that cell, and if the equations have been fulfilled for a time period indicated by "Time to trigger", and if that primary CPICH is part of cells allowed to trigger the event according to "Triggering condition 2", and that primary CPICH is not included in the "cells triggered" in the corresponding variable TRIGGERED_1E_EVENT:
3>	include that primary CPICH in the "cells recently triggered" in the corresponding variable TRIGGERED_1E_EVENT.
1>	if any primary CPICHs are stored in the "cells recently triggered" in the corresponding variable TRIGGERED_1E_EVENT:
2>	send a measurement report with IEs set as below:
3>	set in "intra-frequency measurement event results" or in "cell measurement event results on secondary UL frequency": "Intrafrequency event identity" to "1e"; and
3>	include in "cell measurement event results" or in "cell measurement event results on secondary UL frequency" all entries of the "cells recently triggered" in the corresponding variable TRIGGERED_1E_EVENT in descending order according to the configured measurement quantity taking into account the cell individual offset for each of those cells;
3>	set the IE "measured results" and the IE "additional measured results", and/or the IE "measured results on secondary UL frequency" and the IE "additional measured results on secondary UL frequency" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
2>	move all entries from "cells recently triggered" to "cells triggered" in the corresponding variable TRIGGERED_1E_EVENT.
1>	if "Measurement quantity" is "pathloss" and Equation 3 below is fulfilled for a primary CPICH, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 4 below is fulfilled for a primary CPICH; or
1>	if a primary CPICH is no longer part of the cells allowed to trigger the event according to the "Triggering condition 2":
2>	if that primary CPICH is included in the "cells triggered" in the corresponding variable TRIGGERED_1E_EVENT:
3>	remove that primary CPICH and sent reports from "cells triggered" in the corresponding variable TRIGGERED_1E_EVENT.
This event is only applicable to the CELL_DCH state. When the measurement is setup in CELL_DCH or upon transition to CELL_DCH the UE shall:
1>	if the "Triggering condition 2" includes active set cells:
2>	include the primary CPICH of all cells in the current active set that fulfil the equations 1 or 2 according to the "Measurement quantity" of event 1e into the "cells triggered" in the corresponding variable TRIGGERED_1E_EVENT.
Equation 1 (Triggering condition for pathloss)

Equation 2 (Triggering condition for all the other measurement quantities)

Equation 3 (Leaving triggering condition for pathloss)

Equation 4 (Leaving triggering condition for all the other measurement quantities)

The variables in the formula are defined as follows:
MNew is the measurement result of a cell that becomes better than an absolute threshold.
CIONew is the individual cell offset for the cell becoming better than the absolute threshold. Otherwise it is equal to 0.
T1e is an absolute threshold.
H1e is the hysteresis parameter for the event 1e.
If the measurement results are pathloss or CPICH-Ec/No then MNew is expressed as ratios.
If the measurement result is CPICH-RSCP then MNew is expressed in mW.

Figure 14.1.2.5-1 [Informative]: Event-triggered report when a Primary CPICH becomes better than an absolute threshold
In this figure, the parameters hysteresis and time to trigger, as well as the cell individual offsets for all cells are equal to 0.
14.1.2.6	Reporting event 1F: A Primary CPICH becomes worse than an absolute threshold
When an intra-frequency measurement configuring event 1F is set up, the UE shall:
1>	create a variable TRIGGERED_1F_EVENT per active set related to that measurement, which shall initially be empty;
1>	delete the corresponding variable when the measurement is released.
When event 1F is configured in the UE, the UE shall:
1>	if "Measurement quantity" is "pathloss" and Equation 1 below is fulfilled for one or more primary CPICHs, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 2 below is fulfilled for one or more primary CPICHs, for each of these primary CPICHs:
2>	if all required reporting quantities are available for that cell, and if the equations have been fulfilled for a time period indicated by "Time to trigger", and if that primary CPICH is part of cells allowed to trigger the event according to "Triggering condition 1", and that primary CPICH is not included in the "cells triggered" in the corresponding variable TRIGGERED_1F_EVENT:
3>	include that primary CPICH in the "cells recently triggered" in the corresponding variable TRIGGERED_1F_EVENT.
1>	if any primary CPICHs are stored in the "cells recently triggered" in the corresponding variable TRIGGERED_1F_EVENT:
2>	send a measurement report with IEs set as below:
3>	set in "intra-frequency event measurement results" or in "cell measurement event results on secondary UL frequency": "Intrafrequency event identity" to "1f"; and
3>	include in "cell measurement event results" or in "cell measurement event results on secondary UL frequency" all entries of the "cells recently triggered" in the corresponding variable TRIGGERED_1F_EVENT in descending order according to the configured measurement quantity taking into account the cell individual offset for each of those cells;
3>	set the IE "measured results" and the IE "additional measured results", and/or the IE "measured results on secondary UL frequency" and the IE "additional measured results on secondary UL frequency" according to subclause 8.4.2, not taking into account the cell individual offset for each cell;
2>	move all entries from "cells recently triggered" to "cells triggered" in the corresponding variable TRIGGERED_1F_EVENT.
1>	if "Measurement quantity" is "pathloss" and Equation 3 below is fulfilled for a primary CPICH, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 4 below is fulfilled for a primary CPICH; or
1>	if a primary CPICH is no longer part of the cells allowed to trigger the event according to the "Triggering condition 1":
2>	if that primary CPICH is included in the "cells triggered" in the corresponding variable TRIGGERED_1F_EVENT:
3>	remove that primary CPICH from "cells triggered" in the corresponding variable TRIGGERED_1F_EVENT.

Equation 1 (Triggering condition for pathloss)

Equation 2 (Triggering condition for all the other measurement quantities)

Equation 3 (Leaving triggering condition for pathloss)

Equation 4 (Leaving triggering condition for all the other measurement quantities)

The variables in the formula are defined as follows:
MOld is the measurement result of a cell that becomes worse than an absolute threshold
CIOOld is the individual cell offset for the cell becoming worse than the absolute threshold. Otherwise it is equal to 0.
T1f is an absolute threshold
H1f is the hysteresis parameter for the event 1f.
If the measurement results are pathloss or CPICH-Ec/No then MOld is expressed as ratios.
If the measurement result is CPICH-RSCP then MOld is expressed in mW.

Figure 14.1.2.6-1 [Informative]: Event-triggered report when a Primary CPICH becomes worse than an absolute threshold
In this figure, the parameters hysteresis and time to trigger, as well as the cell individual offsets for all cells are equal to 0.
14.1.2.7	Reporting event 1J: A non-active E-DCH but active DCH primary CPICH becomes better than an active E-DCH primary CPICH
When an intra-frequency measurement configuring event 1j is set up, the UE shall:
1>	create a variable TRIGGERED_1J_EVENT related to that measurement, which shall initially be empty;
1>	delete this variable when the measurement is released.
When event 1J is configured in the UE, the UE shall:
1>	if "Measurement quantity" is "pathloss" and Equation 1 below is fulfilled for one or more primary CPICHs, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 2 below is fulfilled for one or more primary CPICHs, for each of these primary CPICHs:
2>	if all required reporting quantities are available for that cell; and
2>	if the equations have been fulfilled for a time period indicated by "Time to trigger", and if the primary CPICH that is better is not included in the E-DCH active set but included in DCH active set and the other primary CPICH is any of the primary CPICHs included in the E-DCH active set, and if that first primary CPICH is not included in the "cells triggered" in the variable TRIGGERED_1J_EVENT:
3>	include that primary CPICH in the "cells recently triggered" in the variable TRIGGERED_1J_EVENT.
1>	if the value of "Replacement activation threshold" for this event is less than or equal to the current number of cells in the E-DCH active set or equal to 0 and if any primary CPICHs are stored in the "cells recently triggered" in the variable TRIGGERED_1J_EVENT:
2>	if "Reporting interval" for this event is not equal to 0:
3>	if the IE "Periodical reporting running" in the variable TRIGGERED_1J_EVENT is set to FALSE:
4>	start a timer for with the value of "Reporting interval" for this event and set the IE "Periodical reporting running" in the variable TRIGGERED_1J_EVENT to TRUE.
3>	set "sent reports" for that primary CPICH in the variable TRIGGERED_1J_EVENT to 1.
2>	send a measurement report with IEs set as below:
3>	set in "intra-frequency measurement event results": "Intrafrequency event identity" to "1J"; and
3>	include in "cell measurement event results" all entries of the "cells recently triggered" in the variable TRIGGERED_1J_EVENT not in the E-DCH active set but included in DCH active set as well as the "primary CPICH info" of all the primary CPICHs in the E-DCH active set for which the measured value is worse (i.e. greater for pathloss and less for the other measurement quantities) than the one of the entry in "cell recently triggered" that has the best measured value taking into account their cell individual offset. The "primary CPICH info" for those cells shall be ordered according to their measured value taking into account their cell individual offset, beginning with the best cell to the worst one;
3>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
2>	move all entries from "cells recently triggered" to "cells triggered" in the variable TRIGGERED_1J_EVENT.
1>	if the timer for the periodical reporting has expired:
2>	if any primary CPICH is included in the "cells triggered" in the variable TRIGGERED_1J_EVENT, and not included in the current E-DCH active set but included in DCH active set:
3>	if "Reporting interval" for this event is not equal to 0, and if "Amount of reporting" is greater than "sent reports" stored for that primary CPICH, in "cells triggered" in the variable TRIGGERED_1J_EVENT:
4>	increment the stored counter "sent reports" for all CPICH in "cell triggered" in variable TRIGGERED_1J_EVENT;
4>	start a timer with the value of "Reporting interval" for this event;
4>	send a measurement report with IEs set as below:
5>	set in "intra-frequency measurement event results": "Intrafrequency event identity" to "1J"; and
5>	include in "cell measurement event results" all entries of the variable TRIGGERED_1J_EVENT with value of IE "sent report" equal to or smaller than value of "Amount of reporting" and that are not part of the E-DCH active set but included in DCH active set as well as the "primary CPICH info" of all the primary CPICHs in the E-DCH active set for which the measured value is worse (i.e. greater for pathloss and less for the other measurement quantities) than the one of the entry in "cell triggered" that has the best measured value, ordering the "primary CPICH info" according to their measured value beginning with the best cell to the worst one, taking into account the cell individual offset for each cell;
5>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
4>	if "sent reports" in variable TRIGGERED_1J_EVENT is equal to "Amount of reporting" for all entries:
5>	set the IE "Periodical Reporting running" in the variable TRIGGERED_1J_EVENT to FALSE and disable the timer for the periodical reporting.
1>	if "Measurement quantity" is "pathloss" and Equation 3 below is fulfilled for a primary CPICH, or if "Measurement quantity" is "CPICH Ec/N0" or "CPICH RSCP", and Equation 4 below is fulfilled for a primary CPICH or;
1>	if a primary CPICH is added to the E-DCH active set:
2>	if that primary CPICH is included in the "cells triggered" or "cells recently triggered" in the variable TRIGGERED_1J_EVENT:
3>	remove the entry of that primary CPICH from "cells triggered" or "cells recently triggered" in the variable TRIGGERED_1J_EVENT.
3>	if no entry in the variable TRIGGERED_1J_EVENT has a value of "sent reports" smaller than "Amount of reporting" or
3>	if there is no entry in the variable TRIGGERED_1J_EVENT:
4>	if the reporting interval timer is running:
5>	stop the reporting interval timer;
5>	set the IE "Periodical reporting running" in the variable TRIGGERED_1J_EVENT to FALSE.
Equation 1 (Triggering condition for pathloss)

Equation 2 (Triggering condition for all the other measurement quantities)

Equation 3 (Leaving triggering condition for pathloss)

Equation 4 (Leaving triggering condition for all the other measurement quantities)

The variables in the formula are defined as follows:
MNew is the measurement result of the cell not included in the E-DCH active set but included in DCH active set.
CIONew is the individual cell offset for the cell not included in the E-DCH active set but included in DCH active set becoming better than the cell in the E-DCH active set if an individual cell offset is stored for that cell. Otherwise it is equal to 0.
For pathloss:
MInAS is the measurement result of the cell in the E-DCH active set with the highest measurement result.
For other measurement quantities:
MInAS is the measurement result of the cell in the E-DCH active set with the lowest measurement result.
CIOInAS is the individual cell offset for the cell in the E-DCH active set that is becoming worse than the new cell.
H1J is the hysteresis parameter for the event 1J.
If the measurement results are pathloss or CPICH-Ec/No then MNew and MinAS are expressed as ratios.
If the measurement result is CPICH-RSCP then MNew and MinAS are expressed in mW.

Figure 14.1.2.7-1 [Informative]: A primary CPICH that is not included in the E-DCH active set but included in DCH active set becomes better than a primary CPICH that is in the E-DCH active set
In this figure, the parameters hysteresis and time to trigger, as well as the cell individual offsets for all cells are equal to 0 and replacement activation threshold is equal to 0 or 1 or 2. In this example the cells belonging to primary CPICH 1 and 2 are in the E-DCH active set, but the cells transmitting primary CPICH 3 and CPICH 4 are not (yet) in the E-DCH active set but included in DCH active set.
The first measurement report is sent when primary CPICH 4 becomes better than primary CPICH 2. The "cell measurement event result" of the measurement report contains the information of primary CPICH 4 and CPICH 2.
Assuming that the E-DCH active set has been updated after the first measurement report (E-DCH active set is now primary CPICH 1 and primary CPICH 4), the second report is sent when primary CPICH 3 becomes better than primary CPICH 1. The "cell measurement event result" of the second measurement report contains the information of primary CPICH 3 and primary CPICH 1.
14.1.3	Intra-frequency reporting events for TDD
14.1.3.1	Reporting event 1G: Change of best cell (TDD)
When an intra-frequency measurement configuring event 1g is set up, the UE shall
1>	create a variable TRIGGERED_1G_EVENT related to that measurement, which shall initially be empty.
1>	store the P-CCPCH of the serving cell in the variable TRIGGERED_1G_EVENT as the best cell .
1>	delete this variable when the measurement is released.
When event 1G is configured in the UE, the UE shall:
1>	if the equation 1 is fulfilled for one or more P-CCPCHs during the time "Time to trigger" 
2>	if those P-CCPCHs are not included in the "primary CCPCH info" in the variable TRIGGERED_1G_EVENT:
3>	include those P-CCPCHs in "cells triggered" in the variable TRIGGERED_1G_EVENT;
2>	update the prebest cell to the best P-CCPCH and for each cell in the variable TRIGGERED_1G_EVENT:
3>	if Equation 2 below is fulfilled for a primary CCPCH:
4>	remove the entry of that primary CCPCH from "cells triggered" in the variable TRIGGERED_1G_EVENT;
2>	send a measurement report with IEs set as below:
3>	set in "intra-frequency measurement event results": "Intrafrequency event identity" to "1g";
3>	set the first entry in "cell measurement event results" to the "Cell parameters ID" of the P-CCPCH which was stored in the variable TRIGGERED_1G_EVENT;
3>	include all entries in "cells triggered" in variable TRIGGERED_1G_EVENT in "cell measurement event results" in the measurement report in descending order according to:
	
where M is the P-CCPCH RSCP and O the individual offset of a cell;
3>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
1>	if Equation 2 below is fulfilled for a primary CCPCH:
2>	if a primary CCPCH is included in the "cells triggered" in the variable TRIGGERED_1G_EVENT:
3>	remove the entry of that primary CCPCH from "cells triggered" in the variable TRIGGERED_1G_EVENT;
The UE shall use the equations below for evaluation of reporting event 1g:
Equation 1

The variables in the formula are defined as follows:
Mprevious_best is the current P-CCPCH RSCP of the previous best cell expressed in mW
Oprevious_best is the cell individual offset of the previous best cell
Mi is the current P-CCPCH RSCP of the currently evaluated cell i expressed in mW
Oi is the cell individual offset of the currently evaluated cell i
H1g is the hysteresis parameter for the event 1g.
Equation 2

The variables in the formula are defined as follows:
Mprevious_best is the current P-CCPCH RSCP of the previous best cell expressed in mW
Oprevious_best is the cell individual offset of the previous best cell
Mi is the current P-CCPCH RSCP of the currently evaluated cell i expressed in mW
Oi is the cell individual offset of the currently evaluated cell i
H1g is the hysteresis parameter for the event 1g.

Figure 14.1.3.1-1: A P-CCPCH RSCP becomes better than the previous best P-CCPCH RSCP
14.1.3.2	Reporting event 1H: Timeslot ISCP below a certain threshold (TDD)
When an intra-frequency measurement configuring event 1h is set up, the UE shall:
1>	create a variable TRIGGERED_1H_EVENT related to that measurement, which shall initially be empty;
1>	delete this variable when the measurement is released.
When event 1h is configured in the UE, the UE shall:
1>	if equation 1 is fulfilled for a time period indicated by "Time to trigger" and if that P-CCPCH is not included in the IE "cells triggered" in the variable TRIGGERED_1H_EVENT:
2>	include that P-CCPCH in the IE "cells triggered" in the variable TRIGGERED_1H_EVENT;
2>	send a measurement report with the IEs set as below:
3>	set in "intra-frequency measurement event results": "Intrafrequency event identity" to "1h" and in "cell measurement event results" the "Cell parameters ID" of the P-CCPCH that triggered the report;
3>	include in "Cell measured results" the "Timeslot ISCP" of those cells that are included in the variable TRIGGERED_1H_EVENT and "additional measured results" according to subclause 8.4.2, not taking into account the cell individual offset for each cell.
1>	if Equation 2 below is fulfilled for a primary CCPCH:
2>	if a primary CCPCH is included in the "cells triggered" in the variable TRIGGERED_1H_EVENT:
3>	remove the entry of that primary CCPCH from "cells triggered" in the variable TRIGGERED_1H_EVENT.
The UE shall use the equations below for evaluation of reporting event 1h:
Equation 1

Equation 2

The variables in the formula are defined as follows:
Mi is the Timeslot ISCP of the currently evaluated cell i expressed in mW
Oi is the cell individual offset of the currently evaluated cell i
T1h is the Threshold for event 1h
H1h is the hysteresis parameter for the event 1h.
Before any evaluation is done, the Timeslot ISCP expressed in mW is filtered according to subclause 8.6.7.2.

Figure 14.1.3.2-1: An ISCP value of a timeslot drops below an absolute threshold
14.1.3.3	Reporting event 1I: Timeslot ISCP above a certain threshold (TDD)
When an intra-frequency measurement configuring event 1i is set up, the UE shall:
1>	create a variable TRIGGERED_1I_EVENT related to that measurement, which shall initially be empty;
1>	delete this variable when the measurement is released.
When event 1i is configured in the UE, the UE shall:
1>	if equation 1 is fulfilled for a time period indicated by "Time to trigger" and if that P-CCPCH is not included in the IE "cells triggered" in the variable TRIGGERED_1I_EVENT:
2>	include that P-CCPCH in the IE "cells triggered" in the variable TRIGGERED_1I_EVENT;
2>	send a measurement report with the IEs set as below:
3>	set in "intra-frequency measurement event results": "Intrafrequency event identity" to "1i" and in "cell measurement event results" to the "Cell parameters ID" of the P-CCPCH that triggered the report;
3>	include in "measured results" the "Timeslot ISCP" of those cells that are included in the variable TRIGGERED_1I_EVENT and "additional measured results" according to 8.4.2, not taking into account the cell individual offset for each cell.
1>	if Equation 2 below is fulfilled for a primary CCPCH:
2>	if a primary CCPCH is included in the "cells triggered" in the variable TRIGGERED_1I_EVENT:
3>	remove the entry of that primary CCPCH from "cells triggered" in the variable TRIGGERED_1I_EVENT.
The UE shall use the equation below for evaluation of reporting event 1i:
Equation 1

Equation 2

The variables in the formula are defined as follows:
Mi is the Timeslot ISCP of the currently evaluated cell i expressed in mW
Oi is the cell individual offset of the currently evaluated cell i
T1i is the Threshold for event 1i
H1i is the hysteresis parameter for the event 1i.
Before any evaluation is done, the Timeslot ISCP expressed in mW is filtered according to subclause 8.6.7.2.

Figure 14.1.3.3-1: An ISCP value of a timeslot exceeds a certain threshold
14.1.4	Event-triggered periodic intra-frequency measurement reports (informative)
14.1.4.1	Cell addition failure (FDD only)

Figure 14.1.4.1-1: Periodic reporting triggered by event 1A
When a cell enters the reporting range and triggers event 1A, the UE shall transmit a MEASUREMENT REPORT to the UTRAN and typically this may result in an update of the active set. However, in some situations the UTRAN may be unable to add a strong cell to corresponding the active set typically due to capacity shortage for example.
The UE shall continue reporting after the initial report by reverting to periodical measurement reporting if the reported cell is not added to the corresponding active set. This is illustrated in Figure 14.1.4.1-1. During periodic reporting the UE shall transmit MEASUREMENT REPORT messages to the UTRAN at predefined intervals. The reports shall include reporting information of the cells in the current active set and of the monitored cell(s) in the reporting range.
Event-triggered periodic measurement reporting shall be terminated if:
1>	there are no longer any monitored cell(s) within the reporting range; or
1>	the UTRAN has added cells to the corresponding active set so that it includes the maximum number of cells (defined by the reporting deactivation threshold parameter), which are allowed for event 1A to be triggered; or
1>	the UE has sent the maximum number of MEASUREMENT REPORT messages (defined by the amount of reporting parameter).
The reporting period is assigned by the UTRAN (with the Reporting interval parameter). If the reporting interval is set to zero event-triggered periodic measurement reporting shall not be applied.
14.1.4.1a	Cell removal failure (FDD only)

Figure 14.1.4.1a: Periodic reporting triggered by event 1B
When a cell enters the removal range and triggers event 1B, the UE shall transmit a MEASUREMENT REPORT to the UTRAN and typically this may result in the removal of the weakest active cell. If the UTRAN is unable to receive MEASUREMENT REPORT after the maximum retransmission, it is beneficial to receive continuous reports in this case as well.
The UE shall revert to periodical measurement reporting if the UTRAN does not update the corresponding active set after the transmission of the measurement report. This is illustrated in Figure 14.1.4.1a. During periodic reporting the UE shall transmit MEASUREMENT REPORT messages to the UTRAN at predefined intervals.
Event-triggered periodic measurement reporting shall be terminated if:
1>	there are no longer any monitored cell(s) within the removal range; or
1>	the UTRAN has removed cells from the corresponding active set so that there are no longer the minimum amount of active cells for event 1B to be triggered; or
1>	the UE has sent the maximum number of MEASUREMENT REPORT messages (defined by the "amount of reporting" parameter).
The reporting period is assigned by the UTRAN (with the "Reporting interval" parameter). If the reporting interval is set to zero, event-triggered periodic measurement reporting shall not be applied.
14.1.4.2	Cell replacement failure (FDD only)

Figure 14.1.4.1-2: Periodic reporting triggered by event 1C
When a cell enters the replacement range and triggers event 1C, the UE shall transmit a MEASUREMENT REPORT to the UTRAN and typically this may result in the replacement of the weakest active cell. If the UTRAN is unable to replace the cell due to for example capacity shortage, it is beneficial to receive continuous reports in this case as well.
The UE shall revert to periodical measurement reporting if the UTRAN does not update the corresponding active set after the transmission of the measurement report. This is illustrated in Figure 14.1.4.1-2. During periodic reporting the UE shall transmit MEASUREMENT REPORT messages to the UTRAN at predefined intervals. The reports shall include reporting information of the cells in the current active set and of the monitored cell(s) in the replacement range.
Event-triggered periodic measurement reporting shall be terminated if:
1>	there are no longer any monitored cell(s) within the replacement range; or
1>	the UTRAN has removed cells from the corresponding active set so that there are no longer the minimum amount of active cells for event 1C to be triggered (as defined by the replacement activation threshold parameter); or
1>	the UE has sent the maximum number of MEASUREMENT REPORT messages (defined by the amount of reporting parameter).
The reporting period is assigned by the UTRAN (with the Reporting interval parameter). If the reporting interval is set to zero, event-triggered periodic measurement reporting shall not be applied.
14.1.5	Mechanisms available for modifying intra-frequency measurement reporting behaviour (informative)
14.1.5.1	Hysteresis
To limit the amount of event-triggered reports, a hysteresis parameter may be connected with each reporting event given above. The value of the hysteresis is given to the UE in the Reporting criteria field of the Measurement Control message.
In the example in Figure 14.1.5.1-1, the hysteresis ensures that the event 1D (FDD) or IG(TDD) (primary CPICH(FDD)/CCPCH(TDD) 2 becomes the best cell) is not reported until the difference is equal to the hysteresis value. The fact that primary CPICH(FDD)/CCPCH(TDD) 1 becomes best afterwards is not reported at all in the example since the primary CPICH(FDD)/CCPCH(TDD) 1 does not become sufficiently better than the primary CPICH(FDD)/CCPCH(TDD) 2.

Figure 14.1.5.1-1: Hysteresis limits the amount of measurement reports
14.1.5.2	Time-to-trigger
To limit the measurement signalling load, a time-to-trigger parameter could be connected with each reporting event given above. The value of the time-to-trigger is given to the UE in the Reporting criteria field of the Measurement Control message.
The effect of the time-to-trigger is that the report is triggered only after the conditions for the event have existed for the specified time-to-trigger. In the following FDD example in Figure 14.1.5.2-1, the use of time-to-trigger means that the event (primary CPICH 3 enters the reporting range) is not reported until is has been within the range for the time given by the time-to-trigger parameter.

Figure 14.1.5.2-1: Time-to-trigger limits the amount of measurement reports
In the following TDD example in Figure 14.1.5.2-2, the use of time-to-trigger means that the event (Timeslot ISCP upon certain threshold) is not reported until it has been upon the threshold for the time given by the time-to trigger parameter.

Figure 14.1.5.2-2: Time-to-trigger limits the amount of measurement reports
NOTE:	The time-to-trigger could be combined with hysteresis, i.e. a hysteresis value is added to the measurement quantity before evaluating if the time-to-trigger timer should be started.
14.1.5.3	Cell individual offsets
For each cell that is monitored, an offset can be assigned with inband signalling. The offset can be either positive or negative. The offset is added to the measurement quantity before the UE evaluates if an event has occurred. The UE receives the cell individual offsets for each primary CPICH(FDD)/CCPCH(TDD) in the IE "Cell individual offset" included in the IE "Cell info" associated with each measurement object and with each measurement object on secondary UL frequency included in the MEASUREMENT CONTROL message.
For the FDD example, in Figure 14.1.5.3-1, since an offset is added to primary CPICH 3, it is the dotted curve that is used to evaluate if an event occurs. Hence, this means that measurement reports from UE to UTRAN are triggered when primary CPICH plus the corresponding offset, i.e. the dotted curve, leaves and enters the reporting range and when it gets better than primary CPICH 1 (if these events have been ordered by UTRAN). This offset mechanism provides the network with an efficient tool to change the reporting of an individual primary CPICH.
By applying a positive offset, as in Figure 14.1.5.3-1, the UE will send measurement reports as if the primary CPICH is offset x dB better than what it really is. This could be useful if the operator knows that a specific cell is interesting to monitor more carefully, even though it is not so good for the moment. In the example in Figure 14.1.5.3-1, the operator might know by experience that in this area primary CPICH 3 can become good very quickly (e.g. due to street corners) and therefore that it is worth reporting more intensively. Depending on the implemented handover evaluation algorithm, this may result in the cell with primary CPICH 3 being included in the active set earlier than would have been the case without the positive offset.

Figure 14.1.5.3-1: A positive offset is applied to primary CPICH 3 before event evaluation in the UE
For the TDD example, in Figure 14.1.5.3-2, an offset is added to primary CCPCH2, it is the dotted curve that is used to evaluate if the primary CCPCH2 becomes better than primary CCPCH1 (ordered by the UTRAN).

Figure 14.1.5.3-2: A positive offset is applied to primary CCPCH 2
Correspondingly, the operator can choose to apply a negative offset to a primary CCPCH. Then the reporting on that primary CCPCH is limited and the corresponding cell may be, at least temporarily excluded from the active set or as a target cell for handover.
It is important to note that the offset is added before triggering events, i.e. the offset is added by the UE before evaluating if a measurement report should be sent as opposed to offsets that are applied in the network and used for the actual handover evaluation. It should also be noted that the cell individual offset is not used in all measurement reporting events, and that it is not applied to all events in the same way.
14.1.5.4	Forbid a Primary CPICH to affect the reporting range (FDD only)
The reporting range affects the reporting events 1A and 1B presented above. The reporting range is defined as a function of all the Primary CPICHs in the active set (see 14.1.2.1 and 14.1.2.2). If the parameter W is set to 0, the reporting range is defined relative to the best Primary CPICH. However, there could be cases where it is good to forbid a specific Primary CPICH to affect the reporting range. For example in Figure 14.1.5.4-1 the network has requested the UE to not let Primary CPICH 3 affect the reporting range. This mechanism could be effective if the operator knows by experience that the quality of Primary CPICH 3 is very unstable in a specific area and therefore should not affect the reporting of the other Primary CPICHs.
The UE shall ignore that a Primary CPICH is forbidden to affect the reporting range if all of the following conditions are fulfilled:
-	the Primary CPICH is included in active set; and
-	all cells in active set are defined as Primary CPICHs forbidden to affect the reporting range.

Figure 14.1.5.4-1: Primary CPICH 3 is forbidden to affect the reporting range
14.1.6	Report quantities in intra-frequency measurements
The quantities that the UE shall report to UTRAN when the event is triggered for an intra-frequency measurement are given by the IE "Intra-frequency reporting quantity" stored for this measurement and can be the following:
1	SFN-SFN observed time difference
2	Cell synchronisation information
3	Cell Identity
4	Downlink Ec/N0 (FDD).
5	Downlink path loss.
	For FDD:
	Pathloss in dB = Primary CPICH Tx power - CPICH RSCP.
-	For Primary CPICH Tx power the IE "Primary CPICH Tx power" shall be used. The unit is dBm.
-	CPICH RSCP is the result of the CPICH RSCP measurement. The unit is dBm.
	For TDD:
	Pathloss in dB = Primary CCPCH TX power - Primary CCPCH RSCP.
-	For Primary CCPCH TX power the IE "Primary CCPCH TX Power" shall be used. The unit is dBm.
-	Primary CCPCH RSCP is the result of the Primary CCPCH RSCP measurement. The unit is dBm.
	If necessary Pathloss shall be rounded up to the next higher integer.
Results higher than 158 shall be reported as 158.
Results lower than 46 shall be reported as 46.
6	Downlink received signal code power (RSCP) after despreading (of a primary CPICH for FDD, and of a primary CCPCH for TDD).
7	ISCP measured on Timeslot basis. (TDD)
8	Proposed TGSN (TDD)
A description of those values can be found in [7] and [8].
14.1.7	Intra-frequency Common E-RGCH RL Determination (FDD only)
For reception of E-RGCH from radio links other than the serving E-DCH radio link in CELL_FACH state, the UE shall:
1>	if Equation 1 below is fulfilled for a primary CPICH of a cell to be evaluated for performing E-RGCH reception: 
2>	if the equation has been fulfilled for a time period indicated by "Time to trigger" equal to 0: 
3>	consider the radio link as a Common E-RGCH RL.
Equation 1:
10∙LogMNew + CIONew ≥ 10∙LogMBest - R1a-E-RGCH
The variables in the formula are defined as follows:
MNew is the CPICH Ec/N0 measurement result for the cell under evaluation for E-RGCH reception.
CIONew is the individual cell offset for the cell under evaluation for E-RGCH reception, if an individual cell offset is provided in the system information for that cell. Otherwise it is equal to 0.
MBest is the CPICH Ec/N0 measurement result for the serving E-DCH cell, not taking into account any cell individual offset.
R1a-E-RGCH is the reporting range constant.
MNew and MBest are expressed as ratios.
14.2	Inter-frequency measurements
14.2.0a	Inter-frequency measurement quantities
The two first measurement quantities listed below are used by the UE to evaluate whether an inter-frequency measurement event has occurred or not, through the computation of a frequency quality estimate. The quantity to use to compute the frequency quality estimate for an inter-frequency measurement is given in the "Inter-frequency measurement quantity" stored for that measurement.
1	Downlink Ec/No (FDD)
2	Downlink received signal code power (RSCP) after despreading.
3	Downlink path loss.
	For FDD:
	Pathloss in dB = Primary CPICH Tx power - CPICH RSCP.
-	For Primary CPICH Tx power the IE "Primary CPICH Tx power" shall be used. The unit is dBm.
-	CPICH RSCP is the result of the CPICH RSCP measurement. The unit is dBm.
	For TDD:
	Pathloss in dB = Primary CCPCH TX power - Primary CCPCH RSCP.
-	For Primary CCPCH TX power the IE "Primary CCPCH TX Power" shall be used. The unit is dBm.
-	Primary CCPCH RSCP is the result of the Primary CCPCH RSCP measurement. The unit is dBm.

A description of those values can be found in [7] and [8].
14.2.0b	Frequency quality estimate
14.2.0b.1	FDD cells
The frequency quality estimate used in events 2a, 2b 2c, 2d, 2e and 2f is defined as:

The variables in the formula are defined as follows ("the virtual active set on frequency j" should be understood as the active set if frequency j is the used frequency or understood as the secondary E-DCH active set if frequency j is the downlink frequency associated with the secondary uplink frequency. If frequency j is a non-used frequency and is not the downlink frequency associated with the secondary uplink frequency, the way the virtual active set is initiated and updated is described in subclause 14.11):
Qfrequency j is the estimated quality of the virtual active set on frequency j.
Mfrequency j is the estimated quality of the virtual active set on frequency j.
Mi j is a measurement result of cell i in the virtual active set on frequency j.
NA j is the number of cells in the virtual active set on frequency j.
MBest j is the measurement result of the cell in the virtual active set on frequency j with the highest measurement result.
Wj is a parameter sent from UTRAN to UE and used for frequency j.
If the measurement result is CPICH-Ec/No then MFrequency, Mi j and MBest are expressed as ratios.
If the measurement result is CPICH-RSCP or PCCPCH-RSCP then MFrequency, Mi j and MBest are expressed in mW.
14.2.0b.2	TDD cells

Qi ,frequency j is the estimated quality of cell i on frequency j.
Mi is the measurement result for Primary CCPCH RSCP of cell i on the primary frequency expressed in mW.
Oi,j is the cell individual offset of the currently evaluated cell i on frequency j. Oij is set by IE " Cell individual offset"
14.2.0c	Inter-frequency reporting quantities
The quantities that the UE shall report for each cell to UTRAN when the event is triggered for an inter-frequency measurement is given by the "Inter-frequency reporting quantity" IE stored for this measurement and can be the following, from 1 to 8. The quantity number 9 can be reported for each frequency that triggered the report.
1	Cell identity
2	SFN-SFN observed time difference
3	Cell synchronisation information
4	Downlink Ec/No (FDD)
5	Downlink path loss.
	For FDD:
	Pathloss in dB = Primary CPICH Tx power - CPICH RSCP.
-	For Primary CPICH Tx power the IE "Primary CPICH Tx power" shall be used. The unit is dBm.
-	CPICH RSCP is the result of the CPICH RSCP measurement. The unit is dBm.
	For TDD:
	Pathloss in dB = Primary CCPCH TX power - Primary CCPCH RSCP.
-	For Primary CCPCH TX power the IE "Primary CCPCH TX Power" shall be used. The unit is dBm.
-	Primary CCPCH RSCP is the result of the Primary CCPCH RSCP measurement. The unit is dBm.
	If necessary Pathloss shall be rounded up to the next higher integer.
Results higher than 158 shall be reported as 158.
Results lower than 46 shall be reported as 46.
6	Downlink received signal code power (RSCP) after despreading (of a primary CPICH for FDD, and of a primary CCPCH for TDD).
7	ISCP measured on Timeslot basis. (TDD)
8	Proposed TGSN (TDD)
9	UTRA carrier RSSI
A description of those values can be found in [7] and [8].
14.2.1	Inter-frequency reporting events
Within the measurement reporting criteria field in the MEASUREMENT CONTROL message UTRAN notifies the UE which events should trigger the UE to send a MEASUREMENT REPORT message. The listed events are the toolbox from which the UTRAN can choose the reporting events that are needed for the implemented handover evaluation function, or other radio network functions.
All events are evaluated with respect to one of the measurement quantities given in subclause 14.2.0a. The measurement quantities are measured on the monitored primary common pilot channels (CPICH) in FDD mode and the monitored primary common control channels (PCCPCH) in TDD mode of the cell defined in the measurement object. A "non-used frequency" is a frequency that the UE has been ordered to measure upon but is not used for the connection. A "used frequency" is a frequency that the UE has been ordered to measure upon and is also currently used for the connection. An exception to the definition of used and non-used frequency is the frequency of the first secondary serving HS-DSCH cell which shall be treated as a non-used frequency for the purpose of inter-frequency measurement, and when more than one uplink frequency is configured, shall be treated as a used frequency for the purposes of intra-frequency measurement.
If the non-used frequency is the downlink frequency associated with the secondary uplink frequency and if intra-frequency measurement reporting on this frequency is configured, the "monitored set on non-used frequency" consists of cells in the IE "Intra-frequency cell info on secondary UL frequency" in the variable CELL_INFO_LIST that are not part of the secondary E-DCH active set; Otherwise, the "monitored set on non-used frequency" consists of cells in "cells for measurement" (or all cells in CELL_INFO_LIST if "cells for measurement" is not present) in the IE "Inter-frequency cell info" in the variable CELL_INFO_LIST that are not part of the virtual active set on that non-used frequency.
The "detected set on non-used frequency" consists of all cells that are not part of the virtual active set on that non-used frequency and are not in the CELL_INFO_LIST.
The IE "Cells to be excluded in non-used frequency detected cells" notifies the UE to exclude indicated cells from corresponding measurement report and UE shall exclude indicated cells from measurement report for inter-frequency detected set measurement.
If a measurement is configured with IE "Triggering Condition non-used frequency detected cells" the UE maintains 2 virtual active sets and 2 variables (1 variable for event 2g), in order to evaluate the event according to the rules below using one virtual active set and one variable for cells only in the CELL_INFO_LIST, and in parallel using another virtual active set and another variable for all cells (including detected set cells not indicated in "Cells to be excluded in non-used frequency detected cells").
When one inter-frequency measurement identity corresponds to multiple inter-frequency events with identical event identities, the UE behaviour is not specified.
14.2.1.1	Event 2a: Change of best frequency.
When an inter-frequency measurement configuring event 2a is set up, the UE shall:
1>	create a variable BEST_FREQUENCY_2A_EVENT per virtual active set related to that measurement, which shall initially contain the used frequency;
1>	delete this variable when the measurement is released.
When event 2a is configured in the UE within a measurement, the UE shall:
1>	when the measurement is initiated or resumed:
2>	store the used frequency in the variable BEST_FREQUENCY_2A_EVENT.
1>	if equation 1 below has been fulfilled for a time period indicated by "Time to trigger" while not considering detected set cells for a frequency included for that event and which is not stored in the variable BEST_FREQUENCY_2A_EVENT used for evaluation without detected set cells; or
1>	if equation 1 below has been fulfilled for a time period indicated by "Time to trigger" while considering detected set cells but not simultaneously fulfilled for that time while not considering detected set cells, for a frequency included for that event and which is not stored either in the variable BEST_FREQUENCY_2A_EVENT used for evaluation without detected set cells or in the variable BEST_FREQUENCY_2A_EVENT used for evaluation with detected set cells; or
1>	if the CSG virtual active set has been updated, since the last measurement report for this event associated with CSG measurement, and equation 1 below has been fulfilled for a time period indicated by "Time to trigger", for a frequency included for that event and which is stored in the variable BEST_FREQUENCY_2A_EVENT:
2>	send a measurement report with IEs set as below:
3>	set in "inter-frequency measurement event results":
4>	"inter-frequency event identity" to "2a"; and
4>	"Frequency info" to the frequency that triggered the event; and
4>	"Non frequency related measurement event results" to the "Primary CPICH info" of the best primary CPICH for FDD cells in case of non-CSG measurements or "Primary CPICH info" of the cell present in CSG virtual active set in case of CSG measurements or "Primary CCPCH info" to the "Cells parameters ID" of the best primary CCPCH for TDD cells on that frequency, not taking into account the cell individual offset.
4>	if the frequency triggered the event due to considering detected set cells:
5>	set the IE "Detected Set Trigger".
3> if a non-used frequency triggered the measurement report:
4> include in IE "Inter-frequency measured results list" the measured results for the non-used frequency that triggered the event, not taking into account the cell individual offset.
3>	if the used frequency triggered the measurement report:
4>	do not include the IE "Inter-frequency measured results list" in the measurement report.
3>	set the IE "additional measured results" according to subclause 8.4.2, not taking into account the cell individual offset;
2>	update the variable BEST_FREQUENCY_2A_EVENT corresponding to the virtual active set being evaluated with that frequency.
1>	if equation 1 below has been fulfilled but the CSG virtual active set is updated for a frequency included for that event:
2>	restart evaluation of this event for this frequency.
Equation 1:

The variables in the formula are defined as follows:
QNot Best is the quality estimate of a frequency not stored the "best frequency" in the variable BEST_FREQUENCY_2A_EVENT.
QBest is the quality estimate of the frequency stored in "best frequency" in the variable BEST_FREQUENCY_2A_EVENT.
H2a is the hysteresis parameter for the event 2a in that measurement.
14.2.1.2	Event 2b: The estimated quality of the currently used frequency is below a certain threshold and the estimated quality of a non-used frequency is above a certain threshold.
When an inter-frequency measurement configuring event 2b is set up, the UE shall:
1>	create a variable TRIGGERED_2B_EVENT per virtual active set related to that measurement, which shall initially be empty;
1>	delete this variable when the measurement is released.
When event 2b is configured in the UE within a measurement, the UE shall:
1>	if equations 1 and 2 below have been fulfilled for a time period indicated by "Time to Trigger" from the same instant, respectively for one or several non-used frequencies included for that event and for the used frequency:
2>	if any of those non-used frequency triggered while not considering detected set cells and is not stored in the variable TRIGGERED_2B_EVENT used for evaluation without detected set cells; or
2>	if any of those non-used frequency triggered while considering detected set cells but did not simultaneously trigger while not considering detected set cells and  is not stored either in the variable TRIGGERED_2B_EVENT used for evaluation without detected set cells or the variable TRIGGERED_2B_EVENT used for evaluation with detected set cells; or
2>	if the CSG virtual active set has been updated, since the last measurement report for this event associated with CSG measurement,for any of those non-used frequency which are stored in the variable TRIGGERED_2B_EVENT:
3>	store the non-used frequencies that triggered the event and that were not previously stored in the variable TRIGGERED_2B_EVENT corresponding to the virtual active set being evaluated into that variable;
3>	send a measurement report with IEs set as below:
4>	set in "inter-frequency measurement event results":
5>	"inter-frequency event identity" to "2b"; and
5>	for each non-used frequency that triggered the event, beginning with the best frequency:
6>	"Frequency info" to that non-used frequency; and
6>	"Non frequency related measurement event results" to the "Primary CPICH info" of the best primary CPICH for FDD cells in case of non-CSG measurements or "Primary CPICH info" of the cell present in CSG virtual active set in case of CSG measurements or "Primary CCPCH info" to the "Cell parameters ID" of the best primary CCPCH for TDD cells on that non-used frequency, not taking into account the cell individual offset.
6>	if the frequency triggered the event due to considering detected set cells:
7>	set the IE "Detected Set Trigger".
4>		include in IE "Inter-frequency measured results list" the measured results for each non-used frequency that triggered the event, not taking into account the cell individual offset;
4>	set the IE "additional measured results" according to subclause 8.4.2, not taking into account the cell individual offset.
1>	if this equations 1 and 2 below have been fulfilled but the CSG virtual active set is updated for a frequency included for that event:
2>	restart evaluation of this event for this frequency.
1>	if equation 3 below is fulfilled for a non-used frequency stored in the variable TRIGGERED_2B_EVENT:
2>	remove that non-used frequency from the variable TRIGGERED_2B_EVENT corresponding to the virtual active set being evaluated.
1>	if equation 4 below is fulfilled for the used frequency:
2>	clear the variable TRIGGERED_2B_EVENT.
Triggering conditions:
Equation 1:

The variables in the formula are defined as follows:
QNon used is the quality estimate of a non-used frequency that becomes better than an absolute threshold.
TNon used 2b is the absolute threshold that applies for this non-used frequency in that measurement.
H2b is the hysteresis parameter for the event 2b.
Equation 2:

The variables in the formula are defined as follows:
QUsed is the quality estimate of the used frequency.
TUsed 2b is the absolute threshold that applies for the used frequency in that measurement.
H2b is the hysteresis parameter for the event 2b.
Leaving triggered state condition:
Equation 3:

The variables in the formula are defined as follows:
QNon used is the quality estimate of a non-used frequency that is stored in the variable TRIGGERED_2B_EVENT.
TNon used 2b is the absolute threshold that applies for this non-used frequency in that measurement.
H2b is the hysteresis parameter for the event 2b.
Equation 4:

The variables in the formula are defined as follows:
QUsed is the quality estimate of the used frequency.
TUsed 2b is the absolute threshold that applies for the used frequency in that measurement.
H2b is the hysteresis parameter for the event 2b.
14.2.1.3	Event 2c: The estimated quality of a non-used frequency is above a certain threshold
When an inter-frequency measurement configuring event 2c is set up, the UE shall:
1>	create a variable TRIGGERED_2C_EVENT per virtual active set related to that measurement, which shall initially be empty;
1>	delete this variable when the measurement is released.
When event 2c is configured in the UE within a measurement, the UE shall:
1>	if equation 1 below has been fulfilled for one or several non-used frequencies included for that event during the time "Time to trigger":
2>	if any of those non-used frequencies triggered while not considering detected set cells and is not stored in the variable TRIGGERED_2C_EVENT used for evaluation without detected set cells; or
2>	if any of those non-used frequency triggered while considering detected set cells but did not simultaneously trigger while not considering detected set cells and is not stored either in the variable TRIGGERED_2C_EVENT used for evaluation without detected set cells or in the variable TRIGGERED_2C_EVENT used for evaluation with detected set cells; or
2>	if the CSG virtual active set has been updated, since the last measurement report for this event associated with CSG measurement,for any of those non-used frequency which are stored in the variable TRIGGERED_2C_EVENT:
3>	store the non-used frequencies that triggered the event and that were not previously stored in the variable TRIGGERED_2C_EVENT corresponding to the virtual active set being evaluated into that variable;
3>	send a measurement report with IEs set as below:
4>	set in "inter-frequency measurement event results":
5>	"inter-frequency event identity" to "2c"; and
5>	for each non-used frequency that triggered the event, beginning with the best frequency:
6>	"Frequency info" to that non-used frequency; and
6>	"Non frequency related measurement event results" to the "Primary CPICH info" of the best primary CPICH for FDD cells in case of non-CSG measurements or "Primary CPICH info" of the cell present in CSG virtual active set in case of CSG measurements or "Primary CCPCH info" to the "Cell parameters ID" of the best primary CCPCH for TDD cells on that non-used frequency, not taking into account the cell individual offset.
6>	if the frequency triggered the event due to considering detected set cells:
7>	set the IE "Detected Set Trigger".
4>		include in IE "Inter-frequency measured results list" the measured results for each non-used frequency that triggered the event, not taking into account the cell individual offset;
4>	set the IE "additional measured results" according to subclause 8.4.2 not taking into account the cell individual offset.
1>	if equation 1 below has been fulfilled but the CSG virtual active set is updated for a non-used frequency included for that event:
2>	restart evaluation of this event for this frequency.
1>	if equation 2 below is fulfilled for a non-used frequency stored in the variable TRIGGERED_2C_EVENT:
2>	remove that non-used frequency from the variable TRIGGERED_2C_EVENT corresponding to the virtual active set being evaluated.
Triggering condition:
Equation 1:

The variables in the formula are defined as follows:
QNon used is the quality estimate of a non-used frequency that becomes better than an absolute threshold.
TNon used 2c is the absolute threshold that applies for this non-used frequency in that measurement.
H2c is the hysteresis parameter for the event 2c.
Leaving triggered state condition:
Equation 2:

The variables in the formula are defined as follows:
QNon used is the quality estimate of a non-used frequency stored in the variable TRIGGERED_2C_EVENT.
TNon used 2c is the absolute threshold that applies for this non-used frequency in that measurement.
H2c is the hysteresis parameter for the event 2c.
14.2.1.4	Event 2d: The estimated quality of the currently used frequency is below a certain threshold
A UE shall be able to perform this measurement and the corresponding event reporting without requiring compressed mode.
When an inter-frequency measurement configuring event 2d is set up, the UE shall:
1>	create a variable TRIGGERED_2D_EVENT related to that measurement, which shall initially be set to FALSE;
1>	delete this variable when the measurement is released.
When event 2d is configured in the UE within a measurement, the UE shall:
1>	if equation 1 below has been fulfilled for the used frequency during the time "Time to trigger":
2>	if the variable TRIGGERED_2D_EVENT is set to FALSE:
3>	set the variable TRIGGERED_2D_EVENT to TRUE;
3>	send a measurement report with IEs set as below:
4>	set in "inter-frequency event results": "inter-frequency event identity" to "2d" and no IE "Inter-frequency cells", not taking into account the cell individual offset;
4>		include in IE "Inter-frequency measured results list" the measured results for the used frequency, not taking into account the cell individual offset;
4>	set the IE "additional measured results" according to subclause 8.4.2, not taking into account the cell individual offset.
1>	if the variable TRIGGERED_2D_EVENT is set to TRUE and if equation 2 is fulfilled for the used frequency:
2>	set the variable TRIGGERED_2D_EVENT to FALSE.
Triggering condition:
Equation 1:

The variables in the formula are defined as follows:
QUsed is the quality estimate of the used frequency.
TUsed 2d is the absolute threshold that applies for the used frequency and event 2d.
H2d is the hysteresis parameter for the event 2d.
Leaving triggered state condition:
Equation 2:

The variables in the formula are defined as follows:
QUsed is the quality estimate of the used frequency.
TUsed 2d is the absolute threshold that applies for the used frequency and event 2d.
H2d is the hysteresis parameter for the event 2d.
14.2.1.5	Event 2e: The estimated quality of a non-used frequency is below a certain threshold
When an inter-frequency measurement configuring event 2e is set up, the UE shall:
1>	create a variable TRIGGERED_2E_EVENT per virtual active set related to that measurement, which shall initially be empty;
1>	delete this variable when the measurement is released.
When event 2e is configured in the UE within a measurement, the UE shall:
1>	if equation 1 below has been fulfilled for one or several non-used frequencies included for that event during the time "Time to trigger":
2>	if any of those non-used frequencies triggered while not considering detected set cells and is not stored in the variable TRIGGERED_2E_EVENT used for evaluation without detected set cells; or
2>	if any of those non-used frequency triggered while considering detected set cells but did not simultaneously trigger while not considering detected set cells and is not stored either in the variable TRIGGERED_2E_EVENT used for evaluation without detected set cells or in the variable TRIGGERED_2E_EVENT used for evaluation with detected set cells; or
2>	if the CSG virtual active set has been updated, since the last measurement report for this event associated with CSG measurement,for any of those non-used frequency which are stored in the variable TRIGGERED_2E_EVENT:
3>	store the non-used frequencies that triggered the event and that were not previously stored in the variable TRIGGERED_2E_EVENT corresponding to the virtual active set being evaluated into that variable;
3>	send a measurement report with IEs set as below:
4>	set in "inter-frequency measurement event results":
5>	"inter-frequency event identity" to "2e"; and
5>	for each non-used frequency that triggered the event, beginning with the best frequency:
6>	"Frequency info" to that non-used frequency; and
6>	"Non frequency related measurement event results" to the "Primary CPICH info" of the best primary CPICH for FDD cells in case of non-CSG measurements or "Primary CPICH info" of the cell present in CSG virtual active set in case of CSG measurements or "Primary CCPCH info" to the "Cell parameters ID" of the best primary CCPCH for TDD cells on that non-used frequency, not taking into account the cell individual offset.
6>	if the frequency triggered the event due to considering detected set cells:
7>	set the IE "Detected Set Trigger".
4>		include in the IE "Inter-frequency measured results list" the measured results for each non-used frequency that triggered the event, not taking into account the cell individual offset;
4>	set the IE "additional measured results" according to subclause 8.4.2, not taking into account the cell individual offset.
1>	if equation 1 below has been fulfilled but the CSG virtual active set is updated for a non-used frequency included for that event:
2>	restart evaluation of this event for this frequency.
1>	if equation 2 below is fulfilled for a non-used frequency stored in the variable TRIGGERED_2E_EVENT:
2>	remove that non-used frequency from the variable TRIGGERED_2E_EVENT corresponding to the virtual active set being evaluated.
Triggering condition:
Equation 1:

The variables in the formula are defined as follows:
QNon used is the quality estimate of a non-used frequency that becomes worse than an absolute threshold.
TNon used 2e is the absolute threshold that applies for that non-used frequency for that event.
H2e is the hysteresis parameter for the event 2e.
Leaving triggered state condition:
Equation 2:

The variables in the formula are defined as follows:
QNon used is the quality estimate of a non-used frequency stored in the variable TRIGGERED_2E_EVENT.
TNon used 2e is the absolute threshold that applies for that non-used frequency for that event.
H2e is the hysteresis parameter for the event 2e.
14.2.1.6	Event 2 f: The estimated quality of the currently used frequency is above a certain threshold
A UE shall be able to perform this measurement and the corresponding event reporting without requiring compressed mode.
When an inter-frequency measurement configuring event 2f is set up, the UE shall:
1>	create a variable TRIGGERED_2F_EVENT related to that measurement, which shall initially be set to FALSE;
1>	delete this variable when the measurement is released.
When event 2f is configured in the UE within a measurement, the UE shall:
1>	if equation 1 below has been fulfilled for the used frequency during the time "Time to trigger":
2>	if the variable TRIGGERED_2F_EVENT is set to FALSE:
3>	set the variable TRIGGERED_2F_EVENT to TRUE;
3>	send a measurement report with IEs set as below:
4>	set in "inter-frequency event results": "inter-frequency event identity" to "2f", and no IE "Inter-frequency cells";
4>		include in IE "Inter-frequency measured results list" the measured results for the used frequency, not taking into account the cell individual offset;
4>	set the IE "additional measured results" according to subclause 8.4.2, not taking into account the cell individual offset.
1>	if the variable TRIGGERED_2F_EVENT is set to TRUE and if equation 2 is fulfilled for the used frequency:
2>	set the variable TRIGGERED_2F_EVENT to FALSE.
Triggering condition:
Equation 1:

The variables in the formula are defined as follows:
QUsed is the quality estimate of the used frequency.
TUsed 2f is the absolute threshold that applies for the used frequency and event 2f.
H2f is the hysteresis parameter for the event 2f.
Leaving triggered state condition:
Equation 2:

The variables in the formula are defined as follows:
QUsed is the quality estimate of the used frequency.
TUsed 2f is the absolute threshold that applies for the used frequency and event 2f.
H2f is the hysteresis parameter for the event 2f.
14.2.1.7	Event 2g: Change of best cell on a configured secondary downlink frequency (FDD only)
In the description below, the "virtual active set" should be understood as the secondary E-DCH active set if the frequency is the downlink frequency associated with the secondary uplink frequency. Otherwise, the "virtual active set" is the virtual active set for cells only in the CELL_INFO_LIST. The way the virtual active set is initiated and updated is described in subclause 14.11.
When an inter-frequency measurement configuring event 2g is set up, the UE shall:
1>	create a variable BEST_CELL_2G_EVENT per virtual active set related to that measurement, which shall initially contain the secondary serving HS-DSCH cell on each secondary downlink frequency;
1>	delete this variable when the measurement is released.
When event 2g is configured in the UE within a measurement, the UE shall:
1>	if IE "useCIO" is present and its value is TRUE, take into account the Cell Individual Offset for evaluation of the Equation 1, otherwise do not take it into account;
1>	if Equation 1 below has been fulfilled for a time period indicated by "time to trigger" for a primary CPICH that is not stored in "Best cell" in variable BEST_CELL_2G_EVENT for one or several non-used frequencies:
NOTE:	If the equations are simultaneously fulfilled for more than one primary CPICH on one frequency, the UE should report only one event 2g on that frequency, triggered by the best primary CPICH.
2>	if all required reporting quantities are available for that cell, and that primary CPICH is part of cells in "Cells for measurement" or in CELL_INFO_LIST if "Cells for measurement" is not present:
3>	set the "Frequency" to the frequency that triggered the event and "best cell" to that primary CPICH that triggered the event in the variable BEST_CELL_2G_EVENT;
3>	send a measurement report with IEs set as below:
4>	set in "inter-frequency measurement event results":
5>	"inter-frequency event identity" to "2g"; and
5>	for each non-used frequency that triggered the event:
6>	"Frequency info" to that frequency; and
6>	"Non frequency related measurement event results" to the "Primary CPICH info" of the primary CPICH stored in the BEST_CELL_2G_EVENT variable.
4>	include in IE "Inter-frequency measured results list" the measured results for each non-used frequency that triggered the event;
4>	set the IE "additional measured results" according to subclause 8.4.2.
This event is only applicable to the CELL_DCH state. Upon transition to CELL_DCH the UE shall:
1>	set the "Frequency" to each secondary downlink frequency and "best cell" in the variable BEST_CELL_2G_EVENT to the secondary serving HS-DSCH cell on each secondary downlink frequency.
Equation 1

The variables in the formula are defined as follows:
MNotBest is the measurement result of a cell not stored in "best cell" in the variable BEST_CELL_2G_EVENT on the related frequency.
CIONotBest is the cell individual offset of a cell not stored in "best cell" in the variable BEST_CELL_2G_EVENT on the related frequency.
MBest is the measurement result of the cell stored in "best cell" in variable BEST_CELL_2G_EVENT on the related frequency.
CIOBest is the cell individual offset of a cell stored in "best cell" in the variable BEST_CELL_2G_EVENT on the related frequency.
H2g is the hysteresis parameter for the event 2g.
If the measurement result is CPICH-Ec/No then MNot Best and MBest are expressed as ratios.
If the measurement result is CPICH-RSCP then MNot Best and MBest are expressed in mW.

Figure 14.2.1.7-1 [Informative]: A primary CPICH becomes better than the previously best primary CPICH on a configured secondary downlink frequency
In this figure, the parameters hysteresis and time to trigger, as well as the cell individual offsets for all cells are equal to 0.

14.3	Inter-RAT measurements
14.3.0a	Inter-RAT measurement quantities
A measurement quantity is used by the UE to evaluate whether an inter-RAT measurement event has occurred or not.
The measurement quantity for UTRAN is used to compute the frequency quality estimate for the active set, as described in the next subclause, and can be:
1	Downlink Ec/No.
2	Downlink received signal code power (RSCP) after despreading.
The measurement quantity for GSM can be:
1	GSM Carrier RSSI
The measurement quantity for E-UTRA can be:
1	E-UTRA RSRP
2	E-UTRA RSRQ
A description of those values can be found in [7] and [8].
14.3.0b	Frequency quality estimate of the UTRAN frequency
The estimated quality of the active set in UTRAN in event 3a is defined as:

The variables in the formula are defined as follows:
QUTRAN is the estimated quality of the active set on the currently used UTRAN frequency.
MUTRAN is the estimated quality of the active set on currently used UTRAN frequency expressed in another unit.
Mi is the measurement result of cell i in the active set, according to what is indicated in the IE "Measurement quantity for UTRAN quality estimate".
NA is the number of cells in the active set.
MBest is the measurement result of the cell in the active set with the highest measurement result.
W is a parameter sent from UTRAN to UE.
If the measurement result is CPICH-Ec/No MUTRAN, Mi and MBest are expressed as ratios.
If the measurement result is CPICH-RSCP or PCCPCH-RSCP, MUTRAN, Mi and MBest are expressed in mW.
14.3.0c	Inter-RAT reporting quantities
The quantities that the UE shall report to UTRAN when the event is triggered for an inter-RAT measurement are given by the IE "Inter-RAT reporting quantity" stored for that measurement, and can be the following:
In the case the other RAT is GSM:
1	GSM carrier RSSI
In the case the other RAT is E-UTRA:
1	Measurement Quantity: In case the measurement quantity is RSRP then only RSRP is reported; in case the measurement quantity is RSRQ then only RSRQ is reported.
2	Both: both RSRP and RSRQ are reported.
A description of those values can be found in [7], [8] and [74].
14.3.1	Inter-RAT reporting events
Within the measurement reporting criteria field in the MEASUREMENT CONTROL message the UTRAN notifies the UE which events should trigger the UE to send a MEASUREMENT REPORT message. The listed events are the toolbox from which the UTRAN can choose the reporting events that are needed for the implemented handover evaluation function, or other radio network functions.
All events are measured with respect to one of the measurement quantities given in subclause 14.3.0a, and of the frequency quality estimate given in subclause 14.3.0b. For UTRAN the measurement quantities are measured on the monitored primary common pilot channels (CPICH) in FDD mode and the monitored primary common control channels (PCCPCH) in TDD mode of the cell defined in the measurement object. For other RATs the measurement quantities are system-specific. A "used UTRAN frequency" is a frequency that the UE have been ordered to measure upon and is also currently used for the connection to UTRAN. "Other system" is e.g. GSM or E-UTRA.
In the text below describing the events:
-	"The BCCH ARFCN and BSIC combinations considered in that inter-RAT measurement" shall be understood as the BCCH ARFCN and BSIC combinations of the inter-RAT cells pointed at in the IE "Cells for measurement" if it has been received for that inter-RAT measurement, or otherwise of the cells included in the "inter-RAT cell info" part of the variable CELL_INFO LIST.
-	"The BCCH ARFCNs considered in that inter-RAT measurement" shall be understood as the BCCH ARFCNs of the inter-RAT cells pointed at in the IE "Cells for measurement" if it has been received for that inter-RAT measurement, or otherwise of the cells included in the "inter-RAT cell info" part of the variable CELL_INFO LIST.
-	"The E-UTRA frequencies considered in that inter-RAT measurement" shall be understood as the E-UTRA frequencies whose EARFCNs is included in the variable EUTRA_FREQUENCY_INFO LIST.
When one inter-RAT measurement identity corresponds to multiple inter-RAT events with identical event identities, the UE behaviour is not specified.
14.3.1.1	Event 3a: The estimated quality of the currently used UTRAN frequency is below a certain threshold and the estimated quality of the other system is above a certain threshold.
When an inter-RAT measurement configuring event 3a is set up, the UE shall:
1>	create a variable TRIGGERED_3A_EVENT related to that measurement, which shall initially be empty;
1>	delete this variable when the measurement is released.
When event 3a is configured in the UE within a measurement, the UE shall:
1>	if the other RAT is GSM, and if IE "BSIC verification required" is set to "required":
2>	if equations 1 and 2 below have both been fulfilled for a time period indicated by "Time to trigger" from the same instant, respectively for the used UTRAN frequency and for one or several GSM cells that match any of the BCCH ARFCN and BSIC combinations considered in that inter-RAT measurement:
3>	if the Inter-RAT cell id of any of those GSM cells is not stored in the variable TRIGGERED_3A_EVENT:
4>	store the Inter-RAT cell ids of the GSM cells that triggered the event and that were not previously stored in the variable TRIGGERED_3A_EVENT into that variable.
4>	send a measurement report with IEs set as below:
5>	in "inter-RAT measurement event result": "inter-RAT event identity" to "3a", "CHOICE BSIC" to "verified BSIC" and "Inter-RAT cell id" to the GSM cells that triggered the event (best one first), taking into account the cell individual offset of the GSM cells;
5>	"measured results" and possible "additional measured results" according to subclause 8.6.7.5 and 8.4.2, respectively, not taking into account the cell individual offset.
2>	if equation 4 is fulfilled for a GSM cell whose inter-RAT cell id is stored in the variable TRIGGERED_3A_EVENT:
3>	remove the inter-RAT cell id of that GSM cell from the variable TRIGGERED_3A_EVENT.
2>	if equation 3 is fulfilled for the used frequency in UTRAN:
3>	clear the variable TRIGGERED_3A_EVENT.
1>	if the other RAT is GSM, and if IE "BSIC verification required" is set to "not required":
2>	if equations 1 and 2 below have been fulfilled for a time period indicated by "Time to trigger" from the same instant, respectively for the used UTRAN frequency and for one or several BCCH ARFCNs considered in that inter-RAT measurement:
3>	if any of those BCCH ARFCNs is not stored into the variable TRIGGERED_3A_EVENT:
4>	store the BCCH ARFCNs that triggered the event and that were not previously stored in the variable TRIGGERED_3A_EVENT into that variable;
4>	send a measurement report with IEs set as below:
5>	in "inter-RAT measurement event result": "inter-RAT event identity" to "3a", "CHOICE BSIC" to "non verified BSIC" and "BCCH ARFCN" to BCCH ARFCNs that triggered the event (best one first), taking into account the cell individual offset of the GSM cells;
5>	"measured results" and possible "additional measured results" according to subclause 8.6.7.5 and 8.4.2, respectively, not taking into account the cell individual offset.
2>	if equation 4 is fulfilled for a BCCH ARFCN that is stored in the variable TRIGGERED_3A_EVENT:
3>	remove that BCCH ARFCN from the variable TRIGGERED_3A_EVENT.
2>	if equation 3 is fulfilled for the used frequency in UTRAN:
3>	clear the variable TRIGGERED_3A_EVENT.
1>	if the other RAT is E-UTRA:
2>	if equations 1 and 2 below have been fulfilled for a time period indicated by "Time to trigger" from the same instant, respectively for the used UTRAN frequency and for one or several E-UTRA cells on any of the frequencies considered in that inter-RAT measurement and that are not included in the blacklist:
3>	if any of those E-UTRA cells are not stored into the variable TRIGGERED_3A_EVENT:
4>	store the E-UTRA cells that triggered the event and that were not previously stored in the variable TRIGGERED_3A_EVENT into that variable;
4>	send a measurement report with IEs set as below:
5>	in "E-UTRA event results": "inter-RAT event identity" to "3a", and "E-UTRA carrier frequency" and "Physical cell identity" to the EARFCN and physical cell identity of the cells that triggered the event (best one first);
5>	"E-UTRA measured results" according to subclause 8.6.7.5.
2>	if equation 4 is fulfilled for a cell that is stored in the variable TRIGGERED_3A_EVENT:
3>	remove that cell from the variable TRIGGERED_3A_EVENT.
2>	if equation 3 is fulfilled for the used frequency in UTRAN:
3>	clear the variable TRIGGERED_3A_EVENT.
Triggering conditions:
Equation 1:

The variables in the formula are defined as follows:
QUsed is the quality estimate of the used UTRAN frequency.
TUsed is the absolute threshold that applies for the used frequency in that measurement.
H3a is the hysteresis parameter for event 3a.
Equation 2:

The variables in the formula are defined as follows:
MOther RAT is the measurement quantity for the cell of the other system.
CIOOther RAT is the cell individual offset for the cell of the other system.
TOther RAT is the absolute threshold that applies for the other system in that measurement.
H3a is the hysteresis parameter for event 3a.
Leaving triggered state conditions:
Equation 3:

The variables in the formula are defined as follows:
QUsed is the quality estimate of the used UTRAN frequency.
TUsed is the absolute threshold that applies for the used frequency in that measurement.
H3a is the hysteresis parameter for event 3a.
Equation 4:

The variables in the formula are defined as follows:
MOther RAT is the measurement quantity for the cell of the other system. MOther RAT is expressed in dBm.
CIOOther RAT is the cell individual offset for the cell of the other system.
TOther RAT is the absolute threshold that applies for the other system in that measurement.
H3a is the hysteresis parameter for event 3a.
14.3.1.2	Event 3b: The estimated quality of other system is below a certain threshold
When an inter-RAT measurement configuring event 3b is set up, the UE shall:
1>	create a variable TRIGGERED_3B_EVENT related to that measurement, which shall initially be empty;
1>	delete this variable when the measurement is released.
When event 3b is configured in the UE within a measurement, the UE shall:
1>	if the other RAT is GSM, and if IE "BSIC verification required" is set to "required":
2>	if equation 1 below has been fulfilled for a time period indicated by "time to trigger" for one or several GSM cells that match any of the BCCH ARFCN and BSIC combinations considered in that inter-RAT measurement:
3>	if the inter-RAT cell id of any of those GSM cell is not stored in the variable TRIGGERED_3B_EVENT:
4>	store the inter-RAT cell ids of the GSM cells that triggered the event and that were not previously stored in the variable TRIGGERED_3B_EVENT into that variable;
4>	send a measurement report with IEs set as below:
5>	set in "inter-RAT measurement event result": "inter-RAT event identity" to "3b", "CHOICE BSIC" to "verified BSIC" and "Inter-RAT cell id" to the GSM cells that triggered the event (worst one first), taking into account the cell individual offset of the GSM cells;
5>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.6.7.5 and 8.4.2, respectively, not taking into account the cell individual offset.
2>	if equation 2 below is fulfilled for a GSM cell whose inter-RAT cell id is stored in the variable TRIGGERED_3B_EVENT:
3>	remove the inter-RAT cell id of that GSM cell from the variable TRIGGERED_3B_EVENT.
1>	if the other RAT is GSM, and if IE "BSIC verification required" is set to "not required":
2>	if equation 1 below has been fulfilled for a time period indicated by "time to trigger" for one or several of the BCCH ARFCNs considered in that inter-RAT measurement:
3>	if any of those BCCH ARFCN is not stored into the variable TRIGGERED_3B_EVENT:
4>	store the BCCH ARFCNs that triggered the event and that were not previously stored in the variable TRIGGERED_3B_EVENT into that variable;
4>	send a measurement report with IEs set as below:
5>	set in "inter-RAT measurement event result": "inter-RAT event identity" to "3b", "CHOICE BSIC" to "non verified BSIC" and "BCCH ARFCN" to BCCH ARFCNs that triggered the event (worst one first), taking into account the cell individual offset of the GSM cells;
5>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.6.7.5 and 8.4.2, respectively, not taking into account the cell individual offset.
2>	if equation 2 below is fulfilled for a BCCH ARFCN that is stored in the variable TRIGGERED_3B_EVENT:
3>	remove that BCCH ARFCN from the variable TRIGGERED_3B_EVENT.
1>	if the other RAT is E-UTRA:
2>	if equation 1 below has been fulfilled for a time period indicated by "time to trigger" for one or several of the E-UTRA cells on any of the frequencies considered in that inter-RAT measurement and that are not included in the blacklist:
3>	if any of those E-UTRA cells is not stored into the variable TRIGGERED_3B_EVENT:
4>	store the E-UTRA cells that triggered the event and that were not previously stored in the variable TRIGGERED_3B_EVENT into that variable;
4>	send a measurement report with IEs set as below:
5>	set in "E-UTRA event results": "inter-RAT event identity" to "3b", and "E-UTRA carrier frequency" and "Physical cell identity" to the EARFCN and physical cell identity of the cells that triggered the event (worst one first);
5>	set the IE "E-UTRA measured results" according to subclause 8.6.7.5.
2>	if equation 2 below is fulfilled for a cell that is stored in the variable TRIGGERED_3B_EVENT:
3>	remove that cell from the variable TRIGGERED_3B_EVENT.
Triggering condition:
Equation 1:

The variables in the formula are defined as follows:
MOther RAT is the measurement quantity for the cell of the other system.
CIOOther RAT is the cell individual offset for the cell of the other system.
TOther RAT is the absolute threshold that applies for the other system in that measurement.
H3b is the hysteresis parameter for event 3b.
Leaving triggered state condition:
Equation 2:

The variables in the formula are defined as follows:
MOther RAT is the measurement quantity for the cell of the other system. MOther RAT is expressed in dBm.
CIOOther RAT is the cell individual offset for the cell of the other system.
TOther RAT is the absolute threshold that applies for the other system in that measurement.
H3b is the hysteresis parameter for event 3b.
14.3.1.3	Event 3c: The estimated quality of other system is above a certain threshold
When an inter-RAT measurement configuring event 3c is set up, the UE shall:
1>	create a variable TRIGGERED_3C_EVENT related to that measurement, which shall initially be empty;
1>	delete this variable when the measurement is released.
When event 3c is configured in the UE within a measurement, the UE shall:
1>	if the other RAT is GSM, and if IE "BSIC verification required" is set to "required":
2>	if equation 1 below has been fulfilled for a time period indicated by "time to trigger" for one or several GSM cells that match any of the BCCH ARFCN and BSIC combinations considered in that inter-RAT measurement:
3>	if the inter-RAT cell id of any of those GSM cell is not stored in the variable TRIGGERED_3C_EVENT:
4>	store the Inter-RAT cell ids of the GSM cells that triggered the event and that were not previously stored in the variable TRIGGERED_3C_EVENT into that variable;
4>	send a measurement report with IEs set as below:
5>	set in "inter-RAT measurement event result": "inter-RAT event identity" to "3c", "CHOICE BSIC" to "verified BSIC" and "Inter-RAT cell id" to the GSM cells that triggered the event (best one first), taking into account the cell individual offset of the GSM cells;
5>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.6.7.5 and 8.4.2, respectively, not taking into account the cell individual offset.
2>	if equation 2 below is fulfilled for a GSM cell whose inter-RAT cell id is stored in the variable TRIGGERED_3C_EVENT:
3>	remove the inter-RAT cell id of that GSM cell from the variable TRIGGERED_3C_EVENT.
1>	if the other RAT is GSM, and if IE "BSIC verification required" is set to "not required":
2>	if equation 1 below has been fulfilled for a time period indicated by "time to trigger" for one or several of the BCCH ARFCNs considered in that inter-RAT measurement:
3>	if any of those BCCH ARFCN is not stored into the variable TRIGGERED_3C_EVENT:
4>	store the BCCH ARFCNs that triggered the event and that were not previously stored in the variable TRIGGERED_3C_EVENT into that variable;
4>	send a measurement report with IEs set as below:
5>	set in "inter-RAT measurement event result": "inter-RAT event identity" to "3c", "CHOICE BSIC" to "non verified BSIC" and "BCCH ARFCN" to BCCH ARFCNs that triggered the event (best one first), taking into account the cell individual offset of the GSM cells;
5>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.6.7.5 and 8.4.2, respectively, not taking into account the cell individual offset.
2>	if equation 2 is fulfilled for a BCCH ARFCN that is stored in the variable TRIGGERED_3C_EVENT:
3>	remove that BCCH ARFCN from the variable TRIGGERED_3C_EVENT.
1>	if the other RAT is E-UTRA:
2>	if equation 1 below has been fulfilled for a time period indicated by "time to trigger" for one or several E-UTRA cells on any of the frequencies considered in that inter-RAT measurement and that are not included in the blacklist:
3>	if any of those E-UTRA cells is not stored into the variable TRIGGERED_3C_EVENT:
4>	store the E-UTRA cells that triggered the event and that were not previously stored in the variable TRIGGERED_3C_EVENT into that variable;
4>	send a measurement report with IEs set as below:
5>	set in "E-UTRA event results": "inter-RAT event identity" to "3c", and "E-UTRA carrier frequency" and "Physical cell identity" to the EARFCN and physical cell identity of the cells that triggered the event (best one first);
5>	set the IE "E-UTRA measured results" according to subclause 8.6.7.5.
2>	if equation 2 is fulfilled for a cell that is stored in the variable TRIGGERED_3C_EVENT:
3>	remove that cell from the variable TRIGGERED_3C_EVENT.
Triggering condition:
Equation 1:

The variables in the formula are defined as follows:
MOther RAT is the measurement quantity for the cell of the other system. MOther RAT is expressed in dBm.
CIOOther RAT is the cell individual offset for the cell of the other system.
TOther RAT is the absolute threshold that applies for the other system in that measurement.
H3c is the hysteresis parameter for event 3c.
Leaving triggered state condition:
Equation 2:

The variables in the formula are defined as follows:
MOther RAT is the measurement quantity for the cell of the other system. MOther RAT is expressed in dBm.
CIOOther RAT is the cell individual offset for the cell of the other system.
TOther RAT is the absolute threshold that applies for the other system in that measurement.
H3c is the hysteresis parameter for event 3c.
14.3.1.4	Event 3d: Change of best cell in other system
When an inter-RAT measurement configuring event 3d is set up, the UE shall:
1>	create a variable BEST_CELL_3D_EVENT related to that measurement;
1>	delete this variable when the measurement is released.
When event 3d is configured in the UE within a measurement, the UE shall:
1>	if the other RAT is GSM, and if IE "BSIC verification required" is set to "required":
2>	when the measurement is initiated or resumed:
3>	store in the variable BEST_CELL_3D_EVENT the Inter-RAT cell id of the GSM cell that has the best measured quantity among the GSM cells that match any of the BCCH ARFCN and BSIC combinations considered in that inter-RAT measurement, not taking into account the cell individual offset of the GSM cells;
3>	send a measurement report with IE set as below:
4>	set in "inter-RAT measurement event result": "inter-RAT event identity" to "3d", "CHOICE BSIC" to "verified BSIC" and "Inter-RAT cell id" to the GSM cell that is stored in the variable BEST_CELL_3D_EVENT;
4>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.6.7.5 and 8.4.2, respectively, not taking into account the cell individual offset.
2>	if equation 1 has been fulfilled for a time period indicated by "time to trigger" for a GSM cell that is different from the one stored in BEST_CELL_3D_EVENT and that matches any of the BCCH ARFCN and BSIC combinations considered in that inter-RAT measurement:
3>	store the Inter-RAT cell id of that GSM cell in the variable BEST_CELL_3D_EVENT;
3>	send a measurement report with IEs set as below:
4>	set in "inter-RAT measurement event result": "inter-RAT event identity" to "3d", "CHOICE BSIC" to "verified BSIC" and "Inter-RAT cell id" to the GSM cell is now stored in BEST_CELL_3D_EVENT;
4>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.6.7.5 and 8.4.2, respectively, not taking into account the cell individual offset.
1>	if the other RAT is GSM, and if IE "BSIC verification required" is set to "not required":
2>	when the measurement is initiated or resumed:
3>	store in the variable BEST_CELL_3D_EVENT the BCCH ARFCN of the GSM cell that has the best measured quantity among the BCCH ARFCNs considered in that inter-RAT measurement;
3>	send a measurement report with IE set as below:
4>	set in "inter-RAT measurement event result": "inter-RAT event identity" to "3d", "CHOICE BSIC" to "non verified BSIC" and "BCCH ARFCN" to the BCH ARFCN that is stored in the variable BEST_CELL_3D_EVENT;
4>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.6.7.5 and 8.4.2, respectively, not taking into account the cell individual offset.
2>	if equation 1 below has been fulfilled for a time period indicated by "time to trigger" for one of the BCCH ARFCNs considered in that inter-RAT measurement and different from the one stored in BEST_CELL_3D_EVENT:
3>	store the BCCH ARFCN of that GSM cell in the variable BEST_CELL_3D_EVENT;
3>	send a measurement report with IEs set as below:
4>	set in "inter-RAT measurement event result": "inter-RAT event identity" to "3d", "CHOICE BSIC" to "non verified BSIC" and "BCCH ARFCN" to the BCCH ARFCN that is now stored in the variable BEST_CELL_3D_EVENT;
4>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.4.2, not taking into account the cell individual offset.
1>	if the other RAT is E-UTRA:
2>	when the measurement is initiated or resumed:
3>	store in the variable BEST_CELL_3D_EVENT the EARFCN and Physical Cell Identity of the E-UTRA cell that has the best measured quantity among the EARFCNs considered in that inter-RAT measurement;
3>	send a measurement report with IE set as below:
4>	set in "E-UTRA measurement results": "inter-RAT event identity" to "3d", and "E-UTRA Carrier Frequency" and "Physical Cell Identity" to the EARFCN and the Physical Cell Identity that are stored in the variable BEST_CELL_3D_EVENT;
4>	set the IE "E-UTRA measured results" according to subclause 8.6.7.5.
2>	if equation 1 below has been fulfilled for a time period indicated by "time to trigger" for a cell on one of the EARFCNs considered in that inter-RAT measurement and different from the cell stored in BEST_CELL_3D_EVENT:
3>	store the EARFCN and Physical Cell Identity of that E-UTRA cell in the variable BEST_CELL_3D_EVENT;
3>	send a measurement report with IEs set as below:
4>	set in "E-UTRA event results": "inter-RAT event identity" to "3d", and "E-UTRA carrier frequency" and "Physical Cell Identity" to the EARFCN and the Physical Cell Identity that are now stored in the variable BEST_CELL_3D_EVENT;
4>	set the IE "E-UTRA measured results" according to subclause 8.6.7.5.
Equation 1:

The variables in the formula are defined as follows:
MNew is the measurement quantity for a cell of the other system that is not stored in the variable BEST_CELL_3D_EVENT.
MBest is the measurement quantity for a cell of the other system that is stored in the variable BEST_CELL_3D_EVENT.
H3d is the hysteresis parameter for event 3d.
14.3.2	GSM measurements in compressed mode
14.3.2.1	GSM RSSI measurements
The UE shall perform GSM RSSI measurements in the gaps of compressed mode pattern sequence specified for GSM RSSI measurement purpose.
14.3.2.2	Initial BSIC identification
The UE shall perform Initial BSIC identification in compressed mode pattern sequence specified for Initial BSIC identification measurement purpose.
The parameter "N identify abort" in the IE "DPCH compressed mode info" indicates the maximum number of patterns that the UE shall use to attempt to decode the unknown BSIC of the GSM cell in the initial BSIC identification procedure.
The BSIC identification procedure is defined in detail in [19].
14.3.2.3	BSIC re-confirmation
The UE shall perform BSIC re-confirmation in compressed mode pattern sequence specified for BSIC re-confirmation measurement purpose.
The parameter "T reconfirm abort" in the IE "DPCH compressed mode info" indicates the maximum time allowed for the re-confirmation of the BSIC of one GSM cell in the BSIC re-confirmation procedure.
The BSIC re-confirmation procedure is defined in detail in [19].
14.3.3	E-UTRA measurements in compressed mode
14.3.3.1	E-UTRA RSRP measurements
The UE shall perform E-UTRA RSRP measurements in the gaps of compressed mode pattern sequence specified for E-UTRA measurement purpose.
14.3.3.2	E-UTRA RSRQ measurements
The UE shall perform E-UTRA RSRQ measurements in the gaps of compressed mode pattern sequence specified for E-UTRA measurement purpose.
14.4	Traffic Volume Measurements
14.4.1	Traffic Volume Measurement Quantity
Traffic volume measurements may be configured by RRC to assist with dynamic radio bearer control. The reported quantities that can be configured are:
1	Buffer Occupancy.
2	Average of Buffer Occupancy.
3	Variance of Buffer Occupancy.
A description of these values can be found in [15].
When a report is triggered, the UE shall provide the requested quantities for the acknowledged and unacknowledged mode RBs mapped onto the transport channels identified.
When the RLC buffer payload, Average of RLC buffer payload or Variance of RLC buffer payload is reported, the measured quantity shall be rounded upwards to the closest higher value possible to report. When the measured quantity is over the highest value possible to report, it shall be set to the highest value.
14.4.2	Traffic Volume reporting triggers
Traffic volume measurement reports can be triggered using two different mechanisms, periodical and event triggered. The reporting criteria are specified in the measurement control message.
All the specified events are evaluated with respect to the Transport Channel Traffic Volume (TCTV). This quantity is equal to the sum of the Buffer Occupancy for all logical channels mapped onto a transport channel. The events on a given transport channel shall be evaluated at least at every TTI (may be more often) as described in [15].
When one traffic volume measurement identity corresponds to multiple traffic volume events with identical event identities for the same transport channel, the UE behaviour is not specified.
When a traffic volume measurement is set up, the UE shall:
1>	for FDD, if variable READY_FOR_COMMON_EDCH is set to TRUE:
2>	if one transport channel that is referenced in the IE "Traffic volume measurement object" as "DCH" and IE "measurement validity" is set to "all states except CELL_DCH":
3>	the uplink transport channel on which the UE is supposed to report in CELL_FACH state is of type E-DCH.
1>	for 1.28 Mcps TDD, if one transport channel that is referenced in the IE "Traffic volume measurement object" as "USCH" and the IE "UL target transport channel id" is set to 32 and and IE "measurement validity" is set to "all states" or "all states except CELL_DCH":
2>	the uplink transport channel on which the UE is supposed to report is of type E-DCH.
1>	if the IE "report criteria" is set to "Traffic volume measurement reporting criteria":
2>	for each IE "Parameters sent for each transport channel":
3>	if the IE "Uplink transport channel type" is not included; or
3>	if the IE "Uplink Transport Channel Type" has the value "DCH" or "USCH" and the IE "UL transport channel id" is not included:
4>	for each IE "Parameters required for each Event":
5>	for each uplink transport channel on which the UE is supposed to report (see below):
6>	configure an event trigger defined by the values in the IEs "Measurement Identity", "Traffic volume event identity", "Reporting threshold", "Time to trigger", "Pending time after trigger" and "Tx Interruption after trigger".
3>	else:
4>	for each IE "Parameters required for each Event":
5>	for the uplink transport channel defined by the IEs "Uplink transport channel type" and "UL transport channel id":
6>	configure an event trigger defined by the values in the IEs "Measurement Identity", "Traffic volume event identity", "Reporting threshold", "Time to trigger", "Pending time after trigger" and "Tx Interruption after trigger".
1>	else:
2>	if the IE "report criteria" is set to "Periodical reporting criteria":
2>	configure periodical triggers with period equal to the value in the IE "Reporting Interval" and with number of transmissions equal to the value in the IE "Amount of reporting" for the measurement identified by the IE "Measurement Identity".
For each transport channel for which an event trigger has been configured, the UE shall:
1>	for each event configured for this transport channel:
2>	if the TCTV is larger than the threshold in IE "Reporting threshold" at TVM setup or modify; or
2>	if the TCTV becomes larger than the threshold in IE "Reporting threshold" while the event is configured:
3>	if the IE "Traffic volume event identity" has value "4a":
4>	if the IE "Time to trigger" is not present; and
4>	if the Pending-time-after-trigger timer for this event is not active:
5>	if the IE "Pending time after trigger" is included:
6>	start the Pending-time-after-trigger timer for this event with the value in this IE.
5>	trigger a report for the measurement identified by the IE "Measurement Identity".
4>	else:
5>	start the Time-to-trigger timer for this event with the value in the IE "Time to trigger".
3>	if the IE "Traffic volume event identity" has value "4b":
4>	if the Time-to-trigger timer for this event is active:
5>	stop this timer.
2>	if the TCTV is smaller than the threshold in IE "Reporting threshold" at TVM setup or modify; or
2>	if the TCTV becomes smaller than the threshold in IE "Reporting threshold" while the event is configured:
3>	if the IE "Traffic volume event identity" has value "4a":
4>	if the Time-to-trigger timer for this event is active:
5>	stop this timer.
3>	if the IE "Traffic volume event identity" has value "4b":
4>	if the IE "Time to trigger" is not present; and
4>	if the Pending-time-after-trigger timer for this event is not active:
5>	if the IE "Pending time after trigger" is included:
6>	start the Pending-time-after-trigger timer for this event with the value in this IE.
5>	trigger a report for the measurement identified by the IE "Measurement Identity".
4>	else:
5>	start the Time-to-trigger timer for this event with the value in the IE "Time to trigger".
When the Time-to-trigger timer for an event elapses:
1>	if the Pending-time-after-trigger timer for this event is not active:
2>	trigger a report for the measurement identified by the IE "Measurement Identity" corresponding to this event;
2>	if the IE "Pending time after trigger" is included:
3>	start the Pending-time-after-trigger timer for this event with the value in this IE.
When the Pending-time-after-trigger for an event elapses:
1>	if the IE "Traffic volume event identity" has value "4a":
2>	if the TCTV is larger than the threshold in IE "Reporting threshold":
3>	if the IE "Time to trigger" is not present:
4>	trigger a report for the measurement identified by the IE "Measurement Identity" corresponding to this event;
4>	start the Pending-time-after-trigger timer for this event with the value in the IE "Pending time after trigger".
3>	else:
4>	start the Time-to-trigger timer for this event with the value in the IE "Time to trigger".
1>	if the IE "Traffic volume event identity" has value "4b":
2>	if the TCTV is smaller than the threshold in IE "Reporting threshold":
3>	if the IE "Time to trigger" is not present:
4>	trigger a report for the measurement identified by the IE "Measurement Identity" corresponding to this event;
4>	start the Pending-time-after-trigger timer for this event with the value in the IE "Pending time after trigger".
3>	else:
4>	start the Time-to-trigger timer for this event with the value in the IE "Time to trigger".
When a periodical trigger elapses, the UE shall:
1>	trigger a report for the measurement identified by the IE "Measurement Identity";
1>	if the number of reports triggered by this periodical trigger reaches the value in the IE "Amount of reporting":
2>	disable this periodical trigger.
When a report is triggered for a given IE "Measurement Identity", the UE shall:
1>	consider the variable MEASUREMENT_IDENTITY corresponding to this measurement identity;
1>	if the report is triggered by an event trigger:
2>	include the IE "Event results";
2>	if variable READY_FOR_COMMON_EDCH is set to FALSE:
3>	set the IE "Uplink transport channel type causing the event" to the type of the transport channel which triggered the report;
3>	if the transport channel type is "DCH" or "USCH":
4>	include the IE "UL Transport Channel identity" and set it to the identity of the transport channel which triggered the report.
3>	else:
4>	not include the IE "UL Transport Channel identity".
2>	else:
3>	for FDD:
4>	set the IE "Uplink transport channel type causing the event" to the value "DCH";
4>	include the IE "UL Transport Channel identity" and set it to any value.
3>	for 1.28 Mcps TDD:
4>	include the IE "UL Transport Channel identity" and set it to the identity of the transport channel which triggered the report.
2>	set the IE "Traffic volume event identity" to the identity of the event that triggered the report;
2>	if the IE "Tx interruption after trigger" for the event that triggered the report is included:
3>	if the UE is in CELL_FACH state and
3>	if the variable READY_FOR_COMMON_EDCH is set to FALSE:
4>	prohibit DTCH transmissions on the RACH;
4>	if the Tx interruption timer is not running; or
4>	if the Tx interruption timer is running and still has a value larger than the IE "Tx interruption after trigger" for the event, i.e. it was started earlier by another event with a larger value in IE "Tx interruption after trigger":
5>	start the Tx interruption timer with the value in the IE "Tx interruption after trigger" for this event.
4>	when it receives from the UTRAN a message causing the transition to CELL_DCH state; or
4>	when the Tx interruption timer elapses:
5>	stop the timer;
5>	resume these transmissions.
1>	if the IE "Traffic volume measurement object" is not included:
2>	report on all the uplink transport channels as specified below.
1>	if the IE "Traffic volume measurement object" is included:
2>	report on the uplink transport channels identified in this IE as specified below.
1>	for each UM or AM RB mapped onto a transport channel on which the UE is expected to report:
2>	add an element in the IE "Traffic volume measurement results";
2>	set the value of the IE "RB Identity" to the identity of the considered radio bearer;
2>	if the RB is mapped onto one logical channel:
3>	if the IE "RLC Buffer Payload for each RB" is set to TRUE:
4>	include the IE "RLC Buffers Payload" and set it to the Buffer Occupancy value for this logical channel, rounded up to the next allowed value.
3>	if the IE "Average of RLC Buffer Payload for each RB" is set to TRUE:
4>	include and set the IE "Average of RLC Buffer Payload" to the Buffer Occupancy for this logical channel averaged over the interval specified in the IE "Time Interval to take an average or a variance" (see [15]), rounded up to the next allowed value.
3>	if the IE "Variance of RLC Buffer Payload for each RB" is set to TRUE:
4>	include and set the IE "Variance of RLC Buffer Payload" to the variance of the Buffer Occupancy for this logical channel computed over the interval specified in the IE "Time Interval to take an average or a variance" (see [15]), rounded up to the next allowed value.
2>	if the RB is mapped onto two logical channels:
3>	if one logical channel is mapped onto transport channels on which the UE is supposed to report:
4>	if the IE "RLC Buffer Payload for each RB" is set to TRUE:
5>	include and set the IE "RLC Buffers Payload" to the Buffer Occupancy value for this logical channel, rounded up to the next allowed value.
4>	if the IE "Average of RLC Buffer Payload for each RB" is set to TRUE:
5>	include and set the IE "Average of RLC Buffer Payload" to the Buffer Occupancy for this logical channel averaged over the interval specified in the IE "Time Interval to take an average or a variance" (see [15]), rounded up to the next allowed value.
4>	if the IE "Variance of RLC Buffer Payload for each RB" is set to TRUE:
5>	include and set the IE "Variance of RLC Buffer Payload" to the variance of the Buffer Occupancy for this logical channel computed over the interval specified in the IE "Time Interval to take an average or a variance" (see [15]), rounded up to the next allowed value.
3>	if both logical channels are mapped onto transport channels on which the UE is supposed to report:
4>	if the IE "RLC Buffer Payload for each RB" is set to TRUE:
5>	include and set the IE "RLC Buffers Payload" to the sum of the Buffer Occupancy values for the two logical channels, rounded up to the next allowed value.
4>	if the IE "Average of RLC Buffer Payload for each RB" is set to TRUE:
5>	include and set the IE "Average of RLC Buffer Payload" to the sum of the Buffer Occupancy for the two logical channels averaged over the interval specified in the IE "Time Interval to take an average or a variance" (see [15]) and rounded up to the next allowed value.
4>	if the IE "Variance of RLC Buffer Payload for each RB" is set to TRUE:
5>	include and set the IE "Variance of RLC Buffer Payload" to the variance of the sum of the Buffer Occupancy for the two logical channels, computed over the interval specified in the IE "Time Interval to take an average or a variance" (see [15]) and rounded up to the next allowed value.
14.4.2.1	Reporting event 4 A: Transport Channel Traffic Volume becomes larger than an absolute threshold

Figure 14.4.2.1-1: Event triggered report when Transport Channel Traffic Volume becomes larger than a certain threshold
If the monitored Transport Channel Traffic Volume (TCTV) [15] is larger than an absolute threshold at TVM setup or modify, or is larger at activation of the monitored transport channel, or becomes larger than an absolute threshold while the event is configured i.e. if TCTV>Reporting threshold, this event could trigger a report. The event could be triggered again only if TCTV becomes smaller than the Reporting threshold and later TCTV>Reporting threshold is verified again.
14.4.2.2	Reporting event 4 B: Transport Channel Traffic Volume becomes smaller than an absolute threshold

Figure 14.4.2.1-2: Event triggered report when Transport Channel Traffic Volume becomes smaller than certain threshold
If the monitored Transport Channel Traffic Volume (TCTV) [15] is smaller than an absolute threshold at TVM setup or modify, or is smaller at activation of the monitored transport channel, or becomes smaller than an absolute threshold while the event is configured i.e. if TCTV<Reporting threshold, this event could trigger a report. The event could be triggered again only if TCTV becomes bigger than the Reporting threshold and later TCTV<Reporting threshold is verified again.
14.4.3	Traffic volume reporting mechanisms
Traffic volume measurement triggering could be associated with both a time-to-trigger and a pending time after trigger. The time-to-trigger is used to get time domain hysteresis, i.e. the condition must be fulfilled during the time-to-trigger time before a report is sent. Pending time after trigger is used to limit consecutive reports when one traffic volume measurement report already has been sent and enables periodic reporting while the TCTV remains above(4a) or below(4b) the threshold. This is described in detail below.
14.4.3.1	Pending time after trigger
This timer is started in the UE when a measurement report has been triggered by a given event. The UE is then forbidden to send new measurement reports triggered by the same event during this time period. Instead the UE waits until the timer has expired. If the Transport Channel Traffic Volume [15] is still above the threshold for event 4a, or below the threshold for event 4b when the timer expires, the UE sends a new measurement report, and the timer is restarted. Otherwise it waits for a new triggering.

Figure 14.4.3.1-1: Pending time after trigger limits the amount of consecutive measurement reports
Figure 14.4.3.1-1 shows that by increasing the pending time after trigger a triggered second event does not result in a measurement report. The figure assumes absence of the IE "Time to trigger".
14.4.3.2	Time-to-trigger
The timer is started in the UE when the Transport Channel Traffic Volume triggers the event. If the TCTV crosses the threshold before the timer expires, the timer is stopped. If the timer expires then a report is triggered.

Figure 14.4.3.1-2: Time-to-trigger is used to achieve time hysteresis
Figure 14.4.3.1-2 shows that by increasing the time-to-trigger the report is not triggered.
14.4.4	Interruption of user data transmission
By including the IE "Tx Interruption after trigger", a UE in CELL_FACH state may be instructed by the UTRAN to prohibit transmission of user data on the RACH temporarily after a measurement report has been triggered.
The UE shall only resume transmission of user data, when:
1>	it receives from the UTRAN a message allocating a dedicated physical channel, leading to the transition to CELL_DCH state; or
1>	the time period indicated by the IE "Tx Interruption after trigger" elapses.
The transmission on signalling radio bearers shall not be interrupted.
14.5	Quality Measurements
14.5.1	Quality reporting measurement quantities
For quality measurements, the following measurement quantities are used:
1.	Downlink transport channel BLER
2.	Timeslot SIR (TDD only)
14.5.2	Quality reporting events
When one measurement identity corresponds to multiple quality events for the same transport channel, the UE behaviour is not specified.
14.5.2.1	Reporting event 5A: A predefined number of bad CRCs is exceeded
When this event is ordered by UTRAN in a measurement control message, the UE shall send a measurement report when the amount of bad CRCs during a predefined sliding window exceeds a predefined number.
The following three parameters are used in the scheme:
-	Total CRC = the length of the sliding window over which the number of bad CRCs are counted.
-	Bad CRC = the number of bad CRC that is required within the latest "Total CRC" received CRCs for the event to be triggered.
-	Pending after trigger = a new event can not be triggered until "Pending after trigger" CRCs have been received.
When a DCH is established, the UE shall begin to count the number of bad CRCs within the last "Total CRC" received CRCs. No event can be triggered until at least "Total CRC" CRCs have been received. For each new received CRC, the UE shall compare the number of bad CRCs within the latest "Total CRC" received CRCs with the parameter "Bad CRC". An event shall be triggered if the number of bad CRCs is equal or larger than "Bad CRC".
At the time when the event is triggered a pending time after trigger timer is started with the length of "Pending after trigger" CRCs. A new event can not be triggered until Pending after trigger" CRCs have been received. When Pending after trigger" CRCs have been received the event evaluation start again and a new event can be triggered.

Figure 14.5.2.1-1: Event triggered CRC error reporting
14.6	UE internal measurements
14.6.1	UE internal measurement quantities
For UE internal measurements the following measurement quantities exist:
1.	UE transmission (Tx) power, for TDD measured on a timeslot basis.
2.	UE received signal strength power (RSSI).
3.	UE Rx-Tx time difference (FDD only).
4.	TADV (1.28 Mcps TDD).
14.6.2	UE internal measurement reporting events
In the Measurement reporting criteria field in the Measurement Control messages, the UTRAN notifies the UE of which events should trigger a measurement report. UE internal measurement reporting events that can trigger a report are given below. The reporting events are marked with vertical arrows in the figures below. All events can be combined with time-to-trigger.
NOTE:	The reporting events are numbered 6A, 6B, 6C,.. where 6 denotes that the event belongs to the type UE internal measurements.
When one measurement identity corresponds to multiple internal events with identical event identities, the UE behaviour is not defined.
14.6.2.1	Reporting event 6A: The UE Tx power becomes larger than an absolute threshold
When a UE internal measurement configuring event 6a is set up, the UE shall:
1>	create a variable TRIGGERED_6A_EVENT related to that measurement, which shall initially be set to FALSE;
1>	delete this variable when the measurement is released.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the UE Tx power (for TDD within a single TS) is greater than the value in IE "UE Transmitted Power Tx power threshold" stored for this event in the variable MEASUREMENT_IDENTITY for a time period indicated by the IE "time_to_trigger":
2>	if the variable TRIGGERED_6A_EVENT is set to FALSE:
3>	set the variable TRIGGERED_6A_EVENT to TRUE;
3>	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6a";
4>	set the IE "measured results" and the IE "additional measured results" according to 8.4.2.
1>	if the variable TRIGGERED_6A_EVENT is set to TRUE and if the UE Tx power (for TDD within a single TS) is less or equal the value in IE "UE Transmitted Power Tx power threshold" stored for this event in the variable MEASUREMENT_IDENTITY:
2>	set the variable TRIGGERED_6A_EVENT to FALSE.
14.6.2.2	Reporting event 6B: The UE Tx power becomes less than an absolute threshold
When a UE internal measurement configuring event 6b is set up, the UE shall:
1>	create a variable TRIGGERED_6B_EVENT related to that measurement, which shall initially be set to FALSE;
1>	delete this variable when the measurement is released.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the UE Tx power (for TDD within a single TS) is less than the value in IE "UE Transmitted Power Tx power threshold" stored for this event in the variable MEASUREMENT_IDENTITY for a time period indicated by the IE "time_to_trigger":
2>	if the variable TRIGGERED_6B_EVENT is set to FALSE:
3>	set the variable TRIGGERED_6B_EVENT to TRUE;
3>	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6b";
4>	set the IE "measured results" and the IE "additional measured results" according to 8.4.2.
1>	if the variable TRIGGERED_6B_EVENT is set to TRUE and if the UE Tx power (for TDD within a single TS) is greater or equal the value in IE "UE Transmitted Power Tx power threshold" stored for this event in the variable MEASUREMENT_IDENTITY:
2>	set the variable TRIGGERED_6B_EVENT to FALSE.

Figure 14.6.2.2-1: Event-triggered measurement reports when the UE Tx power becomes larger or less than absolute thresholds
14.6.2.3	Reporting event 6C: The UE Tx power reaches its minimum value
When a UE internal measurement configuring event 6c is set up, the UE shall:
1>	create a variable TRIGGERED_6C_EVENT related to that measurement, which shall initially be set to FALSE;
1>	delete this variable when the measurement is released.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the UE Tx power is equal its minimum value (for TDD its minimum value on a single TS) for a time period indicated by the IE "time_to_trigger":
2>	if the variable TRIGGERED_6C_EVENT is set to FALSE:
3>	set the variable TRIGGERED_6C_EVENT to TRUE;
3>	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6c";
4>	set the IE "measured results" and the IE "additional measured results" according to 8.4.2.
1>	if the variable TRIGGERED_6C_EVENT is set to TRUE and if the UE Tx power is greater than its minimum value:
2>	set the variable TRIGGERED_6C_EVENT to FALSE.

Figure 14.6.2.3-1: Event-triggered measurement report when the UE Tx power reaches its minimum value
14.6.2.4	Reporting event 6D: The UE Tx power reaches its maximum value
When a UE internal measurement configuring event 6d is set up, the UE shall:
1>	create a variable TRIGGERED_6D_EVENT related to that measurement, which shall initially be set to FALSE;
1>	delete this variable when the measurement is released.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the UE Tx power equals the maximum power the UE can transmit, i.e. the maximum UE TX power reduced by the power reduction used by the UE (for TDD its maximum value on a single TS) for a time period indicated by the IE "time_to_trigger":
2>	if the variable TRIGGERED_6D_EVENT is set to FALSE:
3>	set the variable TRIGGERED_6D_EVENT to TRUE;
3>	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6d";
4>	set the IE "measured results" and the IE "additional measured results" according to 8.4.2.
1>	if the variable TRIGGERED_6D_EVENT is set to TRUE and if the UE Tx power is less than the maximum UE TX power:
2>	set the variable TRIGGERED_6D_EVENT to FALSE.
NOTE:	The maximum UE TX power is defined in subclause 8.6.6.8 and the maximum allowed power reduction is defined in subclause 6.2.2 in [21].


Figure 14.6.2.4-1: Event-triggered report when the UE Tx power reaches its maximum value
14.6.2.5	Reporting event 6E: The UE RSSI reaches the UE's dynamic receiver range
When a UE internal measurement configuring event 6e is set up, the UE shall:
1>	create a variable TRIGGERED_6E_EVENT related to that measurement, which shall initially be set to FALSE;
1>	delete this variable when the measurement is released.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the UE RSSI is greater or equal the UE's dynamic receiver range for a time period indicated by the IE "time_to_trigger":
2>	if the variable TRIGGERED_6E_EVENT is set to FALSE:
3>	set the variable TRIGGERED_6E_EVENT to TRUE;
3>	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6e";
4>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.4.2.
1>	if the variable TRIGGERED_6E_EVENT is set to TRUE and if the UE RSSI is less than the UE's dynamic receiver range:
2>	set the variable TRIGGERED_6E_EVENT to FALSE.
14.6.2.6	Reporting event 6F (FDD): The UE Rx-Tx time difference for a RL included in the active set becomes larger than an absolute threshold
When a UE internal measurement configuring event 6f is set up, the UE shall:
1>	create a variable TRIGGERED_6F_EVENT related to that measurement, which shall initially be set to FALSE for each RL;
1>	delete this variable when the measurement is released.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the UE Rx-Tx time difference for a RL included in the active set is greater than the value in the IE "UE Rx-Tx time difference threshold" stored for this event in the variable MEASUREMENT_IDENTITY for a time period indicated by the IE "time_to_trigger":
2>	if the variable TRIGGERED_6F_EVENT is set to FALSE for this RL:
3>	set the variable TRIGGERED_6F_EVENT to TRUE for this RL;
3>	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6f";
4>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.4.2.
1>	if the variable TRIGGERED_6F_EVENT is set to TRUE for a RL and if the UE RX-Tx time difference for this RL included in the active set is less than or equal to the value in the IE "UE Rx-Tx time difference threshold" stored for this event in the variable MEASUREMENT_IDENTITY:
2>	set the variable TRIGGERED_6F_EVENT to FALSE for this RL.
14.6.2.6a	Reporting event 6F (1.28 Mcps TDD): The time difference indicated by TADV becomes larger than an absolute threshold
When a UE internal measurement configuring event 6f is set up, the UE shall:
1>	create a variable TRIGGERED_6F_EVENT related to that measurement, which shall initially be set to the currently measured TADV;
1>	delete this variable when the measurement is released.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the absolute value of the difference between the measured TADV  and the TADV  stored in the variable TRIGGERED_6F_EVENT is greater than the predefined threshold configured with the IE "TADV Threshold" for this event in the variable MEASUREMENT_IDENTITY for a time period indicated by the IE "time_to_trigger":
2>	set the variable TRIGGERED_6F_EVENT to the currently measured TADV;
2>	send a measurement report with IEs set as below:
3>	set the IE "TADV" to the measured value, and the IE "SFN" to the SFN during which the latest measurement was performed, in the IE "TADV Info";
3>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.4.2.
14.6.2.7	Reporting event 6G: The UE Rx-Tx time difference for a RL included in the active set becomes less than an absolute threshold
When a UE internal measurement configuring event 6g is set up, the UE shall:
1>	create a variable TRIGGERED_6G_EVENT related to that measurement, which shall initially be set to FALSE for each RL;
1>	delete this variable when the measurement is released.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the UE Rx-Tx time difference for a RL included in the active set is less than the value in IE "UE Rx-Tx time difference threshold" stored for this event in the variable MEASUREMENT_IDENTITY for a time period indicated by the IE "time_to_trigger":
2>	if the variable TRIGGERED_6G_EVENT is set to FALSE for this RL:
3>	set the variable TRIGGERED_6G_EVENT to TRUE for this RL;
3>	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6g";
4>	set the IE "measured results" and the IE "additional measured results" according to subclause 8.4.2.
1>	if the variable TRIGGERED_6G_EVENT is set to TRUE for a RL and if the UE RX-Tx time difference for this RL included in the active set is greater or equal the value in IE "UE Rx-Tx time difference threshold" stored for this event in the variable MEASUREMENT_IDENTITY:
2>	set the variable TRIGGERED_6G_EVENT to FALSE for this RL.
14.6.2.8	Reporting event 6H: The UE power headroom becomes larger than an absolute threshold
When a UE internal measurement configuring event 6h is set up, the UE shall:
1>	create a variable TRIGGERED_6H_EVENT related to that measurement, which shall initially be set to FALSE;
1>	delete this variable when the measurement is released.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the variable TRIGGERED_6H_EVENT is set to FALSE and if equation 1 below is fulfilled for a time period indicated by the IE "time_to_trigger":
2>	set the variable TRIGGERED_6H_EVENT to TRUE;
2>	if the Pending-time-after-trigger timer is not active:
3> 	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6h";
4>	set the IE "measured results" and the IE "additional measured results" according to 8.4.2.
2>	if the IE "Pending time after trigger" is included and not active:
3> 	start the Pending-time-after-trigger timer for this event with the value in this IE.
1>	if the variable TRIGGERED_6H_EVENT is set to TRUE and if equation 2 is fulfilled:
2>	set the variable TRIGGERED_6H_EVENT to FALSE.
1>	if the time-to-trigger timer is active and if equation 1 is not fulfilled:
2>	stop/reset this timer.
When the Pending-time-after trigger timer for this event expires:
1>	if the variable TRIGGERED_6H_EVENT is set to TRUE:
2> 	restart the Pending-time-after-trigger timer for this event with the value in this IE.
3> 	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6h";
4>	set the IE "measured results" and the IE "additional measured results" according to 8.4.2.
Triggering condition:
Equation 1:
F n ≥T
Equation 2:
F n ≤T – H
The variables in the formulas are defined as follows:
Fn is the filtered value (see section 8.6.7.2) of the UE power headroom measurement as defined in TS 25.321 [15] and TS 25.133 [19]
T is the reporting range constant for UE Power Headroom threshold
H is the hysteresis parameter

Figure 14.6.2.8-1: Event triggered report when Uplink Power Headroom becomes larger than a certain threshold
14.6.2.9	Reporting event 6I: The UE power headroom becomes less than an absolute threshold
When a UE internal measurement configuring event 6i is set up, the UE shall:
1>	create a variable TRIGGERED_6I_EVENT related to that measurement, which shall initially be set to FALSE;
1>	delete this variable when the measurement is released.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the variable TRIGGERED_6I_EVENT is set to FALSE and if equation 1 below is fulfilled for a time period indicated by the IE "time_to_trigger":
2>	set the variable TRIGGERED_6I_EVENT to TRUE;
2>	if the Pending-time-after-trigger timer is not active:
3> 	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6i";
4>	set the IE "measured results" and the IE "additional measured results" according to 8.4.2.
2>	if the IE "Pending time after trigger" is included and not active:
3> 	start the Pending-time-after-trigger timer for this event with the value in this IE.
1>	if the variable TRIGGERED_6I_EVENT is set to TRUE and if equation 2 is fulfilled:
2>	set the variable TRIGGERED_6I_EVENT to FALSE.
1>	if the time-to-trigger timer is active and if equation 1 is not fulfilled:
2>	stop/reset this timer.
When the Pending-time-after trigger timer for this event expires:
1>	if the variable TRIGGERED_6I_EVENT is set to TRUE:
2> 	start the Pending-time-after-trigger timer for this event with the value in this IE.
3> 	send a measurement report with IEs set as below:
4>	set in "UE internal measurement event results": "UE internal event identity" to "6i";
4>	set the IE "measured results" and the IE "additional measured results" according to 8.4.2.
Triggering condition:
Equation 1:
F n ≤ T
Equation 2:
F n ≥ T + H
The variables in the formulas are defined as follows:
Fn is the filtered value (see section 8.6.7.2) of the UE power headroom measurement as defined in TS 25.321 [15] and TS 25.133 [19]
T is the reporting range constant for UE Power Headroom threshold
H is the hysteresis parameter

Figure 14.6.2.9-2: Event triggered report when Uplink Power Headroom becomes smaller than a certain threshold
14.7	UE positioning measurements
14.7.1	UE positioning measurement quantities
The quantity to measure for UE positioning is dependent on the positioning method and the method type requested in the IE "UE positioning reporting quantity".
1	SFN-SFN observed time difference type 2, optional.
2	Rx-Tx time difference type 2, optional.
3	GPS timing of cell fames, optional.
The definition of other GPS measurements is not within the scope of this specification.
14.7.2	Void
14.7.3	UE positioning reporting events
In the IE "UE positioning reporting criteria" in the Measurement Control messages, the UTRAN notifies the UE of which events should trigger a measurement report. UE positioning reporting events that can trigger a report are given below. The content of the measurement report is dependant on the positioning method and method type requested in the IE "UE positioning reporting quantity" of the Measurement Control message and is described in detail in [18].
When one measurement identity corresponds to multiple positioning events with identical event identities, the UE behaviour is not defined.
14.7.3.1	Reporting Event 7a: The UE position changes more than an absolute threshold
This event is used for UE-based methods only.
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	if the UE changes its position compared to the last reported position by more than the threshold defined by the IE "Threshold position change"; or
1>	if no position has been reported since the event was configured and the UE changes its position compared to the first position estimate obtained after the event was configured by more than the threshold defined by the IE "Threshold position change":
2>	send a measurement report as specified in subclause 8.6.7.19.1b;
2>	if the value of IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event is greater than zero:
3>	decrease IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event by one.
2>	if the value of IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event is equal to zero:
3>	delete this event from the list of events in variable MEASUREMENT_IDENTITY.
1>	if the UE is unable to evaluate the event because a position measurement is not available:
2>	not send a report.
14.7.3.2	Reporting Event 7b: SFN-SFN measurement changes more than an absolute threshold
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	send a measurement report when the SFN-SFN time difference measurement type 2 of any measured cell changes more than the threshold defined by the IE "Threshold SFN-SFN change"; and
1>	if UTRAN set IE "Method Type" in "UE positioning reporting quantity" in the MEASUREMENT CONTROL message to "UE-based":
2>	act as specified in subclause 8.6.7.19.1b.
1>	if UTRAN set IE "Method Type" in "UE positioning reporting quantity" in the MEASUREMENT CONTROL message to "UE-assisted":
2>	act as specified in subclause 8.6.7.19.1a.
1>	if UTRAN set IE "Method Type" in "UE positioning reporting quantity" in the MEASUREMENT CONTROL message to "UE-assisted preferred but UE-based allowed" or "UE-based preferred but UE-assisted allowed":
2>	the UE may choose to act according to either subclause 8.6.7.19.1a or 8.6.7.19.1b.
1>	if the value of IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event is greater than zero:
2>	decrease IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event by one.
1>	if the value of IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event is equal to zero:
2>	delete this event from the list of events in variable MEASUREMENT_IDENTITY.
14.7.3.3	Reporting Event 7c: GPS time and SFN time have drifted apart more than an absolute threshold
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	send a measurement report when the GPS Time Of Week and the SFN timer have drifted apart more than the threshold defined by the IE "Threshold SFN-GPS TOW"; and
1>	if UTRAN set IE "Method Type" in "UE positioning reporting quantity" in the MEASUREMENT CONTROL message to "UE based":
2>	act as specified in subclause 8.6.7.19.1b.
1>	if UTRAN set IE "Method Type" in "UE positioning reporting quantity" in the MEASUREMENT CONTROL message to "UE assisted":
2>	act as specified in subclause 8.6.7.19.1a.
1>	if UTRAN set IE "Method Type" in "UE positioning reporting quantity" in the MEASUREMENT CONTROL message to "UE assisted preferred but UE based allowed" or "UE based preferred but UE assisted allowed":
2>	act as specified in subclause 8.6.7.19.1a or in subclause 8.6.7.19.1b depending on the method type chosen by the UE.
1>	if the value of IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event is greater than zero:
2>	decrease IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event by one.
1>	if the value of IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event is equal to zero:
2>	delete this event from the list of events in variable MEASUREMENT_IDENTITY.
14.7.3.4	Reporting Event 7d: GANSS time and SFN time have drifted apart more than an absolute threshold
When this event is ordered by UTRAN in a measurement control message, the UE shall:
1>	send a measurement report when the GANSS Time Of Week and the SFN timer have drifted apart more than the threshold defined by the IE "Threshold SFN-GANSS TOW"; and
1>	if UTRAN set IE "Method Type" in "UE positioning reporting quantity" in the MEASUREMENT CONTROL message to "UE based":
2>	act as specified in subclause 8.6.7.19.1b.
1>	if UTRAN set IE "Method Type" in "UE positioning reporting quantity" in the MEASUREMENT CONTROL message to "UE assisted":
2>	act as specified in subclause 8.6.7.19.1a.
1>	if UTRAN set IE "Method Type" in "UE positioning reporting quantity" in the MEASUREMENT CONTROL message to "UE assisted preferred but UE based allowed" or "UE based preferred but UE assisted allowed":
2>	act as specified in subclause 8.6.7.19.1a or in subclause 8.6.7.19.1b depending on the method type chosen by the UE.
1>	if the value of IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event is greater than zero:
2>	decrease IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event by one.
1>	if the value of IE "Amount of Reporting" in variable MEASUREMENT_IDENTITY for this event is equal to zero:
2>	delete this event from the list of events in variable MEASUREMENT_IDENTITY.

14.7a	Measurements related to CSG/Hybrid cells
14.7a.1	Intra-frequency measurements for CSG/Hybrid cells
For each cell reported in the IE "Cell measured results" of an intra-frequency Measurement Report, which is also included in the IE "Intra-frequency SI Acquisition" associated with the measurement:
1>	if the UE managed to acquire the valid system information of the concerned cell: 
2>	include the following IEs in the IE "Cell measured results":
3>	"Cell Identity" IE.
3>	if the concerned cell broadcasts a CSG identity:
4>	"CSG Identity" IE.
4>	if the concerned cell is CSG member cell:
5>	"CSG Member indication" IE and set it to "member";
5>	"CSG PLMN Identity" IE of all PLMNs broadcast that fulfil the CSG member cell definition.
The system information of the reported cell(s) can be acquired by the UE without any measurement gaps.

14.7a.2	Inter-frequency measurements for CSG/Hybrid cells
For each cell reported in the IE "Cell measured results" of an inter-frequency Measurement Report, which is also included in the IE "Inter-frequency SI Acquisition" associated with the measurement:
1>	if the UE managed to acquire the system information of the concerned cell:
2>	include the following IEs in the IE "Cell measured results":
3>	"Cell Identity" IE;
3>	if the concerned cell broadcasts a CSG identity:
4>	"CSG Identity" IE.
4>	if the concerned cell is CSG member cell:
5>	"CSG Member indication" IE and set it to "member";
5>	"CSG PLMN Identity" IE of all PLMNs broadcast that fulfil the CSG member cell definition.
If the UE needs measurement gaps to read the system information on the non-used frequency, the system information of the reported cell can be acquired by the UE via autonomous measurement gaps when the IE "Inter-frequency SI Acquisition" is received by the UE, i.e., UE is allowed to temporarily abort communication with the serving cell to perform SI acquisition within the limits as specified in [19]. UE shall send the measurement report before the maximum provided time specified in IE “Periodical reporting criteria” if the UE is able to acquire SI early.

14.7a.3	CSG Proximity detection
The UE shall:
1>	if the IE "UTRA CSG Proximity detection" is present and has the value "enable":
2>	enable the proximity detection function of entering or leaving the proximity of UTRA CSG member cell(s) .
1>	else:
2>	disable the proximity detection function of entering or leaving the proximity of UTRA CSG member cell(s) .
1>	if the IE "E-UTRA CSG Proximity detection" is present and has the value "enable":
2>	enable the proximity detection function of entering or leaving the proximity of E-UTRA CSG member cell(s) .
1>	else:
2>	disable the proximity detection function of entering or leaving the proximity of E-UTRA CSG member cell(s) .

14.7a.4	CSG Proximity Indication
If proximity detection function is enabled for a RAT, the UE shall initiate the transmission and set the contents of IE "CSG Proximity Indication" in the MEASUREMENT REPORT message as follows:
1>	if the UE is aware that it is in the proximity of one or more CSG member cell(s) on a frequency of the enabled RAT, the UE shall:
2>	if the UE has not transmitted a “CSG Proximity Indication" for the RAT and frequency since the enabling of proximity detection function, or
2>	if the last “CSG Proximity Indication” transmitted for the concerned RAT and frequency was a leaving indication, and more than 5 s has elapsed since its transmission, 
3>	set the IE "CSG Proximity Indication" to "entering";
3>	set the IE "CSG Frequency info for UTRA" or "CSG Frequency info for E-UTRA " to the frequency of the cell(s) for which the Proximity Indication was triggered.
1>	if the UE leaves the proximity of all the CSG member cell(s) on a frequency of the enabled RAT, the UE shall:
2>	if the last “CSG Proximity Indication” transmitted for the concerned RAT and frequency was an entering indication, and more than 5 s has elapsed since its transmission,
3>	set the IE "CSG Proximity Indication" to "leaving";
3>	set the IE "CSG Frequency info for UTRA" or "CSG Frequency info for E-UTRA" to the frequencyof the cell(s) for which the Proximity Indication was triggered.

14.7a.5	E-UTRA measurements for CSG/Hybrid cells
For each cell reported in the IE "E-UTRA measured results" of an E-UTRA inter-RAT Measurement Report, which is also included in the IE "E-UTRA SI Acquisition" associated with the measurement:
1>	if the UE acquired the system information of the concerned cell:
2>	include the following IEs in the IE "E-UTRA Results for SI Acquisition":
3>	"CGI-Info" IE;
3>	if the concerned cell broadcasts a CSG identity:
4>	"CSG Identity" IE;
4>	 if the concerned cell is CSG member cell:
5>	"CSG Member indication" IE and set it to "member";
5>	"Primary PLMN Suitable" if the Primary PLMN Identity meets the CSG member cell definition;
5>	"CSG PLMN Identity" IE of all other PLMNs broadcast that fulfil the CSG member cell definition.
If the UE needs measurement gaps to read the system information on the E-UTRA cell, the system information of the reported cell can be acquired by the UE via autonomous measurement gaps when the IE " E-UTRA SI Acquisition" is received by the UE, i.e., UE is allowed to temporarily abort communication with the serving cell to perform SI acquisition within the limits as specified in [74]. UE shall send the measurement report before the maximum provided time specified in IE “Periodical reporting criteria” if the UE is able to acquire SI early.
14.8	Void

14.9s	Downlink power control
14.9.1	Generalities
This function is implemented in the UE in order to set the SIR target value on each CCTrCH used for the downlink power control. This SIR value shall be adjusted according to an autonomous function in the UE in order to achieve the same measured quality as the quality target set by UTRAN. The quality target is set as the transport channel BLER value for each transport channel as signalled by UTRAN.
When transport channel BLER is used the UE shall run a quality target control loop such that the quality requirement is met for each transport channel, which has been assigned a BLER target.
The UE shall set the SIR target when the physical channel has been set up or reconfigured. It shall not increase the SIR target value before the power control has converged on the current value. The UE may estimate whether the power control has converged on the current value, by comparing the averaged measured SIR to the SIR target value.
NOTE:	The power control function for F-DPCH is specified in [29].
14.9.2	Downlink power control in compressed mode
In compressed mode, the target SIR needs to be changed in several frames compared to normal mode. For this purpose, four values DeltaSIR1, DeltaSIRafter1, DeltaSIR2 and DeltaSIRafter2 are signalled by the UTRAN to the UE (see subclause 10.3.6.33).
For each frame, the target SIR offset during compressed mode, compared to normal mode is:
	SIR = max (SIR1_compression, … , SIRn_compression) + SIR1_coding + SIR2_coding
where n is the number of TTI lengths for all TrChs of the CCTrCh, Fi is the length in number of frames of the i-th TTI and where SIR_coding fulfils:
-	SIR1_coding= DeltaSIR1 if the start of the first transmission gap in the transmission gap pattern is within the current frame.
-	SIR1_coding= DeltaSIRafter1 if the current frame just follows a frame containing the start of the first transmission gap in the transmission gap pattern.
-	SIR2_coding= DeltaSIR2 if the start of the second transmission gap in the transmission gap pattern is within the current frame.
-	SIR2_coding= DeltaSIRafter2 if the current frame just follows a frame containing the start of the second transmission gap in the transmission gap pattern.
-	SIR1_coding= 0 and SIR2_coding= 0 otherwise.
and SIRi_compression is defined by :
-	SIRi_compression = 3 dB for downlink frames compressed by reducing the spreading factor by 2.
-	SIRi_compression = 0 dB in all other cases.
Several compressed mode patterns applying to the same frames should be avoided as much as possible.
In case several compressed mode patterns are used simultaneously, a SIR offset is computed for each compressed mode pattern and the sum of all SIR offsets is applied to the frame.
14.10	Calculated Transport Format Combination
The Calculated Transport Format Combination (CTFC) is a tool for efficient signalling of transport format combinations.
Let I be the number of transport channels that are included in the transport format combination. For DCHs, all configured DCHs are included in the transport format combination. Each transport channel TrCHi, i = 1, 2, …, I, has Li transport formats, i.e. the transport format indicator TFIi can take Li values, .
Define , where i = 1, 2, …, I, and L0 = 1.
Let TFC(TFI1, TFI2, …, TFII) be the transport format combination for which TrCH1 has transport format TFI1, TrCH2 has transport format TFI2, etc. The corresponding CTFC(TFI1, TFI2, …, TFII) is then computed as:
.
For FACH and PCH transport channels, "TrCH1" corresponds to the transport channel listed at the first position in IE "FACH/PCH information" in IE "Secondary CCPCH System Information", "TrCH2" corresponds to the transport channel listed at the second position in IE "FACH/PCH information" and so on.
For all other transport channels in FDD and for all configured transport channels of the same transport channel type (i.e. DCH, DSCH, USCH) in TDD, "TrCH1" corresponds to the transport channel having the lowest transport channel identity in the transport format combination mapped to the TFCI field. "TrCH2" corresponds to the transport channel having the next lowest transport channel identity, and so on.
14.10.1	Default TFCS for MBMS
14.10.1.1	S-CCPCH configuration including a FACH carrying MSCH
In case the S-CCPCH configuration includes a FACH carrying MSCH, the default TFCS is defined according to the following:
Let TrCH 1 be the FACH carrying MSCH, TrCH 2 be the first TrCH carrying MTCH listed in the IE "TrCh information list", TrCH 3 be the second TrCH carrying MTCH listed in the IE "TrCh information list" etc. and let TrCH I be the last TrCH carrying MTCH listed in the IE "TrCh information list".
Each transport channel TrCHi, i = 1, 2, …, I, has Li transport formats, i.e. the transport format indicator TFIi can take Li values.
Each transport format combination set is defined by the transport formats of each transport channel mapped on this S-CCPCH: 
TFC = (TFI1, TFI2, …, TFII).
The "MBMS implicit TFCS" contains then the following set of TFCs:
TFCS = {(0,0,…,0),(0,1,…,0),…,(0,L2,…,0),(0,0,1,…,0),…,(0,0,L3,…,0),…,(0,0,0,…,1),…,(0,0,0,…,LI),
(1,0,…,0),(1,1,…,0),…,(1,L2,…,0),(1,0,1,…,0),…,(1,0,L3,…,0),…,(1,0,0,…,1),…,(1,0,0,…,LI),
(2,0,…,0),…,(L1,0,…,0)}
14.10.1.2	S-CCPCH configuration not including a FACH carrying MSCH
In case the S-CCPCH configuration does not include a FACH carrying MSCH, the default TFCS is defined according to the following:
Let TrCH 1 be the first TrCH listed in the IE "TrCh information list", TrCH 2 be the second TrCH listed in the IE "TrCh information list" etc. and let TrCH I be the last TrCH listed in the IE "TrCh information list".
Each transport channel TrCHi, i = 1, 2, …, I, has Li transport formats, i.e. the transport format indicator TFIi can take Li values.
Each transport format combination set is defined by the transport formats of each transport channel mapped on this S-CCPCH: 
TFC = (TFI1, TFI2, …, TFII).
The "MBMS implicit TFCS" contains then the following set of TFCs:
TFCS = {(0,…,0), (1,…,0),…,(L1,…,0),(0,1,…,0),…,(0,L2,…,0),…,(0,0,…,1),…,(0,0,…,LI)}
14.11	UE autonomous update of virtual active set on non-used frequency (FDD only)
In the text that follows:
-	a "non-used frequency" is a frequency that the UE has been ordered to measure upon but is not used for the connection. A "used frequency" is a frequency that the UE has been ordered to measure upon and is also currently used for the connection;
-	a "non-used frequency (resp. cell) considered in an inter-frequency measurement" shall be understood as a non-used frequency (resp. cell) included in the list of cells pointed at in the IE "cells for measurement" if it was received for that measurement, or otherwise as a non-used frequency (resp. cell) included in the "Inter-frequency cell info" part of the variable CELL_INFO_LIST.
For event-triggered inter frequency measurements it is possible to use intra-frequency measurement reporting events for support of maintenance of an active set associated with a non-used frequency considered in that measurement, a "virtual active set" and used in the evaluation of the frequency quality estimates. The "initial virtual active set" for a frequency is the virtual active set that is associated to that frequency just after a message was received that sets up or modifies the inter-frequency measurement.
The way the virtual active sets are initiated and updated for the non-used frequencies considered in an inter-frequency measurement is described in the two subclauses below.
The UE shall support a single virtual active set per non-used frequency for non-CSG measurements if detected set cells are not considered for that frequency.
The UE shall support two virtual active sets per non-used frequency for non-CSG measurements if detected set cells are considered for that frequency – both virtual active sets are maintained using the same rules, and in parallel, however the first virtual active set is maintained considering only cells stored in CELL_INFO_LIST, and the second virtual active set is maintained additionally considering any detected cells (cells stored in CELL_INFO_LIST and cells not stored in CELL_INFO_LIST) and excluding cells indicated in IE "Cells to be excluded in non-used frequency detected cells". This is in order to allow the UE to determine whether or not detected set cells affect the measurement event result. In the following subclauses, the term "virtual active set" applies to both of these virtual active sets (i.e. the virtual active set not containing detected set cells, and the virtual active set containing detected set cells). Elsewhere in the specification, unless stated otherwise, the term "virtual active set" is used to refer to the virtual active set not containing detected set cells.
If any measurement is configured for CSG cells (using CELL_INFO_CSG_LIST) then the UE shall additionally maintain a "CSG virtual active set" for this purpose.
The virtual active set is not initialised and maintained for an inter frequency measurement with periodic reporting. A virtual active set initialised and maintained by another inter-frequency measurement does not affect reporting of the periodic inter-frequency measurement.
14.11.1	Initial virtual active set
If the UE receives a MEASUREMENT CONTROL message that sets up or modifies an inter-frequency measurement and includes the IE "Inter-frequency set update"; or
If at least one cell can be measured on a non-used frequency for which the current virtual active set is empty (see subclause 14.11.2), the UE shall:
1>	for each non-used frequency Fi considered in the measurement where cells can be measured:
2>	if event 1a is configured for the used frequency in an intra-frequency measurement and the CSG virtual active set is not used:
3>	include in the initial virtual active set the Ni cells that have either the greatest downlink Ec/N0 or the greatest downlink RSCP after despreading or the lowest pathloss (the measurement quantity to be used is determined by the IE "intra-frequency measurement quantity" of the intra-frequency measurement from which the event 1a configuration is taken), among the cells on frequency Fi considered in that inter-frequency measurement, where:
	 if N1a0 and  otherwise.
	where:
	N1a is the "Reporting deactivation threshold" included in the intra-frequency measurement for the first event 1a defined in the intra-frequency measurement with the lowest identity at the time the inter-frequency measurement was received with the IE "Inter-frequency set update" present.
	NCells Fi is the number of cells on frequency Fi considered in that inter-frequency measurement.
2>	else if the CSG virtual active set is used and event 1c is configured for the used frequency in an intra-frequency measurement:
3>	include in the initial CSG virtual active set 1 cell that has either the greatest downlink Ec/N0 or the greatest downlink RSCP after despreading or the lowest pathloss (the measurement quantity to be used is determined by the IE "intra-frequency measurement quantity" of the intra-frequency measurement from which the event 1c configuration is taken), among the cells on frequency Fi  in CELL_INFO_CSG_LIST.
	

2>	else:
	
	where:
	NCells Fi is the number of cells on frequency Fi considered in that inter-frequency measurement.
NOTE1:	The UE initialises the virtual active set with up to the maximum number of inter-frequency cells supported by the UE as defined in [19].
NOTE2:	If the UTRAN configures more than one measurement using events 2A, 2B, 2C or 2E  the UE measurement capabilities may be exceeded due to the necessary copying of 1A, 1B, 1C criteria.  To avoid this the UTRAN may configure one measurement to apply to multiple frequencies so that  the 1A, 1B, and 1C criteria will only be copied once.
NOTE3:	After a hard handover (see subclause 8.3.5), if the MEASUREMENT CONTROL message that restarts an inter-frequency measurement using the virtual active set does not include the IE "Inter-frequency set update", the UE behaviour regarding the virtual active set is not specified.
14.11.2	Virtual active set update during an inter-frequency measurement
For an inter-frequency measurement, the UE shall:
1>	apply the events of type 1a, 1b and 1c that were defined for the used frequency in other stored measurements of type "intra-frequency" at the time the inter-frequency measurement was last received with the IE "Inter-frequency set update" present; and
1>	update the virtual active set for the non-used frequencies considered in that measurement according to the following rules:
2>	if several events of type 1c were defined for the used frequency when the inter-frequency measurement was last received with the IE "Inter-frequency set update" present, and the inter-frequency measurement applies to cells in the CELL_INFO_CSG_LIST then only the first 1c event that was defined in the measurement with the lowest measurement identity shall apply to the non-used frequencies and replace the "Replacement activation threshold" with 0 to update the CSG virtual active set;
2>	if several events of type 1a (resp. 1b,1c) were defined for the used frequency when the inter-frequency measurement was last received with the IE "Inter-frequency set update" present, only the first 1a event (resp 1b, 1c) that was defined in the measurement with the lowest measurement identity shall apply to the non-used frequencies;
2>	all the cells considered in the inter-frequency measurements shall be able to affect the reporting range for event 1a and 1b. (i.e. the IE "Cells forbidden to affect reporting range" possibly stored for the intra-frequency measurements on the used frequency does not apply to the non-used frequencies considered in the inter-frequency measurement);
2>	the IEs "amount of reporting" and "reporting interval" that were stored for the intra-frequency measurements on the used frequency shall not be considered if reports of the virtual active set updates are needed.
2>	the measurement quantity and filter coefficient to be used is determined by the IE "intra-frequency measurement quantity" of the intra-frequency measurement from which the intra-frequency event configuration is taken.
NOTE:	If the measurement quantity and filter coefficients to be used differ for the 1a, 1b, and 1c events applied then the UE behaviour is unspecified.
1>	if event 1a is applicable to the non-used frequencies considered in the inter-frequency measurement, always only consider monitored cells that are not in the virtual active set for this event, and:
2>	when this event is triggered (according to the criteria described in subclause 14.1.2.1) by a cell for a non-used frequency considered in that measurement:
3>	if the "Reporting deactivation threshold" is equal to 0, or if the "Reporting deactivation threshold" is different from 0 and the number of cells included in the virtual active set for that frequency is less than or equal to the "Reporting deactivation threshold":
4>	add the primary CPICH that enters the reporting range to the "virtual active set".
2>	if event 1b is applicable for the non-used frequencies considered in that inter-frequency measurement, always only consider cells in the virtual active set for this event, and when this event is triggered (according to the criteria described in subclause 14.1.2.2) by a cell for a non-used frequency considered in that measurement:
3>	if the number of cells included in the virtual active set is greater than 1:
4>	remove the primary CPICH that leaves the reporting range from the "virtual active set".
2>	if event 1c is applicable for the non-used frequencies considered in that inter-frequency measurement, always only consider monitored cells for this event, and when this event is triggered (according to the criteria described in subclause 14.1.2.3) by a cell for a non-used frequency considered in that measurement:
3>	if the "Replacement activation threshold" is equal to 0, or if the "Replacement activation threshold" is different from 0 and the number of cells included in the virtual active set for that frequency is greater than or equal to the "Replacement activation threshold":
4>	rank all active and non-active primary CPICHs and take the n best cells to create a new "virtual active set", where n is the number of active primary CPICHs in the "virtual active set".
1>	if event 1c is applicable to the non-used frequencies considered in the inter-frequency measurement applying to cells in the CELL_INFO_CSG_LIST, always only consider cells in the CELL_INFO_CSG_LIST, and when this event is triggered (according to the criteria described in subclause 14.1.2.3) by a cell for a non-used frequency considered in that measurement :
2>	rank all active and non-active primary CPICHs and take the best cell to create a new "CSG virtual active set".
1>	if Event 1a is not defined for the used frequency in other stored measurements of type "intra-frequency" at the time the inter-frequency measurement was set up and the CSG virtual active set is not used for the measurement:
2>	the UE shall continuously update the virtual active set to consist of all cells on frequency Fi considered in that inter-frequency measurement.
NOTE:	The UE needs to only update the virtual active set with up to the maximum number of interfrequency cells supported by the UE as defined in [19].
If none of the cells that are considered in the measurement on this frequency were measured, the UE may treat the virtual active set as empty and follow the appropriate initialisation procedured in subclause 14.11.1 when any relevant cell can first be measured.
If a cell is a member of the virtual active set and is removed from the variable CELL_INFO_LIST or removed from the list of cells pointed at by the IE "Cells for measurement" for the inter-frequency measurement then the UE shall remove the cell from the virtual active set. (This rule is not applicable for the virtual active set which is used for evaluating detected set cells).
If an inter-frequency measurement that initialised a virtual active set is released, then any virtual active set associated with this measurement shall also be released.
14.12	Provision and reception of RRC information between network nodes
14.12.0	General
In certain cases, e.g., when performing handover to UTRAN or when performing SRNC relocation, RRC information may need to be transferred between UTRAN nodes, between UTRAN and another RAT, between nodes within another RAT or between the UE and another RAT.
The RRC information exchanged between network nodes or between the UE and another RAT is typically transferred by means of RRC information containers. An RRC information container is a self-contained and extensible RRC information unit that may be used to transfer a number of different RRC messages, one at a time. As stated before, RRC information containers may be used to transfer RRC messages across interfaces other than the Uu interface. The RRC messages that may be included in RRC information containers have similar characteristics as the RRC messages that are transferred across the Uu interface.
The RRC messages that are sent to/ from the UE, e.g., HANDOVER TO UTRAN COMMAND, INTER RAT HANDOVER INFO are covered by (sub)clauses 8, 9, 10, 11.0-11.4 and 12 of this specification. The following subclauses concern RRC messages exchanged between network nodes.
In future versions of this specification, it is possible to extend the RRC messages transferred across interfaces other than Uu. For these RRC messages the same extension mechanism applies as defined for RRC messages transferred across the Uu interface, as is specified in subclause 10.1, i.e., both critical and non-critical extensions may be added.
The transfer syntax for RRC information containers and RRC messages transferred between network nodes is derived from their ASN.1 definitions by use of Packed Encoding Rules, unaligned (X.691). It should be noted that the encoder adds final padding to achieve octet alignment. The resulting octet string is, carried in a container, transferred between the network nodes.
When using a separate RRC information container for each endpoint, the receiving RRC protocol entity is able to interpret the received container; this means that the receiver need not take into account information about the (network interface) message used in transferring the container.
The following encoding rules apply in addition to what has been specified in X.691 [49]:
1>	When a bit string value is placed in a bit-field as specified in 15.6 to 15.11 in [11], the leading bit of the bit string value shall be placed in the leading bit of the bit-field, and the trailing bit of the bit string value shall be placed in the trailing bit of the bit-field.
NOTE:	The terms "leading bit" and "trailing bit" are defined in ITU-T Rec. X.680 | ISO/IEC 8824-1. When using the "bstring" notation, the leading bit of the bit string value is on the left, and the trailing bit of the bit string value is on the right.
14.12.0a	General error handling for RRC messages exchanged between network nodes
The error handling for RRC messages that are exchanged between network nodes applies the same principles as defined for other RRC messages.
Although the same principles apply for network nodes receiving unknown, unforeseen and erroneous RRC messages received in RRC information containers, the notification of the error should be done in a different manner, as specified in the following:
The network node receiving an invalid RRC message from another network node should:
1>	if the received RRC message was unknown, unforeseen or erroneous:
2>	prepare an RRC FAILURE INFO message, including the IE "Failure cause" set to "Protocol error" and the IE "Protocol error information" including an IE "Protocol error cause" which should be set as follows:
3>	to "ASN.1 violation or encoding error" upon receiving an RRC message for which the encoded message does not result in any valid abstract syntax value;
3>	to "Message type non-existent or not implemented" upon receiving an unknown RRC message type;
3>	to "Message extension not comprehended" upon receiving an RRC message including an undefined critical message extension;
3>	to "Information element value not comprehended" upon receiving an RRC message including an mandatory IE for which no default value is defined and for which either the value is set to spare or for which the encoded IE does not result in a valid transfer syntax. The same applies for conditional IEs, for which the conditions for presence are met, the IE is present but has a value set to spare or for which the encoded IE does not result in a valid transfer syntax;
3>	to "Information element missing" upon receiving an RRC information container with an absent conditional IE for which the conditions for presence are met.
1>	if there was another failure to perform the operation requested by the received RRC message:
2>	prepare an RRC FAILURE INFO message, including the IE "Failure cause" set to a value that reflects the failure cause.
1>	send the RRC FAILURE INFO message to the network node from which the invalid RRC protocol information was received.
NOTE 1:	The appropriate (failure) messages used across the network interfaces may not support the inclusion of a RRC information container. In this case, the information contained in the RRC FAILURE INFO message may need to be transferred otherwise e.g. by mapping to a cause value (e.g. a cause value in the RR-HANDOVER FAILURE message when there is a error associated with the RRC-HANDOVER TO UTRAN COMMAND message).
NOTE 2	In case the RRC procedure used to perform SRNS relocation fails e.g. due to non comprehension, the source RNC may notify the target RNC by including the diagnostics information (IEs "Protocol error" and "Protocol error information") in the "RRC message "SRNS Relocation" Info sent in the RRC information container" used for a subsequent relocation request.
14.12.1	RRC Information to target RNC
The RRC information container "RRC Information to target RNC" may either be sent from source RNC or from another RAT. In case of handover to UTRAN, this information originates from another RAT, while in case of SRNC relocation the RRC information originates from the source RNC. In case of handover to UTRAN, the RRC information transferred may provide UTRAN specific information, as defined in the INTER RAT HANDOVER INFO WITH INTER RAT CAPABILITIES message, that the target RNC needs when preparing the handover command message. In case of SRNC relocation and handover/cell reselection from GERAN Iu mode, the RRC information transferred specifies the configuration of RRC and the lower layers it controls, e.g., including the radio bearer and transport channel configuration. It is used by the target RNC to initialise RRC and the lower layer protocols to facilitate SRNC relocation and handover/cell reselection from GERAN Iu mode in a manner transparent to the UE.
RFC 3095 CONTEXT INFO is used to transfer the compressor and decompressor context information of the ROHC [83], [84] protocol from source RNC to target RNC.
Information Element/Group Name
Need
Multi
Type and reference
Semantics description
Version
CHOICE case
MP


At least one spare choice, Criticality: Reject, is needed

>Handover to UTRAN


INTER RAT HANDOVER INFO WITH INTER RAT CAPABILITIES
14.12.4.1


>SRNC relocation


SRNS RELOCATION INFO
14.12.4.2


>RFC 3095 context info


RFC 3095 CONTEXT INFO 14.12.4.4

REL-5

14.12.2	RRC information, target RNC to source RNC
There are 2 possible cases for RNC relocation:
1.	The UE is already under control of target RNC; and
2.	The SRNC Relocation with Hard Handover (UE still under control of SRNC), but UE is moving to a location controlled by the target RNC (based on measurement information).
In case 1 the relocation is transparent to the UE and there is no "reverse" direction container. The SRNC just assigns the 'serving' function to the target RNC, which then becomes the Serving RNC.
In case 2 the relocation is initiated by SRNC, which also provides the RRC Initialisation Information to the target RNC. Base on this information, the target RNC prepares the Hard Handover Message ( "Physical channel reconfiguration" (subclause 8.2.6), "radio bearer establishment" (subclause 8.2.1), "Radio bearer reconfiguration" (subclause 8.2.2), "Radio bearer release" (subclause 8.2.3) or "Transport channel reconfiguration" (subclause 8.2.4)).
In case 2 two possibilities are defined in order to transmit the relocation message from the target RNC to the source RNC which can be chosen by the source RNC by including or not including the IE "RB Id for handover message" in the IE "SRNS Relocation Info".
In case the IE "RB Id for handover message" has been received by the target RNC in the IE "SRNS Relocation Info", the target RNC should choose the IE "DL DCCH message" and include the DL DCCH message that should be transmitted transparently to the UE by the source RNC. In that case, the target RNC is integrity protecting the message if applicable.
If the target RNC did not receive the IE "RB Id for handover message" in the IE "SRNS Relocation Info" the target RNC should use another choice. In that case, the source RNC should integrity protect the message before transmitting it to the UE if applicable.
The source RNC then transmits the Handover Message to the UE, which then performs the handover.
In the successful case, the UE transmits an XXX COMPLETE message, using the new configuration, to the target RNC.
In case of failure, the UE transmits an XXX FAILURE, using the old configuration, to the source RNC and the RRC context remains unchanged (has to be confirmed and checked with the SRNS relocation procedure).
Information Element/Group name
Need
Multi
Type and reference
Semantics description
CHOICE RRC message
MP


At least one spare choice, Criticality: Reject, is needed
>RADIO BEARER SETUP


RADIO BEARER SETUP
10.2.33

>RADIO BEARER RECONFIGURATION


RADIO BEARER RECONFIGURATION
10.2.27

>RADIO BEARER RELEASE


RADIO BEARER RELEASE
10.2.30

>TRANSPORT CHANNEL RECONFIGURATION


TRANSPORT CHANNEL RECONFIGURATION
10.2.50

>PHYSICAL CHANNEL RECONFIGURATION


PHYSICAL CHANNEL RECONFIGURATION
10.2.22

>RRC FAILURE INFO


RRC FAILURE INFO 10.2.41
a

>DL DCCH message


OCTET STRING


14.12.3	Void

14.12.4	RRC messages exchanged between network nodes
14.12.4.0	HANDOVER TO UTRAN COMMAND
This RRC message is sent between network nodes to transfer the actual handover command including the details of the radio configuration to be used upon handover to UTRAN as compiled by the target RNC.
	Direction: target RNC source RAT
The message is exactly the same as the HANDOVER TO UTRAN COMMAND defined in subclause 10.2.16a.
14.12.4.0a	INTER RAT HANDOVER INFO
This RRC message is sent between network nodes to transfer information relevant for the target RNC when preparing for handover to UTRAN.
	Direction: source RAT nodetarget RAT node
The message is exactly the same as the INTER RAT HANDOVER INFO defined in subclause 10.2.16d.
14.12.4.1	INTER RAT HANDOVER INFO WITH INTER RAT CAPABILITIES
This RRC message is sent between network nodes when preparing for an inter RAT handover to UTRAN.
The radio access capabilities for the source RAT and target RAT shall always be included; the radio access capabilities for other RATs may be included if available at the source RAT.
	Direction: source RATtarget RNC
Information Element/Group Name
Need
Multi
Type and reference
Semantics description
Version
UE Information elements





Predefined configuration status information
OP

Predefined configuration status information 10.3.4.5a


Predefined configuration status information compressed
OP

Predefined configuration status information compressed 10.3.4.5b

REL-5
UE security information
OP

UE security information 10.3.3.42b


UE security information2
OP

UE security information2 10.3.3.42c

REL-6
UE Specific Behaviour Information 1 interRAT
OP

UE Specific Behaviour Information 1 interRAT 10.3.3.52
This IE shall not be included in this version of the protocol

UE capability container
OP




>UE radio access capability
MP

UE radio access capability 10.3.3.42


>UE radio access capability extension
MP

UE radio access capability extension 10.3.3.42a
Although this IE is not always required, the need has been set to MP to align with the ASN.1

UE radio access capability compressed
OP

UE radio access capability compressed
10.3.3.42o

REL-5
UE radio access capability comp 2
OP

UE radio access capability comp 2 10.3.3.42oa

REL-6
Other Information elements





UE system specific capability
OP
1 to <maxSystemCapability>



>Inter-RAT UE radio access capability 
MP

Inter-RAT UE radio access capability 10.3.8.7


Failure cause
OP

Failure cause 10.3.3.13
Diagnostics information related to an earlier handover to UTRAN request

Protocol error information
CV-ProtErr

Protocol error information 10.3.8.12


UE inactivity period
OP

Integer (1..120)
Provides expired time since last u-plane activity. If the integer value x is between 1 and 59, it represents the expired time x in seconds. If the integer value x is between 60 and 119, it represents the expired time (x-59) in minutes. If integer value is set to 120, no u-plane activity has been for 60 minutes or more.
REL-9

Condition
Explanation
ProtErr
This IE is mandatory present if the IE "Protocol error indicator" is included and has the value TRUE. Otherwise it is not needed.

NOTE1:	To facilitate that network nodes can transparently forward the RRC information received, the INTER RAT HANDOVER INFO WITH INTER RAT CAPABILITIES should include the entire INTER RAT HANDOVER INFO message. The network node, which may not be able to decode the information received, may only append some information to what was received.
NOTE2:	The above table does not need to reflect the order of the information elements in the actual encoded message. The order, that is reflected in the ASN.1, should be chosen in a manner that avoids that network nodes need to perform reordering of information elements.
14.12.4.2	SRNS RELOCATION INFO
This RRC message is sent between network nodes when preparing for an SRNS relocation or a handover/cell reselection from GERAN Iu mode.
With the presence or absence of the IE "RB identity for Hard Handover message" the source RNC indicates to the target SRNC whether the source RNC expects to receive the choice "DL DCCH message" in the IE "RRC information, target RNC to source RNC" in case the SRNS relocation is of type "UE involved". Furthermore the target RNC uses this information for the calculation of the MAC-I.
	Direction: source RNC/RATtarget RNC
Information Element/Group Name
Need
Multi
Type and reference
Semantics description
Version
Non RRC IEs





>RB identity for Handover message
OP

RB identity
10.3.4.16
Gives the id of the radio bearer on which the source RNC will transmit the RRC message in the case the relocation is of type "UE involved". In handover from GERAN Iu mode this IE is always set to 2.

>State of RRC
MP

RRC state indicator, 10.3.3.35a


>State of RRC procedure
MP

Enumerated (await no RRC message, await RB Release Complete, await RB Setup Complete, await RB Reconfiguration Complete, await Transport CH Reconfiguration Complete, await Physical CH Reconfiguration Complete, await Active Set Update Complete, await Handover Complete, send Cell Update Confirm, send URA Update Confirm,
, others)


Ciphering related information





>Ciphering status for each CN domain
MP
<1 to maxCNDomains>



>>CN domain identity
MP

CN domain identity 10.3.1.1


>>Ciphering status
MP

Enumerated(Not started, Started)


>>START
MP

START 10.3.3.38
START value to be used in this CN domain.

>Latest configured CN domain
MP

CN domain identity 10.3.1.1
Value contained in the variable of the same name.
In case this variable is empty, the source RNC can set any CN domain identity. In that case, the Ciphering status and the Integrity protection status should be Not started and the target RNC should not initialise the variable Latest configured CN domain.

>Calculation time for ciphering related information
CV-Ciphering


Time when the ciphering information of the message were calculated, relative to a cell of the target RNC. In handover and cell reselection from GERAN Iu mode this field is not present.

>>Cell Identity
MP

Cell Identity 10.3.2.2
Identity of one of the cells under the target RNC and included in the active set of the current call

>>SFN
MP

Integer(0..4095)


>COUNT-C list
OP
1 to <maxCNdomains>

COUNT-C values for radio bearers using transparent mode RLC

>>CN domain identity
MP

CN domain identity 10.3.1.1


>>COUNT-C
MP

Bit string(32)


>Ciphering info per radio bearer
OP
1 to <maxRB>

For signalling radio bearers this IE is mandatory.

>>RB identity
MP

RB identity
10.3.4.16


>>Downlink HFN 
MP

Bit string(20..25)
This IE is either RLC AM HFN (20 bits) or RLC UM HFN (25 bits)

>>Downlink SN
CV-SRB1

Bit String(7)
VT(US) of RLC UM

>>Uplink HFN 
MP

Bit string(20..25)
This IE is either RLC AM HFN (20 bits) or RLC UM HFN (25 bits)

Integrity protection related information





>Integrity protection status
MP

Enumerated(Not started, Started)


>Signalling radio bearer specific integrity protection information
CV-IP
4 to <maxSRBsetup>



>>Uplink RRC HFN
MP

Bit string (28)
For each SRB, in the case activation times for the next IP configuration to be applied on this SRB have already been reached this IE corresponds to the last value used. Else this value corresponds to the value the source would have initalized the HFN to at the activation time, not considering any increment of HFN due to RRC SN roll over. Increment of HFN due to RRC SN roll over is taken care of by target based on value sent by the source.

>>Downlink RRC HFN
MP

Bit string (28)
For each SRB, in the case activation times for the next IP configuration to be applied on this SRB have already been reached this IE corresponds to the last value used. Else this value corresponds to the value the source would have initalized the HFN to at the activation time, not considering any increment of HFN due to RRC SN roll over. Increment of HFN due to RRC SN roll over is taken care of by target based on value sent by the source. In particular, for SRB2, this IE should not take into account the RRC message that will trigger the relocation.
NOTE: In order to have the possibility of sending downlink messages after the construction of the IE "SRNS RELOCATION INFO", the source may choose a value ahead of the last value used.

>>Uplink RRC Message sequence number
MP

Integer (0..
15)
For each SRB, this IE corresponds to the last value received or in the case activation time was not reached for a configuration the value equals (activation time -1).

>>Downlink RRC Message sequence number
MP

Integer (0..
15)
For each SRB, this IE corresponds to the last value used or in the case activation time was not reached for a configuration the value equals (activation time -1). In particular, for SRB2, this IE should not take into account the RRC message that will trigger the relocation.
NOTE: In order to have the possibility of sending downlink messages after the construction of the IE "SRNS RELOCATION INFO", the source may choose a value ahead of the last value used for SRB3 and SRB4.

>Implementation specific parameters
OP

Bit string (1..512)


RRC IEs





UE Information elements





>U-RNTI
MP

U-RNTI
10.3.3.47
G-RNTI is placed in this field when performing handover or cell reselection from GERAN Iu mode.

>C-RNTI
OP

C-RNTI
10.3.3.8


>UE radio access Capability
MP

UE radio access capability
10.3.3.42


>UE radio access capability extension
OP

UE radio access capability extension 10.3.3.42a


>Last known UE position
OP




>>SFN
MP

Integer (0..4095)
Time when position was estimated

>>Cell ID
MP

Cell identity; 10.3.2.2
Indicates the cell, the SFN is valid for.

>>CHOICE Position estimate
MP




>>>Ellipsoid Point


Ellipsoid Point; 10.3.8.4a


>>>Ellipsoid point with uncertainty circle


Ellipsoid point with uncertainty circle 10.3.8.4d


>>>Ellipsoid point with uncertainty ellipse


Ellipsoid point with uncertainty ellipse 10.3.8.4e


>>>Ellipsoid point with altitude


Ellipsoid point with altitude 10.3.8.4b


>>>Ellipsoid point with altitude and uncertainty ellipsoid


Ellipsoid point with altitude and uncertainty ellipsoid 10.3.8.4c


>UE Specific Behaviour Information 1 idle
OP

UE Specific Behaviour Information idle 1 10.3.3.51
This IE should be included if received via the "INTER RAT HANDOVER INFO", the "RRC CONNECTION REQUEST", the IE "SRNS RELOCATION INFO" or the "Inter RAT Handover Info with Inter RAT Capabilities"

>UE Specific Behaviour Information 1 interRAT
OP

UE Specific Behaviour Information 1 interRAT 10.3.3.52
This IE should be included if received via the "INTER RAT HANDOVER INFO", the "RRC CONNECTION REQUEST", the IE "SRNS RELOCATION INFO" or the "Inter RAT Handover Info with Inter RAT Capabilities"

Other Information elements





>UE system specific capability
OP
1 to <maxSystemCapability>



>>Inter-RAT UE radio access capability
MP

Inter-RAT UE radio access capability 10.3.8.7


UTRAN Mobility Information elements





>URA Identifier
OP

URA identity
10.3.2.6


>T305
OP

Integer (5, 10, 30, 60, 120, 360, 720, infinity)
If UE is in CELL_FACH state, this information element shall be included. Value in minutes. 
Infinity means no update.
REL-7
CN Information Elements





>CN common GSM-MAP NAS system information
MP

NAS system information (GSM-MAP)
10.3.1.9


>CN domain related information
OP
1 to <MaxCNdomains>

CN related information to be provided for each CN domain

>>CN domain identity
MP




>>CN domain specific GSM-MAP NAS system info
MP

NAS system information (GSM-MAP)
10.3.1.9


>>CN domain specific DRX cycle length coefficient
MP

CN domain specific DRX cycle length coefficient, 10.3.3.6


Measurement Related Information elements





>For each ongoing measurement reporting
OP
1 to <MaxNoOfMeas>

The source RNC should include the measurement IEs for each measurement configured and ongoing in the UE.

>>Measurement Identity
MP

Measurement identity
10.3.7.48


>>Measurement Command
MP

Measurement command
10.3.7.46
This IE should have the value Setup.

>>Measurement Type
CV-Setup

Measurement type
10.3.7.50


>>Measurement Reporting Mode
OP

Measurement reporting mode
10.3.7.49


>>Additional Measurements list
OP

Additional measurements list
10.3.7.1


>>CHOICE Measurement
CV-Setup




>>>Intra-frequency





>>>>Intra-frequency cell info
OP

Intra-frequency cell info list
10.3.7.33


>>>>Intra-frequency cell info on secondary UL frequency
OP

Intra-frequency cell info list on secondary UL frequency
10.3.7.116


>>>>Intra-frequency measurement
quantity 
OP

Intra-frequency measurement quantity
10.3.7.38


>>>>Intra-frequency reporting quantity 
OP

Intra-frequency reporting quantity
10.3.7.41


>>>>Reporting cell status
OP

Reporting cell status
10.3.7.61


>>>>Measurement validity
OP

Measurement validity
10.3.7.51


>>>>CHOICE report criteria
OP




>>>>>Intra-frequency
measurement 
reporting criteria 


Intra-frequency measurement reporting criteria
10.3.7.39


>>>>>Periodical reporting


Periodical reporting criteria
10.3.7.53


>>>>>No reporting


NULL


>>>Inter-frequency





>>>>Inter-frequency cell info
OP

Inter-frequency cell info list
10.3.7.13


>>>>Inter-frequency measurement
quantity 
OP

Inter-frequency measurement quantity
10.3.7.18


>>>>Inter-frequency reporting quantity 
OP

Inter-frequency reporting quantity
10.3.7.21


>>>>Reporting cell status
OP

Reporting cell status
10.3.7.61


>>>>Measurement validity
OP

Measurement validity
10.3.7.51


>>>>Inter-frequency set update
OP

Inter-frequency set update 10.3.7.22


>>>>CHOICE report criteria
MP




>>>>>Intra-frequency measurement reporting criteria


Intra-frequency measurement reporting criteria 10.3.7.39


>>>>>Inter-frequency
measurement 
reporting criteria 


Inter-frequency measurement reporting criteria
10.3.7.19


>>>>>Periodical reporting


Periodical reporting criteria
10.3.7.53


>>>>>No reporting


NULL


>>>Inter-RAT





>>>>Inter-RAT cell info
OP

Inter-RAT cell info list
10.3.7.23


>>>>Inter-RAT measurement
quantity 
OP

Inter-RAT measurement quantity
10.3.7.29


>>>>Inter-RAT reporting quantity 
OP

Inter-RAT reporting quantity
10.3.7.32


>>>>Reporting cell status
OP

Reporting cell status
10.3.7.61


>>>>Measurement validity
OP

Measurement validity
10.3.7.51


>>>>E-UTRA frequency list
OP

E-UTRA frequency list
10.3.7.6b

REL-8
>>>>CHOICE report criteria
MP




>>>>>Inter-RAT measurement 
reporting criteria 


Inter-RAT measurement reporting criteria
10.3.7.30


>>>>>Periodical reporting


Periodical reporting criteria
10.3.7.53


>>>>>No reporting


NULL


>>>Traffic Volume





>>>>Traffic volume measurement
Object
OP

Traffic volume measurement object
10.3.7.70


>>>>Traffic volume measurement
quantity 
OP

Traffic volume measurement quantity
10.3.7.71


>>>>Traffic volume reporting quantity 
OP

Traffic volume reporting quantity
10.3.7.74


>>>>Measurement validity
OP

Measurement validity 10.3.7.51


>>>>CHOICE report criteria
MP




>>>>>Traffic volume measurement 
reporting criteria 


Traffic volume measurement reporting criteria
10.3.7.72


>>>>>Periodical reporting


Periodical reporting criteria
10.3.7.53


>>>>>No reporting


NULL


>>>Quality





>>>>Quality measurement quantity
OP

Quality measurement quantity 10.3.7.59


>>>>CHOICE report criteria
MP




>>>>>Quality measurement 
reporting criteria 


Quality measurement reporting criteria
10.3.7.58


>>>>>Periodical reporting


Periodical reporting criteria
10.3.7.53


>>>>>No reporting


NULL


>>>UE internal





>>>>UE internal measurement
quantity 
OP

UE internal measurement quantity
10.3.7.79


>>>>UE internal reporting quantity 
OP

UE internal reporting quantity
10.3.7.82


>>>>CHOICE report criteria
MP




>>>>>UE internal measurement 
reporting criteria 


UE internal measurement reporting criteria
10.3.7.80


>>>>>Periodical reporting


Periodical reporting criteria
10.3.7.53


>>>>>No reporting


NULL


>>>UE positioning





>>>>LCS reporting quantity
OP

LCS reporting quantity 10.3.7.111


>>>>CHOICE report criteria
MP




>>>>>LCS reporting criteria


LCS reporting criteria 10.3.7.110


>>>>>Periodical reporting 


Periodical reporting criteria 10.3.7.53


>>>>>No reporting





Radio Bearer Information Elements





>Predefined configuration status information
OP

Predefined configuration status information 10.3.4.5a


>Signalling RB information list
MP
1 to <maxSRBsetup>

For each signalling radio bearer

>>Signalling RB information
MP

Signalling RB information to setup 10.3.4.24


>RAB information list
OP
1 to <maxRABsetup>

Information for each RAB

>>RAB information
MP

RAB information to setup
10.3.4.10


>PDCP ROHC target mode
OP

PDCP ROHC target mode 10.3.4.2a

REL-8
Transport Channel Information Elements





Uplink transport channels





>UL Transport channel information common for all transport channels
OP

UL Transport channel information common for all transport channels
10.3.5.24


>UL transport channel information list
OP
1 to <MaxTrCH>



>>UL transport channel information
MP

Added or reconfigured UL TrCH information
10.3.5.2


Downlink transport channels





>DL Transport channel information common for all transport channels
OP

DL Transport channel information common for all transport channels 
10.3.5.6


>DL transport channel information list
OP
1 to <MaxTrCH>



>>DL transport channel information
MP

Added or reconfigured DL TrCH information
10.3.5.1


PhyCH information elements





>TPC Combination Info list
OP
1 to <maxRL>



>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60


>>TPC combination index
MP

TPC combination index 10.3.6.85


>TPC Combination Info list on secondary UL frequency
OP
1 to < maxEDCHRL>


REL-9
>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-9
>>TPC combination index
MP

TPC combination index 10.3.6.85

REL-9
>E-RGCH Combination Info list
OP
1 to <maxEDCHRL>


REL-8
>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-8
>>RG combination index
MP

Integer (0..5)

REL-8
>E-RGCH Combination Info list on secondary UL frequency
OP
1 to <maxEDCHRL>


REL-9
>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-9
>>RG combination index
MP

Integer (0..5)

REL-9
>Transmission gap pattern sequence
OP
1 to <maxTGPS>


REL-5
>>TGPSI
MP

TGPSI 10.3.6.82

REL-5
>> Current TGPS Status Flag
MP

Enumerated(active, inactive)
This flag indicates the current status of the Transmission Gap Pattern Sequence, whether it is active or inactive
REL-5
>>TGCFN
CV-Active

Integer (0..255)
Connection Frame Number of the latest past frame of the first pattern within the Transmission Gap Pattern Sequence.
REL-5
>>Transmission gap pattern sequence configuration parameters
OP



REL-5
>>>TGMP
MP

Enumerated(TDD measurement, FDD measurement, GSM carrier RSSI measurement, GSM Initial BSIC identification, GSM BSIC re-confirmation, Multi-carrier measurement,
Transmission Gap pattern sequence Measurement Purpose.
REL-5



E-UTRA measurements)

REL-8
>>>TGPRC
MP

Integer (1..511, Infinity)
The number of remaining transmission gap patterns within the Transmission Gap Pattern Sequence.
REL-5
>>>TGSN
MP

Integer (0..14)
Transmission Gap Starting Slot Number
The slot number of the first transmission gap slot within the TGCFN.
REL-5
>>>TGL1
MP

Integer(1..14)
The length of the first Transmission Gap within the transmission gap pattern expressed in number of slots
REL-5
>>>TGL2
MD

Integer (1..14)
The length of the second Transmission Gap within the transmission gap pattern. If omitted, then TGL2=TGL1.
The value of TGL2 shall be ignored if TGD is set to ”undefined”
REL-5
>>>TGD
MP

Integer(15..269, undefined)
Transmission gap distance indicates the number of slots between starting slots of two consecutive transmission gaps within a transmission gap pattern. If there is only one transmission gap in the transmission gap pattern, this parameter shall be set to undefined.

REL-5
>>>TGPL1
MP

Integer (1..144)
The duration of transmission gap pattern 1.
REL-5
>>>RPP
MP

Enumerated (mode 0, mode 1).
Recovery Period Power control mode during the frame after the transmission gap within the compressed frame. Indicates whether normal PC mode or compressed PC mode is applied
REL-5
>>>ITP
MP

Enumerated (mode 0, mode 1).
Initial Transmit Power is the uplink power control method to be used to compute the initial transmit power after the compressed mode gap.
REL-5
>>>CHOICE UL/DL mode
MP



REL-5
>>>>DL only



Compressed mode used in DL only
REL-5
>>>>>Downlink compressed mode method
MP

Enumerated (SF/2, higher layer scheduling)
Method for generating downlink compressed mode gap

REL-5
>>>>UL only



Compressed mode used in UL only
REL-5
>>>>>Uplink compressed mode method
MP

Enumerated (SF/2, higher layer scheduling)
Method for generating uplink compressed mode gap
REL-5
>>>>UL and DL 



Compressed mode used in UL and DL
REL-5
>>>>>Downlink compressed mode method
MP

Enumerated (SF/2, higher layer scheduling)
Method for generating downlink compressed mode gap

REL-5
>>>>>Uplink compressed mode method
MP

Enumerated (SF/2, higher layer scheduling)
Method for generating uplink compressed mode gap
REL-5
>>>Downlink frame type
MP

Enumerated (A, B)

REL-5
>>>DeltaSIR1
MP

Real(0..3 by step of 0.1)
Delta in DL SIR target value to be set in the UE during the frame containing the start of the first transmission gap in the transmission gap pattern (without including the effect of the bit-rate increase)
REL-5
>>>DeltaSIRafter1
MP

Real(0..3 by step of 0.1)
Delta in DL SIR target value to be set in the UE one frame after the frame containing the start of the first transmission gap in the transmission gap pattern. 
REL-5
>>>DeltaSIR2
OP

Real(0..3 by step of 0.1)
Delta in DL SIR target value to be set in the UE during the frame containing the start of the second transmission gap in the transmission gap pattern (without including the effect of the bit-rate increase)
When omitted, DeltaSIR2 = DeltaSIR1.
REL-5
>>>DeltaSIRafter2
OP

Real(0..3 by step of 0.1)
Delta in DL SIR target value to be set in the UE one frame after the frame containing the start of the second transmission gap in the transmission gap pattern.
When omitted, DeltaSIRafter2 = DeltaSIRafter1.
REL-5
>>>N Identify abort
CV-Initial BSIC

Integer(1..128)
Indicates the maximum number of repeats of patterns that the UE shall use to attempt to decode the unknown BSIC of the GSM cell in the initial BSIC identification procedure
REL-5
>>>T Reconfirm abort
CV-Re-confirm BSIC

Real(0.5..10.0 by step of 0.5)
Indicates the maximum time allowed for the re-confirmation of the BSIC of one GSM cell in the BSIC re-confirmation procedure. The time is given in steps of 0.5 seconds.
REL-5
>Scrambling Code Change List
CH-SF/2
1 to <maxRL>


REL-5
>>Primary CPICH info
MP

Primary CPICH info 10.3.6.60

REL-5
>>Scrambling code change 
MP

Enumerated (code change, no code change)
Indicates whether the alternative scrambling code is used for compressed mode method 'SF/2'. 
REL-5
>Serving HS-DSCH cell information
OP

Serving HS-DSCH cell information
10.3.6.74a

REL-12
>DTX-DRX Information
OP

DTX-DRX Information
10.3.6.34a

REL-12
>Uplink secondary cell info FDD
OP

Uplink secondary cell info FDD
10.3.6.115

REL-12
>DCH Enhancements info FDD
OP

DCH Enhancements info FDD 10.3.6.149

REL-12
>Downlink information common for all radio links
OP

Downlink information common for all radio links 10.3.6.24

REL-12
>Downlink information per radio link list
OP
1 to <maxRL>

Send downlink information for each radio link to be set-up
REL-12
>>Downlink information for each radio link
MP

Downlink information for each radio link 10.3.6.27

REL-12
Other Information elements





>Measurement report
OP

MEASUREMENT REPORT 10.2.19
The source RNC should include the Measurement report the UE sent that triggered the SRNS relocation.
This information could e.g. be used by the target RNC to set initial power when establishing a DCH.

>Failure cause
OP

Failure cause 10.3.3.13
Diagnostics information related to an earlier SRNC Relocation request (see NOTE 2 in 14.12.0a)

>Protocol error information
CV-ProtErr

Protocol error information 10.3.8.12


UE history information 
OP

UE history information 10.3.8.23

REL-8
MBMS information elements





MBMS joined information
OP


Included if the UE has joined one or more MBMS services
REL-6
>P-TMSI
OP

P-TMSI (GSM-MAP) 10.3.1.13
In case the UE is in PMM-Idle
REL-6
MBMS Selected Service Info
OP

MBMS Selected Services Info 10.3.9a.7b

REL-6

Multi Bound
Explanation
MaxNoOfMeas
Maximum number of active measurements, upper limit 16

Condition
Explanation
Setup
The IE is mandatory present when the IE Measurement command has the value "Setup", otherwise the IE is not needed.
Ciphering
The IE is mandatory present when the IE Ciphering Status has the value "started" and the ciphering counters need not be reinitialised, otherwise the IE is not needed.
IP
The IE is mandatory present when the IE Integrity protection status has the value "started" and the integrity protection counters need not be reinitialised, otherwise the IE is not needed.
ProtErr
This IE is mandatory present if the IE "Protocol error indicator" is included and has the value TRUE. Otherwise it is not needed.
SRB1
The IE is mandatory present for RB1. Otherwise it is not needed.
Active
This IE is mandatory present when the value of the IE "Current TGPS Status Flag" is "Active" and not needed otherwise.
Initial BSIC
This IE is mandatory present when the value of the IE "TGMP" is set to "GSM Initial BSIC identification" and not needed otherwise.
Re-confirm BSIC
This IE is mandatory present when the value of the IE "TGMP" is set to "GSM BSIC re-confirmation" and not needed otherwise.
SF/2
The IE is mandatory present if the IE “Transmission Gap Pattern Sequence” is included and has the value “SF/2” as the compressed mode method, and already sent the UE the IE “Scrambling Code Change” for each RL in the active set. Otherwise the IE is not needed.

14.12.4.3	Void

14.12.4.4	RFC 3095 CONTEXT INFO
This RRC message is sent between network nodes in SRNS relocation. It is used to transfer the compressor and decompressor context information of the ROHC protocol.
Direction: source RNC target RNC
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
RFC 3095 context
MP
1 to <maxRBallRABs>


REL-5
>RB identity
MP

RB identity 10.3.4.16

REL-5
>RFC 3095 context list
MP
1 to <maxRFC3095-CID>


REL-5
>>Downlink RFC 3095 context
OP



REL-5
>>>Downlink RFC 3095 context identity
MP

Integer (0..16383)

REL-5
>>>DL_MODE
MP

Enumerated (u, o, r)
ROHC mode in downlink before SRNS relocation.
REL-5
>>>REF_IR
MP

Octet string (1..3000)

The RTP IR header (see section 5.7.7 of RFC3095 for detailed format) corresponding to the oldest header in the compressor sliding window.
REL-5
>>>REF_TIME
OP

Integer (0..4294967295)
Arrival time (at the compressor) of REF_IR in milliseconds.
See sections 4.5.4 and 6.5.1 of RFC3095.
REL-5
>>>CURR_TIME
OP

Integer (0..4294967295)
Current time in milliseconds.
See section 6.5.1 of RFC3095. 
REL-5
>>>SYN_OFFSET_ID
OP

Integer
(0..65535)
Last synchronized offset of IP-ID.
See section 4.5.5 and 6.5.1 of RFC3095 (termed  "Offset_I").

It is related to the compression and decompression of IP-ID and is the synchronized offset between the IP-ID value and the SN value (in the same header) during the last SO state before the relocation procedure.
REL-5
>>>SYN_SLOPE_TS
OP

Integer
(0..4294967295)
Last synchronized slope of TS.
See sections 5.5.1.2 and 5.7 of RFC3095. 

In SO state, TS(n) = TS(m) + (n-m) * SYN_SLOPE_TS, where n and m are, the RTP SN of the current and the reference packet, respectively. The unit of SYN_SLOPE_TS depends on whether TS is scaled before compression or not.
REL-5
>>>DYN_CHANGED
MP

Boolean
Information whether dynamic fields other than RTP SN, RTP TS and IP-ID have changed in the headers that are stored in the sliding window.
Set to TRUE if changed and FALSE if not changed.
REL-5
>>Uplink RFC 3095 context
OP



REL-5
>>>Uplink RFC 3095 context identity
MP

Integer (0..16383)

REL-5
>>>UL_MODE
MP

Enumerated (u, o, r)
ROHC mode in uplink
REL-5
>>>REF_IR
MP

Octet string (1..3000)
The RTP IR header (see section 5.7.7 of IETF RFC3095 for detailed format) corresponding to the last correctly decompressed header.
REL-5
>>>REF_TIME
OP

Integer (0..4294967295)
Arrival time (at the decompressor) of REF_IR in milliseconds. 
See sectionss 4.5.4 and 6.5.1 of RFC3095.
REL-5
>>>CURR_TIME
OP

Integer (0..4294967295)
Current time in milliseconds. See section 6.5.1 of RFC3095.
REL-5
>>>SYN_OFFSET_ID
OP

Integer
(0..65535)
Last synchronized offset of IP-ID.
See sectionss 4.5.5 and 6.5.1 of RFC3095 (termed"Offset_I").

It is related to the compression and decompression of IP-ID and is the synchronized offset between the IP-ID value and the SN value (in the same header) during the last SO state before the relocation procedure.
REL-5
>>>SYN_SLOPE_TS
OP

Integer
(0..4294967295)
Last synchronized slope of TS.
See sectionss 5.5.1.2 and 5.7 of RFC3095.

In SO state, TS(n) = TS(m) + (n-m) * SYN_SLOPE_TS, where n and m are, the RTP SN of the current and the reference packet, respectively. The unit of SYN_SLOPE_TS depends on whether TS is scaled before compression or not.
REL-5
>>>REF_SN_1
OP

Integer (0..65535)
Corresponds to the RTP Sequence Number of the predecessor of the latest RTP packet. This could be used to perform local repair of context by decompressor in U or O mode (see “ref - 1” in section5.3.2.2.5 in IETF RFC3095 for further explanation).
REL-5

14.13	Void

14.14	Void

14.15	E-UTRA measurement for CELL_FACH (FDD only)
The measurement is performed only when the UE is in CELL_FACH state. The UE shall, taking advantage of non-transmission gaps, perform E-UTRA RSRP or RSRQ measurements and reporting according to the configuration received in the MEASUREMENT CONTROL message.
14.15.1	E-UTRA measurement for CELL_FACH measurement quantities (FDD only)
A measurement quantity is used by the UE to evaluate whether an E-UTRA measurement for CELL_FACH event has occurred or not.
The measurement quantity for E-UTRA measurement for CELL_FACH can be:
1	E-UTRA RSRP
2	E-UTRA RSRQ
A description of those values can be found in [7] and [8].
14.15.2	E-UTRA measurement for CELL_FACH reporting (FDD only)
For cells whose carrier frequency matches any of the EARFCNs in the list of E-UTRA frequencies that the UE has stored in the variable "EUTRA_FREQUENCY_INFO_LIST_FACH", and for which the Physical Cell Identity is not included in the blacklist for that frequency, the UE shall:
1>	for event-triggered reporting, trigger one measurement report if the measured quality of any cell on a configured E-UTRA frequency exceeds the threshold specified by the IE "Reporting Threshold":
2>	for those E-UTRA frequencies where at least one cell exceeds the threshold, set the corresponding bit of the IE "E-UTRA frequency indicator" to 1 in the IE "E-UTRA results for CELL_FACH".
1>	for periodical reporting, trigger one periodical report when valid measurements are available:
2>	for those E-UTRA frequencies whose at least one cell exceeds the threshold, set the corresponding bit of the IE " E-UTRA frequency indicator" to 1 in the IE "E-UTRA results for CELL_FACH".
After the UE has sent the MEASUREMENT REPORT message, the UE shall:
1>	stop the measurement associated with the identity given in the IE "measurement identity".
Annex A (informative):
USIM parameters
A.1	Introduction
This annex contains recommendations about the RRC parameters to be stored in the USIM.
A.2	Ciphering information
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Cipher key for each CN domain
MP
<1 to maxCNDomains>

Cipher key is described in [40].
>CK
MP

Bit string (128)

Integrity key for each CN domain
MP
<1 to maxCNDomains>

Integrity key is described in [40].
>IK
MP

Bit string (128)

THRESHOLD
MP

Bit string (20)

START value for each CN domain
MP
<1 to maxCNDomains>

START value is described in [40].
>START
MP

Bit string (20)

KSI, Key set identifier for each CN domain
MP
<1 to maxCNDomains>

Key set identifier is described in [40].
>KSI
MP

Bit string (3)


A.3	Frequency information
Neighbour cell list.
Information Element/Group name
Need
Multi
Type and reference
Semantics description
Version
FDD cell list
OP
<1 to maxFDDFreqList>



>UARFCN downlink (Nd)
MP

Integer(0 .. 16383)
[21]

>Primary scrambling code
OP
<1 to maxFDDFreqCellList>
Primary CPICH info
10.3.6.60


3.84 Mcps TDD cell list
OP
<1 to maxTDDFreqList>



>UARFCN (Nt)
MP

Integer(0 .. 16383)
[22]

>Cell parameters ID
OP
<1 to maxTDDFreqCellList>
Integer (0..127)
The Cell parameters ID is described in [32].

1.28 Mcps TDD cell list
OP
<1 to maxTDDFreqList>


REL-4
>UARFCN (Nt)
MP

Integer(0 .. 16383)
[22] 
REL-4
>Cell parameters ID
OP
<1 to maxTDDFreqCellList>
Integer (0..127)
The Cell parameters ID is described in [32].
REL-4
GSM Neighbour cell list
OP




>GSM neighbour cell info
MP
<1 to maxGSMCellList>



>>BSIC
MP




>>BCCH ARFCN
MP





A.4	Multiplicity values and type constraint values
Constant
Explanation
Value
Ciphering information


maxCNDomains
Maximum number of CN domains
4
Frequency information


maxFDDFreqList
Maximum number of FDD carrier frequencies to be stored in USIM
4 
maxTDDFreqList
Maximum number of TDD carrier frequencies to be stored in USIM
4
maxFDDFreqCellList
Maximum number of neighbouring FDD cells on one carrier to be stored in USIM
32
maxTDDFreqCellList
Maximum number of neighbouring TDD cells on one carrier to be stored in USIM
32
maxGSMCellList
Maximum number of GSM cells to be stored in USIM
32

Annex B (informative):
Description of RRC state transitions including GSM and E-UTRA
This annex contains Stage 2 description of RRC states and state transitions.
B.1	RRC states and state transitions
After power on, the UE stays in Idle Mode until it transmits a request to establish an RRC Connection. In Idle Mode the connection of the UE is closed on all layers of the access stratum. In Idle Mode the UE is identified by non-access stratum identities such as IMSI, TMSI and P-TMSI. In addition, the UTRAN has no own information about the individual Idle Mode UEs, and it can only address e.g. all UEs in a cell or all UEs monitoring a paging occasion. The UE behaviour within this mode is described in [4].
The UTRA RRC Connected Mode is entered when the RRC Connection is established. The UE is assigned a radio network temporary identity (RNTI) to be used as UE identity on common transport channels.
The RRC states within UTRA RRC Connected Mode reflect the level of UE connection and which transport channels that can be used by the UE.
For inactive stationary data users the UE may fall back to PCH on both the Cell and URA levels. That is, upon the need for paging, the UTRAN checks the current level of connection of the given UE, and decides whether the paging message is sent within the URA, or should it be sent via a specific cell.
B.2	Transition from Idle Mode to UTRA RRC Connected Mode
The transition to the UTRA RRC Connected Mode from the Idle Mode can only be initiated by the UE by transmitting a request for an RRC Connection. The event is triggered either by a paging request from the network or by a request from upper layers in the UE.
When the UE receives a message from the network that confirms the RRC connection establishment, the UE enters the CELL_FACH or CELL_DCH state of UTRA RRC Connected Mode.
In the case of a failure to establish the RRC Connection the UE goes back to Idle Mode. Possible causes are radio link failure, a received reject response from the network or lack of response from the network (timeout).
B.2.1	Transitions for Emergency Calls
Refer to [4] for all states and procedures referred to in this subclause. When UE leaves idle mode from state Camped on any cell in order to make an emergency call, moving to state Connected mode (emergency calls only), the UE shall attempt to access the current serving cell. If the access attempt to the serving cell fails the UE shall use the Cell Reselection procedure. If no acceptable cell is found, the UE shall use the Any cell selection. When returning to idle mode, the UE shall use the procedure Cell selection when leaving connected mode in order to find an acceptable cell to camp on, state Camped on any cell.
B.3	UTRA RRC Connected Mode States and Transitions
B.3.1	CELL_DCH state
The CELL_DCH state is characterised by
-	For TDD: A dedicated physical channel is allocated to the UE in uplink and downlink or a dedicated physical channel is allocated to the UE in the uplink and HS_DSCH_RECEPTION is set to TRUE.
-	A dedicated physical channel is allocated to the UE in uplink and downlink. 
-	For TDD:
-	E_DCH_TRANSMISSION is set to TRUE and HS_DSCH_RECEPTION is set to TRUE.
-	E_DCH_TRANSMISSION is set to TRUE and a dedicated physical channel is allocated to the UE in the downlink.
-	The UE is known on cell level according to its current active set.
-	Dedicated transport channels, downlink and uplink (TDD) shared transport channels, and a combination of these transport channels can be used by the UE.
The CELL_DCH-state is entered from the Idle Mode through the setup of an RRC connection, or by establishing a dedicated physical channel from the CELL_FACH state.
In TDD a PDSCH may be assigned to the UE in this state, to be used for a DSCH. A PUSCH may also be assigned to the UE in this state, to be used for a USCH. If PDSCH or PUSCH are used for TDD, a FACH transport channel may be assigned to the UE for reception of physical shared channel allocation messages.
B.3.1.1	Transition from CELL_DCH to Idle Mode
Transition to Idle Mode is realised through the release of the RRC connection.
B.3.1.2	Transition from CELL_DCH to CELL_FACH state
Transition to CELL_FACH state occurs when all dedicated channels have been released, which may be
a)	via explicit signalling (e.g. PHYSICAL CHANNEL RECONFIGURATION, Radio Bearer Reconfiguration, Radio Bearer Release, Radio Bearer Setup, Transport Channel Reconfiguration, etc.).
at the end of the time period for which the dedicated channel was allocated (TDD)
B.3.1.3	Transition from CELL_DCH to CELL_PCH state
Transition to CELL_PCH state occurs via explicit signalling (e.g. PHYSICAL CHANNEL RECONFIGURATION, Radio Bearer Reconfiguration, Radio Bearer Release, Radio Bearer Setup, Transport Channel Reconfiguration, etc.).
B.3.1.4	Transition from CELL_DCH to URA_PCH state
Transition to URA_PCH state occurs via explicit signalling (e.g. PHYSICAL CHANNEL RECONFIGURATION, Radio Bearer Reconfiguration, Radio Bearer Release, Radio Bearer Setup, Transport Channel Reconfiguration, etc.).
B.3.1.5	Radio Resource Allocation tasks (CELL_DCH)
For the DCH, several physical channel allocation strategies may be applied. The allocations can be either permanent (needing a DCH release message) or based on time or amount-of-data.
Resource allocation can be done separately for each packet burst with fast signalling on the DCH
For each radio frame the UE and the network indicate the current data rate (in uplink and downlink respectively) using the transport format combination indicator (TFCI). However, in TDD, DCH and DSCH or USCH may be mapped on different CCTrCHs, their TFCI are totally independent. DCH transmission is not modified by the simultaneous existence of DSCH/USCH. If the configured set of combinations (i.e. transport format set for one transport channel) are found to be insufficient to retain the QoS requirements for a transport channel, the network initiates a reconfiguration of the transport format set (TFS) for that transport channel. This reconfiguration can be done during or in between data transmission. Further, the network can reconfigure the physical channel allowing an increase or decrease of the peak data rate.
For the uplink data transmission, the UE reports the observed traffic volume to the network in order for the network to re-evaluate the current allocation of resources. This report contains e.g. the amount of data to be transmitted or the buffer status in the UE.
B.3.1.6	RRC Connection mobility tasks (CELL_DCH)
Depending on the amount and frequency of data macrodiversity (soft handover) may or may not be applied.
The RRC Connection mobility is handled by measurement reporting, soft handover and Timing re-initialised or Timing-maintained hard handover procedures.
B.3.1.7	UE Measurements (CELL_DCH)
The UE performs measurements and transmit measurement reports according to the measurement control information.
The UE uses the connected mode measurement control information received in other states until new measurement control information has been assigned to the UE.
B.3.1.8	Acquisition of system information (CELL_DCH)
TDD UEs reads the BCH to acquire valid system information. For each acquisition, the UE may need different combinations of system information broadcast on BCH. The scheduling on the broadcast channel is done in such way that the UE knows when the requested information can be found.
B.3.2	CELL_FACH state
The CELL_FACH state is characterised by:
-	No dedicated physical channel is allocated to the UE.
-	The UE continuously monitors in the downlink:
-	In 3.84 Mcps TDD and 7.68 Mcps TDD mode:
-	a FACH.
-	In FDD and 1.28 Mcps TDD mode:
-	a FACH; or
-	an HS-DSCHs and optionally a FACH for MBMS reception.
-	The UE is assigned a default common or shared transport channel in the uplink (e.g. RACH or common E-DCH (FDD and 1.28 Mcps TDD only)) that it can use anytime according to the access procedure for that transport channel.
-	The position of the UE is known by UTRAN on cell level according to the cell where the UE last made a cell update.
-	In TDD mode, one or several USCH or DSCH transport channels may have been established.
B.3.2.1	Transition from CELL_FACH to CELL_DCH state
A transition occurs, when a dedicated physical channel is established via explicit signalling (e.g. PHYSICAL CHANNEL RECONFIGURATION, Radio Bearer Reconfiguration, Radio Bearer Release, Radio Bearer Setup, Transport Channel Reconfiguration, etc.).
B.3.2.2	Transition from CELL_FACH to CELL_PCH state
The transition occurs when UTRAN orders the UE to move to CELL_PCH state, which is done via explicit signalling (e.g. CELL UPDATE CONFIRM, RADIO BEARER RECONFIGURATION, etc.).
B.3.2.3	Transition from CELL_FACH to Idle Mode
Upon release of the RRC connection, the UE moves to the idle mode.
B.3.2.4	Transition from CELL_FACH to URA_PCH State
The transition occurs when UTRAN orders the UE to move to URA _PCH state, which is done via explicit signalling (e.g. URA UPDATE CONFIRM, RADIO BEARER RECONFIGURATION, etc.).
B.3.2.5	Radio Resource Allocation Tasks (CELL_FACH)
For 3.84 Mcps TDD and 7.68 Mcps TDD, in the CELL_ FACH state the UE will monitor a FACH.
For FDD in the CELL_FACH state the UE will monitor a FACH, if the UE does not support HS-DSCH reception in CELL_FACH state or IE "HS-DSCH common system information" is not included in the system information. Otherwise the UE will monitor the common HS-DSCH(s), and FACH monitoring is restricted to MBMS reception.
For 1.28 Mcps TDD in the CELL_FACH state the UE will monitor a FACH, if the UE does not support HS-DSCH reception or IE "HS-DSCH common system information" and IE "Common E-DCH system info" are not included in the system information. Otherwise the UE will monitor the common HS-DSCH(s), and FACH monitoring is restricted to MBMS reception.
For 3.84 Mcps TDD and 7.68 Mcps TDD, the UE is enabled to transmit uplink control signals and it may be able to transmit small data packets on the RACH.
For FDD and 1.28 Mcps TDD, the UE is enabled to transmit uplink control signals and it may be able to transmit small data packets on the RACH, if the UE does not support Enhanced Uplink in CELL_FACH state and Idle mode, and if IE "HS-DSCH common system information" and IE "Common E-DCH system info" are not included in the system information. Otherwise the UE enabled to transmit uplink control signals and it may be able to transmit data packets on common E-DCH.
The network can assign the UE transport channel parameters (e.g. transport format sets) in advance, to be used when a DCH is used. Upon assignment of the physical channel for DCH, the UE moves to CELL_DCH state and uses the pre-assigned TFS for the DCH.
If no UE dedicated physical channel or transport channel configuration has been assigned, the UE uses the common physical channel and transport channel configuration according to the system information.
For the uplink data transmission, the UE reports the observed traffic volume to the network in order for the network to re-evaluate the current allocation of resources. This report contains e.g. the amount of data to be transmitted or the buffer status in the UE.
When there is either user or control data to transmit, a selection procedure determines whether the data should be transmitted on a common transport channel, or if a transition to CELL_DCH should be executed. The selection is dynamic and depends on e.g. traffic parameters (amount of data, packet burst frequency).
In the TDD mode, the UTRAN can assign USCH / DSCH resources to the UE in CELL_FACH state. When USCH / DSCH resources are assigned, the UE will continue to monitor FACHs, depending on the UE capability. The UE may use the USCH / DSCH to transmit signalling messages or user data in the uplink and / or the downlink using USCH and / or DSCH when resources are allocated to cell and UE is assigned use of those USCH / DSCH.
For the uplink data transmission on USCH the UE reports to the network the traffic volume (current size of RLC data buffers), The UTRAN can use these measurement reports to re-evaluate the current allocation of the USCH / DSCH resources.
B.3.2.6	RRC Connection mobility tasks (CELL_FACH)
In this state the location of the UE is known on cell level. A cell update procedure is used to report to the UTRAN, when the UE selects a new cell to observe the common downlink channels of a new cell. Downlink data transmission on the FACH or HS-DSCH (FDD and 1.28 Mcps TDD only) can be started without prior paging.
The UE monitors the broadcast channel and system information on BCCH of its own and neighbour cells and from this the need for the updating of cell location is identified.
The UE performs cell reselection and upon selecting a new UTRA cell, it initiates a cell update procedure. Upon selecting a new cell belonging to another radio access system than UTRA, the UE enters idle mode and makes an access to that system according to its specifications.
B.3.2.7	UE Measurements (CELL_FACH)
The UE performs measurements and transmit measurement reports according to the measurement control information.
By default, the UE uses the measurement control information broadcast within the system information. However, for measurements for which the network also provides measurement control information within a measurement control message, the latter information takes precedence.
B.3.2.8	Transfer and update of system information (CELL_FACH)
The UE reads the BCH to acquire valid system information. For each acquisition, the UE may need different combinations of system information broadcast on BCH. The scheduling on the broadcast channel is done in such way that the UE knows when the requested information can be found.
When the system information is modified, the scheduling information is updated to reflect the changes in system information transmitted on BCH. The new scheduling information is broadcast on FACH and/or on the common HS-DSCH(s) (FDD and 1.28 Mcps TDD only) in order to inform UEs about the changes. If the changes are applicable for the UE, the modified system information is read on BCH.
B.3.3	CELL_PCH state
The CELL_PCH state is characterised by:
-	For FDD, if "HS-DSCH paging system information" is not included in System Information or the UE does not support HS-DSCH reception in CELL_PCH and URA_PCH state, and for TDD, no dedicated physical channel is allocated to the UE.
	For FDD, if "HS-DSCH paging system information" is included in System Information and the UE does support HS-DSCH reception in CELL_PCH and URA_PCH state, dedicated physical channel may be allocated to the UE.
-	For FDD, if "HS-DSCH paging system information" is not included in System Information or the UE does not support HS-DSCH reception in CELL_PCH and URA_PCH state, and for TDD, the UE selects a PCH with the algorithm specified in subclause 8.5.19, and uses DRX for monitoring the selected PCH via an associated PICH.
-	For FDD and 1.28 Mcps TDD, if "HS-DSCH paging system information" is included in System Information and the UE supports HS-DSCH reception in CELL_PCH and URA_PCH state, the UE selects a HS-DSCH mapped on the HS-PDSCH with algorithms specified in 8.5.41, 8.5.39 and 8.5.40 for FDD and 8.5.40a for 1.28 Mcps TDD, and uses DRX for monitoring the selected HS-DSCH via an associated PICH.
-	No uplink activity is possible.
-	The position of the UE is known by UTRAN on cell level according to the cell where the UE last made a cell update in CELL_FACH state.
The DCCH and DTCH logical channels can only be used in this state if HS-DSCH is used and a dedicated H-RNTI is configured and for 1.28 Mcps TDD a dedicated E-RNTI is configured. Otherwise, if the network wants to initiate any activity, it needs to make a paging request on the PCCH logical channel in the known cell to initiate any downlink activity.
B.3.3.1	Transition from CELL_PCH to CELL_FACH state
The UE is transferred to CELL_FACH state:
a)	by paging from UTRAN (PAGING TYPE1 message)
b)	through any uplink access
B.3.3.2	Radio Resource Allocation Tasks (CELL_PCH)
In CELL_PCH state no resources have been granted for data transmission. For this purpose, a transition to another state has to be executed.
The UE may use Discontinuous Reception (DRX) in order to reduce power consumption. When DRX is used the UE needs only to receive at one paging occasion per DRX cycle. The UE may be instructed to use specific DRX cycle lengths by the network. The UE determines its paging occasions in the same way as for Idle Mode, see [4].
B.3.3.3	RRC Connection mobility tasks (CELL_PCH)
In the CELL_PCH state, the UE mobility is performed through cell reselection procedures, which may differ from the one defined in [4].
The UE performs cell reselection and upon selecting a new UTRA cell, it moves to CELL_FACH state and initiates a cell update procedure in the new cell. After the cell update procedure has been performed, the UE changes its state back to CELL_PCH state if neither the UE nor the network has any more data to transmit.
Upon selecting a new cell belonging to another radio access system than UTRA, the UE enters idle mode and make an access to that system according to its specifications.
In case of low UE activity, UTRAN may want to reduce the cell-updating overhead by ordering the UE to move to the URA_PCH State. This transition is made via the CELL_FACH state. UTRAN may apply an inactivity timer, and optionally, a counter, which counts the number of cell updates e.g. UTRAN orders the UE to move to URA_PCH when the number of cell updates has exceeded certain limits (network parameter).
B.3.3.4	UE Measurements (CELL_PCH)
The UE performs measurements and transmit measurement reports according to the measurement control information.
The UE uses the measurement control information according to the system information when no UE dedicated measurement control information has been assigned.
B.3.3.5	Transfer and update of system information (CELL_PCH)
The UE reads the BCH to acquire valid system information. For each acquisition, the UE may need different combinations of system information broadcast on BCH. The scheduling on the broadcast channel is done in such way that the UE knows when the requested information can be found.
B.3.4	URA_PCH State
The URA_PCH state is characterised by:
-	No dedicated channel is allocated to the UE.
-	For FDD and 1.28 Mcps TDD, if "HS-DSCH paging system information" is not included in System Information or the UE does not support HS-DSCH reception in CELL_PCH and URA_PCH state, and for TDD, the UE selects a PCH with the algorithm specified in subclause 8.5.19, and uses DRX for monitoring the selected PCH via an associated PICH.
-	For FDD and 1.28 Mcps TDD, if "HS-DSCH paging system information" is included in System Information and the UE supports HS-DSCH reception in CELL_PCH and URA_PCH state, the UE selects a HS-DSCH mapped on the HS-PDSCH with algorithms specified in 8.5.41, 8.5.39 and 8.5.40 for FDD and 8.5.40a for 1.28 Mcps TDD, and uses DRX for monitoring the selected HS-DSCH via an associated PICH.
-	No uplink activity is possible.
-	The location of the UE is known on UTRAN Registration area level according to the URA assigned to the UE during the last URA update in CELL_FACH state.
The DCCH logical channel cannot be used in this state. If the network wants to initiate any activity, it needs to make a paging request on the PCCH logical channel within the URA where the location of the UE is known. If the UE needs to transmit anything to the network, it goes to the CELL_FACH state. The transition to URA_PCH State can be controlled with an inactivity timer, and optionally, with a counter that counts the number of cell updates. When the number of cell updates has exceeded certain limits (a network parameter), then the UE changes to the URA_PCH State.
URA updating is initiated by the UE, which, upon the detection of the Registration area, sends the network the Registration area update information on the RACH of the new cell.
B.3.4.1	Transition from URA_PCH State to CELL_FACH State (URA_PCH)
Any activity causes the UE to be transferred to CELL_ FACH State.
a)	Uplink access is performed by RACH or common E-DCH.
b)	by paging from UTRAN ( PAGING TYPE1 message ).
NOTE:	The release of an RRC connection is possible in the URA_PCH state. UE in URA_PCH is able to go to idle when triggered by paging type 1 message in case ''Release indicator'' has the value ''Release''.
B.3.4.2	Radio Resource Allocation Tasks (URA_PCH)
In URA_PCH State no resources have been granted for data transmission. For this purpose, a transition to CELL_FACH State has to be executed.
The UE may use Discontinuous Reception (DRX) in order to reduce power consumption. When DRX is used the UE needs only to receive at one paging occasion per DRX cycle. The UE may be instructed to use specific DRX cycle lengths by the network. The UE determines its paging occasions in the same way as for Idle Mode, see [4].
B.3.4.3	RRC Connection mobility tasks (URA_PCH)
In URA_PCH State the location of a UE is known on UTRAN Registration area level.
In this state, the UE mobility is performed through URA reselection procedures, which may differ from the definitions in [4]. The UE performs cell reselection and upon selecting a new UTRA cell belonging to a URA that does not match the URA used by the UE, the UE moves to CELL_FACH state and initiates a URA update towards the network. After the URA update procedure has been performed, the UE changes its state back to URA_PCH state if neither the UE nor the network has any more data to transmit.
Upon selecting a new cell belonging to another radio access system than UTRA, the UE enters idle mode and makes an access to that system according to its specifications.
B.3.4.4	UE Measurements (URA_PCH)
The UE performs measurements and transmit measurement reports according to the measurement control information.
The UE uses the measurement control information according to the system information when no UE dedicated measurement control information has been assigned.
B.3.4.5	Transfer and update of system information (URA_PCH)
The same mechanisms to transfer and update system information as for state CELL_PCH are applicable for UEs in URA_PCH state.
B.3.5	States and Transitions for Cell Reselection in URA_PCH, CELL_PCH, and CELL_FACH

Figure B.3.5-1: UTRA RRC Connected mode cell reselection for URA_PCH, CELL_PCH, and CELL_FACH
In some states the UE performs cell reselection procedures. The UE selects a suitable cell (defined in [4]) and radio access technology based on connected mode radio measurements and cell reselection criteria.
Figure B.3.5-1 shows the states and procedures in the cell reselection process in connected mode.
When a cell reselection is triggered, the UE evaluates the cell reselection criteria based on radio measurements, and if a better cell is found that cell is selected, procedure Cell reselection (see [4]). If the change of cell implies a change of radio access technology, the RRC connection is released, and the UE enters idle mode of the other RAT. If no suitable cell is found in the cell reselection procedure, the UE eventually enters idle mode.
When an Initial cell reselection is triggered, the UE shall use the Initial cell reselection procedure (see [4]) to find a suitable cell. One example where this procedure is triggered is at radio link failure, where the UE may trigger an initial cell reselection in order to request re-establishment of the RRC connection. If the UE is unable to find a suitable cell, the UE eventually enters idle mode.
B.4	Inter-RAT handover with CS domain services
When using CS domain services, UTRAN is using an Inter-Radio access system Handover Procedure and GSM is using a Handover procedure for the transition from UTRA RRC Connected Mode to GSM Connected Mode.
B.5	Inter-RAT handover with PS domain services
When using PS domain services, the UE can initiate cell reselection from a GSM/GPRS cell to a UTRAN cell and then uses the RRC Connection Establishment procedure for the transition to UTRA RRC Connected mode. It is also possible for the BSS to initiate a UTRA Inter-RAT Handover to seamlessly relocate the UE to UTRAN. In this latter case there is no need to return the UE to Idle Mode (GPRS Packet Idle Mode) and the UE immediately moves to RRC connected state in the UTRAN.
In the case that cell reselection is used, when the RRC Connection is established from Idle Mode (GPRS Packet Idle Mode) the RRC CONNECTION REQUEST message contains an indication, that UTRAN needs to continue an already established GPRS UE context from the CN. This indication allows UTRAN to e.g. prioritise the RRC CONNECTION REQUEST from the UE.
It is possible for a E-UTRA eNodeB to initiate a Inter-RAT Handover to UTRAN to seamlessly relocate the UE to the RRC connected state in UTRAN.
In UTRA RRC connected mode UTRAN may use UE or network initiated cell reselection to change from a UTRAN cell to a GSM/GPRS cell. If the cell reselection was successful the UE enters Idle Mode (GPRS Packet Idle Mode). The UE sends a packet channel request from Idle Mode (GPRS Packet Idle mode) to establish a Temporary Block flow and enter GPRS Packet Transfer Mode. In the GPRS Packet Transfer Mode the UE sends a RA Update request message. The RA Update Request message sent from the UE contains an indication that GSM/GPRS need to continue an already established UTRAN UE context from the CN. This means that the RA Update request is always sent for the transition from UTRA RRC Connected Mode to GSM/GPRS regardless if the RA is changed or not. 
Alternatively, the UTRAN may use an Inter-System Relocation (PS Handover) to relocate a UTRA RRC connected UE directly to GPRS Packet Transfer Mode in GERAN.
NOTE:	The reason for using RA update instead of a new message is to reduce the impact on the existing GSM/GPRS specification.
The UTRAN may use an Inter-RAT Handover to relocate a UTRA RRC connected UE directly to RRC_CONNECTED mode in E-UTRAN.
B.6	Inter-RAT handover with simultaneous PS and CS domain services
B.6.1	Inter-RAT handover UTRAN to GSM / BSS
For a UE in CELL_DCH state using both CS and PS Domain services the Inter-RAT handover procedure is based on measurement reports from the UE but initiated from UTRAN.
The UE performs the Inter-RAT handover from UTRA RRC Connected Mode to GSM Connected Mode first. When the UE has sent handover complete message to GSM / BSS the UE initiates a temporary block flow towards GPRS and sends a RA update request.
If the Inter-RAT handover from UTRA RRC Connected Mode to GSM Connected Mode was successful the handover is considered as successful regardless if the UE was able to establish a temporary block flow or not towards GPRS.
In case of Inter-RAT handover failure the UE has the possibility to go back to UTRA RRC Connected Mode and re-establish the connection in the state it originated from.
B.6.2	Inter-RAT handover GSM / BSS to UTRAN
For a UE in GSM Connected Mode using both CS and PS domain services the Inter-RAT handover procedure is based on measurement reports from the UE but initiated from GSM / BSS.
The UE performs the Inter-RAT handover from GSM Connected Mode to UTRA RRC Connected Mode.
In UTRA RRC Connected Mode both services are established in parallel.
If the Inter-RAT handover from GSM Connected mode to UTRA RRC Connected Mode was successful the handover is considered as successful.
In case of Inter-RAT handover failure the UE has the possibility to go back to GSM Connected Mode and re-establish the connection in the state it originated from.
Annex C (informative):
Description for the Compressed Coding of Pre-defined configurations included in the INTER RAT HANDOVER INFO message
This annex contains a description of the compressed coding of the IE "Predefined configuration status information compressed" (see subclause 10.3.4.5b) included in the INTER RAT HANDOVER INFO message.
C.1	Definitions
Pre-defined configuration set with different value tags: This is a set of consecutive positions for which pre-defined configurations are stored with different value tags. The set cannot include positions for which no pre-defined configuration is stored. 
Pre-defined configuration list with variable size: This is the variable sized list consisting of the value tags corresponding to the remaining positions after the "Pre-defined configuration sets with different value tags" have been formed. This will also indicate not stored pre-defined configurations, either explicitly or implicitly (i.e. in the case that there are no more stored configurations until the end of the variable sized list). This is highlighted in figures C.2-1 and C.2-2. 
C.2	Examples of the methodology
From figure C.2-1 it can be seen that there are two "Pre-defined configuration sets with different value tags".
The start position of Set1 is "1" with a list of 7 pre-defined configurations {1, 2, 3, 4, 5, 6, 7}.
The start position of Set2 is "10" with a list of 6 pre-defined configurations {10, 11, 12, 13, 14, 15}. 
The "Pre-defined configurations list with variable size" has a start position of 0, and includes all of the pre-defined configurations not included in the sets {0, 8, 9}. The value tag at position 9 is not stored. This does not need to be explicitly indicated in the coding as "not stored" because there are no stored pre-defined configurations positioned after this in the list.
Figure C.2-1: Example scenario where non-stored pre-defined configurations do not need to be explicitly indicated

Figure C.2-2 is similar to Figure C.2-1. However in this case for the "Pre-defined configurations list with variable size", the pre-defined configuration in position 8 is not stored. This needs to be explicitly indicated in the coding as "not stored" because there is a stored pre-defined configuration (position 9) positioned after this in the list.
Figure C.2-2: Example scenario where non-stored pre-defined configurations need to be explicitly indicated
Annex D (Normative):
Implementation of Domain Specific Access Control (DSAC) in UEs of 3GPP Release 5
UEs of 3GPP Release 5 implementing the domain specific access class control feature but not implementing the network sharing feature shall act on the domain specific access class restriction indicated by the IE "Domain Specific Access Restriction Parameters For PLMN Of MIB" if present, and otherwise apply the access restrictions indicated by the IE "Cell Access Restriction".
Annex E (Normative):
EUTRA Feature group indicators
This annex contains the definitions of the bits in EUTRA Feature Group Indicators. 
In this release of the specification the UE shall include the optional EUTRA Feature Group Indicators IE in the UE multi-mode/multi RAT capability IE of the RRC message. For a specific indicator, if all functionalities for a feature group listed in Table E.1 have been implemented and tested, the UE shall set the indicator as as "true" (as one), else (i.e., if any one of the functionalities in a feature group listed in Table E.1 have not been implemented or tested), the UE shall set the indicator as "false" (as zero).
The UE shall set all indicators that correspond to RATs not supported by the UE as "false" (as zero).
The UE shall set all indicators, which do not have a definition in Table E.1, as "false" (as zero).
If the optional EUTRA Feature Group Indicators IE is not included by a UE of a future release, the network may assume that all features pertaining to the RATs supported by the UE, listed in Table E.1 and deployed in the network, have been implemented and tested by the UE.
Table E.1: Defintions of feature group indicators
Index of indicator (bit number)
Definition
(description of the supported functionality, if indicator set to ‘true’)
Notes
1 (leftmost bit)
- UTRA CELL_PCH to EUTRA RRC_IDLE cell reselection
- UTRA URA_PCH to EUTRA RRC_IDLE cell reselection
UE supporting E-UTRAN shall set this bit to ‘TRUE’ in this version of specification.
2
EUTRAN measurements and reporting in connected mode
UE supporting E-UTRAN shall set this bit to ‘TRUE’ in this version of specification.
3
- UTRA CELL_FACH absolute priority cell reselection for high priority layers
UE supporting E-UTRAN shall set this bit to ‘TRUE’ in this version of specification.
4
- UTRA CELL_FACH absolute priority cell reselection for all layers
UE supporting E-UTRAN shall set this bit to ‘TRUE’ in this version of specification.

Clarification for mobility to EUTRAN
For mobility to E-UTRAN, it is assumed that we have 9 main "functions":
A.	Support of measurements and cell reselection procedure in idle mode
B.	Support of measurements and cell reselection procedure in CELL/URA_PCH
C.	Support of RRC release with redirection procedure
D.	Support of RRC reject with redirection procedure
E.	Support of EUTRAN measurements and reporting in connected mode
F.	Support of handover procedure in connected mode
G.	Support of high priority layer measurements and cell reselection procedure in CELL_FACH
H.	Support of all priority layer measurements and cell reselection procedure in CELL_FACH
I.	Support of E-UTRA measurement for CELL_FACH for E-UTRA FDD and E-UTRA TDD

Of the above, all UEs that indicate support of E-UTRA in UE capability signalling "Support of E-UTRA FDD" or "Support of E-UTRA TDD" support A), C) and D) for all EUTRA bands they support.
For B) above, UEs indicates support by the Group 1 indicator bit (if Group 1 is set to "true", it is supported for all EUTRA bands the UE supports).
For E) above, UEs indicate support by the Group 2 indicator bit (if Group 2 is set to "true", it is supported for all EUTRA bands the UE supports).  The compressed mode capability for supported E-UTRA frequency bands (‘Need for compressed mode’) in “Measurement capability extension” is ignored by the network when Group 2 is set to "false". In this version of the specification, the UE supporting E-UTRAN shall set the Group 2 indicator bit to "true".
For F) above, UEs indicate support by the separate UE capability signaling "Support of Inter-RAT PS Handover to E-UTRA FDD/TDD" defined in TS 25.306 (if this bit is set to "true", PS handover is supported for all EUTRA bands the UE supports). This bit can only be set to "true" if the UE has set the Group 2 indicator bit to "true".
For G) above, UEs indicates support by the Group 3 indicator bit (if Group 3 is set to "true", it is supported for all EUTRA bands the UE supports). If the separate UE capability "Support for absolute priority based cell re-selection in UTRAN" is also set to "true", UEs indicate support of high priority layer measurements and cell reselection procedure in CELL_FACH also for UTRA inter-frequency.
For H) above, UEs indicates support by the Group 4 indicator bit (if Group 4 is set to "true", it is supported for all EUTRA bands the UE supports). If the separate UE capability "Support for absolute priority based cell re-selection in UTRAN" is also set to "true", UEs indicate support of all priority layer measurements and cell reselection procedure in CELL_FACH also for UTRA inter-frequency. UEs that indicate support for H also indicate support for G.
For I) above, UEs indicate support by the separate UE capability signaling "Support of E-UTRA FDD measurements and reporting in CELL_FACH" and "Support of E-UTRA TDD measurements and reporting in CELL_FACH" defined in TS 25.306 (if the corresponding bit is set to "true", E-UTRA measurement for CELL_FACH for E-UTRA FDD and E-UTRA TDD is supported for all EUTRA FDD and TDD bands respectively, that the UE supports).
Annex F (Normative):
Support of Multiple Frequency Band Indicators (Multiple FBI) in UE
For UEs of 3GPP Release 9 or earlier, implementation of the multiple frequency band indicators feature is optional if the UE supports a band which has overlap with other bands defined in 3GPP [85], otherwise not applicable. Note that these other bands may not be supported by the UE, but the UE shall understand the UARFCN signalling for all bands, that overlap with the bands supported by the UE, and that are defined in the earliest version of [21] that includes all UE supported band(s).
For UEs of 3GPP from Release 10, implementation of the multiple frequency band indicators feature is mandatory if the UE supports a band which has overlap with other bands defined in 3GPP [85], otherwise not applicable. Note that these other bands may not be supported by the UE, but the UE shall understand the UARFCN signalling for all bands, that overlap with the bands supported by the UE, and that are defined in the earliest version of [21] that includes all UE supported bands.
Annex G (informative):
Signalling of Multiple Frequency Band Indicators (Multiple FBI)
This annex contains a Stage 2 description of the mapping between the respective Multiple Frequency Band Indicators (MFBI) lists and the:
-	Frequency Band signalled in System Information Block type 5, System Information Block type 5bis and System Information Block type 6
-	UARFCN’s signalled in System Information Block type 11, System Information Block type 11bis, System Information Block type 11ter and System Information Block type 12
-	EARFCN’s and extended EARFCN’s signalled in System Information Block type 19
G.1	Mapping between "Frequency band indicator", "Frequency band indicator 2" or "Frequency band indicator 3" and "Multiple Frequency Info list"
In System Information Block type 5, System Information Block type 5bis and System Information Block type 6 a single UTRA Frequency Band may be broadcast in one of the IE’s "Frequency band indicator", "Frequency band indicator 2" or "Frequency band indicator 3". This UTRA Frequency band can then have up to 8 additional overlapping UTRA Frequency bands broadcast in the IE "Multiple Frequency Band indicator list".
G.2	Mapping between "New Inter-frequency cells" and "Multiple Frequency Info List FDD"
In System Information Block type 11, System Information Block type 11bis, System Information Block type 11ter and System Information Block type 12 a list of up to 80 inter-frequency UTRA cells may be broadcast in the IE "New Inter-frequency cells". Additionally, for up to 8 of the UARFCN broadcast in the IE "New Inter-frequency cells" there can be up to 8 additional overlapping UTRA Frequency bands broadcast in the IE "Multiple Frequency Info List FDD".
The following criteria regarding the signalling of the Inter-frequency cells in SIB11/11bis/11ter should be considered:
-	The "Frequency info" IE should appear only once in "New Inter-frequency cells" for each UARFCN i.e. for the first Inter-frequency neighbour cell using that UARFCN. For each subsequent Inter-frequency neighbour cell having the same UARFCN, the "Frequency info" should not be included, but rather the Mandatory Default (MD) value will be used.
-	All Inter-frequency neighbour cells having the same UARFCN should be listed contiguously within the IE "New Inter-frequency cells" in SIB11/11bis/11ter.
-	Each occurrence of the IE "Frequency info" included in the IE "New Inter-frequency cells" will have one corresponding entry in "Multiple Frequency Info List FDD" i.e. the first "Frequency info" maps to the first entry in "Multiple Frequency Info List FDD", the second "Frequency info" maps to the second entry in "Multiple Frequency Info List FDD" and so on. 
-	If a specific instance of "Frequency info" included in the IE "New Inter-frequency cells" does not have any overlapping band(s), the corresponding entry in "Multiple Frequency Info List FDD" should be empty.
Example:
The following inter-frequency UTRA cells are broadcast in System Information Block type 11
-	Cell1 (UARFCN A)
-	Cell2 (UARFCN A)
-	Cell3 (UARFCN B)
-	Cell4 (UARFCN B)
-	Cell5 (UARFCN C)

The following overlapping UTRA frequency bands (listed in priority order) are broadcast for UARFCN B 
-	UTRA frequency Band X
-	UTRA frequency Band Y
-	UTRA frequency Band Z

The mapping between the "Inter-frequency cell info list" and the "Multiple Frequency Info List FDD" is shown in Figure G.2.1:


Figure: G.2.1 – Overlapping inter-frequency UTRA cells
G.3	Mapping between "E-UTRA frequency and priority" and "Multiple E-UTRA Frequency Info list" or "Multiple E-UTRA Frequency Info extension list"
In System Information Block type 19, a list of up to 8 EARFCNs associated with E-UTRA frequencies may be broadcast between the IE’s "EUTRA frequency and priority" and "EUTRA frequency and priority extension". For each of the broadcast EARFCN’s, there can be upto 8 additional overlapping E-UTRA Frequency bands broadcast in the IE "Multiple E-UTRA frequency info list" and/or "Multiple E-UTRA frequency info extension list".
When both "E-UTRA frequency and priority" and "E-UTRA frequency and priority extension" lists are included in System Information Block type 19, then the IE "Number of applicable EARFCN" is used to inform the UE of how many instances should be read from the "E-UTRA frequency and priority":

-	If the IE "Number of Applicable EARFCN" is not signalled in the System Information Block type 19, then all the entries in the "Multiple E-UTRA frequency info list" are mapped to "E-UTRA frequency and priority".
-	If the IE "Number of Applicable EARFCN" is present in the System Information Block type 19 and is not set to 0, then the first "Number of Applicable EARFCN" entries in the "Multiple E-UTRA frequency info list" are mapped to "E-UTRA frequency and priority", with the remaining entries in the "Multiple E-UTRA frequency info list" mapped to "E-UTRA frequency and priority extension".
-	If the IE "Number of Applicable EARFCN" is present in the System Information Block type 19 and is set to 0, then all the entries in the "Multiple E-UTRA frequency info list" are mapped to "E-UTRA frequency and priority extension".
Based on the presence of IE "Number of Applicable EARFCN", each entry in the "Multiple E-UTRA frequency info list" is mapped to either an entry in the "E-UTRA frequency and priority" list or an entry in "E-UTRA frequency and priority extension" list.
The number of signaled entries in the IE’s "Multiple E-UTRA frequency info list" and "Multiple E-UTRA frequency info extension list" is the same, and is equal to the sum of ("Number of Applicable EARFCN" + number of entries in "E-UTRA frequency and priority extension").
Example:
The following EARFCN’s are broadcast in System Information Block type 19
			E-UTRA frequency and priority
-	EARFCN A (0.. 65535)
-	EARFCN X (0.. 65535)
-	EARFCN Y (0.. 65535)

			E-UTRA frequency and priority extension
-	EARFCN E (65536..262143)
-	EARFCN F (65536.. 262143)

The second entry in the "E-UTRA frequency and priority" list, EARFCN X, has the following overlapping E-UTRA frequency bands:
- E-UTRA frequency Band B (<64)
- Extended E-UTRA frequency Band D (>64)
- E-UTRA frequency Band C (<64)

The second entry in the "E-UTRA frequency and priority extension" list, EARFCN F, has the overlapping E-UTRA frequency band Z (<64).
The IE "Number of Applicable EARFCN" in this example will be set to a value of 3 by the NW. This means that the first 3 positions in the "Multiple E-UTRA frequency info list" correspond to the corresponding entries in the "E-UTRA frequency and priority" list. The two entries in the "E-UTRA frequency and priority extension" list are then mapped to the "Multiple E-UTRA frequency info list", using an offset of the value of the IE "Number of Applicable EARFCN".

Figure: G.3.1 – Mapping of EARFCN’s to Multiple E-UTRA frequency info list
The IE "Multiple E-UTRA frequency info list" is a list of SIZE (1..8), where each entry in the list contains an optional instance of the IE "Multiple E-UTRA frequency band indicator list". In this example, the network would signal the "Multiple E-UTRA frequency info list" with 5 instances, but for indices 0, 2 and 3 the optional list "Multiple E-UTRA frequency band indicator list" would not be included, given that there are no overlapping bands defined for the EARFCN A, EARFCN Y and (extended) EARFCN E.

Figure: G.3-2 – Mapping of EARFCN’s to Multiple E-UTRA frequency info
Each entry of the IE "Multiple E-UTRA frequency band indicator list" contains the E-UTRA Frequency Band (1..64) which overlaps with the E-UTRA Frequency Band associated with the EARFCN broadcast in the "E-UTRA frequency and priority" or "E-UTRA frequency and priority extension" lists. 
Each entry of the IE "Multiple E-UTRA frequency band extension indicator list" contains the E-UTRA Frequency Band (65..256) which overlaps with the E-UTRA Frequency Band associated with the EARFCN broadcast in the "E-UTRA frequency and priority" or "E-UTRA frequency and priority extension" lists. 

Figure: G.3.3 – Mapping of EARFCN’s to extended E-UTRA frequency bands
Annex H (informative):
Change history
Change history
Date
TSG #
TSG Doc.
CR
Rev
Cat
Subject/Comment
New version
10/1999
RP-05
RP-99524
-


Approved at TSG-RAN #5 and placed under Change Control
3.0.0
12/1999
RP-06
RP-99650
001


Modification of RRC procedure specifications
3.1.0

RP-06
RP-99654
005
1

Introduction of Information Element for Power Control Algorithm
3.1.0

RP-06
RP-99654
007
1

RRC parameters for SSDT
3.1.0

RP-06
RP-99656
009
1

Inclusion of information elements for integrity protection
3.1.0

RP-06
RP-99656
010
2

Security mode control procedure
3.1.0

RP-06
RP-99656
011
3

Updates of the system information procedure
3.1.0

RP-06
RP-99656
012
2

Inter-frequency measurements and reporting
3.1.0

RP-06
RP-99656
013
1

Inter-system measurements and reporting
3.1.0

RP-06
RP-99656
014
1

Additional measurements in RRC measurement messages
3.1.0

RP-06
RP-99656
015
3

Value range for Measurement Information Elements
3.1.0

RP-06
RP-99656
016
2

Message contents for inter system handover to UTRAN
3.1.0

RP-06
RP-99652
017


Inclusion of ciphering information elements
3.1.0

RP-06
RP-99651
018


Corrections and editorial changes
3.1.0

RP-06
RP-99654
019
1

Algorithm for CTCF Calculation
3.1.0

RP-06
RP-99651
025


Logical CH for RRC Connection Re-establishment (RRC Connection Re-establishment deleted in RAN_10, RP-000715)
3.1.0

RP-06
RP-99719
026
1

Gain Factors
3.1.0

RP-06
RP-99654
027
1

Parameters for CELL UPDATE CONFIRM message
3.1.0

RP-06
RP-99651
028


Cell Update Cause
3.1.0

RP-06
RP-99654
029
1

RRC Initialisation Information
3.1.0

RP-06
RP-99656
034
1

Open loop power control for PRACH
3.1.0

RP-06
RP-99652
038


Addition of the UE controlled AMR mode adaptation
3.1.0

RP-06
RP-99651
039


Information elements for RLC reset
3.1.0

RP-06
RP-99656
040


Support for DS-41 Initial UE Identity
3.1.0

RP-06
RP-99656
042
2

Integration of Cell Broadcast Service (CBS)
3.1.0

RP-06
RP-99654
044
1

Gated transmission of DPCCH
3.1.0

RP-06
RP-99656
045


Modification to the Transport Format Combination Control message
3.1.0

RP-06
RP-99656
046


New Information elements and modifications to messages required in order to support configuration and re-configuration of the DSCH in FDD mode
3.1.0

RP-06
RP-99654
047
1

Editorial Corrections and Alignments with Layer 1 specifications
3.1.0

RP-06
RP-99654
048
1

Information elements for TDD shared channel operation
3.1.0

RP-06
RP-99656
049


Description of CN dependent IEs in Master Information Block
3.1.0

RP-06
RP-99650
050


UE capability information elements
3.1.0

RP-06
RP-99656
051
1

UTRAN response time to uplink feedback commands of TX diversity control
3.1.0

RP-06
RP-99654
052


New and corrected CPCH parameters
3.1.0

RP-06
RP-99654
053
2

Compressed mode parameters without gating
3.1.0

RP-06
RP-99654
054


Transport format combination set and transport format combination subset
3.1.0

RP-06
RP-99656
055
1

Information elements for cell selection and reselection
3.1.0

RP-06
RP-99654
056


Corrections and Alignments of the RRC to the L1 for TDD
3.1.0

RP-06
RP-99656
057
1

Introduction of a SCCH procedure
3.1.0

RP-06
RP-99656
061


Support for DS-41 Paging UE Identity
3.1.0

RP-06
RP-99656
062
2

Support for cdma2000 Hard Handover
3.1.0

RP-06
RP-99656
063
1

Provide necessary signalling to support FDD DSCH
3.1.0

RP-06
RP-99654
064


RRC procedure interactions
3.1.0

RP-06
RP-99654
066
1

Transfer of UE capabilities
3.1.0

RP-06
RP-99654
067


Selection of initial UE identity
3.1.0

RP-06
RP-99657
069


UE capability verification in the security mode control procedure
3.1.0

RP-06
RP-99657
070
1

DPCH initial power
3.1.0

RP-06
RP-99657
071


Actions when entering idle mode
3.1.0

RP-06
RP-99657
072


Specification of inter-frequency and inter-system reporting events for FDD
3.1.0

RP-06
RP-99657
073
1

Signalling radio bearers
3.1.0

RP-06
RP-99654
074


CN information elements
3.1.0

RP-06
RP-99654
076


UE information elements
3.1.0

RP-06
RP-99657
077
1

Radio bearer, transport channel and physical channel information elements
3.1.0

RP-06
RP-99654
078


Other information elements
3.1.0

RP-06
RP-99657
079
2

RRC signalling for PDCP
3.1.0

RP-06
RP-99654
080


Content of Measurement Control Messages
3.1.0

RP-06
RP-99654
081


RRC Information Elements to support Block STTD transmission diversity in TDD
3.1.0

RP-06
RP-99657
082
1

Signalling connection release
3.1.0

RP-06
RP-99657
083
1

Addition of cell access restriction information elements to System Information
3.1.0

RP-06
RP-99655
085
1

RRC Connection Establishment parameters
3.1.0

RP-06
RP-99657
092
1

Support of UE autonomous update of a active set on a non-used frequency
3.1.0

RP-06
RP-99657
095
1

TPC combining for power control
3.1.0

RP-06
RP-99653
096
1

Editorial Modification of IEs in RRC messages
3.1.0

RP-06
RP-99655
097


Selection of SCCPCH
3.1.0

RP-06
RP-99655
098
1

RRC Initialisation Information
3.1.0

RP-06
RP-99657
100
1

Support of physical channel establishment and failure criteria in the UE
3.1.0

RP-06
RP-99655
102
1

RRC Connection Re-establishment (Message deleted in RAN_10, RP-000715)
3.1.0

RP-06
RP-99657
106
1

System information on FACH
3.1.0

RP-06
RP-99657
108
1

SAPs and Primitives for DS-41 mode
3.1.0

RP-06
RP-99655
109
1

TX Diversity Mode for Dedicated Channel
3.1.0

RP-06
RP-99657
110
1

RACH message length signalling on System Information
3.1.0

RP-06
RP-99657
113
1

Routing of NAS messages in UTRAN
3.1.0

RP-06
RP-99655
116
3

TBS Identification in TFS
3.1.0

RP-06
RP-99657
117
1

Merging the hard handover and some radio bearer control procedures
3.1.0

RP-06
RP-99653
120
1

Selected RRC message transfer syntax
3.1.0

RP-06
RP-99657
121


Efficient rate command signalling
3.1.0
03/2000
RP-07
RP-000043
122


TDD Mode BCH Reception in Cell DCH State
3.2.0

RP-07
RP-000043
123


Uplink Outer Loop Power Control in TDD Mode
3.2.0

RP-07
RP-000043
124
1

TFS TB Size Calculation with Bit Aligned TDD MAC Headers
3.2.0

RP-07
RP-000043
125


Grouping of DRAC IEs, and detailed definitions of these IEs
3.2.0

RP-07
RP-000043
126


Correction of specifications for the 'Dynamic Resource Allocation Control of Uplink DCH' Procedure
3.2.0

RP-07
RP-000043
131
2

Clarification of PDCP info and PDCP capability IEs
3.2.0

RP-07
RP-000043
132


Editorial change to "Specification of system information block characteristics"
3.2.0

RP-07
RP-000043
133


Additions of CBS related Information Elements
3.2.0

RP-07
RP-000043
134


Signalling for computed gain factors
3.2.0

RP-07
RP-000043
137
1

General error handling procedures
3.2.0

RP-07
RP-000043
138
1

RRC message extensions
3.2.0

RP-07
RP-000043
139


Padding of RRC messages using RLC transparent mode
3.2.0

RP-07
RP-000043
140
2

UE information elements
3.2.0

RP-07
RP-000043
141


Other information elements
3.2.0

RP-07
RP-000043
142
3

Integrity protection function
3.2.0

RP-07
RP-000043
143
4

RAB-RB relations
3.2.0

RP-07
RP-000043
144
1

Inter-system handover from UTRAN
3.2.0

RP-07
RP-000043
145
3

Handover to UTRAN including procedure for pre- configuration
3.2.0

RP-07
RP-000043
146
2

RRC measurement filtering parameters
3.2.0

RP-07
RP-000043
147


New event "RL out of UE Rx window"
3.2.0

RP-07
RP-000044
148
1

Access control on RACH
3.2.0

RP-07
RP-000044
149
2

cdma2000 Hard Handover
3.2.0

RP-07
RP-000044
150
1

CPCH parameters with corrections
3.2.0

RP-07
RP-000044
152


U-plane AM RLC reconfiguration by cell update procedure
3.2.0

RP-07
RP-000044
154
3

CPCH
3.2.0

RP-07
RP-000044
155
1

Information elements for ASC in TDD
3.2.0

RP-07
RP-000044
156


Addition of timing advance value in handover related messages
3.2.0

RP-07
RP-000044
157
2

Physical channel description for TDD
3.2.0

RP-07
RP-000044
159


Message contents for the intersystem command message to UTRAN operating in TDD mode
3.2.0

RP-07
RP-000044
160


Corrections on use of PUSCH power control info and minor corrections
3.2.0

RP-07
RP-000044
162
2

UE individual DRX cycles in CELL_PCH and URA_PCH states
3.2.0

RP-07
RP-000044
163


Correction to Transport Format Combination Control procedure
3.2.0

RP-07
RP-000044
164
3

Downlink outer loop power control
3.2.0

RP-07
RP-000044
165
2

Redirection of RRC connection setup 
3.2.0

RP-07
RP-000044
166
2

Inter-frequency measurements in CELL_FACH state
3.2.0

RP-07
RP-000044
167


List of found editorial mistakes in the Dec99 version of 25.331 (V3.1.0)
3.2.0

RP-07
RP-000044
168
1

Transport block size
3.2.0

RP-07
RP-000044
169
1

Cell Access Restriction
3.2.0

RP-07
RP-000044
170


Editorial modification
3.2.0

RP-07
RP-000044
171


Modification of DPCH info
3.2.0

RP-07
RP-000045
172
1

Measurement control message
3.2.0

RP-07
RP-000045
173
2

Reporting cell status
3.2.0

RP-07
RP-000045
174


Additional IE for RB release
3.2.0

RP-07
RP-000045
175


Available SF in PRACH info
3.2.0

RP-07
RP-000045
176


Traffic volume measurement event
3.2.0

RP-07
RP-000045
177


Report of multiple cells on an event result
3.2.0

RP-07
RP-000045
178


Editorial modification on Direct Transfer
3.2.0

RP-07
RP-000045
179


Correction of the Security Mode Control procedure
3.2.0

RP-07
RP-000045
180
1

Maximum calculated Transport Format Combination
3.2.0

RP-07
RP-000045
183


Additional DPCH IEs to align 25.331 with 25.214
3.2.0

RP-07
RP-000045
184
1

RB – DCH mapping
3.2.0

RP-07
RP-000045
188
1

Modifications related to FDD mode DSCH
3.2.0

RP-07
RP-000045
189
1

Identification of Shared Channel Physical Configuration in TDD Mode
3.2.0

RP-07
RP-000045
192
1

Uplink Outer Loop Power Control During Hard Handover
3.2.0

RP-07
RP-000045
193


Support of Multiple CCTrCH's in TDD Mode
3.2.0

RP-07
RP-000045
194
1

Uplink Physical Channel Control in TDD Mode
3.2.0

RP-07
RP-000045
201
1

Transfer of initial information from UE to target RNC prior to handover to UTRAN
3.2.0

RP-07
RP-000045
202
1

CN information elements
3.2.0

RP-07
RP-000045
203


UTRAN mobility information elements
3.2.0

RP-07
RP-000045
204
1

RB information elements
3.2.0

RP-07
RP-000046
205
1

Physical channel information elements
3.2.0

RP-07
RP-000046
206
1

UE capability information elements
3.2.0

RP-07
RP-000046
207


UE variables
3.2.0

RP-07
RP-000046
208
1

Actions when entering idle mode
3.2.0

RP-07
RP-000046
209


Usage of pilot bits
3.2.0

RP-07
RP-000046
210


System information procedure corrections
3.2.0

RP-07
RP-000046
212


Reconfiguration of ciphering
3.2.0

RP-07
RP-000046
213
1

Enhancements to RRC connection re-establishment procedure (Message subsequently deleted in RAN_!), RP-000715) 
3.2.0

RP-07
RP-000046
215


Updates to RRC Initialisation Information transparent container and addition of reverse direction container description
3.2.0

RP-07
RP-000046
220
1

Changes in RRC messages to support lossless SRNC relocation 
3.2.0

RP-07
RP-000046
229
1

Measurements of unlisted neighbouring cells
3.2.0

RP-07
RP-000046
234
2

Inclusion of Location Services
3.2.0

RP-07
RP-000046
236
1

Application of Access Service Classes and relation to Access Classes
3.2.0

RP-07
RP-000046
252
1

DRX indicator presence and state entering mechanism at the end of a procedure
3.2.0

RP-07
RP-000046
254
1

Physical shared channel allocation procedure
3.2.0

RP-07
RP-000046
255


Corrections to TDD specific parameters in PICH info
3.2.0

RP-07
RP-000046
256


Editorial modifications
3.2.0

RP-07
RP-000046
259
2

Introduction of mapping function information in Cell selection and
3.2.0

RP-07
RP-000046
263


Ciphering and integrity HFN
3.2.0

RP-07
RP-000046
267


New SIB for UP
3.2.0

RP-07
RP-000047
268


Removal of synchronization Case 3
3.2.0

RP-07
RP-000047
271


TX Diversity
3.2.0

RP-07
RP-000047
272


Update of tabular format clause 10
3.2.0

RP-07
RP-000047
273


ASN.1 description
3.2.0
06/2000
RP-08
RP-000222
228
5

Downlink power control in compressed mode
3.3.0

RP-08
RP-000222
260
1

Clarification on physical channel allocations in TDD
3.3.0

RP-08
RP-000222
261
4

TDD Measurements and Reporting
3.3.0

RP-08
RP-000222
262
4

Signalling of IEs related to System Information on FACH
3.3.0

RP-08
RP-000222
265
3

Transport Format Combination Control
3.3.0

RP-08
RP-000222
269
1

Signalling of partial failure in radio bearer related procedures
3.3.0

RP-08
RP-000222
275


Clarification on PDCP info
3.3.0

RP-08
RP-000222
279


Editorial modification on Transport Ch capability
3.3.0

RP-08
RP-000222
280


Editorial modification on CN IE
3.3.0

RP-08
RP-000222
281
3

Editorial modification on Physical CH IE
3.3.0

RP-08
RP-000222
282
1

Editorial modification on ASN.1 description
3.3.0

RP-08
RP-000222
283
1

IEs on SIB5/6
3.3.0

RP-08
RP-000222
285
2

Re-establishment timer
3.3.0

RP-08
RP-000222
286
1

CN DRX cycle coefficient
3.3.0

RP-08
RP-000222
287
1

Cell Access Restriction
3.3.0

RP-08
RP-000222
288
1

Cell selection and re-selection parameters
3.3.0

RP-08
RP-000222
289
2

Modification on Measurement IE
3.3.0

RP-08
RP-000222
291
1

RACH Transmission parameters
3.3.0

RP-08
RP-000222
292
1

SCCPCH System Info
3.3.0

RP-08
RP-000222
293
1

Addition of HFN for RRC CONNECTION RE-ESTABLISHMENT COMPLETE
3.3.0

RP-08
RP-000223
294
1

RLC reconfiguration indicator
3.3.0

RP-08
RP-000223
296
3

RLC Info
3.3.0

RP-08
RP-000223
297
1

Usage of Transport CH ID
3.3.0

RP-08
RP-000223
298
2

Transport format combination set
3.3.0

RP-08
RP-000223
300
1

Usage of U-RNTI and C-RNTI in DL DCCH message
3.3.0

RP-08
RP-000223
301


Description of Cell Update Procedure
3.3.0

RP-08
RP-000223
304
1

System information modification procedure
3.3.0

RP-08
RP-000223
305


Functional descriptions of the RRC messages 
3.3.0

RP-08
RP-000223
306


Clarification of CTFC calculation
3.3.0

RP-08
RP-000223
307
3

Compressed mode parameters 
3.3.0

RP-08
RP-000223
309
2

Signalling procedure for periodic local authentication
3.3.0

RP-08
RP-000223
310
5

Editorial corrections on security
3.3.0

RP-08
RP-000223
311
2

Security capability 
3.3.0

RP-08
RP-000223
312
1

Corrections on ASN.1 definitions
3.3.0

RP-08
RP-000223
313
2

DRX cycle lower limit 
3.3.0

RP-08
RP-000223
314
1

Removal of CPICH SIR measurement quantity
3.3.0

RP-08
RP-000223
315
1

Signalling connection release request 
3.3.0

RP-08
RP-000223
318
1

Change to IMEI coding from BCD to hexadecimal
3.3.0

RP-08
RP-000223
319
1

Removal of RLC sequence numbers from RRC initialisation information
3.3.0

RP-08
RP-000223
320
3

Addition of the length of PDCP sequence numbers into PDCP info
3.3.0

RP-08
RP-000224
323
1

BSIC verification of GSM cells
3.3.0

RP-08
RP-000224
324


Reporting cell status
3.3.0

RP-08
RP-000224
325


RRC measurement filtering parameters
3.3.0

RP-08
RP-000224
326


Cell-reselection parameter signalling
3.3.0

RP-08
RP-000224
328
3

Multiplicity values
3.3.0

RP-08
RP-000224
329


Quality measurements
3.3.0

RP-08
RP-000224
330
4

CPCH Status Indication mode correction
3.3.0

RP-08
RP-000224
331
4

End of CPCH transmission
3.3.0

RP-08
RP-000224
332


Handover to UTRAN procedure
3.3.0

RP-08
RP-000224
333


Harmonization of access service classes in FDD and TDD
3.3.0

RP-08
RP-000224
334
1

Correction to usage of primary CCPCH info and primary CPICH info
3.3.0

RP-08
RP-000224
335


Corrections and clarifications on system information handling
3.3.0

RP-08
RP-000224
336


Editorial corrections
3.3.0

RP-08
RP-000224
337
1

Editorial corrections on uplink timing advance
3.3.0

RP-08
RP-000224
339


Correction of Transport Format Combination tabular format and ASN.1
3.3.0

RP-08
RP-000224
340
1

UE variables
3.3.0

RP-08
RP-000224
342
1

General error handling
3.3.0

RP-08
RP-000224
344
1

System Information extensibility in ASN.1 definitions
3.3.0

RP-08
RP-000224
345


Usage of pilot bits
3.3.0

RP-08
RP-000224
346
3

RRC connection release procedure
3.3.0

RP-08
RP-000225
347
1

Alignment of Section 10.3 on methodology defined in 25.921
3.3.0

RP-08
RP-000225
348


Modifications of cell (re)selection parameters
3.3.0

RP-08
RP-000225
350
1

GPS time-of-week represented as seconds and fractions of seconds
3.3.0

RP-08
RP-000225
351
2

CPCH corrections
3.3.0

RP-08
RP-000225
352


PLMN type selection
3.3.0

RP-08
RP-000225
353
3

Paging and establishment cause values
3.3.0

RP-08
RP-000225
354


Common channel configurations
3.3.0

RP-08
RP-000225
355
2

Clarification of prioritization of logical channels in UE
3.3.0

RP-08
RP-000225
357
2

UE capability corrections
3.3.0

RP-08
RP-000225
358
2

Clarification of HFN
3.3.0

RP-08
RP-000225
359
3

Clarification of Integrity Protection
3.3.0

RP-08
RP-000225
360
1

RRC message size optimization regarding TrCH parameters
3.3.0

RP-08
RP-000225
361


Protocol extensions in ASN
3.3.0

RP-08
RP-000225
362
1

Downloading of pre- defined configurations via SIB 16
3.3.0

RP-08
RP-000225
363
1

Optimization of System Information
3.3.0

RP-08
RP-000225
364
1

CPCH gain factor
3.3.0

RP-08
RP-000225
368
2

SFN Transmission Rate in TDD Mode
3.3.0

RP-08
RP-000225
371
1

Integrity Control
3.3.0

RP-08
RP-000225
372


Modification to measurement event evaluation
3.3.0

RP-08
RP-000225
373


System Information related parameters
3.3.0

RP-08
RP-000226
375
1

Changes in RB mapping info
3.3.0

RP-08
RP-000226
377


Editorial corrections to PRACH system information and Cell info
3.3.0

RP-08
RP-000226
378


Editorial Corrections to 25.331 Procedures and Tabular Format
3.3.0

RP-08
RP-000226
379
1

Corrections to figures and procedures for the failure cases
3.3.0

RP-08
RP-000226
380


Corrections on use of ORDERED_CONFIG
3.3.0

RP-08
RP-000226
382
1

Corrections to Transport Channel and RB Reconfiguration procedures
3.3.0

RP-08
RP-000226
383
1

Corrections to INITIAL DIRECT TRANSFER and UE CAPABILITY INFORMATION CONFIRM procedures
3.3.0

RP-08
RP-000226
384


Corrections to Transparent mode signalling info Tabular format and ASN.1
3.3.0

RP-08
RP-000226
385


Corrections to Soft Handover messages and procedures
3.3.0

RP-08
RP-000226
387


Corrections to RRC CONNECTION REJECT procedures
3.3.0

RP-08
RP-000226
388
1

Transport format combination in TDD and Transport channel ID
3.3.0

RP-08
RP-000226
389
1

Signalling for dynamic TTI in TDD
3.3.0

RP-08
RP-000226
390
1

Usage of DCCH for Shared Channel Allocation message
3.3.0

RP-08
RP-000226
391
1

Correction to physical channel IEs in TDD
3.3.0

RP-08
RP-000226
392
1

TDD preconfiguration for Handover to UTRAN
3.3.0

RP-08
RP-000226
393


Corrections to measurement control descriptions and messages
3.3.0

RP-08
RP-000226
394
1

Corrections on ASN.1 definitions
3.3.0

RP-08
RP-000226
395


Addition of the Segmentation indication field for transparent mode RLC in the RLC Info
3.3.0

RP-08
RP-000226
396
1

Radio Bearer identity for CCCH
3.3.0

RP-08
RP-000226
397
1

ASN.1 definitions for RRC information between network nodes
3.3.0

RP-08
RP-000227
398
1

NAS Routing
3.3.0

RP-08
RP-000227
399


DPCCH power control preamble
3.3.0

RP-08
RP-000227
400
2

Modifications of Assisted GPS Messages
3.3.0

RP-08
RP-000227
401


Choice of Initial UE Identity
3.3.0

RP-08
RP-000227
402


ANSI-41 information elements
3.3.0

RP-08
RP-000227
404
1

RLC value ranges
3.3.0

RP-08
RP-000227
408
1

HFN Reset
3.3.0

RP-08
RP-000227
409
1

Clarification on ciphering parameters and integrity protection procedure in case of SRNS relocation
3.3.0

RP-08
RP-000227
410
1

Clarification of compressed mode activation and configuration failure
3.3.0

RP-08
RP-000227
412
1

Modification of the RLC Size IE
3.3.0

RP-08
RP-000227
414


CPCH DL Power control
3.3.0

RP-08
RP-000227
415
1

SFN measurements in TDD
3.3.0
09/2000
RP-09
RP-000361
356
3

Clarification on multiplicity of PCH and PICH and S-CCPCH selection
3.4.0

RP-09
RP-000361
403
3

Parameters to be stored in the USIM
3.4.0

RP-09
RP-000361
413
3

Optimization of Inter-system handover message
3.4.0

RP-09
RP-000361
416
2

Timing Advance in Handover Procedures
3.4.0

RP-09
RP-000361
417
2

Synchronization of Timing Advance and Timing Deviation Measurement
3.4.0

RP-09
RP-000361
418


Downlink Physical Channels Per Timeslot
3.4.0

RP-09
RP-000361
419


TDD Mode DCH Reception in Cell DCH State
3.4.0

RP-09
RP-000361
420
2

Downlink Power Control During DTX in TDD Mode
3.4.0

RP-09
RP-000361
421
1

Paging Indicator Length Definition
3.4.0

RP-09
RP-000361
422


Updating & alignment of RRC containers & handover to UTRAN information transfer
3.4.0

RP-09
RP-000361
424


Default values for UE timers and counters 
3.4.0

RP-09
RP-000361
425
1

Security mode control 
3.4.0

RP-09
RP-000361
426
1

Corrections and Editorial updates to chapter 8 
3.4.0

RP-09
RP-000361
427


Corrections and editorial updates to chapter 10 
3.4.0

RP-09
RP-000361
428


Transition from CELL_DCH to CELL_PCH and URA_PCH state
3.4.0

RP-09
RP-000361
430


Assisted GPS Messaging and Procedures
3.4.0

RP-09
RP-000361
431
2

Corrections to Activation Time use
3.4.0

RP-09
RP-000361
432


Editorial Corrections to measurement reporting range
3.4.0

RP-09
RP-000361
434
4

Default DPCH offset value and DPCH offset
3.4.0

RP-09
RP-000361
435
3

RLC info
3.4.0

RP-09
RP-000362
437


Clarification of the description of IE semantics in "RB with PDCP information"
3.4.0

RP-09
RP-000362
438
1

Editorial corrections on security
3.4.0

RP-09
RP-000362
439


Editorial correction to RB mapping info
3.4.0

RP-09
RP-000362
440
1

Compressed mode configuration failure
3.4.0

RP-09
RP-000362
441


Gain factors for TDD
3.4.0

RP-09
RP-000362
442


Introduction of Default DPCH Offset Value in TDD
3.4.0

RP-09
RP-000362
444
1

Optimization of handover to UTRAN command
3.4.0

RP-09
RP-000362
445


Editorial corrections
3.4.0

RP-09
RP-000362
448
1

Mapping of channelisation code
3.4.0

RP-09
RP-000362
449
2

DL TFCS Limitation
3.4.0

RP-09
RP-000362
450


SIB offset
3.4.0

RP-09
RP-000362
451


RRC CONNECTION RELEASE cause
3.4.0

RP-09
RP-000362
452


Addition of RACH TFCS
3.4.0

RP-09
RP-000362
453
2

Cell Identity
3.4.0

RP-09
RP-000362
454


Editorial Modifications
3.4.0

RP-09
RP-000362
455
1

TDD PRACH Power Control for Spreading Factor 8/16
3.4.0

RP-09
RP-000362
456


TDD CCTrCH Repetition Length Definition
3.4.0

RP-09
RP-000362
457
1

Reporting threshold of traffic volume measurements
3.4.0

RP-09
RP-000362
459
2

UP GPS assistance data for SIB
3.4.0

RP-09
RP-000362
461
1

Support of cell update confirm on CCCH
3.4.0

RP-09
RP-000363
462
1

Max Window Size in RLC capabilities
3.4.0

RP-09
RP-000363
463
3

UE handling of CFN
3.4.0

RP-09
RP-000363
464
1

Correction of padding description in clause 12
3.4.0

RP-09
RP-000363
465
1

Window size in RLC info
3.4.0

RP-09
RP-000363
466
1

TFC Control Duration
3.4.0

RP-09
RP-000363
467


System Information Block Tabular Information
3.4.0

RP-09
RP-000363
469
1

Frequency encoding in inter-system handover messages
3.4.0

RP-09
RP-000363
470


RRC message size optimization regarding TFS parameters 
3.4.0

RP-09
RP-000363
471
2

RACH selection
3.4.0

RP-09
RP-000363
472


DRX cycle lower limit
3.4.0

RP-09
RP-000363
474


Rx window size in RLC info
3.4.0

RP-09
RP-000363
476
1

Corrections & optimizations regarding system information blocks of length 215..221
3.4.0

RP-09
RP-000363
477
1

Corrections on 8.1.1 resulting from RRC review at R2#14
3.4.0

RP-09
RP-000363
478
1

Corrections to the RRC connection release procedure
3.4.0

RP-09
RP-000363
479
1

New release cause for signalling connection re-establishment
3.4.0

RP-09
RP-000363
480
1

Correction to IE midamble shift and burst type
3.4.0

RP-09
RP-000363
481
1

Correction in RLC info
3.4.0

RP-09
RP-000363
483


Description of CTCH occasions
3.4.0

RP-09
RP-000363
485
1

TDD CCTrCH UL/DL Pairing for Inner Loop Power Control
3.4.0

RP-09
RP-000363
486
1

DCCH and BCCH Signalling of TDD UL OL PC Information
3.4.0

RP-09
RP-000364
487
1

Broadcast SIBs for TDD UL OL PC Information
3.4.0

RP-09
RP-000364
490
1

CPCH corrections
3.4.0

RP-09
RP-000364
492
3

Corrections to Security IEs
3.4.0

RP-09
RP-000364
494
1

Corrections to parameters to be stored in the USIM
3.4.0

RP-09
RP-000364
496


Editorial corrections
3.4.0

RP-09
RP-000364
497
2

Physical Shared Channel Allocation procedure
3.4.0

RP-09
RP-000364
498


Correction to Transport Format Combination Control Message
3.4.0

RP-09
RP-000364
499
1

Usage of Cell Parameter ID
3.4.0

RP-09
RP-000364
500


RB description for SHCCH
3.4.0

RP-09
RP-000364
501
1

Use of LI in UM
3.4.0

RP-09
RP-000364
502
1

Minor Corrections to RRC Protocol Specification
3.4.0

RP-09
RP-000364
503
1

Correction to Cell Update Cause
3.4.0

RP-09
RP-000364
504


Correction on T307 definition
3.4.0

RP-09
RP-000364
505


Corrections to relative priorities in RRC Protocol
3.4.0

RP-09
RP-000364
506


Unification of Reconfiguration Procedures
3.4.0

RP-09
RP-000364
507
1

Changes to section 8.2 proposed at Paris RRC Ad Hoc
3.4.0

RP-09
RP-000364
508


Establishment Cause
3.4.0

RP-09
RP-000364
509
1

PRACH partitioning
3.4.0

RP-09
RP-000364
510


Editorial Correction on Active Set Update
3.4.0

RP-09
RP-000364
511


Editorial Correction regarding system information
3.4.0

RP-09
RP-000365
512
1

Clarification on Reporting Cell Status
3.4.0

RP-09
RP-000365
513
1

Editorial corrections on RRC Connection Establishment and Release procedures
NOTE:	In subclause 8.1.4.6, the change from "decrease" to "increase" for V308 was decided to be incorrect after discussion on the TSG-RAN WG2 reflector and was not implemented
3.4.0

RP-09
RP-000365
514


Gated Transmission Control Info
3.4.0

RP-09
RP-000365
515
1

Cell selection/reselection parameters for SIB 3/4
3.4.0

RP-09
RP-000365
516


Implementation of Ec/N0 parameters and optimization of SIB 11/12
3.4.0

RP-09
RP-000365
517


PRACH Info
3.4.0

RP-09
RP-000365
518
1

Uplink DPCH power control info
3.4.0

RP-09
RP-000365
519


AICH power offset value range
3.4.0

RP-09
RP-000365
520


Direct paging of RRC connected UE in CELL_PCH/URA_PCH
NOTE:	This CR was postponed in TSG-RAN #9 and was wrongly included in v3.4.0. This was corrected in v3.4.1
3.4.0

RP-09
RP-000365
521


Corrections to Sections 1-7
3.4.0

RP-09
RP-000365
522


Error handling for Uplink Physical Channel Control procedure
3.4.0

RP-09
RP-000365
523


Corrections to downlink outer loop power control in compressed mode
3.4.0

RP-09
RP-000365
524
1

Clarification on measurement procedure using compressed mode
3.4.0

RP-09
RP-000365
525
1

Updates to cell and URA update procedures based on RRC Ad Hoc
3.4.0

RP-09
RP-000365
526
1

Updates to RNTI allocation procedure based on RRC Ad Hoc
3.4.0

RP-09
RP-000365
528


PRACH constant value
3.4.0

RP-09
RP-000365
530
1

Corrections to the paging procedure
3.4.0

RP-09
RP-000365
532
1

Moving of text from 25.304
3.4.0

RP-09
RP-000365
533
1

Message extensibility
3.4.0

RP-09
RP-000365
534
1

Additions to "State of RRC Procedure" in RRC Initialisation information, source RNC to target RNC
3.4.0

RP-09
RP-000365
535
1

Support of codec negotiation
3.4.0

-
-
-


Removal of contents of CR 520 from v3.4.0, because it was postponed at TSG-RAN #9 and by accident included anyway.
3.4.1
12/2000
RP-10
RP-000570
536


Downlink outer-loop power control in compressed mode
3.5.0

RP-10
RP-000570
537
1

Correction in the use of "U-RNTI Short"
3.5.0

RP-10
RP-000570
538


Corrections related to UE Timing
3.5.0

RP-10
RP-000570
539


Corrections to SFN-SFN definition
3.5.0

RP-10
RP-000570
541
1

Corrections to definition and use of Activation Time
3.5.0

RP-10
RP-000570
542


Corrections to logical channel priorities
3.5.0

RP-10
RP-000570
543
1

Correction to codec negotiation 
3.5.0

RP-10
RP-000570
544
1

CFN-SFN observed time difference measurement 
3.5.0

RP-10
RP-000570
545
1

Correction to timing indication for hard handover 
3.5.0

RP-10
RP-000570
546
1

UE Radio Access Capability Corrections 
3.5.0

RP-10
RP-000570
548
1

RRC establishment and paging causes for NAS signalling
3.5.0

RP-10
RP-000570
549


Corrections to Intra-frequency measurements and Traffic volume measurements
3.5.0

RP-10
RP-000570
551
1

PRACH/RACH System information
3.5.0

RP-10
RP-000570
553
1

GSM Measurement reporting
3.5.0

RP-10
RP-000570
554
1

BLER measurement and quality target
3.5.0

RP-10
RP-000570
556
1

Clarification of PDCP sequence number window terminology
3.5.0

RP-10
RP-000570
559
1

Clarification on Error Handling
3.5.0

RP-10
RP-000570
560


Removal of compressed mode measurement purpose "other"
3.5.0

RP-10
RP-000570
561


Clarification of compressed mode measurement purpose "GSM"
3.5.0

RP-10
RP-000570
564
2

Reporting multiple GSM cells
3.5.0

RP-10
RP-000571
566
1

Number of RLs that can be removed in Active Set update
3.5.0

RP-10
RP-000571
568
1

Clarification on Segment Index
3.5.0

RP-10
RP-000571
571
3

RRC procedure performance requirements
3.5.0

RP-10
RP-000571
572
1

Correction of newInterSystemCellList and MeasurementControlSysInfo in ASN.1
3.5.0

RP-10
RP-000571
573
4

Removal of Flow Id concept while maintaining Iu interface flexibility
3.5.0

RP-10
RP-000571
574
2

Ciphering and reset
3.5.0

RP-10
RP-000571
575
1

Corrections and clarifications concerning inter-RAT change procedures
3.5.0

RP-10
RP-000571
576
1

General Security Clarifications
3.5.0

RP-10
RP-000571
577


Clarification on RB 0
3.5.0

RP-10
RP-000571
578


Clarification on the transition of RRC state
3.5.0

RP-10
RP-000571
580
1

UP measurements for RRC information to target RNC
3.5.0

RP-10
RP-000571
581


Correction on LCS reporting criteria
3.5.0

RP-10
RP-000574
583
1

CSICH Corrections
3.5.0

RP-10
RP-000571
584
1

Clarification to handling of satellite health issues
3.5.0

RP-10
RP-000571
585


Clarification on activation time
3.5.0

RP-10
RP-000571
586


Clarification on activation time for ciphering in TM
3.5.0

RP-10
RP-000571
587
2

Measurement procedures and messages
3.5.0

RP-10
RP-000571
590
1

Inter-RAT UE radio access capability
3.5.0

RP-10
RP-000571
592
1

Clarification on cell update/URA update procedures
3.5.0

RP-10
RP-000571
595
4

Protocol States and Process
3.5.0

RP-10
RP-000571
596
1

System Information
3.5.0

RP-10
RP-000715
597
5

RRC Connection Management Procedures, Generic procedures and actions
3.5.0

RP-10
RP-000572
598
1

Paging Procedures
3.5.0

RP-10
RP-000572
599


NAS signalling Procedures
3.5.0

RP-10
RP-000572
600
3

Radio Bearer Control Procedures
3.5.0

RP-10
RP-000572
601
1

Corrections to the Counter Check Procedure
3.5.0

RP-10
RP-000572
602


Tabular Information and ASN.1
3.5.0

RP-10
RP-000572
604
2

Corrections to Measurement Occasion concept
3.5.0

RP-10
RP-000572
606


Corrections concerning optimisation of RB information
3.5.0

RP-10
RP-000572
608
1

Corrections to security
3.5.0

RP-10
RP-000572
609
1

Ciphering activation time for DPCH
3.5.0

RP-10
RP-000572
610


Confirmation of signalling connection establishment
3.5.0

RP-10
RP-000572
611
2

RACH Sub-channel signalling
3.5.0

RP-10
RP-000572
613
2

Assistance data delivery for UP
3.5.0

RP-10
RP-000572
614
1

Clarification of LCS measurements
3.5.0

RP-10
RP-000572
615
2

Configuration of RLC PDU sizes for logical channels
3.5.0

RP-10
RP-000574
616


PICH power offset for TDD
3.5.0

RP-10
RP-000572
617


Correction for PDSCH power control for TDD
3.5.0

RP-10
RP-000574
618


Usage of dynamic spreading factor in uplink
3.5.0

RP-10
RP-000572
619


Correction of Midamble Shift for Burst Type 3
3.5.0

RP-10
RP-000572
621


Correction of text concerning Scheduling of System Information
3.5.0

RP-10
RP-000572
622
1

Alignment of GSM'99 BA Range concept and its inclusion in UTRA
3.5.0

RP-10
RP-000572
623
1

Clarification of RB mapping info
3.5.0

RP-10
RP-000572
624
1

Correction to UE multi-RAT capability
3.5.0

RP-10
RP-000573
625


Correction to PDCP sequence number exchange during hard handover
3.5.0

RP-10
RP-000573
628
2

DCH Quality Target
3.5.0

RP-10
RP-000573
629
1

Simultaneous release of RBs and signalling connection
3.5.0

RP-10
RP-000573
630


Correction on Transport Channel Reconfiguration
3.5.0

RP-10
RP-000573
631


Limitation of DRX cycle length
3.5.0

RP-10
RP-000574
632


Signalling of the alpha value in TDD for open loop power control
3.5.0

RP-10
RP-000573
633


Support for improved compressed mode handling for TDD measurements
3.5.0

RP-10
RP-000573
636


Usage of secondary CPICH and secondary scrambling code
3.5.0

RP-10
RP-000573
639


Expiration time of SIB type 7, 14
3.5.0

RP-10
RP-000573
640


Correction to integrity protection
3.5.0

RP-10
RP-000684
641


Downlink Outer Loop Control
3.5.0
03/2001
RP-11
RP-010029
642
2

RL Failure in cell update procedure
3.6.0

RP-11
RP-010029
645
1

Clarification on COUNTER CHECK
3.6.0

RP-11
RP-010029
646
2

Traffic Volume Measurement corrections
3.6.0

RP-11
RP-010029
650
2

Reserved TFCI for the TDD Special Burst
3.6.0

RP-11
RP-010029
653


Correction to description of RRC state transitions
3.6.0

RP-11
RP-010029
657


RLC re-establish correction
3.6.0

RP-11
RP-010029
658
1

Removal of RLC logical channel mapping indicator
3.6.0

RP-11
RP-010029
659


New paging and establishment cause "Unknown"
3.6.0

RP-11
RP-010029
660
1

Miscellaneous procedure corrections
3.6.0

RP-11
RP-010029
661


Corrections to compressed mode pattern sequence handling
3.6.0

RP-11
RP-010029
662


Inter-system change clarifications
3.6.0

RP-11
RP-010029
663
1

RLC status transmission in CELL_PCH and URA_PCH
3.6.0

RP-11
RP-010029
665
1

Clarification of RB information parameter values for SRB0
3.6.0

RP-11
RP-010029
666


Encoding for RRC- container
3.6.0

RP-11
RP-010029
667
2

Update of message extension and encoding descriptions
3.6.0

RP-11
RP-010032
668
4

Introduction of default pre-defined configurations
3.6.0

RP-11
RP-010029
669
2

Security corrections
3.6.0

RP-11
RP-010029
670


Clarifications on Blind Handover Support
3.6.0

RP-11
RP-010029
671
1

Missing descriptions of UE actions
3.6.0

RP-11
RP-010029
672
2

Corrections on UE Positioning information
3.6.0

RP-11
RP-010029
674
1

Security related corrections to SRNS
3.6.0

RP-11
RP-010032
675
2

Downlink power offsets
3.6.0

RP-11
RP-010274
676
2

Checking the integrity of UE security capabilities
3.6.0

RP-11
RP-010030
678
1

Clarification to Secondary CCPCH info
3.6.0

RP-11
RP-010030
679
1

Miscellaneous corrections
3.6.0

RP-11
RP-010030
680


Removal of Layer 3 filtering for RACH
3.6.0

RP-11
RP-010030
681
2

Correction of compressed mode parameters
3.6.0

RP-11
RP-010030
682


Removal of immediate cell evaluation
3.6.0

RP-11
RP-010030
684
2

Scheduling of SIB 15.2 and SIB 15.3
3.6.0

RP-11
RP-010030
685
1

Correction to ECN modules
3.6.0

RP-11
RP-010030
686
1

Improvement of the description of timing advance for TDD
3.6.0

RP-11
RP-010030
687


Correction on timing advance and allocation for shared channels
3.6.0

RP-11
RP-010030
688
1

Clarification on SF 1 signalling
3.6.0

RP-11
RP-010030
689
1

Correction to power control in TDD 
3.6.0

RP-11
RP-010030
690


Midamble - Channelisation code association for TDD 
3.6.0

RP-11
RP-010030
691


Network requested reporting for physical shared channel allocation 
3.6.0

RP-11
RP-010030
693


System Information
3.6.0

RP-11
RP-010030
694
1

Clarification on Transport Channel Identity
3.6.0

RP-11
RP-010030
696
1

Editorial Correction
3.6.0

RP-11
RP-010030
698
2

Correction to add coding of intra domain NAS node selector
3.6.0

RP-11
RP-010030
700
1

Corrections to system information block characteristics in TDD
3.6.0

RP-11
RP-010030
701
2

ASN.1 corrections
3.6.0

RP-11
RP-010030
702
2

Measurement related corrections
3.6.0

RP-11
RP-010031
703
1

Clarifications on TFC Control procedure
3.6.0

RP-11
RP-010031
704
2

Association of PLMN ID to neighbour cells
3.6.0

RP-11
RP-010031
705
1

TFCS Selection Guidelines
3.6.0

RP-11
RP-010031
710


Special Burst Scheduling During DTX in TDD
3.6.0

RP-11
RP-010031
711
1

Radio Link Failure Criteria in TDD
3.6.0

RP-11
RP-010031
712
1

Correction & Clarification to TDD RACH Subchannels
3.6.0

RP-11
RP-010031
713
1

Number of retransmission of RRC CONNECTION REQUEST
3.6.0

RP-11
RP-010031
714


Uplink Frequency Notification
3.6.0

RP-11
RP-010031
715


Clarification of Radio Bearer Mapping for DCH/DSCH Transport Channels
3.6.0

RP-11
RP-010031
716


Correction of mismatches between tabular and ASN.1
3.6.0

RP-11
RP-010031
717


Correction to discontinuous reception in TDD
3.6.0

RP-11
RP-010031
718


Power control preamble
3.6.0

RP-11
RP-010031
719


Maximum number of AM entity
3.6.0

RP-11
RP-010031
720
1

Real-time Integrity Broadcast
3.6.0

RP-11
RP-010031
721
3

Moving Real-time Integrity description to different chapter
3.6.0

RP-11
RP-010031
723
1

Removal of the payload unit concept
3.6.0

RP-11
RP-010031
724


Security related corrections to SRNS
3.6.0

RP-11
RP-010031
725


Periodic PLMN selection correction
3.6.0

RP-11
RP-010042
683
1

Modification of "SSDT Information" IE parameters to indicate if SSDT is used in the UL only
4.0.0

RP-11
RP-010041
692
1

Idle allocation for Node B synchronisation
4.0.0

RP-11
RP-010037
706
1

Physical channel configuration information elements for 1.28 Mcps TDD
4.0.0

RP-11
RP-010037
707
2

Changes to Measurement Related Signalling and Introduction of Cell (Re)selection Parameters for 1.28Mcps TDD
4.0.0

RP-11
RP-010037
708
1

Introduction of RACH Parameters for 1.28 Mcps TDD
4.0.0

RP-11
RP-010037
709


Introduction of UE radio access capability Parameters for 1.28 Mcps TDD
4.0.0

RP-11
RP-010040
722
1

Introduction of IPDLs for TDD
4.0.0

RP-11
RP-010039
726
1

ROHC updates to RRC
4.0.0
06/2001
RP-12
RP-010311
731


Clarification of the IE 'spreading factor' in Uplink DPCH info for FDD mode
4.1.0

RP-12
RP-010311
733


Correction of UE Radio Access Capability depending on UTRAN FDD bands
4.1.0

RP-12
RP-010311
735


Clarification on Security mode control
4.1.0

RP-12
RP-010311
738


Correction of TrCH parameter handling
4.1.0

RP-12
RP-010311
740


TFC Subsets in TDD
4.1.0

RP-12
RP-010311
746


RRC containers
4.1.0

RP-12
RP-010311
748


Various corrections
4.1.0

RP-12
RP-010311
750


General error handling for system information
4.1.0

RP-12
RP-010311
752


Order of elements in strings
4.1.0

RP-12
RP-010311
754


Configuration consistency checks
4.1.0

RP-12
RP-010312
756


Compressed mode corrections
4.1.0

RP-12
RP-010312
758


Correction concerning inter-RAT procedures
4.1.0

RP-12
RP-010312
762


Measurement corrections
4.1.0

RP-12
RP-010312
764


RLC Tr Discard
4.1.0

RP-12
RP-010312
766


Annex B CPCH Correction
4.1.0

RP-12
RP-010312
768


SIB Correction for CSICH Power Offset
4.1.0

RP-12
RP-010312
770


Transfer of Last known position in case of SRNS relocation
4.1.0

RP-12
RP-010312
772


Corrections to UE Positioning measurements
4.1.0

RP-12
RP-010312
779


GSM measurements in compressed mode
4.1.0

RP-12
RP-010312
781


Correction of Activation Time in Inter-Rat HO Commands
4.1.0

RP-12
RP-010313
785


Clarification of FRESH in SRNS relocation
4.1.0

RP-12
RP-010313
789


Correction to UE timers and constants in idle mode
4.1.0

RP-12
RP-010313
793


Clarification on multiframe allocation in TDD
4.1.0

RP-12
RP-010313
795


Predefined parameters for logical channels
4.1.0

RP-12
RP-010313
797


Pathloss calculation
4.1.0

RP-12
RP-010313
799


Clarification on periodic measurement reporting
4.1.0

RP-12
RP-010313
803
1

Handling of IE PRACH TFCS and Primary CPICH/Primary CCPCH info
4.1.0

RP-12
RP-010313
805


Correction to FACH measurement occasion in TDD
4.1.0

RP-12
RP-010313
807


Clarification of L1 synchronization procedures
4.1.0

RP-12
RP-010313
809


Correction of Activation Time definition
4.1.0

RP-12
RP-010314
813


Corrections to RRC procedure performance
4.1.0

RP-12
RP-010314
815


Removal of mapping function
4.1.0

RP-12
RP-010314
817


Security clarifications
4.1.0

RP-12
RP-010314
819


Corrections to UE Positioning
4.1.0

RP-12
RP-010314
825


Definition of DPCH numbering
4.1.0

RP-12
RP-010314
827


Corrections to System Information Procedure
4.1.0

RP-12
RP-010314
829


Relation between DOFF and DPCH Frame Offset
4.1.0

RP-12
RP-010314
831


Procedures for "same as UL"
4.1.0

RP-12
RP-010314
837


Editorial and minor corrections
4.1.0

RP-12
RP-010314
839


Editorial Correction
4.1.0

RP-12
RP-010315
843


Corrections on OTDOA-IPDL specific burst parameter semantic description
4.1.0

RP-12
RP-010315
845


Error handling for messages sent from another RAT
4.1.0

RP-12
RP-010315
849


Needed TFC in the TFCS for TDD
4.1.0

RP-12
RP-010315
855


Clarification of TFCS selection guidelines
4.1.0

RP-12
RP-010315
861


Clarification of Traffic Volume measurements
4.1.0

RP-12
RP-010315
863


CFN synchronisation problems at timing re-initialised hard handover
4.1.0

RP-12
RP-010315
866


Corrections on UP Assistance Message Descriptions
4.1.0

RP-12
RP-010315
868


Correction on Area Scope of SIB 15.3
4.1.0

RP-12
RP-010315
872


Correction to AICH power offset
4.1.0

RP-12
RP-010316
875


Clarification on IE 'Downlink rate matching restriction information'
4.1.0

RP-12
RP-010316
877


Corrections on Tabular/ASN.1
4.1.0

RP-12
RP-010316
879


Corrections on Tabular and ASN.1 inconsistencies
4.1.0

RP-12
RP-010316
881


Editorial corrections on Tabular and ASN.1 inconsistencies
4.1.0

RP-12
RP-010316
883


UE Positioning corrections to ASN.1 and tabular
4.1.0

RP-12
RP-010316
885


Corrections to resolve inconsistencies between Tabular and ASN.1
4.1.0

RP-12
RP-010316
887


UE positioning OTDOA Neighbour Cell Info
4.1.0

RP-12
RP-010316
889


DRAC corrections
4.1.0

RP-12
RP-010316
893


ASN.1 Correction of IE TFCS ID
4.1.0

RP-12
RP-010316
895


Correction of IE IODE range in AGPS Positioning
4.1.0

RP-12
RP-010317
897


Correction to BurstModeParameters in IPDL
4.1.0

RP-12
RP-010317
899


Corrections on inconsistencies between Tabular and ASN.1
4.1.0

RP-12
RP-010317
901


Naming of message abstract types in ASN.1
4.1.0

RP-12
RP-010317
904


Information elements outside the extension container
4.1.0

RP-12
RP-010317
906


Correction concerning DRX cycle upon inter-RAT change towards UTRAN
4.1.0

RP-12
RP-010323
773


Corrections to IPDLs for TDD
4.1.0

RP-12
RP-010323
850
2

Correction to 1.28Mcps TDD RACH parameters and operation
4.1.0

RP-12
RP-010323
851


TFCI coding in case of 8PSK
4.1.0

RP-12
RP-010323
902
1

Structure and naming of information elements
4.1.0
09/2001
RP-13
RP-010544
0870


UL Transport Channel Type Correction
4.2.0

RP-13
RP-010544
0908


Guidelines concerning conditions, spares, defaults and correction of inconsistencies
4.2.0

RP-13
RP-010544
0910


Correction to TDD DL DPCH Common Timeslot Info
4.2.0

RP-13
RP-010544
0912


TDD System Information Update in Cell_DCH
4.2.0

RP-13
RP-010544
0914


Editorial Corrections
4.2.0

RP-13
RP-010544
0916


UL DPCH Power Control Info in TDD
4.2.0

RP-13
RP-010544
0918


CN-originated paging in CELL_PCH and URA_PCH state
4.2.0

RP-13
RP-010544
0920


Corrections to UE variable handling
4.2.0

RP-13
RP-010544
0922


Inter-frequency measurements
4.2.0

RP-13
RP-010544
0924


Inter-RAT measurements
4.2.0

RP-13
RP-010671
0926
1

Intra-frequency measurements
4.2.0

RP-13
RP-010545
0928


Multiplexing configuration corrections
4.2.0

RP-13
RP-010545
0930


Reception of non-dedicated control channels mapped on FACH in CELL_FACH state
4.2.0

RP-13
RP-010545
0932


Removal of C-RNTI when entering CELL_DCH
4.2.0

RP-13
RP-010545
0935


TF and TFC set definition
4.2.0

RP-13
RP-010545
0937


Correction of remaining ASN.1/Tabular inconsistencies
4.2.0

RP-13
RP-010545
0939


CPICH Ec/N0 Range
4.2.0

RP-13
RP-010545
0941


Priorities for IDNNS coding
4.2.0

RP-13
RP-010545
0943


Dedicated pilots and S-CPICH specification related to UE specific beamforming
4.2.0

RP-13
RP-010545
0945


Security corrections
4.2.0

RP-13
RP-010546
0953


Intra-frequency measurement events for TDD corrections
4.2.0

RP-13
RP-010546
0955


Inconsistencies between ASN.1 and tabular format
4.2.0

RP-13
RP-010546
0957


TDD PICH corrections and clarifications
4.2.0

RP-13
RP-010546
0959


Messages on CCCH
4.2.0

RP-13
RP-010546
0961


Clarification of Parameter Values for Default Radio Configurations
4.2.0

RP-13
RP-010546
0963


Clarification to usage of default values in "Cell Selection and Reselection for SIB11/12Info"
4.2.0

RP-13
RP-010546
0965


Clarification of handling of System information block 14
4.2.0

RP-13
RP-010546
0967


Description of UE behaviour when receiving UE positioning related information
4.2.0

RP-13
RP-010546
0982


Clarification on periodic measurement reporting
4.2.0

RP-13
RP-010546
0984


Corrections and clarifications on Measurement procedures description
4.2.0

RP-13
RP-010547
0986


Lossless Criteria in PDCP Info
4.2.0

RP-13
RP-010547
0988


Corrections to cell reselection parameter values 
4.2.0

RP-13
RP-010547
0990


Correction to signalling connection release
4.2.0

RP-13
RP-010547
0992


Corrections to cell update procedures
4.2.0

RP-13
RP-010547
0994


PDCP configuration and PS domain configuration checks
4.2.0

RP-13
RP-010547
0996


Correction to handling of RRC transaction identifier for Cell Update, URA Update and RRC connection setup
4.2.0

RP-13
RP-010547
0998
1

Correction of UE capabilities regarding Rx-Tx time difference type 2 measurement
4.2.0

RP-13
RP-010547
1000


Correction to handling of IE 'Downlink info for each radio link'
4.2.0

RP-13
RP-010547
1004


Redundant IE in Traffic volume measurement system information
4.2.0

RP-13
RP-010547
1006


Editorial corrections 
4.2.0

RP-13
RP-010548
1008


MAC logical channel priority added to definition of RB0 and SHCCH
4.2.0

RP-13
RP-010548
1010


Control of primary CCPCH RSCP measurement in PUSCH CAPACITY REQUEST message
4.2.0

RP-13
RP-010548
1014


Various minor corrections
4.2.0

RP-13
RP-010548
1016


Range of T312
4.2.0

RP-13
RP-010548
1018


Bitstring of channelisationCodeIndices
4.2.0

RP-13
RP-010548
1020


Transmission of UE CAPABILITY INFORMATION message
4.2.0

RP-13
RP-010548
1022


Multiple UE capabilities procedures
4.2.0

RP-13
RP-010548
1024


Corrections to information elements outside the extension container
4.2.0

RP-13
RP-010548
1026


SFN reporting
4.2.0

RP-13
RP-010548
1028


TFCI combining indicator
4.2.0

RP-13
RP-010549
1030


RLC reset on a Signalling Radio Bearer
4.2.0

RP-13
RP-010549
1034


Quality Indication for UE Positioning Parameters
4.2.0

RP-13
RP-010549
1036


Editorial Correction for UE Positioning
4.2.0

RP-13
RP-010549
1038


Clarification on the current status of ciphering 
4.2.0

RP-13
RP-010549
1048


Clarification on HFN initialization at SRB and RB setup
4.2.0

RP-13
RP-010549
1050


Clarification on Inter-RAT measurement
4.2.0

RP-13
RP-010549
1052


Clarification on re-assembly of segments
4.2.0

RP-13
RP-010549
1062


Minor Corrections
4.2.0

RP-13
RP-010549
1066


Support of dedicated pilots for channel estimation
4.2.0

RP-13
RP-010549
1068


Correction to SRNS relocation handling
4.2.0

RP-13
RP-010550
1076


Correction to RLC state variables
4.2.0

RP-13
RP-010550
1082


Reading of CN information in SIB 1 inRRC Connected Mode
4.2.0

RP-13
RP-010550
1086


Restricting the maximum amount of preconfigurations in case of equivalent PLMNs
4.2.0

RP-13
RP-010554
0933


Order of bits in bitstrings
4.2.0

RP-13
RP-010554
0946


Selection of the RFC3095 CID transmission
4.2.0

RP-13
RP-010554
0970


Correction of IPDL parameters for TDD enhancements in ASN.1 description
4.2.0

RP-13
RP-010554
0971
1

1.28 Mcps TDD PICH, Midamble and UL timing advance control corrections
4.2.0

RP-13
RP-010554
0972


Introduction of 1.28 Mcps TDD Mode in clause 13.7
4.2.0

RP-13
RP-010554
0973


Tadv in 1.28 Mcps TDD
4.2.0

RP-13
RP-010554
0974


Correction and clarification to PRACH in 1.28 Mcps TDD
4.2.0
10/2001
-
-
-


Replacement of incorrect (R'99) version of ASN.1 by correct (Rel-4) version of ASN.1.
4.2.1
12/2001
RP-14
RP-010763
1088


Corrections to RRC information containers
4.3.0

RP-14
RP-010763
1090


Removal of Block SSTD
4.3.0

RP-14
RP-010763
1098


COUNT-C-SFN frame difference measurement
4.3.0

RP-14
RP-010763
1100


Trigger for deletion of ciphering and integrity keys
4.3.0

RP-14
RP-010763
1102


Correction to P_compensation calculation for GSM neighbour cells
4.3.0

RP-14
RP-010763
1104


Preconfigurations in case of equivalent PLMNs
4.3.0

RP-14
RP-010763
1109


Handling of DRX cycle and U-RNTI in RRC connection setup and handling of TrCH information
4.3.0

RP-14
RP-010763
1111


Correction to Information Element names
4.3.0

RP-14
RP-010763
1113


Correction of Description of IE "SSDT Information"
4.3.0

RP-14
RP-010763
1115


Clarification on Cell Identity and correction to reference to BAND_INDICATOR
4.3.0

RP-14
RP-010764
1117


Clarification to Measured Results on RACH and Measurement Events
4.3.0

RP-14
RP-010764
1119


Inconsistency between ASN.1 and tabular wrt. RPLMN information
4.3.0

RP-14
RP-010764
1124


General clarification on Establishment of Access Service Classes
4.3.0

RP-14
RP-010764
1126


Clarification on TX diversity indicator IE and STTD indicator IE
4.3.0

RP-14
RP-010764
1132


Different diversity modes used in the same active set
4.3.0

RP-14
RP-010764
1134


Issues regarding signalling connection establishment and RRC connection release
4.3.0

RP-14
RP-010764
1136


Presence of AC to ASC mapping in SIB5 and SIB6
4.3.0

RP-14
RP-010764
1138


RRC establishment cause at inter-RAT cell change order to UTRAN
4.3.0

RP-14
RP-010764
1142


Start of timers at radio link failure
4.3.0

RP-14
RP-010765
1144


Handling of the number of FBI bits sent in Uplink DPCH info
4.3.0

RP-14
RP-010765
1146


Bit string order when using PER
4.3.0

RP-14
RP-010765
1148


Clarification on DRX cycle length in connected mode
4.3.0

RP-14
RP-010765
1152


Correction to error condition on downlink information for each radio link
4.3.0

RP-14
RP-010765
1154


Correction of inconsistencies between tabular and ASN.1
4.3.0

RP-14
RP-010765
1156


Measurement related corrections
4.3.0

RP-14
RP-010765
1158


Inconsistency between hard-coded preconfigurations parameters and procedure text
4.3.0

RP-14
RP-010765
1166


PLMN search in CELL_PCH/URA_PCH states with 80ms DRX cycle
4.3.0

RP-14
RP-010765
1168


Correction to CFN calculation for FDD
4.3.0

RP-14
RP-010765
1170


Correction to radio bearer control
4.3.0

RP-14
RP-010766
1172


Handling of IE "frequency info"
4.3.0

RP-14
RP-010766
1174


Correction to Radio Bearer Release
4.3.0

RP-14
RP-010940
1178
1

Correction to RACH reporting
4.3.0

RP-14
RP-010766
1180


Correction to URA/Cell update and other minor corrections
4.3.0

RP-14
RP-010766
1182


Correction to Active Set Update
4.3.0

RP-14
RP-010766
1184


Correction of Traffic Volume Measurement Criteria
4.3.0

RP-14
RP-010941
1186
1

Correction of UE Positioning
4.3.0

RP-14
RP-010766
1203


Invalid RRC CONNECTION REJECT
4.3.0

RP-14
RP-010766
1214


Security baseline for corrections
4.3.0

RP-14
RP-010766
1220


Pending integrity protection activation time for UL RB0
4.3.0

RP-14
RP-010767
1222


Correction of rate matching restriction function
4.3.0

RP-14
RP-010773
1096


Usage of UM RLC Special Length Indicator
4.3.0

RP-14
RP-010773
1120


Corrections to REL-4 LCR Tabular Description and ASN1 Code
4.3.0

RP-14
RP-010773
1199


Correction of FPACH parameter definition for 1.28Mcps TDD
4.3.0

RP-14
RP-010773
1200


Correction of 1.28Mcps TDD
4.3.0

RP-14
RP-010773
1201


Correction and Clarification to Open Loop Power Control in 1.28 Mcps TDD
4.3.0

RP-14
RP-010773
1206


Extensions of IE value ranges in tabular
4.3.0
03/2002
RP-15
RP-020070
1229


Constant value range correction for DPCH and PUSCH in TDD mode
4.4.0

RP-15
RP-020070
1231


Corrections to open loop power control for TDD and RB information parameters for SHCCH
4.4.0

RP-15
RP-020070
1233


Removal of unnecessary replication of TFCS ID in Physical Shared Channel Allocation message
4.4.0

RP-15
RP-020070
1237


Correction to TF selection when using UL RLC TM
4.4.0

RP-15
RP-020070
1239


Correction to the UE behaviour in case of SRNS relocation
4.4.0

RP-15
RP-020070
1241


Header Compression protocols re-initialisation during SRNS Relocation
4.4.0

RP-15
RP-020070
1243


Misalignments between tabular and ASN.1 related to UE Positioning, tabular correction
4.4.0

RP-15
RP-020070
1245


Corrections to comments in ASN.1
4.4.0

RP-15
RP-020070
1247


Correction to restarting of T308
4.4.0

RP-15
RP-020070
1249


Clarification of the use of T309 during inter-RAT cell reselections
4.4.0

RP-15
RP-020071
1251


Measurement Corrections
4.4.0

RP-15
RP-020239
1253
1

Existence of TFCI bits
4.4.0

RP-15
RP-020071
1258


Corrections of inconsistency between procedural description, tabular and ASN.1
4.4.0

RP-15
RP-020071
1260


Corrections to Expiration Time Factor and Expiration Time formula for SIB 7 and SIB 14
4.4.0

RP-15
RP-020071
1262


Corrections to Reporting Cell Status
4.4.0

RP-15
RP-020071
1268


Correction to inter frequency measurements
4.4.0

RP-15
RP-020071
1271


Actions at reception of system information block type 1
4.4.0

RP-15
RP-020071
1273


Tx diversity and no diversity in the same active set
4.4.0

RP-15
RP-020071
1275


Correction to cell update
4.4.0

RP-15
RP-020071
1277


Successful and unsuccessful procedures
4.4.0

RP-15
RP-020072
1279


Measurement related corrections
4.4.0

RP-15
RP-020072
1281


Clarifications on Event 1D
4.4.0

RP-15
RP-020205
1283
1

Security corrections
4.4.0

RP-15
RP-020072
1285


Transition from CELL_DCH to CELL_FACH state
4.4.0

RP-15
RP-020072
1287


Corrections and clarifications of Radio link timing
4.4.0

RP-15
RP-020072
1289


Spare values in ASN.1
4.4.0

RP-15
RP-020072
1294


Actions on reception of measurement related IEs
4.4.0

RP-15
RP-020231
1296
1

Removal of channel coding option "no coding" for FDD and 3.84 Mcps TDD
4.4.0

RP-15
RP-020072
1298


Timing Indication when moving to CELL_DCH state
4.4.0

RP-15
RP-020072
1307


Correction to processing RB mapping info
4.4.0

RP-15
RP-020072
1313


RRC Connection Release following network authentication failure
4.4.0

RP-15
RP-020072
1317


Clarification on serving cell in SIB11
4.4.0

RP-15
RP-020073
1319


Treatment of optional elements in RB control messages
4.4.0

RP-15
RP-020073
1323


Procedure Performance for TDD UL physical Channel Control
4.4.0

RP-15
RP-020250
1331
1

Clarification to physical channel establishment criteria
4.4.0

RP-15
RP-020249
1333
1

OTDOA Assistance Data
4.4.0

RP-15
RP-020073
1337


Retransmission of uplink direct transfer at RLC re-establishment and inter-RAT change
4.4.0

RP-15
RP-020073
1339


Correction to IE "UL interference" for UTRA TDD
4.4.0

RP-15
RP-020074
1343


Corrections of UE Positioning requirements
4.4.0

RP-15
RP-020074
1345


Multimode speech in default configurations
4.4.0

RP-15
RP-020073
1347


Correction to UE Id for DSCH
4.4.0

RP-15
RP-020073
1349


Corrections to support combined Cell/URA update and SRNS relocation
4.4.0

RP-15
RP-020073
1351


Number of UTRAN and Inter-RAT frequencies
4.4.0

RP-15
RP-020073
1353


Abortion of signalling connection establishment
4.4.0

RP-15
RP-020073
1358


Modification of GPS timing representation to avoid large integers
4.4.0

RP-15
RP-020074
1360


Additional TFCS selection guidelines
4.4.0

RP-15
RP-020074
1362


Clarification of layer 3 filtering of measurements in the UE
4.4.0

RP-15
RP-020210
1364


Improved readability of procedural text
4.4.0

RP-15
RP-020228
1366


Clarification on ICS version within UE radio access capabilities
4.4.0

RP-15
RP-020233
1368


Clarification of Maximum number of TFC in the TFCS
4.4.0

RP-15
RP-020238
1370


Support of UP measurement reporting in CELL_PCH/URA_PCH
4.4.0

RP-15
RP-020082
1122
2

Correction to include Cell ID for Cell_DCH state
4.4.0

RP-15
RP-020082
1187
2

Correction of Transparent mode signalling for UL rate control
4.4.0

RP-15
RP-020082
1188
2

Introduction of default radio configurations for UMTS_AMR2 with four speech modes
4.4.0

RP-15
RP-020082
1223
1

Acquisition of PLMN identity of neighbour cells via SIB 18
4.4.0

RP-15
RP-020082
1254


Various ASN.1 Corrections
4.4.0

RP-15
RP-020082
1290


Handover from UTRAN failure
4.4.0

RP-15
RP-020082
1335


Corrections to indicate that SIB 14 is not used by 1.28 TDD
4.4.0

RP-15
RP-020084
1129
2

Support of flexible hard split mode
5.0.0

RP-15
RP-020090
1225
1

Introduction of the parameters of OTDOA with IPDL for 1.28 Mcps TDD
5.0.0

RP-15
RP-020085
1291
1

Radio link timing
5.0.0

RP-15
RP-020094
1305
2

Introduction of HSDPA
5.0.0
06/2002
RP-16
RP-020330
1373


ASN.1 Corrections
5.1.0

RP-16
RP-020330
1376


Clarification of unnecessary MP IEs in RADIO BEARER RECONFIGURATION
5.1.0

RP-16
RP-020330
1379


Correction on SIB type
5.1.0

RP-16
RP-020330
1382


Clarification to the handling of IE "Cells for measurement" received in SIB 11/12
5.1.0

RP-16
RP-020330
1385
1

Correction to Cell Update procedure
5.1.0

RP-16
RP-020330
1388


Correction to handling of FACH measurement occasion info in SIB12
5.1.0

RP-16
RP-020331
1392


Actions when optional IE "Maximum allowed UL TX power" is missing
5.1.0

RP-16
RP-020331
1395


Corrections concerning default configurations
5.1.0

RP-16
RP-020331
1398


Correction concerning when hard handover specific handling applies
5.1.0

RP-16
RP-020331
1401


Handling of variables CELL_INFO_LIST and MEASUREMENT_IDENTITY
5.1.0

RP-16
RP-020331
1404


IE "Cell Synchronisation Information"
5.1.0

RP-16
RP-020331
1407


Corrections to Cell Individual Offset
5.1.0

RP-16
RP-020332
1410


Clarification to Compressed Mode Status Info
5.1.0

RP-16
RP-020332
1413


Clarification of OTDOA quality figure
5.1.0

RP-16
RP-020332
1416


Correction to Cell Access Restriction for SIB4
5.1.0

RP-16
RP-020332
1419


Corrections concerning spare values and comments
5.1.0

RP-16
RP-020332
1423


Variable for shared channel configurations
5.1.0

RP-16
RP-020332
1426
1

Integrity protection on RB0
5.1.0

RP-16
RP-020333
1429
1

Periodic cell update clarifications
5.1.0

RP-16
RP-020333
1432


Multiple cells triggering event 1D
5.1.0

RP-16
RP-020333
1435


Disjoint Active Sets in the Active Set Update procedure
5.1.0

RP-16
RP-020333
1438


Deletion on compressed mode patterns when moving to CELL_FACH state
5.1.0

RP-16
RP-020333
1441


TDD C-RNTI in Cell DCH
5.1.0

RP-16
RP-020333
1444
1

CCTrCH Release in TDD
5.1.0

RP-16
RP-020334
1447


Layer 3 retransmission of SIGNALLING CONNECTION RELEASE INDICATION
5.1.0

RP-16
RP-020334
1450


Alignment of tabular and ASN.1 for UTRAN GPS timing of cell frames resolution
5.1.0

RP-16
RP-020334
1453


Correction to Default Radio Configuration Timers
5.1.0

RP-16
RP-020334
1456


Clarification to number of L3 filters
5.1.0

RP-16
RP-020334
1459
1

Correction to 3G to 2G Inter-RAT handover for multi-domain RABs
5.1.0

RP-16
RP-020334
1462


DCH quality target
5.1.0

RP-16
RP-020335
1465


Correction to RB Mapping Info
5.1.0

RP-16
RP-020335
1468
1

Ciphering activation for TM bearers
5.1.0

RP-16
RP-020335
1471


TFCS selection guideline correction
5.1.0

RP-16
RP-020382
1480
1

Clarification of Measurement Validity and Valid Measurement Objects
5.1.0

RP-16
RP-020363
1483


Remaining clarification of Measurement Validity and Valid Measurement Objects
5.1.0

RP-16
RP-020381
1486
1

Traffic Volume Measurement clarifications
5.1.0

RP-16
RP-020335
1489


Correction to handling of IE 'Downlink information for each RL'
5.1.0

RP-16
RP-020336
1492


Corrections to Security procedure on Missing integrity protection reset on relocation and counter check response actions for asymmetric bearer configurations
5.1.0

RP-16
RP-020336
1495


Corrections to cell update interactions with security and SRNS Relocation
5.1.0

RP-16
RP-020336
1498


"Out of service" area definition
5.1.0

RP-16
RP-020339
1473


RRC connection release procedure in CELL_DCH state
5.1.0

RP-16
RP-020339
1475


Correction to DL TM DCCH TF size for Default Configurations
5.1.0

RP-16
RP-020339
1477


Corrections in ASN.1 related to SRNS relocation
5.1.0

RP-16
RP-020341
1499


HS-DSCH related corrections
5.1.0

RP-16
RP-020341
1500


Removal of BLER threshold from IE "Measurement Feedback info"
5.1.0

RP-16
RP-020345
1501


RFC 3095 context relocation
5.1.0
09/2002
RP-17
RP-020541
1504
1

UE behaviour when active set cells are not included in CELL_INFO_LIST
5.2.0

RP-17
RP-020541
1507
1

Corrections to handling of IE "Cells for measurement"
5.2.0

RP-17
RP-020541
1510


Clarification on the use of UE radio access capability extensions within the INTER RAT HANDOVER INFO message
5.2.0

RP-17
RP-020541
1513


Correction to RRC connection procedure
5.2.0

RP-17
RP-020541
1516


Correction to the variable TGPS_IDENTITY
5.2.0

RP-17
RP-020541
1522


Missing IEs in RLC info 
5.2.0

RP-17
RP-020542
1528
1

Corrections of UE internal measurement reporting events
5.2.0

RP-17
RP-020542
1531
2

UE behaviour upon reception of reconfiguration
5.2.0

RP-17
RP-020542
1534


Application of integrity keys in case of a pending CN domain switch during a SRNS relocation
5.2.0

RP-17
RP-020542
1537
1

Clarifications on Quality Measurements
5.2.0

RP-17
RP-020542
1540


Correction of DPCH constant value in TDD default radio configurations
5.2.0

RP-17
RP-020542
1543


Handling of UE internal measurement information in broadcast
5.2.0

RP-17
RP-020543
1546


Observed time difference to GSM reporting indicator
5.2.0

RP-17
RP-020543
1551


Corrections on Security relative to ciphering of TM bearers and to SRNS relocation
5.2.0

RP-17
RP-020543
1554


Coding of IE NC mode
5.2.0

RP-17
RP-020543
1557


Clarification to filtered measurement quantities
5.2.0

RP-17
RP-020543
1560


Inconsistencies in triggering and reporting for events 1a, 1b,1c, 1e and 1f
5.2.0

RP-17
RP-020543
1563
1

Optional and Mandatory fields in Measurement Control
5.2.0

RP-17
RP-020544
1566


Clarifications to Reporting Cell Status
5.2.0

RP-17
RP-020544
1569


Clarification to minimum SF
5.2.0

RP-17
RP-020544
1572


Clarifications to inter-frequency measurements
5.2.0

RP-17
RP-020544
1578
2

Ciphering when HO to UMTS of signalling only connection
5.2.0

RP-17
RP-020544
1581


Inter RAT handover from UTRAN
5.2.0

RP-17
RP-020544
1584


Correction to Cell Update procedure with cause "Radio link failure"
5.2.0

RP-17
RP-020545
1587


Correction to the handling of IE "UTRAN DRX cycle length coefficient" in CELL/URA UPDATE procedure
5.2.0

RP-17
RP-020545
1590


Correction to RLC unrecoverable error occurs in CELL_DCH state
5.2.0

RP-17
RP-020545
1593


Use of scrambling change when activating CM pattern using SF/2 by measurement control
5.2.0

RP-17
RP-020545
1596


Actions when optional IE "Maximum allowed UL TX power" is missing
5.2.0

RP-17
RP-020630
1599
1

IP_offset correction
5.2.0

RP-17
RP-020545
1602


Clarification on the IE "Frequency Info"
5.2.0

RP-17
RP-020546
1605


Correction of RNTI used in PUSCH capacity request and physical shared channel allocation
5.2.0

RP-17
RP-020546
1608


Correction to allowed logical channel list choice for RACH transport channels
5.2.0

RP-17
RP-020654
1611
1

Clarification of SRNS Relocation Info
5.2.0

RP-17
RP-020546
1614


DCH quality target
5.2.0

RP-17
RP-020546
1617


Handling of variables CELL_INFO_LIST and MEASUREMENT_IDENTITY(2)
5.2.0

RP-17
RP-020546
1620
1

Correction of secondary CCPCH selection and PRACH selection
5.2.0

RP-17
RP-020547
1623


RRC TVM Corrections
5.2.0

RP-17
RP-020547
1626


Correction of Transmission Gap Distance semantics description
5.2.0

RP-17
RP-020547
1629


Corrections to Active Set Update and simultaneous reconfiguration
5.2.0

RP-17
RP-020547
1632


UE behaviour following RLC size change
5.2.0

RP-17
RP-020547
1635


RRC SN in uplink
5.2.0

RP-17
RP-020547
1638


Multiplexing of Tr mode RBs of different CN domains on the same transport channel
5.2.0

RP-17
RP-020548
1641


Security clarifications
5.2.0

RP-17
RP-020548
1644


Correction to the actions of "out of service area" and "in service area"
5.2.0

RP-17
RP-020548
1647


TVM: pending time after trigger and initial conditions
5.2.0

RP-17
RP-020548
1650
1

Handling of Downlink information for each RL in reconfiguration messages
5.2.0

RP-17
RP-020548
1655


Corrections to Cell Update/URA Update Procedure in case of nested cell updates and simultaneous SRNS relocation
5.2.0

RP-17
RP-020548
1670


Corrections to security
5.2.0

RP-17
RP-020631
1673
1

SRNS relocation with integrity
5.2.0

RP-17
RP-020549
1676


Reception of MEASUREMENT CONTROL in state CELL_FACH
5.2.0

RP-17
RP-020549
1679


Unsupported configuration
5.2.0

RP-17
RP-020549
1682


Handover corrections
5.2.0

RP-17
RP-020558
1575
1

Correction of SFN-SFN Measurement
5.2.0

RP-17
RP-020559
1661


Corrections to Synchronisation for 1.28 Mcps TDD
5.2.0

RP-17
RP-020553
1657


Corrections on Power Control for 1.28 Mcps TDD
5.2.0

RP-17
RP-020553
1659


Correction to RLC entity re-establishment during SRNS relocation
5.2.0

RP-17
RP-020553
1663


Reintroduction of IE "SRB delay" in Rel-4 ASN.1
5.2.0

RP-17
RP-020553
1665


Corrections to ASN.1 for SRNC relocation container
5.2.0

RP-17
RP-020553
1667


Unused elements in ASN.1
5.2.0

RP-17
RP-020557
1547


Correction on Radio link timing
5.2.0

RP-17
RP-020662
1651
2

Physical layer IEs for HSDPA
5.2.0

RP-17
RP-020557
1652


Transport channel information elements for HSDPA
5.2.0

RP-17
RP-020590
1683


TX diversity on radio links in the active set
5.2.0

RP-17
RP-020557
1684


Mandatory Support of dedicated pilots for channel estimation
5.2.0
12/2002
RP-18
RP-020721
1687


Corrections to IEs "Ellipsoid point with Altitude and uncertainty Ellipsoid" and "Ellipsoid point with uncertainty Ellipse"
5.3.0

RP-18
RP-020721
1690
1

Handling of Ciphering and integrity protection activation times
5.3.0

RP-18
RP-020721
1693


Handling of measurements at state transitions to/from DCH state.
5.3.0

RP-18
RP-020721
1696
2

Measurement related corrections
5.3.0

RP-18
RP-020721
1699


ASN.1 of the SRNS relocation info
5.3.0

RP-18
RP-020721
1710
1

Corrections to PRACH selection
5.3.0

RP-18
RP-020722
1713


TDD Downlink Path Loss for interfrequency measurement
5.3.0

RP-18
RP-020892
1716
1

Correction on coding of GSM Classmark 2 and 3
5.3.0

RP-18
RP-020722
1719


Correction on Frame Allocation Calculation
5.3.0

RP-18
RP-020722
1722


Inter-frequency measurements
5.3.0

RP-18
RP-020722
1725


Maximum Allowed UL TX Power
5.3.0

RP-18
RP-020722
1728


START values for the initialisation of SRB counters and UTRAN incorrect actions
5.3.0

RP-18
RP-020723
1731


Correction to the RRC transaction table management
5.3.0

RP-18
RP-020723
1803


Use of DCH Quality Target with Blind Transport Format Detection
5.3.0

RP-18
RP-020723
1742


Correction to storing current TFC subset in variable TFC_SUBSET for TDD
5.3.0

RP-18
RP-020723
1745


Security at inter-RAT handover
5.3.0

RP-18
RP-020723
1748


Integrity protection activations times
5.3.0

RP-18
RP-020723
1751


Additional measurements
5.3.0

RP-18
RP-020724
1754


DPCH compressed mode info in Downlink information common for all RLs
5.3.0

RP-18
RP-020724
1757
1

Handling of RB mapping
5.3.0

RP-18
RP-020724
1766


RLC window size in default configurations
5.3.0

RP-18
RP-020724
1769


Corrections to Activation time
5.3.0

RP-18
RP-020724
1772


Numbering of "ASC Setting" IEs included in "PRACH partitioning" IE
5.3.0

RP-18
RP-020724
1779
2

Correction on support for compressed mode
5.3.0

RP-18
RP-020903
1734
3

Introduction of backwards compatible correction mechanism
5.3.0

RP-18
RP-020727
1776


Signalling of the timing adjustment mode for closed loop Tx diversity
5.3.0

RP-18
RP-020893
1810


Handling of hyper frame numbers
5.3.0

RP-18
RP-020726
1760
2

Early UE Specific Behaviour Information in RRC Connection Request / interRAT info
5.3.0

RP-18
RP-020858
1701


Correction of ASN1 IE "InterFreqCellInfoList-r4"
5.3.0

RP-18
RP-020858
1703


Correction of Special Burst Scheduling for TDD
5.3.0

RP-18
RP-020858
1705


Correction of measurement reporting event 6f for 1.28 Mcps TDD
5.3.0

RP-18
RP-020858
1781


Ciphering during SRNS relocation without reuse of COUNT-C
5.3.0

RP-18
RP-020858
1783


Correction to IE “Intra Domain NAS Node Selector”
5.3.0

RP-18
RP-020858
1785


Correction to PRACH selection
5.3.0

RP-18
RP-020859
1787


Correction to reporting event 6f for FDD
5.3.0

RP-18
RP-020859
1802


ASN.1 corrections
5.3.0

RP-18
RP-020859
1805


Asymmetric ROHC Configuration
5.3.0

RP-18
RP-020859
1807


Reference Cell for GSM OTD Measurement
5.3.0

RP-18
RP-020736
1707


RRC container for RFC3095 context
5.3.0

RP-18
RP-020736
1791


Correction to IE “Access stratum release indicator”
5.3.0

RP-18
RP-020736
1792


RLC capability for HSDPA
5.3.0

RP-18
RP-020736
1794


Dedicated pilot bits for HS-DSCH
5.3.0

RP-18
RP-020736
1795


Expansion of CPICH RSCP range
5.3.0

RP-18
RP-020736
1796


L3 Retransmission of event 1b
5.3.0

RP-18
RP-020736
1797


DPC mode change in ACTIVE SET UPDATE message
5.3.0

RP-18
RP-020736
1798


Correction to handling of IE 'Downlink information for each RL'
5.3.0

RP-18
RP-020896
1793
2

HSDPA parameter value ranges
5.3.0
03/2003
RP-19
RP-030103
1813


ASN.1 of the SRNS relocation Info
5.4.0

RP-19
RP-030103
1816


Correction to procedural text for Physical Shared Channel Allocation (TDD only)
5.4.0

RP-19
RP-030103
1819
1

CM and state transition related to measurements, additional measurements, virtual active set and periodic measurements
5.4.0

RP-19
RP-030103
1822


Physical channel failure and radio link re-establishment
5.4.0

RP-19
RP-030103
1825


Correction concerning bit numbering convention
5.4.0

RP-19
RP-030104
1831


Additional Measurement reporting list
5.4.0

RP-19
RP-030104
1834
2

Correction on RRC integrity protection procedure
5.4.0

RP-19
RP-030104
1837


Reporting Cell Status and Event 2A
5.4.0

RP-19
RP-030104
1840


Correction to the handling of variable TGPS_IDENTITY and IE “Triggering condition 1/2”
5.4.0

RP-19
RP-030104
1843
1

Hard handover with pending ciphering activation times
5.4.0

RP-19
RP-030105
1846


Correction of default configurations
5.4.0

RP-19
RP-030105
1849


Correction to UE behaviour on entering RRC Connected mode
5.4.0

RP-19
RP-030105
1855


Update of Start values in USIM on inter-RAT transitions and transitions to idle mode
5.4.0

RP-19
RP-030082
1858


Corrections to Channelisation Code TFCI Mapping for TDD
5.4.0

RP-19
RP-030111
1860


Correction of PNBSCH for 1.28Mcps TDD
5.4.0

RP-19
RP-030111
1862


Correction of SFN-SFN observed time difference for 1.28Mcps TDD
5.4.0

RP-19
RP-030111
1864
3

ASN.1 corrections concerning missing UE capability extensions
5.4.0

RP-19
RP-030111
1866


Extensions for 1.28 Mcps specific elements in system information
5.4.0

RP-19
RP-030111
1868


Corrections to power control parameter signalling for 1.28 Mcps TDD
5.4.0

RP-19
RP-030117
1872


TDD HS-SICH Power Control
5.4.0

RP-19
RP-030117
1873


Usage of separate scrambling code for HSDPA
5.4.0

RP-19
RP-030119
1874


TDD HS-DSCH midamble shift and burst type
5.4.0

RP-19
RP-030117
1875


Corrections to the IE "Added or Reconfigured MAC-d flow" and the associated table in 10.3.10
5.4.0

RP-19
RP-030117
1877
1

Network Assisted Cell Change from UTRAN to GERAN
5.4.0

RP-19
RP-030117
1878
1

Defining more than one DSCH / USCH transport channel in PDSCH and PUSCH system information (TDD only)
5.4.0

RP-19
RP-030117
1879


Introducing the use of pre-defined configurations within UTRA
5.4.0

RP-19
RP-030120
1880


Group release (without security
5.4.0

RP-19
RP-030105
1884


Correction to Inter-RAT Measurement Report
5.4.0

RP-19
RP-030106
1887


Correction of signalling of transport block size for DSCH
5.4.0

RP-19
RP-030106
1890


PS service continuity when moving between 3G and 2G
5.4.0

RP-19
RP-030106
1893
1

Multiple activations of the same compressed mode pattern
5.4.0

RP-19
RP-030106
1896


Setting of ciphering activation time for TM bearers
5.4.0

RP-19
RP-030117
1897


Correction of shadow CR implementation
5.4.0

RP-19
RP-030111
1899


Removal of MRRU parameter in PDCP info
5.4.0

RP-19
RP-030117
1900


Measurement event for evaluation of best HS-DSCH cel
5.4.0

RP-19
RP-030105
1902
1

NAS and Integrity procedure interaction
5.4.0

RP-19
RP-030117
1903


Correction to USBI
5.4.0

RP-19
RP-030187
1909


GPS navigation model update mechanism
5.4.0

RP-19
RP-030201
1910


Layer 3 filtering definition
5.4.0

RP-20
RP-030293
1913


Handling of UP Assistance Data
5.5.0

RP-20
RP-030293
1916
1

Concerns on Procedures for Cell-ID Positioning Method
5.5.0

RP-20
RP-030293
1919


Inconsistency between Procedural, ASN.1, and Tabular Aspects of UE Positioning Error
5.5.0

RP-20
RP-030293
1922


Removal of FFS (For further Study) and references to other working groups
5.5.0

RP-20
RP-030293
1926


Key handling when entering idle mode and coding of security capabilities
5.5.0

RP-20
RP-030293
1929


Security actions when SIM is present on RRC Connection Request
5.5.0

RP-20
RP-030294
1932


Update of interfrequency measurement cell info list, reading of SIB11/12, inclusion of Measured Results on RACH
5.5.0

RP-20
RP-030294
1937


Additional measurements without measurement validity
5.5.0

RP-20
RP-030294
1940


Handover to UTRAN in macrodiversity
5.5.0

RP-20
RP-030294
1943
1

TVM Reporting in CELL_PCH state
5.5.0

RP-20
RP-030294
1946
1

Initialisation of the Virtual Active Set
5.5.0

RP-20
RP-030295
1949


IE “Tx diversity mode” in ACTIVE SET UPDATE message
5.5.0

RP-20
RP-030295
1952
1

Correction to transport channel traffic volume measurement events 4a and 4b
5.5.0

RP-20
RP-030295
1955


Maximum Number of GPS Almanac Messages to be Stored in UE_POSITIONING_GPS_DATA
5.5.0

RP-20
RP-030374 
1958
2

Stopping of RLC entities at relocation
5.5.0

RP-20
RP-030369 
1978
4

Ciphering Mode info IE in 2G-3G Handover
5.5.0

RP-20
RP-030295
1981


START values on 2G-3G handover
5.5.0

RP-20
RP-030298
1983


ROHC profile signalling
5.5.0

RP-20
RP-030298
1959
1

Optimisation of the INTER RAT HANDOVER INFO message
5.5.0

RP-20
RP-030350
1987
2

Corrections to security procedures in case of pending security configurations at SRNS Relocation
5.5.0

RP-20
RP-030371
1990


Setting of T317 to infinity and out of service behaviour
5.5.0

RP-20
RP-030303
1960


Correction to the IE ‘HS-DSCH capability class’
5.5.0

RP-20
RP-030303
1961


Correction of “RB mapping info” in case HS-DSCH + DCH
5.5.0

RP-20
RP-030303
1963


Explanation of CV-UE for the IE MidambleShift in the tabular
5.5.0
09/2003
RP-21
RP-030484
1993


Handling of key sets at Inter-RAT Handover to UTRAN
5.6.0

RP-21
RP-030484
1996


Correction to UE Positioning privacy procedures
5.6.0

RP-21
RP-030520 
2003
2

START calculation in connected mode
5.6.0

RP-21
RP-030506 
2000
1

Reconfiguration with state transition to an indicated cell on a different frequency
5.6.0

RP-21
RP-030484
2006


PRACH channelisation code list limitation to align with TS 25.221
5.6.0

RP-21
RP-030484
2009


Handling of transport channel information at radio bearer release
5.6.0

RP-21
RP-030485
2015


Corrections for TDD for the IEs “Downlink DPCH info common for all radio links”
5.6.0

RP-21
RP-030485
2018


TFCS selection guidelines for TFC Subset
5.6.0

RP-21
RP-030485
2025


Value range of UE Rx-Tx time difference type 2 measurement
5.6.0

RP-21
RP-030485
2033


Activation Time for DSCH
5.6.0

RP-21
RP-030485
2044


Correction of PDCP Configuration for RFC 2507
5.6.0

RP-21
RP-030486
2048


Corrections to event list handling
5.6.0

RP-21
RP-030486
2051


Corrections to RACH reporting
5.6.0

RP-21
RP-030486
2054


Corrections to modification of Additional Measurement lists
5.6.0

RP-21
RP-030486
2057


UE positioning support in the UE
5.6.0

RP-21
RP-030478
2064


Elimination of EPC mechanism
5.6.0

RP-21
RP-030486
2069


UE behaviour in transition from CELL_DCH to CELL_FACH/ CELL_PCH/URA_PCH and Out of Service is detected
5.6.0

RP-21
RP-030505
2072
1

Radio link failure during reconfiguration procedure
5.6.0

RP-21
RP-030491
2020


Ciphering of TM SRBs
5.6.0

RP-21
RP-030491
2022
1

Correction on PDCP Header compression Configuration
5.6.0

RP-21
RP-030491
2027


Corrections for TDD PUSCH
5.6.0

RP-21
RP-030495
1997


Correction to UE behaviour on T317 expiry
5.6.0

RP-21
RP-030495
2029


Correcting value range of MAC-hs buffer ID
5.6.0

RP-21
RP-030495
2030


Correction of handling of IE "MAC-hs reset indicator" in Added or Reconfigured DL TrCH information
5.6.0

RP-21
RP-030495
2035
1

UE capability signalling for UMTS1800
5.6.0

RP-21
RP-030495
2039


Handover between UTRAN and GERAN Iu mode
5.6.0

RP-21
RP-030495
2040


Updated references to the RRC State Indicator IE
5.6.0

RP-21
RP-030495
2041


Corrections to Event 1D
5.6.0

RP-21
RP-030449
2028


Reconfiguration of MAC-d flow
5.6.0

RP-21
RP-030462
2061


HS-SCCH transmit diversity mode
5.6.0

RP-21
RP-030503
2066


Scrambling code & phase reference combinations for HS-DSCH (solution 2)
5.6.0
12/2003
RP-22
RP-030617
2075


Unsuccessful security mode control procedure and Integrity Protection
5.7.0

RP-22
RP-030625
2076


START value calculation for RLC size change
5.7.0

RP-22
RP-030617
2079


UE Positioning UE based assisted GPS
5.7.0

RP-22
RP-030617
2085


Handling of zero-rate TrCHs in TFCS
5.7.0

RP-22
RP-030617
2091
3

Measurement control for A-GPS
5.7.0

RP-22
RP-030621
2093


Corrections to 1.28 Mcps TDD power control: ASN1/Tabular consistency, correction of omissions
5.7.0

RP-22
RP-030621
2095


UpPCH power control for 1.28Mcps
5.7.0

RP-22
RP-030617
2102
1

Interaction between compressed mode pattern activation and message activation time
5.7.0

RP-22
RP-030625
2103


Initialisation of virtual active set
5.7.0

RP-22
RP-030611
2106
1

Correction to Redirection procedure at RRC Connection Setup
5.7.0

RP-22
RP-030610
2112
2

SFN associated with GPS timing of cell frame
5.7.0

RP-22
RP-030618
2115


Correction to Handling SIB1
5.7.0

RP-22
RP-030618
2118


Measurement Handling In State Transition for UE Positioning
5.7.0

RP-22
RP-030618
2124


Corrections to UE positioning reporting for UE assisted and UE based methods
5.7.0

RP-22
RP-030662
2127
1

SIB 7 reading
5.7.0

RP-22
RP-030662
2130


HFN initialisation in case of pending security configurations
5.7.0

RP-22
RP-030621
2132
1

General protocol error handling failure for DL CCCH messages due to ASN.1 error
5.7.0

RP-22
RP-030621
2136


Corrections relating to 1.28 Mcps TDD
5.7.0

RP-22
RP-030621
2138


Missing CHOICE RLC Info type in the ASN.1 IE ‘RB-InformationSetup-r4’
5.7.0

RP-22
RP-030625
2139
1

RRM in PCH/FACH
5.7.0

RP-22
RP-030625
2140


Correction of operating band reference
5.7.0

RP-22
RP-030713
2141
1

Re-ordering Queue and HARQ Ids
5.7.0

RP-22
RP-030625
2142


Correction to the procedural description: Reconfiguration of MAC-d flow
5.7.0

RP-22
RP-030625
2143
1

Enhancement of RRC transaction identifier for measurement control message
5.7.0

RP-22
RP-030629
2144


Inclusion of a default configuration identity for AMR-WB
5.7.0

RP-22
RP-030625
2145


TDD C-RNTI in Cell DCH
5.7.0

RP-22
RP-030662
2148


Additional Measurements List Modify
5.7.0

RP-22
RP-030625
2149


IP activation time for RB0
5.7.0

RP-22
RP-030722
2152
3

Minimum UE capability class
5.7.0

RP-22
RP-030612
2158
4

Measured results on RACH
5.7.0

RP-22
RP-030625
2159


COUNT-I reverting in case Security Mode Control procedure failure
5.7.0

RP-21
RP-030548
2034
1

Maintaining the RRC Connection while Emergency camped on a F-PLMN during OOS  (note: it was decided that this CR would not be implemented until the Rel-6 would be created)
6.0.0

RP-22
RP-030630
2133


Introduction of UMTS800
6.0.0

RP-22
RP-030721
2134
1

AS capability indication
6.0.0

RP-22
RP-030630
2160


Introduction of new bands
6.0.0


Editorial



Repair of corrupted figures
6.0.1
03/2004
RP-23
RP-040095
2168
2

Response on SRNS Relocation with Cell Update
6.1.0

RP-23
RP-040095
2172


TPC Combination Index in SRNC relocation
6.1.0

RP-23
RP-040107
2176
1

Correction to "Current TGPS Status Flag"
6.1.0

RP-23
RP-040095
2180
1

Invalidation of START value in USIM/UE.
6.1.0

RP-23
RP-040095
2184
1

Uplink Integrity protection handling in case of N302 increment
6.1.0

RP-23
RP-040095
2188
1

Amount of reporting for UE-based and UE assisted A-GPS
6.1.0

RP-23
RP-040101
2191
1

Ensuring decoding possibility related to Introduction of new bands
6.1.0

RP-23
RP-040101
2197
2

Clarification to multimode indication
6.1.0

RP-23
RP-040101
2200


Correction for 1.28 Mcps TDD Power Control
6.1.0

RP-23
RP-040101
2203


Missing "pdcp-SN-info" in ASN.1 IE "RB-InformationReconfig-r4"
6.1.0

RP-23
RP-040107
2207


Correction to HS-SCCH info
6.1.0

RP-23
RP-040107
2209


Correction to HS-SCCH info
6.1.0

RP-23
RP-040107
2213


Correction to activation time for HS-DSCH reconfiguration in TDD
6.1.0

RP-23
RP-040131
2217
3

Connected mode handling IE 'CN domain system information' in SIB1
6.1.0

RP-23
RP-040096
2221


Correction to event 6D
6.1.0

RP-23
RP-040096
2225
1

Correction to UE positioning reporting for GPS standalone operation mode
6.1.0

RP-23
RP-040092
2229


Frequency band alignment with 25.101
6.1.0

RP-23
RP-040096
2235


UTRAN setting of the activation time for TM bearers in Ciphering Mode info IE
6.1.0

RP-23
RP-040096
2239


Corrections to "Entered parameter"
6.1.0

RP-23
RP-040097
2243


Corrections to TFC Subset Functionality
6.1.0

RP-23
RP-040097
2247
1

Waiting for RLC-ACK on UMI
6.1.0

RP-23
RP-040105
2249


Invalid Simultaneous Reconfiguration Criteria
6.1.0

RP-23
RP-040101
2252
1

General correction and alignment of the ASN.1 and tabular
6.1.0

RP-23
RP-040121
2253
1

Introduction of UMTS1700/2100 (Band IV)
6.1.0

RP-23
RP-040091
2254


Introduction of UMTS850 (Band V)
6.1.0

RP-23
RP-040101
2257


Introduction of VLEC in every message branch
6.1.0

RP-23
RP-040107
2259


Simultaneous Reception of S-CCPCH and HS-DSCH
6.1.0

RP-23
RP-040107
2261


Cell reselection between UTRAN and GERAN Iu mode
6.1.0

RP-23
RP-040108
2263


HSDPA related corrections on buffer flushing on state transitions, RAT transitions, error cases, MAC-hs reconfiguration and readiness to receive HS-PDSCH
6.1.0

RP-23
RP-040106
2265
2

Signalling of MAC-hs Reset
6.1.0

RP-23
RP-040131
2267
2

Modification of Inter-frequency CELL_INFO_LIST
6.1.0

RP-23
RP-040131
2269
1

[VAS] 1B-1C conflicts when 1A is not configured
6.1.0

RP-23
RP-040131
2271
1

Handling of wait time in RRC connection reject
6.1.0

RP-23
RP-040108
2274


Misalignments between R'99 and Rel-5 procedures
6.1.0

RP-23
RP-040097
2281


Issues related to Inter-RAT and Inter-frequency handovers
6.1.0

RP-23
RP-040097
2285
1

Corrections to reconfiguration scenarios and ciphering of TM RBs
6.1.0

RP-23
RP-040110
2286
4

Addition of "cell selection indication" for cell selection at release of RRC connection and RRC connection reject with re-direction
6.1.0

RP-23
RP-040129
2288


HSDPA capability for multimode FDD-TDD terminals
6.1.0

RP-23
RP-040095
2168
2

Response on SRNS Relocation with Cell Update
6.1.0
06/2004
RP-24
RP-040203
2292


Empty non-critical extensions
6.2.0

RP-24
RP-040211
2294
1

Missing “v3g0” extension in the UE CAPABILITY INFORMATION
6.2.0

RP-24
RP-040203
2303


Correction on System Information in TDD
6.2.0

RP-24
RP-040236
2305


Corrections to Cell Change Order from UTRAN procedure
6.2.0

RP-24
RP-040206
2308


Correction on SFN-SFN time difference misalignment in 1.28 Mcps TDD
6.2.0

RP-24
RP-040207
2311


ASN.1 correction leftovers
6.2.0

RP-24
RP-040210
2313


Closing the REL-5 extensions in the ASN.1
6.2.0

RP-24
RP-040207
2316


Incorrect presence of UE-RadioAccessCapability extension in RRC CONNECTION SETUP COMPLETE
6.2.0

RP-24
RP-040210
2318


Unnecessary MAC-d flow identity in the IE “DL-TrCH-Type-r5”
6.2.0

RP-24
RP-040211
2320
1

UE capability enquiry for GERAN Iu mode
6.2.0

RP-24
RP-040207
2323


Clean up of SRNS Relocation Info REL-4 version
6.2.0

RP-24
RP-040210
2325


Tabular correction for RADIO BEARER RELEASE message
6.2.0

RP-24
RP-040210
2327


Misalignments betwen R’99 and Rel-5 procedures
6.2.0

RP-24
RP-040210
2329


Erroneous setting of Re-establsish Indicator in case of SRNS relocation
6.2.0

RP-24
RP-040207
2332


Correction to IE “Cell Info”
6.2.0

RP-24
RP-040210
2334


Correction Concerning UE Positioning Measurement
6.2.0

RP-24
RP-040236
2336


Pending compressed mode reconfigurations
6.2.0


RP-040236
2338


Active compressed mode patterns with same measurement purpose
6.2.0

RP-24
RP-040211
2340


Correction to Information Elements for UE Rx-Tx time difference
6.2.0

RP-24
RP-040210
2342


Naming correction in the HS-DSCH IE Measurement Feedback Information
6.2.0

RP-24
RP-040206
2345


Clarification about open loop power control in 1.28Mcps TDD
6.2.0

RP-24
RP-040206
2348


Clarification about measurement control system information  in  TDD mode
6.2.0

RP-24
RP-040211
2350


Correction to timing-maintained hard handover regarding the UL transmission timing
6.2.0

RP-24
RP-040236
2354
2

Selection of suitable cell
6.2.0

RP-24
RP-040236
2356


Check of the PLMN identity in the MIB when selecting a new cell
6.2.0

RP-24
RP-040211
2358


Compressed INTER RAT HANDOVER INFO message modifications/corrections
6.2.0

RP-24
RP-040215
2359


The ASN.1 definition of IE “SysInfoType5bis”
6.2.0

RP-24
RP-040224
2361


RLC size handling and RLC re-establishment
6.2.0

RP-24
RP-040212
2363


Restrict operation of the virtual active set
6.2.0

RP-24
RP-040213
2365


Usage of different RB mapping info
6.2.0

RP-24
RP-040256
2367
1

Clarification on UE procedure in case of HHO failure
6.2.0
09/2004
RP-25
RP-040327
2373


TDD misalignment between tabular and ASN.1 definitions of UL Transport channel information common for all transport channels and special burst scheduling
6.3.0

RP-25
RP-040327
2377


Definition of parameters for UE-assisted A-GPS
6.3.0

RP-25
RP-040339
2378
2

Addition of UMTS850 (Band V) in the tabular
6.3.0

RP-25
RP-040360
2381


Default Configurations for multiple AMR Rate Configurations
6.3.0

RP-25
RP-040319
2384


Correction on PRACH selection in 1.28Mcps TDD
6.3.0

RP-25
RP-040334
2386


Inconsistency in UE action for HFN initialisation
6.3.0

RP-25
RP-040334
2388


Usage of different RB mapping info for TDD
6.3.0

RP-25
RP-040334
2390


TDD HS-DSCH Corrections
6.3.0

RP-25
RP-040334
2392


Alignment of Tabular Definition with ASN.1 for HS-SCCH Info
6.3.0

RP-25
RP-040348
2394
1

Correction to HS-DSCH reception conditions
6.3.0

RP-25
RP-040334
2396


Correction to RB mapping check
6.3.0

RP-25
RP-040334
2398


Position Timestamp for A-GPS
6.3.0

RP-25
RP-040334
2400


Pending compressed mode reconfigurations
6.3.0

RP-25
RP-040335
2402


Predefined configurations for the RRC connection request
6.3.0

RP-25
RP-040335
2404


Cell update during reconfiguration from CELL_FACH to CELL_PCH
6.3.0

RP-25
RP-040335
2406


UE actions for Delta_ACK/NACK and repetition factor
6.3.0

RP-25
RP-040335
2408


Calculation of UL transmit power for HS-SICH (TDD)
6.3.0

RP-25
RP-040335
2410


Handling of Timer T302 Expiry
6.3.0

RP-25
RP-040335
2412


Correct naming for HS-DSCH with DCH multiplexing option
6.3.0

RP-25
RP-040335
2414


Compressed Pre-defined configurations description in new Annex C
6.3.0

RP-25
RP-040335
2416


Integration between integrity protection and the sending of downlink messages during SRNS relocation
6.3.0

RP-25
RP-040328
2418


Corrections to restrictions of operation of the virtual active set
6.3.0

RP-25
RP-040336
2420


UE actions for received new keys
6.3.0

RP-25
RP-040336
2422
1

Scrambling Code Change
6.3.0

RP-25
RP-040328
2428


Clarifications to VAS functionality
6.3.0

RP-25
RP-040336
2430


UE security capability in INTER_RAT handover
6.3.0

RP-25
RP-040336
2432


Correction to the Radio Link Failure behaviour
6.3.0
12/2004
RP-26
RP-040481
2434


Correction to measured results on RACH
6.4.0

RP-26
RP-040481
2436


T305 handling upon a state transition
6.4.0

RP-26
RP-040481
2438


Handling of pending AM RLC unrecoverable errors signalled by cell update
6.4.0

RP-26
RP-040476
2442


Correction to maximum length of CTCH period
6.4.0

RP-26
RP-040481
2444


TPC step size in default configurations
6.4.0

RP-26
RP-040474
2448


References to ITU-T Recommendations on ASN.1
6.4.0

RP-26
RP-040477
2451


ASN.1 clarification on Measurement Report for 1.28 Mcps TDD
6.4.0

RP-26
RP-040481
2453


Correction to HS-DSCH reception conditions
6.4.0

RP-26
RP-040481
2455
1

MAC-hs Reset procedure
6.4.0

RP-26
RP-040526 
2457
2

Cell selection and reselection parameters
6.4.0

RP-26
RP-040482
2459
1

Clarification the PDCP capability- Max HC context space
6.4.0

RP-26
RP-040482
2461


Corrections to IE “WAIT TIME” = 0
6.4.0

RP-26
RP-040482
2463
1

RRC transaction identifier in the MEASUREMENT CONTROL message
6.4.0

RP-26
RP-040482
2465


Correction to intra-frequency measurement handling in SIB11
6.4.0

RP-26
RP-040477
2468
1

Missing OTDOA TDD related v4b0 extension in MEASUREMENT CONTROL
6.4.0

RP-26
RP-040482
2470
2

Clarification of Radio Bearer Downlink Ciphering Activation Time Info
6.4.0

RP-26
RP-040520
2472
2

TFC Subset Variable Usage and Application of Transport Format Combination Subset
6.4.0

RP-26
RP-040505
2474


Use of preconfiguration in the Radio Bearer Reconfiguration message
6.4.0

RP-26
RP-040505
2476


UTRAN setting of ciphering activation time for SRB2
6.4.0

RP-26
RP-040505
2478


Correction to ASN1 IE “srb-SpecificIntegrityProtInfo”
6.4.0

RP-26
RP-040522 
2480
2

Criteria for initiating cell update on receiving “Frequency info” IE in CELL UPDATE CONFIRM message
6.4.0

RP-26
RP-040505
2482


Traffic volume measurements in PCH states
6.4.0

RP-26
RP-040505
2484


Failure cause indication on Cell Update
6.4.0

RP-26
RP-040495
2487
1

Network Sharing and multiple PLMN identities
6.4.0

RP-26
RP-040505
2493


Inter-RAT measurement control information used
6.4.0

RP-26
RP-040491
2494


ASN.1 update for the introduction of MBMS
6.4.0

RP-26
RP-040491
2495
1

Introduction of MBMS
6.4.0

RP-26
RP-040543 
2496
2

Preamble and Postamble to reduce HS-DPCCH transmit power
6.4.0

RP-26
RP-040507
2497


Introduction of E-DCH
6.4.0
03/2005
RP-27
RP-050038
2491
2

Removal of TGPL2
6.5.0

RP-27
RP-050069
2499


Minor HSDPA related corrections
6.5.0

RP-27
RP-050169
2501


Integrity protection related information in the SRNS relocation info
6.5.0

RP-27
RP-050069
2503


Number of timeslots that can be used for HS-PDSCH resource for 3.84 Mcps TDD
6.5.0

RP-27
RP-050089
2504


HS-DSCH operation without a DL DPCH for 3.84 Mcps TDD
6.5.0

RP-27
RP-050114
2506


Removal of unnecessary cell updates on receiving “Frequency info” IE in CELL UPDATE CONFIRM message
6.5.0

RP-27
RP-050069
2508


ASN.1 clarification on Cell and Channel Identity info for 1.28 Mcps TDD
6.5.0

RP-27
RP-050070
2510


Handling of TM SRB’s at radio link failure
6.5.0

RP-27
RP-050070
2513


Removal of the UARFCN uplink (Nu) in the informative Annex A.3
6.5.0

RP-27
RP-050070
2515
1

Correction on PRACH selection
6.5.0

RP-27
RP-050067
2517
3

Lossless DL RLC PDU size change
6.5.0

RP-27
RP-050069
2519


Clarification of GERAN (P)SI message coding in NACC
6.5.0

RP-27
RP-050070
2521


Unsupported RLC mode reconfigurations
6.5.0

RP-27
RP-050070
2523


Correction to Inter RAT cell info indication
6.5.0

RP-27
RP-050086
2524


Correction to network sharing functionality
6.5.0

RP-27
RP-050086
2525


Network sharing corrections
6.5.0

RP-27
RP-050110
2526
1

CN domain specific Access Class Barring
6.5.0

RP-27
RP-050081
2527


Corrections to "selected PLMN" in access stratum
6.5.0

RP-27
RP-050074
2528


Introduction of F-DPCH
6.5.0

RP-27
RP-050084
2529


Minor E-DCH related corrections
6.5.0

RP-27
RP-050079
2530
2

Miscellaneous MBMS corrections
6.5.0

RP-27
RP-050087
2532


Additional Frequency Bands
6.5.0

RP-27
RP-050084
2534


Introduction of E-DCH in the ASN.1
6.5.0

RP-27
RP-050097
2535


Improvements to uplink closed loop power control for 1.28 Mcps TDD
6.5.0

RP-27
RP-050079
2536
1

MBMS Corrections to 25.331 ASN.1
6.5.0

RP-27
RP-050128
2538
1

Correction to cell selection and reselection parameters to enable enhanced cell reselection
6.5.0
06/2005
RP-28
RP-050253
2539
3

Faster L1 DCH synchronization
6.6.0

RP-28
RP-050339
2540
3

Timing maintained hard handover
6.6.0

RP-28
RP-050320
2541
1

Removal of unnecessary Start values
6.6.0

RP-28
RP-050329
2542


Merged CR alignement w.r.t. network sharing functionality
6.6.0

RP-28
RP-050302
2545


Timing Reinitialized Handover & Radio Link Timing Adjustmen
6.6.0

RP-28
RP-050302
2547


Addition of omitted IE “report criteria” in MEASUREMENT CONTROL message “modify” command
6.6.0

RP-28
RP-050316
2548
2

Miscellaneous MBMS corrections (set II)
6.6.0

RP-28
RP-050316
2549
1

Correction to MBMS notification procedure
6.6.0

RP-28
RP-050316
2550
1

FACH Measurement Occasion when UE receives MBMS
6.6.0

RP-28
RP-050316
2551


Frequency layer dispersion
6.6.0

RP-28
RP-050303
2553
2

Signalling of target mode for ROHC operation
6.6.0

RP-28
RP-050320
2554
2

Introduction of inter-frequency RACH measurement reporting
6.6.0

RP-28
RP-050324
2555


Closed-Loop Power Control Improvements for 1.28 Mcps TDD – ASN1 Corrections
6.6.0

RP-28
RP-050322
2556


Release 6 HS-DSCH operation without a DL DPCH for 3.84 Mcps TDD – Setting of Dhs-sync
6.6.0

RP-28
RP-050320
2557
1

Correction to the Amount of Reporting
6.6.0

RP-28
RP-050320
2558


Measurement report message definition when Inter-RAT cell info indication is used
6.6.0

RP-28
RP-050320
2559


Direct transition to DCH
6.6.0

RP-28
RP-050316
2560
1

Addition of the number of MBMS Neighbour Cell PTM Information messages to the MBMS Modified Services Information message
6.6.0

RP-28
RP-050316
2561
1

Addition of MBMS counting for UEs in Cell_PCH and Cell_FACH states and addition of UE requested p-t-p bearer establishmen
6.6.0

RP-28
RP-050320
2562


Introduction of IE “RB information to reconfigure” in RB SETUP, RB RELEASE messages
6.6.0

RP-28
RP-050320
2564


Including HS-DSCH serving cell change in ASU
6.6.0

RP-28
RP-050320
2566
1

Detection of Activation CFN wraparound in the UE during HS-DSCH cell change
6.6.0

RP-28
RP-050304
2568


Correction to handling of keys at inter-RAT handove
6.6.0

RP-28
RP-050302
2572


CTFC calculation for DCH
6.6.0

RP-28
RP-050302
2574


Default RB identity in IE 'Signalling RB information to setup
6.6.0

RP-28
RP-050302
2576


Default configuration 13
6.6.0

RP-28
RP-050320
2577


UE L3 requirements for HS-DSCH mobility
6.6.0

RP-28
RP-050374
2579
3

Support for out-of-sequence PDUs in RLC-UM
6.6.0

RP-28
RP-050305
2581


Feature Clean Up: Removal of 80 ms TTI for DCH for all other cases but when the UE supports SF512
6.6.0

RP-28
RP-050306
2583


Feature Clean Up: Removal of observed time difference to GSM cell
6.6.0

RP-28
RP-050307
2585


Feature Clean Up: Removal of SSDT
6.6.0

RP-28
RP-050308
2586


Feature Clean-up: Removal of DSCH (FDD)
6.6.0

RP-28
RP-050309
2589


Feature Clean Up: Removal of CPCH
6.6.0

RP-28
RP-050310
2591


Feature Clean Up: Removal of dedicated pilot as sole phase reference
6.6.0

RP-28
RP-050311
2593


Feature Clean Up: Removal of DRAC
6.6.0

RP-28
RP-050312
2595


Feature Clean Up: Removal of TX diversity closed loop mode 2
6.6.0

RP-28
RP-050313
2597


Feature Clean Up: Removal of Compressed mode by puncturing
6.6.0

RP-28
RP-050327
2598
2

Alignment of EUDCH RRC Stage-3 to Stage-2 status, including handling of 2 E-RNTIs
6.6.0

RP-28
RP-050336
2599


Radio link failure in F-DPCH
6.6.0

RP-28
RP-050323
2600
1

Setting up F-DPCH and E-DCH in RRC connection setup
6.6.0

RP-28
RP-050316
2601
1

Validity of PtM configurations
6.6.0

RP-28
RP-050392
2602
1

CCCH message enhancements
6.6.0

RP-28
RP-050320
2604


Quality measurement corrections
6.6.0

RP-28
RP-050328
2605


Clean-up of R6 ASN.1 leftovers
6.6.0

RP-28
RP-050346
2607
2

UE behaviour for DCH SIR target setting for Downlink power control
6.6.0

RP-28
RP-050317
2608


RLC LI Optimization for VoiP
6.6.0

RP-28
RP-050316
2609
2

Introduction of an S-CCPCH power offset difference in order to improve cell selection for soft and selective combining
6.6.0

RP-28
RP-050320
2610


Erroneous implementation of CR#2501 in RRC specification v6.5.0.
6.6.0

RP-28
RP-050329
2611


Correction to network sharing
6.6.0

RP-28
RP-050316
2613


MBMS asn1 issues
6.6.0

RP-28
RP-050316
2614


SCCPCH timing offset information for FDD MBMS soft combining
6.6.0

RP-28
RP-050316
2615


MBMS corrections on signalling optimization
6.6.0
09/2005
RP-29
RP-050486
2616


Support of Domain Specific Access control in Rel-5 Ues
6.7.0

RP-29
RP-050465
2619


ASN1 update for InterRATReportingQuantity
6.7.0

RP-29
RP-050465
2621
1

IE “RB information to reconfigure” for RADIO BEARER RECONFIGURATION message
6.7.0

RP-29
RP-050465
2623


Size of TFC Subset List for Transport Format Combination Control
6.7.0

RP-29
RP-050465
2626


RB mapping rules
6.7.0

RP-29
RP-050587
2628
3

Rules for triggering hard handover
6.7.0

RP-29
RP-050465
2630


RSCP value range extension
6.7.0

RP-29
RP-050465
2632


H-RNTI validity
6.7.0

RP-29
RP-050482
2633


Removal RLC-SDU alignment capability
6.7.0

RP-29
RP-050458
2635


Feature Clean Up: Removal of DRAC
6.7.0

RP-29
RP-050458
2637


DRAC & Dedicated pilots removal leftovers (asn1)
6.7.0

RP-29
RP-050458
2639


DRAC & CPCH removal leftovers (sib8,9,10)
6.7.0

RP-29
RP-050458
2641
1

Feature remove (Tabular/asn1 alignment)
6.7.0

RP-29
RP-050482
2642


Correction to UE L3 requirements for HS-DSCH mobility
6.7.0

RP-29
RP-050482
2643


Rate Control Correction
6.7.0

RP-29
RP-050482
2644


Introduction of container to facilitate transparent transfer of UE capabilities
6.7.0

RP-29
RP-050482
2645


Minor ASN.1 correction for TDD IEs Beacon PL Est and DHS-Sync
6.7.0

RP-29
RP-050482
2646


Addition of ongoing reconfiguration indicator in cell update
6.7.0

RP-29
RP-050482
2648


Faster L1 DCH synchronization
6.7.0

RP-29
RP-050482
2649


Direct transition to DCH
6.7.0

RP-29
RP-050482
2650


PSI messages in CELL CHANGE ORDER FROM UTRAN
6.7.0

RP-29
RP-050482
2651


SRNS relocation info
6.7.0

RP-29
RP-050482
2652


Correction to UE-assisted OTDOA support
6.7.0

RP-29
RP-050482
2653


Correction to undefined UE behaviour in case of Cell-ID positioning with method type UE-based
6.7.0

RP-29
RP-050482
2654


Receiving "Frequency info" IE in CELL UPDATE CONFIRM message
6.7.0

RP-29
RP-050483
2655


Re-entry in service in CELL_PCH before T316 expiry
6.7.0

RP-29
RP-050483
2656


ASN.1 alignment to Rel-5 of InterRATCellInfoIndication
6.7.0

RP-29
RP-050483
2657


Addition of Inter-frequency measurements reporting on RACH reporting in the ASN.1 of RRC CONNECTION REQUEST and CELL UPDATE messages
6.7.0

RP-29
RP-050483
2658


Correction to the Amount of Reporting
6.7.0

RP-29
RP-050483
2659


Minor correction of HS-DSCH/ E-DCH capability indication
6.7.0

RP-29
RP-050476
2660


Modification of TPC command error rate granularity and range
6.7.0

RP-29
RP-050473
2661
1

Introduction of PS handover between UTRAN and GERAN
6.7.0

RP-29
RP-050483
2662


Including HS-DPCCH power offset and HARQ preamble mode in active set update
6.7.0

RP-29
RP-050468
2663


Minor MBMS corrections (set IV)
6.7.0

RP-29
RP-050468
2664


Clarification on MBMS modified services information IE
6.7.0

RP-29
RP-050468
2665


MBMS correction for recounting
6.7.0

RP-29
RP-050468
2666
1

MBMS asn1 issues
6.7.0

RP-29
RP-050471
2667


E-DCH corrections and additions
6.7.0

RP-29
RP-050471
2668


E-DCH corrections
6.7.0

RP-29
RP-050472
2669
4

E-DCH additions to active set update
6.7.0

RP-29
RP-050471
2670
1

UE capabilities for E-DCH in 25.331
6.7.0

RP-29
RP-050468
2671


Conditional suspension of CELL_FACH measurements to enable reception of MCCH
6.7.0

RP-29
RP-050468
2672


MBMS message order on MCCH
6.7.0

RP-29
RP-050468
2673


MSCH configuration information in case of soft combining Timing Offset
6.7.0

RP-29
RP-050469
2674
1

Removal of fixed position for S-CCPCHs carrying MBMS channels
6.7.0

RP-29
RP-050467
2675


Introduction of Band VII
6.7.0

RP-29
RP-050483
2676


Introducing pre- configuration upon radio bearer establishment
6.7.0

RP-29
RP-050484
2677
1

Introduction of the device type indication in UE capability
6.7.0

RP-29
RP-050471
2680


E-DCH TTI Reconfiguration
6.7.0

RP-29
RP-050483
2681


Maximum number of reference ETFCI’s
6.7.0

RP-29
RP-050561
2682


F-DPCH power control
6.7.0
12/2005
RP-30
RP-050801
2617
2

Introduction of UMTS1700
6.8.0

RP-30
RP-050787
2683
4

Introduction of the HSDPA and E-DCH Capable Cell Indicator
6.8.0

RP-30
RP-050785
2685
1

PRACH for CCCH in SIB 6
6.8.0

RP-30
RP-050796
2686
1

Tx/Rx frequency separation capability (FDD)
6.8.0

RP-30
RP-050827
2687
1

E-DCH mobility corrections and multi-step handling for E-RGCH
6.8.0

RP-30
RP-050797
2688
1

L1 synchronisation at HHO
6.8.0

RP-30
RP-050786
2690


Correction to UE positioning measurements in CELL_PCH/URA_PCH state
6.8.0

RP-30
RP-050785
2692


Clarification of Delta in Inter/Intra-frequency measurement reporting criteria
6.8.0

RP-30
RP-050785
2694


Clarification of the usage of "Ack-Nack Power Offset" in HSDPA for TDD
6.8.0

RP-30
RP-050785
2696


Modification of WB-AMR default configuration
6.8.0

RP-30
RP-050785
2698


Serving E-DCH radio link indication
6.8.0

RP-30
RP-050800
2699


Introduction of UMTS 900 (Band VIII)
6.8.0

RP-30
RP-050788
2700


MCCH configuration information
6.8.0

RP-30
RP-050788
2701


Correction of default TFCS for MBMS
6.8.0

RP-30
RP-050797
2702


Unidirectional RLC reconfiguration
6.8.0

RP-30
RP-050793
2703
1

Misalignments for E-DCH
6.8.0

RP-30
RP-050793
2704


Update for E-DCH Serving Grant IE value range
6.8.0

RP-30
RP-050793
2705


Clarification on MAC-d flow multiplexing list
6.8.0

RP-30
RP-050793
2706


Addition of E-DCH power offsets to active set update
6.8.0

RP-30
RP-050793
2707


E-RNTI validity
6.8.0

RP-30
RP-050793
2708


Clarification of bit strings for EUL
6.8.0

RP-30
RP-050793
2709
1

Modification of SI periodicity
6.8.0

RP-30
RP-050793
2710


E-DCH PO signalling
6.8.0

RP-30
RP-050793
2711
1

MAC es/e reset indicator
6.8.0

RP-30
RP-050788
2714
1

MBMS corrections on default TFCS, service identity and PL Service Information
6.8.0

RP-30
RP-050831
2717
1

Corrections of inconsistencies in Rel-6 RRC messages (ASN.1 review)
6.8.0

RP-30
RP-050861
2718
1

Introduction of Support of Handover to GAN
6.8.0
03/2006
RP-31
RP-060087
2716
5

E-DCH Measurement Event 1J
6.9.0

RP-31
RP-060083
2720
-

Default configuration 11 for multirate AMR with SRB5
6.9.0

RP-31
RP-060081
2722
1

Addition of synchronization parameters in RRC for HS-SICH in 1.28Mcps TDD
6.9.0

RP-31
RP-060091
2723
-

Integrity Protection check for NAS messages
6.9.0

RP-31
RP-060087
2724
-

E-DCH radio link addition using ASU of RL already in DCH active set
6.9.0

RP-31
RP-060087
2725
-

Addition of SF128 and SF256 in E-DCH maximum channelisation codes
6.9.0

RP-31
RP-060087
2726
2

RRC signaling efficiency changes for E-DCH
6.9.0

RP-31
RP-060087
2727
-

E-DCH HARQ Info signalling
6.9.0

RP-31
RP-060087
2728
-

Secondary Scrambling Code in F-DPCH RL information
6.9.0

RP-31
RP-060087
2729
-

Correction to E-DCH IEs
6.9.0

RP-31
RP-060087
2730
-

Non-scheduled grant
6.9.0

RP-31
RP-060087
2731
-

IE handling for E-DCH
6.9.0

RP-31
RP-060087
2732
-

E-RNTI handling in Active Set Update procedure
6.9.0

RP-31
RP-060087
2733
-

Editorial correction on “E-DCH information”
6.9.0

RP-31
RP-060120
2734
1

Corrections of inconsistencies in Rel-6 RRC messages (ASN.1 review)
6.9.0

RP-31
RP-060091
2735
-

Correction to Modifying Integrity Protection Configuration for TM SRB
6.9.0

RP-31
RP-060091
2736
-

Correction to Security Mode Control Procedure
6.9.0

RP-31
RP-060091
2737
-

Resolving problems from CR implementation
6.9.0

RP-31
RP-060093
2738
-

Removal of GPRS encryption algorithm info
6.9.0

RP-31
RP-060092
2739
1

Default configurations for Multi-mode AMR
6.9.0

RP-31
RP-060091
2740
-

Periodic URA Update in OOS
6.9.0

RP-31
RP-060091
2741
-

Correction in IE UE positioning capability
6.9.0

RP-31
RP-060091
2742
-

F-DPCH, HSDPA and E-DCH in HANDOVER TO UTRAN COMMAND (Rel-6 ASN.1 review issue 013)
6.9.0

RP-31
RP-060091
2743
-

Representation of IE "latestConfiguredCN-Domain" in the r3 branch of SRNS Relocation Info
6.9.0

RP-31
RP-060083
2746
1

7.95kbps NB AMR Default Configuration removal
6.9.0

RP-31
RP-060091
2747
-

Periodic BMC Schedule Message
6.9.0

RP-31
RP-060092
2748
1

Introduction of additional Default configuration identities
6.9.0

RP-31
RP-060095
2749
1

PS default configurations
6.9.0

RP-31
RP-060091
2751
-

Configuration of DL TFCS as 'Same as UL'
6.9.0

RP-31
RP-060091
2752
-

NAS synchronization indicator in RB setup
6.9.0

RP-31
RP-060088
2753
-

General error handling in case of ASN.1 violation and for MBMS channels
6.9.0

RP-31
RP-060091
2754
-

Clarification of UE action upon receiving the IE RB information to change list
6.9.0

RP-31
RP-060091
2755
-

Removal of unnecessary checking for HS-DSCH and E-DCH configuration
6.9.0

RP-31
RP-060091
2756
-

Introduction of WB-AMR default configuration without SRB#5
6.9.0

RP-31
RP-060091
2757
-

Initial DPCH frame offset for F-DPCH
6.9.0

RP-31
RP-060086
2760
1

Support for different E-DCH and HS-DSCH serving cells
6.9.0

RP-31
RP-060088
2761
-

Correction to S-CCPCH power offset for MBMS
6.9.0

RP-31
RP-060093
2764
-

Inter-RAT PS Handover capability
6.9.0

RP-31
RP-060095
2765
-

Indication of HSPA capability and conversation call type for CS
6.9.0

RP-31
RP-060097
2713
3

Enabling the Providing of Velocity
7.0.0

RP-31
RP-060096
2758


Release 7 HS-DSCH operation without a DL DPCH for 1.28 Mcps TDD – synchronisation and power control of UL DPCH via PLCCH
7.0.0

RP-31
RP-060098
2759


7.68 Mcps TDD Option (Release 7)
7.0.0

RP-31
RP-060099
2762


Introduction of REL-7 access stratum release indicator
7.0.0
06/2006
RP-32
RP-060374
2769
1

RoHC Segmentation, padding and Packet_sizes_allowed parameter removal
7.1.0

RP-32
RP-060360
2772
1

Corrections of procedures dealing with “Serving HS-DSCH radio link indicator” and “Serving E-DCH radio link indicator”
7.1.0

RP-32
RP-060361
2774
1

MAC-HS handling for "return in case of failure"
7.1.0

RP-32
RP-060383
2776
1

“RB” terminology in security procedures
7.1.0

RP-32
RP-060368
2778
-

Clarification on IE “MBMS re-acquire MCCH”
7.1.0

RP-32
RP-060368
2780
-

Clarification on MCCH Acquisition Initiation
7.1.0

RP-32
RP-060368
2782
-

Clarification of encoding of TB size for FDD common transport channels
7.1.0

RP-32
RP-060368
2784
-

HCS parameters for MBMS cell reselection
7.1.0

RP-32
RP-060354
2786
-

Clarification on MAC-e/es reset
7.1.0

RP-32
RP-060361
2788
-

Modification to the “BLER target”configuration method in RRC spec for 3.84Mcps TDD
7.1.0

RP-32
RP-060361
2790
-

Add some IEs regarding HS-SICH power control parameter updating in UPLINK PHYSICAL CHANNEL CONTROL message in 1.28Mcps TDD mode
7.1.0

RP-32
RP-060364
2792
-

Corrections on Inter-RAT cell info indication
7.1.0

RP-32
RP-060364
2794
-

Clarifications regarding virtual active set
7.1.0

RP-32
RP-060358
2796
-

PS Handover Capability
7.1.0

RP-32
RP-060364
2798
-

Handling of System Information Block type 5bis.
7.1.0

RP-32
RP-060364
2800
-

Introducing container for Measurement Report informaton within SRNS relocation
7.1.0

RP-32
RP-060364
2802
-

Removal of GSM OTD reference cell
7.1.0

RP-32
RP-060364
2804
-

Error handling of 'dummy' IEs introduced in ASN.1 by recent feature removal
7.1.0

RP-32
RP-060365
2806
-

START value in Cell Update
7.1.0

RP-32
RP-060365
2808
-

Default configurations 10 and 13
7.1.0

RP-32
RP-060365
2810
-

Inter-frequency measurement reporting on RACH
7.1.0

RP-32
RP-060365
2812
-

Radio bearer mapping for SRBs
7.1.0

RP-32
RP-060365
2814
-

Correction to RLC default configuration
7.1.0

RP-32
RP-060366
2816
-

New standalone SRB default configuration
7.1.0

RP-32
RP-060366
2818
-

Introduction of default configurations with ‘flexible TFCS’
7.1.0

RP-32
RP-060366
2820
-

Small IE corrections: "RB information to change list", "Access Class Barred"
7.1.0

RP-32
RP-060366
2822
-

Correction to IE Default Configuration Identity
7.1.0

RP-32
RP-060366
2824
-

Correction to TFC subset for default configurations 11&12
7.1.0

RP-32
RP-060366
2826
-

HSDPA/E-DCH info in INTER RAT HANDOVER INFO WITH INTER RAT CAPABILITIES
7.1.0

RP-32
RP-060373
2827
1

Adding CS Call Type to Cell Update Message
7.1.0

RP-32
RP-060359
2829
-

Correct indication of Rel-7 tabular entries
7.1.0

RP-32
RP-060359
2830
-

Corrections to REL-7 ASN.1
7.1.0

RP-32
RP-060362
2831
-

Measurement control ASN.1 error
7.1.0

RP-32
RP-060368
2833
-

Clarification on MBMS Radio Bearer Release
7.1.0

RP-32
RP-060354
2835
-

Correction on E-DCH DL Scrambling Code
7.1.0

RP-32
RP-060366
2837
-

Reinstatement of missing IE "Periodical reporting information-1b" in ASN.1
7.1.0

RP-32
RP-060366
2839
-

SRB2 suspension
7.1.0

RP-32
RP-060369
2842
-

Release 7 Timing Advance (3.84 Mpcs and 7.68 Mcps TDD)
7.1.0

RP-32
RP-060369
2843
-

Introduction of REL-7 access stratum release indicator
7.1.0

RP-32
RP-060369
2844
-

Positioning velocity ASN.1
7.1.0

RP-32
RP-060386
2845
1

Correction of positioning confidence reporting inconsistencies
7.1.0
09/2006
RP-33
RP-060573
2848
-

Removal of CID indication in PDCP PID
7.2.0

RP-33
RP-060574
2852
-

Correction to the tabulars for Serving Grant value
7.2.0

RP-33
RP-060575
2854
-

Range of the encoding of E-DCH physical layer category and HS-DSCH physical layer category
7.2.0

RP-33
RP-060574
2856
-

3-index step 2-index step clarifications
7.2.0

RP-33
RP-060597
2858
2

Introduction of SIB 11bis
7.2.0

RP-33
RP-060581
2859
-

Power class for UMTS2600 (VII) internal / 900 (VIII)
7.2.0

RP-33
RP-060576
2861
-

Corrections to MBMS Downlink Timeslots and Codes for TDD
7.2.0

RP-33
RP-060576
2865
-

Clarification on MBMS notification for UEs in CELL_DCH state
7.2.0

RP-33
RP-060576
2867
-

Clarification on MBMS p-t-m activation time IE
7.2.0

RP-33
RP-060576
2869
-

Access probability factor
7.2.0

RP-33
RP-060575
2871
-

Modification to the HS-SCCH set configuration method in RRC spec for 1.28Mcps TDD
7.2.0

RP-33
RP-060575
2873
-

Correction to tabular for IE “Delay restriction Flag”
7.2.0

RP-33
RP-060575
2877
-

Corretion on 3G-2G Handover
7.2.0

RP-33
RP-060575
2879
-

Pending security configuration for SRB2
7.2.0

RP-33
RP-060593
2881
-

UE radio access capability for Single-band UE
7.2.0

RP-33
RP-060593
2883
-

Inter-RAT handover to UTRAN (HSPA)
7.2.0

RP-33
RP-060593
2885
-

Tabular & reference corrections
7.2.0

RP-33
RP-060593
2887
-

F-DPCH Tx Diversity
7.2.0

RP-33
RP-060593
2889
1

Expiration of RRC timer T314/T315 associated to CS/PS RABs
7.2.0

RP-33
RP-060583
2892
-

Clarification on Exceeding Variance in Traffic Volume Measurement
7.2.0

RP-33
RP-060573
2897
1

Use of CM_PATTERN_ACTIVATION_ABORTED
7.2.0

RP-33
RP-060573
2900
1

Corrections of procedures dealing with Hard Handover
7.2.0

RP-33
RP-060585
2901
-

Correction to spreading factors used for 7.68 Mcps TDD PRACH
7.2.0

RP-33
RP-060583
2902
-

Corrections to ASN.1 (3.84 Mcps and 7.68 Mcps TDD)
7.2.0

RP-33
RP-060586
2903
-

Introduction of 3.84 Mcps and 7.68 Mcps TDD E-DCH
7.2.0

RP-33
RP-060582
2904
-

Support of 2570 – 2620 MHz band for TDD
7.2.0

RP-33
RP-060593
2907
-

ASN1 correction on Inter-frequency RACH measurement reporting, backward compatible solution
7.2.0

RP-33
RP-060584
2908
-

CS Call type indication in CELL_FACH
7.2.0

RP-33
RP-060584
2910
1

UE behaviour in RRC Connection Re-establishment scenarios
7.2.0

RP-33
RP-060624 
2911
2

Enhancing MBMS support for Mobile TV
7.2.0

RP-33
RP-060574
2913
-

E-DCH gain factor computation
7.2.0

RP-33
RP-060593
2915
-

Correction to default configuration #22
7.2.0

RP-33
RP-060622
2917


Correction to coding of PLCCH for 1.28Mcps TDD
7.2.0

RP-33
RP-060578
2919


MAC-hs reset
7.2.0
12/2006
RP-34
RP-060722
2916
2

UE based OTDOA positioning in WCDMA cells with extended range
7.3.0

RP-34
RP-060717
2922
1

Correction on acceptable configurations for compression entities
7.3.0

RP-34
RP-060715
2923
-

Introduction of Band X (Extended UMTS 1.7/2.1 GHz) in 25.331
7.3.0

RP-34
RP-060716
2925
-

Grant and MAC-e/es headers for E-DCH and References
7.3.0

RP-34
RP-060804 
2927
2

Correction to E-DCH reconfiguration
7.3.0

RP-34
RP-060718
2931
-

Removal of MSCH configuration information from S-CCPCH system information
7.3.0

RP-34
RP-060718
2933
-

Correction relating to the formation of a list of services
7.3.0

RP-34
RP-060718
2935
-

Indentation error in handling MBMS establishment cause values
7.3.0

RP-34
RP-060718
2936
-

MSCH configuration information
7.3.0

RP-34
RP-060719
2938
-

Tabular/ASN.1 mismatch for IE "UE radio access capability comp 2"
7.3.0

RP-34
RP-060716
2940
-

Correction to Radio Bearer Mapping for UE in CELL_DCH state
7.3.0

RP-34
RP-060726
2941
1

State transition diagram from URA_PCH/Cell_PCH to idle
7.3.0

RP-34
RP-060719
2943
-

Usage of Band Indicator in Inter-RAT cell info list
7.3.0

RP-34
RP-060716
2945
-

Correction for support of HS-DSCH in RRC Connection Setup
7.3.0

RP-34
RP-060720
2947
-

Corrections related to 3.84 and 7.68 Mcps TDD E-DCH and the support of TDD at 2.6 GHz
7.3.0

RP-34
RP-060712
2948
1

Introduction of the UE speed information at the CELL_DCH transition
7.3.0

RP-34
RP-060713
2949
2

Introduction of the new security algorithms UEA2 and UIA2.
7.3.0

RP-34
RP-060718
2951
-

RAB ID for mobile TV
7.3.0

RP-34
RP-060718
2953
-

MBMS PL Service Restriction Information and preferred frequency layer
7.3.0

RP-34
RP-060724
2954
2

Introduction of inter-RAT DTM Handover
7.3.0

RP-34
RP-060718
2956
-

MBMS short transmission ID and Mobile TV
7.3.0
03/2007
RP-35
RP-070159
2957
2

Deferred SIB11/12 reading and acting
7.4.0

RP-35
RP-070159
2958
-

UE Positioning Fine Time Assistance for GPS
7.4.0

RP-35
RP-070159
2959
-

Correction of "Threshold SFN-GPS TOW"
7.4.0

RP-35
RP-070159
2960
1

Correction to standalone UE positioning
7.4.0

RP-35
RP-070159
2961
-

Clarification on introduction of the new security algorithms
7.4.0

RP-35
RP-070159
2962
-

Change to area scope of SIB1 value tag
7.4.0

RP-35
RP-070159
2963
-

Correction of the tabular description of the IE Downlink information for each radio link Post
7.4.0

RP-35
RP-070159
2964
-

Removal of redundant ASN1 element DL-CCTrChTPCList
7.4.0

RP-35
RP-070151
2966
-

Correction of MBMS MODIFICATION REQUEST
7.4.0

RP-35
RP-070151
2968
-

Wording of MBMS PL Service Restriction Information and preferred frequency layer
7.4.0

RP-35
RP-070151
2970
-

maxMBMS-Services definition
7.4.0

RP-35
RP-070151
2972
1

MBMS selected services indication
7.4.0

RP-35
RP-070151
2973
1

Correction of RAB release procedure for Mobile TV
7.4.0

RP-35
RP-070153
2975
-

Tabular Alignment for Uplink DPCH Info
7.4.0

RP-35
RP-070151
2977
1

Update the IE” RAB information to reconfigure” for Mobile TV
7.4.0

RP-35
RP-070154
2979
-

Absence of MS Classmark 2 and 3 in IE "Inter-RAT UE radio access capability"
7.4.0

RP-35
RP-070153
2981
-

Handling of TFCS with no DCH configured
7.4.0

RP-35
RP-070163
2983
1

Introducing 64QAM downlink support
7.4.0

RP-35
RP-070157
2984
-

Introduction of 1.28 Mcps TDD E-DCH
7.4.0

RP-35
RP-070161
2985
1

Introducing MIMO in RRC specification
7.4.0

RP-35
RP-070172
2986
-

Alignment of Tabular with ASN.1
7.4.0

RP-35
RP-070160
2987
-

Corrections to Tabular for 3.84 and 7.68 McpsTDD E-DCH
7.4.0

RP-35
RP-070151
2989
1

MICH reception for services scheduled with MSCH
7.4.0

RP-35
RP-070158
2990
-

Introduction of DTX-DRX and HS-SCCH less in RRC
7.4.0
06/2007
RP-36
RP-070402
2982
6

Introducing 16QAM uplink support
7.5.0

RP-36
RP-070407
2992


Use of Integrity protection algorithm UIA/2: removal of a 'shall' in a note
7.5.0

RP-36
RP-070407
2993


RRC Cellid encoding alignment on RANAP
7.5.0

RP-36
RP-070407
2994


Signalling connection release at T314/315 expiry
7.5.0

RP-36
RP-070408
2995


Cell Update Confirm with RLC re-establish indicator
7.5.0

RP-36
RP-070408
2996


Correction of STTD Indicator for F-DPCH Tx Diversity
7.5.0

RP-36
RP-070395
2997


Introduction of GAN PS handover
7.5.0

RP-36
RP-070408
2998


Feature Clean Up leftover: Removal of DRAC leftover
7.5.0

RP-36
RP-070408
2999


Initialisation of CFN calculation for CELL_FACH
7.5.0

RP-36
RP-070408
3000


PLMN selection ping-pong control
7.5.0

RP-36
RP-070408
3001


Optimization of switching beteween MBMS broadcast TV channels transmitted on ptp bearers (MBMS for Mobile TV)
7.5.0

RP-36
RP-070408
3002


Alignment of tabular to ASN.1 for SIB11/SIB12 and event 1J
7.5.0

RP-36
RP-070403
3003
2

Introduction of HS-DSCH reception in CELL_FACH, URA_PCH and CELL_PCH
7.5.0

RP-36
RP-070408
3004
1

Introduction two DRX schemes in URA_PCH and CELL_PCH
7.5.0

RP-36
RP-070416
3008


Maintenance of PMM connection for MBMS PTP reception
7.5.0

RP-36
RP-070401
3010


Content of MSI message when sent on DCCH
7.5.0

RP-36
RP-070401
3012


Relative ordering of MBMS Selected Services when indicated to the network
7.5.0

RP-36
RP-070416
3013


Background scan during MBMS PTM reception
7.5.0

RP-36
RP-070401
3015


Default MBMS activation time and 'MBMS all unmodified p-t-m services'
7.5.0

RP-36
RP-070401
3017


Problem with the IE 'MBMS service identity' included in the IE 'RAB info'
7.5.0

RP-36
RP-070406
3019


Correction of SRB delay
7.5.0

RP-36
RP-070406
3021


Incorrect reference to 25.993 for default configuration 17
7.5.0

RP-36
RP-070416
3022


Removal of redundant IE 'MBMS-PreferredFreqRequest-r6'
7.5.0

RP-36
RP-070406
3024


Correction to CTFC for default configuration 12
7.5.0

RP-36
RP-070404
3025
1

Introduction of Improved L2 support for high data rates
7.5.0

RP-36
RP-070400
3026


MBMS TDD and FDD Physical Layer Improvements
7.5.0

RP-36
RP-070408
3027


Introduction of Wait time to Cell Update Confirm
7.5.0

RP-36
RP-070415
3028


Removing the limitation of SRNC identity size
7.5.0

RP-36
RP-070408
3029


Using special value of HE field to indicate end of an SDU for RLC AM
7.5.0

RP-36
RP-070408
3030
1

T305 timer in RRC container at SRNS relocation
7.5.0

RP-36
RP-070408
3031


Support for signalling of F-DPCH slot formats
7.5.0

RP-36
RP-070398
3032
1

A-GNSS in UTRAN (RRC)
7.5.0

RP-36
RP-070397
3034


Addition of E-DCH Scheduling Information Power Offset in TDD mode
7.5.0

RP-36
RP-070397
3035
1

Corrections to tabular for non-scheduled transmission for LCR TDD
7.5.0

RP-36
RP-070397
3036


Introduction of PRACH configuration in messages triggering E-DCH serving cell change in LCR TDD mode
7.5.0

RP-36
RP-070417
3037


Correction to definition of maxNumE-AGCH for TDD
7.5.0

RP-36
RP-070394
3038


Correction to definition of Power Resource Related Information (TDD only)
7.5.0

RP-36
RP-070401
3039


MBMS Scheduling Information
7.5.0

RP-36
RP-070401
3040


MBMS Notification
7.5.0

RP-36
RP-070401
3041


Minor correction on text
7.5.0

RP-36
RP-070504
3043
2

Indication for F-DPCH support status
7.5.0
09/2007
RP-37
RP-070623
3047
1

Correction to E-DCH STTD operation
7.6.0

RP-37
RP-070625
3048
1

Requirement on MICH reading
7.6.0

RP-37
RP-070624
3050


START values in cell update before security is enabled
7.6.0

RP-37
RP-070671
3053
1

Clarification on Enhanced CELL_FACH State
7.6.0

RP-37
RP-070671
3054


Correction of UTRAN MOBILITY INFORMATION extension
7.6.0

RP-37
RP-070626
3055
1

Lossless reconfiguration between fixed and flexible RLC PDU size
7.6.0

RP-37
RP-070630
3056


Restriction on the number of MIMO processes
7.6.0

RP-37
RP-070670
3057


Correction on 16 QAM Category
7.6.0

RP-37
RP-070632
3058
1

Correction to MBSFN TDM
7.6.0

RP-37
RP-070631
3059


Corrections to Tabular (alignment with ASN.1) 
7.6.0

RP-37
RP-070631
3060


CR implementation issues 25.331 v7.4.0 (2007-03)
7.6.0

RP-37
RP-070636
3061


Incomplete exception description in UE-based OTDOA
7.6.0

RP-37
RP-070636
3062


Correction of inconsistency in 25.331 related to UE-sending of capabilities
7.6.0

RP-37
RP-070625
3064
1

MBMS Counting completion in RRC
7.6.0

RP-37
RP-070625
3066
1

MBMS ptp service change
7.6.0

RP-37
RP-070623
3068
1

Clarification on logical channel multiplexing
7.6.0

RP-37
RP-070625
3072


Integrity Protection and MBMS: Correction to Procedural Text  (alignment with ASN.1) 
7.6.0

RP-37
RP-070625
3074


MBMS services naming
7.6.0

RP-37
RP-070671
3077


Removal of RRC padding on BCCH and PCCH carried on HS-DSCH
7.6.0

RP-37
RP-070671
3078


Periodic MAC-ehs reset 
7.6.0

RP-37
RP-070671
3079


Correction to UE behavior to disable HS-DSCH operation when HS-DSCH reception is unavailable
7.6.0

RP-37
RP-070671
3080


Cell reselection issues during RRC connection establishment procedure
7.6.0

RP-37
RP-070671
3081


Additional cases of MAC-ehs reset for UEs operating in Enhanced CELL_FACH
7.6.0

RP-37
RP-070634
3082
2

UE Capabilities for Rel-7, with 'improved L2' optional
7.6.0

RP-37
RP-070627
3083


Correction to CPC UL DTX for addition of a new cell in the active set.
7.6.0

RP-37
RP-070627
3084
1

Handling of DPCCH Slot Format 4
7.6.0

RP-37
RP-070627
3085


Correction to the related IEs of DTX-DRX operation in RRC
7.6.0

RP-37
RP-070627
3086
1

Restriction of HS-SCCH less operation and MIMO
7.6.0

RP-37
RP-070627
3087
1

HS-SCCH less virtual IR buffer size
7.6.0

RP-37
RP-070629
3088


Timing Advance Corrections for 3.84/7.68 Mcps TDD E-DCH
7.6.0

RP-37
RP-070631
3089


3.84/7.68 Mcps TDD EDCH Sending Scheduling Information Periodically
7.6.0

RP-37
RP-070670
3090


Correction on 64QAM and MIMO UE capability in RRC
7.6.0

RP-37
RP-070670
3092
1

Starting and stopping operation in 16QAM mode
7.6.0

RP-37
RP-070623
3093


The range of E-TFCI_ed,switch
7.6.0

RP-37
RP-070650
3094


Introduction of multi-frequency operation for LCR TDD
7.6.0

RP-37
RP-070624
3096


F-DPCH TPC error rate target
7.6.0

RP-37
RP-070624
3098


Correction to CTFC for default configuration 14
7.6.0

RP-37
RP-070624
3100


Correction to default configuration 16
7.6.0

RP-37
RP-070624
3102


Security correction on PS handover to UTRAN
7.6.0

RP-37
RP-070626
3103


IE Common RB mapping info
7.6.0

RP-37
RP-070626
3104


Common-MAC-ehs-ReorderingQueues
7.6.0

RP-37
RP-070627
3105
2

Correction to CPC Parameters
7.6.0

RP-37
RP-070632
3107


Change Request for 25.331 ASN.1 for MBMS TDD and FDD Physical Layer Improvements
7.6.0

RP-37
RP-070628
3108


Update of GANSS elements improving GANSS ambiguity resolution
7.6.0

RP-37
RP-070636
3109


Corrections to DRX schemes in URA_PCH and CELL_PCH
7.6.0

RP-37
RP-070636
3112


Clarification on reconfiguration of T305
7.6.0

RP-37
RP-070628
3113


Introduction of SIB type extension for SIB type 15.8
7.6.0

RP-37
RP-070636
3114


Correction for configuration of RFC2507 header compression
7.6.0

RP-37
RP-070636
3115


Correction for CS call type
7.6.0

RP-37
RP-070636
3116


Add the frequency infor to identify the neighbour cells when report the OTDOA measurement results
7.6.0

RP-37
RP-070624
3120


Corrections in the default radio configurations 11/12/13
7.6.0

RP-37
RP-070624
3122


Miscellaneous corrections in the default radio configurations
7.6.0

RP-37
RP-070764
3123
1

For the creation of RRC Rel-8
8.0.0

RP-37
RP-070633
3069


Introduction of Band XI
8.0.0
12/2007
RP-38
RP-071011 
3126
2

UE setting for the “Extension indicator” in the frequency band IEs
8.1.0

RP-38
RP-070898
3133


Correction to Measurement Report Initiation Procedure with UEs in CELL_PCH
8.1.0

RP-38
RP-070899
3135


START value and reconfiguration from fixed to flexible
8.1.0

RP-38
RP-070900
3137


UE DTX capability in RRC Connection Request
8.1.0

RP-38
RP-070903
3141
1

Introduction of an additional UE category for 1.28Mcps TDD E-DCH
8.1.0

RP-38
RP-070905
3143


UE Waiting during Cell Update Procedure
8.1.0

RP-38
RP-070905
3145
1

Correction for radio bearer mapping for FDD
8.1.0

RP-38
RP-070903
3147


Add E-RUCCH SYNC-UL info for handover procedure for LCR TDD
8.1.0

RP-38
RP-070895
3151


Correction on MMSI reception on DCCH
8.1.0

RP-38
RP-070894
3154
2

RADIO BEARER SETUP using default configurations
8.1.0

RP-38
RP-070895
3157


Correction of integrity protection and checking of MBMS MODIFIED SERVICES INFORMATION message on DCCH
8.1.0

RP-38
RP-070892
3162


Use of default configuration 12
8.1.0

RP-38
RP-070903
3164


A Correction about SNPL for 1.28 Mcps TDD
8.1.0

RP-38
RP-070903
3166


Support of SRB transmission on HSPA for 1.28Mcps TDD
8.1.0

RP-38
RP-070902
3169


More improvement on Dedicated frequency for 1.28 Mcps TDD MBMS
8.1.0

RP-38
RP-070903
3171


Clarification of gain factor Beta-e in LCR TDD EUL
8.1.0

RP-38
RP-070898
3173
2

Iur backward compatibility problem
8.1.0

RP-38
RP-070898
3175


BCCH reception on HS-DSCH for CELL_PCH UE
8.1.0

RP-38
RP-070898
3177


Cell_PCH UE behaviour upon reception of activation time in reconfiguration message
8.1.0

RP-38
RP-070899
3179


CQI Table usage
8.1.0

RP-38
RP-070938
3181


Scheduled Grant setting in DTX Cycle 2 during CPC operation
8.1.0

RP-38
RP-070894
3184


Wrong UL Puncturing Limits for default configurations #15, #18, #19, #20 and #21
8.1.0

RP-38
RP-070906
3186
1

Change of UE capability during an RRC connection
8.1.0

RP-38
RP-070901
3188


Correction to HS-SCCH numbering assumption for 64QAM encoding
8.1.0

RP-38
RP-070905
3190


Clarification that “Default DPCH offset value” is required for FACH->DCH reconfiguration
8.1.0

RP-38
RP-070895
3192


Error in Rel-7 shadow CR concerning MBMS preferred frequency information
8.1.0

RP-38
RP-070905
3196


Correction to Control Information transmission with two logical channels
8.1.0

RP-38
RP-070905
3198


Some editorial corrections on Multi-carriers for LCR TDD
8.1.0

RP-38
RP-070895
3201


Procedure text concerning MBMS offsets and tabular/ASN.1 description are not aligned
8.1.0

RP-38
RP-070905
3203
1

MBMS Common Physical Channels limitation
8.1.0

RP-38
RP-070895
3206
1

Correction on MBMS Frequency Layer Dispersion (FLD)
8.1.0

RP-38
RP-070897
3208
1

Replacement of the almanac Sat Mask by SV ID
8.1.0

RP-38
RP-070911
3210


Clarification on E-DPDCH power extrapolation/interpolation
8.1.0

RP-38
RP-070895
3212


BCCH / MCCH consistency for MBMS reception
8.1.0

RP-38
RP-070910
3214


Introduction of CS voice over HSPA
8.1.0

RP-38
RP-070907
3215


Introduction of HS-DSCH category for combined MIMO and DL64QAM
8.1.0

RP-38
RP-070905
3217


Disable reselection to the original RAT when UE receives RRC CONNECTION REJECT
8.1.0

RP-38
RP-070904
3219


Corrections due to the ASN.1 R7 review (main CR)
8.1.0

RP-38
RP-070904
3221


Signalling of Rel-7 UE capabilities (ASN.1 R7 review)
8.1.0

RP-38
RP-070912
3223


Augmentation of GANSS Signal ID field
8.1.0

RP-38
RP-070905
3225


Delta T2TP Parameter
8.1.0
03/2008
RP-39
RP-080178
3231
-

Clarification on MAX_CID
8.2.0

RP-39
RP-080189
3233
-

FACH measurement occasion Calculation
8.2.0

RP-39
RP-080189
3235
-

Clarification on “Default DPCH offset value”
8.2.0

RP-39
RP-080189
3237
-

Synchronised modification of system information blocks
8.2.0

RP-39
RP-080189
3239
-

Clarification on “Measured Results on RACH” in enhanced CELL_FACH
8.2.0

RP-39
RP-080186
3241
-

Correction to conditions for setting MIMO_STATUS variable
8.2.0

RP-39
RP-080188
3243
-

Correction to HS-SCCH numbering assumption for 64QAM encoding
8.2.0

RP-39
RP-080181
3245
-

Use of cell selection and reselection info in the case that a cell is providing MBSFN only service
8.2.0

RP-39
RP-080191
3247
-

Corrections due to the RRC Rel-7 ASN.1 review
8.2.0

RP-39
RP-080177
3250
-

L2-combining in MBMS CURRENT CELL P-T-M RB INFORMATION message
8.2.0

RP-39
RP-080189
3253
-

Traffic volum measurement for CELL_PCH UE
8.2.0

RP-39
RP-080190
3255
-

Support of octet aligned HS-DSCH transport block sizes for non-64QAM
8.2.0

RP-39
RP-080186
3257
1

Correction to MIMO with the message PHYSICAL CHANNEL RECONFIGURATION
8.2.0

RP-39
RP-080182
3259
-

Supporting multi-frequency for 1.28 Mcps TDD MBMS
8.2.0

RP-39
RP-080185
3261
-

Modification of variable E_DCH_TRANSMISSION setting
8.2.0

RP-39
RP-080185
3263
-

Correction and Clarification of  non-scheduled E-PUCH allocation for LCR TDD
8.2.0

RP-39
RP-080185
3265
-

Modifications on the values of T-RUCCH timer for LCR TDD
8.2.0

RP-39
RP-080184
3267
-

Persistence scaling values for 3.84/7.68 Mcps TDD E-DCH
8.2.0

RP-39
RP-080178
3270
-

Correction to default configuration 17
8.2.0

RP-39
RP-080203
3271
-

Signaling of default configuration 17 in HANDOVER TO UTRAN COMMAND message
8.2.0

RP-39
RP-080200
3272
-

Introduction of UMTS 700 MHz (Bands XII – XIV) in 25.331
8.2.0

RP-39
RP-080201
3273
1

CS-HSPA UL AMR Rate and maximum jitter time
8.2.0

RP-39
RP-080201
3274
2

Proposal for RRC based rate control
8.2.0

RP-39
RP-080202
3275
-

Introducing Improved L2 for uplink
8.2.0

RP-39
RP-080204
3276
-

Introduction of PPAC
8.2.0
05/2008
RP-40
RP-080390
3282
1

Interpretation of the "Neighbouring cell identity" in MBMS NEIGHBOURING CELL PTM RB INFO
8.3.0

RP-40
RP-080390
3285
-

Clarification on MBMS dispersion
8.3.0

RP-40
RP-080403
3287
-

Minor ASN.1 corrections due errors detected during v780 implementation
8.3.0

RP-40
RP-080414
3288
2

Configurable values for the minimum and maximum RLC PDU size 
8.3.0

RP-40
RP-080417
3289
-

Introduction of 64QAM in RRC for LCR TDD
8.3.0

RP-40
RP-080396
3291
-

Correction on the attribute of Treset in system information
8.3.0

RP-40
RP-080396
3293
-

Editorial correction to reconfigure MAC-ehs reordering queue
8.3.0

RP-40
RP-080403
3295
-

Editorial correction to variable description of CELL_INFO_LIST
8.3.0

RP-40
RP-080393
3298
-

Correction to the calcuration of DPCH frame offset for F-DPCH on timing re-initialised hard handover
8.3.0

RP-40
RP-080403
3300
-

Handling of TRANSPORT FORMAT COMBINATION CONTROL
8.3.0

RP-40
RP-080404
3302
-

Completion of the mechanism for Scheduling Information transmission on MAC-e PDU alone for 1.28 Mcps TDD in EUL
8.3.0

RP-40
RP-080443
3304
1

Counter and timers for Scheduling Information Reporting of LCR TDD
8.3.0

RP-40
RP-080398
3306
-

Clarification of the definition of PRRI for TDD
8.3.0

RP-40
RP-080400
3308
1

Correction and Clarification of E-RUCCH Info for LCR TDD
8.3.0

RP-40
RP-080395
3312
-

Re-establishment condition for RLC reconfiguration to fixed from flexible PDU size
8.3.0

RP-40
RP-080418
3313
-

Early Implementation of PPAC
8.3.0

RP-40
RP-080402
3315
-

MBSFN Corrections
8.3.0

RP-40
RP-080405
3316
1

RAB reconfiguration for CS HSPA
8.3.0

RP-40
RP-080419
3317
-

Various corrections due to editorial problems detected during CR implementation after RAN-39
8.3.0

RP-40
RP-080419
3319
-

Correction of missing Rel-7 VLEC in the Radio Bearer Reconfiguration message and other non-editorial corrections due to problems discovered during CR implementation
8.3.0

RP-40
RP-080396
3321
-

RRC connection release for Cell_PCH
8.3.0

RP-40
RP-080384
3322
-

Introduce a new band E for LCR TDD
8.3.0

RP-40
RP-080396
3324
-

Correction of CELL_PCH in Reconfiguration Procedure
8.3.0

RP-40
RP-080401
3329
-

Extended power control gap for E-PUCH in LCR TDD
8.3.0

RP-40
RP-080300
3332
-

GANSS corrections
8.3.0

RP-40
RP-080442
3340
-

Correction to note on reference E-TFCI configuration
8.3.0

RP-40
RP-080394
3342
-

Correction to relation between DTX-DRX timing and DTX-DRX configuration
8.3.0

RP-40
RP-080400
3344
1

Clarification on Number of E-UCCH for LCR TDD
8.3.0

RP-40
RP-080400
3346
1

Presence clarification of E-HICH Information per radio link for TDD
8.3.0

RP-40
RP-080400
3348
-

Correction on the non-scheduled E-PUCH configuration
8.3.0

RP-40
RP-080403
3349
-

Correction of missing Rel-7 VLEC in the Radio Bearer Reconfiguration message
8.3.0

RP-40
RP-080403
3350
-

Various ASN.1 corrections
8.3.0

RP-40
RP-080394
3352
-

Correction to signaling of Uplink DPCCH slot format information
8.3.0

RP-40
RP-080403
3353
-

Uncorrect way to delete MAC-ehs re-ordering queue
8.3.0

RP-40
RP-080442
3355
1

Indication for E-DPCCH Power Boosting support status
8.3.0

RP-40
RP-080440
3356
-

HS-SCCH orders for HS-SCCH-less operation
8.3.0
08/2008
-
-
-
-

Fix Word problem
8.3.1
09/2008
RP-41
RP-080681
3358
-

Correct the description of UE behaviour during HS-DSCH Reception in CELL_PCH and URA_PCH
8.4.0

RP-41
RP-080679
3360
1

Correction on the non-scheduled E-PUCH configuration for 1.28Mcps TDD
8.4.0

RP-41
RP-080680
3362
2

MBSFN Corrections
8.4.0

RP-41
RP-080686
3363
3

RRC procedures for configuring Improved layer 2 for UL
8.4.0

RP-41
RP-080681
3365
-

Deletion of Duplicate Definition of CELL_FACH HS-DSCH Variables
8.4.0

RP-41
RP-080684
3367
-

Modification of GANSS timing representation to avoid large integers
8.4.0

RP-41
RP-080701
3373
-

Reading Traffic Volume Measurement System Information in SIB11
8.4.0

RP-41
RP-080678
3376
4

Clarification of the UE behavior on DSAC
8.4.0

RP-41
RP-080701
3382
-

Correction to signalling of multiple PLMNs in SIB18
8.4.0

RP-41
RP-080685
3386
2

Reconfiguration of inactive RABs to DCH
8.4.0

RP-41
RP-080696
3387
3

Introduction of Enhanced Uplink in CELL_FACH in 25.331
8.4.0

RP-41
RP-080682
3389
-

Correction to MIMO parameters
8.4.0

RP-41
RP-080679
3391
-

Perstistence value (Pi) completion for E-RUCCH in LCR TDD
8.4.0

RP-41
RP-080679
3395
-

Introduce E-DCH Traffic volume measurement for LCR TDD
8.4.0

RP-41
RP-080685
3397
-

Introduce QrxlevminOffset in 25.331 for TDD
8.4.0

RP-41
RP-080679
3400
1

Correction of E-RUCCH configuration for LCR TDD EUL
8.4.0

RP-41
RP-080687
3401
2

Ciphering procedures for CS over HSPA
8.4.0

RP-41
RP-080694
3403
1

Introduction of absolute priorities reselection
8.4.0

RP-41
RP-080694
3404
1

UE Capabilities and redirection (UTRA-LTE)
8.4.0

RP-41
RP-080697
3405
2

Introduction of CELL_FACH DRX
8.4.0
12/2008
RP-42
RP-081022
3414
-

HARQ feedback with Enhanced Uplink in Cell_FACH state
8.5.0

RP-42
RP-081013
3415
-

Clarification for LI size decision for UM RLC uplink
8.5.0

RP-42
RP-081014
3416
-

Correction to measurement behaviour for CELL_FACH UE
8.5.0

RP-42
RP-080999
3419
-

Typo in IE 'Domain Specific Access Restriction'
8.5.0

RP-42
RP-081005
3421
-

Misplaced IEs in RADIO BEARER RECONFIGURATION
8.5.0

RP-42
RP-081022
3422
1

Replacement of E-AICH in 25.331
8.5.0

RP-42
RP-081004
3424
1

Reseting the periodic cell update timer T305 after autonomous state transition to CELL_FACH in Enhanced CELL_FACH
8.5.0

RP-42
RP-081022
3425
2

Reseting the periodic cell update timer T305 after autonomous state transition to CELL_FACH in Enhanced Uplink in CELL_FACH state
8.5.0

RP-42
RP-081022
3426
1

Clarification of common E-DCH resource usage in 25.331
8.5.0

RP-42
RP-081022
3427
1

Corrections for Enhanced Uplink in CELL_FACH in 25.331
8.5.0

RP-42
RP-081014
3428
1

Smaller value ranges for DRX burst length
8.5.0

RP-42
RP-081003
3430
1

Clarification to the scope of Uplink DPCCH slot format 4 feature
8.5.0

RP-42
RP-081007
3432
-

Introduce Intra-SecondaryFrequency Indicator for LCR TDD
8.5.0

RP-42
RP-081030
3433
-

Clarification of non-used frequency definition for secondary frequency in DC-HSDPA
8.5.0

RP-42
RP-081004
3435
2

correct the description of UE behaviour during HS-DSCH Reception in CELL_PCH
8.5.0

RP-42
RP-081014
3436
-

Some corrections for Enhanced UE DRX
8.5.0

RP-42
RP-081003
3438
-

Modification of the conditions for disabling HS-SCCH less operation
8.5.0

RP-42
RP-081029
3439
-

Support for additional navigation satellite systems in RRC
8.5.0

RP-42
RP-081022
3445
1

SIB7 reading time with Enhanced Uplink for CELL_FACH state in 25.331
8.5.0

RP-42
RP-081033
3446
-

Introduction of new default configurations
8.5.0

RP-42
RP-081022
3447
-

Clarification of HS-DPCCH usage for Enhanced Uplink in CELL_FACH
8.5.0

RP-42
RP-081033
3448
-

Inclusion of UE historical information in SRNC RELOCATION INFO
8.5.0

RP-42
RP-081033
3453
-

Size constraints on UE band capabilities
8.5.0

RP-42
RP-081102
3458
3

Introduction of UE Measurement Capability on frequency adjacent to intra-frequency
8.5.0

RP-42
RP-081015
3460
1

Prevention of excessive OOS due to failure of Squal criterion
8.5.0

RP-42
RP-081033
3462
2

Improved EUL power control at UE power limitation
8.5.0

RP-42
RP-080857
3463
-

Introduction of ETWS PRIMARY NOTIFICATION WITH SECURITY message
8.5.0

RP-42
RP-081000
3466
1

MBMS frequency selection
8.5.0

RP-42
RP-081003
3468
-

Correction to DRX and CQI reporting
8.5.0

RP-42
RP-081030
3469
1

Introduction of Dual Cell HSDPA operation
8.5.0

RP-42
RP-081028
3470
2

Introduction of HS-DSCH cell change enhancements
8.5.0

RP-42
RP-081033
3471
3

Introduction of optional features in Release 8
8.5.0

RP-42
RP-081015
3473
-

Detection of E-UTRA cell in idle mode
8.5.0

RP-42
RP-081033
3476
-

Add the max number of the extented bands for TDD
8.5.0

RP-42
RP-081003
3478
-

Clarification to the use of 'F-DPCH slot format' IE
8.5.0

RP-42
RP-081015
3480
1

Corrections to absolute priority reselection and redirection to EUTRA procedures and parameters
8.5.0

RP-42
RP-081015
3481
1

PS handover to/from E-UTRAN
8.5.0

RP-42
RP-081015
3482
1

Measurement and measurement reporting of E-UTRAN cells
8.5.0

RP-42
RP-081033
3483
2

Fast Dormancy for UMTS
8.5.0

RP-42
RP-081005
3484
-

Corrections related to the cell update wait timer T320
8.5.0

RP-42
RP-081012
3485
-

Correction of the small typo
8.5.0

RP-42
RP-081012
3486
-

RLF handling during CS over HSPA reconfiguration
8.5.0

RP-42
RP-081015
3487
-

UE behaviour of NAS message transmission when inter-RAT change
8.5.0

RP-42
RP-081005
3489
-

Correction to IDT procedure
8.5.0

RP-42
RP-081006
3492
-

Clarification for 16QAM UL E-AGCH table mapping
8.5.0

RP-42
RP-081025
3494
2

Introduction of enhanced CELL_FACH, CELL_PCH and URA_PCH for 1.28Mcps TDD
8.5.0

RP-42
RP-080998
3499
-

Correction of measurement event 1I
8.5.0

RP-42
RP-081007
3501
-

Clarification of Persistence Value (Pi) for E-RUCCH in LCR TDD
8.5.0

RP-42
RP-081024
3505
-

Introduction of additional UE categories for 1.28Mcps TDD 64QAM DL
8.5.0

RP-42
RP-081005
3509
-

Correction to “DL RLC PDU size” explicit configuration to prevent security issue
8.5.0

RP-42
RP-081003
3511
-

Clarification to the use of 'DTX-DRX timing information' for hard handover
8.5.0

RP-42
RP-081030
3512
1

Clarification of current frequency in DC-HSDPA
8.5.0

RP-42
RP-081005
3514
1

Correction of measurement event 1H
8.5.0

RP-42
RP-081014
3515
1

Add indication of enhanced DRX capability into CELL UPDATE
8.5.0

RP-42
RP-081030
3516
-

Indication of Dual Cell capability in RRC Connection Request and Cell Update
8.5.0

RP-42
RP-081005
3518
-

Support of Enhanced F-DPCH in RRC CONNECTION REQUEST
8.5.0

RP-42
RP-081031
3520
1

CR on CSG Support in 25.331
8.5.0

RP-42
RP-081128
3521
2

Support for 3.84 Mcps MBSFN IMB operation
8.5.0
03/2009
RP-43
RP-090144
3532
2

Support for 3.84 Mcps MBSFN IMB operation
8.6.0

RP-43
RP-090115
3535
1

UMTS frequency information in IE “Rplmn information”
8.6.0

RP-43
RP-090115
3538
-

CN system information after PS HO
8.6.0

RP-43
RP-090119
3540
-

Correction to the UE behaviour when entering URA_PCH state
8.6.0

RP-43
RP-090117
3542
1

Condition to set the 'Security capability indication' flag
8.6.0

RP-43
RP-090117
3544
2

Ciphering for intra-UTRAN Radio Bearer Setup - Rel 7
8.6.0

RP-43
RP-090139
3545
-

T321 Timer Start Time Clarification
8.6.0

RP-43
RP-090136
3546
1

Clarification of ACK/NACK reporting for Enhanced Uplink in CELL_FACH
8.6.0

RP-43
RP-090149
3547
1

Introduction of MIMO for 1.28Mcps TDD
8.6.0

RP-43
RP-090141
3548
2

Correction to GANSS additional assistance data request
8.6.0

RP-43
RP-090140
3549
-

CS-HSPA information in RAB information to reconfigure
8.6.0

RP-43
RP-090136
3550
-

Addition of E-RNTI and H-RNTI in URA UPDATE CONFIRM message
8.6.0

RP-43
RP-090135
3551
1

CSG corrections
8.6.0

RP-43
RP-090147
3552
3

Introduction of Continuous Connectivity for packet data users for 1.28Mcps TDD
8.6.0

RP-43
RP-090142
3553
1

Corrections to Enhanced Serving Cell Change
8.6.0

RP-43
RP-090139
3554
3

Corrections for Enhanced UE DRX
8.6.0

RP-43
RP-090151
3555
1

General default configuration for CELL_FACH
8.6.0

RP-43
RP-090132
3556
-

Corrections to detection of E-UTRA cell
8.6.0

RP-43
RP-090144
3558
-

Correction on MBSFN frequency list IE in 3.84Mcps TDD MBSFN IMB
8.6.0

RP-43
RP-090150
3559
-

Correction to activation/deactivation of secondary cell reception
8.6.0

RP-43
RP-090132
3561
-

Missing reference to E-UTRAN DL-DCCH-Message at Inter-RAT Handover
8.6.0

RP-43
RP-090139
3562
-

Corrections for enhanced UE DRX
8.6.0

RP-43
RP-090132
3563
1

Clearing of START and Pre-defined configurations at Inter-RAT Handover UTRAN to E-UTRAN
8.6.0

RP-43
RP-090148
3565
-

Introduction of SR-VCC operations
8.6.0

RP-43
RP-090136
3566
1

Removal of redundant Cell Update procedure
8.6.0

RP-43
RP-090142
3567
-

Processed transactions initialisation upon SRB re-establishment
8.6.0

RP-43
RP-090118
3569
-

Clarification of scope of signaled transport block sizes for HS-SCCH less operation
8.6.0

RP-43
RP-090132
3573
1

Support E-UTRAN Inter-RAT measurement by UTRA TDD UE
8.6.0

RP-43
RP-090117
3575
-

25.331 Rel 8 CR UE restrictions on E-TFCI
8.6.0

RP-43
RP-090151
3577
2

Corrections related to UTRA R8 ASN.1 issues
8.6.0

RP-43
RP-090115
3580
-

Correction to handling of CELL_INFO_LIST when  'Inter-frequency cell info list' is received in System Information Block Type 11bis
8.6.0

RP-43
RP-090115
3583
1

Corrections for PS handover to UTRAN
8.6.0

RP-43
RP-090121
3585
1

Correction to RRC handling of AG and SG tables when 16QAM UL is configured
8.6.0

RP-43
RP-090118
3587
1

Correction to handling of DTX-DRX information
8.6.0

RP-43
RP-090132
3592
-

Corrections to UTRA to EUTRA mobility
8.6.0

RP-43
RP-090132
3593
-

Correction to serving cell dedicated priority handling when no priority is available
8.6.0

RP-43
RP-090133
3594
-

EUTRA Feature Group Support Indicators in UTRA
8.6.0

RP-43
RP-090364
3595
4

Revised RAN2 REL-8 CRs for LTE on Feature Group Indicators
8.6.0

RP-43
RP-090135
3596
2

Correction to CSG PSC signalling
8.6.0

RP-43
RP-090151
3601
-

Addition of E-RGCH Combination Info in SRNS RELOCATION INFO(R8)
8.6.0

RP-43
RP-090150
3603
-

Corrections to Dual Cell HSDPA operation
8.6.0

RP-43
RP-090142
3605
-

Corrections to HS-DSCH cell change enhancements(R8MIMO)
8.6.0

RP-43
RP-090142
3607
-

Some corrections to Serving Cell Change enhancements
8.6.0

RP-43
RP-090132
3608
-

Corrections to absolute priority reselection
8.6.0

RP-43
RP-090139
3609
-

Clarification of enhanced UE DRX operation
8.6.0

RP-43
RP-090132
3610
-

Inheriting of dedicated priorities at inter-RAT reselection
8.6.0

RP-43
RP-090137
3613
1

Corrections to enhanced CELL_FACH in 1.28Mcps TDD
8.6.0

RP-43
RP-090122
3614
1

Clarification of 64QAM TB Table applicability
8.6.0

RP-43
RP-090151
3615
-

Correction of Uplink DPCH power control info IE
8.6.0

RP-43
RP-090146
3617
-

Introduction of UMTS Band f in 25.331
8.6.0

RP-43
RP-090136
3618
-

Correction on F-DPCH slot format for E-DCH in CELL_FACH
8.6.0

RP-43
RP-090326
3619
1

Addition of CSG capability indication
8.6.0

RP-43
RP-090145
3620
-

Correction for UTRA ETWS duplicate detection
8.6.0

RP-43
RP-090117
3622
-

Adding the MBMS PTM RB release cause in the MCCH message when releasing the MBMS service for 1.28Mcps TDD
8.6.0

RP-43
RP-090326
3624
-

Addition of CSG capability indication in Initial Direct Transfer
8.6.0
06/2009
RP-44
RP-090498
3629
1

Removal of description of CPCH feature
8.7.0

RP-44
RP-090505
3631
1

Error in UE capability update procedure
8.7.0

RP-44
RP-090505
3633
1

Correction on deferredMeasurementControlReading
8.7.0

RP-44
RP-090500
3635
-

Clarification for setting the HS_SCCH_LESS_STATUS variable
8.7.0

RP-44
RP-090506
3636
-

Removal of FFS in reference to GERAN timer T3230
8.7.0

RP-44
RP-090517
3637
1

Addition of semantics description for support of CSG
8.7.0

RP-44
RP-090506
3638
1

Clarification of setting meaurement capability TDD in INTER RAT HANDOVER INFOR message
8.7.0

RP-44
RP-090519
3639
-

Correction to enhanced Serving Cell Change procedure
8.7.0

RP-44
RP-090519
3640
-

Correction of the “else” clause in Target cell HS-SCCH reception
8.7.0

RP-44
RP-090519
3641
-

SIB7 and enhanced UE DRX operation
8.7.0

RP-44
RP-090519
3642
2

Correction to statement of SPS operation for 1.28Mcps TDD
8.7.0

RP-44
RP-090506
3643
1

Preserving dedicated priorities in camped on any cell state
8.7.0

RP-44
RP-090505
3645
-

Correction on UE Mobility State Indicator
8.7.0

RP-44
RP-090500
3647
-

Correction to CPC activation/deactivation
8.7.0

RP-44
RP-090519
3648
-

Procedure requirements for ETWS primary notification with security
8.7.0

RP-44
RP-090519
3649
-

Handling of dual cell HS-SCCH orders at serving cell change
8.7.0

RP-44
RP-090519
3650
-

Corrections to common E-DCH operation
8.7.0

RP-44
RP-090607
3656
4

Specification of CPC restored state upon physical layer failure
8.7.0

RP-44
RP-090501
3658
2

Correction to non-scheduled transmission for 1.28 Mcps TDD
8.7.0

RP-44
RP-090503
3660
-

Clarification of CQI reporting for 1.28Mcps TDD
8.7.0

RP-44
RP-090503
3662
-

Correction to Improved L2 support for high data rates for TDD
8.7.0

RP-44
RP-090518
3663
-

Missing CS over HSPA operation in SR-VCC
8.7.0

RP-44
RP-090519
3664
-

Correction on CPICH Secondary CCPCH power offset in  3.84 Mcps TDD MBSFN IMB
8.7.0

RP-44
RP-090502
3665
1

Correction on p-t-m bearer release in 3.84 Mcps TDD MBSFN IMB
8.7.0

RP-44
RP-090517
3667
1

Addition of CSG cell reservation signalling
8.7.0

RP-44
RP-090499
3671
-

Clarification to the support of 2 different layer 3 filters per measurement type
8.7.0

RP-44
RP-090505
3673
1

Clarification to handling of IE “Use special value of HE field”
8.7.0

RP-44
RP-090500
3675
-

Removal of slot format 3 from IE “Uplink DPCCH slot format information”in “DTX-DRX information”
8.7.0

RP-44
RP-090519
3676
1

Correction to TargetCellPreconfigInfo asn1
8.7.0

RP-44
RP-090506
3680
-

Correction for E-UTRA measurement and reporting quantity CR for 25.331
8.7.0

RP-44
RP-090506
3681
-

Corrections to absolute priority reselection
8.7.0

RP-44
RP-090504
3683
-

Correction to Enhanced CELL_FACH Capability
8.7.0

RP-44
RP-090519
3684
-

Configuration of EAI power offset
8.7.0

RP-44
RP-090519
3688
-

Correction to RRC transaction identifier handling
8.7.0

RP-44
RP-090500
3690
1

Corrections to CPC when E-DCH TTI is reconfigured (Rel8)
8.7.0

RP-44
RP-090505
3692
-

Call Type Inclusion condition
8.7.0

RP-44
RP-090506
3694
2

Transfer of INTER RAT HANDOVER INFO upon handover from UTRAN
8.7.0

RP-44
RP-090519
3695
-

Clarification of SIB7 reading for enhanced uplink in CELL_FACH state
8.7.0
09/2009
RP-45
RP-090906
3700
1

Correction for  the value range of threshold other system in case E-UTRA measurement Alt1
8.8.0

RP-45
RP-090906
3701
-

Inconsistency between ASN.1 and Tabular format of E-UTRA target info
8.8.0

RP-45
RP-090906
3702
3

Clarification on signalling connection initialisation upon HO to UTRAN
8.8.0

RP-45
RP-090901
3704
-

Missing RRC messages in RRC procedure performance values section
8.8.0

RP-45
RP-090912
3705
-

Corrections to handling of secondary cell HS-DSCH information in DC-HSDPA
8.8.0

RP-45
RP-090905
3708
-

Correction to HS-SCCH less operation (Rel-8)
8.8.0

RP-45
RP-090914
3709
1

Correction to the reception of a Target cell HS-SCCH order
8.8.0

RP-45
RP-090911
3710
-

Corrections related to CSG
8.8.0

RP-45
RP-090916
3713
-

Actions upon CS over HSPA is configured in 'RB information to setup' IE
8.8.0

RP-45
RP-090916
3715
-

Validation of PDCP configuration in case of CS voice over HSPA
8.8.0

RP-45
RP-090908
3717
1

E-DCH TTI restriction for 16QAM
8.8.0

RP-45
RP-090917
3718
-

Clarification that a configuration with simultaneous RB mapping options for mac-is/i and mac-es/e is invalid
8.8.0

RP-45
RP-090912
3719
-

Dual Cell HSDPA: clarification of setting of variable SECONDARY_CELL_HS_DSCH_RECEPTION
8.8.0

RP-45
RP-090913
3722
-

Inconsistency with ASN.1 for TVM for Enhanced UL for CELL_FACH
8.8.0

RP-45
RP-090902
3728
1

Making features “Using special value of HE field to indicate end of an SDU for RLC AM” optional, octet aligned HS-DSCH transport block table optional for non-64QAM UEs and “Removing the constraint that the same HS-SCCH should be used in contiguous TTIs” optional
8.8.0

RP-45
RP-090912
3735
1

Clarification of H-ARQ Info for DC-HSDPA
8.8.0

RP-45
RP-090912
3736
-

Correction in the use of H-RNTI for the secondary cell of Dual Cell HSDPA operation
8.8.0

RP-45
RP-090916
3738
-

Correction to response message of Cell Update Confirm message in case of Voice Type Transition i.e. “CS over HSPA” to “CS over DCH” or vice-versa
8.8.0

RP-45
RP-090909
3742
-

Clarification for UE behaviour on RLC unrecoverable error when UE has not received L2 Ack for a  Reconfig Complete msg
8.8.0

RP-45
RP-090910
3743
1

Clarification on common E-DCH MAC flow configuration in enhanced CELL_FACH for 1.28 Mcps TDD
8.8.0

RP-45
RP-090910
3745
1

Correction to periodical cell update for 1.28 Mcps TDD
8.8.0

RP-45
RP-090910
3747
1

Clarification on UE category of enhanced CELL_FACH for 1.28Mcps TDD
8.8.0

RP-45
RP-090901
3749
-

Clarification of multi-frequency info for 1.28Mcps TDD
8.8.0

RP-45
RP-090915
3750
-

Security threat with duplicate detection for ETWS
8.8.0

RP-45
RP-090904
3754
-

Correction to the description of MIMO parameters
8.8.0

RP-45
RP-090917
3755
-

Ambiguity on the RLC PDU type of SRB
8.8.0

RP-45
RP-090902
3759
-

Making features “F-DPCH” and “Introduction of Wait time to Cell Update Confirm” optional
8.8.0

RP-45
RP-090907
3760
-

25.331 Features to be made optional in release 8: E-DPCCH power boosting
8.8.0

RP-45
RP-090918
3761
-

Correction regarding SRVCC
8.8.0

RP-45
RP-090906
3762
1

Clarification on key mapping and storing after successful handover from EUTRAN
8.8.0

RP-45
RP-090899
3764
2

Making features "Two DRX schemes in URA_PCH and CELL_PCH" and "E-DPDCH power interpolation formula" optional
8.8.0

RP-45
RP-090917
3765
-

Clarification that DDI is not used with mac-i/is configuration
8.8.0

RP-45
RP-090916
3769
-

CS voice over HSPA UE capability in RRC CONNECTION REQUEST
8.8.0

RP-45
RP-090920
3776
-

Corrections to the CONTROL_CHANNEL_DRX_STATUS of 1.28Mcps TDD
8.8.0

RP-45
RP-090903
3778
-

Clarification on the Power Resource Related Information of 1.28Mcps TDD
8.8.0

RP-45
RP-090903
3780
-

Clarification on the configuration of T-SI-NST for 1.28Mcps TDD
8.8.0

RP-45
RP-090910
3781
-

Clarification on fach measurement occasion for 1.28Mcps TDD
8.8.0

RP-45
RP-090917
3785
-

Clarification on Scheduling Information transmission
8.8.0

RP-45
RP-090920
3788
-

Clarification on the number of RxTx Pattern of SPS operation for 1.28Mcps TDD
8.8.0

RP-45
RP-090909
3792
1

25.331 on Addition of LCR TDD R8 extend capability info in Inter-RAT Handover info
8.8.0

RP-45
RP-090909
3800
-

Missing RRC messages in RRC procedure performance values section
8.8.0

RP-45
RP-090900
3803
-

Clarification on Inter-frequency RACH reporting quantity for TDD
8.8.0

RP-45
RP-090900
3807
-

E-AGCH channel and E_RNTI variable corrections
8.8.0

RP-45
RP-090874
3810
4

Making features "Absolute priority reselection to GERAN", "Absolute priority reselection to UTRA inter-frequency" and "Improved EUL power control" optional
8.8.0

RP-45
RP-090901
3813
-

Enhancing the Category Handling in UMTS
8.8.0

RP-45
RP-090902
3814
-

Making the bit of feature "UEA2/UIA2" reformulated
8.8.0

RP-45
RP-090900
3816
-

RLC Size - SizeInfoType2 correction
8.8.0
09/2009
RP-45
RP-090921
3685
1

Introduction of Band XIX
9.0.0

RP-45
RP-090925
3726
1

Introduction of single stream MIMO (TxAA fallback mode)
9.0.0

RP-45
RP-090923
3727
2

Introduction of Dual Band HSDPA in 25.331
9.0.0

RP-45
RP-090924
3774
1

25.331 Stage 3 CR Introduction of DC-HSDPA and MIMO
9.0.0
12/2009
RP-46
RP-091307
3820
-

Adding missing reference for HS_SCCH_LESS_STATUS variable
9.1.0

RP-46
RP-091306
3824
-

Clarification on deferred measurement control reading
9.1.0

RP-46
RP-091321
3826
1

Clarification for initial SPS Tx pattern parameter for 1.28Mcps TDD
9.1.0

RP-46
RP-091327
3831
2

Clarification of common E-DCH mac-d flow for CCCH transmission
9.1.0

RP-46
RP-091310
3834
1

Clarification of Power Offset for Scheduling Info for 1.28Mcps TDD (change 1)
9.1.0

RP-46
RP-091310
3836
1

Clarification of Power Offset for Scheduling Info for 1.28Mcps TDD (change 2)
9.1.0

RP-46
RP-091325
3841
-

Clarification on the configuration of TX diversity mode on DPCH in DC-HSDPA
9.1.0

RP-46
RP-091318
3844
-

Correction of nesting levels greater 15 in ASN.1 IE definitions
9.1.0

RP-46
RP-091324
3846
1

Correction of number of NI per frame for 3.84 Mcps TDD MBSFN IMB
9.1.0

RP-46
RP-091314
3848
1

Correction of the UE behviour after RRC connection Reject with redirection to EUTRA
9.1.0

RP-46
RP-091378
3850
2

One correction to ASN1 of enhanced CELL_FACH state for LCR TDD
9.1.0

RP-46
RP-091338
3851
-

Corrections to DC-HSDPA combined with MIMO
9.1.0

RP-46
RP-091338
3852
-

CR on the HARQ configuration options for DC-HSDPA
9.1.0

RP-46
RP-091347
3853
-

IMS Emergency Support Indication in BCCH
9.1.0

RP-46
RP-091312
3856
1

MAC-es/e reset when 16QAM operation starts or stops(REL-8)
9.1.0

RP-46
RP-091315
3858
-

Making features “Absolute priority reselection to GERAN”, “Absolute priority reselection to UTRA inter-frequency” optional (Option1)
9.1.0

RP-46
RP-091321
3862
-

Correction on Control Channel DRX description in CELL_DCH state for 1.28Mcps TDD
9.1.0

RP-46
RP-091321
3864
-

Clarification of the actions related to HS_DSCH_RECEPTION variable for 1.28Mcps TDD
9.1.0

RP-46
RP-091306
3868
-

Corrections to the Frequency quality estimate in 1.28Mcps TDD
9.1.0

RP-46
RP-091317
3872
-

Inconsistency between tabular and ASN.1 for Adjacent Frequency measurements without compressed mode
9.1.0

RP-46
RP-091347
3873
3

Introduction of TS0 enhancement for 1.28Mcps TDD
9.1.0

RP-46
RP-091305
3879
1

UE behaviour upon a removal of the serving HS-DSCH/E-DCH radio link
9.1.0

RP-46
RP-091305
3883
-

Maximum Power Reduction (MPR) and event 6D reporting
9.1.0

RP-46
RP-091308
3886
2

RRC Signaling of S-CPICH power offset for MIMO UEs
9.1.0

RP-46
RP-091325
3890
-

Clarification of the definition of the multicell support
9.1.0

RP-46
RP-091317
3894
-

Clarification on the UE state after fast dormancy request
9.1.0

RP-46
RP-091327
3898
-

Clarification on the transmission of MAC-c PDUs (R9)
9.1.0

RP-46
RP-091337
3899
1

Dual band and DC+MIMO capability signalling
9.1.0

RP-46
RP-091339
3904
-

Introduction of DC-HSDPA combined with TxAA extension
9.1.0

RP-46
RP-091338
3905
-

Bundling DC-MIMO and TSN extension together in RRC
9.1.0

RP-46
RP-091338
3906
-

Indication of MIMO support in RRC Connection Request
9.1.0

RP-46
RP-091338
3910
-

Removal of redundant IE
9.1.0

RP-46
RP-091346
3911
-

Transmission of UE inactive period during Inter-RAT handover to UTRAN
9.1.0

RP-46
RP-091336
3914
2

Introduction of DC-HSUPA
9.1.0

RP-46
RP-091306
3920
2

Modification of inter RAT handover info for 1.28 Mcps TDD
9.1.0

RP-46
RP-091322
3922
-

Correction to MEASUREMENT CONTROL reception in enhanced CELL_FACH for 1.28 Mcps TDD
9.1.0

RP-46
RP-091322
3924
-

Clarification of PICH selection scheme for 1.28 Mcps TDD
9.1.0

RP-46
RP-091321
3928
-

Correction to CPC operation for 1.28 Mcps TDD
9.1.0

RP-46
RP-091258
3930
1

Syncronization detection window configuration in CPC for 1.28 Mcps TDD
9.1.0

RP-46
RP-091453
3937
3

UE support for E-UTRAN measurements and reporting in connected mode
9.1.0

RP-46
RP-091343
3940
2

CR on Support of inbound mobility to CSG cell and Hybrid cell
9.1.0

RP-46
RP-091325
3948
-

Searching on the adjacent cell without the need for compressed mode - Rel 9
9.1.0

RP-46
RP-091337
3953
2

Optionality of search on the secondary carrier - Rel 9
9.1.0

RP-46
RP-091259
3956
1

Carrier-specific STTD configuration for DC-HSDPA
9.1.0

RP-46
RP-091314
3960
1

Correction to UE behaviour after handover to UTRAN from EUTRAN or GERAN
9.1.0

RP-46
RP-091329
3966
-

Clarification that a configuration with RB mapping options for flexible RLC PDU size and mac-es/e is invalid
9.1.0

RP-46
RP-091328
3968
1

UM RLC ciphering error detection and recovery
9.1.0

RP-46
RP-091328
3970
-

CS voice over HSPA SDU discard timer configuration
9.1.0

RP-46
RP-091322
3976
-

Supporting CCCH transmission on secondary frequency for 1.28Mcps TDD
9.1.0

RP-46
RP-091317
3983
-

Update UE variable VALUE_TAG to include SIB types 19 and 20
9.1.0

RP-46
RP-091306
3986
1

Correction to the reference in section 14.9.2
9.1.0

RP-46
RP-091308
3989
-

Optional support of Tx diversity on DL control channels for MIMO capable UEs
9.1.0

RP-46
RP-091347
3990
-

Addition of DGNSS Validity Period
9.1.0

RP-46
RP-091335
3995
1

Introduction of band XXI - 25.331
9.1.0

RP-46
RP-091317
4001
-

Standard Time Information Transmission in 1.28Mcps TDD System
9.1.0

RP-46
RP-091338
4002
-

New values for buffer sizes
9.1.0

RP-46
RP-091376
4007
-

Common E-DCH MAC-d flow List ASN.1 definition correction
9.1.0
03/2010
RP-47
RP-100199
4010
1

Indication of MIMO codebook restriction
9.2.0

RP-47
RP-100284
4013
-

Traffic volume measurement in CELL_PCH state
9.2.0

RP-47
RP-100294
4015
1

Clarification of T323 configuration
9.2.0

RP-47
RP-100287
4017
-

Clarification to the frequency selection operation for E-FACH of 1.28Mcps TDD
9.2.0

RP-47
RP-100298
4023
-

Correction to the activation/deactivation of secondary cell MIMO feature
9.2.0

RP-47
RP-100303
4024
-

Corrections for virtual active set
9.2.0

RP-47
RP-100306
4025
-

25.331: Fix for CSG measurements without SI report
9.2.0

RP-47
RP-100302
4026
-

Introduction of band XX (800 MHz)
9.2.0

RP-47
RP-100308
4027
1

Introduction of CELL_DCH measurement occasion calculation for 1.28Mcps TDD
9.2.0

RP-47
RP-100306
4028
-

Release 9 UE Capability: UTRA Home Node B Inbound Mobility related features
9.2.0

RP-47
RP-100294
4030
-

UE behaviour upon RLC re-establishment or inter-RAT change before successful delivery of SCRI for fast domancy
9.2.0

RP-47
RP-100306
4031
2

CR on 25331_CRxxxx_(REL-9) Remaining open issues for support of inbound mobility in UMTS
9.2.0

RP-47
RP-100306
4032
-

Clarification to measurement configuration for SI reporting
9.2.0

RP-47
RP-100285
4039
1

Correction on measurement to E-UTRA(R9)
9.2.0

RP-47
RP-100298
4041
-

Corrections to TSN field extension configuration for MAC-ehs entity (alternative version)
9.2.0

RP-47
RP-100306
4046
1

Clarification on proximity indication reporting in CELL_FACH, CELL_PCH and URA_PCH
9.2.0

RP-47
RP-100306
4048
-

Reading neighbour HNB System Information Block 3 & Master Information Block
9.2.0

RP-47
RP-100287
4052
-

Addition of 'Cell Selection and Re-selection Info' in measurement control
9.2.0

RP-47
RP-100287
4054
-

Addition of HS-SCCH TPC step size for enhanced CELL_FACH for 1.28 Mcps TDD
9.2.0

RP-47
RP-100287
4056
-

Clarification on E-RUCCH info in enhanced CELL_FACH
9.2.0

RP-47
RP-100289
4061
1

Corrections to CPC when no DPCH is configured for 1.28 Mcps TDD
9.2.0

RP-47
RP-100308
4062
1

Corrections related to UTRA Rel-9 ASN.1 issues
9.2.0

RP-47
RP-100294
4064
1

ASN.1 issue with SIGNALLING CONNECTION RELEASE INDICATION
9.2.0

RP-47
RP-100294
4069
-

Intra Domain NAS Node Selector Derivation
9.2.0

RP-47
RP-100284
4073
1

Corrections to HS-DSCH reception in CELL-PCH and CELL-FACH
9.2.0

RP-47
RP-100283
4079
1

Corrections to the Delta Primary CCPCH RSCP for 1.28Mcps TDD
9.2.0

RP-47
RP-100289
4081
-

Clarification to the capabilities of SPS and control channel DRX in CELL UPDATE for 1.28Mcps TDD
9.2.0

RP-47
RP-100288
4083
1

Correction of RNTIs handling for Enhanced Uplink in CELL_FACH
9.2.0

RP-47
RP-100303
4084
-

Initial Serving Grant for Secondary Carrier in Dual Cell E-DCH operation
9.2.0

RP-47
RP-100294
4088
2

UE Fast Dormancy upon SRNS relocation
9.2.0

RP-47
RP-100309
4092
1

Inter-RAT PS handover of signalling radio bearers only
9.2.0

RP-47
RP-100294
4097
1

Correction on simultaneous deletion and addition of Transport Channels in a single reconfiguration message
9.2.0

RP-47
RP-100285
4103
-

Correction to the value range of RSRQ
9.2.0

RP-47
RP-100293
4105
2

Clarification for PPAC after Inter-RAT Redirection
9.2.0

RP-47
RP-100308
4107
-

Cell reselection enhancements CR for 25.331
9.2.0

RP-47
RP-100285
4109
-

Clarification of the IE UE Security Information2
9.2.0

RP-47
RP-100306
4112
-

Proximity status indication handling at mobility
9.2.0

RP-47
RP-100308
4113
-

ASN.1 Issue with CellUpdateConfirm
9.2.0

RP-47
RP-100306
4115
4

CSG measurement release upon SRNS relocation
9.2.0

RP-47
RP-100299
4116
-

Clarification of UE Categories for TxAA-Non-MIMO
9.2.0

RP-47
RP-100294
4117
-

Modification to Fast Dormancy in PCH States
9.2.0

RP-47
RP-100314
4118
-

CR to 25.331 on Redirection enhancements to UTRAN
9.2.0






Deletd ToC bookmarks for faster file opening
9.2.1
06/2010
RP-48
RP-100557
4119
-

Alignment of tabular to ASN.1 in IE Downlink information for each radio link" for TDD"
9.3.0

RP-48
RP-100538
4120
-

Clarification on CSG indicator (Release 9)
9.3.0

RP-48
RP-100541
4122
-

Clarification for Enhanced serving cell change on removal of a RL.
9.3.0

RP-48
RP-100537
4124
-

Clarification of DL MAC header type setting when MAC-I is configured
9.3.0

RP-48
RP-100537
4126
-

Clarification of Tx interruption after trigger handling for Enhanced Uplink in CELL_FACH state and Idle mode
9.3.0

RP-48
RP-100538
4129
-

Correct the inconsistency between tabular and ASN.1 for ”Support of CSG” in “UE radio access capability”
9.3.0

RP-48
RP-100539
4131
1

Correction to the E-RUCCH transmission on the secondary frequency during RRC state transition for 1.28 Mcps TDD
9.3.0

RP-48
RP-100532
4134
1

Handling of RRC Unrecoverable Error in Enhanced CELL_FACH
9.3.0

RP-48
RP-100551
4137
-

Prohibit timer for proximity indication
9.3.0

RP-48
RP-100556
4138
-

Clarification to cell reselection to E-UTRA enhancement
9.3.0

RP-48
RP-100539
4141
-

Addition of UpPCH position info in enhanced CELL_FACH
9.3.0

RP-48
RP-100539
4144
2

Clarification on the usage of Treset for 1.28 Mcps TDD
9.3.0

RP-48
RP-100544
4146
-

Addition of UE capability in INTER RAT HANDOVER INFO for LCR TDD
9.3.0

RP-48
RP-100534
4149
-

Clarification on UE radio access capability in ASN1 for LCR TDD
9.3.0

RP-48
RP-100551
4153
-

Correct the Inconsistency between Tabular and ASN.1 for CSG Inbound Mobility Capability
9.3.0

RP-48
RP-100557
4154
-

Correct the Inconsistency between Tabular and ASN.1 for Device type
9.3.0

RP-48
RP-100550
4155
-

Dual Cell E-DCH operation correction
9.3.0

RP-48
RP-100532
4161
-

Clarification on the HS-DSCH reception in enhanced CELL_FACH state
9.3.0

RP-48
RP-100549
4169
-

Support MAC-ehs in Single Stream MIMO case
9.3.0

RP-48
RP-100541
4174
-

Enhanced serving cell change - allowing update of the secondary freq for HICH/RGCH other RL
9.3.0

RP-48
RP-100545
4176
-

Enhanced serving cell Change - allowing the re-addition of a RL in order to update target cell preconfiguration information
9.3.0

RP-48
RP-100543
4183
1

Clarification of active set for secondary serving HS-DSCH cell
9.3.0

RP-48
RP-100544
4187
-

Clarification on SRVCC
9.3.0

RP-48
RP-100532
4189
-

Clarification on the traffic volume measurement in CELL_PCH state
9.3.0
06/2010
RP-48
-



v10.0.0 created based on v9.3.0
10.0.0

RP-48
RP-100560
4190
-

Preparation for reusing REL-8/9 DL signalling options in REL-10
10.0.0
09/2010
RP-49
RP-100844
4194
-

Incorrect inconsisitency check on MAC-ehs reordering queue
10.1.0

RP-49
RP-100850
4200
-

Correction to VAS updating
10.1.0

RP-49
RP-100858
4202
-

Clarification of primary uplink frequency and secondary uplink frequency
10.1.0

RP-49
RP-100856
4206
-

Correction to MIMO_STATUS and SECONDARY_CELL_MIMO_STATUS setting for Single Stream MIMO
10.1.0

RP-49
RP-100862
4207
-

Introduction of Rel-10 access stratum release indicator
10.1.0

RP-49
RP-100842
4218
-

Correction to missing ASN.1 for MIMO parameters
10.1.0

RP-49
RP-100850
4221
-

Correction to deferred SIB11 reading
10.1.0

RP-49
RP-100859
4223
-

Pre-redirection info setting after the redirection/CSFB from E-UTRA
10.1.0

RP-49
RP-100841
4240
-

Flexible RLC only applies to user RB, not SRB
10.1.0

RP-49
RP-100883
4245
-

LI size for CCCH(SRB#0) in enhanced CELL_FACH operation
10.1.0

RP-49
RP-100910
4250
1

Small Technical Enhancements and Improvements for GNSS
10.1.0

RP-49
RP-100863
4251
1

Introduction of 4C-HSDPA in 25.331
10.1.0

RP-49
RP-100855
4259
-

Update of virtual active set handling for inter-frequency CSG measurements
10.1.0

RP-49
RP-100844
4271
-

Correction to default radio configuration #20
10.1.0

RP-49
RP-100844
4275
-

Clarifications to the intra-frequency measurement event for 1.28Mcps TDD
10.1.0

RP-49
RP-100858
4286
1

Correction to the state of the secondary uplink frequency in case of hard handover
10.1.0

RP-49
RP-100846
4289
1

Explicit HARQ Memory partioning for dual cell operation
10.1.0

RP-49
RP-100862
4292
-

Editorial Corrections to 25.331
10.1.0

RP-49
RP-100850
4295
-

Correction to default configuration #23
10.1.0

RP-49
RP-100862
4296
2

UE supported Frequency band indicator for redirection in RRC CONNECTION REQUEST
10.1.0

RP-49
RP-100842
4301
-

Clarification of when to clear IE Precoding weight set restriction" from MIMO_PARAMS"
10.1.0

RP-49
RP-100862
4305
-

Editorial changes for MIMO and storing of E-RGCH information
10.1.0

RP-49
RP-100862
4308
-

Use of Navigational Model Additional data
10.1.0

RP-49
RP-100848
4311
1

Security procedures for intra-UTRAN SR-VCC
10.1.0

RP-49
RP-100851
4315
1

Clarification of FGI setting for inter-RAT features not supported by the UE
10.1.0

RP-49
RP-100851
4318
1

Removal of SRB only PS handover
10.1.0

RP-49
RP-100859
4322
-

Introduction of system information container indication
10.1.0
12/2010
RP-50
RP-101205
4331
-

Addition of ROHC target mode in SRNS relocation message
10.2.0

RP-50
RP-101201
4334
-

Clarification of the operation of RRC for 3.84 Mcps TDD IMB MBSFN
10.2.0

RP-50
RP-101200
4337
-

Correction on actions related to HSPA_RNTI_STORED_CELL_PCH
10.2.0

RP-50
RP-101202
4339
-

Correction on CS voice over HSPA SDU discard timer configuration
10.2.0

RP-50
RP-101200
4342
-

Correction on READY_FOR_COMMON_EDCH definition
10.2.0

RP-50
RP-101366
4343
-

Correction to the absence of IE additional Cells in 4C-HSDPA
10.2.0

RP-50
RP-101206
4345
1

Correction to the limitation of SI acquisition
10.2.0

RP-50
RP-101198
4348
-

CR on T324 timer usage
10.2.0

RP-50
RP-101199
4351
-

Power offset for Scheduling Info in MAC-i
10.2.0

RP-50
RP-101366
4352
2

Some clarifications of 4C-HSDPA behavior
10.2.0

RP-50
RP-101213
4353
1

Some legacy editorial corrections for TEI10
10.2.0

RP-50
RP-101213
4354
-

Speed dependent scaling rules in HCS environment
10.2.0

RP-50
RP-101203
4357
-

UE behaviour when PPAC and DSAC parameters not present in SIB3
10.2.0

RP-50
RP-101204
4360
-

Corrections to ETWS primary notification with security procedure
10.2.0

RP-50
RP-101205
4369
1

Correction related to inter-RAT and inter-frequency measurements on a frequency other than the used frequency
10.2.0

RP-50
RP-101213
4375
-

RLC reset on a Signalling Radio Bearer
10.2.0

RP-50
RP-101366
4382
-

Corrections on 25.331 for 4C-HSDPA
10.2.0

RP-50
RP-101219
4383
-

Introduction of MU-MIMO for LCR TDD in 25.331
10.2.0

RP-50
RP-101200
4386
3

SIB5 changes for E-DCH in CELL_FACH and Idle Mode
10.2.0

RP-50
RP-101264
4393
1

Procedural text to support measurements in the Secondary UL Frequency
10.2.0

RP-50
RP-101211
4394
3

Precoding weight set restriction setting for secondary cells
10.2.0

RP-50
RP-101200
4397
-

RRC procedure performance requirements for Enhanced Uplink in CELL_FACH
10.2.0

RP-50
RP-101213
4398
-

Addition of Rel-10 critical extension in SRNS relocation message adding ROHC target mode
10.2.0

RP-50
RP-101212
4400
-

Addition of UE ROHC capability in IRAT handover
10.2.0

RP-50
RP-101365
4403
2

Introduction of MCHSUPA for 1.28Mcsp TDD
10.2.0

RP-50
RP-101200
4406
-

Correction of HSPA_RNTI_STORED_CELL_PCH handling
10.2.0

RP-50
RP-101220
4407
1

Introduction of detected set measurements and reporting for Inter-frequency
10.2.0

RP-50
RP-101198
4411
1

Clarifications for deletion of target cell preconfiguration for existing RL by ASU
10.2.0

RP-50
RP-101366
4419
1

Corrections to 4C-HSDPA
10.2.0

RP-50
RP-101213
4427
-

Enhanced Security Mode procedure handling in case of delayed L2 ACK
10.2.0

RP-50
RP-101200
4434
2

Further corrections on actions related to HSPA_RNTI_STORED_CELL_PCH
10.2.0
03/2011
RP-51
RP-110267
4437
-

Change in the radio bearer mapping due to a system info message
10.3.0

RP-51
RP-110276
4438
-

Clarification on MU-MIMO capability for LCR TDD
10.3.0

RP-51
RP-110268
4441
-

Clarification on UE behavior after transtion to enhanced CELL_FACH for LCR TDD
10.3.0

RP-51
RP-110267
4444
-

Correction of RB mapping option selection for HSPA_RNTI_STORED_CELL_PCH
10.3.0

RP-51
RP-110274
4446
1

Correction to system information container reference
10.3.0

RP-51
RP-110268
4449
-

Correction on Scheduling Info parameters for LCR TDD
10.3.0

RP-51
RP-110279
4450
-

Correction to SRNC relocation asn1 to include Rel-10 measurement types
10.3.0

RP-51
RP-110266
4453
-

Inconsistency between ASN.1 and tabular format for Active Set Update message
10.3.0

RP-51
RP-110264
4457
-

PCI Weight set restriction logic
10.3.0

RP-51
RP-110264
4458
-

RB mapping 'DCH + HS-DSCH' for MAC-ehs
10.3.0

RP-51
RP-110274
4460
-

Removal of inappropriate comment in ASN.1 for RSRQ based cell reselection parameters
10.3.0

RP-51
RP-110282
4461
1

UE Capabilities for MDT
10.3.0

RP-51
RP-110264
4465
-

Use of New H-RNTI in UMI message in CELL_DCH state
10.3.0

RP-51
RP-110268
4469
-

Handling of variables "PPAC_PARAM" and "DSAC_PARAM"
10.3.0

RP-51
RP-110264
4476
-

Reconfiguration messages and HS-SSCH orders interaction for DTX/DRX
10.3.0

RP-51
RP-110277
4482
-

Introduction of a capability indication for the Inter-frequency Detected Set feature
10.3.0

RP-51
RP-110266
4495
-

Clarification of invalid configuration for enhanced serving HS-DSCH cell change
10.3.0

RP-51
RP-110279
4496
-

Addition of MAC-ehs in total RLC AM buffer size in RLC capability
10.3.0

RP-51
RP-110271
4511
-

Correction to CSG Intra-frequency cell info
10.3.0

RP-51
RP-110286
4512
-

25331_CRxxxx Support of Delay Tolerant access requests
10.3.0

RP-51
RP-110281
4515
1

Corrections for the configuration of frequencies to measure without CM
10.3.0

RP-51
RP-110274
4519
3

Correction of conditionally included content in SI container
10.3.0

RP-51
RP-110279
4520
-

Extend the carrier capability for Multi-Carrier HSDPA for 1.28Mcps TDD
10.3.0

RP-51
RP-110274
4523
-

Clarification to the measurement occasion of E-FACH for 1.28Mcps TDD
10.3.0

RP-51
RP-110268
4526
-

Clarification to the intra and inter frequency measurement in E-FACH for 1.28Mcps
10.3.0

RP-51
RP-110282
4533
2

Introduction of Minimization of Drive Tests
10.3.0

RP-51
RP-110266
4542
-

Correction of target cell preconfiguration info handling upon reconfiguration
10.3.0

RP-51
RP-110268
4558
-

Negative values in a 'mod' function
10.3.0

RP-51
RP-110274
4562
1

Clarification of RRC CONNECTION REJECT with redirection
10.3.0

RP-51
RP-110422
4565
1

Dual Band Dual Cell MIMO only Release 10 UE not 3C or 4C capable
10.3.0

RP-51
RP-110279
4566
-

Adding the default Configuration for 12.2/7.4/5.9/4.75 kbps speech + 3.4 kbps (without SRB#5)
10.3.0

RP-51
RP-110274
4568
-

Rel-8 FGI handling in Rel-9
10.3.0

RP-51
RP-110266
4571
1

Correction related  to handling of DTX, DRX HS-SCCH orders upon enhanced serving cell change
10.3.0

RP-51
RP-110189
4576
-

Signalling for new band indicator 3
10.3.0
04/2011
-
-
-
-

Correction (to 10.2.36, “LoggedMeasGSMNeighbourCellsList” in 11.3 and to 13.4.0) as wrong specification file was uploaded.
10.3.1
06/2011
RP-52
RP-110838
4579
-

Clarification to setting of dedicated priorities
10.4.0

RP-52
RP-110829
4582
1

Correction for SR-VCC Parameter Setting
10.4.0

RP-52
RP-110838
4583
-

Correction to enhanced security mode procedure handling when waiting for delayed L2 ACK
10.4.0

RP-52
RP-110831
4585
1

Correction to the CELL_DCH measurement occasion for 1.28Mcps TDD
10.4.0

RP-52
RP-110825
4586
2

Correction to the E-PUCH TS configuration list for 1.28Mcps TDD
10.4.0

RP-52
RP-110829
4592
-

Correction to the HS-SCCH system info for 1.28Mcps TDD
10.4.0

RP-52
RP-110829
4595
-

Corrections to T321 and enhanced UE DRX operation upon transition to CELL_FACH state
10.4.0

RP-52
RP-110829
4598
-

Fast Dormancy correction for releasing radio bearers
10.4.0

RP-52
RP-110829
4601
1

Further clarification on UE behavior during state transition from CELL_PCH/URA_PCH to CELL_FACH
10.4.0

RP-52
RP-110837
4602
1

Introduction of extended wait timer in Signalling Connection Release
10.4.0

RP-52
RP-110826
4606
-

Handling of START value due to an RLC reestablishment when DL RLC PDU size is reconfigured from fixed to flexible with 15-bit LI
10.4.0

RP-52
RP-110825
4607
1

Removing RoHC discrepancy
10.4.0

RP-52
RP-110830
4609
1

Reporting of CSG VAS cell in case of CSG Inter-frequency Measurements
10.4.0

RP-52
RP-110825
4610
1

Tabular and ASN.1 alignment: MBMS
10.4.0

RP-52
RP-110843
4611
-

TCE ID parameter for logged MDT
10.4.0

RP-52
RP-110837
4612
-

Updated value range for the Extended Wait Timer
10.4.0

RP-52
RP-110838
4613
-

Clarification on PICH codes list for LCR TDD
10.4.0

RP-52
RP-110838
4614
-

Correction of the mismatched names between ASN.1 and tabular for 1.28Mcps TDD
10.4.0

RP-52
RP-110826
4626
-

Clarification to the number of HARQ processes in HSDPA when switching between MIMO and non-MIMO
10.4.0

RP-52
RP-110829
4632
-

Reconfiguration messages and HS-SSCH orders interaction for DC-HSDPA
10.4.0

RP-52
RP-110827
4634
-

Void IE 'Use special value of HE field'
10.4.0

RP-52
RP-110831
4637
1

Alignment of Tabular and ASN.1 for SNRS Relocation
10.4.0

RP-52
RP-110825
4642
-

Corrections to the selection of RB multiplexing option
10.4.0

RP-52
RP-110829
4649
1

Correction of actions related to TARGET_CELL_RECONFIGURATION variable
10.4.0

RP-52
RP-110829
4652
1

Clearance of the stored frequency info for measure without CM
10.4.0

RP-52
RP-110829
4657
1

Correction to SIB5 5bis and SIB6 handle for Enhanced Uplink
10.4.0

RP-52
RP-110842
4658
1

Introduction of UTRAN Automatic Neighbor Relation
10.4.0

RP-52
RP-110828
4661
1

Corrections to detection of E-UTRA cell
10.4.0

RP-52
RP-110843
4662
1

Clarification on PLMN checking for MDT logging
10.4.0

RP-52
RP-110838
4669
1

Corrections related to UTRA REL-10 25.331 ASN.1 issues
10.4.0

RP-52
RP-110833
4671
-

Correction to the Standalone Midamble Information for 1.28Mcps TDD
10.4.0

RP-52
RP-110825
4673
-

Tabular and ASN.1 alignment: new-DSCH-RNTI
10.4.0

RP-52
RP-110829
4674
1

Correction to the physical channel failure in CELL UPDATE CONFIRM for 1.28Mcps TDD
10.4.0

RP-52
RP-110838
4678
-

Procedure text for addition of new band indicator 3 and change of the ASN.1 type
10.4.0

RP-52
RP-110841
4680
2

Correction to 4C-HSDPA to support signaling for non-adjacent aggregation
10.4.0

RP-52
RP-110832
4690
-

Introduction of measurement ID extension
10.4.0

RP-52
RP-110844
4694
1

Addition of new band XXV (Expanded 1900 MHz Band), plus Procedure text for addition of new band indicator 3 and change of the ASN.1 type
10.4.0

RP-52
RP-110838
4698
1

Introduction of the frequency specific compressed mode
10.4.0

RP-52
RP-110744
4699
-

Correction to Cell Change Order
10.4.0
09/2011
RP-53
RP-111284
4700
-

Clarification on dual band capability in 4CHSDPA
10.5.0

RP-53
RP-111275
4705
1

Target cell HS-SCCH order handling
10.5.0

RP-53
RP-111285
4718
-

Update to RRC performance values for UE Information procedure
10.5.0

RP-53
RP-111286
4720
1

25.331 CR including ePLMN support for ANR
10.5.0

RP-53
RP-111285
4726
2

Cleanup corrections for ANR Stage 3 behaviors
10.5.0

RP-53
RP-111284
4727
-

Missing PWR entries in SECONDARY_CELL_MIMO_PARAMS variable
10.5.0

RP-53
RP-111274
4731
2

Clarification on Uplink DPCH power control info for Common E-DCH
10.5.0

RP-53
RP-111278
4748
1

25.331 correction on CSG identity validity to allow introduction of CSG RAN sharing
10.5.0

RP-53
RP-111284
4755
-

Limit the 4C-HSDPA non-contiguous operation to one band only
10.5.0

RP-53
RP-111271
4757
-

Correction to HS-DSCH reception in CELL_FACH
10.5.0

RP-53
RP-111282
4759
1

Clarification of the Pre-Redirection info setting after the redirection from E-UTRA
10.5.0

RP-53
RP-111293
4761
-

CN Domain for eWaitTime
10.5.0

RP-53
RP-111276
4770
-

Disabling default configuration 17,23 in Handover To UTRAN Command
10.5.0

RP-53
RP-111274
4775
-

Use of New E-RNTI in UMI message
10.5.0

RP-53
RP-111275
4779
3

Removal of AS ETWS duplicate detection
10.5.0

RP-53
RP-111274
4782
2

PPAC corrections
10.5.0

RP-53
RP-111274
4785
-

Correction to the SPS resource configuration for 1.28Mcps TDD
10.5.0

RP-53
RP-111217
4788
1

Memory partitioning for HARQ with simultaneous MIMO and non-MIMO operation in multi-carrier HS-DSCH operation
10.5.0

RP-53
RP-111277
4802
1

Fast dormancy upon RRC Connection Release
10.5.0

RP-53
RP-111296
4803
-

Completing the addition of new band indicator 3
10.5.0

RP-53
RP-111294
4804
-

Add Band XXII for LTE/UMTS 3500 (FDD) to TS 25.331
10.5.0

RP-53
RP-111275
4805
2

Clarification of RDI indicator of E-AGCH info 1.28Mcps TDD
10.5.0
12/2011
RP-54
RP-111708
4808
-

Correction on the measurement configuration validation for SFN reading
10.6.0

RP-54
RP-111706
4812
-

Corrections of PS keys handling upon PS ISHO
10.6.0

RP-54
RP-111702
4813
-

Delete E-HICH, E-RGCH, E-AGCH information when E_DCH is stopped
10.6.0

RP-54
RP-111701
4822
-

Correction to Default Radio Configurations for TDD: number of TFCI coding bits
10.6.0

RP-54
RP-111711
4829
-

Clarification of PSC range for CSG cells
10.6.0

RP-54
RP-111715
4830
-

Alignment of the text description for SIB 18 for UEs in idle mode and connected mode
10.6.0

RP-54
RP-111715
4833
1

Improved Deferred Measurement Control Reading
10.6.0

RP-54
RP-111715
4836
-

25.331 trivial corrections
10.6.0

RP-54
RP-111715
4846
-

Introduction of the frequency specific compressed mode
10.6.0

RP-54
RP-111703
4864
1

Clarification to the handling of HS-DSCH TB size table
10.6.0

RP-54
RP-111704
4873
1

Correction of BCCH mapping on HS-DSCH
10.6.0

RP-54
RP-111713
4874
2

Addressing the issue of inconsistent HARQ memory partitioning for high-peak-rate UEs
10.6.0

RP-54
RP-111715
4884
1

Correction about the presence of Security Revert Status Indicator in CELL UPDATE Message
10.6.0

RP-54
RP-111719
4886
1

Support early implementation of uplink OLTD in Rel-10
10.6.0
12/2011
RP-54
-
-
-

TS 25.331 v11.0.0 created based on v10.6.0
11.0.0

RP-54
RP-111717
4831
1

Introduction of 8C-HSDPA in 25.331
11.0.0

RP-54
RP-111718
4847
1

Introduction of uplink CLTD in 25.331
11.0.0

RP-54
RP-111719
4848
1

Introduction of uplink OLTD in 25.331
11.0.0
03/2012
RP-55
RP-120329
4891
-

Specification Cleanup: removal of DRAC left over
11.1.0

RP-55
RP-120328
4909
-

Addition of new band XXVI (Extending 850 MHz Upper Band (814 - 849 MHz)
11.1.0

RP-55
RP-120327
4911
1

Additional value for Total RLC AM Buffer Size
11.1.0

RP-55
RP-120320
4921
2

Clarification on stored HARQ info when HS-DSCH reception is not supported
11.1.0

RP-55
RP-120321
4929
-

Correction to 25.331 on Cell Reselection enhancements (Rel-11)
11.1.0

RP-55
RP-120320
4935
-

Clarifications of the UE behaviours when initiating a cell update procedure
11.1.0

RP-55
RP-120322
4953
-

Correction of default radio configurations in CELL_FACH
11.1.0
06/2012
RP-56
RP-120815
4955
2

Extend the carrier capability for two-carrier HSDPA for 1.28Mcps TDD
11.2.0

RP-56
RP-120803
4959
-

Reconfiguration messages and HS-SCCH orders interaction for HS-SCCH less
11.2.0

RP-56
RP-120806
4967
-

Corrections regarding the UE behaviour on evaluating the variable HSPA_RNTI_STORED_CELL_PCH
11.2.0

RP-56
RP-120806
4971
-

Clarifications of the UE behaviours when initiating a cell update procedure for 1.28Mcps TDD
11.2.0

RP-56
RP-120806
4975
-

Corrections on DSAC and PPAC
11.2.0

RP-56
RP-120804
4981
-

Correction of SRB1 mapping info for FACH
11.2.0

RP-56
RP-120809
4984
-

Clarification on default radio configuration in CELL_FACH
11.2.0

RP-56
RP-120809
4987
-

Correction to the secondary uplink frequency activation state after reconfiguration procedure
11.2.0

RP-56
RP-120809
4989
-

Clarification of capability signaling for UE supporting DB-DC-HSDPA with MIMO
11.2.0

RP-56
RP-120825
4991
1

Modification of security context storage rate on the UICC
11.2.0

RP-56
RP-120814
4993
-

Correction of nesting levels greater than 15 in ASN.1 for RRC Message HandoverToUTRANCommand
11.2.0

RP-56
RP-120825
4999
1

SRVCC radio bearer combination
11.2.0

RP-56
RP-120809
5006
1

Clarifications on the event measurement report for DC-HSUPA
11.2.0

RP-56
RP-120808
5029
1

Introduction of a CSFB Indicator in RRC Connection Request
11.2.0

RP-56
RP-120825
5044
-

Corrections to per-band capability signalling
11.2.0

RP-56
RP-120825
5057
-

Editorial updates to 25.331
11.2.0

RP-56
RP-120731
5063
1

Introduction of multiple frequency band indicator
11.2.0
09/2012
RP-57
RP-121369
5071
1

Introduction of Multiflow in TS 25.331
11.3.0

RP-57
RP-121382
5079
-

CR to 25.331 on quasi-fast return
11.3.0

RP-57
RP-121363
5081
-

Correction on the carrier capability for two-carrier HSDPA for 1.28Mcps TDD
11.3.0

RP-57
RP-121365
5082
-

Correction on HARQ memory partitioning for 8C-HSDPA
11.3.0

RP-57
RP-121366
5083
1

Miscellaneous corrections for UL CLTD
11.3.0

RP-57
RP-121367
5084
-

Remove the event 6D modifications for UL OLTD
11.3.0

RP-57
RP-121371
5085
-

Introduction of EAB
11.3.0

RP-57
RP-121422
5091
2

Adding the missing MAC-ehs window size values for 9bits TSN option in 1.28Mcps TDD
11.3.0

RP-57
RP-121357
5120
-

Re-introduction of default configuration #23
11.3.0

RP-57
RP-121382
5125
-

Addition of missing IE 'Include in Scheduling Info' in default configuration #17
11.3.0

RP-57
RP-121428
5129
1

Introduction of MDT enhancements
11.3.0

RP-57
RP-121359
5130
-

Voice support Capabilities
11.3.0

RP-57
RP-121365
5142
-

Correction for 8C-HSDPA backwards compatibility
11.3.0

RP-57
RP-121368
5149
-

Introduction of absolute priority based measurements and reselection in CELL_FACH State in 25.331
11.3.0

RP-57
RP-121382
5154
-

Introduction of Extended S-RNTI
11.3.0

RP-57
RP-121383
5168
-

Aligning START value handling when entering idle mode from connected
11.3.0

RP-57
RP-121363
5174
1

RRC Connection Release: search time for E-UTRA signaled frequencies
11.3.0

RP-57
RP-121361
5182
-

Correction on the NOTE of IE 'Common E-DCH system info'
11.3.0

RP-57
RP-121366
5183
1

Remove the event 6D modifications for UL CLTD
11.3.0
12/2012
RP-58
RP-121925
5190
-

Clarification to the handling of IE Different Tx diversity mode configuration from serving HS-DSCH cell
11.4.0

RP-58
RP-121925
5194
-

Corrections to intra-UTRAN SR-VCC handover procedure
11.4.0

RP-58
RP-121934
5197
1

Correction to non-backwards compatible ASN.1
11.4.0

RP-58
RP-121937
5199
-

Clarification to logging of PLMN identity in ANR
11.4.0

RP-58
RP-121937
5201
-

Corrections to Inter-frequency detected set measurements
11.4.0

RP-58
RP-121925
5203
-

Removal of SR-VCC triggered by cell update confirm
11.4.0

RP-58
RP-121941
5206
-

Clarification of absolute priority based measurements and reselection in CELL_FACH State
11.4.0

RP-58
RP-121957
5207
-

Clarification on the setting of CSFB Indicator in RRC Connection Request
11.4.0

RP-58
RP-121946
5208
-

Clarifications for Logging of Connection Establishment Failure Information
11.4.0

RP-58
RP-121943
5209
-

Correction to ACK-NACK repetition factor for Multiflow assisting cells
11.4.0

RP-58
RP-121957
5210
-

Correction to the IE 'Timing maintained Synchronization indicator' for F-DPCH
11.4.0

RP-58
RP-121819
5211
1

CR to 25.331 on the Introduction of rSRVCC feature
11.4.0

RP-58
RP-121942
5212
2

Introduction of 4Tx-HSDPA in 25.331
11.4.0

RP-58
RP-121943
5213
-

Introduction of additional values for DeltaACK and DeltaNACK
11.4.0

RP-58
RP-121941
5214
2

Introduction of Further Enhancements to CELL_FACH in 25.331
11.4.0

RP-58
RP-121945
5215
3

Introduction of UL MIMO with 64QAM in TS 25.331
11.4.0

RP-58
RP-121943
5216
-

Correction to MAC-hs reset procedure for Multiflow
11.4.0

RP-58
RP-121943
5217
-

Correction to the indications of multiflow timing
11.4.0

RP-58
RP-121958
5218
-

Inter-RAT Treselection enhancement
11.4.0

RP-58
RP-121957
5219
-

Rapporteur's corrections for 25.331 RRC specification
11.4.0

RP-58
RP-121922
5221
1

Clarification on UE support and prioritisation between bands for Multiple Frequency Band Indicators
11.4.0

RP-58
RP-121937
5231
1

Removal of invalid condition to stop ANR logging duration timer T327
11.4.0

RP-58
RP-121957
5233
-

Removing UE behavior discrepancy in case of radio link failure during ongoing reconfiguration
11.4.0

RP-58
RP-121923
5234
-

Introduction of enhanced serving cell change for UL 16QAM and UL 64QAM
11.4.0

RP-58
RP-121937
5239
-

Introduction of UM RLC re-establishment via reconfiguration
11.4.0

RP-58
RP-121935
5243
-

Introduction of a periodic measurement for DC-HSUPA
11.4.0

RP-58
RP-121937
5252
2

CR to 25.331 on Allow network to exclude some cells being detected and reported in intra&inter-freq detected set operation
11.4.0

RP-58
RP-121925
5259
-

Correction on the deactivation of the secondary cell reception
11.4.0

RP-58
RP-121957
5262
-

Correction to the variable SYSTEM_INFORMATION_CONTAINER
11.4.0

RP-58
RP-121957
5265
-

Delay in checking SRB 1-4 mapping on PCH to FACH transition
11.4.0

RP-58
RP-121937
5266
1

Range of Logging Relative Threshold for UTRAN ANR
11.4.0

RP-58
RP-121946
5271
-

Removing the IE Contention Detected in Accessiability Measurement(option 3)
11.4.0

RP-58
RP-121958
5272
1

Introduction of wideband RSRQ measurements
11.4.0

RP-58
RP-121934
5275
-

Correction to INTER RAT HANDOVER INFO for UMTS TDD/FDD capable UE
11.4.0

RP-58
RP-121958
5285
-

Introduction of Inter-frequency measurements on configured carriers without compressed mode 
11.4.0

RP-58
RP-121923
5287
-

Corrections to Cell Update when Cell Update message size exceeds the used transport format size
11.4.0
03/2013
RP-59
RP-130229
5296
1

CR to 25.331 on PRACH preamble control parameters for Enhanced Uplink (R11)
11.5.0

RP-59
RP-130229
5300
1

Clarification to RRC padding for CCCH transmission in case of EUL FACH
11.5.0

RP-59
RP-130249
5301
-

Additional value for Total RLC AM Buffer Size
11.5.0

RP-59
RP-130232
5304
-

Correct the variable in the "Actions related to SECONDARY_CELL_MIMO_STATUS variable"
11.5.0

RP-59
RP-130235
5309
1

Correction to measured results on RACH in Cell Update message
11.5.0

RP-59
RP-130249
5310
-

Addition of Cell Update message with optimised encoding
11.5.0

RP-59
RP-130246
5311
1

Rel-11 ASN.1 Review corrections
11.5.0

RP-59
RP-130248
5315
1

Handling of Roaming Subscribers in case of RRC Connection Reject
11.5.0

RP-59
RP-130237
5316
-

Extending E-UTRA Frequency Band and EARFCN value range
11.5.0

RP-59
RP-130239
5319
-

Miscellaneous  corrections for Further Enhancements to CELL_FACH in 25.331
11.5.0

RP-59
RP-130229
5323
-

Corrections of the UE behavior when variable E_RNTI is not set in CELL_PCH state
11.5.0

RP-59
RP-130232
5326
1

Evaluation of SECONDARY_CELL_E_DCH_TRANSMISSION variable
11.5.0

RP-59
RP-130232
5329
1

Inconsistency between ASN.1 and tabular on the presence of the IE 'frequency info'
11.5.0

RP-59
RP-130236
5330
-

Extend 3G ANR Applicable RRC State
11.5.0

RP-59
RP-130229
5335
-

UE behavior at activation and deactivation of Enhanced Uplink in CELL_FACH state in SIB5/5bis
11.5.0

RP-59
RP-130239
5337
-

Clarification on rSRVCC
11.5.0

RP-59
RP-130247
5339
-

Corrections on definition of CSG member cell for UMTS
11.5.0

RP-59
RP-130239
5342
1

Miscellaneous corrections to 25.331 on further enhancements to CELL_FACH
11.5.0

RP-59
RP-130228
5344
-

Invalidation of ETWS with security feature
11.5.0

RP-59
RP-130239
5346
-

Introducing an indication for support of the extended range of HS-DPCCH power offset
11.5.0

RP-59
RP-130240
5347
-

Optional Support of Accessibility Measurements Feature
11.5.0

RP-59
RP-130249
5357
1

Introduction of wideband RSRQ measurements in Idle mode
11.5.0

RP-59
RP-130239
5359
1

Extending the range of the 2nd DRX cycle length
11.5.0

RP-59
RP-130248
5360
1

Behaviour in case of excessive dedicated priority information
11.5.0

RP-59
RP-130229
5362
-

Clarification of the IE 'Scheduled Transmission configuration' in Enhanced Uplink in CELL_FACH state
11.5.0

RP-59
RP-130228
5364
-

Prohibit PS connection setup while SIB3 is being updated
11.5.0

RP-59
RP-130239
5365
-

FE-FACH corrections on PRACH selection
11.5.0

RP-59
RP-130225
5367
-

Invalid measurement configuration with different (E)ARFCN
11.5.0

RP-59
RP-130229
5370
-

Clarification on available signature ordering in common E-DCH
11.5.0

RP-59
RP-130249
5371
1

Introduction of the frequency specific compressed mode for the intra-band non-contiguous operation 
11.5.0

RP-59
RP-130239
5372
1

Simultaneous operation of Multiflow HSDPA and STTD 
11.5.0

RP-59
RP-130248
5373
-

Introduction of Cells excluded from detected set measurements capability signalling
11.5.0

RP-59
RP-130349
5375
1

Correction to non-backwards compatible asn1 1.28Mcps TDD
11.5.0
06/2013
RP-60
RP-130804
5377
-

Clarification on UE Information procedure
11.6.0

RP-60
RP-130809
5378
-

Corrections to Extended E-UTRA Frequency Band and EARFCN value ranges
11.6.0

RP-60
RP-130806
5379
-

SIB7 reading and 2nd DRX in CELL_FACH
11.6.0

RP-60
RP-130802
5384
-

LI size and Flexible RLC PDUs in uplink
11.6.0

RP-60
RP-130807
5391
-

Clarification on Inter-RAT handover to UTRAN
11.6.0

RP-60
RP-130807
5402
-

Clarification of the security configuration after simultaneous CS and PS inter-RAT Handover
11.6.0

RP-60
RP-130802
5403
-

Correction for PS connection setup prohibition while SIB3 is being updated
11.6.0

RP-60
RP-130809
5408
-

Correction to Cell Update message with optimised encoding
11.6.0

RP-60
RP-130805
5416
-

Corrections to UE selection of legacy frequency band for Multiple Frequency Band Indicators
11.6.0

RP-60
RP-130806
5417
-

Correction of semantics description of PRACH preamble control parameters extension list Type 1
11.6.0

RP-60
RP-130806
5423
-

Renumbering of "Available Signatures" for FE-FACH
11.6.0

RP-60
RP-130802
5430
1

Clarification for the support of DC-HSDPA
11.6.0
09/2013
RP-61
RP-131313
5435
-

Clarification of MAC header combination when MAC-i is configured
11.7.0

RP-61
RP-131320
5438
-

Rapporteurs corrections for 25.331 RRC specification
11.7.0

RP-61
RP-131320
5441
-

Clarification on Deferred Measurement Control Reading
11.7.0

RP-61
RP-131314
5444
1

Physical Channel establishment  and Radio Link Failure on the secondary uplink frequency
11.7.0

RP-61
RP-131316
5447
1

Correction of description for PRACH selection when 'weight' is in use
11.7.0

RP-61
RP-131316
5449
1

Correction of concurrent deployment of 2ms and 10ms TTI
11.7.0

RP-61
RP-131316
5450
-

Correction for SIB7 reading and 2nd DRX in CELL_FACH
11.7.0

RP-61
RP-131311
5451
-

Introduction of UE capability signalling for wideband RSRQ measurements
11.7.0

RP-61
RP-131313
5454
-

Delete Access Class barred List, DSAC and PPAC information upon SRNS relocation
11.7.0

RP-61
RP-131320
5466
-

Expand the EUTRA measurement capability list
11.7.0

RP-61
RP-131310
5472
2

Applying MAC-hs/ehs reset for state transition
11.7.0
12/2013
RP-62
RP-131985
5475
-

Corrections of intra-frequency and inter-frequency measurements for DC-HSUPA
11.8.0

RP-62
RP-131981
5477
-

Further corrections on MFBI related issues
11.8.0

RP-62
RP-131981
5479
-

Introduction of capability bit for E-UTRA Multiple Frequency Band Indicators
11.8.0

RP-62
RP-131992
5480
-

Adding EARFCN extension to the variable EUTRA_FREQUENCY_INFO_LIST_FACH
11.8.0

RP-62
RP-131992
5481
-

Clarification for stopping the RLC Timer_Reordering timer
11.8.0

RP-62
RP-131993
5482
-

Clarification on MDT Accessibility Measurements discard
11.8.0

RP-62
RP-131995
5483
-

Cleanup of wideband RSRQ measurement capability
11.8.0

RP-62
RP-131995
5488
-

Rapporteur corrections for 25.331 RRC specification
11.8.0

RP-62
RP-131992
5489
-

Clarification on handling for 'EARFCN extension' IE in E-UTRA measurement for CELL_FACH
11.8.0

RP-62
RP-131990
5492
-

Corrections for the UE variable SECONDARY_CELL_HS_DSCH_RECEPTION
11.8.0

RP-62
RP-131982
5498
1

Correction to Galileo assistance data elements
11.8.0

RP-62
RP-131983
5499
1

Clarification on the SR-VCC and rSR-VCC procedure definition
11.8.0

RP-62
RP-131992
5501
-

Clarification for repeated fast dormancy requests with 2nd DRX cycle in CELL_FACH
11.8.0

RP-62
RP-132004
5503
-

Introduction of non-contiguous multi-cell with MIMO
11.8.0

RP-62
RP-131985
5509
1

Deactivate the secondary uplink frequency after synchronisation procedure A
11.8.0

RP-62
RP-131995
5512
-

Support of Wideband RSRQ measurements for extended EARFCN
11.8.0

RP-62
-
-
-

TS 25.331 v12.0.0 created based on v11.8.0
12.0.0

RP-62
RP-131997
5484
1

Introduction of BDS in UTRAN
12.0.0

RP-62
RP-131998
5485
-

Introduction of UE support for inbound mobility to a shared CSG cell
12.0.0

RP-62
RP-131996
5486
1

Introduction of HSPA signalling enhancements for more efficient resource usage for LCR TDD
12.0.0

RP-62
RP-131982
5500
-

Correction to Galileo assistance data elements
12.0.0
03/2014
RP-63
RP-140347
5514
-

Introduction of Cell_FACH with Second DRX to 3G Logged MDT
12.1.0

RP-63
RP-140348
5529
1

Clarification on TSN field extension for Four Branch MIMO
12.1.0

RP-63
RP-140341
5539
-

Renumbering and storage of IEs for secondary DL serving cells
12.1.0

RP-63
RP-140345
5542
-

Activation status for newly added secondary serving HS-DSCH cells
12.1.0

RP-63
RP-140339
5547
1

Clarification to GANSS Day
12.1.0

RP-63
RP-140357
5551
-

Correction to CELL UPDATE message contents to set
12.1.0

RP-63
RP-140352
5558
-

Correction of Connection Establishement Failure Report
12.1.0

RP-63
RP-140350
5560
-

Radio Bearer mapping for R99 Fallback
12.1.0

RP-63
RP-140362
5563
-

Correction to missing SatID interpretation for Galileo
12.1.0

RP-63
RP-140338
5564
-

Correction to integer code phase field description in UE positioning GANSS reference measurement information
12.1.0

RP-63
RP-140358
5566
-

Correction to BDS ASN.1
12.1.0
06/2014
RP-64
RP-140872
5572
-

Introduction of the new Band combinations related to Band XXXII
12.2.0

RP-64
RP-140874
5575
-

Clarification to absolute priority cell reselection in CELL_FACH
12.2.0

RP-64
RP-140878
5577
-

Correction to E-UTRAN - 1.28Mcps TDD Handover
12.2.0

RP-64
RP-140867
5582
-

Correction to the handling of IE "E-DPDCH power interpolation" when absent
12.2.0

RP-64
RP-140874
5583
-

Clarification on MAC-ehs configuration for inter-Node B Multiflow operation
12.2.0

RP-64
RP-140871
5631
-

Clarification of  intra-frequency measurement for Cell_FACH to DC-HSUPA transition
12.2.0

RP-64
RP-140869
5635
-

RLC re-establishment due to activation and deactivation of Enhanced Uplink in CELL_FACH state in SIB5/5bis
12.2.0

RP-64
RP-140874
5592
-

Correction of the Multiflow dual-band capability signaling
12.2.0

RP-64
RP-140873
5600
-

Clarifications for MFBI signaling with Inter-frequency neighbour cell information
12.2.0

RP-64
RP-140878
5602
-

Clarifications for MFBI signaling with extended EARFCN/E-UTRA Frequency bands
12.2.0

RP-64
RP-140875
5613
1

Introduction of cell reselection indication during uplink transmission with common E-DCH
12.2.0

RP-64
RP-140880
5605
1

Introduction of HetNet Mobility Enhancements
12.2.0

RP-64
RP-140880
5615
1

Introduction of inter-freq neighbour cell list extension
12.2.0

RP-64
RP-140868
5617
1

Corrections to GNSS Acquisition Assistance Data
12.2.0

RP-64
RP-140892
5622
1

Introduction of RRC Connection Establishment failure temporary Qoffset handling
12.2.0
09/2014
RP-65
RP-141497
5640
-

Corrections in default radio configuration for CELL_FACH
12.3.0

RP-65
RP-141501
5666
-

Introduction of E-DCH decoupling operation
12.3.0

RP-65
RP-141495
5645
-

Correction of ASN.1 of MDT logged connection establishment failure reporting (Alternative 1)
12.3.0

RP-65
RP-141496
5664
2

Clarification on repetition factors for assisting cells
12.3.0

RP-65
RP-141492
5680
1

Disable default configuration #23
12.3.0

RP-65
RP-141511
5665
1

Clarification of exclusion of cells from inter-frequency detected set measurements
12.3.0

RP-65
RP-141500
5676
2

Introduction of DCH Enhancements
12.3.0

RP-65
RP-141503
5651
1

Introduction of Further EUL enhancements
12.3.0

RP-65
RP-141503
5660
2

Introduction of DSAC and PPAC update in CELL_DCH
12.3.0

RP-65
RP-141511
5669
1

Network-requested LTE Band Combination Capability Signalling
12.3.0

RP-65
RP-141502
5674
2

Introduction of a second broadcast channel
12.3.0

RP-65
RP-141501
5667
1

CR to 25.331 on introduction of Radio Links without DPCH/F-DPCH
12.3.0

RP-65
RP-141501
5668
-

CR to 25.331 on introduction of the DPCCH2
12.3.0

RP-65
RP-141511
5683
2

Correction to stop condition for "Chiba offset"
12.3.0

RP-65
RP-141504
5650
1

Connected mode procedures and RRC signaling of WLAN/3GPP Radio Interworking for UMTS
12.3.0

RP-65
RP-141503
5685
1

Introduction of Further EUL enhancements
12.3.0

RP-65
RP-141599
5689
-

Introduction of Further EUL enhancements
12.3.0
12/2014
RP-66
RP-142111
5690
-

Correction to Galileo Assistance Data
12.4.0

RP-66
RP-142122
5691
-

Corrections to RRC for WLAN/3GPP Radio interworking in UMTS
12.4.0

RP-66
RP-142127
5692
-

Cleanup corrections for Access group mechanism
12.4.0

RP-66
RP-142126
5693
-

CR to 25.331 on the clarification of system information modification for Second Broadcast channel
12.4.0

RP-66
RP-142127
5694
-

Introduction of the UE capabilities for Further EUL enhancements subfeatures
12.4.0

RP-66
RP-142113
5696
-

Multi-carrier configuration support at inter-RAT handover
12.4.0

RP-66
RP-142115
5699
-

Clarification on the case of more than one entry configured for the same physical frequency of E-UTRAN
12.4.0

RP-66
RP-142122
5700
-

Reduction of possible values for WLAN backhaul rate thresholds in UMTS
12.4.0

RP-66
RP-142127
5701
-

Corrections on filtered UE power headroom reporting
12.4.0

RP-66
RP-142140
5702
-

Correction to 25.331 for CSFB UE on cell reselection back to LTE
12.4.0

RP-66
RP-142116
5703
-

Introduction of the UL CLTD feedback from the Multiflow assisting cell
12.4.0

RP-66
RP-142126
5720
-

CR to 25.331 on the correction of optional support for the second system information broadcast channel
12.4.0

RP-66
RP-142122
5711
-

Corrections to WLAN/3GPP Radio Interworking for UMTS
12.4.0

RP-66
RP-142119
5721
-

BDS Satellite Specific ICD update to version 2.0
12.4.0

RP-66
RP-142122
5723
1

Clarification on WLAN interworking
12.4.0

RP-66
RP-142113
5712
-

Correction regarding presence of GANSS Day field
12.4.0

RP-66
RP-142140
5714
-

Measurement release enhancement
12.4.0

RP-66
RP-142140
5715
-

Rapporteur corrections for 25.331 RRC specification
12.4.0

RP-66
RP-142140
5706
-

Corrections about CELL_FACH with Second DRX to 3G Logged MDT
12.4.0

RP-66
RP-142128
5713
1

Introduction of increased UE carrier monitoring
12.4.0

RP-66
RP-142140
5704
1

Extension of the MEASUREMENT CONTROL FAILURE message
12.4.0

RP-66
RP-142140
5730
2

Introduction of extended RSRQ value range and new RSRQ definition
12.4.0

RP-66
RP-142118
5718
1

CR to 25.331 on clarification of exclusion of cells from intra-frequency detected set measurements
12.4.0

RP-66
RP-142140
5719
1

CR to 25.331 on clarification of exclusion of cells from inter-frequency detected set measurements
12.4.0

RP-66
RP-141867
5732
-

Rel-12 ASN.1 Review corrections
12.4.0

RP-66
RP-141983
5731
-

UE capability signaling for WLAN/3GPP radio interworking
12.4.0
03/2015
RP-67
RP-150372
5736
-

Clarifications for Further EUL enhancements sub-feature Enhanced TTI switching
12.5.0

RP-67
RP-150372
5737
-

Pre-configuration for Enhanced TTI switching at upswitch to CELL_DCH
12.5.0

RP-67
RP-150373
5741
-

Clarification for SIB23 reading
12.5.0

RP-67
RP-150373
5739
-

Cleanup corrections for increased UE carrier monitoring
12.5.0

RP-67
RP-150376
5735
-

Rapporteur corrections for 25.331 RRC specification
12.5.0

RP-67
RP-150370
5756
1

Correction to network-requested LTE CA band combination capability reporting
12.5.0

RP-67
RP-150376
5753
-

Clarification on RSRQ Type
12.5.0

RP-67
RP-150373
5758
1

Correction on provision of WLAN identifiers
12.5.0

RP-67
RP-150368
5763
2

Correction of GLONASS system time
12.5.0

RP-67
RP-150377
5757
2

ASN.1 corrections
12.5.0
06/2015
RP-68
RP-150917
5764
-

Correction to usage of Signalling radio bearer RB4 to transmit UE INFORMATION RESPONSE message
12.6.0

RP-68
RP-150923
5765
-

Clarification to the setting of RSRQ on all symbols
12.6.0

RP-68
RP-150918
5769
-

Disable default configuration for CELL_FACH
12.6.0

RP-68
RP-150919
5767
-

Correction to presence of UE capability Simultaneous support for DCH Enhancements and Compressed Mode operation
12.6.0

RP-68
RP-150923
5772
-

Clarification for F-DPCH support with HS
12.6.0

RP-68
RP-150919
5771
-

CR to 25.331 on cleanup corrections of Radio Links without DPCH and F-DPCH
12.6.0

RP-68
RP-150920
5770
-

CR to 25.331 on cleanup corrections to IncMon
12.6.0
09/2015
RP-69
RP-151443
5785
-

Rapporteur corrections for 25.331 RRC specification
12.7.0

RP-69
RP-151440
5786
-

Clarification of Beacon RSSI Encoding
12.7.0

RP-69
RP-151440
5780
1

Clarification for the inter-frequency measurement results on RACH with extended cell ID values
12.7.0
09/2015
RP-69
RP-151444
5776
2

Introduction of the Multiflow 3F-4C configuration
13.0.0
12/2015
RP-70
RP-152052
5792
-

Corrections to WLAN/3GPP radio interworking
13.1.0

RP-70
RP-152050
5789
1

Clarification for configuring HARQ A/N repetition with Multiflow
13.1.0

RP-70
RP-152068
5819
2

RAT-Independent positioning enhancements 
13.1.0

RP-70
RP-152060
5818
1

CR to 25.331 on the introduction of Downlink TPC enhancements for UMTS
13.1.0

RP-70
RP-152065
5790
1

Introduction of Dual Carrier HSUPA enhancements for UTRAN CS in TS 25.331
13.1.0

RP-70
RP-152061
5807
1

Introduction of retrievable configurations 
13.1.0

RP-70
RP-152061
5809
1

Introduction of improved synchronized RRC procedures
13.1.0

RP-70
RP-152061
5813
1

Introduction of blind HARQ retransmissions for HSDPA
13.1.0

RP-70
RP-152062
5812
1

Introduction of enhanced state transition
13.1.0

RP-70
RP-152051
5815
1

Correction for UE reading of System Information Block type 24 on timer expiration
13.1.0

RP-70
RP-152051
5797
1

Correction for Second Broadcast Channel (BCH2) message handling
13.1.0

RP-70
RP-152063
5793
1

Introduction of extended DRX in Idle mode
13.1.0

RP-70
RP-152084
5823
2

Access stratum Rel-13 indicator 
13.1.0

RP-70
RP-152061
5808
1

Introduction of URA_PCH with seamless transition
13.1.0

RP-70
RP-152058
5820
3

Introduction of DB-DC-HSUPA
13.1.0

RP-70
RP-152066
5816
2

Introduction of Application specific Congestion control for Data Communication (ACDC) in UTRAN
13.1.0

RP-70
RP-152075
5817
1

Extension of Frequency Priorities
13.1.0
03/2016
RP-71
RP-160462
5826
1

Correction to GLONASS IOD value range
13.2.0

RP-71
RP-160461
5827
3

Introduction of capability for extended E-UTRA frequency priorities
13.2.0

RP-71
RP-160466
5828
2

Correction on signalling transmission control due to access group blocking of DTCH
13.2.0

RP-71
RP-160461
5834
-

Introduction of the UE capabilities for L2 and L3 Downlink enhancements subfeatures
13.2.0

RP-71
RP-160470
5836
2

Correction of Application specific Congestion control for Data Communication (ACDC) in UTRAN
13.2.0

RP-71
RP-160470
5839
-

Clarification for extended DRX in Idle mode
13.2.0

RP-71
RP-160470
5840
1

Indoor Positioning RRC corrections
13.2.0

RP-71
RP-160462
5846
2

CR to 25.331 on the clarification for the presence of Period of BMC scheduling
13.2.0

RP-71
RP-160470
5847
1

CR to 25.331 on clarification of downlink TPC enhancements
13.2.0

RP-71
RP-160469
5848
2

UMTS ASN.1 correction for Rel-13
13.2.0

RP-71
RP-160470
5849
1

Corrections to retriavable configuration
13.2.0

RP-71
RP-160470
5852
1

Add Extended E-UTRA Frequency Band in RRC connection release for CCCH
13.2.0
06/2016
RP-72
RP-161076
5856
1

Clarification for UE behaviour upon reception of requested E-UTRA frequency band list
13.3.0

RP-72
RP-161079
5859
-

Correction on the naming E-DCH decoupling
13.3.0

RP-72
RP-161083
5860
2

Correction of retrievable configurations
13.3.0

RP-72
RP-161082
5865
1

Corrections to RAT-independent positioning methods
13.3.0

RP-72
RP-161083
5869
2

Corrections and clarifications to URA_PCH with seamless transition to CELL_FACH state functionality
13.3.0
09/2016
RP-73
RP-161751
5875
2

On DCH-enhancements concurrency with HS/EUL
13.4.0

RP-73
RP-161759
5886
1

Breaking the ASN.1 nesting level in the Inter RAT Handover Info message
13.4.0
09/2016
RP-73
RP-161748
5880
1

Introduction of RRC events for UPH reporting
14.0.0

RP-73
RP-161748
5881
3

Introduction of simultaneous setup and release of RABs and RBs
14.0.0
12/2016
RP-74
RP-162317
5889
-

Correction on extension of frequency priorities
14.1.0

RP-74
RP-162319
5891
-

Correction on extended DRX in Idle mode
14.1.0

RP-74
RP-162330
5892
2

Introduction of HS-SCCH DRX operation in CELL_FACH state
14.1.0

RP-74
RP-162319
5894
1

Correction on the stored retrievable configuration for CELL_FACH
14.1.0

RP-74
RP-162331
5895
3

Introduction of Dual Cell E-DCH operation enhancements
14.1.0

RP-74
RP-162331
5896
3

Introduction of enhanced TTI switching for Dual Cell E-DCH operation enhancements
14.1.0

RP-74
RP-162327
5900
2

Breaking the ASN.1 nesting level in the Measurement Report message
14.1.0

RP-74
RP-162311
5903
-

Clarification on signalling for DCH Enhancements
14.1.0

RP-74
RP-162319
5905
2

Corrections for URA_PCH with seamless transition to CELL_FACH state
14.1.0

RP-74
RP-162319
5907
1

Clarifications for seamless transition to CELL_FACH state functionality
14.1.0

RP-74
RP-162317
5911
1

Clarification of WLAN RSSI value range
14.1.0
03/2017
RP-75
RP-170649
5912
1
F
Addition of REL-14 parameter value for Access Stratum release indicator
14.2.0

RP-75
RP-170650
5915
1
A
Misalignment between Tabular and ASN.1 for Cell Update Confirm message
14.2.0

RP-75
RP-170651
5917
-
A
Clarification for transition to URA_PCH state
14.2.0

RP-75
RP-170641
5918
1
B
Introduction of eDECOR
14.2.0

RP-75
RP-170650
5928
1
A
Correction on implicit grant handling
14.2.0

RP-75
RP-170648
5929
2
B
Introduction of QoE Measurement Collection for streaming services
14.2.0
06/2017
RP-76
RP-171239
5932
1
F
Corrections of QoE measurements
14.3.0

RP-76
RP-171239
5933
5
F
Clarified behaviour for transmission of “Container for application layer measurement reporting
14.3.0

RP-76
RP-171240
5935
2
B
Introduction of DL interference mitigation for UMTS
14.3.0

RP-76
RP-171238
5939
-
D
Rapporteur corrections
14.3.0

RP-76
RP-171238
5940
2
F
RRC Specification Update After ASN1 Review
14.3.0
09/2017
RP-77
RP-171590
5942
-
F
ASN.1 corrections for RRC 25.331
14.4.0

RP-77
RP-171597
5945
-
A
Removal of References to 44.118 (Iu mode)
14.4.0

RP-77
RP-171590
5946
1
F
Clarification to UE positioning GANSS time model
14.4.0

RP-77
RP-171592
5941
1
B
Introduction of Simplified HS-SCCH type 1 operation for UMTS
15.0.0
12/2017
RP-78
RP-172190
5947
1
A
Align Tabular and ASN.1 code for handling of E-UTRA band extensions (E-UTRA Band > 64)
15.1.0
12/2017
RP-78
RP-172187
5953
1
F
Essential ASN.1 error corrections in RRC spec 25.331 version 15.0.0
15.1.0
03/2018
RP-79
RP-180067
5955
-
F
RRC ASN.1 corrections
15.2.0
06/2018
RP-80
RP-180820
5954
3
C
Introduction of QoE Measurement Collection for MTSI services
15.3.0
06/2018
RP-80
RP-180820
5956
1
F
Addition of REL-15 parameter value for Access Stratum release indicator
15.3.0
06/2018
RP-80
RP-180820
5958
-
F
ASN.1 corrections based upon Rel‑15 ASN.1 review work
15.3.0
09/2018
RP-81
RP-181592
5959
1
F
RRC ASN.1 correction
15.4.0
09/2018
RP-81
RP-181592
5960
-
F
Essential correction for RRC ASN.1
15.4.0
03/2020
RP-87e
RP-200051
5961
3
B
Introduction of NR SRVCC to UTRAN
16.0.0
09/2020
RP-89e
RP-202082
5962
2
F
Addition of REL-16 parameter value for Access Stratum release indicator
16.1.0

Note:	CR3785 "Clarification on Scheduling Information transmission" for TS 25.331 v8.7.0 of RP-090917 which was approved by RAN #45 could not be implemented as it is actually a CR to 25.321 v8.6.0.
Note:	CR4678 "Procedure text for addition of new band indicator 3 and change of the ASN.1 type" for TS 25.331 v10.3.1 of RP-110838 which was approved by RAN #52 was not implemented since CR4678 is obsolete after CR4694 rev 1.

