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Contents
Foreword	24
1	Scope	25
2	References	25
3	Definitions, Symbols and Abbreviations	27
3.1	Definitions	27
3.2	Symbols	28
3.3	Abbreviations	29
4	General	32
4.1	Procedure Specification Principles	32
4.2	Forwards and Backwards Compatibility	32
4.3	Source Signalling Address Handling	32
4.4	Specification Notations	32
5	RNSAP Services	33
5.1	RNSAP Procedure Modules	33
5.2	Parallel Transactions	34
6	Services Expected from Signalling Transport	34
7	Functions of RNSAP	34
7.1	RNSAP functions and elementary procedures for Iur-g.	37
8	RNSAP Procedures	38
8.1	Elementary Procedures	38
8.2	Basic Mobility Procedures	40
8.2.1	Uplink Signalling Transfer	40
8.2.1.1	General	40
8.2.1.2	Successful Operation	40
8.2.1.3	Abnormal Conditions	42
8.2.1A	GERAN Uplink Signalling Transfer	42
8.2.1A.1	General	42
8.2.1A.2	Successful Operation	42
8.2.1A.3	Abnormal Conditions	43
8.2.2	Downlink Signalling Transfer	43
8.2.2.1	General	43
8.2.2.1.1	Downlink Signalling Transfer for Iur-g	43
8.2.2.2	Successful Operation	43
8.2.2.2.1	Successful Operation for Iur-g	44
8.2.2.3	Abnormal Conditions	44
8.2.2.3.1	Abnormal Conditions for Iur-g	44
8.2.3	Relocation Commit	44
8.2.3.1	General	44
8.2.3.2	Successful Operation	44
8.2.3.2.1	Successful Operation for Iur-g	45
8.2.3.3	Abnormal Conditions	45
8.2.4	Paging	45
8.2.4.1	General	45
8.2.4.2	Successful Operation	45
8.2.4.2.1	Successful Operation for Iur-g	46
8.2.4.3	Abnormal Conditions	46
8.2.4.3.1	Abnormal Conditions for Iur-g	46
8.2.5	MBSFN MCCH Information	46
8.2.5.1	General	46
8.2.5.2	Successful Operation	46
8.2.5.3	Abnormal Conditions	47
8.2.6	Enhanced Relocation Resource Allocation[1.28Mcps TDD]	47
8.2.6.1	General	47
8.2.6.2	Successful Operation	47
8.2.6.3	Unsuccessful Operation	47
8.2.6.4	Abnormal Conditions	47
8.2.7	Enhanced Relocation Resource Release[1.28Mcps TDD]	47
8.2.7.1	General	47
8.2.7.2	Successful Operation	48
8.2.7.3	Abnormal Conditions	48
8.3	Dedicated Procedures	48
8.3.1	Radio Link Setup	48
8.3.1.1	General	48
8.3.1.2	Successful Operation	48
8.3.1.3	Unsuccessful Operation	79
8.3.1.4	Abnormal Conditions	81
8.3.2	Radio Link Addition	85
8.3.2.1	General	85
8.3.2.2	Successful Operation	86
8.3.2.3	Unsuccessful Operation	118
8.3.2.4	Abnormal Conditions	120
8.3.3	Radio Link Deletion	124
8.3.3.1	General	124
8.3.3.2	Successful Operation	125
8.3.3.3	Unsuccessful Operation	125
8.3.3.4	Abnormal Conditions	125
8.3.4	Synchronised Radio Link Reconfiguration Preparation	125
8.3.4.1	General	125
8.3.4.2	Successful Operation	126
8.3.4.3	Unsuccessful Operation	176
8.3.4.4	Abnormal Conditions	178
8.3.5	Synchronised Radio Link Reconfiguration Commit	183
8.3.5.1	General	183
8.3.5.2	Successful Operation	184
8.3.5.3	Abnormal Conditions	185
8.3.6	Synchronised Radio Link Reconfiguration Cancellation	185
8.3.6.1	General	185
8.3.6.2	Successful Operation	185
8.3.6.3	Abnormal Conditions	185
8.3.7	Unsynchronised Radio Link Reconfiguration	185
8.3.7.1	General	185
8.3.7.2	Successful Operation	186
8.3.7.3	Unsuccessful Operation	228
8.3.7.4	Abnormal Conditions	230
8.3.8	Physical Channel Reconfiguration	235
8.3.8.1	General	235
8.3.8.2	Successful Operation	235
8.3.8.3	Unsuccessful Operation	236
8.3.8.4	Abnormal Conditions	236
8.3.9	Radio Link Failure	236
8.3.9.1	General	236
8.3.9.2	Successful Operation	237
8.3.9.3	Abnormal Conditions	238
8.3.10	Radio Link Restoration	238
8.3.10.1	General	238
8.3.10.2	Successful Operation	238
8.3.10.3	Abnormal Conditions	238
8.3.11	Dedicated Measurement Initiation	238
8.3.11.1	General	238
8.3.11.2	Successful Operation	239
8.3.11.3	Unsuccessful Operation	242
8.3.11.4	Abnormal Conditions	242
8.3.12	Dedicated Measurement Reporting	243
8.3.12.1	General	243
8.3.12.2	Successful Operation	243
8.3.12.3	Abnormal Conditions	244
8.3.13	Dedicated Measurement Termination	244
8.3.13.1	General	244
8.3.13.2	Successful Operation	244
8.3.13.3	Abnormal Conditions	244
8.3.14	Dedicated Measurement Failure	245
8.3.14.1	General	245
8.3.14.2	Successful Operation	245
8.3.14.3	Abnormal Conditions	245
8.3.15	Downlink Power Control [FDD]	245
8.3.15.1	General	245
8.3.15.2	Successful Operation	246
8.3.15.3	Abnormal Conditions	246
8.3.16	Compressed Mode Command [FDD]	247
8.3.16.1	General	247
8.3.16.2	Successful Operation	247
8.3.16.3	Abnormal Conditions	247
8.3.17	Downlink Power Timeslot Control [TDD]	247
8.3.17.1	General	247
8.3.17.2	Successful Operation	248
8.3.17.3	Abnormal Conditions	248
8.3.18	Radio Link Pre-emption	248
8.3.18.1	General	248
8.3.18.2	Successful Operation	248
8.3.18.3	Abnormal Conditions	249
8.3.19	Radio Link Congestion	249
8.3.19.1	General	249
8.3.19.2	Successful Operation	249
8.3.19.3	Abnormal Conditions	250
8.3.20	Radio Link Activation	250
8.3.20.1	General	250
8.3.20.2	Successful Operation	250
8.3.20.3	Abnormal Conditions	251
8.3.21	Radio Link Parameter Update	251
8.3.21.1	General	251
8.3.21.2	Successful Operation	251
8.3.21.3	Abnormal Conditions	253
8.3.22	UE Measurement Initiation [TDD]	253
8.3.22.1	General	253
8.3.22.2	Successful Operation	253
8.3.22.3	Unsuccessful Operation	254
8.3.22.4	Abnormal Conditions	255
8.3.23	UE Measurement Reporting [TDD]	255
8.3.23.1	General	255
8.3.23.2	Successful Operation	255
8.3.23.3	Abnormal Conditions	255
8.3.24	UE Measurement Termination [TDD]	256
8.3.24.1	General	256
8.3.24.2	Successful Operation	256
8.3.24.3	Abnormal Conditions	256
8.3.25	UE Measurement Failure [TDD]	256
8.3.25.1	General	256
8.3.25.2	Successful Operation	256
8.3.25.3	Abnormal Conditions	257
8.3.26	Iur Invoke Trace	257
8.3.26.1	General	257
8.3.26.2	Successful Operation	257
8.3.26.3	Abnormal Conditions	257
8.3.27	Iur Deactivate Trace	258
8.3.27.1	General	258
8.3.27.2	Successful Operation	258
8.3.27.3	Abnormal Conditions	258
8.3.28	Enhanced Relocation	258
8.3.28.1	General	258
8.3.28.2	Successful Operation	258
8.3.28.3	Unsuccessful Operation	259
8.3.28.4	Abnormal Conditions	259
8.3.29	Enhanced Relocation Cancel	259
8.3.29.1	General	259
8.3.29.2	Successful Operation	259
8.3.29.3	Unsuccessful Operation	259
8.3.29.4	Abnormal Conditions	260
8.3.30	Enhanced Relocation Signalling Transfer	260
8.3.30.1	General	260
8.3.30.2	Successful Operation	260
8.3.30.3	Abnormal Conditions	260
8.3.31	Enhanced Relocation Release	260
8.3.31.1	General	260
8.3.31.2	Successful Operation	260
8.3.31.3	Abnormal Conditions	261
8.3.32	Secondary UL Frequency Reporting [FDD]	261
8.3.32.1	General	261
8.3.32.2	Successful Operation	261
8.3.32.3	Abnormal Conditions	261
8.3.33	Secondary UL Frequency Update [FDD]	261
8.3.33.1	General	261
8.3.33.2	Successful Operation	262
8.3.33.3	Abnormal Conditions	262
8.4	Common Transport Channel Procedures	262
8.4.1	Common Transport Channel Resources Initialisation	262
8.4.1.1	General	262
8.4.1.2	Successful Operation	262
8.4.1.3	Unsuccessful Operation	264
8.4.1.4	Abnormal Conditions	264
8.4.2	Common Transport Channel Resources Release	264
8.4.2.1	General	264
8.4.2.2	Successful Operation	265
8.4.2.3	Abnormal Conditions	265
8.5	Global Procedures	265
8.5.1	Error Indication	265
8.5.1.1	General	265
8.5.1.2	Successful Operation	265
8.5.1.2.1	Successful Operation for Iur-g	266
8.5.1.3	Abnormal Conditions	266
8.5.2	Common Measurement Initiation	266
8.5.2.1	General	266
8.5.2.2	Successful Operation	266
8.5.2.2.1	Successful Operation for Iur-g	273
8.5.2.3	Unsuccessful Operation	274
8.5.2.4	Abnormal Conditions	274
8.5.2.4.1	Abnormal Conditions for Iur-g	276
8.5.3	Common Measurement Reporting	276
8.5.3.1	General	276
8.5.3.2	Successful Operation	277
8.5.3.2.1	Successful Operation for Iur-g	277
8.5.3.3	Abnormal Conditions	278
8.5.4	Common Measurement Termination	278
8.5.4.1	General	278
8.5.4.2	Successful Operation	278
8.5.4.2.1	Successful Operation for Iur-g	278
8.5.4.3	Abnormal Conditions	278
8.5.5	Common Measurement Failure	278
8.5.5.1	General	278
8.5.5.2	Successful Operation	278
8.5.5.2.1	Successful Operation for Iur-g	279
8.5.5.3	Abnormal Conditions	279
8.5.6	Information Exchange Initiation	279
8.5.6.1	General	279
8.5.6.2	Successful Operation	279
8.5.6.2.1	Successful Operation for Iur-g	283
8.5.6.3	Unsuccessful Operation	283
8.5.6.4	Abnormal Conditions	284
8.5.6.4.1	Abnormal Conditions for Iur-g	285
8.5.7	Information Reporting	285
8.5.7.1	General	285
8.5.7.2	Successful Operation	285
8.5.7.2.1	Successful Operation for Iur-g	285
8.5.7.3	Abnormal Conditions	286
8.5.8	Information Exchange Termination	286
8.5.8.1	General	286
8.5.8.2	Successful Operation	286
8.5.8.2.1	Successful Operation for Iur-g	286
8.5.8.3	Abnormal Conditions	286
8.5.9	Information Exchange Failure	286
8.5.9.1	General	286
8.5.9.2	Successful Operation	286
8.5.9.2.1	Successful Operation for Iur-g	287
8.5.10	Reset	287
8.5.10.1	General	287
8.5.10.2	Successful Operation	287
8.5.10.3	Abnormal Conditions	287
8.5.11	Direct Information Transfer	288
8.5.11.1	General	288
8.5.11.2	Successful Operation	288
8.5.12	Information Transfer Control	289
8.5.12.1	General	289
8.5.12.2	Successful Operation	289
8.5.12.3	Abnormal Conditions	289
8.6	MBMS Procedures	289
8.6.1	MBMS Attach	289
8.6.1.1	General	289
8.6.1.2	Successful Operation	289
8.6.1.3	Abnormal Conditions	290
8.6.2	MBMS Detach	290
8.6.2.1	General	290
8.6.2.2	Successful Operation	290
8.6.2.3	Abnormal Conditions	290
9	Elements for RNSAP Communication	290
9.1	Message Functional Definition and Content	290
9.1.1	General	290
9.1.2	Message Contents	291
9.1.2.1	Presence	291
9.1.2.2	Criticality	291
9.1.2.3	Range	291
9.1.2.4	Assigned Criticality	291
9.1.3	RADIO LINK SETUP REQUEST	292
9.1.3.1	FDD Message	292
9.1.3.2	TDD Message	296
9.1.4	RADIO LINK SETUP RESPONSE	300
9.1.4.1	FDD Message	300
9.1.4.2	TDD Message	303
9.1.5	RADIO LINK SETUP FAILURE	311
9.1.5.1	FDD Message	311
9.1.5.2	TDD Message	314
9.1.6	RADIO LINK ADDITION REQUEST	315
9.1.6.1	FDD Message	315
9.1.6.2	TDD Message	318
9.1.7	RADIO LINK ADDITION RESPONSE	320
9.1.7.1	FDD Message	320
9.1.7.2	TDD Message	323
9.1.8	RADIO LINK ADDITION FAILURE	331
9.1.8.1	FDD Message	331
9.1.8.2	TDD Message	333
9.1.9	RADIO LINK DELETION REQUEST	333
9.1.10	RADIO LINK DELETION RESPONSE	334
9.1.11	RADIO LINK RECONFIGURATION PREPARE	335
9.1.11.1	FDD Message	335
9.1.11.2	TDD Message	340
9.1.12	RADIO LINK RECONFIGURATION READY	347
9.1.12.1	FDD Message	347
9.1.12.2	TDD Message	349
9.1.13	RADIO LINK RECONFIGURATION COMMIT	355
9.1.14	RADIO LINK RECONFIGURATION FAILURE	355
9.1.15	RADIO LINK RECONFIGURATION CANCEL	356
9.1.16	RADIO LINK RECONFIGURATION REQUEST	357
9.1.16.1	FDD Message	357
9.1.16.2	TDD Message	361
9.1.17	RADIO LINK RECONFIGURATION RESPONSE	365
9.1.17.1	FDD Message	365
9.1.17.2	TDD Message	367
9.1.18	RADIO LINK FAILURE INDICATION	370
9.1.19	RADIO LINK RESTORE INDICATION	370
9.1.20	DL POWER CONTROL REQUEST [FDD]	371
9.1.21	PHYSICAL CHANNEL RECONFIGURATION REQUEST	371
9.1.21.1	FDD Message	371
9.1.21.2	TDD Message	372
9.1.22	PHYSICAL CHANNEL RECONFIGURATION COMMAND	374
9.1.23	PHYSICAL CHANNEL RECONFIGURATION FAILURE	374
9.1.24	UPLINK SIGNALLING TRANSFER INDICATION	374
9.1.24.1	FDD Message	374
9.1.24.2	TDD Message	376
9.1.24A	GERAN UPLINK SIGNALLING TRANSFER INDICATION	377
9.1.25	DOWNLINK SIGNALLING TRANSFER REQUEST	378
9.1.26	RELOCATION COMMIT	378
9.1.27	PAGING REQUEST	379
9.1.28	DEDICATED MEASUREMENT INITIATION REQUEST	380
9.1.29	DEDICATED MEASUREMENT INITIATION RESPONSE	381
9.1.30	DEDICATED MEASUREMENT INITIATION FAILURE	383
9.1.31	DEDICATED MEASUREMENT REPORT	384
9.1.32	DEDICATED MEASUREMENT TERMINATION REQUEST	384
9.1.33	DEDICATED MEASUREMENT FAILURE INDICATION	385
9.1.34	COMMON TRANSPORT CHANNEL RESOURCES RELEASE REQUEST	385
9.1.35	COMMON TRANSPORT CHANNEL RESOURCES REQUEST	386
9.1.36	COMMON TRANSPORT CHANNEL RESOURCES RESPONSE	388
9.1.36.1	FDD Message	388
9.1.36.2	TDD Message	390
9.1.37	COMMON TRANSPORT CHANNEL RESOURCES FAILURE	391
9.1.38	COMPRESSED MODE COMMAND [FDD]	391
9.1.39	ERROR INDICATION	392
9.1.40	DL POWER TIMESLOT CONTROL REQUEST [TDD]	392
9.1.41	RADIO LINK PREEMPTION REQUIRED INDICATION	393
9.1.42	RADIO LINK CONGESTION INDICATION	393
9.1.43	COMMON MEASUREMENT INITIATION REQUEST	394
9.1.44	COMMON MEASUREMENT INITIATION RESPONSE	396
9.1.45	COMMON MEASUREMENT INITIATION FAILURE	397
9.1.46	COMMON MEASUREMENT REPORT	397
9.1.47	COMMON MEASUREMENT TERMINATION REQUEST	398
9.1.48	COMMON MEASUREMENT FAILURE INDICATION	398
9.1.49	INFORMATION EXCHANGE INITIATION REQUEST	399
9.1.50	INFORMATION EXCHANGE INITIATION RESPONSE	400
9.1.51	INFORMATION EXCHANGE INITIATION FAILURE	401
9.1.52	INFORMATION REPORT	402
9.1.53	INFORMATION EXCHANGE TERMINATION REQUEST	403
9.1.54	INFORMATION EXCHANGE FAILURE INDICATION	403
9.1.55	RESET REQUEST	403
9.1.56	RESET RESPONSE	406
9.1.57	RADIO LINK ACTIVATION COMMAND	406
9.1.57.1	FDD Message	406
9.1.57.2	TDD Message	407
9.1.58	RADIO LINK PARAMETER UPDATE INDICATION	408
9.1.58.1	FDD Message	408
9.1.58.2	TDD Message	409
9.1.59	UE MEASUREMENT INITIATION REQUEST [TDD]	409
9.1.60	UE MEASUREMENT INITIATION RESPONSE [TDD]	409
9.1.61	UE MEASUREMENT INITIATION FAILURE [TDD]	409
9.1.62	UE MEASUREMENT REPORT [TDD]	410
9.1.63	UE MEASUREMENT TERMINATION REQUEST [TDD]	410
9.1.64	UE MEASUREMENT FAILURE INDICATION [TDD]	410
9.1.65	IUR INVOKE TRACE	410
9.1.66	IUR DEACTIVATE TRACE	411
9.1.67	MBMS ATTACH COMMAND	411
9.1.68	MBMS DETACH COMMAND	412
9.1.69	DIRECT INFORMATION TRANSFER	413
9.1.70	ENHANCED RELOCATION REQUEST	414
9.1.71	ENHANCED RELOCATION RESPONSE	414
9.1.72	ENHANCED RELOCATION FAILURE	415
9.1.73	ENHANCED RELOCATION CANCEL	415
9.1.74	ENHANCED RELOCATION SIGNALLING TRANSFER	415
9.1.75	ENHANCED RELOCATION RELEASE	415
9.1.76	MBSFN MCCH INFORMATION (FDD)	416
9.1.77	SECONDARY UL FREQUENCY REPORT	416
9.1.77.1	FDD Message	416
9.1.78	SECONDARY UL FREQUENCY UPDATE INDICATION	416
9.1.78.1	FDD Message	416
9.1.79	ENHANCED RELOCATION RESOURCE REQUEST [TDD]	417
9.1.80	ENHANCED RELOCATION RESOURCE RESPONSE [TDD]	417
9.1.81	ENHANCED RELOCATION RESOURCE FAILURE [TDD]	417
9.1.82	ENHANCED RELOCATION RESOURCE RELEASE COMMAND [TDD]	417
9.1.83	ENHANCED RELOCATION RESOURCE RELEASE COMPLETE [TDD]	418
9.1.84	INFORMATION TRANSFER CONTROL REQUEST	418
9.2	Information Element Functional Definition and Contents	418
9.2.0	General	418
9.2.1	Common Parameters	418
9.2.1.1	Allocation/Retention Priority	418
9.2.1.2	Allowed Queuing Time	419
9.2.1.2A	Allowed Rate Information	419
9.2.1.2B	Altitude and Direction	419
9.2.1.2C	Antenna Co-location Indicator	420
9.2.1.2D	Alternative Format Reporting Indicator	420
9.2.1.3	Binding ID	420
9.2.1.4	BLER	420
9.2.1.4A	Block STTD Indicator	421
9.2.1.4B	Burst Mode Parameters	421
9.2.1.5	Cause	421
9.2.1.5A	Cell Geographical Area Identity (Cell GAI)	428
9.2.1.5B	Cell Geographical Area Additional Shapes (Cell GAI Additional Shapes)	429
9.2.1.5C	Cell Capacity Class Value	429
9.2.1.5D	Cell Global Identifier (CGI)	430
9.2.1.6	Cell Identifier (C-ID)	430
9.2.1.7	Cell Individual Offset	430
9.2.1.8	Cell Parameter ID	431
9.2.1.9	CFN	431
9.2.1.10	CFN Offset	431
9.2.1.11	CN CS Domain Identifier	431
9.2.1.11A	CN Domain Type	431
9.2.1.12	CN PS Domain Identifier	431
9.2.1.12A	Common Measurement Accuracy	432
9.2.1.12B	Common Measurement Object Type	432
9.2.1.12C	Common Measurement Type	432
9.2.1.12D	Common Measurement Value	433
9.2.1.12E	Common Measurement Value Information	434
9.2.1.12F	Common Transport Channel Resources Initialisation Not Required	435
9.2.1.12G	Coverage Indicator	435
9.2.1.13	Criticality Diagnostics	435
9.2.1.14	C-RNTI	437
9.2.1.14A	CTFC	437
9.2.1.15	DCH Combination Indicator	438
9.2.1.16	DCH ID	438
9.2.1.16A	DCH Information Response	438
9.2.1.17	Dedicated Measurement Object Type	438
9.2.1.18	Dedicated Measurement Type	438
9.2.1.19	Dedicated Measurement Value	439
9.2.1.19A	Dedicated Measurement Value Information	441
9.2.1.19Aa	Delayed Activation	442
9.2.1.19Ab	Delayed Activation Update	442
9.2.1.19B	DGPS Corrections	442
9.2.1.19C	Discard Timer	443
9.2.1.20	Diversity Control Field	444
9.2.1.21	Diversity Indication	444
9.2.1.21A	DL Power	444
9.2.1.22	Downlink SIR Target	444
9.2.1.23	DPCH Constant Value	444
9.2.1.24	D-RNTI	445
9.2.1.25	D-RNTI Release Indication	445
9.2.1.26	DRX Cycle Length Coefficient	445
9.2.1.26A	DSCH ID	445
9.2.1.26Aa	DSCH Initial Window Size	445
9.2.1.26B	DSCH Flow Control Information	445
9.2.1.26Ba	DSCH-RNTI	445
9.2.1.26Bb	Extended GSM Cell Individual Offset	445
9.2.1.26C	FACH Flow Control Information	446
9.2.1.27	FACH Initial Window Size	446
9.2.1.28	FACH Priority Indicator	446
9.2.1.28A	FN Reporting Indicator	446
9.2.1.29	Frame Handling Priority	447
9.2.1.30	Frame Offset	447
9.2.1.30A	GA Point with Uncertainty	447
9.2.1.30B	GA Ellipsoid Point with Uncertainty Ellipse	447
9.2.1.30C	GA Ellipsoid Point with Altitude	447
9.2.1.30D	GA Ellipsoid Point with Altitude and Uncertainty Ellipsoid	447
9.2.1.30E	GA Ellipsoid Arc	448
9.2.1.30F	Geographical Coordinates	448
9.2.1.30Fa	GERAN Cell Capability	448
9.2.1.30Fb	GERAN Classmark	449
9.2.1.30Fc	GERAN System Information	449
9.2.1.30G	GPS Almanac	449
9.2.1.30H	GPS Ionospheric Model	450
9.2.1.30I	GPS Navigation Model and Time Recovery	451
9.2.1.30J	GPS Real-Time Integrity	453
9.2.1.30K	GPS Receiver Geographical Position (GPS RX Pos)	453
9.2.1.30L	GPS UTC Model	453
9.2.1.30M	Guaranteed Rate Information	454
9.2.1.30N	HCS Prio	454
9.2.1.30NA	HS-DSCH Information To Modify Unsynchronised	454
9.2.1.30Na	HS-DSCH Initial Capacity Allocation	456
9.2.1.30Nb	HS-DSCH Initial Window Size	457
9.2.1.30O	HS-DSCH MAC-d Flow ID	457
9.2.1.30OA	HS-DSCH MAC-d Flows Information	457
9.2.1.30OB	HS-DSCH MAC-d Flows To Delete	459
9.2.1.30OC	HS-DSCH MAC-d PDU Size Format	459
9.2.1.30Oa	HS-DSCH Physical Layer Category	459
9.2.1.30P	HS-DSCH-RNTI	459
9.2.1.30Q	HS-DSCH Information To Modify	461
9.2.1.30R	HS-SCCH Code Change Indicator	465
9.2.1.30S	HS-SCCH Code Change Grant	466
9.2.1.30T	IMEI	466
9.2.1.30U	IMEISV	466
9.2.1.30V	HS-PDSCH Code Change Indicator [FDD]	466
9.2.1.30W	HS-PDSCH Code Change Grant [FDD]	467
9.2.1.31	IMSI	467
9.2.1.31A	Information Exchange ID	467
9.2.1.31B	Information Exchange Object Type	467
9.2.1.31C	Information Report Characteristics	467
9.2.1.31D	Information Threshold	468
9.2.1.31E	Information Type	468
9.2.1.31F	IPDL Parameters	472
9.2.1.31G	Inter-frequency Cell Information	472
9.2.1.32	L3 Information	474
9.2.1.33	Limited Power Increase	474
9.2.1.33A	Load Value	474
9.2.1.34	MAC-c/sh SDU Length	474
9.2.1.34A	MAC-d PDU Size	474
9.2.1.34Aa	MAC-hs Guaranteed Bit Rate	475
9.2.1.34Ab	MAC-hs Reordering Buffer Size for RLC-UM	475
9.2.1.34B	MAC-hs Reset Indicator	475
9.2.1.34C	MAC-hs Window Size	475
9.2.1.34D	MAC PDU Size Extended	475
9.2.1.35	Maximum Allowed UL Tx Power	476
9.2.1.35A	Measurement Availability Indicator	476
9.2.1.35B	Measurement Change Time	476
9.2.1.36	Measurement Filter Coefficient	476
9.2.1.36A	Measurement Hysteresis Time	476
9.2.1.37	Measurement ID	476
9.2.1.38	Measurement Increase/Decrease Threshold	477
9.2.1.38A	Measurement Recovery Behavior	479
9.2.1.38B	Measurement Recovery Reporting Indicator	479
9.2.1.38C	Measurement Recovery Support Indicator	479
9.2.1.39	Measurement Threshold	479
9.2.1.39A	Message Structure	481
9.2.1.40	Message Type	482
9.2.1.41	Multiple URAs Indicator	483
9.2.1.41a	NACC Related Data	483
9.2.1.41A	Neighbouring UMTS Cell Information	483
9.2.1.41B	Neighbouring FDD Cell Information	484
9.2.1.41C	Neighbouring GSM Cell Information	486
9.2.1.41D	Neighbouring TDD Cell Information	488
9.2.1.41Dd	Neighbouring TDD Cell Measurement Information LCR	489
9.2.1.41De	Neighbouring E-UTRA Cell Information	489
9.2.1.41Df	EARFCN	491
9.2.1.41Dg	EARFCN-Extended	491
9.2.1.41E	Paging Cause	491
9.2.1.41F	Paging Record Type	492
9.2.1.41Fa 	Partial Reporting Indicator	492
9.2.1.41G	Neighbouring FDD Cell Measurement Information	492
9.2.1.41H	Neighbouring TDD Cell Measurement Information	492
9.2.1.41I	NRT Load Information Value	492
9.2.1.42	Payload CRC Present Indicator	493
9.2.1.43	PCCPCH Power	493
9.2.1.44	Primary CPICH Power	493
9.2.1.45	Primary Scrambling Code	494
9.2.1.45A	Priority Queue ID	494
9.2.1.45B	Process Memory Size	494
9.2.1.46	Puncture Limit	494
9.2.1.46A	QE-Selector	495
9.2.1.47	RANAP Relocation Information	495
9.2.1.48	Report Characteristics	495
9.2.1.48a	Report Periodicity	497
9.2.1.48A	Requested Data Value	497
9.2.1.48B	Requested Data Value Information	499
9.2.1.48C	Restriction State Indicator	499
9.2.1.48D	RLC Mode	499
9.2.1.49	RL ID	499
9.2.1.49A	RL Specific DCH Information	500
9.2.1.50	RNC-ID	500
9.2.1.50a	Extended RNC-ID	500
9.2.1.50A	SAT ID	500
9.2.1.50B	RT Load Value	501
9.2.1.51	SCH Time Slot	501
9.2.1.51A	Scheduling Priority Indicator	501
9.2.1.52	Service Area Identifier (SAI)	501
9.2.1.52A	SFN	501
9.2.1.52B	SFN-SFN Measurement Threshold Information	502
9.2.1.52C	SFN-SFN Measurement Value Information	502
9.2.1.52Ca	Shared Network Area (SNA) Information	503
9.2.1.52D	SID	504
9.2.1.53	S-RNTI	504
9.2.1.53a	S-RNTI Group	504
9.2.1.54	Sync Case	504
9.2.1.54A	T1	504
9.2.1.55	TFCI Presence	505
9.2.1.56	Time Slot	505
9.2.1.56A	TNL QoS	505
9.2.1.57	ToAWE	506
9.2.1.58	ToAWS	506
9.2.1.58a	Trace Depth	506
9.2.1.58b	Trace Recording Session Reference	506
9.2.1.58c	Trace Reference	506
9.2.1.58A	Traffic Class	506
9.2.1.59	Transaction ID	507
9.2.1.59A	Transmitted Carrier Power	507
9.2.1.59B	TUTRAN-GPS Accuracy Class	507
9.2.1.59C	TUTRAN-GPS Measurement Threshold Information	507
9.2.1.59D	TUTRAN-GPS Measurement Value Information	508
9.2.1.60	Transport Bearer ID	508
9.2.1.61	Transport Bearer Request Indicator	509
9.2.1.62	Transport Layer Address	509
9.2.1.63	Transport Format Combination Set (TFCS)	509
9.2.1.64	Transport Format Set	510
9.2.1.65	TrCH Source Statistics Descriptor	512
9.2.1.66	UARFCN	512
9.2.1.66A	UE Identity	512
9.2.1.67	UL FP Mode	512
9.2.1.68	UL Interference Level	512
9.2.1.68A	Uncertainty Ellipse	513
9.2.1.68B	Unidirectional DCH Indicator	513
9.2.1.69	Uplink SIR	513
9.2.1.70	URA ID	513
9.2.1.70A	UTRAN Access Point Position	513
9.2.1.70B	URA Information	514
9.2.1.70C	User Plane Congestion Fields Inclusion	514
9.2.1.71	UTRAN Cell Identifier (UC-ID)	514
9.2.1.72	Neighbouring TDD Cell Information LCR	515
9.2.1.73	Permanent NAS UE Identity	515
9.2.1.74	SFN-SFN Measurement Reference Point Position	516
9.2.1.75	UTRAN Access Point Position with Altitude	516
9.2.1.76	SFN-SFN Measurement Time Stamp	516
9.2.1.77	SFN-SFN Value	516
9.2.1.78	SCTD Indicator	516
9.2.1.79	Congestion Cause	517
9.2.1.80	TMGI	517
9.2.1.81	Transmission Mode	517
9.2.1.82	Access Point Name	517
9.2.1.83	IP Multicast Address	518
9.2.1.84	MBMS Bearer Service Full Address	518
9.2.1.85	Provided Information	518
9.2.1.86	MBMS Channel Type Information	518
9.2.1.87	MBMS Preferred Frequency Layer Information	520
9.2.1.88	E-DCH DDI Value	520
9.2.1.89	E-DCH MAC-d Flow Multiplexing List	521
9.2.1.90	E-DCH MAC-d Flows To Delete	521
9.2.1.91	E-DCH MAC-d Flow ID	521
9.2.1.91A	E-DCH MAC-d PDU Size Format	522
9.2.1.92	E-DCH Logical Channel Information	522
9.2.1.93	E-DCH Logical Channel To Modify	523
9.2.1.94	E-RNTI	524
9.2.1.95	E-DCH Processing Overload Level	524
9.2.1.96	E-DCH Power Offset for Scheduling Info	525
9.2.1.97	Logical Channel ID	525
9.2.1.98	MAC-es Guaranteed Bit Rate	525
9.2.1.99	MAC-e Reset Indicator	525
9.2.1.100	Maximum Number of Retransmissions for E-DCH	525
9.2.1.101	Scheduling Information	526
9.2.1.102	DGANSS Corrections	526
9.2.1.103	GANSS Almanac	528
9.2.1.104	GANSS Clock Model	533
9.2.1.104a	GANSS Additional Clock Models	533
9.2.1.105	GANSS Ionospheric Model	536
9.2.1.105a	GANSS Additional Ionospheric Model	536
9.2.1.106	GANSS Navigation Model	536
9.2.1.107	GANSS Orbit Model	536
9.2.1.107a	GANSS Additional Orbit Models	537
9.2.1.108	GANSS Real Time Integrity	542
9.2.1.109	GANSS Receiver Geographical Position (GANSS RX Pos)	543
9.2.1.110	GANSS Time Model	543
9.2.1.110a	GANSS Additional Time Models	544
9.2.1.111	GANSS UTC Model	544
9.2.1.111a	GANSS Additional UTC Models	544
9.2.1.112	TUTRAN-GANSS Accuracy Class	546
9.2.1.113	TUTRAN-GANSS Measurement Threshold Information	546
9.2.1.114	TUTRAN-GANSS Measurement Value Information	547
9.2.1.115	GANSS Reference Time	549
9.2.1.116	HARQ Memory Partitioning	550
9.2.1.117	Multiple PLMN List	551
9.2.1.118	GANSS Data Bit Assistance	551
9.2.1.119	GANSS ID	551
9.2.1.119a	GANSS Time ID	551
9.2.1.120	GANSS Navigation Model And Time Recovery	552
9.2.1.120a	GANSS Additional Navigation Models And Time Recovery	552
9.2.1.121	GANSS Signal ID	553
9.2.1.122	GANSS Transmission Time	553
9.2.1.122a	GANSS Earth Orientation Parameters	553
9.2.1.122b	SBAS ID	554
9.2.1.122c	GANSS Auxiliary Information	554
9.2.1.122d	Additional Ionospheric Model Request	555
9.2.1.122e	Earth Orientation Parameters Request	555
9.2.1.122f	GANSS Additional Navigation Models And Time Recovery Request	555
9.2.1.122g	GANSS Additional UTC Models Request	556
9.2.1.122h	GANSS Auxiliary Information Request	556
9.2.1.123	SixtyfourQAM DL Support Indicator	556
9.2.1.124	RANAP Enhanced Relocation Information Request	556
9.2.1.125	RANAP Enhanced Relocation Information Response	556
9.2.1.126	Released CN Domain	556
9.2.1.127	Secondary CCPCH system information MBMS	557
9.2.1.128	MBSFN Cluster Identity	557
9.2.1.129	MBSFN Scheduling Transmission Time Interval	557
9.2.1.130	MAC-ehs Reset Timer	557
9.2.1.131	Enhanced FACH Support Indicator	557
9.2.1.132	Enhanced PCH Capability	557
9.2.1.133	Priority Queue Information for Enhanced FACH/PCH	558
9.2.1.134	MIMO Activation Indicator	558
9.2.1.135	MIMO Mode Indicator	558
9.2.1.136	DL RLC PDU Size Format	558
9.2.1.137	UE Aggregate Maximum Bit Rate	559
9.2.1.138	DGNSS Validity Period	559
9.2.1.139	MDT Configuration	560
9.2.1.140	MDT Report Parameters	560
9.2.1.141	Neighbouring UMTS Cell Information Extension	561
9.2.1.142	Source ID	561
9.2.1.143	Target ID	561
9.2.1.144	MS Classmark 2	562
9.2.1.145	MS Classmark 3	562
9.2.1.146	Speech Version	562
9.2.1.147	Controlled Object Scope	562
9.2.1.148	ANR Report Indication	562
9.2.1.149	ANR Cell Information	563
9.2.1.150	ANR FDD Cell Information	563
9.2.1.151	ANR TDD Cell Information	563
9.2.1.152	ANR TDD Cell Information LCR	564
9.2.1.153	ANR Multiple PLMN List	564
9.2.1.154	Extended RNTI	564
9.2.1.155	Extended S-RNTI Group	565
9.2.1.156	Common E-RGCH Cell Information	565
9.2.1.157	DBDS Corrections	565
9.2.1.158	BDS Ionospheric Grid Model	566
9.2.1.159	Improved Synchronized RRC Indicator	566
9.2.2	FDD Specific Parameters	566
9.2.2.a	ACK-NACK Repetition Factor	567
9.2.2.b	ACK Power Offset	567
9.2.2.A	Active Pattern Sequence Information	567
9.2.2.B	Adjustment Period	568
9.2.2.C	Adjustment Ratio	568
9.2.2.Ca	Bundling Mode Indicator	568
9.2.2.D	Cell Capability Container FDD	568
9.2.2.E	Cell Portion ID	570
9.2.2.1	Chip Offset	570
9.2.2.2	Closed Loop Mode1 Support Indicator	571
9.2.2.3	Closed Loop Mode2 Support Indicator	571
9.2.2.3A	Closed Loop Timing Adjustment Mode	571
9.2.2.4	Compressed Mode Method	571
9.2.2.4A	DCH FDD Information	571
9.2.2.4B	E-DCH FDD Information	572
9.2.2.4C	E-DCH FDD Information Response	573
9.2.2.4D	E-DCH FDD DL Control Channel Information	574
9.2.2.4E	E-DCH RL Indication	576
9.2.2.4F	E-DCH FDD Information To Modify	576
9.2.2.4G	E-DCH Transport Format Combination Set Information (E-TFCS Information)	580
9.2.2.4J	E-TTI	582
9.2.2.4K	E-DPCCH Power Offset	582
9.2.2.4KA	Void	582
9.2.2.4L	E-DCH HARQ Power Offset FDD	582
9.2.2.4M	Void	582
9.2.2.4MA	Void	582
9.2.2.4MB	Void	582
9.2.2.4MC	E-DCH MAC-d Flows Information	582
9.2.2.4MD	Void	584
9.2.2.4ME	Void	584
9.2.2.4MF	Void	584
9.2.2.4MG	E-DCH Maximum Bitrate	584
9.2.2.4MH	Void	584
9.2.2.4MI	E-DCH Reference Power Offset	584
9.2.2.4MJ	Void	584
9.2.2.4N	Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission	584
9.2.2.4O	HARQ Process Allocation For 2ms TTI	585
9.2.2.4P	Reference E-TFCI Power Offset	585
9.2.2.4Q	Extended Reference E-TFCI Power Offset	585
9.2.2.4R	Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission	585
9.2.2.4S	Transport Bearer Not Requested Indicator	586
9.2.2.4T	Transport Bearer Not Setup Indicator	586
9.2.2.5	D-Field Length	586
9.2.2.6	Diversity Control Field	586
9.2.2.7	Diversity Indication	586
9.2.2.8	Diversity Mode	586
9.2.2.9	DL DPCH Slot Format	586
9.2.2.9A	DL DPCH Timing Adjustment	587
9.2.2.10	DL Power	587
9.2.2.10A	DL Power Balancing Information	587
9.2.2.10B	DL Power Balancing Activation Indicator	587
9.2.2.10C	DL Reference Power Information	588
9.2.2.10D	DL Power Balancing Updated Indicator	588
9.2.2.11	DL Scrambling Code	588
9.2.2.12	Downlink Frame Type	588
9.2.2.12A	DPC Mode	588
9.2.2.13	DRAC Control	589
9.2.2.13A	DSCH FDD Information	589
9.2.2.13B	DSCH FDD Information Response	589
9.2.2.13Bb	DSCH-RNTI	589
9.2.2.13C	FDD DCHs To Modify	589
9.2.2.13D	Enhanced DSCH PC	590
9.2.2.13E	Enhanced DSCH PC Counter	590
9.2.2.13F	Enhanced DSCH PC Indicator	590
9.2.2.13G	Enhanced DSCH PC Wnd	590
9.2.2.13H	Enhanced DSCH Power Offset	590
9.2.2.13I	Enhanced Primary CPICH Ec/No	590
9.2.2.14	FDD DL Channelisation Code Number	591
9.2.2.14A	FDD DL Code Information	591
9.2.2.15	FDD S-CCPCH Offset	591
9.2.2.16	FDD TPC Downlink Step Size	591
9.2.2.16A	First RLS Indicator	591
9.2.2.17	Gap Position Mode	592
9.2.2.18	Gap Period (TGP)	592
9.2.2.19	Gap Starting Slot Number (SN)	592
9.2.2.19a	HS-DSCH FDD Information	592
9.2.2.19aa	HS-DSCH FDD Secondary Serving Information	594
9.2.2.19b	HS-DSCH FDD Information Response	596
9.2.2.19ba	HS-DSCH FDD Secondary Serving Information Response	597
9.2.2.19bb	HS-DSCH FDD Secondary Serving Information To Modify	598
9.2.2.19bc	HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised	600
9.2.2.19c	HS-DSCH FDD Update Information	602
9.2.2.19ca	HS-DSCH FDD Secondary Serving Update Information	602
9.2.2.19C	HS-DSCH Configured Indicator	603
9.2.2.19d	HS-SCCH Power Offset	603
9.2.2.19e	E-DCH FDD Update Information	603
9.2.2.19f	HS-DSCH Serving Cell Change Information	603
9.2.2.19g	HS-DSCH Serving Cell Change Information Response	604
9.2.2.19ga	HS-DSCH Secondary Serving Cell Change Information Response	604
9.2.2.19G	HS-DSCH TB Size Table Indicator	604
9.2.2.19h	E-DCH Serving Cell Change Information Response	605
9.2.2.20	IB_SG_POS	605
9.2.2.21	IB_SG_REP	605
9.2.2.21a	Inner Loop DL PC Status	605
9.2.2.21b	Initial DL DPCH Timing Adjustment Allowed	605
9.2.2.21A	Limited Power Increase	605
9.2.2.21B	IPDL FDD Parameters	606
9.2.2.21C	Length of TFCI2	606
9.2.2.21D	Void	606
9.2.2.21E	Void	606
9.2.2.21F	Void	606
9.2.2.22	Max Adjustment Period	606
9.2.2.23	Max Adjustment Step	606
9.2.2.24	Max Number of UL DPDCHs	606
9.2.2.24a	CQI Feedback Cycle k	606
9.2.2.24b	CQI Power Offset	607
9.2.2.24c	CQI Repetition Factor	607
9.2.2.24d	Measurement Power Offset	607
9.2.2.24e	Maximum Set of E-DPDCHs	607
9.2.2.24f	Void	607
9.2.2.24A	Min DL Channelisation Code Length	607
9.2.2.25	Min UL Channelisation Code Length	608
9.2.2.26	Multiplexing Position	608
9.2.2.26a	NACK Power Offset	608
9.2.2.26A	Number of DL Channelisation Codes	608
9.2.2.27	Pattern Duration (PD)	608
9.2.2.27a	PC Preamble	608
9.2.2.27A	PDSCH Code Mapping	608
9.2.2.27B	Phase Reference Update Indicator	609
9.2.2.28	Power Adjustment Type	609
9.2.2.29	Power Control Mode (PCM)	609
9.2.2.30	Power Offset	609
9.2.2.31	Power Resume Mode (PRM)	609
9.2.2.31A	Preamble Signatures	609
9.2.2.32	Primary CPICH Ec/No	609
9.2.2.32A	Primary CPICH Usage For Channel Estimation	610
9.2.2.33	Propagation Delay (PD)	610
9.2.2.33a	Extended Propagation Delay	610
9.2.2.33A	PRACH Minimum Spreading Factor	610
9.2.2.34	QE-Selector	610
9.2.2.34a	Qth Parameter	610
9.2.2.34A	RACH Sub Channel Numbers	610
9.2.2.35	RL Set ID	610
9.2.2.35a	RL Specific E-DCH Information	611
9.2.2.35A	Received Total Wide Band Power	611
9.2.2.36	S-Field Length	611
9.2.2.36A	Void	611
9.2.2.37	Scrambling Code Change	611
9.2.2.37A	Scrambling Code Number	611
9.2.2.37B	Secondary CCPCH Info	611
9.2.2.38	Secondary CCPCH Slot Format	612
9.2.2.38A	Secondary CPICH Information	612
9.2.2.38B	Secondary CPICH Information Change	612
9.2.2.38C	Serving E-DCH RL	612
9.2.2.39	Slot Number (SN)	612
9.2.2.39a	Split Type	612
9.2.2.39A	SRB Delay	612
9.2.2.40	SSDT Cell Identity	613
9.2.2.40A	SSDT Cell Identity for EDSCHPC	613
9.2.2.41	SSDT Cell Identity Length	613
9.2.2.42	SSDT Indication	613
9.2.2.43	SSDT Support Indicator	613
9.2.2.44	STTD Indicator	613
9.2.2.45	STTD Support Indicator	613
9.2.2.45A	Synchronisation Indicator	613
9.2.2.46	TFCI Signalling Mode	613
9.2.2.46A	TFCI PC Support Indicator	614
9.2.2.47	Transmission Gap Distance (TGD)	614
9.2.2.47A	Transmission Gap Pattern Sequence Information	614
9.2.2.47B	Transmission Gap Pattern Sequence Scrambling Code Information	616
9.2.2.48	Transmit Diversity Indicator	616
9.2.2.49	Transmit Gap Length (TGL)	616
9.2.2.50	Tx Diversity Indicator	616
9.2.2.50A	UE Support Of Dedicated Pilots For Channel Estimation	617
9.2.2.50B	UE Support Of Dedicated Pilots For Channel Estimation Of HS-DSCH	617
9.2.2.51	UL/DL Compressed Mode Selection	617
9.2.2.52	UL DPCCH Slot Format	617
9.2.2.52A	UL DPDCH Indicator for E-DCH operation	617
9.2.2.53	UL Scrambling Code	617
9.2.2.54	Uplink Delta SIR	617
9.2.2.55	Uplink Delta SIR After	618
9.2.2.56	DPC Mode Change Support Indicator	618
9.2.2.57	HARQ Preamble Mode	618
9.2.2.58	HARQ Preamble Mode Activation Indicator	618
9.2.2.59	Frequency Band Indicator	618
9.2.2.60	E-RGCH Release Indicator	619
9.2.2.61	E-AGCH Power Offset	619
9.2.2.61A	E-AGCH Table Choice	619
9.2.2.62	E-RGCH Power Offset	620
9.2.2.63	E-HICH Power Offset	620
9.2.2.64	E-RGCH 2-Index-Step Threshold	620
9.2.2.65	E-RGCH 3-Index-Step Threshold	620
9.2.2.66	HARQ Info for E-DCH	620
9.2.2.67	DCH Indicator For E-DCH-HSDPA Operation	621
9.2.2.68	E-RGCH and E-HICH Channelisation Code Validity Indicator	621
9.2.2.69	E-DCH Minimum Set E-TFCI Validity Indicator	621
9.2.2.70	Fast Reconfiguration Mode	621
9.2.2.71	Fast Reconfiguration Permission	622
9.2.2.72	Continuous Packet Connectivity DTX-DRX Information	622
9.2.2.73	Continuous Packet Connectivity DTX-DRX Information To Modify	624
9.2.2.74	Continuous Packet Connectivity HS-SCCH less Information	626
9.2.2.75	Continuous Packet Connectivity HS-SCCH less Information Response	626
9.2.2.75A	Continuous Packet Connectivity HS-SCCH Less Deactivate Indicator	627
9.2.2.76	MIMO Activation Indicator	627
9.2.2.77	MIMO Mode Indicator	627
9.2.2.78	MIMO Information Response	627
9.2.2.79	SixtyfourQAM DL Support Indicator	627
9.2.2.79A	Sixtyfour QAM Usage Allowed Indicator	627
9.2.2.79B	SixtyfourQAM DL Usage Indicator	628
9.2.2.80	Enhanced FACH Support Indicator	628
9.2.2.81	Enhanced PCH Support Indicator	628
9.2.2.82	Priority Queue Information for Enhanced FACH/PCH	628
9.2.2.83	SixteenQAM UL Information	628
9.2.2.84	SixteenQAM UL Information To Modify	628
9.2.2.85	F-DPCH Slot Format	628
9.2.2.86	F-DPCH Slot Format Support Request	628
9.2.2.87	Max UE DTX Cycle	628
9.2.2.88	Enhanced PCH Capability	629
9.2.2.89	MAC-ehs Reset Timer	629
9.2.2.90	SixteenQAM UL Operation Indicator	629
9.2.2.90a	SixtyfourQAM UL Operation Indicator	629
9.2.2.91	E-TFCI Boost Information	629
9.2.2.92	Common E-DCH Support Indicator	629
9.2.2.93	Common E-DCH MAC-d Flow Specific Information	629
9.2.2.94	Counting Information	630
9.2.2.95	Transmission Mode Information	630
9.2.2.96	MBMS Neighbouring Cell Information	631
9.2.2.97	RLC Sequence Number	631
9.2.2.98	Time Stamp	631
9.2.2.99	HS-DSCH Preconfiguration Info	631
9.2.2.100	HS-DSCH Preconfiguration Setup	633
9.2.2.101	Secondary Serving Cell List	636
9.2.2.102	Minimum Reduced E-DPDCH Gain Factor	636
9.2.2.103	UE Support Indicator Extension	636
9.2.2.104	Power Offset For S-CPICH for MIMO	637
9.2.2.105	Power Offset For S-CPICH for MIMO Request Indicator	637
9.2.2.106	Single Stream MIMO Activation Indicator	638
9.2.2.107	Single Stream MIMO Mode Indicator	638
9.2.2.108	HS-DSCH MAC-ehs Format	638
9.2.2.109	Activation Information	638
9.2.2.110	Additional E-DCH FDD Setup Information	639
9.2.2.111	Additional E-DCH Configuration Change Information	640
9.2.2.112	Additional E-DCH FDD Information	641
9.2.2.113	Multicell E-DCH Transport Bearer Mode	641
9.2.2.114	Multicell E-DCH Information	642
9.2.2.115	Additional E-DCH RL Specific Information To Setup	642
9.2.2.116	Additional E-DCH RL Specific Information To Add	643
9.2.2.117	Additional E-DCH RL Specific Information To Modify	643
9.2.2.118	Additional E-DCH MAC-d Flow Specific Information	644
9.2.2.119	Multicell E-DCH RL Specific Information	644
9.2.2.120	Additional E-DCH FDD Information Response	644
9.2.2.121	Additional Modified E-DCH FDD Information Response	646
9.2.2.122	Additional E-DCH FDD Update Information	646
9.2.2.123	Cell Capability Container Extension FDD	647
9.2.2.124	Non-Serving RL Preconfiguration Setup	651
9.2.2.125	Non-Serving RL Preconfiguration Info	651
9.2.2.126	Void	653
9.2.2.127	Usefulness of Battery Optimization	653
9.2.2.128	M1 Report	653
9.2.2.129	Support of Dynamic DTXDRX Related HS-SCCH Order	653
9.2.2.130	UL CLTD Information Reconf	653
9.2.2.131	UL CLTD Information	654
9.2.2.132	UL CLTD Information To Modify	654
9.2.2.133	UL CLTD Information Removal	654
9.2.2.134	UL CLTD State Update Information	655
9.2.2.135	F-TPICH Slot Format	655
9.2.2.136	F-TPICH Offset	655
9.2.2.137	S-DPCCH Power Offset Information	655
9.2.2.138	UL CLTD Activation Information	655
9.2.2.139	F-TPICH Information	655
9.2.2.140	F-TPICH Information To Modify	656
9.2.2.141	F-TPICH Information Removal	656
9.2.2.142	F-TPICH Information Reconf	656
9.2.2.143	F-TPICH Information Response	656
9.2.2.144	F-TPICH Reconfiguration Information	656
9.2.2.145	MIMO with four transmit antennas Activation Indicator	657
9.2.2.146	MIMO with four transmit antennas Mode Indicator	657
9.2.2.147	Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator	657
9.2.2.148	Power Offset For S-CPICH for MIMO with four transmit antennas	657
9.2.2.149	Dual Stream MIMO with four transmit antennas Activation Indicator	658
9.2.2.150	Dual Stream MIMO with four transmit antennas Mode Indicator	658
9.2.2.151	Multiflow Reconfiguration	658
9.2.2.152	Multiflow Information	658
9.2.2.153	Multiflow Information To Modify	659
9.2.2.154	Multiflow Stop	659
9.2.2.155	Multiflow Role	660
9.2.2.156	Multiflow MIMO	660
9.2.2.157	Multiflow Timing	660
9.2.2.158	UL MIMO Reconfiguration	660
9.2.2.159	UL MIMO Information	661
9.2.2.160	UL MIMO Information To Modify	661
9.2.2.161	UL MIMO Information Removal	661
9.2.2.162	UL MIMO DL Control Channel Information	662
9.2.2.163	E-ROCH Power Offset	662
9.2.2.164	S-E-DPCCH Power Offset	662
9.2.2.165	Inter-stream Interference Compensation Index	662
9.2.2.166	Secondary Transport Block E-HICH Release Indicator	663
9.2.2.167	Precoder weight set restriction	663
9.2.2.168	Multiflow Repetition Factors	663
9.2.2.169	E-DCH Decoupling Indication	663
9.2.2.170	DCH Enhancements Information Reconf	664
9.2.2.171	DCH Enhancements Information	664
9.2.2.172	DCH Enhancements Information to Modify	665
9.2.2.173	DCH Enhancements Information Removal	665
9.2.2.174	Gain Factors 10ms Mode	665
9.2.2.175	Extended E-DPCCH Power Offset	666
9.2.2.176	Radio Links without DPCH/F-DPCH Indication	666
9.2.2.177	UL DPCCH2 Reconfiguration	666
9.2.2.178	UL DPCCH2 Information	667
9.2.2.179	UL DPCCH2 Information To Modify	667
9.2.2.180	UL DPCCH2 Information Removal	667
9.2.2.181	CQI Feedback Cycle2 k	667
9.2.2.182	UE Measurement Forwarding	668
9.2.2.183	UE Measurement Value	668
9.2.2.184	TTI Update Indication	668
9.2.2.185	Activation Delay	668
9.2.2.186	Fast TTI switching Mode Supported	668
9.2.2.187	Fast TTI switching Mode Requested Synchronized	669
9.2.2.188	Fast TTI switching Mode Requested UnSynchronized	669
9.2.2.189	PLMN Identity	669
9.2.2.190	Downlink TPC enhancements Information	669
9.2.2.191	Downlink TPC enhancements Reconf	670
9.2.2.192	Downlink TPC enhancements Information Removal	670
9.2.2.193	TPC slot position	670
9.2.2.194	Dual Cell E-DCH Operation Enhancements Information	671
9.2.3	TDD Specific Parameters	671
9.2.3.a	Alpha Value	671
9.2.3.A	Block STTD Indicator	671
9.2.3.1	Burst Type	671
9.2.3.1a	Cell Capability Container TDD	671
9.2.3.1b	Cell Capability Container TDD LCR	672
9.2.3.2	CCTrCH ID	672
9.2.3.2A	DCH TDD Information	673
9.2.3.2B	DCH TDD Information Response	673
9.2.3.2C	DL Timeslot Information	674
9.2.3.2D	DL Time Slot ISCP Info	674
9.2.3.2E	DL Timeslot Information LCR	674
9.2.3.2F	DL Time Slot ISCP Info LCR	675
9.2.3.3	DPCH ID	675
9.2.3.3a	DSCH TDD Information	675
9.2.3.3aa	HS-DSCH TDD Information	676
9.2.3.3ab	HS-DSCH TDD Information Response	678
9.2.3.3ac	HS-DSCH TDD Update Information	682
9.2.3.3ad	HS-SICH ID	682
9.2.3.3ae	DSCH ID	682
9.2.3.3af	DSCH Initial Window Size	682
9.2.3.3ag	DSCH Flow Control Information	683
9.2.3.3ah	DSCH-RNTI	683
9.2.3.3ai	TSN-Length	683
9.2.3.3A	Maximum Number of Timeslots	683
9.2.3.3B	Maximum Number of UL Physical Channels per Timeslot	684
9.2.3.3C	Maximum Number of DL Physical Channels	684
9.2.3.3D	Maximum Number of DL Physical Channels per Timeslot	684
9.2.3.4	Midamble Shift And Burst Type	684
9.2.3.4A	Minimum Spreading Factor	685
9.2.3.4B	IPDL TDD parameters	685
9.2.3.4Bb	IPDL TDD parameters LCR	686
9.2.3.4C	Midamble Shift LCR	686
9.2.3.4D	Neighbouring TDD Cell Information LCR	687
9.2.3.5	Primary CCPCH RSCP	687
9.2.3.5a	Primary CCPCH RSCP Delta	687
9.2.3.5A	PRACH Midamble	687
9.2.3.5B	RB Identity	687
9.2.3.6	Repetition Length	687
9.2.3.7	Repetition Period	688
9.2.3.7A	Rx Timing Deviation	688
9.2.3.7B	Secondary CCPCH Info TDD	688
9.2.3.7C	Secondary CCPCH TDD Code Information	689
9.2.3.7D	Special Burst Scheduling	689
9.2.3.7E	Synchronisation Configuration	689
9.2.3.7F	Secondary CCPCH Info TDD LCR	689
9.2.3.7G	Secondary CCPCH TDD Code Information LCR	690
9.2.3.7H	Support of 8PSK	690
9.2.3.7I	TDD ACK NACK Power Offset	691
9.2.3.8	TDD Channelisation Code	691
9.2.3.8a	TDD Channelisation Code LCR	691
9.2.3.8A	TDD DPCH Offset	691
9.2.3.8B	TDD DCHs To Modify	692
9.2.3.8C	TDD DL Code Information	692
9.2.3.8D	TDD DL Code Information LCR	693
9.2.3.8E	TDD DL DPCH Time Slot Format LCR	693
9.2.3.9	TDD Physical Channel Offset	693
9.2.3.10	TDD TPC Downlink Step Size	693
9.2.3.10a	TDD TPC Uplink Step Size	694
9.2.3.10A	TDD UL Code Information	694
9.2.3.10B	TDD UL Code Information LCR	694
9.2.3.10C	TDD UL DPCH Time Slot Format LCR	694
9.2.3.10D	1.28 Mcps TDD uplink physical channel capability	695
9.2.3.11	TFCI Coding	695
9.2.3.12	DL Timeslot ISCP	695
9.2.3.12a	Time Slot LCR	695
9.2.3.12A	Timing Advance Applied	695
9.2.3.13	Transport Format Management	696
9.2.3.13A	UL Timeslot ISCP	696
9.2.3.13B	UL PhysCH SF Variation	696
9.2.3.13C	UL Timeslot Information	696
9.2.3.13D	UL Time Slot ISCP Info	696
9.2.3.13E	TSTD Indicator	697
9.2.3.13F	TSTD Support Indicator	697
9.2.3.13Fa	UE Measurement Hysteresis Time	697
9.2.3.13Fb	UE Measurement Parameter Modification Allowed	697
9.2.3.13Fc	UE Measurement Report Characteristics	698
9.2.3.13Fd	UE Measurement Threshold	698
9.2.3.13Fe	UE Measurement Timeslot Information HCR	699
9.2.3.13Ff	UE Measurement Timeslot Information LCR	699
9.2.3.13Fg	UE Measurement Time to Trigger	699
9.2.3.13Fh	UE Measurement Type	699
9.2.3.13Fi	UE Measurement Value	700
9.2.3.13Fj	UE Measurement Value Information	701
9.2.3.13G	UL Timeslot Information LCR	701
9.2.3.13H	UL Time Slot ISCP Info LCR	701
9.2.3.13I	Uplink Synchronisation Frequency	702
9.2.3.13J	Uplink Synchronisation Step Size	702
9.2.3.13K	Uplink Timing Advance Control LCR	702
9.2.3.13L	USCH ID	703
9.2.3.14	USCH Information	703
9.2.3.16	Support of PLCCH	704
9.2.3.17	PLCCH Information	704
9.2.3.18	PLCCH Sequence Number	705
9.2.3.19	Minimum Spreading Factor 7.68Mcps	705
9.2.3.20	Maximum Number of DL Physical Channels 7.68Mcps	705
9.2.3.21	Maximum Number of DL Physical Channels per Timeslot 7.68Mcps	705
9.2.3.22	Secondary CCPCH Info 7.68Mcps TDD	705
9.2.3.23	Midamble Shift And Burst Type 7.68Mcps	706
9.2.3.24	Secondary CCPCH TDD Code Information 7.68Mcps	707
9.2.3.25	TDD Channelisation Code 7.68Mcps	707
9.2.3.26	UL Timeslot Information 7.68Mcps	708
9.2.3.27	TDD UL Code Information 7.68Mcps	708
9.2.3.28	DL Timeslot Information 7.68Mcps	708
9.2.3.29	TDD DL Code Information 7.68Mcps	709
9.2.3.30	Rx Timing Deviation 7.68Mcps	709
9.2.3.31	Cell Capability Container 7.68 Mcps TDD	709
9.2.3.32	Neighbouring TDD Cell Measurement Information 7.68Mcps	710
9.2.3.33	UE Measurement Timeslot Information 7.68Mcps	710
9.2.3.34	DPCH ID 7.68Mcps	711
9.2.3.35	Rx Timing Deviation 3.84Mcps Extended	711
9.2.3.36	E-PUCH Information	711
9.2.3.36a	E-PUCH Information LCR	711
9.2.3.37	E-TFCS Information TDD	713
9.2.3.38	E-DCH MAC-d Flows Information TDD	713
9.2.3.39	E-DCH Non-scheduled Grant Information TDD	714
9.2.3.39a	E-DCH Non-scheduled Grant Information LCR TDD	715
9.2.3.40	E-DCH TDD Information	715
9.2.3.40a	E-DCH TDD Information LCR	715
9.2.3.41	E-DCH TDD Information Response	717
9.2.3.41a	E-DCH TDD Information Response 1.28Mcps	717
9.2.3.42	E-DCH TDD Information to Modify	718
9.2.3.43	E-DCH Grant Type	719
9.2.3.44	Timeslot Resource Related Information	720
9.2.3.44a	Timeslot Resource Related Information LCR	720
9.2.3.45	Power Resource Related Information	720
9.2.3.46	E-PUCH Offset	720
9.2.3.47	E-DCH TDD Maximum Bitrate	720
9.2.3.48	E-HICH Time Offset	720
9.2.3.48a	E-HICH Time Offset LCR	721
9.2.3.49	E-DCH HARQ Power Offset TDD	721
9.2.3.49a	E-DCH MAC-d Flow Retransmission Timer	721
9.2.3.50	E-DCH Non-scheduled Grant Information 7.68Mcps TDD	721
9.2.3.51	E-DCH TDD Information 7.68Mcps	721
9.2.3.52	E-DCH TDD Information Response 7.68Mcps	722
9.2.3.53	E-DCH TDD Maximum Bitrate 7.68Mcps	722
9.2.3.54	E-DCH Physical Layer Category LCR	723
9.2.3.54A	Extended E-DCH Physical Layer Category LCR	723
9.2.3.54B	Multi-Carrier E-DCH Physical Layer Category LCR	723
9.2.3.55	UpPCH Information LCR	723
9.2.3.56	UpPCH Position LCR	723
9.2.3.57	Common E-DCH MAC-d Flow ID	723
9.2.3.58	Common E-DCH MAC-d Flow Specific Information LCR	724
9.2.3.59	MAC-es Maximum Bit Rate LCR	724
9.2.3.60	Idle Interval Information	724
9.2.3.61	Continuous Packet Connectivity DRX Information LCR	725
9.2.3.62	Continuous Packet Connectivity DRX Information To Modify LCR	725
9.2.3.63	Continuous Packet Connectivity DRX Information Response LCR	726
9.2.3.64	HS-DSCH Semi-Persistent scheduling Information LCR	727
9.2.3.65	HS-DSCH Semi-Persistent scheduling Information to modify LCR	728
9.2.3.66	E-DCH Semi-Persistent scheduling Information LCR	729
9.2.3.67	E-DCH Semi-Persistent scheduling Information to modify LCR	730
9.2.3.68	HS-DSCH Semi-Persistent scheduling Information Response LCR	731
9.2.3.69	E-DCH Semi-Persistent scheduling Information Response LCR	732
9.2.3.70	HS-DSCH Semi-Persistent scheduling Deactivate Indicator LCR	733
9.2.3.71	E-DCH Semi-Persistent scheduling Deactivate Indicator LCR	733
9.2.3.72	HS-SICH Reference Signal Information	733
9.2.3.73	Cell Portion LCR ID	733
9.2.3.74	TS0 HS-PDSCH Indication LCR	734
9.2.3.75	DCH Measurement Occasion Information	734
9.2.3.76	DCH Measurement Type Indicator	735
9.2.3.77	Multi-Carrier E-DCH Information LCR	736
9.2.3.78	Multi-Carrier E-DCH Information Response LCR	737
9.2.3.79	Multi-Carrier E-DCH Transport Bearer Mode LCR	737
9.2.3.80	Cell Capability Container Extension TDD LCR	737
9.2.3.81	MU-MIMO Information	738
9.2.3.82	MU-MIMO Indicator	739
9.2.3.83	M2 Report	739
9.2.3.84	UE RF Band Capability LCR	739
9.3	Message and Information Element Abstract Syntax (with ASN.1)	740
9.3.0	General	740
9.3.1	Usage of Private Message Mechanism for Non-standard Use	740
9.3.2	Elementary Procedure Definitions	740
9.3.3	PDU Definitions	756
9.3.4	Information Element Definitions	938
9.3.5	Common Definitions	1177
9.3.6	Constant Definitions	1178
9.3.7	Container Definitions	1199
9.4	Message Transfer Syntax	1204
9.5	Timers	1204
10	Handling of Unknown, Unforeseen and Erroneous Protocol Data	1204
10.1	General	1204
10.2	Transfer Syntax Error	1204
10.3	Abstract Syntax Error	1205
10.3.1	General	1205
10.3.2	Criticality Information	1205
10.3.3	Presence Information	1206
10.3.4	Not Comprehended IE/IE Group	1206
10.3.4.1	Procedure ID	1206
10.3.4.1A	Type of Message	1206
10.3.4.2	IEs Other Than the Procedure ID and Type of Message	1206
10.3.5	Missing IE or IE Group	1208
10.3.6	IEs or IE Groups Received in Wrong Order or With Too Many Occurrences or Erroneously Present	1209
10.4	Logical Error	1209
10.5	Exceptions	1210
Annex A (normative):	Allocation and Pre-emption of Radio Links in the DRNS	1211
A.1	Deriving Allocation Information for a Radio Link	1211
A.1.1	Establishment of a New Radio Link	1211
A.1.2	Modification of an Existing Radio Link	1211
A.2	Deriving Retention Information for a Radio Link	1212
A.3	The Allocation/Retention Process	1212
A.4	The Pre-emption Process	1213
Annex B (informative):	Measurement Reporting	1213
Annex C (informative):	Guidelines for Usage of the Criticality Diagnostics IE	1218
C.1	EXAMPLE MESSAGE Layout	1218
C.2	Example on a Received EXAMPLE MESSAGE	1219
C.3	Content of Criticality Diagnostics	1220
C.3.1	Example 1	1220
C.3.2	Example 2	1221
C.3.3	Example 3	1222
C.3.4	Example 4	1223
C.3.5	Example 5	1224
C.4	ASN.1 of EXAMPLE MESSAGE	1224
Annex D (normative):	DRNS Behaviour at SRNC or RNSAP Signalling Bearer Failure	1227
D.1	Detection of SRNC or RNSAP Signalling Bearer/Connection Failure	1227
D.1.1	Termination of all UE Contexts Related to a Specific SRNC	1227
D.1.2	Termination of Specific UE Context	1227
D.2	DRNC Actions at UE Context Termination	1227
Annex E (informative):	Change History	1228

Foreword
This Technical Specification (TS) 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 network layer signalling procedures of the control plane between RNCs in UTRAN, between RNC in UTRAN and BSS in GERAN Iu mode and between BSSs in GERAN Iu mode.
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 TS 23.003: "Numbering, addressing and identification".
[2]	3GPP TS 25.413: "UTRAN Iu Interface RANAP Signalling".
[3]	3GPP TS 25.426: "UTRAN Iur and Iub Interface Data Transport & Transport Layer Signalling for DCH Data Streams".
[4]	3GPP TS 25.427: "UTRAN Iur and Iub Interface User Plane Protocols for DCH Data Streams".
[5]	3GPP TS 25.435: "UTRAN Iub interface User Plane Protocols for Common Transport Channel Data Streams".
[6]	3GPP TS 25.104: "UTRA (BS) FDD; Radio transmission and Reception".
[7]	3GPP TS 25.105: "UTRA (BS) TDD; Radio Transmission and Reception".
[8]	3GPP TS 25.211: "Physical Channels and Mapping of Transport Channels onto Physical Channels (FDD)".
[9]	3GPP TS 25.212: "Multiplexing and Channel Coding (FDD)".
[10]	3GPP TS 25.214: "Physical Layer Procedures (FDD)".
[11]	3GPP TS 25.215: "Physical Layer – Measurements (FDD)".
[12]	3GPP TS 25.221: "Physical Channels and Mapping of Transport Channels onto Physical Channels (TDD)".
[13]	3GPP TS 25.223: "Spreading and Modulation (TDD)".
[14]	3GPP TS 25.225: "Physical Layer – Measurements (TDD)".
[15]	3GPP TS 25.304: "UE Procedures in Idle Mode".
[16]	3GPP TS 25.331: "RRC Protocol Specification".
[17]	3GPP TS 25.402: "Synchronisation in UTRAN, Stage 2".
[18]	ITU-T Recommendation X.680 (2002-07): "Information technology – Abstract Syntax Notation One (ASN.1): Specification of basic notation".
[19]	ITU-T Recommendation X.681 (2002-07): "Information technology – Abstract Syntax Notation One (ASN.1): Information object specification".
[20]	ITU-T Recommendation X.691 (2002-07): "Information technology – ASN.1 encoding rules – Specification of Packed Encoding Rules (PER)".
[21]	3GPP TS 25.213: "Spreading and modulation (FDD)".
[22]	3GPP TS 25.224: "Physical Layer Procedures (TDD)".
[23]	3GPP TS 25.133: "Requirements for support of Radio Resource management (FDD)".
[24]	3GPP TS 25.123: "Requirements for support of Radio Resource management (TDD)".
[25]	3GPP TS 23.032: "Universal Graphical Area Description (GAD)".
[26]	3GPP TS 25.302: "Services Provided by the Physical Layer".
[27]	3GPP TS 25.213: "Spreading and modulation (FDD)".
[28]	3GPP TR 25.921 (version.7.0.0): "Guidelines and Principles for Protocol Description and Error Handling".
[29]	Void
[30]	ICD-GPS-200: "Navstar GPS Space Segment/Navigation User Interface".
[31]	RTCM-SC104: "RTCM Recommended Standards for Differential GNSS Service (v.2.2)".
[32]	3GPP TS 25.425: "UTRAN Iur and Iub Interface User Plane Protocols for Common Transport Channel data streams".
[33]	IETF RFC 2460 (1998-12): "Internet Protocol, Version 6 (Ipv6) Specification".
[34]	IETF RFC 768 (1980-08): "User Datagram Protocol".
[35]	3GPP TS 25.424: "UTRAN Iur Interface Data Transport & Transport Signalling for Common Transport Channel Data Streams".
[36]	Void.
[37]	Void
[38]	3GPP TS 48.008: "Mobile-services Switching Centre – Base Station System (MSC – BSS) interface; Layer 3 specification".
[39]	3GPP TS 43.051: "GSM/EGDE Radio Access Network; Overall description – Stage 2".
[40]	3GPP TS 25.401: "UTRAN Overall Description".
[41]	3GPP TS 25.321: "MAC protocol specification”.
[42]	3GPP TS 25.306: "UE Radio Access capabilities".
[43]	3GPP TS 25.101: "User Equipment (UE) radio transmission and reception (FDD) ".
[44]	IETF RFC 2474 (1998-12): "Definition of the Differentiated Services Field (DS Field) in the Ipv4 and Ipv6 Headers".
[45]	IETF RFC 2475 (1998-12): "An Architecture for Differentiated Services".
[46]	3GPP TS 25.222: "Multiplexing and Channel Coding (TDD) ".
[47]	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".
[48]	3GPP TS 32.421: "Subscriber and equipment trace: Trace concepts and requirements".
[49]	3GPP TS 32.422: "Subscriber and equipment trace: Trace control and Configuration Management".
[50]	3GPP TS 25.346: "Introduction of the Multimedia Broadcast Multicast Service (MBMS) in the Radio Access Network (Stage-2)".
[51]	3GPP TS 23.246: "Multimedia Broadcast Multicast Service; Architecture and Functional Description".
[52]	3GPP TS 25.319: "Enhanced Uplink; Overall description; Stage 2".
[53]	Galileo OS Signal in Space ICD (OS SIS ICD), Issue 1.2. February 2014, European Union.
[54]	3GPP TS 23.251: "Network Sharing: Architecture and functional description".
[55]	IS-GPS-200, Revision D, Navstar GPS Space Segment/Navigation User Interfaces, March 7th, 2006.
[56]	IS-GPS-705, Navstar GPS Space Segment/User Segment L5 Interfaces, September 22, 2005.
[57]	IS-GPS-800, Navstar GPS Space Segment/User Segment L1C Interfaces, March 31, 2008.
[58]	Specification for the Wide Area Augmentation System (WAAS), US Department of Transportation, Federal Aviation Administration, DTFA01-96-C-00025, 2001.
[59]	IS-QZSS, Quasi Zenith Satellite System Navigation Service Interface Specifications for QZSS, Ver.1.0, June 17, 2008.
[60]	Global Navigation Satellite System GLONASS Interface Control Document, Version 5, 2002.
[61]	3GPP TS 36.401: "Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Architecture Description".
[62]	3GPP TS 36.104: "Base Station (BS) radio transmission and reception".
[63]	3GPP TS 25.308: "High Speed Downlink Packet Access (HSDPA); Overall description; Stage 2".
[64]	3GPP TS 36.133: "Requirements for support of radio resource management".
[65]	3GPP TS 23.195: "Provision of UE Specific Behaviour Information to Network Entities".
[66]	3GPP TS 24.008: "Mobile radio interface Layer 3 specification; Core network protocols; Stage 3".
[67]	3GPP TS 44.108: "Mobile radio interface layer 3 specification; Radio Resource Control (RRC) protocol".
[68]	3GPP TS 25.422: "UTRAN Iur interface signalling transport".
[69]	3GPP TS 45.005: "Technical Specification Group GSM/EDGE Radio Access Network; Radio transmission and reception".
[70]	BDS-SIS-ICD-2.0: "BeiDou Navigation Satellite System Signal In Space Interface Control Document Open Service Signal (Version 2.0)", December 2013.
[71]	3GPP TS 25.300: "Universal Terrestrial Radio Access Network (UTRAN); General description; Stage 2".
[72]	3GPP TS 36.101: "User Equipment (UE) radio transmission and reception".
3	Definitions, Symbols and Abbreviations
3.1	Definitions
For the purposes of the present document, the following terms and definitions apply:
Elementary Procedure: RNSAP protocol consists of Elementary Procedures (Eps). An Elementary Procedure is a unit of interaction between two RNCs. An EP consists of an initiating message and possibly a response message. Two kinds of Eps are used:
-	Class 1: Elementary Procedures with response (success or failure);
-	Class 2: Elementary Procedures without response.
For Class 1 Eps, the types of responses can be as follows:
Successful
-	A signalling message explicitly indicates that the elementary procedure has been successfully completed with the receipt of the response.
Unsuccessful
-	A signalling message explicitly indicates that the EP failed.
Class 2 Eps are considered always successful.
Prepared Reconfiguration: A Prepared Reconfiguration exists when the Synchronised Radio Link Reconfiguration Preparation procedure has been completed successfully. The Prepared Reconfiguration does not exist anymore only after either of the procedures Synchronised Radio Link Reconfiguration Commit or Synchronised Radio Link Reconfiguration Cancellation has been completed. In particular, the Prepared Reconfiguration still exists if the object (e.g. Radio Link) concerned by the Synchronised Radio Link Reconfiguration (e.g. in the case of an HS-DSCH Setup) is removed, but the UE Context still exists.
UE Context: The UE Context contains the necessary information for the DRNC/DBSS to communicate with a specific UE. The UE Context is created by the Radio Link Setup procedure or by the Uplink Signalling Transfer procedure when the UE makes its first access in a cell controlled by the DRNS/DBSS or by Enhanced Relocation procedure when the procedure is the first dedicated RNSAP procedure for the UE. The UE Context is deleted by the Radio Link Deletion procedure, by the Common Transport Channel Resources Release procedure, or by the Downlink Signalling Transfer procedure when neither any Radio Links nor any common transport channels are established towards the concerned UE. The UE Context is identified by the SCCP Connection for messages using connection oriented mode of the signalling bearer and the D-RNTI for messages using connectionless mode of the signalling bearer, unless specified otherwise in the procedure text.
Distant RNC Context: The Distant RNC context is created by the first Common Measurement Initiation Procedure or Information Exchange Initiation Procedure initiated by one RNC/BSS and requested from another RNC/BSS. The Distant RNC Context is deleted after the Common Measurement Termination, the Common Measurement Failure, the Information Exchange Termination or the Information Exchange Failure procedure when there is no more Common Measurement and no more Information to be provided by the requested RNC/BSS to the requesting RNC/BSS. The Distant RNC Context is identified by a connection oriented signalling bearer (See TS 25.422 [68]) as, for common measurements and information exchange, only the connection oriented mode of the signalling bearer is used.
Signalling radio bearer 2: The signalling radio bearer 2 is used by the UE to access a GERAN cell in order to perform RRC procedures.
UE Link: see definition in TS 25.346 [50].
URA Link: see definition in TS 25.346 [50].
MBMS Bearer Service: see defintion in TS 23.246 [51].
MBMS session: see defintion in TS 25.346 [50].
MBMS session start: see defintion in TS 25.346 [50].
MBMS session stop: see defintion in TS 25.346 [50].
MBMS Selected Services: see defintion in TS 25.346 [50].
PUESBINE feature: as defined in TS 23.195 [65].
3.2	Symbols
Void.
3.3	Abbreviations
For the purposes of the present document, the following abbreviations apply:
A-GPS	Assisted-GPS
ALCAP	Access Link Control Application Part
APN	Access Point Name
ASN.1	Abstract Syntax Notation One
BDS	BeiDou Navigation Satellite System
BER	Bit Error Rate
BLER	Block Error Rate
BSS	Base Station Subsystem
CBSS	Controlling BSS
CCCH	Common Control Channel
CCPCH	Common Control Physical Channel
CCTrCH	Coded Composite Transport Channel
CFN	Connection Frame Number
C-ID	Cell Identifier
CM	Compressed Mode
CN	Core Network
CPICH	Common Pilot Channel
CRNC	Controlling RNC
CLTD	Closed Loop Transmit Diversity
DBDS	Differential BDS
DBSS	Drift BSS
C-RNTI	Cell Radio Network Temporary Identifier
CS	Circuit Switched
CTFC	Calculated Transport Format Combination DCH	Dedicated Channel
DGANSS	Differential GANSS
DGPS	Differential GPS
DL	Downlink
DPC	Downlink Power Control
DPCCH	Dedicated Physical Control Channel
DPCH	Dedicated Physical Channel
DPDCH	Dedicated Physical Data Channel
DRNC	Drift RNC
DRNS	Drift RNS
D-RNTI	Drift Radio Network Temporary Identifier
DRX	Discontinuous Reception
DSCH	Downlink Shared Channel
Ec	Energy in single Code
E-AGCH	E-DCH Absolute Grant Channel
E-DCH	Enhanced UL DCH
E-HICH	E-DCH HARQ Acknowledgement Indicator Channel
E-PUCH	Enhanced Uplink Physical Channel (TDD only)
E-RNTI	E-DCH RNTI
E-RUCCH	E-DCH Random Access Uplink Control Channel (TDD only)
E-TFCI	E-DCH Transport Format Combination Indicator
E-UCCH	E-DCH Uplink Control Channel (TDD only)
E-UTRA	Evolved UTRA
EDSCHPC	Enhanced Downlink Shared Channel Power Control
EGNOS	European Geostationary Navigation Overlay Service
EP	Elementary Procedure
FACH	Forward Access Channel
FDD	Frequency Division Duplex
F-DPCH	Fractional DPCH
FN	Frame Number
FP	Frame Protocol
F-TPICH	Fractional Transmitted Precoding Indicator Channel
GANSS	Galileo and Additional Navigation Satellite Systems
GERAN	GSM EDGE Radio Access Network
GA	Geographical Area
GAGAN	GPS Aided Geo Augmented Navigation
GAI	Geographical Area Identifier
GLONASS	GLObal’naya Navigatsionnaya Sputnikovaya Sistema (Engl.: Global Navigation Satellite System)
GNSS	Global Navigation Satellite System
GPS	Global Positioning System
GRA	GERAN Registration Area
GSM	Global System Mobile
GWCN	Gateway Core Network
HSDPA	High Speed Downlink Packet Access
HW	Hardware
IB	Information Block
ICD	Interface Control Document
ID	Identity or Identifier
IE	Information Element
IMSI	International Mobile Subscriber Identity
IP	Internet Protocol
IPDL	Idle Period DownLink
ISCP	Interference Signal Code Power
LAC	Location Area Code
LCR	Low Chip Rate (1.28 Mcps)
LCS	Location Services
MAC	Medium Access Control
MBMS	Multimedia Broadcast Multicast Service
MDT	Minimization of Drive Tests
MOCN	Multi-Operator Core Network
MRNC	MBMS Master RNC
MS	Mobile Station
MSAS	Multi-functional Satellite Augmentation System
NACC	Network Assissted Cell Change
NAICS	Network Assisted Interference Cancellation and Suppression
NAS	Non Access Stratum
No	Reference Noise
NRT	Non Real Time
O&M	Operation and Maintenance
P(-)CCPCH	Primary CCPCH
PCH	Paging Channel
OTD	Observed Time Difference
P(-)CPICH	Primary CPICH
PCS	Personal Communication Services
PDSCH	Physical Downlink Shared Channel
PDU	Protocol Data Unit
PhCH	Physical Channel
PICH	Paging Indication Channel
PLCCH	Physical Layer Common Control Channel
Pos	Position or Positioning
PRACH	Physical Random Access Channel
PTP	Point To Point
PTM	Point To Multipoint
PS	Packet Switched
PUESBINE	Provision of UE Specific Behaviour Information to Network Entities
QE	Quality Estimate
QZSS	Quasi-Zenith Satellite System
RAC	Routing Area Code
RACH	Random Access Channel
RAN	Radio Access Network
RANAP	Radio Access Network Application Part
RB	Radio Bearer
RL	Radio Link
RLC	Radio Link Control
RLS	Radio Link Set
RM	Rate Matching
RNC	Radio Network Controller
RNS	Radio Network Subsystem
RNSAP	Radio Network Subsystem Application Part
RNTI	Radio Network Temporary Identifier
RRC	Radio Resource Control
RT	Real Time
RSCP	Received Signal Code Power
SBAS	Satellite Based Augmentation System
SBSS	Serving BSS
Rx	Receive or Reception
Sat	Satellite
SCCP	Signalling Connection Control Part
S(-)CCPCH	Secondary CCPCH
SCH	Synchronisation Channel
SCTD	Space Code Transmit Diversity
S-DPCCH	Secondary Dedicated Physical Control Channel
SDU	Service Data Unit
SF	System Frame
SFN	System Frame Number
SHCCH	Shared Control Channel
SIR	Signal-to-Interference Ratio
SNA	Shared Network Area
SRB2	Signalling radio bearer 2
SRNC	Serving RNC
SRNS	Serving RNS
S-RNTI	Serving Radio Network Temporary Identifier
STTD	Space Time Transmit Diversity
TDD	Time Division Duplex
TF	Transport Format
TFCI	Transport Format Combination Indicator
TFCS	Transport Format Combination Set
TFS	Transport Format Set
TGCFN	Transmission Gap Connection Frame Number
TMGI	Temporary Mobile Group Identity
ToAWE	Time of Arrival Window Endpoint
ToAWS	Time of Arrival Window Startpoint
TPC	Transmit Power Control
TrCH	Transport Channel
TS	Time Slot
TSG	Technical Specification Group
TSTD	Time Switched Transmit Diversity
TTI	Transmission Time Interval
TX	Transmit or Transmission
UARFCN	UTRA Absolute Radio Frequency Channel Number
UDP	User Datagram Protocol
UC-ID	UTRAN Cell Identifier
UE	User Equipment
UL	Uplink
UMTS	Universal Mobile Telecommunications System
URA	UTRAN Registration Area
U-RNTI	UTRAN Radio Network Temporary Identifier
USCH	Uplink Shared Channel
UTC	Universal Coordinated Time
UTRA	Universal Terrestrial Radio Access
UTRAN	Universal Terrestrial Radio Access Network
WAAS	Wide Area Augmentation System
4	General
4.1	Procedure Specification Principles
The principle for specifying the procedure logic is to specify the functional behaviour of the DRNC/CRNC exactly and completely. The SRNC functional behaviour is left unspecified. The Physical Channel Reconfiguration procedure, [TDD – the UE Measurement Inititation, the UE Measurement Reporting, UE Measurement Termination, UE Measurement Failure,] and the Reset procedure are an exception from this principle.
The following specification principles have been applied for the procedure text in subclause 8:
-	The procedure text discriminates between:
1)	Functionality which “shall” be executed
	The procedure text indicates that the receiving node “shall” perform a certain function Y under a certain condition. If the receiving node supports procedure X but cannot perform functionality Y requested in the REQUEST message of a Class 1 EP, the receiving node shall respond with the message used to report unsuccessful outcome for this procedure, containing an appropriate cause value.
2)	Functionality which “shall, if supported” be executed
	The procedure text indicates that the receiving node “shall, if supported,” perform a certain function Y under a certain condition. If the receiving node supports procedure X, but does not support functionality Y, the receiving node shall proceed with the execution of the EP, possibly informing the requesting node about the not supported functionality.
Any required inclusion of an optional IE in a response message is explicitly indicated in the procedure text. If the procedure text does not explicitly indicate that an optional IE shall be included in a response message, the optional IE shall not be included. For requirements for including Criticality Diagnostics IE, see section 10. For examples on how to use the Criticality Diagnostics IE, see Annex C.
4.2	Forwards and Backwards Compatibility
The forwards and backwards compatibility of the protocol is assured by a mechanism in which all current and future messages, and IEs or groups of related IEs, include ID and criticality fields that are coded in a standard format that will not be changed in the future. These parts can always be decoded regardless of the standard version.
4.3	Source Signalling Address Handling
The sender of an RNSAP messages shall include the Source Signalling Address, i.e. the Signalling Address of the sending node.
4.4	Specification Notations
For the purposes of the present document, the following notations apply:
[FDD]	This tagging of a word indicates that the word preceding the tag “[FDD]” applies only to FDD. This tagging of a heading indicates that the heading preceding the tag “[FDD]” and the section following the heading applies only to FDD.
[TDD]	This tagging of a word indicates that the word preceding the tag “[TDD]” applies only to TDD, including 3.84Mcps TDD, 7.68Mcps TDD and 1.28Mcps TDD. This tagging of a heading indicates that the heading preceding the tag “[TDD]” and the section following the heading applies only to TDD, including 3.84Mcps TDD, 7.68Mcps TDD and 1.28Mcps TDD.
[3.84Mcps TDD]	This tagging of a word indicates that the word preceding the tag “[3.84Mcps TDD]” applies only to 3.84Mcps TDD. This tagging of a heading indicates that the heading preceding the tag “[3.84Mcps TDD]” and the section following the heading applies only to 3.84Mcps TDD.
[1.28Mcps TDD]	This tagging of a word indicates that the word preceding the tag “[1.28Mcps TDD]” applies only to 1.28Mcps TDD. This tagging of a heading indicates that the heading preceding the tag “[1.28Mcps TDD]” and the section following the heading applies only to 1.28Mcps TDD.
[7.68Mcps TDD]	This tagging of a word indicates that the word preceding the tag “[7.68Mcps TDD]” applies only to 7.68Mcps TDD. This tagging of a heading indicates that the heading preceding the tag “[7.68Mcps TDD]” and the section following the heading applies only to 7.68Mcps TDD.
[FDD - …]	This tagging indicates that the enclosed text following the “[FDD – “ applies only to FDD. Multiple sequential paragraphs applying only to FDD are enclosed separately to enable insertion of TDD specific (or common) paragraphs between the FDD specific paragraphs.
[TDD - …]	This tagging indicates that the enclosed text following the “[TDD – “ applies only to TDD including 3.84Mcps TDD, 7.68Mcps TDD and 1.28Mcps TDD. Multiple sequential paragraphs applying only to TDD are enclosed separately to enable insertion of FDD specific (or common) paragraphs between the TDD specific paragraphs.
[3.84Mcps TDD - …]	This tagging indicates that the enclosed text following the “[3.84Mcps TDD – “ applies only to 3.84Mcps TDD. Multiple sequential paragraphs applying only to 3.84Mcps TDD are enclosed separately to enable insertion of FDD and TDD specific (or common) paragraphs between the 3.84Mcps TDD specific paragraphs.
[1.28Mcps TDD - …]	This tagging indicates that the enclosed text following the “[1.28Mcps TDD – “ applies only to 1.28Mcps TDD. Multiple sequential paragraphs applying only to 1.28Mcps TDD are enclosed separately to enable insertion of FDD and TDD specific (or common) paragraphs between the 1.28Mcps TDD specific paragraphs.
[7.68Mcps TDD - …]	This tagging indicates that the enclosed text following the “[7.68Mcps TDD – “ applies only to 7.68Mcps TDD. Multiple sequential paragraphs applying only to 7.68Mcps TDD are enclosed separately to enable insertion of FDD and TDD specific (or common) paragraphs between the 7.68Mcps TDD specific paragraphs.
Procedure	When referring to an elementary procedure in the specification, the Procedure Name is written with the first letters in each word in upper case characters followed by the word “procedure”, e.g. Radio Link Setup procedure.
Message	When referring to a message in the specification, the MESSAGE NAME is written with all letters in upper case characters followed by the word “message”, e.g. RADIO LINK SETUP REQUEST message.
IE	When referring to an information element (IE) in the specification, the Information Element Name is written with the first letters in each word in upper case characters and all letters in Italic font followed by the abbreviation “IE”, e.g. Transport Format Set IE.
Value of an IE	When referring to the value of an information element (IE) in the specification, the “Value” is written as it is specified in subclause 9.2 enclosed by quotation marks, e.g. “Abstract Syntax Error (Reject)”.
5	RNSAP Services
5.1	RNSAP Procedure Modules
The Iur interface RNSAP procedures are divided into five modules as follows:
1.	RNSAP Basic Mobility Procedures;
2.	RNSAP Dedicated Procedures;
3.	RNSAP Common Transport Channel Procedures;
4.	RNSAP Global Procedures;
5.	RNSAP MBMS Procedures.
The Basic Mobility Procedures module contains procedures used to handle the mobility within UTRAN, within GERAN and between UTRAN and GERAN.
The Dedicated Procedures module contains procedures that are used to handle DCHs, [FDD – F-DPCH,] [TDD – DSCHs, USCHs], HS-DSCH and E-DCH between two RNSs. If procedures from this module are not used in a specific Iur, then the usage of DCH, [FDD – F-DPCH,] [TDD – DSCH, USCH,] HS-DSCH and E-DCH traffic between corresponding RNSs is not possible.
The Common Transport Channel Procedures module contains procedures that are used to control common transport channel data streams (excluding the DSCH, HS-DSCH and USCH) over Iur interface.
The Global Procedures module contains procedures that are not related to a specific UE. The procedures in this module are in contrast to the above modules involving two peer CRNCs/CBSSs.
The MBMS Procedures module contains procedures that are specific to MBMS and used for cases that cannot be handled by other modules.
5.2	Parallel Transactions
Unless explicitly indicated in the procedure specification, at any instance in time one protocol peer shall have a maximum of one ongoing RNSAP Dedicated procedure related to a certain UE.
6	Services Expected from Signalling Transport
The signalling transport shall provide two different service modes for the RNSAP.
1.	Connection oriented data transfer service. This service is supported by a signalling connection between two RNCs. It shall be possible to dynamically establish and release signalling connections based on the need. Each active UE shall have its own signalling connection. The signalling connection shall provide in sequence delivery of RNSAP messages. RNSAP shall be notified if the signalling connection breaks.
2.	Connectionless data transfer service. RNSAP shall be notified in case a RNSAP message did not reach the intended peer RNSAP entity.
7	Functions of RNSAP
The RNSAP protocol provides the following functions:
-	Radio Link Management. This function allows the SRNC to manage radio links using dedicated resources in a DRNS;
-	Physical Channel Reconfiguration. This function allows the DRNC to reallocate the physical channel resources for a Radio Link;
-	Radio Link Supervision. This function allows the DRNC to report failures and restorations of a Radio Link;
-	Compressed Mode Control [FDD]. This function allows the SRNC to control the usage of compressed mode within a DRNS;
-	Measurements on Dedicated Resources. This function allows the SRNC to initiate measurements on dedicated resources in the DRNS. The function also allows the DRNC to report the result of the measurements;
-	DL Power Drifting Correction [FDD]. This function allows the SRNC to adjust the DL power level of one or more Radio Links in order to avoid DL power drifting between the Radio Links;
-	DCH Rate Control. This function allows the DRNC to limit the rate of each DCH configured for the Radio Link(s) of a UE in order to avoid congestion situations in a cell;
-	CCCH Signalling Transfer. This function allows the SRNC and DRNC to pass information between the UE and the SRNC on a CCCH controlled by the DRNS;
-	GERAN Signalling Transfer. This function allows the SBSS and DBSS, the SRNC and DBSS or the SBSS and DRNC to pass information between the UE/MS and the SRNC/SBSS on an SRB2/CCCH controlled by the DBSS/DRNC;
-	Paging. This function allows the SRNC/SBSS to page a UE in a URA/GRA or a cell in the DRNS;
-	Common Transport Channel Resources Management. This function allows the SRNC to utilise Common Transport Channel Resources within the DRNS;
-	Relocation Execution. This function allows the SRNC/SBSS to finalise a Relocation previously prepared via other interfaces;
-	Reporting of General Error Situations. This function allows reporting of general error situations, for which function specific error messages have not been defined;
-	DL Power Timeslot Correction [TDD]. This function enables the DRNS to apply an individual offset to the transmission power in each timeslot according to the downlink interference level at the UE;
-	Measurements on Common Resources. This function allows an RNC/BSS to request from another RNC/BSS to initiate measurements on Common Resources. The function also allows the requested RNC/BSS to report the result of the measurements;
-	Information Exchange. This function allows an RNC to request from another RNC the transfer of information. The function also allows the requested RNC to report the requested information;
-	Resetting the Iur. This function is used to completely or partly reset the Iur interface; 
-	UE Measurement Forwarding[TDD]. This function allows the DRNC to request and receive UE measurements from the SRNC;
-	Tracing. This function allows the SRNC to activate or deactivate trace in a DRNC;.
-	MBMS UE Linking/De-linking. This function allows the SRNC to provide/update/remove the UE Link to/in/from the DRNC;
-	MBMS URA Linking/De-linking. This function allows the SRNC to provide/update/remove the URA Link to/in/from the DRNC;
-	MBMS Channel Type Indication. This function allows the DRNC to indicate to the SRNC the selected channel type for an MBMS bearer service within certain cells in the DRNS;
-	MBMS Preferred Frequency Layer Indication. This function allows the DRNC to indicate to the SRNC the preferred frequency layer for an MBMS bearer service within certain cells in the DRNS;
-	MBMS MCCH Information Control. This function allows an MRNC to distribute the MCCH Information to CRNC within the MBSFN cluster;
-	Direct Information Transfer. This function allows an RNC to transfer information to another RNC; 
-	Relocating serving RNC. This function enables to change the serving RNC functionality as well as the related Iu resources (RAB(s) and Signalling connection) from one RNC to another;
-	Exchanging information about the secondary UL frequency. This function allows the SRNC to transfer information about the secondary UL frequency to the DRNS and the DRNS to transfer information about the secondary UL frequency to SRNC in Dual-Cell E-DCH operation;
-	Radio Resource Reserve Handover [1.28Mcps TDD]. This function allows the SRNC to request allocation of radio resources in the target BSS prior to the HANDOVER REQUEST message is received from the Core Network;
-	Automatic Neighbour Relation Management: This function enables RNC to distribute ANR reports, configure ANR neighbour relations, and control the ANR report distribution.
The mapping between the above functions and RNSAP elementary procedures is shown in the Table 1.
Table 1: Mapping between functions and RNSAP elementary procedures
Function
Elementary Procedure(s)
Radio Link Management
a) Radio Link Setup 
b) Radio Link Addition 
c) Radio Link Deletion
d) Unsynchronised Radio Link Reconfiguration
e) Synchronised Radio Link Reconfiguration Preparation
f) Synchronised Radio Link Reconfiguration Commit
g) Synchronised Radio Link Reconfiguration Cancellation
h) Radio Link Pre-emptioni) Radio Link Activation
j) Radio Link Parameter Update
Physical Channel Reconfiguration
Physical Channel Reconfiguration
Radio Link Supervision
a) Radio Link Failure
b) Radio Link Restoration
Compressed Mode Control [FDD]
a) Radio Link Setup 
b) Radio Link Addition
c) Compressed Mode Command
d) Unsynchronised Radio Link Reconfiguration
e) Synchronised Radio Link Reconfiguration Preparation
f) Synchronised Radio Link Reconfiguration Commit
g) Synchronised Radio Link Reconfiguration Cancellation
Measurements on Dedicated Resources
a) Dedicated Measurement Initiation
b) Dedicated Measurement Reporting
c) Dedicated Measurement Termination
d) Dedicated Measurement Failure
DL Power Drifting Correction [FDD]
Downlink Power Control
DCH Rate Control
a) Radio Link Setup 
b) Radio Link Addition
c) Unsynchronised Radio Link Reconfiguration
d) Synchronised Radio Link Reconfiguration Preparation
e) Radio Link Congestion
CCCH Signalling Transfer
a) Uplink Signalling Transfer
b) Downlink Signalling Transfer
GERAN Signalling Transfer
a) GERAN Uplink Signalling Transfer
b) Downlink Signalling Transfer
Paging
Paging
Common Transport Channel Resources Management
a) Common Transport Channel Resources Initiation
b) Common Transport Channel Resources Release
Relocation Execution
Relocation Commit
Reporting of General Error Situations
Error Indication
Measurements on Common Resources
a) Common Measurement Initiation
b) Common Measurement Reporting
c) Common Measurement Termination
d) Common Measurement Failure
Information Exchange
a) Information Exchange Initiation
b) Information Reporting
c) Information Exchange Termination
d) Information Exchange Failure
DL Power Timeslot Correction [TDD]
Downlink Power Timeslot Control
Reset
Reset
UE Measurement Forwarding[TDD]
a) UE Measurement Initiation
b) UE Measurement Reporting
c) UE Measurement Termination
d) UE Measurement Failure
Trace
a) Iur Invoke Trace
b) Iur Deactivate Trace
MBMS UE Linking/De-linking
a) Common Transport Channel Resources Initiation
b) Radio Link Setup
c) Downlink Signalling Transfer
d) MBMS Attach
e) MBMS Detach
MBMS Channel Type Indication
a) Direct Information Transfer
b) Uplink Signalling Transfer
c) Radio Link Setup
d) Radio Link Addition
e) Common Transport Channel Resources Initiation
MBMS Preferred Frequency Layer Indication
a) Direct Information Transfer
b) Radio Link Setup
d) Radio Link Addition
MBMS URA Linking/De-linking
a) Downlink Signalling Transfer
b) MBMS Attach
c) MBMS Detach
MBMS MCCH Information Control
a) MBSFN MCCH Information
Direct Information Transfer
a) Direct Information Transfer
Relocating serving RNC
a) Enhanced Relocation
b) Enhanced Relocation Cancel
c) Enhanced Relocation Signalling Transfer
d) Enhanced Relocation Release
Exchanging information about the secondary UL frequency [FDD]
a) Secondary UL Frequency Reporting
b) Secondary UL Frequency Update
Radio Resource Reserve Handover [1.28Mcps TDD]
a) Enhanced Relocation Resource Allocation
b) Enhanced Relocation Resource Release
Automatic Neighbour Relation Management
a) Direct Information Transfer
b) Information Exchange Initiation
c) Information Reporting
d) Information Exchange Termination
e) Information Exchange Failure
f) Information Transfer Control

7.1	RNSAP functions and elementary procedures for Iur-g.
The functions and RNSAP elementary procedures, which are applicable on the Iur-g interface are shown in the Table 1A.
Table 1A: RNSAP elementary procedures applicable on the Iur-g interface
Function
Elementary Procedure(s)
GERAN Signalling Transfer
a) GERAN Uplink Signalling Transfer
b) Downlink Signalling Transfer
Paging
Paging
Relocation Execution
Relocation Commit
Reporting of General Error Situations
Error Indication
Measurements on Common Resources
a) Common Measurement Initiation
b) Common Measurement Reporting
c) Common Measurement Termination
d) Common Measurement Failure
Information Exchange
a) Information Exchange Initiation
b) Information Reporting
c) Information Exchange Termination
d) Information Exchange Failure
Radio Resource Reserve Handover [1.28Mcps TDD]
a) Enhanced Relocation Resource Allocation
b) Enhanced Relocation Resource Release

NOTE:	In the connection with the functions related to the GERAN and UTRAN, the term RNC shall refer to RNC/BSS.
8	RNSAP Procedures
8.1	Elementary Procedures
In the following tables, all Eps are divided into Class 1 and Class 2 Eps.
Table 2: Class 1 Elementary Procedures
Elementary Procedure
Initiating Message
Successful Outcome
Unsuccessful Outcome


Response message
Response message
Radio Link Setup
RADIO LINK SETUP REQUEST
RADIO LINK SETUP RESPONSE
RADIO LINK SETUP FAILURE
Radio Link Addition
RADIO LINK ADDITION REQUEST
RADIO LINK ADDITION RESPONSE
RADIO LINK ADDITION FAILURE
Radio Link Deletion
RADIO LINK DELETION REQUEST
RADIO LINK DELETION RESPONSE

Synchronised Radio Link Reconfiguration Preparation
RADIO LINK RECONFIGURATION PREPARE
RADIO LINK RECONFIGURATION READY
RADIO LINK RECONFIGURATION FAILURE
Unsynchronised Radio Link Reconfiguration
RADIO LINK RECONFIGURATION REQUEST
RADIO LINK RECONFIGURATION RESPONSE
RADIO LINK RECONFIGURATION FAILURE
Physical Channel Reconfiguration
PHYSICAL CHANNEL RECONFIGURATION REQUEST
PHYSICAL CHANNEL RECONFIGURATION COMMAND
PHYSICAL CHANNEL RECONFIGURATION FAILURE
Dedicated Measurement Initiation
DEDICATED MEASUREMENT INITIATION REQUEST
DEDICATED MEASUREMENT INITIATION RESPONSE
DEDICATED MEASUREMENT INITIATION FAILURE
Common Transport Channel Resources Initialisation
COMMON TRANSPORT CHANNEL RESOURCES REQUEST
COMMON TRANSPORT CHANNEL RESOURCES RESPONSE
COMMON TRANSPORT CHANNEL RESOURCES FAILURE
Common Measurement Initiation
COMMON MEASUREMENT INITIATION REQUEST
COMMON MEASUREMENT INITIATION RESPONSE
COMMON MEASUREMENT INITIATION FAILURE
Information Exchange Initiation
INFORMATION EXCHANGE INITIATION REQUEST
INFORMATION EXCHANGE INITIATION RESPONSE
INFORMATION EXCHANGE INITIATION FAILURE
Reset
RESET REQUEST
RESET RESPONSE

UE Measurement Initiation[TDD]
UE MEASUREMENT INITIATION REQUEST
UE MEASUREMENT INITIATION RESPONSE
UE MEASUREMENT INITIATION FAILURE
Enhanced Relocation
ENHANCED RELOCATION REQUEST
ENHANCED RELOCATION RESPONSE
ENHANCED RELOCATION FAILURE
Enhanced Relocation Resource Allocation[1.28Mcps TDD]
ENHANCED RELOCATION RESOURCE REQUEST
ENHANCED RELOCATION RESOURCE RESPONSE
ENHANCED RELOCATION RESOURCE FAILURE
Enhanced Relocation Resource Release[1.28Mcps TDD]
ENHANCED RELOCATION RESOURCE RELEASE COMMAND
ENHANCED RELOCATION RESOURCE RELEASE COMPLETE


Table 3: Class 2 Elementary Procedures
Elementary Procedure
Initiating Message
Uplink Signalling Transfer
UPLINK SIGNALLING TRANSFER INDICATION
GERAN Uplink Signalling Transfer
GERAN UPLINK SIGNALLING TRANSFER INDICATION
Downlink Signalling Transfer
DOWNLINK SIGNALLING TRANSFER REQUEST
Relocation Commit
RELOCATION COMMIT
Paging
PAGING REQUEST
Synchronised Radio Link Reconfiguration Commit
RADIO LINK RECONFIGURATION COMMIT
Synchronised Radio Link Reconfiguration Cancellation
RADIO LINK RECONFIGURATION CANCEL
Radio Link Failure
RADIO LINK FAILURE INDICATION
Radio Link Restoration
RADIO LINK RESTORE INDICATION
Dedicated Measurement Reporting
DEDICATED MEASUREMENT REPORT
Dedicated Measurement Termination
DEDICATED MEASUREMENT TERMINATION REQUEST
Dedicated Measurement Failure
DEDICATED MEASUREMENT FAILURE INDICATION
Downlink Power Control [FDD]
DL POWER CONTROL REQUEST
Compressed Mode Command [FDD]
COMPRESSED MODE COMMAND
Common Transport Channel Resources Release
COMMON TRANSPORT CHANNEL RESOURCES RELEASE REQUEST
Error Indication
ERROR INDICATION
Downlink Power Timeslot Control [TDD]
DL POWER TIMESLOT CONTROL REQUEST
Radio Link Pre-emption
RADIO LINK PREEMPTION REQUIRED INDICATION
Radio Link Congestion
RADIO LINK CONGESTION INDICATION
Common Measurement Reporting
COMMON MEASUREMENT REPORT
Common Measurement Termination
COMMON MEASUREMENT TERMINATION REQUEST
Common Measurement Failure
COMMON MEASUREMENT FAILURE INDICATION
Information Reporting
INFORMATION REPORT
Information Exchange Termination
INFORMATION EXCHANGE TERMINATION REQUEST
Information Exchange Failure
INFORMATION EXCHANGE FAILURE INDICATION
MBMS Attach
MBMS ATTACH COMMAND
MBMS Detach
MBMS DETACH COMMAND
Radio Link Parameter Update 
RADIO LINK PARAMETER UPDATE INDICATION
UE Measurement Reporting [TDD]
UE MEASUREMENT REPORT
UE Measurement Termination [TDD]
UE MEASUREMENT TERMINATION REQUEST
UE Measurement Failure [TDD]
UE MEASUREMENT FAILURE INDICATION
Iur Invoke Trace
IUR INVOKE TRACE
Iur Deactivate Trace
IUR DEACTIVATE TRACE
Direct Information Transfer
DIRECT INFORMATION TRANSFER
Enhanced Relocation Cancel
ENHANCED RELOCATION CANCEL
Enhanced Relocation Signalling Transfer
ENHANCD RELOCATION SIGNALLING TRANSFER
Enhanced Relocation Release
ENHANCD RELOCATION RELEASE
MBSFN MCCH Information
MBSFN MCCH INFORMATION 
Secondary UL Frequency Reporting [FDD]
SECONDARY UL FREQUENCY REPORT
Secondary UL Frequency Update[FDD]
SECONDARY UL FREQUENCY UPDATE INDICATION
Information Transfer Control
INFORMATION TRANSFER CONTROL REQUEST

8.2	Basic Mobility Procedures
8.2.1	Uplink Signalling Transfer
8.2.1.1	General
The procedure is used by the DRNC to forward a Uu message received on the CCCH to the SRNC.
This procedure shall use the connectionless mode of the signalling bearer.
8.2.1.2	Successful Operation

Figure 1: Uplink Signalling Transfer procedure, Successful Operation
When the DRNC receives an Uu message on the CCCH in which the UE addressing information is U-RNTI, i.e. S-RNTI and SRNC-ID, DRNC shall send the UPLINK SIGNALLING TRANSFER INDICATION message to the SRNC identified by the SRNC-ID received from the UE.
If at least one URA Identity is being broadcast in the cell where the Uu message was received (the accessed cell), the DRNC shall include a URA Identity for this cell in the URA ID IE, the Multiple URAs Indicator IE indicating whether or not multiple URA Identities are being broadcast in the accessed cell, and the RNC Identity of all other RNCs that are having at least one cell within the URA where the Uu message was received in the URA Information IE in the UPLINK SIGNALLING TRANSFER INDICATION message.
The DRNC shall include in the message the C-RNTI that it allocates to identify the UE in the radio interface in the accessed cell. If there is no valid C-RNTI for the UE in the accessed cell, the DRNS shall allocate a new C-RNTI for the UE [FDD – and in case Enhanced FACH operation is activated in the accessed cell the DRNC shall allocate the HS-DSCH-RNTI to the UE and shall include the HS-DSCH-RNTI IE in the message. And in case Common E-DCH operation is activated in the accessed cell the DRNC shall include the E-RNTI received from Node B and shall include the E-RNTI IE in the message]. [1.28Mcps TDD – and in case Enhanced FACH operation is activated in the accessed cell the DRNC shall allocate the HS-DSCH-RNTI to the UE and shall include the HS-DSCH-RNTI IE in the message and the DRNC shall include the E-RNTI received from Node B and shall include the E-RNTI IE in the message]. If the DRNS allocates a new C-RNTI it shall also release any C-RNTI previously allocated for the UE.
If the DRNS has any RACH and/or FACH resources allocated for the UE identified by the U-RNTI in another cell than the accessed cell in which the Mac SDU sizes, flow control settings (including credits) and/or transport bearer are different from those in the old cell, then the DRNS shall not include the Common Transport Channel Resources Initialisation Not Required IE in the UPLINK SIGNALLING TRANSFER INDICATION message. In addition the DRNS shall release these RACH and/or FACH resources in old cell.
If the DRNS has any RACH and/or FACH resources allocated for the UE identified by the U-RNTI in another cell than the accessed cell in which the Mac SDU sizes, flow control settings (including credits) and transport bearer are the same as in the old cell, there is no need for Common Transport Channel Resources Initialisation to be initiated. In that case, DRNC may include the Common Transport Channel Resources Initialisation Not Required IE in the UPLINK SIGNALLING TRANSFER INDICATION message. In addition, the DRNS shall move these RACH and/or FACH resources to the new cell. If no Common Transfer Channel Resources Initialisation procedure is executed, the currently applicable Mac SDU sizes, flow control settings (including credits) and transport bearer shall continue to be used while the UE is in the new cell.
If no context exists for this UE in the DRNC, the DRNC shall create a UE Context for this UE, allocate a D-RNTI for the UE Context, and include the D-RNTI IE and the identifiers for the CN CS Domain and CN PS Domain that the DRNC is connected to in the UPLINK SIGNALLING TRANSFER INDICATION message. These CN Domain Identifiers shall be based on the LAC and RAC respectively of the cell where the message was received from the UE.
Depending on local configuration in the DRNS, it may include the geographical co-ordinates of the cell, represented either by the Cell GAI IE or by the Cell GA Additional Shapes IE, in which the Uu message was received in the UPLINK SIGNALLING TRANSFER INDICATION message. If the DRNC includes the Cell GA Additional Shapes IE in the UPLINK SIGNALLING TRANSFER INDICATION message, it shall also include the Cell GAI IE.
[FDD – The DRNC shall include the DPC Mode Change Support Indicator IE in the UPLINK SIGNALLING TRANSFER INDICATION message if the accessed cell supports DPC mode change.]
The DRNC shall include [FDD – the Cell Capability Container FDD IE] [3.84Mcps TDD – the Cell Capability Container TDD IE] [1.28Mcps TDD – the Cell Capability Container TDD LCR IE] [7.68Mcps TDD – the Cell Capability Container 7.68 Mcps TDD IE] [FDD – and/or the Cell Capability Container Extension FDD IE] in the UPLINK SIGNALLING TRANSFER INDICATION message if the accessed cell supports any functionalities listed in [FDD – 9.2.2.D] [3.84Mcps TDD – 9.2.3.1a] [1.28Mcps TDD – 9.2.3.1b] [7.68Mcps TDD – 9.2.3.31] [FDD – 9.2.2.123]. 
[FDD – If the cell is multicell adjacent and/or non-adjacent carrier operation capable and if the cell can be the serving HS-DSCH then the possible cells to serve multicell adjacent and/or non-adjacent carrier operation (same or adjacent sector in the same Node B) that can act as secondary serving HS-DSCH shall be listed in the Secondary Serving Cell List IE. For each cell in the Secondary Serving Cell List IE that is Multi Cell E-DCH capable, indicated in the Cell Capability Container Extension FDD IE by the Multi Cell E-DCH Support Indicator bit = "1", and is restricted for use as an Additional E-DCH on the secondary uplink frequency with the accessed cell as the corresponding cell of the primary uplink frequency, the DRNS shall, if supported, include the Multicell E-DCH Restriction IE set to "TRUE". If the Secondary Serving Cell List IE is not present, the multicell (adjacent or non-adjacent carrier operation) capable cell can only serve as a secondary serving HS-DSCH cell in single band operation.]
[FDD – If the cell is HS-DSCH dual band capable and if the cell can be the serving HS-DSCH then the possible cells to serve dual band carrier operation (same sector) that can act as secondary serving HS-DSCH shall be listed in the Dual Band Secondary Serving Cell List IE. For each cell in the Dual Band Secondary Serving Cell List IE that is Dual Band E-DCH capable, indicated in the Cell Capability Container FDD IE by the "Dual Band E-DCH Support Indicator" bit = "1", and is restricted for use as an Additional E-DCH on the secondary uplink frequency with the accessed cell as the corresponding cell of the primary uplink frequency, the DRNS shall, if supported, include the Multicell E-DCH Restriction IE set to "TRUE". If the Dual Band Secondary Serving Cell List IE is not present, the dual band capable cell can only serve as a secondary serving HS-DSCH cell in dual band operation.]
If MOCN or GWCN network sharing configuration is used then the DRNC shall include the broadcasted PLMN identities of the concerned cell in the Multiple PLMN List IE in the UPLINK SIGNALLING TRANSFER INDICATION message.
If available, the DRNC shall include the SNA Information IE for the concerned cell.
When receiving the SNA Information IE, the SRNC should use it to restrict cell access based on SNA information. See also TS 25.401 [40] for a broader description of the SNA access control.
[FDD – The DRNC shall include the Cell Portion ID IE in the UPLINK SIGNALLING TRANSFER INDICATION message if available.] 
[1.28 Mcps TDD – The DRNC shall include the Cell Portion LCR ID IE in the UPLINK SIGNALLING TRANSFER INDICATION message if available.]
[FDD – If the propagation delay value exceeds the range of the Propagation Delay IE then the DRNC shall if supported include the Extended Propagation Delay IE and set the Propagation Delay IE to its maximum value.]
If the D-RNTI IE is not to be included in the UPLINK SIGNALLING TRANSFER INDICATION message and the UE Link is currently stored in the UE Context in the DRNC, the DRNC shall assume that the UE changes the cell under which it camps in the DRNS (see TS 25.346 [50], section 5.1.6 on intra-DRNC cell change). In this case, if an MBMS session for some MBMS bearer services contained in the UE Link is ongoing in the cell identified by the UC-ID IE, the DRNC shall include in the Active MBMS Bearer Service List IE the Transmission Mode IE for each of these active MBMS bearer services. Or else, if the DRNC receives a Uu message on the CCCH in which the short identities for MBMS Selected Services are included, and the Uu message requests for MBMS PtP radio bearer establishment, the DRNC shall determine which TMGIs correspond with the short identities and shall include in the Active MBMS Bearer Service List IE the TMGI IE together with the Transmission Mode IE for each of these MBMS Selected Services.
If the CCCH message contains Measurement results for monitored cells on non-used frequencies IE in Measured Result on RACH IE, the DRNC may include in the UPLINK SIGNALLING TRANSFER INDICATION message the Inter-frequency Cell List IE for each of the measured inter-freqeuncy cells. The order of cells in Measurement results for monitored cells on non-used frequencies IE in the CCCH message shall be preserved in Inter-frequency Cell List IE. If the UL UARFCN IE in the Inter-frequency Cell List IE is not present, the default duplex distance defined for the operating frequency band shall be used in the SRNC (see TS 25.101 [43]).
[3.84 Mcps TDD – the DRNC shall include the Rx Timing Deviation IE unless the cell to which the CCCH message was sent is configured to use the extended timing advance in which case Rx Timing Deviation 3.84Mcps Extended IE shall be included.]
[7.68 Mcps TDD – the DRNC shall include the Rx Timing Deviation 7.68Mcps IE.]
8.2.1.3	Abnormal Conditions
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8.2.1A	GERAN Uplink Signalling Transfer
8.2.1A.1	General
The procedure is used by the DBSS to forward an Um message received on the SRB2 to the SBSS/SRNC. The procedure is also used by the DRNC to forward a Uu message received on the CCCH to the SBSS.
This procedure shall use the connectionless mode of the signalling bearer.
8.2.1A.2	Successful Operation

Figure 1A: GERAN Uplink Signalling Transfer procedure, Successful Operation
When the DBSS receives an Um message on the SRB2 in which the MS addressing information is G-RNTI, i.e. S-RNTI and BSC-ID, DBSS shall send the GERAN UPLINK SIGNALLING TRANSFER INDICATION message to the SBSS/SRNC identified by the BSC-ID received from the MS.
Alternatively, when the DRNC receives an Uu message on the CCCH in which the UE addressing information is U-RNTI, i.e. S-RNTI and SRNC-ID, and in which the SRNC-ID points to a GERAN BSS, the DRNC shall send the GERAN UPLINK SIGNALLING TRANSFER INDICATION message to the SBSS identified by SRNC-ID received from the UE.
If at least one GRA/URA Identity is being broadcast in the cell where the Um/Uu message was received (the accessed cell), the DBSS/DRNC shall include a GRA/URA Identity for this cell in the URA ID IE, the Multiple URAs Indicator IE indicating whether or not multiple GRA/URA Identities are being broadcast in the accessed cell, and the RNC/BSS Identity of all other RNC/BSSs that are having at least one cell within the GRA/URA where the Um/Uu message was received in the URA Information IE in the GERAN UPLINK SIGNALLING TRANSFER INDICATION message.
If no context exists for this UE/MS in the DBSS/DRNC, the DBSS/DRNC shall create a UE Context for this UE/MS, allocate a D-RNTI for the UE Context, and include the D-RNTI IE and the identifiers for the CN CS Domain and CN PS Domain that the DBSS/DRNC is connected to in the GERAN UPLINK SIGNALLING TRANSFER INDICATION message. These CN Domain Identifiers shall be based on the LAC and RAC respectively of the cell where the message was received from the UE/MS.
8.2.1A.3	Abnormal Conditions
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8.2.2	Downlink Signalling Transfer
8.2.2.1	General
The procedure is used by the SRNC to request to the DRNC the transfer of a Uu message on the CCCH in a cell. When used, the procedure is in response to a received Uplink Signalling Transfer procedure.
This procedure shall use the connectionless mode of the signalling bearer.
8.2.2.1.1	Downlink Signalling Transfer for Iur-g
The procedure is used by the SRNC/SBSS to request to the DBSS the transfer of an Um message on the SRB2 in a cell.
The procedure is used by the SBSS to request to the DRNC the transfer of a Uu message on the CCCH in a cell.
8.2.2.2	Successful Operation

Figure 2: Downlink Signalling Transfer procedure, Successful Operation
The procedure consists of the DOWNLINK SIGNALLING TRANSFER REQUEST message sent by the SRNC to the DRNC.
The message contains the Cell Identifier (C-ID) contained in the received UPLINK SIGNALLING TRANSFER INDICATION message and the D-RNTI.
Upon receipt of the message, the DRNC shall send the L3 Information on the CCCH in the cell indicated by the C-ID IE to the UE identified by the D-RNTI IE.
If the D-RNTI Release Indication IE is set to “Release D-RNTI” and the DRNS has no dedicated resources (DCH, [TDD – USCH and/or DSCH]) allocated for the UE, the DRNS shall release the D-RNTI, the UE Context and any RACH and FACH resources and any C-RNTI allocated to the UE Context upon receipt of the DOWNLINK SIGNALLING TRANSFER REQUEST message. If a UE Link is currently stored in the UE Context, the DRNC shall perform UE De-linking as specified in TS 25.346 [50], section 5.1.6.
If the D-RNTI Release Indication IE is set to “Release D-RNTI” and the DRNS has dedicated resources allocated for the UE, the DRNS shall only release any RACH and FACH resources and any C-RNTI allocated to the UE Context upon receipt of the DOWNLINK SIGNALLING TRANSFER REQUEST message.
If the MBMS Bearer Service List IE is included and URA ID IE is not included in the DOWNLINK SIGNALLING TRANSFER REQUEST message, the DRNC shall perform the UE Linking as specified in TS 25.346 [50], section 5.1.6.
If the MBMS Bearer Service List IE is included and the URA ID IE is included in the DOWNLINK SIGNALLING TRANSFER REQUEST message, the DRNC shall perform the URA Linking as specified in TS 25.346 [50], section 5.1.10.
If the MBMS Bearer Service List IE is included and the Old URA ID IE is included in the DOWNLINK SIGNALLING TRANSFER REQUEST message, the DRNC shall perform URA De-linking for the URA identified by the Old URA ID IE as specified in TS 25.346 [50], section 5.1.10.
[FDD – If the Enhanced PCH Capability IE is included in the message, the DRNC should store the information. If the Enhanced PCH Capability IE is not included in the message, the DRNC shall use the information to release an RRC Connection for the UE in cells supporting Enhanced PCH.]
[1.28Mcps TDD – If the Enhanced PCH Capability IE is included in the message, the DRNC should store the information. If the Enhanced PCH Capability IE is not included in the message, the DRNC shall use the information to release an RRC Connection for the UE in cells supporting Enhanced PCH.]
8.2.2.2.1	Successful Operation for Iur-g
The procedure consists of the DOWNLINK SIGNALLING TRANSFER REQUEST message sent by the SRNC/SBSS to the DBSS or by the SBSS to the DRNC.
The message contains the Cell Identifier (C-ID) contained in the received UPLINK SIGNALLING TRANSFER INDICATION message and the D-RNTI.
Upon receipt of the message, the DBSS shall send the L3 Information on the SRB2 in the cell indicated by the C-ID IE to the UE/MS identified by the D-RNTI IE.
Upon receipt of the message, the DRNC shall send the L3 Information on the CCCH in the cell indicated by the C-ID IE to the UE/MS identified by the D-RNTI IE.
8.2.2.3	Abnormal Conditions
If the user identified by the D-RNTI IE has already accessed another cell controlled by the DRNC than the cell identified by the C-ID IE in the DOWNLINK SIGNALLING TRANSFER REQUEST message, the message shall be ignored.
8.2.2.3.1	Abnormal Conditions for Iur-g
If the user identified by the D-RNTI IE has already accessed another cell controlled by the DRNC/DBSS than the cell identified by the C-ID IE in the DOWNLINK SIGNALLING TRANSFER REQUEST message, the message shall be ignored.
If the DRNC receives from the SBSS the DOWNLINK SIGNALLING TRANSFER REQUEST message, in which the D-RNTI Release Indication IE is set to “not Release D-RNTI”, the DRNC shall ignore this IE and release the D-RNTI.
If the DBSS receives from the SBSS/SRNC the DOWNLINK SIGNALLING TRANSFER REQUEST message, in which the D-RNTI Release Indication IE is set to “not Release D-RNTI”, the DBSS shall ignore this IE and release the D-RNTI.
8.2.3	Relocation Commit
8.2.3.1	General
The Relocation Commit procedure is used by source RNC to execute the Relocation. This procedure supports the Relocation procedures described in TS 25.413 [2].
This procedure shall use the signalling bearer mode specified below.
8.2.3.2	Successful Operation

Figure 3: Relocation Commit procedure, Successful Operation
The source RNC sends the RELOCATION COMMIT message to the target RNC to request the target RNC to proceed with the Relocation. When the UE is utilising one or more radio links in the DRNC the message shall be sent using the connection oriented service of the signalling bearer and no further identification of the UE Context in the DRNC is required. If on the other hand, the UE is not utilising any radio link the message shall be sent using the connectionless service of the signalling bearer and the D-RNTI IE shall be included in the message to identify the UE Context in the DRNC.
Upon receipt of the RELOCATION COMMIT message from the source RNC the target RNC finalises the Relocation. If the message contains the transparent RANAP Relocation Information IE the target RNC shall use this information when finalising the Relocation.
8.2.3.2.1	Successful Operation for Iur-g
The source RNC/BSS sends the RELOCATION COMMIT message to the target RNC/BSS to request the target RNC/BSS to proceed with the Relocation.
The message shall be sent using the connectionless service of the signalling bearer and the D-RNTI IE shall be included in the message to identify the UE/MS context in the DBSS.
Upon receipt of the RELOCATION COMMIT message from the source RNC/BSS, the target RNC/BSS finalises the Relocation. If the message contains the transparent RANAP Relocation Information IE the target RNC/BSS shall use this information when finalising the Relocation.
8.2.3.3	Abnormal Conditions
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8.2.4	Paging
8.2.4.1	General
This procedure is used by the SRNC to indicate to a CRNC that a UE shall be paged in a cell or URA that is under the control of the CRNC.
This procedure shall use the connectionless mode of the signalling bearer.
8.2.4.2	Successful Operation

Figure 4: Paging procedure, Successful Operation
The procedure is initiated with a PAGING REQUEST message sent from the SRNC to the CRNC.
If the message contains the C-ID IE, the CRNC shall page in the indicated cell. Alternatively, if the message contains the URA ID IE, the CRNC shall page in all cells that it controls in the indicated URA.
If the PAGING REQUEST message includes the CN Originated Page to Connected Mode UE IE, the CRNC shall include the information contained in the CN Originated Page to Connected Mode UE IE when paging the UE.
The CRNC shall calculate the Paging Occasions from the IMSI IE and the DRX Cycle Length Coefficient IE according to specification in TS 25.304 [15] and apply transmission on PICH and PCH [FDD – or HS-DSCH] [1.28Mcps TDD – or HS-DSCH] accordingly.
[FDD – If the PAGING REQUEST message includes the Enhanced PCH Capability IE, the CRNC shall use the information to page the UE in cells supporting Enhanced PCH.]
[1.28Mcps TDD – If the PAGING REQUEST message includes the Enhanced PCH Capability IE, the CRNC shall use the information to page the UE in cells supporting Enhanced PCH.]
8.2.4.2.1	Successful Operation for Iur-g
The procedure is initiated with a PAGING REQUEST message sent from the SBSS to the CRNC/CBSS or from the SRNC to the CBSS.
If the message contains the URA ID IE, the CRNC/CBSS shall page in all cells that it controls in the indicated URA/GRA.
If the PAGING REQUEST message includes the CN Originated Page to Connected Mode UE IE, the CRNC/CBSS shall include the information contained in the CN Originated Page to Connected Mode UE IE when paging the UE.
The CBSS shall calculate the Paging Occasions from the IMSI IE and the GERAN DRX Cycle Length Coefficient IE and apply transmission on PCCCH or PACCH accordingly.
8.2.4.3	Abnormal Conditions
8.2.4.3.1	Abnormal Conditions for Iur-g
If the DRNC receives a PAGING REQUEST message from the SBSS, which contains the C-ID IE, the message shall be ignored.
If the DBSS receives a PAGING REQUEST message from the SBSS/SRNC, which contains the C-ID IE, the message shall be ignored.
8.2.5	MBSFN MCCH Information
8.2.5.1	General
The procedure is used by the MRNC to inform the CRNC of the MCCH configuration and scheduling information used in MRNC. 
This procedure shall use the connectionless mode of the signalling bearer.
8.2.5.2	Successful Operation

Figure 4A: MBSFN MCCH Information procedure, Successful Operation
The procedure is used for MBSFN operation when a MRNC is used.
The message contains the MCCH message list sent on the MRNC and the MCCH configuration information of the MRNC.
Upon receipt of the message, if the MCCH Configuration Info IE exists, the CRNC shall setup or reconfigure the MCCH of all cells in the MBSFN cluster with the configuration contained in this IE, and update the System Information of these cells.
The CRNC shall decode the L3 Information IE contained in the MCCH Message List IE and apply the RLC/MAC/PHY configuration specified by relative MCCH Message to setup the RB information of MTCH, and then send the L3 Information IE on the MCCH in the receiving sequence at the beginning of the first MCCH modification period following the CFN indicated by the CFN IE. 
In case MRNC is used and TDM multiplexing is used over air interface, the MBSFN Scheduling Transmission Time Interval info List IE shall be contained to show the scheduling transmission time interval for MBMS service which is configured with MBSFN TDM multiplexing. The CRNC shall schedule received data packets in the scheduling transmission time interval following the time point indicated by the timestamp.
8.2.5.3	Abnormal Conditions
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8.2.6	Enhanced Relocation Resource Allocation[1.28Mcps TDD]
8.2.6.1	General
The purpose of this procedure is to inform the BSS to pre-allocate resource for UE relocation from UTRAN to GERAN.
This procedure shall use the signalling bearer connection for the relevant UE context.
8.2.6.2	Successful Operation

Figure 4B: Enhanced Relocation Resource Allocation Procedure, Successful Operation
The RNC initiates the Enhanced Relocation Resource Allocation procedure by sending the ENHANCED RELOCATION RESOURCE REQUEST message to the BSS to request the BSS to prepare resource for the relocation.
Upon receipt of the ENHANCED RELOCATION RESOURCE REQUEST message form the RNC, the BSS finalises the relocation resource preparation and sends ENHANCED RELOCATION RESOURCE RESPONSE message to the RNC.
8.2.6.3	Unsuccessful Operation

Figure 4C: Enhanced Relocation Resource Allocation Procedure, Unsuccessful Operation
If the BSS is not able to finalise the relocation resource preparation or can not accept the relocation resource request during the handover procedure, the BSS shall send the ENHANCED RELOCATION RESOURCE FAILURE message to the RNC.
8.2.6.4	Abnormal Conditions
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8.2.7	Enhanced Relocation Resource Release[1.28Mcps TDD]
8.2.7.1	General
This procedure is used by the RNC to infom BSS that related resource pre-allocated for UE shall be released due to failure of the enhanced relocation from UTRAN TDD to GERAN.
This procedure shall use the signalling bearer connection for the relevant UE context.
8.2.7.2	Successful Operation

Figure 4D: Enhanced Relocation Resource Release Procedure, Successful Operation
The Enhanced Relocation Resource Release procedure is initiated by sending the ENHANCED RELOCATION RESOURCE RELEASE COMMAND message from the RNC to the BSS.
Upon reception of the ENHANCED RELOCATION RESOURCE RELEASE COMMAND message, the BSS shall release related resource pre-allocated for UE, and then responsed with the ENHANCD RELOCATION RESOURCE RELEASE COMPLETE meassage.
8.2.7.3	Abnormal Conditions
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8.3	Dedicated Procedures
8.3.1	Radio Link Setup
8.3.1.1	General
This procedure is used for establishing the necessary resources in the DRNS for one or more radio links.
The connection-oriented service of the signalling bearer shall be established in conjunction with this procedure.
8.3.1.2	Successful Operation

Figure 5: Radio Link Setup procedure: Successful Operation
When the SRNC makes an algorithmic decision to add the first cell or set of cells from a DRNS to the active set of a specific UE-UTRAN connection, the RADIO LINK SETUP REQUEST message is sent to the corresponding DRNC to request establishment of the radio link(s). The Radio Link Setup procedure is initiated with this RADIO LINK SETUP REQUEST message sent from the SRNC to the DRNC.
Upon receipt of the RADIO LINK SETUP REQUEST message, the DRNS shall reserve the necessary resources and configure the new RL(s) according to the parameters given in the message. Unless specified below, the meaning of parameters is specified in other specifications.
The DRNS shall prioritise resource allocation for the RL(s) to be established according to Annex A.
If the RADIO LINK SETUP REQUEST message includes the Allowed Queuing Time IE the DRNS may queue the request for a time period not to exceed the value of the Allowed Queuing Time IE before starting to execute the request.
If the UE Aggregate Maximum Bit Rate IE is contained in the RADIO LINK SETUP REQUEST message, the DRNS shall, if supported, store the received UE Aggregate Maximum Bit Rate parameters to control the aggregate data rate of non GBR traffic for this UE.
If the Usefulness of Battery Optimization IE is contained in the RADIO LINK SETUP REQUEST message, the DRNC may store the received value and use it to determine whether this UE can benefit from battery optimization techniques.
If the RADIO LINK SETUP REQUEST message includes the Selected PLMN Identity IE, the DRNS should use this information to determine if it can set up a Radio Link for the corresponding UE.
Transport Channels Handling:
DCH(s):
[TDD – If the DCH Information IE is present in the RADIO LINK SETUP REQUEST message, the DRNS shall configure the new DCHs according to the parameters given in the message.]
If the RADIO LINK SETUP REQUEST message includes a DCH Information IE with multiple DCH Specific Info IEs, then the DRNS shall treat the DCHs in the DCH Information IE as a set of co-ordinated DCHs.
If the DCH Specific Info IE includes the Unidirectional DCH Indicator IE set to “Uplink DCH only”, the DRNS shall ignore the Transport Format Set IE for the downlink for this DCH. As a consequence this DCH is not included as a part of the downlink CCTrCH.
If the DCH Specific Info IE includes the Unidirectional DCH Indicator IE set to “Downlink DCH only”, the DRNS shall ignore the Transport Format Set IE for the uplink for this DCH. As a consequence this DCH is not included as a part of the uplink CCTrCH.
[FDD – For each DCH which do not belong to a set of co-ordinated DCHs, and which includes a QE-Selector IE set to “selected”, the DRNS shall use the Transport channel BER from that DCH for the QE in the UL data frames. If no Transport channel BER is available for the selected DCH, the DRNS shall use the Physical channel BER for the QE, TS 25.427 [4]. If the QE-Selector IE is set to “non-selected”, the DRNS shall use the Physical channel BER for the QE in the UL data frames, TS 25.427 [4].]
For a set of co-ordinated DCHs, the DRNS shall use the Transport channel BER from the DCH with the QE-Selector IE set to “selected” for the QE in the UL data frames, TS 25.427 [4]. [FDD – If no Transport channel BER is available for the selected DCH, the DRNS shall use the Physical channel BER for the QE, TS 25.427 [4]. If all DCHs have QE-Selector IE set to “non-selected”, the DRNS shall use the Physical channel BER for the QE, TS 25.427 [4].] [TDD – If no Transport channel BER is available for the selected DCH, the DRNS shall use 0 for the QE, TS 25.427 [4].]
The DRNS shall use the included UL DCH FP Mode IE for a DCH or a set of co-ordinated DCHs as the DCH FP Mode in the Uplink of the user plane for the DCH or the set of co-ordinated DCHs.
The DRNS shall use the included ToAWS IE for a DCH or a set of co-ordinated DCHs as the Time of Arrival Window Startpoint in the user plane for the DCH or the set of co-ordinated DCHs.
The DRNS shall use the included ToAWE IE for a DCH or a set of co-ordinated DCHs as the Time of Arrival Window Endpoint in the user plane for the DCH or the set of co-ordinated DCHs.
The Frame Handling Priority IE defines the priority level that should be used by the DRNS to prioritise between different frames of the data frames of the DCHs in the downlink on the radio interface in congestion situations once the new RL(s) have been activated.
The Traffic Class IE may be used to determine the transport bearer characteristics to apply between DRNC and Node B for the related DCH or set of co-ordinated DCHs. The DRNC should ignore the Traffic Class IE if the TrCH Source Statistics Descriptor IE indicates the value “RRC”.
If the TNL QoS IE is included for a DCH or a set of co-ordinated DCHs and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related DCH or set of co-ordinated DCHs.
If the DCH Information IE contains a DCH Specific Info IE which includes the Guaranteed Rate Information IE, the DRNS shall treat the included IEs according to the following:
-	If the Guaranteed Rate Information IE includes the Guaranteed UL Rate IE, the DRNS shall apply the Guaranteed Rate in the uplink of this DCH. The DRNS may decide to request the SRNC to limit the user rate of the uplink of the DCH at any point in time. The DRNS may request the SRNC to reduce the user rate of the uplink of the DCH below the guaranteed bit rate, however, whenever possible the DRNS should request the SRNC to only reduce the user rate between the maximum bit rate and the guaranteed bit rate. If the DCH Specific Info IE in the DCH Information IE does not include the Guaranteed UL Rate IE, the DRNS shall not limit the user rate of the uplink of the DCH.
-	If the Guaranteed Rate Information IE includes the Guaranteed DL Rate IE, the DRNS shall apply the Guaranteed Rate in the downlink of this DCH. The DRNS may decide to request the SRNC to limit the user rate of the downlink of the DCH at any point in time. The DRNS may request the SRNC to reduce the user rate of the downlink of the DCH below the guaranteed bit rate, however, whenever possible the DRNS should request the SRNC to only reduce the user rate between the maximum bit rate and the guaranteed bit rate. If the DCH Specific Info IE in the DCH Information IE does not include the Guaranteed DL Rate IE, the DRNS shall not limit the user rate of the downlink of the DCH.
[FDD – If the RADIO LINK SETUP REQUEST message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer shall not be Established” for a DCH, then the DRNC shall not establish a transport bearer for the concerned DCH and shall include the Transport Bearer Not Setup Indicator IE for the corresponding DCH in the RADIO LINK SETUP RESPONSE message.] 
[FDD – If the RADIO LINK SETUP REQUEST message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer may not be Established” for a DCH and:]
-	[FDD – if the DRNC establishes a transport bearer for the concerned DCH, the DRNC shall include in the RADIO LINK SETUP RESPONSE message the Binding ID IE and Transport Layer Address IE for establishment of a transport bearer for the DCH being established.]
-	[FDD – if the DRNC does not establish a transport bearer for the concerned DCH, the DRNC shall include the Transport Bearer Not Setup Indicator IE for the corresponding DCH in the RADIO LINK SETUP RESPONSE message.]
[FDD – DCH Enhancements]:
[FDD – If the RADIO LINK SETUP REQUEST message includes the DCH Enhancements Information IE, then the DRNS shall setup the requested DCH Enhancements operation [71].]
[TDD – DSCH(s):]
[TDD – If the DSCH Information IE is included in the RADIO LINK SETUP REQUEST message, the DRNC shall establish the requested DSCHs. If the Transport Layer Address IE and Binding ID IE are included in the DSCH Information IE the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the DSCH. In addition, the DRNC shall send a valid set of DSCH Scheduling Priority IE and MAC-c/sh SDU Length IE parameters to the SRNC in the RADIO LINK SETUP RESPONSE message. If the PDSCH-RL-ID IE indicates a radio link in the DRNS, then the DRNC shall allocate a DSCH-RNTI to the UE Context and include the DSCH-RNTI IE in the RADIO LINK SETUP RESPONSE message.]
[TDD – If the DSCH Information IE is included in the RADIO LINK SETUP REQUEST message, the DRNS may use the Traffic Class IE to determine the transport bearer characteristics to apply between DRNC and Node B for the related DSCHs.]
[TDD – The DRNC shall include the DSCH Initial Window Size IE in the RADIO LINK SETUP RESPONSE message for each DSCH, if the DRNS allows the SRNC to start transmission of MAC-c/sh SDUs before the DRNS has allocated capacity on user plane as described in TS 25.425 [32].]
[TDD – If the RADIO LINK SETUP REQUEST message includes the TNL QoS IE in the DSCH TDD Information IE and if ALCAP is not used, the DRNS may use the TNL QoS IE to determine the transport bearer characteristics to apply in the uplink for the related DSCH.]
[TDD – USCH(s):]
[TDD – The DRNS shall use the list of RB Identities in the RB Info IE in the USCH information IE to map each RB Identity IE to the corresponding USCH. If the Transport Layer Address IE and Binding ID IE are included in the USCH Information IE the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the USCH.]
[TDD – If the USCH Information IE is included in the RADIO LINK SETUP REQUEST message, the DRNS may use the Traffic Class IE to determine the transport bearer characteristics to apply between DRNC and Node B for the related USCHs.]
[TDD – If the USCH Information IE is included in the RADIO LINK SETUP REQUEST message and contains the TNL QoS IE, and if ALCAP is not used, the DRNS may use the TNL QoS IE to determine the transport bearer characteristics to apply in the uplink for the related USCH.]
[TDD – If the USCH Information IE is included in the RADIO LINK SETUP REQUEST message, the DRNS shall establish the requested USCHs, and the DRNC shall provide the [3.84 Mcps TDD – USCH Information Response IE] [1.28 Mcps TDD – USCH Information Response LCR IE] [7.68 Mcps TDD – USCH Information Response 7.68 Mcps IE] in the RADIO LINK SETUP RESPONSE message.]
[TDD – CCTrCH Handling:]
[TDD – If the UL CCTrCH Information IE is present in the RADIO LINK SETUP REQUEST message, the DRNS shall configure the new UL CCTrCH(s) according to the parameters given in the message.]
[1.28Mcps TDD – If the UL CCTrCH Information LCR IE includes the TDD TPC Uplink Step Size IE, the DRNS shall configure the uplink TPC step size according to the parameters given in the message.]
[TDD – If the DL CCTrCH Information IE is present in the RADIO LINK SETUP REQUEST message, the DRNS shall configure the new DL CCTrCH(s) according to the parameters given in the message.]
[TDD – If the TPC CCTrCH List IE is present in the RADIO LINK SETUP REQUEST message, the DRNS shall configure the identified UL CCTrCHs with TPC according to the parameters given in the message.]
HS-DSCH:
If the HS-DSCH Information IE is present in the RADIO LINK SETUP REQUEST message, then:
-	The DRNS shall setup the requested HS-PDSCH resources on the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE.
-	The DRNC shall include the HARQ Memory Partitioning IE in the [FDD – HS-DSCH FDD Information Response IE] [TDD – HS-DSCH TDD Information Response IE] in the RADIO LINK SETUP RESPONSE message. [FDD – The HARQ Memory Partitioning IE shall either contain the HARQ Memory Partitioning Information Extension For MIMO IE or the Number of Processes IE set to a value higher than “8”, if the MIMO Activation Indicator IE or MIMO with four transmit antennas Activation Indicator IE or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Information IE.] [1.28Mcps TDD– The HARQ Memory Partitioning IE shall either contain the HARQ Memory Partitioning Information Extension For MIMO IE or the Number of Processes IE set to a value higher than “8”, if the MIMO Activation Indicator IE is included in the HS-DSCH Information IE.]
-	The DRNC shall allocate an HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the RADIO LINK SETUP RESPONSE message.
-	The DRNC shall include in the RADIO LINK SETUP RESPONSE message the Binding ID IE and Transport Layer Address IE for establishment of transport bearer for every HS-DSCH MAC-d flow being established.
-	If the RADIO LINK SETUP REQUEST message includes the Transport Layer Address IE and Binding ID IE in the HS-DSCH Information IE for an HS-DSCH MAC-d flow, then the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the concerned HS-DSCH MAC-d flow.
-	The DRNS may use the Traffic Class IE for a specific HS-DSCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the HS-DSCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.
-	If fields are to be included in the User Plane by the SRNC to handle TNL Congestion Control for HSDPA in the DRNS, then the DRNC shall include the User Plane Congestion Fields Inclusion IE in the HS-DSCH Information Response IE.
-	If the RADIO LINK SETUP REQUEST message includes the MAC-hs Guaranteed Bit Rate IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall use this information to optimise MAC-hs scheduling decisions for the related HSDPA Priority Queue.
-	If the RADIO LINK SETUP REQUEST message includes the Discard Timer IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall use this information to discard out-of-date MAC-hs SDUs from the related HSDPA Priority Queue.
-	If the RADIO LINK SETUP REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall ignore the SID IE and MAC-d PDU Size IE in the MAC-d PDU Size Index IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related HSDPA Priority Queue.
-	The DRNC shall include the HS-DSCH Initial Capacity Allocation IE in the [FDD – HS-DSCH FDD Information Response IE] [TDD – HS-DSCH TDD Information Response IE] in the RADIO LINK SETUP RESPONSE message for every HS-DSCH MAC-d flow being established, if the DRNS allows the SRNC to start transmission of MAC-d PDUs before the DRNS has allocated capacity on user plane as described in TS 25.425 [32]. If RADIO LINK SETUP REQUEST message includes HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE set to the value “Flexible MAC-d PDU Size”, then DRNC shall only set in the HS-DSCH Initial Capacity Allocation IE the values for the peer of Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE to the values of the corresponding peer I in RADIO LINK SETUP REQUEST in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE for a Priority Queue including Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE.
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the HS-SCCH Power Offset IE in the HS-DSCH Information IE, then the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any HS-SCCH transmission to this UE.]
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the HS-DSCH and the DRNC shall include the HS-SCCH Specific Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[TDD – The DRNS shall allocate HS-SCCH parameters corresponding to the HS-DSCH and the DRNC shall include the [3.84Mcps TDD – HS-SCCH Specific Information Response IE] [1.28Mcps TDD – HS-SCCH Specific Information Response LCR IE] [7.68 Mcps TDD – HS-SCCH Specific Information Response 7.68 Mcps IE] in the HS-DSCH TDD Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[TDD – The DRNC shall include the [3.84 Mcps TDD – HS-PDSCH Timeslot Specific Information Response IE] [1.28 Mcps TDD – HS-PDSCH Timeslot Specific Information Response LCR IE] [7.68 Mcps TDD – HS-PDSCH Timeslot Specific Information Response IE] in the HS-DSCH Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the HARQ Preamble Mode IE in the HS-DSCH Information IE, then the DRNS shall use the indicated HARQ Preamble Mode as described in TS 25.214 [10], if HS-DPCCH ACK/NACK preamble and postamble is supported. Then, in this case, if the mode 1 is applied, the DRNC shall include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK SETUP RESPONSE message. If the HARQ Preamble Mode IE is not included or if the mode 0 is applied, then the DRNC shall not include the HARQ Preamble Mode Activation Indicator IE in the RADIO LINK SETUP RESPONSE message.]
-	If the RADIO LINK SETUP REQUEST message includes the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE, then the DRNS shall use the indicated format in user plane frame structure for HS-DSCH channels (TS 25.425 [32]) and MAC-hs (TS 25.321 [41]). 
-	[FDD – If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.]
-	[FDD – If the Serving Cell Change CFN IE is included in the RADIO LINK SETUP REQUEST message, then the DRNS shall activate the resources that are allocated for the new serving HS-DSCH Radio Link at the next coming CFN with a value equal to the value requested by the SRNC.]
-	[FDD – If the MIMO Activation Indicator IE, or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH FDD Information IE, then]
-	[FDD – The DRNS shall activate the MIMO mode, or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the HS-DSCH Radio Link.]
-	[FDD – The DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO and include the MIMO Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration are set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[1.28 Mcps TDD – If the MIMO Activation Indicator IE is included in the HS-DSCH TDD Information IE, then]
-	[1.28 Mcps TDD – The DRNS shall activate the MIMO mode for the HS-DSCH Radio Link.]
-	[1.28 Mcps TDD – The DRNS shall decide the SF mode for HS-PDSCH dual stream and include the MIMO SF Mode for HS-PDSCH dual stream IE in the HS-DSCH TDD Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Information IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the HS-DSCH Radio Link.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the HS-DSCH MAC-d PDU Size Format IE set to “Flexible MAC-d PDU Size” and if Sixtyfour QAM will not be used, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the RADIO LINK SETUP RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for HS-DSCH Transport Block Size signalling.]
-	[FDD – If the UE with enhanced HS-SCCH support indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS may use:]
-	[FDD – a different HS-SCCH in consecutive TTIs for this UE;]
-	[FDD – HS-SCCH orders for the case of HS-SCCH-less operation to this UE.]
-	[FDD – If the UE Support Indicator Extension IE is included in the HS-DSCH FDD Information IE the DRNS may use the supported HSDPA functions for this UE.]
-	[FDD - If the UE Support Indicator Extension IE is included in the HS-DSCH FDD Information IE with the bit UE DTXDRX related HS-SCCH orders uniform behavior indicator set to 0, then the DRNS shall, if supported, include the Support of Dynamic DTXDRX Related HS-SCCH Order IE in the HS-DSCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – The DRNS shall include the SixtyfourQAM DL Support Indicator IE in the RADIO LINK SETUP RESPONSE message. This SixtyfourQAM DL Support Indicator IE is related to the HS-DSCH Radio Link.]
-	[1.28 Mcps TDD – The DRNS shall include the SixtyfourQAM DL Support Indicator IE in the RADIO LINK SETUP RESPONSE message.]
-	If the RADIO LINK SETUP REQUEST message includes the DL RLC PDU Size Format IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, the DL RLC PDU Size Format IE may be used by the DRNS to determine the allocated capacity on user plane as described in TS 25.425 [32]. 
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the UE Aggregate Maximum Bit Rate Enforcement Indicator IE in the Priority Queue Information IE in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, the DRNS shall, if supported, consider the data of the related HSDPA Priority Queue for UE Aggregate Maximum Bit Rate Enforcement.] 
-	[FDD – If the Single Stream MIMO Activation Indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS shall activate the Single Stream MIMO for the HS-DSCH Radio Link.]
-	[1.28 Mcps TDD – If the UE TS0 Capability LCR IE is included in the HS-DSCH TDD Information IE, then the DRNC may include the TS0 HS-PDSCH Indication LCR IE in the RADIO LINK SETUP RESPONSE message if HS-PDSCH resources could be allocated on TS0 for the UE.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If the CQI Feedback Cycle2 k IE and the CQI Cycle Switch Timer IE is included in HS-DSCH FDD Information IE, then the DRNS may use the indicated CQI Feedback Cycle2 k value, the CQI Cycle Switch Timer in HSDPA resources allocation for the UE.]
[FDD – Secondary Serving HS-DSCH:]
[FDD – If the Additional HS Cell Information RL Setup IE is present in the RADIO LINK SETUP REQUEST message, then:]
-	[FDD – The DRNS shall setup the requested HS-PDSCH resources on the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE. Non cell specific secondary serving Radio Link and non cell specific secondary serving HS-DSCH parameters take the same values as for the serving HS-DSCH cell.]
-	[FDD – The DRNC shall allocate an HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the Additional HS Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the HS-SCCH Power Offset IE in the HS-DSCH Secondary Serving Information IE, then the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any secondary serving HS-SCCH transmission to this UE.]
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the HS-DSCH and the DRNC shall include the HS-SCCH Specific Secondary Serving Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If the Serving Cell Change CFN IE is included in the RADIO LINK SETUP REQUEST message, then the DRNS shall activate the resources that are allocated for the new serving HS-DSCH Radio Link at the next coming CFN with a value equal to the value requested by the SRNC.]
-	[FDD – If the MIMO Activation Indicator IE or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the MIMO mode, or MIMO with four transmit antennas Mode, or Dual Stream MIMO with four transmit antennas Mode for the secondary serving HS-DSCH Radio Link and the DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO for the secondary serving HS-DSCH Radio Link and include the MIMO Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Secondary Serving Information Response IE in the RADIO LINK SETUP RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – If the Single Stream MIMO Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the Single Stream MIMO mode for the secondary serving HS-DSCH Radio Link.]
-	[FDD - If the Ordinal Number Of Frequency IE is included in the HS-DSCH FDD Secondary Serving Information IE, and more than one secondary serving HS-DSCH Radio Link is setup, then the DRNS shall use this value in the physical layer.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the secondary serving HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If Sixtyfour QAM will not be used for the secondary serving HS-DCSH, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK SETUP RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for the secondary serving HS-DSCH Transport Block Size signalling.]
-	[FDD – The DRNS shall include the SixtyfourQAM DL Support Indicator IE in the Additional HS Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
[FDD – Multiflow Setup]:
[FDD - If the Multiflow Information IE is present in the RADIO LINK SETUP REQUEST message, then the DRNS shall setup the requested Multiflow operation.]
[FDD – E-DCH:]
[FDD – If the E-TFCS Information IE in the E-DPCH Information IE contains the E-DCH Minimum Set E-TFCI Validity Indicator IE the DRNS shall ignore the value in E-DCH Minimum Set E-TFCI IE. If the E-DCH Minimum Set E-TFCI validity indicator IE is absent DRNS shall use the value for the related resource allocation operation.]
[FDD – If the E-TFCS Information IE in the E-DPCH Information IE contains the E-DPDCH Power Interpolation IE, the DRNS shall use the value to determine the applicable E-DPDCH power formula defined in TS 25.214 [10]. If the E-DPDCH Power Interpolation IE is not present, the DRNS shall use the E-DPDCH power extrapolation formula defined in TS 25.214 [10].]
[FDD – If the E-TFCS Information IE in the E-DPCH Information IE contains the E-TFCI Boost Information IE, the DRNS shall use the information according to TS 25.214 [10]. If the E-TFCI Boost Information IE is not present, the DRNS shall use the value “127” in the algorithm defined in TS 25.214 [10].]
[FDD – If the RADIO LINK SETUP REQUEST message includes the E-DPCH Information IE, which contains the Minimum Reduced E-DPDCH Gain Factor IE, then the DRNS shall use the value to determine the applicable minimum gain factor (βed,k,reduced,min) defined in TS 25.214 [10]. For the case the Minimum Reduced E-DPDCH Gain Factor IE is not available for the UE Context, the DRNS may use the default value defined in TS 25.331 [16]. ]
[FDD – If the E-DCH FDD Information IE is present in the RADIO LINK SETUP REQUEST message then:]
-	[FDD – The DRNS shall setup the requested E-DCH resources on the Radio Links indicated by the E-DCH RL Indication IE, set to “E-DCH”, in the RL Information IE.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the Transport Layer Address IE and Binding ID IE in the RL specific E-DCH Information IE for an E-DCH MAC-d flow, then if the Transport Bearer Not Requested Indicator IE is not included for this E-DCH MAC-d flow, the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the concerned E-DCH MAC-d flow. The DRNC shall include in the RADIO LINK SETUP RESPONSE message the Binding ID IE and Transport Layer Address IE for establishment of a transport bearer for every E-DCH MAC-d flow being established for which the Transport Bearer Not Requested Indicator IE was not included.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer shall not be Established” for an E-DCH MAC-d flow, then the DRNC shall not establish a transport bearer for the concerned E-DCH MAC-d flow and shall include the Transport Bearer Not Setup Indicator IE for the corresponding E-DCH MAC-d flow in the RADIO LINK SETUP RESPONSE message.] 
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer may not be Established” for an E-DCH MAC-d flow and:]
-	[FDD – if the DRNC establishes a transport bearer for the concerned E-DCH MAC-d flow, the DRNC shall include in the RADIO LINK SETUP RESPONSE message the Binding ID IE and Transport Layer Address IE for establishment of a transport bearer for the E-DCH MAC-d flow being established.]
-	[FDD – if the DRNC does not establish a transport bearer for the concerned E-DCH MAC-d flow, the DRNC shall include the Transport Bearer Not Setup Indicator IE for the corresponding E-DCH MAC-d flow in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – The DRNS may use the Traffic Class IE for a specific E-DCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the E-DCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flow Specific Information IE in the E-DCH FDD Information IE, then the DRNS shall use this information to optimise MAC-e scheduling decisions.] 
-	[FDD – If the RADIO LINK SETUP REQUEST message includes UE Aggregate Maximum Bit Rate Enforcement Indicator IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flow Specific Information IE in the E-DCH FDD Information IE, the DRNS shall, if supported, consider the data of the related E-DCH Logical Channel for UE Aggregate Maximum Bit Rate Enforcement.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel and use the indicated format in user plane frame structure for E-DCH channels (TS 25.425 [32]) and MAC (TS 25.321 [41]).]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH MAC-d Flow Multiplexing List IE for an E-DCH MAC-d flow the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If in the RADIO LINK SETUP REQUEST message the E-DCH Grant Type is indicated as being “E-DCH Non-Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume non-scheduled grants being configured for that E-DCH MAC-d flow and shall use the information within the HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant IE, if included, for the related resource allocation operation.]
 -	[FDD – If in the RADIO LINK SETUP REQUEST message the E-DCH Grant Type is indicated as being “E-DCH Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume scheduled grants being configured for that E-DCH MAC-d flow.]
-	[FDD – If the TNL QoS IE is included for a E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[FDD – The DRNC may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNC may include the corresponding E-RGCH Signature Sequence IE in the E-DCH FDD DL Control Channel Information IE in the RADIO LINK SETUP RESPONSE message, for every RL indicated by the E-DCH RL Indication IE, set to “E-DCH”, in the RL Information IE.]
	[FDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH ReferencePower Offset IE, then the DRNS may use this value as a default HARQ power offset if it is not able to decode the MAC-e PDU and to determine the value of the actual HARQ power offset.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the UPH Filtering Measurement Forwarding Request IE, then the DRNS shall use this instruction to handle the UE UPH filtering measurement forwarding.]
-	[FDD – If the RADIO LINK SETUP REQUEST message contains the Serving E-DCH RL IE indicating that the Serving E-DCH RL is in this DRNS:]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both and include these E-RNTI identifiers and the Channelisation Code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the RL Information Response IE for the indicated RL in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – The DRNS may include the Serving Grant Value IE and Primary/Secondary Grant Selector IE in the RADIO LINK SETUP RESPONSE message for the initial grant for the serving E-DCH RL.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled and/or non-scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the E-DCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If a serving cell change is performed the RADIO LINK SETUP RESPONSE message may contain invalid data (see 9.2.2.4C).]
-	[FDD – If the DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE in the E-DCH FDD DL Control Channel Information IE in the RADIO LINK SETUP RESPONSE message, then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE in the E-DCH FDD DL Control Channel Information IE, to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.]
-	[FDD – The DRNS may include the Default Serving Grant in DTX Cycle 2 IE in the RADIO LINK SETUP RESPONSE message for the serving E-DCH RL.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the Bundling Mode Indicator IE for a E-DCH MAC-d flow in the E-DCH MAC-d Flow Specific Information IE in the E-DCH FDD Information IE and the Bundling Mode Indicator IE is set to “Bundling” and the E-TTI IE is set to “2ms”, then the DRNS shall use the bundling mode for the E-DCH UL data frames for the related MAC-d flow, otherwise the DRNS shall use the non-bundling mode for the E-DCH UL data frames for the related MAC-d flow.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH Maximum Bitrate IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-DPCCH/E-DPDCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the E-AGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-AGCH power. The E-AGCH Power Offset should be applied for any E-AGCH transmission to this UE.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the E-RGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-RGCH power for the RL. The E-RGCH Power Offset should be applied for any E-RGCH transmission to this UE.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the E-HICH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-HICH power for the RL. The E-HICH Power Offset should be applied for any E-HICH transmission to this UE.]
-	[FDD – If the Serving Cell Change CFN IE is included in the RADIO LINK SETUP REQUEST message, then the DRNS shall activate the resources that are allocated for the new serving E-DCH Radio Link at the next coming CFN with a value equal to the value requested by the SRNC.]
-	[FDD – If the RADIO LINK SETUP REQUEST message includes the SixteenQAM UL Operation Indicator IE, the DRNS shall activate/deactivate SixteenQAM UL Operation for the RL in accordance with the SixteenQAM UL Operation Indicator IE.]
-	[FDD – If SixteenQAM UL Operation is activated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 2 according to TS 25.321 [41]. If SixteenQAM UL Operation is deactivated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 1 according to TS 25.321 [41].]
[FDD – Additional E-DCH Setup:]
[FDD – If the Additional E-DCH Cell Information RL Setup Req IE is present in the RADIO LINK SETUP REQUEST message, then the Additional E-DCH Cell Information Setup IE defines the new configuration and then:]
-	[FDD – The DRNS shall setup the E-DCH on the secondary uplink frequency and setup the requested E-DCH resources on the Radio Links and in the cells indicated by the E-DCH Additional RL ID IE and the C-ID IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE. Non cell specific Radio Link related parameters and non cell specific E-DPCH, UL DPCH, E-DCH and F-DPCH parameters shall take the same values as for the corresponding cell of the Primary uplink frequency. The DRNS shall, if supported, use the Dual Cell E-DCH Operation Enhancements Information IE for the Secondary uplink frequency if it is included in the Additional E-DCH FDD Information IE in the Additional E-DCH FDD Setup Information IE.]
-	[FDD – If the UL SIR Target IE in the UL DPCH Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE and/or the DL Power Balancing Information IE and/or the Minimum Reduced E-DPDCH Gain Factor IE in the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE are present, the DRNS shall use the information in the same same way as for the information used on Primary uplink frequency.]
-	[FDD – If the Secondary UL Frequency Activation State IE is present in the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE, the DRNS shall use the information as initial activation state of the Radio Links on the secondary uplink frequency.]
-	[FDD – If the Propagation Delay IE, the Initial DL Tx Power IE, Primary CPICH Ec/No IE, the E-AGCH Power Offset IE, the E-RGCH Power Offset IE and/or the E-HICH Power Offset IE is included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If the Extended Propagation Delay IE and/or Enhanced Primary CPICH Ec/No IE is included in the Multicell E-DCH RL Specific Information IE in the Additional E-DCH Secondary RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If the F-DPCH Slot Format Support Request IE in the F-DPCH Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE is included, the DRNS shall configure the concerned UE Context for F-DPCH Slot Format operation according to TS 25.211 [8] and include the F-DPCH Slot Format IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK SETUP RESPONSE message. If the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE includes the F-DPCH Slot Format IE, the DRNS may use the F-DPCH Slot Format IE to determine the F-DPCH slot format.]
-	[FDD – If the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the E-DCH Maximum Bitrate IE, the E-DCH Minimum Set E-TFCI IE, the E-DCH Processing Overload Level IE, the Implicit Grant handling IE, the Minimum TEBS threshold IE and/or the DTX Information2 IE are present in the Additional E-DCH FDD Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in same way as for the information used on Primary uplink frequency.]
-	[FDD – If the Multicell E-DCH Transport Bearer Mode IE for an Additional E-DCH to be Setup is set to “Separate Iur Transport Bearer Mode” the DRNS shall use this mode in the new configuration and apply separate transport bearers for the MAC-d flows.]
-	[FDD – if the Multicell E-DCH Transport Bearer Mode IE for an Additional E-DCH to be Setup is set to “UL Flow Multiplexing Mode” the DRNS shall use this mode in the new configuration and multiplex MAC-d flows on the transport bearers.]
-	[FDD – if Separate Iur Transport Bearer Mode is used in the new configuration, then:]
-	[FDD – The DRNS shall follow the rules defined in this procedure for single carrier mode of operation for establishment of the transport bearer for a MAC-d flow and use the Transport Bearer Not Requested Indicator IE in the RL Specific E-DCH Information IE in the RL Information IE received for the corresponding Radio Link(s) of the Primary Uplink Frequency to determine the transport bearer configuration in the new configuration for the radio links of the Secondary Uplink Frequency.]
-	[FDD – If the Transport Layer Address IE and Binding ID IE is included for an E-DCH MAC-d flow in the Additional E-DCH MAC-d Flows Specific Information IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, then the DRNS may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the concerned E-DCH MAC-d flow. If the DRNS establishes a transport bearer for the concerned E-DCH MAC-d flow the DRNS shall include in the RADIO LINK SETUP RESPONSE message the Binding ID IE and Transport Layer Address IE in the Additional E-DCH MAC-d Flow Specific Information Response IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE for establishment of a transport bearer for every E-DCH MAC-d flow being established.]
-	[FDD – If activation of power balancing for the Additional E-DCH RL by the RADIO LINK SETUP REQUEST message is supported by the DRNS, the DRNS shall include the DL Power Balancing Activation Indicator IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – For each Additional E-DCH RL not having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall set the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message to a value that uniquely identifies the RL as a RL Set within the UE Context. The generation of E-HICH related information for Additional E-DCH RLs in different RL Sets shall not be common.]
-	[FDD – For all Additional E-DCH RLs having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall assign to each Additional E-DCH RL the same value for the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message. This value shall uniquely identify these Additional E-DCH RLs as members of the same RL Set within the UE Context. The generation of E-HICH information for all Additional E-DCH RLs in a RL Set shall be common.]
-	[FDD – For each Additional E-DCH RL which has or can have a common generation of E-RGCH information with another Additional E-DCH RL (current or future) when the DRNS would contain the Additional E-DCH serving RL, the DRNS shall set a same value to the E-DCH RL Set ID IE for the Additional E-DCH RL in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK SETUP RESPONSE message]
-	[FDD – For every additional E-DCH RL indicated in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE the DRNS may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNS may include the corresponding E-RGCH Signature Sequence IE for each Additional E-DCH RL in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK SETUP RESPONSE message and if DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE, then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.] 
-	[FDD – If the Additional Serving E-DCH Radio Link is configured in the DRNS, then:]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the corresponding RL and include these E-RNTI identifiers and the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – The DRNS may include in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK SETUP RESPONSE message the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the Additional serving E-DCH RL and may include the Default Serving Grant in DTX Cycle 2 IE.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.] 
-	[FDD – If the Serving Cell Change CFN IE is included in the RADIO LINK SETUP REQUEST message, then the DRNS shall activate the resources that are allocated for the new additional serving E-DCH Radio Link at the next coming CFN with a value equal to the value requested by the SRNC. If the Serving Cell Change CFN IE is not included then the DRNS shall activate immediately the resources that are allocated for the new additional serving E-DCH Radio Link.]
-	[FDD – If the D-RNTI IE was included in the RADIO LINK SETUP REQUEST message the DRNS shall include in the RADIO LINK SETUP RESPONSE message the Primary Scrambling Code IE, the UL UARFCN IE and the DL UARFCN IE for the secondary UL frequency in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – If Primary CPICH is not to be used as a Phase Reference for this Radio Link on the secondary UL frequency, the DRNS shall include the Primary CPICH Usage For Channel Estimation IE set to the value “Primary CPICH shall not be used” in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE RADIO LINK SETUP RESPONSE message.]
-	[FDD – If Secondary CPICH may be used as a Phase Reference for this Radio Link on the secondary UL frequency, the DRNS shall include the Secondary CPICH Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK SETUP RESPONSE message. If the DRNS doesn’t include the Secondary CPICH Information IE, it shall not include the Primary CPICH Usage For Channel Estimation IE set to the value “Primary CPICH shall not be used”.]
[FDD – E-DCH –HS-DSCH:]
[FDD – If the RADIO LINK SETUP REQUEST message includes the DCH Indicator For E-DCH-HSDPA Operation IE, then the DRNS shall ignore the DCH Information IE in the RADIO LINK SETUP REQUEST message.]
[FDD – E-DCH decoupling operation]
[FDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH Decoupling Indication IE, then the DRNS shall if supported use this indication for E-DCH decoupling operation.]
[1.28 Mcps TDD - Multi-Carrier E-DCH Setup:]
[1.28Mcps TDD - If the Multi-Carrier E-DCH Information IE is present in the RADIO LINK SETUP REQUEST message, then the Multi-Carrier E-DCH Information IE defines the new configuration and then:]
-	[1.28Mcps TDD - The DRNS shall setup the requested E-DCH resource on the uplink frequecies indicated by the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE.]
-	[1.28Mcps TDD - The DRNS shall use the corresponding PRXdes_base IE for power control on each uplink frequency according to TS 25.331 [16].] 
-	[1.28Mcps TDD - If the SNPL Carrier Group Indicator IE is present in the Multi-Carrier E-DCH Information LCR IE, the DRNS shall use the information to determine which SNPL Carrier Group each frequency indicated by the UARFCN IE belongs to.]
-	[1.28Mcps TDD - If the Multi-Carrier E-DCH Transport Bearer Mode LCR IE is set to "Separate Iur transport bearer mode", the DRNS shall use this mode in the new configuration and apply separate transport bearers for the MAC-d flows.]
-	[1.28Mcps TDD - If the Multi-Carrier E-DCH Transport Bearer Mode LCR IE is set to "E-DCH UL flow multiplexing mode", the DRNS shall use this mode in the new configuration and multiplex MAC-d flow received on the different carriers on one Iur transport bearer.]
-	[1.28Mcps TDD - If the Separate Iur transport bearer mode is used in the new configuration, then the DRNS shall include the Binding ID IE and Transport Layer Address IE in the Multi-Carrier E-DCH Information Response LCR IE in the RADIO LINK SETUP RESPONSE message for establishment of a transport bearer for every E-DCH MAC-d flow being established.]
-	[1.28Mcps TDD - If the E-DCH UL flow multiplexing mode is used in the new configuration, then the DRNS shall include the Binding ID IE and Transport Layer Address IE in the E-DCH TDD Information Response 1.28Mcps IE in the RADIO LINK SETUP RESPONSE message for establishment of a transport bearer for every E-DCH MAC-d flow being established.]
Physical Channels Handling:
[FDD – Compressed Mode:]
[FDD – If the RADIO LINK SETUP REQUEST message includes the Transmission Gap Pattern Sequence Information IE, the DRNS shall store the information about the Transmission Gap Pattern Sequences to be used in the Compressed Mode Configuration. This Compressed Mode Configuration shall be valid in the DRNS until the next Compressed Mode Configuration is configured in the DRNS or the last Radio Link is deleted.]
[FDD – If the RADIO LINK SETUP REQUEST message includes the Transmission Gap Pattern Sequence Information IE and the Active Pattern Sequence Information IE, the DRNS shall use the information to activate the indicated Transmission Gap Pattern Sequence(s) in the new RL. The received CM Configuration Change CFN IE refers to latest passed CFN with that value. The DRNS shall treat the received TGCFN IEs as follows:]
-	[FDD – If any received TGCFN IE has the same value as the received CM Configuration Change CFN IE, the DRNS shall consider the concerned Transmission Gap Pattern Sequence as activated at that CFN.]
-	[FDD – If any received TGCFN IE does not have the same value as the received CM Configuration Change CFN IE but the first CFN after the CM Configuration Change CFN with a value equal to the TGCFN IE has already passed, the DRNS shall consider the concerned Transmission Gap Pattern Sequence as activated at that CFN.]
-	[FDD – For all other Transmission Gap Pattern Sequences included in the Active Pattern Sequence Information IE, the DRNS shall activate each Transmission Gap Pattern Sequence at the first CFN after the CM Configuration Change CFN with a value equal to the TGCFN IE for the Transmission Gap Pattern Sequence.]
[FDD – If the Downlink Compressed Mode Method IE in one or more Transmission Gap Pattern Sequence is set to “SF/2” in the RADIO LINK SETUP REQUEST message and the UE Context is configured to use DPCH in the downlink, the DRNS shall include the Transmission Gap Pattern Sequence Scrambling Code Information IE in the RADIO LINK SETUP RESPONSE message indicating for each DL Channelisation Code whether the alternative scrambling code shall be used or not.]
[FDD – If the RADIO LINK SETUP REQUEST message includes the Transmission Gap Pattern Sequence Information IE and the Active Pattern Sequence Information IE and the concerned UE Context is configured to use F-DPCH in the downlink, the DRNS shall ignore, when activating the Transmission Gap Pattern Sequence(s), the information provided by the Downlink Compressed Mode Method IE if included for the concerned Transmission Gap Pattern Sequence(s).]
[FDD - If the RADIO LINK SETUP REQUEST message includes the Affected HS-DSCH serving cell List IE in the Active Pattern Sequence Information IE, the concerned Transmission Gap Pattern Sequence shall be applied to HS-DSCH serving cells associated with C-ID IE included in Affected HS-DSCH serving cell List IE. Otherwise the concerned Transmission Gap Pattern Sequence shall be applied to all the configured serving cells.]
[FDD – DL Code Information:]
[FDD – When more than one DL DPDCH are assigned per RL, the segmented physical channel shall be mapped on to DL DPDCHs according to TS 25.211 [8]. When p number of DL DPDCHs are assigned to each RL, the first pair of DL Scrambling Code and FDD DL Channelisation Code Number corresponds to “PhCH number 1”, the second to “PhCH number 2”, and so on until the pth to “PhCH number p”.]
[FDD – Phase Reference Handling:]
[FDD – If Primary CPICH is not to be used as a Phase Reference for this Radio Link, the DRNC shall include the Primary CPICH Usage For Channel Estimation IE set to the value “Primary CPICH shall not be used” in the RADIO LINK SETUP RESPONSE message.]
[FDD – If Secondary CPICH may be used as a Phase Reference for this Radio Link, the DRNC shall include the Secondary CPICH Information IE in the RADIO LINK SETUP RESPONSE message.]
[FDD – If the DRNC doesn’t include the Secondary CPICH Information IE in the RADIO LINK SETUP RESPONSE message, it shall not include the Primary CPICH Usage For Channel Estimation IE set to the value “Primary CPICH shall not be used” in the RADIO LINK SETUP RESPONSE message.]
[FDD – UL CLTD Handling]:
[FDD - If the UL CLTD Information IE is present in the RADIO LINK SETUP REQUEST message, then the DRNS shall setup the requested UL CLTD resources for the concerned UE Context in the cell to determine the precoding weights and then :]
-	[FDD - If there is neither serving E-DCH RL nor the HS-DSCH RL configuration in the UE Context, the C-ID IE shall be included in the UL CLTD Information IE, and the DRNS shall configure this cell to determine the precoding weights for the concerned UE Context.]
-	[FDD - If the UL CLTD Activation Information IE is included in the UL CLTD Information IE, then the DRNS shall use this value to configure the state of UL CLTD for the concerned UE Context.]
[FDD – UL MIMO Setup]:
[FDD - If the UL MIMO Information IE is present in the RADIO LINK SETUP REQUEST message, then the DRNS shall setup the requested UL MIMO operation.]
[FDD – UL DPCCH2 Handling:]
[FDD - If the RADIO LINK SETUP REQUEST message includes the UL DPCCH2 Information IE, then:]
-	[FDD – if the serving HS-DSCH RL is in the DRNS then the DRNS shall configure the concerned DRNS Communication Context to use a second F-DPCH in the downlink, i.e. with transmission of only the TPC field and a DPCCH2 in the uplink, i.e. with the transmission of only the second pilot and the TPC field on the Serving HS-DSCH Radio Link and the DRNS shall activate UL DPCCH2 operation for the radio link according to the information provided in the IE according to ref TS 25.214 [10].]
-	[FDD – if the serving HS-DSCH is not in the DRNS then the DRNS may consider the concerned DRNS Communication Context to use the UL DPCCH2 configuration on the Serving HS-DSCH Radio Link.]
-	[FDD – If the UL DPCCH2 Information IE includes the Extended E-DPCCH Power Offset IE and if the E-DCH FDD Information IE is present in the RADIO LINK SETUP REQUEST message, the DRNS shall use the value to calculate the E-DPCCH gain factor.]
General:
[FDD – If the Propagation Delay IE and optionally the Extended Propagation Delay IE are included, the DRNS may use this information to speed up the detection of UL synchronisation on the Uu interface.]
[FDD – If the received Limited Power Increase IE is set to “Used”, the DRNS shall, if supported, use Limited Power Increase according to TS 25.214 [10] subclause 5.2.1 for the inner loop DL power control.]
[TDD – If the RADIO LINK SETUP REQUEST message includes the [1.28 Mcps TDD and 3.84 Mcps TDD – Maximum Number of DL Physical Channels per Timeslot IE] [7.68 Mcps TDD – Maximum Number of DL Physical Channels per Timeslot 7.68 Mcps IE] the DRNC shall take this value into account when allocating physical resources, otherwise the DRNC can assume that this UE capability is consistent with the other signalled UE capabilities.]
[1.28Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the Support of 8PSK IE within the DL Physical Channel Information IE or UL Physical Channel Information IE, the DRNC shall take this into account in the specified direction when allocating physical resources, otherwise the DRNC can assume that this UE does not support 8PSK resource allocation.]
[1.28Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the Support of PLCCH IE within the DL Physical Channel Information IE , the DRNC shall take this into account when allocating PLCCH sequence numbers, otherwise the DRNC can assume that this UE does not support PLCCH.]
[FDD – If the RADIO LINK SETUP REQUEST message includes the DL DPCH Information IE, then the DRNS shall configure the concerned UE Context to use DPCH in the downlink, i.e. with a DL DPCCH and a DL DPDCH.]
[FDD – If the RADIO LINK SETUP REQUEST message includes the F-DPCH Information IE, then:]
-	[FDD – The DRNS shall configure the concerned UE Context to use F-DPCH in the downlink, i.e. with transmission of only the TPC field.]
-	[FDD – If the F-DPCH Information IE includes the F-DPCH Slot Format Support Request IE, then the DRNS shall configure the concerned UE Context for F-DPCH Slot Format operation according to TS 25.211 [8] and include the F-DPCH Slot Format IE in the RADIO LINK SETUP RESPONSE message. If the F-DPCH Information IE includes the F-DPCH Slot Format IE, the DRNC may use the F-DPCH Slot Format IE to determine the F-DPCH slot format.]
[FDD – E-DPCH Handling:]
[FDD – If the UL DPDCH Indicator for E-DCH operation IE is included in the UL DPCH Information IE and set to “UL-DPDCH not present” the Min UL Channelisation Code Length IE, the Puncture Limit IE and the TFCS IE, within the UL DPCH Information IE shall be ignored and no UL DPDCH resources shall be allocated.]
[FDD – Continuous Packet Connectivity Handling:]
[FDD – If the RADIO LINK SETUP REQUEST message includes the Continuous Packet Connectivity DTX-DRX Information IE, then:]
-	[FDD – The DRNS shall configure the concerned UE Context for Continuous Packet Connectivity DTX operation according to TS 25.214 [10].]
-	[FDD – If DRX Information IE is included in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for Continuous Packet Connectivity DRX operation according to TS 25.214 [10].]
-	[FDD – If UE DRX Cycle 2 IE is included in the DRX Information IE in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for DRX operation according to TS 25.214 [10]]
-	[FDD – If Inactivity Threshold for UE DRX Cycle 2 IE is included in the DRX Information IE in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for DRX operation according to TS 25.214 [10]]
[FDD – If the RADIO LINK SETUP REQUEST message includes the Continuous Packet Connectivity HS-SCCH less Information IE, then:]
-	[FDD – The DRNS shall configure the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE for Continuous Packet Connectivity HS-SCCH less operation according to TS 25.214 [10].]
-	[FDD – The DRNS shall allocate the HS-PDSCH codes needed for HS-SCCH less operation and include the Continuous Packet Connectivity HS-SCCH less Information Response IE in the RADIO LINK SETUP RESPONSE message.] 
-	[FDD – If at least one of HS-PDSCH Second Code Support IE is set to “True”, then the DRNC shall include HS-PDSCH Second Code Index IE in the RADIO LINK SETUP RESPONSE message.]
[1.28 Mcps TDD – Continuous Packet Connectivity Handling:]
[1.28 Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the Continuous Packet Connectivity DRX Information LCR IE, then the DRNS shall take account into these parameters to decide the DRX operation related parameters and configure the concerned UE Context for DRX operation according to TS 25.224 [22] and include the parameter(s) in the Continuous Packet Connectivity DRX Information Response LCR IE in the RADIO LINK SETUP RESPONSE message.]
[1.28 Mcps TDD – If the Inactivity Threshold for UE DRX Cycle Ext IE is included in the Continuous Packet Connectivity DRX Information LCR IE, then the DRNS may use this value to determine the Inactivity Threshold for UE DRX Cycle according to TS 25.224 [22].]
[1.28 Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the HS-DSCH Semi-Persistent scheduling Information LCR IE, then:]
-	[1.28 Mcps TDD – The DRNS shall configure the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE for HS-DSCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD – The DRNS shall allocate the HS-SICH information needed for HS-DSCH Semi-Persistent scheduling operation and include the HS-DSCH Semi-Persistent scheduling Information Response LCR IE in the RADIO LINK SETUP RESPONSE message.]
-	[1.28 Mcps TDD – If the HS-DSCH Semi-Persistent Resource Reservation Indicator IE is included in the HS-DSCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall include Allcoated HS-PDSCH Semi-persistent resource IE in the RADIO LINK SETUP RESPONSE message.]
-	[1.28 Mcps TDD – The DRNS shall include the Buffer Size for HS-DSCH Semi-Persistent scheduling IE in the RADIO LINK SETUP RESPONSE message.]
-	[1.28 Mcps TDD – The DRNS shall include the Number of Processes for HS-DSCH Semi-Persistent scheduling IE in the RADIO LINK SETUP RESPONSE message.] 
-	[1.28 Mcps TDD – If the HS-DSCH Semi-Persistent scheduling operation Indicator IE is included in the HS-DSCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall apply this information for HS-DSCH Semi-Persistent scheduling operation.]
[1.28 Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH Semi-Persistent scheduling Information LCR IE, then:]
-	[1.28 Mcps TDD – The DRNS shall configure the Serving E-DCH Radio Link indicated by the E-DCH Serving RL IE for E-DCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD – If the E-DCH Semi-Persistent Resource Reservation Indicator IE is included in the E-DCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall include Allcoated E-DCH Semi-persistent resource IE in the RADIO LINK SETUP RESPONSE message.] 
-	[1.28 Mcps TDD – If the E-DCH Semi-Persistent scheduling Indicator IE is included in the E-DCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall apply this information for E-DCH Semi-Persistent scheduling operation.]
[1.28 Mcps TDD – MU-MIMO Handling:]
[1.28Mcps TDD - If the RADIO LINK SETUP REQUEST message includes the MU-MIMO Indicator IE, then:]
-	[1.28 Mcps TDD - The DRNS may use the MU-MIMO for the radio link according to the MU-MIMO Usage Indicator IE and shall include the MU-MIMO Information IE in the RADIO LINK SETUP RESPONSE message.]
-	[1.28 Mcps TDD – If the Standalone Midamble Channel Indicator IE is set to "Used", then the DRNS shall include Standalone Midamble Channel information in the RADIO LINK SETUP RESPONSE message. Else, the DRNS shall not include Standalone Midamble Channel information in the RADIO LINK SETUP RESPONSE message.]
Radio Link Handling:
Diversity Combination Control:
[FDD – The Diversity Control Field IE indicates for each RL except for the first RL whether the DRNS shall combine the RL with any of the other RLs or not.]
-	[FDD – If the Diversity Control Field IE is set to “May” (be combined with another RL), the DRNS shall decide for any of the alternatives.]
-	[FDD – If the Diversity Control Field IE is set to “Must”, the DRNS shall combine the RL with one of the other RL.]
-	[FDD – If the Diversity Control Field IE is set to “Must not”, the DRNS shall not combine the RL with any other existing RL.]
[FDD – When an RL is to be combined, the DRNS shall choose which RL(s) to combine it with.]
[FDD – The Diversity Control Field IE is only applicable for DCHs, in case of E-DCH it shall always be assumed to be set to “May”.]
[FDD – In the RADIO LINK SETUP RESPONSE message, the DRNC shall indicate for each RL with the Diversity Indication in the RL Information Response IE whether the RL is combined or not.]
-	[FDD – In case of not combining with a RL previously listed in the RADIO LINK SETUP RESPONSE message or for the first RL in the RADIO LINK SETUP RESPONSE message, the DRNC shall]
-	[FDD – in case of requested DCHs, include in the DCH Information Response IE in the RADIO LINK SETUP RESPONSE message for which the Transport Bearer Not Requested Indicator IE was not included the Binding ID IE and Transport Layer Address IE for the transport bearer to be established for each DCH of this RL.]
-	[FDD – in case of requested DCHs, include in the RADIO LINK SETUP RESPONSE message the Transport Bearer Not Setup Indicator IE for every DCH for which establishment of a transport bearer has not taken place as a result of information in the Transport Bearer Not Requested Indicator IE in the RADIO LINK SETUP REQUEST message.]
-	[FDD – in case of a requested E-DCH, include in the E-DCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE for which the Transport Bearer Not Requested Indicator IE was not included message the Binding ID IE and the Transport Layer Address IE for the establishment of transport bearers for every E-DCH MAC-d flow being established.]
-	[FDD – in case of a requested E-DCH, include in the RADIO LINK SETUP RESPONSE message the Transport Bearer Not Setup Indicator IE for every E-DCH MAC-d flow for which establishment of a transport bearer has not taken place as a result of information in the Transport Bearer Not Requested Indicator IE in the RADIO LINK SETUP REQUEST message.]
-	[FDD – Otherwise in case of combining, the RL ID IE indicates (one of) the RL(s) previously listed in this RADIO LINK SETUP RESPONSE message with which the concerned RL is combined and if the ALCAP is not used and the transport bearer for the DCH is already established, the Transport Layer Address IE and the Binding ID IE in the RL Specific DCH Information IE included in the RL Information IE for a specific RL in the RADIO LINK SETUP REQUEST message, shall not be used. In case of combining an E-DCH RL, one of the RLs previously listed in this RADIO LINK SETUP RESPONSE message including the E-DCH FDD Information Response IE and part of the same Radio Link Set shall be regarded as the RL with which the concerned E-DCH RL is combined and if the ALCAP is not used, the Transport Layer Address IE and the Binding ID IE in the RL SpecificE- DCH Information IE included in the RL Information IE for a specific RL in the RADIO LINK SETUP REQUEST message, shall not be used.]
[TDD – The DRNC shall always include in the RADIO LINK SETUP RESPONSE message both the Transport Layer Address IE and the Binding ID IE for the transport bearer to be established for each DCH, DSCH and USCH of the RL.]
In the case of a set of co-ordinated DCHs requiring a new transport bearer the Binding ID IE and the Transport Layer Address IE shall be included in the RADIO LINK SETUP RESPONSE message for only one of the DCHs in the set of co-ordinated DCHs [FDD – where the Transport Bearer Not Requested Indicator IE was not included].
[FDD – Transmit Diversity:]
[FDD – If the cell in which the RL is being set up is capable to provide Close loop Tx diversity, the DRNC shall include the Closed Loop Timing Adjustment Mode IE in the RADIO LINK SETUP RESPONSE message indicating the configured Closed loop timing adjustment mode of the cell.]
[FDD – When the Diversity Mode IE is set to “STTD”, or “Closed loop mode1”, the DRNC shall activate/deactivate the Transmit Diversity for each Radio Link in accordance with the Transmit Diversity Indicator IE.] 
[FDD – If the Diversity Mode IE is included in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Setup IE in the RADIO LINK SETUP REQUEST message, the DRNS shall apply cell specific transmit diversity configuration and if the Diversity Mode IE is not set to “None” the DRNS shall activate/deactivate the Transmit Diversity for the secondary serving HS-DSCH Radio Link in accordance with the Transmit Diversity Indicator IE in the HS-DSCH FDD Secondary Serving Information IE.]
DL Power Control:
[FDD – If both the Initial DL TX Power IE and Uplink SIR Target IE are included in the message, the DRNS shall use the indicated DL TX Power and Uplink SIR Target as initial value. If the value of the Initial DL TX Power IE is outside the configured DL TX power range, the DRNS shall apply these constraints when setting the initial DL TX power. The DRNS shall also include the configured DL TX power range defined by Maximum DL TX Power IE and Minimum DL TX Power IE in the RADIO LINK SETUP RESPONSE message. The DRNS shall not transmit with a power higher than indicated by the Maximum DL TX Power IE or lower than indicated by the Minimum DL TX Power IE on any DL DPCH or on the F-DPCH of the RL except, if the UE Context is configured to use DPCH in the downlink, during compressed mode, when the Pcurr, as described in TS 25.214 [10] subclause 5.2.1.3, shall be added to the maximum DL power for the associated compressed frame.]
[FDD – If both the Initial DL TX Power and the Uplink SIR Target IEs are not included in the RADIO LINK SETUP REQUEST message, then DRNC shall determine the initial Uplink SIR Target and include it in the Uplink SIR Target IE in the RADIO LINK SETUP RESPONSE message.]
[TDD – The DRNC shall use the Uplink SIR Target CCTrCH IEs in the RADIO LINK SETUP RESPONSE message to indicate for any UL CCTrCH an Uplink SIR Target value in case this is deviating from the value included in the Uplink SIR Target IE specified for the Radio Link. If in any [3.84Mcps TDD – UL CCTrCH Information IE] [1.28Mcps TDD – UL CCTrCH Information LCR IE] [7.68Mcps TDD – UL CCTrCH Information 7.68 Mcps IE] the Uplink SIR Target CCTrCH IE is not included, the value of the Uplink SIR Target IE shall apply to the respective UL CCTrCH.]
[FDD – If the Primary CPICH Ec/No IE is present, the DRNC should use the indicated value when deciding the Initial DL TX Power. If the Enhanced Primary CPICH Ec/No IE is present, the DRNC should use the indicated value when deciding the Initial DL Tx Power.]
[TDD – If [3.84Mcps TDD and 7.68 Mcps TDD – the DL Time Slot ISCP Info IE] [1.28Mcps TDD – the DL Time Slot ISCP Info LCR IE] is present, the DRNSshould use the indicated value when deciding the Initial DL TX Power for the Radio Link. The DRNS shall use the indicated DL Timeslot ISCP when determining the initial DL power per timeslot as specified in TS 25.224 [22], i.e. it shall reduce the DL TX power in those downlink timeslots of the radio link where the interference is low, and increase the DL TX power in those timeslots where the interference is high, while keeping the total downlink power in the radio link unchanged.]
[TDD – If the Primary CCPCH RSCP Delta IE is included, the DRNS should assume that the reported value for Primary CCPCH RSCP is in the negative range as per TS 25.123 [24], and the value is equal to the Primary CCPCH RSCP Delta IE. If the Primary CCPCH RSCP Delta IE is not included and the Primary CCPCH RSCP IE is included, the DRNS should assume that the reported value is in the non-negative range as per TS 25.123 [24], and the value is equal to the Primary CCPCH RSCP IE. The DRNS should use the indicated value when deciding the Initial DL TX Power for the Radio Link.]
[3.84 Mcps TDD and 7.68 Mcps TDD – The DL TX power upper and lower limit is configured in the following way:]
-	[3.84 Mcps TDD and 7.68 Mcps TDD – The DRNC shall include the Maximum DL TX Power IE and Minimum DL TX Power IE in the RADIO LINK SETUP RESPONSE message. If the maximum or minimum power needs to be different for particular DCH type CCTrCHs, the DRNC shall include the value(s) for that CCTrCH in the CCTrCH Maximum DL TX Power IE and CCTrCH Minimum DL TX Power IE. The DRNS shall not transmit with a higher power than indicated by the appropriate Maximum DL TX Power IE/CCTrCH Maximum DL TX Power IE or lower than indicated by the appropriate Minimum DL TX Power IE/CCTrCH Minimum DL TX Power IE on any DL DPCH within each CCTrCH of the RL.]
[1.28 Mcps TDD – The DL TX power upper and lower limit is configured in the following way:]
-	[1.28 Mcps TDD – The DRNC shall include the Maximum DL TX Power IE and Minimum DL TX Power IE in the RADIO LINK SETUP RESPONSE message. If the maximum or minimum power needs to be different for particular timeslots within a DCH type CCTrCH, the DRNC shall include the value(s) for that timeslot in the Maximum DL TX Power IE and Minimum DL TX Power IE within the DL Timeslot Information LCR IE. The DRNS shall not transmit with a higher power than indicated by the appropriate Maximum DL TX Power IE or lower than indicated by the appropriate Minimum DL TX Power IE on any DL DPCH within each timeslot of the RL.]
[1.28McpsTDD – If the TSTD Support Indicator IE is present, the DRNS shall apply this information when configuring the transmit diversity for the new radio link.]
[FDD – The DRNS shall start any DL transmission using the indicated DL TX power level (if received) or the decided DL TX power level on each DL channelisation code or on the F-DPCH of a RL until UL synchronisation is achieved on the Uu interface for the concerned RLS or Power Balancing is activated. No inner loop power control or power balancing shall be performed during this period. The DL power shall then vary according to the inner loop power control (see TS 25.214 [10] subclause 5.2.1.2) and the power control procedure (see 8.3.15).]
[TDD – The DRNS shall start any DL transmission using the decided DL TX power level on each DL channelisation code and on each Time Slot of a RL until UL synchronisation is achieved on the Uu interface for the concerned RL. No inner loop power control shall be performed during this period. Then after UL synchronisation, the DL power shall vary according to the inner loop power control (see TS 25.224 [22] subclause 4.2.3.3).]
[FDD – If the received Inner Loop DL PC Status IE is set to “Active”, the DRNS shall activate the inner loop DL power control for all RLs. If Inner Loop DL PC Status IE is set to “Inactive”, the DRNS shall deactivate the inner loop DL power control for all RLs according to TS 25.214 [10].]
[FDD – If the DPC Mode IE is present in the RADIO LINK SETUP REQUEST message, the DRNC shall apply the DPC mode indicated in the message, and be prepared that the DPC mode may be changed during the lifetime of the RL. If the DPC Mode IE is not present in the RADIO LINK SETUP REQUEST message, DPC mode 0 shall be applied (see TS 25.214 [10]).]
[FDD – If the RADIO LINK SETUP REQUEST message includes the DL Power Balancing Information IE and the Power Adjustment Type IE is set to “Common” or “Individual”, the DRNS shall activate the power balancing, if activation of power balancing by the RADIO LINK SETUP REQUEST message is supported, according to subclause 8.3.15, using the DL Power Balancing Information IE. If the DRNS starts the DL transmission and the activation of the power balancing at the same CFN, the initial power of the power balancing i.e. Pinit shall be set to the power level indicated by the Initial DL TX Power IE (if received) or the decided DL TX power level on each DL channelisation code of a RL based on the Primary CPICH Ec/No IE or the Enhanced Primary CPICH Ec/No IE.]
[FDD – If activation of power balancing by the RADIO LINK SETUP REQUEST message is supported by the DRNS, the DRNC shall include the DL Power Balancing Activation Indicator IE in the RL Information Response IE in the RADIO LINK SETUP RESPONSE message.]
Neighbouring Cell Handling:
If there are UMTS neighbouring cell(s) to the cell in which a Radio Link was established then:
-	The DRNC shall include in the RADIO LINK SETUP RESPONSE message the Neighbouring FDD Cell Information IE and/or Neighbouring TDD Cell Information IE in the Neighbouring UMTS Cell Information IE for each neighbouring FDD cell and/or TDD cell respectively. In addition, if the information is available, the DRNC shall include in the RADIO LINK SETUP RESPONSE message the Frame Offset IE, Primary CPICH Power IE, Cell Individual Offset IE, STTD Support Indicator IE, Closed Loop Mode1 Support Indicator IE, Coverage Indicator IE, Antenna Co-location Indicator IE and HCS Prio IE in the Neighbouring FDD Cell Information IE, and the Frame Offset IE, Cell Individual Offset IE, DPCH Constant Value IE, the PCCPCH Power IE, Coverage Indicator IE, Antenna Co-location Indicator IE and HCS Prio IE in the Neighbouring TDD Cell Information IE or the Neighbouring TDD Cell Information LCR IE. If the Neighbouring TDD Cell Information IE includes the Sync Case IE for the set to “Case1”, the DRNC shall include the Time Slot For SCH IE in the Neighbouring TDD Cell Information IE. If the Neighbouring TDD Cell Information IE includes Sync Case IE set to “Case2”, the DRNC shall include the SCH Time Slot IE in the Neighbouring TDD Cell Information IE.
-	If a UMTS neighbouring cell is not controlled by the same DRNC, the DRNC shall also include in the RADIO LINK SETUP RESPONSE message the CN PS Domain Identifier IE and/or CN CS Domain Identifier IE which are the identifiers of the CN nodes connected to the RNC controlling the UMTS neighbouring cell.
-	If the information is available, the DRNC shall include in the RADIO LINK SETUP RESPONSE message the DPC Mode Change Support Indicator IE for each neighbour cell in the Neighbouring FDD Cell Information IE. 
-	The DRNC shall include the Cell Capability Container FDD IE, the Cell Capability Container TDD IE, the Cell Capability Container TDD LCR IE and/or the Cell Capability Container Extension FDD IE if the DRNC is aware that the neighbouring cell supports any functionality listed in 9.2.2.D, 9.2.3.1a, 9.2.3.1b and/or the Cell Capability Container Extension FDD IE.
-	[FDD – The DRNC shall, if supported, include the Cell List Validity Indicator IE if the neighbouring cell is multi cell capable and/or dual band capable but the cell can not be the serving HS-DSCH in a multicell and/or dual band configuration. Hence the cell can only serve as the secondary serving HS-DSCH cell. When Cell List Validity Indicator IE is included the SRNC should ignore the indicated cell list(s).]
-	[FDD – For each cell in the Secondary Serving Cell List IE that is Multi Cell E-DCH capable, indicated in the Cell Capability Container Extension FDD IE by the "Multi Cell E-DCH Support Indicator" bit = "1", and is restricted for use as an Additional E-DCH on the secondary uplink frequency with the cell identified by the C-ID IE as the corresponding cell of the primary uplink frequency, the DRNS shall, if supported, include the Multicell E-DCH Restriction IE set to "TRUE".]
-	[FDD – For each cell in the Dual Band Secondary Serving Cell List IE that is Dual Band E-DCH capable, indicated in the Cell Capability Container FDD IE by the "Dual Band E-DCH Support Indicator" bit = "1", and is restricted for use as an Additional E-DCH on the secondary uplink frequency with the cell identified by the C-ID IE as the corresponding cell of the primary uplink frequency, the DRNS shall, if supported, include the Multicell E-DCH Restriction IE set to "TRUE".]
-	For the UMTS neighbouring cells which are controlled by the DRNC, the DRNC shall report in the RADIO LINK SETUP RESPONSE message the restriction state of those cells, otherwise the Restriction State Indicator IE may be absent. The DRNC shall include in the RADIO LINK SETUP RESPONSE message the Restriction State Indicator IE for the neighbouring cells which are controlled by the DRNC in the Neighbouring FDD Cell Information IE, the Neighbouring TDD Cell Information IE and the Neighbouring TDD Cell Information LCR IE.
-	If MOCN or GWCN network sharing configuration is used then the DRNC shall include the broadcasted PLMN identities of the concerned neighbouring cells in the Multiple PLMN List IE in the Neighbouring FDD Cell Information IE, the Neighbouring TDD Cell Information IE and the Neighbouring TDD Cell Information LCR IE.
-	If available, the DRNC shall include the SNA Information IE for the concerned neighbouring cells in the Neighbouring FDD Cell Information IE, the Neighbouring TDD Cell Information IE and the Neighbouring TDD Cell Information LCR IE.
-	If available, the DRNC shall include the Frequency Band Indicator IE and Multiple Frequency Bands Indicator List IE for the concerned neighbouring cells in the Neighbouring FDD Cell Information IE.
-	If the number of neighbouring UMTS RNCs is beyond the predefined maximum number, the DRNC shall, if supported, include the remaining neighbouring information in the Neighbouring UMTS Cell Information Extension IE. The IE filling rules in the Neighbouring UMTS Cell Information shall also apply to the Neighbouring UMTS Cell Information Extension IE.
If there are GSM neighbouring cells to the cell(s) where a radio link is established, the DRNC shall include in the RADIO LINK SETUP RESPONSE message the Neighbouring GSM Cell Information IE for each of the GSM neighbouring cells. If available the DRNC shall include in the RADIO LINK SETUP RESPONSE message the Cell Individual Offset IE, and if the Cell Individual Offset IE alone cannot represent the value of the offset, the DRNC shall also include the Extended GSM Cell Individual Offset IE in the Neighbouring GSM Cell Information IE. If available the DRNC shall also include in the RADIO LINK SETUP RESPONSE message the Coverage Indicator IE, Antenna Co-location Indicator IE and HCS Prio IE in the Neighbouring GSM Cell Information IE. If available, the DRNC shall also include the SNA Information IE for the concerned neighbouring cells in the Neighbouring GSM Cell Information IE. If network sharing configuration is used then the DRNC may include the broadcasted PLMN identities of the concerned neighbouring cells in the PLMN List IE in the Neighbouring GSM Cell Information IE.
When receiving the SNA Information IE in the RADIO LINK SETUP RESPONSE message, the SRNC should use it to restrict cell access based on SNA information. See also TS 25.401 [40] for a broader description of the SNA access control.
If there are GERAN neighbouring cells to the cell(s) where a radio link is established, the DRNC shall include the GERAN Cell Capability IE in the Neighbouring GSM Cell Information IE that is included in the RADIO LINK SETUP RESPONSE message for each of the GERAN cells.
If there are GERAN Iu-mode neighbouring cells to the cell(s) where a radio link is established, the DRNC shall include, if available, the GERAN Classmark IE in the Neighbouring GSM Cell Information IE that is included in the RADIO LINK SETUP RESPONSE message for each of the GERAN Iu-mode neighbouring cells. TS 43.051 [39] defines when the transmission of the GERAN Classmark IE will be required at the initiation of the Relocation Preparation procedure.
If there are E-UTRA neighbouring cells to the cell(s) where a radio link is established, the DRNC shall include in the RADIO LINK SETUP RESPONSE message the Neighbouring E-UTRA Cell Information IE for each of the E-UTRA neighbouring cells, and may also include the PCI IE, TAC IE, the PLMN List IE and the Multiple E-UTRA Frequency Bands Indicator List IE in the Neighbouring E-UTRA Cell Information IE in the RADIO LINK SETUP RESPONSE message.
[1.28Mcps TDD – Uplink Synchronisation Parameters LCR:]
[1.28Mcps TDD – If the UL Synchronisation Parameters LCR IE is present, the DRNC shall use the indicated values of Uplink synchronisation stepsize IE and Uplink synchronisation frequency IE when evaluating the timing of the UL synchronisation.]
[1.28Mcps TDD – Shared physical channels Synchronisation Detection:]
[1.28Mcps TDD – If HS-PDSCH and E-PUCH are configured but no DPCH is configured for the UE, then the DRNS shall also include the Out-of-sync Detection Window IE in the HS-DSCH TDD Information Response IE in the RADIO LINK SETUP RESPONSE message.]
[1.28Mcps TDD – Uplink Timing Advance Control LCR:]
[1.28Mcps TDD – The DRNC shall include the Uplink Timing Advance Control LCR IE in the RADIO LINK SETUP RESPONSE message.]
[1.28Mcps TDD – PowerControl GAP:]
[1.28Mcps TDD – If applied in the DRNS, the DRNC may include the PowerControl GAP IE in the RADIO LINK SETUP RESPONSE message.]
[1.28Mcps TDD – E-UTRAN Inter-RAT measurement:]
[1.28Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the Idle Interval Configuration Indicator IE, if supported, the DRNC shall include the Idle Interval Information IE in the RADIO LINK SETUP RESPONSE message.]
[1.28Mcps TDD – RNTI Allocation Indicator:]
[1.28Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the RNTI Allocation Indicator IE, if supported, the DRNS may allocate an E-RNTI and/or an H-RNTI for UE to use in CELL_FACH state.]
[1.28Mcps TDD – Inter-frequency/ Inter-RAT measurement:]
[1.28Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the DCH Measurement Type indicator IE, if supported, the DRNS shall include the Measurement purpose IE and the Measurement occasion pattern sequence parameters IE in the DCH Measurement Occasion Information IE in the RADIO LINK SETUP RESPONSE message to configure the measurement occasion pattern(s) indicated by the DCH Measurement Type indicator IE.]
[1.28Mcps TDD – Non-rectangular resource operation:]
[1.28Mcps TDD - If the RADIO LINK SETUP REQUEST message contains the UE support of non-rectangular resource allocation IE, the DRNS shall, if supported, use this information to determine whether includes the Non-rectangular resource allocation indicator IE and the Non-rectangular resource timeslot set IE or not.]
MBMS Handling:
If the MBMS Bearer Service List IE is included in the RADIO LINK SETUP REQUEST message, the DRNC shall, if supported, perform the UE Linking as specified in TS 25.346 [50], section 5.1.6. If the UE Link is currently stored in the UE Context or the MBMS Bearer Service List IE is included in the RADIO LINK SETUP REQUEST message and if an MBMS session for some MBMS bearer services contained in the UE Link is ongoing in some of the cells identified by the C-ID IEs in the RADIO LINK SETUP REQUEST message, the DRNC shall include for each of these active MBMS bearer services in the Active MBMS Bearer Service List IE the Transmission Mode IE in the concerned RL Information Response IEs in the RADIO LINK SETUP RESPONSE message.
If the UE Link is currently stored in the UE Context or the MBMS Bearer Service List IE is included in the RADIO LINK SETUP REQUEST message and if an MBMS preferred frequency layer for some active MBMS bearer services contained in the UE Link is set in some of the cells identified by the C-ID IEs in the RADIO LINK SETUP REQUEST message, the DRNC shall include for each of these active MBMS bearer services in the Active MBMS Bearer Service List IE the Preferred Frequency Layer IE in the concerned RL Information Response IEs in the RADIO LINK SETUP RESPONSE message.
[FDD – HS-DSCH Preconfiguration for Enhanced HS Serving Cell Change]
[FDD – If the RADIO LINK SETUP REQUEST message includes the HS-DSCH Preconfiguration Setup IE in the RL Information IE for a Radio Link not indicated by the HS-PDSCH RL ID IE the DRNS shall if supported preconfigure the indicated cells for Enhanced HS Serving Cell Change acoording to TS 25.308 [63]: ]
-	[FDD – The DRNS shall preconfigure sets of HS-SCCH codes on the cells preconfigured for HS-DSCH, primary serving HS-DSCH cell, as well as on the secondary serving HS-DSCH cells. The primary serving HS-DSCH cell is designated through the C-ID IE part of the RL Information IE in the RADIO LINK SETUP REQUEST message. The list of secondary serving HS-DSCH cells is designated by the list of Secondary C-ID IEs in the HS-DSCH Preconfiguration Setup IE part of the RL Information IE in the RADIO LINK SETUP REQUEST message. ]
-	[FDD – The number of HS-SCCH codes to preconfigure for each cell may be optionally specified: ]
-	[FDD – by the Num Primary HS-SCCH Codes IE in the HS-DSCH Preconfiguration Setup IE, for the primary serving HS-DSCH cell.]
-	[FDD – by the Num Secondary HS-SCCH Codes IE in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE for each of the secondary serving HS-DSCH cells.]
-	[FDD –If Num Primary HS-SCCH Codes IE or Num Secondary HS-SCCH Codes IE is not included in the message the number and distribution of codes on primary and any secondary cells shall be preconfigured to satisfy any limitations in TS 25.214 [10]. ]
-	[FDD – The DRNS shall return these codes in the Sets of HS-SCCH Codes IE along with the corresponding per-cell HS-DSCH-RNTI IE in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE of the RADIO LINK SETUP RESPONSE message or in the Successful RL Information Response IE of the RADIO LINK SETUP FAILURE message. ]
-	[FDD – The DRNS shall use the first in the numbered list of the primary serving HS-DSCH cell’s HS-SCCH codes in the HS-SCCH Preconfigured Codes IE sent to the SRNC to signal the Target Cell HS-SCCH Order defined in TS 25.331 [16].]
-	[FDD – The DRNS shall include, in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE in the RADIO LINK SETUP RESPONSE message or in the Successful RL Information Response IE of the RADIO LINK SETUP FAILURE message, IEs according to the rules defined for HS-DSCH setup and: ]
-	[FDD – if HARQ Preamble Mode IE is included in the HS-DSCH Preconfiguration Setup IE the HARQ Preamble Mode Activation Indicator IE.]
-	[FDD – if Ordinal number of frequency IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE.]
-	[FDD – if MIMO Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE the Pilot Configuration and MIMO N/M Ratio in MIMO Information Response IE.]
-	[FDD – if MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE the Pilot Configuration and MIMO N/M Ratio in MIMO Information Response IE]
-	[FDD – if Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE the Pilot Configuration and MIMO N/M Ratio in MIMO Information Response IE]
-	[FDD – if Multiflow ordinal number of frequency IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE.]
-	[FDD – if HS-DSCH MAC-d PDU Size Format IE is included in the HS-DSCH Preconfiguration Setup IE and set to “Flexible MAC-d PDU Size” and if Sixtyfour QAM will not be used in the preconfiguration, the HS-DSCH TB Size Table Indicator IE for each preconfigured cell.]
-	[FDD – if Sixtyfour QAM Usage Allowed Indicator IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE or in the HS-DSCH Preconfiguration Setup IE the SixtyfourQAM DL Usage Indicator IE for each preconfigured cell.]
-	[FDD – if Continuous Packet Connectivity HS-SCCH less Information IE is included in the HS-DSCH Preconfiguration Setup IE the Continuous Packet Connectivity HS-SCCH less Information Response IE.]
-	[FDD – if the UE with enhanced HS-SCCH support indicator IE is included in the HS-DSCH Preconfiguration Setup IE, then the DRNS shall store this information in the preconfigured configuration.]
-	[FDD - If the UE Support Indicator Extension IE is included in the HS-DSCH Preconfiguration Setup IE with the bit UE DTXDRX related HS-SCCH orders uniform behavior indicator set to 0, then the DRNS shall, if supported, include the Support of Dynamic DTXDRX Related HS-SCCH Order IE in the HS-DSCH Preconfiguration Info IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – the SixtyfourQAM DL Support Indicator IE shall be included.]
-	[FDD – if the UE Support Indicator Extension IE is included in the HS-DSCH Preconfiguration Setup IE, then the DRNS may store this information in the preconfigured configuration.]
-	[FDD – the DRNS shall, if supported, include in the Sets of HS-SCCH Codes IE the Measurement Power Offset IE for each preconfigured cell.]
-	[FDD – The DRNS shall include in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE in the RADIO LINK SETUP RESPONSE message or in the Successful RL Information Response IE of the RADIO LINK SETUP FAILURE message the E-DCH FDD DL Control Channel Information containing the preconfigured configuration of the E-DCH serving cell according to the rules defined for Serving E-DCH Radio Link Change as follows: ]
-	[FDD – The DRNS shall allocate for the preconfigured configuration a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE.]
-	[FDD – The DRNS may preconfigure the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the serving E-DCH RL and include these values in the E-DCH FDD DL Control Channel Information IE.]
-	[FDD –If the HS-DSCH Preconfiguration Setup IE includes the E-DCH Indicator IE for a secondary cell, the DRNS shall include in the Additional E-DCH Preconfiguration Information IE in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE in the RADIO LINK SETUP RESPONSE message or in the Successful RL Information Response IE of the RADIO LINK SETUP FAILURE message the E-DCH FDD DL Control Channel Information containing the preconfigured configuration of the Additional E-DCH serving cell, corresponding to the cell indicated with the E-DCH Indicator IE, according to the rules defined for Serving Additional E-DCH Radio Link Change as follows:]
-	[FDD – The DRNS shall allocate for the preconfigured configuration a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Serving Additional E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE. ]
-	[FDD – The DRNS may preconfigure the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the serving Additional E-DCH RL and include these values in the E-DCH FDD DL Control Channel Information IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included in the HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where HS-DSCH / secondary HS-DSCH is preconfigured, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH Preconfiguration Info IE or in the Sets of HS-SCCH Codes IE in the HS-DSCH Preconfiguration Info IE for each preconfigured cell in the RADIO LINK SETUP RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the Multiflow Information IE, then the DRNC shall allocate resources for the preconfigured Multiflow.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the F-TPICH Information IE, then the DRNC shall allocate resources for the preconfigured F-TPICH channel and include F-TPICH Information Response IE in the HS-DSCH Preconfiguration Info IE.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the UL CLTD Information IE, then the DRNC shall allocate resources for the preconfigured UL CLTD.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the UL MIMO Information IE, then the DRNC shall allocate resources for the preconfigured UL MIMO.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the SixteenQAM UL Operation Indicator IE, then the DRNC shall allocate resources for the preconfigured UL Sixteen QAM.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the SixtyfourQAM UL Operation Indicator IE, then the DRNC shall allocate resources for the preconfigured UL Sixtyfour QAM.]
[FDD – If the RADIO LINK SETUP REQUEST message includes the Non-Serving RL Preconfiguration Setup IE in the RL Information IE and:]
-	[FDD – if the choice of new Serving RL is "New Serving RL in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE and/or New non-serving RL E-DCH FDD DL Control Channel Information B IE in the Non-Serving RL Preconfiguration Info IE for the RL in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – if the choice of new Serving RL is "New Serving RL Not in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information C IE in the Non-Serving RL Preconfiguration Info IE for the RL in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – if the choice of new Serving RL is "New Serving RL in the DRNS or New Serving RL Not in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE, the New non-serving RL E-DCH FDD DL Control Channel Information B IE and/or the New non-serving RL E-DCH FDD DL Control Channel Information C IE for the RL in the Non-Serving RL Preconfiguration Info IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD – if the Additional E-DCH Non-Serving RL Preconfiguration Setup IE is included, the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE, the New non-serving RL E-DCH FDD DL Control Channel Information B IE and/or the New non-serving RL E-DCH FDD DL Control Channel Information C IE according to the choice of new Serving RL in Additional E-DCH New non-serving RL E-DCH FDD DL Control Channel Information IE for the additional non serving E-DCH RL in the Non-Serving RL Preconfiguration Info IE in the RADIO LINK SETUP RESPONSE message.]
-	[FDD –If the F-TPICH Information IE is included, the DRNC shall use this information to allocate resources for the preconfigured F-TPICH channel for this RL in the serving RLS according to TS 25.211 [8], and include F-TPICH Information Response IE in the Non-Serving RL Preconfiguration Info IE.]
[FDD – Downlink TPC enhancements]
[FDD –If the RADIO LINK SETUP REQUEST message includes the Downlink TPC enhancements Information IE, then:]
-	[FDD – The DRNS shall, if supported, use the Decimation factor for primary frequency IE and/or the Decimation factor for secondary frequency IE to configure all the radio links using F-DPCH on the related frequency with power control Algorithm 3.]
[FDD - If the TPC slot position in the RL Information is included in the RADIO LINK SETUP REQUEST message, the DRNS shall, if supported, use it for power control Algorithm 3.]
[FDD - If the TPC slot position in the Additional E-DCH Cell Information RL Setup Req is included in the RADIO LINK SETUP REQUEST message, the DRNS shall, if supported, use it for power control Algorithm 3.]
General:
If the RADIO LINK SETUP REQUEST message includes the RL Specific DCH Information IE, the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the DCH or the set of co-ordinated DCHs [FDD – for every DCH being established for which the Transport Bearer Not Requested Indicator IE was not included].
If no D-RNTI IE was included in the RADIO LINK SETUP REQUEST message, the DRNC shall include in the RADIO LINK SETUP RESPONSE message the D-RNTI IE, the CN PS Domain Identifier IE and/or the CN CS Domain Identifier IE for the CN domains (using LAC and RAC of the current cell) to which the DRNC is connected.
[1.28 Mcps TDD – If no D-RNTI IE was included in the RADIO LINK SETUP REQUEST message, the DRNC could include in the RADIO LINK SETUP RESPONSE message the UARFCN IE.]
[FDD – If the D-RNTI IE was included in the RADIO LINK SETUP REQUEST message the DRNC shall include in the RADIO LINK SETUP RESPONSE message the Primary Scrambling Code IE, the UL UARFCN IE and the DL UARFCN IE.]
[TDD – If the D-RNTI IE was included in the RADIO LINK SETUP REQUEST message the DRNC shall include in the RADIO LINK SETUP RESPONSE message the UARFCN IE, the Cell Parameter ID IE and the SCTD Indicator IE.]
[3.84Mcps TDD and 7.68 Mcps TDD – If the D-RNTI IE was included in the RADIO LINK SETUP REQUEST message the DRNC shall include in the RADIO LINK SETUP RESPONSE message the Sync Case IE and if the Sync Case IE is set to “Case 2”, the DRNC shall also include the SCH Time Slot IE in the RADIO LINK SETUP RESPONSE message. If the included Sync Case IE is set to “Case1”, the DRNC shall also include the Time Slot For SCH IE.]
[3.84Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD IE in the RADIO LINK SETUP RESPONSE message if at least one DSCH Information Response IE or USCH Information Response IE is included in the message and at least one DCH is configured for the radio link. The DRNC shall also include the Secondary CCPCH Info TDD IE in the RADIO LINK SETUP RESPONSE message if at least one DSCH Information Response IE or USCH Information Response IE is included in the message and the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
[1.28 Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD LCR IE in the RADIO LINK SETUP RESPONSE message if at least one DSCH Information Response LCR IE or USCH Information Response LCR IE is included in the message and at least one DCH is configured for the radio link. The DRNC shall also include the Secondary CCPCH Info TDD LCR IE in the RADIO LINK SETUP RESPONSE message if at least one DSCH Information Response LCR IE or USCH Information Response LCR IE is included in the message and the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
[7.68 Mcps TDD – The DRNC shall include the Secondary CCPCH Info 7.68Mcps TDD IE in the RADIO LINK SETUP RESPONSE message if at least one DSCH Information Response 7.68 Mcps IE or USCH Information Response 7.68 Mcps IE is included in the message and at least one DCH is configured for the radio link. The DRNC shall also include the Secondary CCPCH Info 7.68Mcps TDD IE in the RADIO LINK SETUP RESPONSE message if at least one DSCH Information Response 7.68 Mcps IE or USCH Information Response 7.68 Mcps IE is included in the message and the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
For each Radio Link established in a cell in which at least one URA Identity is being broadcast, the DRNC shall include in the URA Information IE within the RADIO LINK SETUP RESPONSE message URA Innformation for this cell including the URA ID IE, the Multiple URAs Indicator IE indicating whether or not multiple URA Identities are being broadcast in the cell, and the RNC-ID Iesof all other RNCs that have at least one cell within the URA identified by the URA ID IE.
Depending on local configuration in the DRNS, the DRNC may include in the RADIO LINK SETUP RESPONSE message the UTRAN Access Point Position IE and the geographical co-ordinates of the cell, represented either by the Cell GAI IE or by the Cell GA Additional Shapes IE. If the DRNC includes the Cell GA Additional Shapes IE in the RADIO LINK SETUP RESPONSE message, it shall also include the Cell GAI IE.
If the DRNS need to limit the user rate in the uplink of a DCH due to congestion caused by the UL UTRAN Dynamic Resources (see subclause 9.2.1.79) when starting to utilise a new Radio Link, the DRNC shall include in the RADIO LINK SETUP RESPONSE message the Allowed UL Rate IE in the DCH Information Response IE for this Radio Link.
If the DRNS need to limit the user rate in the downlink of a DCH due to congestion caused by the DL UTRAN Dynamic Resources (see subclause 9.2.1.79) when starting to utilise a new Radio Link, the DRNC shall include in the RADIO LINK SETUP RESPONSE message the Allowed DL Rate IE in the DCH Information Response IE for this Radio Link.
If the Permanent NAS UE Identity IE is included in the RADIO LINK SETUP REQUEST message, the DRNS shall store the information for the considered UE Context for the life-time of the UE Context.
If the RADIO LINK SETUP REQUEST message includes the Permanent NAS UE Identity IE and a C-ID IE corresponding to a cell reserved for operator use, the DRNS shall use this information to determine whether it can set up a Radio Link on this cell or not for the considered UE Context.
If the HCS priority information is available in the DRNS, it shall include the HCS Prio IE for each of the established RLs in the RADIO LINK SETUP RESPONSE message.
The DRNS shall start receiving on the new RL(s) after the RLs are successfully established.
[FDD – If the RADIO LINK SETUP REQUEST message includes the Cell Portion ID IE, the DRNS shall use this information when it decides to use beamforming for the new RL.] 
[1.28 Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the Cell Portion LCR ID IE, the DRNS shall use this information when it decides to allocate physical resource for the new RL.]
[FDD – If the RADIO LINK SETUP REQUEST message includes the Initial DL DPCH Timing Adjustment Allowed IE, then the DRNS may perform an initial DL DPCH Timing Adjustment (i.e. perform a timing advance or a timing delay with respect to the SFN timing) on a Radio Link. In this case, the DRNS shall include, for the concerned Radio Link(s), the Initial DL DPCH Timing Adjustment IE in the Radio Link Information Response IE in the RADIO LINK SETUP RESPONSE message.]
[FDD – If the RADIO LINK SETUP REQUEST message includes the D-RNTI IE which already has a RL and Synchonisation Indicator IE, the DRNC shall ignore the value in the Frame Offset IE and Chip Offset IE in the RADIO LINK SETUP REQUEST message and shall include in the Frame Offset IE and Chip Offset IE the values used for already established RL in the RADIO LINK SETUP RESPONSE message.]
[FDD - If the RADIO LINK SETUP REQUEST message includes the F-TPICH Information IE in the RL Information IE, the DRNS shall use this information to configure the F-TPICH of the RL according to TS 25.211 [7] and TS 25.214 [10], and shall include the F-TPICH Information Response IE in the RADIO LINK SETUP RESPONSE message.]
[FDD – Radio Link Set Handling:]
[FDD – The First RLS Indicator IE indicates if the concerned RL shall be considered part of the first RLS established towards this UE. The DRNS shall use the First RLS Indicator IE to determine the initial TPC pattern in the DL of the concerned RL and all RLs which are part of the same RLS, as described in TS 25.214 [10], section 5.1.2.2.1.2.]
[FDD – For each RL not having a common generation of the TPC commands in the DL with another RL, the DRNS shall assign to the RL a unique value for the RL Set ID IE which uniquely identifies the RL as an RL Set within the UE Context. In case of E-DCH, the generation of E-HICH related information for RLs in different RL Set(s) shall not be common.]
[FDD – For all RLs having a common generation of the TPC commands in the DL with another RL, the DRNS shall assign to each RL the same value for the RL Set ID IE which uniquely identifies these RLs as members of the same RL Set within the UE Context. In case of E-DCH, the generation of E-HICH information for all RLs in a RL Set shall be common.]
[FDD –The UL oout-of-sync algorithm defined in TS 25.214 [10] shall, for each of the established RL Set(s), use the maximum value of the parameters N_OUTSYNC_IND and T_RLFAILURE that are configured in the cells supporting the radio links of the RL Set. The UL in-sync algorithm defined in TS 25.214 [10] shall, for each of the established RL Set(s), use the minimum value of the parameters N_INSYNC_IND that are configured in the cells supporting the radio links of the RL Set.]
[FDD – For each E-DCH RL which has or can have a common generation of E-RGCH information with another RL (current or future) when the DRNS would contain the E-DCH serving RL, the DRNS shall include the E-DCH RL Set ID IE in the RADIO LINK SETUP RESPONSE message. The value of the E-DCH RL Set ID IE shall allow the SRNC to identify the E-DCH RLs that have or can have a common generation of E-RGCH information.]
[FDD – Radio Links without DPCH/F-DPCH operation]
[FDD – If the Radio Links without DPCH/F-DPCH Indication IE is present in the RADIO LINK SETUP REQUEST message:]
-	[FDD – The DRNS shall if supported start operation with Radio Links without DPCH/F-DPCH.]
[TDD – E-DCH:]
[TDD – If the [3.84Mcps – E-DCH Information IE][1.28Mcps – E-DCH Information 1.28Mcps IE][7.68Mcps TDD – E-DCH Information 7.68Mcps IE] is present in the RADIO LINK SETUP REQUEST message:]
-	[TDD – The DRNS shall setup the requested E-DCH resources on the Radio Link indicated by the E-DCH Serving RL IE.]
-	[TDD – If the TNL QoS IE is included in the E-DCH MAC-d Flows Information TDD IE for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[TDD – If the RADIO LINK SETUP REQUEST message includes the Transport Layer Address IE and Binding ID IE in the E-DCH MAC-d Flows Information TDD IE for an E-DCH MAC-d flow, then the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the concerned E-DCH MAC-d flow.]
-	[TDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH MAC-d Flow Multiplexing List IE for an E-DCH MAC-d flow in the E-DCH MAC-d Flows Information TDD IE, the DRNS shall use this information for the related resource allocation operation.]
-	[TDD – If in the RADIO LINK SETUP REQUEST message the E-DCH Grant Type IE in the E-DCH MAC-d Flows Information TDD IE is set to “Non-scheduled” for an E-DCH MAC-d flow the DRNS shall assume non-scheduled grants are configured for that E-DCH MAC-d flow.]
-	[TDD – If in the RADIO LINK SETUP REQUEST message the E-DCH Grant Type IE in the E-DCH MAC-d Flows Information TDD IE is set to “Scheduled” the DRNS shall assume that it may issue scheduled grants for the concerned E-DCH MAC-d flow.]
-	[TDD – If the RADIO LINK SETUP REQUEST message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flows Information TDD IE, then the DRNS shall use this information to optimise MAC-e scheduling decisions for the related queue.]
-	[1.28Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the MAC-es Maximum Bit Rate LCR IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flows Information TDD IE, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[TDD – If the RADIO LINK SETUP REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information TDD IE in the E-DCH Information IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel and use the indicated format in user plane frame structure for E-DCH channels (TS 25.425 [32]) and MAC (TS 25.321 [41]).]
-	[3.84Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH TDD Maximum Bitrate IE in the E-DCH TDD Information IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[1.28Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH Physical Layer Category LCR IE or Extended E-DCH Physical Layer Category LCR IE in the E-DCH TDD Information LCR IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[7.68Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH TDD Maximum Bitrate 7.68Mcps IE in the E-DCH TDD Information 7.68Mcps IE for an E-DCH, the Node B shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[3.84Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH Processing Overload Level IE in the E-DCH TDD Information IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[7.68Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH Processing Overload Level IE in the E-DCH TDD Information 7.68Mcps IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[1.28Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the E-DCH Processing Overload Level IE in the E-DCH TDD Information LCR IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[TDD – The DRNS may use the Traffic Class IE for a specific E-DCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B.]
-	[TDD – If the RADIO LINK SETUP REQUEST message includes the [3.84Mcps TDD – E-DCH TDD Information IE][1.28Mcps TDD – E-DCH TDD Information LCR IE] in the E-DCH MAC-d Flows Information TDD IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
-	[1.28Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the Maximum Number of Retransmission for Scheduling Info LCR IE and the E-DCH Retransmission timer for Scheduling Info LCR IE in the E-DCH TDD Information LCR IE, then the DRNS shall use these parameters for the transmission of scheduling information without any MAC-d PDUs.]
-	[3.84Mcps TDD – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information TDD IE in the E-DCH Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[3.84Mcps TDD – The DRNS shall allocate an E-RNTI identifier and include the E-RNTI identifier and the E-AGCH(s) assigned in the E-DCH Information Response IE in the RADIO LINK SETUP RESPONSE message.]
-	[1.28Mcps TDD – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information LCR TDD IE in the E-DCH Information Response 1.28Mcps IE in the RADIO LINK ADDITION RESPONSE message.]
-	[1.28Mcps TDD – The DRNS shall allocate an E-RNTI identifier and include the E-RNTI identifier, the E-AGCH(s) and E-HICH(s) assigned in the E-DCH Information Response 1.28Mcps IE in the RADIO LINK SETUP RESPONSE message.]
-	[7.68Mcps TDD – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information 7.68Mcps TDD IE in the E-DCH Information Response 7.68Mcps IE in the RADIO LINK SETUP RESPONSE message.]
-	[7.68Mcps TDD – The DRNS shall allocate an E-RNTI identifier and include the E-RNTI identifier and the E-AGCH(s) assigned in the E-DCH Information Response 7.68Mcps IE in the RADIO LINK SETUP RESPONSE message.]
-	[1.28Mcps TDD – If the RADIO LINK SETUP REQUEST message includes the Multi-Carrier E-DCH Physical Layer Category LCR IE in the E-DCH TDD Information LCR IE, the DRNS shall use this information for the related resource allocation operation, and when applicable, for multi-carrier E-DCH scheduling.]
-	[1.28Mcps TDD - If the UE TS0 Capability LCR IE in the UE Capabilities Information IE in the HS-DSCH Information IE is not present and if the RADIO LINK SETUP REQUEST message includes the UE TS0 Capability LCR IE in the E-DCH TDD Information LCR IE, the DRNS can use this information to allocate the downlink resources for the UE according to TS 25.306 [42].]
Response Message:
Upon receipt of the RADIO LINK SETUP REQUEST message, the DRNS allocates the requested type of channelisation codes and other physical channel resources for each RL and assigns a binding identifier and a transport layer address for each DCH, for each set of co-ordinated DCHs [TDD – and for each DSCH and USCH]. This information shall be sent to the SRNC in the RADIO LINK SETUP RESPONSE message when all the RLs have been successfully established.
[1.28 Mcps TDD – if the DRNS assigns one or more PLCCH sequence numbers to the radio link, then the PLCCH assignment(s) shall be sent to the SRNC in the RADIO LINK SETUP RESPONSE message.]
After sending the RADIO LINK SETUP RESPONSE message the DRNS shall continuously attempt to obtain UL synchronisation on the Uu interface and start reception on the new RL.
For each RL for which the Delayed Activation IE is not included in the RADIO LINK SETUP REQUEST message the DRNS shall:
-	[FDD – start transmission on the DL DPDCH(s) of the new RL as specified in TS 25.427 [4].]
-	[TDD – start transmission on the new RL immediately as specified in TS 25.427 [4].]
For each RL for which the Delayed Activation IE is included in the RADIO LINK SETUP REQUEST message, the DRNS shall:
-	if the Delayed Activation IE indicates “Separate Indication”:
-	not start any DL transmission for the concerned RL on the Uu interface.
-	if the Delayed Activation IE indicates “CFN”:
-	[FDD – start transmission on the DL DPDCH(s) of the new RL as specified in TS 25.427 [4], however never before the CFN indicated in the Activation CFN IE.]
-	[TDD – start transmission on the new RL at the CFN indicated in the Activation CFN IE as specified in TS 25.427 [4].]
8.3.1.3	Unsuccessful Operation

Figure 6: Radio Link Setup procedure: Unsuccessful Operation
If the establishment of at least one radio link is unsuccessful, the DRNC shall respond with a RADIO LINK SETUP FAILURE message. The DRNC shall include in the RADIO LINK SETUP FAILURE message a general Cause IE or a Cause IE for each failed radio link. The Cause IE indicates the reason for failure. 
[FDD – If some radio links were established successfully, the DRNC shall indicate this in the RADIO LINK SETUP FAILURE message in the same way as in the RADIO LINK SETUP RESPONSE message.]
If the RADIO LINK SETUP REQUEST message includes a C-ID IE corresponding to a cell reserved for operator use and the Permanent NAS UE Identity IE is not present, the DRNC shall reject the procedure and send the RADIO LINK SETUP FAILURE message.
[FDD – If the RL identified by the HS-PDSCH RL ID IE is a radio link in the DRNS and this RL is successfully established, then the DRNC shall allocate a HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE, the HS-DSCH FDD Information Response IE and the SixtyfourQAM DL Support Indicator IE in the RADIO LINK SETUP FAILURE message. This SixtyfourQAM DL Support Indicator IE is related to the HS-DSCH Radio Link.]
[FDD – If the RL identified by the HS-PDSCH RL ID IE in the Additional HS Cell Information RL Setup IE is a radio link in the DRNS and this RL is successfully established, then the DRNC shall allocate a HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE, the HS-DSCH FDD Secondary Serving Information Response IE and the SixtyfourQAM DL Support Indicator IE in the Additional HS Cell Information Response IE in the RADIO LINK SETUP FAILURE message. If the establishment of the RL identified by the HS-PDSCH RL ID IE in the Additional HS Cell Information RL Setup IE, i.e secondary serving HS-DSCH Radio Link is unsuccessful but the establishment of the RL identified by the HS-PDSCH RL ID IE for the serving HS-DSCH Radio Link is successful, then the DRNC shall indicate the unsuccessful secondary serving HS-DSCH Radio Link in the Unsuccessful RL Information Response IE in the RADIO LINK SETUP FAILURE message by setting the RL ID IE to the same value as the unsuccessful HS-PDSCH RL ID IE in the Additional HS Cell Information RL Setup IE.]
[1.28 Mcps TDD – If the RL identified by the HS-PDSCH RL ID IE is a radio link in the DRNS and this RL is successfully established, then the DRNC shall allocate a HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE, the HS-DSCH TDD Information Response IE and the SixtyfourQAM DL Support Indicator IE in the RADIO LINK SETUP FAILURE message.]
[FDD – If the MIMO Activation Indicator IE is included and the Power Offset For S-CPICH for MIMO Request Indicator IE is not included in the HS-DSCH FDD Information IE in the RADIO LINK SETUP REQUEST message but MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the setup of the serving HS-DSCH Radio Link shall be reported as failed and the DRNC shall include in the RADIO LINK SETUP FAILURE message the Cause IE.]
[FDD – If the MIMO with four transmit antennas Activation Indicator IE or the Dual Stream MIMO with four transmit antennas Activation Indicator IE is included and the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is not included in the HS-DSCH FDD Information IE in the RADIO LINK SETUP REQUEST message but MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the setup of the serving HS-DSCH Radio Link shall be reported as failed and the DRNC shall include in the RADIO LINK SETUP FAILURE message the Cause IE.]
[FDD – If the RL identified by the E-DCH Additional RL ID IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE is a radio link in the DRNS and this RL is successfully established, then the DRNS shall include the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK SETUP FAILURE message in the same way as in the RADIO LINK SETUP RESPONSE message. If the establishment of the RL identified by the E-DCH Additional RL ID IE is unsuccessful, then the DRNS shall indicate the unsuccessful setup of the Additional E-DCH Radio Link in the Unsuccessful RL Information Response IE in the RADIO LINK SETUP FAILURE message by setting the RL ID IE to the same value as the unsuccessful E-DCH Additional RL ID IE in the Additional E-DCH Cell Information Setup IE.]
Typical cause values are:
Radio Network Layer Causes:
[FDD – UL Scrambling Code Already in Use;]
DL Radio Resources not Available;
UL Radio Resources not Available;
[FDD – Combining Resources not available;]
Combining not Supported
Requested Configuration not Supported;
Cell not Available;
[FDD – Requested Tx Diversity Mode not Supported;]
Power Level not Supported;
Number of DL codes not supported;
Number of UL codes not supported;
Dedicated Transport Channel Type not Supported;
DL Shared Channel Type not Supported;
[TDD – UL Shared Channel Type not Supported;]
[FDD – UL Spreading Factor not Supported;]
[FDD – DL Spreading Factor not Supported;]
CM not Supported;
[FDD – DPC mode change not Supported;]
Cell reserved for operator use;
Delayed Activation not supported;
E-DCH not supported;
[FDD – F-DPCH not supported;]
[FDD – Continuous Packet Connectivity DTX-DRX operation not Supported;]
[FDD – Continuous Packet Connectivity HS-SCCH less operation not Supported;]
[FDD – MIMO not supported;]
[FDD – E-DCH TTI2ms not supported;]
[FDD – Continuous Packet Connectivity DTX-DRX operation not available;]
[FDD – Continuous Packet Connectivity UE DTX Cycle not available;]
[FDD – MIMO not available;]
[FDD – SixteenQAM UL not Supported;]
HS-DSCH MAC-d PDU Size Format not supported;
[FDD – F-DPCH Slot Format operation not supported;]
E-DCH MAC-d PDU Size Format not available;
[FDD – E-DPCCH Power Boosting not supported;]
[FDD – SixtyfourQAM DL and MIMO Combined not available;]
[FDD – Multi Cell operation not available;]
[FDD – Multi Cell operation not supported;]
[FDD – Multi Cell operation with MIMO not available;]
[FDD – Multi Cell operation with MIMO not supported;]
[FDD – Single Stream MIMO not supported;]
[FDD – Single Stream MIMO not available;]
[FDD – TX diversity for MIMO UE on DL Control Channels not available;]
[FDD – Multi Cell E-DCH Operation not supported;]
[FDD – Multi Cell E-DCH Operation not available;]
[FDD – Multi Cell operation with Single Stream MIMO not available;]
[FDD – Multi Cell operation with Single Stream MIMO not supported;]
[FDD – Cell Specific Tx Diversity Handling For Multi Cell Operation Not Available;]
[FDD – Cell Specific Tx Diversity Handling For Multi Cell Operation Not Supported;]
[FDD – Frequency Specific Compressed Mode Not Available;]
[FDD – Uplink Closed Loop Transmit Diversity Operation Not Available;]
[FDD – Uplink Closed Loop Transmit Diversity Operation Not Supported;]
[FDD – MIMO with four transmit antennas not supported;]
[FDD – MIMO with four transmit antennas not available;]
[FDD – Dual Stream MIMO with four transmit antennas not supported;]
[FDD – Dual Stream MIMO with four transmit antennas not available;]
[FDD – Multiflow Operation Not Available;]
[FDD – Multiflow Operation Not Supported;]
[FDD – SixtyfourQAM UL not Available;]
[FDD – SixtyfourQAM UL not Supported;]
[FDD – UL MIMO Operation Not Available;]
[FDD – UL MIMO Operation Not Supported;]
[FDD – UL MIMO and SixteenQAM Operation Not Available;]
[FDD – UL MIMO and SixteenQAM Operation Not Supported;] 
[FDD – UL MIMO and SixtyfourQAM Operation Not Available;]
[FDD – UL MIMO and SixtyfourQAM Operation Not Supported;]
[FDD – E-DCH Decoupling Operation Not Available;]
[FDD – E-DCH Decoupling Operation Not Supported;]
[FDD – Basic DCH Enhancements Operation Not Available;]
[FDD – Basic DCH Enhancements Operation Not Supported;]
[FDD – Full DCH Enhancements Operation Not Available;]
[FDD – Full DCH Enhancements Operation Not Supported;]
[FDD – Radio Links without DPCH/F-DPCH Operation Not Available;]
[FDD – Radio Links without DPCH/F-DPCH Operation Not Supported;]
[FDD – UL DPCCH2 Operation Not Available;]
[FDD – UL DPCCH2 Operation Not Supported;]
[FDD – Downlink TPC enhancements Operation Not Available;]
[FDD – Downlink TPC enhancements Operation Not Supported;]
[FDD – Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Operation Not Available;]
[FDD – Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Operation Not Supported;]
[FDD – Dual Cell E-DCH operation enhancements with different TTI Operation Not Available;]
[FDD – Dual Cell E-DCH operation enhancements with different TTI Operation Not Supported.]

Transport Layer Causes:
Transport Resource Unavailable.
Miscellaneous Causes:
Control Processing Overload;
HW Failure;
Not enough User Plane Processing Resources.
8.3.1.4	Abnormal Conditions
If the DRNC receives either an S-RNTI or a D-RNTI which already has RL(s) established [FDD – and the Synchronisation Indicator IE is not included in the RADIO LINK SETUP message,] the DRNC shall send the RADIO LINK SETUP FAILURE message to the SRNC, indicating the reason for failure.
[FDD – If the RADIO LINK SETUP REQUEST message includes the Active Pattern Sequence Information IE, but the Transmission Gap Pattern Sequence Information IE is not present, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message includes both the Initial DL TX Power IE and the Primary CPICH Ec/No IE or does not include either of these IEs, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
If more than one DCH of a set of co-ordinated DCHs has the QE-Selector IE set to “selected” [TDD – or no DCH of a set of co-ordinated DCHs has the QE-Selector IE set to “selected”] the DRNS shall reject the Radio Link Setup procedure and shall respond with a RADIO LINK SETUP FAILURE message.
[FDD – If only the Initial DL TX Power IE or the Uplink SIR Target IE is included in the RADIO LINK SETUP REQUEST message, then DRNC shall reject the Radio Link Setup procedure and shall respond with the RADIO LINK SETUP FAILURE message.]
If the RADIO LINK SETUP REQUEST message includes a DCH Information IE with multiple DCH Specific Info IEs, and if the DCHs in the DCH Information IE do not have the same Transmission Time Interval IE in the Semi-static Transport Format Information IE, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.
[FDD – If the RADIO LINK SETUP REQUEST message includes the Enhanced Primary CPICH Ec/No IE, but not the Primary CPICH Ec/No IE, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
If the RADIO LINK SETUP REQUEST message includes the Transport Layer Address IE and the Binding ID IE in the RL Specific DCH Information IE [FDD – or in the RL Specific E-DCH Information IE] included in the RL Information IE for a specific RL and the Diversity Control Field IE is set to “Must” [FDD- or the RL is combined with an E-DCH RL previously listed in the RADIO LINK SETUP RESPONSE message in the DRNS], the DRNC shall reject the Radio Link Setup procedure and the DRNC shall respond with the RADIO LINK SETUP FAILURE message.
If ALCAP is not used, if the RADIO LINK SETUP REQUEST message does not include the Transport Layer Address IE and the Binding ID IE in the RL Specific DCH Information IE nor RL Specific E-DCH Information IE in the RL Information IE for a specific RL and the Diversity Control Field IE is set to “May”, the DRNC shall reject the Radio Link Setup procedure and respond with the RADIO LINK SETUP FAILURE message.
If ALCAP is not used, if the RADIO LINK SETUP REQUEST message does not include the Transport Layer Address IE and the Binding ID IE in the RL Specific DCH Information IE in the RL Information IE for a specific RL and the Diversity Control Field IE is set to “Must Not”, the DRNC shall reject the Radio Link Setup procedure and respond with the RADIO LINK SETUP FAILURE message.
If ALCAP is not used, if the RADIO LINK SETUP REQUEST message does not include the Transport Layer Address IE and the Binding ID IE in the RL Specific DCH Information IE in the RL Information IE for the first RL and/or [FDD – in the RL Specific E-DCH Information IE in the RL Information IE for the first E-DCH RL][TDD – in the E-DCH MAC-d Flows Information TDD IE], the DRNC shall reject the Radio Link Setup procedure and respond with the RADIO LINK SETUP FAILURE message.
If ALCAP is not used, if the RADIO LINK SETUP REQUEST message does not include the Transport Layer Address IE and the Binding ID IE for an HS-DSCH MAC-d Flow in the HS-DSCH MAC-d Flows Information IE, the DRNC shall reject the Radio Link Setup procedure and respond with the RADIO LINK SETUP FAILURE message.
[TDD – If ALCAP is not used, if the RADIO LINK SETUP REQUEST message does not include the Transport Layer Address IE and the Binding ID IE for a DSCH in the DSCH TDD Information IE and/or for an USCH in the USCH Information IE, the DRNC shall reject the Radio Link Setup procedure and respond with the RADIO LINK SETUP FAILURE message.]
If the RADIO LINK SETUP REQUEST message includes the Transport Layer Address IE or the Binding ID IE, and not both are present for a transport bearer intended to be established, the DRNC shall reject the Radio Link Setup procedure and the DRNC shall respond with the RADIO LINK SETUP FAILURE message. 
If the RADIO LINK SETUP REQUEST message includes an HS-PDSCH RL ID IE not referring to one of the radio links to be established, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.
If the RADIO LINK SETUP REQUEST message contains the HS-DSCH Information IE and if the Priority Queues associated with the same HS-DSCH MAC-d Flow ID IE have the same Scheduling Priority Indicator IE value, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.
If the RADIO LINK SETUP REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, and the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE has the value “Indexed MAC-d PDU Size”, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.
If the RADIO LINK SETUP REQUEST message does not include the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, and the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE has the value “Flexible MAC-d PDU Size”, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.
[FDD – If the RADIO LINK SETUP REQUEST message contains, for at least one logical channel, the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE and there exist a logical channel for which the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE is not present, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[TDD – If the RADIO LINK SETUP REQUEST message contains, for at least one logical channel, the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information TDD IE in the E-DCH Information IE, and there exist a logical channel for which the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information TDD IE in the E-DCH Information IE is not present, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message includes the F-DPCH Information IE and the DL DPCH Information IE configured simultaneously to one downlink frequency, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message contains the E-DCH RL Indication IE set to “E-DCH”, but does not contain the E-DCH FDD Information IE, or if the message contains the E-DCH FDD Information IE, but does not contain the E-DCH RL Indication IE set to “E-DCH”, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
If the RADIO LINK SETUP REQUEST message does not contain the E-DCH Decoupling Indication IE but contains the HS-PDSCH RL ID IE and the Serving E-DCH RL IE, and the Serving HS-DSCH Radio Link and the Serving E-DCH Radio Link are not configured to be in the same cell, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.
[FDD – If the RADIO LINK SETUP REQUEST message contains the HS-PDSCH RL ID IE and the E-DPCH Information IE which includes the HS-DSCH Configured Indicator IE set as “HS-DSCH not configured” then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message contains the E-DPCH Information IE but does not contain the UL DPDCH Indicator for E-DCH operation IE, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message contains the Serving Cell Change CFN IE, but neither the Serving E-DCH RL IE nor HS-DSCH Information IE is included, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message contains the Transport Bearer Not Requested Indicator IE for a DCH, but does not contain the Unidirectional DCH indicator IE set to “Uplink DCH only” in the DCH Specific Info IE for the DCH, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message contains the Synchronisation Indicator IE for a RL, but does not contain the D-RNTI IE which already has the RL, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the UL DPCH Information IE in the RADIO LINK SETUP REQUEST message contains the UL DPCCH Slot Format set to “4” but does not contain the F-DPCH Information IE, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the UL DPCH Information IE in the RADIO LINK SETUP REQUEST message contains the UL DPCCH Slot Format set to “0” or “2” and the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the UL DPCH Information IE in the RADIO LINK SETUP REQUEST message contains Diversity Mode IE set to “Closed loop mode 1”and UL DPCCH Slot Format not set to “2” or “3”, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message contains the MIMO Activation Indicator IE, Sixtyfour QAM Usage Allowed Indicator IE set to “Allowed”, the Additional HS Cell Information RL Setup IE, the MIMO with four transmit antennas Activation Indicator IE, the Dual Stream MIMO with four transmit antennas Activation Indicator IE and/or the Single Stream MIMO Activation Indicator IE, but does not contain the HS-DSCH MAC-d PDU Size Format IE set to “Flexible MAC-d PDU Size”, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.] 
[FDD – If the RADIO LINK SETUP REQUEST message contains the Continuous Packet Connectivity DTX-DRX Information IE but does not contain the F-DPCH Information IE, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message]
[FDD – If the RADIO LINK SETUP REQUEST message contains the Serving E-DCH RL ID IE but contains the Transport Bearer Not Requested Indicator IE in the RL Specific E-DCH Information for the new Serving E-DCH RL, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message includes the Transport Bearer Not Requested Indicator IE for a DCH or an E-DCH MAC-d Flow for a specific RL and the specific RL is combined with RL which the transport bearer is configured to be established for the DCH or the E-DCH MAC-d Flow, previously listed in the RADIO LINK SETUP RESPONSE message in the DRNS, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message contains the Additional HS Cell Information RL Setup IE indicating a seconadry serving cell that is not in the same Node B as the new serving HS-DSCH cell, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message]
[FDD – If the RADIO LINK SETUP REQUEST message contains the Additional HS Cell Information RL Setup IE and if the HS-DSCH Information IE is not present, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
If the RADIO LINK SETUP REQUEST message includes the DL RLC PDU Size Format IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE set to “Flexible RLC PDU Size”, and the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE has the value “Indexed MAC-d PDU Size”, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.
If the RADIO LINK SETUP REQUEST message does not include the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, and the DL RLC PDU Size Format IE in the HS-DSCH Information IE has the value “Flexible RLC PDU Size”, the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.
[FDD – If the RADIO LINK SETUP REQUEST message contains more than one of a MIMO Activation Indicator IE, a MIMO with four transmit antennas Activation Indicator IE, a Dual Stream MIMO with four transmit antennas Activation Indicator IE and a Single Stream MIMO Activation Indicator IE in the HS-DSCH FDD Information IE or in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Setup IE, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.] 
[FDD – If the RADIO LINK SETUP REQUEST message contains the Additional E-DCH Cell Information RL Setup Req IE and if the E-DPCH Information IE is not present, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message contains the Additional E-DCH Cell Information RL Setup Req IE and there exist a logical channel for which the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE is not present, the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message contains the Additional E-DCH Cell Information RL Setup Req IE and the C-ID IE is not included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD – If the RADIO LINK SETUP REQUEST message contains in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Setup IE the Diversity Mode IE not set to “None” but not the Transmit Diversity Indicator or contains the Transmit Diversity Indicator but not the Diversity Mode IE not set to “None”, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD - If the RADIO LINK SETUP REQUEST message contains the Additional HS Cell Information RL Setup IE containing more than one secondary serving HS-DSCH RL, and all secondary serving HS-DSCH RLs in the new configuration will not be assigned consecutive ordinal numbers starting with the value "1", which are received in the Ordinal Number Of Frequency IE in the in the HS-DSCH FDD Secondary Serving Information IE, the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD - If the RADIO LINK SETUP REQUEST message contains the Additional HS Cell Information RL Setup IE containing more than one secondary serving HS-DSCH RL, the new configuration also contains an Additional E-DCH Serving Radio Link and the secondary serving HS-DSCH Radio link, which is configured in the same cell as the Additional E-DCH Serving Radio Link does not have Ordinal Number Of Frequency value “1”, the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD - If the RADIO LINK SETUP REQUEST message contains the Affected HS-DSCH serving cell List IE in the Active Pattern Sequence Information IE, and theTransmission Gap Pattern Sequence for affected HS-DSCH Serving Cells is activated on the HS-DSCH Primary Serving Cell but not for all the other serving cells, the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message with the cause value “Invalid CM settings”.]
[FDD - If the RADIO LINK SETUP REQUEST message contains the UL CLTD Information IE but does not contain the F-TPICH Information IE, or if it contains HS-DSCH Preconfiguration Setup IE with UL CLTD Information IE but without F-TPICH Information IE, then the DRNC shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD - If the RADIO LINK SETUP REQUEST message contains the UL MIMO Information IE in E-DCH FDD Information IE but does not contain the UL CLTD Information IE, or if it contains HS-DSCH Preconfiguration Setup IE with UL MIMO Information IE but without UL CLTD Information IE, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD - If the RADIO LINK SETUP REQUEST message contains more than one of a MIMO Activation Indicator IE, a MIMO with four transmit antennas Activation Indicator IE, a Dual Stream MIMO with four transmit antennas Activation Indicator IE in HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD - If the RADIO LINK SETUP REQUEST message contains the DCH Enhancements Information IE, and either the DL DPCH Slot Format IE is not set to “17” or “18”, or the UL DPCCH Slot Format IE is not set to “5”, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD - If the RADIO LINK SETUP REQUEST message does not contain the DCH Enhancements Information IE, and either (i) the DL DPCH Slot Format IE is set to “17”, or (ii) the DL DPCH Slot Format IE is set to “18”, or (iii) the UL DPCCH Slot Format IE is set to “5”, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup but the Dual Cell E-DCH Operation Enhancements Information IE is not included in the RADIO LINK SETUP REQUEST message, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup and if the Continuous Packet Connectivity DTX-DRX Information IE is included in the RADIO LINK SETUP REQUEST message, but the DTX Information IE does not contain any of the value defined for 10ms TTI, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
8.3.2	Radio Link Addition
8.3.2.1	General
This procedure is used for establishing the necessary resources in the DRNS for one [FDD – or more] additional RLs towards a UE when there is already at least one RL established to the concerned UE via this DRNS.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The Radio Link Addition procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
[TDD – The Radio Link Addition procedure serves to establish a new Radio Link with the DSCH and USCH included, if they existed before.]
8.3.2.2	Successful Operation

Figure 7: Radio Link Addition procedure: Successful Operation
The procedure is initiated with a RADIO LINK ADDITION REQUEST message sent from the SRNC to the DRNC.
Upon receipt, the DRNS shall reserve the necessary resources and configure the new RL(s) according to the parameters given in the message. Unless specified below, the meaning of parameters is specified in other specifications.
The DRNS shall prioritise resource allocation for the RL(s) to be established according to Annex A.
If the UE Aggregate Maximum Bit Rate IE is contained in the RADIO LINK ADDITION REQUEST message, the DRNS shall, if supported, store the received UE Aggregate Maximum Bit Rate parameters to control the aggregate data rate of non GBR traffic for this UE.
Transport Channel Handling:
[3.84 Mcps TDD – The DRNC shall include the UL/DL DPCH Information IE within the UL/DL CCTrCH Information IE for each CCTrCH that requires DPCHs.]
[1.28 Mcps TDD – The DRNC shall include the UL/DL DPCH Information LCR IE within the UL/DL CCTrCH Information LCR IE for each CCTrCH that requires DPCHs.]
[7.68 Mcps TDD – The DRNC shall include the UL/DL DPCH Information 7.68 Mcps IE within the UL/DL CCTrCH Information 7.68 Mcps IE for each CCTrCH that requires DPCHs.]
[TDD – DSCH:]
[3.84 Mcps TDD – If the radio link to be added includes a DSCH, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message a DSCH Information Response IE for each DSCH.]
[1.28 Mcps TDD – If the radio link to be added includes a DSCH, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message a DSCH Information Response LCR IE for each DSCH.]
[7.68 Mcps TDD – If the radio link to be added includes a DSCH, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message a DSCH Information Response 7.68 Mcps IE for each DSCH.]
[TDD – USCH:]
[3.84 Mcps TDD – If the radio link to be added includes any USCHs, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message a USCH Information Response IE for each USCH.]
[1.28 Mcps TDD – If the radio link to be added includes any USCHs, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message a USCH Information Response LCR IE for each USCH.]
[7.68 Mcps TDD – If the radio link to be added includes any USCHs, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message a USCH Information Response 7.68 Mcps IE for each USCH.]
Physical Channels Handling:
[FDD – Compressed Mode:]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Active Pattern Sequence Information IE, the DRNS shall use the information to activate the indicated (all ongoing) Transmission Gap Pattern Sequence(s) in the new RL. The received CM Configuration Change CFN IE refers to the latest passed CFN with that value. The DRNS shall treat the received TGCFN IEs as follows:]
-	[FDD – If any received TGCFN IE has the same value as the received CM Configuration Change CFN IE, the DRNS shall consider the concerned Transmission Gap Pattern Sequence as activated at that CFN.]
-	[FDD – If any received TGCFN IE does not have the same value as the received CM Configuration Change CFN IE but the first CFN after the CM Configuration Change CFN with a value equal to the TGCFN IE has already passed, the DRNS shall consider the concerned Transmission Gap Pattern Sequence as activated at that CFN.]
-	[FDD – For all other Transmission Gap Pattern Sequences included in the Active Pattern Sequence Information IE, the DRNS shall activate each Transmission Gap Pattern Sequence at the first CFN after the CM Configuration Change CFN with a value equal to the TGCFN IE for the Transmission Gap Pattern Sequence.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Active Pattern Sequence Information IE and the concerned UE Context is configured to use F-DPCH in the downlink, the DRNS shall ignore, when activating the Transmission Gap Pattern Sequence(s), the downlink compressed mode method information, if existing, for the concerned Transmission Gap Pattern Sequence(s) in the Compressed Mode Configuration.]
[FDD – If the Active Pattern Sequence Information IE is not included, the DRNS shall not activate the ongoing compressed mode pattern in the new RLs, but the ongoing pattern in the existing RL shall be maintained.]
[FDD – If some Transmission Gap Pattern sequences using SF/2 method are initialised in the DRNS and the UE Context is configured to use DPCH in the downlink, the DRNC shall include the Transmission Gap Pattern Sequence Scrambling Code Information IE in the DL Code Information IE in the RADIO LINK ADDITION RESPONSE message to indicate the Scrambling code change method that it selects for each channelisation code.]
[FDD - If the RADIO LINK ADDITION REQUEST message includes the Affected HS-DSCH serving cell List IE in the Active Pattern Sequence Information IE, the concerned Transmission Gap Pattern Sequence shall be applied to HS-DSCH serving cells associated with C-ID IE included in Affected HS-DSCH serving cell List IE. Otherwise the concerned Transmission Gap Pattern Sequence shall be applied to all the configured serving cells.]
[FDD – DL Code Information:]
[FDD – When more than one DL DPDCH are assigned per RL, the segmented physical channel shall be mapped on to DL DPDCHs according to TS 25.211 [8]. When p number of DL DPDCHs are assigned to each RL, the first pair of DL Scrambling Code and FDD DL Channelisation Code Number corresponds to “PhCH number 1”, the second to “PhCH number 2”, and so on until the pth to “PhCH number p”.]
[TDD – CCTrCH Handling:]
[TDD – If theUL CCTrCH Information IE is present, the DRNS shall configure the new UL CCTrCH(s) according to the parameters given in the message.]
[1.28Mcps TDD – If the UL CCTrCH Information IE includes the TDD TPC Uplink Step Size IE, the DRNS shall configure the uplink TPC step size according to the parameters given in the message, otherwise it shall use the step size configured in other radio link.]
[TDD – If the DL CCTrCH Information IE is present, the DRNS shall configure the new DL CCTrCH(s) according to the parameters given in the message.]
[TDD – If the DL CCTrCH Information IE includes the TDD TPC Downlink Step Size IE, the DRNS shall configure the downlink TPC step size according to the parameters given in the message, otherwise it shall use the step size configured in other radio link.]
[FDD – UL CLTD Handling]:
[FDD - If the UL CLTD Information IE is present in the RADIO LINK ADDITION REQUEST message, then the DRNS shall setup the requested UL CLTD resources for the concerned UE Context in the cell to determine the precoding weights and then :]
-	[FDD - If there is neither serving E-DCH RL nor the HS-DSCH RL configuration in the UE Context, the C-ID IE shall be included in the UL CLTD Information IE, and the DRNS shall configure this cell to determine the precoding weights for the concerned UE Context.]
-	[FDD - If there is a HS-DSCH RL configuration in the concerned UE Context, the UL CLTD Activation Information IE shall be included in the UL CLTD Information IE, then the DRNS shall use this value to configure the state of UL CLTD for the concerned UE Context.]
[FDD – UL MIMO Setup]:
[FDD - If the UL MIMO Information IE is present in the RADIO LINK ADDITION REQUEST message, then the DRNS shall setup the requested UL MIMO operation.]
General:
[FDD – The DRNS shall use the provided Uplink SIR Target value as the current target for the inner-loop power control.]
Radio Link Handling:
Diversity Combination Control:
The Diversity Control Field IE indicates for each RL whether the DRNS shall combine the new RL with existing RL(s) or not on the Iur.
-	If the Diversity Control Field IE is set to “May” (be combined with another RL), the DRNS shall decide for any of the alternatives. 
-	If the Diversity Control Field IE is set to “Must”, the DRNS shall combine the RL with one of the other RL. When a new RL is to be combined the DRNS shall choose which RL(s) to combine it with. 
-	If the Diversity Control Field IE is set to “Must not”, the DRNS shall not combine the RL with any other existing RL.
[FDD – The Diversity Control Field IE is only applicable for DCHs, in case of E-DCH it shall always be assumed to be set to “May”.]
In the case of not combining a RL with a RL established with a previous Radio Link Setup or Radio Link Addition Procedure or a RL previously listed in the RADIO LINK ADDITION RESPONSE message, the DRNC shall indicate with the Diversity Indication in the RL Information Response IE in the RADIO LINK ADDITION RESPONSE message that no combining is done. In this case the DRNC shall:
-	include in the DCH Information Response IE both the Transport Layer Address IE and the Binding ID IE for the transport bearer to be established for each DCH of the RL in the RADIO LINK ADDITION RESPONSE message [FDD – for which the Transport Bearer Not Requested Indicator IE was not included].
-	[FDD – include in the RADIO LINK ADDITION RESPONSE the Transport Bearer Not Setup Indicator IE for every DCH or set of co-ordinated DCHs for which establishment of a transport bearer has not taken place as a result of information in the Transport Bearer Not Requested Indicator IE in the RADIO LINK ADDITION REQUEST message.]
[FDD – In case of not combining E-DCH, the E-DCH FDD Information Response IE shall be included in the RADIO LINK ADDITION RESPONSE message containing the Binding ID IE and the Transport Layer Address IE for the establishment of transport bearers for every E-DCH MAC-d flow being established for which the Transport Bearer Not Requested Indicator IE was not included.]
[FDD – In case of not combining E-DCH, the DRNC shall include in the RADIO LINK ADDITION RESPONSE the Transport Bearer Not Setup Indicator IE for every E-DCH MAC-d flow for which establishment of a transport bearer has not taken place as a result of information in the Transport Bearer Not Requested Indicator IE in the RADIO LINK ADDITION REQUEST message.]
In the case of combining with a RL established with a previous Radio Link Setup or Radio Link Addition Procedure or with a RL previously listed in this RADIO LINK ADDITION RESPONSE message, the DRNC shall indicate with the Diversity Indication in the RL Information Response IE in the RADIO LINK ADDITION RESPONSE message that the RL is combined. In this case, the RL ID IE indicates (one of) the previously established RL(s) or a RL previously listed in this RADIO LINK ADDITION RESPONSE message with which the new RL is combined and if the ALCAP is not used [FDD – and the transport bearer for this DCH is already established], the Transport Layer Address IE and the Binding ID IE in the RL Specific DCH Information IE included in the RL Information IE for a specific RL in the RADIO LINK ADDITION REQUEST message, shall not be used.
[FDD – In the case of combining with an E-DCH RL established with a previous Radio Link Setup or Radio Link Addition Procedure or with a RL previously listed in this RADIO LINK ADDITION RESPONSE message, one of the previously established RLs or a RL previously listed in this RADIO LINK ADDITION RESPONSE message including the E-DCH FDD Information Response IE and part of the same Radio Link Set shall be regarded as the RL with which the concerned E-DCH RL is combined and if the ALCAP is not used, the Transport Layer Address IE and the Binding ID IE in the RL Specific E-DCH Information IE included in the RL Information IE for a specific RL in the RADIO LINK ADDITION REQUEST message, shall not be used. In case E-DCH RL is established for the first time, the DRNC shall include E-DCH FDD Information Response IE instead of using the Diversity Indication of DCH RL in the RL Information Response IE in the RADIO LINK ADDITION RESPONSE message. It shall include in the E-DCH FDD Information Response IE the Binding ID IE and Transport Layer Address IE for the transport bearers to be established for each E-DCH MAC-d flow of this E-DCH RL for which the Transport Bearer Not Requested Indicator IE was not included.] 
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Additional E-DCH Cell Information RL Add Req IE, then:]
-	[FDD – if the Multicell E-DCH Transport Bearer Mode IE for an Additional E-DCH to be Setup is set to “Separate Iur Transport Bearer Mode” the DRNS shall use this mode in the new configuration and apply separate transport bearers for the MAC-d flows.]
-	[FDD – if the Multicell E-DCH Transport Bearer Mode IE for an Additional E-DCH to be Setup is set to “UL Flow Multiplexing Mode” the DRNS shall use this mode in the new configuration and multiplex MAC-d flows on the transport bearers.]
-	[FDD – if Separate Iur Transport Bearer Mode is used in the new configuration, then:]
-	[FDD – the DRNS shall follow the rules defined in this procedure for single carrier mode of operation for establishment of the transport bearer for a MAC-d flow and use the Transport Bearer Not Requested Indicator IE in the RL Specific E-DCH Information IE in the RL Information IE received for the corresponding Radio Link(s) of the Primary Uplink Frequency to determine the transport bearer configuration in the new configuration for the radio links of the Secondary Uplink Frequency.]
-	[FDD – If the Transport Layer Address IE and Binding ID IE is included for an E-DCH MAC-d flow in the Additional E-DCH MAC-d Flows Specific Information IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE or in the Additional E-DCH RL Specific Information To Add IE in the Additional E-DCH Cell Information Addition IE, then the DRNS may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the concerned E-DCH MAC-d flow. If the DRNS establishes a transport bearer for the concerned E-DCH MAC-d flow the DRNS shall, for establishment of the transport bearer, include in the RADIO LINK ADDITION RESPONSE message the Binding ID IE and Transport Layer Address IE in the Additional E-DCH MAC-d Flow Specific Information Response IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE for establishment of the transport bearer.]
[TDD – The DRNC shall always include in the RADIO LINK ADDITION RESPONSE message both the Transport Layer Address IE and the Binding ID IE for the transport bearer to be established for each DSCH and USCH of the RL.]
In the case of a set of co-ordinated DCHs, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message the Binding ID IE and the Transport Layer Address IE for only one of the DCHs in the set of co-ordinated DCHs [FDD – for which the Transport Bearer Not Requested Indicator IE was not included].
If the DRNS needs to limit the user rate in the uplink of a DCH due to congestion caused by the UL UTRAN Dynamic Resources (see subclause 9.2.1.79) when starting to utilise a new Radio Link, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message the Allowed UL Rate IE in the DCH Information Response IE for this Radio Link.
If the DRNS needs to limit the user rate in the downlink of a DCH due to congestion caused by the DL UTRAN Dynamic Resources (see subclause 9.2.1.79) when starting to utilise a new Radio Link, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message the Allowed DL Rate IE in the DCH Information Response IE for this Radio Link.
[FDD – Transmit Diversity:]
[FDD – The DRNS shall activate any feedback mode diversity according to the received settings.]
[FDD – If the cell in which the RL is being added is capable to provide Close loop Tx diversity, the DRNC shall indicate the Closed loop timing adjustment mode of the cell by including the Closed Loop Timing Adjustment Mode IE in the RADIO LINK ADDITION RESPONSE message.]
[FDD – When the Transmit Diversity Indicator IE and/or Transmit Diversity Indicator IE in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Addition IE is present the DRNS shall activate/deactivate the Transmit Diversity for each new Radio Link and/or secondary serving HS-DSCH Radio Link in accordance with the Transmit Diversity Indicator IE and/or Transmit Diversity Indicator IE in the HS-DSCH FDD Secondary Serving Information IE using the diversity mode of the existing Radio Link(s) and/or existing secondary serving HS-DSCH Radio Link.]
DL Power Control:
[FDD – If the Primary CPICH Ec/No IE or the Primary CPICH Ec/No IE and the Enhanced Primary CPICH Ec/No IE measured by the UE are included for an RL in the RADIO LINK ADDITION REQUEST message, the DRNS shall use this in the calculation of the Initial DL TX Power for this RL. If the Primary CPICH Ec/No IE is not present, the DRNS shall set the Initial DL TX Power based on the power relative to the Primary CPICH power used by the existing RLs.]
[TDD – If [3.84Mcps TDD and 7.68 Mcps TDD – the DL Time Slot ISCP Info IE] [1.28Mcps TDD – the DL Time Slot ISCP Info LCR IE] is included in the RADIO LINK ADDITION REQUEST message, the DRNS shall use it in the calculation of the Initial DL TX Power.]
[TDD – If the Primary CCPCH RSCP Delta IE is included, the DRNS shall assume that the reported value for Primary CCPCH RSCP is in the negative range as per TS 25.123 [24], and the value is equal to the Primary CCPCH RSCP Delta IE. If the Primary CCPCH RSCP Delta IE is not included and the Primary CCPCH RSCP IE is included, the DRNS shall assume that the reported value is in the non-negative range as per TS 25.123 [24], and the value is equal to the Primary CCPCH RSCP IE. The DRNS shall use it in the calculation of the Initial DL TX Power.]
[TDD – If the Primary CCPCH RSCP IE, Primary CCPCH RSCP Delta IE, [3.84Mcps TDD and 7.68 Mcps TDD – and the DL Time Slot ISCP Info IE] [1.28Mcps TDD – and the DL Time Slot ISCP Info LCR IE] are not present, the DRNS shall set the Initial DL TX Power based on the power relative to the Primary CCPCH power used by the existing RL.]
[FDD – The Initial DL TX Power shall be applied until UL synchronisation is achieved on the Uu interface for that RLS or Power Balancing is activated. No inner loop power control or power balancing shall be performed during this period. The DL power shall then vary according to the inner loop power control (see TS 25.214 [10] subclause 5.2.1.2) and the power control procedure (see 8.3.7).]
[TDD – The Initial DL TX Power shall be applied until UL synchronisation is achieved on the Uu interface for that RL. No inner loop power control shall be performed during this period. The DL power shall then vary according to the inner loop power control (see TS 25.224 [22] subclause 4.2.3.3).]
[3.84 Mcps TDD and 7.68 Mcps TDD – The DL TX power upper and lower limit is configured in the following way: The DRNC shall include the Maximum DL TX Power IE and Minimum DL TX Power IE in the RADIO LINK ADDITION RESPONSE message. If the maximum or minimum power needs to be different for particular DCH type CCTrCHs, the DRNC shall include the value(s) for that CCTrCH in the CCTrCH Maximum DL TX Power IE and CCTrCH Minimum DL TX Power. The DRNS shall not transmit with a higher power than indicated by the appropriate Maximum DL TX Power IE/CCTrCH Maximum DL TX Power IE or lower than indicated by the appropriate Minimum DL TX Power IE/CCTrCH Minimum DL TX Power IE on any DL DPCH within each CCTrCH of the RL.]
[1.28 Mcps TDD – The DL TX power upper and lower limit is configured in the following way: The DRNC shall include the Maximum DL TX Power IE and Minimum DL TX Power IE in the RADIO LINK ADDITION RESPONSE message. If the maximum or minimum power needs to be different for particular timeslots within a DCH type CCTrCH, the DRNC shall include the value(s) for that timeslot in the Maximum DL TX Power IE and Minimum DL TX Power within the DL Timeslot Information LCR IE. The DRNS shall not transmit with a higher power than indicated by the appropriate Maximum DL TX Power IE or lower than indicated by the appropriate Minimum DL TX Power IE on any DL DPCH within each timeslot of the RL.]
[FDD – If the DPC Mode IE is present in the RADIO LINK ADDITION REQUEST message, the DRNC shall apply the DPC mode indicated in the message, and be prepared that the DPC mode may be changed during the lifetime of the RL. If the DPC Mode IE is not present in the RADIO LINK ADDITION REQUEST message, DPC mode 0 shall be applied (see TS 25.214 [10]).]
The DRNC shall provide the configured Maximum DL TX Power IE and Minimum DL TX Power IE for every new RL to the SRNC in the RADIO LINK ADDITION RESPONSE message. The DRNS shall not transmit with a power higher than indicated by the Maximum DL TX Power IE or lower than indicated by the Minimum DL TX Power IE on any DL DPCH [FDD – or on the F-DPCH] of the RL [FDD – except, if the UE Context is configured to use DPCH in the downlink, during compressed mode, when the Pcurr, as described in TS 25.214 [10] subclause 5.2.1.3, shall be added to the maximum DL power for the associated compressed frame.]
[FDD – If the power balancing is active with the Power Balancing Adjustment Type of the UE Context set to “Individual” in the existing RL(s) and the RADIO LINK ADDITION REQUEST message includes the DL Reference Power IE, the DRNS shall activate the power balancing and use the DL Reference Power IE for the power balancing procedure in the new RL(s), if activation of power balancing by the RADIO LINK ADDITION REQUEST message is supported by the DRNS, according to subclause 8.3.15. In this case, the DRNC shall include the DL Power Balancing Activation Indicator IE in the RL Information Response IE in the RADIO LINK ADDITION RESPONSE message. If the DRNS starts the DL transmission and the activation of the power balancing at the same CFN, the initial power of the power balancing, i.e. Pinit shall be set to the power level which is calculated based on the Primary CPICH Ec/No IE or the Enhanced Primary CPICH Ec/No IE (if received), or to the power level which is calculated based on the power relative to the Primary CPICH power used by the existing RLs.]
UL Power Control:
The DRNC shall also provide the configured UL Maximum SIR and UL Minimum SIR for every new RL to the SRNC in the RADIO LINK ADDITION RESPONSE message. These values are taken into consideration by DRNS admission control and shall be used by the SRNC as limits for the UL inner-loop power control target.
Neighbouring Cell Handling:
If there are UMTS neighbouring cell(s) to the cell in which a Radio Link was established then:
-	The DRNC shall include in the RADIO LINK ADDITION RESPONSE message the Neighbouring FDD Cell Information IE and/or Neighbouring TDD Cell Information IE in the Neighbouring UMTS Cell Information IE for each neighbouring FDD cell and/or TDD cell respectively. In addition, if the information is available, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message the Frame Offset IE, Primary CPICH Power IE, Cell Individual Offset IE, STTD Support Indicator IE, Closed Loop Mode1 Support Indicator IE, Coverage Indicator IE, Antenna Co-location Indicator IE and HCS Prio IE in the Neighbouring FDD Cell Information IE, and the Frame Offset IE, Cell Individual Offset IE, DPCH Constant Value IE and the PCCPCH Power IE, Coverage Indicator IE, Antenna Co-location Indicator IE and HCS Prio IE in the Neighbouring TDD Cell Information IE or the Neighbouring TDD Cell Information LCR IE. If the Neighbouring TDD Cell Information IE includes the Sync Case IE set to “Case1”, the DRNC shall include the Time SlotFor SCH IE in the Neighbouring TDD Cell Information IE. If the Neighbouring TDD Cell Information IE includes the Sync Case IE set to “Case2”, the DRNC shall include the SCH Time Slot IE in the Neighbouring TDD Cell Information IE.
-	If a UMTS neighbouring cell is not controlled by the same DRNC, the DRNC shall also include in the RADIO LINK ADDITION RESPONSE message the CN PS Domain Identifier IE and/or CN CS Domain Identifier IE which are the identifiers of the CN nodes connected to the RNC controlling the UMTS neighbouring cell.
-	[FDD – The DRNC shall include in the RADIO LINK ADDITION RESPONSE message the DPC Mode Change Support Indicator IE for each neighbour cell in the Neighbouring FDD Cell Information IE if this information is available.]
-	The DRNC shall include the Cell Capability Container FDD IE, the Cell Capability Container TDD IE, Cell Capability Container 7.68 Mcps TDD IE, the Cell Capability Container TDD LCR IE and/or the Cell Capability Container Extension FDD IE if the DRNC is aware that the neighbouring cell supports any functionality listed in 9.2.2.D, 9.2.3.1a, 9.2.3.1b and 9.2.2.123.
-	[FDD – The DRNC shall, if supported, include the Cell List Validity Indicator IE if the neighbouring cell is multi cell capable and/or dual band capable but the cell can not be the serving HS-DSCH in a multicell and/or dual band configuration. Hence the cell can only serve as the secondary serving HS-DSCH cell. When Cell List Validity Indicator IE is included the SRNC should ignore the indicated cell list(s).]
-	[FDD – For each cell in the Secondary Serving Cell List IE that is Multi Cell E-DCH capable, indicated in the Cell Capability Container Extension FDD IE by the "Multi Cell E-DCH Support Indicator" bit = "1", and is restricted for use as an Additional E-DCH on the secondary uplink frequency with the cell identified by the C-ID IE as the corresponding cell of the Primary uplink frequency, the DRNS shall, if supported, include the Multicell E-DCH Restriction IE set to "TRUE".]
-	[FDD – For each cell in the Dual Band Secondary Serving Cell List IE that is Dual Band E-DCH capable, indicated in the Cell Capability Container FDD IE by the "Dual Band E-DCH Support Indicator" bit = "1", and is restricted for use as an Additional E-DCH on the secondary uplink frequency with the cell identified by the C-ID IE as the corresponding cell of the primary uplink frequency, the DRNS shall, if supported, include the Multicell E-DCH Restriction IE set to "TRUE".]
-	For the UMTS neighbouring cells which are controlled by the DRNC, the DRNC shall report in the RADIO LINK ADDITION RESPONSE message the restriction state of those cells, otherwise Restriction State Indicator IE may be absent. The DRNC shall include the Restriction State Indicator IE for the neighbouring cells which are controlled by the DRNC in the Neighbouring FDD Cell Information IE, the Neighbouring TDD Cell Information IE and the Neighbouring TDD Cell Information LCR IE.
-	If available, the DRNC shall include the SNA Information IE for the concerned neighbouring cells in the Neighbouring FDD Cell Information IE, the Neighbouring TDD Cell Information IE and the Neighbouring TDD Cell Information LCR IE.
-	If MOCN or GWCN network sharing configuration is used then the DRNC shall include the broadcasted PLMN identities of concerned neighbouring cells in the Multiple PLMN List IE in the Neighbouring FDD Cell Information IE, the Neighbouring TDD Cell Information IE and the Neighbouring TDD Cell Information LCR IE.
-	If available, the DRNC shall include the Frequency Band Indicator IE and the Multiple Frequency Bands Indicator List IE for the concerned neighbouring cells in the Neighbouring FDD Cell Information IE.
-	If the number of neighbouring UMTS RNCs is beyond the predefined maximum number, the DRNC shall, if supported, include the remaining neighbouring information in the Neighbouring UMTS Cell Information Extension IE. The IE filling rules in the Neighbouring UMTS Cell Information shall also apply to the Neighbouring UMTS Cell Information Extension IE.
If there are GSM neighbouring cells to the cell(s) in which a radio link is established, the DRNC shall include the Neighbouring GSM Cell Information IE in the RADIO LINK ADDITION RESPONSE message for each of the GSM neighbouring cells. If available the DRNC shall include the Cell Individual Offset IE, and if the Cell Individual Offset IE alone cannot represent the value of the offset, the DRNC shall also include the Extended GSM Cell Individual Offset IE in the Neighbouring GSM Cell Information IE. If available the DRNC shall also include the Coverage Indicator IE, Antenna Co-location Indicator IE and HCS Prio IE in the Neighbouring GSM Cell Information IE. If available, the DRNC shall also include the SNA Information IE for the concerned neighbouring cells in the Neighbouring GSM Cell Information IE. If network sharing configuration is used then the DRNC may include the broadcasted PLMN identities of the concerned neighbouring cells in the PLMN List IE in the Neighbouring GSM Cell Information IE.
When receiving the SNA Information IE in the RADIO LINK ADDITION RESPONSE message, the SRNC should use it to restrict cell access based on SNA information. See also TS 25.401 [40] for a broader description of the SNA access control.
If there are GERAN neighbouring cells to the cell(s) where a radio link is established, the DRNC shall include the GERAN Cell Capability IE in the Neighbouring GSM Cell Information IE that is included in the RADIO LINK ADDITION RESPONSE message for each of the GERAN cells.
If there are GERAN Iu-mode neighbouring cells to the cell(s) where a radio link is established, the DRNC shall include, if available, the GERAN Classmark IE in the Neighbouring GSM Cell Information IE that is included in the RADIO LINK ADDITION RESPONSE message for each of the GERAN Iu-mode neighbouring cells. TS 43.051 [39] defines when the transmission of the GERAN Classmark IE will be required at the initiation of the Relocation Preparation procedure.
If there are E-UTRA neighbouring cells to the cell(s) in which a radio link is established, the DRNC shall include the Neighbouring E-UTRA Cell Information IE in the RADIO LINK ADDITION RESPONSE message for each of the E-UTRA neighbouring cells, and may also include the PCI IE, TAC IE, the PLMN List IE and the Multiple E-UTRA Frequency Bands Indicator List IE in the Neighbouring E-UTRA Cell Information IE in the RADIO LINK ADDITION RESPONSE message.
[1.28Mcps TDD – Uplink Synchronisation Parameters LCR:]
[1.28Mcps TDD – If the UL Synchronisation Parameters LCR IE is present, the DRNC shall use the indicated values of Uplink synchronisation stepsize IE and Uplink synchronisation frequency IE when evaluating the timing of the UL synchronisation.]
[1.28Mcps TDD – Shared physical channels Synchronisation Detection:]
[1.28Mcps TDD – If HS-PDSCH and E-PUCH are configured but no DPCH is configured for the UE, then the DRNS shall include the Out-of-sync Detection Window IE in the HS-DSCH TDD Information Response IE in the RADIO LINK ADDITON RESPONSE message.]
[1.28Mcps TDD – Uplink Timing Advance Control LCR:]
[1.28Mcps TDD – The DRNC shall include the Uplink Timing Advance Control LCR IE in the RADIO LINK ADDITION RESPONSE message.]
[1.28Mcps TDD – PowerControl GAP:]
[1.28Mcps TDD – If applied in the DRNS, the DRNC may include the PowerControl GAP IE in the RADIO LINK ADDITION RESPONSE message.]
[1.28Mcps TDD – E-UTRAN Inter-RAT measurement:]
[1.28Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the Idle Interval Configuration Indicator IE, if supported, the DRNC shall include the Idle Interval Information IE in the RADIO LINK ADDITION RESPONSE message.]
[1.28Mcps TDD – Inter-frequency/ Inter-RAT measurement:]
[1.28Mcps TDD – If the RADIO LINK ADDTION REQUEST message includes the DCH Measurement Type indicator IE, if supported, the DRNS shall include the Measurement purpose IE and the Measurement occasion pattern sequence parameters IE in the DCH Measurement Occasion Information IE in the RADIO LINK ADDTION RESPONSE message to configure the measurement occasion pattern(s) indicated by the DCH Measurement Type indicator IE.]
[1.28Mcps TDD – Non-rectangular resource operation:]
[1.28Mcps TDD - If the RADIO LINK ADDITION REQUEST message contains the UE support of non-rectangular resource allocation IE, the DRNS shall, if supported, use this information to determine whether includes the Non-rectangular resource allocation indicator IE and the Non-rectangular resource timeslot set IE or not.]
MBMS Handling:
If the UE Link is currently stored in the UE Context and an MBMS session for some MBMS bearer services contained in the UE Link is ongoing in some of the cells identified by the C-ID IEs in the RADIO LINK ADDITION REQUEST message, the DRNC shall include for each of these active MBMS bearer services in the Active MBMS Bearer Service List IE the Transmission Mode IE in the concerned RL Information Response IEs in the RADIO LINK ADDITION RESPONSE message.
If the UE Link is currently stored in the UE Context and an MBMS preferred frequency layer for some active MBMS bearer services contained in the UE Link is set in some of the cells identified by the C-ID IEs in the RADIO LINK ADDITION REQUEST message, the DRNC shall include for each of these active MBMS bearer services in the Active MBMS Bearer Service List IE the Preferred Frequency Layer IE in the concerned RL Information Response IEs in the RADIO LINK ADDITION RESPONSE message.
[FDD – HS-DSCH Preconfiguration for Enhanced HS Serving Cell Change]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the HS-DSCH Preconfiguration Setup IE in the RL Information IE for a Radio Link not indicated by the HS-PDSCH RL ID IE in the HS-DSCH Serving Cell Change Information IE the DRNS shall, if supported, preconfigure the indicated cells for Enhanced HS Serving Cell Change acoording to TS 25.308 [63]:]
-	[FDD – The DRNS shall preconfigure sets of HS-SCCH codes on the cells preconfigured for HS-DSCH, primary serving HS-DSCH cell, as well as on the secondary serving HS-DSCH cells. The primary serving HS-DSCH cell is designated through the C-ID IE part of the RL Information IE in the RADIO LINK ADDITION REQUEST message. The list of secondary serving HS-DSCH cells is designated by the list of Secondary C-ID Iesin the HS-DSCH Preconfiguration Setup IE part of the RL Information IE in the RADIO LINK ADDITION REQUEST message. ]
-	[FDD – The number of HS-SCCH codes to preconfigure for each cell may be optionally specified: ]
-	[FDD – by the Num Primary HS-SCCH Codes IE in the HS-DSCH Preconfiguration Setup IE, for the primary serving HS-DSCH cell.]
-	[FDD – by the Num Secondary HS-SCCH Codes IE in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE for each of the secondary serving HS-DSCH cells.]
-	[FDD – If Num Primary HS-SCCH Codes IE or Num Secondary HS-SCCH Codes IE is not included in the message the number and distribution of codes on primary and any secondary cells shall be preconfigured to satisfy any limitations in TS 25.214 [10]. ]
-	[FDD – The DRNS shall return these codes in the Sets of HS-SCCH Codes IE along with the corresponding per- cell HS-DSCH-RNTI IE in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE of the RADIO LINK ADDITION RESPONSE message or in the Successful RL Information Response IE of the RADIO LINK ADDITION FAILURE message. ]
-	[FDD – The DRNS shall use the first in the numbered list the primary serving HS-DSCH cell’s of HS-SCCH codes in the HS-SCCH Preconfigured Codes IE sent to the SRNC to signal the Target Cell HS-SCCH Order defined in TS 25.331 [16]].
-	[FDD – The DRNS shall include, in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE in the RADIO LINK ADDITION RESPONSE message or in the Successful RL Information Response IE of the RADIO LINK ADDITION FAILURE message, IEs according to the rules defined for HS-DSCH Setup at Serving HS-DSCH Radio Link Change and:]
-	[FDD – if HARQ Preamble Mode IE is included in the HS-DSCH Preconfiguration Setup IE the HARQ Preamble Mode Activation Indicator IE.]
-	[FDD – if MIMO Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE the Pilot Configuration and MIMO N/M Ratio in MIMO Information Response IE.]
-	[FDD – if Ordinal number of frequency IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE]
-	[FDD – if MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE the Pilot Configuration and MIMO N/M Ratio in MIMO Information Response IE]
-	[FDD – if Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE the Pilot Configuration and MIMO N/M Ratio in MIMO Information Response IE]
-	[FDD – if Multiflow ordinal number of frequency IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE]
-	[FDD – if HS-DSCH MAC-d PDU Size Format IE is included in the HS-DSCH Preconfiguration Setup IE and set to “Flexible MAC-d PDU Size” and if Sixtyfour QAM will not be used for the cell in the preconfiguration the HS-DSCH TB Size Table Indicator IE for each preconfigured cell.]
-	[FDD – if Sixtyfour QAM Usage Allowed Indicator IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE or in the HS-DSCH Preconfiguration Setup IE the SixtyfourQAM DL Usage Indicator IE for each preconfigured cell.]
-	[FDD – if Continuous Packet Connectivity HS-SCCH less Information IE is included in the HS-DSCH Preconfiguration Setup IE the Continuous Packet Connectivity HS-SCCH less Information Response IE.]
-	[FDD – if the UE with enhanced HS-SCCH support indicator IE is included in the HS-DSCH Preconfiguration Setup IE, then the DRNS shall store this information in the preconfigured configuration.]
-	[FDD - If the UE Support Indicator Extension IE is included in the HS-DSCH Preconfiguration Setup IE with the bit UE DTXDRX related HS-SCCH orders uniform behavior indicator set to 0, then the DRNS shall, if supported, include the Support of Dynamic DTXDRX Related HS-SCCH Order IE in the HS-DSCH Preconfiguration Info IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – the SixtyfourQAM DL Support Indicator IE may be included.]
-	[FDD – If the UE Support Indicator Extension IE is included in the HS-DSCH Preconfiguration Setup IE, then the DRNS may store this information in the preconfigured configuration.]
-	[FDD – the DRNS shall, if supported, include in the Sets of HS-SCCH Codes IE the Measurement Power Offset IE for each preconfigured cell.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included in the HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where HS-DSCH / secondary HS-DSCH is preconfigured, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH Preconfiguration Info IE or in the Sets of HS-SCCH Codes IE in the HS-DSCH Preconfiguration Info IE for each preconfigured cell in the RADIO LINK ADDITION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the Multiflow Information IE, then the DRNC shall allocate resources for the preconfigured Multiflow.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the F-TPICH Information IE, then the DRNC shall allocate resources for the preconfigured F-TPICH channel and include F-TPICH Information Response IE in the HS-DSCH Preconfiguration Info IE.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the UL CLTD Information IE, then the DRNC shall allocate resources for the preconfigured UL CLTD.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the UL MIMO Information IE, then the DRNC shall allocate resources for the preconfigured UL MIMO.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the SixteenQAM UL Operation Indicator IE, then the DRNC shall allocate resources for the preconfigured UL Sixteen QAM.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the SixtyfourQAM UL Operation Indicator IE, then the DRNC shall allocate resources for the preconfigured UL Sixtyfour QAM.]
[FDD – The DRNS shall include in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE in the RADIO LINK ADDITION RESPONSE message or in the Successful RL Information Response IE of the RADIO LINK ADDITION FAILURE message the E-DCH FDD DL Control Channel Information containing the preconfigured configuration of the E-DCH serving cell according to the rules defined for Serving E-DCH Radio Link Change as follows:]
-	[FDD – The DRNS shall allocate for the preconfigured configuration a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE.]
-	[FDD – The DRNS may preconfigure the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the serving E-DCH RL and include these values in the E-DCH FDD DL Control Channel Information IE.]
[FDD – If the HS-DSCH Preconfiguration Setup IE includes the E-DCH Indicator IE for a secondary cell, the DRNS shall include in the Additional E-DCH Preconfiguration Information IE in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE in the RADIO LINK ADDITION RESPONSE message or in the Successful RL Information Response IE of the RADIO LINK ADDITION FAILURE message the E-DCH FDD DL Control Channel Information IE containing the preconfigured configuration of the Additional E-DCH serving cell, corresponding to the cell indicated with the E-DCH Indicator IE, according to the rules defined for Serving Additional E-DCH Radio Link Change as follows:]
-	[FDD – The DRNS shall allocate for the preconfigured configuration a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Serving Additional E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE. ]
-	[FDD – The DRNS may preconfigure the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the serving Additional E-DCH RL and include these values in the E-DCH FDD DL Control Channel Information IE.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Non-Serving RL Preconfiguration Setup IE in the RL Information IE and:] 
-	[FDD – if the choice of new Serving RL is "New Serving RL in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE and/or New non-serving RL E-DCH FDD DL Control Channel Information B IE in the Non-Serving RL Preconfiguration Info IE for the RL in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – if the choice of new Serving RL is "New Serving RL Not in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information C IE in the Non-Serving RL Preconfiguration Info IE for the RL in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – if the choice of new Serving RL is "New Serving RL in the DRNS or New Serving RL Not in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE, the New non-serving E-DCH FDD DL Control Channel Information B IE and/or the New non-serving E-DCH FDD DL Control Channel Information C for the RL in the Non-Serving RL Preconfiguration Info IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – if the Additional E-DCH Non-Serving RL Preconfiguration Setup IE is included, the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE, the New non-serving RL E-DCH FDD DL Control Channel Information B IE and/or the New non-serving RL E-DCH FDD DL Control Channel Information C IE according to the choice of new Serving RL in Additional E-DCH New non-serving RL E-DCH FDD DL Control Channel Information IE for the additional non serving E-DCH RL in the Non-Serving RL Preconfiguration Info IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD –If the F-TPICH Information IE is included, the DRNC shall use this information to allocate resources for the preconfigured F-TPICH channel for this RL in the serving RLS according to TS 25.211 [8], and include F-TPICH Information Response IE in the Non-Serving RL Preconfiguration Info IE.]
[FDD – UL DPCCH2:]
[FDD - If the RADIO LINK ADDITION REQUEST message includes the UL DPCCH2 Information IE, then:]
-	[FDD – if the serving HS-DSCH RL is in the DRNS then the DRNS shall configure the concerned DRNS Communication Context to use a second F-DPCH in the downlink, i.e. with transmission of only the TPC field and a DPCCH2 in the uplink, i.e. with the transmission of only the second pilot and the TPC field on the Serving HS-DSCH Radio Link and the DRNS shall activate UL DPCCH2 operation for the radio link according to the information provided in the IE according to ref TS 25.214 [10].]
-	[FDD – if the serving HS-DSCH is not in the DRNS then the DRNS may consider the concerned DRNS Communication Context to use the UL DPCCH2 configuration on the Serving HS-DSCH Radio Link.]
-	[FDD – If the UL DPCCH2 Information IE includes the Extended E-DPCCH Power Offset IE and if the E-DCH FDD Information IE is present in the RADIO LINK ADDITION REQUEST message, the DRNS shall use the value to calculate the E-DPCCH gain factor.]
[FDD –Downlink TPC enhancements:]
[FDD - If the RADIO LINK ADDITION REQUEST message includes the Downlink TPC enhancements Information IE, then:]
-	[FDD – The DRNS shall, if supported, use the Decimation factor for primary frequency IE and/or the Decimation factor for secondary frequency IE to configure all the radio links using F-DPCH on the related frequency with power control Algorithm 3.]
[FDD - If the TPC slot position in the RL Information is included in the RADIO LINK ADDITION REQUEST message, the DRNS shall, if supported, use it for power control Algorithm 3.]
[FDD - If the TPC slot position in the Additional E-DCHCell Information RL Add Req is included in the RADIO LINK ADDITION REQUEST message, the DRNS shall, if supported, use it for power control Algorithm 3.]
General:
If the RADIO LINK ADDITION REQUEST message includes the RL Specific DCH Information IE, the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the DCH or the set of co-ordinated DCHs [FDD – for which the Transport Bearer Not Requested Indicator IE was not included].
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer shall not be Established” for a DCH, then the DRNC shall not establish a transport bearer for the concerned DCH and shall include the Transport Bearer Not Setup Indicator IE for the corresponding DCH in the RADIO LINK ADDITION RESPONSE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer may not be Established” for a DCH and:]
-	[FDD – if the DRNC establishes a transport bearer for the concerned DCH, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message the Binding ID IE and Transport Layer Address IE for establishment of a transport bearer for the DCH being established.]
-	[FDD – if the DRNC does not establish a transport bearer for the concerned DCH, the DRNC shall include the Transport Bearer Not Setup Indicator IE for the corresponding DCH in the RADIO LINK ADDITION RESPONSE message.]
Depending on local configuration in the DRNS, the DRNC may include in the RADIO LINK ADDITION RESPONSE message the UTRAN Access Point Position IE and the geographical co-ordinates of the cell, represented either by the Cell GAI IE or by the Cell GA Additional Shapes IE. If the DRNC includes the Cell GA Additional Shapes IE in the RADIO LINK ADDITION RESPONSE message, it shall also include the Cell GAI IE.
For each Radio Link established in a cell in which at least one URA Identity is being broadcast, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message a URA Information for this cell including the URA ID IE, the Multiple URAs Indicator IE indicating whether or not multiple URA Identities are being broadcast in the cell, and the RNC-ID IEs of all other RNCs that have at least one cell within the URA identified by the URA ID IE.
[3.84Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD IE in the RADIO LINK ADDITION RESPONSE message if at least one DSCH Information Response IE or USCH Information Response IE is included in the message and at least one DCH is configured for the radio link. The DRNC shall also include the Secondary CCPCH Info TDD IE in the RADIO LINK ADDITION RESPONSE message if at least one DSCH Information Response IE or USCH Information Response IE is included in the message and the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
[1.28 Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD LCR IE in the RADIO LINK ADDITION RESPONSE message if at least one DSCH Information Response LCR IE or USCH Information Response LCR IE is included in the message and at least one DCH is configured for the radio link. The DRNC shall also include the Secondary CCPCH Info TDD LCR IE in the RADIO LINK ADDITION RESPONSE message if at least one DSCH Information Response LCR IE or USCH Information Response LCR IE is included in the message and the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
[7.68 Mcps TDD – The DRNC shall include the Secondary CCPCH Info 7.68 Mcps TDD IE in the RADIO LINK ADDITION RESPONSE message if at least one DSCH Information Response 7.68 Mcps IE or USCH Information Response 7.68 Mcps IE is included in the message and at least one DCH is configured for the radio link. The DRNC shall also include the Secondary CCPCH Info 7.68 Mcps TDD IE in the RADIO LINK ADDITION RESPONSE message if at least one DSCH Information Response 7.68 Mcps IE or USCH Information Response 7.68 Mcps IE is included in the message and the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
If the Permanent NAS UE Identity IE is present in the RADIO LINK ADDITION REQUEST message, the DRNS shall store the information for the considered UE Context for the lifetime of the UE Context.
If the RADIO LINK ADDITION REQUEST message includes a C-ID IE corresponding to a cell reserved for operator use and the Permanent NAS UE Identity is available in the DRNC for the considered UE Context, the DRNC shall use this information to determine whether it can add the Radio Link on this cell or not.
If the HCS priority information is available in the DRNS, it shall include the HCS Prio IE for each of the established RLs in the RADIO LINK ADDITION RESPONSE message.
The DRNS shall start receiving on the new RL(s) after the RLs are successfully established.
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Initial DL DPCH Timing Adjustment Allowed IE, then the DRNS may perform an initial DL DPCH Timing Adjustment (i.e. perform a timing advance or a timing delay with respect to the SFN timing) on a Radio Link. In this case, the DRNS shall include, for the concerned Radio Link(s), the Initial DL DPCH Timing Adjustment IE in the Radio Link Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Synchronisation Indicator IE, set to “Timing Maintained Synchronisation”, the DRNS shall use synchronisation procedure B according to subclause 4.3.2.4 in TS 25.214 [10]. The DRNS shall select the TPC pattern as if “first RLS indicator” is set to “first RLS” according to subclause 5.1.2.2.1.2 in TS 25.214 [10].]
[FDD – If the UE Context is configured for F-DPCH Slot Format operation, then the DRNS shall include the F-DPCH Slot Format IE in the RADIO LINK ADDITION RESPONSE message.]
[FDD - If the RADIO LINK ADDITION REQUEST message includes the F-TPICH Information IE in the RL Information IE, the DRNS shall use this information to configure the F-TPICH of the RL according to TS 25.211 [7] and TS 25.214 [10], and shall include the F-TPICH Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
[FDD – Radio Link Set Handling:]
[FDD – For each RL not having a common generation of the TPC commands in the DL with another RL, the DRNS shall assign to the RL a unique value for the RL Set ID IE which uniquely identifies the RL as an RL Set within the UE Context. In case of E-DCH, the generation of E-HICH information for RLs in different RL Sets shall not be common.]
[FDD – For all RLs having a common generation of the TPC commands in the DL with another new or existing RL, the DRNS shall assign to each RL the same value for the RL Set ID IE which uniquely identifies these RLs as members of the same RL Set within the UE Context. In case of E-DCH, the generation of E-HICH related information for all RLs in a RL Set shall be common.]
[FDD – After addition of the new RL(s), the UL out-of-sync algorithm defined in TS 25.214 [10] shall, for each of the previously existing and newly established RL Set(s), use the maximum value of the parameters N_OUTSYNC_IND and T_RLFAILURE that are configured in the cells supporting the radio links of the RL Set. The UL in-sync algorithm defined in TS 25.214 [10] shall, for each of the established RL Set(s), use the minimum value of the parameters N_INSYNC_IND that are configured in the cells supporting the radio links of the RL Set.]
[FDD – For each E-DCH RL which has or can have a common generation of E-RGCH information with another RL (current or future) when the DRNS would contain the E-DCH serving RL, the DRNS shall include the E-DCH RL Set ID IE in the RADIO LINK ADDITION RESPONSE message. The value of the E-DCH RL Set ID IE shall allow the SRNC to identify the E-DCH RLs that have or can have a common generation of E-RGCH information.]
[FDD – Serving HS-DSCH Radio Link Change:]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the HS-DSCH Serving Cell Change Information IE, then the HS-PDSCH RL ID IE indicates the new Serving HS-DSCH Radio Link:]
-	[FDD – In the new configuration the DRNS shall allocate the HS-PDSCH resources for the new Serving HS-PDSCH Radio Link.] 
-	[FDD – The DRNS may include the HARQ Memory Partitioning IE in the HS-DSCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message. The HARQ Memory Partitioning IE may contain the HARQ Memory Partitioning Information Extension For MIMO IE.]
-	[FDD – If fields are to be included in the User Plane by the SRNC to handle TNL Congestion Control for HSDPA in the DRNS, then the DRNC shall include the User Plane Congestion Fields Inclusion IE in the HS-DSCH Information Response IE.]
-	[FDD – The DRNC shall allocate a new HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If a reset of the MAC-hs is not required the DRNS shall include the MAC-hs Reset Indicator IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the HS-DSCH and include the HS-SCCH Specific Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.
-	[FDD – If the HS-DSCH Serving Cell Change Information IE includes the Continuous Packet Connectivity HS-SCCH less Information IE, then:]
-	[FDD – The DRNS shall configure the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE for Continuous Packet Connectiviy HS-SCCH less operation according to TS 25.214 [10].]
-	[FDD – The DRNS shall allocate the HS-PDSCH codes needed for HS-SCCH less operation and include the Continuous Packet Connectivity HS-SCCH less Information Response IE in the RADIO LINK ADDITION RESPONSE message.] 
-	[FDD – If at least one of HS-PDSCH Second Code Support IE is set to “True”, then the DRNC shall include HS-PDSCH Second Code Index IE in the RADIO LINK ADDITION RESPONSE message.] 
-	[FDD – If the HS-DSCH Serving Cell Change Information IE includes the Continuous Packet Connectivity DTX-DRX Information IE, then:] 
-	[FDD – The DRNS shall configure the concerned UE Context for Continuous Packet Connectivity DTX operation according to TS 25.214 [10].]
-	[FDD – If DRX Information IE is included in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for Continuous Packet Connectivity DRX operation according to TS 25.214 [10].]
-	[FDD – If UE DRX Cycle 2 IE is included in the DRX Information IE in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for Continuous Packet Connectivity DRX operation according to TS 25.214 [10].]
-	[FDD – If Inactivity Threshold for UE DRX Cycle 2 IE is included in the DRX Information IE in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for Continuous Packet Connectivity DRX operation according to TS 25.214 [10].]
-	[FDD - If the UE Context is configured with Sixtyfour QAM allowed for the serving HS-DSCH Radio Link and not used in the current configuration and then if the DRNS decides to use 64 QAM in the new configuration, then it shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If MAC-ehs is applied in the new configuration, and if Sixtyfour QAM will not be used, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Information Response IE in the HS-DSCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for HS-DSCH Transport Block Size signalling.]
[FDD – HS-DSCH Setup on a New Radio Link at Serving HS-DSCH Radio Link Change:]
[FDD – If the HS-DSCH Information IE is present in the HS-DSCH Serving Cell Change Information IE, then:]
-	[FDD – The DRNS shall setup the requested HS-PDSCH resources on the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE.] 
-	[FDD – the HS-DSCH Information IE defines the new HS-DSCH configuration in the DRNS to be used on the new HS-DSCH Radio Link.]
-	[FDD – The DRNC shall include the HARQ Memory Partitioning IE in the HS-DSCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message. The HARQ Memory Partitioning IE shall either contain the HARQ Memory Partitioning Information Extension For MIMO IE or the Number of Processes IE set to a value higher than “8”, if the MIMO Activation Indicator IE or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Information IE.]
-	[FDD – The DRNS may use the Traffic Class IE for a specific HS-DSCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the HS-DSCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE. If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the MAC-hs Guaranteed Bit Rate IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall use this information to optimise MAC-hs scheduling decisions for the related HSDPA Priority Queue.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the Discard Timer IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall use this information to discard out-of-date MAC-hs SDUs from the related HSDPA Priority Queue.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall ignore the SID IE and MAC-d PDU Size IE in the MAC-d PDU Size Index IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related HSDPA Priority Queue.]
-	[FDD – The DRNC shall include the HS-DSCH Initial Capacity Allocation IE in the HS-DSCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message for every HS-DSCH MAC-d flow being established, if the DRNS allows the SRNC to start transmission of MAC-d PDUs before the DRNS has allocated capacity on user plane as described in TS 25.425 [32]. If RADIO LINK ADDITION REQUEST message includes HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE set to “Flexible MAC-d PDU Size”, then DRNC shall only set in the HS-DSCH Initial Capacity Allocation IE the values for the peer of Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE to the values of the corresponding peer I in RADIO LINK ADDITION REQUEST in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE for a Priority Queue including Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the HS-SCCH Power Offset IE in the HS-DSCH Information IE, then the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any HS-SCCH transmission to this UE.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the HARQ Preamble Mode IE in the HS-DSCH Information IE, then the DRNS shall use the indicated HARQ Preamble Mode as described in TS 25.214 [10], if HS-DPCCH ACK/NACK preamble and postamble is supported. Then, in this case, if the mode 1 is applied, the DRNC shall include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK ADDITION RESPONSE message. If the HARQ Preamble Mode IE is not included or if the mode 0 is applied, then the DRNC shall not include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE, then the DRNS shall use the indicated format in user plane frame structure for HS-DSCH channels (TS 25.425 [32]) and MAC-hs (TS 25.321 [41]).]
-	[FDD – If the MIMO Activation Indicator IE, or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH FDD Information IE, then ]
-	[FDD – The DRNS shall activate the MIMO mode, or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the HS-DSCH Radio Link.]
-	[FDD – The DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO and include the MIMO Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Information Response IE in the RADIO LINK SETUP RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Information IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the HS-DSCH Radio Link.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the HS-DSCH MAC-d PDU Size Format IE set to “Flexible MAC-d PDU Size” and if Sixtyfour QAM will not be used, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Information Response IE in the HS-DSCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for HS-DSCH Transport Block Size signalling.]
-	[FDD – If the UE with enhanced HS-SCCH support indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS may use:]
-	[FDD – a different HS-SCCH in consecutive TTIs for this UE.]
-	[FDD – HS-SCCH orders for the case of HS-SCCH-less operation to this UE.]
-	[FDD – If the UE Support Indicator Extension IE is included in the HS-DSCH FDD Information IE the DRNS may use the supported HSDPA functions for this UE.] 
-	[FDD - If the UE Support Indicator Extension IE is included in the HS-DSCH FDD Information IE with the bit UE DTXDRX related HS-SCCH orders uniform behavior indicator set to 0, then the D shall, if supported, include the Support of Dynamic DTXDRX Related HS-SCCH Order IE in the HS-DSCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes DL RLC PDU Size Format IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, the DL RLC PDU Size Format IE may be used by the DRNS to determine the allocated capacity on user plane as described in TS 25.425 [32].] 
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the UE Aggregate Maximum Bit Rate Enforcement Indicator IE in the Priority Queue Information IE in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall, if supported, consider the data of the HSDPA Priority Queue for UE Aggregate Maximum Bit Rate Enforcement.]
-	[FDD – If the Single Stream MIMO Activation Indicator IE is included in the HS-DSCH FDD Information IE in the HS-DSCH Serving Cell Change Information IE, then the DRNS shall activate the Single Stream MIMO for the HS-DSCH Radio Link.]
-	[FDD – The DRNC may include the Transport Layer Address IE and the Binding ID IE for HS-DSCH MAC-d flow in the HS-DSCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.] 
-	[FDD – If the Serving Cell Change CFN IE is included in the RADIO LINK ADDITION REQUEST message, then the DRNS shall activate the resources that are allocated for the new serving HS-DSCH Radio Link at the next coming CFN with a value equal to the value requested by the SRNC, or earlier. In this case, in the new configuration the DRNS shall, if applicable, de-allocate the HS-PDSCH resources of the old Serving HS-PDSCH Radio Link. The DRNS shall deactivate those resources at the next coming CFN with a value equal to the value requested by the SRNC. ]
-	[FDD – If the Serving Cell Change CFN IE is not included then the DRNS shall activate immediately the resources that are allocated for the new serving HS-PDSCH Radio Link, and shall keep active the resources that are allocated for the previous serving HS-PDSCH Radio Link.]
-	[FDD – If the requested Serving HS-DSCH Radio Link Change was successful or unsucessful, the DRNS shall indicate this in the HS-DSCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH FDD Information Response IE in the HS-DSCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If the CQI Feedback Cycle2 k IE and the CQI Cycle Switch Timer IE is included in HS-DSCH FDD Information IE, then the DRNS may use the indicated CQI Feedback Cycle2 k value, the CQI Cycle Switch Timer in HSDPA resources allocation for the UE.]
[FDD – Secondary Serving HS-DSCH Radio Link Change:]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Additional HS Cell Information RL Addition IE, then the HS-PDSCH RL ID IE indicates the new Serving HS-DSCH Radio Link:]
-	[FDD – In the new configuration the DRNS shall allocate the HS-PDSCH resources for the new secondary serving HS-PDSCH Radio Link. Non cell specific secondary serving Radio Link and non cell specific secondary serving HS-DSCH parameters take the same values as for the serving HS-DSCH cell.]
-	[FDD - If the Ordinal Number Of Frequency IE is included in the HS-DSCH FDD Secondary Serving Information IE, and the new configuration contains more than one secondary serving HS-DSCH Radio Link, then the DRNS shall use this value in the physical layer.]
-	[FDD – The DRNC shall allocate a new HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the secondary serving HS-DSCH and include the HS-SCCH Specific Secondary Serving Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Secondary Serving Information Response IE in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD - If the UE Context is configured with Sixtyfour QAM allowed for the secondary serving HS-DSCH Radio Link and not used in the current configuration and then if the DRNS decides to use 64 QAM in the new secondary serving HS-DSCH Radio Link, then it shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If, in the new configuration, the UE context is configured not to use Sixtyfour QAM for the secondary serving HS-DSCH, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for the secondary serving HS-DSCH Transport Block Size signalling.]
[FDD – Secondary Serving HS-DSCH Setup on a New Radio Link at Serving HS-DSCH Radio Link Change:]
-	[FDD – The DRNS shall setup the requested HS-PDSCH resources on the Secondary Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE.]
-	[FDD – The HS-DSCH FDD Secondary Serving Information IE defines the new secondary serving HS-DSCH configuration in the DRNS to be used on the new secondary serving HS-DSCH Radio Link. Non cell specific secondary serving Radio Link and non cell specific secondary serving HS-DSCH parameters take the same values as for the serving HS-DSCH cell.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the HS-SCCH Power Offset IE in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Addition IE, then the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any secondary serving HS-SCCH transmission to this UE.]
-	[FDD – If the MIMO Activation Indicator IE, or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the MIMO mode, or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the secondary serving HS-DSCH Radio Link and the Node B shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO and include the MIMO Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the Single Stream MIMO Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the Single Stream MIMO mode for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the secondary serving HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If Sixtyfour QAM will not be used for the secondary serving cell, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for secondary serving HS-DSCH Transport Block Size signalling.] 
-	[FDD – If the Diversity Mode IE is included in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Addition IE in the RADIO LINK ADDITION REQUEST message the DRNS shall apply cell specific transmit diversity configuration and if the Diversity Mode IE is not set to “None” the DRNS shall activate/deactivate the Transmit Diversity for the secondary serving HS-DSCH Radio Link in accordance with the Transmit Diversity Indicator IE in the HS-DSCH FDD Secondary Serving Information IE.]
-	[FDD – If the Serving Cell Change CFN IE is included in the RADIO LINK ADDITION REQUEST message, then the DRNS shall activate the resources that are allocated for the new secondary serving HS-DSCH Radio Link at the next coming CFN with a value equal to the value requested by the SRNC, or earlier. In this case, in the new configuration the DRNS shall, if applicable, de-allocate the HS-PDSCH resources of the old secondary serving HS-PDSCH Radio Link. The DRNS shall deactivate those resources at the next coming CFN with a value equal to the value requested by the SRNC.]
-	[FDD – If the Serving Cell Change CFN IE is not included then the DRNS shall activate immediately the resources that are allocated for the new secondary serving HS-PDSCH Radio Link, and shall keep active the resources that are allocated for the previous secondary serving HS-PDSCH Radio Link.]
-	[FDD – If the requested secondary serving HS-DSCH Radio Link Change was successful or unsuccessful, the DRNS shall indicate this in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH FDD Secondary Serving Information Response IE in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
[FDD – Multiflow Setup]:
[FDD - If the Multiflow Information IE is present in the RADIO LINK ADDITION REQUEST message, then the DRNS shall setup the requested Multiflow operation.]
[FDD – Additional Serving E-DCH Radio Link Change:] 
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Additional E-DCH Cell Information Addition IE in the Additional E-DCH Cell Information RL Add Req IE and the HS-PDSCH RL ID IE in the Additional HS Cell Information RL Addition IE, the HS-PDSCH RL ID IE indicates the new Additional Serving E-DCH Radio Link:]
-	[FDD – In the new configuration the DRNS shall allocate the E-DCH resources for the new additional serving E-DCH Radio Link on the secondary UL frequency. Non cell specific E-DCH parameters shall take the same values as for the corresponding cell of the Primary uplink frequency.]
-	[FDD – If the old Additional Serving E-DCH RL is within this DRNS, the DRNS shall de-allocate the E-AGCH resources of the old Additional Serving E-DCH Radio Link at the activation of the new configuration.]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Additional Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNS may include in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the additional serving E-DCH RL and may include the Default Serving Grant in DTX Cycle 2 IE.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE in the Additional E-DCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNS may include the E-RGCH/E-HICH Channelisation Code IE and/or the E-HICH Signature Sequence IE and/or the E-RGCH Signature Sequence IE or may alternatively include the E-RGCH Release Indicator IE in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message for any of the other E-DCH Radio Links in the DRNS Communication Context that have not been included in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE.] 
-	[FDD – If the Serving Cell Change CFN IE is included in the RADIO LINK ADDITION REQUEST message, then the DRNS shall activate the resources that are allocated for the new additional serving E-DCH Radio Link at the next coming CFN with a value equal to the value requested by the SRNC, or earlier. In this case, in the new configuration the DRNS shall, if applicable, de-allocate the E-AGCH resources of the old Additional Serving E-DCH Radio Link. The DRNS shall deactivate those resources at the next coming CFN with a value equal to the value requested by the SRNC.]
-	[FDD- If the Serving Cell Change CFN IE is not included then the DRNS shall activate immediately the resources that are allocated for the new additional serving E-DCH Radio Link, and shall keep active the resources that are allocated for the previous additional serving E-DCH Radio Link.]
-	[FDD – If the addition of the requested Additional Serving E-DCH Radio Link was successful but the Additional Serving E-DCH Radio Link change was unsuccessful, the DRNS shall indicate this in the Additional E-DCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
[FDD – E-DCH:]
[FDD – If the RADIO LINK ADDITION REQUEST message contains the E-DCH RL Indication IE, set to “E-DCH”,in the RL Information IE, then for every such RL.]
-	[FDD – The DRNS shall setup the E-DCH resources as configured in the UE context.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the Transport Layer Address IE and Binding ID IE in the RL specific E-DCH Information IE for an E-DCH MAC-d flow, then if the Transport Bearer Not Requested Indicator IE is not included for this E-DCH MAC-d flow, the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the concerned E-DCH MAC-d flow.]
-	[FDD – The DRNC shall include in the RADIO LINK ADDITION RESPONSE message the Binding ID IE and Transport Layer Address IE for establishment of a transport bearer for every E-DCH MAC-d flow being established for which the Transport Bearer Not Requested Indicator IE was not included.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer Shall not be Established” for an E-DCH MAC-d flow, then the DRNC shall not establish a transport bearer for the concerned E-DCH MAC-d flow and shall include the Transport Bearer Not Setup Indicator IE for the corresponding E-DCH MAC-d flow in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer may not be Established” for an E-DCH MAC-d flow and:]
-	[FDD – if the DRNC establishes a transport bearer for the concerned E-DCH MAC-d flow, the DRNC shall include in the RADIO LINK ADDITION RESPONSE message the Binding ID IE and Transport Layer Address IE for establishment of a transport bearer for the E-DCH MAC-d flow being established.]
-	[FDD – if the DRNC does not establish a transport bearer for the concerned E-DCH MAC-d flow, the DRNC shall include the Transport Bearer Not Setup Indicator IE for the corresponding E-DCH MAC-d flow in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNC may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNC may include the corresponding E-RGCH Signature Sequence IE in the E-DCH FDD DL Control Channel Information IE in the RADIO LINK ADDITION RESPONSE message, for every RL indicated by the E-DCH RL Indication IE, set to “E-DCH”, in the RL Information IE.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-RGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-RGCH power for the RL. The E-RGCH Power Offset should be applied for any E-RGCH transmission to this UE.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-HICH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-HICH power for the RL. The E-HICH Power Offset should be applied for any E-HICH transmission to this UE.]
-	[FDD – If the DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE in the E-DCH FDD DL Control Channel Information IE in the RADIO LINK ADDITION RESPONSE message, then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE in the E-DCH FDD DL Control Channel Information IE, to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.]
[FDD – Serving E-DCH Radio Link Change:]
[FDD – If the RADIO LINK ADDITION REQUEST message contains the Serving E-DCH RL IE, this indicates the new Serving E-DCH Radio Link:]
-	[FDD – If the new Serving E-DCH RL is in this DRNS:]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both and include these E-RNTI identifiers and the Channelisation Code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the E-DCH Serving Cell Change Information Response IE for the indicated RL in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNS may include the Serving Grant Value IE and Primary/Secondary Grant Selector IE in the E-DCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message for the initial grant for the new serving E-DCH RL.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled and/or non-scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the E-DCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If a serving cell change is performed the RADIO LINK ADDITION RESPONSE message may contain invalid data (see 9.2.2.4C).]
-	[FDD – The DRNS may include the Default Serving Grant in DTX Cycle 2 IE in the RADIO LINK ADDITION RESPONSE message for the new serving E-DCH RL.]
-	[FDD – The DRNS may include the E-RGCH/E-HICH Channelisation Code IE and/or the E-HICH Signature Sequence IE and/or the E-RGCH Signature Sequence IE or may alternatively include the E-RGCH Release Indicator IE in the E-DCH FDD DL Control Channel Information IE in the E-DCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message for any of the other E-DCH Radio Link in the DRNS Communication Context that have not been included in the E-DCH FDD DL Control Channel Information IE in RL Information Response IE.]
-	[FDD – If the Serving Cell Change CFN IE is included in the RADIO LINK ADDITION REQUEST message, then the DRNS shall activate the resources that are allocated for the new serving E-DCH Radio Link at the next coming CFN with a value equal to the value requested by the SRNC, or earlier. In this case, in the new configuration the DRNS shall, if applicable, de-allocate the E-AGCH resources of the old Serving E-DCH Radio Link. The DRNS shall deactivate those resources at the next coming CFN with a value equal to the value requested by the SRNC.]
-	[FDD- If the Serving Cell Change CFN IE is not included then the DRNS shall activate immediately the resources that are allocated for the new serving E-DCH Radio Link, and shall keep active the resources that are allocated for the previous serving E-DCH Radio Link.]
-	[FDD – If the addition of the requested Serving E-DCH Radio Link was successful but the Serving E-DCH Radio Link change was unsuccessful, the DRNS shall indicate this in the E-DCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
[FDD – E-DPCH Handling:]
[FDD – If the RADIO LINK ADDITION REQUEST message includes an E-DPCH Information IE it defines the new E-DPCH configuration in the DRNS to be used on the new E-DCH Radio Link and the DRNS shall use the new parameters for the related resource allocation operations.]
[FDD – If the E-TFCS Information IE in the E-DPCH Information IE contains the E-TFCI Boost Information IE, the DRNS shall use the information according to TS 25.214 [10]. If the E-TFCI Boost Information IE is not present, the DRNS shall use the value “127” in the algorithm defined in TS 25.214 [10].]
[FDD – If the E-DPCH Information IE includes the E-TFCS Information IE, the DRNS shall use the E-TFCS Information IE for the E-DCH when reserving resources for the uplink of the new configuration. The DRNS shall apply the new TFCS in the uplink of the new configuration. If the E-TFCS Information IE contains the E-DCH Minimum Set E-TFCI Validity Indicator IE the DRNS shall ignore the value in E-DCH Minimum Set E-TFCI IE. If the E-DCH Minimum Set E-TFCI validity indicator IE is absent DRNS shall use the value for the related resource allocation operation.]
[FDD – If the E-TFCS Information IE in the E-DPCH Information IE contains the E-DPDCH Power Interpolation IE, the DRNS shall use the value to determine the applicable E-DPDCH power formula defined in TS 25.214 [10]. If the E-DPDCH Power Interpolation IE is not present, the DRNS shall use the E-DPDCH power extrapolation formula defined in TS 25.214 [10].]
[FDD – If the RADIO LINK ADDITION REQUEST message includes an E-DPCH Information IE, which contains the Minimum Reduced E-DPDCH Gain Factor IE, then the DRNS shall use the value to determine the applicable minimum gain factor (βed,k,reduced,min) defined in TS 25.214 [10]. For the case the Minimum Reduced E-DPDCH Gain Factor IE is not available for the UE Context, the DRNS may use the default value defined in TS 25.331 [16]. ]
[FDD – E-DCH Setup on a new Radio Link:]
[FDD – If the E-DCH FDD Information IE is present in the RADIO LINK ADDITION REQUEST message then:]
-	[FDD – the E-DCH FDD Information IE defines the new E-DCH FDD configuration in the DRNS to be used on the new E-DCH Radio Link.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH Logical Channel Information IE in the E-DCH FDD Information IE, then the DRNS shall use this information to optimise MAC-e scheduling decisions.] 
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes UE Aggregate Maximum Bit Rate Enforcement Indicator IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flow Specific Information IE in the E-DCH FDD Information IE, then the DRNS shall, if supported, consider the data of the related E-DCH Logical Channel for UE Aggregate Maximum Bit Rate Enforcement.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel and use the indicated format in user plane frame structure for E-DCH channels (TS 25.425 [32]) and MAC (TS 25.321 [41]).]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH MAC-d Flow Multiplexing List IE for an E-DCH MAC-d flow the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If in the RADIO LINK ADDITION REQUEST message the E-DCH Grant Type is indicated as being “E-DCH Non-Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume non-scheduled grants being configured for that E-DCH MAC-d flow and shall use the information within the HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant IE, if included, for the related resource allocation operation.]
-	[FDD – If in the RADIO LINK ADDITION REQUEST message the E-DCH Grant Type is indicated as being “E-DCH Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume scheduled grants being configured for that E-DCH MAC-d flow.]
-	[FDD – The DRNS may use the Traffic Class IE for a specific E-DCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the E-DCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.]
-	[FDD – If the TNL QoS IE is included for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the Bundling Mode Indicator IE for a E-DCH MAC-d flow in the E-DCH MAC-d Flow Specific Information IE in the E-DCH FDD Information IE and the Bundling Mode Indicator IE is set to “Bundling” and the E-TTI IE is set to “2ms”, then the DRNS shall use the bundling mode for the E-DCH UL data frames for the related MAC-d flow, otherwise the DRNS shall use the non-bundling mode for the E-DCH UL data frames for the related MAC-d flow.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Maximum Bitrate IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-DPCCH/E-DPDCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Reference Power Offset IE, then the DRNS may use this value as a default HARQ power offset if it is not able to decode the MAC-e PDU and to determine the value of the actual HARQ power offset.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-AGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-AGCH power. The E-AGCH Power Offset should be applied for any E-AGCH transmission to this UE.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-RGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-RGCH power for the RL. The E-RGCH Power Offset should be applied for any E-RGCH transmission to this UE.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-HICH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-HICH power for the RL. The E-HICH Power Offset should be applied for any E-HICH transmission to this UE.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the UPH Filtering Measurement Forwarding Request IE, then the DRNS shall use this instruction to handle the UE UPH filtering measurement forwarding.]
-	[FDD – If the RADIO LINK ADDITION REQUEST message includes the SixteenQAM UL Operation Indicator IE, the DRNS shall activate/deactivate SixteenQAM UL Operation for the RL in accordance with the SixteenQAM UL Operation Indicator IE.]
-	[FDD – If SixteenQAM UL Operation is activated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 2 according to TS 25.321 [41]. If SixteenQAM UL Operation is deactivated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 1 according to TS 25.321 [41].] 
[FDD – Additional E-DCH Setup:]
[FDD – If the Additional E-DCH Cell Information RL Add Req IE is present in the RADIO LINK ADDITION REQUEST message and the choice of Setup Or Addition Of E-DCH On Secondary UL Frequency is “Setup”, then the Additional E-DCH Cell Information Setup IE defines the new configuration and then:] 
-	[FDD – If the C-ID IE is included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE the C-ID IE indicates the cell in which the additional E-DCH shall be setup.]
-	[FDD – The DRNS shall setup the Additional E-DCH on the secondary uplink frequency and setup the requested Additional E-DCH resources on the Radio Links and in the cells indicated by the E-DCH Additional RL ID IE and the C-ID IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE.]
-	[FDD – If the C-ID IE is not included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE the E-DCH Additional RL ID IE indicates the existing RL on which the Additional E-DCH shall be setup.]
-	[FDD – The DRNS shall setup the Additional E-DCH on the Radio Links indicated by the E-DCH Additional RL ID IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE.]
-	[FDD – The DRNS shall use for the non cell specific Radio Link related parameters and non cell specific E-DPCH, UL DPCH, E-DCH and F-DPCH parameters the same values as for the corresponding cell of the Primary uplink frequency. The DRNS shall, if supported, use the Dual Cell E-DCH Operation Enhancements Information IE for the Secondary uplink frequency if it is included in the Additional E-DCH FDD Information IE in the Additional E-DCH FDD Setup Information IE.]
-	[FDD – If the UL SIR Target IE in the UL DPCH Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE and/or the DL Power Balancing Information IE and/or the Minimum Reduced E-DPDCH Gain Factor IE in the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE are present, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If the Secondary UL Frequency Activation State IE is present in the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE, the DRNS shall use the information as initial activation state of the Radio Links on the secondary uplink frequency.]
-	[FDD – If the Initial DL Tx Power IE, the Primary CPICH Ec/No IE, the E-AGCH Power Offset IE, the E-RGCH Power Offset IE and/or the E-HICH Power Offset IE, is included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If the Enhanced Primary CPICH Ec/No IE is included in the Multicell E-DCH RL Specific Information IE in the Additional E-DCH Secondary RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If the F-DPCH Slot Format Support Request IE in the F-DPCH Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE is included, the DRNS shall configure the concerned UE Context for F-DPCH Slot Format operation according to TS 25.211 [8] and include the F-DPCH Slot Format IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION RESPONSE message. If the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE includes the F-DPCH Slot Format IE, the DRNS may use the F-DPCH Slot Format IE to determine the F-DPCH slot format.]
-	[FDD – If the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the E-DCH Maximum Bitrate IE, the E-DCH Minimum Set E-TFCI IE, the E-DCH Processing Overload Level IE, the Implicit Grant handling IE, the Minimum TEBS threshold IE and/or the DTX Information2 IE are present in the Additional E-DCH FDD Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If activation of power balancing for the Additional E-DCH RL by the RADIO LINK ADDITION REQUEST message is supported by the DRNS, the DRNS shall include the DL Power Balancing Activation Indicator IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – For each Additional E-DCH RL not having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall set the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message to a value that uniquely identifies the RL as a RL Set within the UE Context. The generation of E-HICH related information for Additional E-DCH RLs in different RL Sets shall not be common.]
-	[FDD – For all Additional E-DCH RLs having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall assign to each Additional E-DCH RL the same value for the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message. This value shall uniquely identify these Additional E-DCH RLs as members of the same RL Set within the UE Context. The generation of E-HICH information for all Additional E-DCH RLs in a RL Set shall be common.]
-	[FDD – For each Additional E-DCH RL which has or can have a common generation of E-RGCH information with another Additional E-DCH RL (current or future) when the DRNS would contain the Additional E-DCH serving RL, the DRNS shall set a same value to the E-DCH RL Set ID IE for the Additional E-DCH RL in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – For every additional E-DCH RL indicated in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE the DRNS may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNS may include the corresponding E-RGCH Signature Sequence IE in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION RESPONSE message and if DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE, then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.]
-	[FDD – If the Additional Serving E-DCH Radio Link is configured in the DRNS, then:]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the corresponding RL and include these E-RNTI identifiers and the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION RESPONSE message.]
-	[FDD – The DRNS may include in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION RESPONSE message the the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the Additional serving E-DCH RL and may include the Default Serving Grant in DTX Cycle 2 IE.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant E-DCH FDD Information Response IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK ADDITION RESPONSE message.] 
-	[FDD – If the Serving Cell Change CFN IE is included in the RADIO LINK ADDITION REQUEST message, then the DRNS shall activate the resources that are allocated for the new additional serving E-DCH Radio Link at the next coming CFN with a value equal to the value requested by the SRNC. If the Serving Cell Change CFN IE is not included then the DRNS shall activate immediately the resources that are allocated for the new additional serving E-DCH Radio Link]
-	[FDD – If Primary CPICH is not to be used as a Phase Reference for this Radio Link on the secondary UL frequency, the DRNS shall include the Primary CPICH Usage For Channel Estimation IE set to the value “Primary CPICH shall not be used” in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE RADIO LINK ADDITION RESPONSE message.]
-	[FDD – If Secondary CPICH may be used as a Phase Reference for this Radio Link on the secondary UL frequency, the DRNS shall include the Secondary CPICH Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION RESPONSE message. If the DRNS doesn’t include the Secondary CPICH Information IE, it shall not include the Primary CPICH Usage For Channel Estimation IE set to the value “Primary CPICH shall not be used”.]
[FDD – Additional E-DCH RL Addition:]
[FDD – If the Additional E-DCH Cell Information RL Add Req IE is present in the RADIO LINK ADDITION REQUEST message and the choice of Setup Or Addition Of E-DCH On Secondary UL Frequency is “Addition”, then the Additional E-DCH Cell Information Addition IE defines the new configuration and then:]
-	[FDD – The DRNS shall setup the requested E-DCH resources as requested, or as configured in the UE context , on the Radio Links indicated by the E-DCH Additional RL ID IE in the Additional E-DCH RL Specific Information To Add IE. Non cell specific Radio Link related parameters and non cell specific E-DPCH, UL DPCH, E-DCH and F-DPCH parameters shall take the same values as for the corresponding cell of the Primary uplink frequency.]
-	[FDD – if the Multicell E-DCH Information IE is included and contains the Minimum Reduced E-DPDCH Gain Factor IE, the DRNS shall use the information in the same way as for the information used on the Primary uplink frequency.]
-	[FDD – if the Additional E-DCH FDD Information IE is included and contains the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the E-DCH Maximum Bitrate IE, the E-DCH Minimum Set E-TFCI IE, or the E-DCH Processing Overload Level IE, the Implicit Grant handling IE, the Minimum TEBS threshold IE and/or the DTX Information2 IE, the DRNS shall use the information in the same way as for the information used on the Primary uplink frequency.]
-	[FDD – If the E-AGCH Power Offset IE, the E-RGCH Power Offset IE and/or the E-HICH Power Offset IE is included in the Additional E-DCH RL Specific Information To Add IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If the power balancing is active with the Power Balancing Adjustment Type of the UE Context set to “Individual” in the existing Additional E-DCH RL(s) and the RADIO LINK ADDITION REQUEST message includes the DL Reference Power IE in the Multicell E-DCH RL Specific Information IE in the Additional E-DCH RL Specific Information To Add IE, the DRNS shall activate the power balancing and use the DL Reference Power IE for the power balancing procedure in the new Additional RL(s), if activation of power balancing by the RADIO LINK ADDITION REQUEST message is supported, according to subclause 8.3.15. In this case, the DRNS shall include the DL Power Balancing Activation Indicator IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION RESPONSE message. If the DRNS starts the DL transmission and the activation of the power balancing at the same CFN, the initial power of the power balancing, i.e. Pinit shall be set to the power level which is calculated based on the following IEs in the Additional E-DCH RL Specific Information To Add IE (if received): Primary CPICH Ec/No IE or the Enhanced Primary CPICH Ec/No IE in the Multicell E-DCH RL Specific Information IE or to the power level which is calculated based on the power relative to the Primary CPICH power used by the existing Additional RLs.]
-	[FDD – For each Additional E-DCH RL not having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall set the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message to a value that uniquely identifies the RL as a RL Set within the UE Context. The generation of E-HICH related information for Additional E-DCH RLs in different RL Sets shall not be common.]
-	[FDD – For all Additional E-DCH RLs having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall assign to each Additional E-DCH RL the same value for the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK ADDITION RESPONSE message. This value shall uniquely identify these Additional E-DCH RLs as members of the same RL Set within the UE Context. The generation of E-HICH information for all Additional E-DCH RLs in a RL Set shall be common.]
-	[FDD – For each Additional E-DCH RL which has or can have a common generation of E-RGCH information with another Additional E-DCH RL (current or future) when the DRNS would contain the Additional E-DCH serving RL, the DRNS shall set the same value for the E-DCH RL Set ID IE for the Additional E-DCH RL in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION RESPONSE message.] 
	[FDD – For every additional E-DCH RL indicated in the Additional E-DCH RL Specific Information To Add IE the DRNS may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNS may include the corresponding E-RGCH Signature Sequence IE in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION RESPONSE message and if DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE, then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.]
-	[FDD – If in the Additional E-DCH RL Specific Information To Add IE the Primary CPICH Ec/No IE or the Primary CPICH Ec/No IE and the Enhanced Primary CPICH Ec/No IE in the Multicell E-DCH RL Specific Information IE measured by the UE are included for an RL in the RADIO LINK ADDITION REQUEST message, the DRNS shall use this in the calculation of the Initial DL TX Power for this additional RL. If the Primary CPICH Ec/No IE is not present, the DRNS shall set the Initial DL TX Power based on the power relative to the Primary CPICH power used by the existing RLs.]
[FDD – E-DCH decoupling operation]
[FDD – If the E-DCH Decoupling Indication IE is present in the RADIO LINK ADDITION REQUEST message, then the DRNS shall if supported use this indication for the E-DCH decoupling operation.]
[FDD – Radio Links without DPCH/F-DPCH operation]
[FDD – If the Radio Links without DPCH/F-DPCH Indication IE is present in the RADIO LINK ADDITION REQUEST message:]
-	[FDD – The DRNS shall if supported start operation with Radio Links without DPCH/F-DPCH.]
[TDD – HS-DSCH Setup:]
[TDD – If the HS-DSCH Information IE is present in the RADIO LINK ADDITION REQUEST message, then:]
-	[TDD – The DRNS shall setup the requested HS-PDSCH resources on the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE.]
-	[TDD – The DRNC shall include the HARQ Memory Partitioning IE in the HS-DSCH TDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE, then the DRNS shall use the indicated format in user plane frame structure for HS-DSCH channels (TS 25.425 [32]) and MAC-hs (TS 25.321 [41]). ]
-	[TDD – The DRNS may use the Traffic Class IE for a specific HS-DSCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the HS-DSCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.]
-	[TDD – The DRNC shall allocate an HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the RADIO LINK ADDITION RESPONSE message.]
-	[TDD – The DRNC shall include in the RADIO LINK ADDITION RESPONSE message the Binding ID IE and Transport Layer Address IE for establishment of transport bearer for every HS-DSCH MAC-d flow being established.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes the Transport Layer Address IE and Binding ID IE in the HS-DSCH Information IE for an HS-DSCH MAC-d flow, then the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the concerned HS-DSCH MAC-d flow. If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes the MAC-hs Guaranteed Bit Rate IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall use this information to optimise MAC-hs scheduling decisions for the related HSDPA Priority Queue.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes the Discard Timer IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall use this information to discard out-of-date MAC-hs SDUs from the related HSDPA Priority Queue.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNC shall ignore the SID IE and MAC-d PDU Size IE in the MAC-d PDU Size Index IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related HSDPA Priority Queue.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes DL RLC PDU Size Format IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, the DL RLC PDU Size Format IE may be used by the DRNS to determine the allocated capacity on user plane as described in TS 25.425 [32].]
-	[TDD – The DRNC shall include the HS-DSCH Initial Capacity Allocation IE in the HS-DSCH TDD Information Response IE in the RADIO LINK ADDITION RESPONSE message for every HS-DSCH MAC-d flow being established, if the DRNS allows the SRNC to start transmission of MAC-d PDUs before the DRNS has allocated capacity on user plane as described in TS 25.425 [32]. If RADIO LINK ADDITION REQUEST message includes HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE set to “Flexible MAC-d PDU Size”, then DRNC shall only set in the HS-DSCH Initial Capacity Allocation IE the values for the peer of Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE to the values of the corresponding peer I in RADIO LINK ADDITION REQUEST in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE for a Priority Queue including Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE.]
-	[TDD – The DRNS shall allocate HS-SCCH parameters corresponding to the HS-DSCH and the DRNC shall include the [3.84Mcps TDD – HS-SCCH Specific Information Response IE] [1.28Mcps TDD – HS-SCCH Specific Information Response LCR IE] in the HS-DSCH TDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
	[1.28 Mcps TDD – If the MIMO Activation Indicator IE is included in the HS-DSCH TDD Information IE, then, The DRNS shall activate the MIMO mode for the HS-DSCH Radio Link. The DRNS shall decide the SF mode for HS-PDSCH dual stream and include the MIMO SF Mode for HS-PDSCH dual stream IE in the HS-DSCH TDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[1.28 Mcps TDD – If the UE TS0 Capability LCR IE is included in the HS-DSCH TDD Information IE, then the DRNC may include the TS0 HS-PDSCH Indication LCR IE in the RADIO LINK ADDITION RESPONSE message if HS-PDSCH resources could be allocated on TS0 for the UE.]
[TDD – Intra-Node B Serving HS-DSCH Radio Link Change:]
[TDD – If the RADIO LINK ADDITION REQUEST message includes the HS-PDSCH RL ID IE, this indicates the new Serving HS-DSCH Radio Link:]
-	[TDD – The DRNC shall include the HARQ Memory Partitioning IE in the HS-DSCH TDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[TDD – The DRNS shall allocate HS-SCCH parameters corresponding to the HS-DSCH and the DRNC shall include the [3.84Mcps TDD – HS-SCCH Specific Information Response IE] [1.28Mcps TDD – HS-SCCH Specific Information Response LCR IE] [7.68Mcps TDD – HS-SCCH Specific Information Response 7.68Mcps IE] in the HS-DSCH TDD Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
[TDD – E-DCH:]
[3.84Mcps TDD, 1.28Mcps TDD and 7.68Mcps TDD – If the [3.84Mcps TDD – E-DCH Information IE][1.28Mcps TDD – E-DCH Information 1.28Mcps IE] [7.68Mcps TDD – E-DCH Information 7.68Mcps IE] is present in the RADIO LINK ADDITION REQUEST message:]
-	[TDD – The DRNS shall setup the requested E-DCH resources on the Radio Link indicated by the E-DCH Serving RL IE.]
-	[TDD – If the TNL QoS IE is included in the E-DCH MAC-d Flows Information TDD IE for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes the Transport Layer Address IE and Binding ID IE in the E-DCH MAC-d Flows Information TDD IE for an E-DCH MAC-d flow, then the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the concerned E-DCH MAC-d flow.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH MAC-d Flow Multiplexing List IE for an E-DCH MAC-d flow in the E-DCH MAC-d Flows Information TDD IE, the DRNS shall use this information for the related resource allocation operation.]
-	[TDD – If in the RADIO LINK ADDITION REQUEST message the E-DCH Grant Type IE in the E-DCH MAC-d Flows Information TDD IE is set to “Non-scheduled” for an E-DCH MAC-d flow the DRNS shall assume non-scheduled grants are configured for that E-DCH MAC-d flow.]
-	[TDD – If in the RADIO LINK ADDITION REQUEST message the E-DCH Grant Type IE in the E-DCH MAC-d Flows Information TDD IE is set to “Scheduled” the DRNS shall assume that it may issue scheduled grants for the concerned E-DCH MAC-d flow.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flows Information TDD IE, then the DRNS shall use this information to optimise MAC-e scheduling decisions for the related queue.]
-	[1.28Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the MAC-es Maximum Bit Rate LCR IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flows Information TDD IE, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information TDD IE in the E-DCH Information IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel and use the indicated format in user plane frame structure for E-DCH channels (TS 25.425 [32]) and MAC (TS 25.321 [41]).]
-	[3.84Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH TDD Maximum Bitrate IE in the E-DCH TDD Information IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[1.28Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Physical Layer Category LCR IE or Extended E-DCH Physical Layer Category LCR IE in the E-DCH TDD Information LCR IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[7.68Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH TDD Maximum Bitrate 7.68Mcps IE in the E-DCH TDD Information 7.68Mcps IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[3.84Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Processing Overload Level IE in the E-DCH TDD Information IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[7.68Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Processing Overload Level IE in the E-DCH TDD Information 7.68Mcps IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[1.28Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Processing Overload Level IE in the E-DCH TDD Information LCR IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[TDD – The DRNS may use the Traffic Class IE for a specific E-DCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B.]
-	[TDD – If the RADIO LINK ADDITION REQUEST message includes the [3.84Mcps TDD – E-DCH TDD Information IE][1.28Mcps TDD – E-DCH TDD Information LCR IE] in the E-DCH MAC-d Flows Information TDD IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
-	[1.28Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the Maximum Number of Retransmission for Scheduling Info LCR IE and the E-DCH Retransmission timer for Scheduling Info LCR IE in the E-DCH TDD Information LCR IE, then the DRNS shall use these parameters for the transmission of scheduling information without any MAC-d PDUs.]
-	[3.84Mcps TDD – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information TDD IE in the E-DCH Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[3.84Mcps TDD – The DRNS shall allocate an E-RNTI identifier and include the E-RNTI identifier and the E-AGCH(s) assigned in the E-DCH Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
-	[1.28Mcps TDD – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information LCR TDD IE in the E-DCH Information Response 1.28Mcps IE in the RADIO LINK ADDITION RESPONSE message.]
-	[1.28Mcps TDD – The DRNS shall allocate an E-RNTI identifier and include the E-RNTI identifier, the E-AGCH(s) and E-HICH(s) assigned in the E-DCH Information Response 1.28Mcps IE in the RADIO LINK ADDITION RESPONSE message.]
-	[7.684Mcps TDD – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information 7.68Mcps TDD IE in the E-DCH Information Response 7.68Mcps IE in the RADIO LINK ADDITION RESPONSE message.]
-	[7.68Mcps TDD – The DRNS shall allocate an E-RNTI identifier and include the E-RNTI identifier and the E-AGCH(s) assigned in the E-DCH Information Response 7.68Mcps IE in the RADIO LINK ADDITION RESPONSE message.]
-	[1.28Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the Multi-Carrier E-DCH Physical Layer Category LCR IE in the E-DCH TDD Information LCR IE, the DRNS shall use this information for the related resource allocation operation, and when applicable, for multi-carrier E-DCH scheduling.]
-	[1.28Mcps TDD - If the UE TS0 Capability LCR IE in the UE Capabilities Information IE in the HS-DSCH Information IE is not present and if the RADIO LINK ADDITION REQUEST message includes the UE TS0 Capability LCR IE in the E-DCH TDD Information LCR IE, the DRNS can use this information to allocate the downlink resources for the UE according to TS 25.306 [42].]
[3.84Mcps TDD – Intra-Node B Serving E-DCH Radio Link Change:]
[3.84Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Serving RL IE, this indicates the new Serving E-DCH Radio Link:]
-	[3.84Mcps TDD – The DRNS shall allocate E-AGCH parameters corresponding to the E-DCH and include the E-AGCH Specific Information Response IE in the E-DCH Information Response IE in the RADIO LINK ADDITION RESPONSE message.]
[1.28Mcps TDD – Intra-Node B Serving E-DCH Radio Link Change:]
[1.28Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Serving RL IE, this indicates the new Serving E-DCH Radio Link:]
-	[1.28Mcps TDD – The DRNS shall allocate E-AGCH parameters and E-HICH parameters corresponding to the E-DCH and include the E-AGCH Specific Information Response IE and the E-HICH Specific Information Response IE in the E-DCH Information Response 1.28Mcps IE in the RADIO LINK ADDITION RESPONSE message.]
[7.68Mcps TDD – Intra-Node B Serving E-DCH Radio Link Change:]
[7.68Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Serving RL IE, this indicates the new Serving E-DCH Radio Link:]
-	[7.68Mcps TDD – The DRNS shall allocate E-AGCH parameters corresponding to the E-DCH and include the E-AGCH Specific Information Response 7.68Mcps TDD IE in the E-DCH Information Response 7.68Mcps IE in the RADIO LINK ADDITION RESPONSE message.]
[1.28 Mcps TDD – Continuous Packet Connectivity Handling:]
[1.28 Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the Continuous Packet Connectivity DRX Information LCR IE, then the DRNS shall take account into these parameters to decide the DRX operation related parameters and configure the concerned UE Context for DRX operation according to TS 25.224 [22] and include the parameter(s) in the Continuous Packet Connectivity DRX Information Response LCR IE in the RADIO LINK ADDITION RESPONSE message.]
[1.28 Mcps TDD - If the Inactivity Threshold for UE DRX Cycle Ext IE is included in the Continuous Packet Connectivity DRX Information LCR IE, then the DRNS may use this value to determine the Inactivity Threshold for UE DRX Cycle according to TS 25.224 [22].]
[1.28 Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the HS-DSCH Semi-Persistent scheduling Information LCR IE, then:]
-	[1.28 Mcps TDD – The DRNS shall configure the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE for HS-DSCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD – The DRNS shall allocate the HS-SICH information needed for HS-DSCH Semi-Persistent scheduling operation and include the HS-DSCH Semi-Persistent scheduling Information Response LCR IE in the RADIO LINK ADDITION RESPONSE message.]
-	[1.28 Mcps TDD – If the HS-DSCH Semi-Persistent Resource Reservation Indicator IE is included in the HS-DSCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall include Allcoated HS-PDSCH Semi-persistent resource IE in the RADIO LINK ADDITON RESPONSE message.]
-	[1.28 Mcps TDD – The DRNS shall include the Buffer Size for HS-DSCH Semi-Persistent scheduling IE in the RADIO LINK ADDITION RESPONSE message.]
-	[1.28 Mcps TDD – The DRNS shall include the Number of Processes for HS-DSCH Semi-Persistent scheduling IE in the RADIO LINK ADDITION RESPONSE message.] 
-	[1.28 Mcps TDD – If the HS-DSCH Semi-Persistent scheduling operation Indicator IE is included in the HS-DSCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall apply this information for HS-DSCH Semi-Persistent scheduling operation.]
[1.28 Mcps TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Semi-Persistent scheduling Information LCR IE, then:]
-	[1.28 Mcps TDD – The DRNS shall configure the Serving E-DCH Radio Link indicated by the E-DCH Serving RL IE for E-DCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD – If the E-DCH Semi-Persistent Resource Reservation Indicator IE is included in the E-DCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall include Allcoated E-DCH Semi-persistent resource IE in the RADIO LINK ADDITON RESPONSE message.] 
-	[1.28 Mcps TDD – If the E-DCH Semi-Persistent scheduling Indicator IE is included in the E-DCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall apply this information for E-DCH Semi-Persistent scheduling operation.] 
[1.28 Mcps TDD – Multi-Carrier E-DCH:]
[1.28Mcps TDD - If the Multi-Carrier E-DCH Information IE is present in the RADIO LINK ADDITION REQUEST message, then the Multi-Carrier E-DCH Information IE defines the new configuration and then:]
-	[1.28Mcps TDD - The DRNS shall setup the requested E-DCH resource on the uplink frequecies indicated by the the Multi-Carrier E-DCH Information LCR IE.]
-	[1.28Mcps TDD - The DRNS shall use the corresponding PRXdes_base IE for power control on each uplink frequency according to TS 25.331 [16].] 
-	[1.28Mcps TDD - If the SNPL Carrier Group Indicator IE is present in the Multi-Carrier E-DCH Information LCR IE, the DRNS shall use the information to determine which SNPL Carrier Group each frequency indicated by the UARFCN IE belongs to.]
-	[1.28Mcps TDD - If the Multi-Carrier E-DCH Transport Bearer Mode LCR IE is set to "Separate Iur transport bearer mode", the DRNS shall use this mode in the new configuration and apply separate transport bearers for the MAC-d flows.]
-	[1.28Mcps TDD – If the Multi-Carrier E-DCH Transport Bearer Mode LCR IE is set to "E-DCH UL flow multiplexing mode", the DRNS shall use this mode in the new configuration and multiplex MAC-d flow received on the different carriers on one Iur transport bearer.]
-	[1.28Mcps TDD - If the Separate Iur transport bearer mode is used in the new configuration, then the DRNS shall include the Binding ID IE and Transport Layer Address IE in the Multi-Carrier E-DCH Information Response LCR IE in the RADIO LINK ADDITION RESPONSE message for establishment of a transport bearer for every E-DCH MAC-d flow being established.]
-	[1.28Mcps TDD - If the E-DCH UL flow multiplexing mode is used in the new configuration, then the DRNS shall include the Binding ID IE and Transport Layer Address IE in the E-DCH TDD Information Response 1.28Mcps IE in the RADIO LINK ADDITION RESPONSE message for establishment of a transport bearer for every E-DCH MAC-d flow being established.]
[1.28 Mcps TDD – MU-MIMO Handling:]
[1.28Mcps TDD - If the RADIO LINK ADDITION REQUEST message includes the MU-MIMO Indicator IE, then:]
-	[1.28 Mcps TDD –the DRNS may use the MU-MIMO for the radio link according to the MU-MIMO Usage Indicator IE and shall include the MU-MIMO Information IE in the RADIO LINK SETUP RESPONSE message.]
-	[1.28 Mcps TDD – If the Standalone Midamble Channel Indicator IE is set to "Used", then the DRNS shall include Standalone Midamble Channel information in the RADIO LINK ADDITION RESPONSE message. Else, the DRNS shall not include Standalone Midamble Channel information in the RADIO LINK ADDITION RESPONSE message.]
Response message:
If all requested RLs are successfully added, the DRNC shall respond with a RADIO LINK ADDITION RESPONSE message.
After sending the RADIO LINK ADDITION RESPONSE message the DRNS shall continuously attempt to obtain UL synchronisation on the Uu interface.
For each RL for which the Delayed Activation IE is not included in the RADIO LINK ADDITION REQUEST message the DRNS shall:
-	[FDD –start transmission on the DL DPDCH(s) of the new RL as specified in TS 25.427 [4].] 
-	[TDD – start transmission on the new RL immediately as specified in TS 25.427 [4].]
For each RL for which the Delayed Activation IE is included in the RADIO LINK ADDITION REQUEST message, the DRNS shall:
-	if the Delayed Activation IE indicates “Separate Indication”:
-	not start any DL transmission for the concerning RL on the Uu interface.
-	if the Delayed Activation IE indicates “CFN”:
-	[FDD – start transmission on the DL DPDCH(s) of the new RL as specified in TS 25.427 [4], however never before the CFN indicated in the Activation CFN IE.]
-	[TDD – start transmission on the new RL at the CFN indicated in the Activation CFN IE as specified in TS 25.427 [4].]
[1.28 Mcps TDD – if the DRNS assigns one or more PLCCH sequence numbers to the radio link, then the PLCCH assignment(s) shall be sent to the SRNC in the RADIO LINK ADDITION RESPONSE message.]
8.3.2.3	Unsuccessful Operation

Figure 8: Radio Link Addition procedure: Unsuccessful Operation
If the establishment of at least one RL is unsuccessful, the DRNC shall respond with a RADIO LINK ADDITION FAILURE message. DRNC shall include in the RADIO LINK ADDITION FAILURE message a general Cause IE or a Cause IE for each failed radio link. The Cause IE indicates the reason for failure.
[FDD – If some RL(s) were established successfully, the DRNC shall indicate this in the RADIO LINK ADDITION FAILURE message in the same way as in the RADIO LINK ADDITION RESPONSE message.]
[FDD – If the requested Serving HS-DSCH Radio Link Change was successful, or if the addition of the requested serving HS-DSCH Radio Link was successful or existed already but the Serving HS-DSCH Radio Link change was unsuccessful, the DRNS shall indicate this in the HS-DSCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION FAILURE message.]
[FDD – If the requested secondary serving HS-DSCH Radio Link Change was successful, or if the addition of the requested secondary serving HS-DSCH Radio Link was successful or existed already but the secondary serving HS-DSCH Radio Link change was unsuccessful, the DRNS shall indicate this in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK ADDITION FAILURE message.]
[FDD – If the requested Serving E-DCH Radio Link Change was successful, or if the addition of the requested serving E-DCH Radio Link was successful or existed already but the Serving E-DCH Radio Link change was unsuccessful, the DRNS shall indicate this in the E-DCH Serving Cell Change Information Response IE in the RADIO LINK ADDITION FAILURE message.]
[FDD – If the MIMO Activation Indicator IE is included and the Power Offset For S-CPICH for MIMO Request Indicator IE is not included in the HS-DSCH FDD Information IE in the HS-DSCH Serving Cell Change Information IE in the RADIO LINK ADDITION REQUEST message or the power offset for S-CPICH for MIMO Request indicator has not been configured in the UE Context but MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the setup of the serving HS-DSCH Radio Link shall be reported as failed and the DRNC shall include in the RADIO LINK ADDITION FAILURE message the Cause IE.]
[FDD – If the MIMO with four transmit antennas Activation Indicator IE or the Dual Stream MIMO with four transmit antennas Activation Indicator IE is included and the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is not included in the HS-DSCH FDD Information IE in the HS-DSCH Serving Cell Change Information IE in the RADIO LINK ADDITION REQUEST message or the power offset for S-CPICH for MIMO with four transmit antennas Request indicator has not been configured in the UE Context but MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the setup of the serving HS-DSCH Radio Link shall be reported as failed and the DRNC shall include in the RADIO LINK ADDITION FAILURE message the Cause IE.]
[FDD – If the requested additional serving E-DCH Radio Link Change was successful, or if the addition of the requested additional serving E-DCH Radio Link was successful or existed already but the additional serving E-DCH Radio Link change was unsucessful, the DRNS shall indicate this in the Additional E-DCH Serving Cell Change Information response IE in the Additional E-DCH Cell Information Response RL Add IE in the RADIO LINK ADDITION FAILURE message.]
Typical cause values are:
Radio Network Layer Causes:
DL Radio Resources not Available;
UL Radio Resources not Available;
Combining Resources not Available;
Combining not Supported
Cell not Available;
[FDD – Requested Tx Diversity Mode not Supported;]
Power Level not Supported;
CM not Supported;
Reconfiguration CFN not Elapsed;
Number of DL Codes not Supported;
Number of UL codes not Supported;
[FDD – DPC mode change not Supported;]
Cell reserved for operator use;
Delayed Activation not supported;
[FDD – F-DPCH not supported;]
E-DCH not supported;
[FDD – MIMO not supported;]
[FDD – E-DCH TTI2ms not supported;]
[FDD – Continuous Packet Connectivity DTX-DRX operation not available;]
[FDD – Continuous Packet Connectivity UE DTX Cycle not available;]
[FDD – MIMO not available;]
[FDD – F-DPCH Slot Format operation not supported;]
[FDD – E-DPCCH Power Boosting not supported;]
[FDD – SixtyfourQAM DL and MIMO Combined not available;]
[FDD – Multi Cell operation not available;]
[FDD – Multi Cell operation not supported;]
[1.28Mcps TDD – MIMO not supported;]
[1.28Mcps TDD – MIMO not available;]
[1.28Mcps TDD – SixtyfourQAM DL and MIMO Combined not available;]
[FDD – TX diversity for MIMO UE on DL Control Channels not available;]
[FDD – Single Stream MIMO not available;]
[FDD – Multi Cell operation with MIMO not available;]
[FDD – Multi Cell operation with MIMO not supported;]
[FDD – Multi Cell E-DCH Operation not supported;]
[FDD – Multi Cell E-DCH Operation not available;]
[FDD – Multi Cell operation with Single Stream MIMO not available;]
[FDD – Multi Cell operation with Single Stream MIMO not supported;] 
[FDD – Cell Specific Tx Diversity Handling For Multi Cell Operation Not Available;]
[FDD – Cell Specific Tx Diversity Handling For Multi Cell Operation Not Supported;]
[FDD – Frequency Specific Compressed Mode Not Available;]
[FDD – Uplink Closed Loop Transmit Diversity Operation Not Available;]
[FDD – Uplink Closed Loop Transmit Diversity Operation Not Supported;]
[FDD – MIMO with four transmit antennas not supported;]
[FDD – MIMO with four transmit antennas not available;]
[FDD – Dual Stream MIMO with four transmit antennas not supported;]
[FDD – Dual Stream MIMO with four transmit antennas not available;]
[FDD – Multiflow Operation Not Available;]
[FDD – Multiflow Operation Not Supported;]
[FDD – SixtyfourQAM UL not Available;]
[FDD – SixtyfourQAM UL not Supported;]
[FDD – UL MIMO Operation Not Available;]
[FDD – UL MIMO Operation Not Supported;]
[FDD – UL MIMO and SixteenQAM Operation Not Available;]
[FDD – UL MIMO and SixteenQAM Operation Not Supported;]
[FDD – UL MIMO and SixtyfourQAM Operation Not Available;]
[FDD – UL MIMO and SixtyfourQAM Operation Not Supported;]
[FDD – E-DCH Decoupling Operation Not Available;]
[FDD – E-DCH Decoupling Operation Not Supported;]
[FDD – Radio Links without DPCH/F-DPCH Operation Not Available;]
[FDD – Radio Links without DPCH/F-DPCH Operation Not Supported;]
[FDD – UL DPCCH2 Operation Not Available;]
[FDD – UL DPCCH2 Operation Not Supported;]
[FDD – Downlink TPC enhancements Operation Not Available;]
[FDD – Downlink TPC enhancements Operation Not Supported;]
[FDD – Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Operation Not Available;]
[FDD – Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Operation Not Supported;]
[FDD – Dual Cell E-DCH operation enhancements with different TTI Operation Not Available;]
[FDD – Dual Cell E-DCH operation enhancements with different TTI Operation Not Supported.]

Transport Layer Causes:
Transport Resource Unavailable.
Miscellaneous Causes:
Control Processing Overload;
HW Failure;
Not enough User Plane Processing Resources.
8.3.2.4	Abnormal Conditions
If the RADIO LINK ADDITION REQUEST message includes a C-ID IE corresponding to a cell reserved for operator use and the Permanent NAS UE Identity is not available in the DRNC for the considered UE Context, the DRNC shall reject the procedure for this particular Radio Link and send the RADIO LINK ADDITION FAILURE message.
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Transmission Gap Pattern Sequence Status IEs in the Active Pattern Sequence Information IE and it does not address exactly all ongoing compressed mode patterns and frequency specific compressed mode is not supported, the DRNS shall reject the Radio Link Addition procedure and shall respond with a RADIO LINK ADDITION FAILURE message with the Cause IE value “Invalid CM settings”.]
[FDD – If the RADIO LINK ADDITION REQUEST message is used to establish a new RL without compressed mode when compressed mode is active for the existing RL(s) (as specified in subclause 8.3.2.2), and if at least one of the new RLs is to be established in a cell that has the same UARFCN (both UL and DL) as at least one cell with an already existing RL and frequency specific compressed mode is not supported,, the DRNS shall reject the Radio Link Addition procedure and shall respond with a RADIO LINK ADDITION FAILURE message with the cause value “Invalid CM settings”.]
[FDD – If the power balancing is active with the Power Balancing Adjustment Type of the UE Context set to “Individual” in the existing RL(s) and if the DL Reference Power IEs are included in the RL Information IE but the DL Reference Power IE is not present for each RL in the RL Information IE, the DRNC shall reject the Radio Link Addition procedure and shall respond with a RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the DL Reference Power IEs in the RL Information IE but the power balancing is not active in the existing RL(s) or the power balancing is active with the Power Balancing Adjustment Type of the UE Context set to “Common” in the existing RL(s), the DRNC shall reject the Radio Link Addition procedure and shall respond with a RADIO LINK ADDITION FAILURE message with the cause value “Power Balancing status not compatible”.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Enhanced Primary CPICH Ec/No IE, but not the Primary CPICH Ec/No IE, then the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
If the RADIO LINK ADDITION REQUEST message includes the Transport Layer Address IE and the Binding ID IE in the RL Specific DCH Information IE [FDD – or for an E-DCH MAC-d flow in RL Specific E-DCH Information IE] included in the RL Information IE for a specific RL and the Diversity Control Field IE is set to “Must” [FDD – or the RL is combined with existing E-DCH RL which transport bearer is not established in the DRNS], the DRNC shall reject the Radio Link Addition procedure and respond with the RADIO LINK ADDITION FAILURE message.
If ALCAP is not used, if the RADIO LINK ADDITION REQUEST message does not include the Transport Layer Address IE and the Binding ID IE in the RL Specific DCH Information IE nor RL Specific E-DCH Information IE in the RL Information IE for a specific RL and the Diversity Control Field IE is set to “May”, the DRNC shall reject the Radio Link Addition procedure and respond with the RADIO LINK ADDITION FAILURE message.
If ALCAP is not used, if the RADIO LINK ADDITION REQUEST message does not include the Transport Layer Address IE and the Binding ID IE in the RL Specific DCH Information IE in the RL Information IE for a specific RL and the Diversity Control Field IE is set to “Must Not”, the DRNC shall reject the Radio Link Addition procedure and respond with the RADIO LINK ADDITION FAILURE message.
If ALCAP is not used, if the RADIO LINK ADDITION REQUEST message does not include the Transport Layer Address IE and the Binding ID IE in [FDD – the RL Specific E-DCH Information IE in the RL Information IE for the first E-DCH RL][TDD – the E-DCH MAC-d Flows Information TDD IE], the DRNC shall reject the Radio Link Addition procedure and respond with the RADIO LINK ADDITION FAILURE message.
If ALCAP is not used, if the RADIO LINK ADDITION REQUEST message does not include the Transport Layer Address IE and the Binding ID IE for an HS-DSCH MAC-d Flow in the HS-DSCH MAC-d Flows Information IE, the DRNC shall reject the Radio Link Addition procedure and respond with the RADIO LINK ADDITION FAILURE message.
If the RADIO LINK ADDITION REQUEST message includes the Transport Layer Address IE or the Binding ID IE, and not both are present for a transport bearer intended to be established, the DRNC shall reject the Radio Link Addition procedure and respond with the RADIO LINK ADDITION FAILURE message.
[FDD – If the RADIO LINK ADDITION REQUEST message includes the HS-DSCH Serving Cell Change Information IE but not the HS-DSCH FDD Information IE and the UE Context is not configured for HS-DSCH, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Serving Cell Change CFN IE but neither the Serving E-DCH RL IE nor the HS-DSCH Serving Cell Change Information IE, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Serving E-DCH RL IE but the UE Context is not configured for E-DCH, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the E-DCH FDD Information IE is present in the RADIO LINK ADDITION REQUEST message, but the E-DPCH Information IE is not present, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH RL Indication IE set to “E-DCH”, but no E-DCH FDD Information IE, and the UE Context is not configured for E-DCH, then the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH FDD Information IE but no E-DCH RL Indication IE set to “E-DCH”, then the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[TDD – If the RADIO LINK ADDITION REQUEST message includes the HS-PDSCH RL ID IE not equal to the RL ID IE, the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[TDD – If the RADIO LINK ADDITION REQUEST message includes the E-DCH Serving RL IE not equal to the RL ID IE, the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
If the RADIO LINK ADDITION REQUEST message does not contain the E-DCH Decoupling Indication IE but contains the HS-PDSCH RL ID IE [FDD – in the HS-DSCH Serving Cell Change Information IE] and/or Serving E-DCH RL IE, and if both HS-DSCH and E-DCH are configured in the DRNS but the Serving HS-DSCH Radio Link and the Serving E-DCH Radio Link are not in the same cell, then the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.
[FDD – If the RADIO LINK ADDITION REQUEST message contains the HS-DSCH Serving Cell Change Information IE and the E-DPCH Information IE which includes the HS-DSCH Configured Indicator IE set as “HS-DSCH not configured” then the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
If the RADIO LINK ADDITION REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE [FDD – in the HS-DSCH Serving Cell Change Information] and the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE [FDD – in the HS-DSCH Serving Cell Change Information] has the value “Indexed MAC-d PDU Size”, the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.
If the RADIO LINK ADDITION REQUEST message does not include the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE [FDD – in the HS-DSCH Serving Cell Change Information] and the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE [FDD – in the HS-DSCH Serving Cell Change Information] has the value “Flexible MAC-d PDU Size”, the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.
[FDD – If the RADIO LINK ADDITION REQUEST message contains, for at least one logical channel, the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE and there exist a logical channel for which the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE is not present, the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[TDD – If the RADIO LINK ADDITION REQUEST message contains, for at least one logical channel, the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information TDD IE in the E-DCH Information IE, and there exist a logical channel for which the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information TDD IE in the E-DCH Information IE is not present, the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message contains the Transport Bearer Not Requested Indicator IE for a DCH but the DCH is configured to be included as a part of the downlink CCTrCH, the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message contains the MIMO Activation Indicator IE, Sixtyfour QAM Usage Allowed Indicator IE set to “Allowed”, the Additional HS Cell Information RL Addition IE, the MIMO with four transmit antennas Activation Indicator IE, the Dual Stream MIMO with four transmit antennas Activation Indicator IE and/or the Single Stream MIMO Activation Indicator IE, but does not contain the HS-DSCH MAC-d PDU Size Format IE set to “Flexible MAC-d PDU Size”, then the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message contains the Serving E-DCH RL ID IE but contains the Transport Bearer Not Requested Indicator IE in the RL Specific E-DCH Information for the new Serving E-DCH RL or there is at least one E-DCH MAC-d flow which transport bearer was not configured in the existing E-DCH RL to be combined with the Serving E-DCH RL, the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message includes the Transport Bearer Not Requested Indicator IE for a DCH or an E-DCH MAC-d Flow for a specific RL and the specific RL is combined with the existing RL which the transport bearer is established for the DCH or the E-DCH MAC-d Flow in DRNS, the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message contains the Additional HS Cell Information RL Addition IE indicating a seconadry serving cell that is not in the same Node B as the new serving HS-DSCH cell, then the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message contains the Additional HS Cell Information RL Addition IE and if the HS-DSCH is not configured in the DRNS Communication Context and the HS-DSCH Information IE is not present, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
If the RADIO LINK ADDITION REQUEST message includes DL RLC PDU Size Format IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE [FDD – in the HS-DSCH Serving Cell Change Information IE] set to “Flexible RLC PDU Size”, HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE [FDD – in the HS-DSCH Serving Cell Change Information IE] has the value “Indexed MAC-d PDU Size”, the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.
If the RADIO LINK ADDITION REQUEST message does not include the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE [FDD – in the HS-DSCH Serving Cell Change Information IE] and the DL RLC PDU Size Format IE in the HS-DSCH Information IE [FDD – in the HS-DSCH Serving Cell Change Information IE] has the value “Flexible RLC PDU Size”, the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.
[FDD – If the RADIO LINK ADDITION REQUEST message contains more than one of a MIMO Activation Indicator IE, a MIMO with four transmit antennas Activation Indicator IE, a Dual Stream MIMO with four transmit antennas Activation Indicator IE and a Single Stream MIMO Activation Indicator IE in the HS-DSCH FDD Information IE in the HS-DSCH Serving Cell Change Information IE or in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Addition IE, then the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.] 
[FDD – If the RADIO LINK ADDITION REQUEST message contains the Additional E-DCH Cell Information RL Setup Req IE and if the E-DPCH Information IE is not present or the E-DPCH Information was not configured in the UE Context, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message contains the Additional E-DCH Cell Information RL Add Req IE and there exist a logical channel for which the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE is not present, the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.] 
[FDD – If the RADIO LINK ADDITION REQUEST message contains the Additional E-DCH Cell Information RL Add Req IE and the C-ID IE is not included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, but the Radio Link indicated by the E-DCH Additional RL ID IE is not configured in the current UE context as a Secondary Serving HS-DSCH radio link without any configured Additional E-DCH, the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the RADIO LINK ADDITION REQUEST message contains the Diversity Mode IE in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Addition IE and the secondary serving HS-DSCH is already configured in the UE Context, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD – If the secondary serving HS-DSCH is not configured in the UE Context and if the RADIO LINK ADDITION REQUEST message contains in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Addition IE the Diversity Mode IE not set to “None” but not the Transmit Diversity Indicator or contains the Transmit Diversity Indicator but not the Diversity Mode IE not set to “None”, then the DRNS shall reject the procedure using the RADIO LINK SETUP FAILURE message.]
[FDD - If the RADIO LINK ADDITION REQUEST message contains the Additional HS Cell Information RL Addition IE and the new configuration contains more than one secondary serving HS-DSCH RL and all secondary serving HS-DSCH RLs in the new configuration will not be assigned consecutive ordinal numbers starting with the value "1", which are previously assigned to the RL or received in the Ordinal Number Of Frequency IE in the HS-DSCH FDD Secondary Serving Information IE, the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD - If the RADIO LINK ADDITION REQUEST message contains the Additional HS Cell Information RL Addition IE and the new configuration contains more than one secondary serving HS-DSCH RL, the new configuration also contains an Additional E-DCH Serving Radio Link and the secondary serving HS-DSCH Radio link, which is configured in the same cell as the Additional E-DCH Serving Radio Link does not have Ordinal Number Of Frequency value "1", the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD - If the RADIO LINK ADDITION REQUEST message contains the Affected HS-DSCH serving cell List IE in the Active Pattern Sequence Information IE, and theTransmission Gap Pattern Sequence for affected HS-DSCH Serving Cells is activated on the HS-DSCH Primary Serving Cell but not for all the other serving cells, the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message with the cause value “Invalid CM settings”.]
[FDD - If the RADIO LINK ADDITION REQUEST message contains the UL CLTD Information IE but does not contain the F-TPICH Information IE, or if it contains HS-DSCH Preconfiguration Setup IE with UL CLTD Information IE but without F-TPICH Information IE, then the DRNC shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD - If the RADIO LINK ADDITION REQUEST message contains the UL MIMO Information IE in E-DCH FDD Information IE but does not contain the UL CLTD Information IE, or if it contains HS-DSCH Preconfiguration Setup IE with UL MIMO Information IE but without UL CLTD Information IE, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD - If the RADIO LINK ADDITION REQUEST message contains more than one of a MIMO Activation Indicator IE, a MIMO with four transmit antennas Activation Indicator IE, a Dual Stream MIMO with four transmit antennas Activation Indicator IE in HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup but the Dual Cell E-DCH Operation Enhancements Information IE is not included in the RADIO LINK ADDITION REQUEST message, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup  and if the Continuous Packet Connectivity DTX-DRX Information IE in the HS-DSCH Serving Cell Change Information IE is included in the RADIO LINK ADDITION REQUEST message, but the DTX Information IE does not contain any of the value defined for 10ms TTI, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup and if the DTX related Information is not signalled but the currently used value is not from the set of values defined for 10ms TTI, then the DRNS shall reject the procedure using the RADIO LINK ADDITION FAILURE message.]
8.3.3	Radio Link Deletion
8.3.3.1	General
The Radio Link Deletion procedure is used to release the resources in a DRNS for one or more established radio links towards a UE.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The Radio Link Deletion procedure may be initiated by the SRNC at any time after establishing a Radio Link.
8.3.3.2	Successful Operation

Figure 9: Radio Link Deletion procedure, Successful Operation
The procedure is initiated with a RADIO LINK DELETION REQUEST message sent from the SRNC to the DRNC.
Upon receipt of this message, the DRNS shall delete the radio link(s) identified by the RL ID IE(s) in the message, shall release all associated resources and shall respond to the SRNC with a RADIO LINK DELETION RESPONSE message.
If the radio link(s) to be deleted represent the last radio link(s) for the UE in the DRNS and if the UE is not using any common resources in the DRNS, then the DRNC shall release the UE Context.
[FDD – After deletion of the RL(s), the UL out-of-sync algorithm defined in TS 25.214 [10] shall for each of the remaining RL Set(s) use the maximum value of the parameters N_OUTSYNC_IND and T_RLFAILURE that are configured in the cells supporting the radio links of the RL Set. The UL in-sync algorithm defined in TS 25.214 [10] shall for each of the remaining RL Set(s) use the minimum value of the parameters N_INSYNC_IND that are configured in the cells supporting the radio links of the RL Set.]
[FDD – If the RL indicated by the RL ID IE in the RADIO LINK DELETION REQUEST message is the serving HS-DSCH Radio link and a related secondary serving HS-DSCH Radio Link exists in the DRNS, the DRNC shall delete the secondary serving HS-DSCH Radio Link.] 
[FDD – If the RL indicated by the RL ID IE in the RADIO LINK DELETION REQUEST message is the secondary serving HS-DSCH Radio link, the DRNC shall delete the secondary serving HS-DSCH Radio Link.]
8.3.3.3	Unsuccessful Operation
-
8.3.3.4	Abnormal Conditions
If the RL indicated by the RL ID IE does not exist, the DRNC shall respond with the RADIO LINK DELETION RESPONSE message.
8.3.4	Synchronised Radio Link Reconfiguration Preparation
8.3.4.1	General
The Synchronised Radio Link Reconfiguration Preparation procedure is used to prepare a new configuration of Radio Link(s) related to one UE-UTRAN connection within a DRNS.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The Synchronised Radio Link Reconfiguration Preparation procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
8.3.4.2	Successful Operation

Figure 10: Synchronised Radio Link Reconfiguration Preparation procedure, Successful Operation
The Synchronised Radio Link Reconfiguration Preparation procedure is initiated by the SRNC by sending the RADIO LINK RECONFIGURATION PREPARE message to the DRNC.
Upon receipt, the DRNS shall reserve necessary resources for the new configuration of the Radio Link(s) according to the parameters given in the message. Unless specified below, the meaning of parameters is specified in other specifications.
If the RADIO LINK RECONFIGURATION PREPARE message includes the Allowed Queuing Time IE the DRNS may queue the request the time corresponding to the value of the Allowed Queuing Time IE before starting to execute the request.
The DRNS shall prioritise resource allocation for the RL(s) to be modified according to Annex A.
If the UE Aggregate Maximum Bit Rate IE is contained in the RADIO LINK RECONFIGURATION PREPARE message, the DRNS shall, if supported, store the received UE Aggregate Maximum Bit Rate parameters to control the aggregate data rate of non GBR traffic for this UE.
If the Improved Synchronized RRC Indicator IE is contained in the RADIO LINK RECONFIGURATION PREPARE message, the DRNS may use this instruction to handle the improved synchronized RRC procedures.
DCH Modification:
If the RADIO LINK RECONFIGURATION PREPARE message includes any DCHs To Modify IEs, the DRNS shall treat them each as follows: 
-	If the DCHs To Modify IE includes multiple DCH Specific Info IEs then the DRNS shall treat the DCHs in the DCHs To Modify IE as a set of co-ordinated DCHs. The DRNS shall include these DCHs in the new configuration only if it can include all of them in the new configuration.
-	If the DCHs To Modify IE includes the UL FP Mode IE for a DCH or a set of co-ordinated DCHs to be modified, the DRNS shall apply the new FP Mode in the Uplink of the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	If the DCHs To Modify IE includes the ToAWS IE for a DCH or a set of co-ordinated DCHs to be modified, the DRNS shall apply the new ToAWS in the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	If the DCHs To Modify IE includes the ToAWE IE for a DCH or a set of co-ordinated DCHs to be modified, the DRNS shall apply the new ToAWE in the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes the Frame Handling Priority IE for a DCH to be modified, the DRNS should store this information for this DCH in the new configuration. The received Frame Handling Priority should be used when prioritising between different frames in the downlink on the radio interface in congestion situations within the DRNS once the new configuration has been activated.
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes the Traffic Class IE for a DCH to be modified, the DRNS should store this information for this DCH in the new configuration. The Traffic Class IE may be used to determine the transport bearer characteristics to apply between DRNC and Node B for the related DCH or set of co-ordinated DCHs. The DRNC should ignore the Traffic Class IE if the TrCH Source Statistics Descriptor IE for this DCH indicates the value “RRC”.
-	[FDD – If the DCHs to Modify IE contains a DCH Specific Info IE which includes the Unidirectional DCH indicator IE set to “Uplink DCH only”, the DRNS shall ignore the Transport Format Set IE for the downlink for this DCH. As a consequence this DCH is not included as a part of the downlink CCTrCH.]
-	[FDD – If the DCHs to Modify IE contains a DCH Specific Info IE which includes the Unidirectional DCH indicator IE set to “ Downlink DCH only”, the DRNS shall ignore the Transport Format Set IE for the uplink for this DCH. As a consequence this DCH is not included as a part of the uplink CCTrCH.]
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes the Transport Format Set IE for the UL of a DCH to be modified, the DRNS shall apply the new Transport Format Set in the Uplink of this DCH in the new configuration.
-	If the DCHs to Modify IE includes the TNL QoS IE for a DCH or a set of co-ordinated DCHs to be modified and if ALCAP is not used, the DRNS may store this information for this DCH in the new configuration. The TNL QoS IE may be used to determine the transport bearer characteristics to apply in the uplink for the related DCH or set of co-ordinated DCHs.
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes the Transport Format Set IE for the DL of a DCH to be modified, the DRNS shall apply the new Transport Format Set in the Downlink of this DCH in the new configuration.
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes the Allocation/Retention Priority IE, the DRNS shall apply the new Allocation/Retention Priority to this DCH in the new configuration according to Annex A.
-	[TDD – If the DCHs To Modify IE includes the CCTrCH ID IE for the UL, the DRNS shall map the DCH onto the referenced UL CCTrCH in the new configuration.]
-	[TDD – If the DCHs To Modify IE includes the CCTrCH ID IE for the DL, the DRNS shall map the DCH onto the referenced DL CCTrCH in the new configuration.]
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes the Guaranteed Rate Information IE, the DRNS shall treat the included IEs according to the following:
-	If the Guaranteed Rate Information IE includes the Guaranteed UL Rate IE, the DRNS shall apply the new Guaranteed Rate in the uplink of this DCH in the new configuration. The DRNS may decide to request the SRNC to limit the user rate in the uplink of the DCH at any point in time after activating the new configuration. The DRNS may request the SRNC to reduce the user rate of the uplink of the DCH below the guaranteed bit rate, however, whenever possible the DRNS should request the SRNC to reduce the user rate between the maximum bit rate and the guaranteed bit rate.
-	If the Guaranteed Rate Information IE includes the Guaranteed DL Rate IE, the DRNS shall apply the new Guaranteed Rate in the downlink of this DCH in the new configuration. The DRNS may decide to request the SRNC to limit the user rate in the downlink of the DCH at any point in time after activating the new configuration. The DRNS may request the SRNC to reduce the user rate of the downlink of the DCH below the guaranteed bit rate, however, whenever possible the DRNS should request the SRNC to reduce the user rate between the maximum bit rate and the guaranteed bit rate.
DCH Addition:
If the RADIO LINK RECONFIGURATION PREPARE message includes any DCHs To Add IEs, the DRNS shall treat them each as follows:
-	The DRNS shall reserve necessary resources for the new configuration of the Radio Link(s) according to the parameters given in the message and include these DCH in the new configuration.
-	If the DCH Information IE includes a DCHs To Add IE with multiple DCH Specific Info IEs, the DRNS shall treat the DCHs in the DCHs To Add IE as a set of co-ordinated DCHs. The DRNS shall include these DCHs in the new configuration only if it can include all of them in the new configuration.
-	If the DCH Specific Info IE includes the Unidirectional DCH Indicator IE set to “Uplink DCH only”, the DRNS shall ignore the Transport Format Set IE for the downlink for this DCH. As a consequence this DCH is not included as a part of the downlink CCTrCH.
-	If the DCH Specific Info IE includes the Unidirectional DCH Indicator IE set to “Downlink DCH only”, the DRNS shall ignore the Transport Format Set IE for the uplink for this DCH. As a consequence this DCH is not included as a part of the uplink CCTrCH.
-	[FDD – For each DCH which do not belong to a set of co-ordinated DCHs and which includes a QE-Selector IE set to “selected”, the DRNS shall use the Transport channel BER from that DCH for the QE in the UL data frames. If no Transport channel BER is available for the selected DCH, the DRNS shall use the Physical channel BER for the QE, TS 25.427 [4]. If the QE-Selector IE is set to “non-selected”, the DRNS shall use the Physical channel BER for the QE in the UL data frames, TS 25.427 [4].]
-	For a set of co-ordinated DCHs, the DRNS shall use the Transport channel BER from the DCH with the QE-Selector IE set to “selected” for the QE in the UL data frames, TS 25.427 [4]. [FDD – If no Transport channel BER is available for the selected DCH, the DRNS shall use the Physical channel BER for the QE, TS 25.427 [4]. If all DCHs have the QE-Selector IE set to “non-selected”, the DRNS shall use the Physical channel BER for the QE, TS 25.427 [4].] [TDD – If no Transport channel BER is available for the selected DCH, the DRNS shall use 0 for the QE, TS 25.427 [4].]
-	The DRNS should store the Frame Handling Priority IE received for a DCH to be added in the new configuration. The received Frame Handling Priority should be used when prioritising between different frames in the downlink on the Uu interface in congestion situations within the DRNS once the new configuration has been activated.
-	If the TNL QoS IE is included for a DCH or a set of co-ordinated DCHs and if ALCAP is not used, the DRNS may use this information to determine the transport bearer characteristics to apply for the uplink for the related DCH or set of co-ordinated DCHs.
-	The DRNS should store the Traffic Class IE received for a DCH to be added in the new configuration. The Traffic Class IE may be used to determine the transport bearer characteristics to apply between DRNC and Node B for the related DCH or set of co-ordinated DCHs. The DRNC should ignore the Traffic Class IE if the TrCH Source Statistics Descriptor IE indicates the value “RRC”.
-	The DRNS shall use the included UL FP Mode IE for a DCH or a set of co-ordinated DCHs to be added as the new FP Mode in the Uplink of the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	The DRNS shall use the included ToAWS IE for a DCH or a set of co-ordinated DCHs to be added as the new Time of Arrival Window Startpoint in the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	The DRNS shall use the included ToAWE IE for a DCH or a set of co-ordinated DCHs to be added as the new Time of Arrival Window Endpoint in the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	[3.84Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD IE in the RADIO LINK RECONFIGURATION READY message if at least one DSCH or USCH exists in the new configuration.]
-	[1.28Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD LCR IE in the RADIO LINK RECONFIGURATION READY message if at least one DSCH or USCH exists in the new configuration.]
-	[7.68Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD 7.68Mcps IE in the RADIO LINK RECONFIGURATION READY message if at least one DSCH or USCH exists in the new configuration.]
-	If the DCHs To Add IE contains a DCH Specific Info IE which includes the Guaranteed Rate Information IE, the DRNS shall treat the included IEs according to the following:
-	If the Guaranteed Rate Information IE includes the Guaranteed UL Rate IE, the DRNS shall apply the new Guaranteed Rate in the uplink of this DCH in the new configuration. The DRNS may decide to request the SRNC to limit the user rate of the uplink of the DCH at any point in time after activating the new configuration. The DRNS may request the SRNC to reduce the user rate of the uplink of the DCH below the guaranteed bit rate, however, whenever possible the DRNS should request the SRNC to reduce the user rate between the maximum bit rate and the guaranteed bit rate. If the DCH Specific Info IE in the DCHs To Add IE does not include the Guaranteed UL Rate IE, the DRNS shall not limit the user rate of the uplink of the DCH.
-	If the Guaranteed Rate Information IE includes the Guaranteed DL Rate IE, the DRNS shall apply the new Guaranteed Rate in the downlink of this DCH in the new configuration. The DRNS may decide to request the SRNC to limit the user rate of the downlink of the DCH at any point in time after activating the new configuration. The DRNS may request the SRNC to reduce the user rate of the downlink of the DCH below the guaranteed bit rate, however, whenever possible the DRNS should request the SRNC to reduce the user rate between the maximum bit rate and the guaranteed bit rate. If the DCH Specific Info IE in the DCHs To Add IE does not include the Guaranteed DL Rate IE, the DRNS shall not limit the user rate of the downlink of the DCH.
-	[TDD – The DRNS shall apply the CCTrCH ID IE (for the DL) in the Downlink of this DCH in the new configuration.]
-	[TDD – The DRNS shall apply the CCTrCH ID IE (for the UL) in the Uplink of this DCH in the new configuration.] 
DCH Deletion:
If the RADIO LINK RECONFIGURATION PREPARE message includes any DCH To Delete, the DRNS shall not include the referenced DCHs in the new configuration.
If all of the DCHs belonging to a set of co-ordinated DCHs are requested to be deleted, the DRNS shall not include this set of co-ordinated DCHs in the new configuration.
[FDD – DCH Enhancements Setup]:
[FDD - If the DCH Enhancements Information Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal is "Setup", then the DRNS shall setup the requested DCH Enhancements operation [71].]
[FDD – DCH Enhancements Modification]:
[FDD - If the DCH Enhancements Information Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal is "Configuration Change", then the DRNS shall apply the new configuration.]
[FDD – DCH Enhancements Removal]:
[FDD - If the DCH Enhancements Information Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal is "Removal", then the DRNS shall terminate the DCH Enhancements operation.]
Physical Channel Modification:
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes an UL DPCH Information IE, the DRNS shall apply the parameters to the new configuration as follows:]
-	[FDD – If the UL DPCH Information IE includes the Uplink Scrambling Code IE, the DRNS shall apply this Uplink Scrambling Code to the new configuration.]
-	[FDD – If the UL DPCH Information IE includes the Min UL Channelisation Code Length IE, the DRNS shall apply the new Min UL Channelisation Code Length in the new configuration. The DRNS shall apply the contents of the Max Number of UL DPDCHs IE (if it is included) in the new configuration.]
-	[FDD – If the UL DPCH Information IE includes the TFCS IE, the DRNS shall use the TFCS IE for the UL when reserving resources for the uplink of the new configuration. The DRNS shall apply the new TFCS in the uplink of the new configuration.]
-	[FDD – If the UL DPCH Information IE includes the UL DPCCH Slot Format IE, the DRNS shall apply the new Uplink DPCCH Slot Format to the new configuration.]
-	[FDD – If the UL DPCH Information IE includes the UL SIR Target IE, the DRNS shall use the value for the UL inner loop power control when the new configuration is being used.]
-	[FDD – If the UL DPCH Information IE includes the Puncture Limit IE, the DRNS shall apply the value in the uplink of the new configuration.]
-	[FDD – If the UL DPCH Information IE includes the Diversity Mode IE, the DRNS shall apply diversity according to the given value.]
-	[FDD – If the UL DPCH Information IE includes the UL DPDCH Indicator For E-DCH Operation IE and it is set to “UL DPDCH not present”, the UL DPDCH resources shall be removed from the configuration.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes a DL DPCH Information IE and the concerned UE Context is configured to use F-DPCH in the downlink in the old configuration, the DRNS shall configure the concerned UE Context to use DPCH in the downlink in the new configuration. In this case, if at least one Transmission Gap Pattern Sequence is configured with an SF/2 downlink compressed mode method in the new configuration, the DRNC shall include the Transmission Gap Pattern Sequence Scrambling Code Information IE in the RADIO LINK RECONFIGURATION READY message indicating for each Channelisation Code whether the alternative scrambling code shall be used or not.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the DL DPCH Power Information IE, the DRNS shall use the information contained in it for the power settings of the DL DPCH. In particular, if the received Inner Loop DL PC Status IE is set to “Active”, the DRNS shall activate the inner loop DL power control for all RLs. If Inner Loop DL PC Status IE is set to “Inactive”, the DRNS shall deactivate the inner loop DL power control for all RLs according to TS 25.214 [10]. Furthermore, the DRNC shall include the DL Code Information IE in the RADIO LINK RECONFIGURATION READY.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes a DL DPCH Information IE, the DRNS shall apply the parameters to the new configuration as follows:]
-	[FDD – If the DL DPCH Information IE includes the Number of DL Channelisation Codes IE, the DRNS shall allocate given number of Downlink Channelisation Codes per Radio Link and apply the new Downlink Channelisation Code(s) to the new configuration. Each Downlink Channelisation Code allocated for the new configuration shall be included in the RADIO LINK RECONFIGURATION READY message within the DL Code Information IE as a FDD DL Channelisation Code Number IE when sent to the SRNC. If some Transmission Gap Pattern sequences using “SF/2” method are already initialised in the DRNS, DRNC shall include the Transmission Gap Pattern Sequence Scrambling Code Information IE in the RADIO LINK RECONFIGURATION READY message in case the DRNS selects to change the Scrambling code change method for one or more DL Channelisation Code.]
-	[FDD – When more than one DL DPDCH are assigned per RL, the segmented physical channel shall be mapped on to DL DPDCHs according to TS 25.211 [8]. When p number of DL DPDCHs are assigned to each RL, the first pair of DL Scrambling Code and FDD DL Channelisation Code Number corresponds to “PhCH number 1”, the second to “PhCH number 2”, and so on until the pth to “PhCH number p”.]
-	[FDD – If the DL DPCH Information IE includes the TFCS IE, the DRNS shall use the TFCS IE for the DL when reserving resources for the downlink of the new configuration. The DRNS shall apply the new TFCS in the Downlink of the new configuration.]
-	[FDD – If the DL DPCH Information IE includes the DL DPCH Slot Format IE, the DRNS shall apply the new slot format used in DPCH in DL.]
-	[FDD – If the DL DPCH Information IE includes the TFCI Signalling Mode IE, the DRNS shall apply the new signalling mode of the TFCI.]
-	[FDD – If the DL DPCH Information IE includes the Multiplexing Position IE, the DRNS shall apply the new parameter to define whether fixed or flexible positions of transport channels shall be used in the physical channel.]
-	[FDD – If the DL DPCH Information IE includes the Limited Power Increase IE set to “Used”, the DRNS shall, if supported, use Limited Power Increase according to TS 25.214 [10] subclause 5.2.1 for the inner loop DL power control in the new configuration.]
-	[FDD – If the DL DPCH Information IE includes the Limited Power Increase IE set to “Not Used”, the DRNS shall not use Limited Power Increase for the inner loop DL power control in the new configuration.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the F-DPCH Information IE, then:]
-	[FDD – The DRNS shall configure the concerned UE Context to use F-DPCH in the downlink in the new configuration.]
-	[FDD – If the F-DPCH Information IE includes the F-DPCH Slot Format Support Request IE, then the DRNS shall configure the concerned UE Context for F-DPCH Slot Format operation according to TS 25.211 [8] and include the F-DPCH Slot Format IE in the RADIO LINK RECONFIGURATION READY message. If the F-DPCH Information IE includes the F-DPCH Slot Format IE, the DRNC may use the F-DPCH Slot Format IE to determine the F-DPCH slot format.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Transmission Gap Pattern Sequence Information IE, the DRNS shall store the new information about the Transmission Gap Pattern Sequences to be used in the new Compressed Mode Configuration. Any Transmission Gap Pattern Sequences already existing in the previous Compressed Mode Configuration are replaced by the new sequences once the new Compressed Mode Configuration has been activated or once the previous Compressed Mode Configuration has been deactivated. This new Compressed Mode Configuration shall be valid in the DRNS until the next Compressed Mode Configuration is configured in the DRNS or until the last Radio Link is deleted.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Transmission Gap Pattern Sequence Information IE and the Downlink Compressed Mode Method IE in one or more Transmission Gap Pattern Sequence within the Transmission Gap Pattern Sequence Information IE is set to “SF/2” and the UE Context is configured to use DPCH in the downlink in the new configuration, the DRNC shall include the Transmission Gap Pattern Sequence Scrambling Code Information IE in the RADIO LINK RECONFIGURATION READY message indicating for each Channelisation Code whether the alternative scrambling code shall be used or not.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes an E-DPCH Information IE, the DRNS shall apply the parameters to the new configuration as follows:]
-	[FDD – If the E-DPCH Information IE includes the Maximum Set of E-DPDCHs IE, the DRNS shall aplly the contents of the Maximum Set in the new configuration.]
-	[FDD – If the E-DPCH Information IE includes the Puncture Limit IE, the DRNS shall apply the value in the uplink of the new configuration.]
-	[FDD – If the E-DPCH Information IE includes the E-TFCS Information IE, the DRNS shall use the E-TFCS Information IE for the E-DCH when reserving resources for the uplink of the new configuration. The DRNS shall apply the new TFCS in the uplink of the new configuration. If the E-TFCS Information IE contains the E-DCH Minimum Set E-TFCI Validity Indicator IE the DRNS shall ignore the value in E-DCH Minimum Set E-TFCI IE. If the E-DCH Minimum Set E-TFCI validity indicator IE is absent DRNS shall use the value for the related resource allocation operation.]
-	[FDD – If the E-TFCS Information IE in the E-DPCH Information IE contains the E-DPDCH Power Interpolation IE, the DRNS shall use the value to determine the applicable E-DPDCH power formula defined in TS 25.214 [10]. If the E-DPDCH Power Interpolation IE is not present, the DRNS shall use the E-DPDCH power extrapolation formula defined in TS 25.214 [10] if the E-DCH FDD Information IE is included in the RADIO LINK RECONFIGURATION PREPARE message.]
-	[FDD – If the E-TFCS Information IE in the E-DPCH Information IE contains the E-TFCI Boost Information IE, the DRNS shall use the information according to TS 25.214 [10]. If the E-TFCI Boost Information IE is not present, the DRNS shall use the value “127” in the algorithm defined in TS 25.214 [10] if the E-DCH FDD Information IE is included in the RADIO LINK RECONFIGURATION PREPARE message.]
-	[FDD – If the E-DPCH Information IE includes the E-TTI IE, the DRNS shall use the value when the new configuration is being used.]
-	[FDD – If the E-DPCH Information IE includes the E-DPCCH Power Offset IE, the DRNS shall use the value when the new configuration is being used.]
-	[FDD – If the E-DPCH Information IE includes the E-RGCH 2-Index-Step IE, the DRNS shall use the value when the new configuration is being used.]
-	[FDD – If the E-DPCH Information IE includes the E-RGCH 3-Index-Step IE, the DRNS shall use the value when the new configuration is being used.]
-	[FDD – If the E-DPCH Information IE includes the E-DCH HARQ Info IE, the DRNS shall use the value when the new configuration is being used.]
-	[FDD – If the E-DPCH Information IE includes the HS-DSCH Configured Indicator IE, the DRNS shall use the value when the new configuration is being used.]
-	[FDD – If the E-DPCH Information IE includes the Minimum Reduced E-DPDCH Gain Factor IE , then the DRNS shall use the value to determine the applicable minimum gain factor (βed,k,reduced,min) defined in TS 25.214 [10]. For the case the Minimum Reduced E-DPDCH Gain Factor IE is not available for the UE Context, the DRNS may use the default value defined in TS 25.331 [16]. ]
[FDD – If the RADIO LINK RECONFIGURATION PREPAR message includes the Continuous Packet Connectivity DTX-DRX Information IE, then:]
-	[FDD – The DRNS shall configure the concerned UE Context for Continuous Packet Connectivity DTX operation according to TS 25.214 [10].]
-	[FDD – If DRX Information IE is included in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for Continuous Packet Connectivity DRX operation according to TS 25.214 [10].]
-	FDD – If UE DRX Cycle 2 IE is included in the DRX Information IE in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for DRX operation according to TS 25.214 [10].]
-	[FDD – If Inactivity Threshold for UE DRX Cycle 2 IE is included in the DRX Information IE in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for DRX operation according to TS 25.214 [10].]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Continuous Packet Connectivity DTX-DRX Information To Modify IE, then:]
-	[FDD – If the UE DTX DRX Offset IE is included in the Continuous Packet Connectivity DTX-DRX Information To Modify IE, then the DRNS shall apply the indicated Offset in UE DTX DRX Cycle IE in the new configuration.]
-	[FDD – If the Enabling Delay IE is included in the Continuous Packet Connectivity DTX-DRX Information To Modify IE, then the DRNS shall use this value to determine the beginning of uplink transmission in the new configuration according to TS 25.214 [10].]
-	[FDD – If the DTX Information To Modify IE is included in the Continuous Packet Connectivity DTX-DRX Information To Modify IE, then the DRNS shall use this information to modify the indicated DTX Information parameter in the new configuration. If the choice of DTX Information To Modify IE is “Deactivate”, then DRX should be deactived together with DTX.]
-	[FDD – If the DRX Information To Modify IE is included in the Continuous Packet Connectivity DTX-DRX Information To Modify IE, then the DRNS shall use this information to modify the indicated DRX Information in the new configuration.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Continuous Packet Connectivity HS-SCCH less Information IE, then:]
-	[FDD – The DRNS shall configure the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE for Continuous Packet Connectivity HS-SCCH less operation according to TS 25.214 [10].]
-	[FDD – The DRNS shall allocate the HS-PDSCH codes needed for HS-SCCH less operation and include the Continuous Packet Connectivity HS-SCCH less Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If at least one of HS-PDSCH Second Code Support IE is set to “True”, then the DRNC shall include HS-PDSCH Second Code Index IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD- If the RADIO LINK RECONFIGURATION PREPARE message includes the Continuous Packet Connectivity HS-SCCH less Deactivate Indicator IE, then the DRNS shall deactive the Continuous Packet Connectivity HS-SCCH less operation for the HS-DSCH Radio Link.]
[FDD – UL CLTD Setup:]
[FDD - If the UL CLTD Information Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of UL CLTD is "Setup", then: the DRNS shall setup the requested UL CLTD resources for the concerned UE Context in the cell to determine the precoding weights according the new configuration defined in the UL CLTD Information IE and then:]
-	[FDD - If there is neither serving E-DCH RL nor the HS-DSCH RL configuration in the UE Context, the C-ID IE shall be included in the UL CLTD Information IE, and the DRNS shall configure this cell to determine the precoding weights for the concerned UE Context.]
	[FDD - If the UL CLTD Activation Information IE is included in the UL CLTD Information IE, then the DRNS shall use this value to configure the state of UL CLTD for the concerned UE Context.]
[FDD – UL CLTD Modification:]
[FDD - If the UL CLTD Information Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of UL CLTD is "Configuration Change", then: the UL CLTD Information To Modify IE defines the new configuration and then:]
-	[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the C-ID IE in the UL CLTD Information To Modify IE, then the DRNS shall configure this cell to determine the precoding weights for the concerned UE Context. Otherwise the DRNS shall configure the serving E-DCH cell or the HS_DSCH serving cell to determine the precoding weights as specified in TS 25.319[38]. The UL CLTD configuration is only valid for the cell to determine the precoding weights.]
-	[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the S-DPCCH Power Offset information IE in the UL CLTD Information To Modify IE, then the DRNS shall use this value to determine the S-DPCCH power.]
-	[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the UL CLTD State Activation Information IE in the UL CLTD Information To Modify IE, then the DRNS shall use this value to update the local state of UL CLTD for the concerned UE Context. If the UL CLTD Activation Information IE is set to "De-activated", the DRNS should release the F-TPICH resource configured for the concerned UE Context.]
[FDD – UL CLTD Removal:]
[FDD - If the UL CLTD Information Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of UL CLTD is "Removal", then the configured UL CLTD for the concerned UE Context shall be removed.]
[FDD – UL MIMO Setup:]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the UL MIMO Information IE in E-DCH FDD Information, or UL MIMO Reconfiguration IE and the choice of Setup or Change or Stop is “Setup”, then the DRNS shall setup the requested UL MIMO operation.]
[FDD – UL MIMO Modification:]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes UL MIMO Reconfiguration IE and the choice of Setup or Change or Stop is “Change”, then the DRNS shall apply the new configuration.]
[FDD – UL MIMO Removal:]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the UL MIMO Reconfiguration IE and the choice of Setup or Change or Stop is “Stop”, then the DRNS shall terminate the UL MIMO operation.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Continuous Packet Connectivity DRX Information LCR IE, then the DRNS shall take account into these parameters to decide the DRX operation related parameters and configure the concerned UE Context for DRX operation according to TS 25.224 [22] and include the parameter(s) in the Continuous Packet Connectivity DRX Information Response LCR IE in the RADIO LINK RECONFIGURATION READY message.]
[1.28 Mcps TDD – If the Inactivity Threshold for UE DRX Cycle Ext IE is included in the Continuous Packet Connectivity DRX Information LCR IE, then the DRNS may use this value to determine the Inactivity Threshold for UE DRX Cycle according to TS 25.224 [22].]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Continuous Packet Connectivity DRX Information To Modify LCR IE, then:]
-	[1.28 Mcps TDD – If the UE DTX DRX Offset IE is included in the Continuous Packet Connectivity DRX Information To Modify LCR IE, then the DRNS shall apply the indicated Offset in UE DTX DRX Cycle IE in the new configuration.]
-	[1.28 Mcps TDD – If the Enabling Delay IE is included in the Continuous Packet Connectivity DRX Information To Modify LCR IE, then the DRNS shall use this value to determine the beginning of uplink transmission in the new configuration according to TS 25.224 [22].]
-	[1.28 Mcps TDD – If the DRX Information To Modify IE is included in the Continuous Packet Connectivity DRX Information To Modify LCR IE, then the DRNS shall use this information to modify the indicated DRX Information in the new configuration.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH Semi-Persistent scheduling Information LCR IE, then:]
-	[1.28 Mcps TDD – The DRNS shall configure the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE for HS-DSCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD – The DRNS shall allocate the HS-SICH information needed for HS-DSCH Semi-Persistent scheduling operation and include the HS-DSCH Semi-Persistent scheduling Information Response LCR IE in the RADIO LINK RECONFIGURATION READY message.]
-	[1.28 Mcps TDD – If the HS-DSCH Semi-Persistent Resource Reservation Indicator IE is included in the HS-DSCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall include Allcoated HS-PDSCH Semi-persistent resource IE in the RADIO LINK RECONFIGURATION READY message.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Semi-Persistent scheduling Information LCR IE, then:]
-	[1.28 Mcps TDD – The DRNS shall configure the Serving E-DCH Radio Link indicated by the E-DCH Serving RL IE for E-DCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD - If the E-DCH Semi-Persistent Resource Reservation Indicator IE is included in the E-DCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall include Allocated E-DCH Semi-persistent resource IE in the RADIO LINK RECONFIGURATION READY message.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH Semi-Persistent scheduling Information to modify LCR IE, then:]
-	[1.28 Mcps TDD – If the Transport Block Size List IE or/and Repetition Period list IE is/are included in the HS-DSCH Semi-Persistent scheduling Information to modify LCR IE, the DRNS shall modifiy the configuration of Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE for HS-DSCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD – The DRNS shall allocate the HS-SICH information needed for HS-DSCH Semi-Persistent scheduling operation and include the HS-DSCH Semi-Persistent scheduling Information Response LCR IE in the RADIO LINK RECONFIGURATION READY message.]
-	[1.28 Mcps TDD – If the HS-DSCH Semi-Persistent Resource Reservation Indicator IE is included in the HS-DSCH Semi-Persistent scheduling Information to modify LCR IE, then the DRNS shall include Allcoated HS-PDSCH Semi-persistent resource IE in the RADIO LINK RECONFIGURATION READY message.]
-	[1.28 Mcps TDD – If the HS-DSCH Semi-Persistent scheduling operation Indicator IE is included in the HS-DSCH Semi-Persistent scheduling Information to modify LCR IE, then the DRNS shall apply this information for HS-DSCH Semi-Persistent scheduling operation.]
-	[1.28 Mcps TDD – If the buffer size for HS-DSCH Semi-Persistent scheduling needs to be modified, then the DRNS shall include the Buffer Size for HS-DSCH Semi-Persistent scheduling IE in the RADIO LINK RECONFIGURATION READY message.]
-	[1.28 Mcps TDD – If the number of processes for HS-DSCH Semi-Persistent scheduling needs to be modified, then the DRNS shall include the Number of Processes for HS-DSCH Semi-Persistent scheduling IE in the RADIO LINK RECONFIGURATION READY message.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Semi-Persistent scheduling Information to modify LCR IE, then:]
-	[1.28 Mcps TDD – If the Repetition Period list IE is included in the E-DCH Semi-Persistent scheduling Information to modify LCR IE, the DRNS shall modifiy the configuration of Serving E-DCH Radio Link indicated by the E-DCH Serving RL IE for E-DCH Semi-Persistent scheduling operation according to TS 25.224 [22].
-	[1.28 Mcps TDD – If the E-DCH Semi-Persistent scheduling Indicator IE is included in the E-DCH Semi-Persistent scheduling Information to modify LCR IE, then the DRNS shall apply this information for E-DCH Semi-Persistent scheduling operation.]
-	[1.28 Mcps TDD - If the E-DCH Semi-Persistent Resource Reservation Indicator IE is included in the E-DCH Semi-Persistent scheduling Information to modify LCR IE, then the DRNS shall include Allocated E-DCH Semi-persistent resource IE in the RADIO LINK RECONFIGURATION READY message.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH Semi-Persistent scheduling Deactivate Indicator LCR IE, then the DRNS shall deactivate the HS-DSCH Semi-Persistent scheduling operation for the HS-DSCH Radio Link.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Semi-Persistent scheduling Deactivate Indicator LCR IE, then the DRNS shall deactivate the E-DCH Semi-Persistent scheduling operation for the E-DCH Radio Link.]
[1.28Mcps TDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the MU-MIMO Indicator IE, then:]
-	[1.28 Mcps TDD - The DRNS may use the MU-MIMO for the radio link according to the MU-MIMO Usage Indicator IE and shall include the MU-MIMO Information IE in the RADIO LINK RECONFIGURATION READY message.]
-	[1.28 Mcps TDD - If the Standalone Midamble Channel Indicator IE is set to "Used", then the DRNS shall include Standalone Midamble Channel information in the RADIO LINK RECONFIGURATION READY message. Else, the DRNS shall not include Standalone Midamble Channel information in the RADIO LINK RECONFIGURATION READY message.]
[TDD – UL/DL CCTrCH Modification]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any UL CCTrCH To Modify IEs or DL CCTrCH To Modify IEs, then the DRNS shall treat them each as follows:]
-	[TDD – If any of the UL CCTrCH To Modify IEs or DL CCTrCH To Modify IEs includes any of the TFCS IE, TFCI coding IE, Puncture limit IE, or TPC CCTrCH ID IEs the DRNS shall apply these as the new values, otherwise the previous values specified for this CCTrCH are still applicable.] 
-	[TDD – If any of the following listed DPCH information IEs are modified in the new prepared configuration, the DRNC shall include in the RADIO LINK RECONFIGURATION READY message the IEs indicating the new values: Repetition Period IE, Repetition Length IE, TDD DPCH Offset IE, [3.84Mcps TDD – UL Timeslot Information IE,] [1.28Mcps TDD – UL Timeslot Information LCR IE,] [7.68 Mcps TDD – UL Timeslot Information 7.68 Mcps IE,] [3.84Mcps TDD – DL Timeslot Information IE,] [1.28Mcps TDD – DL Timeslot Information LCR IE,] [7.68 Mcps TDD – DL Timeslot Information 7.68 Mcps IE,] [3.84Mcps TDD – Midamble Shift And Burst Type IE,] [1.28Mcps TDD – Midamble Shift LCR IE,] [7.68 Mcps TDD – Midamble Shift And Burst Type 7.68 Mcps IE,] TFCI Presence IE, [3.84Mcps TDD – TDD Channelisation Code IE,] [1.28Mcps TDD – and/or TDD Channelisation Code LCR IE,] [7.68 Mcps TDD – TDD Channelisation Code 7.68 Mcps IE,] [1.28Mcps TDD – TDD UL DPCH Time Slot Format LCR IE or TDD DL DPCH Time Slot Format LCR IE].]
-	[1.28Mcps TDD – If the UL CCTrCH To Modify IE includes the UL SIR Target IE, the DRNS shall use the value for the UL inner loop power control according to TS 25.221 [12] and TS 25.224 [22] in the new configuration.]
-	[TDD – If any of the DL CCTrCH To Modify IEs includes any TPC CCTrCH ID IEs, the DRNS shall apply these as the new values, otherwise the previous values specified for this CCTrCH are still applicable.]
-	[1.28Mcps TDD – If the UL CCTrCH to Modify IE includes the TDD TPC Uplink Step Size IE, the DRNS shall apply this value to the uplink TPC step size in the new configuration.]
-	[TDD – If the DL CCTrCH to Modify IE includes the TDD TPC Downlink Step Size IE, the DRNS shall apply this value to the downlink TPC step size in the new configuration.]
-	[1.28 Mcps TDD – if the DRNS modifies, deletes or grants a new PLCCH assignment(s) to the UL CCTrCH, then the resulting PLCCH assignment(s) shall be sent to the SRNC in the RADIO LINK RECONFIGURATION READY message.]
[TDD – UL/DL CCTrCH Addition]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any UL CCTrCH To Add IEs or DL CCTrCH To Add IEs, the DRNS shall include this CCTrCH in the new configuration.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any DCHs to Add IEs, the DRNC shall include in the RADIO LINK RECONFIGURATION READY message the DPCH information in [3.84Mcps TDD – UL DPCH to be Added IE/DL DPCH to be Added IEs] [1.28Mcps TDD – UL DPCH to be Added LCR IE/DL DPCH to be Added LCR IEs] [7.68 Mcps TDD – UL DPCH to be Added 7.68 Mcps IE/DL DPCH to be Added 7.68 Mcps IEs]. [3.84Mcps TDD – If no UL DPCH is active before a reconfiguration which adds an UL DPCH, and if a valid Rx Timing Deviation measurement is known in DRNC, then the DRNC shall include the Rx Timing Deviation IE (or the Rx Timing Deviation 3.84 Mcps Extended IE if the cell containing the radio link is configured for extended timing advance) in the RADIO LINK RECONFIGURATION READY message]. [7.68 Mcps TDD – If no UL DPCH is active before a reconfiguration which adds an UL DPCH, and if a valid Rx Timing Deviation measurement is known in DRNC, then the DRNC shall include the Rx Timing Deviation 7.68 Mcps IE in the RADIO LINK RECONFIGURATION READY message].]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the TDD TPC Downlink Step Size IE within a DL CCTrCH To Add IE, the DRNS shall set the TPC step size of that CCTrCH to that value, otherwise the DRNS shall use the same value as the lowest numbered DL CCTrCH in the current configuration.]
[1.28Mcps TDD – The DRNS shall use the UL SIR Target IE in the UL CCTrCH To Add IE as the UL SIR value for the inner loop power control for this CCTrCH according to TS 25.221 [12] and TS 25.224 [22] in the new configuration.]
[TDD – If any of the DL CCTrCH To Add IEs includes any TPC CCTrCH ID IEs, the DRNS shall configure the identified UL CCTrCHs with TPC according to the parameters given in the message.]
[1.28Mcps TDD – If the UL CCTrCH To Add IE includes TDD TPC Uplink Step Size IE, the DRNS shall apply the uplink TPC step size in the new configuration.]
[1.28 Mcps TDD – if the DRNS grants a PLCCH assignment(s) to the UL CCTrCH, then the resulting PLCCH assignment(s) shall be sent to the SRNC in the RADIO LINK RECONFIGURATION READY message.]
[TDD – UL/DL CCTrCH Deletion]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any UL CCTrCH To Delete IEs or DL CCTrCH To Delete IEs, the DRNS shall remove this CCTrCH in the new configuration, and the DRNC shall include in the RADIO LINK RECONFIGURATION READY message corresponding UL DPCH to be Deleted IEs and DL DPCH to be Deleted IEs.]
DL Power Control:
[FDD – If the RL Information IE includes the DL Reference Power IEs and power balancing is active, DRNS shall update the reference power of the power balancing in the indicated RL(s), if updating of power balancing parameters by the RADIO LINK RECONFIGURATION PREPARE message is supported, when the new configuration has been activated, according to subclause 8.3.15, using the DL Reference Power IE. If the CFN modulo the value of the Adjustment Period IE is not equal to 0, the power balancing continues with the old reference power until the end of the current adjustment period, and the updated reference power shall be used from the next adjustment period.]
[FDD – If updating of power balancing parameters by the RADIO LINK RECONFIGURATION PREPARE message is supported by the DRNS, the DRNC shall include the DL Power Balancing Updated Indicator IE in the RL Information Response IE for each affected RL in the RADIO LINK RECONFIGURATION READY message.]
[TDD – DSCH Addition/Modification/Deletion:]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any DSCHs To Add, DSCHs To Modify or DSCHs To Delete IEs, then the DRNS shall use this information to add/modify/delete the indicated DSCH channels to/from the radio link, in the same way as the DCH info is used to add/modify/release DCHs.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any DSCHs To Add IE, then the DRNS shall use the Allocation/Retention Priority IE, Scheduling Priority Indicator IE and TrCH Source Statistics Descriptor IE to define a set of DSCH Priority classes each of which is associated with a set of supported MAC-c/sh SDU lengths.]
[TDD – The DRNC shall include in the RADIO LINK RECONFIGURATION READY message both the Transport Layer Address IE and the Binding ID IE for the transport bearer to be established for each added DSCH.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any DSCHs To Add IE, then the DRNS may use the Traffic Class IE to determine the transport bearer characteristics to apply between DRNC and Node B for the related DSCHs.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the TNL QoS IE in the DSCH TDD Information IE and if ALCAP is not used, the DRNS may use the TNL QoS IE to determine the transport bearer characteristics to apply in the uplink for the related DSCH.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any DSCHs To Modify IE, then the DRNS shall treat them each as follows:]
-	[TDD – The DRNC shall include in the RADIO LINK RECONFIGURATION READY message both the Transport Layer Address IE and the Binding ID IE for any new transport bearer to be established for each modified DSCH.]
-	[TDD – If the DSCHs To Modify IE includes the CCTrCH ID IE, then the DRNS shall map the DSCH onto the referenced DL CCTrCH.] 
-	[TDD – If the DSCHs To Modify IE includes any of the Allocation/Retention Priority IE, Scheduling Priority Indicator IE or TrCH Source Statistics Descriptor IE, the DNRS shall use them to update the set of DSCH Priority classes each of which is associated with a set of supported MAC-c/sh SDU lengths.]
-	[TDD – If the DSCHs To Modify IE includes any of the Transport Format Set IE or BLER IE, the DRNS shall apply the parameters to the new configuration.]
-	[TDD – If the DSCHs To Modify IE includes the Traffic Class IE, the DRNS may use this information to determine the transport bearer characteristics to apply between DRNC and Node B for the related DSCHs.]
-	[TDD – If the DSCHs To Modify IE includes the TNL QoS IE and if ALCAP is not used, the DRNS may use the TNL QoS IE to determine the transport bearer characteristics to apply in the uplink for the related DSCH.]
[3.84 Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD IE in the RADIO LINK RECONFIGURATION READY message if a DSCH is added and at least one DCH exists in the new configuration. The DRNC shall also include the Secondary CCPCH Info TDD IE in the RADIO LINK RECONFIGURATION READY message if the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
[1.28 Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD LCR IE in the RADIO LINK RECONFIGURATION READY message if a DSCH is added and at least one DCH exists in the new configuration. The DRNC shall also include the Secondary CCPCH Info TDD LCR IE in the RADIO LINK RECONFIGURATION READY message if the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
[7.68 Mcps TDD – The DRNC shall include the Secondary CCPCH Info 7.68 Mcps TDD IE in the RADIO LINK RECONFIGURATION READY message if a DSCH is added and at least one DCH exists in the new configuration. The DRNC shall also include the Secondary CCPCH Info 7.68 Mcps TDD IE in the RADIO LINK RECONFIGURATION READY message if the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
[TDD – The DRNC shall include the DSCH Initial Window Size IE in the RADIO LINK RECONFIGURATION READY message for each DSCH, if the DRNS allows the SRNC to start transmission of MAC-c/sh SDUs before the DRNS has allocated capacity on user plane as described in TS 25.425 [32].]
[TDD USCH Addition/Modification/Deletion]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any USCHs To Modify, USCHs To Add or USCHs To Delete IEs, then the DRNS shall use this information to add/modify/delete the indicated USCH channels to/from the radio link, in the same way as the DCH info is used to add/modify/release DCHs.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any USCHs To Add IE, then, the DRNS shall use the Allocation/Retention Priority IE, Scheduling Priority Indicator IE and TrCH Source Statistics Descriptor IE to define a set of USCH Priority classes each of which is associated with a set of supported MAC-c/sh SDU lengths.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any USCHs To Add IE, then the DRNS may use the Traffic Class IE to determine the transport bearer characteristics to apply between DRNC and Node B for the related USCHs.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any USCHs To Add IE, if the TNL QoS IE is included and if ALCAP is not used, the DRNS may use the TNL QoS IE to determine the transport bearer characteristics to apply for the related USCHs.]
[TDD – The DRNC shall include in the RADIO LINK RECONFIGURATION READY message both the Transport Layer Address IE and the Binding ID IE for the transport bearer to be established for each added USCH.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes any USCHs To Modify IE, then the DRNS shall treat them each as follows:]
-	[TDD – If the USCHs To Modify IE includes any of the Allocation/Retention Priority IE, Scheduling Priority Indicator IE or TrCH Source Statistics Descriptor IE, the DNRS shall use them to update the set of USCH Priority classes.]
-	[TDD – If the USCHs To Modify IE includes any of the CCTrCH ID IE, Transport Format Set IE, BLER IE or RB Info IE, the DRNS shall apply the parameters to the new configuration.]
-	[TDD – If the USCHs To Modify IE includes the Traffic Class IE, the DRNS may use this information to determine the transport bearer characteristics to apply between DRNC and Node B for the related USCHs.]
-	[3.84Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD IE in the RADIO LINK RECONFIGURATION READY message if a USCH is added and at least one DCH exists in the new configuration. The DRNC shall also include the Secondary CCPCH Info TDD IE in the RADIO LINK RECONFIGURATION READY message if the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
-	[1.28Mcps TDD – The DRNC shall include the Secondary CCPCH Info TDD LCR IE in the RADIO LINK RECONFIGURATION READY message if a USCH is added and at least one DCH exists in the new configuration. The DRNC shall also include the Secondary CCPCH Info TDD LCR IE in the RADIO LINK RECONFIGURATION READY message if the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
-	[7.68Mcps TDD – The DRNC shall include the Secondary CCPCH Info 7.68Mcps TDD IE in the RADIO LINK RECONFIGURATION READY message if a USCH is added and at least one DCH exists in the new configuration. The DRNC shall also include the Secondary CCPCH Info 7.68Mcps TDD IE in the RADIO LINK RECONFIGURATION READY message if the SHCCH messages for this radio link will be transmitted over a different secondary CCPCH than selected by the UE from system information.]
-	[TDD – if the TNL QoS IE is included and if ALCAP is not used, the DRNS may use the TNL QoS IE to determine the transport bearer characteristics to apply for the related USCHs.]
-	[TDD – The DRNC shall include in the RADIO LINK RECONFIGURATION READY message both the Transport Layer Address IE and the Binding ID IE for any new transport bearer to be established for each modified USCH.]
RL Information:
[FDD – If the RL Information IE includes the DL DPCH Timing Adjustment IE, the DRNS shall adjust the timing of the radio link accordingly in the new configuration. If the UE Context is configured to use F-DPCH in the downlink in the new configuration, the DRNC may include the DL Code Information IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD - If the RL Information IE includes the F-TPICH Information Reconf IE and the choice of Setup, Configuration Change or Removal of F-TPICH Information is "Setup", then the DRNS shall use the information in F-TPICH Information IE to configure the F-TPICH of the RL according to TS 25.211 [7] and TS 25.214 [10], and shall include F-TPICH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD - If the RL Information IE includes the F-TPICH Information Reconf IE and the choice of Setup, Configuration Change or Removal of F-TPICH Information is "Configuration Change", then: the F-TPICH Information To Modify IE defines the new configuration and then:]
-	[FDD - If the F-TPICH Information To Modify IE includes the F-TPICH Offset IE, the DRNS shall use this information to configure the time offset of F-TPICH, and may include the F-TPICH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD - If the RL Information IE includes the F-TPICH Information Reconf IE and the choice of Setup, Configuration Change or Removal of F-TPICH Information is "Removal", then the DRNS shall remove the configured F-TPICH for the RL.]
HS-DSCH Setup:
If the HS-DSCH Information IE is present in the RADIO LINK RECONFIGURATION PREPARE message, then:
-	The DRNS shall setup the requested HS-PDSCH resources on the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE.
-	The DRNC shall include the HARQ Memory Partitioning IE in the [FDD – HS-DSCH FDD Information Response IE] [TDD – HS-DSCH TDD Information Response IE] in the RADIO LINK RECONFIGURATION READY message. [FDD – The HARQ Memory Partitioning IE shall either contain the HARQ Memory Partitioning Information Extension For MIMO IE or the Number of Processes IE set to a value higher than “8”, if the MIMO Activation Indicator IE, or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Information IE.] [1.28Mcps TDD– The HARQ Memory Partitioning IE shall either contain the HARQ Memory Partitioning Information Extension For MIMO IE or the Number of Processes IE set to a value higher than “8”, if the MIMO Activation Indicator IE is included in the HS-DSCH Information IE.]
-	The DRNC shall allocate an HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the RADIO LINK RECONFIGURATION READY message.
-	The DRNS may use the Traffic Class IE for a specific HS-DSCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the HS-DSCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.
-	If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.
-	If fields are to be included in the User Plane by the SRNC to handle TNL Congestion Control for HSDPA in the DRNS, then the DRNC shall include the User Plane Congestion Fields Inclusion IE in the HS-DSCH Information Response IE.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-hs Guaranteed Bit Rate IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall use this information to optimise MAC-hs scheduling decisions for the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the Discard Timer IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall use this information to discard out-of-date MAC-hs SDUs from the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall ignore the SID IE and MAC-d PDU Size IE in the MAC-d PDU Size Index IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related HSDPA Priority Queue.
-	The DRNC shall include the HS-DSCH Initial Capacity Allocation IE in the [FDD – HS-DSCH FDD Information Response IE] [TDD – HS-DSCH TDD Information Response IE] in the RADIO LINK RECONFIGURATION READY message for every HS-DSCH MAC-d flow being established, if the DRNS allows the SRNC to start transmission of MAC-d PDUs before the DRNS has allocated capacity on user plane as described in TS 25.425 [32] If RADIO LINK RECONFIGURATION PREPARE message includes HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE set to “Flexible MAC-d PDU Size”, then DRNC shall only set in the HS-DSCH Initial Capacity Allocation IE the values for the peer of Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE to the values of the corresponding peer I in RADIO LINK RECONFIGURATION PREPARE in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE for a Priority Queue including Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE.
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-SCCH Power Offset IE in the HS-DSCH Information IE, then the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any HS-SCCH transmission to this UE.]
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the HS-DSCH and the DRNC shall include the HS-SCCH Specific Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[TDD – The DRNS shall allocate HS-SCCH parameters corresponding to the HS-DSCH and the DRNC shall include the [3.84Mcps TDD – HS-SCCH Specific Information Response IE] [1.28Mcps TDD – HS-SCCH Specific Information Response LCR IE] [7.68 Mcps TDD – HS-SCCH Specific Information Response 7.68 Mcps IE] in the HS-DSCH TDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HARQ Preamble Mode IE in the HS-DSCH Information IE, then the DRNS shall use the indicated HARQ Preamble Mode as described in TS 25.214 [10], if HS-DPCCH ACK/NACK preamble and postamble is supported. Then, in this case, if the mode 1 is applied, the DRNC shall include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message. If the HARQ Preamble Mode IE is not included or if the mode 0 is applied, then the DRNC shall not include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE, then the DRNS shall use the indicated format in user plane frame structure for HS-DSCH channels (TS 25.425 [32]) and MAC-hs (TS 25.321 [41]).
-	[FDD – If the MIMO Activation Indicator IE, or the MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH FDD Information IE, then:]
-	[FDD – The DRNS shall activate the MIMO mode, or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the HS-DSCH Radio Link.]
-	[FDD – The DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO or MIMO with four transmit antennas or Dual Stream MIMO with four transmit antennas and include the MIMO Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up on the cell with a non-zero power offset where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up on the cell with a non-zero power offset where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[1.28 Mcps TDD – If the MIMO Activation Indicator IE is included in the HS-DSCH TDD Information IE, then:]
-	[1.28 Mcps TDD – The DRNS shall activate the MIMO mode for the HS-DSCH Radio Link.]
-	[1.28 Mcps TDD – The DRNS shall decide the SF mode for HS-PDSCH dual stream and include the MIMO SF Mode for HS-PDSCH dual stream IE in the HS-DSCH TDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Information IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the HS-DSCH Radio Link.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH MAC-d PDU Size Format IE set to “Flexible MAC-d PDU Size” and if Sixtyfour QAM will not be used, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message if it decides to use the octet aligned table defined in TS 25.321 [41] for HS-DSCH Transport Block Size signalling.]
-	[FDD – If the UE with enhanced HS-SCCH support indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS may use:]
-	[FDD – a different HS-SCCH in consecutive TTIs for this UE]
-	[FDD – HS-SCCH orders for the case of HS-SCCH-less operation to this UE]
-	[FDD – If the UE Support Indicator Extension IE is included in the HS-DSCH FDD Information IE the DRNS may use the supported HSDPA functions for this UE.]
-	[FDD - If the UE Support Indicator Extension IE is included in the HS-DSCH FDD Information IE with the bit UE DTXDRX related HS-SCCH orders uniform behavior indicator set to 0, then the DRNS shall, if supported, include the Support of Dynamic DTXDRX Related HS-SCCH Order IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If secondary serving HS-DSCH is applied also in the new configuration, then any changes related to parameters that are common for both the serving and the secondary serving HS-DSCH should be applied also for the secondary serving HS-DSCH.]
-	If the RADIO LINK RECONFIGURATION PREPARE message includes DL RLC PDU Size Format IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, the DL RLC PDU Size Format IE may be used by the DRNS to determine the allocated capacity on user plane as described in TS 25.425 [32]. 
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the UE Aggregate Maximum Bit Rate Enforcement Indicator IE in the Priority Queue Information IE in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, the DRNS shall, if supported, consider the data of the related HSDPA Priority Queue for UE Aggregate Maximum Bit Rate Enforcement.]
-	[FDD – If the Single Stream MIMO Activation Indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS shall activate the Single Stream MIMO for the HS-DSCH Radio Link.]
-	[1.28 Mcps TDD – If the UE TS0 Capability LCR IE is included in the HS-DSCH TDD Information IE, then the DRNC may include the TS0 HS-PDSCH Indication LCR IE in the RADIO LINK RECONFIGURATION READY message if HS-PDSCH resources could be allocated on TS0 for the UE.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the CQI Feedback Cycle2 k IE and the CQI Cycle Switch Timer IE is included in HS-DSCH FDD Information IE, then the DRNS may use the indicated CQI Feedback Cycle2 k value, the CQI Cycle Switch Timer in HSDPA resources allocation for the UE.]
[FDD – Secondary Serving HS-DSCH Setup:]
[FDD – If the C-ID IE is present in the Additional HS Cell Information RL Reconf Prep IE in the RADIO LINK RECONFIGURATION PREPARE message, and no secondary serving HS-DSCH Radio Link(s) has been configured in the DRNS or if the new configuration contains more than one secondary serving HS-DSCH Radio Link, then if the Ordinal Number Of Frequency IEs, in the HS-DSCH FDD Secondary Serving Information IE or in the HS-DSCH FDD Secondary Serving Information To Modify IE for each instance of the Additional HS Cell Information RL Reconf Prep IE, indicate that new secondary serving HS-DSCH Radio Link(s) shall be setup, then:]
-	[FDD – The DRNS shall setup the requested HS-PDSCH resources on the secondary serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE. Non cell specific secondary serving Radio Link and non cell specific secondary serving HS-DSCH parameters take the same values as for the serving HS-DSCH cell.]
-	[FDD – The DRNC shall allocate an HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-SCCH Power Offset IE in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any secondary serving HS-SCCH transmission to this UE.]
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the secondary serving HS-DSCH and the DRNC shall include the HS-SCCH Specific Secondary Serving Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the MIMO Activation Indicator IE, or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the MIMO mode, or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the secondary serving HS-DSCH Radio Link and the DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO or MIMO with four transmit antennas or Dual Stream MIMO with four transmit antennas and include the MIMO Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up on the cell with a non-zero power offset where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Secondary Serving Information Response IE in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up on the cell with a non-zero power offset where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Secondary Serving Information Response IE in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – If the Single Stream MIMO Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the Single Stream MIMO mode for the secondary serving HS-DSCH Radio Link.]
-	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the secondary serving HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If, in the new configuration, the UE context is configured not to use Sixtyfour QAM for the secondaery serving HS-DSCH, then the DRNC shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message if it decides to use the octet aligned table defined in TS 25.321 [41] for secondary serving HS-DSCH Transport Block Size signalling.] 
-	[FDD – If the Diversity Mode IE is included in the HS-DSCH FDD Secondary Serving Information IE, the DRNS shall apply cell specific transmit diversity configuration and if the Diversity Mode IE is not set to “None” the DRNS shall activate/deactivate the Transmit Diversity for the secondary serving HS-DSCH Radio Link in accordance with the Transmit Diversity Indicator IE in the HS-DSCH FDD Secondary Serving Information IE.]
-	[FDD - If the Ordinal Number Of Frequency IE is included in the HS-DSCH FDD Secondary Serving Information IE, and the new configuration contains more than one secondary serving HS-DSCH Radio Link, then the DRNS shall use this value in the physical layer.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
Intra-DRNS Serving HS-DSCH Radio Link Change:
If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-PDSCH RL ID IE, this indicates the new Serving HS-DSCH Radio Link:
	The DRNS shall release the HS-PDSCH resources on the old Serving HS-DSCH Radio Link and setup the HS-PDSCH resources on the new Serving HS-DSCH Radio Link.
	The DRNC may include the HARQ Memory Partitioning IE in the [FDD – HS-DSCH FDD Information Response IE] [TDD – HS-DSCH TDD Information Response IE] in the RADIO LINK RECONFIGURATION READY message. [FDD – The HARQ Memory Partitioning IE may contain the HARQ Memory Partitioning Information Extension For MIMO IE.] [1.28Mcps TDD – The HARQ Memory Partitioning IE may contain the HARQ Memory Partitioning Information Extension For MIMO IE.]
-	If fields are to be included in the User Plane by the SRNC to handle TNL Congestion Control for HSDPA in the DRNS, then the DRNC shall include the User Plane Congestion Fields Inclusion IE in the HS-DSCH Information Response IE.
	The DRNC shall allocate a new HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the RADIO LINK RECONFIGURATION READY message.
	If a reset of the MAC-hs is not required the DRNS shall include the MAC-hs Reset Indicator IE in the RADIO LINK RECONFIGURATION READY message.
	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the HS-DSCH and the DRNC shall include the HS-SCCH Specific Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
	[TDD – The DRNS shall allocate HS-SCCH parameters corresponding to the HS-DSCH and the DRNC shall include the [3.84Mcps TDD – HS-SCCH Specific Information Response IE] [1.28Mcps TDD – HS-SCCH Specific Information Response LCR IE] [7.68 Mcps TDD – HS-SCCH Specific Information Response 7.68 Mcps IE] in the HS-DSCH TDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
	[TDD – The DRNC shall include the [3.84 Mcps TDD – HS-PDSCH Timeslot Specific Information IE] [1.28 Mcps TDD – HS-PDSCH Timeslot Specific Information LCR IE] [7.68 Mcps TDD – HS-PDSCH Timeslot Specific Information 7.68 Mcps IE] in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	The DRNC may include the Transport Layer Address IE and the Binding ID IE for HS-DSCH MAC-d flow in the [FDD – HS-DSCH FDD Information Response IE] [TDD – HS-DSCH TDD Information Response IE] in the RADIO LINK RECONFIGURATION READY message.
-	If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.
-	[FDD - If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH Information To Modify IE and the value is set to "allowed" or if HS-DSCH Information To Modify IE is not included and the UE Context is configured with Sixtyfour QAM allowed for the serving HS-DSCH Radio Link and not used in the current configuration and then if the DRNS decides to use 64 QAM in the new configuration, then it shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If MAC-ehs is applied in the new configuration, and if Sixtyfour QAM will not be used, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message if it decides to use the octet aligned table defined in TS 25.321 [41] for HS-DSCH Transport Block Size signalling.]
-	[FDD – If the power offset for S-CPICH for MIMO Request indicator and MIMO activation indicator have been configured in the new configuration and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the DRNC shall include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the power offset for S-CPICH for MIMO with four transmit antennas Request indicator and MIMO with four transmit antennas activation indicator or Dual Stream MIMO with four transmit antennas activation indicator have been configured in the new configuration and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the DRNC shall include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – Intra-DRNS Secondary Serving HS-DSCH Radio Link Change:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the C-ID IE in the Additional HS Cell Information RL Reconf Prep IE, one or more secondary serving HS-DSCH Radio Link(s) has been configured in the DRNS and if the new configuration contains more than one secondary serving HS-DSCH Radio Link, then if the Ordinal Number Of Frequency IEs, in the HS-DSCH FDD Secondary Serving Information IE for each instance of the Additional HS Cell Information RL Reconf Prep IE, indicate that existing secondary serving HS-DSCH Radio Links shall be subject to intra-DRNS secondary serving HS-DSCH Radio Link change, then the HS-PDSCH RL ID IE indicates the new Serving HS-DSCH Radio Link:]
-	[FDD – The DRNS shall release the HS-PDSCH resources on the old secondary serving HS-DSCH Radio Link and setup the HS-PDSCH resources on the new secondary serving HS-DSCH Radio Link. The DRNS shall remove the old secondary serving HS-PDSCH Radio Link if no E-DCH resources are allocated to the RL. Non cell specific secondary serving Radio Link and non cell specific secondary serving HS-DSCH parameters take the same values as for the serving HS-DSCH cell.]
-	[FDD – The DRNC shall allocate an HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD - If the Ordinal Number Of Frequency IE is included in the HS-DSCH FDD Secondary Serving Information IE, and the new configuration contains more than one secondary serving HS-DSCH Radio Link, then the DRNS shall use this value in the physical layer.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the secondary serving HS-DSCH and the DRNC shall include the HS-SCCH Specific Secondary Serving Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD - If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information To Modify IE and the value is set to "allowed" or if HS-DSCH FDD Secondary Serving Information To Modify IE is not included and the UE Context is configured with Sixtyfour QAM allowed for the secondary serving HS-DSCH Radio Link and not used in the current configuration and then if the DRNS decides to use 64 QAM for the new secondary serving HS-DSCH Radio Link, then it shall include the SixtyfourQAM DL Usage Indicator IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If, in the new configuration, the UE context is configured not to use Sixtyfour QAM for the secondary serving HS-DSCH, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message if it decides to use the octet aligned table defined in TS 25.321 [41] for secondary serving HS-DSCH Transport Block Size signalling.]
-	[FDD - If the old and/or new configuration contains more than one Secondary Serving HS-DSCH Radio Link the HS-DSCH FDD Secondary Serving Information IE defines the new secondary serving HS-DSCH configuration in the DRNS to be used on the new secondary serving HS-DSCH Radio Link, and then:]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-SCCH Power Offset IE in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any secondary serving HS-SCCH transmission to this UE.]
-	[FDD – If the MIMO Activation Indicator IE or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the MIMO mode or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the secondary serving HS-DSCH Radio Link and the DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO or MIMO with four transmit antennas, or Dual Stream MIMO with four transmit antennas mode and include the MIMO Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Single Stream MIMO Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the Single Stream MIMO mode for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the secondary serving HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If the Diversity Mode IE is included in the HS-DSCH FDD Secondary Serving Information IE, the DRNS shall apply cell specific transmit diversity configuration and if the Diversity Mode IE is not set to “None” the DRNS shall activate/deactivate the Transmit Diversity for the secondary serving HS-DSCH Radio Link in accordance with the Transmit Diversity Indicator IE in the HS-DSCH FDD Secondary Serving Information IE.]
-	[FDD - If the power offset for S-CPICH for MIMO Request indicator and MIMO activation indicator have been configured for the secondary serving HS-DSCH radio link in the new configuration and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, the DRNC shall include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD - If the Power Offset For S-CPICH for MIMO with four transmit antennas Request indicator and MIMO with four transmit antennas activation indicator or Dual Stream MIMO with four transmit antennas activation indicator have been configured for the secondary serving HS-DSCH radio link in the new configuration and MIMO with four transmit antennas Pilot Configuration is set up with a non zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, the DRNC shall include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – The DRNC may include the Precoder weight set restriction IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – Additional Serving E-DCH Radio Link Change to an existing additional non serving E-DCH RL:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the C-ID IE in the Additional HS Cell Information RL Reconf Prep IE and an additional non serving E-DCH RL exists in the cell indicated by the C-ID IE, the HS-PDSCH RL ID IE in the Additional HS Cell Information RL Reconf Prep IE indicates the new Additional Serving E-DCH Radio Link.]
-	[FDD – If the old Additional Serving E-DCH RL is within this DRNS, the DRNS shall de-allocate the E-AGCH resources of the old Serving Additional E-DCH Radio Link at the activation of the new configuration.]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Additional Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNS may include the Serving Grant Value IE and Primary/Secondary Grant Selector IE in the E-DCH FDD DL Control Channel Information IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message for the initial grant for the Additional serving E-DCH RL and may include the Default Serving Grant in DTX Cycle 2 IE.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNS may include the E-RGCH/E-HICH Channelisation Code IE and/or the E-HICH Signature Sequence IE and/or the E-RGCH Signature Sequence IE or may alternatively include the E-RGCH Release Indicator IE in the E-DCH FDD DL Control Channel Information IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message for every E-DCH Radio Link on secondary UL frequency in the DRNS. If the DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE in the E-DCH FDD DL Control Channel Information IE then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE in the E-DCH FDD DL Control Channel Information IE, to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.] 
[FDD – Additional Serving E-DCH Radio Link Change to a new RL:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Additional E-DCH RL Specific Information To Add IE in the Additional E-DCH Configuration Change Information IE in the Additional E-DCH Cell Information RL Reconf Prep IE and the C-ID IE in the Additional HS Cell Information RL Reconf Prep IE and there is no radio links in the cell indicated by the C-ID IE for the UE context, the HS-PDSCH RL ID IE indicates the new Additional Serving E-DCH Radio Link on secondary UL frequency.]
-	[FDD – If the old Additional Serving E-DCH RL is within this DRNS, the DRNS shall de-allocate the E-AGCH resources of the old Additional Serving E-DCH Radio Link at the activation of the new configuration.]
-	[FDD – In the new configuration the DRNS shall allocate the E-DCH resources for the new additional serving E-DCH Radio Link on the secondary UL frequency. Non cell specific E-DCH parameters shall take the same values as for the corresponding cell of the Primary uplink frequency.]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Additional Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNS may include in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the additional serving E-DCH RL and may include the Default Serving Grant in DTX Cycle 2 IE.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message.]
HS-DSCH Modification:
If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH Information To Modify IE, then:
-	The DRNC shall include the HS-DSCH Initial Capacity Allocation IE for each HS-DSCH MAC-d flow being modified for which the establishment of one or several new Priority Queues was requested, if the DRNS allows the SRNC to start the transmission of MAC-d PDUs for the Priority Queue(s) being established before the DRNS has allocated capacity on user plane as described in TS 25.425 [32]. If RADIO LINK RECONFIGURATION PREPARE message includes HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information To Modify IE set to “Flexible MAC-d PDU Size”, then DRNC shall only set in the HS-DSCH Initial Capacity Allocation IE the values for the peer of Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE to the values of the corresponding peer I in RADIO LINK RECONFIGURATION PREPARE in the HS-DSCH Information To Modify IE for a Priority Queue including Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the Traffic Class IE in the HS-DSCH Information To Modify IE for a specific HS-DSCH MAC-d flow, the DRNS may use this information to determine the transport bearer characteristics to apply between DRNC and Node B. The DRNC should ignore the Traffic Class IE if the TrCH Source Statistics Descriptor IE for this specific HS-DSCH MAC-d flow indicates the value “RRC”.
-	If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-hs Guaranteed Bit Rate IE in the HS-DSCH Information To Modify IE, the DRNS shall use this information to optimise MAC-hs scheduling decisions for the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the Discard Timer IE for a Priority Queue in the HS-DSCH Information To Modify IE, then the DRNS shall use this information to discard out-of-date MAC-hs SDUs from the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the Maximum MAC-d PDU Size Extended IE in the HS-DSCH Information To Modify IE, then the DRNS shall ignore the SID IE and MAC-d PDU Size IE in the MAC-d PDU Size Index IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-hs Window Size IE or T1 IE in the HS-DSCH Information To Modify IE, then the DRNS shall use the indicated values in the new configuration for the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-d PDU Size Index IE in the Modify Priority Queue choice, the DRNS shall delete the previous list of MAC-d PDU Size Index values for the related HSDPA Priority Queue and use the MAC-d PDU Size Index values indicated in the MAC-d PDU Size Index IE in the new configuration.
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the CQI Feedback Cycle k IE, the CQI Repetition Factor IE, the ACK-NACK Repetition Factor IE, the ACK Power Offset IE, the NACK Power Offset IE or the CQI Power Offset IE in the HS-DSCH Information To Modify IE, then the DRNS shall use the indicated CQI Feedback Cycle k value, the CQI Repetition Factor or the ACK-NACK Repetition Factor, ACK Power Offset, the NACK Power Offset or the CQI Power Offset in the new configuration.]
-	[FDD – If the CQI Feedback Cycle2 k IE or the CQI Cycle Switch Timer IE is included in the HS-DSCH Information To Modify IE, then the DRNS may use the indicated CQI Feedback Cycle2 k value, the CQI Cycle Switch Timer in the new configuration.]
-	[FDD – If the HS-SCCH Power Offset IE is included in the HS-DSCH Information To Modify IE, the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any HS-SCCH transmission to this UE.]
-	[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the TDD ACK NACK Power Offset IE in the HS-DSCH Information To Modify IE, the DRNS shall use the indicated power offset in the new configuration.]
-	[FDD – If the HS-DSCH Information To Modify IE includes the HS-SCCH Code Change Grant IE, then the DRNS may modify the HS-SCCH codes corresponding to the HS-DSCH. The DRNC shall then report the codes which are used in the new configuration specified in the HS-SCCH Specific Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the HS-DSCH Information To Modify IE includes the HS-PDSCH Code Change Grant IE, then the DRNS may modify the HS-PDSCH codes corresponding to the HS-DSCH. The DRNC shall then report the codes which are used in the new configuration specified in the Continuous Packet Connectivity HS-SCCH less Information Response IE in the RADIO LINK RECONFIGURATION READY message. If the concerned DRNS is not in Continuous Packet Connectivity HS-SCCH less mode, the SRNC shall not include the HS-PDSCH Code Change Grant IE in the HS-DSCH Information To Modify IE.]
-	[TDD – If the HS-DSCH Information To Modify IE includes the HS-SCCH Code Change Grant IE, then the DRNS may modify the HS-SCCH parameters corresponding to the HS-DSCH. The DRNC shall then report the values for the parameters which are used in the new configuration specified in the [3.84Mcps TDD – HS-SCCH Specific Information Response IE] [1.28Mcps TDD – HS-SCCH Specific Information Response LCR IE] [7.68 Mcps TDD – HS-SCCH Specific Information Response 7.68 Mcps IE] in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HARQ Preamble Mode IE in the HS-DSCH Information To Modify IE, then the DRNS shall use the indicated HARQ Preamble Mode in the new configuration as described in TS 25.214 [10], if HS-DPCCH ACK/NACK preamble and postamble is supported. Then, in this case, if the mode 1 is applied, the DRNC shall include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message. If the HARQ Preamble Mode IE is not included or if the mode 0 is applied, then the DRNC shall not include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information To Modify IE, then the DRNS shall use, in the new configuration, the indicated format in user plane frame structure for HS-DSCH channels (TS 25.425 [32]) and MAC-hs (TS 25.321 [41]).
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH Physical Layer Category IE in the HS-DSCH Information To Modify IE, the DRNS shall use this information in the new configuration.]
-	[FDD – If the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Information To Modify IE, then:]
-	[FDD – The DRNS shall activate/deactivate the MIMO mode or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the HS-DSCH Radio Link in the new configuration in accordance with the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE.]
-	[FDD – If the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Mode Indicator IE is set to “Activate”, then the DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO or MIMO with four transmit antennas or Dual Stream MIMO with four transmit antennas and include the MIMO Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the MIMO Mode Indicator IE is set to “Activate” and Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the MIMO with four transmit antennas Mode Indicator IE is set to “Activate” or the Dual Stream MIMO with four transmit antennas Mode Indicator IE is set to “Activate” and Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Information Response IE. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – The DRNC may include the HARQ Memory Partitioning IE in the RADIO LINK RECONFIGURATION READY message. The HARQ Memory Partitioning IE may contain the HARQ Memory Partitioning Information Extension For MIMO IE.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH Information To Modify IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH Information To Modify IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the HS-DSCH Radio Link.]
-	[FDD – If MAC-ehs is applied in the new configuration, and if Sixtyfour QAM will not be used, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message if it decides to use the octet aligned table defined in TS 25.321 [41] for HS-DSCH Transport Block Size signalling.]
-	[1.28Mcps TDD – If the MIMO Mode Indicator IE is included in the HS-DSCH Information To Modify IE, then:]
-	[1.28Mcps TDD – The DRNS shall activate/deactivate the MIMO mode for the HS-DSCH Radio Link in the new configuration in accordance with the MIMO Mode Indicator IE.]
-	[1.28 Mcps TDD – If the MIMO Mode Indicator IE is set to “Activate”, then the DRNS shall decide the SF mode for HS-PDSCH dual stream and include the MIMO SF Mode for HS-PDSCH dual stream IE in the HS-DSCH TDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[1.28Mcps TDD – The DRNC may include the HARQ Memory Partitioning IE in the RADIO LINK RECONFIGURATION READY message. The HARQ Memory Partitioning IE may contain the HARQ Memory Partitioning Information Extension For MIMO IE.]
-	[FDD – Any secondary serving HS-DSCH that was applied in the old configuration shall remain in the new configuration unless it is explicitly removed.]
-	[FDD – If secondary serving HS-DSCH is applied also in the new configuration, then any changes related to parameters that are common for both the serving and the secondary serving HS-DSCH should be applied also for the secondary serving HS-DSCH.]
-	If the RADIO LINK RECONFIGURATION PREPARE message includes DL RLC PDU Size Format IE for a Priority Queue in the HS-DSCH Information To Modify IE, the DL RLC PDU Size Format IE may be used by the DRNS to determine the allocated capacity on user plane as described in TS 25.425 [32].
-	[FDD – If the UE Support Indicator Extension IE is included in the HS-DSCH Information To Modify IE the DRNS may use the supported HSDPA functions for this UE.]
-	[FDD - If the UE Support Indicator Extension IE is included in the HS-DSCH Information To Modify IE with the bit UE DTXDRX related HS-SCCH orders uniform behavior indicator set to 0, then the DRNS shall, if supported, include the Support of Dynamic DTXDRX Related HS-SCCH Order IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Single Stream MIMO Mode Indicator IE is included in the HS-DSCH Information To Modify IE, then the DRNS shall activate/deactivate the Single Stream MIMO for the HS-DSCH Radio Link in accordance with the Single Stream MIMO Mode Indicator IE.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – Secondary Serving HS-DSCH Modification:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH FDD Secondary Serving Information To Modify IE, then:]
-	[FDD – If the HS-SCCH Power Offset IE is included in the HS-DSCH FDD Secondary Serving Information To Modify IE, the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any secondary serving HS-SCCH transmission to this UE.]
-	[FDD – If the HS-DSCH FDD Secondary Serving Information To Modify IE includes the HS-SCCH Code Change Grant IE, then the DRNS may modify the HS-SCCH codes corresponding to the secondary serving HS-DSCH. The DRNC shall then report the codes which are used in the new configuration specified in the HS-SCCH Specific Secondary Serving Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Mode Indicator IE is included in the HS-DSCH FDD Secondary Serving Information To Modify IE, then the DRNS shall activate/deactivate the MIMO mode or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the secondary serving HS-DSCH Radio Link in accordance with the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Mode Indicator IE.]
-	[FDD – If the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Mode Indicator IE, is set to “Activate”, then the DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO or MIMO with four transmit antennas or Dual Stream MIMO with four transmit antennas and include the MIMO Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the MIMO Mode Indicator IE is set to “Activate” and Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the MIMO with four transmit antennas Mode Indicator IE is set to “Activate” or the Dual Stream MIMO with four transmit antennas Mode Indicator IE is set to “Activate” and Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – If the Single Stream MIMO Mode Indicator IE is included in the HS-DSCH FDD Secondary Serving Information To Modify IE, then the DRNS shall activate/deactivate the Single Stream MIMO mode for the secondary serving HS-DSCH Radio Link in accordance with the Single Stream MIMO Mode Indicator IE.]
-	[FDD – If the Ordinal Number Of Frequency IE is included in the HS-DSCH FDD Secondary Serving Information To Modify IE, and the new configuration contains more than one secondary serving HS-DSCH Radio Link, then the DRNS shall use this value in the physical layer.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information To Modify IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the secondary serving HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information To Modify IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If, in the new configuration, the UE context is configured not to use Sixtyfour QAM for the secondaery serving HS-DSCH, then the DRNC shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message if it decides to use the octet aligned table defined in TS 25.321 [41] for secondary serving HS-DSCH Transport Block Size signalling.] 
-	[FDD – If the Diversity Mode IE is included, then:]
-	[FDD – the DRNS shall apply cell specific transmit diversity configuration for the secondary serving HS-DSCH radio link according to Diversity Mode IE and Transmit Diversity Indicator IE in the HS-DSCH FDD Secondary Serving Information To Modify IE,]
-	[FDD – If the Diversity Mode IE is not set to “None”, the DRNS shall apply diversity for the secondary serving HS-DSCH radio link according to the value given in the Transmit Diversity Indicator IE in the HS-DSCH FDD Secondary Serving Information To Modify IE.]
-	[FDD – If the Non Cell Specific Tx Diversity IE equals “Tx Diversity” is included, the DRNS shall apply non cell specific transmit diversity configuration and reconfigure the transmit diversity setting for the secondary serving HS-DSCH radio link to the same value as defined for the serving HS-DSCH radio link in the new configuration.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – Secondary Serving HS-DSCH Removal:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH Secondary Serving Remove IE in the Additional HS Cell Information RL Reconf Prep IE, then the indicated secondary serving HS-DSCH Radio Link shall be removed.]
HS-DSCH MAC-d Flow Addition/Deletion:
If the RADIO LINK RECONFIGURATION PREPARE message includes any HS-DSCH MAC-d Flows To Add or HS-DSCH MAC-d Flows To Delete IEs, then the DRNS shall use this information to add/delete the indicated HS-DSCH MAC-d flows on the Serving HS-DSCH Radio Link. When an HS-DSCH MAC-d flow is deleted, all its associated Priority Queues shall also be removed.
If the RADIO LINK RECONFIGURATION PREPARE message includes an HS-DSCH MAC-d Flows To Delete IE requesting the deletion of all remaining HS-DSCH MAC-d flows for the UE Context, then the DRNC shall delete the HS-DSCH configuration from the UE Context and release the HS-PDSCH resources.
If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH MAC-d Flows To Add IE, then:
-	The DRNS may use the Traffic Class IE for a specific HS-DSCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the HS-DSCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.
-	If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.
-	The DRNC shall include the HS-DSCH Initial Capacity Allocation IE in the RADIO LINK RECONFIGURATION READY message for every HS-DSCH MAC-d flow being added, if the DRNS allows the SRNC to start transmission of MAC-d PDUs before the DRNS has allocated capacity on user plane as described in TS 25.425 [32]. If the UE context is configured to use the “Flexible MAC-d PDU Size” format for the HS-DSCH, then DRNC shall only set in the HS-DSCH Initial Capacity Allocation IE the values for the peer of Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE to the values of the corresponding peer in RADIO LINK RECONFIGURATION PREPARE message in the HS-DSCH MAC-d Flows To Add IE for a Priority Queue including Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-hs Guaranteed Bit Rate IE in the HS-DSCH MAC-d Flows To Add IE, the DRNS shall use this information to optimise MAC-hs scheduling decisions for the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the Discard Timer IE for a Priority Queue in the HS-DSCH MAC-d Flows To Add IE, then the DRNS shall use this information to discard out-of-date MAC-hs SDUs from the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION PREPARE message includes the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows To Add IE, then the DRNC shall ignore the SID IE and MAC-d PDU Size IE in the MAC-d PDU Size Index IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related HSDPA Priority Queue.
-	The DRNC may include the HARQ Memory Partitioning IE in the RADIO LINK RECONFIGURATION READY message. [FDD – The HARQ Memory Partitioning IE may contain the HARQ Memory Partitioning Information Extension For MIMO IE.]
-	If the RADIO LINK RECONFIGURATION PREPARE message includes DL RLC PDU Size Format IE for a Priority Queue in the HS-DSCH MAC-d Flows To Add IE, the DL RLC PDU Size Format IE may be used by the DRNS to determine the allocated capacity on user plane as described in TS 25.425 [32].
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the UE Aggregate Maximum Bit Rate Enforcement Indicator IE for a Priority Queue in the HS-DSCH MAC-d Flows To Add IE, the DRNS shall, if supported, consider the data of the related HSDPA Priority Queue for UE Aggregate Maximum Bit Rate Enforcement.]
[FDD – HS-DSCH Preconfiguration for Enhanced HS Serving Cell Change]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH Preconfiguration Setup IE in the RL Information IE the DRNS shall, if supported, preconfigure the indicated cells for Enhanced HS Serving Cell Change acoording to TS 25.308 [63]:]
-	[FDD – The DRNS shall preconfigure sets of HS-SCCH codes on the cells preconfigured for HS-DSCH, primary serving HS-DSCH cell, as well as on the secondary serving HS-DSCH cells. The primary serving HS-DSCH cell is designated through the C-ID IE part of the RL Information IE in the RADIO LINK RECONFIGURATION PREPARE message. The list of secondary serving HS-DSCH cells is designated by the list of Secondary C-ID IEsin the HS-DSCH Preconfiguration Setup IE part of the RL Information IE in the RADIO LINK RECONFIGURATION PREPARE message.]
-	[FDD – The number of HS-SCCH codes to preconfigure for each cell may be optionally specified: ]
-	[FDD – by the Num Primary HS-SCCH Codes IE in the HS-DSCH Preconfiguration Setup IE, for the primary serving HS-DSCH cell.]
-	[FDD – by the Num Secondary HS-SCCH Codes IE in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE for each of the secondary serving HS-DSCH cells.]
-	[FDD – If Num Primary HS-SCCH Codes IE or Num Secondary HS-SCCH Codes IE is not included in the message the number and distribution of codes on primary and any secondary cells shall be preconfigured to satisfy any limitations in TS 25.214 [10]. ]
-	[FDD – The DRNS shall return these codes in the Sets of HS-SCCH Codes IE along with the corresponding per- cell HS-DSCH-RNTI IE in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE of the RADIO LINK RECONFIGURATION READY.]
-	[FDD – The DRNS shall use the first in the numbered list the primary serving HS-DSCH cell’s of HS-SCCH codes in the HS-SCCH Preconfigured Codes IE sent to the SRNC to signal the Target Cell HS-SCCH Order defined in TS 25.331 [16].]
-	[FDD – The DRNS shall include, in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE in the RADIO LINK RECONFIGURATION READY message, IEs according to the rules defined for HS-DSCH Setup at Serving HS-DSCH Radio Link Change and:]
-	[FDD – if HARQ Preamble Mode IE is included in the HS-DSCH Preconfiguration Setup IE the HARQ Preamble Mode Activation Indicator IE.]
-	[FDD – if MIMO Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE the MIMO N/M Ratio IE.]
-	[FDD – if Ordinal number of frequency IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE]
-	[FDD – if MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE the MIMO N/M Ratio IE.]
-	[FDD – if Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE the MIMO N/M Ratio IE.]
-	[FDD – if Multiflow ordinal number of frequency IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE]
-	[FDD – if HS-DSCH MAC-d PDU Size Format IE is included in the HS-DSCH Preconfiguration Setup IE and set to "Flexible MAC-d PDU Size" and if Sixtyfour QAM will not be used for the cell in the preconfiguration the HS-DSCH TB Size Table Indicator IE for each preconfigured cell.]
-	[FDD – if Sixtyfour QAM Usage Allowed Indicator IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE or in the HS-DSCH Preconfiguration Setup IE the SixtyfourQAM DL Usage Indicator IE for each preconfigured cell.]
-	[FDD – if Continuous Packet Connectivity HS-SCCH less Information IE is included in the HS-DSCH Preconfiguration Setup IE the Continuous Packet Connectivity HS-SCCH less Information Response IE.]
-	[FDD – if the UE with enhanced HS-SCCH support indicator IE is included in the HS-DSCH Preconfiguration Setup IE, then the DRNS shall store this information in the preconfigured configuration.]
-	[FDD – the SixtyfourQAM DL Support Indicator IE may be included.]
-	[FDD – If the UE Support Indicator Extension IE is included in the HS-DSCH Preconfiguration Setup IE, then the DRNS may store this information in the preconfigured configuration.]
-	[FDD - If the UE Support Indicator Extension IE is included in the HS-DSCH Preconfiguration Setup IE with the bit UE DTXDRX related HS-SCCH orders uniform behavior indicator set to 0, then the DRNS shall, if supported, include the Support of Dynamic DTXDRX Related HS-SCCH Order IE in the HS-DSCH Preconfiguration Info IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – the DRNS shall, if supported, include in the Sets of HS-SCCH Codes IE the Measurement Power Offset IE for each preconfigured cell.]
-	[FDD – The DRNS shall include in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE in the RADIO LINK RECONFIGURATION READY message the E-DCH FDD DL Control Channel Information containing the preconfigured configuration of the E-DCH serving cell according to the rules defined for Serving E-DCH Radio Link Change as follows:]
-	[FDD – The DRNS shall allocate for the preconfigured configuration a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE.]
-	[FDD – The DRNS may preconfigure the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the serving E-DCH RL and include these values in the E-DCH FDD DL Control Channel Information IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included in the HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up on the cell with a non-zero power offset where HS-DSCH / secondary HS-DSCH is preconfigured, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH Preconfiguration Info IE or in the Sets of HS-SCCH Codes IE in the HS-DSCH Preconfiguration Info IE for each preconfigured cell in the RADIO LINK RECONFIGURATION READY message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the Multiflow Information IE, then the DRNC shall allocate resources for the preconfigured Multiflow.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the F-TPICH Information IE, then the DRNC shall allocate resources for the preconfigured F-TPICH channel and include F-TPICH Information Response IE in the HS-DSCH Preconfiguration Info IE.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the UL CLTD Information IE, then the DRNC shall allocate resources for the preconfigured UL CLTD.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the UL MIMO Information IE, then the DRNC shall allocate resources for the preconfigured UL MIMO.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the SixteenQAM UL Operation Indicator IE, then the DRNC shall allocate resources for the preconfigured UL Sixteen QAM.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the SixtyfourQAM UL Operation Indicator IE, then the DRNC shall allocate resources for the preconfigured UL Sixtyfour QAM.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Non-Serving RL Preconfiguration Setup IE in the RL Information IE and:] 
-	[FDD – if the choice of new Serving RL is "New Serving RL in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE and/or New non-serving RL E-DCH FDD DL Control Channel Information B IE in the Non-Serving RL Preconfiguration Info IE for the RL in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – if the choice of new Serving RL is "New Serving RL Not in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information C IE in the Non-Serving RL Preconfiguration Info IE for the RL in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – if the choice of new Serving RL is "New Serving RL in the DRNS or New Serving RL Not in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE, the New non-serving RL E-DCH FDD DL Control Channel Information B IE and/or the New non-serving RL E-DCH FDD DL Control Channel Information C for the RL in the Non-Serving RL Preconfiguration Info IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – if the Additional E-DCH Non-Serving RL Preconfiguration Setup IE is included, the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE, the New non-serving RL E-DCH FDD DL Control Channel Information B IE and/or the New non-serving RL E-DCH FDD DL Control Channel Information C IE according to the choice of new Serving RL in Additional E-DCH New non-serving RL E-DCH FDD DL Control Channel Information IE for the additional non serving E-DCH RL in the Non-Serving RL Preconfiguration Info IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD –If the F-TPICH Information IE is included, the DRNC shall use this information to allocate resources for the preconfigured F-TPICH channel for this RL in the serving RLS according to TS 25.211 [8], and include F-TPICH Information Response IE in the Non-Serving RL Preconfiguration Info IE.]
[FDD – Enhanced HS Serving Cell Change:]
[FDD –-Upon receipt of the RADIO LINK RECONFIGURATION PREPARE message, if the Enhanced HS Serving Cell Change is preconfigured in the DRNS for the UE context, the DRNS may execute the Enhanced HS Serving Cell Change procedure according to [63].]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Enhanced HS Serving CC Abort IE in the HS-DSCH Information To Modify IE or the HS-DSCH FDD Information IE then the DRNS shall not execute the synchronized Enhanced HS Serving Cell Change procedure when performing the Serving HS-DSCH Radio Link Change or the HS-DSCH Setup.]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the Non-Serving RL Preconfiguration Removal IE, the DRNS shall remove the corresponding preconfigured E-DCH DL Control Channel Information according to the information.]
[FDD – Multiflow Setup:]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the Multiflow Information IE in HS-DSCH Information IE, or Multiflow Reconfiguration IE in HS-DSCH Information To Modify IE and the choice of Setup or Change or Stop is “Setup”, then the DRNS shall setup the requested Multiflow operation.]
[FDD – Multiflow Modification:]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes Multiflow Reconfiguration IE in HS-DSCH Information To Modify IE and the choice of Setup or Change or Stop is “Change”, then the DRNS shall apply the new configuration.]
[FDD – Multiflow Removal:]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the Multiflow Reconfiguration IE in HS-DSCH Information To Modify IE, and the choice of Setup or Change or Stop is “Stop”, then the DRNS shall terminate the Multiflow operation.]
[FDD – E-DCH Setup:]
[FDD – If the E-DCH FDD Information IE is present in the RADIO LINK RECONFIGURATION PREPARE message then:]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH Logical Channel Information IE in the E-DCH FDD Information IE, then the DRNS shall use this information to optimise MAC-e scheduling decisions.] 
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes UE Aggregate Maximum Bit Rate Enforcement Indicator IE in the E-DCH Logical Channel Information IE in the E-DCH FDD Information IE, then the DRNS shall, if supported, consider the data of the related E-DCH Logical Channel for UE Aggregate Maximum Bit Rate Enforcement.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel and use the indicated format in user plane frame structure for E-DCH channels (TS 25.425 [32]) and MAC (TS 25.321 [41]).]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH MAC-d Flow Multiplexing List IE for an E-DCH MAC-d flow the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If in the RADIO LINK RECONFIGURATION PREPARE message the E-DCH Grant Type is indicated as being “E-DCH Non-Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume non-scheduled grants being configured for that E-DCH MAC-d flow and shall use the information within the HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant IE, if included, for the related resource allocation operation.]
-	[FDD – If in the RADIO LINK RECONFIGURATION PREPARE message the E-DCH Grant Type is indicated as being “E-DCH Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume scheduled grants being configured for that E-DCH MAC-d flow.]
-	[FDD – The DRNS may use the Traffic Class IE for a specific E-DCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the E-DCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.]
-	-	[FDD – If the TNL QoS IE is included for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Bundling Mode Indicator IE for a E-DCH MAC-d flow in the E-DCH MAC-d Flow Specific Information IE in the E-DCH FDD Information IE and the Bundling Mode Indicator IE is set to “Bundling” and the E-TTI IE is set to “2ms”, then the DRNS shall use the bundling mode for the E-DCH UL data frames for the related MAC-d flow, otherwise the DRNS shall use the non-bundling mode for the E-DCH UL data frames for the related MAC-d flow.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Maximum Bitrate IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-DPCCH/E-DPDCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH ReferencePower Offset IE, then the DRNS may use this value as a default HARQ power offset if it is not able to decode the MAC-e PDU and to determine the value of the actual HARQ power offset.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the UPH Filtering Measurement Forwarding Request IE, then the DRNS shall use this instruction to handle the UE UPH filtering measurement forwarding.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-AGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-AGCH power. The E-AGCH Power Offset should be applied for any E-AGCH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-RGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-RGCH power for the RL. The E-RGCH Power Offset should be applied for any E-RGCH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-HICH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-HICH power for the RL. The E-HICH Power Offset should be applied for any E-HICH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the SixteenQAM UL Operation Indicator IE, the DRNS shall activate/deactivate SixteenQAM UL Operation for the RL in accordance with the SixteenQAM UL Operation Indicator IE.]
-	[FDD – If SixteenQAM UL Operation is activated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 2 according to TS 25.321 [41]. If SixteenQAM UL Operation is deactivated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 1 according to TS 25.321 [41].]
[FDD – E-DCH Radio Link Handling:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH RL Indication IE in the RL Information IE:]
-	[FDD – The DRNC shall setup the E-DCH resources, as requested or as configured in the UE context, on the Radio Links indicated by the E-DCH RL Indication IE, set to “E-DCH”, in the RL Information IE.]
-	[FDD – The DRNC may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNC may include the corresponding E-RGCH Signature Sequence IE in the E-DCH FDD DL Control Channel Information IE in the RADIO LINK RECONFIGURATION READY message for every RL indicated by the E-DCH RL Indication IE, set to “E-DCH”, in the RL Information IE.]
-	[FDD – The DRNC shall remove the E-DCH resources, if any, on the Radio Links, that are indicated by the E-DCH RL Indication IE set to “Non E-DCH”, in the RL Information IE.]
-	[FDD – For each RL for which the E-DCH RL Indication IE is set to “E-DCH”, and which has or can have a common generation of E-RGCH information with another RL (current or future) when the DRNS would contain the E-DCH serving RL, the DRNS shall include the E-DCH RL Set ID IE in the RADIO LINK RECONFIGURATION READY message. The value of the E-DCH RL Set ID IE shall allow the SRNC to identify the E-DCH RLs that have or can have a common generation of E-RGCH information.]
[FDD – Serving E-DCH Radio Link Change:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Serving E-DCH RL ID IE, this indicates the new Serving E-DCH Radio Link:]
-	[FDD – If the old Serving E-DCH RL is within this DRNS, the DRNS shall de-allocate the E-AGCH resources of the old Serving E-DCH Radio Link at the activation of the new configuration.]
-	[FDD – If the new Serving E-DCH RL is within this DRNS:]
-	[FDD – the DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the RL Information Response IE for the indicated RL in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNS may include the Serving Grant Value IE and Primary/Secondary Grant Selector IE in the RADIO LINK RECONFIGURATION READY message for the initial grant for the new serving E-DCH RL.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled and/or non-scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If a serving cell change is performed the RADIO LINK RECONFIGURATION READY message may contain invalid data (see 9.2.2.4C).]
-	[FDD – The DRNS may include the Default Serving Grant in DTX Cycle 2 IE in the RADIO LINK RECONFIGURATION READY message for the new serving E-DCH RL.]
-	[FDD – The DRNS may include the E-RGCH/E-HICH Channelisation Code IE and/or the E-HICH Signature Sequence IE and/or the E-RGCH Signature Sequence IE or may alternatively include the E-RGCH Release Indicator IE in the E-DCH FDD DL Control Channel Information IE in the RADIO LINK RECONFIGURATION READY message for every E-DCH Radio Links in the DRNS.]
-	[FDD – If the DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE in the E-DCH FDD DL Control Channel Information IE in the RADIO LINK RECONFIGURATION READY message, then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE in the E-DCH FDD DL Control Channel Information IE, to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.]
[FDD – E-DCH Modification:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH FDD Information To Modify IE, then:]
-	[FDD – If the E-DCH FDD Information To Modify IE contains a E-DCH MAC-d Flow Specific Information IE which includes the Allocation/Retention Priority IE, the DRNS shall apply the new Allocation/Retention Priority to this E-DCH in the new configuration according to Annex A.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH MAC-d PDU Size Format IE in the E-DCH FDD Information To Modify IE, then the DRNS shall use the indicated format in user plane frame structure for E-DCH channels (TS 25.425 [32]) and MAC (TS 25.321 [41]).]
-	[FDD – If the TNL QoS IE is included for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[FDD –If the Traffic Class IE is included for an E-DCH MAC-d flow then the DRNS may use the Traffic Class IE for a specific E-DCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. The DRNC should ignore the Traffic Class IE if the TrCH Source Statistics Descriptor IE for this specific E-DCH MAC-d flow indicates the value “RRC”.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Data Description Indicator IE, the DRNC shall use the DDI values indicated in the Data Description Indicator IE in the new configuration.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH FDD Information To Modify IE, the DRNS shall use this information to optimise MAC-e scheduling decisions.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information To Modify IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Maximum Number of Retransmissions for E-DCH IE for an E-DCH MAC-d flow in the E-DCH FDD Information To Modify IE, then the DRNS shall use this information to report if the maximum number of retransmissions has been exceeded.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH HARQ Power Offset FDD IE in the E-DCH FDD Information To Modify IE for an E-DCH MAC-d flow the DRNS shall use this information for calculating the unquantised gain factor for an E-TFC (ed,j,uq)as defined in TS 25.214 [10].]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH MAC-d Flow Multiplexing List IE for an E-DCH MAC-d flow the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Grant Type and it is indicated as being “E-DCH Non-Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume non-scheduled grants being configured for that E-DCH MAC-d flow and shall use the information within the HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant IE, if included, for the related resource allocation operation.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Grant Type and it is indicated as being “E-DCH Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume scheduled grants being configured for that E-DCH MAC-d flow.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Logical Channel To Add or E-DCH Logical Channel To Delete IEs, the DRNS shall use this information to add/delete the indicated logical channels. When an logical channel is deleted, all its associated configuration data shall also removed.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Logical Channel To Modify IE, the DRNS shall use this information to modify the indicated logical channels:]
-	[FDD – If the E-DCH Logical Channel To Modify IE includes Scheduling Priority Indicator IE, the DRNS shall apply the values in the new configuration.]
-	[FDD – If the E-DCH Logical Channel To Modify IE includes Scheduling Information IE, the DRNS shall apply the values in the new configuration.]
-	[FDD – If the E-DCH Logical Channel To Modify IE includes the Maximum MAC-d PDU Size Extended IE, the DRNS shall apply the value in the new configuration.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Bundling Mode Indicator IE for an E-DCH MAC-d flow in the E-DCH MAC-d Flow Specific Information IE in the E-DCH FDD Information To Modify IE and the Bundling Mode Indicator IE is set to “Bundling” and the E-TTI IE is set to “2ms”, then the DRNS shall use the bundling mode for the E-DCH UL data frames for the related MAC-d flow, otherwise the DRNS shall use the non-bundling mode for the E-DCH UL data frames for the related MAC-d flow.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the DRNS shall use this information for the related resource allocation operation.] 
-	[FDD – If the E-DCH serving RL is in this DRNS, the DRNS may choose to change the E-DCH HARQ process allocation for 2ms TTI for scheduled and/or non-scheduled transmission. In this case the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Maximum Bitrate IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-DPCCH/E-DPDCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH ReferencePower Offset IE, then the DRNS may use this value as a default HARQ power offset if it is not able to decode the MAC-e PDU and to determine the value of the actual HARQ power offset.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-AGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-AGCH power. The E-AGCH Power Offset should be applied for any E-AGCH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-RGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-RGCH power for the RL. The E-RGCH Power Offset should be applied for any E-RGCH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-HICH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-HICH power for the RL. The E-HICH Power Offset should be applied for any E-HICH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-e Reset Indicator IE in the E-DCH FDD Information To Modify IE, then the DRNS shall use this value to determine whether MAC-e(or MAC-i) Reset is performed in the UE for sending the HARQ Failure Indication.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the SixteenQAM UL Operation Indicator IE in the E-DCH FDD Information To Modify IE, the DRNS shall activate/deactivate SixteenQAM UL Operation for the RL in accordance with the SixteenQAM UL Operation Indicator IE]
-	[FDD – If SixteenQAM UL Operation is activated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 2 according to TS 25.321 [41]. If SixteenQAM UL Operation is deactivated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 1 according to TS 25.321 [41].]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH DL Control Channel Grant Information IE in the E-DCH FDD Information To Modify IE, the DRNS may modify E-AGCH Channelisation Code, E-RGCH/E-HICH Channelisation Code, E-RGCH Signature Sequence and/or E-HICH Signature Sequence for the E-DCH RL indicated by the E-DCH RL ID IE. The DRNC shall then report the modified configuration which is used in the new configuration specified in the E-DCH FDD DL Control Channel Information IE for each E-DCH RL in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Fast TTI switching Mode Requested Synchronized IE in the E-DCH FDD Information To Modify IE and Mode 1 is indicated, theDRNS shall if supported start the TTI swiching process preparation.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Fast TTI switching Mode Requested Synchronized IE in the E-DCH FDD Information To Modify IE and Mode 2 is indicated, the DRNS shall if supported send the HS-SCCH order at the CFN indicated in Mode 2 to execute the TTI switching process. Refer to TS 25.214 [10]].
-	[FDD – If the Fast TTI switching Mode Requested Synchronized IE is included in IE in the E-DCH FDD Information To Modify IE the RADIO LINK RECONFIGURATION PREPARE message, the DRNS may indicate which TTI switching Mode it supports in the Fast TTI switching Mode Supported IE in the E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – E-DCH MAC-d Flow Addition:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes an E-DCH MAC-d Flows To Add IE, then the DRNS shall use this information to add the indicated E-DCH MAC-d flows.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information IE in the E-DCH MAC-d Flows To Add IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH MAC-d Flows To Add IE, then:]
-	[FDD – The DRNS may use the Traffic Class IE for a specific E-DCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the E-DCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flows To Add IE, the DRNS shall use this information to optimise MAC-e scheduling decisions.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the UE Aggregate Maximum Bit Rate Enforcement Indicator IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flows To Add IE, the DRNS shall, if supported, consider the data of the related E-DCH Logical Channel for UE Aggregate Maximum Bit Rate Enforcement.]
[FDD – E-DCH MAC-d Flow Deletion:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes an E-DCH MAC-d Flows To Delete IEs, then the DRNS shall use this information to delete the indicated E-DCH MAC-d flows. When an E-DCH MAC-d flow is deleted, all its associated configuration shall also be removed.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes an E-DCH MAC-d Flows To Delete IE requesting the deletion of all remaining E-DCH MAC-d flows for the UE Context, then the DRNC shall delete the E-DCH configuration from the UE Context and release the E-DCH resources.] 
[FDD – Additional E-DCH Setup:]
[FDD – If the Additional E-DCH Cell Information RL Reconf Prep IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of E-DCH On Secondary UL Frequency is “Setup”, then the Additional E-DCH Cell Information Setup IE defines the new configuration and then:] 
-	[FDD – If the C-ID IE is included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE the C-ID IE indicates the cell in which the additional E-DCH shall be setup.]
-	[FDD – The DRNS shall setup the Additional E-DCH on the secondary uplink frequency and setup the requested Additional E-DCH resources on the Radio Links and in the cells indicated by the E-DCH Additional RL ID IE and the C-ID IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE.]
-	[FDD – If the C-ID IE is not included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE the E-DCH Additional RL ID IE indicates the existing RL on which the Additional E-DCH shall be setup.]
-	[FDD – The DRNS shall setup the additional E-DCH on the Radio Links indicated by the E-DCH Additional RL ID IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE.]
-	[FDD - The DRNS shall, if supported, use the Dual Cell E-DCH Operation Enhancements Information IE for the Secondary uplink frequency if it is included in the Additional E-DCH FDD Information IE in the Additional E-DCH FDD Setup Information IE.]
-	[FDD – The DRNS shall use for the non cell specific Radio Link related parameters and non cell specific E-DPCH, UL DPCH, E-DCH and F-DPCH parameters the same values as for the corresponding cell of the Primary uplink frequency.]
-	[FDD – If the UL SIR Target IE in the UL DPCH Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE and/or the DL Power Balancing Information IE and/or the Minimum Reduced E-DPDCH Gain Factor IE in the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE are present, the DRNS shall use the information in the same same way as for the information used on Primary uplink frequency.] 
-	[FDD – If the Secondary UL Frequency Activation State IE is present in the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE, the DRNS shall use the information as initial activation state of the Radio Links on the secondary uplink frequency.]
-	[FDD – If the Initial DL Tx Power IE, the Primary CPICH Ec/No IE, the E-AGCH Power Offset IE, the E-RGCH Power Offset IE and/or the E-HICH Power Offset IE is included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If the Enhanced Primary CPICH Ec/No IE is included in the Multicell E-DCH RL Specific Information IE in the Additional E-DCH Secondary RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If the F-DPCH Slot Format Support Request IE in the F-DPCH Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE is included, the DRNS shall configure the concerned UE Context for F-DPCH Slot Format operation according to TS 25.211 [8] and include the F-DPCH Slot Format IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RL Reconf IE in the RADIO RECONFIGURATION READY message. If the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE includes the F-DPCH Slot Format IE, the DRNS may use the F-DPCH Slot Format IE to determine the F-DPCH slot format.]
-	[FDD – If the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the E-DCH Maximum Bitrate IE , the E-DCH Minimum Set E-TFCI IE, the E-DCH Processing Overload Level IE, the Implicit Grant handling IE, the Minimum TEBS threshold IE and/or the DTX Information2 IE are present in the Additional E-DCH FDD Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If activation of power balancing for the Additional E-DCH RL by the RADIO LINK RECONFIGURATION PREPARE message is supported by the DRNS, the DRNS shall include the DL Power Balancing Activation Indicator IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message.] 
-	[FDD – For each Additional E-DCH RL not having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall set the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message to a value that uniquely identifies the RL as a RL Set within the UE Context. The generation of E-HICH related information for Additional E-DCH RLs in different RL Sets shall not be common.]
-	[FDD – For all Additional E-DCH RLs having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall assign to each Additional E-DCH RL the same value for the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message. This value shall uniquely identify these Additional E-DCH RLs as members of the same RL Set within the UE Context. The generation of E-HICH information for all Additional E-DCH RLs in a RL Set shall be common.]
-	[FDD – For each Additional E-DCH RL which has or can have a common generation of E-RGCH information with another Additional E-DCH RL (current or future) when the DRNS would contain the Additional E-DCH serving RL, the DRNS shall set a same value to the E-DCH RL Set ID IE for the Additional E-DCH RL in the Additional E-DCH FDD Information Response IE in the AdditionalE-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – For every additional E-DCH RL indicated in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE the DRNS may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNS may include the corresponding E-RGCH Signature Sequence IE for each Additional E-DCH RL in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the AdditionalE-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message and if DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE, then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.] 
-	[FDD – If the Additional Serving E-DCH Radio Link is configured in the DRNS, then:]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the corresponding RL and include these E-RNTI identifiers and the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNS may include in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the Additional serving E-DCH RL and may include the Default Serving Grant in DTX Cycle 2 IE.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If Primary CPICH is not to be used as a Phase Reference for this Radio Link on the secondary UL frequency, the DRNS shall include the Primary CPICH Usage For Channel Estimation IE set to the value “Primary CPICH shall not be used” in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If Secondary CPICH may be used as a Phase Reference for this Radio Link on the secondary UL frequency, the DRNS shall include the Secondary CPICH Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message. If the DRNS doesn’t include the Secondary CPICH Information IE, it shall not include the Primary CPICH Usage For Channel Estimation IE set to the value “Primary CPICH shall not be used”.]
[FDD – Additional E-DCH Configuration Change]
[FDD – If the Additional E-DCH Cell Information RL Reconf Prep IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of E-DCH On Secondary UL Frequency is “Configuration Change”, then the Additional E-DCH Cell Information Configuration Change IE defines the new configuration and then:]
-	[FDD – If the UL Scrambling Code IE and/or the UL SIR Target IE are present in the UL DPCH Information IE in the Additional E-DCH Configuration Change Information IE and/or id the Minimum Reduced E-DPDCH Gain Factor IE is present in the Multicell E-DCH Information IE in the Additional E-DCH Configuration Change Information IE, the DRNS shall use the information in the same way as for the information that is used on the Primary uplink frequency.]
-	[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the F-DPCH Information IE in the Additional E-DCH Configuration Change Information IE, then:]
-	[FDD – The DRNS shall configure the concerned UE Context to use F-DPCH in the downlink in the new configuration.]
-	[FDD – If the F-DPCH Information IE includes the F-DPCH Slot Format Support Request IE, then the DRNS shall configure the concerned UE Context for F-DPCH Slot Format operation according to TS 25.211 [8] and include the F-DPCH Slot Format IE in the Additional E-DCH FDD Information Response IE for new RLs on the secondary UL frequency or in the Additional Modified E-DCH FDD Information Response IE for modified RLs in the RADIO LINK RECONFIGURATION READY message. If the Multicell E-DCH Information IE in the Additional E-DCH Configuration Change Information IE includes the F-DPCH Slot Format IE, the DRNS may use the F-DPCH Slot Format IE to determine the F-DPCH slot format.]
-	[FDD – If the Dual Cell E-DCH Operation Enhancements Information IE is present in the Additional E-DCH FDD Information IE in the Additional E-DCH FDD Information To Modify IE in the Additional E-DCH Configuration Change Information IE, the DRNS shall, if supported, use the information for the Secondary uplink frequency.]
[FDD – Additional E-DCH RL Addition:]
[FDD – If the Additional E-DCH RL Specific Information To Add IE is present in the Additional E-DCH Configuration Change Information IE, then:]
-	[FDD – The DRNS shall setup the E-DCH resources, as requested or as configured in the UE context, on the Radio Links indicated by the E-DCH Additional RL ID IE. Non cell specific Radio Link related parameters and non cell specific E-DPCH, UL DPCH, E-DCH and F-DPCH parameters shall take the same values as for the corresponding cell of the Primary uplink frequency.]
-	[FDD – If the E-AGCH Power Offset IE, the E-RGCH Power Offset IE, the E-HICH Power Offset IE is included, the DRNS shall use the information in the same way as for information is used on the Primary uplink frequency.]
-	[FDD – If the power balancing is active with the Power Balancing Adjustment Type of the UE Context set to “Individual” in the existing Additional E-DCH RL(s) and the RADIO LINK RECONFIGURATION PREPARE message includes the DL Reference Power IE in the Multicell E-DCH RL Specific Information IE, the DRNS shall activate the power balancing and use the DL Reference Power IE for the power balancing procedure in the new Additional RL(s), if activation of power balancing by the RADIO LINK RECONFIGURATION PREPARE message at RL addition on secondary UL frequency is supported, according to subclause 8.3.15. In this case, the DRNS shall include the DL Power Balancing Activation Indicator IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message. If the DRNS starts the DL transmission and the activation of the power balancing at the same CFN, the initial power of the power balancing, i.e. Pinit shall be set to the power level which is calculated based on the following IEs (if received): Primary CPICH Ec/No IE or the Enhanced Primary CPICH Ec/No IE in the Multicell E-DCH RL Specific Information IE or to the power level which is calculated based on the power relative to the Primary CPICH power used by the existing Additional RLs.]
-	[FDD – For each Additional E-DCH RL not having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall set the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message to a value that uniquely identifies the RL as a RL Set within the UE Context. The generation of E-HICH related information for Additional E-DCH RLs in different RL Sets shall not be common.]
-	[FDD – For all Additional E-DCH RLs having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall assign to each Additional E-DCH RL the same value for the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message. This value shall uniquely identify these Additional E-DCH RLs as members of the same RL Set within the UE Context. The generation of E-HICH information for all Additional E-DCH RLs in a RL Set shall be common.]
-	[FDD – For each Additional E-DCH RL which has or can have a common generation of E-RGCH information with another Additional E-DCH RL (current or future) when the DRNS would contain the Additional E-DCH serving RL, the DRNS shall set a same value to the E-DCH RL Set ID IE for the Additional E-DCH RL in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message] 
-	[FDD – For every additional E-DCH RL indicated in the Additional E-DCH RL Specific Information To Add IE, the DRNS may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNS may include the corresponding E-RGCH Signature Sequence IE in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message and if DRNS has no valid data for the E-RGCH/ E-HICH Channelisation Code IE, then it shall insert the E-RGCH/ E-HICH Channelisation Code Validity Indicator IE to indicate that the E-RGCH/ E-HICH Channelisation Code IE contains invalid data.]
-	[FDD – If the Primary CPICH Ec/No IE or the Primary CPICH Ec/No IE and the Enhanced Primary CPICH Ec/No IE in the Multicell E-DCH RL Specific Information IE measured by the UE are included for a RL in the RADIO LINK RECONFIGURATION PREPARE message, the DRNS shall use this in the calculation of the Initial DL TX Power for this additional RL. If the Primary CPICH Ec/No IE is not present, the DRNS shall set the Initial DL TX Power based on the power relative to the Primary CPICH power used by the existing RLs.]
[FDD – Additional E-DCH RL Modification:] 
[FDD – If the Additional E-DCH RL Specific Information To Modify IE is present in the Additional E-DCH Configuration Change Information IE, then the RL indicated by the E-DCH Additional RL ID IE indicates the RL on which E-DCH resources shall be modified:]
-	[FDD – If the E-AGCH Power Offset IE, the E-RGCH Power Offset IE, the E-HICH Power Offset IE, and/or the E-DCH DL Control Channel Grant IE in the Multicell E-DCH RL Specific Information IE is included, the DRNS shall use the information in the same way as for the information used on the Primary uplink frequency.]
-	[FDD – If the DL Reference Power IEs is included in the Multicell E-DCH RL Specific Information IE and power balancing is active, DRNS shall apply DL power Control in the same way as defined for the Primary uplink frequency.]
-	[FDD – If updating of power balancing parameters by the RADIO LINK RECONFIGURATION PREPARE message is supported by the DRNS, the DRNS shall include the DL Power Balancing Updated Indicator IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE for each affected RL in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the Phase Reference Update Indicator IE is included in the Multicell E-DCH RL Specific Information IE, DRNS shall modify the channel estimation information according to TS 25.214 [10] subclause 4.3.2.1 and set the value(s) in Primary CPICH Usage For Channel Estimation IE and/or Secondary CPICH Information Change IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message accordingly.]
-	[FDD – If the RADIO LINK RECONFIGURATION READY message includes the Primary CPICH Usage For Channel Estimation IE and/or the Secondary CPICH Information Change IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE, the DRNS shall avoid the new configuration in which neither the Primary CPICH nor the Secondary CPICH is used as a Phase Reference for this Radio Link.]
[FDD – Additional E-DCH Modification:] 
[FDD – If the Additional E-DCH FDD Information To Modify IE is present in the Additional E-DCH Configuration Change Information IE, then:]
-	[FDD – If the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the E-DCH Minimum Set E-TFCI IE and/or the E-DCH Maximum Bitrate IE is included, the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the E-DCH Processing Overload Level IE is included, then if the DRNS could not decode the E-DPCCH/E-DPDCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of processing issue, the DRNS shall notify the RNC by initiating the Radio Link Failure procedure.]
-	[FDD – If the DL TX power upper or lower limit has been re-configured for the secondary UL frequency, the DRNS shall include the new value(s) in the Maximum DL TX Power IE and Minimum DL TX Power IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNS decides the maximum and minimum SIR for the uplink of the Radio Link(s), and the DRNS shall include in the RADIO LINK RECONFIGURATION READY message the Maximum Uplink SIR IE and Minimum Uplink SIR IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE for each Radio Link when these values are changed.] 
-	[FDD – If the Additional E-DCH serving RL is in this DRNS, the DRNS may choose to change the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission. In this case the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE in the Additional Modified E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the CQI Feedback Cycle2 k IE or the CQI Cycle Switch Timer IE is included in the HS-DSCH Information To Modify IE, then the DRNS may use the indicated CQI Feedback Cycle2 k value, the CQI Cycle Switch Timer in the new configuration.]
-	[FDD – If the Implicit Grant handling IE is included, the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the Minimum TEBS threshold IE is included, the DRNS shall use this information for the related resource allocation operation.]
[FDD – Additional E-DCH Removal]
[FDD – If the Additional E-DCH Cell Information RL Reconf Prep IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of E-DCH On Secondary UL Frequency is “Removal”, then the additional E-DCH on the secondary uplink frequency shall be removed.]
[FDD – E-DCH decoupling operation]
[FDD – If the E-DCH Decoupling Indication IE is present in the RADIO LINK RECONFIGURATION PREPARE message, then the DRNS shall if supported use this indication for the E-DCH decoupling operation.]
[FDD – Radio Links without DPCH/F-DPCH operation]
[FDD – If the Radio Links without DPCH/F-DPCH Indication IE is present in the RADIO LINK RECONFIGURATION PREPARE message:]
-	[FDD – The DRNS shall if supported start operation with Radio Links without DPCH/F-DPCH.]
[1.28Mcps TDD – Uplink Synchronisation Parameters LCR:]
[1.28Mcps TDD –If the UL Synchronisation Parameters LCR IE is present, the DRNC shall use the indicated values of Uplink synchronisation stepsize IE and Uplink synchronisation frequency IE when evaluating the timing of the UL synchronisation.]
[1.28Mcps TDD – Shared physical channels Synchronisation Detection:]
[1.28Mcps TDD – If HS-PDSCH and E-PUCH are configured but no DPCH is configured for the UE, then the DRNS shall include the Out-of-sync Detection Window IE in the HS-DSCH TDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[1.28Mcps TDD – Uplink Timing Advance Control LCR:]
[1.28Mcps TDD – The DRNC shall include the Uplink Timing Advance Control LCR IE in the RADIO LINK RECONFIGURATION READY message, if the Uplink Timing Advance Control parameters have been changed.]
[1.28Mcps TDD – PowerControl GAP:]
[1.28Mcps TDD – If applied in the DRNS, the DRNC may include the PowerControl GAP IE in the RADIO LINK RECONFIGURATION READY message.]
[1.28Mcps TDD – E-UTRAN Inter-RAT measurement:]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Need for Idle Interval IE set to “TRUE”, if supported, the DRNC shall include the Idle Interval Information IE in the RADIO LINK RECONFIGURATION READY message. If the Need for Idle Interval IE is set to “FALSE”, the DRNC shall delete the configuration related to E-UTRAN Inter-RAT measurement ]
[1.28Mcps TDD – RNTI Allocation Indicator:]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the RNTI Allocation Indicator IE, if supported, the DRNS may allocate an E-RNTI and/or an H-RNTI for UE to use in CELL_FACH state.] 
[1.28Mcps TDD – Inter-frequency/ Inter-RAT measurement:]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the DCH Measurement Type indicator IE, if supported, the DRNS shall include the Measurement purpose IE and the Measurement occasion pattern sequence parameters IE in the DCH Measurement Occasion Information IE in the RADIO LINK RECONFIGURATION READY message to configure the measurement occasion pattern(s) indicated by the DCH Measurement Type indicator IE.]
[1.28Mcps TDD – Non-rectangular resource operation:]
[1.28Mcps TDD - If the RADIO LINK RECONFIGURATION PREPARE message contains the UE support of non-rectangular resource allocation IE, the DRNS shall, if supported, use this information to determine whether includes the Non-rectangular resource allocation indicator IE and the Non-rectangular resource timeslot set IE or not.]
[TDD – DSCH RNTI Addition/Deletion:]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the PDSCH-RL-ID IE, then the DRNS shall use it as the new RL identifier for PDSCH and PUSCH.]
-	[TDD – If the indicated PDSCH RL ID is in the DRNS and there was no DSCH-RNTI allocated to the UE Context, the DRNC shall allocate a DSCH-RNTI to the UE Context and include the DSCH-RNTI IE in the RADIO LINK RECONFIGURATION READY message.]
-	[TDD – If the indicated PDSCH RL ID is in the DRNS and there was a DSCH-RNTI allocated to the UE Context, the DRNC shall allocate a new DSCH-RNTI to the UE Context, release the old DSCH-RNTI and include the DSCH-RNTI IE in the RADIO LINK RECONFIGURATION READY message.]
-	[TDD – If the indicated PDSCH RL ID is not in the DRNS and there was a DSCH-RNTI allocated to the UE Context, the DRNC shall release this DSCH-RNTI.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes a DSCHs To Delete IE and/or a USCHs To Delete IE which results in the deletion of all DSCH and USCH resources for the UE Context, then the DRNC shall release the DSCH-RNTI allocated to the UE Context, if there was one.]
[FDD – Phase Reference Handling:]
[FDD – If Primary CPICH usage for channel estimation information has been reconfigured, the DRNC shall include the Primary CPICH Usage For Channel Estimation IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – If Secondary CPICH information for channel estimation has been reconfigured, the DRNC shall include the Secondary CPICH Information Change IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes Phase Reference Update Indicator IE, DRNC shall modify the channel estimation information according to TS 25.214 [10] subclause 4.3.2.1 and set the value(s) in Primary CPICH Usage For Channel Estimation IE and/or Secondary CPICH Information Change IE in the RADIO LINK RECONFIGURATION READY message accordingly.]
[FDD – If the RADIO LINK RECONFIGURATION READY message includes the Primary CPICH Usage For Channel Estimation IE and/or the Secondary CPICH Information Change IE, the DRNC shall avoid the new configuration in which neither the Primary CPICH nor the Secondary CPICH is used as a Phase Reference for this Radio Link.]
[FDD – Fast Reconfiguration:]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Fast Reconfiguration Mode IE, the DRNS shall, if supported, and if it is possible to base the synchronization of the reconfiguration on the detection of the change in the uplink scrambling code for this reconfiguration, include the Fast ReconfigurationPermission IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – UL DPCCH2 Setup:]
[FDD - If the UL DPCCH2 Reconfiguration IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of UL DPCCH2 is "Setup", then:]
-	[FDD – if the serving HS-DSCH RL is in the DRNS then the DRNS shall configure the concerned DRNS Communication Context to use a second F-DPCH in the downlink, i.e. with transmission of only the TPC field and a DPCCH2 in the uplink, i.e. with the transmission of only the second pilot and the TPC field on the Serving HS-DSCH Radio Link and the DRNS shall activate UL DPCCH2 operation for the radio link according to the information provided in the IE according to ref TS 25.214 [10].]
-	[FDD – if the serving HS-DSCH is not in the DRNS then the DRNS may consider the concerned DRNS Communication Context to use the UL DPCCH2 configuration on the Serving HS-DSCH Radio Link.]
-	[FDD – If the UL DPCCH2 Reconfiguration IE includes the Extended E-DPCCH Power Offset IE, the DRNS shall use the value when the new configuration is being used.]
[FDD – UL DPCCH2 Modification:]
[FDD - If the UL DPCCH2 Reconfiguration IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of UL DPCCH2 is "Configuration Change", then: the UL DPCCH2 Information To Modify IE defines the new configuration and then:]
-	[FDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the F-DPCH info IE in the UL DPCCH2 Information To Modify IE and if the serving HS-DSCH RL is in the DRNS, then the DRNS shall use this value to update the second F-DPCH for the concerned Node B Communication Context.]
-	[FDD – If the UL DPCCH2 Reconfiguration IE includes the Extended E-DPCCH Power Offset IE, the DRNS shall use the value when the new configuration is being used.]
[FDD – UL DPCCH2 Removal:]
[FDD - If the UL DPCCH2 Reconfiguration IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of UL DPCCH2 is "Removal", then the configured UL DPCCH2 for the concerned Node B Communication Context shall be removed.]
[FDD – Downlink TPC enhancements Setup:]
[FDD - If the Downlink TPC enhancements Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of Downlink TPC enhancements is "Setup", then:]
-	[FDD –The DRNS shall, if supported, use the Decimation factor for primary frequency IE and/or the Decimation factor for secondary frequency IE to configure all the radio links using F-DPCH on the related frequency with power control Algorithm 3.]
[FDD - If the TPC slot position in the RL Information is included in the RADIO LINK RECONFIGURATION PREPARE message, the DRNS shall, if supported, use it for power control Algorithm 3.]
[FDD - If the TPC slot position in the Additional E-DCH Cell Information Setup is included in the RADIO LINK RECONFIGURATION PREPARE message, the DRNS shall, if supported, use it for power control Algorithm 3.]
[FDD – Downlink TPC enhancements Modification:]
[FDD - If the Downlink TPC enhancements Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of Downlink TPC enhancements is "Configuration Change", then: the Downlink TPC enhancements Information To Modify IE defines the new configuration and then:]
-	[FDD - The DRNS shall, if supported, use the Decimation factor for primary frequency IE and/or the Decimation factor for secondary frequency IE to reconfigure all the radio links using F-DPCH on the related frequency with power control Algorithm 3.]
[FDD - If the TPC slot position in the RL Information is included in the RADIO LINK RECONFIGURATION PREPARE message, the DRNS shall, if supported, use it for power control Algorithm 3.]
[FDD - If the TPC slot position in the Additional E-DCH Cell Information Configuration Change is included in the RADIO LINK RECONFIGURATION PREPARE message, the DRNS shall, if supported, use it for power control Algorithm 3.]
[FDD – Downlink TPC enhancements Removal:]
[FDD - If the Downlink TPC enhancements Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Setup, Configuration Change or Removal of Downlink TPC enhancements is "Removal", then the configured power control Algorithm 3 for the concerned Node B Communication Context shall be removed.]
[TDD – Intra- DRNS Serving E-DCH Radio Link Change:]
[TDD- If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH Serving RL IE, this indicates the new Serving E-DCH Radio Link:]
-	[TDD – In the new configuration the DRNS shall de-allocate the E-DCH resources of the old Serving E-DCH Radio Link and allocate the E-DCH resources for the new Serving E-DCH Radio Link.]
-	[3.84Mcps TDD – The DRNS shall allocate E-AGCH parameters corresponding to the E-DCH and include the E-AGCH Specific Information Response IE in the E-DCH TDD Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[1.28Mcps TDD – The DRNS shall allocate E-AGCH parameters and E-HICH parameters corresponding to the E-DCH and include the E-AGCH Specific Information Response IE and the E-HICH Specific Information Response IE in the E-DCH Information Response 1.28Mcps IE in the RADIO LINK RECONFIGURATION READY message.]
-	[7.68Mcps TDD – The DRNS shall allocate E-AGCH parameters corresponding to the E-DCH and include the E-AGCH Specific Information Response 7.68Mcps IE in the E-DCH TDD Information Response 7.68Mcps IE in the RADIO LINK RECONFIGURATION READY message.]
-	[TDD – If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
[TDD – E-PUCH Handling:]
[3.84Mcps TDD and 7.68Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes an E-PUCH Information IE, the DRNS shall apply the parameters to the new configuration.]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes an E-PUCH Information LCR IE, the DRNS shall apply the parameters to the new configuration.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes an E-TFCS Information IE, the DRNS shall apply the beta parameters to the new configuration.]
[3.84Mcps TDD – E-DCH Setup:]
[3.84Mcps TDD – the radio link may be reconfigured to support E-DCH by including the appropriate E-DCH information elements: E-DCH Serving RL IE, E-PUCH Information IE, E-TFCS Information TDD IE, E-DCH MAC-d Flows to Add IE and E-DCH TDD Information IE.]
[1.28Mcps TDD – E-DCH Setup:]
[1.28cps TDD – the radio link may be reconfigured to support E-DCH by including the appropriate E-DCH informationelements: E-DCH Serving RL IE, E-PUCH Information LCR IE, E-TFCS Information TDD IE, E-DCH MAC-d Flows to Add IE and E-DCH TDD Information LCR IE.]
[1.28Mcps TDD - If the UE TS0 Capability LCR IE in the UE Capabilities Information IE in the HS-DSCH Information To Modify IE is not present, or if the UE TS0 Capability LCR IE in the UE Capabilities Information IE in the HS-DSCH Information IE is not present, and if the RADIO LINK RECONFIGURATION PREPARE message includes the UE TS0 Capability LCR IE in the E-DCH TDD Information LCR IE, the DRNS can use this information to allocate the downlink resources for the UE according to TS 25.306 [42].]
[7.68Mcps TDD – E-DCH Setup:]
[7.68Mcps TDD – the radio link may be reconfigured to support E-DCH by including the appropriate E-DCH information elements: E-DCH Serving RL IE, E-PUCH Information IE, E-TFCS Information TDD IE, E-DCH MAC-d Flows to Add IE and E-DCH TDD Information 7.68Mcps IE.]
[TDD – E-DCH MAC-d Flow Addition/Deletion:]
[TDD- If the RADIO LINK RECONFIGURATION PREPARE message includes any E-DCH MAC-d Flows To Add or E-DCH MAC-d Flows To Delete IEs, then the DRNS shall use this information to add/delete the indicated E-DCH MAC-d flows. When an E-DCH MAC-d flow is deleted, all its associated configuration data shall also be removed.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information TDD IE in the E-DCH MAC-d Flows To Add IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel.]
[TDD- If the RADIO LINK RECONFIGURATION PREPARE message includes an E-DCH MAC-d Flows To Delete IE requesting the deletion of all remaining E-DCH MAC-d flows for the UE Context, then the DRNS shall delete the E-DCH configuration from the UE Context and release the E-DCH resources.]
[TDD- If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH MAC-d Flows To Add IE, then:]
-	[TDD- If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH MAC-d Flows To Add IE, the DRNS shall use this information to optimise MAC-e scheduling decisions.]
-	[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the MAC-es Maximum Bit Rate LCR IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flows To Add IE, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
[3.84Mcps TDD – E-DCH Non-scheduled allocations:]
[3.84Mcps TDD – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information TDD IE in the E-DCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[1.28Mcps TDD – E-DCH Non-scheduled allocations:]
[1.28Mcps – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information LCR TDD IE in the E-DCH Information Response 1.28Mcps IE in the RADIO LINK RECONFIGURATION READY message.]
[7.68Mcps TDD – E-DCH Non-scheduled allocations:]
[7.68Mcps TDD – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information 7.68Mcps TDD IE in the E-DCH Information Response 7.68Mcps IE in the RADIO LINK RECONFIGURATION READY message.]
[TDD – E-DCH Modification:]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information IE in the E-DCH TDD Information To Modify IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel.]
[TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH MAC-d PDU Size Format IE in the E-DCH TDD Information To Modify IE, then the DRNS shall use the indicated format in user plane frame structure for E-DCH channels (TS 25.425 [32]) and MAC (TS 25.321 [41]).]
[3.84Mcps TDD – E-DCH Modification:]
[3.84Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH TDD Information IE, then:]
-	[3.84Mcps TDD – If the E-DCH TDD Information IE includes the E-DCH TDD Maximum Bitrate IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.] 
-	[3.84Mcps TDD – If the E-DCH TDD Information IE includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[3.84Mcps TDD – If the E-DCH TDD Information IE includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
[1.28Mcps TDD – E-DCH Modification:]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH TDD Information LCR IE, then:]
-	[1.28Mcps TDD – If the E-DCH TDD Information LCR IE includes the E-DCH Physical Layer Category LCR IE or Extended E-DCH Physical Layer Category LCR IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[1.28Mcps TDD – If the E-DCH TDD Information LCR IE includes the E-DCH Processing Overload Level IE for an E-DCH, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.] 
-	[1.28Mcps TDD – If the E-DCH TDD Information LCR IE includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
-	[1.28Mcps TDD – If the E-DCH TDD Information LCR IE includes the Maximum Number of Retransmission for Scheduling Info LCR IE and the E-DCH Retransmission timer for Scheduling Info LCR IE, then the DRNS shall use these parameters for the transmission of scheduling information without any MAC-d PDUs.]
-	[1.28Mcps TDD – If the E-DCH TDD Information LCR IE includes the Multi-Carrier E-DCH Physical Layer Category LCR IE, the DRNS shall use this information for the related resource allocation operation, and when applicable, for multi-carrier E-DCH scheduling.]
-	[1.28Mcps TDD - If the UE TS0 Capability LCR IE in the UE Capabilities Information IE in the HS-DSCH Information To Modify IE is not present, or if the UE TS0 Capability LCR IE in the UE Capabilities Information IE in the HS-DSCH Information IE is not present, and if the RADIO LINK RECONFIGURATION PREPARE message includes the UE TS0 Capability LCR IE in the E-DCH TDD Information LCR IE, the DRNS can use this information to allocate the downlink resources for the UE according to TS 25.306 [42].]
[7.68Mcps TDD – E-DCH Modification:]
[7.68Mcps TDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH TDD Information 7.68Mcps IE, then:]
-	[7.68Mcps TDD – If the E-DCH TDD Information 7.68Mcps IE includes the E-DCH TDD Maximum Bitrate 7.68Mcps IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.] 
-	[7.68Mcps TDD – If the E-DCH TDD Information 7.68Mcps IE includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[7.68Mcps TDD – If the E-DCH TDD Information 7.68Mcps IE includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
[TDD- If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH TDD Information To Modify IE, then:]
-	[TDD- If the E-DCH TDD Information To Modify IE contains a E-DCH MAC-d Flow Specific Information IE which includes the Allocation/Retention Priority IE, the DRNS shall apply the new Allocation/Retention Priority to this E-DCH in the new configuration according to Annex A.]
	[TDD- If the E-DCH TDD Information To Modify IE contains a TNL QoS IE for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[TDD- If the E-DCH TDD Information To Modify IE includes the Maximum Number of Retransmissions for E-DCH IE for an E-DCH MAC-d flow then the DRNS shall use this information to report if the maximum number of retransmissions has been exceeded.]
-	[1.28Mcps TDD – If the E-DCH TDD Information To Modify IE includes the E-DCH MAC-d Flow Retransmission Timer IE for an E-DCH MAC-d flow then the DRNS shall use this information to set the retransmission timer.]
-	[TDD– If the TNL QoS IE is included in the E-DCH TDD Information to Modify IE for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[TDD- If the E-DCH TDD Information To Modify IE includes the E-DCH HARQ Power Offset TDD IE for an E-DCH MAC-d flow the DRNS shall use this new power offset value.]
-	[TDD- If the E-DCH TDD Information To Modify IE includes the E-DCH MAC-d Flow Multiplexing List IE for an E-DCH MAC-d flow the DRNS shall use this information for the related resource allocation operation.]
-	[TDD- If the E-DCH TDD Information To Modify IE contains the E-DCH Grant Type IE, the DRNS shall treat the E-DCH MAC-d flow as Scheduled or Non-scheduled accordingly.]
-	[TDD- If the E-DCH TDD Information To Modify IE includes the E-DCH Logical Channel To Add or E-DCH Logical Channel To Delete IEs, the DRNS shall use this information to add/delete the indicated logical channels. When a logical channel is deleted, all its associated configuration data shall also removed.]
-	[TDD- If the E-DCH TDD Information To Modify IE includes the E-DCH Logical Channel To Modify IE, the DRNS shall use this information to modify the indicated logical channels:]
-	[TDD – If the E-DCH Logical Channel To Modify IE includes Scheduling Priority Indicator IE, the DRNS shall apply the values in the new configuration.]
-	[TDD – If the E-DCH Logical Channel To Modify IE includes Scheduling Information IE, the DRNS shall apply the values in the new configuration.]
-	[TDD – If the E-DCH Logical Channel To Modify IE includes MAC-es Guaranteed Bit Rate IE, the DRNS shall apply the values in the new configuration.]
-	[TDD – If the E-DCH Logical Channel To Modify IE includes E-DCH DDI Value IE, the DRNS shall apply the values in the new configuration.]
-	[1.28Mcps TDD – If the E-DCH Logical Channel To Modify IE includes MAC-es Maximum Bit Rate LCR IE, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[TDD – If the E-DCH Logical Channel To Modify IE includes the Maximum MAC-d PDU Size Extended IE, the DRNS shall apply the value in the new configuration.]
-	[TDD– If the E-DCH TDD Information To Modify IE includes the MAC-e Reset Indicator IE, then the DRNS shall use this value to determine whether MAC-e (or MAC-i) Reset is performed in the UE for sending the HARQ Failure Indication.]
[1.28Mcps TDD – Multi-Carrier E-DCH Continue:]
[1.28Mcps TDD - If the Multi-Carrier E-DCH Information Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Continue, Setup or Change is "Continue", then the current Multi-Carrier E-DCH configuration shall not be changed.]
[1.28Mcps TDD – Multi-Carrier E-DCH Setup:]
[1.28Mcps TDD - If the Multi-Carrier E-DCH Information Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Continue, Setup or Change is "Setup", then the Multi-Carrier E-DCH Information LCR IE defines the new configuration and then:]
-	[1.28Mcps TDD - The DRNS shall use the Multi-Carrier E-DCH Transport Bearer Mode LCR IE to decide the transport bearer mode in the new configuration.]
-	[1.28Mcps TDD - The DRNS shall setup the requested E-DCH resource on the uplink frequecies indicated by the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE.]
[1.28Mcps TDD – Multi-Carrier E-DCH Change:]
[1.28Mcps TDD - If the Multi-Carrier E-DCH Information Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Continue, Setup or Change is "Change", then: the Multi-Carrier E-DCH Information LCR IE defines the new configuration and then:]
-	[1.28Mcps TDD - If the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE is different from current configured frequencies, then the DRNS shall setup the E-DCH resources, as requested in the DRNS Communication Context, on the uplink frequecies indicated by the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE.]
-	[1.28Mcps TDD - If the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE is the same as any current configured frequency, then the DRNS shall reconfigure the E-DCH resources, as requested or as configured in the DRNS Communication Context, on the uplink frequecies indicated by the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE.]
[1.28Mcps TDD - If the Multi-Carrier E-DCH Information Reconf IE is present in the RADIO LINK RECONFIGURATION PREPARE message and the choice of Continue, Setup or Change is "Change" and the Removal UL Multi-Carrier info IE is included, then the DRNS shall remove the corresponding E-DCH configuration on the uplink frequencies indicated by the UARFCN IE in the Removal UL Multi-Carrier info IE.]
General
If the requested modifications are allowed by the DRNC and the DRNC has successfully reserved the required resources for the new configuration of the Radio Link(s), it shall respond to the SRNC with the RADIO LINK RECONFIGURATION READY message. When this procedure has been completed successfully there exists a Prepared Reconfiguration, as defined in subclause 3.1.
If the RADIO LINK RECONFIGURATION PREPARE message includes the Transport Layer Address IE and Binding ID IE in the [TDD – DSCHs To Modify IE, DSCHs To Add IE, USCHs To Modify IE, USCHs To Add IE], HS-DSCH Information IE, HS-DSCH Information To Modify IE, HS-DSCH MAC-d Flows To Add IE, [FDD – RL Specific E-DCH Information IE,] [TDD –E-DCH MAC-d Flows to Add IE,] [TDD – E-DCH TDD Information to Modify IE,] or in the RL Specific DCH Information IEs, the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for any Transport Channel [FDD – for which the Transport Bearer Not Requested Indicator IE is not included], HS-DSCH MAC-d flow being added or E-DCH MAC-d flow [FDD – for which the Transport Bearer Not Requested Indicator IE is not included] being added, or any Transport Channel, HS-DSCH MAC-d flow or E-DCH MAC-d flow being modified for which a new transport bearer was requested with the Transport Bearer Request Indicator IE.
The DRNC shall include in the RADIO LINK RECONFIGURATION READY message the Transport Layer Address IE and the Binding ID IE for any Transport Channel [FDD – for which the Transport Bearer Not Requested Indicator IE is not included], HS-DSCH MAC-d flow being added or E-DCH MAC-d flow [FDD – for which the Transport Bearer Not Requested Indicator IE is not included] being added, or any Transport Channel [FDD – for which the Transport Bearer Not Requested Indicator IE was not included], HS-DSCH MAC-d flow or E-DCH MAC-d flow [FDD – for which the Transport Bearer Not Requested Indicator IE was not included] being modified for which a new transport bearer was requested with the Transport Bearer Request Indicator IE. In the case of a set of co-ordinated DCHs requiring a new transport bearer on the Iur interface, the Transport Layer Address IE and the Binding ID IE in the DCH Information Response IE shall be included [FDD – if the Transport Bearer Not Requested Indicator IE is not included for the corresponding DCH,] for only one of the DCHs in the set of co-ordinated DCHs.
[FDD – If the RADIO LINK RECONDIGURATION PREPARE message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer Shall not be Established” for a DCH or an E-DCH MAC-d flow, then the DRNC shall not establish a transport bearer for the concerned DCH or E-DCH MAC-d flow and shall include the Transport Bearer Not Setup Indicator IE for the corresponding DCH or E-DCH MAC-d flow in the RADIO LINK RECONFIGURATION READY message.]
[FDD – If the RADIO LINK RECONDIGURATION PREPARE message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer may not be Established” for a DCH or an E-DCH MAC-d flow and:]
-	[FDD – if the DRNC establishes a transport bearer for the concerned DCH or E-DCH MAC-d flow, the DRNC shall include in the RADIO LINK RECONFIGURATION READY message the Binding ID IE and Transport Layer Address IE for establishment of a transport bearer for the DCH or E-DCH MAC-d flow being established.]
-	[FDD – if the DRNC does not establish a transport bearer for the concerned DCH or E-DCH MAC-d flow, the DRNC shall include the Transport Bearer Not Setup Indicator IE for the corresponding DCH or E-DCH MAC-d flow in the RADIO LINK RECONFIGURATION READY message.]
In the case of a Radio Link being combined with another Radio Link within the DRNS, the Transport Layer Address IE and the Binding ID IE in the DCH Information Response IE shall be included for only one of the combined Radio Links [FDD – if the Transport Bearer Not Requested Indicator IE is not included for this DCH of the Radio Link].
[FDD – In the case of an E-DCH RL being combined with another E-DCH RL within the DRNS, the E-DCH FDD Information Response IE shall be included only for one of the combined E-DCH RLs.] 
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Additional E-DCH Cell Information RL Reconf Prep IE, then:]
-	[FDD – if the Multicell E-DCH Transport Bearer Mode IE for an Additional E-DCH to be Setup is set to “Separate Iur Transport Bearer Mode” the DRNS shall use this mode in the new configuration and apply separate transport bearers for the MAC-d flows.]
-	[FDD – if the Multicell E-DCH Transport Bearer Mode IE for an Additional E-DCH to be Setup is set to “UL Flow Multiplexing Mode” the DRNS shall use this mode in the new configuration and multiplex MAC-d flows on the transport bearers.]
-	[FDD – if Separate Iur Transport Bearer Mode is used in the new configuration, then:]
-	[FDD – the DRNS shall follow the rules defined in this procedure for single carrier mode of operation for establishment of the transport bearer for a MAC-d flow, use the Transport Bearer Not Requested Indicator IE in the RL Specific E-DCH Information IE in the RL Information IE and/or the Transport Bearer Request Indicator IE in the E-DCH FDD Information To Modify IE received for the corresponding Radio Link(s) of the Primary Uplink Frequency to determine the transport bearer configuration in the new configuration for the radio links of the Secondary Uplink Frequency.]
-	[FDD – If the Transport Layer Address IE and Binding ID IE is included for an E-DCH MAC-d flow in the Additional E-DCH MAC-d Flows Specific Information IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE or in the Additional E-DCH RL Specific Information To Add IE and/or the Additional E-DCH RL Specific Information To Modify IE in the Additional E-DCH Configuration Change Information IE in the Additional E-DCH Cell Information Configuration Change IE, then the DRNS may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the concerned E-DCH MAC-d flow. If the DRNS establishes a transport bearer for the concerned E-DCH MAC-d flow the DRNS shall, for establishment of the transport bearer, include in the RADIO LINK RECONFIGURATION READY message in the Additional E-DCH Cell Information Response RLReconf IE the Binding ID IE and Transport Layer Address IE in the Additional E-DCH MAC-d Flow Specific Information Response IE in the Additional E-DCH FDD Information Response IE for new E-DCH radio links on the Secondary UL frequency and/or include the Binding ID IE and Transport Layer Address IE in the Additional E-DCH MAC-d Flow Specific Information Response IE in the Additional Modified E-DCH FDD Information Response IE for radio links on the Secondary UL frequency that has been modified.]
[1.28Mcps TDD - If the RADIO LINK RECONFIGURATION PREPARE message includes the Multi-Carrier E-DCH Information Reconf IE, then:]
-	[1.28Mcps TDD - If the Multi-carrier E-DCH Transport Bearer Mode LCR IE is set to "Separate Iur Transport Bearer Mode" the DRNS shall use this mode in the new configuration and apply separate transport bearers for the MAC-d flows.]
-	[1.28Mcps TDD - If the Multi-Carrier E-DCH Transport Bearer Mode LCR IE is set to "UL Flow Multiplexing Mode" the DRNS shall use this mode in the new configuration and multiplex each MAC-d flow on one transport bearer.]
-	[1.28Mcps TDD - If the choice of Continue, Setup or Change in the the Multi-Carrier E-DCH Information Reconf IE is "Setup" and the Separate Iur transport bearer mode is used in the new configuration, or if the choice of Continue, Setup or Change in the the Multi-Carrier E-DCH Information Reconf IE is "Change" and the Transport Bearer Mode is changed to "Separate Iur Transport Bearer Mode" indicated by Multi-carrier E-DCH Transport Bearer Mode LCR IE, then the DRNS shall include the Binding ID IE and Transport Layer Address IE in the Multi-Carrier E-DCH Information Response LCR IE in the RADIO LINK RECONFIGURATION READY message for establishment of a transport bearer for every E-DCH MAC-d flow being established.]
-	[1.28Mcps TDD - The DRNS shall follow the rules defined in this procedure for single carrier mode of operation for establishment of the transport bearer for a MAC-d flow, use the Transport Bearer Request Indicator IE in the E-DCH TDD Information to Modify IE received for the corresponding Radio Link to determine the transport bearer configuration in the new configuration for the all Uplink Frequencies.]
-	[1.28Mcps TDD - If the E-DCH UL flow multiplexing mode is used in the new configuration and if the Transport Bearer Request Indicator IE is set to " Bearer Requested ", then the DRNS shall include the Binding ID IE and Transport Layer Address IE in the E-DCH TDD Information Response 1.28Mcps IE in the RADIO LINK RECONFIGURATION READY message for establishment of a transport bearer for every E-DCH MAC-d flow being established.]
Any allowed rate for the uplink of a modified DCH provided for the old configuration will not be valid for the new configuration. If the DRNS needs to limit the user rate in the uplink of a DCH due to congestion caused by the UL UTRAN Dynamic Resources (see subclause 9.2.1.79) in the new configuration for a Radio Link, the DRNC shall include in the RADIO LINK RECONFIGURATION READY message the Allowed UL Rate IE in the DCH Information Response IE for this Radio Link.
Any allowed rate for the downlink of a modified DCH provided for the old configuration will not be valid for the new configuration. If the DRNS needs to limit the user rate in the downlink of a DCH due to congestion caused by the DL UTRAN Dynamic Resources (see subclause 9.2.1.79) in the new configuration for a Radio Link, the DRNC shall include in the RADIO LINK RECONFIGURATION READY message the Allowed DL Rate IE in the DCH Information Response IE for this Radio Link.
The DRNS decides the maximum and minimum SIR for the uplink of the Radio Link(s) and the DRNC shall include in the RADIO LINK RECONFIGURATION READY message the Maximum Uplink SIR IE and Minimum Uplink SIR IE for each Radio Link when these values are changed.
[FDD – If the DL TX power upper or lower limit has been re-configured, the DRNC shall include in the RADIO LINK RECONFIGURATION READY message the Maximum DL TX Power IE and Minimum DL TX Power IE respectively. The DRNS shall not transmit with a higher power than indicated by the Maximum DL TX Power IE or lower than indicated by the Minimum DL TX Power IE on any DL DPCH or on the F-DPCH of the RL –except, if the UE Context is configured to use DPCH in the downlink, during compressed mode, when the Pcurr, as described in TS 25.214 [10] subclause 5.2.1.3, shall be added to the maximum DL power for the associated compressed frame.]
[3.84 Mcps TDD and 7.68 Mcps TDD – If the DL TX power upper or lower limit has been re-configured, the DRNC shall include the new value(s) in the Maximum DL TX Power IE and Minimum DL TX Power IE in the RADIO LINK RECONFIGURATION READY message. If the maximum or minimum power needs to be different for particular DCH type CCTrCHs, the DRNC shall include the new value(s) for that CCTrCH in the CCTrCH Maximum DL TX Power IE and CCTrCH Minimum DL TX Power. The DRNS shall not transmit with a higher power than indicated by the appropriate Maximum DL TX Power IE/CCTrCH Maximum DL TX Power IE or lower than indicated by the appropriate Minimum DL TX Power IE/CCTrCH Minimum DL TX Power IE on any DL DPCH within each CCTrCH of the RL.]
[1.28 Mcps TDD – If the DL TX power upper or lower limit has been re-configured, the DRNC shall include the new value(s) in the Maximum DL TX Power IE and Minimum DL TX Power IE in the RADIO LINK RECONFIGURATION READY message. If the maximum or minimum power needs to be different for particular timeslots within a DCH type CCTrCH, the DRNC shall include the new value(s) for that timeslot in the Maximum DL TX Power IE and Minimum DL TX Power within the DL Timeslot Information LCR IE. The DRNS shall not transmit with a higher power than indicated by the appropriate Maximum DL TX Power IE or lower than indicated by the appropriate Minimum DL TX Power IE on any DL DPCH within each timeslot of the RL.]
[TDD – If the [3.84Mcps TDD and 7.68 Mcps TDD – DL Time Slot ISCP Info IE][1.28Mcps TDD – DL Time Slot ISCP Info LCR IE] is present, the DRNS should use the indicated values when deciding the Initial DL TX Power.]
[TDD – If the Primary CCPCH RSCP Delta IE is included, the DRNS shall assume that the reported value for Primary CCPCH RSCP is in the negative range as per TS 25.123 [24], and the value is equal to the Primary CCPCH RSCP Delta IE. If the Primary CCPCH RSCP Delta IE is not included and the Primary CCPCH RSCP IE is included, the DRNS shall assume that the reported value is in the non-negative range as per TS 25.123 [24], and the value is equal to the Primary CCPCH RSCP IE. The DRNS shall use the indicated values when deciding the Initial DL TX Power.]
8.3.4.3	Unsuccessful Operation

Figure 11: Synchronised Radio Link Reconfiguration Preparation procedure, Unsuccessful Operation
If the DRNS cannot reserve the necessary resources for all the new DCHs of a set of co-ordinated DCHs requested to be added, it shall reject the Synchronised Radio Link Reconfiguration Preparation procedure as having failed.
If the requested Synchronised Radio Link Reconfiguration Preparation procedure fails for one or more RLs, the DRNC shall send the RADIO LINK RECONFIGURATION FAILURE message to the SRNC, indicating the reason for failure for each failed radio link in a Cause IE.
[FDD – If the MIMO Activation Indicator IE is included and the Power Offset For S-CPICH for MIMO Request Indicator IE is not included in the HS-DSCH FDD Information IE in the HS-DSCH FDD Information IE in the RADIO LINK RECONFIGURATION PREPARE message or MIMO is activated and the power offset for S-CPICH for MIMO Request indicator has not been configured in the new configuration but MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the setup of the serving HS-DSCH Radio Link, and/or activation of MIMO, shall be reported as failed and the DRNC shall include in the RADIO LINK RECONFIGURATION FAILURE message the Cause IE.]
[FDD – If the MIMO with four transmit antennas Activation Indicator IE or the Dual Stream MIMO with four transmit antennas Activation Indicator IE is included and the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is not included in the HS-DSCH FDD Information IE in the HS-DSCH FDD Information IE in the RADIO LINK RECONFIGURATION PREPARE message or MIMO with four transmit antennas is activated and the power offset for S-CPICH for MIMO with four transmit antennas Request indicator has not been configured in the new configuration but MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the setup of the serving HS-DSCH Radio Link, and/or activation of MIMO, shall be reported as failed and the DRNC shall include in the RADIO LINK RECONFIGURATION FAILURE message the Cause IE.]
Typical cause values are:
Radio Network Layer Causes:
UL Scrambling Code Already in Use;
DL Radio Resources not Available;
UL Radio Resources not Available;
Requested Configuration not Supported;
Number of DL Codes not Supported;
Number of UL Codes not Supported;
Dedicated Transport Channel Type not Supported;
DL Shared Channel Type not Supported;
[TDD – UL Shared Channel Type not Supported;]
[FDD – UL Spreading Factor not Supported;]
[FDD – DL Spreading Factor not Supported;]
CM not Supported;
RL Timing Adjustment not Supported;
E-DCH not supported;
[FDD – F-DPCH not supported;]
[FDD – Continuous Packet Connectivity DTX-DRX operation not Supported;]
[FDD – Continuous Packet Connectivity HS-SCCH less operation not Supported;]
[FDD – MIMO not supported;]
[FDD – E-DCH TTI2ms not supported;]
[FDD – Continuous Packet Connectivity DTX-DRX operation not available;]
[FDD – Continuous Packet Connectivity UE DTX Cycle not available;]
[FDD – MIMO not available;]
[FDD – SixteenQAM UL not Supported;]
HS-DSCH MAC-d PDU Size Format not supported;
[FDD – F-DPCH Slot Format operation not supported;]
E-DCH MAC-d PDU Size Format not available;
[FDD – E-DPCCH Power Boosting not supported;]
[FDD – SixtyfourQAM DL and MIMO Combined not available;]
[FDD – Multi Cell operation not available;]
[FDD – Multi Cell operation not supported;]
[FDD – SixtyfourQAM DL and MIMO Combined not supported;]
[1.28Mcps TDD- MIMO not supported;]
[1.28Mcps TDD – MIMO not available;]
[1.28Mcps TDD – SixtyfourQAM DL and MIMO Combined not available;]
[FDD – TX diversity for MIMO UE on DL Control Channels not available;]
[FDD – Single Stream MIMO not supported;] 
[FDD – Single Stream MIMO not available;]
[FDD – Multi Cell operation with MIMO not available;]
[FDD – Multi Cell operation with MIMO not supported;]
[FDD – Multi Cell E-DCH Operation not supported;]
[FDD – Multi Cell E-DCH Operation not available;]
[FDD – Multi Cell operation with Single Stream MIMO not available;]
[FDD – Multi Cell operation with Single Stream MIMO not supported;]
[FDD – Cell Specific Tx Diversity Handling For Multi Cell Operation Not Available;]
[FDD – Cell Specific Tx Diversity Handling For Multi Cell Operation Not Supported;]
[FDD – Uplink Closed Loop Transmit Diversity Operation Not Available;]
[FDD – Uplink Closed Loop Transmit Diversity Operation Not Supported;]
[FDD – MIMO with four transmit antennas not supported;]
[FDD – MIMO with four transmit antennas not available;]
[FDD – Dual Stream MIMO with four transmit antennas not supported;]
[FDD – Dual Stream MIMO with four transmit antennas not available;]
[FDD – SixtyfourQAM UL not Available;]
[FDD – SixtyfourQAM UL not Supported;]
[FDD – UL MIMO Operation Not Available;]
[FDD – UL MIMO Operation Not Supported;]
[FDD – UL MIMO and SixteenQAM Operation Not Available;]
[FDD – UL MIMO and SixteenQAM Operation Not Supported;]
[FDD – UL MIMO and SixtyfourQAM Operation Not Available;]
[FDD – UL MIMO and SixtyfourQAM Operation Not Supported;]
[FDD – Multiflow Operation Not Available;]
[FDD – Multiflow Operation Not Supported;]
[FDD – E-DCH Decoupling Operation Not Available;]
[FDD – E-DCH Decoupling Operation Not Supported;]
[FDD – Basic DCH Enhancements Operation Not Available;]
[FDD – Basic DCH Enhancements Operation Not Supported;]
[FDD – Full DCH Enhancements Operation Not Available;]
[FDD – Full DCH Enhancements Operation Not Supported;]
[FDD – Radio Links without DPCH/F-DPCH Operation Not Available;]
[FDD – Radio Links without DPCH/F-DPCH Operation Not Supported;]
[FDD – UL DPCCH2 Operation Not Available;]
[FDD – UL DPCCH2 Operation Not Supported;]
[FDD – Dowlink TPC enhancements Operation Not Available;]
[FDD – Dowlink TPC enhancements Operation Not Supported;]
[FDD – Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Operation Not Available;]
[FDD – Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Operation Not Supported;]
[FDD – Dual Cell E-DCH operation enhancements with different TTI Operation Not Available;]
[FDD – Dual Cell E-DCH operation enhancements with different TTI Operation Not Supported.]

Miscellaneous Causes:
Control Processing Overload;
Not enough User Plane Processing Resources.
8.3.4.4	Abnormal Conditions
If only a subset of all the DCHs belonging to a set of co-ordinated DCHs is requested to be deleted, the DRNS shall reject the Synchronised Radio Link Reconfiguration Preparation procedure as having failed and shall send the RADIO LINK RECONFIGURATION FAILURE message to the SRNC.
If more than one DCH of a set of co-ordinated DCHs has the QE-Selector IE set to “selected” [TDD – or no DCH of a set of co-ordinated DCHs has the QE-Selector IE set to “selected”] the DRNS shall reject the Synchronised Radio Link Reconfiguration Preparation procedure and the DRNC shall respond with a RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION PREPARE message includes a DCHs To Modify IE or DCHs To Add IE with multiple DCH Specific Info IEs, and if the DCHs in the DCHs To Modify IE or DCHs To Add IE do not have the same Transmission Time Interval IE in the Semi-static Transport Format Information IE, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the RL Information IE includes the DL Reference Power IE, but the power balancing is not active in the indicated RL(s), the DRNS shall reject the Synchronised Radio Link Reconfiguration Preparation procedure as having failed and the DRNC shall respond with the RADIO LINK RECONFIGURATION FAILURE message with the cause value “Power Balancing status not compatible”.]
[FDD – If the power balancing is active with the Power Balancing Adjustment Type of the UE Context set to “Common” in the existing RL(s) but the RADIO LINK RECONFIGURATION PREPARE message includes more than one DL Reference Power IE, the DRNS shall reject the Synchronised Radio Link Reconfiguration Preparation procedure as having failed and the DRNC shall respond with the RADIO LINK RECONFIGURATION FAILURE message with the cause value “Power Balancing status not compatible”.]
If the RADIO LINK RECONFIGURATION PREPARE message contains the Transport Layer Address IE or the Binding ID IE when establishing a transport bearer for any Transport Channel or HS-DSCH MAC-d flow being added, or any Transport Channel or HS-DSCH MAC-d flow being modified for which a new transport bearer was requested with the Transport Bearer Request Indicator IE., and not both are present for a transport bearer intended to be established, the DRNC shall reject the Synchronised Radio Link Reconfiguration Preparation procedure and the DRNC shall respond with a RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION PREPARE message contains any of the HS-DSCH Information To Modify IE, HS-DSCH MAC-d Flows To Add IE or HS-DSCH MAC-d Flows To Delete IE in addition to the HS-DSCH Information IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION PREPARE message contains any of the HS-DSCH Information To Modify IE, HS-DSCH MAC-d Flows To Add IE, HS-DSCH MAC-d Flows To Delete IE or HS-PDSCH RL ID IE and the Serving HS-DSCH Radio Link is not in the DRNS, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH Information IE and does not include the HS-PDSCH RL ID IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-DSCH Information To Modify IE deleting the last remaining Priority Queue of an HS-DSCH MAC-d Flow, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION PREPARE message includes the HS-PDSCH RL ID IE indicating a Radio Link not existing in the UE Context, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION PREPARE message contains any of the HS-DSCH Information IE, HS-DSCH Information To Modify IE, or HS-DSCH MAC-d Flows To Add IE and if in the new configuration the Priority Queues associated with the same HS-DSCH MAC-d Flow ID IE have the same Scheduling Priority Indicator IE value, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, the concerned UE Context is configured to use “Indexed MAC-d PDU Size” for an HS-DSCH but there exist a priority queue of the MAC-d flows of the HS-DSCH that is configured to use Maximum MAC-d PDU Size Extended, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, the concerned UE Context is configured to use “Flexible MAC-d PDU Size” for an HS-DSCH but there exist a priority queue of the MAC-d flows of the HS-DSCH that is configured to use MAC-d PDU Size Index, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, the concerned UE Context is configured to use “Fixed MAC-d PDU Size” for an E-DCH and there exist a Logical Channel of the MAC-d flows of the E-DCH that is configured to use Maximum MAC-d PDU Size Extended, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, the concerned UE Context is configured to use “Flexible MAC-d PDU Size” for an E-DCH and there exist a Logical Channel of the MAC-d flows of the E-DCH that is configured to use MAC-d PDU Size List, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the F-DPCH Information IE and the DL DPCH Information IE configured simultaneously to one downlink frequency, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
If the RADIO LINK RECONFIGURATION PREPARE message includes HS-DSCH Information IE and the HS-DSCH is already configured in the UE Context, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the concerned UE Context is configured to use DPCH in the downlink in the old configuration and if the RADIO LINK RECONFIGURATION PREPARE message includes the DL DPCH Power Information IE, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to use F-DPCH in the downlink in the old configuration and the RADIO LINK RECONFIGURATION PREPARE message includes at least one but not all of the TFCS IE, DL DPCH Slot Format IE, TFCI Signalling Mode IE, Multiplexing Position IE, Limited Power Increase IE and DL DPCH Power Information IE in the DL DPCH Information IE, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the E-DCH FDD Information IE is present in the RADIO LINK RECONFIGURATION PREPARE message, but the E-DPCH Information IE is not present or if any of the Maximum Set of E-DPDCHs IE, Puncture Limit IE, E-TFCS Information IE, E-TTI IE, E-DPCCH Power Offset IE, E-RGCH 2-Index-Step Threshold IE, E-RGCH 3-Index-Step Threshold IE, HARQ Info for E-DCH IE or HS-DSCH Configured Indicator IE are not present in the E-DPCH Information IE, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH RL Indication IE set to “E-DCH”, but no E-DCH FDD Information IE, and the UE Context is not configured for E-DCH, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH FDD Information IE but no E-DCH RL Indication IE set to “E-DCH”, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
If the RADIO LINK RECONFIGURATION PREPARE message does not contain the E-DCH Decoupling Indication IE but contains the HS-PDSCH RL ID IE and/or the Serving E-DCH RL IE, and if both HS-DSCH and E-DCH are configured in the new configuration but the Serving HS-DSCH Radio Link and the Serving E-DCH Radio Link are not in the same cell, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains the HS-PDSCH RL ID IE and the E-DPCH Information IE which includes the HS-DSCH Configured Indicator IE set as “HS-DSCH not configured” then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains any of the E-DCH FDD Information To Modify IE, E-DCH MAC-d Flows To Add IE or E-DCH MAC-d Flows To Delete IE in addition to the E-DCH FDD Information IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.] 
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains any of the E-DCH FDD Information To Modify IE, E-DCH MAC-d Flows To Add IE, E-DCH MAC-d Flows To Delete IE and the UE Context is not configured for E-DCH, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the E-DCH FDD Information To Modify IE deleting the last remaining E-DCH Logical Channel of an E-DCH MAC-d Flow, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.] 
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes E-DCH FDD Information IE and the E-DCH is already configured in the UE Context, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the Fast Reconfiguration Mode IE is included in the RADIO LINK RECONFIGURATION PREPARE message and the UL Scrambling Code IE does not indicate an uplink scrambling code different from the currently used uplink scrambling code the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Continuous Packet Connectivity DTX-DRX Information To Modify IE in addition to the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Continuous Packet Connectivity HS-SCCH less Deactivate Indicator IE in addition to the Continuous Packet Connectivity HS-SCCH less Information IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message. ]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Continuous Packet Connectivity HS-SCCH less Deactivate Indicator IE while the Continuous Packet Connectivity HS-SCCH less configuration isn’t configured in the DRNC, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Continuous Packet Connectivity DTX-DRX Information To Modify IE while the Continuous Packet Connectivity DTX-DRX configuration isn’t configured in the DRNC, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the DRX Information To Modify IE in Continuous Packet Connectivity DTX-DRX Information To Modify IE while the Continuous Packet Connectivity DRX configuration is not configured in the DRNC, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
If the DCHs to Modify IE contains a DCH Specific Info IE which includes the Unidirectional DCH Indicator IE set to “Uplink DCH only” but no Transport Format Set IE for the uplink for this DCH and the DRNC had ignored the configuration of Transport Format Set for uplink, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the DCHs to Modify IE contains a DCH Specific Info IE which includes the Unidirectional DCH Indicator IE set to “Downlink DCH only” but no Transport Format Set IE for the downlink for this DCH and the DRNC had ignored the configuration of Transport Format Set for downlink, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains the Transport Bearer Not Requested Indicator IE for a DCH or an E-DCH MAC-d flow but does not contain the corresponding DCH ID IE and the Unidirectional DCH indicator IE set to “Uplink DCH only” for the DCH in DCH Information To Add IE or does not contain the corresponding E-DCH MAC-d Flow ID IE in E-DCH MAC-d Flows Information IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to apply UL DPCCH Slot Format 4 but is not configured to use F-DPCH, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to apply UL DPCCH Slot Format 0 or 2 and execute Continuous Packet Connectivity DTX-DRX operation, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to apply the “Closed loop mode 1” and if the concerned UE Context is not configured to apply UL DPCCH Slot Format 2 or 3, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to apply MIMO, allowed to apply 64QAM, establish the secondary serving HS-DSCH Radio Link, apply MIMO with four transmit antennas, or apply Dual Stream MIMO with four transmit antennas, or apply Single Stream MIMO in the new configuration but is not configured to use flexible MAC-d PDU Size, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Transport Bearer Not Requested Indicator IE for a DCH in the RL Specific DCH Information IE but does not include the DCH ID IE for the DCH in the DCHs to Add IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.] 
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Transport Bearer Not Requested Indicator IE for an E-DCH MAC-d flow in the RL Specific E-DCH Information IE but does not include the E-DCH MAC-d flow ID IE for the E-DCH MAC-d flow in the E-DCH MAC-d flows Information IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains the Continuous Packet Connectivity DTX-DRX Information IE but does not contain the F-DPCH Information IE and the concerned UE Context is not previously configured to use F-DPCH, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to have the Serving E-DCH Radio Link but there is at least one E-DCH MAC-d flow which the transport bearer is not configured for the Serving E-DCH Radio Link in DRNS, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message includes the Transport Bearer Not Requested Indicator IE for a DCH or an E-DCH MAC-d Flow for a specific RL and the specific RL is combined with existing RL which the transport bearer is established for the DCH or the E-DCH MAC-d Flow in the DRNS, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains the Additional HS Cell Information RL Reconf Prep IE indicating a new seconadry serving cell that is not in the same Node B as the serving HS-DSCH cell (or new serving in case of simultaneous serving HS-DSCH cell change), then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
If ALCAP is not used, if the concerned UE Context is configured to establish a DCH, an E-DCH MAC-d flow and/or an HS-DSCH MAC-d flow but the RADIO LINK RECONFIGURATION PREPARE message does not include the Transport Layer Address IE and the Binding ID IE for the DCH, the E-DCH MAC-d flow and/or the HS-DSCH MAC-d flow, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[TDD – If ALCAP is not used, if the concerned UE Context is configured to establish a DSCH and/or a USCH but the RADIO LINK RECONFIGURATION PREPARE message does not include the Transport Layer Address IE and the Binding ID IE for the DSCH and/or the USCH, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
If, in the new configuration, there exist a priority queue of the MAC-d flows of the HS-DSCH that is configured to use “Flexible RLC PDU Size” for an HS-DSCH but is not configured to use Maximum MAC-d PDU Size Extended, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, the concerned UE Context is configured to use MAC-d PDU Size Index for an HS-DSCH but there exist a priority queue of the MAC-d flows of the HS-DSCH that is configured to use “Flexible RLC PDU Size”, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains more than one of a MIMO Activation Indicator IE, a MIMO with four transmit antennas Activation Indicator IE, a Dual Stream MIMO with four transmit antennas Activation Indicator IE and a Single Stream MIMO Activation Indicator IE in the HS-DSCH FDD Information IE or in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Reconf Prep IE, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to apply more than one of MIMO, MIMO with four transmit antennas, Dual Stream MIMO with four transmit antennas and Single Stream MIMO for the HS-DSCH Radio Link or the Secondary Serving Radio link, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.] 
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains the Additional E-DCH Cell Information RL Reconf Prep IE and if the E-DPCH Information IE is not present or the E-DPCH Information was not configured in the UE Context, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains the Additional E-DCH Cell Information RL Reconf Prep IE and there exist a logical channel for which the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE is not present, the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE in the Additional E-DCH Cell Information RL Reconf Prep IE and the C-ID IE is not included but the RL indicated by the E-DCH Additional RL ID IE is not configured in the current UE context as a Secondary Serving HS-DSCH radio link without any configured Additional E-DCH, the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains the Diversity Mode IE in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Reconf Prep IE and the secondary serving HS-DSCH is already configured in the UE Context, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the secondary serving HS-DSCH is not configured in the UE Context and if the RADIO LINK RECONFIGURATION PREPARE message contains in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Reconf Prep IE the Diversity Mode IE not set to “None” but not the Transmit Diversity Indicator or contains the Transmit Diversity Indicator but not the Diversity Mode IE not set to “None”, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION PREPARE message contains the Diversity Mode IE in the Secondary Serving Information To Modify IE in the Additional HS Cell Information RL Reconf Prep IE and the Non Cell Specific Tx Diversity IE, the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message contains the Additional HS Cell Information RL Reconf Prep IE and the new configuration contains more than one secondary serving HS-DSCH RL, and all secondary serving HS-DSCH RLs in the new configuration will not be assigned consecutive ordinal numbers starting with the value "1", which are previously assigned to the RL or received in the Ordinal Number Of Frequency IE in the HS-DSCH FDD Secondary Serving Information IE or the HS-DSCH FDD Secondary Serving Information To Modify IE, the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message contains the Additional HS Cell Information RL Reconf Prep IE and the new configuration contains more than one secondary serving HS-DSCH RL, the new configuration also contains an Additional E-DCH Serving Radio Link and the secondary serving HS-DSCH Radio link, which is configured in the same cell as the Additional E-DCH Serving Radio Link does not have Ordinal Number Of Frequency value "1", the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message contains the UL CLTD Information IE but does not contain the F-TPICH Information IE, or if it contains HS-DSCH Preconfiguration Setup IE with UL CLTD Information IE but without F-TPICH Information IE, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message contains the UL MIMO Information IE in E-DCH FDD Information IE but does not contain the UL CLTD Information IE, or if it contains HS-DSCH Preconfiguration Setup IE with UL MIMO Information IE but without UL CLTD Information IE, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message contains more than one of a MIMO Activation Indicator IE, a MIMO with four transmit antennas Activation Indicator IE, a Dual Stream MIMO with four transmit antennas Activation Indicator IE in HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message contains the DCH Enhancements Information IE, and either the DL DPCH Slot Format IE is not set to “17” or “18”, or the UL DPCCH Slot Format IE is not set to “5”, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message does not contain the DCH Enhancements Information IE, and either (i) the DL DPCH Slot Format IE is set to “17”, or (ii) the DL DPCH Slot Format IE is set to “18”, or (iii) the UL DPCCH Slot Format IE is set to “5”, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION PREPARE message contains the Fast TTI switching Mode Requested UnSynchronized IE in the E-DCH FDD Information To Modify IE, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup or configured but the Dual Cell E-DCH Operation Enhancements Information IE is not included in the RADIO LINK RECONFIGURATION PREPARE message, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup or configured and if the Continuous Packet Connectivity DTX-DRX Information IE is included in the RADIO LINK RECONFIGURATION PREPARE message, but the DTX Information IE does not contain any of the value defined for 10ms TTI, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup or configured but the DTX Information To Modify IE, if included in the Continuous Packet Connectivity DTX-DRX Information To Modify IE in the RADIO LINK RECONFIGURATION PREPARE message and the choice is “Modify”, does not contain any of the value defined for 10ms TTI, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup or configured and if the DTX related Information is not signalled but the currently used value is not from the set of values defined for 10ms TTI, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
8.3.5	Synchronised Radio Link Reconfiguration Commit
8.3.5.1	General
This procedure is used to order the DRNS to switch to the new configuration for the Radio Link(s) within the DRNS, previously prepared by the Synchronised Radio Link Reconfiguration Preparation procedure.
When Mode 1 is used for the fast TTI switching, the procedure shall if supported be used to order the DRNS to execute the TTI switching process.
This procedure shall use the signalling bearer connection for the relevant UE Context.
8.3.5.2	Successful Operation

Figure 12: Synchronised Radio Link Reconfiguration Commit procedure, Successful Operation
[FDD - If the Activation Delay IE is included in the RADIO LINK RECONFIGURATION COMMIT message, the DRNS shall if supported send the HS-SCCH order to execute the TTI switching process according to TS 25.214 [10]. The CFN IE in the RADIO LINK RECONFIGURATION COMMIT message shall be ignored by the DRNS.]
The DRNS shall switch to the new configuration previously prepared by the Synchronised Radio Link Reconfiguration Preparation procedure at the “configuration switching point” occurring:
-	[TDD – at the next coming CFN with a value equal to the value requested by the SRNC in the CFN IE (see TS 25.402 [17] subclause 9.4) when receiving the RADIO LINK RECONFIGURATION COMMIT message from the SRNC.]
-	[FDD – if the Fast Reconfiguration Mode IE is not included in the RADIO LINK RECONFIGURATION COMMIT message at the next coming CFN with a value equal to the value requested by the SRNC in the CFN IE (see TS 25.402 [17] subclause 9.4) when receiving the RADIO LINK RECONFIGURATION COMMIT message from the SRNC.]
-	[FDD – if the Fast Reconfiguration Mode IE is included in the RADIO LINK RECONFIGURATION COMMIT message as soon as the DRNS detects that the UE uses the new configuration in the uplink (e.g. the Node B indicates that the UE uses the new scrambling code used for the uplink by sending the RADIO LINK RESTORATION message). In order to limit the period for the detection in the DRNS the CFN in the RADIO LINK RECONFIGURATION COMMIT message indicates the earliest possible time instant at which the UE might use the new configuration.]
[FDD – If the Active Pattern Sequence Information IE is included in the RADIO LINK RECONFIGURATION COMMIT message, the CM Configuration Change CFN IE in the Active Pattern Sequence Information IE shall be ignored by the DRNS.]
[FDD – If the Active Pattern Sequence Information IE is not included in the RADIO LINK RECONFIGURATION COMMIT message and a new Compressed Mode Configuration exists in the prepared configuration, the DRNS shall behave as if an Active Pattern Sequence Information IE with an empty Transmission Gap Pattern Sequence Status IE was included.]
When this procedure has been completed the Prepared Reconfiguration does not exist any more, see subclause 3.1.
In the case of a Transport Channel or MAC-d flow modification for which a new transport bearer was requested and established, the switch to the new transport bearer shall also take place at the configuration switching point (defined above) indicated CFN.
The detailed frame protocol handling during transport bearer replacement is described in TS 25.427 [4], subclause 5.10.1, and in TS 25.425 [32], subclauses 5.3.1 and 5.3.2.
[FDD – If the RADIO LINK RECONFIGURATION COMMIT includes the Active Pattern Sequence Information IE, the DRNS shall deactivate all the ongoing Transmission Gap Pattern Sequences at the configuration switching point (defined above). From that moment on all Transmission Gap Pattern Sequences included in Transmission Gap Pattern Sequence Status IE repetitions shall be started when the indicated TGCFN IE elapses. The CFN IE and TGCFN IE for each sequence refer to the next coming CFN with that value. If the values of the CFN IE and the TGCFN IE are equal, the concerned Transmission Gap Pattern Sequence shall be started immediately at the CFN with a value equal to the value received in the CFN IE.]
[FDD – If the RADIO LINK RECONFIGURATION COMMIT message includes the Active Pattern Sequence Information IE and the concerned UE Context is configured to use F-DPCH in the downlink, the DRNS shall ignore, when activating the Transmission Gap Pattern Sequence(s), the downlink compressed mode method information, if existing, for the concerned Transmission Gap Pattern Sequence(s) in the Compressed Mode Configuration.]
[FDD - If the RADIO LINK RECONFIGURATION COMMIT message includes the Affected HS-DSCH serving cell List IE in the Active Pattern Sequence Information IE, the concerned Transmission Gap Pattern Sequence shall be applied to HS-DSCH serving cells associated with C-ID IE included in Affected HS-DSCH serving cell List IE. Otherwise the concerned Transmission Gap Pattern Sequence shall be applied to all the configured serving cells.]
8.3.5.3	Abnormal Conditions
If a new transport bearer is required for the new configuration and it is not available at the requested configuration switching point (defined in sub-clause 8.3.3.2), the DRNS shall initiate the Radio Link Failure procedure.
[FDD – If the Fast Reconfiguration Mode IE is included in the RADIO LINK RECONFIGURATION COMMIT message and the DRNC did not include the Fast ReconfigurationPermission IE in the RADIO LINK RECONFIGURATION READY message, the DRNC shall initiate the Radio Link Failure procedure.]
[FDD - If the RADIO LINK RECONFIGURATION COMMIT message contains the Affected HS-DSCH serving cell List IE in the Active Pattern Sequence Information IE and theTransmission Gap Pattern Sequence for affected HS-DSCH Serving Cells is activated on the HS-DSCH Primary Serving Cell but not for all the other serving cells, the DRNS shall initiate the Radio Link Failure procedure with the cause value “Invalid CM Settings”.]
[FDD - If the RADIO LINK RECONFIGURATION COMMIT message contains the Activation Delay IE but the Fast TTI switching Mode Requested Synchronized IE is not presented in the RADIO LINK RECONFIGURATION PREPARE or the Mode 1 is not supported, the DRNS shall initiate the Radio Link Failure procedure.]
8.3.6	Synchronised Radio Link Reconfiguration Cancellation
8.3.6.1	General
This procedure is used to order the DRNS to release the new configuration for the Radio Link(s) within the DRNS, previously prepared by the Synchronised Radio Link Reconfiguration Preparation procedure.
This procedure shall use the signalling bearer connection for the relevant UE Context.
8.3.6.2	Successful Operation

Figure 13: Synchronised Radio Link Reconfiguration Cancellation procedure, Successful Operation
Upon receipt of the RADIO LINK RECONFIGURATION CANCEL message from the SRNC, the DRNS shall release the new configuration ([FDD – including the new Transmission Gap Pattern Sequence parameters (if existing)]) previously prepared by the Synchronised RL Reconfiguration Preparation procedure and continue using the old configuration. When this procedure has been completed the Prepared Reconfiguration does not exist any more, see subclause 3.1.
8.3.6.3	Abnormal Conditions
-
8.3.7	Unsynchronised Radio Link Reconfiguration
8.3.7.1	General
The Unsynchronised Radio Link Reconfiguration procedure is used to reconfigure Radio Link(s) related to one UE‑UTRAN connection within a DRNS.
The procedure is used when there is no need to synchronise the time of the switching from the old to the new radio link configuration in the cells used by the UE-UTRAN connection within the DRNS.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The Unsynchronised Radio Link Reconfiguration procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
8.3.7.2	Successful Operation

Figure 14: Unsynchronised Radio Link Reconfiguration procedure, Successful Operation
The Unsynchronised Radio Link Reconfiguration procedure is initiated by the SRNC by sending the RADIO LINK RECONFIGURATION REQUEST message to the DRNC.
Upon receipt, the DRNS shall modify the configuration of the Radio Link(s) according to the parameters given in the message. Unless specified below, the meaning of parameters is specified in other specifications.
If the RADIO LINK RECONFIGURATION REQUEST message includes the Allowed Queuing Time IE the DRNS may queue the request the time corresponding to the value of the Allowed Queuing Time IE before starting to execute the request.
The DRNS shall prioritise resource allocation for the RL to be modified according to Annex A.
If the UE Aggregate Maximum Bit Rate IE is contained in the RADIO LINK RECONFIGURATION REQUEST message, the DRNS shall, if supported, store the received UE Aggregate Maximum Bit Rate parameters to control the aggregate data rate of non GBR traffic for this UE.
DCH Modification:
If the RADIO LINK RECONFIGURATION REQUEST message includes any DCHs To Modify IEs, then the DRNS shall treat them as follows:
-	If the DCHs To Modify IE includes multiple DCH Specific Info IEs, then the DRNS shall treat the DCHs as a set of co-ordinated DCHs. The DRNS shall include these DCHs in the new configuration only if it can include all of them in the new configuration.
-	If the DCHs To Modify IE includes the UL FP Mode IE for a DCH or a set of co-ordinated DCHs to be modified, the DRNS shall apply the new FP Mode in the Uplink of the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	If the DCHs To Modify IE includes the ToAWS IE for a DCH or a set of co-ordinated DCHs to be modified, the DRNS shall apply the new ToAWS in the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	If the DCHs To Modify IE includes the ToAWE IE for a DCH or a set of co-ordinated DCHs to be modified, the DRNS shall apply the new ToAWE in the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes a Transport Format Set IE for the UL of a DCH to be modified, the DRNS shall apply the new Transport Format Set in the Uplink of this DCH in the new configuration.
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes a Transport Format Set IE for the DL of a DCH to be modified, the DRNS shall apply the new Transport Format Set in the Downlink of this DCH in the new configuration.
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes the Frame Handling Priority IE, the DRNS should store this information for this DCH in the new configuration. The received Frame Handling Priority should be used when prioritising between different frames in the downlink on the radio interface in congestion situations within the DRNS once the new configuration has been activated.
-	If the DCH Specific Info IE includes the Traffic Class IE, the DRNC may use this information to determine the transport bearer characteristics to apply between DRNC and Node B for the related DCH or set of co-ordinated DCHs. The DRNC should ignore the Traffic Class IE if the TrCH Source Statistics Descriptor IE for this DCH indicates the value “RRC”.
-	[FDD – If the DCHs to Modify IE contains a DCH Specific Info IE which includes the Unidirectional DCH indicator IE set to “Uplink DCH only”, the DRNS shall ignore the Transport Format Set IE for the downlink for this DCH. As a consequence this DCH is not included as a part of the downlink CCTrCH.]
-	[FDD – If the DCHs to Modify IE contains a DCH Specific Info IE which includes the Unidirectional DCH indicator IE set to “Downlink DCH only”, the DRNS shall ignore the Transport Format Set IE for the uplink for this DCH. As a consequence this DCH is not included as a part of the uplink CCTrCH.]
-	If the TNL QoS IE is included for a DCH or a set of co-ordinated DCHs and if ALCAP is not used, the DRNS may use this information to determine the transport bearer characteristics to apply for the uplink for the related DCH or set of co-ordinated DCHs.
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes the Allocation/Retention Priority IE, the DRNS shall apply the new Allocation/Retention Priority to this DCH in the new configuration according to Annex A.
-	[TDD – If the DCHs To Modify IE contains a DCH Specific Info IE which includes the CCTrCH ID IE for the UL, the DRNS shall map the DCH onto the referenced UL CCTrCH in the new configuration.]
-	[TDD – If the DCHs To Modify IE contains a DCH Specific Info IE which includes the CCTrCH ID IE for the DL, the DRNS shall map the DCH onto the referenced DL CCTrCH in the new configuration.]
-	If the DCHs To Modify IE contains a DCH Specific Info IE which includes the Guaranteed Rate Information IE, the DRNS shall treat the included IEs according to the following:
-	If the Guaranteed Rate Information IE includes the Guaranteed UL Rate IE, the DRNS shall apply the new Guaranteed Rate in the uplink of this DCH in the new configuration. The DRNS may decide to request the SRNC to limit the user rate in the uplink of the DCH at any point in time after activating the new configuration. The DRNS may request the SRNC to reduce the user rate of the uplink of the DCH below the guaranteed bit rate, however, whenever possible the DRNS should request the SRNC to reduce the user rate between the maximum bit rate and the guaranteed bit rate.
-	If the Guaranteed Rate Information IE includes the Guaranteed DL Rate IE, the DRNS shall apply the new Guaranteed Rate in the downlink of this DCH in the new configuration. The DRNS may decide to request the SRNC to limit the user in the downlink of the DCH at any point in time after activating the new configuration. The DRNS may request the SRNC to reduce the user rate of the downlink of the DCH below the guaranteed bit rate, however, whenever possible the DRNS should request the SRNC to reduce the user rate between the maximum bit rate and the guaranteed bit rate.
DCH Addition:
If the RADIO LINK RECONFIGURATION REQUEST message includes any DCHs To Add IEs, then the DRNS shall treat them each as follows:
-	The DRNS shall reserve necessary resources for the new configuration of the Radio Link(s) according to the parameters given in the message and include these DCH in the new configuration.
-	If the DCHs To Add IE includes multiple DCH Specific Info IEs then the DRNS shall treat the DCHs in the DCHs To Add IE as a set of co-ordinated DCHs. The DRNS shall include these DCHs in the new configuration only if all of them can be in the new configuration.
-	If the DCH Specific Info IE includes the Unidirectional DCH Indicator IE set to “Uplink DCH only”, the DRNS shall ignore the Transport Format Set IE for the downlink for this DCH. As a consequence this DCH is not included as a part of the downlink CCTrCH.
-	If the DCH Specific Info IE includes the Unidirectional DCH Indicator IE set to “Downlink DCH only”, the DRNS shall ignore the Transport Format Set IE for the uplink for this DCH. As a consequence this DCH is not included as a part of the uplink CCTrCH.
-	[FDD – For each DCH which does not belong to a set of co-ordinated DCHs, and which includes a QE-Selector IE set to “selected”, the DRNS shall use the Transport channel BER from that DCH for the QE in the UL data frames. If no Transport channel BER is available for the selected DCH, the DRNS shall use the Physical channel BER for the QE, TS 25.427 [4]. If the QE-Selector IE is set to “non-selected”, the DRNS shall use the Physical channel BER for the QE in the UL data frames, TS 25.427 [4].]
-	For a set of co-ordinated DCHs, the DRNS shall use the Transport channel BER from the DCH with the QE‑Selector IE set to “selected” for the QE in the UL data frames, TS 25.427 [4]. [FDD – If no Transport channel BER is available for the selected DCH, the DRNS shall use the Physical channel BER for the QE, TS 25.427 [4]. If all DCHs have the QE-Selector IE set to “non-selected”, the DRNS shall use the Physical channel BER for the QE, TS 25.427 [4].] [TDD – If no Transport channel BER is available for the selected DCH, the DRNS shall use 0 for the QE, TS 25.427 [4].]
-	The DRNS should store the Frame Handling Priority IE received for a DCH to be added in the new configuration. The received Frame Handling Priority should be used when prioritising between different frames in the downlink on the Uu interface in congestion situations within the DRNS once the new configuration has been activated.
-	The Traffic Class IE may be used to determine the transport bearer characteristics to apply between DRNC and Node B for the related DCH or set of co-ordinated DCHs. The DRNC should ignore the Traffic Class IE if the TrCH Source Statistics Descriptor IE indicates the value “RRC”.
-	If the TNL QoS IE is included for a DCH or a set of co-ordinated DCHs and if ALCAP is not used, the DRNS may use this information to determine the transport bearer characteristics to apply for the uplink for the related DCH or set of co-ordinated DCHs.
-	The DRNS shall use the included UL FP Mode IE for a DCH or a set of co-ordinated DCHs to be added as the new FP Mode in the Uplink of the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	The DRNS shall use the included ToAWS IE for a DCH or a set of co-ordinated DCHs to be added as the new Time of Arrival Window Startpoint in the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	The DRNS shall use the included ToAWE IE for a DCH or a set of co-ordinated DCHs to be added as the new Time of Arrival Window Endpoint in the user plane for the DCH or the set of co-ordinated DCHs in the new configuration.
-	If the DCH Specific Info IE includes the Guaranteed Rate Information IE, the DRNS shall treat the included IEs according to the following:
-	If the Guaranteed Rate Information IE includes the Guaranteed UL Rate IE, the DRNS shall apply the new Guaranteed Rate in the uplink of this DCH in the new configuration. The DRNS may decide to request the SRNC to limit the user rate of the uplink of the DCH at any point in time after activating the new configuration. The DRNS may request the SRNC to reduce the user rate of the uplink of the DCH below the guaranteed bit rate, however, whenever possible the DRNS should request the SRNC to reduce the user rate between the maximum bit rate and the guaranteed bit rate. If the DCH Specific Info IE in the DCH Information IE does not include the Guaranteed UL Rate IE, the DRNS shall not limit the user rate of the uplink of the DCH.
-	If the Guaranteed Rate Information IE includes the Guaranteed DL Rate IE, the DRNS shall apply the new Guaranteed Rate in the downlink of this DCH in the new configuration. The DRNS may decide to request the SRNC to limit the user rate of the downlink of the DCH at any point in time after activating the new configuration. The DRNS may request the SRNC to reduce the user rate of the downlink of the DCH below the guaranteed bit rate, however, whenever possible the DRNS should request the SRNC to reduce the user rate between the maximum bit rate and the guaranteed bit rate. If the DCH Specific Info IE in the DCH Information IE does not include the Guaranteed DL Rate IE, the DRNS shall not limit the user rate of the uplink of the DCH.
DCH Deletion:
If the RADIO LINK RECONFIGURATION REQUEST message includes any DCHs To Delete IEs, the DRNS shall not include the referenced DCHs in the new configuration.
If all of the DCHs belonging to a set of co-ordinated DCHs are requested to be deleted, the DRNS shall not include this set of co-ordinated DCHs in the new configuration.
[FDD – Physical Channel Modification:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes an UL DPCH Information IE, then the DRNS shall apply the parameters to the new configuration as follows: ]
-	[FDD – If the UL DPCH Information IE includes the TFCS IE for the UL, the DRNS shall apply the new TFCS in the Uplink of the new configuration.]
-	[FDD – If the UL DPCH Information IE includes the UL DPDCH Indicator For E-DCH Operation IE set to “UL DPDCH not present”, the UL DPDCH resources shall be removed from the configuration.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes a DL DPCH Information IE, then the DRNS shall apply the parameters to the new configuration as follows:]
-	[FDD – If the DL DPCH Information IE includes the TFCS IE for the DL, the DRNS shall apply the new TFCS in the Downlink of the new configuration.]
-	[FDD – If the DL DPCH Information IE includes the TFCI Signalling Mode IE for the DL, the DRNS shall apply the new TFCI Signalling Mode in the Downlink of the new configuration.]
-	[FDD – If the DL DPCH Information IE includes the Limited Power Increase IE and the IE is set to “Used”, the DRNS shall, if supported, use Limited Power Increase according to TS 25.214 [10] subclause 5.2.1 for the inner loop DL power control in the new configuration.]
-	[FDD – If the DL DPCH Information IE includes the Limited Power Increase IE and the IE is set to “Not Used”, the DRNS shall not use Limited Power Increase for the inner loop DL power control in the new configuration.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Transmission Gap Pattern Sequence Information IE, the DRNS shall store the new information about the Transmission Gap Pattern Sequences to be used in the new Compressed Mode configuration. Any Transmission Gap Pattern Sequences already existing in the previous Compressed Mode Configuration are replaced by the new sequences once the new Compressed Mode Configuration has been activated. This new Compressed Mode Configuration shall be valid in the DRNS until the next Compressed Mode Configuration is configured in the DRNS or last Radio Link is deleted.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Transmission Gap Pattern Sequence Information IE, and if the Downlink Compressed Mode Method in one or more Transmission Gap Pattern Sequence within the Transmission Gap Pattern Sequence Information IE is set to “SF/2”, the DRNC shall include the DL Code Information IE in the RADIO LINK RECONFIGURATION RESPONSE message, without changing any of the DL Channelisation Codes or DL Scrambling Codes, indicating for each DL Channelisation Code whether the alternative scrambling code shall be used or not.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes an E-DPCH Information IE which contains the E-TFCS Information IE, the DRNS shall use the E-TFCS Information IE for the E-DCH when reserving resources for the uplink of the new configuration. The DRNS shall apply the new TFCS in the uplink of the new configuration. If the E-TFCS Information IE contains the E-DCH Minimum Set E-TFCI Validity Indicator IE the DRNS shall ignore the value in E-DCH Minimum Set E-TFCI IE. If the E-DCH Minimum Set E-TFCI validity indicator IE is absent DRNS shall use the value for the related resource allocation operation.]
[FDD – If the E-TFCS Information IE in the E-DPCH Information IE contains the E-DPDCH Power Interpolation IE, the DRNS shall use the value to determine the applicable E-DPDCH power formula defined in TS 25.214 [10]. If the E-DPDCH Power Interpolation IE is not present, the DRNS shall use the E-DPDCH power extrapolation formula defined in TS 25.214 [10] if the E-DCH FDD Information IE is included in the RADIO LINK RECONFIGURATION REQUEST message.]
[FDD – If the E-TFCS Information IE in the E-DPCH Information IE contains the E-TFCI Boost Information IE, the DRNS shall use the information according to TS 25.214 [10]. If the E-TFCI Boost Information IE is not present, the DRNS shall use the value “127” in the algorithm defined in TS 25.214 [10] if the E-DCH FDD Information IE is included in the RADIO LINK RECONFIGURATION REQUEST message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST includes an E-DPCH Information IE which contains the E-DPCCH Power Offset IE, the DRNS shall use the value when the new configuration is being used.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST includes an E-DPCH Information IE which contains the E-RGCH 2-Index-Step IE, the DRNS shall use the value when the new configuration is being used.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST includes an E-DPCH Information IE which contains the E-RGCH 3-Index-Step IE, the DRNS shall use the value when the new configuration is being used.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST includes an E-DPCH Information IE which contains the HARQ Info for E-DCH IE, the DRNS shall use the value when the new configuration is being used.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST includes an E-DPCH Information IE which contains the Minimum Reduced E-DPDCH Gain Factor IE, then the DRNS shall use the value to determine the applicable minimum gain factor (βed,k,reduced,min) defined in TS 25.214 [10]. For the case the Minimum Reduced E-DPDCH Gain Factor IE is not available for the UE Context, the DRNS may use the default value defined in TS 25.331 [16]. ]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Continuous Packet Connectivity DTX-DRX Information IE, then:]
-	[FDD – The DRNS shall configure the concerned UE Context for Continuous Packet Connectiviy DTX operation according to TS 25.214 [10].]
-	[FDD – If DRX Information IE is included in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for Continuous Packet Connectiviy DRX operation according to TS 25.214 [10].]
-	[FDD – If UE DRX Cycle 2 IE is included in the DRX Information IE in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for DRX operation according to TS 25.214 [10].]
-	[FDD – If Inactivity Threshold for UE DRX Cycle 2 IE is included in the DRX Information IE in the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNS shall configure the concerned UE Context for DRX operation according to TS 25.214 [10].]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Continuous Packet Connectivity DTX-DRX Information To Modify IE, then:]
-	[FDD – If the UE DTX DRX Offset IE is included in the Continuous Packet Connectivity DTX-DRX Information To Modify IE, then the DRNS shall apply the indicated Offset in UE DTX DRX Cycle IE in the new configuration.]
-	[FDD – If the Enabling Delay IE is included in the Continuous Packet Connectivity DTX-DRX Information To Modify IE, then the DRNS shall use this value to determine the beginning of uplink transmission in the new configuration according to TS 25.214 [10].]
-	[FDD – If the DTX Information To Modify IE is included in the Continuous Packet Connectivity DTX-DRX Information To Modify IE, then the DRNS shall use this information to modify the indicated DTX Information parameter in the new configuration. If the choice of DTX Information To Modify IE is “Deactivate”, then DRX should be deactived together with DTX.]
-	[FDD – If the DRX Information To Modify IE is included in the Continuous Packet Connectivity DTX-DRX Information To Modify IE, then the DRNS shall use this information to modify the indicated DRX Information in the new configuration.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Continuous Packet Connectivity HS-SCCH less Information IE, then:]
-	[FDD – The DRNS shall configure the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE for Continuous Packet Connectiviy HS-SCCH less operation according to TS 25.214 [10].]
-	[FDD – The DRNS shall allocate the HS-PDSCH codes needed for HS-SCCH less operation and include the Continuous Packet Connectivity HS-SCCH less Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.] 
-	[FDD – If at least one of HS-PDSCH Second Code Support IE is set to “True”, then the DRNC shall include HS-PDSCH Second Code Index IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[FDD- If the RADIO LINK RECONFIGURATION REQUEST message includes the Continuous Packet Connectivity HS-SCCH less Deactivate Indicator IE, then the DRNS shall deactive the Continuous Packet Connectivity HS-SCCH less operation for the HS-DSCH Radio Link.]
[FDD – UL CLTD Setup:]
[FDD - If the UL CLTD Information Reconf IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of UL CLTD is "Setup", then: the DRNS shall setup the requested UL CLTD resources for the concerned UE Context in the cell to determine the precoding weights according the new configuration defined in the UL CLTD Information IE and then:]
-	[FDD - If there is neither serving E-DCH RL nor the HS-DSCH RL configuration in the UE Context, the C-ID IE shall be included in the UL CLTD Information IE, and the DRNS shall configure this cell to determine the precoding weights for the concerned UE Context.]
-	[FDD - If the UL CLTD Activation Information IE is included in the UL CLTD Information IE, then the DRNS shall use this value to configure the state of UL CLTD for the concerned UE Context.]
[FDD – UL CLTD Modification:]
[FDD - If the UL CLTD Information Reconf IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of UL CLTD is "Configuration Change", then: the UL CLTD Information To Modify IE defines the new configuration and then:]
-	[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes the C-ID IE in the UL CLTD Information To Modify IE, then the DRNS shall configure this cell to determine the precoding weights for the concerned UE Context. Otherwise the DRNS shall configure the serving E-DCH cell or the HS_DSCH serving cell to determine the precoding weights as specified in TS 25.319[38]. The UL CLTD configuration is only valid for the cell to determine the precoding weights.]
-	[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes the S-DPCCH Power Offset Information IE in the UL CLTD Information To Modify IE, then the DRNS shall use this value to determine the S-DPCCH power.]
-	[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes the UL CLTD State Activation Information IE in the UL CLTD Information To Modify IE, then the DRNS shall use this value to update the local state of UL CLTD for the concerned UE Context. If the UL CLTD Activation Information IE is set to "De-activated", the DRNS should release the F-TPICH resource configured for the concerned UE Context.]
[FDD – UL CLTD Removal:]
[FDD - If the UL CLTD Information Reconf IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of UL CLTD is "Removal", then the configured UL CLTD for the concerned UE Context shall be removed.]
[FDD – UL MIMO Setup:]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes the UL MIMO Information IE in E-DCH FDD Information, or the UL MIMO Reconfiguration IE and the choice of Setup or Change or Stop is “Setup”, then the DRNS shall setup the requested UL MIMO operation.]
[FDD – UL MIMO Modification:]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes UL MIMO Reconfiguration IE and the choice of Setup or Change or Stop is “Change”, then the DRNS shall apply the new configuration.]
[FDD – UL MIMO Removal:]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes the UL MIMO Reconfiguration IE and the choice of Setup or Change or Stop is “Stop”, then the DRNS shall terminate the UL MIMO operation.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Continuous Packet Connectivity DRX Information LCR IE, then the DRNS shall take account into these parameters to decide the DRX operation related parameters and configure the concerned UE Context for DRX operation according to TS 25.224 [22] and include the parameter(s) in the Continuous Packet Connectivity DRX Information Response LCR IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[1.28 Mcps TDD - If the Inactivity Threshold for UE DRX Cycle Ext IE is included in the Continuous Packet Connectivity DRX Information LCR IE, then the DRNS may use this value to determine the Inactivity Threshold for UE DRX Cycle according to TS 25.224 [22].]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Continuous Packet Connectivity DRX Information To Modify LCR IE, then:]
-	[1.28 Mcps TDD – If the UE DTX DRX Offset IE is included in the Continuous Packet Connectivity DRX Information To Modify LCR IE, then the DRNS shall apply the indicated Offset in UE DTX DRX Cycle IE in the new configuration.]
-	[1.28 Mcps TDD – If the Enabling Delay IE is included in the Continuous Packet Connectivity DRX Information To Modify LCR IE, then the DRNS shall use this value to determine the beginning of uplink transmission in the new configuration according to TS 25.224 [22].]
-	[1.28 Mcps TDD – If the DRX Information To Modify IE is included in the Continuous Packet Connectivity DRX Information To Modify LCR IE, then the DRNS shall use this information to modify the indicated DRX Information in the new configuration.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH Semi-Persistent scheduling Information LCR IE, then:]
-	[1.28 Mcps TDD – The DRNS shall configure the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE for HS-DSCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD – The DRNS shall allocate the HS-SICH information needed for HS-DSCH Semi-Persistent scheduling operation and include the HS-DSCH Semi-Persistent scheduling Information Response LCR IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[1.28 Mcps TDD – If the HS-DSCH Semi-Persistent Resource Reservation Indicator IE is included in the HS-DSCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall include Allcoated HS-PDSCH Semi-persistent resource IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Semi-Persistent scheduling Information LCR IE, then:]
-	[1.28 Mcps TDD – The DRNS shall configure the Serving E-DCH Radio Link indicated by the E-DCH Serving RL IE for E-DCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD - If the E-DCH Semi-Persistent Resource Reservation Indicator IE is included in the E-DCH Semi-Persistent scheduling Information LCR IE, then the DRNS shall include Allocated E-DCH Semi-persistent resource IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH Semi-Persistent scheduling Information to modify LCR IE, then:]
-	[1.28 Mcps TDD – If the Transport Block Size List IE or/and Repetition Period list IE is/are included in the HS-DSCH Semi-Persistent scheduling Information to modify LCR IE, the DRNS shall modifiy the configuration of Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE for HS-DSCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD – The DRNS shall allocate the HS-SICH information needed for HS-DSCH Semi-Persistent scheduling operation and include the HS-DSCH Semi-Persistent scheduling Information Response LCR IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[1.28 Mcps TDD – If the HS-DSCH Semi-Persistent Resource Reservation Indicator IE is included in the HS-DSCH Semi-Persistent scheduling Information to modify LCR IE, then the DRNS shall include Allcoated HS-PDSCH Semi-persistent resource IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[1.28 Mcps TDD – If the HS-DSCH Semi-Persistent scheduling operation Indicator IE is included in the HS-DSCH Semi-Persistent scheduling Information to modify LCR IE, then the DRNS shall apply this information for HS-DSCH Semi-Persistent scheduling operation.]
-	[1.28 Mcps TDD – If the buffer size for HS-DSCH Semi-Persistent scheduling needs to be modified, then the DRNS shall include the Buffer Size for HS-DSCH Semi-Persistent scheduling IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[1.28 Mcps TDD – If the number of processes for HS-DSCH Semi-Persistent scheduling needs to be modified, then the DRNS shall include the Number of Processes for HS-DSCH Semi-Persistent scheduling IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION RQUEST message includes the E-DCH Semi-Persistent scheduling Information to modify LCR IE, then:]
-	[1.28 Mcps TDD – If the Repetition Period list IE is included in the E-DCH Semi-Persistent scheduling Information to modify LCR IE, the DRNS shall modifiy the configuration of Serving HS-DSCH Radio Link indicated by the E-DCH Serving RL IE for E-DCH Semi-Persistent scheduling operation according to TS 25.224 [22].]
-	[1.28 Mcps TDD – If the E-DCH Semi-Persistent scheduling Indicator IE is included in the E-DCH Semi-Persistent scheduling Information to modify LCR IE, then the DRNS shall apply this information for E-DCH Semi-Persistent scheduling operation.] 
-	[1.28 Mcps TDD - If the E-DCH Semi-Persistent Resource Reservation Indicator IE is included in the E-DCH Semi-Persistent scheduling Information to modify LCR IE, then the DRNS shall include Allocated E-DCH Semi-persistent resource IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH Semi-Persistent scheduling Deactivate Indicator LCR IE, then the DRNS shall deactivate the HS-DSCH Semi-Persistent scheduling operation for the HS-DSCH Radio Link.]
[1.28 Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Semi-Persistent scheduling Deactivate Indicator LCR IE, then the DRNS shall deactivate the E-DCH Semi-Persistent scheduling operation for the E-DCH Radio Link.]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the MU-MIMO Indicator IE, then:]
-	[1.28 Mcps TDD –the DRNS may use the MU-MIMO for the radio link according to the MU-MIMO Usage Indicator IE and shall include the MU-MIMO Information IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[1.28 Mcps TDD – If the Standalone Midamble Channel Indicator IE is set to "Used", then the DRNS shall include Standalone Midamble Channel information in the RADIO LINK RECONFIGURATION RESPONSE message. Else, the DRNS shall not include Standalone Midamble Channel information in the RADIO LINK RECONFIGURATION RESPONSE message.]
[TDD – UL/DL CCTrCH Modification]
[TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes any UL CCTrCH To Modify IE or DL CCTrCH To Modify IE, the DRNS shall reserve necessary resources for the new configuration of the Radio Link(s) according to the parameters given in the message.]
[TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes any UL CCTrCH Information To Modify IEs or DL CCTrCH Information To Modify IEs which contain a TFCS IE, the DRNS shall apply the included TFCS IE as the new value(s) to the referenced CCTrCH. Otherwise the DRNS shall continue to apply the previous value(s) specified for this CCTrCH.]
[1.28Mcps TDD – If the UL CCTrCH To Modify IE includes UL SIR Target IE, the DRNS shall apply this value as the new configuration and use it for the UL inner loop power control according to TS 25.221 [12] and TS 25.224 [22].]
[TDD – UL/DL CCTrCH Deletion]
[TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes any UL CCTrCH Information To Delete IEs or DL CCTrCH Information To Delete IEs, the DRNS shall not include the referenced CCTrCH in the new configuration.]
DL Power Control:
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the DL Reference Power Information IE and the power balancing is active, the DRNS shall update the reference power of the power balancing in the indicated RL(s), if updating of power balancing parameters by the RADIO LINK RECONFIGURATION REQUEST message is supported, using the DL Reference Power Information IE in the RADIO LINK RECONFIGURATION REQUEST message. The updated reference power shall be used from the next adjustment period.]
[FDD – If updating of power balancing parameters by the RADIO LINK RECONFIGURATION REQUEST message is supported by the DRNS, the DRNC shall include the DL Power Balancing Updated Indicator IE in the RL Information Response IE for each affected RL in the RADIO LINK RECONFIGURATION RESPONSE message.]
[1.28Mcps TDD – Uplink Synchronisation Parameters LCR:]
[1.28Mcps TDD – If the UL Synchronisation Parameters LCR IE is present, the DRNC shall use the indicated values of Uplink synchronisation stepsize IE and Uplink synchronisation frequency IE when evaluating the timing of the UL synchronisation.]
[1.28Mcps TDD – Shared physical channels Synchronisation Detection:]
[1.28Mcps TDD – If HS-PDSCH and E-PUCH are configured but no DPCH is configured for the UE, then the DRNS shall include the Out-of-sync Detection Window IE in the HS-DSCH TDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[1.28Mcps TDD – Uplink Timing Advance Control LCR:]
[1.28Mcps TDD – The DRNC shall include the Uplink Timing Advance Control LCR IE in the RADIO LINK RECONFIGURATION RESPONSE message, if the Uplink Timing Advance Control parameters have been changed.]
[1.28Mcps TDD – PowerControl GAP:]
[1.28Mcps TDD – If applied in the DRNS, the DRNC may include the PowerControl GAP IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[1.28Mcps TDD – E-UTRAN Inter-RAT measurement:]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Need for Idle Interval IE and the first instance of the IE is set to “TRUE”, if supported, the DRNC shall include the Idle Interval Information IE in the RADIO LINK RECONFIGURATION RESPONSE message. If the first instance of the Need for Idle Interval IE is set to “FALSE”, the DRNC shall delete the configuration related to E-UTRAN Inter-RAT measurement. ]
[1.28Mcps TDD – Inter-frequency/ Inter-RAT measurement:]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION REQUESTmessage includes the DCH Measurement Type indicator IE, if supported, the DRNS shall include the Measurement purpose IE and the Measurement occasion pattern sequence parameters IE in the DCH Measurement Occasion Information IE in the RADIO LINK RECONFIGURATION RESPONSE message to configure the measurement occasion pattern(s) indicated by the DCH Measurement Type indicator IE.]
[1.28Mcps TDD – RNTI Allocation Indicator:]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the RNTI Allocation Indicator IE, if supported, the DRNS may allocate an E-RNTI and/or an H-RNTI for UE to use in CELL_FACH state.]
RL Information:
[FDD – If the UE Context is configured for F-DPCH Slot Format operation, the DRNS shall include the F-DPCH Slot Format IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[FDD – If the RL Information IE includes the F-TPICH Information Reconf IE and the choice of Setup, Configuration Change or Removal of F-TPICH Information is "Setup", then the DRNS shall use the information in F-TPICH Information IE to configure the F-TPICH of the RL according to TS 25.211 [7] and TS 25.214 [10] , and shall include the F-TPICH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[FDD – If the RL Information IE includes the F-TPICH Information Reconf IE and the choice of Setup, Configuration Change or Removal of F-TPICH Information is "Configuration Change", then: the F-TPICH Information To Modify IE defines the new configuration and then:]
-	[FDD – If the F-TPICH Information To Modify IE includes the F-TPICH Offset IE, the DRNS shall use this information to configure the time offset of F-TPICH, and may include the F-TPICH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[FDD – If the RL Information IE includes the F-TPICH Information Reconf IE and the choice of Setup, Configuration Change or Removal of F-TPICH Information is "Removal", then the DRNS shall remove the configured F-TPICH for the RL.]
HS-DSCH Setup:
If the HS-DSCH Information IE is present in the RADIO LINK RECONFIGURATION REQUEST message, then:
-	The DRNS shall setup the requested HS-PDSCH resources on the Serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE.
-	The DRNC shall include the HARQ Memory Partitioning IE in the [FDD – HS-DSCH FDD Information Response IE] [TDD – HS-DSCH TDD Information Response IE] in the RADIO LINK RECONFIGURATION RESPONSE message. [FDD – The HARQ Memory Partitioning IE shall either contain the HARQ Memory Partitioning Information Extension For MIMO IE or the Number of Processes IE set to a value higher than “8”, if the MIMO Activation Indicator IE is included in the HS-DSCH Information IE.] [1.28Mcps TDD– The HARQ Memory Partitioning IE shall either contain the HARQ Memory Partitioning Information Extension For MIMO IE or the Number of Processes IE set to a value higher than “8”, if the MIMO Activation Indicator IE or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Information IE.]
-	The DRNC shall allocate an HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the RADIO LINK RECONFIGURATION RESPONSE message.
-	The DRNS may use the Traffic Class IE for a specific HS-DSCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the HS-DSCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.
-	If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.
	If fields are to be included in the User Plane by the SRNC to handle TNL Congestion Control for HSDPA in the DRNS, then the DRNC shall include the User Plane Congestion Fields Inclusion IE in the HS-DSCH Information Response IE.
-	If the RADIO LINK RECONFIGURATION REQUEST message includes the MAC-hs Guaranteed Bit Rate IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall use this information to optimise MAC-hs scheduling decisions for the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION REQUEST message includes the Discard Timer IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall use this information to discard out-of-date MAC-hs SDUs from the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, then the DRNS shall ignore the SID IE and MAC-d PDU Size IE in the MAC-d PDU Size Index IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related HSDPA Priority Queue. 
-	The DRNC shall include the HS-DSCH Initial Capacity Allocation IE in the [FDD – HS-DSCH FDD Information Response IE] [TDD – HS-DSCH TDD Information Response IE] in the RADIO LINK RECONFIGURATION RESPONSE message for every HS-DSCH MAC-d flow being established, if the DRNS allows the SRNC to start transmission of MAC-d PDUs before the DRNS has allocated capacity on user plane as described in TS 25.425 [32]. If RADIO LINK RECONFIGURATION REQUESTmessage includes HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE set to “Flexible MAC-d PDU Size”, then DRNC shall only set in the HS-DSCH Initial Capacity Allocation IE the values for the peer of Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE to the values of the corresponding peer I in RADIO LINK RECONFIGURATION REQUEST in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE for a Priority Queue including Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE.
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-SCCH Power Offset IE in the HS-DSCH Information IE, then the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any HS-SCCH transmission to this UE.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the HS-DSCH and the DRNC shall include the HS-SCCH Specific Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[TDD – The DRNS shall allocate HS-SCCH parameters corresponding to the HS-DSCH and the DRNC shall include the [3.84Mcps TDD – HS-SCCH Specific Information Response IE] [1.28Mcps TDD – HS-SCCH Specific Information Response LCR IE] [7.68Mcps TDD – HS-SCCH Specific Information Response 7.68Mcps IE] in the HS-DSCH TDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HARQ Preamble Mode IE in the HS-DSCH Information IE, then the DRNS shall use the indicated HARQ Preamble Mode as described in TS 25.214 [10], if HS-DPCCH ACK/NACK preamble and postamble is supported. Then, in this case, if the mode 1 is applied, the DRNC shall include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If the HARQ Preamble Mode IE is not included or if the mode 0 is applied, then the DRNC shall not include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH MAC-d PDU Size Format IE in the HS-DSCH Information IE, then the DRNS shall use the indicated format in user plane frame structure for HS-DSCH channels (TS 25.425 [32]) and MAC-hs (TS 25.321 [41]). 
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the MIMO Activation Indicator IE or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH FDD Information IE, then]
-	[FDD – The DRNS shall activate the MIMO mode or MIMO with four transmit antennas mode or Dual Stream MIMO with four transmit antennas mode for the HS-DSCH Radio Link.]
-	[FDD – The DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO or MIMO with four transmit antennas, or Dual Stream MIMO with four transmit antennas and include the MIMO Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[1.28 Mcps TDD – If the MIMO Activation Indicator IE is included in the HS-DSCH TDD Information IE, then:]
-	[1.28 Mcps TDD – The DRNS shall activate the MIMO mode for the HS-DSCH Radio Link.]
-	[1.28 Mcps TDD – The DRNS shall decide the SF mode for HS-PDSCH dual stream and include the MIMO SF Mode for HS-PDSCH dual stream IE in the HS-DSCH TDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Information IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the HS-DSCH Radio Link.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH MAC-d PDU Size Format IE set to “Flexible MAC-d PDU Size” and if Sixtyfour QAM will not be used, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for HS-DSCH Transport Block Size signalling.]
-	[FDD – If the UE with enhanced HS-SCCH support indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS may use:]
-	[FDD – a different HS-SCCH in consecutive TTIs for this UE.]
-	[FDD – HS-SCCH orders for the case of HS-SCCH-less operation to this UE.]
-	[FDD – If the UE Support Indicator Extension IE is included in the HS-DSCH FDD Information IE the DRNS may use the supported HSDPA functions for this UE.]
-	[FDD - If the UE Support Indicator Extension IE is included in the HS-DSCH FDD Information IE with the bit UE DTXDRX related HS-SCCH orders uniform behavior indicator set to 0, then the DRNS shall, if supported, include the Support of Dynamic DTXDRX Related HS-SCCH Order IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If secondary serving HS-DSCH is applied also in the new configuration, then any changes related to parameters that are common for both the serving and the secondary serving HS-DSCH should be applied also for the secondary serving HS-DSCH.]
-	If the RADIO LINK RECONFIGURATION REQUEST message includes DL RLC PDU Size Format IE for a Priority Queue in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, the DL RLC PDU Size Format IE may be used by the DRNS to determine the allocated capacity on user plane as described in TS 25.425 [32]. 
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the UE Aggregate Maximum Bit Rate Enforcement Indicator IE in the Priority Queue Information IE in the HS-DSCH MAC-d Flows Information IE in the HS-DSCH Information IE, the DRNS shall, if supported, consider the data of the related HSDPA Priority Queue for UE Aggregate Maximum Bit Rate Enforcement.]
-	[FDD – If the Single Stream MIMO Activation Indicator IE is included in the HS-DSCH FDD Information IE, then the DRNS shall activate the Single Stream MIMO for the HS-DSCH Radio Link.]
-	[1.28 Mcps TDD – If the UE TS0 Capability LCR IE is included in the HS-DSCH TDD Information IE, then the DRNC may include the TS0 HS-PDSCH Indication LCR IE in the RADIO LINK RECONFIGURATION RESPONSE message if HS-PDSCH resources could be allocated on TS0 for the UE.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – If the CQI Feedback Cycle2 k IE and the CQI Cycle Switch Timer IE is included in HS-DSCH FDD Information IE, then the DRNS may use the indicated CQI Feedback Cycle2 k value, the CQI Cycle Switch Timer in HSDPA resources allocation for the UE.]
[FDD – Secondary Serving HS-DSCH Setup:]
[FDD – If the C-ID IE is present in the RADIO LINK RECONFIGURATION REQUEST message, no secondary serving HS-DSCH Radio Link(s) has been configured in the DRNS or if the new configuration contains more than one secondary serving HS-DSCH Radio Link, then if the Ordinal Number Of Frequency IEs, in the HS-DSCH FDD Secondary Serving Information IE or in the HS-DSCH FDD Secondary Serving Information To ModifyUnsynchronised IE for each instance of the Additional HS Cell Information RL Reconf Req IE, indicate that new secondary serving HS-DSCH Radio Link(s) shall be setup, then:]
-	[FDD – The DRNS shall setup the requested HS-PDSCH resources on the secondary serving HS-DSCH Radio Link indicated by the HS-PDSCH RL ID IE. Non cell specific secondary serving Radio Link and non cell specific secondary serving HS-DSCH parameters take the same values as for the serving HS-DSCH cell.]
-	[FDD – The DRNC shall allocate an HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-SCCH Power Offset IE in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any secondary serving HS-SCCH transmission to this UE.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the secondary serving HS-DSCH and the DRNC shall include the HS-SCCH Specific Secondary Serving Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the MIMO Activation Indicator IE or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the MIMO mode or MIMO with four transmit antennas mode or Dual Stream MIMO with four transmit antennas mode for the secondary serving HS-DSCH Radio Link and the DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO or MIMO with four transmit antennas, or Dual Stream MIMO with four transmit antennas and include the MIMO Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Secondary Serving Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Secondary Serving Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – If the Single Stream MIMO Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the Single Stream MIMO mode for the secondary serving HS-DSCH Radio Link.]
-	[FDD - If the Ordinal Number Of Frequency IE is included in the HS-DSCH FDD Secondary Serving Information IE, and the new configuration contains more than one secondary serving HS-DSCH Radio Link, then the DRNS shall use this value in the physical layer.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the secondary serving HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If, in the new configuration, the UE context is configured not to use Sixtyfour QAM for the secondary serving HS-DSCH, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for secondary serving HS-DSCH Transport Block Size signalling.]
	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
Intra-DRNS Serving HS-DSCH Radio Link Change:
If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-PDSCH RL ID IE, this indicates the new Serving HS-DSCH Radio Link:
-	The DRNS shall release the HS-PDSCH resources on the old Serving HS-DSCH Radio Link and setup the HS-PDSCH resources on the new Serving HS-DSCH Radio Link.
-	If fields are to be included in the User Plane by the SRNC to handle TNL Congestion Control for HSDPA in the DRNS, then the DRNC shall include the User Plane Congestion Fields Inclusion IE in the HS-DSCH Information Response IE.
-	The DRNC may include the HARQ Memory Partitioning IE in the [FDD – HS-DSCH FDD Information Response IE] [TDD – HS-DSCH TDD Information Response IE] in the RADIO LINK RECONFIGURATION RESPONSE message. [FDD – The HARQ Memory Partitioning IE may contain the HARQ Memory Partitioning Information Extension For MIMO IE.] [1.28Mcps TDD– The HARQ Memory Partitioning IE may contain the HARQ Memory Partitioning Information Extension For MIMO IE.]
-	The DRNC shall allocate a new HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the RADIO LINK RECONFIGURATION RESPONSE message.
-	If a reset of the MAC-hs is not required the DRNS shall include the MAC-hs Reset Indicator IE in the RADIO LINK RECONFIGURATION RESPONSE message.
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the HS-DSCH and the DRNC shall include the HS-SCCH Specific Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[TDD – The DRNS shall allocate HS-SCCH parameters corresponding to the HS-DSCH and the DRNC shall include the [3.84Mcps TDD – HS-SCCH Specific Information Response IE] [1.28Mcps TDD – HS-SCCH Specific Information Response LCR IE] [7.68 Mcps TDD – HS-SCCH Specific Information Response 7.68 Mcps IE] in the HS-DSCH TDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[TDD – The DRNC shall include the [3.84 Mcps TDD – HS-PDSCH Timeslot Specific Information IE] [1.28 Mcps TDD – HS-PDSCH Timeslot Specific Information LCR IE] [7.68 Mcps TDD – HS-PDSCH Timeslot Specific Information 7.68 Mcps IE]in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
    • [FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	The DRNC may include the Transport Layer Address IE and the Binding ID IE for HS-DSCH MAC-d flow in the [FDD – HS-DSCH FDD Information Response IE] [TDD – HS-DSCH TDD Information Response IE] in the RADIO LINK RECONFIGURATION RESPONSE message.
-	If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.
-	[FDD - If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH Information To Modify Unsynchronised IE and the value is set to "allowed" or if HS-DSCH Information To Modify Unsynchronized IE is not included and the UE Context is configured with Sixtyfour QAM allowed for the serving HS-DSCH Radio Link and not used in the current configuration and then if the DRNS decides to use 64 QAM in the new configuration, then it shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If MAC-ehs is applied in the new configuration, and if Sixtyfour QAM will not be used, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for HS-DSCH Transport Block Size signalling.]
-	[FDD – If the power offset for S-CPICH for MIMO Request indicator and MIMO activation indicator have been configured in the new configuration and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the DRNC shall include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the power offset for S-CPICH for MIMO with four transmit antennas Request indicator and MIMO with four transmit antennas activation indicator, or Dual Stream MIMO with four transmit antennas Activation Indicator have been configured in the new configuration and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the DRNC shall include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – Intra-DRNS Secondary Serving HS-DSCH Radio Link Change:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the C-ID IE in the Additional HS Cell Information RL Reconf Req IE, one or more secondary serving HS-DSCH Radio Link(s) has been configured in the DRNS and if the new configuration contains more than one secondary serving HS-DSCH Radio Link, then if the Ordinal Number Of Frequency IEs, in the HS-DSCH FDD Secondary Serving Information IE for each instance of the Additional HS Cell Information RL Reconf Req IE, indicate that existing secondary serving HS-DSCH Radio Links shall be subject to intra-DRNS secondary serving HS-DSCH Radio Link change, then the HS-PDSCH RL ID IE indicates the new Serving HS-DSCH Radio Link:]
-	[FDD – The DRNS shall release the HS-PDSCH resources on the old secondary serving HS-DSCH Radio Link and setup the HS-PDSCH resources on the new secondary serving HS-DSCH Radio Link. The DRNS shall remove the old secondary serving HS-PDSCH Radio Link if no E-DCH resources are allocated to the RL. Non cell specific secondary serving Radio Link and non cell specific secondary serving HS-DSCH parameters take the same values as for the serving HS-DSCH cell.]
-	[FDD – The DRNC shall allocate a new HS-DSCH-RNTI to the UE Context and include the HS-DSCH-RNTI IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – The DRNC shall include the Measurement Power Offset IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD - If the Ordinal Number Of Frequency IE is included in the HS-DSCH FDD Secondary Serving Information IE, and the new configuration contains more than one secondary serving HS-DSCH Radio Link, then the DRNS shall use this value in the physical layer.]
-	[FDD – The DRNS shall allocate HS-SCCH codes corresponding to the secondary serving HS-DSCH and the DRNC shall include the HS-SCCH Specific Secondary Serving Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – The DRNC shall include the HS-PDSCH And HS-SCCH Scrambling Code IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD - If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE and the value is set to "allowed" or if HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE is not included and the UE context is configured with Sixtyfour QAM allowed for the secondary serving HS-DSCH Radio Link and not used in the current configuration and then if the DRNS decides to use 64 QAM for the new secondary serving HS-DSCH Radio Link, then it shall include the SixtyfourQAM DL Usage Indicator IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If, in the new configuration, the UE context is configured not to use Sixtyfour QAM for the secondary serving HS-DSCH, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for secondary serving HS-DSCH Transport Block Size signalling.]
-	[FDD - If the old and/or new configuration contains more than one Secondary Serving HS-DSCH Radio Link the HS-DSCH FDD Secondary Serving Information IE defines the new secondary serving HS-DSCH configuration in the DRNS to be used on the new secondary serving HS-DSCH Radio Link, and then:]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-SCCH Power Offset IE in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any secondary serving HS-SCCH transmission to this UE.]
-	[FDD – If the MIMO Activation Indicator IE or MIMO with four transmit antennas Activation Indicator IE, or Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the MIMO mode or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the secondary serving HS-DSCH Radio Link and the DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO or MIMO with four transmit antennas, or Dual Stream MIMO with four transmit antennas mode and include the MIMO Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the HS-DSCH Secondary Serving Cell Change Information Response IE in the Additional HS Cell Change Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the Single Stream MIMO Activation Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS shall activate the Single Stream MIMO mode for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the secondary serving HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If the power offset for S-CPICH for MIMO Request indicator and MIMO activation indicator have been configured in the new configuration and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, the DRNC shall include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Secondary Serving Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the power offset for S-CPICH for MIMO with four transmit antennas Request indicator and MIMO with four transmit antennas activation indicator, or Dual Stream MIMO with four transmit antennas activation indicator have been configured in the new configuration and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, the DRNC shall include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Secondary Serving Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – Additional Serving E-DCH Radio Link Change to an existing additional non serving E-DCH RL:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the C-ID IE in the Additional HS Cell Information RL Reconf Req IE and an additional non serving E-DCH RL exists in the cell indicated by the C-ID IE, the HS-PDSCH RL ID IE in the HS Cell Information RL Reconf Req IE indicates the new Additional Serving E-DCH Radio Link.]
-	[FDD – If the old Additional Serving E-DCH RL is within this DRNS, the DRNS shall de-allocate the E-AGCH resources of the old Additional Serving E-DCH Radio Link at the activation of the new configuration.]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Additional Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – The DRNS may include the Serving Grant Value IE and Primary/Secondary Grant Selector IE in the E-DCH FDD DL Control Channel Information IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message for the initial grant for the Additional serving E-DCH RL and may include the Default Serving Grant in DTX Cycle 2 IE.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION READY message.]
-	[FDD – The DRNS may include the E-RGCH/E-HICH Channelisation Code IE and/or the E-HICH Signature Sequence IE and/or the E-RGCH Signature Sequence IE or may alternatively include the E-RGCH Release Indicator IE in the E-DCH FDD DL Control Channel Information IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message for every E-DCH Radio Link on secondary UL frequency in the DRNS. If the DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE in the E-DCH FDD DL Control Channel Information IE then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE in the E-DCH FDD DL Control Channel Information IE, to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.] 
[FDD – Additional Serving E-DCH Radio Link Change to a new RL:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Additional E-DCH RL Specific Information To Add IE in the Additional E-DCH Configuration Change Information IE in the Additional E-DCH Cell Information RL Reconf Req IE and the C-ID IE in the Additional HS Cell Information RL Reconf Req IE and there is no radio links in the cell indicated by the C-ID IE for the UE context, the HS-PDSCH RL ID IE indicates the new Additional Serving E-DCH Radio Link on secondary UL frequency.]
-	[FDD – If the old Additional Serving E-DCH RL is within this DRNS, the DRNS shall de-allocate the E-AGCH resources of the old Additional Serving E-DCH Radio Link at the activation of the new configuration.]
-	[FDD – In the new configuration the DRNS shall allocate the E-DCH resources for the new additional serving E-DCH Radio Link on the secondary UL frequency. Non cell specific E-DCH parameters shall take the same values as for the corresponding cell of the Primary uplink frequency.]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Additional Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – The DRNS may include in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the additional serving E-DCH RL and may include the Default Serving Grant in DTX Cycle 2 IE.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message. ]
HS-DSCH Modification:
If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH Information To Modify Unsynchronised IE, then:
-	The DRNC shall include the HS-DSCH Initial Capacity Allocation IE for each HS-DSCH MAC-d flow being modified for which the establishment of one or several new Priority Queues was requested, if the DRNS allows the SRNC to start the transmission of MAC-d PDUs for the Priority Queue(s) being established before the DRNS has allocated capacity on user plane as described in TS 25.425 [32]. If UE context is configured to use “Flexible MAC-d PDU Size”, then DRNC shall only set in the HS-DSCH Initial Capacity Allocation IE the values for the peer of Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE to the values of the corresponding peer for the Priority Queue of UE context.
-	If the RADIO LINK RECONFIGURATION REQUEST message includes the Traffic Class IE in the HS-DSCH Information To Modify Unsynchronised IE for a specific HS-DSCH MAC-d flow, the DRNS may use this information to determine the transport bearer characteristics to apply between DRNC and Node B. The DRNC should ignore the Traffic Class IE if the TrCH Source Statistics Descriptor IE for this specific HS-DSCH MAC-d flow indicates the value “RRC”.
-	If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.
-	If the RADIO LINK RECONFIGURATION REQUEST message includes the MAC-hs Guaranteed Bit Rate IE in the HS-DSCH Information To Modify Unsynchronised IE, the DRNS shall use this information to optimise MAC-hs scheduling decisions for the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION REQUEST message includes the Discard Timer IE for a Priority Queue in the HS-DSCH Information To Modify Unsynchronised IE, then the DRNS shall use this information to discard out-of-date MAC-hs SDUs from the related HSDPA Priority Queue.
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the ACK Power Offset IE, the NACK Power Offset IE or the CQI Power Offset IE in the HS-DSCH Information To Modify Unsynchronised IE, then the DRNS shall use the indicated ACK Power Offset, the NACK Power Offset or the CQI Power Offset in the new configuration.]
-	[FDD – If the HS-SCCH Power Offset IE is included in the HS-DSCH Information To Modify Unsynchronised IE, the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any HS-SCCH transmission to this UE.]
-	[TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the TDD ACK NACK Power Offset IE in the HS-DSCH Information To Modify Unsynchronised IE, the DRNS shall use the indicated power offset in the new configuration.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HARQ Preamble Mode IE in the HS-DSCH Information To ModifyUnsynchronised IE, then the DRNS shall use the indicated HARQ Preamble Mode in the new configuration as described in TS 25.214 [10], if HS-DPCCH ACK/NACK preamble and postamble is supported. Then, in this case, if the mode 1 is applied, the DRNC shall include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If the HARQ Preamble Mode IE is not included or if the mode 0 is applied, then the DRNC shall not include the HARQ Preamble Mode Activation Indicator IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Mode Indicator IE is included in the HS-DSCH Information To Modify Unsynchronised IE, then:]
-	[FDD – The DRNS shall activate/deactivate the MIMO mode or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the HS-DSCH Radio Link in the new configuration in accordance with the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Mode Indicator IE.]
-	[FDD – If the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Mode Indicator IE is set to “Activate”, then the DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO and include the MIMO Information Response IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the MIMO Mode Indicator IE is set to “Activate” and Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Information Response IE. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the MIMO with four transmit antennas Mode Indicator IE or Dual Stream MIMO with four transmit antennas Mode Indicator IE is set to “Activate” and Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Information Response IE. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – The DRNC may include the HARQ Memory Partitioning IE in the RADIO LINK RECONFIGURATION RESPONSE message. The HARQ Memory Partitioning IE may contain the HARQ Memory Partitioning Information Extension For MIMO IE.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH Information To Modify Unsynchronised IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH Information To Modify Unsynchronised IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the HS-DSCH Radio Link.]
-	[FDD – If MAC-ehs is applied in the new configuration, and if Sixtyfour QAM will not be used, the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for HS-DSCH Transport Block Size signalling.]
-	[1.28Mcps TDD- If the MIMO Mode Indicator IE is included in the HS-DSCH Information To Modify Unsynchronised IE, then:]
-	[1.28Mcps TDD- The DRNS shall activate/deactivate the MIMO mode for the HS-DSCH Radio Link in the new configuration in accordance with the MIMO Mode Indicator IE.]
-	[1.28 Mcps TDD – If the MIMO Mode Indicator IE is set to “Activate”, then the DRNS shall decide the SF mode for HS-PDSCH dual stream and include the MIMO SF Mode for HS-PDSCH dual stream IE in the HS-DSCH TDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – Any secondary serving HS-DSCH that was applied in the old configuration shall remain in the new configuration unless it is explicitly removed.]
-	[FDD – If secondary serving HS-DSCH is applied also in the new configuration, then any changes related to parameters that are common for both the serving and the secondary serving HS-DSCH should be applied also for the secondary serving HS-DSCH.]
-	[FDD – If the UE Support Indicator Extension IE is included in the HS-DSCH Information To Modify Unsynchronised IE the DRNS may use the supported HSDPA functions for this UE.]
-	[FDD - If the UE Support Indicator Extension IE is included in the HS-DSCH Information To Modify IE with the bit UE DTXDRX related HS-SCCH orders uniform behavior indicator set to 0, then the DRNS shall, if supported, include the Support of Dynamic DTXDRX Related HS-SCCH Order IE in the HS-DSCH FDD Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the Single Stream MIMO Mode Indicator IE is included in the HS-DSCH Information To Modify Unsynchronised IE, then the DRNS shall activate/deactivate the Single Stream MIMO for the HS-DSCH Radio Link in accordance with the Single Stream MIMO Mode Indicator IE.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – Secondary Serving HS-DSCH Modification:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE in the Additional HS Cell Information RL Reconf Req IE, then:]
-	[FDD – If the HS-SCCH Power Offset IE is included in the HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE, the DRNS may use this value to determine the HS-SCCH power. The HS-SCCH Power Offset should be applied for any secondary serving HS-SCCH transmission to this UE.]
-	[FDD – If the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE or Dual Stream MIMO with four transmit antennas Mode Indicator IE is included in the HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE, then the DRNS shall activate/deactivate the MIMO mode or MIMO with four transmit antennas mode, or Dual Stream MIMO with four transmit antennas mode for the secondary serving HS-DSCH Radio Link in accordance with the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Mode Indicator IE.]
-	[FDD – If the MIMO Mode Indicator IE or MIMO with four transmit antennas Mode Indicator IE, or Dual Stream MIMO with four transmit antennas Mode Indicator IE is set to “Activate”, then the DRNS shall decide the pilot configuration and the UE reporting configuration (N/M ratio) according to TS 25.214 [10] for MIMO or MIMO with four transmit antennas, or Dual Stream MIMO with four transmit antennas and include the MIMO Information Response IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the MIMO Mode Indicator IE is set to “Activate” and Power Offset For S-CPICH for MIMO Request Indicator IE is included, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH FDD Secondary Serving Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the MIMO with four transmit antennas Mode Indicator IE is set to “Activate” or Dual Stream MIMO with four transmit antennas Mode Indicator IE is set to “Activate” and Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is included, the DRNC shall, if supported and MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Secondary Serving HS-DSCH Radio Link is established, include the Power Offset For S-CPICH for MIMO with four transmit antennas IE in the HS-DSCH FDD Secondary Serving Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO with four transmit antennas IE.]
-	[FDD – If the Single Stream MIMO Mode Indicator IE is included in the HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE, then the DRNS shall activate/deactivate the Single Stream MIMO mode for the secondary serving HS-DSCH Radio Link in accordance with the Single Stream MIMO Mode Indicator IE.]
-	[FDD - If the Ordinal Number Of Frequency IE is included in the HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE, and the new configuration contains more than one secondary serving HS-DSCH Radio Link, then the DRNS shall use this value in the physical layer.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE, then the DRNS may if the value is set to “allowed” use 64 QAM for the secondary serving HS-DSCH Radio Link, and the DRNS shall include the SixtyfourQAM DL Usage Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the Sixtyfour QAM Usage Allowed Indicator IE is included in the HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE with value set to “not allowed”, then the DRNS shall not use 64 QAM for the secondary serving HS-DSCH Radio Link.]
-	[FDD – If, in the new configuration, the UE context is configured to use the “Flexible MAC-d PDU Size” format and if Sixtyfour QAM will not be used for the secondaery serving HS-DSCH, then the DRNS shall include the HS-DSCH TB Size Table Indicator IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message if it decides to use the octet aligned table defined in TS 25.321 [41] for secondary serving HS-DSCH Transport Block Size signalling.]
-	[FDD – The DRNS may include the Precoder weight set restriction IE in the HS-DSCH FDD Secondary Serving Information Response IE in the Additional HS Cell Information Response IE in the RADIO LINK RECONFIGURATION READY message.]
[FDD – Secondary Serving HS-DSCH Removal:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH Secondary Serving Remove IE in the Additional HS Cell Information RL Reconf Req IE, then the indicated secondary serving HS-DSCH Radio Link shall be removed.]
HS-DSCH MAC-d Flow Addition/Deletion:
If the RADIO LINK RECONFIGURATION REQUEST message includes any HS-DSCH MAC-d Flows To Add or HS-DSCH MAC-d Flows To Delete IEs, then the DRNS shall use this information to add/delete the indicated HS-DSCH MAC-d flows on the Serving HS-DSCH Radio Link. When an HS-DSCH MAC-d flow is deleted, all its associated Priority Queues shall also be removed.
If the RADIO LINK RECONFIGURATION REQUEST message includes an HS-DSCH MAC-d Flows To Delete IE requesting the deletion of all remaining HS-DSCH MAC-d flows for the UE Context, then the DRNC shall delete the HS-DSCH configuration from the UE Context and release the HS-PDSCH resources.
If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH MAC-d Flows To Add IE, then:
-	The DRNS may use the Traffic Class IE for a specific HS-DSCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the HS-DSCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.
-	If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related MAC-d flow.
-	The DRNC shall include the HS-DSCH Initial Capacity Allocation IE in the RADIO LINK RECONFIGURATION RESPONSE message for every HS-DSCH MAC-d flow being added, if the DRNS allows the SRNC to start transmission of MAC-d PDUs before the DRNS has allocated capacity on user plane as described in TS 25.425 [32]. If the UE context is configured to use the “Flexible MAC-d PDU Size” format for the HS-DSCH, then DRNC shall only set in the HS-DSCH Initial Capacity Allocation IE the values for the peer of Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE to the values of the corresponding peer I in RADIO LINK RECONFIGURATION REQUEST message in the HS-DSCH MAC-d Flows To Add IE for a Priority Queue including Scheduling Priority Indicator IE and Maximum MAC-d PDU Size Extended IE.
-	If the RADIO LINK RECONFIGURATION REQUEST message includes the MAC-hs Guaranteed Bit Rate IE in the HS-DSCH MAC-d Flows To Add IE, the DRNS shall use this information to optimise MAC-hs scheduling decisions for the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a Priority Queue in the HS-DSCH MAC-d Flows To Add IE, then the DRNC shall ignore the SID IE and MAC-d PDU Size IE in the MAC-d PDU Size Index IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related HSDPA Priority Queue.
-	If the RADIO LINK RECONFIGURATION REQUEST message includes DL RLC PDU Size Format IE for a Priority Queue in the HS-DSCH MAC-d Flows To Add IE, the DL RLC PDU Size Format IE may be used by the DRNS to determine the allocated capacity on user plane as described in TS 25.425 [32].
-	[FDD – FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the UE Aggregate Maximum Bit Rate Enforcement Indicator IE for a Priority Queue in the HS-DSCH MAC-d Flows To Add IE, the DRNS shall, if supported, consider the data of the related HSDPA Priority Queue for UE Aggregate Maximum Bit Rate Enforcement.]
If the RADIO LINK RECONFIGURATION REQUEST message includes the Discard Timer IE for a Priority Queue in the HS-DSCH MAC-d Flows To Add IE, then the DRNS shall use this information to discard out-of-date MAC-hs SDUs from the related HSDPA Priority Queue.
[FDD – HS-DSCH Preconfiguration for Enhanced HS Serving Cell Change]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH Preconfiguration Setup IE in the RL Information IE the DRNS shall, if supported, preconfigure the indicated cells for Enhanced HS Serving Cell Change acoording to TS 25.308 [63]:]
-	[FDD – The DRNS shall preconfigure sets of HS-SCCH codes on the cells preconfigured for HS-DSCH, primary serving HS-DSCH cell, as well as on the secondary serving HS-DSCH cells. The primary serving HS-DSCH cell is designated through the C-ID IE part of the RL Information IE in the RADIO LINK RECONFIGURATION REQUEST message. The list of secondary serving HS-DSCH cells is designated by the list of Secondary C-ID IEsin the HS-DSCH Preconfiguration Setup IE part of the RL Information IE in the RADIO LINK RECONFIGURATION REQUEST message.]
-	[FDD – The number of HS-SCCH codes to preconfigure for each cell may be optionally specified: ]
-	[FDD – by the Num Primary HS-SCCH Codes IE in the HS-DSCH Preconfiguration Setup IE, for the primary serving HS-DSCH cell.]
-	[FDD – by the Num Secondary HS-SCCH Codes IE in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE for each of the secondary serving HS-DSCH cells.]
-	[FDD – If Num Primary HS-SCCH Codes IE or Num Secondary HS-SCCH Codes IE is not included in the message the number and distribution of codes on primary and any secondary cells shall be preconfigured to satisfy any limitations in TS 25.214 [10]. ]
-	[FDD – The DRNS shall return these codes in the Sets of HS-SCCH Codes IE along with the corresponding per- cell HS-DSCH-RNTI IE in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE of the RADIO LINK RECONFIGURATION RESPONSE.]
-	[FDD – The DRNS shall use the first in the numbered list the primary serving HS-DSCH cell’s of HS-SCCH codes in the HS-SCCH Preconfigured Codes IE sent to the SRNC to signal the Target Cell HS-SCCH Order defined in TS 25.331 [16].]
-	[FDD – The DRNS shall include, in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message, IEs according to the rules defined for HS-DSCH Setup at Serving HS-DSCH Radio Link Change and:]
-	[FDD – if HARQ Preamble Mode IE is included in the HS-DSCH Preconfiguration Setup IE the HARQ Preamble Mode Activation Indicator IE.]
-	[FDD – if MIMO Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE the MIMO N/M Ratio IE.]
-	[FDD – if Ordinal number of frequency IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE]
-	[FDD – if MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE the MIMO N/M Ratio IE.]
-	[FDD – if Dual Stream MIMO with four transmit antennas Activation Indicator IE is included in the HS-DSCH Preconfiguration Setup IE the MIMO N/M Ratio IE.]
-	[FDD – if Multiflow ordinal number of frequency IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE]
-	[FDD – if HS-DSCH MAC-d PDU Size Format IE is included in the HS-DSCH Preconfiguration Setup IE and set to "Flexible MAC-d PDU Size" and if Sixtyfour QAM will not be used for the cell in the preconfiguration the HS-DSCH TB Size Table Indicator IE for each preconfigured cell.]
-	[FDD – if Sixtyfour QAM Usage Allowed Indicator IE is included in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE or in the HS-DSCH Preconfiguration Setup IE the SixtyfourQAM DL Usage Indicator IE for each preconfigured cell.]
-	[FDD – if Continuous Packet Connectivity HS-SCCH less Information IE is included in the HS-DSCH Preconfiguration Setup IE the Continuous Packet Connectivity HS-SCCH less Information Response IE.]
-	[FDD – if the UE with enhanced HS-SCCH support indicator IE is included in the HS-DSCH Preconfiguration Setup IE, then the DRNS shall store this information in the preconfigured configuration.]
-	[FDD – the SixtyfourQAM DL Support Indicator IE may be included.]
-	[FDD – If the UE Support Indicator Extension IE is included in the HS-DSCH Preconfiguration Setup IE, then the DRNS may store this information in the preconfigured configuration.]
-	[FDD - If the UE Support Indicator Extension IE is included in the HS-DSCH Preconfiguration Setup IE with the bit UE DTXDRX related HS-SCCH orders uniform behavior indicator set to 0, then the DRNS shall, if supported, include the Support of Dynamic DTXDRX Related HS-SCCH Order IE in the Preconfiguration Info IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – the DRNS shall, if supported, include in the Sets of HS-SCCH Codes IE the Measurement Power Offset IE for each preconfigured cell.]
-	[FDD – The DRNS shall include in the HS-DSCH Preconfiguration Info IE in the RL Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message the E-DCH FDD DL Control Channel Information containing the preconfigured configuration of the E-DCH serving cell according to the rules defined for Serving E-DCH Radio Link Change as follows:]
-	[FDD – The DRNS shall allocate for the preconfigured configuration a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE.]
-	[FDD – The DRNS may preconfigure the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the serving E-DCH RL and include these values in the E-DCH FDD DL Control Channel Information IE.]
-	[FDD – If the Power Offset For S-CPICH for MIMO Request Indicator IE is included in the HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE, the DRNC shall, if supported and MIMO pilot configuration with Primary and Secondary CPICH is set up on the cell with a non-zero power offset where HS-DSCH / secondary HS-DSCH is preconfigured, include the Power Offset For S-CPICH for MIMO IE in the HS-DSCH Preconfiguration Info IE or in the Sets of HS-SCCH Codes IE in the HS-DSCH Preconfiguration Info IE for each preconfigured cell in the RADIO LINK RECONFIGURATION RESPONSE message. If zero power offset the DRNC may include the Power Offset For S-CPICH for MIMO IE.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the Multiflow Information IE, then the DRNC shall allocate resources for the preconfigured Multiflow.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the F-TPICH Information IE, then the DRNC shall allocate resources for the preconfigured F-TPICH channel and include F-TPICH Information Response IE in the HS-DSCH Preconfiguration Info IE.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the UL CLTD Information IE, then the DRNC shall allocate resources for the preconfigured UL CLTD.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the UL MIMO Information IE, then the DRNC shall allocate resources for the preconfigured UL MIMO.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the SixteenQAM UL Operation Indicator IE, then the DRNC shall allocate resources for the preconfigured UL Sixteen QAM.]
-	[FDD – If the HS-DSCH Preconfiguration Setup IE includes the SixtyfourQAM UL Operation Indicator IE, then the DRNC shall allocate resources for the preconfigured UL Sixtyfour QAM.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Non-Serving RL Preconfiguration Setup IE in the RL Information IE and:]
-	[FDD – if the choice of new Serving RL is "New Serving RL in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE and/or New non-serving RL E-DCH FDD DL Control Channel Information B IE in the Non-Serving RL Preconfiguration Info IE for the RL in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – if the choice of new Serving RL is "New Serving RL Not in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information C IE in the Non-Serving RL Preconfiguration Info IE for the RL in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – if the choice of new Serving RL is "New Serving RL in the DRNS or New Serving RL Not in the DRNS", the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE, the New non-serving RL E-DCH FDD DL Control Channel Information B IE and/or the New non-serving RL E-DCH FDD DL Control Channel Information C for the RL in the Non-Serving RL Preconfiguration Info IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – if the Additional E-DCH Non-Serving RL Preconfiguration Setup IE is included, the DRNC may include the New non-serving RL E-DCH FDD DL Control Channel Information A IE, the New non-serving RL E-DCH FDD DL Control Channel Information B IE and/or the New non-serving RL E-DCH FDD DL Control Channel Information C IE according to the choice of new Serving RL in Additional E-DCH New non-serving RL E-DCH FDD DL Control Channel Information IE for the additional non serving E-DCH RL in the Non-Serving RL Preconfiguration Info IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
 -	[FDD –If the F-TPICH Information IE is included, the DRNC shall use this information to allocate resources for the preconfigured F-TPICH channel for this RL in the serving RLS according to TS 25.211 [8], and include F-TPICH Information Response IE in the Non-Serving RL Preconfiguration Info IE.]
[FDD – Enhanced HS Serving Cell Change:]
[FDD –-Upon receipt of the RADIO LINK RECONFIGURATION REQUEST message, if the Enhanced HS Serving Cell Change is preconfigured in the DRNS for the UE context, the DRNS may execute the Enhanced HS Serving Cell Change procedure according to TS 25.308 [63].]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Enhanced HS Serving CC Abort IE in the HS-DSCH Information To Modify Unsynchronised IE or the HS-DSCH FDD Information IE then the DRNS shall not execute the unsynchronized Enhanced HS Serving Cell Change procedure when performing the Serving HS-DSCH Radio Link Change or the HS-DSCH Setup.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the No of Target Cell HS-SCCH Order IE then the DRNS shall repeat the Target Cell HS-SCCH Order on the HS-SCCH the number of times defined in the IE.]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes the Non-Serving RL Preconfiguration Removal IE, the DRNC shall remove the corresponding preconfigured E-DCH DL Control Channel Information according to the information.]
[FDD – Multiflow Setup:]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes the Multiflow Information IE in HS-DSCH Information IE, or Multiflow Reconfiguration IE in HS-DSCH Information To Modify IE and the choice of Setup or Change or Stop is “Setup”, then the DRNS shall setup the requested Multiflow operation.]
[FDD – Multiflow Modification:]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes Multiflow Reconfiguration IE in HS-DSCH Information To Modify IE and the choice of Setup or Change or Stop is “Change”, then the DRNS shall apply the new configuration.]
[FDD – Multiflow Removal:]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes the Multiflow Reconfiguration IE in HS-DSCH Information To Modify IE, and the choice of Setup or Change or Stop is “Stop”, then the DRNS shall terminate the Multiflow operation.]
[FDD – E-DCH Setup:]
[FDD – If the E-DCH FDD Information IE is present in the RADIO LINK RECONFIGURATION REQUEST message then:]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH Logical Channel information IE in the E-DCH FDD Information IE, then the DRNS shall use this information to optimise MAC-e scheduling decisions.] 
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes UE Aggregate Maximum Bit Rate Enforcement Indicator IE in the E-DCH Logical Channel Information IE in the E-DCH FDD Information IE, the DRNS shall, if supported, consider the data of the related E-DCH Logical Channel for UE Aggregate Maximum Bit Rate Enforcement.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information IE in the E-DCH Information IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel and use the indicated format in user plane frame structure for E-DCH channels (TS 25.425 [32]) and MAC (TS 25.321 [41]).]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH MAC-d Flow Multiplexing List IE for an E-DCH MAC-d flow the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If in the RADIO LINK RECONFIGURATION REQUEST message the E-DCH Grant Type is indicated as being “E-DCH Non-Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume non-scheduled grants being configured for that E-DCH MAC-d flow and shall use the information within the HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant IE, if included, for the related resource allocation operation.]
-	[FDD – If in the RADIO LINK RECONFIGURATION REQUEST message the E-DCH Grant Type is indicated as being “E-DCH Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume scheduled grants being configured for that E-DCH MAC-d flow.]
-	[FDD – The DRNS may use the Traffic Class IE for a specific E-DCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the E-DCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.]
-	[FDD – If the TNL QoS IE is included for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Bundling Mode Indicator IE for a E-DCH MAC-d flow in the E-DCH MAC-d Flow Specific Information IE in the E-DCH FDD Information IE and the Bundling Mode Indicator IE is set to “Bundling” and the E-TTI IE is set to “2ms”, then the DRNS shall use the bundling mode for the E-DCH UL data frames for the related Mac-d flow, otherwise the DRNS shall use the non-bundling mode for the E-DCH UL data frames for the related Mac-d flow.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Maximum Bitrate IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-DPCCH/E-DPDCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH ReferencePower Offset IE, then the DRNS may use this value as a default HARQ power offset if it is not able to decode the MAC-e PDU and to determine the value of the actual HARQ power offset.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the UPH Filtering Measurement Forwarding Request IE, then the DRNS shall use this instruction to handle the UE UPH filtering measurement.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-AGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-AGCH power. The E-AGCH Power Offset should be applied for any E-AGCH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-RGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-RGCH power for the RL. The E-RGCH Power Offset should be applied for any E-RGCH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-HICH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-HICH power for the RL. The E-HICH Power Offset should be applied for any E-HICH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes an E-DPCH Information IE which contains the HS-DSCH Configured Indicator IE and/or the Maximum Set of E-DPDCHs IE, and/or the Puncture Limit IE and/or the E-TTI IE, the DRNS shall use and apply the value(s) in the new configuration.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the SixteenQAM UL Operation Indicator IE, the DRNS shall activate/deactivate SixteenQAM UL Operation for the RL in accordance with the SixteenQAM UL Operation Indicator IE.]
-	[FDD – If SixteenQAM UL Operation is activated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 2 according to TS 25.321 [41]. If SixteenQAM UL Operation is deactivated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 1 according to TS 25.321 [41].]
[FDD – E-DCH Radio Link Handling:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH RL Indication IE in the RL Information IE:]
-	[FDD – The DRNC shall setup the E-DCH resources, as requested or as configured in the UE context, on the Radio Links indicated by the E-DCH RL Indication IE, set to “E-DCH”, in the RL Information IE.]
-	[FDD – The DRNC may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNC may include the corresponding E-RGCH Signature Sequence IE in the E-DCH FDD DL Control Channel Information IE in the RADIO LINK RECONFIGURATION RESPONSE message for every RL indicated by the E-DCH RL Indication IE, set to “E-DCH”, in the RL Information IE.]
-	[FDD – The DRNC shall remove the E-DCH resources, if any, on the Radio Links, that are indicated by the E-DCH RL Indication set to “Non E-DCH”.]
-	[FDD – For each RL for which the E-DCH RL Indication IE is set to “E-DCH”, and which has or can have a common generation of E-RGCH information with another RL (current or future) when the DRNS would contain the E-DCH serving RL, the DRNS shall include the E-DCH RL Set ID IE in the RADIO LINK RECONFIGURATION RESPONSE message. The value of the E-DCH RL Set ID IE shall allow the SRNC to identify the E-DCH RLs that have or can have a common generation of E-RGCH information.]
[FDD – Serving E-DCH Radio Link Change:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Serving E-DCH RL IE, this indicates the new Serving E-DCH Radio Link:]
-	[FDD – If the old Serving E-DCH RL is within this DRNS, the DRNS shall de-allocate the E-AGCH resources of the old Serving E-DCH Radio Link.]
-	[FDD – If the new Serving E-DCH RL is within this DRNS:]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the new Serving E-DCH Radio Link and include these E-RNTI identifiers along with the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the RL Information Response IE for the indicated RL in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – The DRNS may include the Serving Grant Value IE and Primary/Secondary Grant Selector IE in the RADIO LINK RECONFIGURATION RESPONSE message for the initial grant for the new serving E-DCH RL.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled and/or non-scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If a serving cell change is performed the RADIO LINK RECONFIGURATION RESPONSE message may contain invalid data (see 9.2.2.4C).]
-	[FDD – The DRNS may include the Default Serving Grant in DTX Cycle 2 IE in the RADIO LINK RECONFIGURATION RESPONSE message for the new serving E-DCH RL.]
-	[FDD – The DRNS may include the E-RGCH/E-HICH Channelisation Code IE and/or the E-HICH Signature Sequence IE and/or the E-RGCH Signature Sequence IE or may alternatively include the E-RGCH Release Indicator IE in the E-DCH FDD DL Control Channel Information IE in the RADIO LINK RECONFIGURATION RESPONSE message for every E-DCH Radio Links in the DRNS.]
-	[FDD – If the DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE in the E-DCH FDD DL Control Channel Information IE in the RADIO LINK RECONFIGURATION RESPONSE message, then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE in the E-DCH FDD DL Control Channel Information IE, to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.]
[FDD – E-DCH Modification:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH FDD Information To Modify IE, then:]
-	[FDD – If the E-DCH FDD Information To Modify IE contains a E-DCH MAC-d Flow Specific Information IE which includes the Allocation/Retention Priority IE, the DRNS shall apply the new Allocation/Retention Priority to this E-DCH in the new configuration according to Annex A.]
-	[FDD – If the TNL QoS IE is included for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[FDD – If Traffic Class IE is included for an E-DCH MAC-d flow the DRNS may use the Traffic Class IE for a specific E-DCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. The DRNC should ignore the Traffic Class IE if the TrCH Source Statistics Descriptor IE for this specific E-DCH MAC-d flow indicates the value “RRC”.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Data Description Indicator IE, the DRNC shall use the DDI values indicated in the Data Description Indicator IE in the new configuration.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH FDD Information To Modify IE, the DRNS shall use this information to optimise MAC-e scheduling decisions.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Maximum Number of Retransmissions for E-DCH IE for an E-DCH MAC-d flow in the E-DCH FDD Information To Modify IE, then the DRNS shall use this information to report if the maximum number of retransmissions has been exceeded.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH HARQ Power Offset FDD IE in the E-DCH FDD Information To Modify IE for an E-DCH MAC-d flow the DRNS shall use this information for calculating the unquantised gain factor for an E-TFC (ed,j,uq)as defined in TS 25.214 [10].]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH MAC-d Flow Multiplexing List IE for an E-DCH MAC-d flow the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Grant Type and it is indicated as being “E-DCH Non-Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume non-scheduled grants being configured for that E-DCH MAC-d flow and shall use the information within the HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant IE, if included, for the related resource allocation operation.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Grant Type and it is indicated as being “E-DCH Scheduled Transmission Grant” for an E-DCH MAC-d flow the DRNS shall assume scheduled grants being configured for that E-DCH MAC-d flow.]
-	[FDD – If the RADIO LINK RECONFIGURATION RE	QUEST message includes the E-DCH Logical Channel To Add or E-DCH Logical Channel To Delete IEs, the DRNS shall use this information to add/delete the indicated logical channels. When an logical channel is deleted, all its associated configuration data shall also removed.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Logical Channel To Modify IE, the DRNS shall use this information to modify the indicated logical channels.]
-	[FDD – If the E-DCH Logical Channel To Modify IE includes Scheduling Priority Indicator IE, the DRNS shall apply the values in the new configuration.]
-	[FDD – If the E-DCH Logical Channel To Modify IE includes Scheduling Information IE, the DRNS shall apply the values in the new configuration.]
-	[FDD – If the E-DCH Logical Channel To Modify IE includes the Maximum MAC-d PDU Size Extended IE, the DRNC shall apply the value in the new configuration.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Bundling Mode Indicator IE for an E-DCH MAC-d flow in the E-DCH MAC-d Flow Specific Information IE in the E-DCH FDD Information To Modify IE and the Bundling Mode Indicator IE is set to “Bundling” and the E-TTI IE is set to “2ms”, then the DRNS shall use the bundling mode for the E-DCH UL data frames for the related MAC-d flow, otherwise the DRNS shall use the non-bundling mode for the E-DCH UL data frames for the related MAC-d flow.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the DRNS shall use this information for the related resource allocation operation.] 
-	[FDD – If the E-DCH serving RL is in this DRNS, the DRNS may choose to change the E-DCH HARQ process allocation for 2ms TTI for scheduled and/or non-scheduled transmission. In this case the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Maximum Bitrate IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-DPCCH/E-DPDCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH ReferencePower Offset IE, then the DRNS may use this value as a default HARQ power offset if it is not able to decode the MAC-e PDU and to determine the value of the actual HARQ power offset.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-AGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-AGCH power. The E-AGCH Power Offset should be applied for any E-AGCH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-RGCH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-RGCH power for the RL. The E-RGCH Power Offset should be applied for any E-RGCH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-HICH Power Offset IE in the RL Specific E-DCH Information IE, then the DRNS may use this value to determine the E-HICH power for the RL. The E-HICH Power Offset should be applied for any E-HICH transmission to this UE.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the SixteenQAM UL Operation Indicator IE in the E-DCH FDD Information To Modify IE, the DRNS shall activate/deactivate SixteenQAM UL Operation for the RL in accordance with the SixteenQAM UL Operation Indicator IE.]
-	[FDD – If SixteenQAM UL Operation is activated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 2 according to TS 25.321 [41]. If SixteenQAM UL Operation is deactivated, then the DRNS shall base the handling of the Relative Grant signalling on Scheduling Grant Table 1 according to TS 25.321 [41].]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH DL Control Channel Grant Information IE in the E-DCH FDD Information To Modify IE, the DRNS may modify E-AGCH Channelisation Code, E-RGCH/E-HICH Channelisation Code, E-RGCH Signature Sequence and/or E-HICH Signature Sequence for the E-DCH RL indicated by the E-DCH RL ID IE. The DRNC shall then report the modified configuration which is used in the new configuration specified in the E-DCH FDD DL Control Channel Information IE for each E-DCH RL in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Fast TTI switching Mode Requested UnSynchronized IE in the E-DCH FDD Information To Modify IE and Mode 1 is indicated, the DRNS shall if supported send the HS-SCCH order to execute the TTI swiching process according to TS 25.214 [10]].
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Fast TTI switching Mode Requested UnSynchronized IE in the E-DCH FDD Information To Modify IE and Mode 2 is indicated, the DRNS shall if supported send the HS-SCCH order at the CFN indicated in Mode 2 to execute the TTI switching process according to TS 25.214 [10]].
[FDD – E-DCH MAC-d Flow Addition:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes an E-DCH MAC-d Flows To Add IE, then the DRNS shall use this information to add the indicated E-DCH MAC-d flows.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information IE in the E-DCH MAC-d Flows To Add IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH MAC-d Flows To Add IE, then:]
-	[FDD – The DRNS may use the Traffic Class IE for a specific E-DCH MAC-d flow to determine the transport bearer characteristics to apply between DRNC and Node B. If TrCH Source Statistics Descriptor IE is present with the value “RRC” in the E-DCH MAC-d Flows Information IE, then the DRNC should ignore the Traffic Class IE.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flows To Add IE, the DRNS shall use this information to optimise MAC-e scheduling decisions.]
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the UE Aggregate Maximum Bit Rate Enforcement Indicator IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flows To Add IE, the DRNS shall, if supported, consider the data of the related E-DCH Logical Channel for UE Aggregate Maximum Bit Rate Enforcement.]
[FDD – E-DCH MAC-d Flow Deletion:]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes an E-DCH MAC-d Flows To Delete IEs, then the DRNS shall use this information to delete the indicated E-DCH MAC-d flows. When an E-DCH MAC-d flow is deleted, all its associated configuration shall also be removed.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes an E-DCH MAC-d Flows To Delete IE requesting the deletion of all remaining E-DCH MAC-d flows for the UE Context, then the DRNC shall delete the E-DCH configuration from the UE Context and release the E-DCH resources.] 
[FDD – Additional E-DCH Setup:]
[FDD – If the Additional E-DCH Cell Information RL Reconf Req IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of E-DCH On Secondary UL Frequency is “Setup”, then the Additional E-DCH Cell Information Setup IE defines the new configuration and then:] 
-	[FDD – If the C-ID IE is included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE the C-ID IE indicates the cell in which the additional E-DCH shall be setup.]
-	[FDD – The DRNS shall setup the E-DCH on the secondary uplink frequency and setup the requested E-DCH resources on the Radio Links and in the cells indicated by the E-DCH Additional RL ID IE and the C-ID IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE.]
-	[FDD – If the C-ID IE is not included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE the E-DCH Additional RL ID IE indicates the existing RL on which the additional E-DCH shall be setup.]
-	[FDD – The DRNS shall setup the additional E-DCH on the Radio Links indicated by the E-DCH Additional RL ID IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE.]
-	[FDD – The DRNS shall use for the non cell specific Radio Link related parameters and non cell specific E-DPCH, UL DPCH, E-DCH and F-DPCH parameters the same values as for the corresponding cell of the Primary uplink frequency.] 
-	[FDD - The DRNS shall, if supported, use the Dual Cell E-DCH Operation Enhancements Information IE for the Secondary uplink frequency if it is included in the Additional E-DCH FDD Information IE in the Additional E-DCH FDD Setup Information IE.]
-	[FDD – If the UL SIR Target IE in the UL DPCH Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE and/or the DL Power Balancing Information IE and/or the Minimum Reduced E-DPDCH Gain Factor IE in the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE are present, the DRNS shall use the information in the same same way as for the information used on Primary uplink frequency.] 
-	[FDD – If the Secondary UL Frequency Activation State IE is present in the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE, the DRNS shall use the information as initial activation state of the Radio Links on the secondary uplink frequency.]
-	[FDD – If the Initial DL Tx Power IE, the Primary CPICH Ec/No IE, the E-AGCH Power Offset IE, the E-RGCH Power Offset IE and/or the E-HICH Power Offset IE is included in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If the Enhanced Primary CPICH Ec/No IE is included in the Multicell E-DCH RL Specific Information IE in the Additional E-DCH Secondary RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If the F-DPCH Slot Format Support Request IE in the F-DPCH Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE is included, the DRNS shall configure the concerned UE Context for F-DPCH Slot Format operation according to TS 25.211 [8] and include the F-DPCH Slot Format IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconfIE in the RADIO LINK RECONFIGURATION RESPONSE message. If the Multicell E-DCH Information IE in the Additional E-DCH FDD Setup Information IE includes the F-DPCH Slot Format IE, the DRNS may use the F-DPCH Slot Format IE to determine the F-DPCH slot format.]
-	[FDD – If the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the E-DCH Maximum Bitrate IE, the E-DCH Minimum Set E-TFCI IE, the E-DCH Processing Overload Level IE, the Implicit Grant handling IE, the Minimum TEBS threshold IE and/or the DTX Information2 IE are present in the Additional E-DCH FDD Information IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE, the DRNS shall use the information in the same way as for the information used on Primary uplink frequency.]
-	[FDD – If activation of power balancing for the Additional E-DCH RL by the RADIO LINK RECONFIGURATION REQUEST message is supported by the DRNS, the DRNS shall include the DL Power Balancing Activation Indicator IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message.] 
-	[FDD – For each Additional E-DCH RL not having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall set the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message to a value that uniquely identifies the RL as a RL Set within the UE Context. The generation of E-HICH related information for Additional E-DCH RLs in different RL Sets shall not be common.]
-	[FDD – For all Additional E-DCH RLs having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall assign to each Additional E-DCH RL the same value for the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. This value shall uniquely identify these Additional E-DCH RLs as members of the same RL Set within the UE Context. The generation of E-HICH information for all Additional E-DCH RLs in a RL Set shall be common.]
-	[FDD – For each Additional E-DCH RL which has or can have a common generation of E-RGCH information with another Additional E-DCH RL (current or future) when the DRNS would contain the Additional E-DCH serving RL, the DRNS shall set a same value to the E-DCH RL Set ID IE for the Additional E-DCH RL in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – For every additional E-DCH RL indicated in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE the DRNS may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNS may include the corresponding E-RGCH Signature Sequence IE for each Additional E-DCH RL in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message and if DRNS has no valid data for the E-RGCH/E-HICH Channelisation Code IE, then it shall insert the E-RGCH and E-HICH Channelisation Code Validity Indicator IE to indicate that the E-RGCH/E-HICH Channelisation Code IE contains invalid data.] 
-	[FDD – If the Additional Serving E-DCH Radio Link is configured in the DRNS, then:]
-	[FDD – The DRNS shall allocate a primary E-RNTI identifier or a secondary E-RNTI identifier or both for the corresponding RL and include these E-RNTI identifiers and the channelisation code of the corresponding E-AGCH in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – The DRNS may include in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message the Serving Grant Value IE and Primary/Secondary Grant Selector IE for the initial grant for the Additional serving E-DCH RL and may include the Default Serving Grant in DTX Cycle 2 IE.]
-	[FDD – If the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission shall be changed, the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If Primary CPICH is not to be used as a Phase Reference for this Radio Link on the secondary UL frequency, the DRNS shall include the Primary CPICH Usage For Channel Estimation IE set to the value “Primary CPICH shall not be used” in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If Secondary CPICH may be used as a Phase Reference for this Radio Link on the secondary UL frequency, the DRNS shall include the Secondary CPICH Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message. If the DRNS doesn’t include the Secondary CPICH Information IE, it shall not include the Primary CPICH Usage For Channel Estimation IE set to the value “Primary CPICH shall not be used”.]
[FDD – Additional E-DCH Configuration Change]
[FDD – If the Additional E-DCH Cell Information RL Reconf Req IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of E-DCH On Secondary UL Frequency is “Configuration Change”, then the Additional E-DCH Cell Information Configuration Change IE defines the new configuration and then:]
-	[FDD – If the Minimum Reduced E-DPDCH Gain Factor IE and/or the Common DL Reference Power IE is present in the Multicell E-DCH Information IE in the Additional E-DCH Configuration Change Information IE IE the DRNS shall use the information in the same way as for the information that is used on the Primary uplink frequency.]
-	[FDD. If the UE Context is configured for F-DPCH Slot Format operation, the DRNS shall include the F-DPCH Slot Format IE in the Additional E-DCH FDD Information Response IE for new RLs on the secondary UL frequency or in the Additional Modified E-DCH FDD Information Response IE for modified RLs in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD - If the Dual Cell E-DCH Operation Enhancements Information IE is present in the Additional E-DCH FDD Information IE in the Additional E-DCH Configuration Change Information IE, the DRNS shall, if supported, use the information for the Secondary uplink frequency.]
[FDD – Additional E-DCH RL Addition:]
[FDD – If the Additional E-DCH RL Specific Information To Add IE is present in the Additional E-DCH Configuration Change Information IE in the Additional E-DCH Configuration Change Information IE, then:]
-	[FDD – The DRNS shall setup the E-DCH resources, as requested or as configured in the UE context, on the Radio Links indicated by the E-DCH Additional RL ID IE. Non cell specific Radio Link related parameters and non cell specific E-DPCH, UL DPCH, E-DCH and F-DPCH parameters shall take the same values as for the corresponding cell of the Primary uplink frequency.]
-	[FDD – If the E-AGCH Power Offset IE, the E-RGCH Power Offset IE, the E-HICH Power Offset IE is included, the DRNS shall use the information in the same way as for the information used on the Primary uplink frequency.]
-	[FDD – If the power balancing is active with the Power Balancing Adjustment Type of the UE Context set to “Individual” in the existing Additional E-DCH RL(s) and the RADIO LINK RECONFIGURATION REQUEST message includes the DL Reference Power IE in the Multicell E-DCH RL Specific Information IE, the DRNS shall activate the power balancing and use the DL Reference Power IE for the power balancing procedure in the new Additional RL(s), if activation of power balancing by the RADIO LINK RECONFIGURATION REQUEST message at RL addition on secondary UL frequency is supported, according to subclause 8.3.15. In this case, the DRNS shall include the DL Power Balancing Activation Indicator IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message. If the DRNS starts the DL transmission and the activation of the power balancing at the same CFN, the initial power of the power balancing, i.e. Pinit shall be set to the power level which is calculated based on the following IEs (if received): Primary CPICH Ec/No IE or the Enhanced Primary CPICH Ec/No IE in the Multicell E-DCH RL Specific Information IE or to the power level which is calculated based on the power relative to the Primary CPICH power used by the existing Additional RLs.]
-	[FDD – For each Additional E-DCH RL not having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall set the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message to a value that uniquely identifies the RL as a RL Set within the UE Context. The generation of E-HICH related information for Additional E-DCH RLs in different RL Sets shall not be common.]
-	[FDD – For all Additional E-DCH RLs having a common generation of the TPC commands in the DL with another Additional E-DCH RL, the DRNS shall assign to each Additional E-DCH RL the same value for the RL Set ID IE included in the Additional E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message. This value shall uniquely identify these Additional E-DCH RLs as members of the same RL Set within the UE Context. The generation of E-HICH information for all Additional E-DCH RLs in a RL Set shall be common.]
-	[FDD – For each Additional E-DCH RL which has or can have a common generation of E-RGCH information with another Additional E-DCH RL (current or future) when the DRNS would contain the Additional E-DCH serving RL, the DRNS shall set a same value to the E-DCH RL Set ID IE for the Additional E-DCH RL in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message] 
-	[FDD – For every additional E-DCH RL indicated in the Additional E-DCH RL Specific Information To Add IE, the DRNS may include the E-AGCH And E-RGCH/E-HICH FDD Scrambling Code IE and shall include the E-RGCH/E-HICH Channelisation Code IE and the corresponding E-HICH Signature Sequence IE and the DRNS may include the corresponding E-RGCH Signature Sequence IE in the E-DCH FDD DL Control Channel Information IE in the Additional E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message and if DRNS has no valid data for the E-RGCH/ E-HICH Channelisation Code IE, then it shall insert the E-RGCH/ E-HICH Channelisation Code Validity Indicator IE to indicate that the E-RGCH/ E-HICH Channelisation Code IE contains invalid data.]
-	[FDD – If the Primary CPICH Ec/No IE or the Primary CPICH Ec/No IE and the Enhanced Primary CPICH Ec/No IE in the Multicell E-DCH RL Specific Information IE measured by the UE are included for a RL in the RADIO LINK RECONFIGURATION REQUEST message, the DRNS shall use this in the calculation of the Initial DL TX Power for this additional RL. If the Primary CPICH Ec/No IE is not present, the DRNS shall set the Initial DL TX Power based on the power relative to the Primary CPICH power used by the existing RLs.]
[FDD – Additional E-DCH RL Modification:] 
[FDD – If the Additional E-DCH RL Specific Information To Modify IE is present in the Additional E-DCH Configuration Change Information IE, then the additional E-DCH RL indicated by the E-DCH Additional RL ID IE indicates the RL on which E-DCH resources shall be modified:]
-	[FDD – If the E-AGCH Power Offset IE, the E-RGCH Power Offset IE, the E-HICH Power Offset IE, and/or the E-DCH DL Control Channel Grant IE in the Multicell E-DCH RL Specific Information IE is included, the DRNS shall use the information in the same way as for the information used on the Primary uplink frequency.] 
-	[FDD – If the DL Reference Power IEs is included in the Multicell E-DCH RL Specific Information IE and power balancing is active, DRNS shall apply DL power Control in the same way as defined for the Primary uplink frequency.]
-	[FDD – If updating of power balancing parameters by the RADIO LINK RECONFIGURATION REQUEST message is supported by the DRNS, the DRNS shall include the DL Power Balancing Updated Indicator IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE for each affected RL in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the RADIO LINK RECONFIGURATION RESPONSE message includes the Primary CPICH Usage For Channel Estimation IE and/or the Secondary CPICH Information Change IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE, the DRNS shall avoid the new configuration in which neither the Primary CPICH nor the Secondary CPICH is used as a Phase Reference for this Radio Link.]
[FDD – Additional E-DCH Modification:]
[FDD – If the Additional E-DCH FDD Information To Modify IE is present in the Additional E-DCH Configuration Change Information IE, then:]
-	[FDD – If the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE, the E-DCH Minimum Set E-TFCI IE and/or the E-DCH Maximum Bitrate IE is included, the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the E-DCH Processing Overload Level IE is included, then if the DRNS could not decode the E-DPCCH/E-DPDCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of processing issue, the DRNS shall notify the RNC by initiating the Radio Link Failure procedure.]
-	[FDD – If the DL TX power upper or lower limit has been re-configured for the secondary UL frequency, the DRNS shall include the new value(s) in the Maximum DL TX Power IE and Minimum DL TX Power IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[FDD – If the DTX Information2 IE is included, the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the Implicit Grant handling IE is included, the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – If the Minimum TEBS threshold IE is included, the DRNS shall use this information for the related resource allocation operation.]
-	[FDD – The DRNS decides the maximum and minimum SIR for the uplink of the Radio Link(s), and the DRNS shall include in the RADIO LINK RECONFIGURATION RESPONSE message the Maximum Uplink SIR IE and Minimum Uplink SIR IE in the Additional Modified E-DCH FDD Information Response IE in the Additional E-DCH Cell Information Response RLReconf IE for each Radio Link when these values are changed.]
-	[FDD – If the Additional E-DCH serving RL is in this DRNS, the DRNS may choose to change the E-DCH HARQ process allocation for 2ms TTI for scheduled transmission. In this case the DRNS shall allocate resources according to the new/changed configuration and include the new/changed configuration in the HARQ Process Allocation For 2ms Scheduled Transmission Grant IE in the Additional Modified E-DCH FDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[FDD – Additional E-DCH Removal]
[FDD – If the Additional E-DCH Cell Information RL Reconf Req IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of E-DCH On Secondary UL Frequency is “Removal”, then the additional E-DCH on the secondary uplink frequency shall be removed.]
[FDD – E-DCH decoupling operation]
[FDD – If the E-DCH Decoupling Indication IE is present in the RADIO LINK RECONFIGURATION REQUEST message, then the DRNS shall if supported use this indication for the E-DCH decoupling operation.]
[FDD – Radio Links without DPCH/F-DPCH operation]
[FDD – If the Radio Links without DPCH/F-DPCH Indication IE is present in the RADIO LINK RECONFIGURATION REQUEST message:]
-	[FDD – The DRNS shall if supported start operation with Radio Links without DPCH/F-DPCH.]
[FDD – UL DPCCH2 Setup:]
[FDD - If the UL DPCCH2 Reconfiguration IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of UL DPCCH2 is "Setup", then:]
-	[FDD – if the serving HS-DSCH RL is in the DRNS then the DRNS shall configure the concerned DRNS Communication Context to use a second F-DPCH in the downlink, i.e. with transmission of only the TPC field and a DPCCH2 in the uplink, i.e. with the transmission of only the second pilot and the TPC field on the Serving HS-DSCH Radio Link and the DRNS shall activate UL DPCCH2 operation for the radio link according to the information provided in the IE according to ref TS 25.214 [10].]
-	[FDD – if the serving HS-DSCH is not in the DRNS then the DRNS may consider the concerned DRNS Communication Context to use the UL DPCCH2 configuration on the Serving HS-DSCH Radio Link.]
-	[FDD – If the UL DPCCH2 Reconfiguration IE includes the Extended E-DPCCH Power Offset IE, the DRNS shall use the value when the new configuration is being used.]
[FDD – UL DPCCH2 Modification:]
[FDD - If the UL DPCCH2 Reconfiguration IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of UL DPCCH2 is "Configuration Change", then: the UL DPCCH2 Information To Modify IE defines the new configuration and then:]
-	[FDD - If the RADIO LINK RECONFIGURATION REQUEST message includes the F-DPCH info IE in the UL DPCCH2 Information To Modify IE and if the serving HS-DSCH RL is in the DRNS, then the DRNS shall use this value to update the second F-DPCH for the concerned Node B Communication Context.]
-	[FDD – If the UL DPCCH2 Reconfiguration IE includes the Extended E-DPCCH Power Offset IE, the DRNS shall use the value when the new configuration is being used.]
[FDD – UL DPCCH2 Removal:]
[FDD - If the UL DPCCH2 Reconfiguration IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of UL DPCCH2 is "Removal", then the configured UL DPCCH2 for the concerned Node B Communication Context shall be removed.]
[FDD – Downlink TPC enhancements Setup:]
[FDD - If the Downlink TPC enhancements Reconf IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of Downlink TPC enhancements is "Setup", then:]
-	[FDD –The DRNS shall, if supported, use the Decimation factor for primary frequency IE and/or the Decimation factor for secondary frequency IE to configure all the radio links using F-DPCH on the related frequency with power control Algorithm 3.]
[FDD - If the TPC slot position in the Radio Link Information is included in the RADIO LINK RECONFIGURATION REQUEST message, the DRNS shall, if supported, use it for power control Algorithm 3.]
[FDD - If the TPC slot position in the Additional E-DCH Cell Information Setup is included in the RADIO LINK RECONFIGURATION REQUEST message, the DRNS shall, if supported, use it for power control Algorithm 3.]
[FDD – Downlink TPC enhancements Modification:]
[FDD - If the Downlink TPC enhancements Reconf IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of Downlink TPC enhancements is "Configuration Change", then: the Downlink TPC enhancements Information To Modify IE defines the new configuration and then:]
-	[FDD - The DRNS shall, if supported, use the Decimation factor for primary frequency IE and/or the Decimation factor for secondary frequency IE to reconfigure all the radio links using F-DPCH on the related frequency with power control Algorithm 3.]
[FDD - If the TPC slot position in the Radio Link Information is included in the RADIO LINK RECONFIGURATION REQUEST message, the DRNS shall, if supported, use it for power control Algorithm 3.]
[FDD - If the TPC slot position in the Additional E-DCH Cell Information Configuration Change is included in the RADIO LINK RECONFIGURATION REQUEST message, the DRNS shall, if supported, use it for power control Algorithm 3.]
[FDD – Downlink TPC enhancements Removal:]
[FDD - If the Downlink TPC enhancements Reconf IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Setup, Configuration Change or Removal of Downlink TPC enhancements is "Removal", then the configured power control Algorithm 3 for the concerned Node B Communication Context shall be removed.]
[TDD – Intra- DRNS Serving E-DCH Radio Link Change:]
[TDD- If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH Serving RL IE, this indicates the new Serving E-DCH Radio Link:]
-	[TDD – In the new configuration the DRNS shall de-allocate the E-DCH resources of the old Serving E-DCH Radio Link and allocate the E-DCH resources for the new Serving E-DCH Radio Link.]
-	[3.84Mcps TDD – The DRNS shall allocate E-AGCH parameters corresponding to the E-DCH and include the E-AGCH Specific Information Response IE in the E-DCH TDD Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[1.28Mcps TDD – The DRNS shall allocate E-AGCH parameters and E-HICH parameters corresponding to the E-DCH and include the E-AGCH Specific Information Response IE and the E-HICH Specific Information Response IE in the E-DCH Information Response 1.28Mcps IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
-	[7.68Mcps TDD – The DRNS shall allocate E-AGCH parameters corresponding to the E-DCH and include the E-AGCH Specific Information Response 7.68Mcps IE in the E-DCH TDD Information Response 7.68Mcps IE in the RADIO LINK RECONFIGURATION READY message.]
-	[TDD – If the TNL QoS IE is included for a MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
[TDD – E-PUCH Handling:]
[3.84Mcps TDD and 7.68Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes an E-PUCH Information IE, the DRNS shall apply the parameters to the new configuration.]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes an E-PUCH Information LCR IE, the DRNS shall apply the parameters to the new configuration.]
[TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes an E-TFCS Information IE, the DRNS shall apply the beta parameters to the new configuration.]
[3.84Mcps TDD – E-DCH Setup:]
[3.84Mcps TDD – the radio link may be reconfigured to support E-DCH by including the appropriate E-DCH information elements: E-DCH Serving RL IE, E-PUCH Information IE, E-TFCS Information TDD IE, E-DCH MAC-d Flows to Add IE and E-DCH TDD Information IE.]
[1.28Mcps TDD – E-DCH Setup:]
[1.28cps TDD – the radio link may be reconfigured to support E-DCH by including the appropriate E-DCH information elements: E-DCH Serving RL IE, E-PUCH Information LCR IE, E-TFCS Information TDD IE, E-DCH MAC-d Flows to Add IE and E-DCH TDD Information LCR IE.]
[1.28Mcps TDD - If the UE TS0 Capability LCR IE in the UE Capabilities Information IE in the HS-DSCH Information To Modify IE is not present, or if the UE TS0 Capability LCR IE in the UE Capabilities Information IE in the HS-DSCH Information IE is not present, and if the RADIO LINK RECONFIGURATION REQUEST message includes the UE TS0 Capability LCR IE in the E-DCH TDD Information LCR IE, the DRNS can use this information to allocate the downlink resources for the UE according to TS 25.306 [42].]
[7.68Mcps TDD – E-DCH Setup:]
[7.68Mcps TDD – the radio link may be reconfigured to support E-DCH by including the appropriate E-DCH information elements: E-DCH Serving RL IE, E-PUCH Information IE, E-TFCS Information TDD IE, E-DCH MAC-d Flows to Add IE and E-DCH TDD Information 7.68Mcps IE.]
[TDD - E-DCH MAC-d Flow Addition/Deletion:]
[TDD- If the RADIO LINK RECONFIGURATION REQUEST message includes any E-DCH MAC-d Flows To Add or E-DCH MAC-d Flows To Delete IEs, then the DRNS shall use this information to add/delete the indicated E-DCH MAC-d flows. When an E-DCH MAC-d flow is deleted, all its associated configuration data shall also be removed.]
[TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Maximum MAC-d PDU Size Extended IE for a E-DCH Logical Channel in the E-DCH MAC-d Flows Information IE in the E-DCH TDD Information To Add IE, then the DRNS shall ignore the MAC-d PDU Size IE in the MAC-d PDU Size List IE and use Maximum MAC-d PDU Size Extended IE to optimise capacity allocation for the related E-DCH Logical Channel.]
[TDD- If the RADIO LINK RECONFIGURATION REQUEST message includes an E-DCH MAC-d Flows To Delete IE requesting the deletion of all remaining E-DCH MAC-d flows for the UE Context, then the DRNS shall delete the E-DCH configuration from the UE Context and release the E-DCH resources.]
[TDD- If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH MAC-d Flows To Add IE, then:]
-	[TDD- If the RADIO LINK RECONFIGURATION REQUEST message includes the MAC-es Guaranteed Bit Rate IE in the E-DCH MAC-d Flows To Add IE, the DRNS shall use this information to optimise MAC-e scheduling decisions.]
-	[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the MAC-es Maximum Bit Rate LCR IE in the E-DCH Logical Channel Information IE in the E-DCH MAC-d Flows To Add IE, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
[3.84Mcps TDD – E-DCH Non-scheduled allocations:]
[3.84Mcps TDD – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information TDD IE in the E-DCH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[1.28Mcps TDD – E-DCH Non-scheduled allocations:]
[1.28Mcps – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information LCR TDD IE in the E-DCH Information Response 1.28Mcps IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[7.68Mcps TDD – E-DCH Non-scheduled allocations:]
[7.68Mcps TDD – The DRNS shall determine any non-scheduled resource to be granted for the radio link, and return this in the E-DCH Non-scheduled Grant Information 7.68Mcps TDD IE in the E-DCH Information Response 7.68Mcps IE in the RADIO LINK RECONFIGURATION RESPONSE message.]
[3.84Mcps TDD – E-DCH Modification:]
[3.84Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH TDD Information IE, then:]
-	[3.84Mcps TDD – If the E-DCH TDD Information IE includes the E-DCH TDD Maximum Bitrate IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.] 
-	[3.84Mcps TDD – If the E-DCH TDD Information IE includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[3.84Mcps TDD – If the E-DCH TDD Information IE includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
[1.28Mcps TDD – E-DCH Modification:]
[1.28Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH TDD Information LCR IE, then:]
-	[1.28Mcps TDD – If the E-DCH TDD Information LCR IE includes the E-DCH Physical Layer Category LCR IE or Extended E-DCH Physical Layer Category LCR IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.] 
-	[1.28Mcps TDD – If the E-DCH TDD Information LCR IE includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[1.28Mcps TDD – If the E-DCH TDD Information LCR IE includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
-	[1.28Mcps TDD – If the E-DCH TDD Information LCR IE includes the Maximum Number of Retransmission for Scheduling Info LCR IE and the E-DCH Retransmission timer for Scheduling Info LCR IE, then the DRNS shall use these parameters for the transmission of scheduling information without any MAC-d PDUs.]
-	[1.28Mcps TDD – If the E-DCH TDD Information LCR IE includes the Multi-Carrier E-DCH Physical Layer Category LCR IE, the DRNS shall use this information for the related resource allocation operation, and when applicable, for multi-carrier E-DCH scheduling.]
-	[1.28Mcps TDD - If the UE TS0 Capability LCR IE in the UE Capabilities Information IE in the HS-DSCH Information To Modify IE is not present, or if the UE TS0 Capability LCR IE in the UE Capabilities Information IE in the HS-DSCH Information IE is not present, and if the RADIO LINK RECONFIGURATION REQUEST message includes the UE TS0 Capability LCR IE in the E-DCH TDD Information LCR IE, the DRNS can use this information to allocate the downlink resources for the UE according to TS 25.306 [42].]
[7.68Mcps TDD – E-DCH Modification:]
[7.68Mcps TDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH TDD Information 7.68Mcps IE, then:]
-	[7.68Mcps TDD – If the E-DCH TDD Information 7.68Mcps IE includes the E-DCH TDD Maximum Bitrate 7.68Mcps IE for an E-DCH, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.] 
-	[7.68Mcps TDD – If the E-DCH TDD Information 7.68Mcps IE includes the E-DCH Processing Overload Level IE, then if the DRNS could not decode the E-PUCH for the last consecutive number of TTIs, indicated in the E-DCH Processing Overload Level IE, because of a processing issue, the DRNS shall notify the SRNC by initiating the Radio Link Failure procedure.]
-	[7.68Mcps TDD – If the E-DCH TDD Information 7.68Mcps IE includes the E-DCH Power Offset for Scheduling Info IE, then the DRNS shall use this value as a power offset for the transmission of scheduling information without any MAC-d PDUs.]
[TDD- If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH TDD Information To Modify IE, then:]
-	[TDD- If the E-DCH TDD Information To Modify IE contains a E-DCH MAC-d Flow Specific Information IE which includes the Allocation/Retention Priority IE, the DRNS shall apply the new Allocation/Retention Priority to this E-DCH in the new configuration according to Annex A.]
-	[TDD- If the E-DCH TDD Information To Modify IE contains a TNL QoS IE for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[TDD- If the E-DCH TDD Information To Modify IE includes the Maximum Number of Retransmissions for E-DCH IE for an E-DCH MAC-d flow then the DRNS shall use this information to report if the maximum number of retransmissions has been exceeded.]
-	[1.28Mcps TDD – If the E-DCH TDD Information To Modify IE includes the E-DCH MAC-d Flow Retransmission Timer IE for an E-DCH MAC-d flow then the DRNS shall use this information to set the retransmission timer.]
-	[TDD– If the TNL QoS IE is included in the E-DCH TDD Information to Modify IE for an E-DCH MAC-d flow and if ALCAP is not used, the TNL QoS IE may be used by the DRNS to determine the transport bearer characteristics to apply in the uplink for the related MAC-d flow.]
-	[TDD- If the E-DCH TDD Information To Modify IE includes the E-DCH HARQ Power Offset TDD IE for an E-DCH MAC-d flow the DRNS shall use this new power offset value.]
-	[TDD- If the E-DCH TDD Information To Modify IE includes the E-DCH MAC-d Flow Multiplexing List IE for an E-DCH MAC-d flow the DRNS shall use this information for the related resource allocation operation.]
-	[TDD- If the E-DCH TDD Information To Modify IE contains the E-DCH Grant Type IE, the DRNS shall treat the E-DCH MAC-d flow as Scheduled or Non-scheduled accordingly.]
-	[TDD- If the E-DCH TDD Information To Modify IE includes the E-DCH Logical Channel To Add or E-DCH Logical Channel To Delete IEs, the DRNS shall use this information to add/delete the indicated logical channels. When a logical channel is deleted, all its associated configuration data shall also removed.]
-	[TDD- If the E-DCH TDD Information To Modify IE includes the E-DCH Logical Channel To Modify IE, the DRNS shall use this information to modify the indicated logical channels:]
-	[TDD – If the E-DCH Logical Channel To Modify IE includes Scheduling Priority Indicator IE, the DRNS shall apply the values in the new configuration.]
-	[TDD – If the E-DCH Logical Channel To Modify IE includes Scheduling Information IE, the DRNS shall apply the values in the new configuration.]
-	[TDD – If the E-DCH Logical Channel To Modify IE includes MAC-es Guaranteed Bit Rate IE, the DRNS shall apply the values in the new configuration.]
-	[TDD – If the E-DCH Logical Channel To Modify IE includes E-DCH DDI Value IE, the DRNS shall apply the values in the new configuration.]
-	[1.28Mcps TDD – If the E-DCH Logical Channel To Modify IE includes MAC-es Maximum Bit Rate LCR IE, the DRNS shall use this information for the related resource allocation operation, and when applicable, for E-DCH scheduling.]
-	[TDD – If the E-DCH Logical Channel To Modify IE includes the Maximum MAC-d PDU Size Extended IE, the DRNC shall apply the value in the new configuration.]
-	[TDD– If the E-DCH TDD Information To Modify IE includes the MAC-e Reset Indicator IE, then the DRNS shall use this value to determine whether MAC-e (or MAC-i) Reset is performed in the UE for sending the HARQ Failure Indication.] 
[1.28Mcps TDD – Multi-Carrier E-DCH Continue:]
[1.28Mcps TDD - If the Multi-Carrier E-DCH Information Reconf IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Continue, Setup or Change is "Continue", then the current Multi-Carrier E-DCH configuration shall not be changed.]
[1.28Mcps TDD – Multi-Carrier E-DCH Setup:]
[1.28Mcps TDD - If the Multi-Carrier E-DCH Information Reconf IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Continue, Setup or Change is "Setup", then the Multi-Carrier E-DCH Information LCR IE defines the new configuration and then:]
-	[1.28Mcps TDD - The DRNS shall use the Multi-Carrier E-DCH Transport Bearer Mode LCR IE to decide the transport bearer mode in the new configuration.]
-	[1.28Mcps TDD - The DRNS shall setup the requested E-DCH resource on the uplink frequecies indicated by the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE.]
[1.28Mcps TDD – Multi-Carrier E-DCH Change:]
-	[1.28Mcps TDD - If the Multi-Carrier E-DCH Information Reconf IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Continue, Setup or Change is "Change", then the Multi-Carrier E-DCH Information LCR IE defines the new configuration and then:]
-	[1.28Mcps TDD - If the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE is different from current configured frequencies, then the DRNS shall setup the E-DCH resources, as requested in the DRNS Communication Context, on the uplink frequecies indicated by the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE.]
-	[1.28Mcps TDD - If the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE is the same as any current configured frequency, then the DRNS shall reconfigure the E-DCH resources, as requested or as configured in the DRNS Communication Context, on the uplink frequecies indicated by the UARFCN IE in the Multi-Carrier E-DCH Information LCR IE.]
[1.28Mcps TDD - If the Multi-Carrier E-DCH Information Reconf IE is present in the RADIO LINK RECONFIGURATION REQUEST message and the choice of Continue, Setup or Change is "Change" and the Removal UL Multi-Carrier info IE is included, then the DRNS shall remove the corresponding E-DCH configuration on the uplink frequencies indicated by the UARFCN IE in the Removal UL Multi-Carrier info IE.]
[1.28Mcps TDD – Non-rectangular resource operation:]
[1.28Mcps TDD - If the RADIO LINK RECONFIGURATION REQUEST message contains the UE support of non-rectangular resource allocation IE, the DRNS shall, if supported, use this information to determine whether includes the Non-rectangular resource allocation indicator IE and the Non-rectangular resource timeslot set IE or not.]
General:
If the requested modifications are allowed by the DRNS, and if the DRNS has successfully allocated the required resources and changed to the new configuration, the DRNC shall respond to the SRNC with the RADIO LINK RECONFIGURATION RESPONSE message.
If the RADIO LINK RECONFIGURATION REQUEST message includes the RL Specific DCH Information IE, HS-DSCH Information IE, HS-DSCH Information To Modify Unsynchronised IE, HS-DSCH MAC-d Flows To Add IE, [FDD – RL Specific E-DCH Information IE] [TDD – E-DCH MAC-d Flows to Add IE], the DRNC may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for any Transport Channel [FDD – for which the Transport Bearer Not Requested Indicator IE is not included], HS-DSCH MAC-d flow being added or E-DCH MAC-d flow [FDD – for which the Transport Bearer Not Requested Indicator IE is not included] being added, or any Transport Channel [FDD – for which the Transport Bearer Not Requested Indicator IE was not included] or HS-DSCH MAC-d flow being modified for which a new transport bearer was requested with the Transport Bearer Request Indicator IE.
The DRNC shall include the Transport Layer Address IE and the Binding ID IE in the RADIO LINK RECONFIGURATION RESPONSE message for any Transport Channel [FDD – for which the Transport Bearer Not Requested Indicator IE is not included], HS-DSCH MAC-d flow being added or E-DCH MAC-d flow [FDD – for which the Transport Bearer Not Requested Indicator IE is not included] being added, or any Transport Channel [FDD – for which the Transport Bearer Not Requested Indicator IE was not included], HS-DSCH MAC-d flow or E-DCH MAC-d flow [FDD – for which the Transport Bearer Not Requested Indicator IE was not included] being modified for which a new transport bearer was requested with the Transport Bearer Request Indicator IE. The detailed frame protocol handling during transport bearer replacement is described in TS 25.427 [4], subclause 5.10.1, and in TS 25.425 [32], subclause 5.3.2.
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer Shall not be Established” for a DCH or an E-DCH MAC-d flow being added, then the DRNC shall not establish a transport bearer for the concerned DCH or E-DCH MAC-d flow and shall include the Transport Bearer Not Setup Indicator IE for the corresponding DCH or E-DCH MAC-d flow in the RADIO LINK RECONFIGURATION RESPONSE message.] 
-	[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Transport Bearer Not Requested Indicator IE set to “Transport Bearer may not be Established” for a DCH or an E-DCH MAC-d flow being added and:]
-	[FDD – if the DRNC establishes a transport bearer for the concerned DCH or E-DCH MAC-d flow, the DRNC shall include in the RADIO LINK RECONFIGURATION RESPONSE message the Binding ID IE and Transport Layer Address IE for establishment of a transport bearer for the DCH or E-DCH MAC-d flow being established.]
-	[FDD – if the DRNC does not establish a transport bearer for the concerned DCH or E-DCH MAC-d flow, the DRNC shall include the Transport Bearer Not Setup Indicator IE for the corresponding DCH or E-DCH MAC-d flow in the RADIO LINK RECONFIGURATION RESPONSE message.]
In the case of a set of co-ordinated DCHs requiring a new transport bearer on the Iur interface, the DRNC shall include the Transport Layer Address IE and the Binding ID IE in the DCH Information Response IE only for one of the DCHs [FDD – for which the Transport Bearer Not Requested Indicator IE is not included] in the set of co-ordinated DCHs.
In the case of a Radio Link being combined with another Radio Link within the DRNS, the DRNC shall include the Transport Layer Address IE and the Binding ID IE [FDD for the concerned DCH for which the Transport Bearer Not Requested Indicator IE is not included] in the DCH Information Response IE in the RADIO LINK RECONFIGURATION RESPONSE message for only one of the combined Radio Links.
[FDD – In the case of an E-DCH RL being combined with another E-DCH RL within the DRNS, the E-DCH FDD Information Response IE shall be included only for one of the combined E-DCH RLs.] 
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Additional E-DCH Cell Information RL Reconf Req IE, then:]
-	[FDD – if the Multicell E-DCH Transport Bearer Mode IE for an Additional E-DCH to be Setup is set to “Separate Iur Transport Bearer Mode” the DRNS shall use this mode in the new configuration and apply separate transport bearers for the MAC-d flows.]
-	[FDD – if the Multicell E-DCH Transport Bearer Mode IE for an Additional E-DCH to be Setup is set to “UL Flow Multiplexing Mode” the DRNS shall use this mode in the new configuration and multiplex MAC-d flows on the transport bearers.]
-	[FDD – if Separate Iur Transport Bearer Mode is used in the new configuration, then:]
-	[FDD – the DRNS shall follow the rules defined in this procedure for single carrier mode of operation for establishment of the transport bearer for a MAC-d flow, use the Transport Bearer Not Requested Indicator IE in the RL Specific E-DCH Information IE in the RL Information IE and/or the Transport Bearer Request Indicator IE in the E-DCH FDD Information To Modify IE received for the corresponding Radio Link(s) of the Primary Uplink Frequency to determine the transport bearer configuration in the new configuration for the radio links of the Secondary Uplink Frequency.]
-	[FDD – If the Transport Layer Address IE and Binding ID IE is included for an E-DCH MAC-d flow in the Additional E-DCH MAC-d Flows Specific Information IE in the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE or in the Additional E-DCH RL Specific Information To Add IE and/or the Additional E-DCH RL Specific Information To Modify IE in the Additional E-DCH Configuration Change Information IE in the Additional E-DCH Cell Information Configuration Change IE, then the DRNS may use the transport layer address and the binding identifier received from the SRNC when establishing a transport bearer for the concerned E-DCH MAC-d flow. If the DRNS establishes a transport bearer for the concerned E-DCH MAC-d flow the DRNS shall, for establishment of the transport bearer, include in the RADIO LINK RECONFIGURATION RESPONSE message in the Additional E-DCH Cell Information Response RLReconf IE the Binding ID IE and Transport Layer Address IE in the Additional E-DCH MAC-d Flow Specific Information Response IE in the Additional E-DCH FDD Information Response IE for new E-DCH radio links on the Secondary UL frequency and/or include the Binding ID IE and Transport Layer Address IE in the Additional E-DCH MAC-d Flow Specific Information Response IE in the Additional Modified E-DCH FDD Information Response IE for radio links on the Secondary UL frequency that has been modified.]
[1.28Mcps TDD - If the RADIO LINK RECONFIGURATION REQUEST message includes the Multi-Carrier E-DCH Information Reconf IE, then:]
-	[1.28Mcps TDD - If the Multi-carrier E-DCH Transport Bearer Mode LCR IE is set to "Separate Iur Transport Bearer Mode" the DRNS shall use this mode in the new configuration and apply separate transport bearers for the MAC-d flows.]
-	[1.28Mcps TDD - If the Multi-Carrier E-DCH Transport Bearer Mode LCR IE is set to "UL Flow Multiplexing Mode" the DRNS shall use this mode in the new configuration and multiplex each MAC-d flow on one transport bearer.]
-	[1.28Mcps TDD - If the choice of Continue, Setup or Change in the the Multi-Carrier E-DCH Information Reconf IE is "Setup" and the Separate Iur transport bearer mode is used in the new configuration, or if the choice of Continue, Setup or Change in the the Multi-Carrier E-DCH Information Reconf IE is "Change" and the Transport Bearer Mode is changed to "Separate Iur Transport Bearer Mode" indicated by Multi-carrier E-DCH Transport Bearer Mode LCR IE, then the DRNS shall include the Binding ID IE and Transport Layer Address IE in the Multi-Carrier E-DCH Information Response LCR IE in the RADIO LINK RECONFIGURATION RESPONSE message for establishment of a transport bearer for every E-DCH MAC-d flow being established.]
-	[1.28Mcps TDD - The DRNS shall follow the rules defined in this procedure for single carrier mode of operation for establishment of the transport bearer for a MAC-d flow, use the Transport Bearer Request Indicator IE in the E-DCH TDD Information to Modify IE received for the corresponding Radio Link to determine the transport bearer configuration in the new configuration for the all Uplink Frequencies.]
-	[1.28Mcps TDD - If the E-DCH UL flow multiplexing mode is used in the new configuration and if the Transport Bearer Request Indicator IE is set to " Bearer Requested ", then the DRNS shall include the Binding ID IE and Transport Layer Address IE in the E-DCH TDD Information Response 1.28Mcps IE in the RADIO LINK RECONFIGURATION RESPONSE message for establishment of a transport bearer for every E-DCH MAC-d flow being established.]
Any allowed rate for the uplink of a modified DCH provided for the old configuration will not be valid for the new configuration. If the DRNS needs to limit the user rate in the uplink of a DCH due to congestion caused by the UL UTRAN Dynamic Resources (see subclause 9.2.1.79) in the new configuration for a Radio Link, the DRNC shall include in the RADIO LINK RECONFIGURATION RESPONSE message the Allowed UL Rate IE in the DCH Information Response IE for this Radio Link.
Any allowed rate for the downlink of a modified DCH provided for the old configuration will not be valid for the new configuration. If the DRNS needs to limit the user rate in the downlink of a DCH due to congestion caused by the DL UTRAN Dynamic Resources (see subclause 9.2.1.79) in the new configuration for a Radio Link, the DRNC shall include in the RADIO LINK RECONFIGURATION RESPONSE message the Allowed DL Rate IE in the DCH Information Response IE for this Radio Link.
The DRNS decides the maximum and minimum SIR for the uplink of the Radio Link(s), and the DRNC shall include in the RADIO LINK RECONFIGURATION RESPONSE message the Maximum Uplink SIR IE and Minimum Uplink SIR IE for each Radio Link when these values are changed.
[FDD – If the DL TX power upper or lower limit has been re-configured, the DRNC shall include the new value(s) in the Maximum DL TX Power IE and Minimum DL TX Power IE in the RADIO LINK RECONFIGURATION RESPONSE message. The DRNS shall not transmit with a higher power than indicated by the Maximum DL TX Power IE or lower than indicated by the Minimum DL TX Power IE on any DL DPCH or on the F-DPCH of the RL except, if the UE Context is configured to use DPCH in the downlink, during compressed mode, when the Pcurr, as described in TS 25.214 [10] subclause 5.2.1.3, shall be added to the maximum DL power for the associated compressed frame.]
[3.84 Mcps TDD and 7.68 Mcps TDD – If the DL TX power upper or lower limit has been re-configured, the DRNC shall include the new value(s) in the Maximum DL TX Power IE and Minimum DL TX Power IE in the RADIO LINK RECONFIGURATION RESPONSE message. If the maximum or minimum power needs to be different for particular DCH type CCTrCHs, the DRNC shall include the new value(s) for that CCTrCH in the CCTrCH Maximum DL TX Power IE and CCTrCH Minimum DL TX Power. The DRNS shall not transmit with a higher power than indicated by the appropriate Maximum DL TX Power IE/CCTrCH Maximum DL TX Power IE or lower than indicated by the appropriate Minimum DL TX Power IE/CCTrCH Minimum DL TX Power IE on any DL DPCH within each CCTrCH of the RL.]
[1.28 Mcps TDD – If the DL TX power upper or lower limit has been re-configured, the DRNC shall include the new value(s) in the Maximum DL TX Power IE and Minimum DL TX Power IE in the RADIO LINK RECONFIGURATION RESPONSE message. If the maximum or minimum power needs to be different for particular timeslots within a DCH type CCTrCH, the DRNC shall include the new value(s) for that timeslot in the Maximum DL TX Power IE and Minimum DL TX Power within the DL Timeslot Information LCR IE. The DRNS shall not transmit with a higher power than indicated by the appropriate Maximum DL TX Power IE or lower than indicated by the appropriate Minimum DL TX Power IE on any DL DPCH within each timeslot of the RL.]
8.3.7.3	Unsuccessful Operation

Figure 15: Unsynchronised Radio Link Reconfiguration procedure, Unsuccessful Operation
If the DRNS cannot allocate the necessary resources for all the new DCHs in a set of co-ordinated DCHs requested to be added, it shall reject the Unsynchronised Radio Link Reconfiguration procedure as having failed.
If the requested Unsynchronised Radio Link Reconfiguration procedure fails for one or more Radio Link(s), the DRNC shall send the RADIO LINK RECONFIGURATION FAILURE message to the SRNC, indicating the reason for failure.
[FDD – If the MIMO Activation Indicator IE is included and the Power Offset For S-CPICH for MIMO Request Indicator IE is not included in the HS-DSCH FDD Information IE in the HS-DSCH Serving Cell Change Information IE in the RADIO LINK RECONFIGURATION REQUEST message or MIMO is activated and the power offset for S-CPICH for MIMO Request indicator has not been configured in the UE Context but MIMO pilot configuration with Primary and Secondary CPICH is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the setup of the serving HS-DSCH Radio Link, and/or activation of MIMO, shall be reported as failed and the DRNC shall include in the RADIO LINK RECONFIGURATION FAILURE message the Cause IE.]
[FDD – If the MIMO with four transmit antennas Activation Indicator IE or the Dual Stream MIMO with four transmit antennas Activation Indicator IE is included and the Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is not included in the HS-DSCH FDD Information IE in the HS-DSCH Serving Cell Change Information IE in the RADIO LINK RECONFIGURATION REQUEST message or MIMO with four transmit antennas is activated and the power offset for S-CPICH for MIMO with four transmit antennas Request indicator has not been configured in the UE Context but MIMO with four transmit antennas Pilot Configuration is set up with a non-zero power offset on the cell where the Serving HS-DSCH Radio Link is established, the setup of the serving HS-DSCH Radio Link, and/or activation of MIMO with four transmit antennas, shall be reported as failed and the DRNC shall include in the RADIO LINK RECONFIGURATION FAILURE message the Cause IE.]
Typical cause values are:
Radio Network Layer Causes:
UL Scrambling Code Already in Use;
DL Radio Resources not Available;
UL Radio Resources not Available;
Requested Configuration not Supported;
CM not Supported;
E-DCH not supported;
[FDD – Continuous Packet Connectivity DTX-DRX operation not Supported;]
[FDD – Continuous Packet Connectivity HS-SCCH less operation not Supported;]
[FDD – MIMO not supported;]
[FDD – E-DCH TTI2ms not supported;]
[FDD – Continuous Packet Connectivity DTX-DRX operation not available;]
[FDD – Continuous Packet Connectivity UE DTX Cycle not available;]
[FDD – MIMO not available;]
[FDD – SixteenQAM UL not Supported;]
HS-DSCH MAC-d PDU Size Format not supported;
E-DCH MAC-d PDU Size Format not available;
[FDD – E-DPCCH Power Boosting not supported;]
[FDD – SixtyfourQAM DL and MIMO Combined not available;]
[FDD – Multi Cell operation not available;]
[FDD – Multi Cell operation not supported;]
[FDD – SixtyfourQAM DL and MIMO Combined not supported;]
[1.28Mcps TDD – MIMO not available;]
[1.28Mcps TDD- SixteenQAM UL not Supported;]
[1.28Mcps TDD – SixtyfourQAM DL and MIMO Combined not available;]
[FDD – Single Stream MIMO not supported;] 
[FDD – Single Stream MIMO not available;]
[FDD – Multi Cell operation with MIMO not available;]
[FDD – Multi Cell operation with MIMO not supported;]
[FDD – Multi Cell E-DCH Operation not supported;]
[FDD – Multi Cell E-DCH Operation not available;]
[FDD – Multi Cell operation with Single Stream MIMO not available;]
[FDD – Multi Cell operation with Single Stream MIMO not supported;]
[FDD – Uplink Closed Loop Transmit Diversity Operation Not Available;]
[FDD – Uplink Closed Loop Transmit Diversity Operation Not Supported;]
[FDD – MIMO with four transmit antennas not supported;]
[FDD – MIMO with four transmit antennas not available;]
[FDD – Dual Stream MIMO with four transmit antennas not supported;]
[FDD – Dual Stream MIMO with four transmit antennas not available;]
[FDD – Multiflow Operation Not Available;]
[FDD – Multiflow Operation Not Supported;]
[FDD – SixtyfourQAM UL not Available;]
[FDD – SixtyfourQAM UL not Supported;]
[FDD – UL MIMO Operation Not Available;]
[FDD – UL MIMO Operation Not Supported;]
[FDD – UL MIMO and SixteenQAM Operation Not Available;]
[FDD – UL MIMO and SixteenQAM Operation Not Supported;]
[FDD – UL MIMO and SixtyfourQAM Operation Not Available;]
[FDD – UL MIMO and SixtyfourQAM Operation Not Supported;]
[FDD – E-DCH Decoupling Operation Not Available;]
[FDD – E-DCH Decoupling Operation Not Supported;]
[FDD – Radio Links without DPCH/F-DPCH Operation Not Available;]
[FDD – Radio Links without DPCH/F-DPCH Operation Not Supported;]
[FDD – UL DPCCH2 Operation Not Available;]
[FDD – UL DPCCH2 Operation Not Supported;]
[FDD – Downlink TPC enhancements Operation Not Available;]
[FDD – Downlink TPC enhancements Operation Not Supported;]
[FDD – Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Operation Not Available;]
[FDD – Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Operation Not Supported;]
[FDD – Dual Cell E-DCH operation enhancements with different TTI Operation Not Available;]
[FDD – Dual Cell E-DCH operation enhancements with different TTI Operation Not Supported.]

Miscellaneous Causes:
Control Processing Overload;
Not enough User Plane Processing Resources.
8.3.7.4	Abnormal Conditions
If only a subset of all the DCHs belonging to a set of co-ordinated DCHs is requested to be deleted, the DRNS shall reject the Unsynchronised Radio Link Reconfiguration procedure as having failed, and the DRNC shall send the RADIO LINK RECONFIGURATION FAILURE message to the SRNC.
If more than one DCH of a set of co-ordinated DCHs has the QE-Selector IE set to “selected” [TDD – or no DCH of a set of co-ordinated DCHs has the QE-Selector IE set to “selected”], the DRNS shall reject the Unsynchronised Radio Link Reconfiguration procedure, and the DRNC shall respond with a RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION REQUEST message includes a DCHs To Modify IE or DCHs To Add IE with multiple DCH Specific Info IEs, and if the DCHs in the DCHs To Modify IE or DCHs To Add IE do not have the same Transmission Time Interval IE in the Semi-static Transport Format Information IE, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the DL Reference Power Information IE, but the power balancing is not active in the indicated RL(s), the DRNS shall reject the Unsynchronised Radio Link Reconfiguration procedure as having failed and the DRNC shall respond the RADIO LINK RECONFIGURATION FAILURE message with the cause value “Power Balancing status not compatible”.]
[FDD – If the power balancing is active with the Power Balancing Adjustment Type of the UE Context set to “Common” in the existing RL(s) but the DL Reference Power Information IE includes the Individual DL Reference Power Information IE, the DRNS shall reject the Unsynchronised Radio Link Reconfiguration procedure as having failed and the DRNC shall respond with the RADIO LINK RECONFIGURATION FAILURE message with the cause value “Power Balancing status not compatible”.]
[FDD – If the power balancing is active with the Power Balancing Adjustment Type of the UE Context set to “Individual” in the existing RL(s) but the DL Reference Power Information IE includes the Common DL Reference Power IE, the DRNS shall reject the Unsynchronised Radio Link Reconfiguration procedure as having failed and the DRNC shall respond with the RADIO LINK RECONFIGURATION FAILURE message with the cause value “Power Balancing status not compatible”.]
If the RADIO LINK RECONFIGURATION REQUEST message contains the Transport Layer Address IE or the Binding ID IE when establishing a transport bearer for any Transport Channel or HS-DSCH MAC-d flow being added, or any Transport Channel or HS-DSCH MAC-d flow being modified for which a new transport bearer was requested with the Transport Bearer Request Indicator IE., and not both are present for a transport bearer intended to be established, the DRNC shall reject the Unsynchronised Radio Link Reconfiguration procedure, and the DRNC shall respond with a RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION REQUEST message contains any of the HS-DSCH Information To Modify IE, HS-DSCH MAC-d Flows To Add IE or HS-DSCH MAC-d Flows To Delete IE in addition to the HS-DSCH Information IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION REQUEST message contains any of the HS-DSCH Information To Modify IE, HS-DSCH MAC-d Flows To Add IE, HS-DSCH MAC-d Flows To Delete IE or HS-PDSCH RL ID IE and the Serving HS-DSCH Radio Link is not in the DRNS, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-DSCH Information IE and does not include the HS-PDSCH RL ID IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message. 
If the RADIO LINK RECONFIGURATION REQUEST message includes the HS-PDSCH RL ID IE indicating a Radio Link not existing in the UE Context, the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION REQUEST message contains any of the HS-DSCH Information IE, HS-DSCH Information To Modify IE, or HS-DSCH MAC-d Flows To Add IE and if in the new configuration the Priority Queues associated with the same HS-DSCH MAC-d Flow ID IE have the same Scheduling Priority Indicator IE value, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, the concerned UE Context is configured to use “Indexed MAC-d PDU Size” for an HS-DSCH but there exist a priority queue of the MAC-d flows of the HS-DSCH that is configured to use Maximum MAC-d PDU Size Extended, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, the concerned UE Context is configured to use “Flexible MAC-d PDU Size” for an HS-DSCH but there exist a priority queue of the MAC-d flows of the HS-DSCH that is configured to use MAC-d PDU Size Index, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, the UE Context is configured to use “Fixed MAC-d PDU Size” for an E-DCH and there exist a Logical Channel of the MAC-d flows of the E-DCH that is configured to use Maximum MAC-d PDU Size Extended, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, the concerned UE Context is configured to use “Flexible MAC-d PDU Size” for an E-DCH and there exist a Logical Channel of the MAC-d flows of the E-DCH that is configured to use MAC-d PDU Size List, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the RADIO LINK RECONFIGURATION REQUEST message includes HS-DSCH Information IE and the HS-DSCH is already configured in the UE Context, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the E-DCH FDD Information IE is present in the RADIO LINK RECONFIGURATION REQUEST message, but the E-DPCH Information IE is not present or if any of the Maximum Set of E-DPDCHs IE, Puncture Limit IE, E-TFCS Information IE, E-TTI IE, E-DPCCH Power Offset IE, E-RGCH 2-Index-Step Threshold IE, E-RGCH 3-Index-Step Threshold IE, HARQ Info for E-DCH IE or HS-DSCH Configured Indicator IE are not present in the E-DPCH Information IE, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If any of the HS-DSCH Configured Indicator IE, Maximum Set of E-DPDCHs IE, Puncture Limit IE or E-TTI IE are present in the E-DPCH Information IE and the E-DCH FDD Information IE is not present in the RADIO LINK RECONFIGURATION REQUEST message, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH RL Indication IE set to “E-DCH”, but no E-DCH FDD Information IE, and the UE Context is not configured for E-DCH, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH FDD Information IE but no E-DCH RL Indication IE set to “E-DCH”, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
If the RADIO LINK RECONFIGURATION REQUEST message does not contain the E-DCH Decoupling Indication IE but contains the HS-PDSCH RL ID IE and/or the Serving E-DCH RL IE, and if both HS-DSCH and E-DCH are configured in the new configuration but the Serving HS-DSCH Radio Link and the Serving E-DCH Radio Link are not in the same cell, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message contains the HS-PDSCH RL ID IE and the E-DPCH Information IE which includes the HS-DSCH Configured Indicator IE set as “HS-DSCH not configured” then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message contains any of the E-DCH FDD Information To Modify IE, E-DCH MAC-d Flows To Add IE or E-DCH MAC-d Flows To Delete IE in addition to the E-DCH FDD Information IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.] 
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message contains any of the E-DCH FDD Information To Modify IE, E-DCH MAC-d Flows To Add IE, E-DCH MAC-d Flows To Delete IE and the UE Context is not configured for E-DCH, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the E-DCH FDD Information To Modify IE deleting the last remaining E-DCH Logical Channel of an E-DCH MAC-d Flow, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.] 
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes E-DCH FDD Information IE and the E-DCH is already configured in the UE Context, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Continuous Packet Connectivity DTX-DRX Information To Modify IE in addition to the Continuous Packet Connectivity DTX-DRX Information IE, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Continuous Packet Connectivity HS-SCCH less Deactivate Indicator IE in addition to the Continuous Packet Connectivity HS-SCCH less Information IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message. ]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Continuous Packet Connectivity HS-SCCH less Deactivate Indicator IE while the Continuous Packet Connectivity HS-SCCH less configuration isn’t configured in the DRNC, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Continuous Packet Connectivity DTX-DRX Information To Modify IE while the Continuous Packet Connectivity DTX-DRX configuration isn’t configured in the DRNC, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the DRX Information To Modify IE in Continuous Packet Connectivity DTX-DRX Information To Modify IE while the Continuous Packet Connectivity DRX configuration is not configured in the DRNC, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
If the DCHs to Modify IE contains a DCH Specific Info IE which includes the Unidirectional DCH Indicator IE set to “Uplink DCH only” but no Transport Format Set IE for the uplink for this DCH and the DRNC had ignored the configuration of Transport Format Set for uplink, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If the DCHs to Modify IE contains a DCH Specific Info IE which includes the Unidirectional DCH Indicator IE set to “Downlink DCH only” but no Transport Format Set IE for the downlink for this DCH and the DRNC had ignored the configuration of Transport Format Set for downlink, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message contains the Transport Bearer Not Requested Indicator IE for a DCH or an E-DCH MAC-d flow but does not contain the corresponding DCH ID IE and the Unidirectional DCH indicator IE set to “Uplink DCH only” for the DCH in DCH Information To Add IE or does not contain the corresponding E-DCH MAC-d Flow ID IE in E-DCH MAC-d Flows Information IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to apply UL DPCCH Slot Format 0 or 2 and execute Continuous Packet Connectivity DTX-DRX operation, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to apply MIMO, allowed to apply 64QAM, establish the secondary serving HS-DSCH Radio Link, apply MIMO with four transmit antennas or apply Dual Stream MIMO with four transmit antennas or apply Single Stream MIMO in the new configuration but is not configured to use flexible MAC-d PDU Size, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message contains the Additional HS Cell Information RL Reconf Req IE indicating a new seconadry serving cell that is not in the same Node B as the serving HS-DSCH cell (or new serving in case of simultaneous serving HS-DSCH cell change), then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Transport Bearer Not Requested Indicator IE for a DCH in the RL Specific DCH Information IE but does not include the DCH ID IE for the DCH in the DCHs to Add IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.] 
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Transport Bearer Not Requested Indicator IE for an E-DCH MAC-d flow in the RL Specific E-DCH Information IE but does not include the E-DCH MAC-d flow ID IE for the E-DCH MAC-d flow in the E-DCH MAC-d flows Information IE, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message contains the Continuous Packet Connectivity DTX-DRX Information IE but the concerned UE Context is not previously configured to use F-DPCH, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to have the Serving E-DCH Radio Link but there is at least one E-DCH MAC-d flow which the transport bearer is not configured for the Serving E-DCH Radio Link in DRNS, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message includes the Transport Bearer Not Requested Indicator IE for a DCH or an E-DCH MAC-d Flow for a specific RL and the specific RL is combined with existing RL which the transport bearer is established for the DCH or the E-DCH MAC-d Flow in the DRNS, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
If ALCAP is not used, if the concerned UE Context is configured to establish a DCH, an E-DCH MAC-d flow and/or an HS-DSCH MAC-d flow but the RADIO LINK RECONFIGURATION REQUEST message does not include the Transport Layer Address IE and the Binding ID IE for the DCH, the E-DCH MAC-d flow and/or HS-DSCH MAC-d flow, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, there exist a priority queue of the MAC-d flows of the HS-DSCH that is configured to use “Flexible RLC PDU Size” for an HS-DSCH but is not configured to use Maximum MAC-d PDU Size Extended, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
If, in the new configuration, the concerned UE Context is configured to use MAC-d PDU Size Index for an HS-DSCH but there exist a priority queue of the MAC-d flows of the HS-DSCH that is configured to use “Flexible RLC PDU Size”, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message contains more than one of a MIMO Activation Indicator IE, a MIMO with four transmit antennas Activation Indicator IE, a Dual Stream MIMO with four transmit antennas Activation Indicator IE and a Single Stream MIMO Activation Indicator IE in the HS-DSCH FDD Information IE or in the HS-DSCH FDD Secondary Serving Information IE in the Additional HS Cell Information RL Reconf Req IE, then the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the concerned UE Context is configured to apply more than one of MIMO, MIMO with four transmit antennas, Dual Stream MIMO with four transmit antennas and Single Stream MIMO for the HS-DSCH Radio Link or the Secondary Serving Radio link, the DRNC shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.] 
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message contains the Additional E-DCH Cell Information RL Reconf Req IE and if the E-DPCH Information IE is not present or the E-DPCH Information was not configured in the UE Context, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message contains the Additional E-DCH Cell Information RL Reconf Req IE and there exist a logical channel for which the Maximum MAC-d PDU Size Extended IE in the E-DCH MAC-d Flows Information IE in the E-DCH FDD Information IE is not present, the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.] 
[FDD – If the RADIO LINK RECONFIGURATION REQUEST message contains the Additional E-DCH RL Specific Information To Setup IE in the Additional E-DCH FDD Setup Information IE in the Additional E-DCH Cell Information Setup IE in the Additional E-DCH Cell Information RL Reconf Req IE and the C-ID IE is not included but the RL indicated by the E-DCH Additional RL ID IE is not configured in the current UE context as a Secondary Serving HS-DSCH radio link without any configured Additional E-DCH, the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message contains the Additional HS Cell Information RL Reconf Req IE and the new configuration contains more than one secondary serving HS-DSCH RL, and all secondary serving HS-DSCH RLs in the new configuration will not be assigned consecutive ordinal numbers starting with the value "1"which are previously assigned to the RL or received in the Ordinal Number Of Frequency IE in the HS-DSCH FDD Secondary Serving Information IE or the HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE, the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message contains the Additional HS Cell Information RL Reconf Req IE and the new configuration contains more than one secondary serving HS-DSCH RL, the new configuration also contains an Additional E-DCH Serving Radio Link and the secondary serving HS-DSCH Radio link, which is configured in the same cell as the Additional E-DCH Serving Radio Link does not have Ordinal Number Of Frequency value "1", the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message contains the UL CLTD Information IE but does not contain the F-TPICH Information IE, or if it contains HS-DSCH Preconfiguration Setup IE with UL CLTD Information IE but without F-TPICH Information IE, then the DRNC shall reject the procedure using the RADIO LINK REQUEST FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message contains the UL MIMO Information IE in E-DCH FDD Information IE but does not contain the UL CLTD Information IE, or if it contains HS-DSCH Preconfiguration Setup IE with UL MIMO Information IE but without UL CLTD Information IE, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message contains more than one of a MIMO Activation Indicator IE, a MIMO with four transmit antennas Activation Indicator IE, a Dual Stream MIMO with four transmit antennas Activation Indicator IE in HS-DSCH Preconfiguration Setup IE or in the Secondary Cells IE in the HS-DSCH Preconfiguration Setup IE, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the RADIO LINK RECONFIGURATION REQUEST message contains the Fast TTI switching Mode Requested Synchronized IE in the E-DCH FDD Information To Modify IE, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup or configured but the Dual Cell E-DCH operation Enhancements Information IE is not included in the RADIO LINK RECONFIGURATION REQUEST message, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup or configured and if the Continuous Packet Connectivity DTX-DRX Information IE is included in the RADIO LINK RECONFIGURATION REQUEST message, but the DTX Information IE does not contain any of the value defined for 10ms TTI, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.] 
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup or configured but the DTX Information To Modify IE, if included in the Continuous Packet Connectivity DTX-DRX Information To Modify IE in the RADIO LINK RECONFIGURATION REQUEST message and the choice is “Modify”, does not contain any of the value defined for 10ms TTI, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]
[FDD - If the Dual Cell E-DCH operation enhancements configuration is setup or configured and if the DTX related Information is not signalled but the currently used value is not from the set of values defined for 10ms TTI, then the DRNS shall reject the procedure using the RADIO LINK RECONFIGURATION FAILURE message.]

8.3.8	Physical Channel Reconfiguration
8.3.8.1	General
The Physical Channel Reconfiguration procedure is used by the DRNS to request the SRNC to reconfigure one of the configured physical channels.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The DRNS shall not initiate the Physical Channel Reconfiguration procedure if a Prepared Reconfiguration exists as defined in subclause 3.1, or if a Synchronised Radio Link Reconfiguration Preparation procedure, Unsynchronised Radio Link Reconfiguration procedure or Radio Link Deletion procedure is ongoing for the relevant UE context.
8.3.8.2	Successful Operation

Figure 16: Physical Channel Reconfiguration procedure, Successful Operation
When the DRNC detects the need to modify one of its physical channels, it shall send a PHYSICAL CHANNEL Reconfiguration Request to the SRNC.
The PHYSICAL CHANNEL Reconfiguration Request message contains the new value(s) of the physical channel parameter(s) of the radio link for which the DRNC is requesting the reconfiguration.
[FDD – If compressed mode is prepared or active and at least one of the downlink compressed mode methods is “SF/2”, the DRNC shall include the Transmission Gap Pattern Sequence Scrambling Code Information IE in the DL Code Information IE in the PHYSICAL CHANNEL Reconfiguration Request message indicating for each DL Channelisation Code whether the alternative scrambling code will be used or not if the downlink compressed mode methods “SF/2” is activated.]
[TDD – The SRNC shall apply the new values for any of [3.84Mcps TDD – UL Code Information IE, Midamble Shift And Burst Type IE,] [1.28Mcps TDD – UL Code Information LCR IE, Midamble Shift LCR IE,] [7.68 Mcps TDD – UL Code Information 7.68 Mcps IE, Midamble Shift And Burst Type 7.68 Mcps IE,] TDD DPCH Offset IE, Repetition Period IE, Repetition Length IE, or TFCI presence IE included in the UL DPCH Information IE within the PHYSICAL CHANNEL RECONFIGURATION REQUEST message, otherwise the previous values specified for this DPCH shall still apply.]
[TDD – The SRNC shall apply the new values for any of [3.84Mcps TDD – DL Code Information IE, Midamble Shift And Burst Type IE,] [1.28Mcps TDD – DL Code Information LCR IE, Midamble Shift LCR IE,] [7.68 Mcps TDD – DL Code Information 7.68 Mcps IE, Midamble Shift And Burst Type 7.68 Mcps IE,] TDD DPCH Offset IE Repetition Period IE, Repetition Length IE, or TFCI presence IE included in the DL DPCH Information IE within the PHYSICAL CHANNEL RECONFIGURATION REQUEST message, otherwise the previous values specified for this DPCH shall still apply.]
[3.84 Mcps TDD – If the PHYSICAL CHANNEL RECONFIGURATION REQUEST includes HS-PDSCH Timeslot Specific Information IE the SRNC shall apply the values of the Midamble Shift And Burst Type IE for each HS-PDSCH timeslot.]
[1.28 Mcps TDD – If the PHYSICAL CHANNEL RECONFIGURATION REQUEST includes HS-PDSCH Timeslot Specific Information LCR IE the SRNC shall apply the values of the Midamble Shift LCR IE for each HS-PDSCH timeslot.]
[1.28 Mcps TDD – if the PHYSICAL CHANNEL RECONFIGURATION REQUEST includes the PLCCH Information IE the SRNC shall modify, delete or grant a new PLCCH assignment to the indicated timeslot of the indicated UL DCH-type CCTrCH according to its content.]
[7.68 Mcps TDD – If the PHYSICAL CHANNEL RECONFIGURATION REQUEST includes HS-PDSCH Timeslot Specific Information 7.68 Mcps IE the SRNC shall apply the values of the Midamble Shift And Burst Type 7.68 Mcps IE for each HS-PDSCH timeslot.]
[FDD – If the PHYSICAL CHANNEL RECONFIGURATION REQUEST includes F-DPCH Slot Format IE the SRNC shall apply the values of the F-DPCH Slot Formats IE for F-DPCH Slot Format operation.]
Upon receipt of the PHYSICAL CHANNEL Reconfiguration Request, the SRNC shall decide an appropriate execution time for the change. The SRNC shall respond with a PHYSICAL CHANNEL Reconfiguration Command message to the DRNC that includes the CFN IE indicating the execution time.
At the CFN, the DRNS shall switch to the new configuration that has been requested, and release the resources related to the old physical channel configuration.
[FDD – If the PHYSICAL CHANNEL RECONFIGURATION REQUEST includes the F-TPICH Slot Format IE in F-TPICH Reconfiguration Information IE the SRNC shall apply the values of the F-TPICH Slot Format IE for F-TPICH Slot Format operation.]
[FDD – If the PHYSICAL CHANNEL RECONFIGURATION REQUEST includes the F-TPICH Channelisation Code Number IE in the F-TPICH Reconfiguration Information IE the SRNC shall use this information to configure the channelization code of F-TPICH.]
8.3.8.3	Unsuccessful Operation

Figure 17: Physical Channel Reconfiguration procedure, Unsuccessful Operation
If the SRNC cannot accept the reconfiguration request it shall send the PHYSICAL CHANNEL RECONFIGURATION FAILURE message to the DRNC, including the reason for the failure in the Cause IE.
Typical cause values are:
Radio Network Layer Causes:
-	Reconfiguration not Allowed.
8.3.8.4	Abnormal Conditions
While waiting for the PHYSICAL CHANNEL Reconfiguration Command message, if the DRNC receives any of the RADIO LINK RECONFIGURATION PREPARE, RADIO LINK RECONFIGURATION REQUEST, or RADIO LINK DELETION REQUEST messages, the DRNC shall abort the Physical Channel Reconfiguration procedure. These messages thus override the DRNC request for physical channel reconfiguration.
When the SRNC receives a PHYSICAL CHANNEL RECONFIGURATION REQUEST message while a Synchronised Radio Link Reconfiguration procedure, Unsynchronised Radio Link Reconfiguration procedure or Radio Link Deletion procedure is ongoing, the SRNC shall ignore the request message and assume that receipt of any of the messages RADIO LINK RECONFIGURATION PREPARE, RADIO LINK RECONFIGURATION REQUEST or RADIO LINK DELETION REQUEST by the DRNC has terminated the Physical Channel Reconfiguration procedure. In this case the SRNC shall not send a PHYSICAL CHANNEL RECONFIGURATION FAILURE message to the DRNC.
8.3.9	Radio Link Failure
8.3.9.1	General
This procedure is started by the DRNS when one or more Radio Links [FDD – or Radio Link Sets][TDD – or CCTrCHs within a Radio Link] are no longer available.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The DRNS may initiate the Radio Link Failure procedure at any time after establishing a Radio Link.
8.3.9.2	Successful Operation

Figure 18: Radio Link Failure procedure, Successful Operation
When the DRNC detects that one or more Radio Link(s) [FDD – or Radio Link Set(s)] [TDD – or CCTrCHs within a Radio Link] are no longer available, it shall send the RADIO LINK FAILURE INDICATION message to the SRNC. The message indicates the failed Radio Link(s) [FDD – or Radio Link Set(s)] [TDD – or CCTrCHs] with the most appropriate cause values defined in the Cause IE. If the failure concerns one or more individual Radio Links the DRNC shall include the affected Radio Link(s) using the RL Information IE. [FDD – If the failure concerns one or more Radio Link Set(s) the DRNC shall include the affected Radio Link Set(s) using the RL Set Information IE.] [TDD – If the failure concerns only the failure of one or more CCTrCHs within in a radio link the DRNC shall include the affected CCTrCHs using the CCTrCH ID IE.]
When the RL Failure procedure is used to notify loss of UL synchronisation of a [FDD – Radio Link Set] [TDD – Radio Link or CCTrCHs within a Radio Link] on the Uu interface, the RADIO LINK FAILURE INDICATION message shall be sent with the Cause IE set to “Synchronisation Failure” when indicated by the UL synchronisation detection algorithm defined in TS 25.214 [10] subclause 4.3 and TS 25.224 [22] subclause 4.4.2.
[FDD – When the Radio Link Failure procedure is used to indicate permanent failure in one or more Radio Link(s)/Radio Link Set(s) due to the occurrence of an UL or DL frame with more than one transmission gap caused by one or more compressed mode pattern sequences, the DL transmission shall be stopped and the RADIO LINK FAILURE INDICATION message shall be sent with the Cause IE set to “Invalid CM Settings”. After sending the RADIO LINK FAILURE INDICATION message to notify the permanent failure, the DRNS shall not remove the Radio Link(s)/Radio Link Set(s) from the UE Context, or remove the UE Context itself.]
[FDD – When the Radio Link Failure Procedure is used to indicate E-DCH non serving cell processing issue, the RADIO LINK FAILURE INDICATION shall be sent, with the Cause IE set to “Not enough user plane processing resources”.]
In the other cases the Radio Link Failure procedure is used to indicate that one or more Radio Link(s) [FDD – or Radio Link Set(s)] are permanently unavailable and cannot be restored. After sending the RADIO LINK FAILURE INDICATION message to notify the permanent failure, the DRNS shall not remove the Radio Link from the UE Context, or remove the UE Context itself. When applicable, the allocation retention priorities associated with the transport channels shall be used by the DRNS to prioritise which Radio Links to indicate as unavailable to the SRNC.
Typical cause values are:
Radio Network Layer Causes:
Synchronisation Failure;
Invalid CM Settings.
Transport Layer Causes:
Transport Resources Unavailable.
Miscellaneous Causes:
Control Processing Overload;
HW Failure;
O&M Intervention;
Not enough user plane processing resources.
8.3.9.3	Abnormal Conditions
-
8.3.10	Radio Link Restoration
8.3.10.1	General
This procedure is used to notify establishment and re-establishment of UL synchronisation of one or more [FDD – RL Set(s)] [TDD – Radio Links or CCTrCH(s) in a Radio Link] on the Uu interface.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The DRNC may initiate the Radio Link Restoration procedure at any time after establishing a Radio Link.
8.3.10.2	Successful Operation

Figure 19: Radio Link Restoration procedure, Successful Operation
The DRNC shall send the RADIO LINK RESTORE INDICATION message to the SRNC when and as specified by the UL Uu synchronisation detection algorithm defined in TS 25.214 [10] subclause 4.3 and TS 25.224 [22] subclause 4.4.2 [FDD -, or when the Fast Reconfiguration Mode IE has been included in the RADIO LINK RECONFIGURATION COMMIT message and the DRNS has detected that the UE has changed to the new configuration. The algorithm in TS 25.214 [10] shall use the minimum value of the parameters N_INSYNC_IND that are configured in the cells supporting the radio links of the RL Set.]
[TDD – If the re-established UL Uu synchronisation concerns one or more individual Radio Links the DRNC shall include in the RADIO LINK RESTORE INDICATION message the RL Information IE to indicate the affected Radio Link(s). If the re-established synchronisation concerns one or more individual CCTrCHs within a radio link the DRNS shall include in the RADIO LINK RESTORE INDICATION message the RL Information IE to indicate the affected CCTrCHs.]
[FDD – If the re-established UL Uu synchronisation concerns one or more Radio Link Sets the DRNC shall include in the RADIO LINK RESTORE INDICATION message the RL Set Information IE to indicate the affected Radio Link Set(s).]
[FDD – The DRNC shall send the RADIO LINK RESTORE INDICATION message when the E-DCH processing issue condition has ceased.]
8.3.10.3	Abnormal Conditions
-
8.3.11	Dedicated Measurement Initiation
8.3.11.1	General
This procedure is used by an SRNS to request the initiation of dedicated measurements in a DRNS.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The Dedicated Measurement Initiation procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
8.3.11.2	Successful Operation

Figure 20: Dedicated Measurement Initiation procedure, Successful Operation
The procedure is initiated with a DEDICATED MEASUREMENT INITIATION REQUEST message sent from the SRNC to the DRNC.
Upon receipt, the DRNC shall initiate the requested dedicated measurement according to the parameters given in the DEDICATED MEASUREMENT INITIATION REQUEST message.
If the Dedicated Measurement Object Type is indicated as being “RL” in the DEDICATED MEASUREMENT INITIATION REQUEST message, measurement results shall be reported for all the indicated Radio Links.
[FDD – If the Dedicated Measurement Object Type is indicated as being “RLS” in the DEDICATED MEASUREMENT INITIATION REQUEST message, measurement results shall be reported for all the indicated Radio Link Sets.]
[FDD – If the Dedicated Measurement Object Type is indicated as being “ALL RL” in the DEDICATED MEASUREMENT INITIATION REQUEST message, measurement results shall be reported for all current and future Radio Links within the UE Context.]
[TDD – If the Dedicated Measurement Object Type is indicated as being “ALL RL” in the DEDICATED MEASUREMENT INITIATION REQUEST message, measurement results shall be reported for one existing DPCH per CCTrCH in each used time slot of current and future Radio Links within the UE Context, provided the measurement type is applicable to the respective DPCH.]
[FDD – If the Dedicated Measurement Object Type is indicated as being “ALL RLS” in the DEDICATED MEASUREMENT INITIATION REQUEST message, measurement results shall be reported for all the existing and future Radio Link Sets within the UE Context.]
[TDD – If the DPCH ID IE or DPCH ID 7.68Mcps IE is provided within the RL Information, the measurement request shall apply for the requested physical channel individually. If no DPCH ID IE, DPCH ID 7.68Mcps IE or HS-SICH ID IE is provided within the RL Information the measurement request shall apply for one existing DPCH per CCTrCH in each used time slot of the Radio Link, provided the measurement type is applicable to this DPCH.]
[TDD – If the HS-SICH Information IE is provided within the RL Information, the measurement request shall apply for the requested physical channel individually.]
[TDD – If the Dedicated Measurement Type IE is set to “HS-SICH reception quality “, the DRNS shall initiate measurements of the failed, missed and total HS-SICH transmissions on all of the HS-SICH assigned to this UE Context. If either the failed or missed HS-SICH transmission satisfies the requested report characteristics, the DRNS shall report the result of both failed and missed transmission measurements along with the total number of transmissions.]
Report characteristics
The Report Characteristics IE indicates how the reporting of the dedicated measurement shall be performed. See also Annex B.
If the Report Characteristics IE is set to “On Demand” and if the CFN IE is not provided, the DRNS shall report the measurement result immediately in the DEDICATED MEASUREMENT INITIATION RESPONSE message. If the CFN IE is provided, it indicates the frame for which the measurement value shall be provided. The provided measurement value shall be the one reported by the layer 3 filter, referred to as point C in the measurement model (TS 25.302 [26]).
If the Report Characteristics IE is set to “Periodic” and if the CFN IE is not provided, the DRNS shall immediately and periodically initiate the Dedicated Measurement Reporting procedure for this measurement, with a frequency as specified by the Report Periodicity IE. If the CFN IE is provided, the DRNS shall initiate a Dedicated Measurement Reporting procedure for this measurement at the CFN indicated in the CFN IE, and shall repeat this initiation periodically thereafter with a frequency as specified by the Report Periodicity IE. The provided measurement value shall be the one reported by the layer 3 filter, referred to as point C in the measurement model (TS 25.302 [26]).
If the Report Characteristics IE is set to “Event A”, the DRNS shall initiate the Dedicated Measurement Reporting procedure when the measured entity rises above the requested threshold, as specified by the Measurement Threshold IE, and then stays above the threshold for the requested hysteresis time, as specified by the Measurement Hysteresis Time IE. If the Measurement Hysteresis Time IE is not included, the DRNC shall use the value zero for the hysteresis time.
If the Report Characteristics IE is set to “Event B”, the DRNS shall initiate the Dedicated Measurement Reporting procedure when the measured entity falls below the requested threshold, as specified by the Measurement Threshold IE, and then stays below the threshold for the requested hysteresis time, as specified by the Measurement Hysteresis Time IE. If the Measurement Hysteresis Time IE is not included, the DRNC shall use the value zero for the hysteresis time.
If the Report Characteristics IE is set to “Event C”, the DRNS shall initiate the Dedicated Measurement Reporting procedure when the measured entity rises more than the requested threshold specified by the Measurement Increase/Decrease Threshold IE, and only when this rise occurs within the requested rising time specified by the Measurement Change Time IE. After reporting this type of event, DRNS shall not initiate the next C event reporting for the same measurement during the subsequent time specified by the Measurement Change Time IE.
If the Report Characteristics IE is set to “Event D”, the DRNS shall initiate the Dedicated Measurement Reporting procedure when the measured entity falls more than the requested threshold specified by the Measurement Increase/Decrease Threshold IE, and only when this falls occurs within the requested falling time specified by the Measurement Change Time IE. After reporting this type of event, the DRNS shall not initiate the next D event reporting for the same measurement during the subsequent time specified by the Measurement Change Time IE.
If the Report Characteristics IE is set to “Event E”, the DRNS shall initiate the Dedicated Measurement Reporting procedure when the measured entity rises above the Measurement Threshold 1 IE and stays above the threshold for the Measurement Hysteresis Time IE (Report A). When the conditions for Report A are met and if the Report Periodicity IE is provided, the DRNS shall initiate the Dedicated Measurement Reporting procedure periodically with the requested report frequency specified by the Report Periodicity IE. If the conditions for Report A have been met and the measured entity falls below the Measurement Threshold 2 IE and stays below the threshold for the Measurement Hysteresis Time IE, the DRNS shall initiate the Dedicated Measurement Reporting procedure (Report B) and shall terminate any corresponding periodic reporting. If the Measurement Threshold 2 IE is not present, the DRNS shall use the value of the Measurement Threshold 1 IE instead. If the Measurement Hysteresis Time IE is not included, the DRNC shall use the value zero as hysteresis times for both Report A and Report B.
If the Report Characteristics IE is set to “Event F”, the DRNS shall initiate the Dedicated Measurement Reporting procedure when the measured entity falls below the Measurement Threshold 1 IE and stays below the threshold for the Measurement Hysteresis Time IE (Report A). When the conditions for Report A are met and if the Report Periodicity IE is provided, the DRNS shall initiate the Dedicated Measurement Reporting procedure periodically with the requested report frequency specified by the Report Periodicity IE. If the conditions for Report A have been met and the measured entity rises above the Measurement Threshold 2 IE and stays above the threshold for the Measurement Hysteresis Time IE, the DRNS shall initiate the Dedicated Measurement Reporting procedure (Report B) and shall terminate any corresponding periodic reporting. If the Measurement Threshold 2 IE is not present, the DRNS shall use the value of the Measurement Threshold 1 IE instead. If the Measurement Hysteresis Time IE is not included, the DRNC shall use the value zero as hysteresis times for both Report A and Report B.
If the Report Characteristics IE is not set to “On –Demand”, the DRNS is required to perform reporting for a dedicated measurement object, in accordance with the conditions provided in the DEDICATED MEASUREMENT INITIATION REQUEST message, as long as the object exists. If no dedicated measurement object(s) for which a measurement is defined exists any more, the DRNS shall terminate the measurement locally without reporting this to the SRNC.
If at the start of the measurement, the reporting criteria are fulfilled for any of Event A, Event B, Event E or Event F, the DRNS shall initiate the Dedicated Measurement Reporting procedure immediately, and then continue with the measurements as specified in the DEDICATED MEASUREMENT INITIATION REQUEST message.
Higher layer filtering
The Measurement Filter Coefficient IE indicates how filtering of the dedicated measurement values shall be performed before measurement event evaluation and reporting.
The averaging 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 DEDICATED MEASUREMENT INITIATION RESPONSE, DEDICATED MEASUREMENT REPORT messages or the unit used in the event evaluation (i.e. same unit as for Fn).
A = ½(k/2) , where k is the parameter received in the Measurement Filter Coefficient IE. If the Measurement Filter Coefficient IE is not present, a shall be set to 1 (no 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.
Measurement Recovery Behavior:
If the Measurement Recovery Behavior IE is included in the DEDICATED MEASUREMENT INITIATION REQUEST message, the DRNS shall, if Measurement Recovery Behavior is supported, include the Measurement Recovery Support Indicator IE in the DEDICATED MEASUREMENT INITIATION RESPONSE message and perform the Measurement Recovery Behavior as described in subclause 8.3.12.2.
Response message
If the DRNS was able to initiate the measurement requested by the SRNS it shall respond with the DEDICATED MEASUREMENT INITIATION RESPONSE message. The message shall include the same Measurement ID that was used in the DEDICATED MEASUREMENT INITIATION REQUEST message.
In the case in which the Report Characteristics IE is set to “On Demand”:
-	The DRNC shall include the measurement result in the Dedicated Measurement Value IE within the DEDICATED MEASUREMENT INITIATION RESPONSE message.
-	If the CFN Reporting Indicator IE is set to “FN Reporting Required”, the CFN IE shall be included in the DEDICATED MEASUREMENT INITIATION RESPONSE message. The reported CFN shall be the CFN at the time when the dedicated measurement value was reported by the layer 3 filter, referred to as point C in the measurement model (TS 25.302 [26]).
-	[TDD – If the measurement was made on a particular DPCH, the DEDICATED MEASUREMENT INITIATION RESPONSE message shall include the DPCH ID of that DPCH in the [1.28Mcps TDD and 3.84Mcps TDD – DPCH ID IE] [7.68Mcps TDD – DPCH ID 7.68Mcps IE].]
-	[TDD – If the measurement was made on a particular HS-SICH, the DEDICATED MEASUREMENT INITIATION RESPONSE message shall include the ID of that HS-SICH in the HS-SICH ID IE.]
[FDD – If the Alternative Format Reporting Indicator IE is set to “Alternative format is allowed” in the DEDICATED MEASUREMENT INITIATION REQUEST message, the DRNC may include the Extended Round Trip Time IE in the DEDICATED MEASUREMENT INITIATION RESPONSE message.]
8.3.11.3	Unsuccessful Operation

Figure 21: Dedicated Measurement Initiation procedure, Unsuccessful Operation
If the requested measurement cannot be initiated for one of the RL/RLS, the DRNC shall send a DEDICATED MEASUREMENT INITIATION FAILURE message. The message shall include the same Measurement ID IE that was used in the DEDICATED MEASUREMENT INITIATION REQUEST message and shall include the Cause IE set to an appropriate value.
If the DEDICATED MEASUREMENT INITIATION REQUEST message includes the Partial Reporting Indicator IE, the DRNS shall, if partial reporting is supported, separate the unsuccessful measurement initiations from the successful measurement initiations. For the successful measurement initiations on a RL or an RLS, the DRNS shall include the Successful RL Information IE or the Successful RL Set Information IE for the concerned RL or RLS if the Report Characteristics IE in the DEDICATED MEASUREMENT INITIATION REQUEST message was set to “On Demand”. For the unsuccessful measurement initiations, the DRNS shall include the Individual Cause IE set to an appropriate value if it differs from the value of the Cause IE. 
Typical cause values are:
Radio Network Layer Causes:
Measurement not Supported For The Object;
Measurement Temporarily not Available.
Miscellaneous Causes:
Control Processing Overload; 
HW Failure. 
8.3.11.4	Abnormal Conditions
The allowed combinations of the Dedicated Measurement Type and Report Characteristics Type are shown in the table below marked with “X”. For not allowed combinations, the DRNS shall reject the Dedicated Measurement Initiation procedure using the DEDICATED MEASUREMENT INITIATION FAILURE message.
Table 4: Allowed Dedicated Measurement Type and Report Characteristics Type combinations
Dedicated Measurement Type
Report Characteristics Type

On Demand
Periodic
Event A
Event B
Event C
Event D
Event E
Event F
On Modification
SIR
X
X
X
X
X
X
X
X

SIR Error
X
X
X
X
X
X
X
X

Transmitted Code Power
X
X
X
X
X
X
X
X

RSCP
X
X
X
X
X
X
X
X

Rx Timing Deviation
X
X
X
X


X
X

Round Trip Time
X
X
X
X
X
X
X
X

Rx Timing Deviation LCR
X
X
X
X


X
X

HS-SICH Reception Quality
X
X
X
X


X
X

Angle Of Arrival LCR
X
X







Rx Timing Deviation 7.68Mcps
X
X
X
X


X
X

Rx Timing Deviation 3.84Mcps Extended
X
X
X
X


X
X

UE transmission power headroom
X
X

X



X

DL transport block size
X
X








If the Dedicated Measurement Type received in the Dedicated Measurement Type IE is not defined in TS 25.215 [11] or TS 25.225 [14] to be measured on the Dedicated Measurement Object Type received in the DEDICATED MEASUREMENT INITIATION REQUEST message, the DRNS shall reject the Dedicated Measurement Initiation procedure.
If the CFN IE is included in the DEDICATED MEASUREMENT INITIATION REQUEST message and the Report Characteristics IE is other than “Periodic” or “On Demand”, the DRNS shall reject the Dedicated Measurement Initiation procedure, and the DRNC shall send a DEDICATED MEASUREMENT INITIATION FAILURE message.
8.3.12	Dedicated Measurement Reporting
8.3.12.1	General
This procedure is used by the DRNS to report the results of the successfully initiated measurements requested by the SRNS with the Dedicated Measurement Initiation procedure.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The DRNC may initiate the Dedicated Measurement Reporting procedure at any time after establishing a Radio Link.
8.3.12.2	Successful Operation

Figure 22: Dedicated Measurement Reporting procedure, Successful Operation
If the requested measurement reporting criteria are met, the DRNS shall initiate the Dedicated Measurement Reporting procedure. If the measurement was initiated (by the Dedicated Measurement Initiation procedure) for multiple dedicated measurement objects, the DRNC may include dedicated measurement values in the Dedicated Measurement Value Information IE for multiple objects in the DEDICATED MEASUREMENT REPORT message.
The Measurement ID IE shall be set to the Measurement ID provided by the SRNC when initiating the measurement with the Dedicated Measurement Initiation procedure.
If the achieved measurement accuracy does not fulfil the given accuracy requirement specified in TS 25.133 [23] and TS 25.123 [24] or the measurement is temporarily not available in case Measurement Recovery Behavior is supported, the Measurement not available shall be reported in the Dedicated Measurement Value Information IE in the DEDICATED MEASUREMENT REPORT message, otherwise the DRNC shall include the Dedicated Measurement Value IE within the Dedicated Measurement Value Information IE. If the DRNC was configured to perform the Measurement Recovery Behavior, the DRNC shall indicate Measurement Available to the SRNC when the achieved measurement accuracy again fullfils the given accuracy requirement (see TS 25.133 [23] and TS 25.123 [24]) and include the Measurement Recovery Report Indicator IE in the DEDICATED MEASUREMENT REPORT message if the requested measurement reporting criteria are not met.
If the CFN Reporting Indicator when initiating the measurement with the Dedicated Measurement Initiation procedure was set to “FN Reporting Required”, the DRNC shall include the CFN IE in the DEDICATED MEASUREMENT REPORT message. The reported CFN shall be the CFN at the time when the dedicated measurement value was reported by the layer 3 filter, referred to as point C in the measurement model (TS 25.302 [26]).
[TDD – If the measurement was made on a particular DPCH, the DEDICATED MEASUREMENT REPORT message shall include the DPCH ID of that DPCH in the [1.28Mcps TDD and 3.84Mcps TDD – DPCH ID IE] [7.68Mcps TDD – DPCH ID 7.68Mcps IE].]
[TDD – If the measurement was made on a particular HS-SICH, the DEDICATED MEASUREMENT INITIATION RESPONSE message shall include the ID of that HS-SICH in the HS-SICH ID IE.]
[FDD – If the Alternative Format Reporting Indicator IE was set to “Alternative format is allowed” in the DEDICATED MEASUREMENT INITIATION REQUEST message setting up the measurement to be reported, the DRNC may include the Extended Round Trip Time IE in the DEDICATED MEASUREMENT REPORT message.]
8.3.12.3	Abnormal Conditions
-
8.3.13	Dedicated Measurement Termination
8.3.13.1	General
This procedure is used by the SRNS to terminate a measurement previously requested by the Dedicated Measurement Initiation procedure.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The Dedicated Measurement Termination procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
8.3.13.2	Successful Operation

Figure 23: Dedicated Measurement Termination procedure, Successful Operation
This procedure is initiated with a DEDICATED MEASUREMENT TERMINATION REQUEST message, sent from the SRNC to the DRNC.
Upon receipt, the DRNS shall terminate reporting of dedicated measurements corresponding to the received Measurement ID IE.
8.3.13.3	Abnormal Conditions
-
8.3.14	Dedicated Measurement Failure
8.3.14.1	General
This procedure is used by the DRNS to notify the SRNS that a measurement previously requested by the Dedicated Measurement Initiation procedure can no longer be reported. When partial reporting is allowed and supported, this procedure shall be used to report that measurement for one or more RL/RLS can no longer be reported.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The DRNC may initiate the Dedicated Measurement Failure procedure at any time after establishing a Radio Link.
8.3.14.2	Successful Operation

Figure 24: Dedicated Measurement Failure procedure, Successful Operation
This procedure is initiated with a DEDICATED MEASUREMENT FAILURE INDICATION message, sent from the DRNC to the SRNC, to inform the SRNC that a previously requested dedicated measurement can no longer be reported. The DRNC has locally terminated the indicated measurement. The DRNC shall include in the DEDICATED MEASUREMENT FAILURE INDICATION message the reason for the failure in the Cause IE.
The DRNS shall include Unsuccessful RL Information IE or the Unsuccessful RL Set Information IE for the concerned RL or RLS if partial reporting is allowed and it is supported. The DRNS shall include the Individual Cause IE set to an appropriate value if it differs from the value of the Cause IE.
Typical cause values are:
Miscellaneous Causes:
-	Control Processing Overload;
-	HW Failure;
-	O&M Intervention.
8.3.14.3	Abnormal Conditions
-
8.3.15	Downlink Power Control [FDD]
8.3.15.1	General
The purpose of this procedure is to balance the DL transmission powers of one or more radio links for one UE.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The Downlink Power Control procedure may be initiated by the SRNC at any time after establishing a Radio Link. If the SRNC has initiated in this DRNS the deletion of the last Radio Link for this UE context, the Downlink Power Control procedure shall not be initiated.
8.3.15.2	Successful Operation

Figure 25: Downlink Power Control procedure, Successful Operation
The Downlink Power Control procedure is initiated by the SRNC sending a DL POWER CONTROL REQUEST message to the DRNC.
The Power Adjustment Type IE defines the characteristic of the power adjustment.
If the value of the Power Adjustment Type IE is “Common”, the DRNS shall set the Power Balancing Adjustment Type of the UE Context set to “Common”. As long as the Power Balancing Adjustment Type of the UE Context is set to “Common”, the DRNS shall perform the power adjustment (see below) for all existing and future radio links for the UE Context and use a common DL reference power level.
If the value of the Power Adjustment Type IE is “Individual”, the DRNS shall set the Power Balancing Adjustment Type of the UE Context set to “Individual”. The DRNS shall perform the power adjustment (see below) for all radio links addressed in the message using the given DL Reference Power per RL. If the Power Balancing Adjustment Type of the UE Context was set to “Common” before this message was received, power balancing on all radio links not addressed by the DL POWER CONTROL REQUEST message shall remain to be executed in accordance with the existing power balancing parameters which are now considered RL individual parameters. Power balancing will not be started on future radio links without a specific request.
If the value of the Power Adjustment Type IE is “None”, the DRNS shall set the Power Balancing Adjustment Type of the UE Context set to “None” and the DRNS shall suspend on going power adjustments for all radio links for the UE Context.
If the Inner Loop DL PC Status IE is present and set to “Active”, the DRNS shall activate inner loop DL power control for all radio links for the UE Context. If the Inner Loop DL PC Status IE is present and set to “Inactive”, the DRNS shall deactivate inner loop DL power control for all radio links for the UE Context according to TS 25.214 [10].
Power Adjustment
The power balancing adjustment shall be superimposed on the inner loop power control adjustment (see TS 25.214 [10]) if activated. The power balancing adjustment shall be such that:
with an accuracy of ±0.5 dB
where the sum is performed over an adjustment period corresponding to a number of frames equal to the value of the Adjustment Period IE, Pref is the value of the DL Reference Power IE, PP-CPICH is the power used on the primary CPICH, Pinit is the code power of the last slot of the previous adjustment period and r is given by the Adjustment Ratio IE. If the last slot of the previous adjustment period is within a transmission gap due to compressed mode, Pinit shall be set to the same value as the code power of the slot just before the transmission gap.
The adjustment within one adjustment period shall in any case be performed with the constraints given by the Max Adjustment Step IE and the DL TX power range set by the DRNC.
The power adjustments shall be started at the first slot of a frame with CFN modulo the value of Adjustment Period IE equal to 0 and shall be repeated for every adjustment period and shall be restarted at the first slot of a frame with CFN=0, until a new DL POWER CONTROL REQUEST message is received or the RL is deleted.
8.3.15.3	Abnormal Conditions
-
8.3.16	Compressed Mode Command [FDD]
8.3.16.1	General
The Compressed Mode Command procedure is used to activate or deactivate the compressed mode in the DRNS for one UE-UTRAN connection. This procedure shall use the signalling bearer connection for the relevant UE Context.
The Compressed Mode Command procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
8.3.16.2	Successful Operation

Figure 26: Compressed Mode Command procedure, Successful Operation
The procedure is initiated by the SRNC sending a COMPRESSED MODE COMMAND message to the DRNC.
Upon receipt of the COMPRESSED MODE COMMAND message from the SRNC and at the CFN indicated in the CM Configuration Change CFN IE, the DRNS shall deactivate all the ongoing Transmission Gap Pattern Sequences. From that moment on all Transmission Gap Pattern Sequences included in Transmission Gap Pattern Sequence Status IE repetitions (if present) shall be started when the indicated TGCFN IE elapses. The CM Configuration Change CFN IE in the Active Pattern Sequence Information IE and TGCFN IE for each sequence refer to the next coming CFN with that value.
If the values of the CM Configuration Change CFN IE and the TGCFN IE are equal, the concerned Transmission Gap Pattern Sequence shall be started immediately at the CFN with a value equal to the value received in the CM Configuration Change CFN IE.
If the Affected HS-DSCH serving cell List IE is included, the concerned Transmission Gap Pattern Sequence shall be applied to HS-DSCH serving cells associated with C-ID IE included in Affected HS-DSCH serving cell List IE. Otherwise the concerned Transmission Gap Pattern Sequence shall be applied to all the configured serving cells.
If the concerned UE Context is configured to use F-DPCH in the downlink, the DRNS shall ignore, when activating the Transmission Gap Pattern Sequence(s), the downlink compressed mode method information, if existing, for the concerned Transmission Gap Pattern Sequence(s) in the Compressed Mode Configuration.
8.3.16.3	Abnormal Conditions
[FDD - If the Affected HS-DSCH serving cell List IE is included in the Active Pattern Sequence Information IE, and theTransmission Gap Pattern Sequence for affected HS-DSCH Serving Cells is activated on the HS-DSCH Primary Serving Cell but not for all the other serving cells, the DRNS shall initiate the Radio Link Failure procedure with the cause value “Invalid CM Settings”.]
8.3.17	Downlink Power Timeslot Control [TDD]
8.3.17.1	General
The purpose of this procedure is to provide the DRNS with updated DL Timeslot ISCP values to use when deciding the DL TX Power for each timeslot.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The Downlink Power Timeslot Control procedure can be initiated by the SRNC at any time after establishing a Radio Link. If the SRNC has initiated deletion of the last Radio Link in this DRNS, the Downlink Power Timeslot Control procedure shall not be initiated.
8.3.17.2	Successful Operation

Figure 26A: Downlink Power Timeslot Control procedure, Successful Operation
The Downlink Power Timeslot Control procedure is initiated by the SRNC sending a DL POWER TIMESLOT CONTROL REQUEST message to the DRNC.
Upon receipt of the DL POWER TIMESLOT CONTROL REQUEST message, the DRNS shall use the included [3.84Mcps TDD and 7.68 Mcps TDD – DL Timeslot ISCP Info IE] [1.28Mcps TDD – DL Timeslot ISCP Info LCR IE] value when deciding the DL TX Power for each timeslot as specified in TS 25.224 [22], i.e. it shall reduce the DL TX power in those downlink timeslots of the radio link in which the interference is low, and increase the DL TX power in those timeslots in which the interference is high, while keeping the total downlink power in the radio link unchanged.
If the Primary CCPCH RSCP Delta IE is included, the DRNS shall assume that the reported value for Primary CCPCH RSCP is in the negative range as per TS 25.123 [24], and the value is equal to the Primary CCPCH RSCP Delta IE. If the Primary CCPCH RSCP Delta IE is not included and the Primary CCPCH RSCP IE is included, the DRNS shall assume that the reported value is in the non-negative range as per TS 25.123 [24], and the value is equal to the Primary CCPCH RSCP IE. The DRNS should use the indicated value for HS-DSCH scheduling and transmit power adjustment.
8.3.17.3	Abnormal Conditions
-
8.3.18	Radio Link Pre-emption
8.3.18.1	General
This procedure is started by the DRNS when resources need to be freed.
This procedure shall use the signalling bearer connection for the UE Context associated with the RL to be pre-empted.
The DRNS may initiate the Radio Link Pre-emption procedure at any time after establishing a Radio Link.
8.3.18.2	Successful Operation

Figure 26B: Radio Link Pre-emption procedure, Successful Operation
When DRNC detects that one or more Radio Link(s) should be pre-empted (see Annex A), it shall send the RADIO LINK PREEMPTION REQUIRED INDICATION message to the SRNC. If all Radio Links for a UE Context should be pre-empted, the RL Information IE shall not be included in the message. If one or several but not all Radio Link(s) should be pre-empted for an UE Context, the Radio Link(s) that should be pre-empted shall be indicated in the RL Information IE. The Radio Link(s) that should be pre-empted, should be deleted by the SRNC.
[FDD – If only the E-DCH traffic on a Radio Link should be pre-empted, the DRNC shall indicate the EDCH MAC-d flows that should be pre-empted by including the E-DCH MAC-d Flow Specific Information IE in the RADIO LINK PREEMPTION REQUIRED INDICATION message.]
When only the HS-DSCH traffic on a Radio Link should be pre-empted, the DRNC shall indicate the HS-DSCH MAC-d flow(s) that should be pre-empted by including the HS-DSCH MAC-d Flow Specific Information IE in the RADIO LINK PREEMPTION REQUIRED INDICATION message.
8.3.18.3	Abnormal Conditions
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8.3.19	Radio Link Congestion
8.3.19.1	General
This procedure is started by the DRNS when resource congestion is detected and the rate of one or more DCHs, corresponding to one or more radio links, is preferred to be limited in the UL and/or DL. This procedure is also used by the DRNC to indicate to the SRNC any change of the UL/DL resource congestion situation, affecting these radio links. This procedure shall use the signalling bearer connection for the relevant UE Context.
The Radio Link Congestion procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
8.3.19.2	Successful Operation

Figure 26C: Radio Link Congestion procedure, Successful Operation
Start of an UL/DL Resource Congestion Situation
When the DRNC detects the start of a UL/DL resource congestion situation and prefers the rate of one or more DCHs for one or more Radio Link(s) to be limited below the maximum rate currently configured in the UL/DL TFS, it shall send the RADIO LINK CONGESTION INDICATION message to the SRNC. The DRNC shall indicate the cause of the congestion in the Congestion Cause IE and shall indicate all the Radio Links for which the rate of a DCH needs to be reduced. For each DCH within the RL with UL congestion, the DRNC shall indicate the desired maximum UL data rate with the Allowed UL Rate IE in the Allowed Rate Information IE. For each DCH within the RL with DL congestion, the DRNC shall indicate the desired maximum DL data rate with the Allowed DL Rate IE in the Allowed Rate Information IE.
[FDD – For each E-DCH MAC-d flow within the RL with UL congestion, the DRNC shall indicate all the MAC-d flows for which the rate cannot be fullfilled.]
When receiving the RADIO LINK CONGESTION INDICATION message the SRNC should reduce the rate in accordance with the Congestion Cause IE and the indicated Allowed DL Rate IE and/or Allowed UL Rate IE for a DCH.
[FDD – If the RADIO LINK CONGESTION INDICATION message includes the DCH Indicator For E-DCH-HSDPA Operation IE, then the SRNS shall ignore the DCH Rate Information IE in the RADIO LINK CONGESTION INDICATION message.]
Change of UL/DL Resource Congestion Situation
The DRNC shall indicate any change of the UL/DL resource congestion situation by sending the RADIO LINK CONGESTION INDICATION message in which the new allowed rate(s) of the DCHs are indicated by the Allowed Rate Information IE. In the case that for at least one DCH the new allowed rate is lower than the previously indicated allowed rate for that DCH, the Congestion Cause IE, indicating the cause of the congestion, shall also be included.
When receiving a RADIO LINK CONGESTION INDICATION message indicating a further rate decrease on any DCH(s) on any RL, the SRNC should reduce the rate in accordance with the indicated congestion cause and the indicated allowed rate(s) for the DCH(s).
End of UL/DL Resource Congestion Situation
The end of an UL resource congestion situation, affecting a specific RL, shall be indicated by including the TF corresponding to the highest data rate in the Allowed UL Rate IE in the Allowed Rate Information IE for the concerned RL. The end of a DL resource congestion situation, affecting a specific RL, shall be indicated by including the TF with the highest data rate in the Allowed DL Rate IE in the Allowed Rate Information IE for the concerned RL.
8.3.19.3	Abnormal Conditions
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8.3.20	Radio Link Activation
8.3.20.1	General
This procedure is used to activate or de-activate the DL transmission on the Uu interface regarding selected RLs.
8.3.20.2	Successful Operation


Figure 26D: Radio Link Activation procedure
This procedure is initiated by sending the RADIO LINK ACTIVATION COMMAND message from the SRNC to the DRNC. This procedure shall use the signalling bearer connection for the relevant UE Context.
Upon receipt, the DRNS shall for each concerned RL:
-	if the Delayed Activation Update IE indicates “Activate”:
-	if the Activation Type IE equals “Unsynchronised”:
-	[FDD – start transmission on the new RL after synchronisation is achieved in the DL user plane as specified in TS 25.427 [4].]
-	[TDD – start transmission on the new RL immediately as specified in TS 25.427 [4].]
-	if the Activation Type IE equals “Synchronised”:
-	[FDD – start transmission on the new RL after synchronisation is achieved in the DL user plane as specified in TS 25.427 [4], however never before the CFN indicated in the Activation CFN IE.]
-	[TDD – start transmission on the new RL at the CFN indicated in the Activation CFN IE as specified in TS 25.427 [4].]
-	[FDD – the DRNS shall apply the power level indicated in the Initial DL Tx Power IE to the transmission on each DL DPCH or on the F-DPCH of the RL when starting transmission until either UL synchronisation on the Uu interface is achieved for the RLS or power balancing is activated. During this period no inner loop power control shall be performed and, unless activated by the DL POWER CONTROL REQUEST message, no power balancing shall be performed. The DL power shall then vary according to the inner loop power control (see TS 25.214 [10], subclause 5.2.1.2) and downlink power balancing adjustments (see 8.3.7).]
-	[TDD – the DRNS shall apply the power level indicated in the Initial DL Tx Power IE to the transmission on each DL DPCH and on each Time Slot of the RL when starting transmission until the UL synchronisation on the Uu interface is achieved for the RL. No inner loop power control shall be performed during this period. The DL power shall then vary according to the inner loop power control (see TS 25.224 [22], subclause 4.2.3.3).]
-	[FDD – if the Propagation Delay IE and optionally the Extended Propagation Delay IE are included, the DRNS may use this information to speed up the detection of UL synchronisation on the Uu interface.]
-	[FDD – if the First RLS Indicator IE is included, it indicates if the concerned RL shall be considered part of the first RLS established towards this UE. The First RLS Indicator IE shall be used by the DRNS to determine the initial TPC pattern in the DL of the concerned RL and all RLs which are part of the same RLS, as described in TS 25.214 [10], section 5.1.2.2.1.2.]
-	if the Delayed Activation Update IE indicates “Deactivate”:
-	stop DL transmission immediately if the Deactivation Type IE equals “Unsynchronised”, or at the CFN indicated by the Deactivation CFN IE if the Deactivation Type IE equals “Synchronised”.
8.3.20.3	Abnormal Conditions 
[FDD – If the Delayed Activation Update IE is included in the RADIO LINK ACTIVATION COMMAND message, it indicates “Activate” and the First RLS Indicator IE is not included, the DRNC shall initiate the ERROR INDICATION procedure.]
8.3.21	Radio Link Parameter Update
8.3.21.1	General
The Radio Link Parameter Update procedure is executed by the DRNS to update parameters related to HS-DSCH [FDD - or E-DCH or UL CLTD] on a radio link for a UE-UTRAN connection or to update phase reference on a list of the radio links.
This procedure shall use the signalling bearer connection for the relevant UE context.
The Radio Link Parameter Update procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
8.3.21.2	Successful Operation

Figure 26E: Radio Link Parameter Update Indication, Successful Operation
The Radio Link Parameter Update procedure is initiated by the DRNS by sending the RADIO LINK PARAMETER UPDATE INDICATION message to the SRNC. 
HS-DSCH related Parameter(s) Updating:
If RADIO LINK PARAMETER UPDATE INDICATION message is used to update the parameters related to HS-DSCH, it contains suggested value(s) of the HS-DSCH related parameter(s) that should be reconfigured on the radio link.
If the DRNS needs to update HS-DSCH related parameters, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including [FDD – HS-DSCH FDD Update Information IE] [TDD – HS-DSCH TDD Update Information IE].
If the DRNS needs to allocate new HS-SCCH Codes, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including HS-SCCH Code Change Indicator IE.
[FDD – If the DRNS needs to allocate new HS-PDSCH Codes, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including HS-PDSCH Code Change Indicator IE.]
[FDD – If the DRNS needs to update the CQI Feedback Cycle k, CQI Feedback Cycle2 k, CQI Cycle Switch Timer, CQI Repetition Factor, ACK-NACK Repetition Factor, CQI Power Offset, ACK Power Offset and/or NACK Power Offset, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including CQI Feedback Cycle k IE, CQI Repetition Factor IE, ACK-NACK Repetition Factor IE, CQI Power Offset IE, ACK Power Offset IE and/or NACK Power Offset IE.]
[TDD – If the DRNS needs to update the TDD ACK-NACK Power Offset the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including TDD ACK NACK Power Offset IE.]
[FDD – If the DRNS needs to update the Precoder weight set restriction , the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including Precoder weight set restriction IE.]
[FDD – Secondary Serving HS-DSCH related Parameter(s) Updating:]
[FDD – If RADIO LINK PARAMETER UPDATE INDICATION message is used to update the parameters related to secondary serving HS-DSCH, it contains suggested value(s) of the secondary serving HS-DSCH related parameter(s) that should be reconfigured on the radio link.]
[FDD – If the DRNS needs to update secondary serving HS-DSCH related parameters, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message and include the Additional HS Cell Information RL Param Upd IE.]
-	[FDD – If the DRNS needs to allocate new secondary serving HS-SCCH Codes, the DRNS shall include the HS-SCCH Code Change Indicator IE in the HS-DSCH FDD Secondary Serving Update Information IE.]
-	[FDD – If the DRNS needs to update the Precoder weight set restriction , the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including Precoder weight set restriction IE in the HS-DSCH FDD Secondary Serving Update Information IE.]
[FDD – Phase Reference Handling:]
[FDD – If DRNS needs to update phase reference for the channel estimation for one or several Radio Links, the DRNC shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including Phase Reference Update Indicator IE for the concerned RL(s).]
[FDD – E-DCH:]
[FDD – If DRNS needs to update E-DCH related parameters, the DRNC shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including E-DCH FDD Update Information IE.]
[FDD – If the DRNS needs to update the HARQ process allocation for non-scheduled transmission and/or HARQ process allocation for scheduled Transmission, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including the HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant IE for the concerned MAC-d Flows and/or HARQ Process Allocation For 2ms Scheduled Transmission Grant IE.]
[FDD – If the DRNS needs to allocate new E-AGCH Channelisation Code, new E-RGCH/E-HICH Channelisation Code, new E-RGCH Signature Sequence and/or new E-HICH Signature Sequence, the DRNC shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including E-DCH DL Control Channel Change Information IE.]
[FDD – If the DRNS needs to indicate to RNC that the TTI switching has been triggered and confirmed by the UE, the DRNS shall if supported initiate RADIO LINK PARAMETER UPDATE INDICATION message including the TTI Update Indication IE in the E-DCH FDD Update Information IE.]
[FDD – If the DRNS needs to update Additional E-DCH related parameters, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including Additional E-DCH Cell Information RL Param Upd IE.]
-	[FDD – If the DRNS needs to update the HARQ process allocation for scheduled Transmission, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including the HARQ Process Allocation For 2ms Scheduled Transmission Grant .]
-	[FDD – If the DRNS needs to allocate new E-AGCH Channelisation Code, new E-RGCH/E-HICH Channelisation Code, new E-RGCH Signature Sequence and/or new E-HICH Signature Sequence, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including Additional E-DCH DL Control Channel Change Information IE.]
[FDD – UL CLTD:]
[FDD - If the DRNS needs to update the local activation state of UL CLTD of the UE in UL CLTD operation, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION including the UL CLTD State Update Information IE.]
[FDD – CPC Recovery:]
[FDD – If the DRNS needs to indicate that the CPC Recovery has been initiated, the DRNC shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including CPC Recovery Report IE.]
[FDD – If the DRNS needs to forward the UE measurement, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including UE Measurement Forwarding IE.]
[FDD – If the DRNS needs to perform the improved synchronized RRC procedures, the DRNS shall initiate RADIO LINK PARAMETER UPDATE INDICATION message including CFN IE.]
8.3.21.3	Abnormal Conditions
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8.3.22	UE Measurement Initiation [TDD]
8.3.22.1	General
This procedure is used by a DRNC to request the initiation of UE measurements by the SRNC.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The UE Measurement Initiation procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
8.3.22.2	Successful Operation

Figure 26F: UE Measurement Initiation procedure, Successful Operation
The procedure is initiated with a UE MEASUREMENT INITIATION REQUEST message sent from the DRNC to the SRNC.
Upon receipt the SRNC shall, provided that it determines that the measurement can be performed by the UE, initiate and forward the requested UE measurement according to the parameters given in the UE MEASUREMENT INITIATION REQUEST message. If the UE MEASUREMENT INITIATION REQUEST message includes the UE Measurement Parameter Modification Allowed IE with a value of “Parameter Modification Allowed” the UE Measurement Report Characteristics IE and the Measurement Filter Coefficient IE, if it is included, are suggested values, otherwise the values of these parameters must be fulfilled. 
[3.84 Mcps TDD – If the UE Measurement Timeslot Information HCR IE is provided, the measurement request shall apply for the requested timeslot(s) individually. If the UE Measurement Timeslot Information HCR IE are not provided the SRNC may choose the timeslots for measurements that apply to individual timeslots.]
[1.28 Mcps TDD – If the UE Measurement Timeslot Information LCR IE is provided, the measurement request shall apply for the requested timeslot(s) individually. If the UE Measurement Timeslot Information LCR IE are not provided the SRNC may choose the timeslots for measurements that apply to individual timeslots.] 
[7.68 Mcps TDD – If the UE Measurement Timeslot Information 7.68 Mcps IE is provided, the measurement request shall apply for the requested timeslot(s) individually. If the UE Measurement Timeslot Information 7.68 Mcps IE are not provided the SRNC may choose the timeslots for measurements that apply to individual timeslots.]
If the UE MEASUREMENT INITIATION REQUEST message includes the Allowed Queuing Time IE the SRNC may queue the request for a time period not to exceed the value of the Allowed Queuing Time IE before starting to execute the request.
The SRNC is required to perform reporting for a UE measurement object, in accordance with the conditions provided in the UE MEASUREMENT INITIATION REQUEST message, as long as the object exists. If no UE measurement object(s) for which a measurement is defined exists any more, the SRNC shall terminate the measurement locally without reporting this to the DRNC.
If at the start of the measurement, the reporting criteria are fulfilled for any of Event 1h, Event 1i,Event 6a, Event 6b, Event 6c, or Event 6d, the SRNC shall initiate the UE Measurement Reporting procedure immediately, and then continue with the measurements as specified in the UE MEASUREMENT INITIATION REQUEST message.
At the start of a periodic measurement, the SRNC shall not initiate UE Measurement Reporting procedure until the next measurement is received from the UE, even if measurement data is available. 
Report characteristics
The UE Measurement Report Characteristics IE indicates how the reporting of the dedicated measurement shall be performed. See TS 25.331 [16].
Higher layer filtering
The Measurement Filter Coefficient IE indicates how filtering of the dedicated measurement values shall be performed before measurement event evaluation and reporting. If the Measurement Filter Coefficient IE is not present, a shall be set to 1 (no filtering). The use of the Measurement Filter Coefficient IE is shown in TS 25.331 [16].
Response message
If the SRNC was able to initiate the measurement requested by the DRNC it shall respond with the UE MEASUREMENT INITIATION RESPONSE message. The message shall include the same Measurement ID that was used in the UE MEASUREMENT INITIATION REQUEST message.
If the DRNC allowed parameter modification and the SRNC modified the Measurement Filter Coefficient IE the SRNC shall include the modified value in the UE MEASUREMENT INTIATION RESPONSE message.
If the DRNC allowed parameter modification and the SRNC modified the UE Measurement Report Characteristics IE the SRNC shall include the modified value in the UE MEASUREMENT INTIATION RESPONSE message.
8.3.22.3	Unsuccessful Operation

Figure 26G: UE Measurement Initiation procedure, Unsuccessful Operation
If the requested measurement cannot be initiated, the SRNC shall send a UE MEASUREMENT INITIATION FAILURE message. The message shall include the same Measurement ID IE that was used in the UE MEASUREMENT INITIATION REQUEST message and shall include the Cause IE set to an appropriate value.
Typical cause values are:
Radio Network Layer Causes:
Measurement not Supported For The Object;
Measurement Temporarily not Available;
Measurement Repetition Rate not Compatible with Current Measurements;
UE not Capable to Implement Measurement.
Miscellaneous Causes:
Control Processing Overload; 
HW Failure.
8.3.22.4	Abnormal Conditions
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8.3.23	UE Measurement Reporting [TDD]
8.3.23.1	General
This procedure is used by the SRNC to report the results of the successfully initiated measurements requested by the DRNC with the UE Measurement Initiation procedure.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The SRNC may initiate the UE Measurement Reporting procedure at any time after establishing a Radio Link.
8.3.23.2	Successful Operation

Figure 26H: UE Measurement Reporting procedure, Successful Operation
If the requested measurement reporting criteria was met in the UE and reported to the SRNC, the SRNC shall initiate the UE Measurement Reporting procedure. The Measurement ID IE shall be set to the Measurement ID provided by the DRNC when initiating the measurement with the UE Measurement Initiation procedure.
If Primary CCPCH RSCP is being reported:
-	If the Primary CCPCH RSCP Delta IE is included, the DRNC shall assume that the reported value for Primary CCPCH RSCP is in the negative range as per TS 25.123 [24], and the value is equal to the Primary CCPCH RSCP Delta IE. 
-	If the Primary CCPCH RSCP Delta IE is not included the DRNC shall assume that the reported value is in the non negative range as per TS 25.123 [24], and the value is equal to the Primary CCPCH RSCP IE.
If the achieved measurement accuracy does not fulfil the given accuracy requirement specified in TS 25.123 [24], the Measurement not available shall be reported in the UE Measurement Value Information IE in the UE MEASUREMENT REPORT message, otherwise the SRNC shall include the UE Measurement Value IE within the UE Measurement Value Information IE. 
8.3.23.3	Abnormal Conditions
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8.3.24	UE Measurement Termination [TDD]
8.3.24.1	General
This procedure is used by the DRNC to terminate a measurement previously requested by the UE Measurement Initiation procedure.
This procedure shall use the signalling bearer connection for the relevant UE Context.
The UE Measurement Termination procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
8.3.24.2	Successful Operation

Figure 26I: UE Measurement Termination procedure, Successful Operation
This procedure is initiated with a UE MEASUREMENT TERMINATION REQUEST message, sent from the DRNC to the SRNC.
Upon receipt, the SRNC shall terminate forwarding of UE measurements corresponding to the received Measurement ID IE.
8.3.24.3	Abnormal Conditions
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8.3.25	UE Measurement Failure [TDD]
8.3.25.1	General
This procedure is used by the SRNC to notify the DRNC that a measurement previously requested by the UE Measurement Initiation procedure can no longer be reported. 
This procedure shall use the signalling bearer connection for the relevant UE Context.
The SRNC may initiate the UE Measurement Failure procedure at any time after establishing a Radio Link.
8.3.25.2	Successful Operation

Figure 26J: UE Measurement Failure procedure, Successful Operation
This procedure is initiated with a UE MEASUREMENT FAILURE INDICATION message, sent from the SRNC to the DRNC, to inform the DRNC that a previously requested UE measurement can no longer be reported. The SRNC has locally terminated the forwarding of the indicated measurement. The SRNC shall include in the UE MEASUREMENT FAILURE INDICATION message the reason for the failure in the Cause IE.
Typical cause values are:
Miscellaneous Causes:
-	Control Processing Overload;
-	HW Failure;
-	O&M Intervention.
8.3.25.3	Abnormal Conditions
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8.3.26	Iur Invoke Trace
8.3.26.1	General
The purpose of the Iur Invoke Trace procedure is to inform the DRNC that it should begin a Trace Session for a given UE Context according to the Trace Parameters indicated by the SRNC. This procedure is used for Trace Parameter Propagation in the Signalling Based Activation mechanism as defined in TS 32.421 [48] and TS 32.422 [49].
This procedure shall use the signalling bearer mode specified below.
8.3.26.2	Successful Operation

Figure 26K: Iur Invoke Trace procedure, Successful Operation
The Iur Invoke Trace procedure is invoked by the SRNC by sending an IUR INVOKE TRACE message to the DRNC.
When the concerned UE is utilising one or more radio links in the DRNC the message shall be sent using the connection oriented service of the signalling bearer and no further identification of the UE Context in the DRNC is required. If on the other hand, the UE is not utilising any radio link the message shall be sent using the connectionless service of the signalling bearer and the D-RNTI IE shall be included in the message to identify the UE Context in the DRNC.
Upon receiving the IUR INVOKE TRACE message, the DRNC should begin a Trace Recording Session according to the parameters indicated in the IUR INVOKE TRACE message.
If the List Of Interfaces To Trace IE is included in the IUR INVOKE TRACE message, the DRNC shall trace, for the concerned UE Context, the interfaces indicated by the List Of Interfaces To Trace IE. Otherwise, the DRNC shall trace, for the concerned UE Context, the Iur and Iub interfaces.
The values of the UE Identity IE, Trace Reference IE and Trace Recording Session Reference IE are used to tag the Trace Record to allow simpler construction of the total record by the entity which combines Trace Records.
If the DRNC does not support the requested value “Minimum” or “Medium” of the Trace Depth IE, the DRNC should begin a Trace Recording Session with maximum Trace Depth.
The DRNC may not start a Trace Recording Session if there are insufficient resources available within the DRNC.
If the MDT Configuration IE is included and the MDT Activation IE is set to “MDT and Trace” then the DRNC shall, if supported, initiate the requested trace function and MDT function (M3 Report, if indicated) as described in TS 32.422 [49].
If the MDT Configuration IE is included and the MDT Activation IE is set to “MDT Only” then the DRNC shall, if supported, initiate the requested MDT function (M3 Report, if indicated) as described in TS 32.422 [49] and shall ignore the List of Interfaces to Trace IE and the Trace Depth IE.
If Trace Collection Entity IP Address IE is included then the DRNC shall, if supported, store the Trace Collection Entity IP address and may use the Trace Collection Entity IP address when transferring trace records.
8.3.26.3	Abnormal Conditions
If the MDT Configuration IE is included in the IUR INVOKE TRACE message and the Trace Collection Entity IP Address IE is not included, the DRNC shall ignore the MDT Configuration.
8.3.27	Iur Deactivate Trace
8.3.27.1	General
The purpose of the Iur Deactivate Trace procedure is to inform the DRNC that it should stop a Trace Session for the concerned UE Context and the indicated Trace Reference. This procedure is used for the Signalling Based Deactivation mechanism as defined in TS 32.421 [48] and TS 32.422 [49].
This procedure shall use the signalling bearer mode specified below.
8.3.27.2	Successful Operation

Figure 26L: Iur Invoke Trace procedure, Successful Operation
The Iur Deactivate Trace procedure is invoked by the SRNC by sending an IUR DEACTIVATE TRACE message to the DRNC.
When the concerned UE is utilising one or more radio links in the DRNC the message shall be sent using the connection oriented service of the signalling bearer and no further identification of the UE Context in the DRNC is required. If on the other hand, the UE is not utilising any radio link the message shall be sent using the connectionless service of the signalling bearer and the D-RNTI IE shall be included in the message to identify the UE Context in the DRNC.
Upon receiving the IUR DEACTIVATE TRACE message, the DRNC shall stop for the concerned UE Context any ongoing Trace Recording Session for the Trace Session identified by the Trace Reference IE.
8.3.27.3	Abnormal Conditions
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8.3.28	Enhanced Relocation
8.3.28.1	General
This procedure is used for relocation of SRNS in case the SRNC and DRNC connect to same CN node.
The connection-oriented service of the signalling bearer shall be established in conjunction with this procedure in case the relevant UE Context does not exist for the UE. 
This procedure shall use the signalling bearer connection for the relevant UE Context in the UE Context exists. The Enhanced Relocation procedure shall not be initiated if a Prepared Reconfiguration exists, as defined in subclause 3.1.
8.3.28.2	Successful Operation

Figure 26M: Enhanced Relocation procedure: Successful Operation
The SRNC initiates the procedure by sending an ENHANCED RELOCATION REQUEST message. When the SRNC sends the ENHANCED RELOCATION REQUEST message, it shall start the timer TRELOCprep. The ENHANCED RELOCATION REQUEST message shall contain the Cause IE with an appropriate value e.g.: “Time critical Relocation”, “Resource optimisation relocation”, “Relocation desirable for radio reasons” , “Directed Retry”, “Reduce Load in Serving Cell”, “No Iu CS UP relocation”.
If the ENHANCED RELOCATION REQUEST message includes SRNC-ID, the DRNC shall create a UE Context for this UE, allocate a D-RNTI for the UE Context.
8.3.28.3	Unsuccessful Operation

Figure 26N: Enhanced Relocation procedure: Unsuccessful Operation
If the DRNC is not able to accept any of the RABs or a failure occurs during the procedure, the DRNC shall send the ENHANCED RELOCATION FAILURE message to the SRNC. The message shall contain the Cause IE with an appropriate value.
Interactions with Enhanced Relocation Cancel procedure:
If there is no response from the DRNC to the ENHANCED RELOCATION REQUEST message before timer TRELOCprep expires in the DRNC, the SRNC should cancel the Enhanced Relocation procedure towards the DRNC by initiating the Enhanced Relocation Cancel procedure with the appropriate value for the Cause IE, e.g. “TRELOCprep expiry”. The SRNC shall ignore any ENHANCED RELOCATION RESPONSE or ENHANCED RELOCATION FAILURE message received after the initiation of the Enhanced Relocation Cancel procedure and remove any reference and release any resources related to the concerned UE Context.
8.3.28.4	Abnormal Conditions
-
8.3.29	Enhanced Relocation Cancel
8.3.29.1	General
This procedure is used to cancel an ongoing enhanced relocation or an already prepared relocation. 
This procedure shall use the signalling bearer connection for the relevant UE Context.
8.3.29.2	Successful Operation

Figure 26O: Enhanced Relocation Cancel procedure: Successful Operation
The SRNC initiates the procedure by sending the ENHANCED RELOCATION CANCEL message to the DRNC. The SRNC shall indicate the reason for cancelling the relocation by means of an appropriate cause value. Typical cause values are “ TRELOCprepExpiry”, “Relocation Cancelled”, “Traffic Load In The Target Cell Higher Than In The Source Cell”.
At the reception of the ENHANCED RELOCATION CANCEL message, the DRNC shall remove any reference to, and release any resources previously reserved to the concerned UE context.
8.3.29.3	Unsuccessful Operation
Not applicable.
8.3.29.4	Abnormal Conditions
-
8.3.30	Enhanced Relocation Signalling Transfer
8.3.30.1	General
The procedure is used by the SRNC to transfer DL L3 information to DRNC during enhanced relocation.
This procedure shall use the signalling bearer connection for the relevant UE Context.
8.3.30.2	Successful Operation

Figure 26P: Enhanced Relocation Signalling Transfer procedure, Successful Operation
The procedure consists of the ENHANCED RELOCATION SIGNALLING TRANSFER message sent by the SRNC to the DRNC.
The ENHANCED RELOCATION SIGNALLING TRANSFER message contains the L3 Information and after the receipt of the message, the DRNC shall send the L3 Information on the DCCH. 
8.3.30.3	Abnormal Conditions
-
8.3.31	Enhanced Relocation Release
8.3.31.1	General
The procedure is used by the DRNC to signal to the SRNC that resource for CN domain is released due to failure of the enhanced relocation. 
This procedure shall use the signalling bearer connection for the relevant UE Context.
8.3.31.2	Successful Operation

Figure 26Q: Enhanced Relocation Signalling Transfer procedure, Successful Operation
The procedure consists of the ENHANCED RELOCATION RELEASE message sent by the DRNC to the SRNC.
Upon reception of the ENHANCED RELOCATION RELEASE message, the SRNC shall release related resources associated to indicated CN domain(s) by the Released CN Domain IE in the message for the UE context.
8.3.31.3	Abnormal Conditions
-
8.3.32	Secondary UL Frequency Reporting [FDD]
8.3.32.1	General
The purpose of this procedure is to inform the DRNS about the activation state of the secondary UL frequency of the UE in Dual Cell E-DCH operation or change the activation state of the secondary UL frequency of the UE in Dual Cell E-DCH operation when E-DCH decoupling is configured.
This procedure shall use the signalling bearer connection for the relevant UE Context.
8.3.32.2	Successful Operation

Figure 26R: Secondary UL Frequency Reporting procedure
The Secondary UL Frequency Reporting procedure is initiated by sending the SECONDARY UL FREQUENCY REPORT message from the SRNC to the DRNC. 
The Activation Information IE defines the local activation state of the Secondary uplink frequency of the UE in Dual Cell E-DCH operation, or the change request of activation state of the Secondary uplink frequency of the UE in Dual Cell E-DCH operation when E-DCH decoupling is configured.
-	If the value of Uu Activation State IE is “Activated”: the DRNS shall if supported use this information for resource allocation operation of the secondary E-DCH radio link(s), F-DPCH transmission and DPCCH detection.
-	If the value of Uu Activation State IE is “De-Activated”: the DRNS shall if supported use this information for release of the related resources for the secondary E-DCH radio link(s), cease of F-DPCH transmission and DPCCH detection.
-	If the value of Uu Activation State IE is “Change Request”: the DRNS shall if supported change the local activation state of the Secondary uplink frequency of the UE in Dual Cell E-DCH operation when E-DCH decoupling is configured.
8.3.32.3	Abnormal Conditions 
-
8.3.33	Secondary UL Frequency Update [FDD] 
8.3.33.1	General
The purpose of this procedure is to inform the SRNC about updates to activation state of the secondary UL frequency of the UE in Dual Cell E-DCH operation or change the activation state of the secondary UL frequency of the UE in Dual Cell E-DCH operation when E-DCH decoupling is configured.
This procedure shall use the signalling bearer connection for the relevant UE context.
8.3.33.2	Successful Operation

Figure 26S: Secondary UL Frequency Update procedure
The Secondary UL Frequency Update procedure is initiated by the DRNS by sending the SECONDARY UL FREQUENCY UPDATE INDICATION message to the SRNC.
If the DRNS needs to update the local activation state of the Secondary uplink frequency of the UE in Dual Cell E-DCH operation, the DRNS shall send SECONDARY UL FREQUENCY UPDATE INDICATION message and include the Activation Information IE. 
8.3.33.3	Abnormal Conditions
-

8.4	Common Transport Channel Procedures
8.4.1	Common Transport Channel Resources Initialisation
8.4.1.1	General
The Common Transport Channel Resources Initialisation procedure is used by the SRNC for the initialisation of the Common Transport Channel user plane towards the DRNC and/or for the initialisation of the Common Transport Channel resources in the DRNC to be used by a UE.
This procedure shall use the connectionless mode of the signalling bearer.
8.4.1.2	Successful Operation

Figure 27: Common Transport Channel Resources Initialisation procedure, Successful Operation
The SRNC initiates the procedure by sending the message COMMON TRANSPORT CHANNEL RESOURCES REQUEST message to the DRNC.
If the value of the Transport Bearer Request Indicator IE is set to “Bearer Requested”, the DRNC shall store the received Transport Bearer ID IE. The DRNC may use the Transport Layer Address and Binding ID IEs included in the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message received from the SRNC when establishing a transport bearer for the common transport channel. In addition, the DRNC shall include its own Binding ID IE and Transport Layer Address IE in the COMMON TRANSPORT CHANNEL RESOURCES RESPONSE message.
If the TNL QoS IE is included and if ALCAP is not used, the TNL QoS IE may be used by the DRNC to determine the transport bearer characteristics to apply in the uplink between the DRNS and the SRNC for the related common transport channels.
If the value of the Transport Bearer Request Indicator IE is set to” Bearer not Requested”, the DRNC shall use the transport bearer indicated by the Transport Bearer ID IE.
If the C-ID IE is included in the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message, the DRNC shall allocate a C-RNTI for the indicated cell and include the C-RNTI IE in the COMMON TRANSPORT CHANNEL RESOURCES RESPONSE message.
If the C-ID IE is included in the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message, the DRNC shall include the FACH Info for UE Selected S-CCPCH IE valid for the cell indicated by the C-ID IE and the corresponding C-ID IE in the COMMON TRANSPORT CHANNEL RESOURCES RESPONSE message. If the C-ID IE is not included in the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message, the DRNC shall include the FACH Info for UE Selected S-CCPCH IE valid for the cell where the UE is located and the corresponding C-ID IE. The DRNC shall include the FACH Scheduling Priority IE and FACH Initial Window Size IE in the FACH Flow Control Information IE of the FACH Info for UE Selected S-CCPCH IE for each priority class that the DRNC has determined shall be used. The DRNC may include several MAC-c/sh SDU Length IEs for each priority class.
If the DRNS has any RACH and/or FACH [FDD – and/or HS-DSCH] [1.28Mcps TDD – and/or HS-DSCH] resources previously allocated for the UE in another cell than the cell in which resources are currently being allocated, the DRNS shall release the previously allocated RACH and/or FACH resources [FDD – and/or HS-DSCH] [1.28Mcps TDD – and/or HS-DSCH].
If the DRNS has successfully reserved the required resources, the DRNC shall respond to the SRNC with the COMMON TRANSPORT CHANNEL RESOURCES RESPONSE message.
If the Permanent NAS UE Identity IE is present in the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message, the DRNS shall store the information for the considered UE Context for the lifetime of the UE Context.
If the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message includes a C-ID IE corresponding to a cell reserved for operator use and the Permanent NAS UE Identity is available in the DRNC for the considered UE Context, the DRNC shall use this information to determine whether it can reserve resources on a common transport channel in this cell or not.
If the MBMS Bearer Service List IE is included in the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message, the DRNC shall, if supported, perform the UE Linking as specified in TS 25.346 [50], section 5.1.6. If an MBMS session for some MBMS bearer services contained in the UE Link is ongoing in the cell identified by the C-ID IE, the DRNC shall include in the Active MBMS Bearer Service List IE the Transmission Mode IE for each of these active MBMS bearer services in the COMMON TRANPORT CHANNEL RESOURCES RESPONSE message.
[FDD – If the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message includes an Enhanced FACH Support Indicator IE, the DRNC may include the Enhanced FACH Information Response IE in the COMMON TRANSPORT CHANNEL RESOURCES RESPONSE message. If a HS-DSCH RNTI was not previously allocated to the UE or a new HS-DSCH RNTI is allocated to the UE, the DRNC shall include the HS-DSCH-RNTI IE in the Enhanced FACH Information Response IE. And if Enhanced PCH operation is activated in the cell indicated by the C-ID IE, the DRNC shall include the Priority Queue Information for Enhanced PCH IE in the Enhanced FACH Information Response IE.]
[1.28Mcps TDD – If the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message includes an Enhanced FACH Support Indicator IE, the DRNC may include the Enhanced FACH Information Response IE in the COMMON TRANSPORT CHANNEL RESOURCES RESPONSE message. If a HS-DSCH RNTI was not previously allocated to the UE or a new HS-DSCH RNTI is allocated to the UE, the DRNC shall include the HS-DSCH-RNTI IE in the Enhanced FACH Information Response IE. And if Enhanced PCH operation is activated in the cell indicated by the C-ID IE, the DRNC shall include the Priority Queue Information for Enhanced PCH IE in the Enhanced FACH Information Response IE.]
[FDD – If the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message includes an Common E-DCH Support Indicator IE, the DRNC may include the Common E-DCH MAC-d Flow Specific Information IE in the COMMON TRANSPORT CHANNEL RESOURCES RESPONSE message. If the E-DCH MAC-d Flow Multiplexing List for a Common E-DCH MAC-d Flow is configured in DRNC, the DRNC shall include the E-DCH MAC-d Flow Multiplexing List IE in the COMMON TRANSPORT CHANNEL RESOURCES RESPONSE message. If the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message includes the C-ID IE and the Common E-DCH Support Indicator IE, the DRNC may include the E-RNTI IE in the COMMON TRANSPORT CHANNEL RESOURCES RESPONSE message.] 
[1.28Mcps TDD – If the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message includes a Enhanced FACH Support Indicator IE, the DRNC may include the Common E-DCH MAC-d Flow Specific Information LCR IE in the COMMON TRANSPORT CHANNEL RESOURCES RESPONSE message.]
If the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message includes an HS-DSCH physical layer category IE, the DRNC may store the information for the considered UE Context for the lifetime of the UE Context. 
[FDD – If the COMMON TRANSPORT CHANNEL RESOURES REQUEST message includes an UE with enhanced HS-SCCH support indicator IE, the DRNC may store the information for the considered UE Context for the lifetime of the UE context.]
8.4.1.3	Unsuccessful Operation

Figure 28: Common Transport Channel Resources Initialisation procedure, Unsuccessful Operation
If the Transport Bearer Request Indicator IE is set to “Bearer Requested” and the DRNC is not able to provide a Transport Bearer, the DRNC shall reject the procedure and respond to the SRNC with the COMMON TRANSPORT CHANNEL RESOURCES FAILURE message, including the reason for the failure in the Cause IE.
If the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message contains a C-ID IE corresponding to a cell reserved for operator use and the Permanent NAS UE Identity is not available for the considered UE Context, the DRNC shall reject the procedure and send the COMMON TRANSPORT CHANNEL RESOURCES FAILURE message, including the reason for the failure in the Cause IE.
Typical cause values are:
Radio Network Layer Causes:
-	Common Transport Channel Type not Supported;
-	Cell reserved for operator use.
Transport Layer Causes:
-	Transport Resource Unavailable.
8.4.1.4	Abnormal Conditions
If the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message contains the Transport Layer Address IE or the Binding ID IE, and not both are present for a transport channel intended to be established, the DRNC shall reject the procedure using the COMMON TRANSPORT CHANNEL RESOURCES FAILURE message.
If ALCAP is not used, if the COMMON TRANSPORT CHANNEL RESOURCES REQUEST message contains the Transport Bearer Request Indicator IE set to “Bearer Requested” but does not contain the Transport Layer Address IE and the Binding ID IE, the DRNC shall reject the procedure using the COMMON TRANSPORT CHANNEL RESOURCES FAILURE message.
8.4.2	Common Transport Channel Resources Release
8.4.2.1	General
This procedure is used by the SRNC to request release of Common Transport Channel Resources for a given UE in the DRNS. The SRNC uses this procedure either to release the UE Context from the DRNC (and thus both the D-RNTI and the C-RNTI) or to release only the C-RNTI.
This procedure shall use the connectionless mode of the signalling bearer.
8.4.2.2	Successful Operation

Figure 29: Common Transport Channel Resources Release procedure, Successful Operation
The SRNC initiates the Common Transport Channel Resources Release procedure by sending the COMMON TRANSPORT CHANNEL RESOURCES RELEASE REQUEST message to the DRNC. Upon receipt of the message the DRNC shall release the UE Context identified by the D-RNTI and all its related RACH and/or FACH resources, unless the UE is using dedicated resources (DCH, [TDD – USCH and/or DSCH]) in the DRNS in which case the DRNC shall release only the C-RNTI and all its related RACH and/or FACH [FDD – and/or HS-DSCH] [1.28Mcps TDD – and/or HS-DSCH] resources allocated for the UE.
8.4.2.3	Abnormal Conditions
-
8.5	Global Procedures
8.5.1	Error Indication
8.5.1.1	General
The Error Indication procedure is initiated by a node to report detected errors in a received message, provided they cannot be reported by an appropriate response message.
This procedure shall use the signalling bearer mode specified below.
8.5.1.2	Successful Operation

Figure 30: Error Indication procedure, Successful Operation
When the conditions defined in clause 10 are fulfilled, the Error Indication procedure is initiated by an ERROR INDICATION message sent from the receiving node. This message shall use the same mode of the signalling bearer and the same signalling bearer connection (if connection oriented) as the message that triggers the procedure.
When the ERROR INDICATION message is sent from a DRNC to an SRNC using connectionless mode of the signalling bearer, the S-RNTI IE shall be included in the message if the UE Context addressed by the D-RNTI IE which was received in the message triggering the Error Indication procedure exists. When the ERROR INDICATION message is sent from an SRNC to a DRNC using connectionless mode of the signalling bearer, the D-RNTI IE shall be included in the message if available.
When a message using connectionless mode of the signalling bearer is received in the DRNC and there is no UE Context in the DRNC as indicated by the D-RNTI IE, the DRNC shall include the D-RNTI from the received message in the D-RNTI IE and set the Cause IE to “Unknown RNTI” in the ERROR INDICATION message, unless another handling is specified in the procedure text for the affected procedure.
When a message using connectionless mode of the signalling bearer is received in the SRNC and there is no UE in the SRNC as indicated by the S-RNTI IE, the SRNC shall include the S-RNTI from the received message in the S-RNTI IE and set the Cause IE to “Unknown RNTI” in the ERROR INDICATION message, unless another handling is specified in the procedure text for the affected procedure.
The ERROR INDICATION message shall include either the Cause IE, or the Criticality Diagnostics IE, or both the Cause IE and the Criticality Diagnostics IE to indicate the reason for the error indication.
Typical cause values for the ERROR INDICATION message are:
Protocol Causes:
-	Transfer Syntax Error;
-	Abstract Syntax Error (Reject);
-	Abstract Syntax Error (Ignore and Notify);
-	Message not Compatible with Receiver State;
-	Unspecified.
8.5.1.2.1	Successful Operation for Iur-g
The RNC1/BSS1 and RNC2/BSS2 shall use the error indication procedure as specified in section 8.5.1.2.
8.5.1.3	Abnormal Conditions
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8.5.2	Common Measurement Initiation
8.5.2.1	General
This procedure is used by an RNC to request the initiation of measurements of common resources to another RNC. The requesting RNC is referred to as RNC1 and the RNC to which the request is sent is referred to as RNC2.
This procedure uses the signalling bearer connection for the relevant Distant RNC Context.
8.5.2.2	Successful Operation

Figure 30A: Common Measurement Initiation procedure, Successful Operation
The procedure is initiated with a COMMON MEASUREMENT INITIATION REQUEST message sent from the RNC1 to the RNC2.
Upon receipt, the RNC2 shall initiate the requested measurement according to the parameters given in the request.
Unless specified below, the meaning of the parameters are given in other specifications.
[TDD – If the [3.84 Mcps TDD and 7.68 Mcps TDD – Time Slot IE] [1.28 Mcps – Time Slot LCR IE] is present in the COMMON MEASUREMENT INITIATION REQUEST message, the measurement request shall apply to the requested time slot individually.]
Common measurement type
If the Common Measurement Type IE is set to “SFN-SFN Observed Time Difference”, then:
-	The RNC2 shall initiate the SFN-SFN Observed Time Difference measurements between the reference cell identified by the Reference Cell Identifier IE and the neighbouring cells identified by the UTRAN Cell Identifier IE (UC-ID) in the Neighbouring Cell Measurement Information IE.
-	[3.84 Mcps TDD – The RNC2 shall perform the measurement using the time slot specified in the Time Slot IE in the Neighbouring TDD Cell Measurement Information IE and using the midamble shift and burst type specified in the Midamble Shift And Burst Type IE in the Neighbouring TDD Cell Measurement Information IE. If Time Slot IE and Midamble Shift And Burst Type IE are not available in the Neighbouring TDD Cell Measurement Information IE, the RNC2 may use any appropriate time slots, midamble shifts and burst types to make the measurement.] 
-	[7.68 Mcps TDD – The RNC2 shall perform the measurement using the time slot specified in the Time Slot IE in the Neighbouring TDD Cell Measurement Information 7.68 Mcps IE and using the midamble shift and burst type specified in the Midamble Shift And Burst Type 7.68 Mcps IE in the Neighbouring TDD Cell Measurement Information 7.68 Mcps IE. If Time Slot IE and Midamble Shift And Burst Type 7.68 Mcps IE are not available in the Neighbouring TDD Cell Measurement Information 7.68 Mcps IE, the RNC2 may use any appropriate time slots, midamble shifts and burst types to make the measurement.] 
If the Common Measurement Type IE is set to “load”, the RNC2 shall initiate measurements of uplink and downlink load on the measured object identified by the Reference Cell Identifier IE. If either uplink or downlink load satisfies the requested report characteristics, the RNC2 shall report the result of both uplink and downlink measurements.
If the Common Measurement Type IE is set to “UTRAN GPS Timing of Cell Frames for UE Positioning”, “UTRAN GANSS Timing of Cell Frames for UE Positioning”, “transmitted carrier power”, “received total wide band power”, or “UL timeslot ISCP” the RNC2 shall initiate measurements on the measured object identified by the Reference Cell Identifier IE. 
If the Common Measurement Type IE is set to “UTRAN GANSS Timing of Cell Frames for UE Positioning”, then the RNC2 shall initiate the UTRAN GANSS Timing of Cell Frames measurements using the GNSS system time identified by GANSS Time ID IE included in the COMMON MEASUREMENT INITIATION REQUEST message.
-	If the Common Measurement Type IE is set to “UTRAN GANSS Timing of Cell Frames for UE Positioning” and the GANSS Time ID IE is not included in the COMMON MEASUREMENT INITIATION REQUEST message, the RNC2 shall assume that the corresponding GANSS time is “Galileo” system time.
If the Common Measurement Type IE is set to “RT load”, the RNC2 shall initiate measurements of uplink and downlink estimated share of RT (Real Time) traffic of the load of the measured object. If either uplink or downlink RT load satisfies the requested report characteristics, the RNC2 shall report the result of both uplink and downlink measurements.
If the Common Measurement Type IE is set to “NRT load Information”, the RNC2 shall initiate measurements of uplink and downlink NRT (Non Real Time) load situation on the measured object. If either uplink or downlink NRT load satisfies the requested report characteristics, the RNC2 shall report the result of both uplink and downlink measurements.
Report characteristics
The Report Characteristics IE indicates how the reporting of the measurement shall be performed. See also Annex B.
If the Report Characteristics IE is set to “On Demand” and if the SFN IE is not provided, the RNC2 shall report the result of the requested measurement immediately in the COMMON MEASUREMENT INITIATION RESPONSE message. If the SFN IE is provided, it indicates the frame for which the measurement value shall be provided. The provided measurement value shall be the one reported by the layer 3 filter, referred to as point C in the measurement model (TS 25.302 [26]). Furthermore, if the SFN IE is present and if the Common Measurement Type IE is set to “SFN-SFN Observed Time Difference “, then the SFN IE relates to the Radio Frames of the Reference Cell identified by the Reference Cell Identifier IE.
If the Report Characteristics IE is set to “Periodic” and if the SFN IE is not provided, the RNC2 shall immediately and periodically initiate a Common Measurement Reporting procedure for this measurement, with a frequency as specified by the Report Periodicity IE. If the SFN IE is provided, the RNC2 shall initiate a Common Measurement Reporting procedure for this measurement at the SFN indicated in the SFN IE, and shall repeat this initiation periodically thereafter with a frequency as specified by the Report Periodicity IE. The provided measurement value shall be the one reported by the layer 3 filter, referred to as point C in the measurement model (TS 25.302 [26]). Furthermore, if the SFN IE is present and if the Common Measurement Type IE is set to “SFN-SFN Observed Time Difference “, then the SFN IE relates to the Radio Frames of the Reference Cell identified by the Reference Cell Identifier IE.
If the Report Characteristics IE is set to “Event A”, the RNC2 shall initiate the Common Measurement Reporting procedure when the measured entity rises above the requested threshold, as specified by the Measurement Threshold IE, and then stays above the threshold for the requested hysteresis time, as specified by the Measurement Hysteresis Time IE. If the Measurement Hysteresis Time IE is not included, the RNC2 shall use the value zero for the hysteresis time.
If the Report Characteristics IE is set to “Event B”, the RNC2 shall initiate the Common Measurement Reporting procedure when the measured entity falls below the requested threshold, as specified by the Measurement Threshold IE, and then stays below the threshold for the requested hysteresis time, as specified by the Measurement Hysteresis Time IE. If the Measurement Hysteresis Time IE is not included, the RNC2 shall use the value zero for the hysteresis time.
If the Report Characteristics IE is set to “Event C”, the RNC2 shall initiate the Common Measurement Reporting procedure when the measured entity rises more than the requested threshold specified by the Measurement Increase/Decrease Threshold IE, and only when this rise occurs within the requested rising time specified by the Measurement Change Time IE. After reporting this type of event, the RNC2 shall not initiate the next C event reporting for the same measurement during the subsequent time specified by the Measurement Change Time IE.
If the Report Characteristics IE is set to “Event D”, the RNC2 shall initiate the Common Measurement Reporting procedure when the measured entity falls more than the requested threshold specified by the Measurement Increase/Decrease Threshold IE, and only when this fall occurs within the requested falling time specified by the Measurement Change Time IE. After reporting this type of event,, the RNC2 shall not initiate the next D event reporting for the same measurement during the subsequent time specified by the Measurement Change Time IE.
If the Report Characteristics IE is set to “Event E”, the RNC2shall initiate the Common Measurement Reporting procedure when the measured entity rises above the Measurement Threshold 1 IE and stays above the threshold for the Measurement Hysteresis Time IE (Report A). When the conditions for Report A are met and if the Report Periodicity IE is provided, the RNC2 shall initiate the Common Measurement Reporting procedure periodically with the requested report frequency specified by the Report Periodicity IE. If the conditions for Report A have been met and the measured entity falls below the Measurement Threshold 2 IE and stays below the threshold for the Measurement Hysteresis Time IE, the RNC2 shall initiate the Common Measurement Reporting procedure (Report B) and shall terminate any corresponding periodic reporting. If the Measurement Threshold 2 IE is not present, the RNC2 shall use the value of the Measurement Threshold 1 IE instead. If the Measurement Hysteresis Time IE is not included, the RNC2 shall use the value zero as hysteresis times for both Report A and Report B.
If the Report Characteristics IE is set to “Event F”, the RNC2 shall initiate the Common Measurement Reporting procedure when the measured entity falls below the Measurement Threshold 1 IE and stays below the threshold for the Measurement Hysteresis Time IE (Report A). When the conditions for Report A are met and if the Report Periodicity IE is provided, the RNC2 shall initiate the Measurement Reporting procedure periodically with the requested report frequency specified by the Report Periodicity IE. If the conditions for Report A have been met and the measured entity rises above the Measurement Threshold 2 IE and stays above the threshold for the Measurement Hysteresis Time IE, the RNC2 shall initiate the Common Measurement Reporting procedure (Report B) and shall terminate any corresponding periodic reporting. If the Measurement Threshold 2 IE is not present, the RNC2 shall use the value of the Measurement Threshold 1 IE instead. If the Measurement Hysteresis Time IE is not included, the RNC2 shall use the value zero as hysteresis times for both Report A and Report B. 
[1.28Mcps TDD-If the Report Characteristics IE is set to “Event H” (figure B.7), the Measurement Reporting procedure (Report A) is initiated when the measurement value of measured entity rises above the Measurement Threshold 1 and stays above the threshold for the Measurement Hysteresis Time (T1 in figure B.7).] The measurement value of measured entity in Report A substitutes the Measurement Base value for the consequent measurement reporting.
When the Report A conditions has been met and the measurement value of measured entity rises above or falls below the Measurement Base Value by Measurement Fluctuation Range (H1 in figure B.7), and stays there for the Measurement Hysteresis Time (Th in figure B.7) counting from the beginning of every Report Periodicity, the Measurement Reporting procedure (Report B or Report C) is initiated. The the measurement value of measured entity in (Report B or Report C) substitutes the Measurement Base value for the consequent measurement reporting.
When the Report A conditions have been met and the measurement value of measured entity falls below the Measurement Threshold 2 and stays there for the Measurement Hysteresis Time (Th in figure B.7), the Measurement Reporting procedure (Report D) is initiated and the reporting is terminated.]
If the Report Characteristics IE is set to “On Modification” and if the SFN IE is not provided, the RNC2 shall report the result of the requested measurement immediately. If the SFN IE is provided, it indicates the frame for which the first measurement value shall be provided. The provided measurement value shall be the one reported by the layer 3 filter, referred to as point C in the measurement model (TS 25.302 [26]). Furthermore, if the SFN IE is present and if the Common Measurement Type IE is set to “SFN-SFN Observed Time Difference”, then the SFN IE relates to the Radio Frames of the Reference Cell identified by the Reference Cell Identifier IE. Following the first measurement report, the RNC2 shall initiate the Common Measurement Reporting procedure in accordance to the following conditions:
1.	If the Common Measurement Type IE is set to “UTRAN GPS Timing of Cell Frames for UE Positioning”:
-	If the TUTRAN-GPS Change Limit IE is included in the TUTRAN-GPS Measurement Threshold Information IE, the RNC2 shall calculate the change of TUTRAN-GPS value (Fn) each time a new measurement result is received after point C in the measurement model (TS 25.302 [26]). The RNC2 shall initiate the Common Measurement Reporting procedure and set n equal to zero when the absolute value of Fn rises above the threshold indicated by the TUTRAN-GPS Change Limit IE. The change of TUTRAN-GPS value (Fn) is calculated according to the following:
Fn=0 for n=0
Fn = (Mn – Mn-1) mod 37158912000000 – ((SFNn – SFNn-1) mod 4096) *10*3.84*10^3*16 + Fn-1	for n>0
Fn is the change of the TUTRAN-GPS value expressed in unit [1/16 chip] when n measurement results have been received after the first Common Measurement Reporting at initiation or after the last event was triggered.
Mn is the latest measurement result received after point C in the measurement model (TS 25.302 [26]), measured at SFNn.
Mn-1 is the previous measurement result received after point C in the measurement model (TS 25.302 [26]), measured at SFNn-1.
M1 is the first measurement result received after point C in the measurement model (TS 25.302 [26]), after first Common Measurement Reporting at initiation or after the last event was triggered.
M0 is equal to the value reported in the first Common Measurement Reporting at initiation or in the Common Measurement Reporting when the event was triggered.
-	If the Predicted TUTRAN-GPS Deviation Limit IE is included in the TUTRAN-GPS Measurement Threshold Information IE, the RNC2 shall update the Pn and F each time a new measurement result is received after point C in the measurement model (TS 25.302 [26]). The RNC2 shall initiate the Common Measurement Reporting procedure and set n equal to zero when Fn rises above the threshold indicated by the Predicted TUTRAN-GPS Deviation Limit IE. The Pn and Fn are calculated according to the following:
Pn=b for n=0
Pn = ((a/16) * ((SFNn – SFNn-1) mod 4096) /100 +((SFNn – SFNn-1) mod 4096)*10*3.84*10^3*16 + Pn-1 ) mod 37158912000000	for n>0
Fn = min((Mn – Pn) mod 37158912000000, (Pn – Mn) mod 37158912000000)	for n>0
Pn is the predicted TUTRAN-GPS value when n measurement results have been received after the first Common Measurement Reporting at initiation or after the last event was triggered.
A is the last reported TUTRAN-GPS Drift Rate value.
B is the last reported TUTRAN-GPS value.
Fn is the deviation of the last measurement result from the predicted TUTRAN-GPS value (Pn ) when n measurements have been received after the first Common Measurement Reporting at initiation or after the last event was triggered.
Mn is the latest measurement result received after point C in the measurement model (TS 25.302 [26]), measured at SFNn .
M1 is the first measurement result received after point C in the measurement model (TS 25.302 [26]), after first Common Measurement Reporting at initiation or after the last event was triggered.
The TUTRAN-GPS Drift Rate is determined by the RNS2 in an implementation-dependent way after point B (see model of physical layer measurements in (TS 25.302 [26])).
2.	If the Common Measurement Type IE is set to “SFN-SFN Observed Time Difference”:
-	If the SFN-SFN Change Limit IE is included in the SFN-SFN Measurement Threshold Information IE, the RNC2 shall calculate the change of SFN-SFN value (Fn) each time a new measurement result is received after point C in the measurement model (TS 25.302 [26]). The RNC2 shall initiate the Common Measurement Reporting procedure in order to report the particular SFN-SFN measurement which has triggered the event and set n equal to zero when the absolute value of Fn rises above the threshold indicated by the SFN-SFN Change Limit IE. The change of the SFN-SFN value is calculated according to the following:
Fn=0 for n=0
[FDD – Fn = (Mn – a) mod 614400	for n>0]
[TDD – Fn = (Mn – a) mod 40960		for n>0]
Fn is the change of the SFN-SFN value expressed in unit [1/16 chip] when n measurement results have been received after the first Common Measurement Reporting at initiation or after the last event was triggered.
A is the last reported SFN-SFN.
Mn is the latest measurement result received after point C in the measurement model (TS 25.302 [26]), measured at SFNn.
M1 is the first measurement result received after point C in the measurement model (TS 25.302 [26]), after the first Common Measurement Reporting at initiation or after the last event was triggered.
-	If the Predicted SFN-SFN Deviation Limit IE is included in the SFN-SFN Measurement Threshold Information IE, the RNC2 shall each time a new measurement result is received after point C in the measurement model (TS 25.302 [26]), update the Pn and Fn. The RNC2 shall initiate the Common Measurement Reporting procedure in order to report the particular SFN-SFN measurement which has triggered the event and set n equal to zero when Fn rises above the threshold indicated by the Predicted SFN-SFN Deviation Limit IE. The Pn and Fn are calculated according to the following:
Pn=b	for n=0
[FDD – Pn = ((a/16) * ((SFNn – SFNn-1) mod 4096)/100 + Pn-1 ) mod 614400	for n>0]
[FDD – Fn = min((Mn – Pn) mod 614400, (Pn – Mn) mod 614400)	for n>0]
[TDD – Pn =((a/16) * (15*(SFNn – SFNn-1)mod 4096 + (TSn – TSn-1))/1500 + Pn-1 ) mod 40960	for n>0]
[TDD – Fn = min((Mn – Pn) mod 40960, (Pn – Mn) mod 40960)	for n>0]
Pn is the predicted SFN-SFN value when n measurement results have been received after the first Common Measurement Reporting at initiation or after the last event was triggered.
A is the last reported SFN-SFN Drift Rate value.
B is the last reported SFN-SFN value.
Fn is the deviation of the last measurement result from the predicted SFN-SFN value (Pn ) when n measurements have been received after first Common Measurement Reporting at initiation or after the last event was triggered.
Mn is the latest measurement result received after point C in the measurement model (TS 25.302 [26]), measured at the [TDD – the Time Slot TSn of] the Frame SFNn.
M1 is the first measurement result received after point C in the measurement model (TS 25.302 [26]), after first Common Measurement Reporting at initiation or after the last event was triggered.
	The SFN-SFN Drift Rate is determined by the RNS2 in an implementation-dependent way after point B (see model of physical layer measurements in (TS 25.302 [26])).
3.	If the Common Measurement Type IE is set to “UTRAN GANSS Timing of Cell Frames for UE Positioning”:
-	If the TUTRAN-GANSS Change Limit IE is included in the TUTRAN-GANSS Measurement Threshold Information IE, the RNC2 shall calculate the change of TUTRAN-GANSS value (Fn) each time a new measurement result is received after point C in the measurement model (TS 25.302 [26]). The RNC2 shall initiate the Common Measurement Reporting procedure and set n equal to zero when the absolute value of Fn rises above the threshold indicated by the TUTRAN-GANSS Change Limit IE. The change of TUTRAN-GANSS value (Fn) is calculated according to the following:
Fn=0 for n=0
Fn = (GAMn – GAMn-1) mod 5308416000000 – ((SFNn – SFNn-1) mod 4096) *10*3.84*10^3*16 + Fn-1
		for n>0
Fn is the change of the TUTRAN-GANSS value expressed in unit [1/16 chip] when n measurement results have been received after the first Common Measurement Reporting at initiation or after the last event was triggered.
GAMn is the latest GANSS measurement result received after point C in the GANSS measurement model, measured at SFNn.
GAMn-1 is the previous GANSS measurement result received after point C in the GANSS measurement model, measured at SFNn-1.
GAM1 is the first GANSS measurement result received after point C in the GANSS measurement model, after the first Common Measurement Reporting at initiation or after the last event was triggered.
GAM0 is equal to the value reported in the first Common Measurement Reporting at initiation or in the Common Measurement Reporting when the event was triggered.
	GANSS measurement model is the timing between cell j and GANSS Time Of Day. TUE-GANSSj is defined as the time of occurrence of a specified UTRAN event according to GANSS time. The specified UTRAN event is the beginning of a particular frame (identified through its SFN) in the first detected path (in time) of the cell j CPICH, where cell j is a cell chosen by the UE. The reference point for TUE-GANSSj shall be the antenna connector of the UE. 
-	If the Predicted TUTRAN-GANSS Deviation Limit IE is included in the TUTRAN-GANSS Measurement Threshold Information IE, the RNC2 shall update the Pn and F each time a new measurement result is received after point C in the measurement model (TS 25.302 [26]). The RNC2 shall initiate the Common Measurement Reporting procedure and set n equal to zero when Fn rises above the threshold indicated by the Predicted TUTRAN-GANSS Deviation Limit IE. The Pn and Fn are calculated according to the following:
Pn=b for n=0
Pn = ((a/16) * ((SFNn – SFNn-1) mod 4096)/100 +((SFNn – SFNn-1) mod 4096)*10*3.84*10^3*16 + Pn-1 ) mod 5308416000000		for n>0
Fn = min((GAMn – Pn) mod 5308416000000, (Pn – GAMn) mod 5308416000000)		for n>0
Pn is the predicted TUTRAN-GANSS value when n measurement results have been received after the first Common Measurement Reporting at initiation or after the last event was triggered.
A is the last reported TUTRAN-GANSS Drift Rate value.
B is the last reported TUTRAN-GANSS value.
Fn is the deviation of the last measurement result from the predicted TUTRAN-GANSS value (Pn ) when n measurements have been received after the first Common Measurement Reporting at initiation or after the last event was triggered.
GAMn is the latest GANSS measurement result received after point C in the GANSS measurement model, measured at SFNn.
GAM1 is the first GANSS measurement result received after point C in the GANSS measurement model, after the first Common Measurement Reporting at initiation or after the last event was triggered.
	The TUTRAN-GANSSS Drift Rate is determined by the RNS2 in an implementation-dependent way after point B (see model of physical layer measurements in (TS 25.302 [26])).
If the Report Characteristics IE is not set to “On Demand”, the RNC2 is required to perform reporting for a common measurement object, in accordance with the conditions provided in the COMMON MEASUREMENT INITIATION REQUEST message, as long as the object exists. If no common measurement object(s) for which a measurement is defined exists any more, the RNC2 shall terminate the measurement locally without reporting this to RNC1.
If at the start of the measurement, the reporting criteria are fulfilled for any of Event A, Event B, Event E or Event F, the RNC2 shall initiate a Measurement Reporting procedure immediately, and then continue with the measurements as specified in the COMMON MEASUREMENT INITIATION REQUEST message.
Common measurement accuracy
If the Common Measurement Type IE is set to “UTRAN GPS Timing of Cell Frames for UE Positioning”, then the RNC2 shall use the TUTRAN-GPS Measurement Accuracy Class IE included in the Common Measurement Accuracy IE according to the following:
-	If the TUTRAN-GPS Measurement Accuracy Class IE indicates “Class A”, then the concerned RNC2 shall perform the measurement with the highest supported accuracy within the accuracy classes A, B or C.
-	If the TUTRAN-GPS Measurement Accuracy Class IE indicates the “Class B”, then the concerned RNC2 shall perform the measurements with the highest supported accuracy within the accuracy classes B and C.
-	If the TUTRAN-GPS Measurement Accuracy Class IE indicates “Class C”, then the concerned RNC2 shall perform the measurements with the highest supported accuracy according to class C.
If the Common Measurement Type IE is set to “SFN-SFN Observed Time Difference”, then the concerned RNC2 shall initiate the SFN-SFN observed Time Difference measurements between the reference cell identified by UC-ID IE and the neighbouring cells identified by their UC-ID. The Report Characteristics IE applies to each of these measurements.
If the Common Measurement Type IE is set to “UTRAN GANSS Timing of Cell Frames for UE positioning”, then the RNC2 shall use the TUTRAN-GANSS Measurement Accuracy Class IE included in the Common Measurement Accuracy IE according to the following:
-	If the TUTRAN-GANSS Measurement Accuracy Class IE indicates “Class A”, then the concerned RNC2 shall perform the measurement with the highest supported accuracy within the accuracy classes A, B or C.
-	If the TUTRAN-GANSS Measurement Accuracy Class IE indicates the “Class B”, then the concerned RNC2 shall perform the measurements with the highest supported accuracy within the accuracy classes B and C.
-	If the TUTRAN-GANSS Measurement Accuracy Class IE indicates “Class C”, then the concerned RNC2 shall perform the measurements with the highest supported accuracy according to class C.
Higher layer filtering
The Measurement Filter Coefficient IE indicates how filtering of the measurement values shall be performed before measurement event evaluation and reporting.
The averaging 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 COMMON MEASUREMENT INITIATION RESPONSE, COMMON MEASUREMENT REPORT messages or the unit used in the event evaluation (i.e. same unit as for Fn).
A = ½(k/2) -, where k is the parameter received in the Measurement Filter Coefficient IE. If the Measurement Filter Coefficient IE is not present, a shall be set to 1 (no 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.
Measurement Recovery Behavior:
If the Measurement Recovery Behavior IE is included in the COMMON MEASUREMENT INITIATION REQUEST message, the RNC2 shall, if Measurement Recovery Behavior is supported, include the Measurement Recovery Support Indicator IE in the COMMON MEASUREMENT INITIATION RESPONSE message and perform the Measurement Recovery Behavior as described in subclause 8.5.3.2.
Response message
If the RNC2 was able to initiate the measurement requested by RNC, it shall respond with the COMMON MEASUREMENT INITIATION RESPONSE message. The message shall include the same Measurement ID that was used in the COMMON MEASUREMENT INITIATION REQUEST message. 
In the case in which the Report Characteristics IE is set to “On Demand” or “On Modification”:
-	The COMMON MEASUREMENT INITIATION RESPONSE message shall include the Common Measurement Object Type IE containing the measurement result. It shall also include the Common Measurement Achieved Accuracy IE if the Common Measurement Type IE is set to “UTRAN GPS Timing of Cell Frames for UE positioning” or “UTRAN GANSS Timing of Cell Frames for UE positioning”.
-	If the Common Measurement Type IE is not set to “SFN-SFN Observed Time Difference” and if the SFN Reporting Indicator IE is set to “FN Reporting Required”, then the RNC2 shall include the SFN IE in the COMMON MEASUREMENT INITIATION RESPONSE message,. The reported SFN shall be the SFN at the time when the measurement value was reported by the layer 3 filter, referred to as point C in the measurement model (TS 25.302 [26]). If the Common Measurement Type IE is set to “SFN-SFN Observed Time Difference”, then the SFN Reporting Indicator IE is ignored.
-	If the Common Measurement Type IE is set to “SFN-SFN Observed Time Difference”, then the RNC2 shall report all the available measurements in the Successful Neighbouring cell SFN-SFN Observed Time Difference Measurement Information IE, and the RNC2 shall report the neighbouring cells with no measurement result available in the Unsuccessful Neighbouring cell SFN-SFN Observed Time Difference Measurement Information IE. For all available measurement results, the RNC2 shall include in the Successful Neighbouring Cell SFN-SFN Observed Time Difference Measurement Information IE the SFN-SFN Quality IE and the SFN-SFN Drift Rate Quality IE, if available.
If the Common Measurement Type IE is set to “UTRAN GPS Timing of Cell Frames for UE Positioning” and the Report Characteristics IE is set to “On Demand” or “On Modification”, the RNC2 shall include in the TUTRAN-GPS Measurement Value Information IE the TUTRAN-GPS Quality IE and the TUTRAN-GPS Drift Rate Quality IE, if available.
If the Common Measurement Type IE is set to “UTRAN GANSS Timing of Cell Frames for UE Positioning” and the Report Characteristics IE is set to “On Demand” or “On Modification”, the RNC2 shall include in the TUTRAN-GANSS Measurement Value Information IE, the TUTRAN-GANSS Quality IE and the TUTRAN-GANSS Drift Rate Quality IE, if available.
8.5.2.2.1	Successful Operation for Iur-g
The procedure is initiated with a COMMON MEASUREMENT INITIATION REQUEST message sent from the RNC1 to the BSS2 or from the BSS1 to the RNC2/BSS2.
Upon receipt, the RNC2 /BSS2 shall initiate the requested measurement according to the parameters given in the request.
[1.28Mcps TDD-The procedure is also initiated with a COMMON MEASUREMENT INITIATION REQUEST message sent from the TDD RNC1 to the BSS2 for multiple GERAN cells’ measurements by allocating unique Measurement ID for each GERAN cell. Upon receipt, the BSS2 shall initiate the requeted measurement according to the parameters given in the request.]
Common measurement type on Iur-g
If the Common Measurement Type IE is set to “load”, the RNC2/BSS2 shall initiate measurements and report results as described in section 8.5.2.2.
If the Common Measurement Type IE is set to “RT load”, the RNC2/BSS2 shall initiate measurements and report results as described in section 8.5.2.2.
If the Common Measurement Type IE is set to “NRT load Information”, the RNC2/BSS2 shall initiate measurements and report results as described in section 8.5.2.2.
Report characteristics on Iur-g
The Report Characteristics IE indicates how the reporting of the measurement shall be performed. This IE is used as described in section 8.5.2.2.
Response message for Iur-g
If the RNC2/BSS2 was able to initiate the measurement requested by RNC1/BSS1 it shall respond with the COMMON MEASUREMENT INITIATION RESPONSE message sent. The message shall include the same Measurement ID that was used in the measurement request. Only in the case when the Report Characteristics IE is set to “On Demand”, the COMMON MEASUREMENT INITIATION RESPONSE message shall contain the measurement result.
[1.28Mcps TDD- If the BSS2 was able to initiate the measurement requested by RNC1, it shall respond with one or more COMMON MEASUREMENT INITIATION RESPONSE messages sent. The message(s) should include the same Measurement ID that was used in the mesasurement request.]
8.5.2.3	Unsuccessful Operation

Figure 30B: Common Measurement Initiation procedure, Unsuccessful Operation
If the requested measurement cannot be initiated, the RNC2 shall send a COMMON MEASUREMENT INITIATION FAILURE message. The message shall include the same Measurement ID IE that was used in the COMMON MEASUREMENT INITIATION REQUEST message and shall include the Cause IE set to an appropriate value.
Typical cause values are as follows:
Radio Network Layer Cause
-	Measurement not supported for the object;
-	Measurement Temporarily not Available.
8.5.2.4	Abnormal Conditions
If the COMMON MEASUREMENT INITIATION REQUEST message contains the SFN-SFN Measurement Threshold Information IE (in the Measurement Threshold IE contained in the Report Characteristics IE) and it does not contain at least one IE, the RNC2 shall reject the procedure using the COMMON MEASUREMENT INITIATION FAILURE message.
If the COMMON MEASUREMENT INITIATION REQUEST message contains the TUTRAN-GPS Measurement Threshold Information IE (in the Measurement Threshold IE contained in the Report Characteristics IE) and it does not contain at least one IE, the RNC2 shall reject the procedure using the COMMON MEASUREMENT INITIATION FAILURE message.
If the COMMON MEASUREMENT INITIATION REQUEST message contains the TUTRAN-GANSS Measurement Threshold Information IE (in the Measurement Threshold IE contained in the Report Characteristics IE) and it does not contain at least one IE, the RNC2 shall reject the procedure using the COMMON MEASUREMENT INITIATION FAILURE message.
If the Common Measurement Type IE is set to “UTRAN GPS Timing of Cell Frames for UE positioning”, but the TUTRAN-GPS Measurement Accuracy Class IE in the Common Measurement Accuracy IE is not included in the COMMON MEASUREMENT INITIATION REQUEST message, the RNC2 shall reject the Common Measurement Initiation procedure using the COMMON MEASUREMENT INITIATION FAILURE message.
If the Common Measurement Type IE is set to “UTRAN GANSS Timing of Cell Frames for UE positioning”, but the TUTRAN-GANSS Measurement Accuracy Class IE in the Common Measurement Accuracy IE is not included in the COMMON MEASUREMENT INITIATION REQUEST message, the RNC2 shall reject the Common Measurement Initiation procedure using the COMMON MEASUREMENT INITIATION FAILURE message.
If the Common Measurement Type received in the Common Measurement Type IE is not “load”, “RT load” or “NRT load Information”, and if the Common Measurement Type received in the Common Measurement Type IE is not defined in TS 25.215 [11] or TS 25.225 [14] to be measured on the Common Measurement Object Type indicated in the COMMON MEASUREMENT INITIATION REQUEST message the RNC2 shall reject the Common Measurement Initiation procedure using the COMMON MEASUREMENT INITIATION FAILURE message.
If the Common Measurement Type IE is set to “SFN-SFN Observed Time Difference”, but the Neighbouring Cell Measurement Information IE is not received in the COMMON MEASUREMENT INITIATION REQUEST message, the RNC2 shall reject the Common Measurement Initiation procedure using the COMMON MEASUREMENT INITIATION FAILURE message.
The allowed combinations of the Common Measurement Type and Report Characteristics Type are shown in the table below marked with “X”. For not allowed combinations, the RNC2 shall reject the Common Measurement Initiation procedure using the COMMON MEASUREMENT INITIATION FAILURE message.
Table 5: Allowed Common Measurement Type and Report Characteristics Type Combinations
Common measurement type
Report characteristics type


On Demand
Periodic
Event A
Event B
Event C
Event D
Event E
Event F
Event-H
On Modification
Received total wide band power 
X
X
X
X
X
X
X
X


Transmitted Carrier Power
X
X
X
X
X
X
X
X


UL Timeslot ISCP
X
X
X
X
X
X
X
X


Load
X
X
X
X
X
X
X
X
X

UTRAN GPS Timing of Cell Frames for UE Positioning
X
X







X
SFN-SFN Observed Time Difference
X
X







X
RT load
X
X
X
X
X
X
X
X


NRT load Information
X
X
X
X
X
X
X
X


UpPTS interference
X
X
X
X
X
X
X
X


UTRAN GANSS Timing of Cell Frames for UE Positioning
X
X







X

[TDD – If the Common Measurement Type requires the Time Slot Information but the [3.84Mcps TDD and 7.68 Mcps TDD – Time Slot IE] [1.28Mcps TDD – Time Slot LCR IE] is not provided in the COMMON MEASUREMENT INITIATION REQUEST message the RNS2 shall reject the Common Measurement Initiation procedure using the COMMON MEASUREMENT INITIATION FAILURE message.]
If the SFN IE is included in the COMMON MEASUREMENT INITIATION REQUEST message and the Report Characteristics IE is other than “Periodic”, “On Demand” or “On Modification”, the RNS2 shall reject the Common Measurement Initiation procedure using the COMMON MEASUREMENT INITIATION FAILURE message.
8.5.2.4.1	Abnormal Conditions for Iur-g
The measurements which can be requested on the Iur and Iur-g interfaces are shown in the table below marked with “X”.
Table 6: Allowed Common measurement type on Iur and Iur-g interfaces
Common Measurement Type
Interface

Iur
Iur-g
Received total wide band power 
X

Transmitted Carrier Power
X

UL Timeslot ISCP
X

Load
X
X
UTRAN GPS Timing of Cell Frames for LCS
X

SFN-SFN Observed Time Difference
X

RT load
X
X
NRT load Information
X
X
UTRAN GANSS Timing of Cell Frames for UE Positioning
X


If the RNC2 receives from the BSS1 a COMMON MEASUREMENT INITIATION REQUEST message in which a measurement, which is not applicable on the Iur-g interface, is requested, the RNC2 shall reject the Common Measurement Initiation procedure.
If the BSS2 receives from the BSS1 / RNC1 a COMMON MEASUREMENT INITIATION REQUEST message in which a measurement, which is not applicable on the Iur-g interface, is requested, the BSS2 shall reject the Common Measurement Initiation procedure.
If the RNC2 receives from the BSS1 a COMMON MEASUREMENT INITIATION REQUEST message in which the SFN reporting indicator IE is set to “FN Reporting Required”, the RNC2 shall ignore that IE.
If the BSS2 receives from the BSS1 / RNC1 a COMMON MEASUREMENT INITIATION REQUEST message in which the SFN reporting indicator IE is set to “FN Reporting Required”, the BSS2 shall ignore that IE.
The allowed combinations of the Common measurement type and Report characteristics type are shown in the table in section 8.5.2.4 marked with “X”. For not allowed combinations, the RNC2/BSS2 shall reject the Common Measurement Initiation procedure.
8.5.3	Common Measurement Reporting
8.5.3.1	General
This procedure is used by an RNC to report the result of measurements requested by another RNC using the Common Measurement Initiation.
This procedure uses the signalling bearer connection for the relevant Distant RNC Context.
8.5.3.2	Successful Operation

Figure 30C: Common Measurement Reporting procedure, Successful Operation
If the requested measurement reporting criteria are met, the RNC2 shall initiate the Common Measurement Reporting procedure. Unless specified below, the meaning of the parameters are given in other specifications.
The Measurement ID IE shall be set to the Measurement ID provided by RNC1 when initiating the measurement with the Common Measurement Initiation procedure.
If the achieved measurement accuracy does not fulfil the given accuracy requirement (see TS 25.133 [23] and TS 25.123 [24]) or the measurement is temporarily not available in case Measurement Recovery Behavior is supported, the Common Measurement Value Information IE shall indicate Measurement not Available. If the RNC2 was configured to perform the Measurement Recovery Behavior, the RNC2 shall indicate Measurement Available to the RNC1 when the achieved measurement accuracy again fulfils the given accuracy requirement (see TS 25.133 [23] and TS 25.123 [24]) and include the Measurement Recovery Report Indicator IE in the COMMON MEASUREMENT REPORT message if the requested measurement reporting criteria are not met.
For measurements included in the Successful Neighbouring Cell SFN-SFN Observed Time Difference Measurement Information IE, the RNC2 shall include the SFN-SFN Quality IE and the SFN-SFN Drift Rate Quality IE if available.
If the Common Measurement Type provided by RNC1 when initiating the measurement with the Common Measurement Initiation procedure was “UTRAN GPS Timing of Cell Frames for UE Positioning”, then the RNC2 shall include in the TUTRAN-GPS Measurement Value Information IE the TUTRAN-GPS Quality IE and the TUTRAN-GPS Drift Rate Quality IE, if available.
If the Common Measurement Type provided by RNC1 when initiating the measurement with the Common Measurement Initiation procedure was “UTRAN GANSS Timing of Cell Frames for UE Positioning”, then the RNC2 shall include in the TUTRAN-GANSS Measurement Value Information IE the TUTRAN-GANSS Quality IE and the TUTRAN-GANSS Drift Rate Quality IE, if available.
8.5.3.2.1	Successful Operation for Iur-g
If the requested measurement reporting criteria are met, the RNC2/BSS2 shall initiate a Measurement Reporting procedure. Unless specified below, the meaning of the parameters are given in other specifications.
The Measurement ID IE shall be set to the Common Measurement ID provided by RNC1/BSS1 when initiating the measurement with the Common Measurement Initiation procedure.
If the Common measurement type provided by RNC1 when initiating the measurement with the Common Measurement Initiation procedure was “SFN-SFN Observed Time Difference”, then RNC2 shall include in the COMMON MEASUREMENT REPORT all the available measurements in the Successful Neighbouring cell SFN-SFN Observed Time Difference Measurement Information IE and shall include the neighbouring cells with no measurement result available in the Unsuccessful Neighbouring cell SFN-SFN Observed Time Difference Measurement Information IE.
If the Common measurement type provided by RNC1 when initiating the measurement with the Common Measurement Initiation procedure was not set to “SFN-SFN Observed Time Difference” and the SFN Reporting Indicator when initiating the measurement was set to “FN Reporting Required”, the RNC2 shall include the SFN IE in the COMMON MEASUREMENT REPORT message. The reported SFN shall be the SFN at the time when the measurement value was reported by the layer 3 filter, referred to as point C in the measurement model (TS 25.302 [26]). If the Common Measurement Type IE is set to “SFN-SFN Observed Time Difference”, then the SFN Reporting Indicator IE is ignored.
8.5.3.3	Abnormal Conditions
-
8.5.4	Common Measurement Termination
8.5.4.1	General
This procedure is used by an RNC to terminate a measurement previously requested by the Common Measurement Initiation procedure.
This procedure uses the signalling bearer connection for the relevant Distant RNC Context.
8.5.4.2	Successful Operation

Figure 30D: Common Measurement Termination procedure, Successful Operation
This procedure is initiated with a COMMON MEASUREMENT TERMINATION REQUEST message.
Upon receipt, RNC2 shall terminate reporting of common measurements corresponding to the received Measurement ID IE.
8.5.4.2.1	Successful Operation for Iur-g
The RNC1/BSS1 and RNC2/BSS2 shall use the Common Measurement Termination procedure as specified in section 8.5.4.2.
8.5.4.3	Abnormal Conditions
-
8.5.5	Common Measurement Failure
8.5.5.1	General
This procedure is used by an RNC to notify another RNC that a measurement previously requested by the Common Measurement Initiation procedure can no longer be reported.
This procedure uses the signalling bearer connection for the relevant Distant RNC Context.
8.5.5.2	Successful Operation

Figure 30E: Common Measurement Failure procedure, Successful Operation
This procedure is initiated with a COMMON MEASUREMENT FAILURE INDICATION message, sent from RNC2 to RNC1 to inform the RNC1 that a previously requested measurement can no longer be reported. RNC2 has locally terminated the indicated measurement. The RNC2 shall include in the COMMON MEASUREMENT FAILURE INDICATION message the reason for the failure in the Cause IE.
8.5.5.2.1	Successful Operation for Iur-g
The RNC1/BSS1 and RNC2/BSS2 shall use the Common Measurement Failure procedure as specified in section 8.5.5.2.
8.5.5.3	Abnormal Conditions
-
8.5.6	Information Exchange Initiation
8.5.6.1	General
This procedure is used by an RNC to request the initiation of an information exchange with another RNC.
This procedure uses the signalling bearer connection for the relevant Distant RNC Context.
8.5.6.2	Successful Operation

Figure 30F: Information Exchange Initiation procedure, Successful Operation
The procedure is initiated with an INFORMATION EXCHANGE INITIATION REQUEST message sent from RNC1 to RNC2.
Upon receipt, the RNC2 shall provide the requested information according to the parameters given in the request. Unless specified below, the meaning of the parameters are given in other specifications.
If the Information Exchange Object Type IE is set to “MBMS Bearer Service” and the Information Type Item IE is set to “MBMS Bearer Service Full Address”, the RNC2 shall report for each TMGI included in the received MBMS Bearer Service Identifiers List IE, the Access Point Name and the IP Multicast Address corresponding to this TMGI in the MBMS Bearer Service Identifiers List IE in the INFORMATION EXCHANGE INITIATION RESPONSE message.
[FDD – If the Information Exchange Object Type IE is set to “MBMS Bearer Service in MBMS Cell” and the Information Type Item IE is set to “MBMS Counting Information”, the RNC2 shall perform counting in cells as defined in TS 25.346 [50] and report in the Counting Result IE for each TMGI included in the received MBMS Bearer Service Identifiers List IE for each cell included in the received MBMS Cell List IE either the counting information or, if relevant counting information is not available in RNC2 (TS 25.346 [50]), the value “0” in the INFORMATION EXCHANGE INITIATION RESPONSE message.]
[FDD – If the Information Exchange Object Type IE is set to “MBMS Bearer Service in MBMS Cell” and the Information Type Item IE is set to “MBMS Transmission Mode”, the RNC2 shall report for each TMGI included in the received MBMS Bearer Service Identifiers List IE for each cell included in the received MBMS Cell List IE, the transmission mode for each TMGI in the cells of RNC2 that have a neighbour relation to the cells received in MBMS Cell List IE as defined in TS 25.346 [50] in the INFORMATION EXCHANGE INITIATION RESPONSE message. If no cells of RNC2 have a neighbour relation to a cell received in MBMS Cell List IE for a TMGI the value “Not Provided” shall be used.]
[FDD – If the Information Exchange Object Type IE is set to “MBMS Cell” and the Information Type Item IE is set to “MBMS Neighbouring Cell Information”, the RNC2 shall report for each cell included in the received MBMS Cell List IE, the MBMS radio bearer information for each cells in the INFORMATION EXCHANGE INITIATION RESPONSE message.]
[FDD – If the Information Exchange Object Type IE is set to “MBMS Bearer Service in MBMS Cell” and the Information Type Item IE is set to “MBMS RLC Sequence Number”, the RNC2 shall report for each TMGI included in the received MBMS Bearer Service Identifiers List IE for each cell included in the received MBMS Cell List IE, the RLC sequence number for each TMGI for the indicated cells in the INFORMATION EXCHANGE INITIATION RESPONSE message.]
If the Information Exchange Object Type IE is set to “ANR Cell” and the Information Type Item IE is set to “ANR Cell Information”, the RNC2 shall, if supported, for each cell in the ANR Cell List IE that is controlled by RNC2, report the ANR Cell Information in the INFORMATION EXCHANGE INITIATION RESPONSE message.
If the Information Type IE contains a GANSS Generic Data IE, at least one of the GANSS Navigation Model And Time Recovery, GANSS Time Model GNSS-GNSS, GANSS UTC Model, GANSS Almanac, GANSS Real Time Integrity, GANSS Data Bit Assistance, GANSS Additional Navigation Models And Time Recovery, GANSS Additional UTC Models, GANSS Auxiliary Information, DBDS Corrections Request, BDS Ionospheric Grid Model Request IEs shall be present in the GANSS Generic Data IE.
-	If the GANSS Generic Data IE does not contain the GANSS ID IE, the RNC2 shall assume that the corresponding GANSS is “Galileo”.
If the Information Exchange Object Type IE is set to “Common E-RGCH Cell” and the Information Type Item IE is set to “Common E-RGCH Cell Information”, the RNC2 shall, for each Common E-RGCH capable cell in the Common E-RGCH Cell List IE that is controlled by RNC2, report the Common E-RGCH Cell Information in the INFORMATION EXCHANGE INITIATION RESPONSE message.
Information Report Characteristics:
The Information Report Characteristics IE indicates how the reporting of the information shall be performed.
If the Information Report Characteristics IE is set to “On Demand”, the RNC2 shall report the requested information immediately.
If the Information Report Characteristics IE is set to “Periodic”, the RNC2 shall report the requested information immediately and then shall periodically initiate the Information Reporting procedure for all the requested information, with the report frequency indicated by the Information Report Periodicity IE.
If the Information Report Characteristics IE is set to “On Modification”, the RNC2 shall report the requested information immediately if available. If the requested information is not available at the moment of receiving the INFORMATION EXCHANGE INITIATION REQUEST message, but expected to become available after some acquisition time, the RNC2 shall initiate the Information Reporting procedure when the requested information becomes available. The RNC2 shall then initiate the Information Reporting procedure in accordance to the following conditions:
-	If the Information Type Item IE is set to “IPDL Parameters”, the RNC2 shall initiate the Information Reporting procedure when any change in the parameters occurs.
-	If the Information Type Item IE is set to “DGPS Corrections”, the RNC2 shall initiate the Information Reporting procedure for this specific Information Type when either the PRC has drifted from the previously reported value more than the threshold indicated in the PRC Deviation IE in the Information Threshold IE or a change has occurred in the IODE.
-	If the Information Type Item IE is set to “GPS Information” and the GPS Information Item IE includes “GPS Navigation Model & Recovery Assistance”, the RNC2 shall initiate the Information Reporting procedure for this specific GPS Information Item when a change has occurred regarding either the IODC or the list of visible satellites, identified by the Sat ID IEs.
-	If the Information Type Item IE is set to “GPS Information” and the GPS Information Item IE includes “GPS Ionospheric Model”, the RNC2 shall initiate the Information Reporting procedure for this specific GPS Information Item when any change has occurred.
-	If the Information Type Item IE is set to “GPS Information” and the GPS Information Item IE includes “GPS UTC Model”, the RNC2 shall initiate the Information Reporting procedure for this specific GPS Information Item when a change has occurred in the tot or WNt parameter.
-	If the Information Type Item IE is set to “GPS Information” and the GPS Information Item IE includes “GPS Almanac”, the RNC2 shall initiate the Information Reporting procedure for this specific GPS Information Item when a change in the toa or WNa parameter has occurred.
-	If the Information Type Item IE is set to “GPS Information” and the GPS Information Item IE includes “GPS Real-Time Integrity”, the RNC2 shall initiate the Information Reporting procedure for this specific GPS Information Item when any change has occurred.
-	If the Information Type IE is set to “Cell Capacity Class”, the RNC2 shall initiate the Information Reporting procedure for uplink and downlink cell capacity class when any change has occurred. If either uplink or downlink cell capacity class satisfies the requested report characteristics, the RNC2 shall report the result of both uplink and downlink cell capacity information.
-	If any of the above Information Type IEs becomes temporarily unavailable, the RNC2 shall initiate the Information Reporting procedure for this specific Information Item by indicating “Information Not Available” in the Requested Data Value Information IE. If the Information becomes available again, the RNC2 shall initiate the Information Reporting procedure for this specific Information.
-	If the Information Type IE is set to “NACC related data”, the RNC2 shall initiate the Information Reporting procedure for NACC related data if any change has occurred.
-	If the Information Type IE is set to “Inter-frequency Cell Information”, the RNC2 shall initiate the Information Reporting procedure for this specific Information Item when any change has occurred to the inter-frequency cell information broadcasted in the SIB11, SIB11ter or SIB12.
-	If the Information Type Item IE is set to “DGANSS Corrections”, the RNC2 shall initiate the Information Reporting procedure for this specific Information Type when either the PRC has drifted from the previously reported value more than the threshold indicated in the PRC Deviation IE in the Information Threshold IE or a change has occurred in the IODE.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Navigation Model And Time Recovery IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information Item when a change has occurred regarding either the IOD or the list of visible satellites, identified by the Sat ID IEs.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Ionospheric Model IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information Item when any change has occurred.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS UTC Model IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information Item when a change has occurred in the tot or WNt parameter.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Almanac IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information Item when a change in the Toa, IODa, or Week Number parameter has occurred.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Real Time Integrity IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information Item when any change has occurred.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Data Bit Assistance IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information Item when any change has occurred.
-	If the Information Type Item IE is set to “MBMS Transmission Mode”, the RNC2 shall initiate the Information Reporting procedure when any change in the parameter occurs.
-	If the Information Type Item IE is set to “MBMS Neighbouring Cell Information”, the RNC2 shall initiate the Information Reporting procedure when any change in the parameters occurs.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Additional Navigation Models And Time Recovery IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information item when a change has occurred regarding either the IOD or the list of visible satellites, identified by the Sat ID IEs.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Additional Ionospheric Model IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information item when any change has occurred.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Additional UTC Models IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information item when a change has occurred in the tot,WNot, WNt, or NA parameter.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Earth Orientation Parameters IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information item when a change has occurred in the tEOP parameter.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Auxiliary Information IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information item when a change has occurred in the Signals Available or Channel Number IE parameter.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the DBDS Corrections Request IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information item when any change has occurred.
-	If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the BDS Ionospheric Grid Model Request IE, the RNC2 shall initiate the Information Reporting procedure for this specific GANSS Information item when any change has occurred.
-	If the Information Type Item IE is set to “Common E-RGCH Cell Information”, the RNC2 shall initiate the Information Reporting procedure for this Common E-RGCH Information item when a change has occurred in the Common E-RGCH Cell Information IE parameter for the specific cell.
Response message:
If the RNC2 is able to determine the information requested by the RNC1, it shall respond with the INFORMATION EXCHANGE INITIATION RESPONSE message. The message shall include the Information Exchange ID IE set to the same value that was included in the INFORMATION EXCHANGE INITIATION REQUEST message. When the Report Characteristics IE is set to or “On Modification” or “Periodic”, the INFORMATION EXCHANGE INITIATION RESPONSE message shall contain the Requested Data Value IE if the data are available. When the Report Characteristics IE is set to “On Demand”, the INFORMATION EXCHANGE INITIATION RESPONSE message shall contain the Requested Data Value IE.
If the Requested Data Value IE contains the GANSS Common Data IE, at least one of the GANSS Ionospheric Model, GANSS RX Pos, GANSS Additional Ionospheric Model, or GANSS Earth Orientation Parameters IEs shall be present.
Any GANSS Generic Data IE associated with a given GANSS included in the Requested Data Value IE shall contain at least one of the DGANSS Corrections, GANSS Navigation Model And Time Recovery, GANSS Time Model, GANSS UTC Model, GANSS Almanac, GANSS Real Time Integrity, GANSS Data Bit Assistance, GANSS Additional Time Models, GANSS Additional Navigation Models And Time Recovery, GANSS Additional UTC Models, GANSS Auxiliary Information, DBDS Corrections, or BDS Ionospheric Grid Model IEs.
-	If the GANSS Generic Data IE does not contain the GANSS ID IE, the corresponding GANSS is “Galileo”.
-	The DGANSS Corrections IE contains one or several DGANSS Information IE(s), each of them associated with a GANSS Signal. A DGANSS Information IE for a particular GANSS that does not contain the GANSS Signal ID IE is by default associated with the default signal defined in TS 25.331 [16], clause 10.3.3.45a.
-	The DBDS Corrections IE contains one or several DBDS information IE(s), each of them associated with a GANSS Signal. A DBDS Information IE for a particular GANSS that does not contain the GANSS Signal ID IE is by default associated with the default signal defined in TS 25.331 [16], clause 10.3.3.45a.
-	The GANSS Real Time Integrity IE contains one or several Satellite Information IEs, each of them associated with a satellite and a GANSS Signal. A Satellite Information IE for a particular GANSS that does not contain the Bad GANSS Signal ID IE is by default associated with all the signals of the corresponding satellite (see [53], IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], DTFA01-96-C-00025 [58], IS-QZSS [59], [60]).
If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Time Model GNSS-GNSS IE with exactly one bit set to value “1”, the RNC2 shall include the GANSS Time Model IE in the Requested Data Value IE with the requested time information.
If the Information Type Item IE is set to “GANSS Information” and the GANSS Information IE includes the GANSS Time Model GNSS-GNSS IE with more than one bit set to value “1”, the RNC2 shall include the GANSS Additional Time Models IE in Requested Data Value IE with the requested time information for each GANSS. 
If the Information Type Item IE is set to “DGPS Corrections”, the RNC2 shall include the DGPS Corrections IE in Requested Data Value IE with the DGNSS Validity Period IE included, if available.
If the Information Type Item IE is set to “DGANSS Corrections”, the RNC2 shall include the DGANSS Corrections IE in Requested Data Value IE with the DGNSS Validity Period IE included, if available.
If the Information Type Item IE is set to "GPS Almanac", the RNC2 shall include the GPS Almanac IE in Requested Data Value IE with the Complete Almanac Provided IE included, if available.
If the Information Type Item IE is set to "GANSS Almanac", the RNC2 shall include the GANSS Almanac IE in Requested Data Value IE with the Complete Almanac Provided IE included, if available.
If the Information Type Item IE is set to "GANSS Time Model GNSS-GNSS", the RNC2 shall include the GANSS Time Model IE in Requested Data Value IE with the Delta_T IE included, if available.
8.5.6.2.1	Successful Operation for Iur-g
The procedure is initiated with an INFORMATION EXCHANGE INITIATION REQUEST message sent from BSS1 to BSS2/RNC2 or by RNC1 to BSS2.
Upon receipt, the BSS2/RNC2 shall provide the requested information according to the parameters given in the request. Unless specified below, the meaning of the parameters are given in other specifications.
Information Report Characteristics on Iur-g:
If the Information Type Item IE is set to “Cell Capacity Class”, the RNC2/BSS2 shall initiate measurements and report results as described in section 8.5.6.2.
The Information Report Characteristics IE indicates how the reporting of the information shall be performed. This IE is used as described in section 8.5.6.2.
8.5.6.3	Unsuccessful Operation

Figure 30G: Information Exchange Initiation procedure, Unsuccessful Operation
If the requested Information Type received in the Information Type IE indicates a type of information that RNC2 cannot provide, the RNC2 shall reject the Information Exchange Initiation procedure.
If the requested information provision cannot be accessed, the RNC2 shall reject the procedure and shall send the INFORMATION EXCHANGE INITIATION FAILURE message. 
The message shall include the Information Exchange ID IE set to the same value that was used in the INFORMATION EXCHANGE INITIATION REQUEST message and the Cause IE set to an appropriate value.
Typical cause values are as follows:
Radio Network Layer Cause:
-	Information temporarily not available;
-	Information Provision not supported for the object.
8.5.6.4	Abnormal Conditions
If the Information Report Characteristics IE is set to “On Modification”, and the Information Type Item IE is set to “DGPS Corrections”, but the Information Threshold IE is not received in the INFORMATION EXCHANGE INITIATION REQUEST message, the RNC2 shall reject the Information Exchange Initiation procedure and shall send the INFORMATION EXCHANGE INITIATION FAILURE message.
If the Information Exchange Object Type IE is set to a value other than “GSM Cell” and the Information Type Item IE set to “NACC related data” the RNC2 shall reject the Information Exchange Initiation procedure and shall send the INFORMATION EXCHANGE INITIATION FAILURE message.
If the Information Type Item IE is set to the value “MBMS Bearer Service Full Address” and the Information Exchange Object Type IE is not set to “MBMS Bearer Service”, the RNC2 shall reject the Information Exchange Initiation procedure and shall send the INFORMATION EXCHANGE INITIATION FAILURE message.
If the Information Type Item IE is set to the value “ANR Cell Information” and the Information Exchange Object Type IE is not set to “ANR Cell”, the RNC2 shall reject the Information Exchange Initiation procedure and shall send the INFORMATION EXCHANGE INITIATION FAILURE message.
If the Information Type Item IE is set to the value “ANR Cell Information” and the Information Exchange Object Type IE is set to “ANR Cell”, but the RNC2 can only collect the “Requested Data Value” for the subset of the cells requested, RNC2 shall not reject the Information Exchange Initiation procedure and shall send the INFORMATION EXCHANGE INITIATION RESPONSE message with the information it could obtain.
If the Information Type Item IE is set to the value “Common E-RGCH Cell Information” and the Information Exchange Object Type IE is not set to “Common E-RGCH Cell”, the RNC2 shall reject the Information Exchange Initiation procedure and shall send the INFORMATION EXCHANGE INITIATION FAILURE message.
If the Information Type Item IE is set to the value “Common E-RGCH Cell Information” and the Information Exchange Object Type IE is set to “Common E-RGCH Cell”, but only the subset of the cells requested are Common E-RGCH capable, the RNC2 shall not reject the Information Exchange Initiation procedure and shall send the INFORMATION EXCHANGE INITIATION RESPONSE message with the information it could obtain.
The allowed combinations of the Information type and Information Report Characteristics type are shown in the table below marked with “X”. For not allowed combinations, the RNC2 shall reject the Information Exchange Initiation procedure using the INFORMATION EXCHANGE INITIATION FAILURE message.
Table 6a: Allowed Information Type and Information Report Characteristics type combinations
Type
Information Report Characteristics Type

On Demand
Periodic
On Modification
UTRAN Access Point Position with Altitude Information
X


UTRAN Access Point Position
X


IPDL Parameters
X
X
X
GPS Information
X
X
X
DGPS Corrections
X
X
X
GPS RX Pos
X


SFN-SFN Measurement Reference Point Position
X


Cell Capacity Class
X

X
NACC related data
X

X
MBMS Bearer Service Full Address
X


Inter-frequency Cell Information
X

X
GANSS Information
X
X
X
DGANSS Corrections
X
X
X
GANSS RX Pos
X


MBMS Counting Information [FDD only]
X


MBMS Transmission Mode [FDD only]


X
MBMS Neighbouring Cell Information [FDD only]
X

X
MBMS RLC Sequence Number
[FDD only]
X


ANR Cell Information
X


Common E-RGCH Cell Information
X

X

8.5.6.4.1	Abnormal Conditions for Iur-g
The information types that can be requested on the Iur and Iur-g interfaces are shown in the table below marked with “X”. For information types that are not applicable on the Iur-g interface, the BSS shall reject the Information Exchange Initiation procedure.
Table 7: Allowed Information types on Iur and Iur-g interfaces
Information Type
Interface

Iur
Iur-g
UTRAN Access Point Position with Altitude Information
X

UTRAN Access Point Position
X

IPDL Parameters 
X

DGPS Corrections
X

GPS Information
X

GPS RX Pos
X

SFN-SFN Measurement Reference Point Position
X

Cell Capacity Class
X
X
NACC related data
X

MBMS Bearer Service Full Address
X

Inter-frequency Cell Information
X

DGANSS Corrections
X

GANSS Information
X

GANSS RX Pos
X

MBMS Counting Information [FDD only]
X

MBMS Transmission Mode [FDD only]
X

MBMS Neighbouring Cell Information [FDD only]
X

MBMS RLC Sequence Number [FDD only]
X


8.5.7	Information Reporting
8.5.7.1	General
This procedure is used by a RNC to report the result of information requested by another RNC using the Information Exchange Initiation.
This procedure uses the signalling bearer connection for the relevant Distant RNC Context.
8.5.7.2	Successful Operation

Figure 30H: Information Reporting procedure, Successful Operation
If the requested information reporting criteria are met, the RNC2 shall initiate an Information Reporting procedure. Unless specified below, the meaning of the parameters are given in other specifications.
The Information Exchange ID IE shall be set to the Information Exchange ID provided by the RNC1 when initiating the information exchange with the Information Exchange Initiation procedure.
The Requested Data Value IE shall include at least one IE containing the data to be reported.
8.5.7.2.1	Successful Operation for Iur-g
The RNC1/BSS1 and RNC2/BSS2 shall use the Information Reporting procedure as specified in section 8.5.7.2.
8.5.7.3	Abnormal Conditions
-
8.5.8	Information Exchange Termination
8.5.8.1	General
This procedure is used by a RNC to terminate the information exchange requested using the Information Exchange Initiation.
This procedure uses the signalling bearer connection for the relevant Distant RNC Context.
8.5.8.2	Successful Operation

Figure 30I: Information Exchange Termination procedure, Successful Operation
This procedure is initiated with a INFORMATION EXCHANGE TERMINATION REQUEST message.
Upon receipt, the RNC2 shall terminate the information exchange corresponding to the Information Exchange ID IE provided by the RNC1 when initiating the information exchange with the Information Exchange Initiation procedure.
8.5.8.2.1	Successful Operation for Iur-g
The RNC1/BSS1 and RNC2/BSS2 shall use the Information Exchange Termination procedure as specified in section 8.5.8.2.
8.5.8.3	Abnormal Conditions
-
8.5.9	Information Exchange Failure
8.5.9.1	General
This procedure is used by a RNC to notify another that the information exchange it previously requested using the Information Exchange Initiation can no longer be reported.
This procedure uses the signalling bearer connection for the relevant Distant RNC Context.
8.5.9.2	Successful Operation

Figure 30J: Information Exchange Failure procedure, Successful Operation
This procedure is initiated with a INFORMATION EXCHANGE FAILURE INDICATION message, sent from the RNC2 to the RNC1, to inform the RNC1 that information previously requested by the Information Exchange Initiation procedure can no longer be reported. The RNC2 shall include in the INFORMATION EXCHANGE FAILURE INDICATION message the Information Exchange ID IE set to the same value provided by the RNC1 when initiating the information exchange with the Information Exchange Initiation procedure, and the RNC2 shall include the Cause IE set to an appropriate value.
Typical cause values are as follows:
Radio Network Layer Cause:
Information temporarily not available.
8.5.9.2.1	Successful Operation for Iur-g
The RNC1/BSS1 and RNC2/BSS2 shall use the Information Exchange Failure procedure as specified in section 8.5.9.2.
8.5.10	Reset
8.5.10.1	General
The purpose of the reset procedure is to align the resources in RNC1 and RNC2 in the event of an abnormal failure.
The procedure uses connectionless signalling.
8.5.10.2	Successful Operation

Figure 30K: Reset procedure, Successful Operation
The procedure is initiated with a RESET REQUEST message sent from the RNC1 to the RNC2.
If the Reset Indicator IE is set to “Context”, then:
-	For all indicated UE Contexts identified by the S-RNTI IE, the RNC2 in the role of DRNC, shall remove all the indicated UE Contexts and all the radio resources allocated for these UE Contexts. In addition, the RNC2 shall take actions according to Annex D.2.
-	For all indicated UE Contexts identified by the D-RNTI IE, the RNC2 in the role of SRNC, shall remove the information related to the RNC1 for all indicated UE Contexts and the radio resources allocated for these UE Contexts.
If the Reset Indicator IE is set to “Context Group”, then:
-	For all indicated UE Context Groups identified by the S-RNTI Group IE, the RNC2 in the role of DRNC, shall remove all the indicated UE Contexts and all the radio resources allocated for these UE Contexts. In addition, the RNC2 shall take actions according to Annex D.2.
If the Reset Indicator IE is set to “All Contexts”, then the RNC2 shall:
-	In the role of DRNC, remove all the UE Contexts for which the RNC1 is the SRNC and all the radio resources allocated for these UE Contexts. In addition, the RNC2 shall take actions according to Annex D.2.
-	In the role of SRNC, remove the information related to the RNC1 for all the UE Contexts and all the radio resources allocated for these UE Contexts.
For all the removed UE Contexts and for all the UE Contexts for which the RNC2 has removed information related to the RNC1, the RNC2 shall also initiate release of the dedicated or common user plane resources that were involved in these UE Contexts. After clearing all related resources, the RNC2 shall return the RESET RESPONSE message to the RNC1.
8.5.10.3	Abnormal Conditions
If the RESET message is received, any other ongoing procedure (except another Reset procedure) on same Iur interface related to a context indicated explicitly or implicitly in the message shall be aborted.
8.5.11	Direct Information Transfer
8.5.11.1	General
This procedure is used by an RNC to transfer information to another RNC spontaneously. 
This procedure shall use the connectionless mode of signalling bearer.
8.5.11.2	Successful Operation

Figure 30L: Direct Information Transfer procedure, Successful Operation
The procedure is initiated with an DIRECT INFORMATION TRANSFER message sent from RNC1 to RNC2.
If the initiating RNC of this procedure is RNC1, RNC1 shall provide appropriate information in the Provided Information IE.
MBMS Channel Type Indication:
At the start time of a session for an MBMS bearer service, if the RNC1 is in the DRNC role for some Ues whose UE Link contains the concerned MBMS bearer service and whose SRNC is RNC2 and if the channel type is determined by the RNC1 for certain cells in the DRNS, the procedure shall be initiated by the RNC1 to the RNC2. In this case, the RNC1 shall include in the Provided Information IE the Channel Type Information IE in the DIRECT INFORMATION TRANSFER message.
During a session of an MBMS bearer service, if the RNC1 is in the DRNC role for some Ues whose UE Link contains the concerned MBMS bearer service and whose SRNC is RNC2, then the RNC1 may initiate this procedure to indicate channel type change for the MBMS bearer service in certain cells. In this case, the RNC1 shall include in the Provided Information IE the Channel Type Information IE in the DIRECT INFORMATION TRANSFER message.
The RNC1 shall include the available information within the PTM Cell List IE, the PTP Cell List IE and/or the Not Provided Cell List IE in the Channel Type Information IE.
MBMS Preferred Frequency Layer Indication:
At the start time of a session for an MBMS bearer service, if the RNC1 is in the DRNC role for at least one CELL_DCH UE whose UE Link contains the concerned MBMS bearer service and whose SRNC is RNC2 and if the preferred frequency layer is determined by the RNC1 for certain cells that host at least one of these CELL_DCH Ues whose SRNC is RNC2, the procedure shall be initiated by the RNC1 to the RNC2. In this case, the RNC1 shall include in the Provided Information IE the Preferred Frequency Layer Information IE in the DIRECT INFORMATION TRANSFER message.
If some of the cells controlled by RNC1 that host at least one of these CELL_DCH Ues whose SRNC is RNC2 are configured with different preferred frequencies, the Additional Preferred Frequency IE as well as Default Preferred Frequency IE shall be included in the Preferred Frequency Layer Information IE. In this case, for each preferred frequency different from the Default Preferred Frequency IE, one Additional Preferred Frequency IE shall be included containing at least one Corresponding Cells IE.
ANR Report Indication:
The message contains ANR Report Indication IE if the initiating RNC (RNC1) has decided to forward a logged ANR report received over Uu to RNC2. On reception of the ANR Report Indication IE, RNC2 may use the information to configure neighbour relations.
8.5.12	Information Transfer Control
8.5.12.1	General
This procedure is used by an RNC to control transfer of information (e.g. log information related to ANR) from an RNC to any other RNC. This procedure is initiated by an RNC to suspend or resume transfer of information.
This procedure shall use the connectionless mode of signalling bearer.
8.5.12.2	Successful Operation

Figure 30M: Information Transfer Control procedure, Successful Operation
The RNC1 initiates the procedure by sending the INFORMATION TRANSFER CONTROL REQUEST message to the RNC2.
The Control Type IE within the INFORMATION TRANSFER CONTROL REQUEST message shall be used to either suspend or to resume (respectively indicated by Suspension IE or Resume IE in Control Type IE) the transfer of information for the specified scope of objects indicated by Controlled Object Scope IE.
If the control of information transfer is intended for individual cells, those cells shall be indicated in the UMTS Cell Information IE within the Controlled Object Scope IE. If the UMTS Cell Information IE is not included, the procedure is intended for the whole entity indicated in RNC-ID IE or Extended RNC-ID IE. In shared network configurations, PLMN identities shall be indicated with Multiple PLMN List IE.
8.5.12.3	Abnormal Conditions
-
8.6	MBMS Procedures
8.6.1	MBMS Attach
8.6.1.1	General
The MBMS Attach procedure is used by the SRNC to either create a UE Link/URA Link in the DRNC or inform the DRNC about any addition of one or several MBMS bearer services in an already stored UE Link or URA Link.
This procedure shall use the signalling bearer mode specified below.
8.6.1.2	Successful Operation

Figure 31: MBMS Attach procedure, Successful Operation
The SRNC initiates the procedure by sending the message MBMS ATTACH COMMAND message to the DRNC.
When the UE is utilising one or more radio links in the DRNC, the message shall be sent using the connection oriented service of the signalling bearer and no further identification of the UE Context in the DRNC is required. If the UE is not utilising any radio link, the message shall be sent using the connectionless service of the signalling bearer.
If no UE State IE is included in the message or the UE State IE is set to “CELL_FACH/CELL_PCH”, the DRNC shall perform the UE Linking as specified in TS 25.346 [50], section 5.1.6.
If the UE State IE is set to “URA_PCH”, the DRNC shall perform the URA Linking as specified in TS 25.346 [50], section 5.1.10.
8.6.1.3	Abnormal Conditions
-
8.6.2	MBMS Detach
8.6.2.1	General
The MBMS Detach procedure is used by the SRNC to either delete a UE Link/URA Link in the DRNC or to inform DRNC about any removal of one or several MBMS bearer services in an already stored UE link or URA Link.
This procedure shall use the signalling bearer mode specified below.
8.6.2.2	Successful Operation

Figure 32: MBMS Detach procedure, Successful Operation
The SRNC initiates the procedure by sending the message MBMS DETACH COMMAND message to the DRNC.
When the UE is utilising one or more radio links in the DRNC, the message shall be sent using the connection oriented service of the signalling bearer and no further identification of the UE Context in the DRNC is required. If the UE is not utilising any radio link, the message shall be sent using the connectionless service of the signalling bearer.
If no UE State IE is included in the message or the UE State IE is set to “CELL_FACH/CELL_PCH”, the DRNC shall perform the UE De-linking as specified in TS 25.346 [50], section 5.1.6.
If the UE State IE is set to “URA_PCH”, the DRNC shall perform the URA De-linking as specified in TS 25.346 [50], section 5.1.10.
8.6.2.3	Abnormal Conditions
-
9	Elements for RNSAP Communication
9.1	Message Functional Definition and Content
9.1.1	General
This subclause defines the structure of the messages required for the RNSAP protocol in tabular format. The corresponding ASN.1 definition is presented in subclause 9.3. In case there is contradiction between the tabular format in subclause 9.1 and the ASN.1 definition, the ASN.1 shall take precedence, except for the definition of conditions for the presence of conditional IEs, in which the tabular format shall take precedence.
NOTE:	The messages have been defined in accordance to the guidelines specified in TR 25.921 [28].
9.1.2	Message Contents
9.1.2.1	Presence
An information element can be of the following types:
M 
IEs marked as Mandatory (M) shall always be included in the message.
O 
IEs marked as Optional (O) may or may not be included in the message.
C 
IEs marked as Conditional I shall be included in a message only if the condition is satisfied. Otherwise the IE shall not be included.

In the case of an Information Element group, the group is preceded by a name for the info group (in bold). It is also indicated how many times a group may be repeated in the message and whether the group is conditional. Each group may be also repeated within one message. The presence field of the Information Elements inside one group defines if the Information Element is mandatory, optional or conditional if the group is present.
9.1.2.2	Criticality
Each information element or Group of information elements may have criticality information applied to it.
Following cases are possible:
–
No criticality information is applied explicitly.
YES
Criticality information is applied. ‘YES’ is usable only for non-repeatable information elements.
GLOBAL
The information element and all its repetitions together have one common criticality information. ‘GLOBAL’ is usable only for repeatable information elements.
EACH
Each repetition of the information element has its own criticality information. It is not allowed to assign different criticality values to the repetitions. ‘EACH’ is usable only for repeatable information elements.

9.1.2.3	Range
The Range column indicates the allowed number of copies of repetitive IEs/IE groups.
9.1.2.4	Assigned Criticality
This column provides the actual criticality information as defined in subclause 10.3.2, if applicable.
9.1.3	RADIO LINK SETUP REQUEST
9.1.3.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

SRNC-ID
M

RNC-ID
9.2.1.50
If the Extended SRNC-ID IE is included in the message, the SRNC-ID IE shall be ignored.
YES
reject
S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall be ignored.
YES
reject
D-RNTI
O

9.2.1.24

YES
reject
Allowed Queuing Time
O

9.2.1.2

YES
reject
UL DPCH Information

1


YES
reject
>UL Scrambling Code
M

9.2.2.53

–

>Min UL Channelisation Code Length 
M

9.2.2.25

–

>Max Number of UL DPDCHs
C – CodeLen

9.2.2.24

–

>Puncture Limit
M

9.2.1.46
For the UL.
–

>TFCS
M

9.2.1.63

–

>UL DPCCH Slot Format
M

9.2.2.52

–

>Uplink SIR Target
O

Uplink SIR
9.2.1.69

–

>Diversity Mode
M

9.2.2.8

–

>Not Used
O

NULL

–

>Not Used
O

NULL

–

>DPC Mode
O

9.2.2.12A

YES
reject
>UL DPDCH Indicator for E-DCH operation
O

9.2.2.52A
This IE may be present without the presence of the E-DPCH Information IE.
YES
reject
DL DPCH Information

0..1


YES
reject
>TFCS
M


9.2.1.63

–

>DL DPCH Slot Format
M

9.2.2.9

–

>Number of DL Channelisation Codes
M

9.2.2.26A

–

>TFCI Signalling Mode
M

9.2.2.46

–

>TFCI Presence
C- SlotFormat

9.2.1.55

–

>Multiplexing Position
M

9.2.2.26

–

>Power Offset Information

1


–

>>PO1
M

Power Offset
9.2.2.30
Power offset for the TFCI bits.
–

>>PO2
M

Power Offset
9.2.2.30
Power offset for the TPC bits.
–

>>PO3
M

Power Offset
9.2.2.30
Power offset for the pilot bits.
–

>FDD TPC Downlink Step Size
M

9.2.2.16

–

>Limited Power Increase
M

9.2.2.21A

–

>Inner Loop DL PC Status
M

9.2.2.21a

–

DCH Information
M

DCH FDD Information
9.2.2.4A

YES
reject
RL Information

1..<maxNrOfRLs>


EACH
notify
>RL ID
M

9.2.1.49

–

>C-ID
M

9.2.1.6

–

>First RLS Indicator
M

9.2.2.16A

–

>Frame Offset
M

9.2.1.30

–

>Chip Offset
M

9.2.2.1

–

>Propagation Delay
O

9.2.2.33

–

>Diversity Control Field
C – NotFirstRL

9.2.1.20

–

>Initial DL TX Power
O

DL Power
9.2.1.21A

–

>Primary CPICH Ec/No
O

9.2.2.32

–

>Not Used 
O

NULL

–

>Transmit Diversity Indicator
C –
Diversity mode

9.2.2.48

–

>Enhanced Primary CPICH Ec/No
O

9.2.2.13I

YES
ignore
>RL Specific DCH Information
O

9.2.1.49A

YES
ignore
>Delayed Activation
O

9.2.1.19Aa

YES
reject
>Cell Portion ID
O

9.2.2.E

YES
ignore
>RL Specific E-DCH Information
O

9.2.2.35a

YES
reject
>E-DCH RL Indication
O

9.2.2.4E

YES
reject
>Extended Propagation Delay
O

9.2.2.33a

YES
ignore
>Synchronisation Indicator 
O

9.2.2.45A

YES
reject
>HS-DSCH Preconfiguration Setup
O

9.2.2.100

YES
ignore
>Non-Serving RL Preconfiguration Setup
O

9.2.2.124

YES
ignore
>F-TPICH Information
O

9.2.2.139

YES
ignore
>TPC slot position
O

9.2.2.193

YES
ignore
Transmission Gap Pattern Sequence Information
O

9.2.2.47A

YES
reject
Active Pattern Sequence Information
O

9.2.2.A

YES
reject
Permanent NAS UE Identity
O

9.2.1.73

YES
ignore
DL Power Balancing Information
O

9.2.2.10A

YES
ignore
HS-DSCH Information
O

HS-DSCH FDD Information
9.2.2.19a

YES
reject
HS-PDSCH RL ID
C – InfoHSDSCH

RL ID 9.2.1.49

YES
reject
MBMS Bearer Service List

0..<maxNrOfMBMSServices>


GLOBAL
notify
>TMGI
M

9.2.1.80

–

E-DPCH Information

0..1


YES
reject
>Maximum Set of E-DPDCHs
M

9.2.2.24e

–

>Puncture Limit
M

9.2.1.46

–

>E-TFCS Information
M

9.2.2.4G

–

>E-TTI
M

9.2.2.4J

–

>E-DPCCH Power Offset
M

9.2.2.4K

–

>E-RGCH 2-Index-Step Threshold
M

9.2.2.64

–

>E-RGCH 3-Index-Step Threshold
M

9.2.2.65

–

>HARQ Info for E-DCH
M

9.2.2.66

–

>HS-DSCH Configured Indicator
M

9.2.2.19C

–

>Minimum Reduced E-DPDCH Gain Factor
O

9.2.2.102

YES
ignore
E-DCH FDD Information
C-EDCHInfo

9.2.2.4B

YES
reject
Serving E-DCH RL 
O

9.2.2.38C

YES
reject
F-DPCH Information

0..1


YES
reject
>Power Offset Information

1


–

>>PO2
M

Power Offset
9.2.2.30
This IE shall be ignored by DRNS.
_

>FDD TPC Downlink Step Size
M

9.2.2.16

–

>Limited Power Increase
M

9.2.2.21A

–

>Inner Loop DL PC Status
M

9.2.2.21a

–

>F-DPCH Slot Format Support Request
O

9.2.2.86

YES
reject
>F-DPCH Slot Format
O

9.2.2.85

YES
ignore
Initial DL DPCH Timing Adjustment Allowed
O

9.2.2.21b

YES
ignore
DCH Indicator For E-DCH-HSDPA Operation
O

9.2.2.67

YES
reject
Serving Cell Change CFN
O

CFN
9.2.1.9

YES
reject
Continuous Packet Connectivity DTX-DRX Information
O

9.2.2.72

YES
reject
Continuous Packet Connectivity HS-SCCH less Information
O

9.2.2.74

YES
reject
Extended SRNC-ID
O

Extended RNC-ID
9.2.1.50a
The Extended SRNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject
Additional HS Cell Information RL Setup

0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release. 
EACH
reject
>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>C-ID
M

9.2.1.6

–

>HS-DSCH FDD Secondary Serving Information
M

9.2.2.19aa

–

UE Aggregate Maximum Bit Rate
O

9.2.1.137

YES
ignore
Additional E-DCH Cell Information RL Setup Req

0..1

For E-DCH on multiple frequencies in this DRNS.
YES
reject
>Multicell E-DCH Transport Bearer Mode
M

9.2.2.113

–

>Additional E-DCH Cell Information Setup

1..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
–

>>Additional E-DCH FDD Setup Information
M

9.2.2.110

-

Usefulness of Battery Optimization
O

9.2.2.127

YES
ignore
UL CLTD Information
O

9.2.2.131

YES
reject
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
reject
E-DCH Decoupling Indication
O

9.2.2.169

YES
reject
DCH Enhancements Information
O

9.2.2.171

YES
reject
Radio Links without DPCH/F-DPCH Indication
O

9.2.2.176

YES
reject
UL DPCCH2 Information
O

9.2.2.178

YES
reject
Selected PLMN Identity
O

PLMN Identity
9.2.2.189

YES
ignore
Downlink TPC enhancements Information
O

9.2.2.190

YES
reject

Condition
Explanation
CodeLen
The IE shall be present if Min UL Channelisation Code length IE equals to 4.
SlotFormat
The IE shall be present if the DL DPCH Slot Format IE is equal to any of the values from 12 to 16.
NotFirstRL
The IE shall be present if the RL is not the first one in the RL Information IE.
Diversity mode
The IE shall be present if Diversity Mode IE in UL DPCH Information IE is not equal to “none”.
InfoHSDSCH
This IE shall be present if HS-DSCH Information IE is present.
EDCHInfo
This IE shall be present if E-DPCH Information IE is present.

Range bound
Explanation
maxNrOfRLs
Maximum number of RLs for one UE.
maxNrOfMBMSServices
Maximum number of MBMS bearer services that a UE can join.
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.1.3.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

SRNC-ID
M

RNC-ID
9.2.1.50
If the Extended SRNC-ID IE is included in the message, the SRNC-ID IE shall be ignored.
YES
reject
S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall be ignored.
YES
reject
D-RNTI
O

9.2.1.24

YES
reject
UL Physical Channel Information

1


YES
reject
>Maximum Number of Timeslots
M

9.2.3.3A
For the UL.
–

>Minimum Spreading Factor
M

9.2.3.4A
For the UL.
–

>Maximum Number of UL Physical Channels per Timeslot
M

9.2.3.3B

–

>Support of 8PSK
O

9.2.3.7H
Applicable to 1.28Mcps TDD only.
YES
ignore
>Minimum Spreading Factor 7.68Mcps
O

9.2.3.19
Applicable to 7.68Mcps TDD only.
YES
ignore
DL Physical Channel Information

1


YES
reject
>Maximum Number of Timeslots
M

9.2.3.3A
For the DL.
–

>Minimum Spreading Factor
M

9.2.3.4A
For the DL.
–

>Maximum Number of DL Physical Channels
M

9.2.3.3C

–

>Maximum Number of DL Physical Channels per Timeslot 
O

9.2.3.3D

YES
ignore
>Support of 8PSK
O

9.2.3.7H
Applicable to 1.28Mcps TDD only.
YES
ignore
>Support of PLCCH
O

9.2.3.16
Applicable to 1.28Mcps TDD only.
YES
ignore
>Minimum Spreading Factor 7.68Mcps
O

9.2.3.19
Applicable to 7.68Mcps TDD only.
YES
ignore
>Maximum Number of DL Physical Channels 7.68Mcps
O

9.2.3.20
Applicable to 7.68Mcps TDD only.
YES
ignore
>Maximum Number of DL Physical Channels per Timeslot 7.68Mcps
O

9.2.3.21
Applicable to 7.68Mcps TDD only.
YES
ignore
Allowed Queuing Time
O

9.2.1.2

YES
reject
UL CCTrCH Information

0..<maxNrOfCCTrCHs>

For DCH and USCH
EACH
notify
>CCTrCH ID
M

9.2.3.2

–

>TFCS
M

9.2.1.63
For the UL.
–

>TFCI Coding
M

9.2.3.11

–

>Puncture Limit
M

9.2.1.46

–

>TDD TPC Uplink Step Size
O

9.2.3.10a
Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD.
YES
reject
DL CCTrCH Information

0..<maxNrOfCCTrCHs>

For DCH and DSCH.
EACH
notify
>CCTrCH ID
M

9.2.3.2

–

>TFCS
M

9.2.1.63
For the DL.
–

>TFCI Coding
M

9.2.3.11

–

>Puncture Limit
M

9.2.1.46

–

>TDD TPC Downlink Step Size
M

9.2.3.10

–

>TPC CCTrCH List

0..<maxnoCCTrCHs>

List of uplink CCTrCH which provide TPC.
–

>>TPC CCTrCH ID 
M

CCTrCH ID
9.2.3.2

–

DCH Information
O

DCH TDD Information
9.2.3.2A

YES
reject
DSCH Information
O

DSCH TDD Information
9.2.3.3a

YES
reject
USCH Information
O

9.2.3.14

YES
reject
RL Information

1


YES
reject
>RL ID
M

9.2.1.49

–

>C-ID
M

9.2.1.6

–

>Frame Offset
M

9.2.1.30

–

>Special Burst Scheduling
M

9.2.3.7D

–

>Primary CCPCH RSCP
O

9.2.3.5

–

>DL Time Slot ISCP Info
O

9.2.3.2D
Applicable to 3.84Mcps TDD and 7.68Mcps TDD only.
–

>DL Time Slot ISCP Info LCR
O

9.2.3.2F
Applicable to 1.28Mcps TDD only.
YES
reject
>TSTD Support Indicator
O

9.2.3.13F
Applicable to 1.28Mcps TDD only.
YES
ignore
>RL Specific DCH Information
O

9.2.1.49A

YES
ignore
>Delayed Activation
O

9.2.1.19Aa

YES
reject
>UL Synchronisation Parameters LCR

0..1

Mandatory for 1.28Mcps TDD. Not Applicable to 3.84Mcps TDD or 7.68Mcps TDD.
YES
reject
>>Uplink Synchronisation Step Size
M

9.2.3.13J

–

>>Uplink Synchronisation Frequency
M

9.2.3.13I

–

>Primary CCPCH RSCP Delta
O

9.2.3.5a

YES
ignore
>Idle Interval Configuration Indicator
O

NULL
TDD only.
YES
ignore
>Cell Portion LCR ID 
O

9.2.3.73
Applicable to 1.28Mcps TDD only.
YES
ignore
Permanent NAS UE Identity
O

9.2.1.73

YES
ignore
HS-DSCH Information
O

HS-DSCH TDD Information 9.2.3.3aa

YES
reject
HS-PDSCH RL ID
C – InfoHSDSCH

RL ID 9.2.1.49

YES
reject
PDSCH-RL-ID
O

RL ID
9.2.1.49

YES
ignore
MBMS Bearer Service List

0..<maxNrOfMBMSServices>


GLOBAL
notify
>TMGI
M

9.2.1.80

–

E-DCH Information

0..1

3.84Mcps TDD only.
YES
reject
>E-PUCH Information
M

9.2.3.36

–

>E-TFCS Information TDD
M

9.2.3.37

–

>E-DCH MAC-d Flows Information TDD
M

9.2.3.38

–

>E-DCH TDD Information
M

9.2.3.40

–

E-DCH Serving RL
O

RL ID
9.2.1.49
TDD only.
YES
reject
E-DCH Information 7.68Mcps

0..1

7.68Mcps TDD only.
YES
reject
>E-PUCH Information
M

9.2.3.36

–

>E-TFCS Information TDD
M

9.2.3.37

–

>E-DCH MAC-d Flows Information TDD
M

9.2.3.38

–

>E-DCH TDD Information 7.68Mcps
M

9.2.3.51

–

E-DCH Information 1.28Mcps

0..1

1.28Mcps TDD only.
YES
reject
>E-PUCH Information LCR
M

9.2.3.36a

–

>E-TFCS Information TDD 
M

9.2.3.37

–

>E-DCH MAC-d Flows Information TDD
M

9.2.3.38

–

>E-DCH TDD Information LCR
M

9.2.3.40a

–

Extended SRNC-ID
O

Extended RNC-ID
9.2.1.50a
The Extended SRNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject
Continuous Packet Connectivity DRX Information LCR
O

9.2.3.61
1.28 Mcps TDD only.
YES
reject
HS-DSCH Semi-Persistent scheduling Information LCR
O

9.2.3.64
1.28 Mcps TDD only.
YES
reject
E-DCH Semi-Persistent scheduling Information LCR
O

9.2.3.66
1.28 Mcps TDD only.
YES
reject
RNTI Allocation Indicator
O

ENUMERATED (True) 
1.28 Mcps TDD only.
YES
ignore
DCH Measurement Type Indicator
O

9.2.3.76
1.28 Mcps TDD only.
YES
reject
Multi-Carrier E-DCH Information

0..1

Applicable for Multi-Carrier E-DCH Operation in 1.28 Mcps TDD only.
YES
reject
>Multi-Carrier E-DCH Transport Bearer Mode LCR
M

9.2.3.79
1.28 Mcps TDD only.
–

>Multi-Carrier E-DCH Information LCR
M

9.2.3.77
1.28 Mcps TDD only.
–

MU-MIMO Indicator
O

9.2.3.82
1.28 Mcps TDD only.
YES
reject
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
reject
UE support of non-rectangular resource allocation
O

ENUMERATED (support)
1.28 Mcps TDD only.
The absence of this IE indicates that the UE does not support the non-rectangular resource allocation.
YES
ignore

Condition
Explanation
InfoHSDSCH
This IE shall be present if HS-DSCH Information IE is present.

Range bound
Explanation
maxNrOfCCTrCHs
Maximum number of CCTrCH for one UE.
maxNrOfMBMSServices
Maximum number of MBMS bearer services that a UE can join.

9.1.4	RADIO LINK SETUP RESPONSE
9.1.4.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

D-RNTI 
O

9.2.1.24

YES
ignore
CN PS Domain Identifier
O

9.2.1.12

YES
ignore
CN CS Domain Identifier
O

9.2.1.11

YES
ignore
RL Information Response

1..<maxNrOfRLs>


EACH
ignore
>RL ID
M

9.2.1.49

–

>RL Set ID
M

9.2.2.35

–

>URA Information
O

9.2.1.70B

–

>SAI
M

9.2.1.52

–

>Cell GAI
O

9.2.1.5A

–

>UTRAN Access Point Position
O

9.2.1.70A

–

>Received Total Wide Band Power
M

9.2.2.35A

–

>Not Used
O

NULL

–

>DL Code Information
M

FDD DL Code Information
9.2.2.14A

–

>CHOICE Diversity Indication
M



–

>>Combining




–

>>>RL ID
M

9.2.1.49
Reference RL ID for the combining.
–

>>>DCH Information Response
O

9.2.1.16A

YES
ignore
>>>E-DCH FDD Information Response
O

9.2.2.4C

YES
ignore
>>Non Combining or First RL




–

>>>DCH Information Response
M

9.2.1.16A

–

>>>E-DCH FDD Information Response
O

9.2.2.4C

YES
ignore
>SSDT Support Indicator
M

9.2.2.43

–

>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Closed Loop Timing Adjustment Mode
O

9.2.2.3A

–

>Maximum Allowed UL Tx Power
M

9.2.1.35

–

>Maximum DL TX Power
M

DL Power
9.2.1.21A

–

>Minimum DL TX Power
M

DL Power
9.2.1.21A

–

>Primary Scrambling Code
O

9.2.1.45

–

>UL UARFCN
O

UARFCN
9.2.1.66
Corresponds to Nu in TS 25.104 [6].
–

>DL UARFCN
O

UARFCN
9.2.1.66
Corresponds to Nd in TS 25.104 [6].
–

>Primary CPICH Power
M

9.2.1.44

–

>Not Used
O

NULL

–

>Neighbouring UMTS Cell Information
O

9.2.1.41A

–

>Neighbouring GSM Cell Information
O

9.2.1.41C

–

>PC Preamble
M

9.2.2.27a

–

>SRB Delay
M

9.2.2.39A

–

>Cell GA Additional Shapes
O

9.2.1.5B

YES
ignore
>DL Power Balancing Activation Indicator
O

9.2.2.10B

YES
ignore
>HCS Prio
O

9.2.1.30N

YES
ignore
>Primary CPICH Usage For Channel Estimation
O

9.2.2.32A

YES
ignore
>Secondary CPICH Information
O

9.2.2.38A

YES
ignore
>Active MBMS Bearer Service List

0..<maxNrOfActiveMBMSServices>


GLOBAL
ignore
>>TMGI
M

9.2.1.80

–

>>Transmission Mode
O

9.2.1.81

–

>>Preferred Frequency Layer
O

UARFCN
9.2.1.66

–

>E-DCH RL Set ID
O

RL Set ID 9.2.2.35

YES
ignore
>E-DCH FDD DL Control Channel Information
O

9.2.2.4D

YES
ignore
>Initial DL DPCH Timing Adjustment
O

DL DPCH Timing Adjustment
9.2.2.9A

YES
ignore
>F-DPCH Slot Format
O

9.2.2.85

YES
ignore
>Frame Offset
O

9.2.1.30

YES
ignore
>Chip Offset
O

9.2.2.1

YES
ignore
>Neighbouring E-UTRA Cell Information
O

9.2.1.41De

YES
ignore
>HS-DSCH Preconfiguration Info
O

9.2.2.99

YES
ignore
>Non-Serving RL Preconfiguration Info
O

9.2.2.125

YES
ignore
>Neighbouring UMTS Cell Information Extension
O

9.2.1.141

YES
ignore
>F-TPICH Information Response
O 

9.2.2.143

YES
ignore
Uplink SIR Target
O

Uplink SIR
9.2.1.69

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
HS-DSCH-RNTI
O

9.2.1.30P

YES
ignore
HS-DSCH Information Response
O

HS-DSCH FDD Information Response
9.2.2.19b

YES
ignore
Continuous Packet Connectivity HS-SCCH less Information Response
O

9.2.2.75

YES
ignore
SixtyfourQAM DL Support Indicator
O

9.2.1.123

YES
ignore
Additional HS Cell Information Response

0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release. 
EACH
ignore
>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>HS-DSCH-RNTI
M

9.2.1.30P

–

>HS-DSCH FDD Secondary Serving Information Response
M

9.2.2.19ba

–

>SixtyfourQAM DL Support Indicator
O

9.2.1.123

–

Additional E-DCH Cell Information Response

0..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
EACH
ignore
>Additional E-DCH FDD Information Response
M

9.2.2.120

–


Range bound
Explanation
maxNrOfRLs
Maximum number of RLs for one UE.
maxNrOfActiveMBMSServices
Maximum number of MBMS bearer services that are active in parallel.
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.1.4.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

D-RNTI 
O

9.2.1.24

YES
ignore
CN PS Domain Identifier
O

9.2.1.12

YES
ignore
CN CS Domain Identifier
O

9.2.1.11

YES
ignore
RL Information Response

0..1

Mandatory for 3.84Mcps TDD , not applicable to 1.28Mcps TDD or 7.68Mcps TDD.
YES
ignore
>RL ID
M

9.2.1.49

–

>URA Information
O

9.2.1.70B

–

>SAI
M

9.2.1.52

–

>Cell GAI
O

9.2.1.5A

–

>UTRAN Access Point Position
O

9.2.1.70A

–

>UL Time Slot ISCP Info
M

9.2.3.13D

–

>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Maximum Allowed UL Tx Power
M

9.2.1.35

–

>Maximum DL TX Power
M

DL Power
9.2.1.21A

–

>Minimum DL TX Power
M

DL Power
9.2.1.21A

–

>UARFCN
O

9.2.1.66
Corresponds to Nt in TS 25.105 [7].
–

>Cell Parameter ID
O

9.2.1.8

–

>Sync Case
O

9.2.1.54

–

>SCH Time Slot
C-Case2

9.2.1.51

–

>SCTD Indicator
O

9.2.1.78

–

>PCCPCH Power
M

9.2.1.43

–

>Timing Advance Applied
M

9.2.3.12A

–

>Alpha Value
M

9.2.3.a

–

>UL PhysCH SF Variation
M

9.2.3.13B

–

>Synchronisation Configuration
M

9.2.3.7E

–

>Secondary CCPCH Info TDD
O

9.2.3.7B

–

>UL CCTrCH Information

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>UL DPCH Information

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>UL Timeslot Information
M

9.2.3.13C

–

>>Uplink SIR Target CCTrCH
O

Uplink SIR 9.2.1.69

YES
ignore
>DL CCTrCH Information

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>DL DPCH Information

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>DL Timeslot Information
M

9.2.3.2C



>>CCTrCH Maximum DL TX Power
O

DL Power
9.2.1.21A
Maximum allowed power on DPCH.
YES
ignore
>>CCTrCH Minimum DL TX Power
O

DL Power
9.2.1.21A
Minimum allowed power on DPCH.
YES
ignore
>DCH Information Response
O

9.2.1.16A

YES
ignore
>DSCH Information Response

0 .. <maxnoof DSCHs>


GLOBAL
ignore
>>DSCH ID
M

9.2.3.3ae

–

>>DSCH Flow Control Information
M

9.2.3.3ag

–

>>Binding ID
O

9.2.1.3

–

>>Transport Layer Address
O

9.2.1.62

–

>>Transport Format Management
M

9.2.3.13

–

>USCH Information Response

0 .. <maxNoOfUSCHs>


GLOBAL
ignore
>>USCH ID
M

9.2.3.13L

–

>>Binding ID
O

9.2.1.3

–

>>Transport Layer Address
O

9.2.1.62

–

>>Transport Format Management
M

9.2.3.13

–

>Neighbouring UMTS Cell Information
O

9.2.1.41A

–

>Neighbouring GSM Cell Information
O

9.2.1.41C

–

>Cell GA Additional Shapes
O

9.2.1.5B

YES
ignore
>HCS Prio
O

9.2.1.30N

YES
ignore
>Time Slot for SCH
C-Case1

Time Slot 9.2.1.56

YES
ignore
>Neighbouring E-UTRA Cell Information
O

9.2.1.41De

YES
ignore
>Neighbouring UMTS Cell Information Extension
O

9.2.1.141

YES
ignore
Uplink SIR Target
M

Uplink SIR
9.2.1.69

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
RL Information Response LCR

0..1

Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD.
YES
ignore
>RL ID
M

9.2.1.49

–

>URA Information
M

9.2.1.70B

–

>SAI
M

9.2.1.52

–

>Cell GAI
O

9.2.1.5A

–

>UTRAN Access Point Position
O

9.2.1.70A

–

>UL Time Slot ISCP Info LCR
M

9.2.3.13H

–

>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Maximum Allowed UL Tx Power
M

9.2.1.35

–

>Maximum DL TX Power
M

DL Power
9.2.1.21A

–

>Minimum DL TX Power
M

DL Power
9.2.1.21A

–

>UARFCN
O

9.2.1.66
Corresponds to Nt in TS 25.105 [7].
–

>Cell Parameter ID
O

9.2.1.8

–

>SCTD Indicator
O

9.2.1.78

–

>PCCPCH Power
M

9.2.1.43

–

>Alpha Value
M

9.2.3.a

–

>UL PhysCH SF Variation
M

9.2.3.13B

–

>Synchronisation Configuration
M

9.2.3.7E

–

>Secondary CCPCH Info TDD LCR
O

9.2.3.7F

–

>UL CCTrCH Information LCR

0..<maxNrOfCCTrCHsLCR>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>UL DPCH Information LCR

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>UL Timeslot Information LCR
M

9.2.3.13G

–

>>Uplink SIR Target CCTrCH
O

Uplink SIR 9.2.1.69

YES
ignore
>DL CCTrCH Information LCR

0..<maxNrOfCCTrCHsLCR>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>DL DPCH Information LCR

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>DL Timeslot Information LCR
M

9.2.3.2E

–

>>>TSTD Indicator
M

9.2.3.13E

–

>DCH Information Response
O

9.2.1.16A

YES
ignore
>DSCH Information Response LCR

0 .. <maxNoOfDSCHsLCR>


GLOBAL
ignore
>>DSCH ID
M

9.2.3.3ae

–

>>DSCH Flow Control Information
M

9.2.3.3ag

–

>>Binding ID
O

9.2.1.3

–

>>Transport Layer Address
O

9.2.1.62

–

>>Transport Format Management
M

9.2.3.13

–

>USCH Information Response LCR

0 .. <maxNoOfUSCHsLCR>


GLOBAL
ignore
>>USCH ID
M

9.2.3.13L

–

>>Binding ID
O

9.2.1.3

–

>>Transport Layer Address
O

9.2.1.62

–

>>Transport Format Management
M

9.2.3.13

–

>Neighbouring UMTS Cell Information
O

9.2.1.41A

–

>Neighbouring GSM Cell Information
O

9.2.1.41C

–

>HCS Prio
O

9.2.1.30N

YES
ignore
>Cell GA Additional Shapes
O

9.2.1.5B

YES
ignore
>Uplink Timing Advance Control LCR
M

9.2.3.13K

YES
ignore
>PowerControl GAP
O

INTEGER (1..255)
Unit: umber of subframes
Applicable to 1.28Mcps TDD only.
YES
ignore
>SixtyfourQAM DL Support Indicator
O

9.2.1.123
Applicable to 1.28Mcps TDD only.
YES
ignore
>Neighbouring E-UTRA Cell Information
O

9.2.1.41De

YES
ignore
>Idle Interval Information
O

9.2.3.60
TDD only.
YES
ignore
>Neighbouring UMTS Cell Information Extension
O

9.2.1.141

YES
ignore
HS-DSCH-RNTI
O

9.2.1.30P

YES
ignore
HS-DSCH Information Response
O

HS-DSCH TDD Information Response
9.2.3.3ab

YES
ignore
DSCH-RNTI
O

9.2.3.3ah

YES
ignore
Active MBMS Bearer Service List

0..<maxNrOfActiveMBMSServices>


GLOBAL
ignore
>TMGI
M

9.2.1.80

–

>Transmission Mode
O

9.2.1.81

–

>Preferred Frequency Layer
O

UARFCN
9.2.1.66

–

RL Information Response 7.68Mcps

0..1

Mandatory for 7.68Mcps TDD , not applicable to 1.28Mcps TDD or 3.84Mcps TDD.
YES
ignore
>RL ID
M

9.2.1.49

–

>URA Information
O

9.2.1.70B

–

>SAI
M

9.2.1.52

–

>Cell GAI
O

9.2.1.5A

–

>UTRAN Access Point Position
O

9.2.1.70A

–

>UL Time Slot ISCP Info
M

9.2.3.13D

–

>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Maximum Allowed UL Tx Power
M

9.2.1.35

–

>Maximum DL TX Power
M

DL Power
9.2.1.21A

–

>Minimum DL TX Power
M

DL Power
9.2.1.21A

–

>UARFCN
O

UARFCN 9.2.1.66
Corresponds to Nt in TS 25.105 [7].
–

>Cell Parameter ID
O

9.2.1.8

–

>Sync Case
O

9.2.1.54

–

>SCH Time Slot
C-Case2

9.2.1.51

–

>SCTD Indicator
O

9.2.1.78

–

>PCCPCH Power
M

9.2.1.43

–

>Timing Advance Applied
M

9.2.3.12A

–

>Alpha Value
M

9.2.3.a

–

>UL PhysCH SF Variation
M

9.2.3.13B

–

>Synchronisation Configuration
M

9.2.3.7E

–

>Secondary CCPCH Info 7.68Mcps TDD
O

9.2.3.22

–

>UL CCTrCH Information 7.68 Mcps

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>UL DPCH Information

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>UL Timeslot Information 7.68Mcps
M

9.2.3.26

–

>>Uplink SIR Target CCTrCH
O

Uplink SIR 9.2.1.69

–

>DL CCTrCH Information 7.68 Mcps

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>DL DPCH Information

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>DL Timeslot Information 7.68Mcps
M

9.2.3.28

–

>>CCTrCH Maximum DL TX Power
O

DL Power
9.2.1.21A
Maximum allowed power on DPCH.
–

>>CCTrCH Minimum DL TX Power
O

DL Power
9.2.1.21A
Minimum allowed power on DPCH.
–

>DCH Information Response
O

9.2.1.16A

YES
ignore
>DSCH Information Response 7.68 Mcps

0 .. <maxnoof DSCHs>


GLOBAL
ignore
>>DSCH ID
M

9.2.3.3ae

–

>>DSCH Flow Control Information
M

9.2.3.3ag

–

>>Binding ID
O

9.2.1.3

–

>>Transport Layer Address
O

9.2.1.62

–

>>Transport Format Management
M

9.2.3.13

–

>USCH Information Response 7.68 Mcps

0 .. <maxNoOfUSCHs>


GLOBAL
ignore
>>USCH ID
M

9.2.3.13L

–

>>Binding ID
O

9.2.1.3

–

>>Transport Layer Address
O

9.2.1.62

–

>>Transport Format Management
M

9.2.3.13

–

>Neighbouring UMTS Cell Information
O

9.2.1.41A

–

>Neighbouring GSM Cell Information
O

9.2.1.41C

–

>Cell GA Additional Shapes
O

9.2.1.5B

–

>HCS Prio
O

9.2.1.30N

–

>Time Slot for SCH
C-Case1

Time Slot 9.2.1.56

–

>Neighbouring E-UTRA Cell Information
O

9.2.1.41De

YES
ignore
>Neighbouring UMTS Cell Information Extension
O

9.2.1.141

YES
ignore
E-DCH Information Response
O

E-DCH TDD Information Response 9.2.3.41
3.84Mcps TDD only.
YES
ignore
E-DCH Information Response 7.68Mcps
O

E-DCH TDD Information Response 7.68Mcps 9.2.3.52
7.68Mcps TDD only.
YES
ignore
E-DCH Information Response 1.28Mcps
O

E-DCH TDD Information Response 1.28Mcps 9.2.3.41a
1.28Mcps TDD only.
YES
ignore
Continuous Packet Connectivity DRX Information Response LCR
O

9.2.3.63
1.28 Mcps TDD only.
YES
ignore
HS-DSCH Semi-Persistent scheduling Information Response LCR
O

9.2.3.68
1.28 Mcps TDD only.
YES
ignore
E-DCH Semi-Persistent scheduling Information Response LCR
O

9.2.3.69
1.28 Mcps TDD only.
YES
ignore
E-RNTI for FACH
O

E-RNTI
9.2.1.94
1.28 Mcps TDD only.
YES
ignore
H-RNTI for FACH
O

HS-DSCH-RNTI
9.2.1.30P
1.28 Mcps TDD only.
YES
ignore
DCH Measurement Occasion Information
O

9.2.3.75
1.28 Mcps TDD only.
YES
reject
Multi-Carrier E-DCH Information Response LCR
O

9.2.3.78
1.28 Mcps TDD only.
YES
ignore
MU-MIMO Information
O

9.2.3.81
1.28 Mcps TDD only.
YES
reject
Non-rectangular resource allocation indicator
O

ENUMERATED (activate)
1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
YES
reject
Non-rectangular resource timeslot set
O

BIT STRING (SIZE(7))
1.28 Mcps TDD only.
The absence of this IE means that the specific timeslot(s) of the non-rectangular resource is defined in [34].
This IE indicats which of the timeslot(s) is/are allocated for non-rectangular resource. 
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 allocated for non-rectangular resource. The value 1 of a bit means the corresponding timeslot is allocated for non-rectangular resource.
Bit 0 is the first/leftmost bit of the bit string.
YES
reject

Condition
Explanation
Case2
The IE shall be present if Sync Case IE is equal to “Case2”.
Case1
This IE shall be present if Sync Case IE is equal to “Case1”.

Range bound
Explanation
maxNoOfDSCHs
Maximum number of DSCHs for one UE for 3.84Mcps TDD or 7.68Mcps TDD.
maxNoOfUSCHs
Maximum number of USCHs for one UE for 3.84Mcps TDD or 7.68Mcps TDD.
maxNrOfCCTrCHs
Maximum number of CCTrCH for one UE for 3.84Mcps TDD or 7.68Mcps TDD.
maxNoOfDSCHsLCR
Maximum number of DSCHs for one UE for 1.28Mcps TDD.
maxNoOfUSCHsLCR
Maximum number of USCHs for one UE for 1.28Mcps TDD.
maxNrOfCCTrCHsLCR
Maximum number of CCTrCH for one UE for 1.28Mcps TDD.
maxNrOfActiveMBMSServices
Maximum number of MBMS bearer services that are active in parallel.

9.1.5	RADIO LINK SETUP FAILURE
9.1.5.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

D-RNTI 
O

9.2.1.24

YES
ignore
CN PS Domain Identifier
O

9.2.1.12

YES
ignore
CN CS Domain Identifier
O

9.2.1.11

YES
ignore
CHOICE Cause Level
M



YES
ignore
>General




–

>>Cause
M

9.2.1.5

–

>RL Specific




–

>>Unsuccessful RL Information Response

1..<maxNrOfRLs>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>Cause 
M

9.2.1.5

–

>>>Max UE DTX Cycle
C-DTX-CycleNotAvailable

9.2.2.87

YES
ignore
>>Successful RL Information Response

0..<maxNrOfRLs-1>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>RL Set ID
M

9.2.2.35

–

>>>URA Information
O

9.2.1.70B

–

>>>SAI
M

9.2.1.52

–

>>>Cell GAI
O

9.2.1.5A

–

>>>UTRAN Access Point Position
O

9.2.1.70A

–

>>>Received Total Wide Band Power
M

9.2.2.35A

–

>>>Not Used
O

NULL

–

>>>DL Code Information
M

FDD DL Code Information
9.2.2.14A

–

>>>CHOICE Diversity Indication
M



–

>>>>Combining




–

>>>>>RL ID
M

9.2.1.49
Reference RL ID for the combining.
–

>>>>>DCH Information Response
O

9.2.1.16A

YES
ignore
>>>>>E-DCH FDD Information Response
O

9.2.2.4C

YES
ignore
>>>>Non Combining or First RL




–

>>>>>DCH Information Response
M

9.2.1.16A

–

>>>>>E-DCH FDD Information Response
O

9.2.2.4C

YES
ignore
>>>SSDT Support Indicator
M

9.2.2.43

–

>>>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>>>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>>>Closed Loop Timing Adjustment Mode
O

9.2.2.3A

–

>>>Maximum Allowed UL Tx Power
M

9.2.1.35

–

>>>Maximum DL TX Power
M

DL Power
9.2.1.21A

–

>>>Minimum DL TX Power
M

DL Power
9.2.1.21A

–

>>>Primary CPICH Power
M

9.2.1.44

–

>>>Primary Scrambling Code
O

9.2.1.45

–

>>>UL UARFCN
O

UARFCN
9.2.1.66
Corresponds to Nu in TS 25.104 [6].
–

>>>DL UARFCN
O

UARFCN
9.2.1.66
Corresponds to Nd in TS 25.104 [6].
–

>>>Not Used
O

NULL

–

>>>Neighbouring UMTS Cell Information
O

9.2.1.41A

–

>>>Neighbouring GSM Cell Information
O

9.2.1.41C

–

>>>PC Preamble
M

9.2.2.27a

–

>>>SRB Delay
M

9.2.2.39A

–

>>>Cell GA Additional Shapes
O

9.2.1.5B

YES
ignore
>>>DL Power Balancing Activation Indicator
O

9.2.2.10B

YES
ignore
>>>HCS Prio
O

9.2.1.30N

YES
ignore
>>>Primary CPICH Usage For Channel Estimation
O

9.2.2.32A

YES
ignore
>>>Secondary CPICH Information
O

9.2.2.38A

YES
ignore
>>>Active MBMS Bearer Service List

0..<maxNrOfActiveMBMSServices>


GLOBAL
ignore
>>>>TMGI
M

9.2.1.80

–

>>>>Transmission Mode
O

9.2.1.81

–

>>>>Preferred Frequency Layer
O

UARFCN
9.2.1.66

–

>>>E-DCH RL Set ID
O

RL Set ID 9.2.2.35

YES
ignore
>>>E-DCH FDD DL Control Channel Information
O

9.2.2.4D

YES
ignore
>>>Initial DL DPCH Timing Adjustment
O

DL DPCH Timing Adjustment
9.2.2.9A

YES
ignore
>>>Neighbouring E-UTRA Cell Information
O

9.2.1.41De

YES
ignore
>>>HS-DSCH Preconfiguration Info
O

9.2.2.99

YES
ignore
>>>F-DPCH Slot Format
O

9.2.2.85

YES
ignore
>>>Non-Serving RL Preconfiguration Info
O

9.2.2.125

YES
ignore
>>>Neighbouring UMTS Cell Information Extension
O

9.2.1.141

YES
ignore
>>HS-DSCH-RNTI
O

9.2.1.30P

YES
ignore
>>HS-DSCH Information Response
O

HS-DSCH FDD Information Response
9.2.2.19b

YES
ignore
>>Continuous Packet Connectivity HS-SCCH less Information Response
O

9.2.2.75

YES
ignore
>>SixtyfourQAM DL Support Indicator
O

9.2.1.123

YES
ignore
>>Additional HS Cell Information Response
O
0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release. 
EACH
ignore
>>>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>>>HS-DSCH-RNTI
M

9.2.1.30P

–

>>>HS-DSCH FDD Secondary Serving Information Response
M

9.2.2.19ba

–

>>>SixtyfourQAM DL Support Indicator
O

9.2.1.123

–

>>Additional E-DCH Cell Information Response

0..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
EACH
ignore
>>>Additional E-DCH FDD Information Response
M

9.2.2.120

–

Uplink SIR Target
O

Uplink SIR
9.2.1.69

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore

Condition
Explanation
DTX-CycleNotAvailable
The IE shall be present if the Cause IE is set to Continuous Packet Connectivity UE DTX Cycle not Available “.

Range bound
Explanation
maxNrOfRLs
Maximum number of RLs for one UE.
maxNrOfActiveMBMSServices
Maximum number of MBMS bearer services that are active in parallel.
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.1.5.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

CHOICE Cause Level
M



YES
ignore
>General




–

>>Cause
M

9.2.1.5

–

>RL Specific




–

>>Unsuccessful RL Information Response

1


YES
ignore
>>>RL ID
M

9.2.1.49

–

>>>Cause 
M

9.2.1.5

–

>>SixtyfourQAM DL Support Indicator
O

9.2.1.123

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore

9.1.6	RADIO LINK ADDITION REQUEST
9.1.6.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Uplink SIR Target
M

Uplink SIR
9.2.1.69

YES
reject
RL Information 

1..<maxNrOfRLs-1>


EACH
notify
>RL ID
M

9.2.1.49

–

>C-ID
M

9.2.1.6

–

>Frame Offset
M

9.2.1.30

–

>Chip Offset
M

9.2.2.1

–

>Diversity Control Field
M

9.2.1.20

–

>Primary CPICH Ec/No
O

9.2.2.32

–

>Not Used
O

NULL

–

>Transmit Diversity Indicator
O

9.2.2.48

–

>DL Reference Power
O

DL Power
9.2.1.21A
Power on DPCH or on F-DPCH.
YES
ignore
>Enhanced Primary CPICH Ec/No
O

9.2.2.13I

YES
ignore
>RL Specific DCH Information
O

9.2.1.49A

YES
ignore
>Delayed Activation
O

9.2.1.19Aa

YES
reject
>RL Specific E-DCH Information
O

9.2.2.35a

YES
reject
>E-DCH RL Indication
O

9.2.2.4E

YES
reject
>Synchronisation Indicator
O

9.2.2.45A

YES
ignore
>HS-DSCH Preconfiguration Setup
O

9.2.2.100

YES
ignore
>Non-Serving RL Preconfiguration Setup
O

9.2.2.124

YES
ignore
>F-TPICH Information
O

9.2.2.139

YES
ignore
>TPC slot position
O

9.2.2.193

YES
ignore
Active Pattern Sequence Information
O

9.2.2A
Either all the already active Transmission Gap Sequence(s) are addressed (Transmission Gap Pattern sequence shall overlap with the existing one) or none of the transmission gap sequences is activated.
YES
reject
DPC Mode
O

9.2.2.12A

YES
reject
Permanent NAS UE Identity
O

9.2.1.73

YES
ignore
Serving E-DCH RL
O

9.2.2.38C

YES
reject
Initial DL DPCH Timing Adjustment Allowed
O

9.2.2.21b

YES
ignore
HS-DSCH Serving Cell Change Information
O

9.2.2.19f

YES
reject
Serving Cell Change CFN
O

CFN
9.2.1.9

YES
reject
E-DPCH Information

0..1


YES
reject
>Maximum Set of E-DPDCHs
M

9.2.2.24e

–

>Puncture Limit
M

9.2.1.46

–

>E-TFCS Information
M

9.2.2.4G

–

>E-TTI
M

9.2.2.4J

–

>E-DPCCH Power Offset
M

9.2.2.4K

–

>E-RGCH 2-Index-Step Threshold
M

9.2.2.64

–

>E-RGCH 3-Index-Step Threshold
M

9.2.2.65

–

>HARQ Info for E-DCH
M

9.2.2.66

–

>HS-DSCH Configured Indicator
M

9.2.2.19C

YES
reject
>Minimum Reduced E-DPDCH Gain Factor
O

9.2.2.102

YES
ignore
E-DCH FDD Information
C-EDCHInfo

9.2.2.4B

YES
reject
Additional HS Cell Information RL Addition

0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release.
EACH
reject
>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>C-ID
M

9.2.1.6

–

>HS-DSCH FDD Secondary Serving Information
M

9.2.2.19aa

–

UE Aggregate Maximum Bit Rate
O

9.2.1.137

YES
ignore
Additional E-DCH Cell Information RL Add Req

0..1

For E-DCH on multiple frequencies in this DRNS.
YES
reject
>CHOICE Setup Or Addition Of E-DCH On Secondary UL Frequency
M



YES
reject
>>Setup



Used when the secondary UL frequency does not exist or is not configured with E-DCH in the current UE context.
–

>>>Multicell E-DCH Transport Bearer Mode
M

9.2.2.113

–

>>>Additional E-DCH Cell Information Setup

1..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
–

>>>>Additional E-DCH FDD Setup Information
M

9.2.2.110

–

>>Addition



Used when there exist additional E-DCH RLs in the current UE context.
–

>>>Additional E-DCH Cell Information Addition

1..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
–

>>>>UL DPCH Information

1


–

>>>>>Uplink SIR Target
M

Uplink SIR
9.2.1.69

–

>>>>Additional E-DCH RL Specific Information To Add
M

9.2.2.116

–

>>>>Additional E-DCH FDD Information
O

9.2.2.112

–

>>>>Multicell E-DCH Information
O

9.2.2.114

YES
ignore
UL CLTD Information
O

9.2.2.131

YES
reject
E-DCH Decoupling Indication
O

9.2.2.169

YES
reject
Radio Links without DPCH/F-DPCH Indication
O

9.2.2.176

YES
reject
UL DPCCH2 Information
O

9.2.2.178

YES
reject
Downlink TPC enhancements Information
O

9.2.2.190

YES
reject

Condition
Explanation
EDCHInfo
This IE shall be present if E-DPCH Information IE is present.

Range bound
Explanation
maxNrOfRLs
Maximum number of radio links for one UE.
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.1.6.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

RL Information

1


YES
reject
>RL ID
M

9.2.1.49

–

>C-ID
M

9.2.1.6

–

>Frame Offset
M

9.2.1.30

–

>Diversity Control Field
M

9.2.1.20

–

>Primary CCPCH RSCP
O

9.2.3.5

–

>DL Time Slot ISCP Info
O

9.2.3.2D
Applicable to 3.84Mcps TDD and 7.68Mcps TDD only.
–

>DL Time Slot ISCP Info LCR
O

9.2.3.2F
Applicable to 1.28Mcps TDD only.
YES
reject
>RL Specific DCH Information
O

9.2.1.49A

YES
ignore
>Delayed Activation
O

9.2.1.19Aa

YES
reject
>UL Synchronisation Parameters LCR

0..1

Mandatory for 1.28Mcps TDD. Not Applicable to 3.84Mcps TDD or 7.68Mcps TDD.
YES
reject
>>Uplink Synchronisation Step Size
M

9.2.3.13J

–

>>Uplink Synchronisation Frequency
M

9.2.3.13I

–

>Primary CCPCH RSCP Delta
O

9.2.3.5a

YES
ignore
>Idle Interval Configuration Indicator
O

NULL
TDD only.
YES
ignore
Permanent NAS UE Identity
O

9.2.1.73

YES
ignore
UL CCTrCH Information

0..< maxNrOfCCTrCHs >


EACH
notify
>CCTrCH ID
M

9.2.3.2

–

>TDD TPC Uplink Step Size
O

9.2.3.10a
Applicable to 1.28Mcps TDD only.
–

DL CCTrCH Information

0..< maxNrOfCCTrCHs >


EACH
notify
>CCTrCH ID
M

9.2.3.2

–

>TDD TPC Downlink Step Size
O

9.2.3.10

–

HS-DSCH Information
O

HS-DSCH TDD Information 9.2.3.3aa

YES
reject
HS-PDSCH RL ID
O

RL ID 9.2.1.49

YES
reject
E-DCH Information

0..1

3.84Mcps TDD only.
YES
reject
>E-PUCH Information
M

9.2.3.36

–

>E-TFCS Information TDD
M

9.2.3.37

–

>E-DCH MAC-d Flows Information TDD
M

9.2.3.38

–

>E-DCH TDD Information
M

9.2.3.40

–

E-DCH Serving RL
O

RL ID
9.2.1.49
3.84Mcps TDD only.
YES
reject
E-DCH Information 7.68Mcps

0..1

7.68Mcps TDD only.
YES
reject
>E-PUCH Information
M

9.2.3.36

–

>E-TFCS Information TDD
M

9.2.3.37

–

>E-DCH MAC-d Flows Information TDD
M

9.2.3.38

–

>E-DCH TDD Information 7.68Mcps
M

9.2.3.51

–

E-DCH Information 1.28Mcps

0..1

1.28Mcps TDD only.
YES
reject
>E-PUCH Information LCR 
M

9.2.3.36a

–

>E-TFCS Information TDD
M

9.2.3.37

–

>E-DCH MAC-d Flows Information TDD
M

9.2.3.38

–

>E-DCH TDD Information LCR
M

9.2.3.40a

–

Continuous Packet Connectivity DRX Information LCR
O

9.2.3.61
1.28 Mcps TDD only.
YES
reject
HS-DSCH Semi-Persistent scheduling Information LCR
O

9.2.3.64
1.28 Mcps TDD only.
YES
reject
E-DCH Semi-Persistent scheduling Information LCR
O

9.2.3.66
1.28 Mcps TDD only.
YES
reject
DCH Measurement Type Indicator
O

9.2.3.76
1.28 Mcps TDD only.
YES
reject
Multi-Carrier E-DCH Information

0..1

Applicable for Multi-Carrier E-DCH Operation in 1.28 Mcps TDD only.
YES
reject
>Multi-Carrier E-DCH Transport Bearer Mode LCR
M

9.2.3.79
1.28 Mcps TDD only.
–

>Multi-Carrier E-DCH Information LCR
M

9.2.3.77
1.28 Mcps TDD only.
–

MU-MIMO Indicator
O

9.2.3.82
1.28 Mcps TDD only.
YES
reject
UE support of non-rectangular resource allocation
O

ENUMERATED (support)
1.28 Mcps TDD only.
The absence of this IE indicates that the UE does not support the non-rectangular resource allocation.
YES
ignore

Range bound
Explanation
maxNrOfCCTrCHs
Maximum number of CCTrCH for one UE.

9.1.7	RADIO LINK ADDITION RESPONSE
9.1.7.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

RL Information Response

1..<maxNrOfRLs-1>


EACH
ignore
>RL ID
M

9.2.1.49

–

>RL Set ID
M

9.2.2.35

–

>URA Information
O

9.2.1.70B

–

>SAI
M

9.2.1.52

–

>Cell GAI
O

9.2.1.5A

–

>UTRAN Access Point Position
O

9.2.1.70A

–

>Received Total Wide Band Power
M

9.2.2.35A

–

>Not Used
O

NULL

–

>DL Code Information
M

FDD DL Code Information
9.2.2.14A

YES
ignore
>CHOICE Diversity Indication
M



–

>>Combining




–

>>>RL ID
M

9.2.1.49
Reference RL ID.
–

>>>DCH Information Response
O

9.2.1.16A

YES
ignore
>>>E-DCH FDD Information Response
O

9.2.2.4C

YES
ignore
>>Non Combining




–

>>>DCH Information Response
M

9.2.1.16A

–

>>>E-DCH FDD Information Response
O

9.2.2.4C

YES
ignore
>SSDT Support Indicator
M

9.2.2.43

–

>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Closed Loop Timing Adjustment Mode
O

9.2.2.3A

–

>Maximum Allowed UL Tx Power
M

9.2.1.35

–

>Maximum DL TX Power
M

DL Power
9.2.1.21A

–

>Minimum DL TX Power
M

DL Power
9.2.1.21A

–

>Neighbouring UMTS Cell Information
O

9.2.1.41A

–

>Neighbouring GSM Cell Information
O

9.2.1.41C

–

>PC Preamble
M

9.2.2.27a

–

>SRB Delay
M

9.2.2.39A

–

>Primary CPICH Power
M

9.2.1.44

–

>Cell GA Additional Shapes
O

9.2.1.5B

YES
ignore
>DL Power Balancing Activation Indicator
O

9.2.2.10B

YES
ignore
>HCS Prio
O

9.2.1.30N

YES
ignore
>Active MBMS Bearer Service List

0..<maxNrOfActiveMBMSServices>


GLOBAL
ignore
>>TMGI
M

9.2.1.80

–

>>Transmission Mode
O

9.2.1.81

–

>>Preferred Frequency Layer
O

UARFCN
9.2.1.66

–

>E-DCH RL Set ID
O

RL Set ID 9.2.2.35

YES
ignore
>E-DCH FDD DL Control Channel Information
O

9.2.2.4D

YES
ignore
>Initial DL DPCH Timing Adjustment
O

DL DPCH Timing Adjustment
9.2.2.9.A

YES
ignore
>F-DPCH Slot Format
O

9.2.2.85

YES
ignore
>Neighbouring E-UTRA Cell Information
O

9.2.1.41De

YES
ignore
>HS-DSCH Preconfiguration Info
O

9.2.2.99

YES
ignore
>Non-Serving RL Preconfiguration Info
O

9.2.2.125

YES
ignore
>Neighbouring UMTS Cell Information Extension
O

9.2.1.141

YES
ignore
>F-TPICH Information Response
O

9.2.2.143

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
HS-DSCH Serving Cell Change Information Response
O

9.2.2.19g

YES
ignore
E-DCH Serving Cell Change Information Response
O

9.2.2.19h

YES
ignore
MAC-hs Reset Indicator
O

9.2.1.34B

YES
ignore
Additional HS Cell Change Information Response

0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release. 
EACH
ignore
>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>HS-DSCH Secondary Serving Cell Change Information Response
M

9.2.2.19ga

–

Additional E-DCH Cell Information Response RL Add

0..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
EACH
ignore
>Additional E-DCH FDD Information Response
O

9.2.2.120

–

>Additional E-DCH Serving Cell Change Information response
O

E-DCH Serving Cell Change Information Response
9.2.2.19h

–


Range bound
Explanation
maxNrOfRLs
Maximum number of radio links for one UE.
maxNrOfActiveMBMSServices
Maximum number of MBMS bearer services that are active in parallel.
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.1.7.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

RL Information Response

0..1

Mandatory for 3.84Mcps TDD, not applicable to 1.28Mcps TDD or 7.68Mcps TDD.
YES
ignore
>RL ID
M

9.2.1.49

–

>URA Information
O

9.2.1.70B

–

>SAI
M

9.2.1.52

–

>Cell GAI
O

9.2.1.5A

–

>UTRAN Access Point Position
O

9.2.1.70A

–

>UL Time Slot ISCP Info
M

9.2.3.13D

–

>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Maximum Allowed UL Tx Power
M

9.2.1.35

–

>Maximum DL TX Power
M

DL Power
9.2.1.21A

–

>Minimum DL TX Power
M

DL Power
9.2.1.21A

–

>PCCPCH Power
M

9.2.1.43

–

>Timing Advance Applied
M

9.2.3.12A

–

>Alpha Value
M

9.2.3.a

–

>UL PhysCH SF Variation
M

9.2.3.13B

–

>Synchronisation Configuration
M

9.2.3.7E

–

>Secondary CCPCH Info TDD
O

9.2.3.7B

–

>UL CCTrCH Information

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>UL DPCH Information

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>UL Timeslot Information
M

9.2.3.13C

–

>DL CCTrCH Information

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>DL DPCH Information

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>DL Timeslot Information
M

9.2.3.2C

–

>>CCTrCH Maximum DL TX Power
O

DL Power
9.2.1.21A
Maximum allowed power on DPCH.
YES
ignore
>>CCTrCH Minimum DL TX Power
O

DL Power
9.2.1.21A
Minimum allowed power on DPCH.
YES
ignore
>DCH Information

0..1


–

>>CHOICE Diversity Indication
M



–

>>>Combining




–

>>>>RL ID
M

9.2.1.49
Reference RL.
–

>>>>DCH Information Response
O

9.2.1.16A

YES
ignore
>>>Non Combining




–

>>>>DCH Information Response
M

9.2.1.16A

–

>DSCH Information Response

0 .. <maxnoof DSCHs>


GLOBAL
ignore
>>DSCH ID
M

9.2.3.3ae

–

>>Transport Format Management
M

9.2.3.13

–

>>DSCH Flow Control Information
M

9.2.3.3ag

–

>>CHOICE Diversity
Indication
O



–

>>>Non Combining




–

>>>>Binding ID
O

9.2.1.3

–

>>>>Transport Layer Address
O

9.2.1.62

–

>USCH Information Response

0 .. <maxNoOfUSCHs>


GLOBAL
ignore
>>USCH ID
M

9.2.3.13L

–

>>Transport Format Management
M

9.2.3.13

–

>>CHOICE Diversity
Indication
O



–

>>>Non Combining




–

>>>>Binding ID
O

9.2.1.3

–

>>>>Transport Layer Address
O

9.2.1.62

–

>Neighbouring UMTS Cell Information
O

9.2.1.41A

–

>Neighbouring GSM Cell Information
O

9.2.1.41C

–

>Cell GA Additional Shapes
O

9.2.1.5B

YES
ignore
>HCS Prio
O

9.2.1.30N

YES
ignore
>Neighbouring E-UTRA Cell Information
O

9.2.1.41De

YES
ignore
>Neighbouring UMTS Cell Information Extension
O

9.2.1.141

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
RL Information Response LCR

0..1

Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD.
YES
ignore
>RL ID
M

9.2.1.49

–

>URA Information
M

9.2.1.70B

–

>SAI
M

9.2.1.52

–

>Cell GAI
O

9.2.1.5A

–

>UTRAN Access Point Position
O

9.2.1.70A

–

>UL Time Slot ISCP Info LCR
M

9.2.3.13H

–

>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>PCCPCH Power
M

9.2.1.43

–

>Maximum Allowed UL Tx Power
M

9.2.1.35

–

>Maximum DL TX Power
M

DL Power
9.2.1.21A

–

>Minimum DL TX Power
M

DL Power
9.2.1.21A

–

>Alpha Value
M

9.2.3.a

–

>UL PhysCH SF Variation
M

9.2.3.13B

–

>Synchronisation Configuration
M

9.2.3.7E

–

>Secondary CCPCH Info TDD LCR
O

9.2.3.7F

–

>UL CCTrCH Information LCR

0..<maxNrOfCCTrCHsLCR>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>UL DPCH Information LCR

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>UL Timeslot Information LCR
M

9.2.3.13G

–

>DL CCTrCH Information LCR

0..<maxNrOfCCTrCHsLCR>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>DL DPCH Information LCR

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>DL Timeslot Information LCR
M

9.2.3.2E

–

>>>TSTD Indicator
M

9.2.3.13E

–

>DCH Information Response
M

9.2.1.16A

–

>DSCH Information Response LCR

0 .. <maxNoOfDSCHsLCR>


GLOBAL
ignore
>>DSCH ID
M

9.2.3.3ae

–

>>DSCH Flow Control Information
M

9.2.3.3ag

–

>>Binding ID
O

9.2.1.3

–

>>Transport Layer Address
O

9.2.1.62

–

>>Transport Format Management
M

9.2.3.13

–

>USCH Information Response LCR

0 .. <maxNoOfUSCHsLCR>


GLOBAL
ignore
>>USCH ID
M

9.2.3.13L

–

>>Transport Format Management
M

9.2.3.13

–

>>CHOICE Diversity
Indication
O



–

>>>Non Combining




–

>>>>Binding ID
O

9.2.1.3

–

>>>>Transport Layer Address
O

9.2.1.62

–

>Neighbouring UMTS Cell Information
O

9.2.1.41A

–

>Neighbouring GSM Cell Information
O

9.2.1.41C

–

>Cell GA Additional Shapes
O

9.2.1.5B

YES
ignore
>HCS Prio
O

9.2.1.30N

YES
ignore
>Uplink Timing Advance Control LCR
M

9.2.3.13K

YES
ignore
>PowerControl GAP
O

INTEGER (1..255)
Unit: number of subframes
Applicable to 1.28Mcps TDD only.
YES
ignore
>UARFCN
O

9.2.1.66
Applicable to 1.28Mcps TDD only. Mandatory for 1.28Mcps TDD when using multiple frequencies. Corresponds to Nt （3GPP TS 25.105）.
YES
ignore
>Neighbouring E-UTRA Cell Information
O

9.2.1.41De

YES
ignore
>Idle Interval Information
O

9.2.3.60
TDD only.
YES
ignore
>Neighbouring UMTS Cell Information Extension
O

9.2.1.141

YES
ignore
Active MBMS Bearer Service List

0..<maxNrOfActiveMBMSServices>


GLOBAL
ignore
>TMGI
M

9.2.1.80

–

>Transmission Mode
O

9.2.1.81

–

>Preferred Frequency Layer
O

UARFCN
9.2.1.66

–

HS-DSCH Information Response
O

HS-DSCH TDD Information Response 9.2.3.3ab

YES
ignore
HS-DSCH-RNTI
O

9.2.1.30P

YES
ignore
RL Information Response 7.68Mcps

0..1

Mandatory for 7.68Mcps TDD, not applicable to 1.28Mcps TDD or 3.84Mcps TDD.
YES
ignore
>RL ID
M

9.2.1.49

–

>URA Information
O

9.2.1.70B

–

>SAI
M

9.2.1.52

–

>Cell GAI
O

9.2.1.5A

–

>UTRAN Access Point Position
O

9.2.1.70A

–

>UL Time Slot ISCP Info
M

9.2.3.13D

–

>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>Maximum Allowed UL Tx Power
M

9.2.1.35

–

>Maximum DL TX Power
M

DL Power
9.2.1.21A

–

>Minimum DL TX Power
M

DL Power
9.2.1.21A

–

>PCCPCH Power
M

9.2.1.43

–

>Timing Advance Applied
M

9.2.3.12A

–

>Alpha Value
M

9.2.3.a

–

>UL PhysCH SF Variation
M

9.2.3.13B

–

>Synchronisation Configuration
M

9.2.3.7E

–

>Secondary CCPCH Info 7.68Mcps TDD
O

9.2.3.22

–

>UL CCTrCH Information 7.68 Mcps

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>UL DPCH Information 7.68 Mcps

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>UL Timeslot Information 7.68Mcps
M

9.2.3.26

–

>DL CCTrCH Information 7.68 Mcps

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>DL DPCH Information 7.68 Mcps

0..1


YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>DL Timeslot Information 7.68Mcps
M

9.2.3.28

–

>>CCTrCH Maximum DL TX Power
O

DL Power
9.2.1.21A
Maximum allowed power on DPCH.
–

>>CCTrCH Minimum DL TX Power
O

DL Power
9.2.1.21A
Minimum allowed power on DPCH.
–

>DCH Information

0..1


–

>>CHOICE Diversity Indication
M



–

>>>Combining




–

>>>>RL ID
M

9.2.1.49
Reference RL.
–

>>>>DCH Information Response
O

9.2.1.16A

YES
ignore
>>>Non Combining




–

>>>>DCH Information Response
M

9.2.1.16A

–

>DSCH Information Response 7.68 Mcps

0 .. <maxnoof DSCHs>


GLOBAL
ignore
>>DSCH ID
M

9.2.3.3ae

–

>>Transport Format Management
M

9.2.3.13

–

>>DSCH Flow Control Information
M

9.2.3.3ag

–

>>CHOICE Diversity Indication
O



–

>>>Non Combining




–

>>>>Binding ID
O

9.2.1.3

–

>>>>Transport Layer Address
O

9.2.1.62

–

>USCH Information Response 7.68 Mcps

0 .. <maxNoOfUSCHs>


GLOBAL
ignore
>>USCH ID
M

9.2.3.13L

–

>>Transport Format Management
M

9.2.3.13

–

>>CHOICE Diversity Indication
O



–

>>>Non Combining




–

>>>>Binding ID
O

9.2.1.3

–

>>>>Transport Layer Address
O

9.2.1.62

–

>Neighbouring UMTS Cell Information
O

9.2.1.41A

–

>Neighbouring GSM Cell Information
O

9.2.1.41C

–

>Cell GA Additional Shapes
O

9.2.1.5B

–

>HCS Prio
O

9.2.1.30N

–

>Neighbouring E-UTRA Cell Information
O

9.2.1.41De

YES
ignore
>Neighbouring UMTS Cell Information Extension
O

9.2.1.141

YES
ignore
E-DCH Information Response
O

E-DCH TDD Information Response 9.2.3.41
3.84Mcps TDD only.
YES
ignore
E-DCH Information Response 7.68Mcps
O

E-DCH TDD Information Response 7.68Mcps 9.2.3.52
7.68Mcps TDD only.
YES
ignore
E-DCH Information Response 1.28Mcps
O

E-DCH TDD Information Response 1.28Mcps 9.2.3.41a
1.28Mcps TDD only.
YES
ignore
Continuous Packet Connectivity DRX Information Response LCR
O

9.2.3.63
1.28 Mcps TDD only.
YES
ignore
HS-DSCH Semi-Persistent scheduling Information Response LCR
O

9.2.3.68
1.28 Mcps TDD only.
YES
ignore
E-DCH Semi-Persistent scheduling Information Response LCR
O

9.2.3.69
1.28 Mcps TDD only.
YES
ignore
DCH Measurement Occasion Information
O

9.2.3.75
1.28 Mcps TDD only.
YES
reject
Multi-Carrier E-DCH Information Response LCR
O

9.2.3.78
1.28 Mcps TDD only.
YES
ignore
MU-MIMO Information
O

9.2.3.81
1.28 Mcps TDD only.
YES
reject
Non-rectangular resource allocation indicator

O

ENUMERATED (activate)
1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
YES
reject
Non-rectangular resource timeslot set
O

BIT STRING (SIZE(7))
1.28 Mcps TDD only.
The absence of this IE means that the specific timeslot(s) of the non-rectangular resource is defined in [34].
This IE indicats which of the timeslot(s) is/are allocated for non-rectangular resource. 
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 allocated for non-rectangular resource. The value 1 of a bit means the corresponding timeslot is allocated for non-rectangular resource.
Bit 0 is the first/leftmost bit of the bit string.
YES
reject

Range Bound
Explanation
maxNoOfDSCHs
Maximum number of DSCHs for one UE for 3.84Mcps TDD.
maxNoOfUSCHs
Maximum number of USCHs for one UE for 3.84Mcps TDD.
maxNrOfCCTrCHs
Maximum number of CCTrCHs for one UE for 3.84Mcps TDD.
maxNoOfDSCHsLCR
Maximum number of DSCHs for one UE for 1.28Mcps TDD.
maxNoOfUSCHsLCR
Maximum number of USCHs for one UE for 1.28Mcps TDD.
maxNrOfCCTrCHsLCR
Maximum number of CCTrCH for one UE for 1.28Mcps TDD.
maxNrOfActiveMBMSServices
Maximum number of MBMS bearer services that are active in parallel.

9.1.8	RADIO LINK ADDITION FAILURE
9.1.8.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

CHOICE Cause Level
M



YES
ignore
>General




–

>>Cause
M

9.2.1.5

–

>RL Specific




–

>>Unsuccessful RL Information Response

1..<maxNrOfRLs-1>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>Cause
M

9.2.1.5

–

>>Successful RL Information Response

0..<maxNrOfRLs-2>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>RL Set ID
M

9.2.2.35

–

>>>URA Information
O

9.2.1.70B

–

>>>SAI
M

9.2.1.52

–

>>>Cell GAI
O

9.2.1.5A

–

>>>UTRAN Access Point Position
O

9.2.1.70A

–

>>>Received Total Wide Band Power
M

9.2.2.35A

–

>>>Not Used
O

NULL

–

>>>DL Code Information
M

FDD DL Code Information
9.2.2.14A

YES
ignore
>>>CHOICE Diversity Indication
M



–

>>>>Combining




–

>>>>>RL ID
M

9.2.1.49
Reference RL ID.
–

>>>>>DCH Information Response
O

9.2.1.16A

YES
ignore
>>>>>E-DCH FDD Information Response
O

9.2.2.4C

YES
ignore
>>>>Non Combining




–

>>>>>DCH Information Response
M

9.2.1.16A

–

>>>>>E-DCH FDD Information Response
O

9.2.2.4C

YES
ignore
>>>SSDT Support Indicator
M

9.2.2.43

–

>>>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>>>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

–

>>>Closed Loop Timing Adjustment Mode
O

9.2.2.3A

–

>>>Maximum Allowed UL Tx Power
M

9.2.1.35

–

>>>Maximum DL TX Power
M

DL Power
9.2.1.21A

–

>>>Minimum DL TX Power
M

DL Power
9.2.1.21A

–

>>>Neighbouring UMTS Cell Information
O

9.2.1.41A

–

>>>Neighbouring GSM Cell Information
O

9.2.1.41C

–

>>>Primary CPICH Power
M

9.2.1.44

–

>>>PC Preamble
M

9.2.2.27a

–

>>>SRB Delay
M

9.2.2.39A

–

>>>Cell GA Additional Shapes
O

9.2.1.5B

YES
ignore
>>>DL Power Balancing Activation Indicator
O

9.2.2.10B

YES
ignore
>>>HCS Prio
O

9.2.1.30N

YES
ignore
>>>Active MBMS Bearer Service List

0..<maxNrOfActiveMBMSServices>


GLOBAL
ignore
>>>>TMGI
M

9.2.1.80

–

>>>>Transmission Mode
O

9.2.1.81

–

>>>>Preferred Frequency Layer
O

UARFCN
9.2.1.66

–

>>>E-DCH RL Set ID
O

RL Set ID 9.2.2.35

YES
ignore
>>>E-DCH FDD DL Control Channel Information
O

9.2.2.4D

YES
ignore
>>>Initial DL DPCH Timing Adjustment
O

DL DPCH Timing Adjustment
9.2.2.9.A

YES
ignore
>>>Neighbouring E-UTRA Cell Information
O

9.2.1.41De

YES
ignore
>>>HS-DSCH Preconfiguration Info
O

9.2.2.99

YES
ignore
>>>F-DPCH Slot Format
O

9.2.2.85

YES
ignore
>>>Non-Serving RL Preconfiguration Info
O

9.2.2.125

YES
ignore
>>>Neighbouring UMTS Cell Information Extension
O

9.2.1.141

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
HS-DSCH Serving Cell Change Information Response
O

9.2.2.19g

YES
ignore
E-DCH Serving Cell Change Information Response
O

9.2.2.19h

YES
ignore
Additional HS Cell Change Information Response

0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release.
EACH
ignore
>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>HS-DSCH Secondary Serving Cell Change Information Response
M

9.2.2.19ga

–

MAC-hs Reset Indicator
O

9.2.1.34B

YES
ignore
Additional E-DCH Cell Information Response RL Add

0..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
EACH
ignore
>Additional E-DCH FDD Information Response
O

9.2.2.120

–

>Additional E-DCH Serving Cell Change Information response
O

E-DCH Serving Cell Change Information Response
9.2.2.19h

–


Range bound
Explanation
maxNrOfRLs
Maximum number of radio links for one UE.
maxNrOfActiveMBMSServices
Maximum number of MBMS bearer services that are active in parallel.
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.1.8.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

CHOICE Cause Level
M



YES
ignore
>General




–

>>Cause
M

9.2.1.5

–

>RL Specific




–

>>Unsuccessful RL Information Response

1


YES
ignore
>>>RL ID
M

9.2.1.49

–

>>>Cause
M

9.2.1.5

–

Criticality Diagnostics
O

9.2.1.13

YES
ignore

9.1.9	RADIO LINK DELETION REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

RL Information 

1..<maxNrOfRLs>


EACH
notify
>RL ID
M

9.2.1.49

–


Range bound
Explanation
maxNrOfRLs
Maximum number of radio links for one UE

9.1.10	RADIO LINK DELETION RESPONSE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Criticality Diagnostics
O

9.2.1.13

YES
ignore

9.1.11	RADIO LINK RECONFIGURATION PREPARE
9.1.11.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

Allowed Queuing Time
O

9.2.1.2

YES
reject
UL DPCH Information

0..1


YES
reject
>UL Scrambling Code
O

9.2.2.53

–

>UL SIR Target
O

Uplink SIR
9.2.1.69

–

>Min UL Channelisation Code Length
O

9.2.2.25

–

>Max Number of UL DPDCHs
C – CodeLen

9.2.2.24

–

>Puncture Limit
O

9.2.1.46
For the UL.
–

>TFCS
O

9.2.1.63
TFCS for the UL.
–

>UL DPCCH Slot Format
O

9.2.2.52

–

>Diversity Mode
O

9.2.2.8

–

>Not Used
O

NULL

–

>Not Used
O

NULL

–

>UL DPDCH Indicator for E-DCH operation
O

9.2.2.52A

YES
reject
DL DPCH Information

0..1


YES
reject
>TFCS
O

9.2.1.63
TFCS for the DL.
–

>DL DPCH Slot Format
O

9.2.2.9

–

>Number of DL Channelisation Codes
O

9.2.2.26A

–

>TFCI Signalling Mode
O

9.2.2.46

–

>TFCI Presence
C- SlotFormat

9.2.1.55

–

>Multiplexing Position
O

9.2.2.26

–

>Limited Power Increase
O

9.2.2.21A

–

>DL DPCH Power Information

0..1


YES
reject
>>Power Offset Information

1


–

>>>PO1
M

Power Offset
9.2.2.30
Power offset for the TFCI bits.
–

>>>PO2
M

Power Offset
9.2.2.30
Power offset for the TPC bits.
–

>>>PO3
M

Power Offset
9.2.2.30
Power offset for the pilot bits.
_

>>FDD TPC Downlink Step Size
M

9.2.2.16

–

>>Inner Loop DL PC Status
M

9.2.2.21a

–

DCHs To Modify
O

FDD DCHs To Modify
9.2.2.13C

YES
reject
DCHs To Add
O

DCH FDD Information
9.2.2.4A

YES
reject
DCHs To Delete

0..<maxNrOfDCHs>


GLOBAL
reject
>DCH ID
M

9.2.1.16

–

RL Information

0..<maxNrOfRLs>


EACH
reject
>RL ID
M

9.2.1.49

–

>Not Used
O

NULL

–

>Not Used
O

NULL

–

>Transmit Diversity Indicator
C –
Diversity mode

9.2.2.48

–

>DL Reference Power
O

DL Power
9.2.1.21A
Power on DPCH.
YES
ignore
>RL Specific DCH Information
O

9.2.1.49A

YES
ignore
>DL DPCH Timing Adjustment
O

9.2.2.9A
Required RL Timing Adjustment. 
YES
reject
>Phase Reference Update Indicator
O

9.2.2.27B

YES
ignore
>RL Specific E-DCH Information
O

9.2.2.35a

YES
reject
>E-DCH RL Indication
O

9.2.2.4E

YES
reject
>HS-DSCH Preconfiguration Setup
O

9.2.2.100

YES
ignore
>Non-Serving RL Preconfiguration Setup
O

9.2.2.124

YES
ignore
>Non-Serving RL Preconfiguration Removal
O

Non-Serving RL Preconfiguration Setup
9.2.2.124

YES
ignore
>F-TPICH Information Reconf
O

9.2.2.142

YES
ignore
>TPC slot position
O

9.2.2.193

YES
ignore
Transmission Gap Pattern Sequence Information
O

9.2.2.47A

YES
reject
HS-DSCH Information
O

HS-DSCH FDD Information
9.2.2.19a

YES
reject
HS-DSCH Information To Modify
O

9.2.1.30Q

YES
reject
HS-DSCH MAC-d Flows To Add
O

HS-DSCH MAC-d Flows Information
9.2.1.30OA

YES
reject
HS-DSCH MAC-d Flows To Delete
O

9.2.1.30OB

YES
reject
HS-PDSCH RL ID
O

RL ID 9.2.1.49

YES
reject
E-DPCH Information 

0..1


YES
reject
>Maximum Set of E-DPDCHs
O

9.2.2.24e

–

>Puncture Limit
O

9.2.1.46

–

>E-TFCS Information
O

9.2.2.4G

–

>E-TTI
O

9.2.2.4J

–

>E-DPCCH Power Offset
O

9.2.2.4K

–

>E-RGCH 2-Index-Step Threshold
O

9.2.2.64

–

>E-RGCH 3-Index-Step Threshold
O

9.2.2.65

–

>HARQ Info for E-DCH
O

9.2.2.66

–

>HS-DSCH Configured Indicator
O

9.2.2.19C

–

>Minimum Reduced E-DPDCH Gain Factor
O

9.2.2.102

YES
ignore
E-DCH FDD Information
O

9.2.2.4B

YES
reject
E-DCH FDD Information To Modify
O

9.2.2.4F

YES
reject
E-DCH MAC-d Flows to Add
O

E-DCH MAC-d flows Information 9.2.2.4MC

YES
reject
E-DCH MAC-d Flows To Delete
O

9.2.1.90

YES
reject
Serving E-DCH RL
O

9.2.2.38C

YES
reject
F-DPCH Information

0..1


YES
reject
>Power Offset Information

1


–

>>PO2
M

Power Offset
9.2.2.30
This IE shall be ignored by DRNS.
_

>FDD TPC Downlink Step Size
M

9.2.2.16

–

>Limited Power Increase
M

9.2.2.21A

–

>Inner Loop DL PC Status
M

9.2.2.21a

–

>F-DPCH Slot Format Support Request
O

9.2.2.86

YES
reject
>F-DPCH Slot Format
O

9.2.2.85

YES
ignore
Fast Reconfiguration Mode
O

9.2.2.70

YES
ignore
CPC Information

0..1


YES
reject
>Continuous Packet Connectivity DTX-DRX Information
O

9.2.2.72

–

>Continuous Packet Connectivity DTX-DRX Information To Modify
O

9.2.2.73

–

>Continuous Packet Connectivity HS-SCCH less Information
O

9.2.2.74

–

>Continuous Packet Connectivity HS-SCCH Less Deactivate Indicator
O

9.2.2.75A

YES
reject
Additional HS Cell Information RL Reconf Prep

0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release.
EACH
reject
>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>C-ID
O

9.2.1.6

–

>HS-DSCH FDD Secondary Serving Information
O

9.2.2.19aa

–

>HS-DSCH FDD Secondary Serving Information To Modify
O

9.2.2.19bb

–

>HS-DSCH Secondary Serving Remove
O

NULL

–

UE Aggregate Maximum Bit Rate
O

9.2.1.137

YES
ignore
Additional E-DCH Cell Information RL Reconf Prep

0..1

For E-DCH on multiple frequencies in this DRNS.
YES
reject
>CHOICE Setup, Configuration Change or Removal of E-DCH On Secondary UL Frequency
M



YES
reject
>>Setup



Used when RLs on the secondary UL frequency does not exist or is not configured with E-DCH in the current UE context.
–

>>>Multicell E-DCH Transport Bearer Mode
M

9.2.2.113

–

>>>Additional E-DCH Cell Information Setup

1..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
–

>>>>Additional E-DCH FDD Setup Information
M

9.2.2.110

–

>>Configuration Change



Used when RLs with additional E-DCH on the secondary UL frequency exist in the current UE context and the configuration is modified (adding new RLs or modification of existing RLs).
–

>>>Additional E-DCH Cell Information Configuration Change

1..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
–

>>>>Additional E-DCH Configuration Change Information
M

9.2.2.111

–

>>Removal



Used when all RLs on the indicated secondary UL frequency is removed.
–

>>>Additional E-DCH Cell Information Removal

1..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
–

>>>>RL on Secondary UL Frequency
M

ENUMERATED (Remove, ...)
Removal of all RL on secondary UL frequency.
–

UL CLTD Information Reconf
O

9.2.2.130

YES
reject
E-DCH Decoupling Indication
O

9.2.2.169

YES
reject
DCH Enhancements Information Reconf
O

9.2.2.170

YES
reject
Radio Links without DPCH/F-DPCH Indication
O

9.2.2.176

YES
reject
UL DPCCH2 Reconfiguration
O

9.2.2.177

YES
reject
Downlink TPC enhancements Reconf
O

9.2.2.191

YES
reject
Improved Synchronized RRC Indicator
O

9.2.1.159

YES
ignore

Condition
Explanation
CodeLen
The IE shall be present only if the Min UL Channelisation Code length IE equals to 4.
SlotFormat
The IE shall only be present if the DL DPCH Slot Format IE is equal to any of the values from 12 to 16.
Diversity mode
The IE shall be present if Diversity Mode IE is present in the UL DPCH Information IE and is not equal to “none”.

Range bound
Explanation
maxNrOfDCHs
Maximum number of DCHs for a UE.
maxNrOfRLs
Maximum number of RLs for a UE.
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE

9.1.11.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

Allowed Queuing Time
O

9.2.1.2

YES
reject
UL CCTrCH To Add

0..<maxNrOfCCTrCHs>

For DCH and USCH.
EACH
notify
>CCTrCH ID
M

9.2.3.2

–

>TFCS
M

9.2.1.63
For the UL.
–

>TFCI Coding
M

9.2.3.11

–

>Puncture Limit
M

9.2.1.46

–

>UL SIR Target
O

Uplink SIR
9.2.1.69
Mandatory for 1.28Mcps TDD; not applicable to 3.84Mcps TDD or 7.68Mcps TDD.
YES
reject
>TDD TPC Uplink Step Size
O

9.2.3.10a
Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD.
YES
reject
UL CCTrCH To Modify

0..<maxNrOfCCTrCHs>


EACH
notify
>CCTrCH ID
M

9.2.3.2

–

>TFCS
O

9.2.1.63
For the UL.
–

>TFCI Coding
O

9.2.3.11

–

>Puncture Limit
O

9.2.1.46

–

>UL SIR Target
O

Uplink SIR
9.2.1.69
Applicable to 1.28Mcps TDD only.
YES
reject
>TDD TPC Uplink Step Size
O

9.2.3.10a
Applicable to 1.28Mcps TDD only.
YES
reject
UL CCTrCH to Delete

0..<maxNrOfCCTrCHs>


EACH
notify
>CCTrCH ID
M

9.2.3.2

–

DL CCTrCH To Add

0..<maxNrOfCCTrCHs>

For DCH and DSCH.
EACH
notify
>CCTrCH ID
M

9.2.3.2

–

>TFCS
M

9.2.1.63
For the DL.
–

>TFCI Coding
M

9.2.3.11

–

>Puncture Limit
M

9.2.1.46

–

>TPC CCTrCH List

0..<maxnoCCTrCHs>

List of uplink CCTrCH which provide TPC.
–

>>TPC CCTrCH ID 
M

CCTrCH ID
9.2.3.2

–

>TDD TPC Downlink Step Size
O

9.2.3.10

YES
reject
DL CCTrCH To Modify

0..<maxNrOfCCTrCHs>


EACH
notify
>CCTrCH ID
M

9.2.3.2

–

>TFCS
O

9.2.1.63
For the DL.
–

>TFCI Coding
O

9.2.3.11

–

>Puncture Limit
O

9.2.1.46

–

>TPC CCTrCH List

0..<maxnoCCTrCHs>

List of uplink CCTrCH which provide TPC.
–

>>TPC CCTrCH ID 
M

CCTrCH ID
9.2.3.2

–

>TDD TPC Downlink Step Size
O

9.2.3.10

YES
reject
DL CCTrCH to Delete

0..<maxNrOfCCTrCHs>


EACH
notify
>CCTrCH ID
M

9.2.3.2

–

DCHs To Modify
O

TDD DCHs To Modify
9.2.3.8B

YES
reject
DCHs To Add
O

DCH TDD Information
9.2.3.2A

YES
reject
DCHs to Delete

0..<maxNrOfDCHs>


GLOBAL
reject
>DCH ID
M

9.2.1.16

–

DSCHs To Modify

0..<maxNoOfDSCHs>


GLOBAL
reject
>DSCH ID
M

9.2.3.3ae

–

>CCTrCH ID
O

9.2.3.2
DL CCTrCH in which the DSCH is mapped.
–

>TrCH Source Statistics Descriptor
O

9.2.1.65

–

>Transport Format Set
O

9.2.1.64

–

>Allocation/Retention Priority
O

9.2.1.1

–

>Scheduling Priority Indicator
O

9.2.1.51A

–

>BLER 
O

9.2.1.4

–

>Transport Bearer Request Indicator
M

9.2.1.61

–

>Traffic Class
O

9.2.1.58A

YES
ignore
>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
>TNL QoS
O

9.2.1.56A
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
DSCHs To Add
O

DSCH TDD Information
9.2.3.3a

YES
reject
DSCHs to Delete

0..<maxNoOfDSCHs>


GLOBAL
reject
>DSCH ID
M

9.2.3.3ae

–

USCHs To Modify

0..<maxNoOfUSCHs>


GLOBAL
reject
>USCH ID
M

9.2.3.13L

–

>CCTrCH ID
O

9.2.3.2
UL CCTrCH in which the USCH is mapped.
–

>TrCH Source Statistics Descriptor
O

9.2.1.65

–

>Transport Format Set
O

9.2.1.64

–

>Allocation/Retention Priority
O

9.2.1.1

–

>Scheduling Priority Indicator
O

9.2.1.51A

–

>BLER 
O

9.2.1.4

–

>Transport Bearer Request Indicator
M

9.2.1.61

–

>RB Info

0..<maxNoOfRB>

All Radio Bearers using this USCH
–

>>RB Identity
M

9.2.3.5B

–

>Traffic Class
O

9.2.1.58A

YES
ignore
>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
>TNL QoS
O

9.2.1.56A

YES
ignore
USCHs To Add
O

USCH Information
9.2.3.14

YES
reject
USCHs to Delete

0..<maxNoOfUSCHs>


GLOBAL
reject
>USCH ID
M

9.2.3.13L

–

Primary CCPCH RSCP
O

9.2.3.5

YES
ignore
DL Time Slot ISCP Info
O

9.2.3.2D
Applicable to 3.84Mcps TDD and 7.68Mcps TDD only.
YES
ignore
DL Time Slot ISCP Info LCR
O

9.2.3.2F
Applicable to 1.28Mcps TDD only.
YES
ignore
HS-DSCH Information
O

HS-DSCH TDD Information9.2.3.3aa

YES
reject
HS-DSCH Information To Modify
O

9.2.1.30Q

YES
reject
HS-DSCH MAC-d Flows To Add
O

HS-DSCH MAC-d Flows Information9.2.1.30OA

YES
reject
HS-DSCH MAC-d Flows To Delete
O

9.2.1.30OB

YES
reject
HS-PDSCH RL ID
O

RL ID 9.2.1.49

YES
reject
PDSCH-RL-ID
O

RL ID
9.2.1.49

YES
ignore
UL Synchronisation Parameters LCR

0..1

Mandatory for 1.28Mcps TDD. Not Applicable to 3.84Mcps TDD or 7.68Mcps TDD.
YES
ignore
>Uplink Synchronisation Step Size
M

9.2.3.13J

–

>Uplink Synchronisation Frequency
M

9.2.3.13I

–

RL Information

0..<maxNrOfRLs.


YES
ignore
>RL ID
M

9.2.1.49

–

>RL Specific DCH Information
O

9.2.1.49A

–

Primary CCPCH RSCP Delta
O

9.2.3.5a

YES
ignore
E-DCH Information

0..1

3.84Mcps TDD only.
YES
reject
>E-PUCH Information
O

9.2.3.36

–

>E-TFCS Information TDD
O

9.2.3.37

–

>E-DCH MAC-d Flows to Add
O

E-DCH MAC-d Flows Information TDD
9.2.3.38

–

>E-DCH MAC-d Flows To Delete
O

9.2.1.90

–

>E-DCH Non-scheduled Grant Information TDD
O

9.2.3.39
This IE is not used, and should be ignored if received.
–

>E-DCH TDD Information
O

9.2.3.40

–

>E-DCH TDD Information to Modify
O

9.2.3.42

–

E-DCH Serving RL
O

RL ID
9.2.1.49
3.84Mcps TDD only.
YES
reject
E-DCH Information 7.68Mcps

0..1

7.68Mcps TDD only.
YES
reject
>E-PUCH Information
O

9.2.3.36

–

>E-TFCS Information TDD
O

9.2.3.37

–

>E-DCH MAC-d Flows to Add
O

E-DCH MAC-d Flows Information TDD
9.2.3.38

–

>E-DCH MAC-d Flows To Delete
O

9.2.1.90

–

>E-DCH Non-scheduled Grant Information 7.68Mcps TDD
O

9.2.3.50
This IE is not used, and should be ignored if received.
–

>E-DCH TDD Information 7.68Mcps
O

9.2.3.51

–

>E-DCH TDD Information to Modify
O

9.2.3.42

–

E-DCH Information 1.28Mcps

0..1

1.28Mcps TDD only.
YES
reject
>E-PUCH Information LCR
O

9.2.3.36a

–

>E-TFCS Information TDD
O

9.2.3.37

–

>E-DCH MAC-d Flows to Add
O

E-DCH MAC-d Flows Information TDD
9.2.3.38

–

>E-DCH MAC-d Flows To Delete
O

9.2.1.90

–

>E-DCH TDD Information LCR
O

9.2.3.40a

–

>E-DCH TDD Information to Modify
O

9.2.3.42

–

Need for Idle Interval
O

ENUMERATED (True, False)
TDD only.
YES
ignore
CPC Information

0..1

1.28Mcps TDD only.
YES
reject
>Continuous Packet Connectivity DRX Information LCR
O

9.2.3.61

_

>Continuous Packet Connectivity DRX Information To Modify LCR
O

9.2.3.62

_

>HS-DSCH Semi-Persistent scheduling Information LCR
O

9.2.3.64

_

>HS-DSCH Semi-Persistent scheduling Information to modify LCR
O

9.2.3.65

_

>HS-DSCH Semi-Persistent scheduling Deactivate Indicator LCR
O

9.2.3.70

_

>E-DCH Semi-Persistent scheduling Information LCR
O

9.2.3.66

_

>E-DCH Semi-Persistent scheduling Information to modify LCR
O

9.2.3.67

_

>E-DCH Semi-Persistent scheduling Deactivate Indicator LCR
O

9.2.3.71

_

RNTI Allocation Indicator
O

ENUMERATED (True)
1.28 Mcps TDD only.
YES
ignore
DCH Measurement Type Indicator
O

9.2.3.76
1.28 Mcps TDD only.
YES
reject
Multi-Carrier E-DCH Information Reconf

0..1

Applicable for Multi-Carrier E-DCH Operation in 1.28 Mcps TDD only.
YES
reject
>CHOICE continue,Setup or Change 
M



–

>>continue




–

>>Setup




–

>>>Multi-Carrier E-DCH Transport Bearer Mode LCR
M

9.2.3.79

–

>>>Multi-Carrier E-DCH Information LCR
M

9.2.3.77

–

>>change




–

>>>Multi-Carrier E-DCH Transport Bearer Mode LCR
O

9.2.3.79

–

>>>Multi-Carrier E-DCH Information LCR
O

9.2.3.77

–

>>>Removal UL Multi-Carrier info

0..<maxNrOfULCarriersLCR-1>


–

>>>>UARFCN
M

9.2.1.66
Corresponds to Nt TS 25.105 [17].
–

MU-MIMO Indicator
O

9.2.3.82
1.28 Mcps TDD only.
YES
reject
UE support of non-rectangular resource allocation
O

ENUMERATED (support)
1.28 Mcps TDD only.
The absence of this IE indicates that the UE does not support the non-rectangular resource allocation.
YES
ignore

Range bound
Explanation
maxNrOfDCHs
Maximum number of DCHs for a UE.
maxNrOfCCTrCHs
Maximum number of CCTrCHs for a UE.
maxNoOfDSCHs
Maximum number of DSCHs for one UE.
maxNoOfUSCHs
Maximum number of USCHs for one UE.
maxNrOfRLs
Maximum number of RLs for one UE
maxNrOfULCarriersLCR
Maximum number of uplink frequencies in Multi-Carrier E-DCH Operation.
maxNoOfRB
Maximum number of Radio Bearers for one UE.

9.1.12	RADIO LINK RECONFIGURATION READY
9.1.12.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

RL Information Response

0..<maxNrOfRLs>


EACH
ignore
>RL ID
M

9.2.1.49

–

>Maximum Uplink SIR
O

Uplink SIR
9.2.1.69

–

>Minimum Uplink SIR
O

Uplink SIR
9.2.1.69

–

>Maximum DL TX Power
O

DL Power
9.2.1.21A

–

>Minimum DL TX Power
O

DL Power
9.2.1.21A

–

>Not Used
O

NULL

–

>DL Code Information
O

FDD DL Code Information
9.2.2.14A

YES
ignore
>DCH Information Response
O

9.2.1.16A

YES
ignore
>Not Used
O

NULL

–

>DL Power Balancing Updated Indicator
O

9.2.2.10D

YES
ignore
>Primary CPICH Usage For Channel Estimation
O

9.2.2.32A

YES
ignore
>Secondary CPICH Information Change 
O

9.2.2.38B

YES
ignore
>E-DCH FDD Information Response
O

9.2.2.4C

YES
ignore
>E-DCH RL Set ID
O

RL Set ID 9.2.2.35

YES
ignore
>E-DCH FDD DL Control Channel Information
O

9.2.2.4D

YES
ignore
>F-DPCH Slot Format
O

9.2.2.85

YES
ignore
>HS-DSCH Preconfiguration Info
O

9.2.2.99

YES
ignore
>Non-Serving RL Preconfiguration Info
O

9.2.2.125

YES
ignore
>F-TPICH Information Response
O

9.2.2.143

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
HS-DSCH-RNTI
O

9.2.1.30P

YES
ignore
HS-DSCH Information Response
O

HS-DSCH FDD Information Response 9.2.2.19b

YES
ignore
MAC-hs Reset Indicator
O

9.2.1.34B

YES
ignore
Fast Reconfiguration Permission
O

9.2.2.71
FDD only.
YES
ignore
Continuous Packet Connectivity HS-SCCH less Information Response
O

9.2.2.75

YES
ignore
Additional HS Cell Information Response

0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release.
EACH
ignore
>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>HS-DSCH-RNTI
M

9.2.1.30P

–

>HS-DSCH FDD Secondary Serving Information Response
M

9.2.2.19ba

–

Additional E-DCH Cell Information Response RLReconf

0..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
EACH
ignore
>Additional E-DCH FDD Information Response
O

9.2.2.120
For new E-DCH Radio Links on secondary carrier.
–

>Additional Modified E-DCH FDD Information Response
O

9.2.2.121

–


Range bound
Explanation
maxNrOfRLs
Maximum number of RLs for a UE.
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.1.12.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

RL Information Response

0..<maxNrOfRLs>

See Note 1 below.
YES
ignore
>RL ID
M

9.2.1.49

–

>Maximum Uplink SIR 
O

Uplink SIR
9.2.1.69

–

>Minimum Uplink SIR
O

Uplink SIR
9.2.1.69

–

>Maximum DL TX Power
O

DL Power
9.2.1.21A

–

>Minimum DL TX Power
O

DL Power
9.2.1.21A

–

>Secondary CCPCH Info TDD
O

9.2.3.7B
Applicable to 3.84Mcps TDD only.
–

>UL CCTrCH Information

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>UL DPCH to be Added

0..1

Applicable to 3.84Mcps TDD only.
YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>Rx Timing Deviation
O

9.2.3.7A

–

>>>UL Timeslot Information
M

9.2.3.13C

–

>>>Rx Timing Deviation 3.84Mcps Extended
O

9.2.3.35

YES
ignore
>>UL DPCH to be Modified

0..1


YES
ignore
>>>Repetition Period
O

9.2.3.7

–

>>>Repetition Length
O

9.2.3.6

–

>>>TDD DPCH Offset
O

9.2.3.8A

–

>>>UL Timeslot Information

0..<maxNrOfTS>

Applicable to 3.84Mcps TDD only.
–

>>>>Time Slot
M

9.2.1.56

–

>>>>Midamble Shift And Burst Type
O

9.2.3.4

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>UL Code Information

0..<maxNrOfDPCHs>


–

>>>>>DPCH ID
M

9.2.3.3

–

>>>>>TDD Channelisation Code
O

9.2.3.8

–

>>>UL Timeslot Information LCR

0..<maxNrOfTsLCR>

Applicable to 1.28Mcps TDD only.
GLOBAL
ignore
>>>>Time Slot LCR
M

9.2.3.12a

–

>>>>Midamble Shift LCR
O

9.2.3.4C

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>UL Code Information LCR

0..<maxNrOfDPCHsLCR>


GLOBAL
ignore
>>>>>DPCH ID
M

9.2.3.3

–

>>>>>TDD Channelisation Code LCR
O

9.2.3.8a

–

>>>>>TDD UL DPCH Time Slot Format LCR
O

9.2.3.10C

YES
reject
>>>UL Timeslot Information 7.68Mcps

0..<maxNrOfTS>

Applicable to 7.68Mcps TDD only.
GLOBAL
ignore
>>>>Time Slot
M

9.2.1.56

–

>>>>Midamble Shift And Burst Type 7.68Mcps
O

9.2.3.23

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>UL Code Information 7.68Mcps

0..<maxNrOfDPCHs768>


GLOBAL
ignore
>>>>>DPCH ID
M

9.2.3.3

–

>>>>>TDD Channelisation Code 7.68Mcps
O

9.2.3.25

–

>>UL DPCH to be Deleted

0..<maxNrOfDPCHs>


GLOBAL
ignore
>>>DPCH ID
M

9.2.3.3

–

>>UL DPCH to be Added LCR

0..1

Applicable to 1.28Mcps TDD only.
YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>UL Timeslot Information LCR
M

9.2.3.13G

–

>>UL DPCH to be Added 7.68Mcps

0..1

Applicable to 7.68Mcps TDD only.
YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>Rx Timing Deviation 7.68Mcps
O

9.2.3.30

–

>>>UL Timeslot Information 7.68Mcps
M

9.2.3.26

–

>DL CCTrCH Information

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>DL DPCH to be Added

0..1

Applicable to 3.84Mcps TDD only.
YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>DL Timeslot Information
M

9.2.3.2C

–

>>DL DPCH to be Modified

0..1


YES
ignore
>>>Repetition Period
O

9.2.3.7

–

>>>Repetition Length
O

9.2.3.6

–

>>>TDD DPCH Offset
O

9.2.3.8A

–

>>>DL Timeslot Information

0..<maxNrOfTS>

Applicable to 3.84Mcps TDD only.
–

>>>>Time Slot
M

9.2.1.56

–

>>>>Midamble Shift And Burst Type
O

9.2.3.4

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>DL Code Information

0..<maxNrOfDPCHs>


–

>>>>>DPCH ID
M

9.2.3.3

–

>>>>>TDD Channelisation Code
O

9.2.3.8

–

>>>DL Timeslot Information LCR

0..<maxNrOfTsLCR>

Applicable to 1.28Mcps TDD only.
GLOBAL
ignore
>>>>Time Slot LCR
M

9.2.3.12a

–

>>>>Midamble Shift LCR
O

9.2.3.4C

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>DL Code Information LCR

0..<maxNrOfDPCHsLCR>


GLOBAL
ignore
>>>>>DPCH ID
M

9.2.3.3

–

>>>>>TDD Channelisation Code LCR
O

9.2.3.8a

–

>>>>>TDD DL DPCH Time Slot Format LCR
O

9.2.3.8E

YES
reject
>>>>Maximum DL TX Power 
O

DL Power
9.2.1.21A
Maximum allowed power on DPCH. 
YES
ignore
>>>>Minimum DL TX Power
O

DL Power
9.2.1.21A
Minimum allowed power on DPCH.
YES
ignore
>>>DL Timeslot Information 7.68Mcps

0..<maxNrOfTS>

Applicable to 7.68Mcps TDD only.
GLOBAL
ignore
>>>>Time Slot
M

9.2.1.56

–

>>>>Midamble Shift And Burst Type 7.68Mcps
O

9.2.3.23

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>DL Code Information

0..<maxNrOfDPCHs768>


–

>>>>>DPCH ID 7.68Mcps
M

9.2.3.34

–

>>>>>TDD Channelisation Code 7.68Mcps
O

9.2.3.25

–

>>DL DPCH to be Deleted

0..<maxNrOfDPCHs>


GLOBAL
ignore
>>>DPCH ID
M

9.2.3.3

–

>>DL DPCH to be Deleted 7.68Mcps TDD

0..<maxNrOfDPCHs768>


GLOBAL
ignore
>>>DPCH ID 7.68Mcps
M

9.2.3.34

–

>>DL DPCH to be Added LCR

0..1

Applicable to 1.28Mcps TDD only.
YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>DL Timeslot Information LCR
M

9.2.3.2E

–

>>DL DPCH to be Added 7.68Mcps

0..1

Applicable to 7.68Mcps TDD only.
YES
ignore
>>>Repetition Period
M

9.2.3.7

–

>>>Repetition Length
M

9.2.3.6

–

>>>TDD DPCH Offset
M

9.2.3.8A

–

>>>DL Timeslot Information 7.68Mcps
M

9.2.3.28

–

>>CCTrCH Maximum DL TX Power
O

DL Power
9.2.1.21A
Maximum allowed power on DPCH
Applicable to 3.84Mcps TDD and 7.68Mcps TDD only.
YES
ignore
>>CCTrCH Minimum DL TX Power
O

DL Power
9.2.1.21A
Minimum allowed power on DPCH Applicable to 3.84Mcps TDD and 7.68Mcps TDD only.
YES
ignore
>DCH Information Response
O

9.2.1.16A

YES
ignore
>DSCH to be Added or Modified

0 .. <maxnoof DSCHs>


GLOBAL
ignore
>>DSCH ID
M

9.2.3.3ae

–

>>Transport Format Management
M

9.2.3.13

–

>>DSCH Flow Control Information
M

9.2.3.3ag

–

>>Binding ID
O

9.2.1.3

–

>>Transport Layer Address
O

9.2.1.62

–

>USCH to be Added or Modified

0 .. <maxNoOfUSCHs>


GLOBAL
ignore
>>USCH ID
M

9.2.3.13L

–

>>Transport Format Management
M

9.2.3.13

–

>>Binding ID
O

9.2.1.3

–

>>Transport Layer Address
O

9.2.1.62

–

>Uplink Timing Advance Control LCR
O

9.2.3.13K
Applicable to 1.28Mcps TDD only.
YES
ignore
>Secondary CCPCH Info TDD LCR
O

9.2.3.7F
Applicable to 1.28Mcps TDD only.
YES
ignore
>Secondary CCPCH Info 7.68Mcps TDD
O

9.2.3.22
Applicable to 7.68Mcps TDD only.
YES
ignore
>UARFCN
O

9.2.1.66
Applicable to 1.28Mcps TDD only. Mandatory for 1.28Mcps TDD when using multiple frequencies. Corresponds to Nt (3GPP TS 25.105). 
YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
HS-DSCH-RNTI
O

9.2.1.30P

YES
ignore
HS-DSCH Information Response
O

HS-DSCH TDD Information Response
9.2.3.3ab

YES
ignore
DSCH-RNTI
O

9.2.3.3ah

YES
ignore
MAC-hs Reset Indicator
O

9.2.1.34B

YES
ignore
E-DCH Information Response
O

E-DCH TDD Information Response 9.2.3.41
3.84Mcps TDD only.
YES
ignore
E-DCH Information Response 7.68Mcps
O

E-DCH TDD Information Response 7.68Mcps 9.2.3.52
7.68Mcps TDD only.
YES
ignore
E-DCH Information Response 1.28Mcps
O

E-DCH TDD Information Response 1.28Mcps 9.2.3.41a
1.28Mcps TDD only.
YES
ignore
PowerControl GAP
O

INTEGER (1..255)
1.28Mcps TDD only.
YES
ignore
Idle Interval Information
O

9.2.3.60
TDD only
YES
ignore
Continuous Packet Connectivity DRX Information Response LCR
O

9.2.3.63
1.28 Mcps TDD only.
YES
ignore
HS-DSCH Semi-Persistent scheduling Information Response LCR
O

9.2.3.68
1.28 Mcps TDD only.
YES
ignore
E-DCH Semi-Persistent scheduling Information Response LCR
O

9.2.3.69
1.28 Mcps TDD only.
YES
ignore
E-RNTI for FACH
O

E-RNTI
9.2.1.94
1.28 Mcps TDD only.
YES
ignore
H-RNTI for FACH
O

HS-DSCH-RNTI
9.2.1.30P
1.28 Mcps TDD only.
YES
ignore
DCH Measurement Occasion Information
O

9.2.3.75
1.28 Mcps TDD only.
YES
reject
Multi-Carrier E-DCH Information Response LCR
O

9.2.3.78
1.28 Mcps TDD only.
YES
ignore
MU-MIMO Information
O

9.2.3.81
1.28 Mcps TDD only.
YES
reject
Non-rectangular resource allocation indicator
O

ENUMERATED (activate)
1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
YES
reject
Non-rectangular resource timeslot set
O

BIT STRING (SIZE(7))
1.28 Mcps TDD only.
The absence of this IE means that the specific timeslot(s) of the non-rectangular resource is defined in [34].
This IE indicats which of the timeslot(s) is/are allocated for non-rectangular resource. 
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 allocated for non-rectangular resource. The value 1 of a bit means the corresponding timeslot is allocated for non-rectangular resource.
Bit 0 is the first/leftmost bit of the bit string.
YES
reject
Note 1:	This information element is a simplified representation of the ASN.1. Repetition 1 and repetition 2 through maxNrOfRLs are represented by separate ASN.1 structures with different criticalities.

Range bound
Explanation
maxNoOfDSCHs
Maximum number of DSCHs for one UE.
maxNoOfUSCHs
Maximum number of USCHs for one UE.
maxNrOfCCTrCHs
Maximum number of CCTrCHs for a UE.
maxNrOfTS
Maximum number of Timeslots for a UE for 3.84Mcps TDD or 7.68Mcps TDD.
maxNrOfDPCHs
Maximum number of DPCH for a UE for 3.84Mcps TDD.
maxNrOfTsLCR
Maximum number of Timeslots for a UE for 1.28Mcps TDD.
maxNrOfDPCHsLCR
Maximum number of DPCH for a UE for 1.28Mcps TDD.
maxNrOfRLs
Maximum number of RLs for one UE.
maxNrOfDPCHs768
Maximum number of DPCH for a UE for 7.68Mcps TDD.

9.1.13	RADIO LINK RECONFIGURATION COMMIT
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID 
M

9.2.1.59

–

CFN
M

9.2.1.9

YES
ignore
Active Pattern Sequence Information
O

9.2.2.A
FDD only.
YES
ignore
Fast Reconfiguration Mode
O

9.2.2.70
FDD only.
YES
reject
Activation Delay
O

9.2.2.185
FDD only
YES
reject

9.1.14	RADIO LINK RECONFIGURATION FAILURE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

CHOICE Cause Level
M



YES
ignore
>General




–

>>Cause
M

9.2.1.5

–

>RL Specific




–

>>RLs Causing Reconfiguration Failure

0..<maxNrOfRLs>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>Cause
M

9.2.1.5

–

>>>Max UE DTX Cycle
C-DTX-CycleNotAvailable

9.2.2.87

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore

Condition
Explanation
DTX-CycleNotAvailable
The IE shall be present if the Cause IE is set to “Continuous Packet Connectivity UE DTX Cycle not Available “.

Range bound
Explanation
maxNrOfRLs
Maximum number of RLs for a UE.

9.1.15	RADIO LINK RECONFIGURATION CANCEL
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID 
M

9.2.1.59

–


9.1.16	RADIO LINK RECONFIGURATION REQUEST
9.1.16.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

Allowed Queuing Time
O

9.2.1.2

YES
reject
UL DPCH Information 

0..1


YES
reject
>TFCS
O

9.2.1.63
TFCS for the UL.
–

>UL DPDCH Indicator for E-DCH operation
O

9.2.2.52A

YES
reject
DL DPCH Information 

0..1


YES
reject
>TFCS
O

9.2.1.63
TFCS for the DL.
–

>TFCI Signalling Mode
O

9.2.2.46

–

>Limited Power Increase
O

9.2.2.21A

–

DCHs To Modify
O

FDD DCHs To Modify
9.2.2.13C

YES
reject
DCHs To Add
O

DCH FDD Information
9.2.2.4A

YES
reject
DCHs To Delete

0..<maxNrOfDCHs>


GLOBAL
reject
>DCH ID
M

9.2.1.16

–

Transmission Gap Pattern Sequence Information
O

9.2.2.47A

YES
reject
RL Information

0..<maxNrOfRLs>


EACH
ignore
>RL ID
M

9.2.1.49

–

>RL Specific DCH Information
O

9.2.1.49A

–

>RL Specific E-DCH Information
O

9.2.2.35a

YES
reject
>E-DCH RL Indication
O

9.2.2.4E

YES
reject
>HS-DSCH Preconfiguration Setup
O

9.2.2.100

YES
ignore
>Non-Serving RL Preconfiguration Setup
O

9.2.2.124

YES
ignore
>Non-Serving RL Preconfiguration Removal
O

Non-Serving RL Preconfiguration Setup
9.2.2.124

YES
ignore
>F-TPICH Information Reconf
O

9.2.2.142

YES
ignore
>TPC slot position
O

9.2.2.193

YES
ignore
DL Reference Power Information
O

9.2.2.10C

YES
ignore
HS-DSCH Information
O

HS-DSCH FDD Information
9.2.2.19a

YES
reject
HS-DSCH Information To Modify Unsynchronised
O

9.2.1.30NA

YES
reject
HS-DSCH MAC-d Flows To Add
O

HS-DSCH MAC-d Flows Information 9.2.1.30OA

YES
reject
HS-DSCH MAC-d Flows To Delete
O

9.2.1.30OB

YES
reject
HS-PDSCH RL ID
O

RL ID 9.2.1.49

YES
reject
E-DPCH Information

0..1


YES
reject
>Maximum Set of E-DPDCHs
O

9.2.2.24e

–

>Puncture Limit
O

9.2.1.46

–

>E-TFCS Information
O

9.2.2.4G

–

>E-TTI
O

9.2.2.4J

–

>E-DPCCH Power Offset
O

9.2.2.4K

–

>E-RGCH 2-Index-Step Threshold
O

9.2.2.64

–

>E-RGCH 3-Index-Step Threshold
O

9.2.2.65

–

>HARQ Info for E-DCH
O

9.2.2.66

–

>Minimum Reduced E-DPDCH Gain Factor
O

9.2.2.102

YES
ignore
>HS-DSCH Configured Indicator
O

9.2.2.19C

–

E-DCH FDD Information
O

9.2.2.4B

YES
reject
E-DCH FDD Information To Modify
O

9.2.2.4F

YES
reject
E-DCH MAC-d Flows to Add
O

E-DCH MAC-d flows Information 9.2.2.4MC

YES
reject
E-DCH MAC-d Flows To Delete
O

9.2.1.90

YES
reject
Serving E-DCH RL
O

9.2.2.38C

YES
reject
CPC Information

0..1


YES
reject
>Continuous Packet Connectivity DTX-DRX Information
O

9.2.2.72

–

>Continuous Packet Connectivity DTX-DRX Information To Modify
O

9.2.2.73

–

>Continuous Packet Connectivity HS-SCCH less Information
O

9.2.2.74

–

>Continuous Packet Connectivity HS-SCCH Less Deactivate Indicator
O

9.2.2.75A

YES
reject
No of Target Cell HS-SCCH Order 
O

INTEGER (1..30)

YES
ignore
Additional HS Cell Information RL Reconf Req

0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release.
EACH
reject
>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>C-ID
O

9.2.1.6

–

>HS-DSCH FDD Secondary Serving Information
O

9.2.2.19aa

–

>HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised
O

9.2.2.19bc

–

>HS-DSCH Secondary Serving Remove
O

NULL

–

UE Aggregate Maximum Bit Rate
O

9.2.1.137

YES
ignore
Additional E-DCH Cell Information RL Reconf Req

0..1

For E-DCH on multiple frequencies in this DRNS.
YES
reject
>CHOICE Setup, Configuration Change or Removal of E-DCH On Secondary UL Frequency
M



YES
reject
>>Setup



Used when RLs on the secondary UL frequency does not exist or is not configured with E-DCH in the current UE context.
–

>>>Multicell E-DCH Transport Bearer Mode
M

9.2.2.113

–

>>>Additional E-DCH Cell Information Setup

1..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
–

>>>>Additional E-DCH FDD Setup Information
M

9.2.2.110

–

>>Configuration Change



Used when RLs with additional E-DCH on the secondary UL frequency exist in the current UE context and the configuration is modified (adding new RLs or modification of existing RLs).
–

>>>Additional E-DCH Cell Information Configuration Change

1..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
–

>>>>Additional E-DCH Configuration Change Information
M

9.2.2.111

–

>>Removal



Used when all RLs on the indicated secondary UL frequency is removed.
–

>>>Additional E-DCH Cell Information Removal

1..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
–

>>>>RL on Secondary UL Frequency
M

ENUMERATED (Remove, ...)
Removal of all RL on secondary UL frequency.
–

UL CLTD Information Reconf
O

9.2.2.130

YES
reject
E-DCH Decoupling Indication
O

9.2.2.169

YES
reject
Radio Links without DPCH/F-DPCH Indication
O

9.2.2.176

YES
reject
UL DPCCH2 Reconfiguration
O

9.2.2.177

YES
reject
Downlink TPC enhancements Reconf
O

9.2.2.191

YES
reject

Range Bound
Explanation
maxNrOfDCHs
Maximum number of DCHs for one UE.
maxNrOfRLs
Maximum number of RLs for a UE.
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE

9.1.16.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

Allowed Queuing Time
O

9.2.1.2

YES
reject
UL CCTrCH Information To Modify

0..<maxNrOfCCTrCHs>


EACH
notify
>CCTrCH ID
M

9.2.3.2

–

>TFCS 
O

9.2.1.63

–

>UL SIR Target
O

Uplink SIR
9.2.1.69
Applicable to
1.28Mcps TDD only.
YES
reject
UL CCTrCH Information to Delete

0..<maxNrOfCCTrCHs>


EACH
notify
>CCTrCH ID
M

9.2.3.2

–

DL CCTrCH Information To Modify

0..<maxNrOfCCTrCHs>


EACH
notify
>CCTrCH ID
M

9.2.3.2

–

>TFCS
O

9.2.1.63

–

DL CCTrCH Information to Delete

0..<maxNrOfCCTrCHs>


EACH
notify
>CCTrCH ID
M

9.2.3.2

–

DCHs To Modify
O

TDD DCHs To Modify
9.2.3.8B

YES
reject
DCHs To Add
O

DCH TDD Information
9.2.3.2A

YES
reject
DCHs to Delete

0..<maxNrOfDCHs>


GLOBAL
reject
>DCH ID
M

9.2.1.16

–

RL Information

0..<maxNrOfRLs>


YES
ignore
>RL ID
M

9.2.1.49

–

>RL Specific DCH Information
O

9.2.1.49A

–

>UL Synchronisation Parameters LCR

0..1

Mandatory for 1.28Mcps TDD. Not Applicable to 3.84Mcps TDD.
YES
ignore
>>Uplink Synchronisation Step Size
M

9.2.3.13J

–

>>Uplink Synchronisation Frequency
M

9.2.3.13I

–

>Need for Idle Interval
O

ENUMERATED (True, False)
TDD only.
YES
ignore
HS-DSCH Information
O

HS-DSCH TDD Information9.2.3.3aa

YES
reject
HS-DSCH Information To Modify Unsynchronised
O

9.2.1.30NA

YES
reject
HS-DSCH MAC-d Flows To Add
O

HS-DSCH MAC-d Flows Information 9.2.1.30OA

YES
reject

HS-DSCH MAC-d Flows To Delete
O

9.2.1.30OB

YES
reject
HS-PDSCH RL ID
O

RL ID 9.2.1.49

YES
reject
E-DCH Information

0..1

3.84Mcps TDD only.
YES
reject
>E-PUCH Information
O

9.2.3.36

–

>E-TFCS Information TDD
O

9.2.3.37

–

>E-DCH MAC-d Flows to Add
O

E-DCH MAC-d Flows Information TDD
9.2.3.38

–

>E-DCH MAC-d Flows To Delete
O

9.2.1.90

–

>E-DCH Non-scheduled Grant Information TDD
O

9.2.3.39
This IE is not used, and should be ignored if received.
–

>E-DCH TDD Information
O

9.2.3.40

–

>E-DCH TDD Information to Modify
O

9.2.3.42

–

E-DCH Serving RL
O

RL ID
9.2.1.49
3.84Mcps TDD only.
YES
reject
E-DCH Information 7.68Mcps

0..1

7.68Mcps TDD only.
YES
reject
>E-PUCH Information
O

9.2.3.36

–

>E-TFCS Information TDD
O

9.2.3.37

–

>E-DCH MAC-d Flows to Add
O

E-DCH MAC-d Flows Information TDD
9.2.3.38

–

>E-DCH MAC-d Flows To Delete
O

9.2.1.90

–

>E-DCH Non-scheduled Grant Information 7.68Mcps TDD
O

9.2.3.50
This IE is not used, and should be ignored if received.
–

>E-DCH TDD Information 7.68Mcps
O

9.2.3.51

–

>E-DCH TDD Information to Modify
O

9.2.3.42

–

E-DCH Information 1.28Mcps

0..1

1.28Mcps TDD only.
YES
reject
>E-PUCH Information LCR
O

9.2.3.36a

–

>E-TFCS Information TDD
O

9.2.3.37

–

>E-DCH MAC-d Flows to Add
O

E-DCH MAC-d Flows Information TDD
9.2.3.38

–

>E-DCH MAC-d Flows To Delete
O

9.2.1.90

–

>E-DCH TDD Information LCR
O

9.2.3.40a

–

>E-DCH TDD Information to Modify
O

9.2.3.42

–

CPC Information

0..1


YES
reject
>Continuous Packet Connectivity DRX Information LCR
O

9.2.3.61

_

>Continuous Packet Connectivity DRX Information To Modify LCR
O

9.2.3.62

_

>HS-DSCH Semi-Persistent scheduling Information LCR
O

9.2.3.64

_

>HS-DSCH Semi-Persistent scheduling Information to modify LCR
O

9.2.3.65

_

>HS-DSCH Semi-Persistent scheduling Deactivate Indicator LCR
O

9.2.3.70

_

>E-DCH Semi-Persistent scheduling Information LCR
O

9.2.3.66

_

>E-DCH Semi-Persistent scheduling Information to modify LCR
O

9.2.3.67

_

>E-DCH Semi-Persistent scheduling Deactivate Indicator LCR
O

9.2.3.71

_

RNTI Allocation Indicator
O

ENUMERATED (True)
1.28 Mcps TDD only.
YES
ignore
DCH Measurement Type Indicator
O

9.2.3.76
1.28 Mcps TDD only.
YES
reject
Multi-Carrier E-DCH Information Reconf

0..1

Applicable for Multi-Carrier E-DCH Operation in 1.28 Mcps TDD only.
YES
reject
>CHOICE continue,Setup or Change 
M



–

>>continue




–

>>Setup




–

>>>Multi-Carrier E-DCH Transport Bearer Mode LCR
M

9.2.3.79

–

>>>Multi-Carrier E-DCH Information LCR
M

9.2.3.77

–

>>Change




–

>>>Multi-Carrier E-DCH Transport Bearer Mode LCR
O

9.2.3.79

–

>>>Multi-Carrier E-DCH Information LCR
O

9.2.3.77

–

>>>Removal UL Multi-Carrier info

0..<maxNrOfULCarriersLCR-1>


–

>>>>UARFCN
M

9.2.1.66
Corresponds to Nt TS 25.105 [17].
–

MU-MIMO Indicator
O

9.2.3.82
1.28 Mcps TDD only.
YES
reject
UE support of non-rectangular resource allocation
O

ENUMERATED (support)
1.28 Mcps TDD only.
The absence of this IE indicates that the UE does not support the non-rectangular resource allocation.
YES
ignore

Range Bound
Explanation
maxNrOfCCTrCHs
Maximum number of CCTrCHs for a UE.
maxNrOfDCHs
Maximum number of DCHs for one UE.
maxNrOfRLs
Maximum number of RLs for one UE
maxNrOfULCarriersLCR
Maximum number of uplink frequencis in Multi-Carrier E-DCH Operation.

9.1.17	RADIO LINK RECONFIGURATION RESPONSE
9.1.17.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

RL Information Response

0..<maxNrOfRLs>


EACH
ignore
>RL ID
M

9.2.1.49

–

>Maximum Uplink SIR
O

Uplink SIR
9.2.1.69

–

>Minimum Uplink SIR
O

Uplink SIR
9.2.1.69

–

>Maximum DL TX Power
O

DL Power
9.2.1.21A

–

>Minimum DL TX Power
O

DL Power
9.2.1.21A

–

>Not Used
O

NULL

–

>DCH Information Response
O

9.2.1.16A

YES
ignore
>DL Code Information
O

FDD DL Code Information
9.2.2.14A

YES
ignore
>DL Power Balancing Updated Indicator
O

9.2.2.10D

YES
ignore
>E-DCH FDD Information Response
O

9.2.2.4C

YES
ignore
>E-DCH RL Set ID
O

RL Set ID 9.2.2.35

YES
ignore
>E-DCH FDD DL Control Channel Information
O

9.2.2.4D

YES
ignore
>F-DPCH Slot Format
O

9.2.2.85

YES
ignore
>HS-DSCH Preconfiguration Info
O

9.2.2.99

YES
ignore
>Non-Serving RL Preconfiguration Info
O

9.2.2.125

YES
ignore
>F-TPICH Information Response
O

9.2.2.143

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
HS-DSCH-RNTI
O

9.2.1.30P

YES
ignore
HS-DSCH Information Response
O

HS-DSCH FDD Information Response 9.2.2.19b

YES
ignore
MAC-hs Reset Indicator
O

9.2.1.34B

YES
ignore
Continuous Packet Connectivity HS-SCCH less Information Response
O

9.2.2.75

YES
ignore
Additional HS Cell Information Response

0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release.
EACH
ignore
>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>HS-DSCH-RNTI
M

9.2.1.30P

–

>HS-DSCH FDD Secondary Serving Information Response
M

9.2.2.19ba

–

Additional E-DCH Cell Information Response RLReconf

0..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
EACH
ignore
>Additional E-DCH FDD Information Response
O

9.2.2.120
For new E-DCH Radio Links on secondary carrier.
–

>Additional Modified E-DCH FDD Information Response
O

9.2.2.121

–


Range Bound
Explanation
maxNrOfRLs
Maximum number of RLs for a UE.
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.1.17.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID 
M

9.2.1.59

–

RL Information Response

0..<maxNrOfRLs>

See note 1 below.
YES
ignore
>RL ID
M

9.2.1.49

–

>Maximum Uplink SIR
O

Uplink SIR
9.2.1.69

–

>Minimum Uplink SIR
O

Uplink SIR
9.2.1.69

–

>Maximum DL TX Power
O

DL Power
9.2.1.21A

–

>Minimum DL TX Power
O

DL Power
9.2.1.21A

–

>DCH Information Response
O

9.2.1.16A

YES
ignore
>DL CCTrCH Information

0..<maxNrOfCCTrCHs>

For DCH.
GLOBAL
ignore
>>CCTrCH ID
M

9.2.3.2

–

>>DL DPCH To Modify LCR

0..1

Applicable to 1.28Mcps TDD only.
YES
ignore
>>>DL Timeslot Information LCR

0..<maxNrOfTsLCR>


–

>>>>Time Slot LCR
M

9.2.3.12a

–

>>>>Maximum DL TX Power
O

DL Power
9.2.1.21A
Maximum allowed power on DPCH.
–

>>>>Minimum DL TX Power
O

DL Power
9.2.1.21A
Minimum allowed power on DPCH.
–

>>CCTrCH Maximum DL TX Power
O

DL Power
9.2.1.21A
Maximum allowed power on DPCH Applicable to 3.84Mcps TDD and 7.68Mcps TDD only.
YES
ignore
>>CCTrCH Minimum DL TX Power
O

DL Power
9.2.1.21A
Minimum allowed power on DPCH Applicable to 3.84Mcps TDD and 7.68Mcps TDD only.
YES
ignore
>Uplink Timing Advance Control LCR
O

9.2.3.13K
Applicable to 1.28Mcps TDD only.
YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
HS-DSCH-RNTI
O

9.2.1.30P

YES
ignore
HS-DSCH Information Response
O

HS-DSCH TDD Information Response
9.2.3.3ab

YES
ignore
MAC-hs Reset Indicator
O

9.2.1.34B

YES
ignore
E-DCH Information Response
O

E-DCH TDD Information Response 9.2.3.41
3.84Mcps TDD only.
YES
ignore
E-DCH Information Response 7.68Mcps
O

E-DCH TDD Information Response 7.68Mcps 9.2.3.52
7.68Mcps TDD only.
YES
ignore
E-DCH Information Response 1.28Mcps
O

E-DCH TDD Information Response 1.28Mcps 9.2.3.41a
1.28Mcps TDD only.
YES
ignore
PowerControl GAP
O

INTEGER (1..255)
1.28Mcps TDD only.
YES
ignore
Idle Interval Information
O

9.2.3.60
TDD only.
YES
ignore
Continuous Packet Connectivity DRX Information Response LCR
O

9.2.3.63
1.28 Mcps TDD only.
YES
ignore
HS-DSCH Semi-Persistent scheduling Information Response LCR
O

9.2.3.68
1.28 Mcps TDD only.
YES
ignore
E-DCH Semi-Persistent scheduling Information Response LCR
O

9.2.3.69
1.28 Mcps TDD only.
YES
ignore
E-RNTI for FACH
O

E-RNTI
9.2.1.94
1.28 Mcps TDD only.
YES
ignore
H-RNTI for FACH
O

HS-DSCH-RNTI
9.2.1.30P
1.28 Mcps TDD only.
YES
ignore
DCH Measurement Occasion Information
O

9.2.3.75
1.28 Mcps TDD only.
YES
reject
Multi-Carrier E-DCH Information Response LCR
O

9.2.3.78
1.28 Mcps TDD only.
YES
ignore
MU-MIMO Information
O

9.2.3.81
1.28 Mcps TDD only.
YES
reject
Non-rectangular resource allocation indicator
O

ENUMERATED (activate)
1.28 Mcps TDD only.
The absence of this IE indicates that the non-rectangular resource allocation is not used.
YES
reject
Non-rectangular resource timeslot set
O

BIT STRING (SIZE(7))
1.28 Mcps TDD only.
The absence of this IE means that the specific timeslot(s) of the non-rectangular resource is defined in [34].
This IE indicats which of the timeslot(s) is/are allocated for non-rectangular resource. 
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 allocated for non-rectangular resource. The value 1 of a bit means the corresponding timeslot is allocated for non-rectangular resource.
Bit 0 is the first/leftmost bit of the bit string.
YES
reject
Note 1:	This information element is a simplified representation of the ASN.1. Repetition 1 and repetition 2 through maxNrOfRLs are represented by separate ASN.1 structures with different criticalities.

Range bound
Explanation
maxNrOfCCTrCHs
Maximum number of CCTrCHs for a UE.
maxNrOfTsLCR
Maximum number of Timeslots for a UE for 1.28Mcps TDD.
maxNrOfRLs
Maximum number of RLs for one UE.

9.1.18	RADIO LINK FAILURE INDICATION
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

CHOICE Reporting Object
M


Object for which the Failure shall be reported.
YES
ignore
>RL




–

>>RL Information

1..<maxNrOfRLs>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>Cause 
M

9.2.1.5

–

>RLS



FDD only.
–

>>RL Set Information

1..<maxNrOfRLSets>


EACH
ignore
>>>RL Set ID
M

9.2.2.35

–

>>>Cause 
M

9.2.1.5

–

>CCTrCH



TDD only.


>>RL ID
M

9.2.1.49

–

>>CCTrCH List

1..<maxnoCCTrCHs>


EACH
ignore
>>>CCTrCH ID 
M

9.2.3.2

–

>>>Cause 
M

9.2.1.5

–


Range bound
Explanation
maxNrOfRLs
Maximum number of RLs for one UE.
maxNrOfRLSets
Maximum number of RL Sets for one UE.
maxNrOfCCTrCHs 
Maximum number of CCTrCHs for a UE.

9.1.19	RADIO LINK RESTORE INDICATION
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

CHOICE Reporting Object
M


Object for which the Restoration shall be reported.
YES
ignore
>RL



TDD only.
–

>>RL Information

1..<maxNrOfRLs>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>RLS



FDD only.
–

>>RL Set Information

1..<maxNrOfRLSets>


EACH
ignore
>>>RL Set ID
M

9.2.2.35

–

>CCTrCH



TDD only.


>>RL ID
M

9.2.1.49

–

>>CCTrCH List

1..<maxnoCCTrCHs>


EACH
ignore
>>>CCTrCH ID 
M

9.2.3.2

–


Range bound
Explanation
maxNrOfRLs
Maximum number of RLs for one UE.
maxNrOfRLSets
Maximum number of RL Sets for one UE.
maxNrOfCCTrCHs 
Maximum number of CCTrCHs for a UE.

9.1.20	DL POWER CONTROL REQUEST [FDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Power Adjustment Type
M

9.2.2.28

YES
ignore
DL Reference Power
C-Common

DL Power
9.2.1.21A

YES
ignore
Inner Loop DL PC Status
O

9.2.2.21a

YES
ignore
DL Reference Power Information
C-Individual
1..<maxNrOfRLs>


EACH
ignore
>RL ID
M

9.2.1.49

–

>DL Reference Power
M

DL Power
9.2.1.21A

–

Max Adjustment Step
C-CommonOrIndividual

9.2.2.23

YES
ignore
Adjustment Period
C-CommonOrIndividual

9.2.2.B

YES
ignore
Adjustment Ratio
C-CommonOrIndividual

9.2.2.C

YES
ignore

Condition
Explanation
Common
The IE shall be present if the Power Adjustment Type IE is set to “Common”.
Individual
The IE shall be present if the Power Adjustment Type IE is set to “Individual”.
CommonOrIndividual
The IE shall be present if the Power Adjustment Type IE is set to “Common” or “Individual”.

Range Bound
Explanation
maxNrOfRLs
Maximum number of RLs for one UE.

9.1.21	PHYSICAL CHANNEL RECONFIGURATION REQUEST
9.1.21.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

RL Information

1


YES
reject
>RL ID
M

9.2.1.49

–

>DL Code Information
M

FDD DL Code Information
9.2.2.14A

YES
notify
>F-DPCH Slot Format
O

9.2.2.85

YES
ignore
>F-TPICH Reconfiguration Information
O

9.2.2.144

YES
ignore

9.1.21.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

RL Information

1


YES
reject
>RL ID
M

9.2.1.49

–

>UL CCTrCH Information

0.. <maxNrOfCCTrCHs>


GLOBAL
reject
>>CCTrCH ID
M

9.2.3.2

–

>>UL DPCH Information

1


YES
notify
>>>Repetition Period
O

9.2.3.7

–

>>>Repetition Length
O

9.2.3.6

–

>>>TDD DPCH Offset
O

9.2.3.8A

–

>>>UL Timeslot Information

0..<maxNrOfTS>

Applicable to 3.84Mcps TDD only.
–

>>>>Time Slot
M

9.2.1.56

–

>>>>Midamble Shift And Burst Type
O

9.2.3.4

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>UL Code Information
O

TDD UL Code Information
9.2.3.10A

–

>>>UL Timeslot Information LCR

0..<maxNrOfTsLCR>

Applicable to 1.28Mcps TDD only.
GLOBAL
reject
>>>>Time Slot LCR
M

9.2.3.12a

–

>>>>Midamble Shift LCR
O

9.2.3.4C

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>UL Code Information LCR
O

TDD UL Code Information LCR
9.2.3.10B

–

>>>>PLCCH Information
O

9.2.3.17

YES
reject
>>>UL Timeslot Information 7.68Mcps

0..<maxNrOfTS>

Applicable to 7.68Mcps TDD only.
GLOBAL
reject
>>>>Time Slot
M

9.2.1.56

–

>>>>Midamble Shift And Burst Type 7.68Mcps
O

9.2.3.23

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>UL Code Information 7.68Mcps
O

TDD UL Code Information
9.2.3.27

–

>DL CCTrCH Information

0..<maxNrOfCCTrCHs>


GLOBAL
reject
>>CCTrCH ID
M

9.2.3.2

–

>>DL DPCH Information

1


YES
notify
>>>Repetition Period
O

9.2.3.7

–

>>>Repetition Length
O

9.2.3.6

–

>>>TDD DPCH Offset
O

9.2.3.8A

–

>>>DL Timeslot Information

0..<maxNrOfTS>

Applicable to 3.84Mcps TDD only.
–

>>>>Time Slot
M

9.2.1.56

–

>>>>Midamble Shift And Burst Type
O

9.2.3.4

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>DL Code Information
O

TDD DL Code Information
9.2.3.8C

–

>>>DL Timeslot Information LCR

0..<maxNrOfTsLCR>

Applicable to 1.28Mcps TDD only.
GLOBAL
reject
>>>>Time Slot LCR
M

9.2.3.12a

–

>>>>Midamble Shift LCR
O

9.2.3.4C

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>DL Code Information LCR
O

TDD DL Code Information LCR
9.2.3.8D

–

>>>DL Timeslot Information 7.68Mcps

0..<maxNrOfTS>

Applicable to 7.68Mcps TDD only.
GLOBAL
reject
>>>>Time Slot
M

9.2.1.56

–

>>>>Midamble Shift And Burst Type 7.68Mcps
O

9.2.3.23

–

>>>>TFCI Presence
O

9.2.1.55

–

>>>>DL Code Information 7.68Mcps
O

TDD DL Code Information 7.68Mcps
9.2.3.29

–

>HS-PDSCH Timeslot Specific Information

0..<maxNrOfDLTs>

Applicable to 3.84Mcps TDD only.
GLOBAL
reject
>>Time Slot
M

9.2.1.56

–

>>Midamble Shift And Burst Type
M

9.2.3.4

–

>HS-PDSCH Timeslot Specific Information LCR

0..<maxNrOfDLTsLCR>

Applicable to 1.28Mcps TDD only.
GLOBAL
reject
>>Time Slot LCR
M

9.2.3.12a

–

>>Midamble Shift LCR
M

9.2.3.4C

–

>HS-PDSCH Timeslot Specific Information 7.68Mcps

0..<maxNrOfDLTs>

Applicable to 7.68Mcps TDD only.
GLOBAL
reject
>>Time Slot
M

9.2.1.56

–

>>Midamble Shift And Burst Type 7.68Mcps
M

9.2.3.23

–

>UARFCN
O

9.2.1.66
Applicable to 1.28Mcps TDD only.
YES
ignore

Range bound
Explanation


maxNrOfCCTrCHs
Maximum number of CCTrCHs for a UE.
maxNrOfTS
Maximum number of Timeslots for a UE for 3.84Mcps TDD or 7.68Mcps TDD.
maxNrOfTsLCR
Maximum number of Timeslots for a UE for 1.28Mcps TDD.
maxNrOfDLTs
Maximum number of downlink time slots per Radio Link for 3.84Mcps TDD or 7.68Mcps TDD.
maxNrOfDLTsLCR
Maximum number of Downlink time slots per Radio Link for 1.28Mcps TDD.

9.1.22	PHYSICAL CHANNEL RECONFIGURATION COMMAND
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

CFN
M

9.2.1.9

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore

9.1.23	PHYSICAL CHANNEL RECONFIGURATION FAILURE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Cause
M

9.2.1.5

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore

9.1.24	UPLINK SIGNALLING TRANSFER INDICATION
9.1.24.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

UC-ID
M

9.2.1.71

YES
ignore
SAI
M

9.2.1.52

YES
ignore
Cell GAI
O

9.2.1.5A

YES
ignore
C-RNTI
M

9.2.1.14

YES
ignore
S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall be ignored.
YES
ignore
D-RNTI
O

9.2.1.24

YES
ignore
Propagation Delay
M

9.2.2.33

YES
ignore
STTD Support Indicator
M

9.2.2.45

YES
ignore
Closed Loop Mode1 Support Indicator
M

9.2.2.2

YES
ignore
L3 Information
M

9.2.1.32

YES
ignore
CN PS Domain Identifier
O

9.2.1.12

YES
ignore
CN CS Domain Identifier
O

9.2.1.11

YES
ignore
URA Information
O

9.2.1.70B

YES
ignore
Cell GA Additional Shapes
O

9.2.1.5B

YES
ignore
DPC Mode Change Support Indicator
O

9.2.2.56

YES
ignore
Common Transport Channel Resources Initialisation Not Required
O

9.2.1.12F

YES
ignore
Cell Capability Container FDD
O

9.2.2.D

YES
ignore
SNA Information 
O

9.2.1.52Ca

YES
ignore
Cell Portion ID
O

9.2.2.E

YES
ignore
Active MBMS Bearer Service List

0..<maxNrOfActiveMBMSServices>


GLOBAL
ignore
>TMGI
M

9.2.1.80

–

>Transmission Mode
M

9.2.1.81

–

Inter-frequency Cell List

0..<maxCellsMeas>


GLOBAL
ignore
>DL UARFCN
M

UARFCN
9.2.1.66

–

>UL UARFCN
O

UARFCN
9.2.1.66

–

>Primary Scrambling Code
M

9.2.1.45

–

Extended Propagation Delay
O

9.2.2.33a

YES
ignore
HS-DSCH-RNTI
O

9.2.1.30P

YES
ignore
Multiple PLMN List
O

9.2.1.117

YES
ignore
E-RNTI
O

9.2.1.94

YES
ignore
Max UE DTX Cycle
C-DTX-DRXCapability

9.2.2.87

YES
ignore
Cell Capability Container Extension FDD
O

9.2.2.123

YES
ignore
Secondary Serving Cell List
O

9.2.2.101

YES
ignore
Dual Band Secondary Serving Cell List
O

Secondary Serving Cell List 9.2.2.101

YES
ignore
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
ignore

Condition
Explanation
DTX-DRXCapability
The IE shall be present if the Continuous Packet Connectivity DTX-DRX Support Indicator IE in Cell Capability Container FDD IE is set to 1.

Range bound
Explanation
maxNrOfActiveMBMSServices
Maximum number of MBMS bearer services that are active in parallel.
maxCellsMeas
Maximum number of inter-frequency cells measured by a UE.

9.1.24.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

UC-ID
M

9.2.1.71

YES
ignore
SAI
M

9.2.1.52

YES
ignore
Cell GAI
O

9.2.1.5A

YES
ignore
C-RNTI
M

9.2.1.14

YES
ignore
S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall be ignored.
YES
ignore
D-RNTI
O

9.2.1.24

YES
ignore
Rx Timing Deviation
M

9.2.3.7A

YES
ignore
L3 Information
M

9.2.1.32

YES
ignore
CN PS Domain Identifier
O

9.2.1.12

YES
ignore
CN CS Domain Identifier
O

9.2.1.11

YES
ignore
URA Information
O

9.2.1.70B

YES
ignore
Cell GA Additional Shapes
O

9.2.1.5B

YES
ignore
Common Transport Channel Resources Initialisation Not Required
O

9.2.1.12F

YES
ignore
Cell Capability Container TDD
O

9.2.3.1a
Applicable to 3.84Mcps TDD only.
YES
ignore
Cell Capability Container TDD LCR
O

9.2.3.1b
Applicable to 1.28Mcps TDD only.
YES
ignore
SNA Information 
O

9.2.1.52Ca

YES
ignore
Active MBMS Bearer Service List

0..<maxNrOfActiveMBMSServices>


GLOBAL
ignore
>TMGI
M

9.2.1.80

–

>Transmission Mode
M

9.2.1.81

–

Cell Capability Container 7.68 Mcps TDD
O

9.2.3.31
Applicable to 7.68Mcps TDD only.
YES
ignore
Rx Timing Deviation 7.68Mcps
O

9.2.3.30
Applicable to 7.68Mcps TDD only.
YES
ignore
Rx Timing Deviation 3.84Mcps Extended
O

9.2.3.35
Applicable to 3.84Mcps TDD only.
YES
ignore
Multiple PLMN List
O

9.2.1.117

YES
ignore
HS-DSCH-RNTI
O

9.2.1.30P

YES
ignore
E-RNTI
O

9.2.1.94

YES
ignore
Cell Portion LCR ID
O

9.2.3.73
Applicable to 1.28Mcps TDD only.
YES
ignore
Cell Capability Container Extension TDD LCR
O

9.2.3.80
Applicable to 1.28Mcps TDD only.
YES
ignore
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
ignore

Range bound
Explanation
maxNrOfActiveMBMSServices
Maximum number of MBMS bearer services that are active in parallel.

9.1.24A	GERAN UPLINK SIGNALLING TRANSFER INDICATION
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

UC-ID 
M

9.2.1.71
UC-ID may be a GERAN cell identifier.
YES
ignore
SAI
M

9.2.1.52

YES
ignore
S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall be ignored.
YES
ignore
D-RNTI
O

9.2.1.24

YES
ignore
L3 Information
M

9.2.1.32

YES
ignore
CN PS Domain Identifier
O

9.2.1.12

YES
ignore
CN CS Domain Identifier
O

9.2.1.11

YES
ignore
URA Information
O

9.2.1.70B
URA information may be GRA information.
YES
ignore
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
ignore

9.1.25	DOWNLINK SIGNALLING TRANSFER REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

C-ID
M

9.2.1.6
May be a GERAN cell identifier.
YES
ignore
D-RNTI
M

9.2.1.24

YES
ignore
L3 Information
M

9.2.1.32

YES
ignore
D-RNTI Release Indication
M

9.2.1.25

YES
ignore
URA ID
O

9.2.1.70

YES
ignore
MBMS Bearer Service List

0..<maxNrOfMBMSServices>


GLOBAL
ignore
>TMGI
M

9.2.1.80

–

Old URA ID
O

URA ID
9.2.1.70

YES
ignore
SRNC-ID
C-URA

RNC-ID
9.2.1.50
If the Extended SRNC-ID IE is included in the message, the SRNC-ID IE shall be ignored.
YES
ignore
Extended SRNC-ID
O

Extended RNC-ID
9.2.1.50a
The Extended SRNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject
Enhanced PCH Capability
O

9.2.1.132
FDD and 1.28Mcps TDD only.
YES
ignore

Condition
Explanation
URA
The IE shall be present if the URA ID IE or Old URA ID IE is present.

Range bound
Explanation
maxNrOfMBMSServices
Maximum number of MBMS bearer services that a UE can join.

9.1.26	RELOCATION COMMIT
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

D-RNTI
O

9.2.1.24

YES
ignore
RANAP Relocation Information
O

9.2.1.47

YES
ignore

9.1.27	PAGING REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

CHOICE Paging Area
M



YES
ignore
>URA




–

>>URA ID
M

9.2.1.70
May be a GRA-ID.
–

>Cell



UTRAN only.
–

>>C-ID
M

9.2.1.6

–

SRNC-ID
M

RNC-ID
9.2.1.50
May be a BSC-ID.
If the Extended SRNC-ID IE is included in the message, the SRNC-ID IE shall be ignored.
YES
ignore
S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall be ignored.
YES
ignore
IMSI
M

9.2.1.31

YES
ignore
DRX Cycle Length Coefficient
M

9.2.1.26

YES
ignore
CN Originated Page to Connected Mode UE

0..1


YES
ignore
>Paging Cause
M

9.2.1.41E

–

>CN Domain Type
M

9.2.1.11A

–

>Paging Record Type 
M

9.2.1.41F

–

Extended SRNC-ID
O

Extended RNC-ID
9.2.1.50a
The Extended SRNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject
Enhanced PCH Capability
O

9.2.1.132
FDD and 1.28Mcps TDD only.
YES
ignore
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
ignore

9.1.28	DEDICATED MEASUREMENT INITIATION REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
reject
CHOICE Dedicated Measurement Object Type
M



YES
reject
>RL




–

>>RL Information

1..<maxNrOfRLs>


EACH
reject
>>>RL ID
M

9.2.1.49

–

>>>DPCH ID
O

9.2.3.3
TDD only.
–

>>>DPCH ID 7.68Mcps
O

9.2.3.34
7.68Mcps TDD only.
–

>>>HS-SICH Information

0..<maxNrOfHSSICHs>

TDD only.
GLOBAL
reject
>>>>HS-SICH ID
M

9.2.3.3ad

–

>RLS



FDD only.
–

>>RL Set Information

1..<maxNrOfRLSets>


EACH
reject
>>>RL Set ID
M

9.2.2.35

–

>ALL RL


NULL

–

>ALL RLS


NULL
FDD only.
–

Dedicated Measurement Type
M

9.2.1.18

YES
reject
Measurement Filter Coefficient
O

9.2.1.36

YES
reject
Report Characteristics
M

9.2.1.48

YES
reject
CFN reporting indicator
M

FN reporting indicator 9.2.1.28A

YES
reject
CFN
O

9.2.1.9

YES
reject
Partial Reporting Indicator
O

9.2.1.41Fa

YES
ignore
Measurement Recovery Behavior 
O

9.2.1.38A

YES
ignore 
Alternative Format Reporting Indicator
O

9.2.1.2D

YES
ignore

Range bound
Explanation
maxNrOfRLs
Maximum number of individual RLs a measurement can be started on.
maxNrOfRLSets
Maximum number of individual RL Sets a measurement can be started on.

9.1.29	DEDICATED MEASUREMENT INITIATION RESPONSE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
CHOICE Dedicated Measurement Object Type
O


Dedicated Measurement Object Type the measurement was initiated with.
YES
ignore
>RL or ALL RL



See Note 1.
–

>>RL Information

1..<maxNrOfRLs>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>DPCH ID
O

9.2.3.3
TDD only.
–

>>>DPCH ID 7.68Mcps
O

9.2.3.34
7.68Mcps TDD only.
–

>>>Dedicated Measurement Value
M

9.2.1.19

–

>>>CFN
O

9.2.1.9
Dedicated Measurement Time Reference.
_

>>>HS-SICH ID
O

9.2.3.3ad
TDD only
YES
reject
>>>Multiple Dedicated Measurement Value Information

0..<maxNrOfDPCHsPerRL-1>

Applicable to 3.84Mcps TDD only.
GLOBAL
ignore
>>>>DPCH ID
M

9.2.3.3

–

>>>>Dedicated Measurement Value
M

9.2.1.19

–

>>>Multiple Dedicated Measurement Value Information LCR

0..<maxNrOfDPCHsLCRPerRL-1>

Applicable to 1.28Mcps TDD only.
GLOBAL
ignore
>>>>DPCH ID
M

9.2.3.3

–

>>>>Dedicated Measurement Value
M

9.2.1.19

–

>>>Multiple HS-SICH Measurement Value Information

0..<maxNrOfHSSICHs -1>

TDD only.
GLOBAL
ignore
>>>>HS-SICH ID
M

9.2.3.3ad

–

>>>>Dedicated Measurement Value
M

9.2.1.19

–

>>>Multiple Dedicated Measurement Value Information 7.68Mcps

0..<maxNrOfDPCHs768PerRL-1>

Applicable to 7.68Mcps TDD only.
GLOBAL
ignore
>>>>DPCH ID 7.68Mcps
M

9.2.3.34

–

>>>>Dedicated Measurement Value
M

9.2.1.19

–

>RLS or ALL RLS



FDD only 
See Note 2.
–

>>RL Set Information

1..<maxNrOfRLSets>


EACH
ignore
>>>RL Set ID 
M

9.2.2.35

–

>>>Dedicated Measurement Value
M

9.2.1.19

–

>>>CFN
O

9.2.1.9
Dedicated Measurement Time Reference.
_


Criticality Diagnostics
O

9.2.1.13

YES
ignore
Measurement Recovery Support Indicator
O

9.2.1.38C

YES
ignore
Note 1:	This is a simplified representation of the ASN.1: there are two different choice tags “RL” and “ALL RL” in the ASN.1, each having exactly the same structure.
Note 2:	This is a simplified representation of the ASN.1: there are two different choice tags “RLS” and “ALL RLS” in the ASN.1, each having exactly the same structure.

Range bound
Explanation
maxNrOfRLs
Maximum number of individual RLs the measurement can be started on.
maxNrOfRLSets
Maximum number of individual RL Sets the measurement can be started on.
maxNrOfDPCHsPerRL
Maximum number of DPCHs per RL a measurement can be started on for 3.84Mcps TDD.
maxNrOfDPCHsLCRPerRL
Maximum number of DPCHs per RL a measurement can be started on for 1.28Mcps TDD.
maxNrOfHSSICHs
Maximum number of HSSICHs per RL a measurement can be started on.
maxNrOfDPCHs768PerRL
Maximum number of DPCHs per RL a measurement can be started on for 7.68Mcps TDD.

9.1.30	DEDICATED MEASUREMENT INITIATION FAILURE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
Cause
M

9.2.1.5

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
CHOICE Dedicated Measurement Object Type
O


Dedicated Measurement Object Type the measurement was initiated with.
YES
ignore
>RL or ALL RL




–

>>Unsuccessful RL Information

1..<maxNrOfRLs>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>Individual Cause
O

Cause
9.2.1.5

–

>>Successful RL Information

0..<maxNrOfRLs-1>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>DPCH ID
O

9.2.3.3
TDD only.
–

>>>Dedicated Measurement Value
M

9.2.1.19

–

>>>CFN
O

9.2.1.9
Dedicated Measurement Time Reference.
_

>>>HS-SICH ID
O

9.2.3.3ad
TDD only.
YES
reject
>RLS or ALL RLS



FDD only.
–

>>Unsuccessful RL Set Information

1..<maxNrOfRLSets>


EACH
ignore
>>>RL Set ID 
M

9.2.2.35

–

>>>Individual Cause
O

Cause
9.2.1.5

–

>>Successful RL Set Information

0..<maxNrOfRLSets-1>


EACH
ignore
>>>RL Set ID 
M

9.2.2.35

–

>>>Dedicated Measurement Value
M

9.2.1.19

–

>>>CFN
O

9.2.1.9
Dedicated Measurement Time Reference.
_


Range bound
Explanation
maxNrOfRLs
Maximum number of individual RLs the measurement can be started on.
maxNrOfRLSets
Maximum number of individual RL Sets the measurement can be started on.

9.1.31	DEDICATED MEASUREMENT REPORT
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
CHOICE Dedicated Measurement Object Type
M


Dedicated Measurement Object Type the measurement was initiated with.
YES
ignore
>RL or ALL RL



See Note 1.
–

>>RL Information

1..<maxNrOfRLs>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>DPCH ID
O

9.2.3.3
TDD only.
–

>>>DPCH ID 7.68Mcps
O

9.2.3.34
7.68Mcps TDD only.
–

>>>Dedicated Measurement Value Information
M

9.2.1.19A

–

>>>HS-SICH ID
O

9.2.3.3ad
TDD only.
YES
ignore
>RLS or ALL RLS



FDD only 
See Note 2.
–

>>RL Set Information

1..<maxNrOfRLSets>


EACH
ignore
>>>RL Set ID
M

9.2.2.35

–

>>>Dedicated Measurement Value Information
M

9.2.1.19A

–

Measurement Recovery Reporting Indicator
O

9.2.1.38B

YES
ignore
Note 1:	This is a simplified representation of the ASN.1: there are two different choice tags “RL” and “ALL RL” in the ASN.1, each having exactly the same structure.
Note 2:	This is a simplified representation of the ASN.1: there are two different choice tags “RLS” and “ALL RLS” in the ASN.1, each having exactly the same structure.

Range bound
Explanation
maxNrOfRLs
Maximum number of individual RLs the measurement can be started on.
maxNrOfRLSets
Maximum number of individual RL Sets the measurement can be started on.

9.1.32	DEDICATED MEASUREMENT TERMINATION REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore

9.1.33	DEDICATED MEASUREMENT FAILURE INDICATION
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
Cause
M

9.2.1.5

YES
ignore
CHOICE Dedicated Measurement Object Type
O


Dedicated Measurement Object Type the measurement was initiated with.
YES
ignore
>RL or ALL RL




–

>>Unsuccessful RL Information

1..<maxNrOfRLs>


EACH
ignore
>>>RL ID
M

9.2.1.49

–

>>>Individual Cause
O

Cause
9.2.1.5

–

>RLS or ALL RLS



FDD only.
–

>>Unsuccessful RL Set Information

1..<maxNrOfRLSets>


EACH
ignore
>>>RL Set ID 
M

9.2.2.35

–

>>>Individual Cause
O

Cause
9.2.1.5

–


Range bound
Explanation
maxNrOfRLs
Maximum number of individual RLs the measurement can be started on.
maxNrOfRLSets
Maximum number of individual RL Sets the measurement can be started on.

9.1.34	COMMON TRANSPORT CHANNEL RESOURCES RELEASE REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

D-RNTI
M

9.2.1.24

YES
ignore

9.1.35	COMMON TRANSPORT CHANNEL RESOURCES REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

D-RNTI
M

9.2.1.24

YES
reject
C-ID
O

9.2.1.6

YES
reject
Transport Bearer Request Indicator
M

9.2.1.61
Request a new transport bearer or to use an existing bearer for the user plane.
YES
reject
Transport Bearer ID
M

9.2.1.60
Indicates the Iur transport bearer to be used for the user plane.
YES
reject
Permanent NAS UE Identity
O

9.2.1.73

YES
ignore
Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
MBMS Bearer Service List

0..<maxNrOfMBMSServices>


GLOBAL
notify
>TMGI
M

9.2.1. 80

–

TNL QoS 
O

9.2.1.56A
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
Enhanced FACH Support Indicator
O

9.2.1.131
FDD and 1.28Mcps TDD only.
YES
ignore
Common E-DCH Support Indicator
O

9.2.2.92
FDD only.
YES
ignore
HS-DSCH Physical Layer Category
O

9.2.1.30Oa

YES
ignore
UE with enhanced HS-SCCH support indicator
O

NULL
UE supports enhanced HS-SCCH functionality:
- UE supports different HS-SCCH in consecutive TTIs.
YES
ignore

Range bound
Explanation
maxNrOfMBMSServices
Maximum number of MBMS bearer services that a UE can join.

9.1.36	COMMON TRANSPORT CHANNEL RESOURCES RESPONSE
9.1.36.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall be ignored.
YES
ignore
C-RNTI
O

9.2.1.14

YES
ignore
FACH Info for UE Selected S-CCPCH

1


YES
ignore
>FACH Flow Control Information
M

9.2.1.26C
If the Enhanced FACH Information Response IE is included in the message, the FACH Flow Control Information IE shall be ignored.
YES
ignore
Transport Layer Address
O

9.2.1.62

YES
ignore
Binding ID
O

9.2.1.3

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
C-ID
M

9.2.1.6

YES
ignore
Active MBMS Bearer Service List

0..<maxNrOfActiveMBMSServices>


GLOBAL
ignore
>TMGI
M

9.2.1.80

–

>Transmission Mode
M

9.2.1.81

–

Enhanced FACH Information Response

0..1


YES
ignore
>Common HS-DSCH-RNTI Priority Queue Information for Enhanced FACH
M

Priority Queue Information for Enhanced FACH/PCH
9.2.1.133

–

>Dedicated HS-DSCH-RNTI Priority Queue Information for Enhanced FACH
M

Priority Queue Information for Enhanced FACH/PCH
9.2.1.133

–

>Priority Queue Information for Enhanced PCH
O

Priority Queue Information for Enhanced FACH/PCH
9.2.1.133

–

>HS-DSCH Initial Capacity Allocation
M

9.2.1.30Na

–

>HS-DSCH-RNTI
O

9.2.1.30P

–

Common E-DCH MAC-d Flow Specific Information
O

9.2.2.93

–

E-RNTI
O

9.2.1.94

YES
ignore
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
ignore

Range bound
Explanation
maxNrOfActiveMBMSServices
Maximum number of MBMS bearer services that are active in parallel.

9.1.36.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall be ignored.
YES
ignore
C-RNTI
O

9.2.1.14

YES
ignore
FACH Info for UE Selected S-CCPCHs

1


YES
ignore
>FACH Flow Control Information
M

9.2.1.26C
If the Enhanced FACH Information Response IE is included in the message, the FACH Flow Control Information IE shall be ignored.
YES
ignore
Transport Layer Address
O

9.2.1.62

YES
ignore
Binding ID
O

9.2.1.3

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
C-ID
M

9.2.1.6

YES
ignore
Active MBMS Bearer Service List

0..<maxNrOfActiveMBMSServices>


GLOBAL
ignore
>TMGI
M

9.2.1.80

–

>Transmission Mode
M

9.2.1.81

–

Enhanced FACH Information Response

0.. 1


YES
ignore
>Common HS-DSCH-RNTI Priority Queue Information for Enhanced FACH
M

Priority Queue Information for Enhanced FACH/PCH
9.2.1.133

–

>Dedicated HS-DSCH-RNTI Priority Queue Information for Enhanced FACH
M

Priority Queue Information for Enhanced FACH/PCH
9.2.1.133

–

>Priority Queue Information for Enhanced PCH
O

Priority Queue Information for Enhanced FACH/PCH
9.2.1.133

–

>HS-DSCH Initial Capacity Allocation
M

9.2.1.30Na

–

>HS-DSCH-RNTI
O

9.2.1.30P

–

Common E-DCH MAC-d Flow Specific Information LCR
O

9.2.3.58

YES
ignore
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
ignore

Range bound
Explanation
maxNrOfActiveMBMSServices
Maximum number of MBMS bearer services that are active in parallel.

9.1.37	COMMON TRANSPORT CHANNEL RESOURCES FAILURE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall be ignored.
YES
ignore
Cause
M

9.2.1.5

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
ignore

9.1.38	COMPRESSED MODE COMMAND [FDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Active Pattern Sequence Information
M

9.2.2.A

YES
ignore

9.1.39	ERROR INDICATION
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Cause
O

9.2.1.5

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
S-RNTI
O

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall not be included.
YES
ignore
D-RNTI
O

9.2.1.24

YES
ignore
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
ignore

9.1.40	DL POWER TIMESLOT CONTROL REQUEST [TDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

DL Time Slot ISCP Info
O

9.2.3.2D
Mandatory for 3.84Mcps TDD and 7.68Mcps TDD, not applicable to 1.28Mcps TDD.
YES
ignore
DL Time Slot ISCP Info LCR
O

9.2.3.2F
Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD.
YES
 ignore
Primary CCPCH RSCP
O

9.2.3.5

YES 
ignore
Primary CCPCH RSCP Delta
O

9.2.3.5a

YES
ignore

9.1.41	RADIO LINK PREEMPTION REQUIRED INDICATION
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

RL Information 

0..<maxNrOfRLs>


EACH
ignore
>RL ID
M

9.2.1.49

–

>E-DCH MAC-d Flow Specific Information

0..<maxNrOfEDCHMACdFlows>


EACH
ignore
>>E-DCH MAC-d Flow ID
M

9.2.1.91

–

HS-DSCH MAC-d Flow Specific Information

0..<maxNrOfMACdFlows>


EACH
ignore
>HS-DSCH MAC-d Flow ID
M

9.2.1.30O

–


Range bound
Explanation
maxNrOfRLs
Maximum number of radio links for one UE.
maxNrOfMACdFlows
Maximum number of HS-DSCH MAC-d flows.
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.1.42	RADIO LINK CONGESTION INDICATION
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Congestion Cause
O

9.2.1.79

YES
ignore
RL Information 

1..<maxNrOfRLs>


EACH
ignore
>RL ID
M

9.2.1.49

–

>DCH Rate Information

1..<maxNrOfDCHs>


EACH
ignore
>>DCH ID
M

9.2.1.16

–

>>Allowed Rate Information
O

9.2.1.2A

–

>E-DCH MAC-d Flow Specific Information

0..<maxNrOfEDCHMACdFlows>


EACH
ignore
>>E-DCH MAC-d Flow ID
M

9.2.1.91

–

>DCH Indicator For E-DCH-HSDPA Operation
O

9.2.2.67

YES
ignore

Range bound
Explanation
maxNrOfRLs
Maximum number of Radio Links for one UE.
maxNrOfDCHs
Maximum number of DCHs for one UE.
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.1.43	COMMON MEASUREMENT INITIATION REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
reject
CHOICE Common Measurement Object Type
M



YES
reject
>Cell




–

>>Reference Cell Identifier
M

UTRAN Cell Identifier 9.2.1.71
May be a GERAN Cell Identifier.
–

>>Time Slot
O

9.2.1.56
3.84Mcps TDD and 7.68 Mcps TDD only.
–

>>Time Slot LCR
O

9.2.3.12a
1.28Mcps TDD only
–

>>Neighbouring Cell Measurement Information

0..<maxNrOfMeasNCells>

UTRAN only.
–

>>>CHOICE Neighbouring Cell Measurement Information




–

>>>>Neighbouring FDD Cell Measurement Information



FDD only.
–

>>>>>Neighbouring FDD Cell Measurement Information
M

9.2.1.41G

–

>>>>Neighbouring TDD Cell Measurement Information



3.84Mcps TDD only.
–

>>>>>Neighbouring TDD Cell Measurement Information
M

9.2.1.41H

–

>>>>Additional Neighbouring Cell Measurement Information




–

>>>>>Neighbouring TDD Cell Measurement InformationLCR



1.28Mcps TDD only.
–

>>>>>>Neighbouring TDD Cell Measurement Information LCR
M

9.2.1.41Dd

YES
reject
>>>>Additional Neighbouring Cell Measurement Information 7.68Mcps




–

>>>>>Neighbouring TDD Cell Measurement Information 7.68Mcps



7.68Mcps TDD only.
–

>>>>>>Neighbouring TDD Cell Measurement Information 7.68Mcps
M

9.2.3.32

YES
reject
>>UARFCN
O

9.2.1.66
Applicable to 1.28Mcps TDD only. 
YES
ignore
>>UpPCH Position LCR
O

9.2.3.56
Applicable to 1.28Mcps TDD only.
YES
ignore
>Additional Common Measurement Object Types



Applicable to 1.28Mcps TDD only.
—

>>GSM Cell




YES
ignore
>>>CGI
M

9.2.1.5D

—

Common Measurement Type
M

9.2.1.12C

YES
reject
Measurement Filter Coefficient
O

9.2.1.36
UTRAN only.
YES
reject
Report Characteristics
M

9.2.1.48

YES
reject
SFN reporting indicator
M

FN reporting indicator 9.2.1.28A

YES
reject
SFN
O

9.2.1.52A
UTRAN only.
YES
reject
Common Measurement Accuracy
O

9.2.1.12A
UTRAN only.
YES
reject
Measurement Recovery Behavior 
O

9.2.1.38A
UTRAN only.
YES
ignore 
GANSS Time ID
O

9.2.1.119a
This IE may only be present if the Common Measurement Type IE is set to “UTRAN GANSS Timing of Cell Frames for UE Positioning”. If the Common Measurement Type IE is set to “UTRAN GANSS Timing of Cell Frames for UE Positioning” and this IE is absent, the GANSS time is Galileo system time.
YES
ignore
Extension Common Measurement Object Type
O


Applicable to 1.28Mcps TDD only.
YES
ignore
>GsmCellList

1..<maxNoOfGsmCell>


YES
ignore
>>Measurement ID
M

9.2.1.37

—

>>GSM Cell




—

>>>CGI
M

9.2.1.5D

—


Range bound
Explanation
maxNrOfMeasNCell
Maximum number of neighbouring cells on which measurements can be performed.
maxNoOfGsmCell
Maximum number of GSM Cells in one message.

9.1.44	COMMON MEASUREMENT INITIATION RESPONSE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
CHOICE Common Measurement Object Type
O


Common Measurement Object Type that the measurement was initiated with.
YES
ignore
>Cell 




–

>>Common Measurement Value
M

9.2.1.12D

–

SFN
O

9.2.1.52A
Common Measurement Time Reference, UTRAN only.
YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
Common Measurement Achieved Accuracy
O

Common Measurement Accuracy
9.2.1.12A
UTRAN only.
YES
 ignore
Measurement Recovery Support Indicator
O

9.2.1.38C
UTRAN only.
YES
ignore
Extension Common Measurement Object Type
O


Applicable to 1.28Mcps TDD only.
YES
ignore
>GsmCellList

1..<maxNoOfGsmCell>


YES
ignore
>>Measurement ID
M

9.2.1.37

–

>>Common Measurement Value
O

9.2.1.12D

–


Range bound
Explanation
maxNoOfGsmCell
Maximum number of GSM Cells in one message.

9.1.45	COMMON MEASUREMENT INITIATION FAILURE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
Cause
M

9.2.1.5

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
Extension Measurement IdList

0..<maxNoOfGsmCell>

Applicable to 1.28Mcps TDD only.
YES
ignore
>Measurement ID
M

9.2.1.37

–

>Cause
M

9.2.1.5

–


Range bound
Explanation
maxNoOfGsmCell
Maximum number of GSM Cells in one message.

9.1.46	COMMON MEASUREMENT REPORT
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
CHOICE Common Measurement Object Type
M


Common Measurement Object Type that the measurement was initiated with.
YES
ignore
>Cell 




–

>>Common Measurement Value Information
M

9.2.1.12E

–

SFN
O

9.2.1.52A
Common Measurement Time Reference, UTRAN only.
YES
ignore
Measurement Recovery Reporting Indicator
O

9.2.1.38B
UTRAN only.
YES
ignore
Extension Common Measurement Object Type
O


Applicable to 1.28Mcps TDD only.
YES
ignore
>GsmCellList

1..<maxNoOfGsmCell>


YES
ignore
>>Measurement ID
M

9.2.1.37

–

>>Common Measurement Value
O

9.2.1.12D

–


Range bound
Explanation
maxNoOfGsmCell
Maximum number of GSM Cells in one message.

9.1.47	COMMON MEASUREMENT TERMINATION REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
Extension Measurement IdList

0..<maxNoOfGsmCell>

Applicable to 1.28Mcps TDD only.
YES
ignore
>Measurement ID
M

9.2.1.37

–


Range bound
Explanation
maxNoOfGsmCell
Maximum number of GSM Cells in one message.

9.1.48	COMMON MEASUREMENT FAILURE INDICATION
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
Cause
M

9.2.1.5

YES
ignore
Extension Measurement IdList

0..<maxNoOfGsmCell>

Applicable to 1.28Mcps TDD only.
YES
ignore
>Measurement ID
M

9.2.1.37

–

>Cause
M

9.2.1.5

–


Range bound
Explanation
maxNoOfGsmCell
Maximum number of GSM Cells in one message.

9.1.49	INFORMATION EXCHANGE INITIATION REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Information Exchange ID
M

9.2.1.31A

YES
reject
CHOICE Information Exchange Object Type
M



YES
reject
>Cell




–

>>C-ID
M

9.2.1.6
May be a GERAN cell identifier.
–

>Additional Information Exchange Object Types




–

>>GSM Cell




–

>>>CGI
M

9.2.1.5D

–

>>MBMS Bearer Service




–

>>>MBMS Bearer Service List

1..<maxNrOfMBMSServices>


GLOBAL
reject
>>>>TMGI
M

9.2.1.80

–

>>MBMS Bearer Service in MBMS Cell



FDD only.
GLOBAL
reject
>>>MBMS Cell List

1..<maxNrOfCells>


–

>>>>C-ID
M

9.2.1.6
Cell identifier of cell in RNC initiating Information Exchange Initiation procedure.
–

>>>>MBMS Bearer Service List

1..<maxNrOfMBMSServices>


–

>>>>>TMGI
M

9.2.1.80

–

>>MBMS Cell



FDD only.
GLOBAL
reject
>>>MBMS Cell List

1..<maxNrOfCells>


–

>>>>C-ID
M

9.2.1.6
Cell identifier of cell in receiving RNC not initiating Information Exchange Initiation procedure.
–

>>ANR Cell




GLOBAL
reject
>>>ANR Cell List

1..<maxNrOfANRCellsl>


–

>>>>C-ID
M

9.2.1.6

–

>>Common E-RGCH Cell




GLOBAL
reject
>>>Common E-RGCH Cell List

1..< maxNoOfCommonRGCells>


–

>>>>C-ID
M

9.2.1.6

–

Information Type
M

9.2.1.31E

YES
reject
Information Report Characteristics
M

9.2.1.31C

YES
reject

Range bound
Explanation
maxNrOfMBMSServices
Maximum number of MBMS bearer services that a UE can join.
MaxNrOfCells
Maximum number of cells that can be indicated in the corresponding IE.
maxNrOfANRCells
Maximum number of ANR neighbour cells.
maxNoOfCommonRGCells
Maximum number of Common E-RGCH cells.

9.1.50	INFORMATION EXCHANGE INITIATION RESPONSE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Information Exchange ID
M

9.2.1.31A

YES
ignore
CHOICE Information Exchange Object Type
O



YES
ignore
>Cell




-

>>Requested Data Value 
M

9.2.1.48A

-

>Additional Information Exchange Object Types




–

>>MBMS Bearer Service




–

>>>MBMS Bearer Service List

1..<maxNrOfMBMSServices>


GLOBAL
ignore
>>>>TMGI
M

9.2.1.80

–

>>>>Requested Data Value
M

9.2.1.48A

–

>>MBMS Bearer Service in MBMS Cell



FDD only.
GLOBAL
ignore
>>>MBMS Cell List

1..<maxNrOfCells>


–

>>>>C-ID
M

9.2.1.6
Cell identifier of cell in RNC initiating Information Exchange Initiation procedure.
–

>>>>MBMS Bearer Service List

1..<maxNrOfMBMSServices>


–

>>>>>TMGI
M

9.2.1.80

–

>>>>>Requested Data Value
M

9.2.1.48A

–

>>MBMS Cell



FDD only.
GLOBAL
ignore
>>>MBMS Cell List

1..<maxNrOfCells>


–

>>>>C-ID
M

9.2.1.6
Cell identifier of cell in sending RNC not initiating Information Exchange Initiation procedure.
–

>>>>Requested Data Value
M

9.2.1.48A

–

>>ANR Cell




GLOBAL
ignore
>>>ANR Cell List

1..<maxNrOfANRCells>


–

>>>>C-ID
M

9.2.1.6

–

>>>>Requested Data Value
M

9.2.1.48A

–

>>Common E-RGCH Cell




GLOBAL
ignore
>>>Common E-RGCH Cell List

1..< maxNoOfCommonRGCells>


–

>>>>C-ID
M

9.2.1.6

–

>>>>Requested Data Value
M

9.2.1.48A

–

Criticality Diagnostics
O

9.2.1.13

YES
ignore

Range bound
Explanation
maxNrOfMBMSServices
Maximum number of MBMS bearer services that a UE can join.
MaxNrOfCells
Maximum number of cells that can be indicated in the corresponding IE.
maxNrOfANRCells
Maximum number of ANR neighbour cells.
maxNoOfCommonRGCells
Maximum number of Common E-RGCH cells.

9.1.51	INFORMATION EXCHANGE INITIATION FAILURE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Information Exchange ID
M

9.2.1.31A

YES
ignore
Cause
M

9.2.1.5

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore

9.1.52	INFORMATION REPORT
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Information Exchange ID
M

9.2.1.31A

YES
ignore
CHOICE Information Exchange Object Type
M



YES
ignore
>Cell




–

>>Requested Data Value Information
M

9.2.1.48B

–

>Additional Information Exchange Object Types




–

>>MBMS Bearer Service in MBMS Cell



FDD only.
GLOBAL
ignore
>>>MBMS Cell List

1..<maxNrOfCells>


–

>>>>C-ID
M

9.2.1.6
Cell identifier of cell in receiving RNC initiating Information Exchange Initiation procedure.
–

>>>>MBMS Bearer Service List

1..<maxNrOfMBMSServices>


–

>>>>>TMGI
M

9.2.1.80

–

>>>>>Requested Data Value Information
M

9.2.1.48B

–

>>MBMS Cell



FDD only.
GLOBAL
ignore
>>>MBMS Cell List

1..<maxNrOfCells>


–

>>>>C-ID
M

9.2.1.6
Cell identifier of cell in sending RNC not initiating Information Exchange Initiation procedure.
–

>>>>Requested Data Value Information
M

9.2.1.48B

–

>>Common E-RGCH Cell




GLOBAL
ignore
>>>Common E-RGCH Cell List

1..< maxNoOfCommonRGCells>


–

>>>>C-ID
M

9.2.1.6

–

>>>>Requested Data Value Information
M

9.2.1.48B

–


Range bound
Explanation
maxNrOfMBMSServices
Maximum number of MBMS bearer services that a UE can join.
MaxNrOfCells
Maximum number of cells that can be indicated in the corresponding IE.
maxNoOfCommonRGCells
Maximum number of Common E-RGCH cells.

9.1.53	INFORMATION EXCHANGE TERMINATION REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Information Exchange ID
M

9.2.1.31A

YES
ignore

9.1.54	INFORMATION EXCHANGE FAILURE INDICATION
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Information Exchange ID
M

9.2.1.31A

YES
ignore
Cause
M

9.2.1.5

YES
ignore

9.1.55	RESET REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

RNC-ID
M

9.2.1.50
Identity of the sending RNC.
If the Extended RNC-ID IE is included in the message, the RNC-ID IE shall be ignored.
YES
reject
CHOICE Reset Indicator
M



YES
reject
>Context




–

>>Context Information

1..<maxResetContext>


EACH
reject
>>>CHOICE Context Type
M



–

>>>>SRNTI




–

>>>>>S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall not be included.
–

>>>>DRNTI




–

>>>>>D-RNTI
M

9.2.1.24

–

>>>>>Additional Context Type



See Note 1.


>>>>>Extended S-RNTI
M

Extended RNTI
9.2.1.154
The Extende S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
reject
>All Contexts


NULL

–

>Context Group




_

>>Context Group Information

1..<maxResetContextGroup>


EACH
reject
>>>S-RNTI Group
M

9.2.1.53a
If the Extended S-RNTI Group IE is included in the message, the S-RNTI Group IE shall be ignored.
–

>>>Extended S-RNTI Group
O

9.2.1.155
The Extended SRNTI Group IE shall be used for S-RNTI identities that have values larger than 1048575.
YES
reject
Extended RNC-ID
O

9.2.1.50a
Identity of the sending RNC.
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject
Note 1:	This information element is a simplified representation of the ASN.1. The choice is performed through the use of a ProtocolIE-Single-Container and a ProtocolExtensionContainer within the ASN.1.

Range bound
Explanation
maxResetContext
Maximum number of contexts that can be reset by one RESET message. 
maxResetContextGroup
Maximum number of context groups that can be reset by one RESET message. 

9.1.56	RESET RESPONSE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

RNC-ID
M

9.2.1.50
Identity of the sending RNC.
If the Extended RNC-ID IE is included in the message, the RNC-ID IE shall be ignored.
YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore
Extended RNC-ID
O

9.2.1.50a
Identity of the sending RNC.
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject

9.1.57	RADIO LINK ACTIVATION COMMAND
9.1.57.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Delayed activation Information

1..<maxNrOfRLs>


EACH
ignore
>RL ID
M

9.2.1.49

–

>Delayed Activation Update
M

9.2.1.19Ab

–


Range bound
Explanation
maxNrOfRLs
Maximum number of Radio Links for one UE.

9.1.57.2	TDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Delayed activation Information

1..<maxNrOfRLs>


EACH
ignore
>RL ID
M

9.2.1.49

–

>Delayed Activation Update
M

9.2.1.19Ab

–


Range bound
Explanation
maxNrOfRLs
Maximum number of Radio Links for one UE.

9.1.58	RADIO LINK PARAMETER UPDATE INDICATION 
9.1.58.1	FDD Message
IE/Group name
Presence
Range
IE Type and Reference
Semantic Description
Criticality
Assigned Criticality
Message type
M

9.2.1.40

YES
ignore
Transaction ID 
M

9.2.1.59

–

HS-DSCH FDD Update Information
O

9.2.2.19c

YES
ignore
RL Information

0..<maxNrOfRLs>


EACH
ignore
>RL Id
M

9.2.1.49

–

>Phase Reference Update Indicator
O

9.2.2.27B

–

E-DCH FDD Update Information
O

9.2.2.19e

YES
ignore
Additional HS Cell Information RL Param Upd

0..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell. Max 7 in this 3GPP release. 
EACH
ignore
>HS-PDSCH RL ID
M

RL ID 9.2.1.49

–

>HS-DSCH FDD Secondary Serving Update Information
O

9.2.2.19ca

–

Additional E-DCH Cell Information RL Param Upd

0..<maxNrOfEDCH-1>

For E-DCH on multiple frequencies in this DRNS.
E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
EACH
ignore
>Additional E-DCH FDD Update Information
M

9.2.2.122

–

CPC Recovery Report
O

ENUMERATED(Initiated, …)

YES
ignore
UL CLTD State Update Information 
O

9.2.2.134

YES
ignore
UE Measurement Forwarding
O

9.2.2.182

YES
ignore
CFN
O

9.2.1.9

YES
ignore

Range bound
Explanation
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.
maxNrOfRLs
Maximum number of Radio Links for one UE.

9.1.58.2	TDD Message
IE/Group name
Presence
Range
IE Type and Reference
Semantic Description
Criticality
Assigned Criticality
Message type
M

9.2.1.40

YES
ignore
Transaction ID 
M

9.2.1.59

–

HS-DSCH TDD Update Information
O

9.2.3.3ac

YES
ignore

9.1.59	UE MEASUREMENT INITIATION REQUEST [TDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Allowed Queuing Time
O

9.2.1.2

YES
reject
Measurement ID
M

9.2.1.37

YES
reject
UE Measurement Type
M

9.2.3.13Fh

YES
reject
UE Measurement Timeslot Information HCR
O

9.2.3.13Fe
3.84 Mcps TDD only.
YES
reject
UE Measurement Timeslot Information LCR
O

9.2.3.13Ff
1.28 Mcps TDD only.
YES
reject
UE Measurement Timeslot Information 7.68Mcps
O

9.2.3.33
7.68 Mcps TDD only.
YES
reject
Measurement Filter Coefficient
O

9.2.1.36

YES
reject
UE Measurement Report Characteristics
M

9.2.3.13Fc

YES
reject
UE Measurement Parameter Modification Allowed
O

9.2.3.13Fb

YES
reject

9.1.60	UE MEASUREMENT INITIATION RESPONSE [TDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
Measurement Filter Coefficient
O

9.2.1.36

YES
reject
UE Measurement Report Characteristics
O

9.2.3.13Fc

YES
reject
Criticality Diagnostics
O

9.2.1.13

YES
ignore

9.1.61	UE MEASUREMENT INITIATION FAILURE [TDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
Cause
M

9.2.1.5

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore

9.1.62	UE MEASUREMENT REPORT [TDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
UE Measurement Value Information
M

9.2.3.13Fj

YES
ignore

9.1.63	UE MEASUREMENT TERMINATION REQUEST [TDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore

9.1.64	UE MEASUREMENT FAILURE INDICATION [TDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Measurement ID
M

9.2.1.37

YES
ignore
Cause
M

9.2.1.5

YES
ignore

9.1.65	IUR INVOKE TRACE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID 
M

9.2.1.59

–

D-RNTI
O

9.2.1.24

YES
ignore
Trace Reference
M

9.2.1.58c

YES
ignore
UE Identity
M

9.2.1.66A

YES
ignore
Trace Recording Session Reference
M

9.2.1.58b

YES
ignore
List Of Interfaces To Trace

0..maxNrOfInterfaces


EACH
ignore
>Interface
M

ENUMERATED (Iub, Iur,…)

–

Trace Depth
M

9.2.1.58a

YES
ignore
MDT Configuration
O

9.2.1.139

YES
ignore
Trace Collection Entity IP Address
O

Transport Layer Address
9.2.1.62

YES
ignore

Range bound
Explanation
maxNrOfInterfaces
Maximum of Interfaces to be traced.

9.1.66	IUR DEACTIVATE TRACE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID 
M

9.2.1.59

–

D-RNTI
O

9.2.1.24

YES
ignore
Trace Reference
M

9.2.1.58c

YES
ignore

9.1.67	MBMS ATTACH COMMAND
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

MBMS Bearer Service List

1..<maxNrOfMBMSServices>


GLOBAL
ignore
>TMGI
M

9.2.1.80

–

CHOICE UE State
O



YES
ignore
>CELL_FACH/CELL_PCH




–

>>D-RNTI
M

9.2.1.24

–

>URA_PCH




–

>>SRNC-ID
M

RNC-ID
9.2.1.50
If the Extended SRNC-ID IE is included in the message, the SRNC-ID IE shall be ignored.
–

>>URA ID
M

9.2.1.70

–

>>Extended SRNC-ID
O

Extended RNC-ID
9.2.1.50a
The Extended SRNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject

Range bound
Explanation
maxNrOfMBMSServices
Maximum number of MBMS bearer services that a UE can join.

9.1.68	MBMS DETACH COMMAND
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

MBMS Bearer Service List 

1..<maxNrOfMBMSServices>


GLOBAL
ignore
>TMGI
M

9.2.1.80

–

CHOICE UE State
O



YES
ignore
>CELL_FACH/CELL_PCH




–

>>D-RNTI
M

9.2.1.24

–

>URA_PCH




–

>>SRNC-ID
M

RNC-ID
9.2.1.50
If the Extended SRNC-ID IE is included in the message, the SRNC-ID IE shall be ignored.
–

>>URA ID
M

9.2.1.70

–

>>Extended SRNC-ID
O

Extended RNC-ID
9.2.1.50a
The Extended SRNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject

Range bound
Explanation
maxNrOfMBMSServices
Maximum number of MBMS bearer services that a UE can join.

9.1.69	DIRECT INFORMATION TRANSFER
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

RNC-ID
M

9.2.1.50
ID of an RNC which initiates the procedure.
If the Extended RNC-ID IE is included in the message, the RNC-ID IE shall be ignored.
YES
ignore
Provided Information
M

9.2.1.85

YES
ignore
Extended RNC-ID
O

9.2.1.50a
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject

9.1.70	ENHANCED RELOCATION REQUEST
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Cause 
M

9.2.1.5

YES
reject
Permanent NAS UE Identity
M

9.2.1.73

YES
reject
SRNC-ID
O

RNC-ID
9.2.1.50
If the Extended SRNC-ID IE is included in the message, the SRNC-ID IE shall be ignored.
YES
reject
Extended SRNC-ID
O

Extended RNC-ID
9.2.1.50a
The Extended SRNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject
S-RNTI
M

9.2.1.53
If the Extended S-RNTI IE is included in the message, the S-RNTI IE shall be ignored.
YES
reject
RANAP Enhanced Relocation Information Request
M

9.2.1.124

YES
reject
Extended S-RNTI
O

Extended RNTI
9.2.1.154
The Extended S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.
YES
reject

9.1.71	ENHANCED RELOCATION RESPONSE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

RANAP Enhanced Relocation Information Response
M

9.2.1.125

YES
ignore

9.1.72	ENHANCED RELOCATION FAILURE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Cause
M

9.2.1.5

YES
ignore
Criticality Diagnostics
O

9.2.1.13

YES
ignore

9.1.73	ENHANCED RELOCATION CANCEL
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Cause
M

9.2.1.5

YES
ignore

9.1.74	ENHANCED RELOCATION SIGNALLING TRANSFER
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

L3 Information
M

9.2.1.32

YES
ignore

9.1.75	ENHANCED RELOCATION RELEASE
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Released CN Domain
M

9.2.1.126

YES
ignore

9.1.76	MBSFN MCCH INFORMATION (FDD)
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

MBSFN Cluster Identity
M

9.2.1.128

YES
ignore
MCCH Message List

1..<maxNrOfMCCHMessages>


YES
reject
>L3 Information
M

9.2.1.32
See Note1 below.
–

CFN
M

9.2.1.9

YES
reject
MCCH Configuration Info

0..1


YES
ignore
>Secondary CCPCH system information MBMS
M

9.2.1.127

–

MBSFN Scheduling Transmission Time Interval info List

0..<maxNrOfMBMSL3>


YES
ignore
>TMGI
M

9.2.1.80

–

>MBSFN Scheduling Transmission Time Interval
M

9.2.1.129

–

Note 1:	The IE Contains one of the following messages defined in TS 25.331 [16]: MBMS MODIFIED SERVICES INFORMATION, MBMS UNMODIFIED SERVICES INFORMATION, MBMS General Information, MBMS Common p-t-m rb Information, MBMS CURRENT Cell PTM RB INFORMATION.

Range bound
Explanation
maxNrOfMCCHMessages
Maximum number of MCCH Messages simultaneous sent on MCCH.
maxNrOfMBMSL3
Maximum number of MBMS service in L3 information.

9.1.77	SECONDARY UL FREQUENCY REPORT
9.1.77.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Activation Information
M

9.2.2.109

YES
ignore

9.1.78	SECONDARY UL FREQUENCY UPDATE INDICATION
9.1.78.1	FDD Message
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

Activation Information
M

9.2.2.109

YES
ignore

9.1.79	ENHANCED RELOCATION RESOURCE REQUEST [TDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

IMSI
O

9.2.1.31

YES
reject
Source ID
M

9.2.1.142

YES
ignore
Target ID
M

9.2.1.143

YES
reject
MS Classmark 2
M

9.2.1.144

YES
reject
MS Classmark 3
M

9.2.1.145

YES
ignore
Speech Version
M

9.2.1.146

YES
ignore

9.1.80	ENHANCED RELOCATION RESOURCE RESPONSE [TDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

D-RNTI
M

9.2.1.24

YES
ignore
L3 Information
M

9.2.1.32
The IE contains HANDOVER COMMAND message defined in TS 44.018 [67].
YES
ignore
Cell Capacity Class Value
O

9.2.1.5C

YES
ignore
Load Value
O

9.2.1.33A

YES
ignore

9.1.81	ENHANCED RELOCATION RESOURCE FAILURE [TDD]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Cause
M

9.2.1.5

YES
ignore
Cell Capacity Class Value
O

9.2.1.5C

YES
ignore
Load Value
O

9.2.1.33A

YES
ignore

9.1.82	ENHANCED RELOCATION RESOURCE RELEASE COMMAND [TDD]
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–

Cause
M

9.2.1.5

YES
ignore

9.1.83	ENHANCED RELOCATION RESOURCE RELEASE COMPLETE [TDD]
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
reject
Transaction ID
M

9.2.1.59

–


9.1.84	INFORMATION TRANSFER CONTROL REQUEST
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.40

YES
ignore
Transaction ID
M

9.2.1.59

–

CHOICE Control Type
M



YES
ignore
>Suspension




–

>>Controlled Object Scope
M

9.2.1.147

–

>Resume




–

>>Controlled Object Scope
M

9.2.1.147

–


9.2	Information Element Functional Definition and Contents
9.2.0	General
Subclause 9.2 presents the RNSAP IE definitions in tabular format. The corresponding ASN.1 definition is presented in subclause 9.3. In case there is a contradiction between the tabular format in subclause 9.2 and the ASN.1 definition, the ASN.1 shall take precedence, except for the definition of conditions for the presence of conditional elements, in which the tabular format shall take precedence.
When specifying information elements which are to be represented by bitstrings, if not otherwise specifically stated in the semantics description of the concerned IE or elsewhere, the following principle applies with regards to the ordering of bits:
-	The first bit (leftmost bit) contains the most significant bit (MSB);
-	The last bit (rightmost bit) contains the least significant bit (LSB);
-	When importing bitstrings from other specifications, the first bit of the bitstring contains the first bit of the concerned information;
9.2.1	Common Parameters
This subclause contains parameters that are common to FDD and TDD.
9.2.1.1	Allocation/Retention Priority
This parameter indicates the priority level in the allocation and retention of transport channel resources in DRNS. DRNS may use the Allocation/Retention priority information of the transport channels composing the RL to prioritise requests for RL Setup/addition and reconfiguration. In similar way, DRNS may use the allocation/Retention priority information of the transport channels composing the RL to prioritise which RL shall be set to failure, in case prioritisation is possible. See Annex A.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Priority Level
M

INTEGER(0..15)
This IE indicates the priority of the request.
Usage:
Value “0” means “Spare”; It shall be treated as a logical error if received.
Values between 1 and 14 are ordered in decreasing order of priority, “1” being the highest and “14” the lowest.
Value “15” means “No Priority”.
Pre-emption Capability
M

ENUMERATED(shall not trigger pre-emption, may trigger pre-emption)

Pre-emption Vulnerability
M

ENUMERATED(not pre-emptable, pre-emptable)


9.2.1.2	Allowed Queuing Time
This parameter specifies the maximum queuing time that is allowed in the DRNS until the DRNS must start to execute the request.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Allowed Queuing Time


INTEGER(1..60)
Unit: Seconds.

9.2.1.2A	Allowed Rate Information
The Allowed Rate Information IE indicates the TFI corresponding to the highest allowed bit rate for the uplink and/or the downlink of a DCH. The SRNC is allowed to use any rate being lower than or equal to the rate corresponding to the indicated TFI.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Allowed UL Rate
O

INTEGER(1..maxNrOfTFs)
“1”: TFI 0,
“2”: TFI 1,
“3”: TFI 2,
…

Allowed DL Rate
O

INTEGER(1..maxNrOfTFs)
“1”: TFI 0,
“2”: TFI 1,
“3”: TFI 2,
…


9.2.1.2B	Altitude and Direction
This IE contains a description of Altitude and Direction.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Direction of Altitude
M

ENUMERATED(Height, Depth)


Altitude
M

INTEGER(
0..215-1)
The relation between the value (N) and the altitude (a) in meters it describes is N a <N+1, except for N=215-1 for which the range is extended to include all grater values of (a).

9.2.1.2C	Antenna Co-location Indicator
The Antenna Co-location Indicator indicates whether the antenna of the serving and neighbouring cells are approximately co-located.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Antenna Co-location Indicator


ENUMERATED(co-located,…)


9.2.1.2D	Alternative Format Reporting Indicator
This IE indicates if DRNS may report a measurement using an alternative format.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Alternative Format Reporting Indicator


ENUMERATED (Alternative format is allowed, …)


9.2.1.3	Binding ID
The Binding ID is the identifier of a user data stream.
In case of transport bearer establishment with ALCAP (TS 25.426 [3]TS 25.424 [35]), this IE contains the identifier that is allocated at the DRNS and that is unique for each transport bearer under establishment to/from the DRNS.
If the Transport Layer Address contains an IP address (IETF RFC 2460 [33]), this IE contains the UDP port (IETF RFC 768 [34]) intended to be used for the user plane transport.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Binding ID


OCTET STRING (SIZE(1..4,…))
If the Binding ID includes an UDP port, the UDP port is included in octet 1 and 2. The first octet of the UDP port field shall be included in the first octet of the Binding ID.

9.2.1.4	BLER
This Block Error Rate defines the target radio interface Transport Block Error Rate of the transport channel . BLER is used by the DRNS to determine the needed SIR targets, for admission control and power management reasons.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
BLER


INTEGER(-63..0)
Step 0.1. (Range –6.3…0).
It is the Log10 of the BLER.

9.2.1.4A	Block STTD Indicator
Void.
9.2.1.4B	Burst Mode Parameters
The Burst Mode Parameters IE provides all the relevant information in order to able IPDL in the Burst mode.
IE/Group name
Presence
Range
IE Type and Reference
Semantics Description
Burst Start
M

INTEGER(0..15)
See TS 25.214 [10] and TS 25.224 [22].
Burst Length
M

INTEGER(10..25)
See TS 25.214 [10] and TS 25.224 [22].
Burst freq
M

INTEGER(1..16)
See TS 25.214 [10] and TS 25.224 [22].

9.2.1.5	Cause
The purpose of the cause information element is to indicate the reason for a particular event for the whole protocol.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Cause Group
M



>Radio Network Layer




>>Radio Network Layer Cause 
M

ENUMERATED
(Unknown C-ID,
Cell not Available,
Power Level not Supported,
UL Scrambling Code Already in Use,
DL Radio Resources not Available,
UL Radio Resources not Available,
Measurement not Supported For The Object,
Combining Resources Not Available,
Combining not Supported,
Reconfiguration not Allowed,
Requested Configuration not Supported,
Synchronisation Failure,
Requested Tx Diversity Mode not Supported, 
Measurement Temporarily not Available, 
Unspecified,
Invalid CM Settings, 
Reconfiguration CFN not Elapsed, 
Number of DL Codes Not Supported,
Dedicated Transport Channel Type not Supported,
DL Shared Channel Type not Supported,
UL Shared Channel Type not Supported,
Common Transport Channel Type not Supported,
UL Spreading Factor not Supported,
DL Spreading Factor not Supported,
CM not Supported, 
Transaction not Supported by Destination Node B,
RL Already Activated/Allocated, 
...,
Number of UL Codes Not Supported,
Cell reserved for operator use,
DPC Mode Change not Supported,
Information temporarily not available,
Information Provision not supported for the object,
Power Balancing status not compatible,
Delayed Activation not Supported,
RL Timing Adjustment Not Supported, Unknown RNTI,
Measurement Repetition Rate not Compatible with Current Measurements, 
UE not Capable to Implement Measurement,
F-DPCH not supported,
E-DCH not supported,
Continuous Packet Connectivity DTX-DRX operation not supported,
Continuous Packet Connectivity HS-SCCH less operation not supported,
MIMO not supported,
E-DCH TTI2ms not supported,
Continuous Packet Connectivity DTX-DRX operation not available, Continuous Packet Connectivity UE DTX Cycle not available,
MIMO not available,
SixteenQAM UL not supported,
HS-DSCH MAC-d PDU Size Format not supported,
F-DPCH Slot Format operation not supported,
E-DCH MAC-d PDU Size Format not available,
E-DPCCH Power Boosting not supported,
Trelocprep Expiry,
Relocation Cancelled,
Traffic Load In The Target Cell Higher Than In The Source Cell,
Time critical Relocation,
Resource optimisation relocation, Relocation desirable for radio reasons ,
Directed Retry,
Reduce Load in Serving Cell,
No Iu CS UP relocation,
SixtyfourQAM DL and MIMO Combined not available,
Multi Cell operation not available,
Multi Cell operation not supported,
Semi-Persistent scheduling not supported,
Continuous Packet Connectivity DRX not supported,
Continuous Packet Connectivity DRX not available,
Enhanced Relocation not Supported,
Relocation Not Supported Due To PUESBINE Feature,
Relocation Failure In Target RNC, Relocation Target not allowed,
Requested Ciphering and/or Integrity Protection Algorithms not Supported, SixtyfourQAM DL and MIMO Combined not supported, 
TX diversity for MIMO UE on DL Control Channels not available,
Single Stream MIMO not supported,
Single Stream MIMO not available,
Multi Cell operation with MIMO not available,
Multi Cell operation with MIMO not supported, 
Multi Cell E-DCH operation not available, 
Multi Cell E-DCH operation not supported,
Multi Cell operation with Single Stream MIMO not available,
Multi Cell operation with Single Stream MIMO not supported,
Cell Specific Tx Diversity Handling For Multi Cell Operation Not Available,
Cell Specific Tx Diversity Handling For Multi Cell Operation Not Supported,
Frequency Specific Compressed Mode Not Available, Uplink Closed Loop Transmit Diversity Operation Not Available, Uplink Closed Loop Transmit Diversity Operation Not Supported, MIMO with four transmit antennas not supported, MIMO with four transmit antennas not available, Dual Stream MIMO with four transmit antennas not supported, Dual Stream MIMO with four transmit antennas not available, Multiflow operation not available, Multiflow operation not supported, SixtyfourQAM UL not available, SixtyfourQAM UL not supported, UL MIMO operation not available, UL MIMO operation not supported, UL MIMO and SixteenQAM operation not available, UL MIMO and SixteenQAM operation not supported, UL MIMO and SixtyfourQAM operation not available, UL MIMO and SixtyfourQAM operation not supported, E-DCH Decoupling operation not available, E-DCH Decoupling operation not supported, Basic DCH Enhancements operation not available, Basic DCH Enhancements operation not supported, Full DCH Enhancements operation not available, Full DCH Enhancements operation not supported, Radio Links without DPCH/F-DPCH operation not available, Radio Links without DPCH/F-DPCH operation not supported, UL DPCCH2 operation not available, UL DPCCH2 operation not supported, Downlink TPC enhancements operation not available, Downlink TPC enhancements operation not supported, Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI operation not available, Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI operation not supported, Dual Cell E-DCH operation enhancements with different TTI operation not available, Dual Cell E-DCH operation enhancements with differetn TTI operation not supported)

>Transport Layer




>>Transport Layer Cause
M

ENUMERATED
(Transport Resource Unavailable,
Unspecified,
...)

>Protocol




>>Protocol Cause
M

ENUMERATED
(Transfer Syntax Error,
Abstract Syntax Error (Reject),
Abstract Syntax Error (Ignore and Notify),
Message not Compatible with Receiver State,
Semantic Error,
Unspecified,
Abstract Syntax Error (Falsely Constructed Message),...)

>Misc




>>Miscellaneous Cause
M

ENUMERATED
(Control Processing Overload,
Hardware Failure,
O&M Intervention,
Not enough User Plane Processing Resources,
Unspecified,...)


The meaning of the different cause values is described in the following table. In general, “not supported” cause values indicate that the concerned capability is missing. On the other hand, “not available” cause values indicate that the concerned capability is present, but insufficient resources were available to perform the requested action.
Radio Network Layer cause
Meaning
Cell not Available
The concerned cell is not available.
Cell reserved for operator use
The concerned cell is reserved for operator use.
Cell Specific Tx Diversity Handling For Multi Cell Operation Not Available
Cell specific tx diversity handling for multi cell operation not available in the concerned cell(s).
Cell Specific Tx Diversity Handling For Multi Cell Operation Not Supported
The concerned cell(s) do not support the cell specific tx diversity handling for multi cell operation.
CM not Supported
The concerned cell(s) do not support Compressed Mode.
Combining not Supported
The DRNS does not support the RL combining for the concerned cells.
Combining Resources Not Available
The value of the received Diversity Control Field IE was set to “Must”, but the DRNS cannot perform the requested combining.
Common Transport Channel Type not Supported
The concerned cell(s) do not support the RACH and/or FACH Common Transport Channel Type.
Continuous Packet Connectivity DTX-DRX operation not available
CPC resources for DTX-DRX operation not available in the concerned cell(s).
Continuous Packet Connectivity DRX not available
HSPA resources for DRX operation not available in the concerned cell(s). (for 1.28Mcps TDD only).
Continuous Packet Connectivity DRX not supported
The concerned cell(s) do not support the Continuous Packet Connectivity DRX operation (for 1.28Mcps TDD only).
Continuous Packet Connectivity DTX-DRX operation not Supported
The concerned cell(s) do not support the Continuous Packet Connectivity DTX-DRX operation.
Continuous Packet Connectivity HS-SCCH less operation not Supported
The concerned cell(s) do not support the Continuous Packet Connectivity HS-SCCH less operation.
Continuous Packet Connectivity UE DTX Cycle not available
CPC resources for the UE DTX Cycle not available in the concerned cell(s).
Dedicated Transport Channel Type not Supported
The concerned cell(s) do not support the Dedicated Transport Channel Type.
Delayed Activation not Supported
The concerned cell(s) do not support delayed activation of RLs.
Directed Retry
The reason for action is Directed Retry.
DL Radio Resources not Available
The DRNS does not have sufficient DL radio resources available.
DL SF not Supported
The concerned cell(s) do not support the requested DL SF.
DL Shared Channel Type not Supported
The concerned cell(s) do not support the Downlink Shared Channel Type.
DPC Mode Change not Supported
The concerned cells do not support the DPC mode changes.
E-DCH MAC-d PDU Size Format not available
The selected E-DCH MAC-d PDU Size Format is not available in the concerned cell(s).
E-DCH not supported
The concerned cell(s) do not support E-DCH.
E-DCH TTI2ms not supported
The concerned cell(s) do not support the E-DCH 2ms TTI operation.
E-DPCCH Power Boosting not supported
The concerned cell(s) do not support the E-DPCCH Power Boosting.
Enhanced Relocation not Supported
The DRNS does not support the Enhanced Relocation.
F-DPCH not supported
The concerned cell(s) do not support the Fractional DPCH.
F-DPCH Slot Format operation not supported
The concerned cell(s) do not support the F-DPCH Slot Format operation.
MIMO with four transmit antennas not supported
The concerned cell(s) do not support the MIMO with four transmit antennas operation.
MIMO with four transmit antennas not available
MIMO with four transmit antennas resources not available in the concerned cell(s).
Dual Stream MIMO with four transmit antennas not supported
The concerned cell(s) do not support the Dual Stream MIMO with four transmit antennas operation.
Dual Stream MIMO with four transmit antennas not available
Dual Stream MIMO with four transmit antennas resources not available in the concerned cell(s).
Frequency Specific Compressed Mode not available
Frequency Specific Compressed Mode is not available in the concerned cell(s).
HS-DSCH MAC-d PDU Size Format not supported
The concerned cell(s) do not support the selected HS-DSCH MAC-d PDU Size Format.
Information Provision not supported for the object
The RNS doesn’t support provision of the requested information for the concerned object types.
Information temporarily not available
The RNS can temporarily not provide the requested information.
Invalid CM Settings
The concerned cell(s) consider the requested Compressed Mode settings invalid.
Measurement not Supported For The Object
At least one of the concerned cell(s) does not support the requested measurement on the concerned object type.
Measurement Repetition Rate not Compatible with Current Measurements
The requested parameters for a forwarded UE measurement are not compatible with the current measurement schedule in the SRNC.
Measurement Temporarily not Available
The DRNS can temporarily not provide the requested measurement value.
MIMO not available
MIMO resources not available in the concerned cell(s).
MIMO not supported
The concerned cell(s) do not support the MIMO operation.
Multi Cell E-DCH operation not available
Multi cell E-DCH operation is not available in the concerned cell(s).
Multi Cell E-DCH operation not supported
The concerned cell(s) do not support Multi cell E-DCH operation.
Multi Cell operation not available
Multi Cell operation resources not available in the concerned cell(s).
Multi Cell operation not supported
The concerned cell(s) do not support Multi Cell operation. 
Multi Cell operation with MIMO not available
Multi Cell operation with MIMO resources not available in the concerned cell(s).
Multi Cell operation with MIMO not supported
The concerned cell(s) do not support Multi Cell operationwith MIMO. 
Multi Cell operation with Single Stream MIMO not available
Multi Cell operation with Single Stream MIMO resources not available in the concerned cell(s).
Multi Cell operation with Single Stream MIMO not supported
The concerned cell(s) do not support Multi Cell operationwith Single Stream MIMO. 
No Iu CS UP relocation
The relocation is triggered by CS call and the source RNC has no Iu CS user plane.
Number of DL Codes not Supported
The concerned cell(s) do not support the requested number of DL codes.
Number of UL Codes not Supported
The concerned cell(s) do not support the requested number of UL codes.
Power Balancing status not compatible
The power balancing status in the SRNC is not compatible with that of the DRNC.
Power Level not Supported
A DL power level was requested which the concerned cell(s) do not support.
Reconfiguration CFN not Elapsed
The requested action cannot be performed due to that a COMMIT message was received previously, but the concerned CFN has not yet elapsed.
Reconfiguration not Allowed
The SRNC does currently not allow the requested reconfiguration.
Reduce Load in Serving Cell
Load on serving cell needs to be reduced.
Relocation Cancelled
The reason for the action is relocation cancellation.
Relocation Desirable For Radio Reasons
The reason for requesting relocation is radio related.
Relocation Failure In Target RNC 
Relocation failed due to a failure in target RNC.
Relocation Not Supported Due To PUESBINE Feature
The DRNS can not support the relocation due to the PUESBINE Feature. 
Relocation Target not allowed
Relocation to the indicated target cell is not allowed for the UE in question.
Requested Ciphering And/Or Integrity Protection Algorithms Not Supported
The DRNS does not support the requested ciphering and/or integrity protection algorithms.
Requested Configuration not Supported
The concerned cell(s) do not support the requested configuration i.e. power levels, Transport Formats, physical channel parameters,…..
Requested Tx Diversity mode not Supported
The concerned cell(s) do not support the requested transmit diversity mode.
Resource Optimisation Relocation
The reason for requesting relocation is resource optimisation.
RL Already Activated/ Allocated
The DRNS has already allocated an RL with the requested RL ID for this UE Context.
RL Timing Adjustment not Supported
The concerned cell(s) do not support adjustments of the RL timing.
Semi-Persistent scheduling not supported
The concerned cell(s) do not support the Semi-Persistent scheduling operation (for 1.28Mcps TDD only).
SixteenQAM UL not Supported
The concerned cell(s) do not support the 16 QAM UL.
SixtyfourQAM DL and MIMO Combined not available
SixtyfourQAM DL and MIMO Combined not available in the concerned cell(s).
SixtyfourQAM DL and MIMO Combined not supported
The DRNS does not support SixtyfourQAM DL and MIMO Combined for the concerned cells.
Synchronisation Failure
Loss of UL Uu synchronisation. 
Time Critical Relocation
Relocation is requested for time critical reason i.e. this cause value is reserved to represent all critical cases where the connection is likely to be dropped if relocation is not performed.
Traffic Load In The Target Cell Higher Than In The Source Cell
Relocation to reduce load in the source cell is rejected, as the target cell’s traffic load is higher than that in the source cell.
Transaction not Supported by Destination Node B
The requested action cannot be performed due to lack of support of the corresponding action in the destination Node B.
TRELOCprep Expiry
Relocation Preparation procedure is cancelled when timer TRELOCprep expires.
Single Stream MIMO not supported
The concerned cell(s) do not support the Single Stream MIMO.
Single Stream MIMO not available
Single Stream MIMO resources not available in the concerned cell(s).
TX diversity for MIMO UE on DL Control Channels not available
The DRNS does not have sufficient radio resources available to support transmit diversity on downlink control channels when the UE is configured in MIMO mode with P-CPICH & S-CPICH as phase references (TS 25.211 [8]).
UE not Capable to Implement Measurement
The UE is not capable to initiate/report a requested measurement due to its current state or capabilities.
UL Radio Resources not Available
The DRNS does not have sufficient UL radio resources available.
UL Scrambling Code Already in Use
The concerned UL scrambling code is already in use for another UE.
UL SF not Supported
The concerned cell(s) do not support the requested minimum UL SF.
UL Shared Channel Type not Supported
The concerned cell(s) do not support the Uplink Shared Channel Type.
Unknown C-ID
The DRNS is not aware of a cell with the provided C-ID.
Unknown RNTI
The SRNC or DRNC is not aware of a UE indicated with the provided RNTI.
Unspecified
Sent when none of the above cause values applies but still the cause is Radio Network Layer related.
Uplink Closed Loop Transmit Diversity Operation Not Available
Uplink Closed Loop Transmit Diversity Operation resources not available in the concerned cell(s).
Uplink Closed Loop Transmit Diversity Operation Not Supported
The concerned cell(s) do not support UL CLTD Operation.
Multiflow operation not available
Multiflow resources not available in the concerned cell(s).
Multiflow operation not supported
The concerned cell(s) do not support Multiflow operation.
SixtyfourQAM UL operation not available
SixtyfourQAM UL resources are not available in the concerned cell(s).
SixtyfourQAM UL operation not supported
The concerned cell(s) do not support SixtyfourQAM UL operation.
UL MIMO operation not available
UL MIMO resources are not available in the concerned cell(s).
UL MIMO operation not supported
The concerned cell(s) do not support UL MIMO operation.
UL MIMO and SixteenQAM operation not available
UL MIMO and SixteenQAM resources are not available in the concerned cell(s).
UL MIMO and SixteenQAM operation not supported
The concerned cell(s) do not support UL MIMO and SixteenQAM operation.
UL MIMO and SixtyfourQAM operation not available
UL MIMO and SixtyfourQAM resources are not available in the concerned cell(s).
UL MIMO and SixtyfourQAM operation not supported
The concerned cell(s) do not support UL MIMO and SixtyfourQAM operation.
E-DCH Decoupling operation not available
E-DCH Decoupling resources are not available in the concerned cell(s).
E-DCH Decoupling operation not supported
The concerned cell(s) do not support E-DCH Decoupling operation.
Basic DCH Enhancements operation not available
Basic DCH Enhancements resources are not available in the concerned cell(s).
Basic DCH Enhancements operation not supported
The concerned cell(s) do not support Basic DCH Enhancements operation.
Full DCH Enhancements operation not available
Full DCH Enhancements resources are not available in the concerned cell(s).
Full DCH Enhancements operation not supported
The concerned cell(s) do not support Full DCH Enhancements operation.
Radio Links without DPCH/F-DPCH operation not available
Radio Links without DPCH/F-DPCH resources are not available in the concerned cell(s).
Radio Links without DPCH/F-DPCH operation not supported
The concerned cell(s) do not support F-DPCH less operation.
UL DPCCH2 operation not available
UL DPCCH2 resources are not available in the concerned cell(s).
UL DPCCH2 operation not supported
The concerned cell(s) do not support UL DPCCH2 operation.
Downlink TPC enhancements operation not available
Downlink TPC enhancements resources are not available in the concerned cell(s).
Downlink TPC enhancements operation not supported
The concerned cell(s) do not support Downlink TPC enhancements operation.
Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI operation not available
Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI resources are not available in the concerned cell(s).
Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI operation not supported
The concerned cell(s) do not support Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI operation.
Dual Cell E-DCH operation enhancements with different TTI operation not available
Dual Cell E-DCH operation enhancements with different TTI resources are not available in the concerned cell(s).
Dual Cell E-DCH operation enhancements with different TTI operation not supported
The concerned cell(s) do not support Dual Cell E-DCH operation enhancements with different TTI operation.

Transport Network Layer cause
Meaning
Transport resource unavailable
The required transport resources are not available.
Unspecified
Sent when none of the above cause values applies but still the cause is Transport Network Layer related.

Protocol cause
Meaning
Abstract Syntax Error (Reject)
The received message included an abstract syntax error and the concerned criticality indicated “reject” (see subclause 10.3).
Abstract Syntax Error (Ignore and Notify)
The received message included an abstract syntax error and the concerned criticality indicated “ignore and notify” (see subclause 10.3).
Abstract syntax error (falsely constructed message)
The received message contained IEs or IE groups in wrong order or with too many occurrences (see subclause 10.3).
Message not Compatible with Receiver State
The received message was not compatible with the receiver state (see subclause 10.4).
Semantic Error
The received message included a semantic error (see subclause 10.4).
Transfer Syntax Error
The received message included a transfer syntax error (see subclause 10.2).
Unspecified
Sent when none of the above cause values applies but still the cause is Protocol related.

Miscellaneous cause
Meaning
Control Processing Overload
DRNS control processing overload.
Hardware Failure
DRNS hardware failure.
Not enough User Plane Processing Resources
DRNS has insufficient user plane processing resources available.
O&M Intervention
Operation and Maintenance intervention related to DRNS equipment.
Unspecified
Sent when none of the above cause values applies and the cause is not related to any of the categories Radio Network Layer, Transport Network Layer or Protocol.

9.2.1.5A	Cell Geographical Area Identity (Cell GAI)
The Cell Geographical Area is used to identify the geographical area of a cell. The area is represented as a polygon. See TS 23.032 [25].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell GAI Geographical Co-ordinates

1 .. <maxNrOfPoints>


>Latitude Sign
M

ENUMERATED(North, South) 

>Degrees of Latitude
M

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
M

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°).

Range bound
Explanation
maxNrOfPoints
Maximum no. of points in polygon.

9.2.1.5B	Cell Geographical Area Additional Shapes (Cell GAI Additional Shapes)
This IE is used to provide several descriptions of the geographical area of a cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Cell GAI Additional Shapes




>GA Point With Uncertainty




>>GA Point with Uncertainty
M

9.2.1.30A
Ellipsoid point with uncertainty circle.
>GA Ellipsoid point with uncertainty Ellipse




>>GA Ellipsoid Point with Uncertainty Ellipse
M

9.2.1.30B
Ellipsoid point with uncertainty Ellipse.
>GA Ellipsoid point with altitude




>>GA Ellipsoid Point with Altitude
M

9.2.1.30C
Ellipsoid point with altitude.
>GA Ellipsoid point with altitude and uncertainty Ellipsoid




>>GA Ellipsoid Point with Altitude and Uncertainty Ellipsoid
M

9.2.1.30D
Ellipsoid point with altitude and uncertainty Ellipsoid.
>GA Ellipsoid Arc




>>GA Ellipsoid Arc
M

9.2.1.30E
Ellipsoid Arc.

9.2.1.5C	Cell Capacity Class Value
The Cell Capacity Class Value IE contains the capacity class for both the uplink and downlink. Cell Capacity Class Value IE is the value that classifies the cell capacity with regards to the other cells. Cell Capacity Class Value IE only indicates resources that are configured for traffic purposes.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Uplink Cell Capacity Class Value
M

INTEGER(1..100,…)
Value 1 shall indicate the minimum uplink cell capacity, and 100 shall indicate the maximum uplink cell capacity. . There should be linear relation between uplink cell capacity and Uplink Cell Capacity Class Value.
Downlink Cell Capacity Class Value
M

INTEGER(1..100,…)
Value 1 shall indicate the minimum downlink cell capacity, and 100 shall indicate the maximum downlink cell capacity. There should be linear relation between downlink cell capacity and Downlink Cell Capacity Class Value.

NOTE:	Cell capacity class for GERAN cells is defined by the number of configured carriers in specific GERAN cells which ranges from integer 1 to 100. The value 1 shall indicate the minimum cell capacity and the value 100 shall indicate the maximum cell capacity.

9.2.1.5D	Cell Global Identifier (CGI)
The Cell Global Identifier IE contains the Cell Global Identity as defined in TS 23.003 [1].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
LAI

1


>PLMN Identity
M

9.2.2.189

>LAC
M

OCTET STRING (SIZE(2))
0000 and FFFE not allowed.
CI
M

OCTET STRING (SIZE(2))


9.2.1.6	Cell Identifier (C-ID)
The C-ID (Cell Identifier) is the identifier of a cell in one RNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
C-ID


INTEGER
(0..65535)


9.2.1.7	Cell Individual Offset
Cell individual offset is an offset that will be applied by UE to the measurement results for a Primary-CPICH[FDD]/ Primary-CCPCH[TDD] or for GSM Carrier RSSI according to TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell Individual Offset


INTEGER(-20..+20) 
-20  ->   -10dB
-19  ->   -9.5dB
…
+20  ->  +10dB


9.2.1.8	Cell Parameter ID
The Cell Parameter ID identifies unambiguously the [3.84 Mcps TDD and 7.68Mcps TDD – Code Groups, Scrambling Codes, Midambles and Toffset] [1.28 Mcps TDD – SYNC-DL and SYNC-UL sequences, the scrambling codes and the midamble codes] (see TS 25.223 [13]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell Parameter ID


INTEGER(0..127,…)


9.2.1.9	CFN
Connection Frame Number for the radio connection, see TS 25.402 [17].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CFN


INTEGER(0.. 255)


9.2.1.10	CFN Offset
Void
9.2.1.11	CN CS Domain Identifier
Identification of the CN node in the CS Domain.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
PLMN Identity
M

9.2.2.189

LAC 
M

OCTET STRING (SIZE(2))
0000 and FFFE not allowed.

9.2.1.11A	CN Domain Type
Identifies the type of core network domain.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CN Domain Type


ENUMERATED(CS domain, PS domain, Don’t care,…)
See in TS 25.331 [16].

9.2.1.12	CN PS Domain Identifier
Identification of the CN Node in the PS Domain.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
PLMN Identity
M

9.2.2.189

LAC 
M

OCTET STRING (SIZE(2))
0000 and FFFE not allowed.
RAC
M

OCTET STRING (SIZE(1))


9.2.1.12A	Common Measurement Accuracy
The Common Measurement Accuracy IE indicates the accuracy of the common measurement. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Common Measurement Accuracy
M



>TUTRAN-GPS Measurement Accuracy Class




>>TUTRAN-GPS Measurement Accuracy Class
M

TUTRAN-GPS Accuracy Class
9.2.1.59B

>TUTRAN-GANSS Measurement Accuracy Class




>>TUTRAN-GANSS Measurement Accuracy Class
M

TUTRAN-GANSS Accuracy Class
9.2.1.112


9.2.1.12B	Common Measurement Object Type
Void.
9.2.1.12C	Common Measurement Type
The Common Measurement Type identifies which measurement that shall be performed.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Common Measurement Type


ENUMERATED(UTRAN GPS Timing of Cell Frames for UE Positioning ,
SFN-SFN Observed Time Difference, load, transmitted carrier power, received total wide band power, UL timeslot ISCP, …, RT Load,
NRT Load Information, UpPTS interference, UTRAN GANSS Timing of Cell Frames for UE Positioning)
UL timeslot ISCP shall only be used by TDD.
For measurements, which are requested on the Iur-g interface, only load, RT Load and NRT Load information are used. 
“UpPTS interference” is used by 1.28Mcps TDD only
“UpPTS interference” means “UpPCH interference” in the whole 25.423, refer to TS 25.225 [14] and TS 25.224 [22]. 

9.2.1.12D	Common Measurement Value
The Common Measurement Value shall be the most recent value for this measurement, for which the reporting criteria were met.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE Common Measurement Value
M



–

>TUTRAN-GPS Measurement Value Information



UTRAN only.
–

>>TUTRAN-GPS Measurement Value Information
M

9.2.1.59D

–

>SFN-SFN Measurement Value Information



UTRAN only.
–

>>SFN-SFN Measurement Value Information
M

9.2.1.52C

–

>Load Value




–

>>Load Value
M

9.2.1.33A

–

>Transmitted Carrier Power Value



UTRAN only.
–

>>Transmitted Carrier Power Value
M

Transmitted Carrier Power 9.2.1.59A

–

>Received Total Wide Band Power Value



UTRAN only.
–

>>Received Total Wide Band Power Value
M

Received Total Wide Band Power 9.2.2.35A

–

>UL Timeslot ISCP Value



TDD Only.
–

>>UL Timeslot ISCP Value
M

UL Timeslot ISCP 9.2.3.13A

–

>Additional Common Measurement Values




–

>>RT Load Value




–

>>>RT Load Value
M

9.2.1.50B

YES 
ignore
>>NRT Load Information Value




–

>>>NRT Load Information Value
M

9.2.1.41I

YES
ignore
>>UpPTS interference



1.28Mcps TDD Only.
–

>>>UpPTS interference Value
M

INTEGER (0..127,…)
According to mapping in TS 25.123 [24].
YES
reject
>>TUTRAN-GANSS Measurement Value Information



UTRAN only.
–

>>>TUTRAN-GANSS Measurement Value Information
M

9.2.1.114

YES
reject

9.2.1.12E	Common Measurement Value Information
The Common Measurement Value Information IE provides information both on whether the Common Measurement Value is provided in the message or not and if provided also the Common Measurement Value itself.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Measurement Availability
M



>Measurement Available




>>Common Measurement Value
M

9.2.1.12D

>Measurement not Available


NULL


9.2.1.12F	Common Transport Channel Resources Initialisation Not Required
If present, this IE indicates that as far as the DRNC is concerned, there is no need to initiate a Common Transport Channel Resources Initialisation procedure if the SRNC wants to allocate common transport channel resources in the new cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Common Transport Channel Resources Initialisation Not Required


ENUMERATED(Not Required)


9.2.1.12G	Coverage Indicator
The Coverage Indicator indicates whether the serving and the neighbouring cell are overlapped, i.e. the cells have approximately same coverage area or whether the neighbouring cell covers or contained in the serving cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Coverage Indicator


ENUMERATED(Overlap, Covers, Contained in,…)


9.2.1.13	Criticality Diagnostics
The Criticality Diagnostics IE is sent by an RNC when parts of a received message have not been comprehended or were missing, or if the message contained logical errors. When applicable, it contains information about which IEs that were not comprehended or were missing.
For further details on how to use the Criticality Diagnostics IE, see Annex C.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Procedure ID

0..1

Procedure ID is to be used if Criticality Diagnostics is part of Error Indication procedure, and not within the response message of the same procedure that caused the error.
–

>Procedure Code
M

INTEGER(0..255)

–

>Ddmode
M

ENUMERATED(FDD, TDD, Common)
Common = common to FDD and TDD. Common Ddmode is also applicable for Iur-g procedures listed in section 7.
–

Triggering Message 
O

ENUMERATED(initiating message, successful outcome, unsuccessful outcome, outcome)
The Triggering Message is used only if the Criticality Diagnostics is part of Error Indication. 
–

Procedure Criticality
O

ENUMERATED(reject, ignore, notify)
This Procedure Criticality is used for reporting the Criticality of the Triggering message
(Procedure).
–

Transaction ID
O

Transaction ID

–

Information Element Criticality Diagnostics

0..<maxNrOfErrors>


–

>IE Criticality
M

ENUMERATED(reject, ignore, notify)
The IE Criticality is used for reporting the criticality of the triggering IE. The value “Ignore” shall never be used.
–

>IE ID
M

INTEGER(0..65535)
The IE ID of the not understood or missing IE as defined in the ASN.1 part of the specification.
–

>Repetition Number
O

INTEGER(0..255)
The Repetition Number IE gives
●	in case of a not understood IE: 
The number of occurrences of the reported IE up to and including the not understood occurrence
●	in case of a missing IE:
The number of occurrences up to but not including the missing occurrence.
Note: All the counted occurrences of the reported IE must have the same topdown hierarchical message structure of IEs with assigned criticality above them.
–

>Message Structure
O

9.2.1.39A
The Message Structure IE describes the structure in which the not understood or missing IE was detected.
This IE is included if the not understood IE is not the top level of the message.
YES
ignore
>Type of Error
M

ENUMERATED(not understood, missing, …)

YES
ignore

Range bound
Explanation
maxNrOfErrors
Maximum number of IE errors allowed to be reported with a single message.

9.2.1.14	C-RNTI
C-RNTI (Cell RNTI) is the UE identifier allocated by the DRNS to be used over the radio interface. It is unique in the cell. One UE Context has one unique C-RNTI value allocated in the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
C-RNTI


INTEGER(0..65535)


9.2.1.14A	CTFC
The CTFC is an integer number calculated in accordance with TS 25.331 [16], subclause 14.10. Regarding the channel ordering, for all transport channels, ‘TrCH1’ corresponds to the transport channel having the lowest transport channel identity among all configured transport channels on this CCTrCH. ‘TrCH2’ corresponds to the transport channel having the next lowest transport channel identity, and so on.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE CTFC Format




>2 bits long




>>CTFC value
M

INTEGER (0..3)

>4 bits long




>>CTFC value
M

INTEGER (0..15)

>6 bits long




>>CTFC value
M

INTEGER (0..63)

>8 bits long




>>CTFC value
M

INTEGER (0..255)

>12 bits long




>>CTFC value
M

INTEGER (0..4095)

>16 bits long




>>CTFC value
M

INTEGER (0..65535)

>max nb bits long




>>CTFC value
M

INTEGER (0..maxCTFC)


Range Bound
Explanation
maxCTFC
Maximum number of the CTFC value is calculated according to the following:

with the notation according to TS 25.331 [16].

9.2.1.15	DCH Combination Indicator
Void
9.2.1.16	DCH ID
The DCH ID is the identifier of an active dedicated transport channel. It is unique for each active DCH among the active DCHs simultaneously allocated for the same UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DCH ID


INTEGER
(0..255)


9.2.1.16A	DCH Information Response
The DCH Information IE provides information for DCHs that have been established or modified.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
DCH Information Response

1..<maxNrOfDCHs>

Several DCHs belonging to the same set of coordinated DCHs may be included.
–

>DCH ID
M

9.2.1.16

–

>Binding ID
O

9.2.1.3

–

>Transport Layer Address
O

9.2.1.62

–

>Allowed Rate Information
O

9.2.1.2A

YES
ignore
>Transport Bearer Not Setup Indicator
O

9.2.2.4T
FDD Only.
YES
ignore

Range bound
Explanation
maxNrOfDCHs
Maximum number of DCHs for one UE.

9.2.1.17	Dedicated Measurement Object Type
Void.
9.2.1.18	Dedicated Measurement Type
The Dedicated Measurement Type identifies the type of measurement that shall be performed.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Dedicated Measurement Type


ENUMERATED(SIR, SIR Error, Transmitted Code Power, RSCP, Rx Timing Deviation, Round Trip Time, …, Rx Timing Deviation LCR, Angle Of Arrival LCR,
HS-SICH Reception Quality, Rx Timing Deviation 768, Rx Timing Deviation 384 Extended, UE transmission power headroom, DL transport block size)
RSCP and HS-SICH Receptions Quality are used by TDD only, Rx Timing Deviation and Rx Timing Deviation 384 Extended are used by 3.84 Mcps TDD only, Rx Timing Deviation LCR is used by 1.28 TDD only,
Round Trip Time, SIR Error are used by FDD only.
Angle Of Arrival LCR is used by 1.28Mcps TDD only.
Rx Timing Deviation 768 is used by 7.68Mcps TDD only. 
UE transmission power headroom is used by FDD, 1.28Mcps TDD, 3.84Mcps TDD and 7.68Mcps TDD.
“DL transport block size” is used by FDD only.

NOTE:	For definitions of the measurement types refer to TS 25.215 [11] and TS 25.225 [14].
9.2.1.19	Dedicated Measurement Value
The Dedicated Measurement Value shall be the most recent value for this measurement, for which the reporting criteria were met.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE Dedicated Measurement Value
M



–

>SIR Value




–

>>SIR Value
M

INTEGER(0..63)
According to mapping in TS 25.133 [23] and TS 25.123 [24].
–

>SIR Error Value



FDD Only
–

>>SIR Error Value
M

INTEGER(0..125)
According to mapping in TS 25.133 [23].
–

>Transmitted Code Power Value




–

>>Transmitted Code Power Value
M

INTEGER(0..127)
According to mapping in TS 25.133 [23] and TS 25.123 [24]
Values 0 to 9 and 123 to 127 shall not be used.
–

>RSCP



TDD Only.
–

>>RSCP
M

INTEGER(0..127)
According to mapping in TS 25.123 [24].
–

>Rx Timing Deviation Value



3.84Mcps TDD Only.
–

>>Rx Timing Deviation
M

INTEGER(0..8191)
According to mapping in TS 25.123 [24].
–

>Round Trip Time



FDD Only.
–

>>Round Trip Time
M

INTEGER(0..32767)
According to mapping in TS 25.133 [23].
–

>Additional Dedicated Measurement Values




–

>>Rx Timing Deviation Value LCR



1.28Mcps TDD Only.
YES
reject
>>>Rx Timing Deviation LCR
M

INTEGER(0..511)
According to mapping in TS 25.123 [24].
–

>>Angle of Arrival Value LCR



1.28Mcps TDD only.
YES
reject
>>>AOA LCR
M

INTEGER(0..719)
According to mapping in TS 25.123 [24].
–

>>>AOA LCR Accuracy Class
M

ENUMERATED(A, B, C, D, E, F, G, H,...)
According to mapping in TS 25.123 [24]
–

>>HS-SICH reception quality



Applicable to TDD only.
YES
reject
>>>HS-SICH reception quality Value 

1


–

>>>>Failed HS-SICH
M

INTEGER (0..20)
According to mapping in TS 25.123 [24].
–

>>>>Missed HS-SICH 
M

INTEGER (0..20)
According to mapping in TS 25.123 [24].
–

>>>>Total HS-SICH
M

INTEGER (0..20)
According to mapping in TS 25.123 [24].
–

>>Rx Timing Deviation Value 7.68Mcps



7.68Mcps TDD Only.
YES
reject
>>>Rx Timing Deviation 7.68Mcps
M

INTEGER(0..65535)
According to mapping in TS 25.123 [24].
–

>>Rx Timing Deviation Value 3.84Mcps Extended



3.84 Mcps TDD Only.
YES
reject
>>>Rx Timing Deviation 3.84Mcps Extended
M

INTEGER(0..32767)
According to mapping in TS 25.123 [24].
–

>>Extended Round Trip Time



FDD Only.
YES
ignore
>>>Extended Round Trip Time Value
M

INTEGER (32767..103041)
Continuation of intervals with step size as defined in TS 25.133 [23].
–

>>UE transmission power headroom




YES
reject
>>>UE transmission power headroom
M

INTEGER (0..31)
According to mapping in TS 25.133 [23] and TS 25.123 [24].
–
–
>>DL transport block size



FDD only.


>>>HS-DSCH Cell List
M
1.. <maxNrOfHSDSCH-1>


EACH
reject
>>>>HS-DSCH cell TBS
M

INTEGER (0.. 160000)
According to mapping of CQI in TS 25.214 [10]. See Note 1.
–
–
Note 1:	In case of Dual Stream MIMO, this information element is the sum of the transport block size values from both streams of the cell.

Range bound
Explanation
maxNrOfHSDSCH-1
Maximum number of HS-DSCH cells for one UE.

9.2.1.19A	Dedicated Measurement Value Information
The Dedicated Measurement Value Information IE provides information both on whether or not the Dedicated Measurement Value is provided in the message and if provided also the Dedicated Measurement Value itself.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE Measurement Availability Indicator
M



–

>Measurement Available




–

>>Dedicated Measurement Value
M

9.2.1.19

–

>>CFN
O

9.2.1.9
Dedicated Measurement Time Reference.
_

>Measurement not Available


NULL

–


9.2.1.19Aa	Delayed Activation
The Delayed Activation IE indicates that the activation of the DL power shall be delayed until an indicated CFN or until a separate activation indication is received.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Delayed Activation
M



>CFN




>>Activation CFN
M

CFN 9.2.1.7

>Separate Indication


NULL


9.2.1.19Ab	Delayed Activation Update
The Delayed Activation Update IE indicates a change of the activation of the DL power for a specific RL.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Delayed Activation Update
M



>Activate




>>CHOICE Activation Type
M



>>>Synchronised




>>>>Activation CFN
M

CFN 9.2.1.7

>>>Unsynchronised


NULL

>>Initial DL TX Power
M

DL Power
9.2.1.21

>>First RLS Indicator
O

9.2.2.16A
FDD Only.
>>Propagation Delay
O

9.2.2.33
FDD Only.
>>Extended Propagation Delay
O

9.2.2.33a
FDD Only.
>Deactivate




>>CHOICE Deactivation type
M



>>>Synchronised




>>>>Deactivation CFN
M

CFN 9.2.1.7

>>>Unsynchronised


NULL


9.2.1.19B	DGPS Corrections
The DGPS Corrections IE contains DGPS information used by the UE Positioning A-GPS method. For further details on the meaning of parameters, see RTCM-SC104 [31].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
GPS TOW
M

INTEGER(0..604799)
Time in seconds. This field indicates the baseline time for which the corrections are valid.
-

Status/Health
M

ENUMERATED
(UDRE scale 1.0, UDRE scale 0.75, UDRE scale 0.5, UDRE scale 0.3, UDRE scale 0.1, no data, invalid data)
This field indicates the status of the differential corrections.
-

Satellite DGPS Corrections Information

1..<maxNoSat>


-

>SatID
M

SAT ID
9.2.1.50A

-

>IODE
M

BIT STRING (SIZE(8))
This IE is the sequence number for the ephemeris for the particular satellite. It can be used to determine if new ephemeris is used for calculating the corrections that are provided. This eight-bit IE is incremented for each new set of ephemeris for the satellite and may occupy the numerical range of [0, 239] during normal operations.
-

>UDRE
M

ENUMERATED
(UDRE 1.0m,
1.0m <
UDRE  
4.0m,
4.0m <
UDRE 
8.0m,
8.0m <
UDRE,...)
User Differential Range Error. This field provides an estimate of the uncertainty (1-) in the corrections for the particular satellite. The value in this field shall be multiplied by the UDRE Scale Factor in the common Corrections Status/Health field to determine the final UDRE estimate for the particular satellite.
-

>PRC
M

INTEGER(
-2047..2047)
Scaling factor 0.32 meters.
-

>Range Correction Rate
M

INTEGER(-127.. 127)
Scaling factor 0.032 m/s. 
-

>DGNSS Validity Period
O

9.2.1.138

YES
ignore

Range Bound
Explanation
maxNoSat
Maximum number of satellites for which information can be provided.

9.2.1.19C	Discard Timer
The Discard Timer IE defines the time to live for a MAC-hs SDU starting from the instant of its arrival into an HSDPA Priority Queue. The DRNS shall use this information to discard out-of-date MAC-hs SDUs from the HSDPA Priority Queues.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Discard Timer


ENUMERATED (20, 40, 60, 80, 100, 120, 140, 160, 180, 200, 250, 300, 400, 500, 750, 1000, 1250, 1500, 1750, 2000, 2500, 3000, 3500, 4000, 4500, 5000, 7500, …)
Unit: ms


9.2.1.20	Diversity Control Field
The Diversity Control Field indicates if the current RL may, must or must not be combined with the already existing RLs.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Diversity Control Field


ENUMERATED(May, Must, Must not, 
…)


9.2.1.21	Diversity Indication
Void.
9.2.1.21A	DL Power
The DL Power IE indicates a power level relative to the [FDD – primary CPICH power] [TDD – PCCPCH power] configured in a cell. [FDD – If referred to a DPCH, it indicates the power of the transmitted DPDCH symbols. If referred to an F-DPCH, it indicates the Reference F-DPCH TX Power.] If Transmit Diversity is applied to a downlink physical channel, the DL Power IE indicates the power offset between the linear sum of the power for this downlink physical channel on all branches and the [FDD – primary CPICH power] [TDD – PCCPCH power] configured in a cell.
[TDD – If referred to a DPCH, it indicates the power of a spreading factor 16 code, the power for a spreading factor 1 code would be 12 dB higher.]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DL Power


INTEGER (-350..150)
Value = DL Power /10
Unit dB 
Range –35.0 .. +15.0 
Step 0.1dB

9.2.1.22	Downlink SIR Target
Void
9.2.1.23	DPCH Constant Value
DPCH Constant Value is the power margin used by a UE to set the proper uplink power.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DPCH Constant Value


INTEGER (-10..10)
Unit dB
Granularity 1 dB.

9.2.1.24	D-RNTI
The D-RNTI identifies the UE Context in the DRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
D-RNTI


INTEGER(0..2^20 –1)


9.2.1.25	D-RNTI Release Indication
The D-RNTI Release Indication indicates whether or not a DRNC shall release the D-RNTI allocated for a particular UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
D-RNTI Release Indication


ENUMERATED(Release D‑RNTI, not Release D‑RNTI)


9.2.1.26	DRX Cycle Length Coefficient
The DRX Cycle Length Coefficient is used as input for the formula to establish the paging occasions to be used in DRX.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DRX Cycle Length Coefficient


INTEGER
(3..9)

Refers to ‘k’ in the formula as specified in TS 25.304 [15], Discontinuous Reception.

9.2.1.26A	DSCH ID
Void.
9.2.1.26Aa	DSCH Initial Window Size
Void.
9.2.1.26B	DSCH Flow Control Information
Void.
9.2.1.26Ba	DSCH-RNTI
Void.
9.2.1.26Bb	Extended GSM Cell Individual Offset
Extended GSM Cell individual offset is an offset that will be applied by UE to the measurement results for GSM carrier RSSI according to TS 25.331 [16]. It shall be used when the offset exceeds the range of values that can be indicated using the Cell Individual Offset IE (Subclause 9.2.1.7).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended GSM Cell Individual Offset


INTEGER (-50..-11 | 11..50)
Unit in dB. Step size is 1 dB.

9.2.1.26C	FACH Flow Control Information
The FACH Flow Control Information IE provides flow control information for each scheduling priority class for the FACH FP over Iur.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
FACH Flow Control Information

1..16


–

>FACH Scheduling Priority
M

Scheduling Priority Indicator 9.2.1.51A

–

>MAC-c/sh SDU Length

1..<maxNrOfMACcshSDU-Length>


–

>>MAC-c/sh SDU Length
M

9.2.1.34

–

>FACH Initial Window Size
M

9.2.1.27

–


Range bound
Explanation
maxNrOfMACcshSDU-Length
Maximum number of different MAC-c/sh SDU lengths.

9.2.1.27	FACH Initial Window Size
Indicates the initial number of MAC-c/sh SDUs that may be transmitted before an acknowledgement is received from the DRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
FACH Initial Window Size


INTEGER(0..255)
Number of frames (MAC-c/sh SDUs).
255 = Unlimited number of FACH data frames.

9.2.1.28	FACH Priority Indicator
Void
9.2.1.28A	FN Reporting Indicator
Frame Number reporting indicator.
Indicates if the SFN or CFN shall be included together with the reported measurement value.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
FN reporting indicator


ENUMERATED(FN reporting required, FN reporting not required)


9.2.1.29	Frame Handling Priority
This parameter indicates the priority level to be used during the lifetime of the DCH, [TDD – DSCH] for temporary restriction of the allocated resources due overload reason.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Frame Handling Priority


INTEGER
(0..15)
0=Lowest Priority,
…
15=Highest Priority.

9.2.1.30	Frame Offset
Frame Offset is the required offset between the dedicated channel downlink transmission frames (CFN, Connection Frame Number) and the broadcast channel frame offset (Cell Frame Number). The Frame Offset is used in the translation between Connection Frame Number (CFN) on Iub/Iur and least significant 8 bits of SFN (System Frame Number) on Uu. The Frame Offset is UE and cell specific.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Frame Offset


INTEGER
(0..255)
Frames.

9.2.1.30A	GA Point with Uncertainty
This IE contains one of the possible descriptions of a Cell Geographical Area.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Geographical Coordinates
M

9.2.1.30F

Uncertainty Code
M

INTEGER(
0..127)
The uncertainty “r” is derived from the “uncertainty code” k by
r = 10x(1.1k-1).

9.2.1.30B	GA Ellipsoid Point with Uncertainty Ellipse
This IE contains one of the possible descriptions of a Cell Geographical Area.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Geographical Coordinates
M

9.2.1.30F

Uncertainty Ellipse
M

9.2.1.68A

Confidence
M

INTEGER(
0..127)


9.2.1.30C	GA Ellipsoid Point with Altitude
This IE contains one of the possible descriptions of a Cell Geographical Area.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Geographical Coordinates
M

9.2.1.30F

Altitude and Direction
M

9.2.1.2B


9.2.1.30D	GA Ellipsoid Point with Altitude and Uncertainty Ellipsoid
This IE contains one of the possible descriptions of a Cell Geographical Area.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Geographical Coordinates
M

9.2.1.30F

Altitude and Direction
M

9.2.1.2B

Uncertainty Ellipse
M

9.2.1.68A

Uncertainty Altitude
M

INTEGER(
0..127)

Confidence
M

INTEGER(
0..127)


9.2.1.30E	GA Ellipsoid Arc
This IE contains one of the possible descriptions of a Cell Geographical Area.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Geographical Coordinates
M

9.2.1.30F

Inner radius
M

INTEGER(
0..216-1)
The relation between the value (N) and the radius I in meters it describes is 5N r <5(N+1), except for N=216-1 for which the range is extended to include all grater values of I.
Uncertainty radius
M

INTEGER(
0..127)
The uncertainty “r” is derived from the “uncertainty code” k by
r = 10x(1.1k-1)
Offset angle
M

INTEGER(
0..179)
The relation between the value (N) and the angle (a) in degrees it describes is 
2N a <2(N+1).
Included angle
M

INTEGER(
0..179)
The relation between the value (N) and the angle (a) in degrees it describes is 
2N< a 2(N+1).
Confidence
M

INTEGER(
0..127)


9.2.1.30F	Geographical Coordinates
This IE contains the description of geographical coordinates.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Latitude Sign
M

ENUMERATED(North, South)


Degrees Of Latitude
M

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
M

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°).

9.2.1.30Fa	GERAN Cell Capability
The GERAN Cell Capability IE is used to transfer the capabilities of a certain GERAN cell via the Iur interface.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
GERAN Cell Capability
M

BIT STRING (SIZE(16))
Each bit indicates whether a cell supports a particular functionality or not. The value 1 of a bit indicates that the corresponding functionality is supported in a cell and value 0 indicates that the corresponding functionality is not supported in a cell. Each bit is defined as follows.
The first bit: A/Gb mode.
The second bit: Iu mode.
Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.1.30Fb	GERAN Classmark
The GERAN Classmark IE is used to transfer the capabilities of a certain GERAN Iu-mode capable cell via the Iur interface. 
IE/Group Name
Presence
Range
IE type and reference
Semantics description
GERAN Classmark
M

OCTET STRING
Contents defined in TS 48.008 [38].

9.2.1.30Fc	GERAN System Information
The GERAN System Information IE provides GERAN specific information.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
GERAN System Info

1..<maxNrOfGERANSI>


>GERAN System Info Block 

M

OCTET STRING SIZE((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.

Range bound
Explanation
maxNrOfGERANSI
Maximum number of GERAN SI blocks that can be provided as part of NACC information.

9.2.1.30G	GPS Almanac
This IE provides the information regarding the GPS Almanac. For further details on the meaning of parameters, see ICD-GPS-200 [30].
IE/Group name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
WNa
M

BIT STRING(8)

–

Satellite Almanac Information
M
1..<maxNrOfSatAlmanac-maxNoSat>

See Note 1.
–

>DataID
M

INTEGER
(0..3)

–

>SatID
M

SAT ID
9.2.1.50A

–

>e
M

BIT STRING(16)

–

>toa
M

BIT STRING(8)

–

>i
M

BIT STRING(16)

–

>OMEGADOT
M

BIT STRING(16)

–

>SV Health
M

BIT STRING(8)

–

>A1/2
M

BIT STRING(24)

–

>OMEGA0
M

BIT STRING(24)

–

>M0
M

BIT STRING(24)

–

>
M

BIT STRING(24)

–

>af0
M

BIT STRING(11)

–

>af1
M

BIT STRING(11)

–

SV Global Health
O

BIT STRING (SIZE(364))

–

Complete Almanac Provided
O

BOOLEAN
This field indicates whether almanac is provided for the full GPS constellation or not. TRUE means complete GPS almanac is provided.
YES
ignore
Note 1:	This information element is a simplified representation of the ASN.1 description. Repetitions 1 through maxNoSat and repetitions maxNoSat+1 through maxNrOfSatAlmanac-maxNoSat are represented by separate ASN.1 structures with different criticality.



Range Bound
Explanation
maxNrOfSatAlmanac-maxNoSat
Maximum number of satellite almanacs for which information can be provided.

9.2.1.30H	GPS Ionospheric Model
This IE provides the information regarding the GPS Ionospheric Model. For further details on the meaning of parameters, see ICD-GPS-200 [30].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
0
M

BIT STRING (SIZE8))

1
M

BIT STRING (SIZE(8))

2
M

BIT STRING (SIZE(8))

3
M

BIT STRING (SIZE(8))

0
M

BIT STRING (SIZE(8))

1
M

BIT STRING (SIZE(8))

2
M

BIT STRING (SIZE(8))

3
M

BIT STRING (SIZE(8))


9.2.1.30I	GPS Navigation Model and Time Recovery
This IE contains subframes 1 to 3 of the GPS navigation message. For further details on the meaning of parameters, see ICD-GPS-200 [30].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Navigation Message 1to3

1..<maxNoSat>


>Transmission TOW
M

INTEGER0..1048575)
Time of the Week when the message is broadcast.
>SatID
M

SAT ID
9.2.1.50A

>TLM Message
M

BIT STRING (SIZE(14))

>Tlm Revd I 
M

BIT STRING (SIZE(2)

>HO-Word
M

BIT STRING (SIZE(22))

>WN
M

BIT STRING (SIZE(10))

>C/A or P on L2
M

BIT STRING (SIZE(2))

>User Range Accuracy Index
M

BIT STRING (SIZE(4))

>SV Health
M

BIT STRING (SIZE(6))

>IODC
M

BIT STRING (SIZE(10))

>L2 P Data Flag
M

BIT STRING (SIZE(1))

>SF 1 Reserved
M

BIT STRING (SIZE(87))

>TGD
M

BIT STRING (SIZE(8))

>toc
M

BIT STRING (SIZE(16))

>af2
M

BIT STRING (SIZE(8))

>af1
M

BIT STRING (SIZE(16))

>af0
M

BIT STRING (SIZE(22))

>Crs
M

BIT STRING (SIZE(16))

>n
M

BIT STRING (SIZE(16))

>M0
M

BIT STRING (SIZE(32))

>Cuc
M

BIT STRING (SIZE(16))

>e
M

BIT STRING (SIZE(32))

>Cus
M

BIT STRING (SIZE(16))

>(A)1/2
M

BIT STRING (SIZE(32))

>toe
M

BIT STRING (SIZE(16))

>Fit Interval Flag
M

BIT STRING (SIZE(1))

>AODO
M

BIT STRING (SIZE(5))

>Cic
M

BIT STRING (SIZE(16))

>OMEGA0
M

BIT STRING (SIZE(32))

>Cis
M

BIT STRING (SIZE(16))

>i0
M

BIT STRING (SIZE(32))

>Crc
M

BIT STRING (SIZE(16))

>
M

BIT STRING (SIZE(32))

>OMEGAdot
M

BIT STRING (SIZE(24))

>Idot
M

BIT STRING (SIZE(14))

>Spare/zero fill
M

BIT STRING (SIZE(20))


Range Bound
Explanation
maxNoSat
Maximum number of satellites for which information can be provided.

9.2.1.30J	GPS Real-Time Integrity
This IE provides the information regarding the status of the GPS constellation. For further details on the meaning of parameters, see ICD-GPS-200 [30].
IE/Group name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Bad Satellites Presence
M



>Bad Satellites




>>Satellite Information

1..<maxNoSat>


>>>BadSatID
M

SAT ID
9.2.1.50A

>No Bad Satellites


NULL


Range Bound
Explanation
MaxNoSat
Maximum number of satellites for which information can be provided.

9.2.1.30K	GPS Receiver Geographical Position (GPS RX Pos)
The GPS Receiver Geographical Position is used to identify the geographical coordinates of a GPS receiver relevant for a certain Information Exchange Object.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Geographical Coordinates
M

9.2.1.30F

Altitude and Direction
M

9.2.1.2B


9.2.1.30L	GPS UTC Model
This IE provides the information regarding the GPS UTC Model. For further details on the meaning of parameters, see ICD-GPS-200 [30].
IE/Group name
Presence
Range
IE Type and Reference
Semantics Description
A1
M

BIT STRING (SIZE(24))

A0
M

BIT STRING (SIZE(32))

tot
M

BIT STRING (SIZE(8))

tLS
M

BIT STRING (SIZE(8))

WNt
M

BIT STRING (SIZE(8))

WNLSF
M

BIT STRING (SIZE(8))

DN
M

BIT STRING (SIZE(8))

tLSF
M

BIT STRING (SIZE(8))


9.2.1.30M	Guaranteed Rate Information
The Guaranteed Rate Information IE indicates the TFI corresponding to the guaranteed bit rate for the uplink and/or the downlink of a DCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Guaranteed UL Rate
O

INTEGER(1..maxNrOfTFs)
“1”: TFI 0,
“2”: TFI 1,
“3”: TFI 2,
…

Guaranteed DL Rate
O

INTEGER(1..maxNrOfTFs)
“1”: TFI 0,
“2”: TFI 1,
“3”: TFI 2,
…


9.2.1.30N	HCS Prio
The HCS Prio is the characteristics of the cell as defined in TS 25.304 [15].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HCS Prio


INTEGER
(0..7)
0=Lowest Priority,
…
7=Highest Priority.

9.2.1.30NA	HS-DSCH Information To Modify Unsynchronised
The HS-DSCH Information To Modify Unsynchronised IE is used for modification of HS-DSCH information in a UE Context with the Unsynchronised Radio Link Reconfiguration procedure.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-DSCH MAC-d Flow Specific Information

0..<maxNrOfMACdFlows>


–

>HS-DSCH MAC-d Flow ID
M

9.2.1.30O

–

>Allocation/Retention Priority
O

9.2.1.1

–

>Transport Bearer Request Indicator
M

9.2.1.61

–

>Traffic Class
O

9.2.1.58A

–

>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
–

>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
–

>TNL QoS 
O

9.2.1.56A
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
Priority Queue Information

0..<maxNrOfPrioQueues>


–

>Priority Queue ID
M

9.2.1.45A

–

>Scheduling Priority Indicator
O

9.2.1.51A

–

>Discard Timer
O

9.2.1.19C

–

>MAC-hs Guaranteed Bit Rate
O

9.2.1.34Aa

–

CQI Power Offset
O

9.2.2.24b
For FDD only. 
–

ACK Power Offset
O

9.2.2.b
For FDD only.
–

NACK Power Offset
O

9.2.2.26a
For FDD only.
–

HS-SCCH Power Offset
O

9.2.2.19d
For FDD only.
–

TDD ACK NACK Power Offset
O

9.2.3.7I
For TDD only.
–

HARQ Preamble Mode
O

9.2.2.57
For FDD only.
YES
ignore
MIMO Mode Indicator
O

9.2.1.135
For FDD and 1.28Mcps TDD only.
YES
reject
Sixtyfour QAM Usage Allowed Indicator
O

9.2.2.79A
For FDD only.
YES
ignore
Enhanced HS Serving CC Abort
O

ENUMERATED (Abort Enhanced HS Serving CC, …)
For FDD only.
YES
reject
UE Support Indicator Extension
O

9.2.2.103

YES
ignore
Power Offset For S-CPICH for MIMO Request Indicator
O

9.2.2.105
For FDD only.
YES
ignore
Single Stream MIMO Mode Indicator
O

9.2.2.107
For FDD only.
YES
reject
MIMO with four transmit antennas Mode Indicator
O

9.2.2.146
For FDD only
YES
reject
Dual Stream MIMO with four transmit antennas Mode Indicator
O

9.2.2.150
For FDD only
YES
reject
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator
O

9.2.2.147
For FDD only
YES
ignore
Multiflow Reconfiguration
O

9.2.2.151
For FDD only
YES
reject

Range Bound
Explanation
maxNrOfMACdFlows
Maximum number of HS-DSCH MAC-d flows.
maxNrOfPrioQueues
Maximum number of Priority Queues.

9.2.1.30Na	HS-DSCH Initial Capacity Allocation
The HS-DSCH Initial Capacity Allocation IE provides flow control information for each scheduling priority class for the HS-DSCH FP over Iur.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-DSCH Initial Capacity Allocation

1..< maxNrOfPrioQueues>


–

>Scheduling Priority Indicator
M

9.2.1.51A

–

>Maximum MAC-d PDU Size
M

MAC-d PDU Size 9.2.1.34A
Shall be ignored if Maximum MAC-d PDU Size Extended IE is present.
–

>HS-DSCH Initial Window Size
M

9.2.1.30Nb

–

>Maximum MAC-d PDU Size Extended
O

MAC PDU Size Extended
9.2.1.34D

YES
ignore

Range Bound
Explanation
maxNrOfPrioQueues
Maximum number of Priority Queues.

9.2.1.30Nb	HS-DSCH Initial Window Size
Indicates the initial number of MAC-d PDUs (or octets in case HS-DSCH MAC-d PDU Size Format = “Flexible MAC-d PDU Size”) that may be transmitted before new credits are received from the DRNC.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
HS-DSCH Initial Window Size


INTEGER (1..255)
Number of MAC-d PDUs
If HS-DSCH MAC-d PDU Size Format = “Flexible MAC-d PDU Size” the credit shall be determined in octets:
credit (in octets) = Maximum MAC-d PDU Size extended * HS-DSCH Initial Window Size.

9.2.1.30O	HS-DSCH MAC-d Flow ID
HS-DSCH MAC-d Flow ID is the unique identifier for one MAC-d flow.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-DSCH MAC-d Flow ID


INTEGER
(0..7)


9.2.1.30OA	HS-DSCH MAC-d Flows Information
The HS-DSCH MAC-d Flows Information IE is used for the establishment of HS-DSCH MAC-d flows for a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-DSCH MAC-d Flow Specific Information

1..<maxNrOfMACdFlows>


–

>HS-DSCH MAC-d Flow ID
M

9.2.1.30O

–

>Allocation/Retention Priority
M

9.2.1.1

–

>Traffic Class
M

9.2.1.58A

–

>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
–

>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
–

>TNL QoS
O

9.2.1.56A
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
>TrCH Source Statistics Descriptor
O

9.2.1.65

YES
ignore
Priority Queue Information

1..<maxNrOfPrioQueues>


–

>Priority Queue ID
M

9.2.1.45A

–

>Associated HS-DSCH MAC-d Flow
M

HS-DSCH MAC-d Flow ID
9.2.1.30O
The HS-DSCH MAC-d Flow ID shall be one of the flow IDs defined in the HS-DSCH MAC-d Flow Specific Information of this IE.
Multiple Priority Queues can be associated with the same HS-DSCH MAC-d Flow ID.
–

>Scheduling Priority Indicator
M

9.2.1.51A

–

>T1
M

9.2.1.54A

–

>Discard Timer
O

9.2.1.19C

–

>MAC-hs Window Size
M

9.2.1.34C

–

>MAC-hs Guaranteed Bit Rate
O

9.2.1.34Aa

–

>MAC-d PDU Size Index

1..<maxNrOfPDUIndexes>


–

>>SID
M

9.2.1.52D
Shall be ignored if Maximum MAC-d PDU Size extended IE is present.
–

>>MAC-d PDU Size
M

9.2.1.34A
Shall be ignored if Maximum MAC-d PDU Size extended IE is present.
–

>RLC Mode
M

9.2.1.48D

–

>Maximum MAC-d PDU Size extended
O

MAC PDU Size Extended
9.2.1.34D

YES
reject
>DL RLC PDU Size Format
O

9.2.1.136

YES
ignore
>UE Aggregate Maximum Bit Rate Enforcement Indicator
O

NULL

YES
ignore

Range Bound
Explanation
maxNrOfMACdFlows
Maximum number of HS-DSCH MAC-d flows.
maxNrOfPrioQueues
Maximum number of Priority Queues.
maxNrOfPDUIndexes
Maximum number of different MAC-d PDU SIDs.

9.2.1.30OB	HS-DSCH MAC-d Flows To Delete
The HS-DSCH MAC-d Flows To Delete IE is used for the removal of HS-DSCH MAC-d flows from a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-DSCH MAC-d Flows To Delete

1..<maxNrOfMACdFlows>


>HS-DSCH MAC-d Flow ID
M

9.2.1.30O


Range Bound
Explanation
maxNrOfMACdFlows
Maximum number of HS-DSCH MAC-d flows.

9.2.1.30OC	HS-DSCH MAC-d PDU Size Format
The HS-DSCH MAC-d PDU Size Format IE provides information about the type of MAC-d PDU Size Format used for HS-DSCH. “Indexed MAC-d PDU Size” uses MAC-d PDU sizes based on SID IE and MAC-d PDU Size IE of MAC-d PDU Size Index IE. “Flexible MAC-d PDU Size” uses a flexible MAC-d PDU size with a maximum PDU size as defined by Maximum MAC-d PDU Size extended IE of Priority Queue Information IE. The actual MAC-d PDU size is determined as specified in TS 25.425 [32] and TS 25.321 [41].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-DSCH MAC-d PDU Size Format 


ENUMERATED (Indexed MAC-d PDU Size, Flexible MAC-d PDU Size)


9.2.1.30Oa	HS-DSCH Physical Layer Category
The HS-DSCH Physical Layer Category IE defines a set of UE radio access capabilities related to HSDPA, as defined in TS 25.306 [42].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-DSCH Physical Layer Category


INTEGER (1..64,…)


9.2.1.30P	HS-DSCH-RNTI
The HS-DSCH-RNTI is needed for the UE-specific CRC in HS-SCCH and HS-DSCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-DSCH-RNTI


INTEGER
(0..65535)


9.2.1.30Q	HS-DSCH Information To Modify
The HS-DSCH Information To Modify IE is used for modification of HS-DSCH information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-DSCH MAC-d Flow Specific Information

0..<maxNrOfMACdFlows>


–

>HS-DSCH MAC-d Flow ID
M

9.2.1.30O

–

>Allocation/Retention Priority
O

9.2.1.1

–

>Transport Bearer Request Indicator
M

9.2.1.61

–

>Traffic Class
O

9.2.1.58A

–

>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
–

>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
–

>TNL QoS 
O

9.2.1.56A
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
Priority Queue Information

0..<maxNrOfPrioQueues>


–

>CHOICE Priority Queue
M



–

>>Add Priority Queue




–

>>>Priority Queue ID
M

9.2.1.45A

–

>>>Associated HS-DSCH MAC-d Flow
M

HS-DSCH MAC-d Flow ID 9.2.1.30O
Shall only refer to a HS-DSCH MAC-d flow already existing in the old configuration.
Multiple Priority Queues can be associated with the same HS-DSCH MAC-d Flow ID.
–

>>>Scheduling Priority Indicator
M

9.2.1.51A

–

>>>T1
M

9.2.1.54A

–

>>>Discard Timer
O

9.2.1.19C

–

>>>MAC-hs Window Size
M

9.2.1.34C

–

>>>MAC-hs Guaranteed Bit Rate
O

9.2.1.34Aa

–

>>>MAC-d PDU Size Index

1..<maxNrOfPDUIndexes>


–

>>>>SID
M

9.2.1.52D
Shall be ignored if Maximum MAC-d PDU Size extended IE is present.
–

>>>>MAC-d PDU Size
M

9.2.1.34A
Shall be ignored if Maximum MAC-d PDU Size extended IE is present.
–

>>>RLC Mode
M

9.2.1.48D

–

>>>Maximum MAC-d PDU Size extended
O

MAC PDU Size Extended
9.2.1.34D

YES
reject
>>>DL RLC PDU Size Format
O

9.2.1.136

YES
ignore
>>Modify Priority Queue




–

>>>Priority Queue ID
M

9.2.1.45A
Shall only refer to a Priority Queue already existing in the old configuration.
–

>>>Scheduling Priority Indicator
O

9.2.1.51A

–

>>>T1
O

9.2.1.54A

–

>>>Discard Timer
O

9.2.1.19C

–

>>>MAC-hs Window Size
O

9.2.1.34C

–

>>>MAC-hs Guaranteed Bit Rate
O

9.2.1.34Aa

–

>>>MAC-d PDU Size Index

0..<maxNrOfPDUIndexes>


–

>>>>SID
M

9.2.1.52D
Shall be ignored if Maximum MAC-d PDU Size extended IE is present.
–

>>>>MAC-d PDU Size
M

9.2.1.34A
Shall be ignored if Maximum MAC-d PDU Size extended IE is present.
–

>>>Maximum MAC-d PDU Size extended
O

MAC PDU Size Extended
9.2.1.34D

YES
reject
>>>DL RLC PDU Size Format
O

9.2.1.136

YES
ignore
>>Delete Priority Queue




–

>>>Priority Queue ID
M

9.2.1.45A
Shall only refer to a Priority Queue already existing in the old configuration.
–

MAC-hs Reordering Buffer Size for RLC-UM
O

9.2.1.34Ab

–

CQI Feedback Cycle k
O

9.2.2.24a
For FDD only.
–

CQI Repetition Factor
O

9.2.2.24c
For FDD only.
–

ACK-NACK Repetition Factor
O

9.2.2.a
For FDD only.
–

CQI Power Offset
O

9.2.2.24b
For FDD only. 
–

ACK Power Offset
O

9.2.2.b
For FDD only.
–

NACK Power Offset
O

9.2.2.26a
For FDD only.
–

HS-SCCH Power Offset
O

9.2.2.19d
For FDD only.
–

HS-SCCH Code Change Grant
O

9.2.1.30S

–

TDD ACK NACK Power Offset
O

9.2.3.7I
For TDD only.
–

HARQ Preamble Mode
O

9.2.2.57
For FDD only.
YES
ignore
HS-PDSCH Code Change Grant
O

9.2.1.30W
For FDD only.
YES
ignore
MIMO Mode Indicator
O

9.2.1.135
For FDD and 1.28Mcps TDD only.
YES
reject
HS-DSCH MAC-d PDU Size Format 
O

9.2.1.30OC

YES
reject
Sixtyfour QAM Usage Allowed Indicator
O

9.2.2.79A
For FDD only.
YES
ignore
UE Capabilities Information
O



YES
ignore
>HS-DSCH Physical Layer Category
M

9.2.1.30Oa

–

>1.28 Mcps TDD uplink physical channel capability
O

9.2.3.10D
Applicable to 1.28Mcps TDD only.
YES
ignore
>Number of Supported Carriers
O

ENUMERATED (
One-one carrier, One-three carrier, Three-three carrier, One-six carrier,
Tree-six carrier,
Six-six carrier, ..., One-Two carrier Discontiguous, Two-Two carrier Discontiguous, One-Two carrier Contiguous, Two-Two carrier Contiguous)
Applicable to 1.28Mcps TDD only 
This IE indicates the number of carrier that UE can support at the same time,where “ One-three carrier” means the number of supported carrier is one for the uplink,and three for the downlink.
One-Two carrier Discontiguous and Two-Two carrier Discontiguous mean that the UE is capable of supporting two non-adjacent carriers.
One-Two carrier Contiguous and Two-Two carrier Contiguous mean that the UE is only capable of supporting two adjacent carriers.
YES
reject
>MIMO SF Mode Supported For HS-PDSCH dual stream
O

ENUMERATED (SF1, SF1/SF16)
Applicable to 1.28Mcps TDD only.
YES
ignore
>Multi-carrier HS-DSCH Physical Layer Category
O

HS-DSCH Physical Layer Category
9.2.1.30Oa
Applicable to 1.28Mcps TDD only.
YES
ignore
>UE TS0 Capability LCR
O

ENUMERATED (TS0 Capable, TS0 Non-Capable)
Applicable to 1.28Mcps TDD only.
YES
ignore
>UE RF Band Capability LCR
C-NofSupportedCarriers

9.2.3.84
Applicable to 1.28Mcps TDD only.
YES
ignore
Enhanced HS Serving CC Abort
O

ENUMERATED (Abort Enhanced HS Serving CC, …)
For FDD only.
YES
reject
UE Support Indicator Extension
O

9.2.2.103

YES
ignore
Power Offset For S-CPICH for MIMO Request Indicator
O

9.2.2.105
For FDD only.
YES
ignore
Single Stream MIMO Mode Indicator
O

9.2.2.107
For FDD only.
YES
reject
MIMO with four transmit antennas Mode Indicator
O

9.2.2.146
For FDD only
YES
reject
Dual Stream MIMO with four transmit antennas Mode Indicator
O

9.2.2.150
For FDD only
YES
reject
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator
O

9.2.2.147
For FDD only
YES
ignore
Multiflow Reconfiguration
O

9.2.2.151
For FDD only
YES
reject
CQI Feedback Cycle2 k
O

CQI Feedback Cycle k2
9.2.2.181
For FDD only
YES
ignore
CQI Cycle Switch Timer
O

ENUMERATED (v4, v8, v16, v32, v64, v128, v256, v512, Infinity)
For FDD only, refer to TS 25.331 [16].
YES
ignore

Condition
Explanation
NofSupportedCarriers
This IE shall be present if the Number of Supported Carriers IE is equal to "One-Two carrier Discontiguous" or "Two-Two carrier Discontiguous" and the concerned cell and the UE support more than one RF band.

Range bound
Explanation
maxNrOfMACdFlows
Maximum number of MAC-d flows.
maxNrOfPrioQueues
Maximum number of Priority Queues.
maxNrOfPDUIndexes
Maximum number of MAC-d PDU Size Indexes (SIDs).

9.2.1.30R	HS-SCCH Code Change Indicator
The HS-SCCH Code Change Indicator indicates whether the HS-SCCH Code change is needed or not.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
HS-SCCH Code Change Indicator


ENUMERATED (HS-SCCH Code Change needed)


9.2.1.30S	HS-SCCH Code Change Grant
The HS-SCCH Code Change Grant IE indicates that modification of HS-SCCH Codes is granted.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-SCCH Code Change Grant 


ENUMERATED(Change Granted)


9.2.1.30T	IMEI
The IMEI is a permanent UE Equipment Identity, see TS 23.003 [1].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
IMEI


OCTET STRING (SIZE (8))
- hexadecimal digits 0 to F, two hexadecimal digits per octet,
- each hexadecimal digit encoded 0000 to 1111,
- 1111 used as filler for bits 8 to 5 of last octet.
- bit 4 to 1 of octet n encoding digit 2n-1.
- bit 8 to 5 of octet n encoding digit 2n.

Number of hexadecimal digits shall be 15.

9.2.1.30U	IMEISV
The IMEISV is a permanent UE Equipment Identity, see TS 23.003 [1].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
IMEISV


OCTET STRING (SIZE (8))
- hexadecimal digits 0 to F, two hexadecimal digits per octet,
- each hexadecimal digit encoded 0000 to 1111,
- 1111 used as filler for bits 8 to 5 of last octet.
- bit 4 to 1 of octet n encoding digit 2n-1.
- bit 8 to 5 of octet n encoding digit 2n.

Number of hexadecimal digits shall be 16.

9.2.1.30V	HS-PDSCH Code Change Indicator [FDD]
The HS-PDSCH Code Change Indicator indicates whether the HS-PDSCH Code change is needed or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-PDSCH Code Change Indicator


ENUMERATED (HS-PDSCH Code Change needed)


9.2.1.30W	HS-PDSCH Code Change Grant [FDD]
The HS-PDSCH Code Change Grant IE indicates that modification of HS-PDSCH Codes is granted.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-PDSCH Code Change Grant 


ENUMERATED(Change Granted)


9.2.1.31	IMSI
The IMSI is the permanent UE user Identity, see TS 23.003 [1].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
IMSI


OCTET STRING
(SIZE(3..8))

-Decimal digits coded in BCD.
-“1111” used as filler.
-bit 4 to 1 of octet n is encoding digit 2n-1.
-bit 8 to 5 of octet n is encoding digit 2n.

9.2.1.31A	Information Exchange ID
The Information Exchange ID uniquely identifies any requested information per RNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Information Exchange ID
M

INTEGER(0 .. 2^20-1)


9.2.1.31B	Information Exchange Object Type
Void.
9.2.1.31C	Information Report Characteristics
The information report characteristics define how the reporting shall be performed.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Information Report Characteristics Type
M



>On Demand


NULL

>Periodic




>>CHOICE Information Report Periodicity Scale
M


The frequency with which the Node B shall send information reports.
>>>minute




>>>>Report Periodicity Value
M

INTEGER (1..60,…)

>>>hour




>>>>Report Periodicity Value
M

INTEGER (1..24,…)

>On Modification




>>Information Threshold
O

9.2.1.31D


9.2.1.31D	Information Threshold
The Information Threshold indicates which kind of information shall trigger the Information Reporting procedure. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE Information Type Item
M



–

>DGPS Corrections






>>PRC Deviation
M

ENUMERATED(1, 2, 5, 10, …)
PRC deviation in meters from the previously reported value, which shall trigger a report.
–

>DGANSS






>>PRC Deviation
M

ENUMERATED 
(1, 2, 5, 10, …)
PRC deviation in meters from the previously reported value, which shall trigger a report.
–


9.2.1.31E	Information Type
The Information Type indicates which kind of information the RNS shall provide.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Information Type Item
M

ENUMERATED
(UTRAN Access Point Position with Altitude, UTRAN Access Point Position,
IPDL Parameters,
GPS Information,
DGPS Corrections,
GPS RX Pos, SFN-SFN Measurement Reference Point Position,…, Cell Capacity Class, NACC Related Data, MBMS Bearer Service Full Address, Inter-frequency Cell Information, GANSS Information, DGANSS Corrections, GANSS RX Pos, MBMS Counting Information, MBMS Transmission Mode, MBMS Neighbouring Cell Information, MBMS RLC Sequence Number, ANR Cell Information, Common E-RGCH Cell Information)
For information exchange on the Iur-g interface, only the Cell Capacity Class is used.

MBMS Counting Information, MBMS Transmission Mode, MBMS Neighbouring Cell Information and MBMS RLC Sequence Numbe shall only be used by FDD.

–

GPS Information
C-GPS
1..<maxNoGPSTypes>


–

>GPS Information Item


ENUMERATED
(GPS Navigation Model and Time Recovery,
GPS Ionospheric Model,
GPS UTC Model,
GPS Almanac,
GPS Real-Time Integrity,
…)

–

GANSS Information
C-GANSS



YES
ignore
>GANSS Common Data

0..1


–

>>Ionospheric Model
O

BOOLEAN
True means requested.
–

>>Additional Ionospheric Model
O

Additional Ionospheric Model Request
9.2.1.122d
Presence means requested. 
YES
ignore
>>Earth Orientation Parameters
O

Earth Orientation Parameters Request 9.2.1.122e

YES
ignore
>GANSS Generic Data

0..<maxNoGANSS>


–

>>GANSS ID
O

9.2.1.119

–

>>GANSS Navigation Model And Time Recovery
O

BOOLEAN
True means requested.
–

>>GANSS Time Model GNSS-GNSS
O

BIT STRING (SIZE(9))
Defines the time model required.

Bit 1 is the MSB and bit 9 is the LSB (see section 9.2.0).

Bit 1:GPS,
Bit 2:Galileo,
Bit 3:QZSS,
Bit 4:GLONASS,
Bit 5:BDS.

Other bits are reserved.
–

>>GANSS UTC Model
O

BOOLEAN
True means requested.
–

>>GANSS Almanac
O

BOOLEAN
True means requested.
–

>>GANSS Real Time Integrity
O

BOOLEAN
True means requested.
–

>>GANSS Data Bit Assistance

0..1


–

>>>GANSS TOD
M

INTEGER (0..86399)
The GANSS Time Of Day for which the data bits are requested.
–

>>>Data Bit Assistance

1


–

>>>>DGANSS Signal ID
M

BIT STRING (SIZE(8))
Defined in TS 25.331 [16].
–

>>>>GANSS Data Bit Interval
M

INTEGER (0..15)
Defined in TS 25.331 [16].
–

>>>>Satellite Information

0..<maxGANSSSat>


–

>>>>Sat ID
M

INTEGER(0..63)
Identifies the satellite and is equal to (SV ID No – 1).
–

>>GANSS Additional Navigation Models And Time Recovery
O

GANSS Additional Navigation Models And Time Recovery Request 9.2.1.122f

YES
ignore
>>GANSS Additional UTC Models
O

GANSS Additional UTC Models Request 9.2.1.122g

YES
ignore
>>GANSS Auxiliary Information
O

GANSS Auxiliary Information Request 
9.2.1.122h

YES
ignore
>>SBAS ID
C-GANSS-ID

9.2.1.122b

YES
ignore
>>DBDS Corrections Request

0..1


–

>>>DGANSS Signal ID
M

BIT STRING (SIZE(8))
Defined in TS 25.331 [16].
–

>>BDS Ionospheric Grid Model Request
O

ENUMERATED (requested, ...)

YES
ignore
DGANSS Corrections Req
C-DGANSSCorrections
1


YES
ignore
>DGANSS Signal ID
M

BIT STRING (SIZE(8))
Defined in TS 25.331 [16].
–

>GANSS ID
O

9.2.1.119

YES
ignore
MBMS RLC Sequence Number Information
C- MBMSRLCSequenceNumber


FDD only.
YES
ignore
>MBMS Cell List

1..<maxNrOfCells>


–

>>C-ID
M

9.2.1.6

–

>>MBMS Bearer Service List

1..<maxNrOfMBMSServices>


–

>>>TMGI
M

9.2.1.80

–

>>>Time Stamp
M

9.2.2.98

–


Condition
Explanation
DGANSSCorrections
The IE shall be present if the Information Type Item IE indicates “DGANSS Corrections”.
GPS
This IE shall be present if the Information Type Item IE indicates “GPS Information”.
GANSS
This IE shall be present if the Information Type Item IE indicates “GANSS Information”.
GANSS-ID
This IE shall be present if the GANSS ID IE indicates “SBAS”.
MBMSRLCSequenceNumber
This IE shall be present if the Information Type Item IE indicates “ MBMS RLC Sequence Number “.

Range Bound
Explanation
maxGANSSSat
Maximum number of satellites for which data is included in the IE.
maxNoGPSTypes
Maximum number of GPS Information Types supported in one Information Exchange.
maxNoGANSS
Maximum number of GANSS Systems.
maxNrOfMBMSServices
Maximum number of MBMS bearer services that a UE can join.
MaxNrOfCells
Maximum number of cells that can be indicated in the corresponding IE.

9.2.1.31F	IPDL Parameters
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE IPDL Parameters




-

>IPDL FDD Parameters






>>IPDL FDD Parameters
M

9.2.2.21B

–

>IPDL TDD Parameters



Applicable to 3.84Mcps TDD and 7.68Mcps TDD only.


>>IPDL TDD parameters
M

9.2.3.4B

–

>Additional IPDL Parameters






>>IPDL TDD Parameters LCR



Applicable to 1.28Mcps TDD only.
–

>>>IPDL TDD parameters LCR
M

9.2.3.4Bb

YES
reject

9.2.1.31G	Inter-frequency Cell Information
This IE contains the inter-frequency cell information of a cell in the DRNS broadcased in SIB11, SIB12 or SIB11ter.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
SIB11

0..2


-

>Inter-frequency Cell Indication- SIB11
M

INTEGER(0..1)
Value tag in 10.3.7.45 in TS 25.331 [16] with the same IE name.
-

>Inter-frequency Cell List in SIB11

0..<maxCellSIB11OrSIB12>


-

>>Inter-frequency Cell Id
M

INTEGER(0..31)
The order of the inter-frequency cell in SIB11.
-

>>DL UARFCN
M

UARFCN
9.2.1.66

-

>>UL UARFCN
O

UARFCN
9.2.1.66
If this IE is not present, the default duplex distance defined for the operating frequency band shall be used (TS 25.101 [43]).
-

>>Primary Scrambling Code
M

9.2.1.45

-

SIB12

0..2


-

>Inter-frequency Cell Indication- SIB12
M

INTEGER(0..1)
Value tag in 10.3.7.45 in TS 25.331 [16] with the same IE name.
-

>Inter-frequency Cell List in SIB12
M
0..<maxCellSIB11OrSIB12>


-

>>Inter-frequency Cell Id


INTEGER(0..31)
The order of the inter-frequency cell in SIB12.
-

>>DL UARFCN
M

UARFCN
9.2.1.66

-

>>UL UARFCN
O

UARFCN
9.2.1.66
If this IE is not present, the default duplex distance defined for the operating frequency band shall be used (TS 25.101 [43]).
-

>>Primary Scrambling Code
M

9.2.1.45

-

SIB11ter
O
1..2


YES
ignore
>Inter-frequency Cell Indication-SIB11ter
M

INTEGER(0..1)
Value tag in 10.3.7.45 in TS 25.331 [16] with the same IE name.
-

>Inter-frequency Cell List in SIB11ter
M
1..<maxCellSIB11ter-ext>


-

>>Inter-frequency Cell Id
M

INTEGER(0.. maxCellSIB11ter-1)
The order of the inter-frequency cell in the SIB11ter.
-

>>DL UARFCN
M

UARFCN
9.2.1.66

-

>>UL UARFCN
O

UARFCN
9.2.1.66
If this IE is not present, the default duplex distance defined for the operating frequency band shall be used (TS 25.101 [43]).
-

>>Primary Scrambling Code
M

9.2.1.45

-


Range bound
Explanation
maxCellSIB11OrSIB12
Maximum number of inter-frequency cells broadcased in SIB11 or SIB12.
maxCellSIB11ter-ext
Maximum number of inter-frequency cells broadcasted in SIB11ter.

9.2.1.32	L3 Information
This parameter contains the Layer 3 Information from a Uu message as received from the UE over the Uu interface or the Layer 3 Information for a Uu message to be sent to a UE by the DRNC, as defined in TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
L3 Information


BIT STRING
The content is defined in TS 25.331 [16].

9.2.1.33	Limited Power Increase
Void.
9.2.1.33A	Load Value
The Load Value IE contains the total load on the measured object relative to the maximum planned load for both the uplink and downlink. It is defined as the load percentage of the Cell Capacity Class.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Uplink Load Value
M

INTEGER(0..100)
Value 0 shall indicate the minimum load, and 100 shall indicate the maximum load. Load should be measured on a linear scale.
Downlink Load Value
M

INTEGER(0..100)
Value 0 shall indicate the minimum load, and 100 shall indicate the maximum load. Load should be measured on a linear scale.

9.2.1.34	MAC-c/sh SDU Length
Indicates the MAC-c/sh SDU Length. Which is used for FACH, [TDD – DSCH and USCH]. There may be multiple MAC-c/sh SDU Lengths per priority class.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MAC-c/sh SDU Length


INTEGER(1..5000)
Size of the MAC-c/sh SDU in number of bits.

9.2.1.34A	MAC-d PDU Size
The MAC-d PDU Size IE provides the size in bits of the MAC-d PDU.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MAC-d PDU Size


INTEGER
(1..5000,…)
In case of E-DCH, value 8 and values not multiple of 8 shall not be used.

9.2.1.34Aa	MAC-hs Guaranteed Bit Rate
The MAC-hs Guaranteed Bit Rate IE indicates the guaranteed number of bits per second that Node B should deliver over the air interface under normal operating conditions (provided there is data to deliver). If the MAC-hs Guaranteed Bit Rate IE is received with the value set to 0 during RL set up or modification, no guarantee is applied.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MAC-hs Guaranteed Bit Rate


INTEGER (0..2^24-1, …, 2^24..1,000,000,000)
Unit: bit/s.

9.2.1.34Ab	MAC-hs Reordering Buffer Size for RLC-UM
The MAC-hs Reordering Buffer Size for RLC-UM IE indicates the portion of the buffer in the UE that can be used for RLC-UM traffic (i.e. for Priority Queues whose RLC Mode IE is set to “RLC-UM”).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MAC-hs Reordering Buffer Size for RLC-UM


INTEGER
(0..300,…)
Unit: kBytes
And N kBytes = N*1024 Bytes.
The ＤＲＮＳ shall use this value to avoid the overflow of the UE buffer.

9.2.1.34B	MAC-hs Reset Indicator
The MAC-hs Reset Indicator IE indicates that a reset of the MAC-hs is not required. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MAC-hs Reset Indicator


ENUMERATED (MAC-hs
Not Reset)


9.2.1.34C	MAC-hs Window Size 
The MAC-hs Window Size IE is used for MAC-hs/MAC-ehs PDU retransmission as defined in TS 25.321 [41]. [FDD – the values 64, 128 and 256 is only allowed when the MAC header type is MAC-ehs and under conditions defined in TS 25.425 [32]].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MAC-hs Window Size


ENUMERATED (4, 6, 8, 12, 16, 24, 32,…64, 128, 256)


9.2.1.34D	MAC PDU Size Extended
The MAC PDU Size Extended IE provides the size in octets of the MAC level PDU when an extended MAC level PDU size is required. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MAC PDU Size Extended


INTEGER (1..1504,…,1505)
In case of E-DCH, value 1 shall not be used.

9.2.1.35	Maximum Allowed UL Tx Power
Maximum Allowed UL Tx Power is the maximum power that a UE in a particular cell is allowed to transmit.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Allowed UL Tx Power


INTEGER(-50..+33)
dBm.

9.2.1.35A	Measurement Availability Indicator
Void
9.2.1.35B	Measurement Change Time
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Measurement Change Time 
M

INTEGER (1..6000,…)
Unit: ms
Range: 10..60000 ms.
Step: 10 ms.

9.2.1.36	Measurement Filter Coefficient
The Measurement Filter Coefficient determines the amount of filtering to be applied for measurements.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Measurement Filter Coefficient


ENUMERATED(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 13, 15, 17, 19,…)


9.2.1.36A	Measurement Hysteresis Time
The Measurement Hysteresis Time provides the duration during which a reporting criterion has to be fulfilled for the Measurement Reporting procedure to be triggered.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Measurement Hysteresis Time 


INTEGER (1..6000,…)
Unit: ms
Range: 10..60000 ms.
Step: 10 ms.

9.2.1.37	Measurement ID
The Measurement ID uniquely identifies a dedicated measurement within a UE Context or a common measurement within a Distant RNC Context [TDD – or a UE measurement within a UE Context].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Measurement ID


INTEGER(0 .. 2^20-1)


9.2.1.38	Measurement Increase/Decrease Threshold
The Measurement Increase/Decrease Threshold defines the threshold that shall trigger Event C or D.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE Measurement Increase/Decrease Threshold
M



–

>SIR






>>SIR
M

INTEGER(0..62)
0: 0 dB
1: 0.5 dB
2: 1 dB
…
62: 31dB
–

>SIR Error



FDD Only


>>SIR Error
M

INTEGER(0..124)
0: 0 dB
1: 0.5 dB
2: 1 dB
…
124: 62 dB
–

>Transmitted Code Power






>>Transmitted Code Power
M

INTEGER(0..112,...)
0: 0 dB
1: 0.5 dB
2: 1 dB
…
112: 56 dB
–

>RSCP



TDD Only


>>RSCP
M

INTEGER(0..126)
0: 0 dB
1: 0.5 dB
2: 1 dB
…
126: 63 dB
–

>Round Trip Time



FDD Only


>>Round Trip Time
M

INTEGER(0..32766)
0: 0 chips
1: 0.0625 chips
2: 0.1250 chips
…
32766: 2047.875 chips
–

>Additional Measurement Thresholds






>>Load






>>>Load
M

INTEGER(0..100)
Units are the same as for the Uplink Load Value IE and Downlink Load Value IE.
–

>>Transmitted Carrier Power






>>>Transmitted Carrier Power
M

INTEGER(0..100)
According to mapping in TS 25.133 [23] and TS 25.123 [24].
YES
reject
>>Received Total Wide Band Power






>>>Received Total Wide Band Power
M

INTEGER(0..620)
0: 0dB
1: 0.1dB
2: 0.2dB
...
620: 62dB
YES
reject
>>UL Timeslot ISCP



TDD Only


>>>UL Timeslot ISCP
M

INTEGER(0..126)
0: 0dB
1: 0.5dB
2: 1dB
...
126: 63dB
YES
reject
>>RT Load






>>>RT Load
M

INTEGER(0..100)
Units are the same as for the Uplink RT Load Value IE and Downlink RT Load Value IE.
YES
reject
>>NRT Load Information






>>>NRT Load Information
M

INTEGER(0..3)

YES
reject
>>UpPTS interference



1.28Mcps TDD Only.


>>>UpPTS interference Value
M

INTEGER (0..127,…)
According to mapping in TS 25.123 [24].
YES
reject

9.2.1.38A	Measurement Recovery Behavior
This IE controls the Measurement Recovery Behavior.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Measurement Recovery Behavior


NULL


9.2.1.38B	Measurement Recovery Reporting Indicator
This IE indicates the Measurement Recovery Reporting.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Measurement Recovery Reporting Indicator


NULL


9.2.1.38C	Measurement Recovery Support Indicator
This IE indicates the Measurement Recovery Support.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Measurement Recovery Support Indicator


NULL


9.2.1.39	Measurement Threshold
The Measurement Threshold defines which threshold that shall trigger Event A, B, E, F or On Modification.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE Measurement Threshold




-

>SIR






>>SIR
M

INTEGER(0..63)
According to mapping in TS 25.133 [23] and TS 25.123 [24].
–

>SIR Error



FDD Only


>>SIR Error
M

INTEGER(0..125)
According to mapping in TS 25.133 [23].
–

>Transmitted Carrier Power






>>Transmitted Code Power
M

INTEGER(0..127)
According to mapping in TS 25.133 [23] and TS 25.123 [24].
–

>RSCP



TDD Only.


>>RSCP
M

INTEGER(0..127)
According to mapping in TS 25.123 [24].
–

>Rx Timing Deviation



Applicable to 3.84Mcps TDD Only.


>>Rx Timing Deviation
M

INTEGER(0..8191)
According to mapping in TS 25.123 [24].
–

>Round Trip Time



FDD Only.


>>Round Trip Time
M

INTEGER(0..32767)
According to mapping in TS 25.133 [23].
–

>Additional Measurement Thresholds






>>TUTRAN-GPS Measurement Threshold Information




YES
reject
>>>TUTRAN-GPS Measurement Threshold Information
M

9.2.1.59C

–

>>SFN-SFN Measurement Threshold Information




YES
reject
>>>SFN-SFN Measurement Threshold Information
M

9.2.1.52B

–

>>Load




YES
reject
>>>Load
M

INTEGER(0..100)
0 is the minimum indicated load, and 100 is the maximum indicated load.
–

>>Transmitted Carrier Power




YES
reject
>>>Transmitted Carrier Power
M

INTEGER(0..100)
According to mapping in TS 25.133 [23] and TS 25.123 [24].
–

>>Received Total Wide Band Power




YES
reject
>>>Received Total Wide Band Power
M

INTEGER(0..621)
According to mapping in TS 25.133 [23] and TS 25.123 [24].
–

>>UL Timeslot ISCP



TDD Only.
YES
reject
>>>UL Timeslot ISCP
M

INTEGER(0..127)
According to mapping in TS 25.123 [24].
–

>>RT Load




YES
reject
>>>RT Load
M

INTEGER(0..100)

–

>>NRT Load Information




YES
reject
>>>NRT Load Information
M

INTEGER(0..3)

–


>>Rx Timing Deviation LCR



Applicable to 1.28Mcps TDD Only.
YES
reject
>>>Rx Timing Deviation LCR
M

INTEGER(0..511)
According to mapping in TS 25.123 [24].
–

>>HS-SICH reception quality



Applicable to TDD Only.
YES
reject
>>>HS-SICH reception quality
M

INTEGER (0..20)
According to mapping in TS 25.123 [24].
–

>>UpPTS interference



1.28Mcps TDD Only.
YES
reject
>>>UpPTS interference Value
M

INTEGER (0..127,…)
According to mapping in TS 25.123 [24].
–

>>Rx Timing Deviation 768



Applicable to 7.68Mcps TDD Only.
YES
reject
>>>Rx Timing Deviation 768
M

INTEGER(0..65535)
According to mapping in TS 25.123 [24].
–

>>Rx Timing Deviation 384 Extended



Applicable to 3.84Mcps TDD Only.
YES
reject
>>>Rx Timing Deviation 384 Extended
M

INTEGER(0..32767)
According to mapping in TS 25.123 [24].
–

>>Extended Round Trip Time



FDD Only.
YES
reject
>>>Extended Round Trip Time Value
M

INTEGER (32767..103041)
Continuation of intervals with step size as defined in TS 25.133 [23].
–

>>TUTRAN-GANSS Measurement Threshold Information




YES
reject
>>>TUTRAN-GANSS Measurement Threshold Information
M

9.2.1.113

–

>>UE transmission power headroom




YES
reject
>>>UE transmission power headroom
M

INTEGER (0..31)
According to mapping in TS 25.133 [23] and TS 25.123 [24].
–
–

9.2.1.39A	Message Structure
The Message Structure IE gives information for each level with assigned criticality in an hierarchical message structure from top level down to the lowest level above the reported level for the occurred error (reported in the Information Element Criticality Diagnostics IE).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message structure

1..<maxNrOfLevels>

The first repetition of the Message Structure IE corresponds to the top level of the message. The last repetition of the Message Structure IE corresponds to the level above the reported level for the occurred error of the message.
–

>IE ID
M

INTEGER(0..65535)
The IE ID of this level’s IE containing the not understood or missing IE.
–

>Repetition Number
O

INTEGER(1..256)
The Repetition Number IE gives, if applicable, the number of occurrences of this level’s reported IE up to and including the occurrence containing the not understood or missing IE.
Note: All the counted occurrences of the reported IE must have the same topdown hierarchical message structure of IEs with assigned criticality above them.
–


Range bound
Explanation
maxNrOfLevels
Maximum no. of message levels to report. The value for maxNrOfLevels is 256.

9.2.1.40	Message Type
The Message Type uniquely identifies the message being sent.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Procedure ID

1


>Procedure Code
M

INTEGER (0..255) 

>Ddmode
M

ENUMERATED(FDD, TDD, Common, …)
Common = common to FDD and TDD.
Type of Message
M

ENUMERATED(Initiating Message, Successful Outcome, Unsuccessful Outcome, Outcome)


9.2.1.41	Multiple URAs Indicator
The Multiple URAs Indicator indicates whether the accessed cell has multiple URAs.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Multiple URAs Indicator


ENUMERATED(Multiple URA s exist, Single URA Exists)


9.2.1.41a	NACC Related Data
The NACC related data IE provides NACC related information for the indicated GSM cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE GERAN System Info Type
M



>SI




>>SI
M

GERAN System Information
9.2.1.30Fc
GERAN system information
SI3, SI13, SI1 (TS 44.060 [47]).
>PSI




>>PSI
M

GERAN System Information
9.2.1.30Fc
GERAN system information
PSI1, PSI2, PSI4 (TS 44.060 [47]).

9.2.1.41A	Neighbouring UMTS Cell Information
The Neighbouring UMTS Cell Information IE provides information for UMTS Cells that are neighbouring cells to a cell in the DRNC. The neighbouring cell information is provided for each RNC (including the DRNC) that has cells that are neighbouring cells to the cell in the DRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Neighbouring UMTS Cell Information

1..<maxNrOfNeighbouringRNCs>


EACH
ignore
>RNC-ID
M

9.2.1.50
If the Extended RNC-ID IE is included in the Neighbouring UMTS Cell Information IE, the RNC-ID IE shall be ignored.
–

>CN PS Domain Identifier
O

9.2.1.12

–

>CN CS Domain Identifier
O

9.2.1.11

–

>Neighbouring FDD Cell Information
O

9.2.1.41B

–

>Neighbouring TDD Cell Information
O

9.2.1.41D

–

>Neighbouring TDD Cell Information LCR
O

9.2.1.72

YES
ignore
>Extended RNC-ID
O

9.2.1.50a
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject

Range bound
Explanation
maxNrOfNeighbouringRNCs
Maximum number of neighbouring RNCs.

9.2.1.41B	Neighbouring FDD Cell Information
The Neighbouring FDD Cell Information IE provides information for FDD cells that are neighbouring cells to a cell in the DRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Neighbouring FDD Cell Information

1..<maxNrOfFDDNeighboursPerRNC>


–

>C-ID
M

9.2.1.6

–

>UL UARFCN
M

UARFCN
9.2.1.66
Corresponds to Nu in TS 25.104 [6] for UTRA operating bands for which it is defined; ignored for UTRA operating bands for which Nu is not defined.
–

>DL UARFCN
M

UARFCN
9.2.1.66
Corresponds to Nd in TS 25.104 [6].
–

>Frame Offset
O

9.2.1.30

–

>Primary Scrambling Code
M

9.2.1.45

–

>Primary CPICH Power
O

9.2.1.44

–

>Cell Individual Offset
O

9.2.1.7

–

>Tx Diversity Indicator
M

9.2.2.50



>STTD Support Indicator
O

9.2.2.45

–

>Closed Loop Mode1 Support Indicator
O

9.2.2.2

–

>Not Used
O

NULL

–

>Restriction State Indicator
O

9.2.1.48C

YES
ignore
>DPC Mode Change Support Indicator
O

9.2.2.56

YES
ignore
>Coverage Indicator
O

9.2.1.12G

YES
ignore
>Antenna Co-location Indicator
O

9.2.1.2C

YES
ignore
>HCS Prio
O

9.2.1.30N

YES
ignore
>Cell Capability Container FDD
O

9.2.2.D

YES
ignore
>SNA Information
O

9.2.1.52Ca

YES
ignore
>Frequency Band Indicator
O

9.2.2.59

YES
ignore
>Max UE DTX Cycle
C-CPC-DTX-DRXCapable

9.2.2.87

YES
ignore
>Multiple PLMN List
O

9.2.1.117

YES
ignore
>Secondary Serving Cell List
C-MC-Capable

9.2.2.101

YES
ignore
>Dual Band Secondary Serving Cell List
C-DB-Capable

Secondary Serving Cell List 9.2.2.101

YES
ignore
>Cell Capability Container Extension FDD
O

9.2.2.123

YES
ignore
>Cell List Validity Indicator
O

ENUMERATED (Ignore Secondary Serving Cell List, Ignore Dual Band Secondary Serving Cell List, Ignore Both)

YES
ignore
>Multiple Frequency Bands Indicator List

0..< maxMultipleFrequencyBands>

Indicates a list of additional frequency bands which the cell belongs to.
–

>>Frequency Band Indicator
M

9.2.2.59

YES
ignore

Range bound
Explanation
maxNrOfFDDNeighboursPerRNC
Maximum number of neighbouring FDD cell for one cell.
maxMultipleFrequencyBands
Maximum number of additional frequency bands for one neighbouring FDD cell.

Condition
Explanation
CPC-DTX-DRXCapable
The IE shall be present if the the fifteenth bit Continuous Packet Connectivity DTX-DRX Support Indicator in the Cell Capability Container FDD IE is set to the value “1”.
MC-Capable
The IE shall be present if the the Multi Cell Support Indicator in the Cell Capability Container FDD IE is set to the value “1”.
DB-Capable
The IE shall be present if the the Dual Band Support Indicator in the Cell Capability Container FDD IE is set to the value “1”.

9.2.1.41C	Neighbouring GSM Cell Information
The Neighbouring GSM Cell Information IE provides information for all GSM Cells that are a neighbouring cell to a cell in the DRNC.

IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Neighbouring GSM Cell Information

1..<maxNrOfGSMNeighboursPerRNC>


GLOBAL
ignore
>CGI

1

Cell Global Identity as defined in TS 23.003 [1].
–

>>LAI

1


–

>>>PLMN Identity
M

9.2.2.189

–

>>>LAC
M

OCTET STRING SIZE((2))
0000 and FFFE not allowed.
–

>>CI
M

OCTET STRING (SIZE(2))

–

>Cell Individual Offset
O

9.2.1.7
The Cell Individual Offset to be used for Ues using DCHs. If the Extended GSM Cell Individual Offset IE is present, the Cell Individual Offset IE shall be set to 
a) –10dB if the Extended GSM Cell Individual Offset IE is < ‑10dB 
and
b) 10dB if the Extended GSM Cell Individual Offset IE is > 10dB.
–

>BSIC

1

Base Station Identity Code as defined in TS 23.003 [1].
–

>>NCC
M

BIT STRING (SIZE(3))
Network Colour Code.
–

>>BCC
M

BIT STRING (SIZE(3))
Base Station Colour Code.
–

>Band Indicator
M

ENUMERATED(DCS 1800 band, PCS 1900 band, …)
Indicates whether or not the BCCH ARFCN belongs to the 1800 band or 1900 band of GSM frequencies.
–

>BCCH ARFCN
M

INTEGER(0..1023)
BCCH Frequency as defined in TS 45.005 [69].
–

>Coverage Indicator
O

9.2.1.12G

YES
ignore
>Antenna Co-location Indicator
O

9.2.1.2C

YES
ignore
>HCS Prio
O

9.2.1.30N

YES
ignore
>SNA Information 
O

9.2.1.52Ca

YES
ignore
>GERAN Cell Capability
O

9.2.1.30Fa

YES
ignore
>GERAN Classmark
O

9.2.1.30Fb

YES
ignore
>Extended GSM Cell Individual Offset
O

9.2.1.26Bb
The Extended GSM Cell Individual Offset to be used for Ues using DCHs, for values that exceed the range of the Cell Individual Offset IE.
YES
ignore
>PLMN List

0.. <maxNrOfBroadcastPLMNs>

List of Broadcast PLMNs of the neighbour cell. This list contains the Additional PLMNs defined in TS 44.018 [67].
GLOBAL
ignore
>>PLMN Identity
M

9.2.2.189

–


Range bound
Explanation
maxNrOfGSMNeighboursPerRNC
Maximum number of neighbouring GSM cells for one cell.
maxNrOfBroadcastPLMNs
Maximum number of additional PLMN identitys that can be broadcasted in a cell involved in a MOCN or GWCN Shared Network configuration. The value for maxNrOfBroadcastPLMNs is 5.

9.2.1.41D	Neighbouring TDD Cell Information
The Neighbouring TDD Cell Information IE provides information for 3.84Mcps TDD or 7.68Mcps TDD cells that are neighbouring cells to a cell in the DRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Neighbouring TDD Cell Information

1..<maxNrOfTDDNeighboursPerRNC>


–

>C-ID
M

9.2.1.6

–

>UARFCN
M

9.2.1.66
Corresponds to Nt in TS 25.105 [7].
–

>Frame Offset
O

9.2.1.30

–

>Cell Parameter ID
M

9.2.1.8

–

>Sync Case
M

9.2.1.54

–

>Time Slot For SCH
C-Case1

Time Slot 9.2.1.56

–

>SCH Time Slot
C-Case2

9.2.1.51

–

>SCTD Indicator
M

9.2.1.78

–

>Cell Individual Offset
O

9.2.1.7

–

>DPCH Constant Value
O

9.2.1.23

–

>PCCPCH Power
O

9.2.1.43

–

>Restriction State Indicator
O

9.2.1.48C

YES
ignore
>Coverage Indicator
O

9.2.1.12G

YES
ignore
>Antenna Co-location Indicator
O

9.2.1.2C

YES
ignore
>HCS Prio
O

9.2.1.30N

YES
ignore
>Cell Capability Container TDD
O

9.2.3.1a

YES
ignore
>Cell Capability Container 7.68 Mcps TDD
O

9.2.3.31

YES
ignore
>SNA Information 
O

9.2.1.52Ca

YES
ignore
>Multiple PLMN List
O

9.2.1.117

YES
ignore

Condition
Explanation
Case1
The IE shall be present if the Sync Case IE is set to “Case1”.
Case2
The IE shall be present if the Sync Case IE is set to “Case2”.

Range bound
Explanation
maxNrOfTDDNeighboursPerRNC
Maximum number of neighbouring 3.84Mcps TDD or 7.68Mcps TDD cell for one cell.

9.2.1.41Dd	Neighbouring TDD Cell Measurement Information LCR
This IE provides information on the 1.28Mcps TDD neighbouring cells used for the purpose of Measurements. Since the measurement can be performed on every time slot and midamble shift, the Time slot LCR IE and Midamble shift LCR IE shall be included if available.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UTRAN Cell Identifier
M

9.2.1.71

UARFCN
M

9.2.1.66
Corresponds to Nt TS 25.105 [7].
Cell Parameter ID
M

9.2.1.8

Time Slot LCR
O

9.2.3.12a

Midamble Shift LCR
O

9.2.3.4C


9.2.1.41De	Neighbouring E-UTRA Cell Information
The Neighbouring E-UTRA Cell Information IE provides information for all E-UTRA Cells that are a neighbouring cell to a cell in the DRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Neighbouring E-UTRA Cell Information

1..<maxNrOfEUTRANeighboursPerRNC >


–

>ECGI

1

EUTRAN Cell Global Identity as defined in TS 36.401 [61].
–

>>PLMN Identity
M

9.2.2.189

–

>>E-UTRAN Cell Identifier
M

BIT STRING SIZE((28))
The leftmost bits of the E-UTRAN Cell Identifier IE value correspond to the value of the eNB ID.
–

>CHOICE EARFCN Information
M



–

>>FDD






>>>EARFCN-FDD

1




>>>UL EARFCN
M

9.2.1.41Df
EARFCN
Corresponds to NuL in TS 36.104 [62].
–

>>>DL EARFCN
M

9.2.1.41Df
EARFCN
Corresponds to NdL in TS 36.104 [62].
–

>>TDD






>>>EARFCN
M

9.2.1.41Df
EARFCN
Corresponds to NdL in TS 36.104 [62].
–

>>FDD-Extended



This choice is only used when atleast one the EARFCN’s need to use the extended coding.


>>>EARFCN-FDD-Extended

1


YES
ignore
>>>UL EARFCN
M

9.2.1.41Dg
EARFCN-Extended
Corresponds to NuL in TS 36.104 [62]
–

>>>DL EARFCN
M

9.2.1.41Dg
EARFCN-Extended
Corresponds to NdL in TS 36.104 [62]
–

>>TDD-Extended



This choice is only used when the EARFCN need to use the extended coding.
YES
ignore
>>>EARFCN
M

9.2.1.41Dg
EARFCN-Extended
Corresponds to NdL in TS 36.104 [62]
–

>PCI
O

INTEGER (0..503,…)
Physical Cell Identifier of the neighbour cell.
YES
ignore
>TAC
O

OCTET STRING (SIZE(2))
Tracking Area Code of the neighbour cell.
YES
ignore
>PLMN List

0.. <maxNrOfBroadcastPLMNs>

List of Broadcast PLMNs of the neighbour cell. This field contains the list of identities starting from the second entry of PLMN Identities in the broadcast information
GLOBAL
ignore
>>PLMN Identity
M

9.2.2.189

–

>Multiple E-UTRA Frequency Bands Indicator List

0..<maxMultipleFrequencyBandsEUTRA>

Indicates a list of additional frequency bands which the E-UTRA cell belongs to.
–

>>E-UTRA Frequency Band
M

INTEGER (1..256)
As defined in TS36.101 [72]
YES
ignore

Range bound
Explanation
maxNrOfEUTRANeighboursPerRNC
Maximum number of neighbouring LTE cells for one cell.
maxNrOfBroadcastPLMNs
Maximum number of additional PLMN identitys that can be broadcasted in a cell involved in a MOCN or GWCN Shared Network configuration. The value for maxNrOfBroadcastPLMNs is 5.
maxMultipleFrequencyBandsEUTRA
Maximum number of additional frequency bands for a EUTRAN neighour cell.

9.2.1.41Df	EARFCN
The EARFCN (E-UTRA Absolute Radio Frequency Channel Number) defines the carrier.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
EARFCN


INTEGER (0..maxEARFCN)
Defined in TS 36.104 [62].

9.2.1.41Dg	EARFCN-Extended
The EARFCN-Extended (E-UTRA Absolute Radio Frequency Channel Number) defines the carrier.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
EARFCN-Extended


INTEGER (0..maxEARFCN-Extended, …)
Defined in TS 36.104 [62].

9.2.1.41E	Paging Cause
Cause for a CN originated page.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Paging Cause


ENUMERATED(
Terminating Conversational Call,
Terminating Streaming Call,
Terminating Interactive Call,
Terminating Background Call, Terminating Low Priority Signalling,…, Terminating High Priority Signalling, Terminating – cause unknown
)
See in TS 25.331 [16].

9.2.1.41F	Paging Record Type
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Paging Record Type 


ENUMERATED(IMSI (GSM-MAP), TMSI (GSM-MAP), P-TMSI (GSM-MAP), IMSI (DS-41), TMSI (DS-41),...)
See TS 25.331 [16].


9.2.1.41Fa 	Partial Reporting Indicator
This IE indicates if DRNS may report partially successful measurements. 
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Partial Reporting Indicator


ENUMERATED(partial reporting allowed)


9.2.1.41G	Neighbouring FDD Cell Measurement Information
This IE provides information on the FDD neighbouring cells used for the purpose of Measurements.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UTRAN Cell Identifier
M

9.2.1.71

UARFCN
M

9.2.1.66
Corresponds to Nd TS 25.104 [6].
Primary Scrambling Code
M

9.2.1.45


9.2.1.41H	Neighbouring TDD Cell Measurement Information
This IE provides information on the 3.84Mcps TDD neighbouring cells used for the purpose of Measurements. Since the measurement can be performed on every time slot and midamble shift, the Time slot IE and Midamble shift and burst type IE shall be included if available.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UTRAN Cell Identifier
M

9.2.1.71

UARFCN
M

9.2.1.66
Corresponds to Nt TS 25.105 [7].
Cell Parameter ID
M

9.2.1.8

Time Slot
O

9.2.1.56

Midamble Shift And Burst Type
O

9.2.3.4


9.2.1.41I	NRT Load Information Value
The NRT Load Information IE indicates the load situation on the cell for the Non Real-Time traffic. Non Real Time traffic corresponds to the Interactive and Background traffic classes.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Uplink NRT Load Information Value
M

INTEGER(0..3)
Mapping of the status:
0: low: The Uplink NRT load is low.
1: medium: The Uplink NRT load is medium.
2: high: Uplink NRT load is high. Probability to admit a new user is low.
3: overloaded: Uplink NRT overload. The probability to admit a new user is low, packets are discarded and the source is recommended to reduce the data flow.
Downlink NRT Load Information Value
M

INTEGER(0..3)
Mapping of the status:
0: low: The Downlink NRT load is low.
1: medium: The Downlink NRT load is medium.
2: high: Downlink NRT load is high. Probability to admit a new user is low.
3: overloaded: Downlink NRT overload. The probability to admit a new user is low, packets are discarded and the source is recommended to reduce the data flow.

9.2.1.42	Payload CRC Present Indicator
This parameter indicates whether FP payload 16 bit CRC is used or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Payload CRC Presence Indicator


ENUMERATED(CRC Included, CRC not included)


9.2.1.43	PCCPCH Power
Primary CCPCH power is the power that shall be used for reference power value in a TDD cell. The reference point is the antenna connector. If Transmit Diversity is applied to the Primary CCPCH, the PCCPCH Power is the linear sum of the power that is used for transmitting the PCCPCH on all branches.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
PCCPCH Power


INTEGER (-150..400,...)
Unit dBm Range –15.0 to 40.0 dBm,
Step size 0.1 dB.
-15.0 shall indicate P< -15dBm
+40.0 shall indicate P> 40dBm.

9.2.1.44	Primary CPICH Power
Primary CPICH power is the power that is used for transmitting the Primary CPICH in a cell. The reference point is the antenna connector. If Transmit Diversity is applied to the Primary CPICH, the Primary CPICH Power is the linear sum of the power that is used for transmitting the Primary CPICH on all branches.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Primary CPICH Power


INTEGER (-100..500)
Value = Primary CPICH Power/10.
Unit dBm.
Range –10.0..+50.0.
Step 0.1 dB.

9.2.1.45	Primary Scrambling Code
The Primary scrambling code to be used in the cell. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Primary Scrambling Code


INTEGER(0 .. 511)


9.2.1.45A	Priority Queue ID
The Priority Queue ID IE provides the identity of the Priority Queue. The Priority Queue ID is unique across all MAC-d flows that are currently allocated for one UE Context or across all Common MAC flows within a cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Priority Queue ID


INTEGER
(0..7)


9.2.1.45B	Process Memory Size
The Process Memory Size IE is the size of an HARQ process in the DRNS expressed in bits. It provides the maximum number of soft channel bits in the virtual IR buffer (TS 25.212 [9]) or (TS 25.222 [46]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Process Memory Size


ENUMERATED (
800, 1600, 2400, 3200, 4000, 4800, 5600, 6400, 7200, 8000, 8800, 9600, 10400, 11200, 12000, 12800, 13600, 14400, 15200, 16000, 17600, 19200, 20800, 22400, 24000, 25600, 27200, 28800, 30400, 32000, 36000, 40000, 44000, 48000, 52000, 56000, 60000, 64000, 68000, 72000, 76000, 80000, 88000, 96000, 104000, 112000, 120000, 128000, 136000, 144000, 152000, 160000, 176000, 192000, 208000, 224000, 240000, 256000, 272000, 288000, 304000,…)


9.2.1.46	Puncture Limit
The maximum amount of puncturing for a transport channel in rate matching.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Puncture Limit


INTEGER
(0..15)
0: 40%
1: 44 %
…
14: 96%
15: 100% (no puncturing)
[FDD – Value 0 is not applicable for E-DPCH.].

9.2.1.46A	QE-Selector
The QE-Selector indicates from which source the value for the quality estimate (QE) shall be taken.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
QE-Selector


ENUMERATED(selected, non-selected)


9.2.1.47	RANAP Relocation Information
This parameter is transparent to the RNSAP. The parameter contains information for the Relocation procedure as defined in TS 25.413 [2].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RANAP Relocation Information


BIT STRING
The content is defined in TS 25.413 [2].

9.2.1.48	Report Characteristics
The Report Characteristics, defines how the reporting shall be performed.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE Report Characteristics 
M



–

>On Demand


NULL

–

>Periodic






>>Report Periodicity
M

9.2.1.48a
The periodicity with which the DRNS shall send measurement reports.
–

>Event A






>>Measurement Threshold
M

9.2.1.39
The threshold for which the DRNS shall trigger a measurement report.
–

>>Measurement Hysteresis Time
O

9.2.1.36A

–

>Event B






>>Measurement Threshold
M

9.2.1.39
The threshold for which the DRNS shall trigger a measurement report.
–

>>Measurement Hysteresis Time
O

9.2.1.36A

–

>Event C






>>Measurement Increase/Decrease Threshold
M

9.2.1.38

–

>>Measurement Change Time
M

9.2.1.35B
The time within which the measurement entity shall rise, in order to trigger a measurement report.
–

>Event D






>>Measurement Increase/Decrease Threshold
M

9.2.1.38

–

>>Measurement Change Time
M

9.2.1.35B
The time within which the measurement entity shall fall, in order to trigger a measurement report.
–

>Event E






>>Measurement Threshold 1
M

Measurement Threshold 9.2.1.39

–

>>Measurement Threshold 2
O

Measurement Threshold 9.2.1.39

–

>>Measurement Hysteresis Time
O

9.2.1.36A
The hysteresis time in ms.
–

>>Report Periodicity
O

9.2.1.48a
The periodicity with which the DRNS shall send measurement reports.
–

>Event F






>>Measurement Threshold 1
M

Measurement Threshold 9.2.1.39

–

>>Measurement Threshold 2
O

Measurement Threshold 9.2.1.39

–

>>Measurement Hysteresis Time
O

9.2.1.36A
The hysteresis time in ms.
–

>>Report Periodicity
O

9.2.1.48a 
The periodicity with which the DRNS shall send measurement reports.
–

>Additional Report Characteristics






>>On Modification






>>>On Modification

1


YES
reject
>>>>Measurement Threshold
M

9.2.1.39



>>Event H






>>>Event H

1


YES
reject
>>>>Measurement Threshold 1
M

Measurement Threshold 9.2.1.39

–

>>>>Measurement Threshold 2
O

Measurement Threshold 9.2.1.39

–

>>>>Measurement Hysteresis Time
O

9.2.1.36A
The hysteresis time in ms.
–

>>>>Report Periodicity
O

9.2.1.48a
The periodicity with which the DRNS shall send measurement reports.
–

>>>>Measurement Fluctuation Range
O
0-100


–


9.2.1.48a	Report Periodicity
The Report Periodicity defines the frequency at which the Node B shall send measurement reports.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Report Periodicity Scale
M



>millisecond




>>Report Periodicity Value
M

INTEGER (1..6000,…)
Unit: ms.
Range: 10..60000 ms.
Step: 10 ms.
>minute




>>Report Periodicity Value
M

INTEGER (1..60,…)
Unit: min.
Range: 1..60 min.
Step: 1 min.

9.2.1.48A	Requested Data Value
The Requested Data Value contains the relevant data concerned the ongoing information exchange. Requested Data Value IE shall include at least one of the following IE. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UTRAN Access Point Position with Altitude
O

9.2.1.75

–

IPDL Parameters
O

9.2.1.31F

–

DGPS Corrections
O

9.2.1.19B

–

GPS Navigation Model and Time Recovery
O

9.2.1.30I

–

GPS Ionospheric Model
O

9.2.1.30H

–

GPS UTC Model
O

9.2.1.30L

–

GPS Almanac
O

9.2.1.30G

–

GPS Real-Time Integrity
O

9.2.1.30J

–

GPS RX Pos
O

9.2.1.30K

–

SFN-SFN Measurement Reference Point Position
O

9.2.1.74

–

Cell Capacity Class Value
O

9.2.1.5C

YES
ignore
NACC Related Data
O

9.2.1.41a

YES
ignore
MBMS Bearer Service Full Address
O

9.2.1.84

YES
ignore
Inter-frequency Cell Information
O

9.2.1.31G

YES
ignore
GANSS Common Data

0..1


YES
ignore
>GANSS Ionospheric Model
O

9.2.1.105

–

>GANSS RX Pos
O

9.2.1.109

–

>GANSS Additional Ionospheric Model
O

9.2.1.105a

YES
ignore
>GANSS Earth Orientation Parameters
O

9.2.1.122a

YES
ignore
GANSS Generic Data

0..<maxNoGANSS>


GLOBAL
ignore
>GANSS ID
O

9.2.1.119

–

>DGANSS Corrections
O

9.2.1.102

–

>GANSS Navigation Model And Time Recovery
O

9.2.1.120

–

>GANSS Time Model
O

9.2.1.110

–

>GANSS UTC Model
O

9.2.1.111

–

>GANSS Almanac
O

9.2.1.103

–

>GANSS Real Time Integrity
O

9.2.1.108

–

>GANSS Data Bit Assistance
O

9.2.1.118

–

>GANSS Additional Time Models
O

9.2.1.110a

YES
ignore
>GANSS Additional Navigation Models And Time Recovery
O

9.2.1.120a

YES
ignore
>GANSS Additional UTC Models
O

9.2.1.111a

YES
ignore
>GANSS Auxiliary Information
O

9.2.1.122c

YES
ignore
>SBAS ID
C-GANSS-ID

9.2.1.122b

YES
ignore
>DBDS Corrections
O

9.2.1.157

YES
ignore
>BDS Ionospheric Grid Model
O

9.2.1.158

YES
ignore
Counting Information 
O

9.2.2.94
FDD only.
YES
ignore
Transmission Mode Information
O

9.2.2.95
FDD only.
YES
ignore
MBMS Neighbouring Cell Information
O

9.2.2.96
FDD only.
YES
ignore
RLC Sequence Number
O

9.2.2.97
FDD only.
YES
ignore
ANR Cell Information
O

9.2.1.149

YES
ignore
Common E-RGCH Cell Information
O

9.2.1.156
FDD only
YES
ignore

Condition
Explanation
GANSS-ID
This IE shall be present if the GANSS ID IE indicates “SBAS”.

Range Bound
Explanation
maxNoGANSS
Maximum number of GANSS Systems.

9.2.1.48B	Requested Data Value Information
The Requested Data Value Information IE provides information on whether or not the Requested Data Value is available in the message and also the Requested Data Value itself if available. In case of “Periodic” and “On Modification” reporting, “Information Not Available” shall be used when at least one part of the requested information was not available at the moment of initiating the Information Reporting procedure.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE Information Availability Indicator
M



–

>Information Available




–

>>Requested Data Value
M

9.2.1.48A

–

>Information not Available


NULL

–


9.2.1.48C	Restriction State Indicator
The Restriction state indicator is the identifier indicates whether the cell is “Cell Reserved for Operator Use” or not. It is provided by DRNS and reported to SRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Restriction state indicator


ENUMERATED(Cell Not Reserved for Operator Use, Cell Reserved for Operator Use, …)


9.2.1.48D	RLC Mode
The RLC Mode IE indicates the RLC Mode used for a Priority Queue.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RLC Mode


ENUMERATED (
RLC-AM, RLC-UM,…)


9.2.1.49	RL ID
The RL ID is the unique identifier for one RL associated with a UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RL ID


INTEGER
(0..31)


9.2.1.49A	RL Specific DCH Information
The RL Specific DCH Information IE provides RL Specific DCH Information for DCHs. In case of a set of co-ordinated DCHs requiring a new transport bearer on Iur, the Transport Layer Address IE and the Binding ID IE in the RL Specific DCH Information IE shall be included only for one of the DCHs in the set of co-ordinated DCHs.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
RL Specific DCH Information

1..<maxNrOfDCHs>


–

>DCH ID
M

9.2.1.16

–

>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
–

>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
–

>Transport Bearer Not Requested Indicator
O

9.2.2.4S
FDD Only.
YES
ignore

Range bound
Explanation
maxNrOfDCHs
Maximum number of DCHs for one UE.

9.2.1.50	RNC-ID
This is the identifier of one RNC in UTRAN.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RNC-ID


INTEGER(0..4095)


9.2.1.50a	Extended RNC-ID
This is the identifier of one RNC in UTRAN.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended RNC-ID


INTEGER(4096..65535)
Note: Application of the Extended RNC-ID IE to very large networks is FFS.

9.2.1.50A	SAT ID
The SAT ID indicates the identity of the satellite.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SAT ID


INTEGER(0..63)
Identifies the satellite and is equal to (SV ID No – 1) where SV ID No is defined in ICD-GPS-200 [30].

9.2.1.50B	RT Load Value
The RT Load Value IE indicates in percents the ratio of the load generated by Real Time traffic, relative to the measured Load Value. Real Time traffic corresponds to the Conversational and Streaming traffic classes.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Uplink RT Load Value
M

INTEGER(0..100)

Downlink RT Load Value
M

INTEGER(0..100)


9.2.1.51	SCH Time Slot
The SCH Time Slot IE represents the first time slot (k) of a pair of time slots inside a Radio Frame that is assigned to the Physical Channel SCH. The SCH Time Slot IE is only applicable if the value of Sync Case IE is Case 2 since in this case the SCH is allocated in TS#k and TS#k+8.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SCH Time Slot


INTEGER(0..6)


9.2.1.51A	Scheduling Priority Indicator
Indicates the relative priority of the FACH, [TDD – DSCH, USCH,] HS-DSCH [FDD – or E-DCH] data frame. Used by the DRNC when scheduling FACH, [TDD – DSCH, USCH,] HS-DSCH [FDD – or E-DCH] traffic.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Scheduling Priority Indicator


INTEGER(0..15)
Relative priority of the FACH, [TDD – DSCH, USCH,] HS-DSCH [FDD – or E-DCH] data frame:
0=Lowest Priority.
…
15=Highest Priority.

9.2.1.52	Service Area Identifier (SAI)
This information element is used to identify an area consisting of one or more cells belonging to the same Location Area. Such an area is called a Service Area and can be used for indicating the location of a UE to the CN. For this protocol, only a Service Area that is defined to be applicable to the PS and CS domains shall be used.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
PLMN Identity
M

9.2.2.189

LAC 
M

OCTET STRING (SIZE(2))
0000 and FFFE not allowed
SAC
M

OCTET STRING (SIZE(2))


9.2.1.52A	SFN
System Frame Number of the cell, see TS 25.402 [17].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SFN 


INTEGER(0..4095)


9.2.1.52B	SFN-SFN Measurement Threshold Information
The SFN-SFN Measurement Threshold Information defines the related thresholds SFN-SFN Observed Time Difference measurements which shall trigger the Event On Modification.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SFN-SFN Change Limit
O

INTEGER(1..256)
Change of SFN-SFN value compared to previously reported value, which shall trigger a new report.
Unit in 1/16 chip.
Predicted SFN-SFN Deviation Limit
O

INTEGER(1..256)
Deviation the Predicted SFN-SFN from the latest measurement result, which shall trigger a new report.
Unit in 1/16 chip.

9.2.1.52C	SFN-SFN Measurement Value Information
The SFN-SFN Measurement Value Information IE indicates the measurement result related to SFN-SFN Observed Time Difference measurements as well as other related information.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Successful Neighbouring cell SFN-SFN Observed Time Difference Measurement Information

1..<maxNrOfMeasNCell>


>UTRAN Cell Identifier
M

9.2.1.71

>SFN-SFN Value
M

9.2.1.77

>SFN-SFN Quality
O

INTEGER(0..255)
Indicates the standard deviation (std) of the SFN-SFN otd (observed time difference) measurements in 1/16 chip. SFN-SFN Quality = E[(x-µ)2] = std of reported SFN-SFN Value, where x is the reported SFN-SFN Value and µ = E[x] is the expectation value of x.
>SFN-SFN Drift Rate
M

INTEGER(-100..100)
Indicates the SFN-SFN drift rate in 1/256 chip per second.
A positive value indicates that the Reference cell clock is running at a greater frequency than the measured neighbouring cell.
>SFN-SFN Drift Rate Quality
O

INTEGER(0..100)
Indicates the standard deviation (std) of the SFN-SFN drift rate measurements in 1/256 chip per second. SFN-SFN Drift Rate Quality = E[(x-µ)2] = std of reported SFN-SFN Drift Rate, where x is the reported SFN-SFN Drift Rate and µ = E[x] is the expectation value of x.
>SFN-SFN Measurement Time Stamp
M

9.2.1.76

Unsuccessful Neighbouring cell SFN-SFN Observed Time Difference Measurement Information

0..<maxNrOfMeasNCell-1>


>UTRAN Cell Identifier
M

9.2.1.71


Range bound
Explanation
maxNrOfMeasNCell
Maximum number of neighbouring cells on which measurements can be performed.

9.2.1.52Ca	Shared Network Area (SNA) Information
This information element contains a list of Shared Network Areas, identified by the Shared Network Area Code (SNAC, see TS 23.003 [1]) which a certain cell belongs to. For a broader description of the SNA access control see TS 25.401 [40].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PLMN Identity
M

9.2.2.189

List of SNAs

0..<maxNrOfSNAs>


>SNAC
M

INTEGER
(0.. 65535)


Range bound
Explanation
maxNrOfSNAs
Maximum number of SNAs one cell can be part of.

9.2.1.52D	SID
The SID IE provides the identity of the Size Index.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SID


INTEGER
(0..7)


9.2.1.53	S-RNTI
The S-RNTI identifies the UE in the SRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
S-RNTI


INTEGER(0..2^20 –1)


9.2.1.53a	S-RNTI Group
The S-RNTI Group identifies a group of Ues in the SRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
S-RNTI
M

9.2.1.53

S-RNTI bit mask index
M

ENUMERATED (b1, b2,..b19,…)


The S-RNTI group is identified by all S-RNTI values whose bits starting from the most significant bit down to, and including, the bit indicated by S-RNTI bit mask index, are equal to the corresponding bits of the S-RNTI in this IE. 
The bits of the S-RNTI in this IE that are less significant than the bit position indicated by the S-RNTI bit mask index shall be ignored.
9.2.1.54	Sync Case
The SCH and PCCPCH in a TDD cell are mapped on one or two downlink slots per frame. There are two cases of Sync Case as follows:
Case 1)	SCH and PCCPCH allocated in a single TS#k
Case 2)	SCH allocated in two TS: TS#k and TS#k+8
PCCPCH allocated in TS#k
[1.28Mcps TDD – There is no Sync Case indication needed for 1.28Mcps TDD. If the Sync Case IE must be included in a message from DRNC to SRNC used for 1.28Mcps TDD, the DRNC shall indicate Sync Case 1 and the SRNC shall ignore it.]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Sync Case


INTEGER
(1..2,...)


9.2.1.54A	T1
The T1 IE is used as described in TS 25.321 [41] subclause 11.6.2.3. 
IE/Group Name
Presence
Range
IE type and reference
Semantics description
T1


ENUMERATED (10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 120, 140, 160, 200, 300, 400, …)
Unit: ms
Node B may use this value to stop the re-transmission of the corresponding MAC-hs PDU.

9.2.1.55	TFCI Presence
The TFCI Presence parameter indicates whether the TFCI shall be included. [TDD – If it is present in the timeslot, it will be mapped to the channelisation code defined by TS 25.221 [12].]

IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TFCI Presence


ENUMERATED(Present, not present)


9.2.1.56	Time Slot
The Time Slot represents the time interval assigned to a Physical Channel referred to the start of a Radio Frame.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Time Slot


INTEGER
(0..14)


9.2.1.56A	TNL QoS 
This IE indicates the TNL QoS characteristics of the transport bearer for the uplink data traffic.
When the DS field IE is used, the value of this IE is configurable by the operator.
When the Generic Traffic Category IE is used, generic traffic categories are implementation-specific (e.g. they may be determined by the sender from the application parameters). The value assigned to each of these categories and sent in the Generic Traffic Category IE is configurable by the operator, as well as the mapping of this value to DS field (IETF RFC 2474 [44]) at the DRNS side.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE TNL QoS type
M



>DS Field




>>DS field
M

BIT STRING (SIZE(8))
DS field as defined in IETF RFC 2474 [44].
Typically used when the DRNS and its SRNC are in the same DS domain as defined in IETF RFC 2475 [45].
>Generic Traffic Category




>>Generic Traffic Category
M

BIT STRING (SIZE(8))


9.2.1.57	ToAWE 
ToAWE is the window endpoint. DL data frames are expected to be received before this window endpoint. ToAWE is defined with a positive value relative Latest Time of Arrival (LtoA). A data frame arriving after ToAWE gives a Timing Adjustment Control frame response.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
ToAWE


INTEGER
(0..2559)
Unit: msec.

9.2.1.58	ToAWS
ToAWS is the window startpoint. DL data frames are expected to be received after this window startpoint. ToAWS is defined with a positive value relative Time of Arrival Window Endpoint (ToAWE). A data frame arriving before ToAWS gives a Timing Adjustment Control frame response.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
ToAWS


INTEGER
(0..1279)
Unit: msec.

9.2.1.58a	Trace Depth
The Trace Depth IE is Trace Configuration Parameter what should be traced by the DRNC on the indicated interfaces.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Trace Depth


ENUMERATED (
Minimum,
Medium,
Maximum,…)
Meaning of this parameter is described in TS 32.422 [49].

9.2.1.58b	Trace Recording Session Reference
The Trace Recording Session Reference IE provides a Trace Recording Session Reference allocated by the triggering entity.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Trace Recording Session Reference


INTEGER (0..65535)


9.2.1.58c	Trace Reference
The Trace Reference IE provides a Trace Reference allocated by the triggering entity.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Trace Reference


OCTET STRING (SIZE(2..3))


9.2.1.58A	Traffic Class
This IE indicates the type of application the Radio Bearer is optimised for.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Traffic Class


ENUMERATED
(conversational, streaming, interactive, background,
 ...)


9.2.1.59	Transaction ID
The Transaction ID is used to associate all the messages belonging to the same procedure. Messages belonging to the same procedure shall use the same Transaction ID.
The Transaction ID is determined by the initiating peer of a procedure.
For procedures addressed to a specific UE Context, the Transaction ID shall uniquely identify a procedure among all ongoing parallel procedures for the same UE using the same procedure code, and initiated by the same protocol peer.
For procedures not addressed to a specific UE Context, the Transaction ID shall uniquely identify a procedure among all ongoing parallel procedures using the same procedure code, and initiated by the same protocol peer.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Transaction ID Length



The Transaction ID shall be interpreted for its integer value, not for the type of encoding (“short” or “long”).
>Short




>>Transaction ID Value
M

INTEGER (0..127)

>Long




>>Transaction ID Value
M

INTEGER (0..32767)


9.2.1.59A	Transmitted Carrier Power
The Transmitted Carrier Power IE contains the Transmitted Carrier Power in a cell, as defined in TS 25.215 [11] & TS 25.225 [14].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transmitted Carrier Power


INTEGER(0..100)
According to mapping in TS 25.133 [23] and TS 25.123 [24].

9.2.1.59B	TUTRAN-GPS Accuracy Class
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TUTRAN-GPS Accuracy Class


ENUMERATED(Accuracy Class A, Accuracy Class B, Accuracy Class C,…)
More information about Measurement Accuracy Class is included in TS 25.133 [23].

9.2.1.59C	TUTRAN-GPS Measurement Threshold Information
The TUTRAN-GPS Measurement Threshold Information defines the related thresholds for UTRAN GPS Timing of Cell Frames for UE Positioning measurements shall trigger the Event On Modification.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TUTRAN-GPS Change Limit
O

INTEGER(1..256)
Change of TUTRAN-GPS value compared to previously reported value, which shall trigger a new report.
Unit in 1/16 chip.
Predicted TUTRAN-GPS Deviation Limit
O

INTEGER(1..256)
Deviation of the Predicted TUTRAN-GPS from the latest measurement result, which shall trigger a new report.
Unit in 1/16 chip.

9.2.1.59D	TUTRAN-GPS Measurement Value Information
The TUTRAN-GPS Measurement Value Information IE indicates the measurement results related to the UTRAN GPS Timing of Cell Frames for UE Positioning measurements.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TUTRAN-GPS

1

Indicates the UTRAN GPS Timing of Cell Frames for UE Positioning. According to mapping in TS 25.133 [23] and TS 25.123 [24]; significant values range from 0 to 37158911999999.
>MS
M

INTEGER
(0..16383)
Most Significant Part.
>LS
M

INTEGER
(0..4294967295)
Least Significant Part.
TUTRAN-GPS Quality
O

INTEGER(0..255)
Indicates the standard deviation (std) of the TUTRAN-GPS measurements in 1/16 chip. TUTRAN-GPS Quality = E[(x-µ)2] = std of reported TUTRAN-GPS Value, where x is the reported TUTRAN-GPS Value and µ = E[x] is the expectation value of x.
TUTRAN-GPS Drift Rate
M

INTEGER(-50..50)
Indicates the TUTRAN-GPS drift rate in 1/256 chip per second.
A positive value indicates that the UTRAN clock is running at a lower frequency than GPS clock.
TUTRAN-GPS Drift Rate Quality
O

INTEGER(0..50)
Indicates the standard deviation (std) of the TUTRAN-GPS drift rate measurements in 1/256 chip per second. TUTRAN-GPS Drift Rate Quality = E[(x-µ)2] = std of reported TUTRAN-GPS Drift Rate, where x is the reported TUTRAN-GPS Drift Rate and µ = E[x] is the expectation value of x.

9.2.1.60	Transport Bearer ID
The Transport Bearer ID uniquely identifies an Iur transport bearer.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transport Bearer ID


INTEGER(0..4095)


9.2.1.61	Transport Bearer Request Indicator
Indicates whether a new Iur transport bearer needs to be established for carrying the corresponding data stream(s), or whether an existing transport bearer will be used.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transport Bearer Request Indicator


ENUMERATED(Bearer Requested, Bearer not Requested, …)


9.2.1.62	Transport Layer Address
In case of transport bearer establishment with ALCAP (TS 25.426 [3] TS 25.424 [35]), this IE contains the address to be used for Transport Network Control Plane signalling to establish the transport bearer according to TS 25.426 [3], TS 25.424 [35].
In order to allow transport bearer establishment without ALCAP, this IE contains the address of the transport bearer to be used for the user plane transport.
For details on the Transport Address used see TS 25.426 [3].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transport Layer Address


BIT STRING (SIZE(1..160, …))


9.2.1.63	Transport Format Combination Set (TFCS)
The Transport Format Combination Set is defined as a set of Transport Format Combinations on a Coded Composite Transport Channel. It is the allowed Transport Format Combinations of the corresponding Transport Channels. The DL Transport Format Combination Set is applicable to DL Transport Channels.

IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE TFCS Values
M



-

>Always Used



This choice is always made.
-

>>TFCS

1..<maxNrOfTFCs>

The first instance of the parameter corresponds to TFCI zero, the second to 1 and so on.
[TDD – The first entry (for TFCI 0) should be ignored by the receiver.]
-

>>>CTFC
M

 9.2.1.14A

-

>>>CHOICE Gain Factors
C- PhysChan



-

>>>>Signalled Gain Factors




-

>>>>>Gain Factor C
M

INTEGER(0..15)
[FDD – For UL DPCCH or control part of PRACH TS 25.213 [21].]
[TDD -  for UL DPCH mapping in accordance to TS 25.223 [13].]
-

>>>>>Gain Factor D
M

INTEGER(0..15)
[FDD – For UL DPDCH or data part of PRACH TS 25.213 [21].]
[TDD – Should be set to 0 by the sender, and shall be ignored by the receiver.]
-

>>>>>Reference TFC nr
O

INTEGER(0..15)
If this TFC is a reference TFC, this IE indicates the reference number.
-

>>>>Computed Gain Factors




-

>>>>>Reference TFC nr
M

INTEGER(0..15)
Indicates the reference TFC to be used to calculate the gain factors for this TFC.
-

>>>Gain Factors 10ms Mode
O

9.2.2.174
For UL DPCCH in FDD, and applicable to 10ms Transmission mode [9].
YES
reject
>Not Used


NULL
This choice shall never be made by the SRNC and the DRNC shall consider the procedure as failed if it is received.
-


Condition
Explanation
PhysChan
The choice shall be present if the TFCS concerns a UL DPCH [FDD – or PRACH channel].

Range bound
Explanation
maxNrOfTFCs
The maximum number of Transport Format Combinations.

9.2.1.64	Transport Format Set
The Transport Format Set is defined as the set of Transport Formats associated to a Transport Channel, e.g. DCH.
[TDD – The Transport Format Set for each transport channel within the same CCTrCH shall have the same value for the 2nd Interleaving Mode IE.]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Dynamic Transport Format Information

1..<maxNrOfTFs>

The first instance of the parameter corresponds to TFI zero, the second to 1 and so on.
>Number of Transport Blocks
M

INTEGER
(0..512)

>Transport Block Size
C – Blocks

INTEGER
(0..5000)
Unit: Bits.
>CHOICE Mode 
M



>>TDD




>>>Transmission Time Interval Information
C-TTIdynamic
1..<maxTTI-Count>


>>>>Transmission Time Interval
M

ENUMERATED(10, 20, 40, 80,…)
Unit: msec.
Semi-static Transport Format Information

1


>Transmission Time Interval
M

ENUMERATED
(10, 20, 40, 80, dynamic, …)
Unit: msec.
Value “dynamic” for TDD only. 
For FDD DCH, the value “80” is applicable only when DL DPCH Slot Format IE indicates a slot format with SF=512.
>Type of Channel Coding
M

ENUMERATED
(No codingTDD, Convolutional, Turbo,…)
[FDD – The value “No codingTDD” shall be treated as logical error if received].
>Coding Rate
C – Coding

ENUMERATED
(1/2, 1/3,…)

>Rate Matching Attribute
M

INTEGER
(1..maxRateMatching)

>CRC size
M

ENUMERATED
(0, 8, 12, 16, 24,…)

>CHOICE Mode 
M



>>TDD




>>>2nd Interleaving Mode
M

ENUMERATED(Frame related, Timeslot related,…)


Condition
Explanation
Blocks
The IE shall be present if the Number of Transport Blocks IE is set to a value greater than 0.
Coding
The IE shall be present if Type of Channel Coding IE is set to “Convolutional” or “Turbo”.
TTIdynamic
The IE shall be present if the Transmission Time Interval IE in the Semi-static Transport Format Information IE is set to “dynamic”.

Range bound
Explanation
maxNrOfTFs
The maximum number of different transport formats that can be included in the Transport format set for one transport channel.
maxRateMatching
The maximum number that could be set as rate matching attribute for a transport channel.
maxTTI-Count
The amount of different TTI that are possible for that transport format is.

9.2.1.65	TrCH Source Statistics Descriptor
Defines the statistics of the data transmitted in the transport channel. This information may be used in reserving resources in the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TrCH Source Statistics Descriptor


ENUMERATED(Speech, RRC, Unknown, …)
“Speech” = Statistics of the data corresponds to speech.
“RRC” = Statistics of the data corresponds to RRC signalling.
“Unknown” = The statistics of the data is unknown. 

9.2.1.66	UARFCN
The UTRA Absolute Radio Frequency Channel Number defines the carrier.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UARFCN


INTEGER(0..16383, …)
Corresponds to: 0.0Hz.. 3276.6MHz
see TS 25.104 [6] and TS 25.105 [7].

9.2.1.66A	UE Identity
The UE Identity IE identifies the UE by one of its Permanent NAS Identifier.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE UE Identity
M



>IMSI




>>IMSI
M

9.2.1.31

>IMEI




>>IMEI
M

9.2.1.30T

>IMEISV




>>IMEISV
M

9.2.1.30U


9.2.1.67	UL FP Mode
This parameter defines if normal or silent mode of the Frame Protocol shall be used for the UL.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UL FP Mode


ENUMERATED(Normal, Silent,…)


9.2.1.68	UL Interference Level
Void
9.2.1.68A	Uncertainty Ellipse
This IE contains the uncertainty ellipse used to describe a possible shape of the geographical area of a cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Uncertainty semi-major
M

INTEGER(
0..127)
The uncertainty “r” is derived from the “uncertainty code” k by
r = 10x(1.1k-1).
Uncertainty semi-minor
M

INTEGER(
0..127)
The uncertainty “r” is derived from the “uncertainty code” k by
r = 10x(1.1k-1).
Orientation of major axis
M

INTEGER(
0..179)
The relation between the IE value (N) and the angle (a) in degrees it describes is 
2N a <2(N+1). The values 90..179 shall not be used.

9.2.1.68B	Unidirectional DCH Indicator
The Unidirectional DCH Indicator IE indicates that the DCH is unidirectional. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Unidirectional DCH Indicator


ENUMERATED (Downlink DCH only, Uplink DCH only)


9.2.1.69	Uplink SIR
The UL SIR indicates a received UL SIR.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Uplink SIR 


INTEGER (-82..173)
Value = Uplink SIR/10.
Unit dB.
Range -8.2..+17.3.
Step 0.1 dB.

9.2.1.70	URA ID
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
URA ID


INTEGER(0..65 535)


9.2.1.70A	UTRAN Access Point Position
The UTRAN Access Point Position indicates the exact geographical position of the base station antenna.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Latitude Sign
M

ENUMERATED(North, South) 

Degrees of Latitude
M

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
M

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°).

9.2.1.70B	URA Information
The URA Information IE contains URA Information for one cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
URA ID
M

9.2.1.70

–

Multiple URAs Indicator
M

9.2.1.41

–

RNCs with Cells in the Accessed URA

0 .. <maxRNCinURA-1>

Other RNCs having at least one cell in the URA identified by the URA ID IE.
–

>RNC-ID
M

9.2.1.50
If the Extended RNC-ID IE is included in the URA Information IE, the RNC-ID IE shall be ignored.
–

>Extended RNC-ID
O

9.2.1.50a
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.
YES
reject

Range Bound
Explanation
maxRNCinURA
Maximum number of RNC in one URA.

9.2.1.70C	User Plane Congestion Fields Inclusion
The User Plane Congestion Fields Inclusion IE is used by the DRNC to indicate to the SRNC to include in the HS-DSCH Data Frames the User Plane fields related to TNL Congestion Control for HSDPA (namely the Frame Sequence Number and the DRT, see TS 25.425 [32]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
User Plane Congestion Fields Inclusion


ENUMERATED (
Shall be included)


9.2.1.71	UTRAN Cell Identifier (UC-ID)
The UC-ID (UTRAN Cell identifier) is the identifier of a cell in one UTRAN.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RNC-ID
M

9.2.1.50
If the Extended RNC-ID IE is included in the UC-ID IE, the RNC-ID IE shall be ignored.
C-ID
M

9.2.1.6

Extended RNC-ID
O

9.2.1.50a
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.

9.2.1.72	Neighbouring TDD Cell Information LCR
The Neighbouring TDD Cell Information LCR IE provides information for 1.28Mcps TDD cells that are neighbouring cells to a cell in the DRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Neighbouring TDD Cell Information LCR

1..<maxNrOfLCRTDDNeighboursPerRNC>


–

>C-ID
M

9.2.1.6

–

>UARFCN
M

9.2.1.66
Corresponds to Nt in TS 25.105 [7].
–

>Frame Offset
O

9.2.1.30

–

>Cell Parameter ID
M

9.2.1.8

–

>SCTD Indicator
M

9.2.1.78

–

>Cell Individual Offset
O

9.2.1.7

–

>DPCH Constant Value
O

9.2.1.23

–

>PCCPCH Power
O

9.2.1.43

–

>Restriction State Indicator
O

9.2.1.48C

–

>Coverage Indicator
O

9.2.1.12G

YES
ignore
>Antenna Co-location Indicator
O

9.2.1.2C

YES
ignore
>HCS Prio
O

9.2.1.30N

YES
ignore
>Cell Capability Container TDD LCR
O

9.2.3.1b

YES
ignore
>SNA Information
O

9.2.1.52Ca

YES
ignore
>Multiple PLMN List
O

9.2.1.117

YES
ignore
>Cell Capability Container Extension TDD LCR
O

9.2.3.80

YES
ignore

Range bound
Explanation
maxNrOfLCRTDDNeighboursPerRNC
Maximum number of neighbouring 1.28Mcps TDD cell for one cell.

9.2.1.73	Permanent NAS UE Identity
This element is used to identify the UE in UTRAN.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Choice Permanent NAS UE Identity




>IMSI




>>IMSI
M

9.2.1.31


9.2.1.74	SFN-SFN Measurement Reference Point Position
The SFN-SFN Measurement Reference Point Position indicates the exact geographical position of the SFN-SFN measurement reference point. The altitude shall be included when available.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Geographical Coordinates
M

9.2.1.30F

Altitude and Direction
O

9.2.1.2B


9.2.1.75	UTRAN Access Point Position with Altitude
The UTRAN Access Point Position with Altitude indicates the exact geographical position of the base station antenna. The altitude shall be included when available.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Geographical Coordinates
M

9.2.1.30F

Altitude and Direction
O

9.2.1.2B


9.2.1.76	SFN-SFN Measurement Time Stamp
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Mode
M



>FDD




>>SFN
M

9.2.1.52A
Indicates the SFN of the reference cell at which the measurement has been performed.
>TDD




>>SFN
M

9.2.1.52A
Indicates the SFN of the reference cell at which the measurement has been performed.
>>Time Slot
M

9.2.1.56
Indicates the Time Slot of the reference cell at which this measurement has been performed.

9.2.1.77	SFN-SFN Value
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Mode
M



>FDD




>>SFN-SFN
M

INTEGER(0.. 614399)
According to mapping in TS 25.133 [23].
>TDD



1.28Mcps or 3.84Mcps TDD
>>SFN-SFN
M

INTEGER(0.. 40961)
According to mapping in TS 25.123 [24].
>TDD 7.68Mcps




>>SFN-SFN
M

INTEGER(0.. 81923)
According to mapping in TS 25.123 [24].

9.2.1.78	SCTD Indicator
Indicates if SCTD antenna diversity is applied or not to the PCCPCH and PICH [3.84Mcps TDD].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SCTD Indicator


ENUMERATED(active, inactive)


9.2.1.79	Congestion Cause
The Congestion Cause IE indicates the cause of a congestion situation:
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Congestion Cause


ENUMERATED
(UTRAN Dynamic Resources, UTRAN Semistatic Resources,
 …)


The meaning of the different congestion cause values is described in the following table:
Congestion cause
Meaning
UTRAN Dynamic Resources
UL and/or DL resource congestion situation mainly caused by the UL and/or DL UTRAN Dynamic Resources. This type of congestion situation is, e.g. related to the limitation of the DL transmitted carrier power of the cell(s), or the UL Interference situation in the concerned cell(s).
UTRAN Semistatic Resources
UL and/or DL resource congestion situation mainly related to UTRAN Semistatic Resources (e.g. channelisation codes, Node-B resources, ..).

9.2.1.80	TMGI
The TMGI is the unique identifier for an MBMS bearer service, see TS 23.003 [1].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
PLMN Identity
M

9.2.2.189

Service ID
M

OCTET STRING
(SIZE(3))


9.2.1.81	Transmission Mode
The Transmission Mode IE indicates the transmission mode used for MBMS data transmission in one cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transmission Mode


ENUMERATED(PTP, PTM, Not Provided).
PTP: The MBMS data is transmitted through point to point channel.
PTM: The MBMS data is transmitted through point to multipoint channel.
Not Provided: The MBMS data is not transmitted in the DRNC.

9.2.1.82	Access Point Name
The APN and IP Multicast Address uniquely identify an MBMS bearer service.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
APN
M

OCTET STRING (SIZE(1..255)) 


9.2.1.83	IP Multicast Address
The APN and IP Multicast Address uniquely identify an MBMS bearer service.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
IP Multicast Address
M

OCTET STRING (SIZE(4..16))


9.2.1.84	MBMS Bearer Service Full Address
This IE provides the full address of an MBMS Bearer Service otherwise identified by its TMGI.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Access Point Name
M

9.2.1.82

IP Multicast Address
M

9.2.1.83


9.2.1.85	Provided Information
This IE contains the relevant data concerned the direct information transfer procedure. Provided Information IE shall include at least one of the following IEs. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
MBMS Channel Type Information
O

9.2.1.86



MBMS Preferred Frequency Layer Information
O

9.2.1.87



UpPCH Information LCR
O

9.2.3.55
Applicable to 1.28Mcps TDD only .
YES
ignore
ANR Report Indication
O

9.2.1.148

YES
ignore

9.2.1.86	MBMS Channel Type Information
This IE contains the channel types of a MBMS Bearer Service indicated by TMGI IE in one or more cells. MBMS Channel Type Information IE shall include at least one C-ID IE and Affected UE Information for MBMS IE in the PTM Cell List IE, the PTP Cell List IE and/or Not Provided Cell List IE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TMGI
M

9.2.1.80

–

PTM Cell List

0..<maxNrOfCells>




>C-ID
M

9.2.1.6

–

>Affected UE Information for MBMS

0..<maxNrOfUEs>

This IE should not be included if the ExtendedAffected UE Information for MBMS IE is included in the message.


>>S-RNTI
M

9.2.1.53

–

>Extended Affected UE Information for MBMS

0..<maxNrOfUEs>

The ExtendedAffected UE Information S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.


>>Extended S-RNTI
M

Extended RNTI
9.2.1.154

YES
ignore
PTP Cell List

0.. <maxNrOfCells>




>C-ID
M

9.2.1.6

–

>Affected UE Information for MBMS

0..<maxNrOfUEs>

This IE should not be included if the ExtendedAffected UE Information for MBMS IE is included in the message.


>>S-RNTI
M

9.2.1.53

–

>Extended Affected UE Information for MBMS

0..<maxNrOfUEs>

The ExtendedAffected UE Information S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.


>>Extended S-RNTI
M

Extended RNTI
9.2.1.154

YES
ignore
Not Provided Cell List

0.. <maxNrOfCells>




>C-ID
M

9.2.1.6

–

>Affected UE Information for MBMS

0..<maxNrOfUEs>

This IE should not be included if the ExtendedAffected UE Information for MBMS IE is included in the message.


>>S-RNTI
M

9.2.1.53

–

>Extended Affected UE Information for MBMS

0..<maxNrOfUEs>

The ExtendedAffected UE Information S-RNTI IE shall be used if the S-RNTI identity has a value larger than 1048575.


>>Extended S-RNTI
M

Extended RNTI
9.2.1.154

YES
ignore

Range Bound
Explanation
maxNrOfCells
Maximum number of cells that can be indicated in the corresponding IE.
maxNrOfUEs
Maximum number of S-RNTIs that can be indicated per cell in the respective IEs.

9.2.1.87	MBMS Preferred Frequency Layer Information
This IE contains the preferred frequency layer of a MBMS Bearer Service indicated by TMGI IE in one or more cells that host at least one CELL_DCH UE whose UE Link contains the concerned MBMS Bearer Service and whose SRNC is different from the CRNC. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TMGI
M

9.2.1.80

Preferred Frequency Layer Information




>Default Preferred Frequency
M

UARFCN
9.2.1.66

>Additional Preferred Frequency

0..<maxNrOfAddFreq>

Preferred frequencies different from default preferred frequency.
>>DL UARFCN
M

UARFCN
9.2.1.66

>>Corresponding Cells

1..<maxNrOfCellsPerFreq>


>>>C-ID
M

9.2.1.6


Range Bound
Explanation
maxNrOfAddFreq
Maximum number of additional preferred frequencies different from default preferred frequency in an RNC.
maxNrOfCellsPerFreq
Maximum number of cells whose preferred frequency is the same.

9.2.1.88	E-DCH DDI Value
The E-DCH DDI Value IE is the Data Description Indicator value identifying a unique combination of E-DCH MAC-d Flow ID and MAC-d PDU Size.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH DDI Value


INTEGER
(0..62)


9.2.1.89	E-DCH MAC-d Flow Multiplexing List
The E-DCH MAC-d Flow Multiplexing List indicates which E-DCH MAC-d flows are allowed to be multiplexed within a MAC-e PDU with the MAC-d flow it is associated to. If the E-DCH MAC-d Flow Multiplexing List is signalled for an E-DCH MAC-d flow it indicates that E-DCH MAC-d PDUs of this E-DCH MAC-d flow are the first E-DCH MAC-d PDU in the MAC-e PDU. If an E-DCH MAC-d Flow Multiplexing List was already received within a previous Radio Link related procedure and no E-DCH MAC-d Flow Multiplexing List is signalled for a E-DCH MAC-d flow, the DRNS shall continue to use the previously received one. If no E-DCH MAC-d Flow Multiplexing List was ever received for an E-DCH MAC-d flow no restrictions shall be assumed for the related E-DCH MAC-d flow for multiplexing E-DCH MAC-d flows.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH MAC-d Flow Multiplexing List


BIT STRING (SIZE ((8))
The first Bit corresponds to E-DCH MAC-d flow 0,
the second bit corresponds to E-DCH MAC-d flow 1,
etc.
For 1.28Mcps TDD, if the IE is included in the IE Common E-DCH MAC-d Flow Specific Information LCR, the first Bit corresponds to E-DCH MAC-d with the lowest E-DCH MAC-d Flow ID within the same frequency,
the second bit corresponds to E-DCH MAC-d flow with the second lowest E-DCH MAC-d Flow ID within the same frequency,
etc.

9.2.1.90	E-DCH MAC-d Flows To Delete
The E-DCH MAC-d Flows To Delete IE is used for the removal of E-DCH MAC-d flows.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH MAC-d Flows To Delete

1..<maxNrOfEDCHMACdFlows>


>E-DCH MAC-d Flow ID
M

9.2.1.91


Range Bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.2.1.91	E-DCH MAC-d Flow ID
The E-DCH MAC-d Flow ID IE is the unique identifier for one MAC-d flow on E-DCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH MAC-d Flow ID


INTEGER
(0.. maxNrOfEDCHMACdFlows-1)


Range Bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.2.1.91A	E-DCH MAC-d PDU Size Format
The E-DCH MAC-d PDU Size Format IE provides information about the type of MAC-d PDU Size Format thet shall be used for the E-DCH in the new configuration. “Fixed MAC-d PDU Size” uses MAC-d PDU sizes defined in MAC-d PDU Size List IE of the E-DCH Logical Channel Information IE. “Flexible MAC-d PDU Size” uses a flexible MAC-d PDU size with a maximum PDU size as defined by Maximum MAC-d PDU Size Extended IE of E-DCH Logical Channel Information IE. The actual MAC-d PDU size is determined as specified in TS 25.123 [24] and TS 25.425 [32].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH MAC-d PDU Size Format 


ENUMERATED (Fixed MAC-d PDU Size, Flexible MAC-d PDU Size)


9.2.1.92	E-DCH Logical Channel Information
The E-DCH Logical Channel Information IE is used for the establishment of E-DCH Logical Channels.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-DCH Logical Channel Information

1..<maxNoOfLogicalChannels>


–

>Logical Channel ID
M

9.2.1.97

–

>Scheduling Priority Indicator
M

9.2.1.51A

–

>Scheduling Information
M

9.2.1.101

–

>MAC-es Guaranteed Bit Rate
O

9.2.1.98

–

>E-DCH DDI Value
M

9.2.1.88
If more than 1 MAC-d PDU size is configured for this Logical Channel, the different sizes will use subsequent DDI values starting from this DDI value.
Value “0x3F” is reserved.
Shall be ignored if Maximum MAC-d PDU Size Extended IE is present.
–

>MAC-d PDU Size List

1..< maxNrOfMACdPDUSize


–

>>MAC-d PDU Size
M

9.2.1.34A
Shall be ignored if Maximum MAC-d PDU Size Extended IE is present.
–

>Maximum MAC-d PDU Size Extended
O

MAC PDU Size Extended
9.2.1.34D

YES
reject
>MAC-es Maximum Bit Rate LCR
O

9.2.3.59
1.28Mcps TDD only.
YES
ignore
>UE Aggregate Maximum Bit Rate Enforcement Indicator
O

NULL

YES
ignore

Range Bound
Explanation
maxNoOfLogicalChannels
Maximum number of logical channels.
maxNrOfMACdPDUSize
Maximum number of MAC-d PDU size per Logical Channels.

9.2.1.93	E-DCH Logical Channel To Modify
The E-DCH Logical Channel To Modify IE is used for the reconfiguration of E-DCH Logical Channels.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-DCH Logical Channel Information

1..<maxNoOfLogicalChannels>


–

>Logical Channel ID
M

9.2.1.97

–

>Scheduling Priority Indicator
O

9.2.1.51A

–

>Scheduling Information
O

9.2.1.101

–

>MAC-es Guaranteed Bit Rate
O

9.2.1.98

–

>E-DCH DDI Value
O

9.2.1.88
If more than 1 MAC-d PDU size is configured for this Logical Channel, the different sizes will use subsequent DDI values starting from this DDI value.
Value “0x3F” is reserved.
Shall be ignored if Maximum MAC-d PDU Size Extended IE is present.
–

>MAC-d PDU Size List

0..< maxNrOfMACdPDUSize


–

>>MAC-d PDU Size
M

9.2.1.34A

–

>Maximum MAC-d PDU Size Extended
O

MAC PDU Size Extended
9.2.1.34D

YES
reject
>MAC-es Maximum Bit Rate LCR
O

9.2.3.59
1.28Mcps TDD only.
YES
ignore

Range Bound
Explanation
maxNoOfLogicalChannels
Maximum number of logical channels.
maxNrOfMACdPDUSize
Maximum number of MAC-d PDU size per Logical Channels.

9.2.1.94	E-RNTI
The E-RNTI IE is needed for the UE (or UE group) specific CRC in E-AGCH, see TS 25.319 [52].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-RNTI 


INTEGER
(0..65535)


9.2.1.95	E-DCH Processing Overload Level
The E-DCH Processing Overload Level IE defines the threshold that determines when DRNS shall indicate processing issue problems to the SRNC. 
IE/Group Name
Presence
Range
IE type and reference
Semantics description
E-DCH Processing Overload Level


INTEGER (0..10,…)
Number of consecutive TTIs.
The value “0” is a special value, that means infinity, i.e. when this value is used, the DRNS shall never indicate processing issue to the RNC. 

9.2.1.96	E-DCH Power Offset for Scheduling Info
The E-DCH Power Offset for Scheduling Info is used to calculate the [FDD – E-DPDCH][TDD – E-PUCH] power for transmision of scheduling information without any MAC-d PDUs.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH Power Offset for Scheduling Info


INTEGER (0..6)
Unit: dB. 
Step: 1 dB.

9.2.1.97	Logical Channel ID
The Logical Channel ID IE is used to identify a E-DCH logical channel in Scheduling Information that is sent over Uu. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Logical Channel ID

INTEGER
(1..15)



9.2.1.98	MAC-es Guaranteed Bit Rate
The MAC-es Guaranteed Bit Rate IE indicates the guaranteed number of bits per second to be delivered over the air interface under normal operating conditions (provided there is data to deliver) for which the Node B shall provide sufficient UL resources. If the MAC-es Guaranteed Bit Rate IE is received with the value set to 0 during RL set up or modification, no guarantee is applied.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MAC-es Guaranteed Bit Rate


INTEGER (0..2^24-1, …, 2^24..256,000,000)
Unit: bit/s.

9.2.1.99	MAC-e Reset Indicator
Indicates the MAC-e (or MAC-i) Reset is performed in UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MAC-e Reset Indicator


ENUMERATED (MAC-e Reset)
Means MAC-I Reset in case Maximum MAC-d PDU Size Extended is configured for an E-DCH Logical Channel.

9.2.1.100	Maximum Number of Retransmissions for E-DCH
The Maximum Number of Retransmissions for E-DCH IE specifies the upper boundary for retransmissions for a single MAC-d flow.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Number of Retransmissions for E-DCH


INTEGER
(0..15)


9.2.1.101	Scheduling Information
The Scheduling Information IE indicates whether the scheduling information is included for the E-DCH logical channel or not. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Scheduling Information


ENUMERATED (
Included,
Not Included)


9.2.1.102	DGANSS Corrections
This IE contains DGANSS corrections.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
Criticality
Assigned Criticality
DGANSS Reference Time
M

INTEGER(0..3570 by step of 30)
Seconds.
Time in GNSS system time (modulo 3600 s) when the DGANSS corrections were calculated. 
-

DGANSS Information

1 to <maxSgnType>


-

>GANSS Signal ID
O

 9.2.1.121

-

>Status/Health
M

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)

-

>DGANSS Signal Information
C-Status/Health
1 to <maxGANSSSat>

If the Cipher information is included these fields are ciphered.
-

>>Sat ID
M

INTEGER(0..63)
Defined in TS 25.331 [16].
-

>>IOD
M

BIT STRING (SIZE(10))

-

>>UDRE
M

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
M

INTEGER(-2047..2047)
Scaling factor 0.32 meters.
-

>>RRC
M

INTEGER(-127..127)
Scaling factor 0.032 meters/sec.
-

>>DGNSS Validity Period
O

9.2.1.138

YES
ignore

Condition
Explanation
Status/Health
This IE shall be present if the Status/Health IE value is not equal to “no data” or “invalid data”.

Range Bound
Explanation
maxGANSSSat
Maximum number of satellites for which data is included in the IE.
maxSgnType
Maximum number of signals for which data is included in the IE.

9.2.1.103	GANSS Almanac
This IE contains a reduced-precision subset of the ephemeris and clock correction parameters.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
Criticality
Assigned Criticality
Week Number
M

INTEGER(0..255)
Almanac reference week , number of weeks since the beginning of GANSS specific system time (mod 256).
–

CHOICE Almanac Model
M



–

>Keplerian Parameters



Model 1


>>Toa
M

INTEGER(0..1023)
Scaling factor 600 s
Reference time of almanac within week in GANSS TOD time base (OS SIS ICD [53]).
–

>>IODa
M

INTEGER(0..15)
Issue-Of–Data, common to all satellites(OS SIS ICD [53]).
–

>>Satellite Information KP

1 to <maxGANSSSatAlmanac>

Almanacs are in the order of the SV IDs, the smallest ID first.
–

>>>Sat ID
M

INTEGER(0..63)
Defined in TS 25.331 [16].
–

>>>e
M

BIT STRING (SIZE(11))
dimensionless (OS SIS ICD [53]).
–

>>>i
M

BIT STRING (SIZE(11))
semi-circles (OS SIS ICD [53]).
–

>>>OMEGADOT
M

BIT STRING (SIZE(11))
semi-circles/sec (OS SIS ICD [53]).
–

>>>SV Status INAV
M

BIT STRING (SIZE(4))
Dimensionless (OS SIS ICD [53]). E5bHS occupies the 2 MSBs and E1-BHS the two LSBs.
–

>>>SV Status FNAV
O

BIT STRING (SIZE(2))
Dimensionless (OS SIS ICD [53]). E5aHS.


>>>delta A1/2
M

BIT STRING (SIZE(13))
(meters)1/2 (OS SIS ICD [53]).
–

>>>OMEGA0
M

BIT STRING (SIZE(16))
semi-circles (OS SIS ICD [53]).
–

>>>M0
M

BIT STRING (SIZE(16))
semi-circles (OS SIS ICD [53]).
–

>>>
M

BIT STRING (SIZE(16))
semi-circles (OS SIS ICD [53]).
–

>>>af0
M

BIT STRING (SIZE(16))
Seconds (OS SIS ICD [53]).
–

>>>af1
M

BIT STRING (SIZE(13))
sec/sec (OS SIS ICD [53]).
–

>NAV Keplerian Parameters



Model 2.


>>Keplerian NAV Almanac
M



YES
ignore
>>>Toa
M

INTEGER(0..255)
Scaling factor 212 s 
Reference time of almanac within week in GANSS TOD time base.
–

>>>Satellite information NAV-KP

1.. <maxGANSSSatAlmanac>


–

>>>>Sat ID
M

INTEGER (0..63)
Defined in TS 25.331 [16].
–

>>>>e
M

BIT STRING (SIZE(16))
Eccentricity, dimensionless (IS-QZSS [59]).
–

>>>>i
M

BIT STRING (SIZE(16))
Correction to inclination,
semi-circles (IS-QZSS [59]).
–

>>>>OMEGADOT
M

BIT STRING (SIZE(16))
Rate of right ascension,
semi-circles/sec (IS-QZSS [59]).
–

>>>>SV Health
M

BIT STRING (SIZE(8))
Satellite health (IS-QZSS [59]).
–

>>>>A1/2
M

BIT STRING (SIZE(24))
Square root of the semi-major axis,
meters1/2 (IS-QZSS [59]).
–

>>>>OMEGA0
M

BIT STRING (SIZE(24))
Longitude of ascending node of orbit plane at weekly epoch,
semi-circles (IS-QZSS [59]).
–

>>>>
M

BIT STRING (SIZE (24))
Argument of perigee
semi-circles (IS-QZSS [59]).
–

>>>>M0
M

BIT STRING (SIZE(24))
Mean anomaly at reference time
semi-circles (IS-QZSS [59]).
–

>>>>af0
M

BIT STRING (SIZE(11))
Apparent satellite clock correction
seconds (IS-QZSS [59]).
–

>>>>af1
M

BIT STRING (SIZE(11))
Apparent satellite clock correction
sec/sec (IS-QZSS [59]).
–

>Reduced Keplerian Parameters



Model 3.


>>Keplerian Reduced Almanac
M



YES
ignore
>>>Toa
M

INTEGER(0..255)
Scaling factor 212 s 
Reference time of almanac within week in GANSS TOD time base.
–

>>>Satellite information RED-KP

1.. <maxGANSSSatAlmanac>


–

>>>>Sat ID
M

INTEGER (0..63)
Defined in TS 25.331 [16].
–

>>>>A
M

BIT STRING (SIZE(8))
meters (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>0
M

BIT STRING (SIZE(7))
semi-circles (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>0
M

BIT STRING (SIZE(7))
semi-circles (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>L1 Health
M

BIT STRING (SIZE(1))
dimensionless (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>L2 Health
M

BIT STRING (SIZE(1))
dimensionless (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>L5 Health
M

BIT STRING (SIZE(1))
dimensionless (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>Midi Keplerian Parameters



Model 4.


>>Keplerian Midi Almanac
M



YES
ignore
>>>Toa
M

INTEGER(0..255)
Scaling factor 212 s 
Reference time of almanac within week in GANSS TOD time base.
–

>>>Satellite information MIDI-KP

1.. <maxGANSSSatAlmanac>


–

>>>>Sat ID
M

INTEGER (0..63)
Defined in TS 25.331 [16].
–

>>>>e
M

BIT STRING (SIZE(11))
dimensionless (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>i
M

BIT STRING (SIZE(11))
semi-circles (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>_dot
M

BIT STRING (SIZE(11))
semi-circles/sec (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>sqrtA
M

BIT STRING (SIZE(17))
meters1/2 (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>0
M

BIT STRING (SIZE(16))
semi-circles (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>
M

BIT STRING (SIZE(16))
semi-circles (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>M0
M

BIT STRING (SIZE(16))
semi-circles (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>afo
M

BIT STRING (SIZE(11))
seconds (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>af1
M

BIT STRING (SIZE(10))
sec/sec (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>L1 Health
M

BIT STRING (SIZE(1))
Dimensionless (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>L2 Health
M

BIT STRING (SIZE(1))
dimensionless (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>>>>L5 Health
M

BIT STRING (SIZE(1))
dimensionless (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
–

>GLONASS Keplerian Parameters



Model 5.


>>Keplerian GLONASS
M



YES
ignore
>>>Satellite information GLO-KP

1.. <maxGANSSSatAlmanac>


–

>>>>NA
M

BIT STRING (SIZE(11))
days [60].
–

>>>>nA
M

BIT STRING (SIZE(5))
dimensionless [60].
–

>>>>HnA
M

BIT STRING (SIZE(5))
dimensionless [60].
–

>>>>nA
M

BIT STRING (SIZE(21))
semi-circles [60].
–

>>>>tnA
M

BIT STRING (SIZE(21))
seconds [60].
–

>>>>inA
M

BIT STRING (SIZE(18))
semi-circles [60].
–

>>>>TnA
M

BIT STRING (SIZE(22))
sec/orbit period [60].
–

>>>>T_DOTnA
M

BIT STRING (SIZE(7))
sec/orbit period2 [60.]
–

>>>>nA
M

BIT STRING (SIZE(15))
dimensionless [60].
–

>>>>nA
M

BIT STRING (SIZE(16))
semi-circles [60].
–

>>>>nA
M

BIT STRING (SIZE(10))
seconds [60].
–

>>>>I
M

BIT STRING (SIZE(1))
dimensionless [60].
–

>>>>MnA
O

BIT STRING (SIZE(2))
dimensionless [60].
–

>SBAS ECEF Parameters



Model 6.


>>ECEF SBAS Almanac
M



YES
ignore
>>>Satellite information SBAS-ECEF

1.. <maxGANSSSatAlmanac>


–

>>>>Data ID
M

BIT STRING (SIZE(2))
Dimensionless (DTFA01-96-C-00025 [58]).
–

>>>>SV ID
M

INTEGER (0..63)
Defined in TS 25.331 [16]..
–

>>>>Health
M

BIT STRING (SIZE(8))
Dimensionless (DTFA01-96-C-00025 [58]).
–

>>>>XG
M

BIT STRING (SIZE(15))
meters (DTFA01-96-C-00025 [58]).
–

>>>>YG
M

BIT STRING (SIZE(15))
meters (DTFA01-96-C-00025 [58]).
–

>>>>ZG
M

BIT STRING (SIZE(9))
meters (DTFA01-96-C-00025 [58]).
–

>>>>XG Rate-of-Change
M

BIT STRING (SIZE(3))
meters/sec (DTFA01-96-C-00025 [58]).
–

>>>>YG Rate-of-Change
M

BIT STRING (SIZE(3))
meters/sec (DTFA01-96-C-00025 [58]).
–

>>>>ZG Rate-of-Change
M

BIT STRING (SIZE(4))
meters/sec (DTFA01-96-C-00025 [58]).
–

>>>>t0
M

BIT STRING (SIZE(11))
seconds (DTFA01-96-C-00025 [58]).
–

>BDS Keplerian Parameters



Model 7.


>>Keplerian BDS Almanac
M



YES
ignore
>>>Satellite information BDS-KP
M
1 to <maxGANSSSatAlmanac>




>>>>Sat ID
M

INTEGER (0..63)
Defined in TS 25.331 [16].
–

>>>>toa
M

BIT STRING (SIZE(8))
Almanac reference time
(seconds) (BDS-SIS-ICD [70]).
–

>>>>A1/2
M

BIT STRING (SIZE(24))
Square root of semi-major axis
(meters1/2) (BDS-SIS-ICD [70]).


>>>>e
M

BIT STRING (SIZE(17))
Eccentricity , 
dimensionless (BDS-SIS-ICD [70]).
–

>>>>
M

BIT STRING (SIZE(24)(
Argument of Perigee
(semi-circles) (BDS-SIS-ICD [70]).
–

>>>>M0
M

BIT STRING (SIZE(24))
Mean anomaly at reference time
(semi-circles) (BDS-SIS-ICD [70]).
–

>>>>0
M

BIT STRING (SIZE(24))
Longitude of ascending node of orbital plane computed according to reference time
(semi-circles) (BDS-SIS-ICD [70]).
–

>>>>_dot
M

BIT STRING (SIZE(17))
Rate of right ascension
(semi-circles/sec) (BDS-SIS-ICD [70]).
–

>>>>i
M

BIT STRING (SIZE(16))
Correction of orbit reference inclination at reference time
(semi-circles) (BDS-SIS-ICD [70]).
–

>>>>a0
M

BIT STRING (SIZE(11))
Satellite clock bias
(seconds) (BDS-SIS-ICD [70]).
–

>>>>a1
M

BIT STRING (SIZE(11))
Satellite clock rate
(sec/sec) (BDS-SIS-ICD [70]).
–

>>>>Health
C-Sat-ID

BIT STRING (SIZE(9))
Satellite Health Information
dimensionless (BDS-SIS-ICD [70]).
–

Complete Almanac Provided
O

BOOLEAN
This field indicates whether almanac is provided for the full GANSS constellation or not. TRUE means complete GANSS almanac is provided.
YES
ignore

Condition
Explanation
Sat-ID
This IE shall be present if the IE “Sat ID” is between 0 and 29 and not needed otherwise.

Range Bound
Explanation
maxGANSSSatAlmanac
Maximum number of satellites for which data is included in the IE.

9.2.1.104	GANSS Clock Model
The IE contains fields needed to model the GANSS clock parameters.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
Satellite Clock Model

1 to <maxGANSSClockMod>

Model -1
There may be more than one clock model included if defined in SIS ICD (e.g. two for Galileo) (OS SIS ICD [53]).
>toc
M

BIT STRING (SIZE(14))
defined in OS SIS ICD [53].
>ai2
M

BIT STRING (SIZE(6))
defined in OS SIS ICD [53].
>ai1
M

BIT STRING (SIZE(21))
defined in OS SIS ICD [53].
>ai0
M

BIT STRING (SIZE(31))
defined in OS SIS ICD [53].
>TGD
O

BIT STRING (SIZE(10))
Broadcast Group Delay (BGD) defined in OS SIS ICD [53].
>SISA
M

BIT STRING (SIZE(8))
Signal-In-Space Accuracy (SISA), defined in OS SIS ICD [53].
>Model ID
O

INTEGER(0..1)
Coded as defined in TS 25.331 [16].

Range bound
Explanation
maxGANSSClockMod
Maximum number of satellite clock models for which data is included in the IE. 

9.2.1.104a	GANSS Additional Clock Models
The IE contains fields needed to model the GANSS clock parameters.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
CHOICE Additional Clock Models




>NAV-Clock Model



Model-2.
>>toc
M

BIT STRING (SIZE(16))
Time of clock 
(seconds) (IS-QZSS [59]).
>>af2
M

BIT STRING (SIZE(8))
Clock correction polynomial coefficient
(sec/sec2) (IS-QZSS [59]).
>>af1
M

BIT STRING (SIZE(16))
Clock correction polynomial coefficient
(sec/sec) (IS-QZSS [59]).
>>af0
M

BIT STRING (SIZE(22))
Clock correction polynomial coefficient
(seconds) (IS-QZSS [59]).
>>TGD
M

BIT STRING (SIZE(8))
Group delay
(seconds) (IS-QZSS [59]).
>CNAV/CNAV-2 Clock Model



Model-3.
>>toc
M

BIT STRING (SIZE(11))
Clock data reference time of week
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>top
M

BIT STRING (SIZE(11))
Clock data predict time of week
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>URAoc Index
M

BIT STRING (SIZE(5))
SV clock accuracy index
(dimensionless) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>URAoc1 Index
M

BIT STRING (SIZE(3))
SV clock accuracy change index
(dimensionless) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>URAoc2 Index
M

BIT STRING (SIZE(3))
SV clock accuracy change rate index
(dimensionless) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>af2-n
M

BIT STRING (SIZE(10))
SV clock drift rate correction coefficient
(sec/sec2) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>af1-n
M

BIT STRING (SIZE(20))
SV clock drift correction coefficient
(sec/sec) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>af0-n
M

BIT STRING (SIZE(26))
SV clock bias correction coefficient
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>TGD
M

BIT STRING (SIZE(13))
Group delay correction
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>ISCL1CP
O

BIT STRING (SIZE(13))
Inter signal group delay correction
(seconds) (IS-GPS-800 [57], IS-QZSS [59]).
>>ISCL1CD
O

BIT STRING (SIZE(13))
Inter signal group delay correction
(seconds) (IS-GPS-800 [57], IS-QZSS [59]).
>>ISCL1C/A
O

BIT STRING (SIZE(13))
Inter signal group delay correction
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-QZSS [59]).
>>ISCL2C
O

BIT STRING (SIZE(13))
Inter signal group delay correction
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-QZSS [59]).
>>ISCL5I5
O

BIT STRING (SIZE(13))
Inter signal group delay correction
(seconds) (IS-GPS-705 [56], IS-QZSS [59]).
>>ISCL5Q5
O

BIT STRING (SIZE(13))
Inter signal group delay correction
(seconds) (IS-GPS-705 [56], IS-QZSS [59]).
>GLONASS Satellite Clock Model



Model-4.
n(tb)
M

BIT STRING (SIZE(22))
Satellite clock offset
(seconds) [60].
n(tb)
M

BIT STRING (SIZE(11))
Relative frequency offset from nominal value
(dimensionless) [60].
n
O

BIT STRING (SIZE(5))
Time difference between transmission in G2 and G1
(seconds) [60].
>SBAS Satellite Clock Model



Model-5
>t0
M

BIT STRING (SIZE(13))
(seconds) (DTFA01-96-C-00025 [58]).
>aGfo
M

BIT STRING (SIZE(12))
(seconds) (DTFA01-96-C-00025 [58]).
>aGf1
M

BIT STRING (SIZE(8))
(sec/sec) (DTFA01-96-C-00025 [58]).
>BDS Satellite Clock Model



Model-6.
>>toc
M

BIT STRING (SIZE(17))
Time of clock 
(seconds) (BDS-SIS-ICD [70]).
>>a0
M

BIT STRING (SIZE(24))
Clock correction polynomial coefficient
(seconds) (BDS-SIS-ICD [70]).
>>a1
M

BIT STRING (SIZE(22))
Clock correction polynomial coefficient
(sec/sec) (BDS-SIS-ICD [70]).
>>a2
M

BIT STRING (SIZE(11))
Clock correction polynomial coefficient
(sec/sec2) (BDS-SIS-ICD [70]).
>>TGD1
M

BIT STRING (SIZE(10))
Equipment Group Delay Differential
(seconds) (BDS-SIS-ICD [70]).
>>AODC
M

BIT STRING (SIZE(5))
Age of Data,Clock 
(dimensionless) (BDS-SIS-ICD [70]).

9.2.1.105	GANSS Ionospheric Model
The IE contains fields needed to model the propagation delays of the GANSS signals through the ionosphere.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
ai0
M

BIT STRING (SIZE(11))
Effective ionisation Level 1st order parameter. This parameter is used as defined in OS SIS ICD [53].
ai1
M

BIT STRING (SIZE(11))
Effective ionisation Level 2nd order parameter. This parameter is used as defined in OS SIS ICD [53].
ai2
M

BIT STRING (SIZE(14))
Effective Ionisation Level 3rd order parameter. This parameter is used as defined in OS SIS ICD [53].
GANSS Ionosphere Regional Storm Flags

0..1


>Storm Flag 1
M

BOOLEAN
This parameter is used as defined in OS SIS ICD [53].
>Storm Flag 2
M

BOOLEAN
This parameter is used as defined in OS SIS ICD [53].
>Storm Flag 3
M

BOOLEAN
This parameter is used as defined in OS SIS ICD [53].
>Storm Flag 4
M

BOOLEAN
This parameter is used as defined in OS SIS ICD [53].
>Storm Flag 5
M

BOOLEAN
This parameter is used as defined in OS SIS ICD [53].

9.2.1.105a	GANSS Additional Ionospheric Model
The IE contains fields needed to model the propagation delays of the GANSS signals through the ionosphere.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
Data ID
M

BIT STRING (SIZE(2))
Coded as defined in TS 25.331 [16].
0
M

BIT STRING (SIZE(8))
seconds (IS-QZSS [59]).
1
M

BIT STRING (SIZE(8))
sec/semi-circle (IS-QZSS [59]).
2
M

BIT STRING (SIZE(8))
sec/(semi-circle)2 (IS-QZSS [59]).
3
M

BIT STRING (SIZE(8))
sec/(semi-circle)3 (IS-QZSS [59]).
0
M

BIT STRING (SIZE(8))
seconds (IS-QZSS [59]).
1
M

BIT STRING (SIZE(8))
sec/semi-circle (IS-QZSS [59]).
2
M

BIT STRING (SIZE(8))
sec/(semi-circle)2 (IS-QZSS [59]).
3
M

BIT STRING (SIZE(8))
sec/(semi-circle)3 (IS-QZSS [59]).

9.2.1.106	GANSS Navigation Model
Void.
9.2.1.107	GANSS Orbit Model
This IE contains information for GANSS orbit model parameters.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
CHOICE Orbit Model
M



>Keplerian Parameters



Model-1.
>>toe
M

BIT STRING (SIZE(14))
Time-of-Ephemeris in seconds, scale factor 60 (OS SIS ICD [53]).

M

BIT STRING (SIZE(32))
Argument of Perigee (semi-circles) (OS SIS ICD [53]).
n
M

BIT STRING (SIZE(16))
Mean Motion Difference From Computed Value (semi-circles/sec) (OS SIS ICD [53]).
>>M0
M

BIT STRING (SIZE(32))
Mean Anomaly at Reference Time (semi-circles) (OS SIS ICD [53]).
>>OMEGAdot
M

BIT STRING (SIZE(24))
Rate of change of right ascension (semi-circles/sec) (OS SIS ICD [53]).
>>e
M

BIT STRING (SIZE(32))
Eccentricity, scale factor 2-33 (OS SIS ICD [53]).
>>Idot
M

BIT STRING (SIZE(14))
Rate of change of Inclination Angle (semi-circles/sec) (OS SIS ICD [53]).
>>sqrtA
M

BIT STRING (SIZE(32))
Square root of Semi-Major Axis in (meters)1/2 , scale factor 2-19 (OS SIS ICD [53]).
>>i0
M

BIT STRING (SIZE(32))
Inclination Angle at Reference Time (semi-circles) (OS SIS ICD [53]).
>>OMEGA0
M

BIT STRING (SIZE(32))
Longitude of Ascending Node of Orbit Plane at Weekly Epoch (semi-circles) (OS SIS ICD [53]).
>>Crs
M

BIT STRING (SIZE(16))
Amplitude of the Sine Harmonic Correction Term to the Orbit Radius (meters) (OS SIS ICD [53]).
>>Cis
M

BIT STRING (SIZE(16))
Amplitude of the Sine Harmonic Correction Term To The Angle Of Inclination (radians) (OS SIS ICD [53]).
>>Cus
M

BIT STRING (SIZE(16))
Amplitude of the Sine Harmonic Correction Term To The Argument Of Latitude (radians) (OS SIS ICD [53]).
>>Crc
M

BIT STRING (SIZE(16))
Amplitude of the Cosine Harmonic Correction Term to the Orbit Radius (meters) (OS SIS ICD [53]).
>>Cic
M

BIT STRING (SIZE(16))
Amplitude of the Cosine Harmonic Correction Term To The Angle Of Inclination (radians) (OS SIS ICD [53]).
>>Cuc
M

BIT STRING (SIZE(16))
Amplitude of the Cosine Harmonic Correction Term To The Argument Of Latitude (radians) (OS SIS ICD [53]).

9.2.1.107a	GANSS Additional Orbit Models
This IE contains information for GANSS orbit model parameters.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
CHOICE Additional Orbit Models




>NAV-Keplerian Parameters



Model-2.
>>URA Index
M

BIT STRING (SIZE(4))
SV accuracy
(dimensionless) (IS-QZSS [59]).
>>Fit Interval Flag
M

BIT STRING (SIZE(1))
Fit interval indication
(dimensionless) (IS-QZSS [59]).
>>toe
M

BIT STRING (SIZE(16))
Time of ephemeris
(seconds) (IS-QZSS [59]).
>>
M

BIT STRING (SIZE(32))
Argument of perigee
(semi-circles) (IS-QZSS [59]).
>>n
M

BIT STRING (SIZE(16))
Mean motion difference from computed value
(semi-circles/sec) (IS-QZSS [59]).
>>M0
M

BIT STRING (SIZE(32))
Mean anomaly at reference time
(semi-circles) (IS-QZSS [59]).
>>OMEGAdot
M

BIT STRING (SIZE(24))
Rate of right ascension
(semi-circles/sec) (IS-QZSS [59]).
>>e
M

BIT STRING (SIZE(32))
Eccentricity
(dimensionless) (IS-QZSS [59]).
>>Idot
M

BIT STRING (SIZE(14))
Rate of inclination angle
(semi-circles/sec) (IS-QZSS [59]).
>>sqrtA
M

BIT STRING (SIZE(32))
Square root of semi-major axis
(meters1/2) (IS-QZSS [59]).
>>i0
M

BIT STRING (SIZE(32))
Inclination angle at reference time
(semi-circles) (IS-QZSS [59]).
>>OMEGA0
M

BIT STRING (SIZE(32))
Longitude of ascending node of orbit plane at weekly epoch
(semi-circles) (IS-QZSS [59]).
>>Crs
M

BIT STRING (SIZE(16))
Amplitude of sine harmonic correction term to the orbit radius
(meters) (IS-QZSS [59]).
>>Cis
M

BIT STRING (SIZE(16))
Amplitude of sine harmonic correction term to the angle of inclination
(radians) (IS-QZSS [59]).
>>Cus
M

BIT STRING (SIZE(16))
Amplitude of sine harmonic correction term to the argument of latitude
(radians) (IS-QZSS [59]).
>>Crc
M

BIT STRING (SIZE(16))
Amplitude of cosine harmonic correction term to the orbit radius
(meters) (IS-QZSS [59]).
>>Cic
M

BIT STRING (SIZE(16))
Amplitude of cosine harmonic correction term to the angle of inclination
(radians) (IS-QZSS [59]).
>>Cuc
M

BIT STRING (SIZE(16))
Amplitude of cosine harmonic correction term to the argument of latitude
(radians) (IS-QZSS [59]).
>CNAV/CNAV-2 Keplerian Parameters



Model-3.
>>top
M

BIT STRING (SIZE(11))
Data predict time of week
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>URAoe Index
M

BIT STRING (SIZE(5))
SV accuracy
(dimensionless) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>A
M

BIT STRING (SIZE(26))
Semi-major axis difference at reference time
(meters) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>A_dot
M

BIT STRING (SIZE(25))
Chane rate in semi-major axis
(meters/sec) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>n0
M

BIT STRING (SIZE(17))
Mean motion difference from computed value at reference time
(semi-circles/sec) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>n0_dot
M

BIT STRING (SIZE(23))
Rate of mean motion difference from computed value
(semi-circles/sec2) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>M0-n
M

BIT STRING (SIZE(33))
Mean anomaly at reference time
(semi-circles) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>en
M

BIT STRING (SIZE(33))
Eccentricity
(dimensionless) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>n
M

BIT STRING (SIZE(33))
Argument of perigee
(semi-circles) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>0-n
M

BIT STRING (SIZE(33))
Reference right ascension angle
(semi-circles) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>_dot
M

BIT STRING (SIZE(17))
Rate of right ascension difference
(semi-circles/sec) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>io-n
M

BIT STRING (SIZE(33))
Inclination angle at reference time
(semi-circles) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>I0-n_dot
M

BIT STRING (SIZE(15))
Rate of inclination angle
(semi-circles/sec) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>Cis-n
M

BIT STRING (SIZE(16))
Amplitude of sine harmonic correction term to the angle of inclination
(radians) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>Cic-n
M

BIT STRING (SIZE(16))
Amplitude of cosine harmonic correction term to the angle of inclination
(radians) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>Crs-n
M

BIT STRING (SIZE(24))
Amplitude of sine harmonic correction term to the orbit radius
(meters) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>Crc-n
M

BIT STRING (SIZE(24))
Amplitude of cosine harmonic correction term to the orbit radius
(meters) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>Cus-n
M

BIT STRING (SIZE(21))
Amplitude of sine harmonic correction term to the argument of latitude
(radians) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>Cuc-n
M

BIT STRING (SIZE(21))
Amplitude of cosine harmonic correction term to the argument of latitude
(radians) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>GLONASS Earth-Centered, Earth-fixed Parameters



Model-4.
>>En
M

BIT STRING (SIZE(5))
Age of data
(days) [60].
>>P1
M

BIT STRING (SIZE(2))
Time interval between two adjacent values of tb
(minutes) [60].
>>P2
M

BIT STRING (SIZE(1))
Change of tb flag
(dimensionless) [60].
>>M
O

BIT STRING (SIZE(2))
Type of satellite
(dimensionless) [60].
>>
M

BIT STRING (SIZE(27))
x-coordinate of satellite at time tb
(kilometers) [60]
>>
M

BIT STRING (SIZE(24))
x-coordinate of satellite velocity at time tb
(kilometers/sec) [60].
>>
M

BIT STRING (SIZE(5))
x-coordinate of satellite acceleration at time tb
(kilometers/sec2) [60].
>>
M

BIT STRING (SIZE(27))
y-coordinate of satellite at time tb
(kilometers) [60].
>>
M

BIT STRING (SIZE(24))
y-coordinate of satellite velocity at time tb
(kilometers/sec) [60].
>>
M

BIT STRING (SIZE(5))
y-coordinate of satellite acceleration at time tb
(kilometers/sec2) [60].
>>
M

BIT STRING (SIZE(27))
z-coordinate of satellite at time tb
(kilometers) [60].
>>
M

BIT STRING (SIZE(24))
z-coordinate of satellite velocity at time tb
(kilometers/sec) [60].
>>
M

BIT STRING (SIZE(5))
z-coordinate of satellite acceleration at time tb
(kilometers/sec2) [60].
>SBAS Earth-Centered, Earth-fixed Parameters



Model-5.
>>t0
C‑ClockModel

BIT STRING (SIZE(13))
Time of applicability
(seconds) (DTFA01-96-C-00025 [58]).
>>Accuracy
M

BIT STRING (SIZE(4))
(dimensionless) (DTFA01-96-C-00025 [58]).
>>XG
M

BIT STRING (SIZE(30))
(meters) (DTFA01-96-C-00025 [58]).
>>YG
M

BIT STRING (SIZE(30))
(meters) (DTFA01-96-C-00025 [58]).
>>ZG
M

BIT STRING (SIZE(25))
(meters) (DTFA01-96-C-00025 [58]).
>>XG Rate‑of‑Change
M

BIT STRING (SIZE(17))
(meters/sec) (DTFA01-96-C-00025 [58]).
>>YG Rate‑of‑Change
M

BIT STRING (SIZE(17))
(meters/sec) (DTFA01-96-C-00025 [58]).
>>ZG Rate‑of‑Change
M

BIT STRING (SIZE(18))
(meters/sec) (DTFA01-96-C-00025 [58]).
>>XG Acceleration
M

BIT STRING (SIZE(10))
(meters/sec2) (DTFA01-96-C-00025 [58]).
>>YG Acceleration
M

BIT STRING (SIZE(10))
meters/sec2) (DTFA01-96-C-00025 [58]).
>>ZG Acceleration
M

BIT STRING (SIZE(10))
meters/sec2) (DTFA01-96-C-00025 [58]).
>BDS Keplerian Parameters



Model-6.
>>URA Index
M

BIT STRING (SIZE(4))
SV accuracy
(dimensionless) (BDS-SIS-ICD [70]).
>>toe
M

BIT STRING (SIZE(17))
Ephemeris reference time
(seconds) (BDS-SIS-ICD [70]).
>>A1/2
M

BIT STRING (SIZE(32))
Square root of semi-major axis 
(meters1/2) (BDS-SIS-ICD [70]).
>>e
M

BIT STRING (SIZE(32))
Eccentricity
(dimensionless) (BDS-SIS-ICD [70]).
>>
M

BIT STRING (SIZE(32))
Argument of perigee
(semi-circles) (BDS-SIS-ICD [70]).
>>n
M

BIT STRING (SIZE(16))
Mean motion difference from computed value
(semi-circles/sec) (BDS-SIS-ICD [70]).
>>M0
M

BIT STRING (SIZE(32))
Mean anomaly at reference time
(semi-circles) (BDS-SIS-ICD [70]).
>>0
M

BIT STRING (SIZE(32))
Longitude of ascending node of orbital of plane computed according to reference time 
(semi-circles) (BDS-SIS-ICD [70]).
>>_dot
M

BIT STRING (SIZE(24))
Rate of right ascension
(semi-circles/sec) (BDS-SIS-ICD [70]).
>>i0
M

BIT STRING (SIZE(32))
Inclination angle at reference time
(semi-circles) (BDS-SIS-ICD [70]).
>>Idot
M

BIT STRING (SIZE(14))
Rate of inclination angle
(semi-circles/sec) (BDS-SIS-ICD [70]).
>>Cuc
M

BIT STRING (SIZE(18))
Amplitude of cosine harmonic correction term to the argument of latitude
(radians) (BDS-SIS-ICD [70]).
>>Cus
M

BIT STRING (SIZE(18))
Amplitude of sine harmonic correction term to the argument of latitude
(radians) (BDS-SIS-ICD [70]).
>>Crc
M

BIT STRING (SIZE(18))
Amplitude of cosine harmonic correction term to the orbit radius 
(meters) (BDS-SIS-ICD [70]).
>>Crs
M

BIT STRING (SIZE(18))
Amplitude of sine harmonic correction term to the orbit radius
(meters) (BDS-SIS-ICD [70]).
>>Cic
M

BIT STRING (SIZE(18))
Amplitude of cosine harmonic correction term to the angle of inclination
(radians) (BDS-SIS-ICD [70]).
>>Cis
M

BIT STRING (SIZE(18))
Amplitude of sine harmonic correction term to the angle of inclination
(radians) (BDS-SIS-ICD [70]).
>>AODE
M

BIT STRING (SIZE(5))
Age of data,ephemeris
(dimensionless) (BDS-SIS-ICD [70]).

Condition
Explanation
ClockModel
This IE shall be present if “SBAS Earth-Centered, Earth-fixed Parameters” (Model-5) in IE GANSS Additional Clock Models is not included in GANSS Additional Navigation Models IE.

9.2.1.108	GANSS Real Time Integrity
This IE contains parameters that describe the real-time status of the GANSS constellation.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
Satellite Information

1 to <maxGANSSSat>


>Bad GANSS Sat ID
M

INTEGER(0..63)
Defined in TS 25.331 [16].
>Bad GANSS Signal ID
O

BIT STRING (SIZE(8))
Coded as defined in TS 25.331 [16].

Range Bound
Explanation
maxGANSSSat
Maximum number of satellites for which data is included in the IE.

9.2.1.109	GANSS Receiver Geographical Position (GANSS RX Pos)
The GANSS Receiver Geographical Position IE is used to identify the geographical coordinates of a GANSS receiver relevant for a certain Information Exchange Object.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Latitude Sign
M

ENUMERATED (
North, 
South) 

Degrees of Latitude
M

INTEGER (0..231-1)
The IE value (N) is derived by this formula:
N231 X /90  N+1
X being the latitude in degree (0°.. 90°).
Degrees of Longitude
M

INTEGER 
(-231..231-1)
The IE value (N) is derived by this formula:
N232 X /360  N+1
X being the longitude in degree (-180°..+180°).
Direction of Altitude
M

ENUMERATED (
Height, 
Depth)

Altitude
M

INTEGER (0..215-1)
The relation between the value (N) and the altitude (a) in meters it describes is N a <N+1, except for N=215-1 for which the range is extended to include all greater values of (a).

9.2.1.110	GANSS Time Model
The GANSS Time Model IE contains a set of parameters needed to relate GANSS time to selected time reference indicated by GNSS_TO_ID.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
Criticality
Assigned Criticality
GANSS Time Model Reference Time
M

INTEGER(0..37799)
GANSS reference time (modulo 1 week) in seconds. The scale factor is 24
–

TA0
M

INTEGER(-2147483648..2147483647)
Seconds, scale factor 2-35
–

TA1
O

INTEGER (-8388608..8388607)
sec/sec, scale factor 2-51
–

TA2
O

INTEGER (-64..63)
sec/sec2 , scale factor 2-68
–

GNSS_TO_ID
M

ENUMERATED(GPS,… ,
Galileo, QZSS, GLONASS), BDS

–

Week Number
O

INTEGER(0..8191)
Reference week of GANSS Time Model.
–

Delta_T
O

INTEGER (-128..127)
This field specifies the integer seconds of the GNSS-GNSS Time Offset.
Scale factor 1 second.
YES
ignore

9.2.1.110a	GANSS Additional Time Models
The GANSS Additional Time Models IE contains a set of parameters needed to relate GANSS time to selected time references.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
GNSS-GNSS Time Model

1..<maxGANSS-1>


>GANSS Time Model


9.2.1.110


Range Bound
Explanation
maxGANSS-1
Maximum number of GANSS systems for which data is included in this IE. 

9.2.1.111	GANSS UTC Model
The GANSS UTC Model IE contains a set of parameters needed to relate GANSS time to Universal Time Coordinate (UTC).
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
A1
M

BIT STRING (SIZE(24))
sec/sec (OS SIS ICD [53]).
A0
M

BIT STRING (SIZE(32))
seconds (OS SIS ICD [53]).
tot
M

BIT STRING (SIZE(8))
seconds (OS SIS ICD [53]).
WNt
M

BIT STRING (SIZE(8))
weeks (OS SIS ICD [53]).
tLS
M

BIT STRING (SIZE(8))
seconds (OS SIS ICD [53]).
WNLSF
M

BIT STRING (SIZE(8))
weeks (OS SIS ICD [53]).
DN
M

BIT STRING (SIZE(8))
days (OS SIS ICD [53]).
tLSF
M

BIT STRING (SIZE(8))
seconds (OS SIS ICD [53]).

9.2.1.111a	GANSS Additional UTC Models
The GANSS Additional UTC Models IE contains several sets of parameters needed to relate GANSS time to Universal Time Coordinate (UTC), as defined in IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], DTFA01-96-C-00025 [58], IS-QZSS [59], [60].
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
CHOICE Additional UTC Models




>Model Set 1




>>A0-n
M

BIT STRING (SIZE(16))
Bias coefficient of GNSS time scale relative to UTC time scale
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>A1-n
M

BIT STRING (SIZE(13))
Drift coefficient of GNSS time scale relative to UTC time scale
(sec/sec) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>A2-n
M

BIT STRING (SIZE(7))
Drift rate correction coefficient of GNSS time scale relative to UTC time scale
(sec/sec2) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>tLS
M

BIT STRING (SIZE(8))
Current or past leap second count
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>tot
M

BIT STRING (SIZE(16))
Time data reference time of week
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>WNot
M

BIT STRING (SIZE(13))
Time data reference week number
(weeks) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>WNLSF
M

BIT STRING (SIZE(8))
Leap second reference week number
(weeks) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>DN
M

BIT STRING (SIZE(4))
Leap second reference day number 
(days) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>>tLSF
M

BIT STRING (SIZE(8))
Current or future leap second count
(seconds) (IS-GPS-200 [55], IS-GPS-705 [56], IS-GPS-800 [57], IS-QZSS [59]).
>Model Set 2




>>NA
M

BIT STRING (SIZE(11))
Callendar day number within four-year period beginning since the leap year
(days) [60].
c
M

BIT STRING (SIZE(32))
GLONASS time scale correction to UTC(SU)
(seconds) [60].
>>Delta UT1
O



>>>B1
M

BIT STRING (SIZE(11))
Coefficient to determine UT1
(seconds) [60].
>>>B2
M

BIT STRING (SIZE(10))
Coefficient to determine UT1
(seconds/msd) [60].
>>KP
O

BIT STRING (SIZE(2))
Notification of expected leap second correction
(dimensionless) [60].
>Model Set 3




>>A1WNT
M

BIT STRING (SIZE(24))
sec/sec
(DTFA01-96-C-00025 [58], Message Type 12).
>>A0WNT
M

BIT STRING (SIZE(32))
seconds 
(DTFA01-96-C-00025 [58], Message Type 12).
>>tot
M

BIT STRING (SIZE(8))
seconds
(DTFA01-96-C-00025 [58], Message Type 12).
>>WNt
M

BIT STRING (SIZE(8))
weeks
(DTFA01-96-C-00025 [58], Message Type 12).
>>tLS
M

BIT STRING (SIZE(8))
seconds
(DTFA01-96-C-00025 [58], Message Type 12).
>>WNLSF
M

BIT STRING (SIZE(8))
Weeks
(DTFA01-96-C-00025 [58], Message Type 12).
>>DN
M

BIT STRING (SIZE(8))
days
(DTFA01-96-C-00025 [58], Message Type 12).
>>tLSF
M

BIT STRING (SIZE(8))
seconds
(DTFA01-96-C-00025 [58], Message Type 12).
>>UTC Standard ID
M

BIT STRING (SIZE(3))
dimensionless
Coded as defined in TS 25.331 [16].
>Model Set 4




>>A0UTC
M

BIT STRING (SIZE(32))
Seconds (BDS-SIS-ICD [70]).
>>A1UTC
M

BIT STRING (SIZE(24))
sec/sec (BDS-SIS-ICD [70]).
>>tLS
M

BIT STRING (SIZE(8))
Seconds (BDS-SIS-ICD [70]).
>>WNLSF
M

BIT STRING (SIZE(8))
Weeks (BDS-SIS-ICD [70]).
>>DN
M

BIT STRING (SIZE(8))
Days (BDS-SIS-ICD [70]).
>>tLSF
M

BIT STRING (SIZE(8))
Seconds (BDS-SIS-ICD [70]).

9.2.1.112	TUTRAN-GANSS Accuracy Class
The TUTRAN-GANSS Accuracy Class IE indicates the accuracy class of the UTRAN GANSS Timing of Cell Frames for UE Positioning measurement.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TUTRAN-GANSS Accuracy Class


ENUMERATED (Accuracy Class A, Accuracy Class B, Accuracy Class C,…)
More information about Measurement Accuracy Class is included in TS 25.133 [23].

9.2.1.113	TUTRAN-GANSS Measurement Threshold Information
The TUTRAN-GANSS Measurement Threshold Information IE defines the related thresholds for UTRAN GANSS Timing of Cell Frames for UE Positioning measurements shall trigger the Event On Modification.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TUTRAN-GANSS Change Limit
O

INTEGER(1..256)
Change of TUTRAN-GANSS value compared to previously reported value, which shall trigger a new report.
Unit in 1/16 chip.
Predicted TUTRAN-GANSS Deviation Limit
O

INTEGER(1..256)
Deviation of the Predicted TUTRAN-GANSS from the latest measurement result, which shall trigger a new report.
Unit in 1/16 chip.

9.2.1.114	TUTRAN-GANSS Measurement Value Information
The TUTRAN-GANSS Measurement Value Information IE indicates the measurement results related to the UTRAN GANSS Timing of Cell Frames for UE Positioning measurements.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TUTRAN-GANSS
M


Indicates the UTRAN GANSS Timing of Cell Frames for UE Positioning. According to mapping in TS 25.133 [23] and TS 25.123 [24]; significant values range from 0 to 37158911999999.
–

>MS
M

INTEGER(0..16383)
Most Significant Part.
–

>LS
M

INTEGER(0..4294967295)
Least Significant Part.
–

TUTRAN-GANSS Quality
O

INTEGER(0..255)
Indicates the standard deviation (std) of the TUTRAN- GANSS measurements in 1/16 chip. TUTRAN- GANSS Quality = E[(x-µ)2] = std of reported TUTRAN- GANSS Value, where x is the reported TUTRAN-GANSS Value and µ = E[x] is the expectation value of x. 
–

TUTRAN-GANSS Drift Rate
M

INTEGER(-50..50)
Indicates the TUTRAN- GANSS drift rate in 1/256 chip per second.
A positive value indicates that the UTRAN clock is running at a lower frequency than GANSS clock.
–

TUTRAN-GANSS Drift Rate Quality
O

INTEGER(0..50)
Indicates the standard deviation (std) of the TUTRAN- GANSS drift rate measurements in 1/256 chip per second. TUTRAN- GANSS Drift Rate Quality = E[(x-µ)2] = std of reported TUTRAN- GANSS Drift Rate, where x is the reported TUTRAN- GANSS Drift Rate and µ = E[x] is the expectation value of x.
–

GANSS Time ID
O

 9.2.1.119a
Absence of this IE means Galileo system time.
YES
ignore

9.2.1.115	GANSS Reference Time
Void.
9.2.1.116	HARQ Memory Partitioning
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE HARQ Memory Partitioning

1


–

>Implicit




–

>>Number of Processes
M

INTEGER (1..8,...12,14,16)
For HARQ process IDs going from 0 to “Number of Processes” – 1 the Total number of soft channel bits (TS 25.306 [42]) is partitioned equally between all HARQ processes according to the rules in TS 25.331 [16].
–

>Explicit




–

>>HARQ Memory Partitioning I

1..<maxNrOfHARQProc>

The first instance of the parameter corresponds to HARQ process with identifier 0, the second instance to HARQ process with identifier 1, and so on.
–

>>>Process Memory Size
M

9.2.1.49D
See TS 25.331 [16].
–

>>HARQ Memory Partitioning Information Extension For MIMO

0, 4, 6 or 8

FDD and 1.28Mcps TDD only 
The 1st instance corresponds to HARQ process with identifier set to “maxnoofHARQprocesses”, the 2nd instance to HARQ process with identifier set to “maxnoofHARQprocesses+1”, and so on.
GLOBAL
ignore
>>>Process Memory Size
M

9.2.1.49D
See TS 25.331 [16].

–


Range Bound
Explanation
MaxNrOfHARQProc
Maximum number of HARQ processes for one UE [FDD – per stream (the maximum number of HARQ processes per UE is 2 * MaxnoofHARQprocesses in dual stream transmission mode)].

9.2.1.117	Multiple PLMN List
This information element contains a list of PLMN identities, which identifies the broadcasted PLMN Identities in MOCN and GWCN shared network configurations. The mandatory PLMN Identity in the MIB (called common PLMN in TS 23.251 [54]) is the first PLMN. 
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PLMN Identity
M

9.2.2.189

List of PLMNs

0 .. <maxNrOfBroadcastPLMNs>


>PLMN Identity
M

9.2.2.189


Range bound
Explanation
maxNrOfBroadcastPLMNs
Maximum number of additional PLMN identitys that can be broadcasted in a cell involved in a MOCN or GWCN Shared Network configuration. The value for maxNrOfBroadcastPLMNs is 5.

9.2.1.118	GANSS Data Bit Assistance

IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
GANSS TOD
M

INTEGER(0..59,…)
Refererence time (modulo 1 minute) of the first bit of the data in Data Bits IE, in seconds.
Data Bit Assistance List

1..<maxGANSSSat>


>Sat ID
M

INTEGER(0..63)
Defined in TS 25.331 [16].
>Data Bit Assistance Sgn List

1..<maxSgnType>


>>GANSS Signal ID
M

9.2.1.121

>>Data Bits
M

BIT STRING (SIZE(1..1024))
Raw data bits as transmitted from a specific satellite at the time indicated by GANSS_TOD. See TS 25.331 [16].

Range Bound
Explanation
maxGANSSSat
Maximum number of satellites for which data is included in the IE.
maxSgnType
Maximum number of GANSS signals included in the IE.

9.2.1.119	GANSS ID
This IE defines a particular GANSS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
GANSS ID
M

INTEGER(0..7,…)
Defines the GANSS and is coded as defined in TS 25.331 [16]. 

9.2.1.119a	GANSS Time ID
This IE defines a particular GANSS system time.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
GANSS Time ID
M

INTEGER(0..7,…)
Defines the GANSS system time for the UTRAN GANSS Timing of Cell Frames for UE Positioning.
Coded as defined in TS 25.331 [16], subclause 10.3.7.93a.

9.2.1.120	GANSS Navigation Model And Time Recovery
This IE contain information required to manage the transfer of precise navigation data to the GANSS-capable UE.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
GANSS Transmission Time
M

9.2.1.122
GANSS Time when the Navigation model has been retrieved.
Non-Broadcast Indication
O

ENUMERATED(true)
If this IE is present, GANSS navigation model is not derived from satellite broadcast. See NOTE 1.
Satellite Information

1 to <maxGANSSSat>


>Sat ID
M

INTEGER(0..63)
Defined in TS 25.331 [16].
>SV Health
M

BIT STRING (SIZE(9))
Coded as defined in OS SIS ICD [53].
>IOD
M

BIT STRING (SIZE(10))

>GANSS Clock Model
M

9.2.1.104

>GANSS Orbit Model
M

9.2.1.107

NOTE 1:	The Non-Broadcast Indication allows to inform that the navigation model is not bit-to-bit the one broadcast by the satellite. If it is set to 1, the UE is informed that techniques such as data wiping off applied to the navigation model may not work for instance. 


Range bound
Explanation
maxGANSSSat
Maximum number of satellites for which data is included in the IE. 

9.2.1.120a	GANSS Additional Navigation Models And Time Recovery
This IE contain information required to manage the transfer of precise navigation data to the GANSS-capable UE.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
GANSS Transmission Time
M

9.2.1.122
GANSS Time when the Navigation model has been retrieved.
Non-Broadcast Indication
O

ENUMERATED(true)
If this IE is present, GANSS navigation model is not derived from satellite broadcast. See NOTE 1 in 9.2.1.120.
Satellite Information

1..<maxGANSSSat>


>Sat ID
M

INTEGER(0..63)
Defined in TS 25.331 [16].
>SV Health
M

BIT STRING (SIZE(6))
Coded as defined in TS 25.331 [16].
>IOD
M

BIT STRING (SIZE(11))
Coded as defined in TS 25.331 [16].
>GANSS Additional Clock Models
M

GANSS I Clock Models 9.2.1.104a

>GANSS Additional Orbit Models
M

GANSS Additional Orbit Models 9.2.1.107a


Range bound
Explanation
maxGANSSSat
Maximum number of satellites for which data is included in this IE. The value of maxGANSSSat is 64.

9.2.1.121	GANSS Signal ID
This IE defines a specific signal within a particular GANSS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
GANSS Signal ID
M

INTEGER(0..7,…)
Coded as defined in TS 25.331 [16].

9.2.1.122	GANSS Transmission Time
This IE indicates the GANSS Transmission Time.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
GANSS Day
O

INTEGER(0..8191)
The sequential number of days from the origin of the GNSS system time (indicated by the GANSS_ID given in the Requested Data Value IE) modulo 8192 days (about 22 years).
GANSS TOD
M

INTEGER(0..86399)
GANSS Time of Day in seconds.

9.2.1.122a	GANSS Earth Orientation Parameters

IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
tEOP
M

BIT STRING (SIZE(16))
EOP data reference time
(seconds) (IS-GPS-200 [55]).
PM_X
M

BIT STRING (SIZE(21))
X-axis polar motion value at reference time
(arc-seconds) (IS-GPS-200 [55]).
PM_X_dot
M

BIT STRING (SIZE(15))
X-axis polar motion drift at reference time
(arc-seconds/day) (IS-GPS-200 [55]).
PM_Y
M

BIT STRING (SIZE(21))
Y-axis polar motion value at reference time
(arc-seconds) (IS-GPS-200 [55]).
PM_Y_dot
M

BIT STRING (SIZE(15))
Y-axis polar motion drift at reference time
(arc-seconds/day) (IS-GPS-200 [55]).
UT1
M

BIT STRING (SIZE(31))
UT1-UTC difference at reference time
(seconds) (IS-GPS-200 [55]).
UT1_dot
M

BIT STRING (SIZE(19))
Rate of UT1-UTC difference at reference time
(seconds/day) (IS-GPS-200 [55]).

9.2.1.122b	SBAS ID
This IE defines a specific SBAS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SBAS ID
M

ENUMERATED(
WAAS, 
EGNOS,
MSAS,
GAGAN, … )


9.2.1.122c	GANSS Auxiliary Information
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
CHOICE GANSS-ID




>GANSS-ID-1



This choice may only be present if GANSS ID indicated “Modernized GPS”.
>>Aux Info List

1 .. <maxGANSSSat>


>>>Sat ID
M

INTEGER(0..63)
Defined in TS 25.331 [16].
>>>Signals Available
M

BIT STRING (SIZE(8))
Coded as defined in TS 25.331 [16].
>GANSS-ID-3



This choice may be present if GANSS ID indicated “GLONASS”.
>>Aux Info List

1 .. <maxGANSSSat>


>>>Sat ID
M

INTEGER(0..63)
Defined in TS 25.331 [16].
>>>Signals Available
M

BIT STRING (SIZE(8))
Coded as defined in TS 25.331 [16].
>>>Channel Number
M

INTEGER (‑7..13)
This field indicates the GLONASS carrier frequency number of the satellite identified by Sat ID, as defined in [60].

Range Bound
Explanation
maxGANSSSat
Maximum number of GANSS satellites for which data is included in this IE. 

9.2.1.122d	Additional Ionospheric Model Request
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Additional Ionospheric Model Request
M

BIT STRING (SIZE(2))
Data ID for GANSS Additional Ionospheric Model as defined in TS 25.331 [16], subclause 10.3.7.92b.

9.2.1.122e	Earth Orientation Parameters Request
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Earth Orientation Parameters Request
M

BOOLEAN
True means requested.

9.2.1.122f	GANSS Additional Navigation Models And Time Recovery Request
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
GANSS Additional Navigation Models And Time Recovery Request
M

BOOLEAN
True means requested.

9.2.1.122g	GANSS Additional UTC Models Request
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
GANSS Additional UTC Models Request
M

BOOLEAN
True means requested.

9.2.1.122h	GANSS Auxiliary Information Request
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
GANSS Auxiliary Information Request
M

BOOLEAN
True means requested.

9.2.1.123	SixtyfourQAM DL Support Indicator
The SixtyfourQAM DL Support Indicator indicates whether the particular cell is capable to support Sixtyfour QAM in DL or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SixtyfourQAM DL Support Indicator


ENUMERATED (SixtyfourQAM DL Supported, SixtyfourQAM DL Not Supported)


9.2.1.124	RANAP Enhanced Relocation Information Request
This parameter is transparent to the RNSAP. The parameter contains information for the Enhanced Relocation procedure as defined in TS 25.413 [2].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RANAP Enhanced Relocation Information Request


BIT STRING
The content is defined in TS 25.413 [2].

9.2.1.125	RANAP Enhanced Relocation Information Response
This parameter is transparent to the RNSAP. The parameter contains information for the Enhanced Relocation procedure as defined in TS 25.413 [2].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RANAP Enhanced Relocation Information Response


BIT STRING
The content is defined in TS 25.413 [2].

9.2.1.126	Released CN Domain
The parameter indicates the CD Domain(s) which the RNC shall release the related resource for.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Released CN Domain
M



>PS Domain


NULL

>CS Domain


NULL

>PS and CS Domain


NULL


9.2.1.127	Secondary CCPCH system information MBMS
The parameter contains information for the Secondary CCPCH system information MBMS as defined in TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Secondary CCPCH system information MBMS


BIT STRING
The content is defined in TS 25.331 [16].

9.2.1.128	MBSFN Cluster Identity
The parameter is the identifier of a MBSFN cluster in one PLMN.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MBSFN Cluster Identity


INTEGER
(0..65535)
the identifier of a MBSFN cluster in one PLMN.

9.2.1.129	MBSFN Scheduling Transmission Time Interval
The parameter is the identifier of an MBSFN Scheduling Transmission Time Interval.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MBSFN Scheduling Transmission Time Interval


INTEGER
(4,8,16,32,
64,128,256)
Number of TTIs.

9.2.1.130	MAC-ehs Reset Timer
The MAC-ehs Reset Timer IE is used as Reset Timer(Treset) described in TS 25.321 [41] subclause 11.6.4.5.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MAC-ehs Reset Timer


ENUMERATED (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. 

9.2.1.131	Enhanced FACH Support Indicator
This IE indicates the Enhanced FACH Support. [1.28Mcps TDD – This IE indicates the Enhanced FACH Support in both downlink and uplink.]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Enhanced FACH Support Indicator


NULL


9.2.1.132	Enhanced PCH Capability
This IE indicates the UE is capable of Enhanced PCH or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Enhanced PCH Capability


ENUMERATED (Enhanced PCH Capable, Enhanced PCH Not Capable)


9.2.1.133	Priority Queue Information for Enhanced FACH/PCH
The Priority Queue Information for Enhanced FACH/PCH IE provides information associated to HSDPA Priority Queue used for Enhanced FACH and/or Enhanced PCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Priority Queue Information

1..<maxNrOfPrioQueues>


>Priority Queue ID
M

9.2.1.45A

>Scheduling Priority Indicator
M

9.2.1.51A

>T1
M

9.2.1.54A

>MAC-ehs Reset Timer
M

9.2.1.130

>Discard Timer
O

9.2.1.19C

>MAC-hs Window Size
M

9.2.1.34C

>Maximum MAC-d PDU Size
M

MAC PDU Size Extended
9.2.1.34D


Range Bound
Explanation
maxNrOfPrioQueues
Maximum number of Priority Queues.

9.2.1.134	MIMO Activation Indicator
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MIMO Activation Indicator
M

NULL


9.2.1.135	MIMO Mode Indicator
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MIMO Mode Indicator


ENUMERATED (Activate, Deactivate)


9.2.1.136	DL RLC PDU Size Format
The DL RLC PDU Size Format IE indicates the downlink RLC PDU size format used for a Priority Queue.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DL RLC PDU Size Format


ENUMERATED (
Fixed RLC PDU size, Flexible RLC PDU size ,...)


9.2.1.137	UE Aggregate Maximum Bit Rate
The UE Aggregate Maximum Bit Rate IE is applicable for all Non-GBR bearers per UE which is defined for the Downlink and the Uplink direction and provided by the CN to the RNC. At least one of the UE Aggregate Maximum Bit Rate Downlink IE and UE Aggregate Maximum Bit Rate Uplink IE shall be included in the UE Aggregate Maximum Bit Rate IE.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
UE Aggregate Maximum Bit Rate



Desc:
Applicable for non-GBR bearers.
>UE Aggregate Maximum Bit Rate Downlink
O

INTEGER (1..1,000,000,000)
Desc.: This IE indicates the aggregated maximum number of bits delivered by UTRAN and to UTRAN in DL within a period of time, divided by the duration of the period for all non-GBR bearers in one UE. The MBR of non-GBR bearers shall be ignored if this IE present.
>UE Aggregate Maximum Bit Rate Uplink
O

INTEGER (1..1,000,000,000)
Desc.: This IE indicates the aggregated maximum number of bits delivered by UTRAN and to UTRAN in UL within a period of time, divided by the duration of the period for all non-GBR bearers in one UE. The MBR of non-GBR bearers shall be ignored if this IE present.

9.2.1.138	DGNSS Validity Period
This IE defines the validity period of the GNSS differential corrections provided in DGPS corrections and DGANSS corrections IEs.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UDRE Growth Rate
M

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 provided in DGPS Corrections or DGANSS corrections IE (TS 25.331 [16]).
Time of Validity for UDRE Growth Rate
M

ENUMERATED(
val20sec, 
val40sec, 
val80sec, 
val160sec, 
val320sec, 
val640sec, 
val1280sec, 
val2560sec)
This field specifies the time when the UDRE Growth Rate field applies (TS 25.331 [16]).

9.2.1.139	MDT Configuration
The IE defines the MDT function parameters.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MDT Activation
M

ENUMERATED(MDT Only, MDT and Trace, …)

CHOICE MDT Area Scope
M



>Cell based




>>Cell ID List

1 to <maxNrOfCellIds>


>>>Cell-ID
M
INTEGER (0..268435455)

This information element identifies a cell uniquely within UTRAN and consists of RNC-ID and C-ID as defined in TS 25.401 [40].
>LA Based




>>LAI List

1 to <maxNrOfLAIs>


>>>LAI
M



>>>>PLMN Identity
M

9.2.2.189

>>>>LAC
M

OCTET STRING (SIZE(2))
0000 and FFFE not allowed.
>RA Based




>>RAI List

0 to <maxNrOfRAIs>


>>>RAI



This element identifies an area in which the MDT Configuration applies.
>>>>PLMN Identity
M

9.2.2.189

>>>>LAC
M

OCTET STRING (SIZE(2))
0000 and FFFE not allowed.
>>>>RAC
M

OCTET STRING (SIZE(1))






>PLMN Area Based


NULL

M1 Report
O

9.2.2.128
M1: FDD only CPICH RSCP and CPICH Ec/No measurement by UE.
This information element shall not be sent, ignored if received.
M2 Report
O

9.2.3.83
M2: P-CCPCH RSCP and Timeslot ISCP for UTRA 1.28 TDD.
This information element shall not be sent, ignored if received.
M3 Report
O

NULL


Range bound
Explanation
maxNrOfCellIds
Maximum no. of Cell ID subject for MDT scope. Value is 32.
maxNrOfLAIs
Maximum no. of LAI subject for MDT scope. Value is 8.
maxNrOfRAIs
Maximum no of RAI subject for MDT scope. Value is 8.

9.2.1.140	MDT Report Parameters
This IE defines the report parameters for MDT periodic reports. This IE is not used by the DRNS.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MDT Report Parameters




>Report interval
M

ENUMERATED ( ms250, ms500, ms1000, ms2000, ms3000, ms4000, ms6000, ms12000, ms16000, ms20000, ms24000, ms32000, ms64000, ... )
This IE is defined in TS25.331[10].
>Report amount
M

ENUMERATED (1, 2, 4, 8, 16, 32, 64, infinity, ... )


9.2.1.141	Neighbouring UMTS Cell Information Extension
The Neighbouring UMTS Cell Information Extension IE is an extension IE to the Neighbouring UMTS Cell Information IE and indicates the UMTS neigbouring cells in the same way as in the Neighbouring UMTS Cell Information IE. The DRNC may use the Neighbouring UMTS Cell Information Extension IE to indicate remaining UMTS neighbouring cells if the number of neighbouring RNCs exceeds the predefined maximum number of neighbouring RNCs (maxNrOfNeighbouringRNCs).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Neighbouring UMTS Cell Information Extension

1..<maxNrOfExtendedNeighbouringRNCs>


>RNC-ID
M

9.2.1.50
If the Extended RNC-ID IE is included in the Neighbouring UMTS Cell Information IE, the RNC-ID IE shall be ignored.
>CN PS Domain Identifier
O

9.2.1.12

>CN CS Domain Identifier
O

9.2.1.11

>Neighbouring FDD Cell Information
O

9.2.1.41B

>Neighbouring TDD Cell Information
O

9.2.1.41D

>Neighbouring TDD Cell Information LCR
O

9.2.1.72

>Extended RNC-ID
O

9.2.1.50a
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.

Range bound
Explanation
maxNrOfExtendedNeighbouringRNCs
Maximum number of extended neighbouring RNCs. 

9.2.1.142	Source ID
The Source ID IE identifies the source for the relocation of SRNS. The Source ID shall be the SAI of the relocation source.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
SAI
M

9.2.1.52


9.2.1.143	Target ID
The Target ID IE identifies the target for the relocation of SRNS. The target ID shall be the Cell Global ID of the relocation target.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CGI
M

9.2.1.5D


9.2.1.144	MS Classmark 2
The coding of this element is described in TS 24.008 [66].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MS Classmark 2
M

OCTET STRING
Coded same way as the Mobile Station Classmark 2 IE defined in TS 24.008 [66].

9.2.1.145	MS Classmark 3
The coding of this element is described in TS 24.008 [66].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MS Classmark 3
M

OCTET STRING
Coded same way as the Mobile Station Classmark 3 IE defined in TS 24.008 [66].

9.2.1.146	Speech Version
The Speech Version IE identifies the speech version supported.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Speech Version
M

BIT STRING (SIZE(4))
The coding of this IE is described in TS 24.008 [66].

9.2.1.147	Controlled Object Scope
Controlled Object Scope IE indicates the scope of objects which the control of information transfer shall be performed.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RNC-ID
M

9.2.1.50
If the Extended RNC-ID IE is included, the RNC-ID IE shall be ignored.
Extended RNC-ID
O

9.2.1.50a
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.
Multiple PLMN List
O

9.2.1.117

UMTS Cell Information 
O
0..<maxNrOfCells>


>C-ID
M

9.2.1.6


Range bound
Explanation
maxNrOfCells
Maximum number of cells that can be indicated in the corresponding IE.

9.2.1.148	ANR Report Indication
ANR Report Indication IE contains information about neighbour cells detected by the ANR function in UE and sent to the initiating RNC (RNC1) over Uu. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
PLMN Identity
M

9.2.2.189

L3 Information
M

9.2.1.32
The IE Contains 
UE INFORMATION RESPONSE defined in TS 25.331 [16].

9.2.1.149	ANR Cell Information
The ANR Cell Information IE provides information about an UTRAN Cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RNC-ID
M

9.2.1.50
If the Extended RNC-ID IE is included in the ANR Cell Information IE, the RNC-ID IE shall be ignored.
LAC
O

OCTET STRING (SIZE(2))
0000 and FFFE not allowed.
RAC
O

OCTET STRING (SIZE(1))

ANR FDD Cell Information
O

9.2.1.150

ANR TDD Cell Information
O

9.2.1.151

ANR TDD Cell Information LCR
O

9.2.1.152

Extended RNC-ID
O

9.2.1.50a
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.

9.2.1.150	ANR FDD Cell Information
The ANR FDD Cell Information IE provides information for FDD cell that is neighbouring cell to the Base UTRAN cell in ANR neighbouring relation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Primary CPICH Power
O

9.2.1.44

Tx Diversity Indicator
M

9.2.2.50

STTD Support Indicator
O

9.2.2.45

Closed Loop Mode1 Support Indicator
O

9.2.2.2

Restriction State Indicator
O

9.2.1.48C

DPC Mode Change Support Indicator
O

9.2.2.56

Cell Capability Container FDD
O

9.2.2.D

SNA Information
O

9.2.1.52Ca

Frequency Band Indicator
O

9.2.2.59

Max UE DTX Cycle
O

9.2.2.87

ANR Multiple PLMN List
O

9.2.1.153

Secondary Serving Cell List
O

9.2.2.101

Dual Band Secondary Serving Cell List
O

Secondary Serving Cell List 9.2.2.101

Cell Capability Container Extension FDD
O

9.2.2.123


9.2.1.151	ANR TDD Cell Information
The ANR TDD Cell Information IE provides information for 3.84Mcps TDD or 7.68Mcps TDD cell that is neighbouring cell to the Base UTRAN cell in ANR neighbouring relation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Sync Case
M

9.2.1.54

Time Slot For SCH
O

Time Slot 9.2.1.56

SCH Time Slot
O

9.2.1.51

SCTD Indicator
M

9.2.1.78

DPCH Constant Value
O

9.2.1.23

PCCPCH Power
O

9.2.1.43

Restriction State Indicator
O

9.2.1.48C

Cell Capability Container TDD
O

9.2.3.1a

Cell Capability Container 7.68 Mcps TDD
O

9.2.3.31

SNA Information 
O

9.2.1.52Ca

ANR Multiple PLMN List
O

9.2.1.153


9.2.1.152	ANR TDD Cell Information LCR
The ANR TDD Cell Information LCR IE provides information for 1.28Mcps TDD cell that is neighbouring cell to the Base UTRAN cell in ANR neighbouring relation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SCTD Indicator
M

9.2.1.78

DPCH Constant Value
O

9.2.1.23

PCCPCH Power
O

9.2.1.43

Restriction State Indicator
O

9.2.1.48C

Cell Capability Container TDD LCR
O

9.2.3.1b

SNA Information
O

9.2.1.52Ca

ANR Multiple PLMN List
O

9.2.1.153

Cell Capability Container Extension TDD LCR
O

9.2.3.80


9.2.1.153	ANR Multiple PLMN List
This information element contains a list of PLMN identities, which identifies the broadcasted PLMN Identities in MOCN and GWCN shared network configurations. The common PLMN Identify (mandatory PLMN Identity that is broascasted in the MIB) is not included in the list.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
List of PLMNs

1 .. <maxNrOfBroadcastPLMNs>


>PLMN Identity
M

9.2.2.189


Range bound
Explanation
maxNrOfBroadcastPLMNs
Maximum number of additional PLMN identitys that can be broadcasted in a cell involved in a MOCN or GWCN Shared Network configuration. The value for maxNrOfBroadcastPLMNs is 5.

9.2.1.154	Extended RNTI
The Extended RNTI identifies the UE in the RNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended RNTI


INTEGER(1048576..4194303,…)


9.2.1.155	Extended S-RNTI Group
The Extended S-RNTI Group identifies a group of UEs in the SRNC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended S-RNTI
M

Extended RNTI 9.2.1.154

Extended S-RNTI bit mask index
M

ENUMERATED (b1, b2,..b21,…)


The Extended S-RNTI group is identified by all Extended S-RNTI values whose bits starting from the most significant bit down to, and including, the bit indicated by Extended S-RNTI bit mask index, are equal to the corresponding bits of the Extended S-RNTI in this IE.
The bits of the Extended S-RNTI in this IE that are less significant than the bit position indicated by the Extended S-RNTI bit mask index shall be ignored.
9.2.1.156	Common E-RGCH Cell Information
The Common E-RGCH Cell Information IE provides information about a Common E-RGCH capable cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE Common RG Activation State
M



–

>De-Activation




–

>>De-Activation
M

NULL

–

>Activation




–

>>E-RGCH Channelisation Code
M

FDD DL Channelisation Code Number
9.2.2.14
E-RGCH Channelisation Code
–

>>E-RGCH Signature Sequence
M

INTEGER (0..maxnoofSigSeqE-RGHICH - 1)
E-RGCH Signature Sequence
–

>>Minimum Serving Grant
O
INTEGER (0..37,38)
(0..37) indicates E-DCH serving grant index as defined in TS 25.321 [41]; index 38 means zero grant
Minimum Serving Grant 
–


9.2.1.157	DBDS Corrections
This IE contains the DBDS differential corrections.
Information Element/Group name
Presence
Range
Type and Reference
Semantics description
DBDS Reference Time
M

INTEGER (0..3570 by step of 30)
Seconds.
Time in BDS system time (modulo 3600 s) when the DBDS corrections are valid. 
DBDS information

1 to <maxSgnType>


>DBDS Signal ID
O

9.2.1.121
Absence of this IE means the B1I.
>DBDS signal information

1 to <maxGANSSSat>


>>Sat ID
M

INTEGER (0…63)
Defined in TS 25.331 [18].
>>UDREI
M

INTEGER (0…15)
User Differential Range Error Index (dimensionless) (BDS-SIS-ICD [70]).
>>RURAI
M

INTEGER (0…15)
BDS Regional User Range Accuracy Index, (dimensionless) (BDS-SIS-ICD [70]).
>>Δt
M

BIT STRING (SIZE(13))
Equivalent Clock Correction, (meters) (BDS-SIS-ICD [70])

9.2.1.158	BDS Ionospheric Grid Model
This IE contains Ionospheric Grid information to calculate the propagation delays of the B1I signals through the ionosphere.
Information Element/Group name
Presence
Range
Type and Reference
Semantics description
BDS Reference Time
M 

INTEGER (0..3570 by step of 30)
Seconds.
Time in BDS system time (modulo 3600 s) when the BDS Ionospheric Grid Information is valid.
BDS Ionospheric Grid Information

1 to <maxIGPInfo>

The maximum number of grid points that can be included in this version of the specification is 16.
>IGP number
M

INTEGER (1..320)
Ionospheric grid point number
(dimensionless) (BDS-SIS-ICD [70]).
>Vertical Delay
M

BIT STRING (SIZE(9))
Vertical Delay at Ionospheric Grid Points ,(meters) (BDS-SIS-ICD [70])
>GIVEI
M

BIT STRING (SIZE(4))
Grid Ionospheric Vertical Error Index
(dimensionless) (BDS-SIS-ICD [70]).

Range bound
Explanation
maxIGPInfo
Maximum number of ionospheric grid points for BDS.

9.2.1.159	Improved Synchronized RRC Indicator
The Improved Synchronized RRC Indicator is used to handle the improved synchronized RRC procedures.
Information Element/Group name
Need
Multi
Type and Reference
Semantics description
Improved Synchronized RRC Indicator
M

ENUMERATED (true)


9.2.2	FDD Specific Parameters
This subclause contains parameters that are specific to FDD.
9.2.2.a	ACK-NACK Repetition Factor
The ACK-NACK Repetition Factor IE indicates the consecutive repetition of the ACK and NACK. 
IE/Group Name
Presence
Range
IE type and reference
Semantics description
ACK-NACK Repetition Factor


INTEGER (1..,4,...)
Step: 1.

9.2.2.b	ACK Power Offset
The ACK Power Offset IE indicates Power offset used in the UL between the HS-DPCCH slot carrying HARQ ACK information and the associated DPCCH. 
IE/Group Name 
Presence 
Range 
IE type and reference 
Semantics description 
ACK Power Offset


INTEGER (0..8,…, 9..10)
According to mapping in TS 25.213 [21] subclause 4.2.1.

9.2.2.A	Active Pattern Sequence Information
Defines the parameters for the compressed mode gap pattern sequence activation. For details see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CM Configuration Change CFN
M

CFN 
9.2.1.9

-

Transmission Gap Pattern Sequence Status 

0.. <maxTGPS>

If the group is not present, none of the pattern sequences are activated.
-

>TGPSI Identifier
M

INTEGER(1..<MaxTGPS>)
Establish a reference to the compressed mode pattern sequence. Up to <MaxTGPS> simultaneous compressed mode pattern sequences can be activated.
-

>TGPRC
M

INTEGER(0..511)
The number of transmission gap patterns within the Transmission Gap Pattern Sequence.
0=Infinity.
-

>TGCFN
M

CFN
9.2.1.9
Connection Frame Number of the first frame of the first pattern 1 within the Transmission Gap Pattern Sequence.

-

>Affected HS-DSCH serving cell List

0..<maxNrOfHSDSCH>

The HS-DSCH serving cells affected by the TGPS when activating frequency specific compressed mode. Max 4 in this 3GPP release.
EACH
reject
>>C-ID
M

9.2.1.6

-


Range bound
Explanation
maxTGPS
Maximum number of active pattern sequences. Value 6.
maxNrOfHSDSCH
Maximum number of Primary Serving plus Secondary Serving HS-DSCH cells for one UE.

9.2.2.B	Adjustment Period
Adjustment Period IE defines the period to be used for power balancing.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Adjustment Period


INTEGER
(1 .. 256)
Unit: Frames.

9.2.2.C	Adjustment Ratio
Adjustment Ratio IE (Radj) defines the convergence rate used for the associated Adjustment Period.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Adjustment Ratio


INTEGER
(0 .. 100)
The Adjustment Ratio is given with a granularity of 0.01
0 -> 0.00
1 -> 0.01
...
100 -> 1.00

9.2.2.Ca	Bundling Mode Indicator
The Bundling Mode Indicator indicates whether the bundling shall be done or shall not be done for Iur. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Bundling Mode Indicator


ENUMERATED (
Bundling, No bundling)
The value “Bundling” is applicable only when E-TTI indicates “2ms”.

9.2.2.D	Cell Capability Container FDD
The Cell Capability Container FDD indicates which functionalities a cell supports.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell Capability Container FDD


BIT STRING (SIZE(32))
Each bit indicates whether a cell supports a particular functionality or not. The value 1 of a bit indicates that the corresponding functionality is supported in a cell and value 0 indicates that the corresponding functionality is not supported in a cell. Each bit is defined as follows.
The first bit:Reserved.
The second bit: Delayed Activation Support Indicator.
The third bit: HS-DSCH Support Indicator.
The fourth bit:Reserved.
The fifth bit: F-DPCH Support Indicator.
The sixth bit: E-DCH Support Indicator.
The seventh bit: E-DCH TTI2ms Support Indicator. 
The eighth bit: E-DCH 2sf2and2sf4 and all inferior SFs Support Indicator.
The ninth bit: E-DCH 2sf2 and all inferior SFs Support Indicator.
The tenth bit: E-DCH 2sf4 and all inferior SFs Support Indicator.
The eleventh bit: E-DCH sf4 and all inferior SFs Support Indicator.
The twelveth bit: E-DCH sf8 and all inferior SFs Support Indicator.
The thirteenth bit: E-DCH HARQ IR Combining Support Indicator.
The fourteenth bit: E-DCH HARQ Chase Combining Support Indicator.
The fifteenth bit: Continuous Packet Connectivity DTX-DRX Support Indicator.
The sixteenth bit: Continuous Packet Connectivity HS-SCCH less Support Indicator.
The seventeenth bit: MIMO Support Indicator.
The eighteenth bit: SixteenQAM UL Support Indicator.
The nineteenth bit: Flexible MAC-d PDU Size Support Indicator.
The twentieth bit: F-DPCH Slot Format Support Indicator.
The twentyfirst bit: SixtyfourQAM DL Support Indicator.
The twentysecond bit: Flexible E-DCH MAC-d PDU Size Support Indicator.
The twentythird bit: E-DPCCH Power Boosting Support Indicator.
The twentytfourth bit: SixtyfourQAM DL and MIMO Combined Support Indicator.
This bit shall not be set to 1 if SixtyfourQAM DL Support Indicator is set to 0 or MIMO Support Indicator is set to 0.
The twentyfifth bit: Multi Cell Support Indicator
The twentysixth bit: MBMS Support Indicator.
The twentyseventh bit: TX Diversity on DL Control Channels by MIMO Capable UE when MIMO operation is Active Support Indicator.
The twentyeighth bit: Dual Band HS-DSCH Support Indicator
The twentyninth bit: Single Stream MIMO Support Indicator. 
The thirtieth bit:
Preferred Precoding Weight Set Restriction Support Indicator. (See TS 25.331 [16], the value 1 indicates preferred).
The thirtyfirst bit: Dual Band E-DCH Support Indicator.

Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver. Note that Reserved bits are not considered as a spare bit. They shall however be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.2.E	Cell Portion ID
Cell Portion ID is the unique identifier for a cell portion within a cell. See TS 25.215 [11].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell Portion ID


INTEGER (0..63,…)


9.2.2.1	Chip Offset
The Chip Offset is defined as the radio timing offset inside a radio frame. The Chip Offset is used as offset for the DL DPCH relative to the Primary CPICH timing for the DL DPCH or for the F-DPCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Chip Offset


INTEGER
(0..38399)
Unit: Chips.

9.2.2.2	Closed Loop Mode1 Support Indicator
The Closed Loop Mode1 Support Indicator indicates whether the particular cell is capable to support Closed loop mode1 or not
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Closed Loop Mode1 Support Indicator


ENUMERATED(Closed loop mode1 Supported, Closed loop mode1 not supported).


9.2.2.3	Closed Loop Mode2 Support Indicator
Void.
9.2.2.3A	Closed Loop Timing Adjustment Mode
Indicates when the phase/amplitude adjustment is performed in the DL in relation to the receipt of the UL feedback command in case of closed loop mode transmit diversity on DPCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Closed Loop Timing Adjustment Mode


ENUMERATED(Offset1, Offset2,…)
According to TS 25.214 [10] subclause 7.1:
 Offset1 = slot(j+1)mod15
 Offset2 = slot(j+2)mod15

9.2.2.4	Compressed Mode Method
Void
9.2.2.4A	DCH FDD Information
The DCH FDD Information IE provides information for DCHs to be established.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
DCH FDD Information

1..<maxNrOfDCHs>


–

>Payload CRC Presence Indicator
M

Payload CRC Present Indicator
9.2.1.42

–

>UL FP Mode
M

9.2.1.67

–

>ToAWS
M

9.2.1.58

–

>ToAWE
M

9.2.1.57

–

>DCH Specific Info

1..<maxNrOfDCHs>


–

>>DCH ID
M

9.2.1.16

–

>>TrCH Source Statistics Descriptor
M

9.2.1.65

–

>>Transport Format Set
M

9.2.1.64
For the UL.
–

>>Transport Format Set
M

9.2.1.64
For the DL.
–

>>BLER 
M

9.2.1.4
For the UL.
–

>>BLER 
M

9.2.1.4
For the DL.
–

>>Allocation/Retention Priority
M

9.2.1.1

–

>>Frame Handling Priority
M

9.2.1.29

–

>>QE-Selector
M

9.2.1.46A

–

>>DRAC Control
M

9.2.2.13

–

>>Guaranteed Rate Information
O

9.2.1.30M

YES
ignore
>>Traffic Class
M

9.2.1.58A

YES
ignore
>>Unidirectional DCH Indicator
O

9.2.1.68B

YES
reject
>TNL QoS
O

9.2.1.56A

YES
ignore

Range bound
Explanation
maxNrOfDCHs
Maximum number of DCHs for one UE.

9.2.2.4B	E-DCH FDD Information
The E-DCH FDD Information IE provides information for an E-DCH to be established.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality 
Assigned Criticality
E-DCH MAC-d Flows Information
M

9.2.2.4MC

–

HARQ Process Allocation For 2ms Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O
If this IE is not included, scheduled transmission in all HARQ processes is allowed.
–

E-DCH Maximum Bitrate 
O

9.2.2.4MG

–

E-DCH Processing Overload Level
O

9.2.1.95

–

E-DCH Reference Power Offset
O

9.2.2.4MI

–

E-DCH Power Offset for Scheduling Info
O

9.2.1.96

YES
ignore
SixteenQAM UL Operation Indicator
O

9.2.2.90

YES
reject
E-AGCH Table Choice
C- SixteenQAM UL Operation

9.2.2.61A
If the SixteenQAM UL operation is not configured for this UE, Table 16B for E-AGCH in TS 25.212 [9] shall be used.
YES
ignore
SixtyfourQAM UL Operation Indicator
O

9.2.2.90a

YES
reject
UL MIMO Information
O

9.2.2.159

YES
reject
UPH Filtering Measurement Forwarding Request
O

ENUMERATED 
(Requested, Not Requested)

YES
reject

Condition
Explanation
SixteenQAM UL Operation
The IE shall be present if the SixteenQAM UL Operation Indicator IE is set to “Activate”.

9.2.2.4C	E-DCH FDD Information Response
The E-DCH FDD Information Response IE provides information for E-DCH MAC-d flows that have been established or modified. It also provides additional E-DCH information determined within the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality 
Assigned Criticality
E-DCH MAC-d Flow Specific Information Response

1..<maxNrOfEDCHMACdFlows>


–

>E-DCH MAC-d Flow ID
M

9.2.1.91
If only HARQ Process Allocation For 2ms Scheduled Transmission Grant IE and this IE (E-DCH MAC-d Flow ID) are present in the E-DCH FDD Information Response IE, the content of this IE shall be considered invalid.
–

>Binding ID
O

9.2.1.3

–

>Transport Layer Address
O

9.2.1.62

–

>HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O

–

>Transport Bearer Not Setup Indicator
O

9.2.2.4T

YES
ignore
HARQ Process Allocation For 2ms Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O

–

Fast TTI switching Mode Supported
O

9.2.2.186

YES
ignore

Range bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.2.2.4D	E-DCH FDD DL Control Channel Information
The E-DCH FDD DL Control Channel Information IE provides information for E-DCH specific DL Control Channels to be provided to UE via RRC signalling.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-AGCH And E-RGCH/E-HICH FDD Scrambling Code
O

DL Scrambling Code 
9.2.2.11
Scrambling code on which E-AGCH, E-RGCH and E-HICH are transmitted.
0= Primary scrambling code of the cell 1…15 = Secondary scrambling code.
–

E-AGCH Channelisation Code
O

FDD DL Channelisation Code Number 9.2.2.14

–

Primary E-RNTI
O

E-RNTI
9.2.1.94

–

Secondary E-RNTI
O

E-RNTI
9.2.1.94

–

E-RGCH/E-HICH Channelisation Code
M

FDD DL Channelisation Code Number 9.2.2.14

–

E-RGCH Signature Sequence
O

INTEGER (0..maxnoofSigSeqERGHICH-1)

–

E-HICH Signature Sequence
O

INTEGER (0..maxnoofSigSeqERGHICH-1)

–

Serving Grant Value
O

INTEGER (0..37,38)
(0..37) indicates E-DCH serving grant index as defined in TS 25.321 [41]; index 38 means zero grant.
–

Primary/Secondary Grant Selector
O

ENUMERATED (Primary, Secondary)
Indicates whether the Serving Grant Value is granted with a primary E-RNTI or a secondary E-RNTI.
–

E-RGCH Release Indicator
O

9.2.2.60

–

E-RGCH and E-HICH Channelisation Code Validity Indicator
O

9.2.2.68
Indicates whether the value of E-RGCH and E-HICH Channelisation Code is invalid.
YES
ignore
Default Serving Grant in DTX Cycle 2
O

INTEGER (0..37,38)
Serving Grant value to be used in DTX-Cycle-2.
(0..37) indicates E-DCH serving grant index as defined in TS 25.425 [32]; index 38 means zero grant.
YES
ignore
UL MIMO DL Control Channel Information
O

9.2.2.162

YES
ignore

Range bound
Explanation
maxnoofSigSeqERGHICH
Maximum number Signature Sequences for E-RGCH / E-HICH.

9.2.2.4E	E-DCH RL Indication
Indicates whether a RL is an E-DCH RL.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH RL Indication


ENUMERATED(E-DCH, non E-DCH)


9.2.2.4F	E-DCH FDD Information To Modify
The E-DCH FDD Information To Modify IE provides information for an E-DCH to be modified.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality 
Assigned Criticality
E-DCH MAC-d Flow Specific Information

1..<maxNrOfEDCHMACdFlows>

See Note1 below.
–

>E-DCH MAC-d Flow ID
M

9.2.1.91

–

>Allocation/Retention Priority
O

9.2.1.1

–

>Transport Bearer Request Indicator
M

9.2.1.61

–

>TNL QoS
O

9.2.1.56A

–

>Maximum Number of Retransmissions for E-DCH
O

9.2.1.100

–

>Traffic Class
O

9.2.1.58A

–

>E-DCH HARQ Power Offset FDD
O

9.2.2.4L

–

>E-DCH MAC-d Flow Multiplexing List
O

9.2.1.89

–

>CHOICE E-DCH grant type
O





>>E-DCH Non-Scheduled Transmission Grant






>>>Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission
M

9.2.2.4N
If the Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE is present, this IE shall be ignored.
When Maximum MAC-d PDU Size Extended IE is configured for an E-DCH Logical Channel this IE indicates the maximum number of bits per MAC-I PDU.
–

>>>HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O

–

>>>Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission
O

9.2.2.4R
When Maximum MAC-d PDU Size Extended IE is configured for an E-DCH Logical Channel this IE indicates the extended maximum number of bits per MAC-I PDU.
YES
reject
>>E-DCH Scheduled Transmission Grant


NULL



>Bundling Mode Indicator
O

9.2.2.Ca

–

>E-DCH Logical Channel To Add
O

E-DCH Logical Channel Information 9.2.1.92

–

>E-DCH Logical Channel To Modify


9.2.1.93

–

>E-DCH Logical Channel To Delete

0..< maxNoOfLogicalChannels>


–

>>Logical Channel ID
M

9.2.1.97

–

HARQ Process Allocation For 2ms Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O

–

E-DCH Maximum Bitrate 
O

9.2.2.4MG

–

E-DCH Processing Overload Level
O

9.2.1.95

–

E-DCH Reference Power Offset
O

9.2.2.4MI

–

MAC-e Reset Indicator
O

9.2.1.99

–

E-DCH Power Offset for Scheduling Info
O

9.2.1.96

YES
ignore
SixteenQAM UL Operation Indicator 
O

9.2.2.90

YES
reject
E-DCH MAC-d PDU Size Format 
O

9.2.1.91A

YES
reject
E-DCH DL Control Channel Grant Information

0..<maxNrOfEDCHRLs>


GLOBAL
ignore
>E-DCH RL ID
M

RL ID
9.2.1.49

–

E-AGCH Table Choice
C- SixteenQAM UL Operation

9.2.2.61A
If sixteenQAM UL operation is not used in the new configuration for this UE, Table 16B for E-AGCH in TS 25.212 [9] shall be used in the new configuration.
YES
ignore
SixtyfourQAM UL Operation Indicator
O

9.2.2.90a

YES
reject
UL MIMO Reconfiguration
O

9.2.2.158

YES
reject
Fast TTI switching Mode Requested Synchronized
O

9.2.2.187

YES
reject
Fast TTI switching Mode Requested UnSynchronized
O

9.2.2.188

YES
reject
Note 1:	Even if no E-DCH MAC-d Flow Specific Information needs to be modified, one E-DCH MAC-d Flow Information shall be included, which only contains the E-DCH MAC-d Flow ID IE and the Transport BearerRequest Indicator IE set to “Bearer not Requested”.

Condition
Explanation
SixteenQAM UL Operation
The IE shall be present if the SixteenQAM UL Operation Indicator IE is set to “Activate”.

Range bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.
MaxNoOfLogicalChannels
Maximum number of Logical Channels.
maxNrOfEDCHRLs
Maximum number of E-DCH RLs for one UE.

9.2.2.4G	E-DCH Transport Format Combination Set Information (E-TFCS Information)
Whereas the related Transport Block sizes are standardised in TS 25.321 [41] this IE gives details on the referenced Transport Block Size Table, the E-DCH Minimum Set E-TFCI, the Reference E-TFCIs and configuration parameters used for the calculation of the gain factors ec and ed defined in TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-TFCI Table Index
M

INTEGER (0..1,..., 2..7)
Indicates which standardised E-TFCS Transport Block Size Table shall be used. The related tables are specified in TS 25.321 [41].
–

E-DCH Minimum Set E-TFCI
M

INTEGER (0..127)
For the concept of “E-DCH Minimum Set of TFCs” see TS 25.321 [41] and TS 25.331 [16].
–

Reference E-TFCI Information

1..<maxNrOfRefETFCIs>


–

>Reference E-TFCI
M

INTEGER (0..127)

–

>Reference E-TFCI Power Offset
M

9.2.2.4P
If the Extended Reference E-TFCI Power Offset IE is present, this IE shall be ignored.
–

>Extended Reference E-TFCI Power Offset
O

9.2.2.4Q

YES
reject
E-DCH Minimum Set E-TFCI Validity Indicator
O

9.2.2.69
Indicates whether the value of E-DCH Minimum Set E-TFCI is invalid.
YES
reject
E-TFCI Boost Information
O

9.2.2.91

YES
reject
E-DPDCH Power Interpolation
O

BOOLEAN
True means that the E-DPDCH power interpolation formula shall be applied,
False means that the E-DPDCH power extrapolation formula shall be applied for the computation of the gain factor ed according to TS 25.214 [10].
YES
reject

Range Bound
Explanation
maxNrOfRefETFCIs
Maximum number of signalled reference E-TFCIs.

9.2.2.4J	E-TTI
The E-TTI parameter indicates the Transmission Time Interval for E-DPCH operation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-TTI


ENUMERATED (2ms, 10ms)


9.2.2.4K	E-DPCCH Power Offset
The E-DPCCH Power Offset is used to calculate the E-DPCCH gain factor ec as defined in TS 25.214 [10], whereas ec is related to the power difference between DPCCH and E-DPCCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DPCCH Power Offset


INTEGER (0..8)
According to mapping in TS 25.213 [21] subclause 4.2.1.3.

9.2.2.4KA	Void
9.2.2.4L	E-DCH HARQ Power Offset FDD
The E-DCH HARQ Power Offset FDD is used to calculate the unquantised gain factor for an E-TFC (ed,j,uq)as defined in TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH HARQ Power Offset FDD


INTEGER (0..6)
According to mapping in TS 25.213 [21] subclause 4.2.1.3.

9.2.2.4M	Void
9.2.2.4MA	Void
9.2.2.4MB	Void
9.2.2.4MC	E-DCH MAC-d Flows Information
The E-DCH MAC-d Flows Information IE is used for the establishment of E-DCH MAC-d flows.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality 
Assigned Criticality
E-DCH MAC-d Flow Specific Information

1..<maxNrOfEDCHMACdFlows>


–

>E-DCH MAC-d Flow ID
M

9.2.1.91

–

>Allocation/Retention Priority
O

9.2.1.1

–

>TNL QoS
O

9.2.1.56A

–

>Payload CRC Presence Indicator
M

Payload CRC Present Indicator
9.2.1.42

–

>Maximum Number of Retransmissions for E-DCH
M

9.2.1.100

–

>Traffic Class
M

9.2.1.58A

–

>E-DCH HARQ Power Offset FDD
M

9.2.2.4L

–

>E-DCH MAC-d Flow Multiplexing List
O

9.2.1.89

–

>CHOICE E-DCH grant type
M



–

>>E-DCH Non-Scheduled Transmission Grant






>>>Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission
M

9.2.2.4N
If the Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE is present, this IE shall be ignored. 
When Maximum MAC-d PDU Size Extended IE is configured for an E-DCH Logical Channel this IE indicates the maximum number of bits per MAC-I PDU.
–

>>>HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI 9.2.2.4O
If this IE is not included, transmission in all HARQ processes is allowed.
–

>>>Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission
O

9.2.2.4R
When Maximum MAC-d PDU Size Extended IE is configured for an E-DCH Logical Channel this IE indicates the extended maximum number of bits per MAC-I PDU.
YES
reject
>>E-DCH Scheduled Transmission Grant


NULL



>Bundling Mode Indicator
O

9.2.2.Ca

–

>E-DCH Logical Channel Information
M

9.2.1.92

–

>TrCH Source Statistics Descriptor
O

9.2.1.65

YES
ignore

Range bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.2.2.4MD	Void
9.2.2.4ME	Void
9.2.2.4MF	Void
9.2.2.4MG	E-DCH Maximum Bitrate
The E-DCH Maximum Bitrate parameter indicates the Maximum Bitrate for an E-DCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH Maximum Bitrate


INTEGER (0..5742,…, 5743..11498, 11499..34507)
Bitrate on transport block level. Unit is kbits per second. 

9.2.2.4MH	Void
9.2.2.4MI	E-DCH Reference Power Offset
The E-DCH Reference Power Offset is used to estimate the E-DPDCH power from E-TFCI without decoding MAC-e PDUs.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH Reference Power Offset 


INTEGER (0..6)
According to mapping in TS 25.213 [21] subclause 4.2.1.3.

9.2.2.4MJ	Void
9.2.2.4N	Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission
The Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission indicates the maximum numbers of bits allowed to be included in a MAC-e (or MAC-i) PDU per E-DCH MAC-d flow configured for non- scheduled transmissions. If the range of the Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE is insufficient to represent the value to be sent to the DRNS, the Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE shall be used to represent the value to be sent to the DRNS, see section 9.2.2.4R.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Number of Bits per MAC-e PDU for Non-Scheduled Transmission


INTEGER (1..19982)


9.2.2.4O	HARQ Process Allocation For 2ms TTI
The HARQ Process Allocation for 2ms TTI indicates those HARQ processes that are allowed. MAC-d PDU’s for a MAC-d flow are only allowed to be transmitted in those processes for which the bit is set to “1”.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HARQ Process Allocation For 2ms TTI


BIT STRING (SIZE(8))
The first Bit corresponds to HARQ process ID = 0,
the second bit corresponds to HARQ process ID = 1,
etc.
The HARQ process ID for 2ms TTI is defined in TS 25.321 [41], chapter 11.8.1.3.

9.2.2.4P	Reference E-TFCI Power Offset
The Reference E-TFCI Power Offset is used to calculate the reference E-TFC gain factor ed,ref as defined in TS 25.214 [10]. If the range of the Reference E-TFCI Power Offset IE is insufficient to represent the value to be sent to the DRNS, the Extended Reference E-TFCI Power Offset IE shall be used to represent the value to be sent to the DRNS, see section 9.2.2.4Q.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Reference E-TFCI Power Offset


INTEGER (0..29)
According to mapping in TS 25.213 [21] subclause 4.2.1.3

9.2.2.4Q	Extended Reference E-TFCI Power Offset
The Extended Reference E-TFCI Power Offset IE shall be used if the range of the Reference E-TFCI Power Offset IE (see section 9.2.2.4P) is insufficient to represent the value of the Reference E-TFCI Power Offset to be sent to the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended Reference E-TFCI Power Offset


INTEGER (30..31,…)
According to mapping in TS 25.213 [21] subclause 4.2.1.3.

9.2.2.4R	Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission
The Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE shall be used if the range of the Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE (see section 9.2.2.4N) is insufficient to represent the value of the Maximum Number of Bits per MAC-e (or MAC-i) PDU for Non-scheduled Transmission to be sent to the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission


INTEGER (19983..22978,…, 22979..34507)


9.2.2.4S	Transport Bearer Not Requested Indicator
The Transport Bearer Not Requested Indicator parameter indicates that a transport bearer shall not be established or may not to be established for DCH or an E-DCH MAC-d flow.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transport Bearer Not Requested Indicator


ENUMERATED (Transport Bearer shall not be Established, Transport Bearer may not be Established)


9.2.2.4T	Transport Bearer Not Setup Indicator
The Transport Bearer Not Setup Indicator parameter indicates that a transport bearer will not be established for a DCH or an E-DCH MAC-d flow. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transport Bearer Not Setup Indicator


ENUMERATED (Transport Bearer Not Setup)


9.2.2.5	D-Field Length
Void
9.2.2.6	Diversity Control Field
Void.
9.2.2.7	Diversity Indication
Void.
9.2.2.8	Diversity Mode
Define the diversity mode to be applied.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Diversity Mode


ENUMERATED(None, STTD, Closed loop mode 1, Not Used,…)
The Diversity Mode IE shall never be set to “Not Used”. If received it shall be rejected.

9.2.2.9	DL DPCH Slot Format
Indicates the slot format used in DPCH in DL, according to TS 25.211 [8].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DL DPCH Slot Format


INTEGER
(0..16,…,17..18)


9.2.2.9A	DL DPCH Timing Adjustment
The DL DPCH Timing Adjustment indicates that a timing adjustment of the related radio link is required or that an Initial DL DPCH Timing Adjustment has been performed by the DRNS. It also indicates whether the timing adjustment consists of a timing advance or a timing delay with respect to the SFN timing. The adjustment always consists of 256 chips. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DL DPCH Timing Adjustment


ENUMERATED(timing advance, timing delay)
The size of the timing adjustment is 256 chips.

9.2.2.10	DL Power
Void
9.2.2.10A	DL Power Balancing Information
The DL Power Balancing Information IE provides information for power balancing to be activated in the relevant RL(s).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Power Adjustment Type
M

9.2.2.28

–

DL Reference Power
C-Common

DL power
9.2.1.21A
Power on DPCH or on F-DPCH.
–

DL Reference Power Information
C-Individual
1..<maxNrOfRLs>


–

>RL ID
M

9.2.1.49

–

>DL Reference Power
M

DL power
9.2.1.21A
Power on DPCH or on F-DPCH.
–

Max Adjustment Step
C-CommonOrIndividual

9.2.2.23

–

Adjustment Period
C-CommonOrIndividual

9.2.2.B

–

Adjustment Ratio
C-CommonOrIndividual

9.2.2.C

–


Condition
Explanation
Common
The IE shall be present if the Power Adjustment Type IE is set to “Common”.
Individual
The IE shall be present if the Power Adjustment Type IE is set to “Individual”.
CommonOrIndividual
The IE shall be present if the Power Adjustment Type IE is set to “Common” or “Individual”.

Range Bound
Explanation
maxNrOfRLs
Maximum number of Radio Links for a UE.

9.2.2.10B	DL Power Balancing Activation Indicator
The DL Power Balancing Activation Indicator IE indicates that the power balancing is activated in the RL.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DL Power Balancing Activation Indicator


ENUMERATED(DL Power Balancing Activated).


9.2.2.10C	DL Reference Power Information
The DL Reference Power Information IE provides reference power of the power balancing to be used in the relevant RL(s).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Common DL Reference Power
O

DL power
9.2.1.21A
Power on DPCH or on F-DPCH.
–

Individual DL Reference Power Information

0..<maxNrOfRLs>


–

>RL ID
M

9.2.1.49

–

>DL Reference Power
M

DL power
9.2.1.21A
Power on DPCH or on F-DPCH.
–


Range bound
Explanation
maxNrOfRLs
Maximum number of RLs for a UE.

9.2.2.10D	DL Power Balancing Updated Indicator
The DL Power Balancing Updated Indicator IE indicates that the power balancing related parameters is updated in the RL.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DL Power Balancing Updated Indicator


ENUMERATED(DL Power Balancing Updated).


9.2.2.11	DL Scrambling Code
DL Scrambling code to be used by the RL. One cell may have multiple DL Scrambling codes available.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DL Scrambling Code


INTEGER
(0..15)
0= Primary scrambling code of the cell.
1…15= Secondary scrambling code.

9.2.2.12	Downlink Frame Type
Void
9.2.2.12A	DPC Mode
The DPC Mode IE indicates the DPC mode to be applied TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DPC Mode


ENUMERATTED (Mode0, Mode1,
…)
Mode0: The DRNS shall estimate the UE transmitted TPC command and update the DL power in every slot.
Mode1: The DRNS shall estimate the UE transmitted TPC command over three slots and shall update the DL power in every three slots.

9.2.2.13	DRAC Control
The possibility to use DRAC control has been removed.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DRAC Control


ENUMERATED (Not Used, Not-Requested)
The DRAC Control IE shall never be set to “Not Used”. 

9.2.2.13A	DSCH FDD Information
Void.
9.2.2.13B	DSCH FDD Information Response
Void.
9.2.2.13Bb	DSCH-RNTI
Void.
9.2.2.13C	FDD DCHs To Modify
The FDD DCHs To Modify IE provides information for DCHs to be modified.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
FDD DCHs To Modify

1..<maxNrOfDCHs>


–

>UL FP Mode
O

9.2.1.67

–

>ToAWS
O

9.2.1.58

–

>ToAWE
O

9.2.1.57

–

>Transport Bearer Request Indicator
M

9.2.1.61

–

>DCH Specific Info

1..<maxNrOfDCHs>


–

>>DCH ID
M

9.2.1.16

–

>>Transport Format Set
O

9.2.1.64
For the UL.
–

>>Transport Format Set
O

9.2.1.64
For the DL.
–

>>Allocation/Retention Priority
O

9.2.1.1

–

>>Frame Handling Priority
O

9.2.1.29

–

>>Not Used
O

NULL

–

>>Guaranteed Rate Information
O

9.2.1.30M

YES
ignore
>>Traffic Class
O

9.2.1.58A

YES
ignore
>>Unidirectional DCH Indicator
O

9.2.1.68B

YES
reject
>TNL QoS
O

9.2.1.56A

YES
ignore

Range bound
Explanation
maxNrOfDCHs
Maximum number of DCHs for one UE.

9.2.2.13D	Enhanced DSCH PC
Void.
9.2.2.13E	Enhanced DSCH PC Counter
Void.
9.2.2.13F	Enhanced DSCH PC Indicator
Void.
9.2.2.13G	Enhanced DSCH PC Wnd
Void.
9.2.2.13H	Enhanced DSCH Power Offset
Void.
9.2.2.13I	Enhanced Primary CPICH Ec/No
Energy per PN chip divided by the total received power spectral density measured on the Primary CPICH by the UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Enhanced Primary CPICH Ec/No


INTEGER(0..49)
According to the mapping of the Primary CPICH Ec/Io UE measurement defined in TS 25.133 [23] and TS 25.123 [24].

9.2.2.14	FDD DL Channelisation Code Number
The DL Channelisation Code Number indicates the DL Channelisation Code number for a specific DL physical channel.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
FDD DL Channelisation Code Number


INTEGER(0.. 511)
According to the mapping in TS 25.213 [27].
The maximum value is equal to the DL spreading factor –1. 

9.2.2.14A	FDD DL Code Information
The FDD DL Code Information IE provides FDD DL Code information for all DPCHs or for the F-DPCH of one Radio Link.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
FDD DL Code Information

1..
<maxNrOfDL-Codes


–

>DL Scrambling Code 
M

9.2.2.11

–

>FDD DL Channelisation Code Number
M

9.2.2.14

–

>Transmission Gap Pattern Sequence Scrambling Code Information
O

9.2.2.47B

–


Range bound
Explanation
maxNrOfDL-Codes
Maximum number of DL Channelisation Codes for one UE.

9.2.2.15	FDD S-CCPCH Offset
Void.
9.2.2.16	FDD TPC Downlink Step Size
This parameter indicates step size for the DL power adjustment.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
FDD TPC Downlink Step Size


ENUMERATED(0.5, 1, 1.5, 2,…)


9.2.2.16A	First RLS Indicator
The First RLS Indicator IE indicates if a specific Radio Link and all Radio Links which are part of the same Radio Link Set, shall be considered as the first radio links established towards the UE or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
First RLS Indicator


ENUMERATED(first RLS, not first RLS)


9.2.2.17	Gap Position Mode
Void.
9.2.2.18	Gap Period (TGP)
Void.
9.2.2.19	Gap Starting Slot Number (SN)
Void
9.2.2.19a	HS-DSCH FDD Information
The HS-DSCH FDD Information IE is used for initial addition of HS-DSCH information to UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-DSCH MAC-d Flows Information
M

9.2.1.30OA

–

UE Capabilities Information

1


–

>HS-DSCH Physical Layer Category
M

9.2.1.30Oa

–

>1.28 Mcps TDD uplink physical channel capability
O

9.2.3.10D
Not to be used.
YES
ignore
>Number of Supported Carriers
O

ENUMERATED (
One-one carrier, One-three carrier, Three-three carrier, One-six carrier,
Tree-six carrier,
Six-six carrier, ..., One-Two carrier Discontiguous, Two-Two carrier Discontiguous, One-Twocarrier Contiguous, Two-Two carrier Contiguous)
Not to be used.
YES
reject
>MIMO SF Mode Supported For HS-PDSCH dual stream
O

ENUMERATED (SF1, SF1/SF16)
Not to be used.
YES
ignore
>Multi-carrier HS-DSCH Physical Layer Category
O

HS-DSCH Physical Layer Category
9.2.1.30Oa
Not to be used.
YES
ignore
>UE TS0 Capability LCR
O

ENUMERATED (TS0 Capable, TS0 Non-Capable)
Not to be used.
YES
ignore
>UE RF Band Capability LCR
C-NofSupportedCarriers

9.2.3.84
Not to be used.
YES
ignore
MAC-hs Reordering Buffer Size for RLC-UM
M

9.2.1.34Ab

–

CQI Feedback Cycle k
M

9.2.2.24a

–

CQI Repetition Factor
C-CQICyclek

9.2.2.24c

–

ACK-NACK Repetition Factor
M

9.2.2.a

–

CQI Power Offset 
M

9.2.2.24b

–

ACK Power Offset
M

9.2.2.b

–

NACK Power Offset
M

9.2.2.26a

–

HS-SCCH Power Offset
O

9.2.2.19d

–

HARQ Preamble Mode
O

9.2.2.57

YES
ignore
MIMO Activation Indicator
O

9.2.1.134

YES
reject
HS-DSCH MAC-d PDU Size Format 
O

9.2.1.30OC
If not present, “Indexed MAC-d PDU Size” shall be used.
YES
reject
Sixtyfour QAM Usage Allowed Indicator
O

9.2.2.79A

YES
ignore
UE with enhanced HS-SCCH support indicator
O

NULL
UE supports enhanced HS-SCCH functionality:
- UE supports different HS-SCCH in consecutive TTIs and,
- in HS-SCCH-less operation mode the UE supports HS-SCCH orders.
YES
ignore
Enhanced HS Serving CC Abort
O

ENUMERATED (Abort Enhanced HS Serving CC, …)
Shall be ignored in Radio Link Setup and Radio Link Addition procedures. 
YES
reject
UE Support Indicator Extension
O

9.2.2.103

YES
ignore
Power Offset For S-CPICH for MIMO Request Indicator
O

9.2.2.105

YES
ignore
Single Stream MIMO Activation Indicator
O

9.2.2.106

YES
reject
MIMO with four transmit antennas Activation Indicator
O

9.2.2.145

YES
reject
Dual Stream MIMO with four transmit antennas Activation Indicator
O

9.2.2.149

YES
reject
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator
O

9.2.2.147

YES
ignore
Multiflow Information
O

9.2.2.152
For FDD only
YES
reject
CQI Feedback Cycle2 k
O

CQI Feedback Cycle2 k
9.2.2.181
For FDD only
YES
ignore
CQI Cycle Switch Timer
O

ENUMERATED (v4, v8, v16, v32, v64, v128, v256, v512, Infinity)
For FDD only, refer to TS 25.331 [16].
YES
ignore

Condition
Explanation
CQICyclek
The IE shall be present if the CQI Feedback Cycle k IE is set to a value greater than 0.

9.2.2.19aa	HS-DSCH FDD Secondary Serving Information
The HS-DSCH FDD Secondary Serving Information IE is used for initial addition of Secondary Serving HS-DSCH information to UE Context and defines the cell specific parameters for the secondary serving HS-DSCH Radio Link.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-SCCH Power Offset
O

9.2.2.19d

–

Sixtyfour QAM Usage Allowed Indicator
O

9.2.2.79A

–

MIMO Activation Indicator
O

9.2.1.134

YES
reject
Single Stream MIMO Activation Indicator
O

9.2.2.106

YES
reject
Diversity Mode
O

9.2.2.8
If Diversity mode = “Closed loop mode 1” the procedure shall be rejected.
YES
reject
Transmit Diversity Indicator
O

9.2.2.48

YES
reject
Power Offset For S-CPICH for MIMO Request Indicator
O

9.2.2.105

YES
ignore
Ordinal Number Of Frequency
O

INTEGER (1..32,...)
Value = "1" indicates 1st secondary serving HS-DSCH cell, Value = "2" indicates 2nd secondary serving HS-DSCH cell etc. TS 25.214 [10]. The IE shall be ignored by the DRNS if the new configuration contains one secondary serving radio link.
YES
reject
MIMO with four transmit antennas Activation Indicator
O

9.2.2.145

YES
reject
Dual Stream MIMO with four transmit antennas Activation Indicator
O

9.2.2.149

YES
reject
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator
O

9.2.2.147

YES
ignore
Multiflow Ordinal Number Of Frequency
O

INTEGER (1..32,...)
In intra-Node B multiflow case, the Value specifies the index of the secondary serving or assisting serving or assisting secondary serving HS-DSCH cell for the UL HS-DPCCH as specified in TS 25.212.
In inter-Node B multiflow case, if present, the Value must be “1” when there is one secondary serving HS-DSCH cell. Otherwise the Value specifies the index of this cell for the UL HS-DPCCH as specified in [9].
YES
reject

9.2.2.19b	HS-DSCH FDD Information Response
The HS-DSCH FDD Information Response IE provides information for HS-DSCH MAC-d flows that have been established or modified. It also provides additional HS-DSCH information determined within the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-DSCH MAC-d Flow Specific Information Response

0..<maxNrOfMACdFlows>


–

>HS-DSCH MAC-d Flow ID
M

9.2.1.30O

–

>Binding ID
O

9.2.1.3

–

>Transport Layer Address
O

9.2.1.62

–

>HS-DSCH Initial Capacity Allocation
O

9.2.1.30Na

–

HS-SCCH Specific Information Response

0..<maxNrOfHSSCCHCodes>


–

>Code Number
M

INTEGER (0..127)

–

HS-PDSCH And HS-SCCH Scrambling Code
O

DL Scrambling Code 
9.2.2.11

–

Measurement Power Offset
O

9.2.2.24d

–

HARQ Memory Partitioning 
O

9.2.1.116

–

User Plane Congestion Fields Inclusion
O

9.2.1.70C

YES
ignore
HARQ Preamble Mode Activation Indicator
O

9.2.2.58

YES
ignore
MIMO Information Response
O

9.2.2.78

YES
ignore
SixtyfourQAM DL Usage Indicator
O

9.2.2.79B

YES
ignore
HS-DSCH TB Size Table Indicator
O

9.2.2.19G

YES
ignore
Power Offset For S-CPICH for MIMO
O

9.2.2.104

YES
ignore
Support of Dynamic DTXDRX Related HS-SCCH Order
O

9.2.2.129

YES
ignore
Power Offset For S-CPICH for MIMO with four transmit antennas
O

9.2.2.148

YES
ignore
Precoder weight set restriction
O

9.2.2.167

YES
ignore

Range bound
Explanation
maxNrOfMACdFlows
Maximum number of MAC-d flows.
maxNrOfHSSCCHCodes
Maximum number of HS-SCCH codes.

9.2.2.19ba	HS-DSCH FDD Secondary Serving Information Response
The HS-DSCH FDD Secondary Serving Information Response IE provides Secondary Serving HS-DSCH information determined within the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-SCCH Specific Secondary Serving Information Response

0..<maxNrOfHSSCCHCodes>


–

>Code Number
M

INTEGER (0..127)

–

HS-PDSCH And HS-SCCH Scrambling Code
O

DL Scrambling Code 
9.2.2.11

–

Measurement Power Offset
O

9.2.2.24d

–

SixtyfourQAM DL Usage Indicator
O

9.2.2.79B

–

HS-DSCH TB Size Table Indicator
O

9.2.2.19G

–

MIMO Information Response
O

9.2.2.78

YES
ignore
Power Offset For S-CPICH for MIMO
O

9.2.2.104

YES
ignore
Power Offset For S-CPICH for MIMO with four transmit antennas
O

9.2.2.148

YES
ignore
Precoder weight set restriction
O

9.2.2.167

YES
ignore

Range bound
Explanation
maxNrOfHSSCCHCodes
Maximum number of HS-SCCH codes.

9.2.2.19bb	HS-DSCH FDD Secondary Serving Information To Modify
The HS-DSCH FDD Secondary Serving Information To Modify IE is used for modification of cell specific Secondary Serving HS-DSCH information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-SCCH Power Offset
O

9.2.2.19d

–

HS-SCCH Code Change Grant
O

9.2.1.30S

–

Sixtyfour QAM Usage Allowed Indicator
O

9.2.2.79A

–

MIMO Mode Indicator
O

9.2.1.135

YES
reject
Single Stream MIMO Mode Indicator
O

9.2.2.107

YES
reject
Diversity Mode
O

9.2.2.8
If Diversity mode = “Closed loop mode 1” the procedure shall be rejected. 
YES
reject
Transmit Diversity Indicator
C-DiversityMode

9.2.2.48

YES
reject
Non Cell Specific Tx Diversity
O

ENUMERATED (Tx Diversity, ...)
Value = “Tx Diversity”:
Diversity Mode and Transmit Diversity Indicator shall be non cell specific.
YES
reject
Power Offset For S-CPICH for MIMO Request Indicator
O

9.2.2.105

YES
ignore
Ordinal Number Of Frequency
O

INTEGER (1..32,...)
Value = "1" indicates 1st secondary serving HS-DSCH cell, Value = "2" indicates 2nd secondary serving HS-DSCH cell etc. TS 25.214 [10]. The IE shall be ignored by the DRNS if the new configuration contains one secondary serving radio link.
YES
reject
MIMO with four transmit antennas Mode Indicator
O

9.2.2.146
For FDD only
YES
reject
Dual Stream MIMO with four transmit antennas Mode Indicator
O

9.2.2.150
For FDD only
YES
reject
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator
O

9.2.2.147
For FDD only
YES
ignore
Multiflow Ordinal Number Of Frequency
O

INTEGER (1..32,...)
In intra-Node B multiflow case, the Value specifies the index of the secondary serving or assisting serving or assisting secondary serving HS-DSCH cell for the UL HS-DPCCH as specified in TS 25.212.
In inter-Node B multiflow case, if present, the Value must be “1” when there is one secondary serving HS-DSCH cell. Otherwise the Value specifies the index of this cell for the UL HS-DPCCH as specified in [9].
YES
reject

Condition
Explanation
DiversityMode
The IE shall be present if Diversity Mode IE is present and not set to “None”. 

9.2.2.19bc	HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised
The HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE is used for modification of Secondary Serving HS-DSCH information in a UE Context with the Unsynchronised Radio Link Reconfiguration procedure.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-SCCH Power Offset
O

9.2.2.19d

–

Sixtyfour QAM Usage Allowed Indicator
O

9.2.2.79A

–

MIMO Mode Indicator
O

9.2.1.135

YES
reject
Single Stream MIMO Mode Indicator
O

9.2.2.107

YES
reject
Power Offset For S-CPICH for MIMO Request Indicator
O

9.2.2.105

YES
ignore
Ordinal Number Of Frequency
O

INTEGER (1..32,...)
Value = "1" indicates 1st secondary serving HS-DSCH cell, Value = "2" indicates 2nd secondary serving HS-DSCH cell etc. TS 25.214 [10].
The IE shall be ignored by the DRNS if the new configuration contains one secondary serving radio link.
YES
reject
MIMO with four transmit antennas Mode Indicator
O

9.2.2.146
For FDD only
YES
reject
Dual Stream MIMO with four transmit antennas Mode Indicator
O

9.2.2.150
For FDD only
YES
reject
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator
O

9.2.2.147
For FDD only
YES
ignore
Multiflow Ordinal Number Of Frequency
O

INTEGER (1..32,...)
In intra-Node B multiflow case, the Value specifies the index of the secondary serving or assisting serving or assisting secondary serving HS-DSCH cell for the UL HS-DPCCH as specified in TS 25.212.
In inter-Node B multiflow case, if present, the Value must be “1” when there is one secondary serving HS-DSCH cell. Otherwise the Value specifies the index of this cell for the UL HS-DPCCH as specified in [9].
YES
reject

9.2.2.19c	HS-DSCH FDD Update Information 
The HS-DSCH FDD Update Information IE provides information for HS-DSCH to be updated. At least one IE shall be presented.
IE/Group name
Presence
Range
IE Type and Reference
Semantic Description
Criticality
Assigned Criticality
HS-SCCH Code Change Indicator
O

9.2.1.30R

–

CQI Feedback Cycle k 
O

9.2.2.24a

–

CQI Repetition Factor
O

9.2.2.24c

–

ACK-NACK Repetition Factor
O

9.2.2.a

–

CQI Power Offset
O

9.2.2.24b

–

ACK Power Offset
O

9.2.2.b

–

NACK Power Offset
O

9.2.2.26a

–

HS-PDSCH Code Change Indicator
O

9.2.1.30V

YES
ignore
Precoder weight set restriction
O

9.2.2.167

YES
ignore
CQI Feedback Cycle2 k
O

CQI Feedback Cycle2 k
9.2.2.181
For FDD only
YES
ignore
CQI Cycle Switch Timer
O

ENUMERATED (v4, v8, v16, v32, v64, v128, v256, v512, Infinity)
For FDD only, refer to TS 25.331 [16].
YES
ignore

9.2.2.19ca	HS-DSCH FDD Secondary Serving Update Information
The HS-DSCH FDD Secondary Serving Update Information IE provides information for HS-DSCH to be updated. At least one IE shall be presented.
IE/Group name
Presence
Range
IE Type and Reference
Semantic Description
Criticality
Assigned Criticality
HS-SCCH Code Change Indicator
O

9.2.1.30R

–

HS-PDSCH Code Change Indicator
O

9.2.1.30V
This IE shall never be included. If received it shall be ignored.
–

Precoder weight set restriction
O

9.2.2.167

YES
ignore

9.2.2.19C	HS-DSCH Configured Indicator
The HS-DSCH Configured Indicator IE indicates the configuration of HS-DSCH for the UE. The HS-DSCH Configured Indicator IE shall be used for the configuration of the E-DPDCH IQ branch mapping (TS 25.213 [21]).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
HS-DSCH Configured Indicator


ENUMERATED (HS-DSCH configured, HS-DSCH not configured)
Indicator of the HS-DSCH configuration for configuration of the E-DPDCHs IQ branch mapping (TS 25.213 [21]).


9.2.2.19d	HS-SCCH Power Offset
The HS-SCCH Power Offset IE indicates the Power offset relative to the pilot bits on the DL DPCCH except when FDPCH is configured. When F-DPCH is configured, the HS-SCCH Power Offset IE indicates the Power offset relative to the power of transmitted TPC bits on the F-DPCH.
IE/Group Name 
Presence 
Range 
IE type and reference 
Semantics description 
HS-SCCH Power Offset


INTEGER (0..255)
Step 0.25 dB, range -32- +31.75 dB.

9.2.2.19e	E-DCH FDD Update Information
The E-DCH FDD Update Information IE provides information for E-DCH to be updated. At least one IE shall be present.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-DCH MAC-d Flow Specific Update Information

0..<maxNrOfEDCHMACdFlows>


–

>E-DCH MAC-d Flow ID
M

9.2.1.91

–

>HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O

–

HARQ Process Allocation For 2ms Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O

–

E-DCH DL Control Channel Change Information

0..<maxNrOfEDCHRLs>


GLOBAL
ignore
>E-DCH RL ID
M

RL ID
9.2.1.49

–

TTI Update Indication
O

9.2.2.184

YES
reject

Range bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.
maxNrOfEDCHRLs
Maximum number of E-DCH RLs for one UE

9.2.2.19f	HS-DSCH Serving Cell Change Information
The HS-DSCH Serving Cell Change Information IE contains information which is used in HS-DSCH Serving Cell change.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-PDSCH RL ID
M

RL ID
9.2.1.49

–

HS-DSCH Information
O

HS-DSCH FDD Information 9.2.2.19a

–

Continuous Packet Connectivity HS-SCCH less Information
O

9.2.2.74

YES
reject
Continuous Packet Connectivity DTX-DRX Information
O

9.2.2.72

YES
reject

9.2.2.19g	HS-DSCH Serving Cell Change Information Response
The HS-DSCH Serving Cell Change Information Response IE contains information which is used in HS-DSCH Serving Cell change.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE Serving Cell Change 




–

>Successful




–

>>HS-DSCH FDD Information Response
M

9.2.2.19b

–

>>HS-DSCH-RNTI
M

9.2.1.30P

–

>>Continuous Packet Connectivity HS-SCCH less Information Response
O

9.2.2.75

YES
ignore
>Unsuccessful




–

>>Cause
M

9.2.1.5

–


9.2.2.19ga	HS-DSCH Secondary Serving Cell Change Information Response
The HS-DSCH Secondary Serving Cell Change Information Response IE contains information which is used in HS-DSCH Secondary Serving Cell change.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Secondary Serving Cell Change 




>Successful




>>HS-DSCH FDD Secondary Serving Information Response
M

9.2.2.19ba

>>HS-DSCH-RNTI
M

9.2.1.30P

>Unsuccessful




>>Cause
M

9.2.1.5


9.2.2.19G	HS-DSCH TB Size Table Indicator
The HS-DSCH TB Size Table Indicator IE is used to indicate that octet aligned table (TS 25.321 [41]) shall be used. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-DSCH TB Size Table Indicator


ENUMERATED (octet aligned)


9.2.2.19h	E-DCH Serving Cell Change Information Response
The E-DCH Serving Cell Change Information Response IE contains information which is used in E-DCH Serving Cell change.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Serving Cell Change 




>Successful




>>RL Information Response

0..<maxNrOfRLs>


>>>RL ID
M

9.2.1.49

>>>E-DCH FDD DL Control Channel Information
M

9.2.2.4D

>Unsuccessful




>>Cause
M

9.2.1.5


Range bound
Explanation
maxNrOfRLs
Maximum number of RLs for one UE.

9.2.2.20	IB_SG_POS
Void.
9.2.2.21	IB_SG_REP
Void.
9.2.2.21a	Inner Loop DL PC Status
The Inner Loop DL PC Status IE indicates whether inner loop DL control shall be active or inactive for all radio links for the UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Inner Loop DL PC Status


ENUMERATED(Active,
Inactive)


9.2.2.21b	Initial DL DPCH Timing Adjustment Allowed
The Initial DL DPCH Timing Adjustment Allowed IE indicates that the DRNS is allowed to perform a timing adjustment (either a timing advance or a timing delay with respect to the SFN timing) when establishing a radio link.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Initial DL DPCH Timing Adjustment Allowed


ENUMERATED (
initial DL DPCH Timing Adjustment Allowed)


9.2.2.21A	Limited Power Increase
The parameter is used for a more efficient use of the inner loop DL power control for non real time data.
If the limited power increase is used, DRNS shall use the limited power increase algorithm as specified in TS 25.214 [10], subclause 5.2.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Limited Power Increase


ENUMERATED(Used, Not used , )


9.2.2.21B	IPDL FDD Parameters
The IPDL FDD Parameters IE provides the information for the IPDL Configuration applied in FDD mode.
IE/Group name
Presence
Range
IE Type and Reference
Semantics Description
IP spacing FDD
M

ENUMERATED(5,7,10,15,20,30,40,50,…)
See TS 25.214 [10].
IP length
M

ENUMERATED(5,10,…)
See TS 25.214 [10].
IP offset
M

INTEGER(0..9)
See TS 25.214 [10].
Seed
M

INTEGER(0..63)
See TS 25.214 [10].
Burst mode parameters
O

9.2.1.4B


9.2.2.21C	Length of TFCI2
Void.
9.2.2.21D	Void
9.2.2.21E	Void
9.2.2.21F	Void
9.2.2.22	Max Adjustment Period
Void.
9.2.2.23	Max Adjustment Step
Defines the maximum allowed value for the change of DL power level during a certain number of slots that can be utilised by the downlink power balancing algorithm. Max Adjustment Step IE defines a time period, in terms of number of slots, in which the accumulated power adjustments shall be maximum 1 dB. This value does not include the DL inner loop PC adjustment.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Max Adjustment Step


INTEGER
(1..10)
Slots.

9.2.2.24	Max Number of UL DPDCHs
Maximum number of uplink DPDCHs during the connection. Needed by the rate matching algorithm.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Max Number of UL DPDCHs


INTEGER
(1..6)


9.2.2.24a	CQI Feedback Cycle k
The CQI Feedback Cycle k IE provides the duration of the CQI feedback cycle.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CQI Feedback Cycle k


ENUMERATED (0, 2, 4, 8, 10, 20, 40, 80, 160,…, 16, 32, 64)
Unit ms 
The allowed values for this IE depend on the configured CQI Repetition Factor and the HS-DSCH configuration as defined in TS 25.214 [10].

9.2.2.24b	CQI Power Offset
The CQI Power Offset IE indicates Power offset used in the UL between the HS-DPCCH slots carrying CQI information and the associated DPCCH. 
IE/Group Name 
Presence 
Range 
IE type and reference 
Semantics description 
CQI Power Offset


INTEGER (0..8,..., 9..10)
According to mapping in TS 25.213 [21] subclause 4.2.1.

9.2.2.24c	CQI Repetition Factor
The CQI Repetition Factor IE indicates the consecutive repetition of the CQI.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CQI Repetition Factor


INTEGER (1..,4,...)
Step: 1.

9.2.2.24d	Measurement Power Offset
The Measurement Power Offset IE is used as defined in TS 25.214 [10] subclause 6A.2.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Measurement Power Offset


INTEGER (-12..26)
Unit: dB.
Range: -6..13dB.
Step: 0.5dB.

9.2.2.24e	Maximum Set of E-DPDCHs
The Maximum Set of E-DPDCHs as defined in TS 25.212 [9]. Needed by rate matching algorithm.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Set of E-DPDCHs


ENUMERATED (vN256, vN128, vN64, vN32, vN16, vN8, vN4, v2xN4, v2xN2, v2xN2plus2xN4,…, v2xM2plus2xM4) 


9.2.2.24f	Void
9.2.2.24A	Min DL Channelisation Code Length
Void
9.2.2.25	Min UL Channelisation Code Length
Minimum UL channelisation code length (spreading factor) of a DPDCH during the connection. Needed by rate matching algorithm.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Min UL Channelisation Code Length


ENUMERATED(4,8,16,
32,64,128,
256)


9.2.2.26	Multiplexing Position
Multiplexing Position specifies whether fixed or flexible positions of transport channels shall be used in the physical channel.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Multiplexing Position


ENUMERATED(Fixed, Flexible)


9.2.2.26a	NACK Power Offset
The NACK Power Offset IE indicates Power offset used in the UL between the HS-DPCCH slot carrying HARQ NACK information and the associated DPCCH. 
IE/Group Name 
Presence 
Range 
IE type and reference 
Semantics description 
NACK Power Offset


INTEGER (0..8,..., 9..10)
According to mapping in TS 25.213 [21] subclause 4.2.1.

9.2.2.26A	Number of DL Channelisation Codes
This parameter notifies DRNS of the number of DL channelisation codes required for the Radio Link(s).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Number of DL Channelisation Codes


INTEGER
(1..8)


9.2.2.27	Pattern Duration (PD)
Void
9.2.2.27a	PC Preamble
Indicates DPDCH power control preamble length see TS 25.105 [7].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
PCP Preamble


INTEGER
(0..7,…)
In number of frames.

9.2.2.27A	PDSCH Code Mapping
Void.
9.2.2.27B	Phase Reference Update Indicator
The Phase Reference Update Indicator IE indicates that the phase reference for the radio link needs to be changed.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Phase Reference Update indicator


ENUMERATED (Phase Reference needs to be changed)


9.2.2.28	Power Adjustment Type
Defines the characteristic of the power adjustment.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Power Adjustment Type


ENUMERATED(None, Common, Individual)


9.2.2.29	Power Control Mode (PCM)
Void.
9.2.2.30	Power Offset
This IE defines a power offset relative to the Downlink transmission power of a DPCH in case the UE Context is configured to use DPCH in the downlink.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Power Offset


 INTEGER
(0..24)
Unit dB,
Step 0.25 dB,
Range 0..6 dB.

9.2.2.31	Power Resume Mode (PRM)
Void.
9.2.2.31A	Preamble Signatures
Void.
9.2.2.32	Primary CPICH Ec/No
Energy per chip divided by the power density per band measured on the Primary CPICH by the terminal.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Primary CPICH Ec/No


INTEGER
(-30..+30)
Unit dB, step 1 dB.
The value range is typically within the range of -24 dB to 0 dB according to the CPICH Ec/Io UE measurement defined in TS 25.133 [23].

9.2.2.32A	Primary CPICH Usage For Channel Estimation
The Primary CPICH Usage For Channel Estimation IE indicates whether the Primary CPICH may be used for channel estimation or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Primary CPICH Usage For Channel Estimation


ENUMERATED (Primary CPICH may be used, Primary CPICH shall not be used)


9.2.2.33	Propagation Delay (PD)
Propagation delay is the one-way propagation delay of the radio signal from the UE to the Node B. If the range of the Propagation Delay IE is insufficient to represent the measured value, it shall be set to its maximum value, and the Extended Propagation Delay IE (see 9.2.2.33a) shall be used to represent the propagation delay value.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Propagation Delay


 INTEGER
(0..255)
Unit: Chips. Step: 3 chips.
0=0 chips,
1=3 chips, …

9.2.2.33a	Extended Propagation Delay
The Extended Propagation delay is the one-way propagation delay of the radio signal from the MS to the Node B. It shall be used if the Propagation Delay IE (see 9.2.2.33) cannot represent the measured value, due to range limitation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended Propagation Delay


INTEGER (255..1023)
Continuation of intervals as defined in TS 25.133 [23].
Unit: chip.
Range: 765..3069 chips.
Step: 3 chips.

9.2.2.33A	PRACH Minimum Spreading Factor
Void.
9.2.2.34	QE-Selector
Void.
9.2.2.34a	Qth Parameter
Void.
9.2.2.34A	RACH Sub Channel Numbers
Void.
9.2.2.35	RL Set ID
The RL Set ID uniquely identifies one RL Set within a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RL Set ID


INTEGER
(0..31)


9.2.2.35a	RL Specific E-DCH Information
The RL Specific E-DCH Information IE provides RL specific E-DCH Information.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality 
Assigned Criticality
RL Specific E-DCH Information

1..<maxNrOfEDCHMACdFlows>


–

>E-DCH MAC-d Flow ID
M

9.2.1.91

–

>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
–

>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
–

>Transport Bearer Not Requested Indicator
O

9.2.2.4S

YES
ignore
E-AGCH Power Offset
O

9.2.2.61

–

E-RGCH Power Offset
O

9.2.2.62

–

E-HICH Power Offset
O

9.2.2.63

–


Range Bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.2.2.35A	Received Total Wide Band Power
The parameter indicates the Received total wide band power in a cell, see TS 25.215 [11].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Received Total Wide Band Power


INTEGER(0..621)
According to mapping in TS 25.133 [23].

9.2.2.36	S-Field Length
Void.
9.2.2.36A	Void
9.2.2.37	Scrambling Code Change
Void.
9.2.2.37A	Scrambling Code Number
Void.
9.2.2.37B	Secondary CCPCH Info
Void.
9.2.2.38	Secondary CCPCH Slot Format
Void.
9.2.2.38A	Secondary CPICH Information
The Secondary CPICH Information IE provides the information on the Secondary CPICH when it can be used for channel estimation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DL Scrambling Code
M

9.2.2.11

FDD DL Channelisation Code Number
M

9.2.2.14


9.2.2.38B	Secondary CPICH Information Change
The Secondary CPICH Information Change IE indicates modification of information of the Secondary CPICH for channel estimation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Secondary CPICH Information Change
M



>New Secondary CPICH




>>Secondary CPICH Information
M

9.2.2.38A

>Secondary CPICH Shall Not Be Used


NULL


9.2.2.38C	Serving E-DCH RL
The Serving E-DCH RL IE indicates whether the Serving E-DCH RL is in the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Serving E-DCH RL
M



>Serving E-DCH RL in this DRNS




>>Serving E-DCH RL ID
M

RL ID
9.2.1.49

>Serving E-DCH RL not in this DRNS


NULL


9.2.2.39	Slot Number (SN)
Void
9.2.2.39a	Split Type
Void.
9.2.2.39A	SRB Delay
Indicates the number of frames after the PC Preamble period during which transmission of data on some RRC Signalling Bearers shall be prohibited by UE in accordance with TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SRB Delay


INTEGER(0..7,…)
In number of frames.

9.2.2.40	SSDT Cell Identity
Void.
9.2.2.40A	SSDT Cell Identity for EDSCHPC
Void.
9.2.2.41	SSDT Cell Identity Length
Void.
9.2.2.42	SSDT Indication
Void.
9.2.2.43	SSDT Support Indicator
The possibility to use SSDT Support Indicator has been removed.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SSDT Support Indicator


ENUMERATED(Not Used, SSDT not supported).
The SSDT Support Indicator IE shall never be set to “Not Used”.

9.2.2.44	STTD Indicator
Void.
9.2.2.45	STTD Support Indicator
The STTD Support Indicator indicates whether the STTD can be applied to DL DPCH and F-DPCH in the cell or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
STTD Support Indicator


ENUMERATED(STTD Supported, STTD not Supported).


9.2.2.45A	Synchronisation Indicator
The Synchronisation Indicator IE indicates that Timing Maintained Synchronisation shall be used at start of Radio Link, see also [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Synchronisation Indicator


ENUMERATED (Timing Maintained Synchronisation,…)


9.2.2.46	TFCI Signalling Mode 
This parameter indicates has only one value with any meaning.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TFCI Signalling Mode


ENUMERATED(Normal, Not Used)
The value “Not Used” shall not be used by the SRNC. The procedure shall be rejected by the DRNC if the value “Not Used” is received.

9.2.2.46A	TFCI PC Support Indicator
Void.
9.2.2.47	Transmission Gap Distance (TGD)
Void.
9.2.2.47A	Transmission Gap Pattern Sequence Information
Defines the parameters for the compressed mode gap pattern sequence. For details see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transmission Gap Pattern Sequence Information

1..<maxTGPS>


>TGPSI Identifier
M

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.
>TGSN
M

INTEGER(0..14)
Transmission Gap Starting Slot Number
The slot number of the first transmission gap slot within the TGCFN.
>TGL1
M

INTEGER(1..14)
The length of the first Transmission Gap within the transmission gap pattern expressed in number of slots.
>TGL2
O

INTEGER(1..14)
The length of the second Transmission Gap within the transmission gap pattern. If omitted, then TGL2=TGL1.
>TGD
M

INTEGER
(0, 15.. 269)
Transmission gap distance indicates the number of slots between the 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 0 (0 =undefined).

>TGPL1
M

INTEGER(1..144,…)
The duration of transmission gap pattern 1 in frames.
>Not-to-be-used-1
O

INTEGER(1..144,…)
This IE shall never be included in the IE group. If received it shall be ignored.
>UL/DL mode
M

ENUMERATED(UL only, 
DL only, UL/DL)
Defines whether only DL, only UL, or combined UL/DL compressed mode is used.
>Downlink Compressed Mode Method
C-DL

ENUMERATED(not Used, SF/2, higher layer scheduling,…)
Method for generating downlink compressed mode gap
The Downlink Compressed Mode Method IE shall never be set to “not Used”.
>Uplink Compressed Mode Method
C-UL

ENUMERATED(SF/2, higher layer scheduling,…)
Method for generating uplink compressed mode gap.
>Downlink Frame Type
M

ENUMERATED(A, B,...)
Defines if frame type “A” or “B” shall be used in downlink compressed mode.
>DeltaSIR1
M

INTEGER(0..30) 
Delta in SIR target value to be set in the DRNS 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) 
Step 0.1 dB, Range 0-3dB.
>DeltaSIRafter1
M

INTEGER
(0..30) 
Delta in SIR target value to be set in the DRNS one frame after the frame containing the start of the first transmission gap in the transmission gap pattern,.
Step 0.1 dB, Range 0-3dB.
>DeltaSIR2
O

INTEGER
(0..30)
Delta in SIR target value to be set in the DRNS 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.
Step 0.1 dB, Range 0-3dB.
>DeltaSIRafter2
O

INTEGER
(0..30)
Delta in SIR target value to be set in the DRNS one frame after the frame containing the start of the second transmission gap in the transmission gap pattern.
When omitted, DeltaSIRafter2 = DeltaSIRafter1.
Step 0.1 dB, Range 0-3dB.

Condition
Explanation
UL
The IE shall be present if the UL/DL mode IE is set to “UL only” or “UL/DL”.
DL
The IE shall be present if the UL/DL mode IE is set to “DL only” or “UL/DL”.

Range bound
Explanation
maxTGPS
Maximum number of transmission gap pattern sequences.

9.2.2.47B	Transmission Gap Pattern Sequence Scrambling Code Information
This IE indicates whether or not the alternative scrambling code will be used in the DRNS for the Downlink compressed mode method “SF/2” in the Transmission Gap Pattern Sequence. For details see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transmission Gap Pattern Sequence Scrambling Code Information


ENUMERATED(code change, no code change)
Code change = alternative scrambling code will be used.

9.2.2.48	Transmit Diversity Indicator
The Transmit Diversity Indicator indicates whether Transmit Diversity shall be active or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transmit Diversity Indicator


ENUMERATED(active, inactive)


9.2.2.49	Transmit Gap Length (TGL)
Void
9.2.2.50	Tx Diversity Indicator
The Tx Diversity Indicator indicates if the following conditions are satisfied:
-	Primary CPICH is broadcast from two antennas
-	STTD is applied to Primary CCPCH
-	TSTD is applied to Primary SCH and Secondary SCH
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Tx Diversity Indicator


ENUMERATED(true, false).


9.2.2.50A	UE Support Of Dedicated Pilots For Channel Estimation
Void.
9.2.2.50B	UE Support Of Dedicated Pilots For Channel Estimation Of HS-DSCH
Void.
9.2.2.51	UL/DL Compressed Mode Selection
Void
9.2.2.52	UL DPCCH Slot Format
Indicates the slot format used in DPCCH in UL, according to TS 25.211 [8].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UL DPCCH Slot Format


INTEGER
(0..5,…)
If DCH Enhancement (Basic/Full) capabilities are not supported, value 5 shall not be used. If in this case value 5 is received, the procedure shall be rejected.

9.2.2.52A	UL DPDCH Indicator for E-DCH operation
This IE indicated whether the requested configuration actually contain an UL DPDCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UL DPDCH Indicator for E-DCH operation


ENUMERATED (UL-DPDCH present, UL-DPDCH not present)


9.2.2.53	UL Scrambling Code
The UL Scrambling Code is the scrambling code used by UE. Every UE has its specific UL Scrambling Code.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UL Scrambling Code Number
M

INTEGER
(0.. 224-1)

UL Scrambling Code Length
M

ENUMERATED(Short, Long)


9.2.2.54	Uplink Delta SIR
Void
9.2.2.55	Uplink Delta SIR After
Void
9.2.2.56	DPC Mode Change Support Indicator
The DPC Mode Change Support Indicator IE indicates that the particular cell is capable to support DPC mode change.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DPC Mode Change Support Indicator


ENUMERATTED (DPC Mode Change Supported)


9.2.2.57	HARQ Preamble Mode
The HARQ Preamble Mode IE is used as described as described in TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HARQ Preamble Mode


ENUMERATED(mode0, mode1)
“mode0” means HARQ Preamble Mode =0.
“mode1” means HARQ Preamble Mode =1. 

9.2.2.58	HARQ Preamble Mode Activation Indicator
The HARQ Preamble Activation Indicator indicates if the configured HARQ Preamble Mode has been activated in the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HARQ Preamble Mode Activation Indicator


ENUMERATED(HARQ Preamble Mode Activated).


9.2.2.59	Frequency Band Indicator
The Frequency Band Indicator IE indicates frequency band as defined in TS 25.104 [6].
IE/Group Name 
Presence 
Range 
IE type and reference 
Semantics description 
Frequency Band Indicator


ENUMERATED (Band I, Band II, Band III, Band IV, Band V, Band VI, Band VII, 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, …,
Reserved23,
Reserved24,
Band XXV, Band XXVI,
Reserved27,
Reserved28,
Reserved29,
Reserved30,
Reserved31,
Band XXXII)

Note 1:	The Band XXXII is the supplemental Downlink only operating band.

9.2.2.60	E-RGCH Release Indicator
Indicates that the E-RGCH is released..
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-RGCH Release Indicator


ENUMERATED (E-RGCH released)


9.2.2.61	E-AGCH Power Offset
The E-AGCH Power Offset IE indicates the Power offset relative to the pilot bits on the DL DPCCH except when F-DPCH is configured. When F-DPCH is configured, the E-AGCH Power Offset IE indicates the Power offset relative to the power of transmitted TPC bits on the F-DPCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-AGCH Power Offset


INTEGER (0..255,…)
Unit: dB.
Range: -32 .. +31.75 dB.
Step: 0.25 dB.

9.2.2.61A	E-AGCH Table Choice
The E-AGCH Table Choice IE indicates the choice of the E-AGCH table in TS 25.212 [9].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-AGCH Table Choice
M

ENUMERATED (Table 16B, Table 16B-1, …)
Table 16B indicates the Table 16B: Mapping of Absolute Grant Value in [9] and Table 16B-1 indicates the Table 16B.1: Alternative Mapping of Absolute Grant Value in TS 25.212 [9].

9.2.2.62	E-RGCH Power Offset
The E-RGCH Power Offset IE indicates the Power offset relative to the pilot bits on the DL DPCCH except when F-DPCH is configured. When F-DPCH is configured, the E-RGCH Power Offset IE indicates the Power offset relative to the power of transmitted TPC bits on the F-DPCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-RGCH Power Offset


INTEGER (0..255,…)
Unit: dB.
Range: -32 .. +31.75 dB.
Step: 0.25 dB.

9.2.2.63	E-HICH Power Offset
The E-HICH Power Offset IE indicates the Power offset relative to the pilot bits on the DL DPCCH except when F-DPCH is configured. When F-DPCH is configured, the E-HICH Power Offset IE indicates the Power offset relative to the power of transmitted TPC bits on the F-DPCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-HICH Power Offset


INTEGER (0..255,…)
Unit: dB.
Range: -32 .. +31.75 dB.
Step: 0.25 dB.

9.2.2.64	E-RGCH 2-Index-Step Threshold
The E-RGCH 2-Index-Step-Threshold IE is used to determine the Serving Grant.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-RGCH 2-Index-Step Threshold


INTEGER
(0..37)
Refers to an index in the “SG-Table” (see TS 25.321 [41]).

9.2.2.65	E-RGCH 3-Index-Step Threshold
The E-RGCH 3Iindex-Step-Threshold IE is used to determine the Serving Grant.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-RGCH 3-Index-Step Threshold


INTEGER
(0..37)
Refers to an index in the “SG-Table” (see TS 25.321 [41]).

9.2.2.66	HARQ Info for E-DCH
The HARQ Info for E-DCH is used to indicate the use of redundancy version (RV) for the EDCH HARQ transmissions.
IE/Group name
Presence
Range
IE Type and Reference
Semantics description
HARQ Info for E-DCH


ENUMERATED (rv0, rvtable)
“rv0” indicates that the UE will only use E_DCH RV index 0.
“rvtable” indicates that the UE will use an RSN based RV index as specified in TS 25.212 [9].

9.2.2.67	DCH Indicator For E-DCH-HSDPA Operation
The DCH Indicator For E-DCH-HSDPA Operation parameter indicates whether DCH Information IE should be ignored in the message in which the DCH Indicator For E-DCH-HSDPA Operation IE is included.

IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DCH Indicator For E-DCH-HSDPA Operation


ENUMERATED (DCH not present)


9.2.2.68	E-RGCH and E-HICH Channelisation Code Validity Indicator
The E-RGCH and E-HICH Channelisation Code Validity Indicator parameter indicates if the E-RGCH/E-HICH Channelisation Code IE shall be ignored in the E-DCH FDD DL Control Channel Information IE in which the E-RGCH and E-HICH Channelisation Code Validity Indicator IE was included.

IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-RGCH and E-HICH Channelisation Code Validity Indicator


ENUMERATED 
(E-RGCH and E-HICH Channelisation Code not valid)


9.2.2.69	E-DCH Minimum Set E-TFCI Validity Indicator
The E-DCH Minimum Set E-TFCI Validity Indicator parameter indicates if the E-DCH Minimum Set E-TFCI IE shall be ignored in the E-DCH Transport Format Combination Set Information IE in which the E-DCH Minimum Set E-TFCI Validity Indicator IE was included.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH Minimum Set E-TFCI Validity Indicator


ENUMERATED 
(E-DCH Minimum Set E-TFCI not valid)


9.2.2.70	Fast Reconfiguration Mode
The Fast Reconfiguration Mode IE is used to notify the DRNS that the SRNC would like to use the activation time “when the UE is detected on the new configuration” as the timing for the reconfiguration. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Fast Reconfiguration Mode


ENUMERATED (
Fast)


9.2.2.71	Fast Reconfiguration Permission
The Fast Reconfiguration Permission IE is used to indicate to the SRNC that the DRNS can apply the activation time “when the UE is detected on the new configuration” for this reconfiguration. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Fast Reconfiguration Permission


ENUMERATED (
Allowed)


9.2.2.72	Continuous Packet Connectivity DTX-DRX Information 
The Continuous Packet Connectivity DTX-DRX Information IE defines the parameters used for Continuos Packet Connectivity DTX-DRX operation (see TS 25.214 [10]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UE DTX DRX Offset
M

INTEGER (0..159)
Units of subframes. Offset of the UE DTX and DRX cycles at the given TTI.
–

Enabling Delay
M

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128)
Units of radio frames.
–

DTX Information

1




>CHOICE E-DCH TTI Length
M



–

>>2ms




–

>>>UE DTX Cycle 1
M

ENUMERATED (1, 4, 5, 8, 10, 16, 20)
Units of subframes.
–

>>>UE DTX Cycle 2
M

ENUMERATED (4, 5, 8, 10, 16, 20, 32, 40, 64, 80, 128, 160)
Units of subframes.
–

>>>MAC DTX Cycle
M

ENUMERATED (1, 4, 5, 8, 10, 16, 20)
Units of subframes.
–

>>10ms




–

>>>UE DTX Cycle 1
M

ENUMERATED (1, 5, 10, 20)
Units of subframes.
–

>>>UE DTX Cycle 2
M

ENUMERATED (5, 10, 20, 40, 80, 160)
Units of subframes.
–

>>>MAC DTX Cycle
M

ENUMERATED (5, 10, 20)
Units of subframes.
–

>Inactivity Threshold for UE DTX Cycle 2
M

ENUMERATED (1, 4, 8, 16, 32, 64, 128, 256)
Units of E-DCH TTIs.
–

>UE DTX Long Preamble 
M

ENUMERATED (2,4,15)
Units of slots.
–

>MAC Inactivity Threshold
M

ENUMERATED (1, 2, 4, 8, 16, 32, 64, 128, 256, 512, Infinity)
Units of E-DCH TTIs.
–

>CQI DTX Timer
M

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, Infinity)
Units of subframes.
–

>UE DPCCH burst1
M

ENUMERATED (1, 2, 5)
Units of subframes.
–

>UE DPCCH burst2
M

ENUMERATED (1, 2, 5)
Units of subframes.
–

DRX Information

0..1




>UE DRX Cycle
M

ENUMERATED (4, 5, 8, 10, 16, 20)
Units of subframes.
–

>Inactivity Threshold for UE DRX Cycle
M

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512)
Units of subframes.
–

>Inactivity Threshold for UE Grant Monitoring
M

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256)
Units of E-DCH TTIs.
–

>UE DRX Grant Monitoring
M

BOOLEAN
True: DRX Grant Monitoring shall be applied.
False: DRX Grant Monitoring shall not be applied.
–

>UE DRX Cycle 2
O

ENUMERATED (v4, v5, v8, v10, v16, v20)
Units of subframes, refer to TS 25.331 [16].
YES
ignore
>Inactivity Threshold for UE DRX Cycle 2
O

ENUMERATED (v0, v1, v2, v4, v8, v16, v32, v64, v128, v256, v512)
Units of subframes, refer to TS 25.331 [16].
YES
ignore

9.2.2.73	Continuous Packet Connectivity DTX-DRX Information To Modify
The Continuous Packet Connectivity DTX-DRX Information To Modify IE is used for modification of Continuous Packet Connectivity DTX-DRX information in a UE Context. The Continuous Packet Connectivity DTX-DRX Information To Modify IE shall include at least one of the following IE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UE DTX DRX Offset
O

INTEGER (0..159)
Units of subframes. Offset of the UE DTX and DRX cycles at the given TTI.
–

Enabling Delay
O

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128)
Units of radio frames.
–

CHOICE DTX Information To Modify
O



–

>Modify






>>CHOICE E-DCH TTI Length
O



–

>>>2ms




–

>>>>UE DTX Cycle 1
O

ENUMERATED (1, 4, 5, 8, 10, 16, 20)
Units of subframes.
–

>>>>UE DTX Cycle 2
O

ENUMERATED (4, 5, 8, 10, 16, 20, 32, 40, 64, 80, 128, 160)
Units of subframes.
–

>>>>MAC DTX Cycle
O

ENUMERATED (1, 4, 5, 8, 10, 16, 20)
Units of subframes.
–

>>>10ms




–

>>>>UE DTX Cycle 1
O

ENUMERATED (1, 5, 10, 20)
Units of subframes.
–

>>>>UE DTX Cycle 2
O

ENUMERATED (5, 10, 20, 40, 80, 160)
Units of subframes.
–

>>>>MAC DTX Cycle
O

ENUMERATED (5, 10, 20)
Units of subframes.
–

>>Inactivity Threshold for UE DTX Cycle 2
O

ENUMERATED (1, 4, 8, 16, 32, 64, 128, 256)
Units of E-DCH TTIs.
–

>>UE DTX Long Preamble 
O

ENUMERATED (2,4,15)
Units of slots.
–

>>MAC Inactivity Threshold
O

ENUMERATED (1, 2, 4, 8, 16, 32, 64, 128, 256, 512, Infinity)
Units of E-DCH TTIs
–

>>CQI DTX Timer
O

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, Infinity)
Units of subframes.
–

>>UE DPCCH burst1
O

ENUMERATED (1, 2, 5)
Units of subframes.
–

>>UE DPCCH burst2
O

ENUMERATED (1, 2, 5)
Units of subframes.
–

>Deactivate




–

CHOICE DRX Information To Modify
O



–

>Modify




–

>>UE DRX Cycle
O

ENUMERATED (4, 5, 8, 10, 16, 20)
Units of subframes.
–

>>Inactivity Threshold for UE DRX Cycle
O

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512)
Units of subframes.
–

>>Inactivity Threshold for UE Grant Monitoring
O

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256)
Units of E-DCH TTIs.
–

>>UE DRX Grant Monitoring
O

BOOLEAN
True = DRX Grant Monitoring shall be applied.
False = DRX Grant Monitoring shall not be applied.
–

>>UE DRX Cycle 2
O

ENUMERATED ( v4, v5, v8, v10, v16, v20)
Units of subframes, refer to TS 25.331 [16].
YES
ignore
>>Inactivity Threshold for UE DRX Cycle 2
O

ENUMERATED (v0, v1, v2, v4, v8, v16, v32, v64, v128, v256, v512)
Units of subframes, refer to TS 25.331 [16].
YES
ignore
>Deactivate


NULL




9.2.2.74	Continuous Packet Connectivity HS-SCCH less Information 
The Continuous Packet Connectivity HS-SCCH less Information IE defines the parameters used for Continuos Packet Connectivity HS-SCCH less operation (see TS 25.214 [10]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transport Block Size List

1..<maxNrOfHS-DSCHTBSs-HS-SCCHless>


>Transport Block Size Index
M

INTEGER (1..maxNrOfHS-DSCHTBSs)

>HS-PDSCH Second Code Support
M

BOOLEAN
True = The second HS-PDSCH code shall also be used.
False = The second HS-PDSCH code shall not be used.

Range Bound
Explanation
maxNrOfHS-DSCHTBSs-HS-SCCHless
Maximum number of HS-DSCH Transport Block Sizes used for HS-SCCH-less operation.
maxNrOfHS-DSCHTBSs
Maximum number of HS-DSCH Transport Block Sizes.

9.2.2.75	Continuous Packet Connectivity HS-SCCH less Information Response
The Continuous Packet Connectivity HS-SCCH less Information Response IE provides information for HS-SCCH less operation determined within the Node B (see TS 25.214 [10]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-PDSCH First Code Index
M

INTEGER (1..maxHS-PDSCHCodeNrComp-1)
Index of first HS-PDSCH code.
HS-PDSCH Second Code Index
O

INTEGER (1..maxHS-PDSCHCodeNrComp-1)
Index of second HS-PDSCH code. See Note 1.
NOTE 1:	The “HS-PDSCH second code index” value is the value of IE “HS-PDSCH First Code Index” incremented by 1. 

Range Bound
Explanation
maxHS-PDSCHCodeNrComp
Maximum number of codes at the defined spreading factor, within the complete code tree.

9.2.2.75A	Continuous Packet Connectivity HS-SCCH Less Deactivate Indicator
The Continuous Packet Connectivity HS-SCCH Less Deactivate Indicator IE is used to deactive HS-SCCH less operation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Continuous Packet Connectivity HS-SCCH Less Deactivate Indicator
M

NULL


9.2.2.76	MIMO Activation Indicator
Void
9.2.2.77	MIMO Mode Indicator
Void
9.2.2.78	MIMO Information Response
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Pilot Configuration
M



>Primary and Secondary CPICH




>>MIMO S-CPICH Channelisation Code
M

INTEGER (0..255)

>Normal and Diversity Primary CPICH


NULL

MIMO N/M Ratio
M

ENUMERATED (1/2, 2/3, ¾, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10, 1/1,…)

Additional Associated Secondary CPICH

0..<maxSCPICHCell-1>

For the additional secondary CPICHs.
>Additional Associated S-CPICH Channelisation Code
M

INTEGER (0..255)

>Additional Associated D-CPICH Channelisation Code
O

INTEGER (0..255)


Range Bound
Explanation
maxSCPICHCell
Maximum number of Secondary CPICHs that can be defined in a Cell.

9.2.2.79	SixtyfourQAM DL Support Indicator
Void.
9.2.2.79A	Sixtyfour QAM Usage Allowed Indicator
The Sixtyfour QAM Usage Allowed Indicator IE indicates whether the Node B is allowed to use 64 QAM modulation for HS-DSCH transmission or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Sixtyfour QAM Usage Allowed Indicator
M

ENUMERATED (Allowed, Not-Allowed)


9.2.2.79B	SixtyfourQAM DL Usage Indicator
The SixtyfourQAM DL Usage Indicator IE indicates if the Node B is using 64 QAM modulation for the HS-DSCH transmission, or if the Node B is not using 64 QAM modulation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SixtyfourQAM DL Usage Indicator


ENUMERATED (SixtyfourQAM DL Used, SixtyfourQAM DL Not Used)


9.2.2.80	Enhanced FACH Support Indicator
Void.
9.2.2.81	Enhanced PCH Support Indicator
Void.
9.2.2.82	Priority Queue Information for Enhanced FACH/PCH
Void.
9.2.2.83	SixteenQAM UL Information
Void.
9.2.2.84	SixteenQAM UL Information To Modify
Void.
9.2.2.85	F-DPCH Slot Format
The F-DPCH Slot Format IE defines the F-DPCH slot format for the TPC bits, as defined in TS 25.211 [8].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-DPCH Slot Format


INTEGER (0..9)


9.2.2.86	F-DPCH Slot Format Support Request
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-DPCH Slot Format Support Request


NULL


9.2.2.87	Max UE DTX Cycle
The Max UE DTX Cycle IE defines the maximum UE DTX cycle supported by the Node B for Continuous Packet Connectivity DTX-DRX operation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Max UE DTX Cycle
M

ENUMERATED (v5, v10, v20, v40, v64, v80, v128, v160,…,v256,v320,v512,v640,v1024,v1280)
Units of subframes.

9.2.2.88	Enhanced PCH Capability
Void.
9.2.2.89	MAC-ehs Reset Timer
Void.
9.2.2.90	SixteenQAM UL Operation Indicator
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SixteenQAM UL Operation Indicator
O

ENUMERATED (Activate, Deactivate)


9.2.2.90a	SixtyfourQAM UL Operation Indicator
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SixtyfourQAM UL Operation Indicator
O

ENUMERATED (Activate, Deactivate)


9.2.2.91	E-TFCI Boost Information
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-TFCI BetaEC Boost
M

INTEGER (0..127,…)
E-TFCI threshold beyond which boosting of E-DPCCH is enabled.
UL Delta T2TP
C-E-TFCIboost127

INTEGER (0..6,…)
Total E-DPDCH power across all codes to the combined power of DPCCH and E-DPCCH.

Condition
Explanation
E-TFCIboost127
The IE shall be present if the E-TFCI BetaEC Boost IE value is not set o 127.

9.2.2.92	Common E-DCH Support Indicator
This IE indicates the Common E-DCH Support.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Common E-DCH Support Indicator


NULL


9.2.2.93	Common E-DCH MAC-d Flow Specific Information
The Common E-DCH MAC-d Flow Specific Information IE provides information associated to Common E-DCH MAC-d Flow used for Common E-DCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Common E-DCH MAC-d Flow Specific Information

1..<maxNrOfEDCHMACdFlows>


>Common E-DCH MAC-d Flow ID
M

E-DCH MAC-d flow
9.2.1.91

>Maximum Number of Retransmissions for E-DCH
M

9.2.1.100

>E-DCH HARQ Power Offset FDD
M

9.2.2.4L

>E-DCH MAC-d Flow Multiplexing List
O

9.2.1.89

>Common E-DCH Logical Channel information
M
1..<maxNoOfLogicalChannels>


>>Logical Channel ID
M

9.2.1.97

>>Maximum MAC-d PDU Size Extended
M

MAC PDU Size Extended
9.2.1.34D


Range bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d Flows.
maxNoOfLogicalChannels
Maximum number of logical channels.

9.2.2.94	Counting Information
The Counting Information IE provides counting result for MBMS service for each cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Counting Information

1..<maxNrOfFDDNeighboursPerRNC>


>C-ID
M

9.2.1.6

>Counting Result
M

INTEGER (0..63)
The number of Ues listen to the MBMS Service. If the number of the UE is more than 63, this IE set to 63.

Range bound
Explanation
maxNrOfFDDNeighboursPerRNC
Maximum number of neighbouring FDD cell for one cell.

9.2.2.95	Transmission Mode Information
The Transmission Mode Information IE provides transmission mode for MBMS service for each cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Counting Information

1..<maxNrOfFDDNeighboursPerRNC>


>C-ID
M

9.2.1.6

>Transmission Mode
M

9.2.1.81


Range bound
Explanation
maxNrOfFDDNeighboursPerRNC
Maximum number of neighbouring FDD cell for one cell.

9.2.2.96	MBMS Neighbouring Cell Information
The parameter contains information for the MBMS p-t-m radio bearer configuration procedure as defined in TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MBMS Neighbouring Cell Information




>MBMS Concatenated Service List

1..<maxlengthMBMSconcatservlists >

TMGI shall be uniquely defined by a reference to this index from the MBMS short transmission identity IE (TS 25.331 [16]) in the L3 Information IE.
>>TMGI
M

9.2.1.80

>L3 Information 
O

9.2.1.32
The IE Contains 
MBMS Common p-t-m rb Information defined in TS 25.331 [16].
>L3 Information 
O

9.2.1.32
The IE Contains 
MBMS Current Cell p-t-m rb Information defined in TS 25.331 [16].

Range bound
Explanation
maxlengthMBMSconcatservlists
Maximum length of the concatenated service lists contained in MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION messages defined in TS 25.331 [16].

9.2.2.97	RLC Sequence Number
This parameter indicates the RLC Sequence Number.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RLC Sequence Number


INTEGER (0..127)


9.2.2.98	Time Stamp
This parameter indicates the Time Stamp used for Inter-RNC MBMS synchronisation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Time Stamp


INTEGER (0..9999)
Units: 10ms.

9.2.2.99	HS-DSCH Preconfiguration Info
The HS-DSCH Preconfiguration Info IE provides information of the target cell preconfiguration in the DRNS as defined in TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Sets of HS-SCCH Codes

1…<maxNrOfHSDSCH>

Index 1 refers to the serving HS-DSCH cell
Index 2…<maxNrOfHSDSCH> refer to secondary serving HS-DSCH cells in the order as listed in 9.2.2.100 HS-DSCH Preconfiguration Setup. Max index is 4 in this 3GPP release. 
–

>HS-SCCH Preconfigured Codes

1..<maxNrOfHSSCCHCodes>


–

>>Code Number
M

INTEGER (0..127)

–

>HS-DSCH-RNTI
M

9.2.1.31J

–

>HS-PDSCH And HS-SCCH Scrambling Code
M

DL Scrambling Code 
9.2.2.11

–

>SixtyfourQAM DL Support Indicator
O

9.2.1.123

–

>SixtyfourQAM DL Usage Indicator
O

9.2.2.79B

–

>HS-DSCH TB Size Table Indicator
O

9.2.2.19G

–

>MIMO Information Response
O

9.2.2.78
Applicable for multicarrier mode of operation.
YES
ignore
>Power Offset For S-CPICH for MIMO
O

9.2.2.104
Applicable for multicarrier mode of operation. The "Power Offset For S-CPICH for MIMO" in the index 1 of "Sets of HS-SCCH Codes" shall be ignored.
YES
ignore
>Measurement Power Offset
O

9.2.2.24d

YES
ignore
>Power Offset For S-CPICH for MIMO with four transmit antennas
O

9.2.2.148
Applicable for multicarrier mode of operation. The "Power Offset For S-CPICH for MIMO" in the index 1 of "Sets of HS-SCCH Codes" shall be ignored.
YES
ignore
HARQ Memory Partitioning
M

9.2.1.116

–

E-DCH FDD DL Control Channel Information
O

9.2.2.4D
For the primary UL frequency in Dual-cell E-DCH mode of operation.
–

HARQ Preamble Mode Activation Indicator
O

9.2.2.58

–

MIMO Information Response
O

9.2.2.78
Only applicable for MIMO in singe carrier mode of operation. Shall be ignored in multicarrier mode of operation.
–

Continuous Packet Connectivity HS-SCCH less Information Response
O

9.2.2.75

–

Power Offset For S-CPICH for MIMO
O

9.2.2.104
For the serving HS-DSCH cell in both the single carrier mode and multicarrier mode of operation.
YES
ignore
Additional E-DCH Preconfiguration Information

0..<maxNrOfEDCH-1>

For E-DCH on multiple frequencies in this DRNS.
E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.
Index 1 correspond to the secondary serving HS-DSCH cells with index 2 in the IE Sets of HS-SCCH Codes. The list is in the order as listed in 9.2.2.100 HS-DSCH Preconfiguration Setup. 
EACH
ignore
>E-DCH FDD DL Control Channel Information
M

9.2.2.4D
For the secondary UL frequency In Dual-cell E-DCH mode of operation.
–

Support of Dynamic DTXDRX Related HS-SCCH Order
O

9.2.2.129

YES
ignore
Power Offset For S-CPICH for MIMO with four transmit antennas
O

9.2.2.148
For the serving HS-DSCH cell in both the single carrier mode and multicarrier mode of operation.
YES
ignore
F-TPICH Information Response
O 

9.2.2.143

YES
ignore

Range bound
Explanation
maxNrOfHSSCCHCodes
Maximum number of HS-SCCH codes
maxNrOfHSDSCH
Maximum number of Primary Serving plus Secondary Serving HS-DSCH cells for one UE
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE

9.2.2.100	HS-DSCH Preconfiguration Setup
The HS-DSCH Preconfiguration Setup IE indicates that the DRNS shall preconfigure set(s) of HS-SCCH codes and may contain a list of secondary serving, assisting serving, and assisting secondary serving HS-DSCH cells to be preconfigured for Enhanced Service Cell Change. The Cell Change procedure for Dual Cell operation is described in TS 25.308 [63]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
MAC-hs/ehs reset scheme 
M

ENUMERATED (Always, Inter Node B Change) 
MAC-hs/ehs reset handling at enhanced HS serving cell change:
“Always” means always reset 
“Inter Node B Change” means Only reset at inter Node B cell change.
–

HS-DSCH Physical Layer Category
M

9.2.1.30Oa

–

MAC-hs Reordering Buffer Size for RLC-UM
M

9.2.1.34Ab

–

Secondary Cells 

0..<maxNrOfHSDSCH-1>

Preconfigured secondary serving HS-DSCH cell. maxNrOfHSDSCH-1 is max 3 in this 3GPP release.
–

>Secondary C-ID
M

C-ID
9.2.1.6
C-ID of the preconfigured secondary serving HS-DSCH cell.
–

>Num Secondary HS-SCCH Codes
O

INTEGER (1..maxNrOfHSSCCHCodes)
For the secondary serving HS-DSCH cell.
–

>Sixtyfour QAM Usage Allowed Indicator
O

9.2.2.79A
For the secondary serving HS-DSCH cell.
–

>MIMO Activation Indicator
O

9.2.1.134
For the secondary serving HS-DSCH cell.
YES
ignore
>E-DCH Indicator
O

NULL
The secondary serving HS-DSCH cell shall be pre-configured with E-DCH.
YES
ignore
>Power Offset For S-CPICH for MIMO Request Indicator
O

9.2.2.105
For the secondary serving HS-DSCH cell.
YES
ignore
>Ordinal Number Of Frequency
O

INTEGER (1..32,...)
Value = "1" indicates 1st secondary serving HS-DSCH cell, Value = "2" indicates 2nd secondary serving HS-DSCH cell etc. TS 25.214 [10].
The IE shall be ignored by the Node B if the new configuration contains one secondary serving radio link.
YES
ignore
>MIMO with four transmit antennas Activation Indicator
O

9.2.2.145
For the secondary serving HS-DSCH cell
YES
ignore
>Dual Stream MIMO with four transmit antennas Activation Indicator
O

9.2.2.149
For the secondary serving HS-DSCH cell
YES
ignore
>Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator
O

9.2.2.147
For the secondary serving HS-DSCH cell
YES
ignore
>Multiflow Ordinal Number Of Frequency
O

INTEGER (1..32,...)
In intra-Node B multiflow case, the Value specifies the index of the secondary serving or assisting serving or assisting secondary serving HS-DSCH cell for the UL HS-DPCCH as specified in TS 25.212.
In inter-Node B multiflow case, if present, the Value must be “1” when there is one secondary serving HS-DSCH cell. Otherwise the Value specifies the index of this cell for the UL HS-DPCCH as specified in TS 25.212.
YES
ignore
Num Primary HS-SCCH Codes
O

INTEGER (1.. maxNrOfHSSCCHCodes)
For the primary serving HS-DSCH cell.
–

HARQ Preamble Mode
O

9.2.2.57

–

MIMO Activation Indicator
O

9.2.1.134
In multicarrier mode of operation the IE is for the serving HS-DSCH cell.
–

HS-DSCH MAC-d PDU Size Format 
O

9.2.1.30OC
If not present, “Indexed MAC-d PDU Size” shall be assumed.
–

Sixtyfour QAM Usage Allowed Indicator
O

9.2.2.79A
For the serving HS-DSCH cell.
–

UE with enhanced HS-SCCH support indicator
O

NULL
UE supports enhanced HS-SCCH functionality:
- UE supports different HS-SCCH in consecutive TTIs and,
- in HS-SCCH-less operation mode the UE supports HS-SCCH orders.
–

Continuous Packet Connectivity HS-SCCH less Information
O

9.2.2.74

–

UE Support Indicator Extension
O

9.2.2.103

YES
ignore
Power Offset For S-CPICH for MIMO Request Indicator
O

9.2.2.105
For the serving HS-DSCH cell in both the single carrier mode and multicarrier mode of operation.
YES
ignore
MIMO with four transmit antennas Activation Indicator
O

9.2.2.145
In multicarrier mode of operation the IE is for the serving HS-DSCH cell
YES
ignore
Dual Stream MIMO with four transmit antennas Activation Indicator
O

9.2.2.149
In multicarrier mode of operation the IE is for the serving HS-DSCH cell
YES
ignore
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator
O

9.2.2.147
For the serving HS-DSCH cell in both the single carrier mode and multicarrier mode of operation.
YES
ignore
Multiflow Information
O

9.2.2.152

YES
ignore
F-TPICH Information
O

9.2.2.139

YES
ignore
UL CLTD Information
O

9.2.2.131

YES
ignore
UL MIMO Information
O

9.2.2.159

YES
ignore
SixteenQAM UL Operation Indicator
O

9.2.2.90

YES
ignore
SixtyfourQAM UL Operation Indicator
O

9.2.2.90a

YES
ignore

Range bound
Explanation
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfHSSCCHCodes
Maximum number of HS-SCCH codes.

9.2.2.101	Secondary Serving Cell List
This Secondary Serving Cell List IE identifies the possible secondary serving HS-DSCH cells for a Multi Cell/Dual-Band capable cell that is able to serve as a serving HS-DSCH cell.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Possible Secondary Serving Cell List

1..<maxNrOfHSDSCH-1>

For secondary serving HS-DSCH cell.
–

>Possible Secondary Serving Cell
M

C-ID
9.2.1.6

–

>Multicell E-DCH Restriction
O

BOOLEAN
TRUE means restricted
FALSE or not included means no restrictions.
YES
ignore

Range bound
Explanation
maxNrOfHSDSCH-1
Maximum number of Secondary Serving HS-DSCH cells for one UE.
See NOTE below.
NOTE: In this case, “maxNrOfHSDSCH-1” represents the maximum number of possible secondary serving cells for a Multi Cell/Dual-Band capable cell.

9.2.2.102	Minimum Reduced E-DPDCH Gain Factor
The minimum gain factor (βed,k,reduced,min) defined in TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Minimum Reduced E-DPDCH Gain Factor


ENUMERATED (8/15, 11/15, 15/15, 21/15, 30/15, 42/15, 60/15, 84/15, ...)


9.2.2.103	UE Support Indicator Extension
The UE Support Indicator Extension IE is used to indicate the support level in the UE for optional HSDPA functions to the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE support indicator extension


BIT STRING (SIZE(32))
Each bit indicates whether the UE supports a particular HSDPA function or not. The value 1 of a bit indicates that the corresponding functionality is supported in the UE and value 0 indicates that the corresponding functionality is not supported in the UE. Each bit is defined as follows:
the first bit: Different HS-SCCH In Consecutive TTIs Support Indicator,
the second bit: HS-SCCH orders in HS-SCCH-less Operation Support Indicator,
the third bit: RRC Rel-9 (onwards) handling of DL secondary HS-DSCH (de)activation state Support Indicator,
the fourth bit: UE DTXDRX related HS-SCCH orders uniform behavior indicator.
the fifth bit: UE longer HARQ processing time for simultaneous Multiflow and MIMO operation
the sixth bit: UE Blind HARQ Retransmissions Indicator for HSDPA.

Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.2.104	Power Offset For S-CPICH for MIMO
The Power Offset For S-CPICH for MIMO IE indicates the the relative transmit power of the S-CPICH compared to the primary CPICH transmit power, when S-CPICH is used as a phase reference for a second transmit antenna in MIMO mode TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Power Offset For S-CPICH for MIMO


INTEGER(-6 .. 0)
Offset in dB.

9.2.2.105	Power Offset For S-CPICH for MIMO Request Indicator
The Power Offset For S-CPICH for MIMO Request Indicator IE is present when the SRNC needs the DRNS to supply, if possible, the Power Offset For S-CPICH for MIMO IE when S-CPICH is used as a phase reference for a second transmit antenna in MIMO mode TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Power Offset For S-CPICH for MIMO Request Indicator


NULL


9.2.2.106	Single Stream MIMO Activation Indicator
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Single Stream MIMO Activation Indicator
M

NULL


9.2.2.107	Single Stream MIMO Mode Indicator
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Single Stream MIMO Mode Indicator


ENUMERATED (Activate, Deactivate)


9.2.2.108	HS-DSCH MAC-ehs Format
Void.
9.2.2.109	Activation Information
The Activation Information IE defines the local activation state of the secondary uplink frequency of the UE in Dual Cell E-DCH operation, or the change request of activation state of the Secondary uplink frequency of the UE in Dual Cell E-DCH operation when E-DCH decoupling is configured.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description 
Activation Information

1..<maxNrOfEDCH-1>
For secondary E-DCH. Max 1 in this 3GPP release.

>Uu Activation State
M

ENUMERATED
(Activated, 
De-activated, ..., Change Request)
The activation state of the secondary UL frequency, or change of the activation state of the secondary UL frequency when E-DCH decoupling is configured.

Range Bound
Explanation
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.2.2.110	Additional E-DCH FDD Setup Information
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UL DPCH Information

1


–

>UL Scrambling Code
M

9.2.2.53

–

>UL SIR Target
O

UL SIR
9.2.1.69

–

Additional E-DCH RL Specific Information To Setup
M

9.2.2.115

–

Additional E-DCH FDD Information
O

9.2.2.112

–

F-DPCH Information

1


–

>FDD TPC Downlink Step Size
M

9.2.2.16

–

>Limited Power Increase
M

9.2.2.21A

–

>Inner Loop DL PC Status
M

9.2.2.21a

–

>F-DPCH Slot Format Support Request
O

9.2.2.86

–

Multicell E-DCH Information
O

9.2.2.114

YES
ignore

9.2.2.111	Additional E-DCH Configuration Change Information
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UL DPCH Information

0..1


–

>UL Scrambling Code
O

9.2.2.53

–

>UL SIR Target
O

UL SIR
9.2.1.69

–

Additional E-DCH RL Specific Information To Add
O

9.2.2.116
Used when the E-DCH RL to add does not exist in the current UE context on the secondary UL frequency.
–

Additional E-DCH RL Specific Information To Modify 
O

9.2.2.117
Used when an existing E-DCH RL on the secondary UL frequency is modified.
–

Additional E-DCH FDD Information To Modify
O

Additional E-DCH FDD Information 9.2.2.112
Used to modify the current additional E-DCH configuration with or without a new RL added in this procedure.
–

F-DPCH Information

0..1


–

>FDD TPC Downlink Step Size
M

9.2.2.16

–

>Limited Power Increase
M

9.2.2.21A

–

>Inner Loop DL PC Status
M

9.2.2.21a

–

>F-DPCH Slot Format Support Request
O

9.2.2.86

–

Multicell E-DCH Information
O

9.2.2.114

YES
ignore

9.2.2.112	Additional E-DCH FDD Information
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HARQ Process Allocation For 2ms Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O

–

E-DCH Maximum Bitrate 
O

9.2.2.4MG

–

E-DCH Processing Overload Level
O

9.2.1.95

–

E-DCH Minimum Set E-TFCI
O

INTEGER (0..127)
For the concept of “E-DCH Minimum Set of TFCs” see TS 25.321 [41] and TS 25.331 [16].
–

DTX Information2

0..1




>UE DTX Cycle 1
M

ENUMERATED (v1, v4, v5, v8, v10, v16, v20,…)
Units of subframes, refer to TS 25.331 [16].
YES
ignore
>UE DTX Cycle 2
M

ENUMERATED (v4, v5, v8, v10, v16, v20, v32, v40, v64, v80, v128, v160, v256, v320, v512, v640, v1024, v1280, ...)
Units of subframes, refer to TS 25.331 [16].
YES
ignore
>Inactivity Threshold for UE DTX Cycle 2
M

ENUMERATED (v1, v4, v8, v16, v32, v64, v128, v256, ...)
Units of E-DCH TTIs, refer to TS 25.331 [16].
YES
ignore
Implicit Grant handling
O

ENUMERATED (true)
The presence of this information element indicates that Implicit Grant handling is configured on the secondary uplink frequency
YES
ignore
Minimum TEBS threshold
O

ENUMERATED (v2, v4, v8, v16, v32, v64, v128, v256, v512, v1024, v2K, v4K, v8K, v16K, v32K, v64K, v128K, v256K, v512K, v1024K,...)
In bytes
And N Kbytes = N*1024 bytes. Twelve spare values are needed, refer to TS 25.331 [16]. 
YES
ignore
Dual Cell E-DCH Operation Enhancements Information
O

9.2.2.194

YES
reject

9.2.2.113	Multicell E-DCH Transport Bearer Mode
This parameter indicates the Multicell E-DCH Transport Bearer Mode. For Multicell E-DCH Transport Bearer Mode = “Separate Iur Transport Bearer Mode” the Mac-d flows from each carrier uses different Iur transport bearers, for Multicell E-DCH Transport Bearer Mode = “UL Flow Multiplexing Mode” the Mac-d flows received on the different carriers in the DRNS is multiplexed on one Iur transport bearer (per Mac-d flow). The SRNC should apply the stored cell capabilities for the cell on primary UL frequency for the capabilities related to Multicell E-DCH Transport Bearer Mode.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Multicell E-DCH Transport Bearer Mode


ENUMERATED (Separate Iur Transport Bearer Mode, UL Flow Multiplexing Mode)


9.2.2.114	Multicell E-DCH Information
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DL Power Balancing Information
O

9.2.2.10A

Minimum Reduced E-DPDCH Gain Factor
O

9.2.2.102

Secondary UL Frequency Activation State
O

ENUMERATED (Activated, Deactivated,...)

F-DPCH Slot Format
O

9.2.2.85

Common DL Reference Power
O

DL power
9.2.1.21A
Power on F-DPCH.

9.2.2.115	Additional E-DCH RL Specific Information To Setup
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-DCH Additional RL Specific Information

1..<maxNrOfEDCHRLs>


–

>E-DCH Additional RL ID
M

RL ID
9.2.1.49

–

>C-ID
O

9.2.1.6

–

>First RLS Indicator
M

9.2.2.16A

–

>Propagation Delay
O

9.2.2.33

–

>Initial DL Tx Power
O

DL Power
9.2.1.21A



>Primary CPICH Ec/No
O

9.2.2.32

–

>E-AGCH Power Offset
O

9.2.2.61

–

>E-RGCH Power Offset
O

9.2.2.62

–

>E-HICH Power Offset
O

9.2.2.63

–

>Additional E-DCH MAC-d Flow Specific Information
O

9.2.2.118

–

>Multicell E-DCH RL Specific Information
O

9.2.2.119

YES
ignore
>TPC slot position
O

9.2.2.193

YES
ignore

Range bound
Explanation
maxNrOfEDCHRLs
Maximum number of E-DCH RLs for one UE

9.2.2.116	Additional E-DCH RL Specific Information To Add
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-DCH Additional RL Specific Information To Add

1..<maxNrOfEDCHRLs>


–

>E-DCH Additional RL ID
M

RL ID
9.2.1.49

–

>C-ID
M

9.2.1.6

–

>Primary CPICH Ec/No
O

9.2.2.32

–

>E-AGCH Power Offset
O

9.2.2.61

–

>E-RGCH Power Offset
O

9.2.2.62

–

>E-HICH Power Offset
O

9.2.2.63

–

>Additional E-DCH MAC-d Flow Specific Information
O

9.2.2.118

–

>Multicell E-DCH RL Specific Information
O


9.2.2.119

YES
ignore
>TPC slot position
O

9.2.2.193

YES
ignore

Range bound
Explanation
maxNrOfEDCHRLs
Maximum number of E-DCH RLs for one UE.

9.2.2.117	Additional E-DCH RL Specific Information To Modify
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-DCH Additional RL Specific Information to Modify

1..<maxNrOfEDCHRLs>


–

>E-DCH Additional RL ID
M

RL ID
9.2.1.49

–

>E-AGCH Power Offset
O

9.2.2.61

–

>E-RGCH Power Offset
O

9.2.2.62

–

>E-HICH Power Offset
O

9.2.2.63

–

>Additional E-DCH MAC-d Flow Specific Information
O

9.2.2.118

–

>Multicell E-DCH RL Specific Information
O

9.2.2.119

YES
ignore
>TPC slot position
O

9.2.2.193

YES
ignore

Range bound
Explanation
maxNrOfEDCHRLs
Maximum number of E-DCH RLs for one UE.

9.2.2.118	Additional E-DCH MAC-d Flow Specific Information
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Additional E-DCH MAC-d Flow Specific Information

1..<maxNrOfEDCHMACdFlows>


>E-DCH MAC-d Flow ID
M

9.2.1.91

>Binding ID
O

9.2.1.3

>Transport Layer Address
O

9.2.1.62


Range Bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.2.2.119	Multicell E-DCH RL Specific Information
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended Propagation Delay
O

9.2.2.33a

Enhanced Primary CPICH Ec/No
O

9.2.2.13I

DL Reference Power
O

DL power
9.2.1.21A

Phase Reference Update Indicator
O

9.2.2.27B

E-DCH DL Control Channel Grant 
O

NULL


9.2.2.120	Additional E-DCH FDD Information Response
The Additional E-DCH FDD Information Response IE provides information for new E-DCH radio links on the secondary UL frequency.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Additional E-DCH RL Information Response

1..<maxNrOfEDCHRLs>


>E-DCH Additional RL ID
M

RL ID
9.2.1.49

>Received Total Wide Band Power
M

9.2.2.35A

>DL Power Balancing Activation Indicator
O

9.2.2.10B

>RL Set ID
M

9.2.2.35

>E-DCH RL Set ID
M

RL Set ID
9.2.2.35

>E-DCH FDD DL Control Channel Information
M

9.2.2.4D

>DL Code Information
M

FDD DL Code Information
9.2.2.14A

>Additional E-DCH MAC-d Flow Specific Information Response

0..<maxNrOfEDCHMACdFlows>


>>E-DCH MAC-d Flow ID
M

9.2.1.91

>>Binding ID
O

9.2.1.3

>>Transport Layer Address
O

9.2.1.62

>HARQ Process Allocation For 2ms Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O

>Maximum Uplink SIR
M

Uplink SIR
9.2.1.69

>Minimum Uplink SIR
M

Uplink SIR
9.2.1.69

>Maximum Allowed UL Tx Power
M

9.2.1.35

>Maximum DL TX Power
M

DL Power
9.2.1.21A

>Minimum DL TX Power
M

DL Power
9.2.1.21A

>Primary Scrambling Code
O

9.2.1.45

>UL UARFCN
O

UARFCN
9.2.1.66
Corresponds to Nu in TS 25.104 [6].
>DL UARFCN
O

UARFCN
9.2.1.66
Corresponds to Nd in TS 25.104 [6].
>Primary CPICH Power
M

9.2.1.44

>PC Preamble
M

9.2.2.27a

>Primary CPICH Usage For Channel Estimation
O

9.2.2.32A

>Secondary CPICH Information
O

9.2.2.38A

>F-DPCH Slot Format
O

9.2.2.85


Range bound
Explanation
maxNrOfEDCHRLs
Maximum number of E-DCH RLs for one UE.
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.2.2.121	Additional Modified E-DCH FDD Information Response
The Additional Modified E-DCH RL Information Response IE provides information for RLs on the secondary UL frequency that has been modified and existied in the UE Context configuration before the reconfiguration procedure.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Additional Modified E-DCH RL Information Response

1..<maxNrOfEDCHRLs>


>E-DCH Additional RL ID
M

RL ID
9.2.1.49

>DL Power Balancing Updated Indicator
O

9.2.2.10D

>E-DCH FDD DL Control Channel Information
O

9.2.2.4D

>Additional E-DCH MAC-d Flow Specific Information Response

0..<maxNrOfEDCHMACdFlows>


>>E-DCH MAC-d Flow ID
M

9.2.1.91

>>Binding ID
O

9.2.1.3

>>Transport Layer Address
O

9.2.1.62

>HARQ Process Allocation For 2ms Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O

>Maximum Uplink SIR
O

Uplink SIR
9.2.1.69

>Minimum Uplink SIR
O

Uplink SIR
9.2.1.69

>Maximum DL TX Power
O

DL Power
9.2.1.21A

>Minimum DL TX Power
O

DL Power
9.2.1.21A

>Primary CPICH Usage For Channel Estimation
O

9.2.2.32A

>Secondary CPICH Information Change 
O

9.2.2.38B

>F-DPCH Slot Format
O

9.2.2.85


Range bound
Explanation
maxNrOfEDCHRLs
Maximum number of E-DCH RLs for one UE.
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.2.2.122	Additional E-DCH FDD Update Information
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HARQ Process Allocation For 2ms Scheduled Transmission Grant
O

HARQ Process Allocation for 2ms TTI
9.2.2.4O

Additional E-DCH DL Control Channel Change Information

0..<maxNrOfEDCHRLs>


>E-DCH Additional RL ID
M

RL ID
9.2.1.49


Range bound
Explanation
maxNrOfEDCHRLs
Maximum number of E-DCH RLs for one UE.

9.2.2.123	Cell Capability Container Extension FDD
The Cell Capability Container Extension FDD IE is an extension to the Cell Capability Container FDD IE and indicates the cell capability in the same way as Cell Capability Container Extension FDD IE. 
The cell capability of multi-cell related functions may depend on that the cell is multi-cell capable (adjacent and/or non-adjacent carrier) or Dual Band capable. Such support indicators in this Cell Capability Container Extension FDD IE shall be ignored by the SRNC if the cell does not have the required support indicated in the Cell Capability Container FDD IE: Multi Cell Support Indicator = "1" and/or Dual Band Support Indicator = "1". Support indicators that depend on multi-cell (adjacent and/or non-adjacent carrier) support are indicated in the table below with /Adjacent-carrier/. Support indicators that depend on Dual Band support are indicated in the table below with /Dual-band/. Support indicators that depend on that the cell supports one or both of multi-cell (adjacent and/or non-adjacent carrier) and Dual Band are indicated in the table below with /Multi-cell/. The marked support indicators indicate the support regardless of the supported multi-cell type in a multicell configuration: supported multi-cell type is - both serving HS-DSCH and secondary serving HS-DSCH, - secondary serving HS-DSCH or - serving HS-DSCH. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell Capability Container Extension FDD


BIT STRING (SIZE(128))
Each bit indicates whether a cell supports a particular functionality or not. The value 1 of a bit indicates that the corresponding functionality is supported in a cell and value 0 indicates that the corresponding functionality is not supported in a cell. Each bit is defined as follows.
The first bit: Cell Specific Tx Diversity Handling For Multi Cell Operation Support Indicator, /Multi-cell/.
The second bit: Multi Cell and MIMO Support Indicator, /Adjacent-carrier/.
The third bit: Multi Cell and Single Stream MIMO Support Indicator, /Adjacent-carrier/.
The fourth bit: Multi Cell E-DCH Support Indicator, /Adjacent-carrier/.
This bit shall be ignored by the SRNC if the fifth bit: Separate Iur Transport Bearer Support Indicator = “0” and the sixth bit: E-DCH UL Flow Multiplexing Support Indicator = “0”
The fifth bit: Separate Iur Transport Bearer Support Indicator, /Adjacent-carrier/.
This bit shall be ignored by the SRNC if the fourth bit: Multi Cell E-DCH Support Indicator = “0”
The sixth bit: E-DCH UL Flow Multiplexing Support Indicator, /Adjacent-carrier/.
This bit shall be ignored by the SRNC if the fourth bit: Multi Cell E-DCH Support Indicator = “0”
The seventh to eleventh bit: Maximum No of HSDPA Frequencies Support Indicator, /Multi-cell/.
This support indicator is coded as the binary representation of the maximum number of HSDPA frequencies, with the seventh bit as the MSB and the eleventh bit as the LSB.
Hexadecimal digit 0 means no support for 3 or more HSDPA carriers. Hexadecimal digits 1 and 2 are reserved.
The twelfth bit: Dual Band and MIMO Support Indicator, /Dual Band/.
The thirteenth bit: HSDPA 3 or more Carrier and MIMO Single Band Support Indicator, /Adjacent-carrier/
The fourteenth bit: HSDPA 3 or more Carrier and MIMO Dual Band Support Indicator, /Dual Band/.
The fifteenth bit: Dual band and Single Stream MIMO Support Indicator,/Dual Band/.
The sixteenth bit: HSDPA 3 or more Carrier and Single Stream MIMO Single Band Support Indicator, /Adjacent-Carrier/.
The seventeenth bit: HSDPA 3 or more Carrier and Single Stream MIMO Dual Band Support Indicator,/Dual Band/.
The eighteenth bit: Frequency Specific Compress Mode Capability/Multi-cell/.
The nineteenth bit: UL CLTD capability.
The twentieth to twenty-second bit: Supported MIMO transmit antennas (N). This capability is coded as the representation of the supported MIMO transmit antennas with the twentieth bit as the MSB and the twentys-econd bit as the LSB. Hexadecimal digit 0 means no support for more than 2 MIMO transmit antennas. Hexadecimal digit 2 means MIMO with four transmit antennas support.
Hexadecimal digit 1 is reserved. Undefined values are considered as spare.
The twenty-third bit: MIMO with N transmit antennas Capability Adjacent-carrier.
The twenty-fourth bit: MIMO with N transmit antennas Capability Dual Band/Dual Band.
The twenty-fifth bit: Multi Cell and MIMO with N transmit antennas Capability Adjacent-carrier.
The twenty-sixth bit: Multi Cell and MIMO with N transmit antennas Capability Dual Band/Dual Band.
The twenty-seventh bit: HSPA 3 or more Carrier and MIMO with N transmit antennas Capability Adjacent-carrier.
The twenty-eighth bit: HSPA 3 or more Carrier and MIMO with N transmit antennas Capability Dual Band/Dual Band.

This 3GPP release supports MIMO with four transmit antennas for up to 4 carriers.

The twenty-ninth bit:
Intra-Node B Multiflow.
The thirtieth bit:
Inter-Node B Multiflow.
The thirty-first to thirty-third bits: Supported Multiflow configuration, where value 0 indicates support for one frequency two cells, value 1 indicates support for two frequencies three cells, value 2 indicates support for two frequencies four cells. Value 3 indicates support for three frequencies four cells. Values 4-7 are reserved for future use.
The thirty-fourth bit: Multiflow and MIMO.
The thirty-fifth bit: Cell Specific Tx Diversity Handling For Multiflow Cell Operation.
The thirty-sixth bit: Multiflow and single stream MIMO.

The thirty-seventh bit: UL SixtyfourQAM capability.
The thirty-eighth bit: UL MIMO capability.
The thirty-ninth bit: UL MIMO and SixteenQAM capability.
The fourtieth bit: UL MIMO and SixtyfourQAM capability.

The forty-first bit: Common E-RGCH capability.

The forty-second bit: E-DCH Decoupling capability.

The forty-third bit: Basic DCH Enhancements Capability [71].
The forty-fourth bit: Full DCH Enhancements Capability [71].

The forty-fifth bit: Radio Links without DPCH/F-DPCH capability.
The forty-sixth bit: UL DPCCH2 capability.

The forty-seventh bit: feEUL TTI switching Node B Autonomous Capability.
The forty-eighth bit: feEUL TTI switching RNC notify Capability.

The forty-ninth bit: downlink TPC enhancements Capability.

The fiftieth bit: NAICS offloading Capability.

The fifty-first bit: Multi Cell E-DCH with DPDCH Capability.

The fifty-second bit: Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Capability.

The fifty-third bit: Dual Cell E-DCH operation enhancements with different TTI Capability.

The fifty-fourth bit: Simplified HS-SCCH type 1 operation capability.

Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver. Note that Reserved bits are not considered as a spare bit. They shall however be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.2.124	Non-Serving RL Preconfiguration Setup
The Non-Serving RL Preconfiguration Setup IE indicates that the DRNS may preconfigure E-DCH DL Code Information configured for new non-serving RL for Enhanced Service Cell Change and contains the information for the location of new serving RL after the Enhanced Serving Cell Change.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
CHOICE new Serving RL
M



–

>New Serving RL in the DRNS


NULL

–

>New Serving RL Not in the DRNS


NULL

–

>New Serving RL in the DRNS or New Serving RL Not in the DRNS


NULL

–

Additional E-DCH Non-Serving RL Preconfiguration Setup 
O

NULL

YES
ignore
F-TPICH Information
O

9.2.2.139

YES
ignore

9.2.2.125	Non-Serving RL Preconfiguration Info
The Non-Serving RL Preconfiguration Info IE provides information for the new non-serving RL after Enhanced Serving Cell Change.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
New non-serving RL E-DCH FDD DL Control Channel Information A
O

9.2.2.4D 
E-DCH FDD DL Control Channel Information
E-DCH FDD DL Control Channel Information for non-serving RL in Serving E-DCH RLS.
–

New non-serving RL E-DCH FDD DL Control Channel Information B
O

9.2.2.4D
E-DCH FDD DL Control Channel Information
E-DCH FDD DL Control Channel Information for non-serving RL in non serving E-DCH RLS in in case serving RL is in the DRNS.
–

New non-serving RL E-DCH FDD DL Control Channel Information C
O

9.2.2.4D
E-DCH FDD DL Control Channel Information
E-DCH FDD DL Control Channel Information for non-serving RL in case serving RL is not in the DRNS.
–

Additional E-DCH New non-serving RL E-DCH FDD DL Control Channel Information

0..<maxNrOfEDCH-1>

E-DCH on Secondary uplink frequency - max 1 in this 3GPP release.
EACH
ignore
>New non-serving RL E-DCH FDD DL Control Channel Information A
O

9.2.2.13Dc
E-DCH FDD DL Control Channel Information
E-DCH FDD DL Control Channel Information for Additional non-serving RL in Serving E-DCH RLS.
–

>New non-serving RL E-DCH FDD DL Control Channel Information B
O

9.2.2.13Dc
E-DCH FDD DL Control Channel Information
E-DCH FDD DL Control Channel Information for Additional non-serving RL in non serving E-DCH RLS in case Additional serving RL is in the DRNS.
–

>New non-serving RL E-DCH FDD DL Control Channel Information C
O

9.2.2.13Dc
E-DCH FDD DL Control Channel Information
E-DCH FDD DL Control Channel Information for Additional non-serving RL in case Additional serving RL is not in the DRNS.
–

F-TPICH Information Response
O 

9.2.2.143

YES
ignore

Range bound
Explanation
maxNrOfEDCH-1
Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.2.2.126	Void
9.2.2.127	Usefulness of Battery Optimization
This IE, when present, indicates whether the device can benefit from UTRAN-based battery consumption optimisation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Usefulness of Battery Optimization


ENUMERATED (
CanBenefit,
CannotBenefit
)


9.2.2.128	M1 Report
This IE defines the parameters for M1 report, FDD report of UE radio measurements. This IE is not used by the DRNS.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
M1 Report




>CHOICE Report trigger
M



>>Periodic




>>>MDT Report Parameters
M

9.2.1.140

>>Event1F




>>>Measurement quantity
M

ENUMERATED(
CPICH Ec/N0,
CPICH RSCP,
Pathloss, ...)

>>>threshold
M

INTEGER(-120…165)
Range used depends on
measurement quantity.
CPICH RSCP -120..-25
dBm.
CPICH Ec/No -24..0 dB
Pathloss 30..165dB.

9.2.2.129	Support of Dynamic DTXDRX Related HS-SCCH Order
The Support of dynamic DTXDRX related HS-SCCH order IE is to indicate if DRNS supports the DRX/DTX related HS-SCCH order for CPC non-uniform UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Support of dynamic DTXDRX related HS-SCCH order


ENUMERATED (Supported, Not Supported)


9.2.2.130	UL CLTD Information Reconf
The UL CLTD Information Reconf IE is used for the reconfiguration of the UL CLTD operation in a UE context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Setup, Configuration Change or Removal of UL CLTD

1


>Setup



Used when UL CLTD is not configured in the current UE Context.
>>UL CLTD Information
M

9.2.2.131

>Configuration Change



Used when the existing UL CLTD configuration in the current UE context is modified. 
>>UL CLTD Information To Modify
M

9.2.2.132

>Removal



Used when the existing UL CLTD configuration in the current UE context is removed.
>>UL CLTD Information Removal
M

9.2.2.133


9.2.2.131	UL CLTD Information
The UL CLTD Information IE defines the parameters used for UL CLTD operation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
S-DPCCH Power Offset Information
M

9.2.2.137

C-ID
C-DCHorMultiflow

9.2.1.6

UL CLTD Activation Information
O

9.2.2.138


Condition
Explanation
DCHorMultiflow
The IE shall be present if there is no serving E-DCH RL or HS-DSCH RL configuration in the concerned UE context. If the Multiflow operation is configured, then this IE may indicate the Multiflow assisting serving cell.

9.2.2.132	UL CLTD Information To Modify
The UL CLTD Information To Modify IE is used for modification of UL CLTD information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
S-DPCCH Power Offset Information
O

9.2.2.137

C-ID
O

9.2.1.6

UL CLTD Activation Information
O

9.2.2.138


9.2.2.133	UL CLTD Information Removal
The UL CLTD Information Removal IE is used for removal of UL CLTD information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UL CLTD Information Removal


ENUMERATED (Remove, ...)


9.2.2.134	UL CLTD State Update Information
The UL CLTD State Update Information IE provides information for the activation state of UL CLTD of the UE to be updated.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description 
UL CLTD State Update Information


ENUMERATED
(Activate,De-activate, ...)
The suggested UL CLTD activation state.

9.2.2.135	F-TPICH Slot Format
Indicates the slot format used in F-TPICH in DL, accordingly to TS 25.211 [8].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-TPICH Slot Format


INTEGER (0..9,…)


9.2.2.136	F-TPICH Offset
The F-TPICH Offset is defined as the time offset towards the Primary CCPCH in the cell. The offset is a multiple of 256 chips.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-TPICH Offset


INTEGER (0..149)
Range: 0..38144 chips.
Step: 256 chips.
See TS 25.211 [8].

9.2.2.137	S-DPCCH Power Offset Information
The S-DPCCH Power Offset is used to calculate the S-DPCCH gain factor, sc, as defined in TS 25.214 [10], whereas scis related to the power difference between DPCCH and S-DPCCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
S-DPCCH Power Offset Information


INTEGER (0..6,...)
According to mapping in TS 25.213 [21] subclause 4.2.1.4.

9.2.2.138	UL CLTD Activation Information
The UL CLTD Activation Information IE defines the activation state of the UE in UL CLTD operation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description 
>UL CLTD Activation State
M

ENUMERATED
(Activated, 
De-activated, ...)
The activation state of the UL CLTD.

9.2.2.139	F-TPICH Information
The F-TPICH Information IE defines the parameters used for F-TPICH configuration.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-TPICH Offset 
M

9.2.2.136


9.2.2.140	F-TPICH Information To Modify
The F-TPICH Information To Modify IE is used for modification of F-TPICH configuration.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-TPICH Offset 
O

9.2.2.136


9.2.2.141	F-TPICH Information Removal
The F-TPICH Information Removal IE is used for removal of F-TPICH information of a RL.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-TPICH Information Removal


ENUMERATED (Remove, ...)


9.2.2.142	F-TPICH Information Reconf
The F-TPICH Information Reconf IE is used for the reconfiguration of the UL CLTD operation of a RL.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Setup, Configuration Change or Removal of F-TPICH Information

1


>Setup



Used when F-TPICH is not configured in the current RL.
>>F-TPICH Information
M

9.2.2.139

>Configuration Change



Used when the existing UL F-TPICH configuration in the current RL is modified. 
>>F-TPICH Information To Modify
M

9.2.2.140

>Removal



Used when the existing UL F-TPICH in the current RL is removed.
>>F-TPICH Information Removal
M

9.2.2.141


9.2.2.143	F-TPICH Information Response
The F-TPICH Information Response IE provides F-TPICH information determined within the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-TPICH Slot Format
M

9.2.2.135

F-TPICH Channelisation Code Number
M

FDD DL Channelisation Code Number 9.2.2.14


9.2.2.144	F-TPICH Reconfiguration Information
The F-TPICH Reconfiguration Information IE provides F-TPICH reconfiguration information triggered by the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-TPICH Slot Format
O

9.2.2.135

F-TPICH Channelisation Code Number
O

FDD DL Channelisation Code Number 9.2.2.14


9.2.2.145	MIMO with four transmit antennas Activation Indicator
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MIMO with four transmit antennas Activation Indicator
M

NULL


9.2.2.146	MIMO with four transmit antennas Mode Indicator
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MIMO with four transmit antennas Mode Indicator
M

ENUMERATED (Activate, Deactivate)


9.2.2.147	Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator
The Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is present when the SRNC needs the DRNS to supply, if possible, the Power Offset For S-CPICH for MIMO with four transmit antennas IE when S-CPICH and additional S-CPICH is used as a phase reference for additional transmit antenna in MIMO with four transmit antennas mode TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator
M

NULL


9.2.2.148	Power Offset For S-CPICH for MIMO with four transmit antennas
The Power Offset For S-CPICH for MIMO with four transmit antennas IE indicates the the relative transmit power of the Associated S-CPICH compared to the primary CPICH transmit power, when S-CPICH is used as a phase reference for additional transmit antenna in MIMO with four transmit antennas mode TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Associated Secondary CPICH

1..<maxSCPICHCell>

For MIMO with four transmit antennas.
The 3rd and the 4th S-CICH should have the same power offset;
The 3rd and the 4th D-CPICH should have the same power offset.
>Associated S-CPICH Channelisation Code
M

INTEGER (0..255)

>Power Offset for Associated S-CPICH 
M

INTEGER (-12..0)
Offset in dB
>Associated D-CPICH Channelisation Code
M

INTEGER (0..255)

>Power Offset for Associated D-CPICH 
M

INTEGER (-12..0)
Offset in dB

Range Bound
Explanation
maxSCPICHCell
Maximum number of Secondary CPICHs that can be defined in a Cell.

9.2.2.149	Dual Stream MIMO with four transmit antennas Activation Indicator
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Dual Stream MIMO with four transmit antennas Activation Indicator
M

NULL


9.2.2.150	Dual Stream MIMO with four transmit antennas Mode Indicator
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Dual Stream MIMO with four transmit antennas Mode Indicator
M

ENUMERATED (Activate, Deactivate)


9.2.2.151	Multiflow Reconfiguration
The Multiflow Reconfiguration IE is used setup, reconfigure, and stop Multiflow operation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Setup, or Change, or Stop 

1


>Setup 



Used when Multiflow is not configured. 
>>Multiflow Information
M

9.2.2.152

>Change



Used when Multiflow configuration changes.
>>Multiflow Information To Modify
M

9.2.2.153

>Stop



Used when the existing Multiflow configuration is removed.
>>Multiflow Stop
M

9.2.2.154


9.2.2.152	Multiflow Information
The Multiflow Information IE defines parameters to setup Multiflow operation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Total number of HS-DSCH cells
M

INTEGER (2..32,...)
Total number of HS-DSCH cells configured for Multiflow.
-

Role
M

Multiflow Role 9.2.2.155

-

MIMO
M

Multiflow MIMO 9.2.2.156



Timing
O

Multiflow Timing 9.2.2.157
In the inter-Node B Multiflow case, if present, this IE provides the timing information.


Max number of HS-SCCH sets per Node B
O

INTEGER (1..16,...)
Maximum number of HS-SCCH that can be allocated per Node B
-

Assisting repetition factors
O

Multiflow Repetition Factors 9.2.2.168
Additional HS-DPCCH repetition factors
YES
ignore

9.2.2.153	Multiflow Information To Modify
The Multiflow Information To Modify IE defines parameters to reconfigure Multiflow operation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Total number of HS-DSCH cells
O

INTEGER (2..32,...)
Total number of HS-DSCH cells configured for Multiflow.
-

Role
O

Multiflow Role 9.2.2.155

-

MIMO
O

Multiflow MIMO 9.2.2.156



Timing
O

Multiflow Timing 9.2.2.157
In the inter-Node B Multiflow case, if present, this IE provides the timing information.


Max number of HS-SCCH sets per Node B
O

INTEGER (1..16,...)
Maximum number of HS-SCCH that can be allocated per Node B
-

Assisting repetition factors
O

Multiflow Repetition Factors 9.2.2.168
Additional HS-DPCCH repetition factors
YES
ignore

9.2.2.154	Multiflow Stop
The Multiflow Stop IE is used when the Multiflow operation is terminated.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Multiflow Stop
M

ENUMERATED (Stop, ...)


9.2.2.155	Multiflow Role
The Multiflow Role IE is used to specify primary or assisting Multiflow operation mode.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Multiflow Role
M

ENUMERATED (Primary, Assisting, ...)
This IE indicates whether Node B is configured with the primary serving HS-DSCH cell or assisting serving HS-DSCH cell.

9.2.2.156	Multiflow MIMO
The Multiflow MIMO IE is used to specify whether MIMO is configured for at least one of the cells.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Multiflow MIMO
M

ENUMERATED (ON, OFF, ...)


9.2.2.157	Multiflow Timing
The Multiflow Timing IE is used to specify timing information for the Multiflow operation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Time Reference, or Non-time Reference

1


>Time Reference


NULL
This indicates that the cell in the Multiflow time-reference cell (refer to TS 25.211, sub-clause 7.7.1).
>Non-time Reference


INTEGER
(0..30,...)
Unit: chip
Range: 0..7680 chips
Step: 256 chips

This IE indicates that the cell is a non-time reference cell. The value corresponds to the smallest TTX_diff value of the time reference cell (refer to TS25.211, sub-clause 7.7.1) and is used to calculate the HS-DPCCH to UL DPCCH timing difference in the non-time reference cell (refer to TS 25.211, sub-caluse 7.7.2).

9.2.2.158	UL MIMO Reconfiguration
The UL MIMO Reconfiguration IE is used for the reconfiguration of the UL MIMO operation in a UE context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Setup, Configuration Change or Removal of UL MIMO

1


>Setup



Used when UL MIMO is not configured in the current UE Context.
>>UL MIMO Information
M

9.2.2.159

>Configuration Change



Used when the existing UL MIMO configuration in the current UE context is modified.
>>UL MIMO Information To Modify
M

9.2.2.160

>Removal



Used when the existing UL MIMO configuration in the current UE context is removed.
>>UL MIMO Information Removal
M

9.2.2.161


9.2.2.159	UL MIMO Information
The UL MIMO Information IE defines the parameters used for UL MIMO operation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-ROCH Power Offset
O

9.2.2.163

S-E-DPCCH Power Offset 
M

9.2.2.164

Inter-stream Interference Compensation Index
M

9.2.2.165

Minimum E-TFCI for rank 2 transmissions
M

INTEGER (0..127)
For the concept of "Minimum TB size for rank 2 transmissions" see TS 25.321 [32] and TS 25.331 [18].

9.2.2.160	UL MIMO Information To Modify 
The UL MIMO Information To Modify IE is used for modification of UL MIMO information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-ROCH Power Offset
O

9.2.2.163

S-E-DPCCH Power Offset 
O

9.2.2.164
According to S-E-DPCCH mapping in TS 25.213 [9] subclause 4.2.1.5.
Inter-stream Interference Compensation Index
O

9.2.2.165

Minimum E-TFCI for rank 2 transmissions
O

INTEGER (0..127)
For the concept of "Minimum TB size for rank 2 transmissions" see TS 25.321 [32] and TS 25.331 [18].

9.2.2.161	UL MIMO Information Removal
The UL MIMO Information Removal IE is used for removal of UL MIMO information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UL MIMO Information Removal
M

ENUMERATED (Remove, ...)


9.2.2.162	UL MIMO DL Control Channel Information
UL MIMO DL Control Information contains the Node B allocation of the UL MIMO specific DL control channels. Secondary Transport Block E-HICH Signature Sequence is used to acknowledge the secondary transport block transmitted in the uplink, and it uses the same channelization code as the E-HICH used for non-MIMO and primary transport block acknowledgements. E-ROCH Channelization Code is selected from the pool allocated for E-AGCH codes.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-ROCH Channelization Code
O

FDD DL Channelisation Code Number
9.2.2.14
Should be present for the serving E-DCH cell only.
Secondary Transport Block E-RNTI
O

E-RNTI 9.2.1.75
E-ROCH S-E-RNTI as defined in TS 25.212 [8] subclause 4.10A.
Secondary Transport Block E-HICH Signature Sequence
O

INTEGER (0..maxnoofSigSeqE-RGHICH - 1)
One Secondary TB E-HICH signature sequence should be present at least for the serving E-DCH cell.
Secondary Transport Block E-HICH Release Indicator
O

9.2.2.166


Range Bound
Explanation
maxnoofSigSeqE-RGHICH
Maximum number of Signature Sequences for E-RGCH/E-HICH.

9.2.2.163	E-ROCH Power Offset
The E-ROCH Power Offset IE indicates the power offset relative to the pilot bits.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-ROCH Power Offset
M

INTEGER (0…255,…)
Unit: dB
Range: -32 .. +31.75 dB
Step: 0.25 dB

9.2.2.164	S-E-DPCCH Power Offset
The S-E-DPCCH Power Offset is used to calculate the S-E-DPCCH gain factor sec as defined in TS 25.214 [10], whereas sec is related to the power difference between DPCCH and S-E-DPCCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
S-E-DPCCH Power Offset
M

INTEGER (0..17,...)
According to S-E-DPCCH mapping in TS 25.213 [9] subclause 4.2.1.5.

9.2.2.165	Inter-stream Interference Compensation Index
The Inter-stream Interference Compensation Index IE indicates an offset that a UE applies while performig the E-TFC selection for the primary stream.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Inter-stream Interference Compensation Index
M

INTEGER (0..15,...)
According to ISImapping in TS 25.213 [9] subclause 4.2.1.3.

9.2.2.166	Secondary Transport Block E-HICH Release Indicator
Indicates the release of the Uplink MIMO transmission’s Secondary Transport Block E-HICH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Secondary Transport Block E-HICH Release Indicator
M

ENUMERATED (Secondary Transport Block E-HICH released)


9.2.2.167	Precoder weight set restriction 
This parameter defines the preferred precoding weight set restriction configuration as defined in TS 25.214 [10].

IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Precoder weight set restriction


BIT STRING (SIZE(64))
Each bit indicates whether a code in the Codebook is supported or not. The value 1 of a bit indicates that the corresponding code in the codebook is supported and value 0 indicates that the corresponding code in the Codebook is not supported.

Note:Bit mapping is as defned in TS 25.331 [16]. If the bit has no corresponding code in the Codebook, it is set to 0.

9.2.2.168	Multiflow Repetition Factors
The Multiflow Repetition Factors IE is used to indicate repetition factors for the HS-DPCCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Assisting CQI Repetition Factor
O

CQI Repetition Factor
9.2.2.24c
In the intra-Node B Multiflow case, if present, this IE provides the Node B with the number of repetitions of the assisting QCI information in the HS-DPCCH [10].
Assisting ACK-NACK Repetition Factor
O

ACK-NACK Repetition Factor
9.2.2.a
In the intra-Node B Multiflow case, if present, this IE provides the Node B with the number of repetitions of the assisting ACK-NACK information in the HS-DPCCH [10].

9.2.2.169	E-DCH Decoupling Indication
The E-DCH Decoupling Indication IE indicates the role of cell will be changed to Serving E-DCH cell only or Serving HS-DSCH cell only.

IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH Decoupling Indication


ENUMERATED (Serving E-DCH cell only, Serving HS-DSCH cell only, ...)
This IE indicates whether the related cell in DRNC is configured to Serving E-DCH cell only or Serving HS-DSCH cell only for E-DCH decoupling operation.

9.2.2.170	DCH Enhancements Information Reconf
The DCH Enhancements Information Reconf IE is used for the reconfiguration of the DCH Enhancements [71] operation in a UE context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Setup, Configuration Change or Removal of DCH Enhancements




>Setup



Used when DCH Enhancements are not configured in the current UE Context
>>DCH Enhancements Information
M

9.2.2.171

>Configuration Change



Used when the existing DCH Enhancements configuration in the current UE context is modified 
>>DCH Enhancements Information to Modify
M

9.2.2.172

>Removal



Used when the existing DCH Enhancements configuration in the current UE context is removed.
>>DCH Enhancements Information Removal
M

9.2.2.173


9.2.2.171	DCH Enhancements Information
The DCH Enhancements Information IE defines the parameters used for DCH Enhancements operation [71].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
PO2-SRB
M

Power Offset
9.2.2.29
Power boost to be applied to the DL DPDCH under the conditions defined in [10].
DL_FET Mode
M

ENUMERATED (basic, 
full,
…)
Indicates the DCH Enhancements configuration mode, as defined in TS 25.300 [71].
DL DCH Concatenation
C-FET
1..<maxNrOfConcatenatedDCH>

If present, this IE provides the list of DL Transport Channels that are subject to concatenation in the physical layer [9].
>DCH ID
M

9.2.1.16


Condition
Explanation
FET
The IE shall be present if the DL FET Mode IE is set to "full".

Range Bound
Explanation
maxNrOfConcatenatedDCH
Maximum number of concatenated DCHs.

9.2.2.172	DCH Enhancements Information to Modify
The DCH Enhancements Information to Modify IE is used for modification of DCH Enhancements information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
PO-SRB
O

Power Offset
9.2.2.29
Power boost to be applied to the DL DPDCH under the conditions defined in [10].
DL FET Mode
O

ENUMERATED (basic, 
full,
…)
Indicates the DCH Enhancements configuration mode, as defined in TS 25.300 [71].
DL DCH Concatenation
C-FET
1..<maxNrOfConcatenatedDCH>

If present, this IE provides the list of DL Transport Channels that are subject to concatenation in the physical layer [8].
>DCH ID
M

9.2.1.16


Condition
Explanation
FET
The IE shall be present if the DL FET Mode IE is present and set to "full".

Range Bound
Explanation
maxNrOfConcatenatedDCH
Maximum number of concatenated DCHs.

9.2.2.173	DCH Enhancements Information Removal
The DCH Enhancements Information Removal IE is used for removal of DCH Enhancements information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DCH Enhancements Information Removal


ENUMERATED (Remove, ...)


9.2.2.174	Gain Factors 10ms Mode
The Gain Factors 10ms Mode IE is used to configure the gain factors in 10ms Transmission Mode [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Gain Factors 10ms




>Signalled Gain Factors 10ms




>>Gain Factor 10ms bC
M

INTEGER (0..15)
For UL DPCCH in FDD with 10ms Transmission Mode; mapping according to TS 25.213 [21]
>>Gain Factor 10ms bD
M

INTEGER (0..15)
For UL DPCCH in FDD with 10ms Transmission Mode; mapping according to TS 25.213 [21]
>>Reference TFC nr 10ms
O

INTEGER (0..3)
If this TFC is a reference TFC, this IE indicates the reference number.
>Computed Gain Factors 10ms




>>Reference TFC nr 10ms
M

INTEGER (0..3)
Indicates the reference TFC to be used to calculate the gain factors for this TFC.

9.2.2.175	Extended E-DPCCH Power Offset
The Extended E-DPCCH Power Offset IE is used to calculate the E-DPCCH gain factor ec as defined in TS 25.214 [10], whereas ec is related to the power difference between DPCCH and E-DPCCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended E-DPCCH Power Offset


INTEGER (9..15)
According to mapping in TS 25.213 [21] subclause 4.2.1.3.

9.2.2.176	Radio Links without DPCH/F-DPCH Indication
The Radio Links without DPCH/F-DPCH Indication IE indicates whether to start operation with Radio Links without DPCH/F-DPCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Radio Links without DPCH/F-DPCH Information

1..<maxNrOfRLs>


>RL ID
M

9.2.1.49

>Radio Links without DPCH/F-DPCH Operation indicator
M

ENUMERATED (True)
This IE indicates that the E-DCH radio link is setup without transmission of DPCH/F-DPCH.

Range bound
Explanation
maxNrOfRLs
Maximum number of Radio Links for one UE.

9.2.2.177	UL DPCCH2 Reconfiguration
The UL DPCCH2 Reconfiguration IE is used for the reconfiguration of the UL DPCCH2 operation in a UE context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Setup, Configuration Change or Removal of UL DPCCH2

1


>Setup



Used when UL DPCCH2 is not configured in the current UE Context
>>UL DPCCH2 Information
M

9.2.2.178

>Configuration Change



Used when the existing UL DPCCH2 configuration in the current UE context is modified 
>>UL DPCCH2 Information To Modify
M

9.2.2.179

>Removal



Used when the existing UL DPCCH2 configuration in the current UE context is removed.
>>UL DPCCH2 Information Removal
M

9.2.2.180


9.2.2.178	UL DPCCH2 Information
The UL DPCCH2 Information IE defines the parameters used for UL DPCCH2 operation according to ref TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-DPCH info

1

Used when UL DPCCH2 is configured.
>F-DPCH Slot Format
M

9.2.2.85

>FDD DL Channelisation Code Number
M

9.2.2.14

>Extended E-DPCCH Power Offset
O

9.2.2.175


9.2.2.179	UL DPCCH2 Information To Modify
The UL DPCCH2 information To Modify IE is used for modification of UL DPCCH2 information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
F-DPCH info To Modify

0..1

Used when UL DPCCH2 is configured.
>F-DPCH Slot Format
O

9.2.2.85

>FDD DL Channelisation Code Number
O

9.2.2.14

>Extended E-DPCCH Power Offset
O

9.2.2.175


9.2.2.180	UL DPCCH2 Information Removal
The UL DPCCH2 Information Removal IE is used for removal of UL DPCCH2 information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UL DPCCH2 Information Removal


ENUMERATED (Remove, ...)


9.2.2.181	CQI Feedback Cycle2 k
The CQI Feedback Cycle2 k IE provides the duration of the CQI feedback cycle.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CQI Feedback Cycle2 k


ENUMERATED 
(v0, v8, v10, v16, v20, v32, v40, v64, v80, v160, ...)
Unit ms.
The allowed values for this IE depend on the configured CQI Repetition Factor and the HS-DSCH configuration as defined in TS 25.331 [16].
CQI Feedback Cycle2 k value shall be an integer multiple of the CQI Feedback Cycle k.

9.2.2.182	UE Measurement Forwarding
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Measurement ID
M

9.2.1.37
When reporting the “UPH Filtering Value”:
Measurement ID 1 indicates Primary UL frequency; 
Measurement ID 2 indicates the Secondary UL frequency.
UE Measurement Value
M

9.2.2.183


9.2.2.183	UE Measurement Value
The UE Measurement Value contains the value to be forwarded.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Dedicated Measurement Value
M



>UPH Filtering Value




>>UPH Filtering Value
M

INTEGER (0..32)
According to mapping in TS 25.321 [41].

9.2.2.184	TTI Update Indication
The TTI Update Indication indicates that the TTI switching has been triggered and confirmed by the UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE TTI Update Indication
M



>TTI Update CFN




>>CFN
M

CFN 9.2.1.7

>TTI Update Indicator


NULL


9.2.2.185	Activation Delay
The Activation Delay IE is the same value as the RNC sends to the UE for the TTI swiching by the HS-SCCH Order.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Activation Delay


ENUMERATED (v0, v1, v2, v3, v4, v5,...)
In radio frames. Refer to TS 25.331 [18]

9.2.2.186	Fast TTI switching Mode Supported
The Fast TTI switching Mode Supported indicates which Fast TTI switching mode is supported by the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Fast TTI Switching Support Mode


ENUMERATED 
(Mode 1, Mode 2)


9.2.2.187	Fast TTI switching Mode Requested Synchronized
The Fast TTI switching Mode Requested Synchronized indicates which Mode is requested.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Fast TTI switching Mode Synchronized
M



>Mode 1


NULL

>Mode 2




>>CFN
M

CFN 9.2.1.7


9.2.2.188	Fast TTI switching Mode Requested UnSynchronized
The Fast TTI switching Mode Requested UnSynchronized indicates which Mode is requested.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Fast TTI switching Mode Unsynchronized
M



>Mode 1




>>Activation Delay
M

9.2.2.185

>Mode 2




>>CFN
M

CFN 9.2.1.7


9.2.2.189	PLMN Identity
This information element is used to uniquely indicate a PLMN.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PLMN identity
M

OCTET STRING (SIZE(3))
- digits 0 to 9, encoded 0000 to 1001,
- 1111 used as filler digit,
two digits per octet,
- bits 4 to 1 of octet n encoding digit 2n-1,
- bits 8 to 5 of octet n encoding digit 2n.

- The PLMN identity consists of 3 digits from MCC followed by either 
- a filler digit plus 2 digits from MNC (in case of 2 digit MNC) or 
- 3 digits from MNC (in case of a 3 digit MNC).

9.2.2.190	Downlink TPC enhancements Information
The Downlink TPC enhancements Information IE defines the parameters used for Downlink TPC enhancements operation according to ref TS 25.214 [10].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Decimation factor for primary frequency
O

ENUMERATED (3 slots, 5 slots)

Decimation factor for secondary frequency
O

ENUMERATED (3 slots, 5 slots)


9.2.2.191	Downlink TPC enhancements Reconf
The Downlink TPC enhancements Reconf IE is used for the reconfiguration of the Dowlink TPC enhancements operation in a UE context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Setup, Configuration Change or Removal of Downlink TPC enhancements

1


>Setup



Used when Downlink TPC enhancements is not configured in the current UE Context
>>Downlink TPC enhancements Information
M

9.2.2.190

>Configuration Change



Used when the existing Downlink TPC enhancements configuration in the current UE context is modified 
>>Downlink TPC enhancements Information To Modify
M

Downlink TPC enhancements Information
9.2.2.190

>Removal



Used when the existing Downlink TPC enhancements configuration in the current UE context is removed.
>>Downlink TPC enhancements Information Removal
M

9.2.2.192


9.2.2.192	Downlink TPC enhancements Information Removal
The Downlink TPC enhancements Information Removal IE is used for removal of Downlink TPC enhancements information in a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Downlink TPC enhancements Information Removal


ENUMERATED (Remove, ...)


9.2.2.193	TPC slot position
The TPC slot position IE is used to configure TPC slot position for power control Algorithm 3.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Slot position
O

INTEGER (0..4)


9.2.2.194	Dual Cell E-DCH Operation Enhancements Information
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-TTI
M

ENUMERATED (2ms, 10ms)

E-DCH Reference E-TFCI Information

0..<maxNrOfRefETFCIs>


> E-DCH Reference E-TFCI
O

INTEGER (0..127)

> E-DCH Reference E-TFCI Power Offset
O

INTEGER (0..31)
According to mapping in ref. TS 25.213 [9] subclause 4.2.1.3
E-DCH E-TFCI Boost Information
O

E-TFCI Boost Information 9.2.2.91

E-DCH E-DPCCH Power Offset
O

E-DPCCH Power Offset 9.2.2.4K

E-DCH E-TFCI Table Index
O

INTEGER (0..1,..., 2..7)

E-DCH Power Offset for Scheduling Info
O

E-DCH Power Offset for Scheduling Info 9.2.1.96

E-DCH Maximum Set of E-DPDCHs


Maximum Set of E-DPDCHs 9.2.2.24e


9.2.3	TDD Specific Parameters
This subclause contains parameters that are specific to TDD.
9.2.3.a	Alpha Value
Used to support signalling of cell specific Alpha Value to SRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Alpha Value


ENUMERATED(0, 1/8, 2/8, 3/8, 4/8, 5/8, 6/8, 7/8, 1)


9.2.3.A	Block STTD Indicator
Void.
9.2.3.1	Burst Type
Void.
9.2.3.1a	Cell Capability Container TDD
The Cell Capability Container TDD indicates which functionalities a 3.84Mcps TDD cell supports.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell Capability Container TDD


BIT STRING (SIZE(32))
Each bit indicates whether a cell supports a particular functionality or not. The value 1 of a bit indicates that the corresponding functionality is supported in a cell and value 0 indicates that the corresponding functionality is not supported in a cell. Each bit is defined as follows.
The first bit: Delayed Activation Support Indicator.
The second bit: HS-DSCH Support Indicator.
The third bit: DSCH Support Indicator.
The fourth bit: Flexible MAC-d PDU Size Support Indicator.
The fifth: MBMS Support Indicator.
Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.3.1b	Cell Capability Container TDD LCR
The Cell Capability Container TDD LCR indicates which functionalities a cell supports.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell Capability Container TDD LCR


BIT STRING (SIZE(32))
Each bit indicates whether a cell supports a particular functionality or not. The value 1 of a bit indicates that the corresponding functionality is supported in a cell and value 0 indicates that the corresponding functionality is not supported in a cell. Each bit is defined as follows.
The first bit: Delayed Activation Support Indicator.
The second bit: HS-DSCH Support Indicator.
The third bit: DSCH Support Indicator.
The fourth bit: Flexible MAC-d PDU Size Support Indicator.
Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.3.2	CCTrCH ID
The CCTrCH ID identifies unambiguously a CCTrCH inside a Radio Link.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CCTrCH ID


INTEGER
(0..15)


9.2.3.2A	DCH TDD Information
The DCH TDD Information IE provides information for DCHs to be established.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
DCH Information

1..<maxNrOfDCHs>


–

>Payload CRC Presence Indicator
M

Payload CRC Present Indicator
9.2.1.42

–

>UL FP Mode
M

9.2.1.67

–

>ToAWS
M

9.2.1.58

–

>ToAWE
M

9.2.1.57

–

>DCH Specific Info

1..<maxNrOfDCHs>


–

>>DCH ID
M

9.2.1.16

–

>>CCTrCH ID
M

9.2.3.2
UL CCTrCH in which the DCH is mapped. 
–

>>CCTrCH ID
M

9.2.3.2
DL CCTrCH in which the DCH is mapped.
–

>>TrCH Source Statistics Descriptor
M

9.2.1.65

–

>>Transport Format Set
M

9.2.1.64
For the UL.
–

>>Transport Format Set
M

9.2.1.64
For the DL.
–

>>BLER 
M

9.2.1.4
For the UL.
–

>>BLER 
M

9.2.1.4
For the DL.
–

>>Allocation/Retention Priority
M

9.2.1.1

–

>>Frame Handling Priority
M

9.2.1.29

–

>>QE-Selector
C-CoorDCH

9.2.1.46A

–

>>Guaranteed Rate Information
O

9.2.1.30M

YES
ignore
>>Traffic Class
M

9.2.1.58A

YES
ignore
>>Unidirectional DCH Indicator
O

9.2.1.68B

YES
reject
>TNL QoS
O

9.2.1.56A

YES
ignore

Condition
Explanation
CoorDCH
The IE shall be present if this DCH is part of a set of coordinated DCHs (number of instances of the DCH Specific Info IE is greater than 1).

Range bound
Explanation
maxNrOfDCHs
Maximum number of DCHs for one UE.

9.2.3.2B	DCH TDD Information Response
Void
9.2.3.2C	DL Timeslot Information
The DL Timeslot Information IE provides information on the time slot allocation for a DL DPCH at 3.84Mcps.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
DL Timeslot Information

1..<maxNrOfTS>


–

>Time Slot
M

9.2.1.56

–

>Midamble Shift And Burst Type
M

9.2.3.4

–

>TFCI Presence
M

9.2.1.55

–

>DL Code Information
M

TDD DL Code Information
9.2.3.8C

–


Range bound
Explanation
maxNrOfTS
Maximum number of Timeslots for a UE.

9.2.3.2D	DL Time Slot ISCP Info
The DL Time Slot ISCP Info IE gives interference level for each DL time slot within the Radio Link.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
DL Time Slot ISCP Info

1..<maxNrOfDLTs>


–

>Time Slot
M

9.2.1.56

–

>DL Timeslot ISCP
M

9.2.3.12

–


Range bound
Explanation
maxNrOfDLTs
Maximum number of downlink time slots per Radio Link for 3.84Mcps TDD.

9.2.3.2E	DL Timeslot Information LCR
The DL Timeslot Information LCR IE provides information for DL Timeslot to be established for 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
DL Timeslot Information LCR

1 .. <maxNrOfDLTsLCR>


–

>Time Slot LCR
M

9.2.3.12a

–

>Midamble Shift LCR
M

9.2.3.4C

–

>TFCI Presence
M

9.2.1.55

–

>DL Code Information LCR
M

TDD DL Code Information LCR 9.2.3.8D

–

>Maximum DL TX Power
O

DL Power
9.2.1.21A
Maximum allowed power on DPCH.
YES
ignore
>Minimum DL TX Power
O

DL Power
9.2.1.21A
Minimum allowed power on DPCH.
YES
ignore

Range bound
Explanation
maxNrOfDLTsLCR
Maximum number of Downlink time slots per Radio Link for 1.28Mcps TDD.

9.2.3.2F	DL Time Slot ISCP Info LCR
The DL Time Slot ISCP Info LCR IE provides information for DL Interference level for each time slot within the Radio Link for 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
DL Time Slot ISCP Info LCR

1 .. <maxNrOfULTsLCR>


–

>Time Slot LCR
M

9.2.3.12a

–

>DL Timeslot ISCP
M

9.2.3.12

–


Range bound
Explanation
maxNrOfULTsLCR
Maximum number of Uplink time slots per Radio Link for 1.28Mcps TDD.

9.2.3.3	DPCH ID
The DPCH ID identifies unambiguously a DPCH inside a Radio Link.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DPCH ID


INTEGER
(0..239)


9.2.3.3a	DSCH TDD Information
The DSCH TDD Information IE provides information for DSCHs to be established.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
DSCH TDD Information

1..<maxNoOfDSCHs>


–

>DSCH ID
M

9.2.3.3ae

–

>CCTrCH ID
M

9.2.3.2
DL CCTrCH in which the DSCH is mapped.
–

>TrCH Source Statistics Descriptor
M

9.2.1.65

–

>Transport Format Set
M

9.2.1.64

–

>Allocation/Retention Priority
M

9.2.1.1

–

>Scheduling Priority Indicator
M

9.2.1.51A

–

>BLER 
M

9.2.1.4

–

>Traffic Class
M

9.2.1.58A

YES
ignore
>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
>TNL QoS
O

9.2.1.56A
Shall be ignored if bearer establishment with ALCAP.
YES
ignore

Range bound
Explanation
maxNoOfDSCHs
Maximum number of DSCHs for one UE.

9.2.3.3aa	HS-DSCH TDD Information
The HS-DSCH TDD Information IE is used for initial addition of HS-DSCH information to a UE Context.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-DSCH MAC-d Flows Information
M

9.2.1.30OA

–

UE Capabilities Information

1


–

>HS-DSCH Physical Layer Category
M

9.2.1.30Oa

–

>1.28 Mcps TDD uplink physical channel capability
O

9.2.3.10D
Applicable to 1.28Mcps TDD only.
YES
ignore
>Number of Supported Carriers
O

ENUMERATED (
One-one carrier, One-three carrier, Three-three carrier, One-six carrier,
Tree-six carrier,
Six-six carrier, ..., One-Two carrier Discontiguous, Two-Two carrier Discontiguous, One-Two carrier Contiguous, Two-Two carrier Contiguous)
Applicable to 1.28Mcps TDD only.
This IE indicates the number of carrier that UE can support at the same time,where “One-three carrier” means the number of supported carrier is one for the uplink, and three for the downlink.
One-Two carrier Discontiguous and Two-Two carrier Discontiguous mean that the UE is capable of supporting two non-adjacent carriers.
One-Two carrier Contiguous and Two-Two carrier Contiguous mean that the UE is only capable of supporting two adjacent carriers.
YES
reject
>MIMO SF Mode Supported For HS-PDSCH dual stream
O

ENUMERATED (SF1, SF1/SF16)
Applicable to 1.28Mcps TDD only.
YES
ignore
>Multi-carrier HS-DSCH Physical Layer Category
O

HS-DSCH Physical Layer Category
9.2.1.30Oa
Applicable to 1.28Mcps TDD only.
YES
ignore
>UE TS0 Capability LCR
O

ENUMERATED (TS0 Capable, TS0 Non-Capable)
Applicable to 1.28Mcps TDD only
YES
ignore
>UE RF Band Capability LCR
C-NofSupportedCarriers

9.2.3.84
Applicable to 1.28Mcps TDD only.
YES
ignore
MAC-hs Reordering Buffer Size for RLC-UM
M

9.2.1.34Ab

–

TDD ACK NACK Power Offset
M

9.2.3.7I

–

HS-DSCH MAC-d PDU Size Format 
O

9.2.1.30OC
If not present, “Indexed MAC-d PDU Size” shall be used.
YES
reject
HS-SICH SIR Target
O

UL SIR
9.2.1.69
Applicable to 1.28Mcps TDD only.
YES
ignore
HS-SICH TPC step size
O

TDD TPC Uplink Step Size
9.2.3.10a
Applicable to 1.28Mcps TDD only.
YES
ignore
TSN-Length
O

9.2.3.3ai
Applicable for 1.28Mcps TDD when using multiple frequencies.
YES
reject
MIMO Activation Indicator
O

9.2.1.134

YES
reject

Condition
Explanation
NofSupportedCarriers
This IE shall be present if the Number of Supported Carriers IE is equal to "One-Two carrier Discontiguous" or "Two-Two carrier Discontiguous" and the concerned cell and the UE support more than one RF band.

9.2.3.3ab	HS-DSCH TDD Information Response
The HS-DSCH TDD Information Response IE provides information for HS-DSCH that have been established or modified. It also provides additional HS-DSCH information determined within the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
HS-DSCH MAC-d Flow Specific Information Response

0..<maxNrOfMACdFlows>


–

>HS-DSCH MAC-d Flow ID
M

9.2.1.30O

–

>Binding ID
O

9.2.1.3

–

>Transport Layer Address
O

9.2.1.62

–

>HS-DSCH Initial Capacity Allocation
O

9.2.1.30Na

–

HS-SCCH Specific Information Response

0..<maxNrOfHSSCCHCodes>

Not applicable to 1.28 Mcps TDD or 7.68Mcps TDD.
GLOBAL
reject
>Time Slot
M

9.2.1.56

–

>Midamble Shift And Burst Type
M

9.2.3.4

–

>TDD Channelisation Code
M

9.2.3.8

–

>HS-SICH Information

1


–

>>HS-SICH ID
M

9.2.3.3ad

–

>>Time Slot
M

9.2.1.56

–

>>Midamble Shift And Burst Type
M

9.2.3.4

–

>>TDD Channelisation Code
M

9.2.3.8

–

HS-SCCH Specific Information Response LCR

0..<maxNrOfHSSCCHCodes>

Not applicable to 3.84 Mcps TDD or 7.68Mcps TDD.
GLOBAL
reject
>Time Slot LCR
M

9.2.3.12a

–

>Midamble Shift LCR
M

9.2.3.4C

–

>First TDD Channelisation Code
M

TDD Channelisation Code 9.2.3.8

–

>Second TDD Channelisation Code
M

TDD Channelisation Code 9.2.3.8

–

>HS-SICH Information LCR

1


–

>>HS-SICH ID
M

9.2.3.3ad

–

>>Time Slot LCR
M

9.2.3.12a

–

>>Midamble Shift LCR
M

9.2.3.4C

–

>>TDD Channelisation Code
M

9.2.3.8

–

>Used Frequency
O

UARFCN
9.2.1.66
Applicable for 1.28Mcps TDD when using multiple frequencies. This IE indicates the frequency which is actually used by the HS-SCCH.
YES
reject
>UARFCN
O

9.2.1.66
Corresponds to Nt (3GPP TS 25.105).
Applicable for 1.28Mcps TDD when using multiple frequencies.
See note1 below.
YES
ignore
HS-SCCH Specific Information Response 7.68 Mcps

0..<maxNrOfHSSCCHCodes>

Applicable to 7.68 Mcps TDD only.
YES
ignore
>Time Slot
M

9.2.1.56

–

>Midamble Shift And Burst Type 7.68Mcps
M

9.2.3.23

–

>TDD Channelisation Code 7.68Mcps
M

9.2.3.25

–

>HS-SICH Information

1


–

>>HS-SICH ID
M

9.2.3.3ad

–

>>Time Slot
M

9.2.1.56

–

>>Midamble Shift And Burst Type 7.68Mcps
M

9.2.3.23

–

>>TDD Channelisation Code 7.68Mcps
M

9.2.3.25

–

HS-PDSCH Timeslot Specific Information Response

0..<maxNrOfDLTs>

Not Applicable to 1.28Mcps TDD or 7.68Mcps TDD.
GLOBAL
reject
>Time Slot
M

9.2.1.56

–

>Midamble Shift And Burst Type
M

9.2.3.4

–

HS-PDSCH Timeslot Specific Information Response LCR

0..<maxNrOfDLTsLCR>

Not Applicable to 3.84Mcps TDD or 7.68Mcps TDD.
GLOBAL
reject
>Time Slot LCR
M

9.2.3.12a

–

>Midamble Shift LCR
M

9.2.3.4C

–

HS-PDSCH Timeslot Specific Information Response 7.68Mcps

0..<maxNrOfDLTs>

Applicable to 7.68Mcps TDD only.
YES
ignore
>Time Slot
M

9.2.1.56

–

>Midamble Shift And Burst Type 7.68Mcps
M

9.2.3.23

–

HARQ Memory Partitioning
O

9.2.1.116

–

User Plane Congestion Fields Inclusion
O

9.2.1.70C

YES
ignore
HS-SCCH Specific Information Response LCR per UARFCN

0..<maxHSDPAFrequency-1>

Applicable for 1.28Mcps TDD.
GLOBAL
reject
>HS-SCCH Specific Information Response LCR

1..<maxNrOfHSSCCHCodes>


–

>>Time Slot LCR
M

9.2.3.12a

–

>>Midamble Shift LCR
M

9.2.3.4C

–

>>First TDD Channelisation Code
M

TDD Channelisation Code 9.2.3.8

–

>>Second TDD Channelisation Code
M

TDD Channelisation Code 9.2.3.8

–

>>HS-SICH Information LCR

1


–

>>>HS-SICH ID
M

9.2.3.3ad



>>>Time Slot LCR
M

9.2.3.12a

–

>>>Midamble Shift LCR
M

9.2.3.4C

–

>>>TDD Channelisation Code
M

9.2.3.8

–

>>Used Frequency
O

UARFCN
9.2.1.66
Applicable for 1.28Mcps TDD when using multiple frequencies. This IE indicates the frequency which is actually used by the HS-SCCH.
YES
reject
>UARFCN
O

9.2.1.66
Corresponds to Nt （3GPP TS 25.105）.
Applicable for 1.28Mcps TDD when using multiple frequencies.
See note 1 below.
YES
ignore
>HARQ Memory Partitioning per UARFCN

0..<maxHSDPAFrequency-1>




>>HARQ Memory Partitioning
O

9.2.1.116

–

>UARFCN
O

9.2.1.66
Corresponds to Nt （3GPP TS 25.105）.
Applicable for 1.28Mcps TDD when using multiple frequencies.
See note 1 below.
YES
ignore
>TS0 HS-PDSCH Indication LCR
O

9.2.3.74
1.28Mcps TDD only.
YES
ignore
Multi-Carrier number
O

INTEGER(1.. maxHSDPAFrequency)
Applicable for 1.28Mcps TDD when using multiple frequencies.
YES
ignore
MIMO SF Mode for HS-PDSCH dual stream
O

ENUMERATED (SF1, SF1/SF16)
Applicable for 1.28Mcps TDD when MIMO is configured.
YES
reject
MIMO Reference Signal Information
O
0..<maxNrOfHSSCCHCodes>

Applicable for 1.28Mcps TDD when MIMO is configured.
YES
reject
>HS-SICH Reference Signal Information
M

9.2.3.72

YES

Out-of-sync Detection Window
O

ENUMERATED (40, 80, 160, 320, 640, 
…)
Unit: ms
Applicable to 1.28Mcps TDD.
YES
reject
Note 1: This information element is a simplified representation of the ASN.1 description.

Range bound
Explanation
maxNrOfMACdFlows
Maximum number of MAC-d flows.
maxNrOfHSSCCHCodes
Maximum number of HS-SCCH codes.
maxNrOfDLTs
Maximum number of downlink time slots per Radio Link for 3.84Mcps TDD.
maxNrOfDLTsLCR
Maximum number of Downlink time slots per Radio Link for 1.28Mcps TDD.
maxHSDPAFrequency
Maximum number of Frequency that UE can support HSDPA.

9.2.3.3ac	HS-DSCH TDD Update Information 
The HS-DSCH TDD Update Information IE provides information for HS-DSCH to be updated. At least one IE shall be presented.
IE/Group name
Presence
Range
IE Type and Reference
Semantic Description
Criticality
Assigned Criticality
HS-SCCH Code Change Indicator
O

9.2.1.30R

–

TDD ACK NACK Power Offset
O

9.2.3.7I

–


9.2.3.3ad	HS-SICH ID
The HS-SICH ID identifies unambiguously a HS-SICH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS SICH ID


INTEGER (0..31)
For 1.28Mcps TDD, the IE is INTEGER (0..255). In ASN.1, it is presented by another IE for the value beyond the 31.

9.2.3.3ae	DSCH ID
The DSCH ID is the identifier of an active downlink shared channel. It is unique for each active DSCH among the active DSCHs simultaneously allocated for the same UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DSCH ID


INTEGER
(0..255)


9.2.3.3af	DSCH Initial Window Size
Indicates the initial number of MAC-c/sh SDUs that may be transmitted before new credits are received from the DRNC.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
DSCH Initial Window Size


INTEGER (1..255)
Number of MAC-c/sh SDUs:
255 = Unlimited number of MAC-c/sh SDUs.

9.2.3.3ag	DSCH Flow Control Information
The DSCH Flow Control Information IE provides flow control information for each scheduling priority class for the DSCH FP over Iur.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
DSCH Flow Control Information

1..16


–

>DSCH Scheduling Priority
M

Scheduling Priority Indicator
9.2.1.51A

–

>MAC-c/sh SDU Length

1..<maxNrOfMACcshSDU-Length>


–

>>MAC-c/sh SDU Length
M

9.2.1.34

–

>DSCH Initial Window Size
O

9.2.3.3af

YES
ignore

Range bound
Explanation
maxNrOfMACcshSDU-Length
Maximum number of different MAC-c/sh SDU lengths.

9.2.3.3ah	DSCH-RNTI
DSCH-RNTI is the UE identifier allocated by DRNS to be used over the radio interface by Ues having one or several DSCHs and/or USCHs. It is unique within a cell.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
DSCH-RNTI


INTEGER(0..65535)


9.2.3.3ai	TSN-Length
The IE indicates the TSN length.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TSN-Length


ENUMERATED (tsn-6bits, tsn-9bits)


9.2.3.3A	Maximum Number of Timeslots
Defines the maximum number of timeslots the UE has the capability of receiving or transmitting. [3.84Mcps TDD and 7.68Mcps TDD – in a frame] [1.28Mcps TDD – in a subframe]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Number of Timeslots


INTEGER
(1..14)
For 1.28Mcps TDD the values 7 through 14 are not used.

9.2.3.3B	Maximum Number of UL Physical Channels per Timeslot
Defines the maximum number of physical channels [3.84Mcps TDD and 7.68Mcps TDD – per frame] [1.28Mcps TDD – per subframe] that the UE is capable to transmit.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Number of UL Physical Channels per Timeslot


INTEGER
(1..2)


9.2.3.3C	Maximum Number of DL Physical Channels
Defines the maximum number of physical channels [3.84Mcps TDD – per frame] [1.28Mcps TDD – per subframe] that the UE is capable to receive.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Number of DL Physical Channels


INTEGER
(1..224)
For 1.28Mcps TDD the values 97 through 224 are not used.

9.2.3.3D	Maximum Number of DL Physical Channels per Timeslot
Defines the maximum number of physical channels per timeslot that the UE is capable to receive.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Number of DL Physical Channels per Timeslot


INTEGER
(1..16)


9.2.3.4	Midamble Shift And Burst Type
This information element indicates burst type and midamble allocation.
Three different midamble allocation schemes exist:
-	Default midamble: the midamble is allocated by layer 1 depending on the associated channelisation code (DL and UL);
-	Common midamble: the midamble is allocated 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).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Burst Type




>Type 1




>>Midamble Configuration Burst Type 1 And 3
M

ENUMERATED(4, 8, 16)
As defined in TS 25.221 [12].
>>Midamble Allocation Mode
M

ENUMERATED(Default midamble, Common midamble, UE specific midamble)

>>Midamble Shift Long
C-UE

INTEGER(0..15)

>Type 2 




>>Midamble Configuration Burst Type 2
M

ENUMERATED (3, 6)
As defined in TS 25.221 [12].
>>Midamble Allocation Mode
M

ENUMERATED(Default midamble, Common midamble, UE specific midamble)

>>Midamble Shift Short
C-UE

INTEGER
(0..15)

>Type 3



UL only
>>Midamble Configuration Burst Type 1 And 3
M

ENUMERATED (4, 8, 16)
As defined in TS 25.221 [12].
>>Midamble Allocation Mode
M

ENUMERATED(Default midamble, UE specific midamble)

>>Midamble Shift Long
C-UE

INTEGER(0..15)


Condition
Explanation
UE
The IE shall be present if the Midamble Allocation Mode IE is set to “UE-specific midamble”.

9.2.3.4A	Minimum Spreading Factor
Defines the minimum spreading factor the UE has the capability of receiving or transmitting.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Minimum Spreading Factor


INTEGER
(1..16)


9.2.3.4B	IPDL TDD parameters
The IPDL TDD Parameters IE provides the information for the IPDL Configuration applied in 3.84Mcps TDD mode.
IE/Group name
Presence
Range
IE Type and Reference
Semantics Description
IP Spacing TDD
M

ENUMERATED(30,40,50, 70, 100,…)
See TS 25.224 [22].
IP Start
M

INTEGER(0..4095)
See TS 25.224 [22].
IP Slot
M

INTEGER(0..14)
See TS 25.224 [22].
IP P-CCPCH
M

ENUMERATED(Switch off 1 frame, Switch off 2 frames)
See TS 25.224 [22].
Burst mode parameters
O

9.2.1.4B


9.2.3.4Bb	IPDL TDD parameters LCR
The IPDL TDD Parameters LCR IE provides the information for the IPDL Configuration applied in 1.28Mcps TDD mode.
IE/Group name
Presence
Range
IE Type and Reference
Semantics Description
IP Spacing TDD
M

ENUMERATED(30,40,50, 70, 100,…)
See TS 25.224 [22].
IP Start
M

INTEGER(0..4095)
See TS 25.224 [22].
IP_Sub
M

ENUMERATED(First,Second,Both)
See TS 25.224 [22].
Burst mode parameters
O

9.2.1.4B


9.2.3.4C	Midamble Shift LCR
This information element indicates midamble allocation in 1.28Mcps TDD.
Three different midamble allocation schemes exist:
-	Default midamble: the midamble is allocated by layer 1 depending on the associated channelisation code (DL and UL);
-	Common midamble: the midamble is allocated 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).
IE/Group name
Presence
Range
IE Type and Reference
Semantics Description
Midamble Allocation Mode
M

ENUMERATED(Default midamble, Common midamble, UE specific midamble,...)

Midamble Shift Long
C-UE

INTEGER(0..15)

Midamble Configuration LCR
M

ENUMERATED (2, 4, 6, 8, 10, 12, 14, 16, ...)
As defined in TS 25.221 [12].

Condition
Explanation
UE
The IE shall be present if the Midamble Allocation Mode IE is set to “UE-specific midamble”.

9.2.3.4D	Neighbouring TDD Cell Information LCR
Void
9.2.3.5	Primary CCPCH RSCP
Received Signal Code Power is the received power on PCCPCH of the target cell after despreading. The reference point for the RSCP is the antenna connector at the UE, see TS 25.225 [14].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Primary CCPCH RSCP


INTEGER(
0..91)
According to mapping of the non-negative values in TS 25.123 [24].

9.2.3.5a	Primary CCPCH RSCP Delta
Primary CCPCH RSCP Delta is the offset used to report the negative reporting range of P-CCPCH RSCP as per TS 25.123 [24].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Primary CCPCH RSCP Delta


INTEGER(
-5..-1,…)
If present, the actual value of Primary CCPCH RSCP = Primary CCPCH RSCP Delta.

9.2.3.5A	PRACH Midamble
Void.
9.2.3.5B	RB Identity
The RB Identity is the identifier of a radio bearer. It is unique for each active Radio bearer among the active radio bearers simultaneously allocated for the same UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
RB Identity


INTEGER
(0..31)
In line with TS 25.331 [16], ch. 10.3.4.11.

9.2.3.6	Repetition Length
The Repetition Length represents the number of consecutive Radio Frames inside a Repetition Period in which the same Time Slot is assigned to the same Physical Channel see TS 25.331 [16].
[1.28Mcps TDD- When applied to configure the E-DCH Non-scheduled Grant Information, the Repetition Length represents the number of consecutive Subframes, i.e. 5ms inside a Repetition Period in which the same Time Slot is assigned to the same Physical Channel see TS 25.331 [16].]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Repetition Length


INTEGER(1..63)


9.2.3.7	Repetition Period
The Repetition Period represents the number of consecutive Radio Frames after which the same assignment scheme of Time Slots to a Physical Channel is repeated. This means that if the Time Slot K is assigned to a physical channel in the Radio Frame J, it is assigned to the same physical channel also in all the Radio Frames J+n*Repetition Period (where n is an integer) see TS 25.331 [16].
[1.28Mcps TDD- When applied to configure the E-DCH Non-scheduled Grant Information, the Repetition Period represents the number of consecutiveSubframes, i.e. 5ms after which the same assignment scheme of Time Slots to a Physical Channel is repeated see TS 25.331 [16].]
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Repetition Period


ENUMERATED(1,2,4,8,16,32,64)


9.2.3.7A	Rx Timing Deviation
Measured Rx Timing Deviation as a basis for timing advance, either measured directly from a RACH burst, or calculated from the Rx Timing Deviation measurement on the USCH by adding the current Timing Advance value. For 1.28Mcps TDD this IE must be set to 0.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Rx Timing Deviation


INTEGER
(0..127)
As specified in TS 25.435 [5], ch. 6.2.7.6.

9.2.3.7B	Secondary CCPCH Info TDD
The Secondary CCPCH Info TDD IE provides information on the Secondary CCPCH that carries the logical channel SHCCH for the UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TFCS
M

9.2.1.63
For the DL.
–

TFCI Coding
M

9.2.3.11

–

Secondary CCPCH

0..<maxNrOfSCCPCHs>


–

>Time Slot
M

9.2.1.56

–

>Midamble Shift And Burst Type
M

9.2.3.4

–

>TFCI Presence
M

9.2.1.55

–

>Secondary CCPCH TDD Code Information
M

9.2.3.7C

–

>TDD Physical Channel Offset
M

9.2.3.9

–

>Repetition Length
M

9.2.3.6

–

>Repetition Period
M

9.2.3.7

–

FACH

0..maxNrOfFACHs


–

>TFS
M

Transport Format Set
9.2.1.64
For the DL.
–

PCH

0..1


–

>TFS
M

Transport Format Set
9.2.1.64
For the DL.
–


Range bound
Explanation
maxNrOfSCCPCHs
Maximum number of Secondary CCPCHs per CCTrCH.
maxNrOfFACHs
Maximum number of FACHs mapped onto a Secondary CCPCH.

9.2.3.7C	Secondary CCPCH TDD Code Information
The Secondary CCPCH TDD Code Information IE provides TDD Channelisation Code information for all SCCPCHs of one Time Slot.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Secondary CCPCH TDD Code Information

1..<maxNrOfSCCPCHs>


–

>TDD Channelisation Code
M

9.2.3.8

–


Range bound
Explanation
maxNrOfSCCPCHs
Maximum number of SCCPCHs for one CCTrCH.

9.2.3.7D	Special Burst Scheduling
The number of frames between special burst transmissions during DTX.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Special Burst Scheduling


INTEGER(1, 2, .., 256)
Number of frames between special burst transmissions during DTX.

9.2.3.7E	Synchronisation Configuration
The Synchronisation Configuration parameters that are used by the DRNS in the Radio Link Failure/Restore procedure.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
N_INSYNC_IND
M

INTEGER(1, 2, .., 256)

N_OUTSYNC_IND
M

INTEGER(1, 2, .., 256)

T_RLFAILURE
M

ENUMERATED(0, 0.1, 0.2, .., 25.5)
Unit: seconds.

9.2.3.7F	Secondary CCPCH Info TDD LCR
The Secondary CCPCH Info TDD LCR IE provides information on the Secondary CCPCH that carries the logical channel SHCCH for the UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TFCS
M

9.2.1.63
For the DL.
–

TFCI Coding
M

9.2.3.11

–

Secondary CCPCH

0..<maxNrOfSCCPCHs>


–

>Time Slot LCR
M

9.2.3.12a

–

>Midamble Shift LCR
M

9.2.3.4C

–

>TFCI Presence
M

9.2.1.55

–

>Secondary CCPCH TDD Code Information LCR
M

9.2.3.7G

–

>TDD Physical Channel Offset
M

9.2.3.9

–

>Repetition Length
M

9.2.3.6

–

>Repetition Period
M

9.2.3.7

–

FACH

0..<maxNrOfFACHs>


–

>TFS
M

Transport Format Set
9.2.1.64
For the DL.
–

PCH

0..1


–

>TFS
M

Transport Format Set
9.2.1.64
For the DL.
–


Range bound
Explanation
maxNrOfSCCPCHs
Maximum number of Secondary CCPCHs per CCTrCH.
maxNrOfFACHs
Maximum number of FACHs mapped onto a Secondary CCPCH.

9.2.3.7G	Secondary CCPCH TDD Code Information LCR
The Secondary CCPCH TDD Code Information LCR IE provides LCR TDD Channelisation Code information for all SCCPCHs of one Time Slot.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Secondary CCPCH TDD Code Information

1..<maxNrOfSCCPCHs>


–

>TDD Channelisation Code LCR
M

9.2.3.8a

–

>SCCPCH Time Slot Format LCR
M

TDD DL DPCH Time Slot Format LCR 9.2.3.8E

–


Range bound
Explanation
maxNrOfSCCPCHs
Maximum number of SCCPCHs for one CCTrCH.

9.2.3.7H	Support of 8PSK
The Support of 8PSK IE indicates whether 8PSK is supported or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Support of 8PSK


ENUMERATED(supported)


9.2.3.7I	TDD ACK NACK Power Offset
The TDD ACK NACK Power Offset IE indicates Power offset used in the UL in the HS-SICH between transmissions carrying positive and negative acknowledgements as per TS 25.331 [16].
IE/Group Name 
Presence 
Range 
IE type and reference 
Semantics description 
TDD ACK NACK Power Offset


INTEGER (-7..8,…)
Unit: dB.
Range: -7..+8 dB.
Step: 1 dB.

9.2.3.8	TDD Channelisation Code
The Channelisation Code Number indicates which Channelisation Code is used for a given Physical Channel. In TDD the Channelisation Code is an Orthogonal Variable Spreading Factor code that can have a spreading factor of 1, 2, 4, 8 or 16.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TDD Channelisation Code 


ENUMERATED((1/1), (2/1), (2/2), (4/1), .. (4/4), (8/1), .. (8/8), (16/1), .. (16/16),… )


9.2.3.8a	TDD Channelisation Code LCR
The Channelisation Code Number indicates which Channelisation Code is used for a given Physical Channel. In 1.28Mcps TDD the Channelisation Code is an Orthogonal Variable Spreading Factor code, that can have a spreading factor of 1, 2, 4, 8 or 16 and there is a choice between QPSK and 8PSK modulation.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TDD Channelisation Code
M

ENUMERATED((1/1), (2/1), (2/2), (4/1),..(4/4), (8/1), .. (8/8), (16/1).. (16/16) ,… )

Modulation
M

ENUMERATED(QPSK, 8PSK, …)
Modulation options for 1.28Mcps TDD in contrast to 3.84Mcps TDD.

9.2.3.8A	TDD DPCH Offset
The Offset represents the phase information for the allocation of a group of dedicated physical channels. The Offset Type IE = “No Initial Offset” is used when a starting offset is not required and the TDD Physical channel offset for each DPCH in the CCTrCH shall be directly determined from the TDD DPCH Offset. The Offset Type IE = “Initial Offset” is used when a starting offset is required. The TDD DPCH Offset shall map to the CFN and the TDD Physical Channel Offset for each DPCH in this CCTrCH shall calculated by TDD DPCH Offset mod Repetition period, see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description





CHOICE Offset Type




>Initial Offset




>>TDD DPCH Offset Value
M

INTEGER (0..255)

>No Initial Offset




>>TDD DPCH Offset Value
M

INTEGER (0..63)


9.2.3.8B	TDD DCHs To Modify
The TDD DCHs To Modify IE provides information for DCHs to be modified.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TDD DCHs To Modify

1..<maxNrOfDCHs>


–

>UL FP Mode
O

9.2.1.67

–

>ToAWS
O

9.2.1.58

–

>ToAWE
O

9.2.1.57

–

>Transport Bearer Request Indicator
M

9.2.1.61

–

>DCH Specific Info

1..<maxNrOfDCHs>


–

>>DCH ID
M

9.2.1.16

–

>>CCTrCH ID
O

9.2.3.2
UL CCTrCH in which the DCH is mapped.
–

>>CCTrCH ID
O

9.2.3.2
DL CCTrCH in which the DCH is mapped.
–

>>Transport Format Set
O

9.2.1.64
For the UL.
–

>>Transport Format Set
O

9.2.1.64
For the DL.
–

>>Allocation/Retention Priority
O

9.2.1.1

–

>>Frame Handling Priority
O

9.2.1.29

–

>>Guaranteed Rate Information
O

9.2.1.30M

YES
ignore
>>Traffic Class
O

9.2.1.58A

YES
ignore
>TNL QoS
O

9.2.1.56A

YES
ignore

Range bound
Explanation
maxNrOfDCHs
Maximum number of DCHs for one UE.

9.2.3.8C	TDD DL Code Information
The TDD DL Code Information IE provides TDD DL Code information for all DPCHs of one DL Time Slot.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TDD DL Code Information

1..<maxNrOfDPCHs>


–

>DPCH ID
M

9.2.3.3

–

>TDD Channelisation Code
M

9.2.3.8

–


Range bound
Explanation
maxNrOfDPCHs
Maximum number of DPCHs for one CCTrCH.

9.2.3.8D	TDD DL Code Information LCR
The TDD DL Code Information LCR IE provides DL Code information for the RL for 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TDD DL Code Information LCR

1 .. <maxNrOfDPCHsLCR>


–

>DPCH ID
M

9.2.3.3

–

>TDD Channelisation Code LCR
M

9.2.3.8a

–

>TDD DL DPCH Time Slot Format LCR
M

9.2.3.8E

–


Range bound
Explanation
maxNrOfDPCHsLCR
Maximum number of DPCH in one CCTrCH for 1.28Mcps TDD.

9.2.3.8E	TDD DL DPCH Time Slot Format LCR
TDD DL DPCH Time Slot Format LCR indicates the time slot formats used in DL DPCH for 1.28Mcps TDD (see TS 25.221 [12]).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE Modulation




>QPSK




>>QPSK TDD DL DPCH TimeSlot Format LCR
M

INTEGER
(0..24,…)

>8PSK




>>8PSK TDD DL DPCH TimeSlot Format LCR
M

INTEGER
(0..24,…)


9.2.3.9	TDD Physical Channel Offset
The TDD Physical Channel Offset represents the phase information for the allocation of a non DPCH physical channel. (CFN mod Repetition Period = TDD Physical Channel Offset) see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TDD Physical Channel Offset


INTEGER
(0..63)


9.2.3.10	TDD TPC Downlink Step Size
This parameter indicates step size for the DL power adjustment (see TS 25.224 [22]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TDD TPC Downlink Step Size


ENUMERATED(1, 2, 3,…)
Unit: dB.

9.2.3.10a	TDD TPC Uplink Step Size
This parameter indicates step size for the UL power adjustment (see TS 25.224 [22]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TDD TPC Uplink Step Size


ENUMERATED 
(1, 2, 3,…)
Unit: dB.

9.2.3.10A	TDD UL Code Information
The TDD UL Code Information IE provides TDD UL Code information for all DPCHs of one UL Time Slot.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TDD UL Code Information

1..<maxNrOfDPCHs>


–

>DPCH ID
M

9.2.3.3

–

>TDD Channelisation Code
M

9.2.3.8

–


Range bound
Explanation
maxNrOfDPCHs
Maximum number of DPCHs for one CCTrCH.

9.2.3.10B	TDD UL Code Information LCR
The TDD UL Code Information LCR IE provides information for UL Code to be established for 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TDD UL Code Information LCR

1 .. <maxNrOfDPCHsLCR>


–

>DPCH ID
M

9.2.3.3

–

>TDD Channelisation Code LCR
M

9.2.3.8a

–

>TDD UL DPCH Time Slot Format LCR
M

9.2.3.10C

–


Range bound
Explanation
maxNrOfDPCHsLCR
Maximum number of DPCH in one CCTrCH for 1.28Mcps TDD.

9.2.3.10C	TDD UL DPCH Time Slot Format LCR
TDD UL DPCH Time Slot Format LCR indicates the time slot formats used in UL DPCH for 1.28Mcps TDD (see TS 25.221 [12]).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE Modulation




>QPSK




>>QPSK TDD UL DPCH Time Slot Format LCR
M

INTEGER
(0..69,…)

>8PSK




>>8PSK TDD UL DPCH Time Slot Format LCR
M

INTEGER
(0..24,…)


9.2.3.10D	1.28 Mcps TDD uplink physical channel capability
1.28 Mcps TDD uplink physical channel capability IE defines the UE uplink physical channel capability for 1.28 Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Number of timeslots per subframe
M

INTEGER
(1..6)

Maximum number of physical channels per timeslot
M

ENUMERATED
(1,2,3,4...)


9.2.3.11	TFCI Coding
The TFCI Coding describes how the TFCI bits are coded. By default 1 TFCI bit is coded with 4 bits, 2 TFCI bits are coded with 8 bits, 3-5 TFCI bits are coded with 16 bits and 6-10 TFCI bits are coded with 32 bits.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TFCI Coding


ENUMERATED(4, 8, 16, 32,…)


9.2.3.12	DL Timeslot ISCP
DL Timeslot ISCP is the measured interference in a downlink timeslot at the UE, see TS 25.225 [14].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DL Timeslot ISCP


INTEGER(
0..91)
According to mapping in TS 25.123 [24].

9.2.3.12a	Time Slot LCR
The Time Slot LCR is the number of the traffic time slot within a 5 ms subframe of LCR TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Time Slot LCR 


INTEGER
(0..6)


9.2.3.12A	Timing Advance Applied
Defines the need for Timing Advance functions such as Rx Timing Deviation measurement in a particular cell. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Timing Advance Applied


ENUMERATED(Yes, No)


9.2.3.13	Transport Format Management
Defines whether the cell transmits the transport format information via broadcast or whether the transport format information is transmitted to the UE using dedicated RRC procedures
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transport Format Management


ENUMERATED(Cell Based, UE Based,…)


9.2.3.13A	UL Timeslot ISCP
UL Timeslot ISCP is the measured interference in a uplink timeslot at the DRNS, see TS 25.225 [14].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UL Timeslot ISCP


INTEGER(
0..127)
According to mapping in TS 25.123 [24].

9.2.3.13B	UL PhysCH SF Variation
Indicates whether variation of SF in UL is supported by Radio Link or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UL PhysCH SF Variation


ENUMERATED(SF_Variation_supported, SF_Variation_NOT_supported)


9.2.3.13C	UL Timeslot Information
The UL Timeslot Information IE provides information on the time slot allocation for a UL DPCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UL Timeslot Information

1..<maxNrOfTS>


–

>Time Slot
M

9.2.1.56

–

>Midamble Shift And Burst Type
M

9.2.3.4

–

>TFCI Presence
M

9.2.1.55

–

>UL Code Information
M

TDD UL Code Information
9.2.3.10A

–


Range bound
Explanation
maxNrOfTS
Maximum number of Timeslots for a UE.

9.2.3.13D	UL Time Slot ISCP Info
The UL Time Slot ISCP Info IE gives interference level for each UL time slot within the Radio Link.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UL Time Slot ISCP Info

1 .. <maxNrOfULTs>


–

>Time Slot
M

9.2.1.56

–

>UL Timeslot ISCP
M

9.2.3.13A

–


Range bound
Explanation
maxNrOfULTs
Maximum number of uplink time slots per Radio Link.

9.2.3.13E	TSTD Indicator
Indicates if TSTD shall be active or not for the DL DPCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TSTD Indicator


ENUMERATED(active, inactive)


9.2.3.13F	TSTD Support Indicator
Indicates if UE support TSTD or not for DL DPCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TSTD Support Indicator


ENUMERATED(TSTD supported, TSTD not supported)


9.2.3.13Fa	UE Measurement Hysteresis Time
The UE Measurement Hysteresis Time provides the duration during which a reporting criterion has to be fulfilled for the UE Measurement Reporting procedure to be triggered, see TS 25.331 [16]..
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Measurement Hysteresis Time 


INTEGER(0..15)
Unit: dB.
Range: 0..7.5 dB.
Step: 0.5 dB.

9.2.3.13Fb	UE Measurement Parameter Modification Allowed
Indicates if the SRNC may modify the UE measurement parameters based on its existing measurement schedule.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Measurement Parameter Modification Allowed


ENUMERATED (Parameter Modification Allowed, …)


9.2.3.13Fc	UE Measurement Report Characteristics
The UE Measurement Report Characteristics, defines how the reporting shall be performed. For definition of the event criteria see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE UE Report Characteristics 




>Periodic




>>Amount of Reporting
M

ENUMERATED(1, 2, 4, 8, 16, 32, 64, infinity)

>>Reporting Interval
M

ENUMERATED (250, 500, 1000, 2000, 3000, 4000, 6000, 8000, 12000, 16000, 20000, 24000, 28000, 32000, 64000)
Indicates the interval of periodical report interval in milliseconds.
>Event 1h




>>UE Measurement Threshold
M

9.2.3.13Fd
The threshold for which the DRNS shall trigger a measurement report.
>>UE Measurement Time to Trigger
M

9.2.3.13Fg

>>Hysteresis
M

UE Measurement Hysteresis Time
9.2.3.13Fa

>Event 1i




>>UE Measurement Threshold
M

9.2.3.13Fd
The threshold for which the DRNS shall trigger a measurement report.
>>UE Measurement Time to Trigger
M

9.2.3.13Fg

>>Hysteresis
M

UE Measurement Hysteresis Time
9.2.3.13Fa

>Event 6a




>>UE Measurement Threshold
M

9.2.3.13Fd

>>UE Measurement Time to Trigger
M

9.2.3.13Fg

>Event 6b




>>UE Measurement Threshold
M

9.2.3.13Fd

>>UE Measurement Time to Trigger
M

9.2.3.13Fg

>Event 6c




>>UE Measurement Time to Trigger
M

9.2.3.13Fg

>Event 6d




>>UE Measurement Time to Trigger
M

9.2.3.13Fg


9.2.3.13Fd	UE Measurement Threshold
The Measurement Threshold defines which threshold that shall trigger Event 1h, 1i, 6a or 6b, see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE UE Measurement Threshold




>Timeslot ISCP




>>Timeslot ISCP
M

INTEGER
(-115..-25)
In dBm.
>UE Tx Power




>>UE Transmitted Power
M

INTEGER(-50..33)
In dBm. 

9.2.3.13Fe	UE Measurement Timeslot Information HCR
The UE Measurement Timeslot Information HCR IE provides information for DL timeslots for the UE to measure, see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Measurement Timeslot Information HCR

1..<maxNrOfTS>


>Time Slot
M

9.2.1.56

>Burst Type
M

ENUMERATED(Type1, Type 2, Type 3,…)


Range bound
Explanation
maxNrOfTS
Maximum number of Timeslots for a UE for 3.84Mcps TDD.

9.2.3.13Ff	UE Measurement Timeslot Information LCR
The UE Measurement Timeslot Information LCR IE provides information for DL timeslots for the UE to measure, see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Measurement Timeslot Information LCR

1 .. <maxNrOfTsLCR>


>Time Slot LCR
M

9.2.3.12a


Range bound
Explanation
maxNrOfTsLCR
Maximum number of Timeslots for a UE for 1.28Mcps TDD.

9.2.3.13Fg	UE Measurement Time to Trigger
The UE time to trigger indicates the period of time between the timing of event detection and the timing of sending Measurement Report, see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Measurement Time to trigger
M

ENUMERATED(0, 10, 20, 40, 60, 80, 100, 120, 160, 200, 240, 320, 640, 1280, 2560, 5000)
Time in ms.

9.2.3.13Fh	UE Measurement Type
The UE Measurement Type identifies the type of measurement that shall be performed see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Measurement Type
M

ENUMERATED(Primary CCPCH RSCP , DL Timeslot ISCP, UE Transmitted Power,…)


9.2.3.13Fi	UE Measurement Value
The UE Measurement Value shall be the most recent value for this measurement, for which the reporting criteria were met.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE UE Measurement Value
M



>UE Transmitted Power




>>UE Transmitted Power list HCR

0..<maxNrOfTS>

Mandatory for 3.84Mcps TDD, not applicable to 1.28Mcps TDD or 7.68Mcps TDD.
>>>Time Slot
M

9.2.1.56

>>>UE Transmitted Power
M

INTEGER (0..104)
According to mapping in TS 25.123 [24].
Values 0..20 are not used.
>>UE Transmitted Power list LCR

0..< maxNrOfTsLCR>

Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD.
>>>Time Slot LCR
M

9.2.3.12a

>>>UE Transmitted Power
M

INTEGER (0..104)
According to mapping in TS 25.123 [24].
Values 0..20 are not used.
>>UE Transmitted Power list 768

0..<maxNrOfTS>

Mandatory for 7.68Mcps TDD, not applicable to 1.28Mcps TDD or 3.84Mcps TDD.
>>>Time Slot
M

9.2.1.56

>>>UE Transmitted Power
M

INTEGER (0..104)
According to mapping in TS 25.123 [24].
Values 0..20 are not used.
>P-CCPCH RSCP




>>Primary CCPCH RSCP
O

9.2.3.5
According to mapping in TS 25.123 [24].
>>Primary CCPCH RSCP Delta
O

9.2.3.5a
According to mapping in TS 25.123 [24].
>DL Timeslot ISCP




>>Timeslot list HCR

0..<maxNrOfTS>

Mandatory for 3.84Mcps TDD, not applicable to 1.28Mcps TDD or 7.68Mcps TDD.
>>>Time Slot
M

9.2.1.56

>>>Timeslot ISCP
M

DL Timeslot ISCP
9.2.3.12

>>Timeslot list LCR

0..<maxNrOfTsLCR>

Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD.
>>>Time Slot LCR
M

9.2.3.12a

>>>Timeslot ISCP
M

DL Timeslot ISCP
9.2.3.12

>>Timeslot list 768

0..<maxNrOfTS>

Mandatory for 7.68Mcps TDD, not applicable to 1.28Mcps TDD or 3.84Mcps TDD.
>>>Time Slot
M

9.2.1.56

>>>Timeslot ISCP
M

DL Timeslot ISCP
9.2.3.12


Range bound
Explanation
maxNrOfTS
Maximum number of Timeslots for a UE for 3.84Mcps TDD or 7.68Mcps TDD.
maxNrOfTsLCR
Maximum number of Timeslots for a UE for 1.28Mcps TDD.

9.2.3.13Fj	UE Measurement Value Information
The UE Measurement Value Information IE provides information both on whether or not the UE Measurement Value is provided in the message and if provided also the UE Measurement Value itself.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Measurement Availability Indicator
M



>Measurement Available




>>UE Measurement Value
M

9.2.3.13Fi

>Measurement not Available


NULL


9.2.3.13G	UL Timeslot Information LCR
The UL Timeslot Information LCR IE provides information on the timeslot allocation for an UL DPCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UL Timeslot Information LCR

1 .. <maxNrOfULTsLCR>


–

>Time Slot LCR
M

9.2.3.12a

–

>Midamble Shift LCR
M

9.2.3.4C

–

>TFCI Presence
M

9.2.1.55

–

>UL Code Information LCR
M

TDD UL Code Information LCR 9.2.3.10B



>PLCCH Information
O

9.2.3.17

YES
ignore

Range bound
Explanation
maxNrOfULTsLCR
Maximum number of Uplink time slots per Radio Link for 1.28Mcps TDD.

9.2.3.13H	UL Time Slot ISCP Info LCR
The UL Time Slot ISCP Info LCR IE provides information for UL Interference level for each time slot within the Radio Link for 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UL Time Slot ISCP Info

1 .. <maxNrOfULTsLCR>


–

>Time Slot LCR
M

9.2.3.12a

–

>UL Timeslot ISCP
M

9.2.3.26A

–


Range bound
Explanation
maxNrOfULTsLCR
Maximum number of Uplink time slots per Radio Link for 1.28Mcps TDD.

9.2.3.13I	Uplink Synchronisation Frequency
The Uplink Synchronisation Frequency IE specifies the frequency of the adjustment of the uplink transmission timing.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Uplink synchronisation frequency


INTEGER (1..8)
Unit: subframe, step: 1.

9.2.3.13J	Uplink Synchronisation Step Size
The Uplink Synchronisation Step Size IE specifies the step size to be used for the adjustment of the uplink transmission timing.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Uplink synchronisation step size


INTEGER (1..8)
Unit: 1/8 chip, step: 1.


9.2.3.13K	Uplink Timing Advance Control LCR
The Uplink Timing Advance Control LCR indicates the parameters which are used to support Uplink Synchronisation for the UE in 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
SYNC UL codes bitmap
M

BITSTRING (8)
Each bit indicates the availability of a SYNC_UL code.
FPACH info

1


>Time Slot LCR
M

9.2.3.12a

>TDD Channelisation Code LCR
M

9.2.3.8a

>Midamble Shift LCR
M

9.2.3.4C

>WT
M

INTEGER (1..4)
Maximum number of subframes to wait for transmission of FPACH.
PRXupPCHdes
M

INTEGER (-120 .. –58, ...)
Desired UpPCH receive power.
Unit: dBm.
Step size: 1.
SYNC UL procedure parameters

1


>Maximum Sync UL transmissions
M

ENUMERATED (1,2,4,8,...)

>Power Ramp Step
M

INTEGER (0..3, ...)

Mmax
M

INTEGER (1..32)
Maximum number of synchronisation attempts.

9.2.3.13L	USCH ID
The USCH ID is the identifier of an uplink shared channel. It is unique among the USCHs simultaneously allocated for the same UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
USCH ID


INTEGER
(0..255)


9.2.3.14	USCH Information
The USCH Information IE provides information for USCHs to be established.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
USCH Information

1 to <maxNoOfUSCHs>


–

>USCH ID
M

9.2.3.13L

–

>CCTrCH ID
M

9.2.3.2
UL CCTrCH in which the USCH is mapped 
–

>TrCH Source Statistics Descriptor
M

9.2.1.65

–

>Transport Format Set
M

9.2.1.64
For USCH.
–

>Allocation/Retention Priority
M

9.2.1.1

–

>Scheduling Priority Indicator
M

9.2.1.51A

–

>RB Info

1..<maxNoOfRB>

All Radio Bearers using this USCH.
–

>>RB Identity
M

9.2.3.5B

–

>Traffic Class
M

9.2.1.58A

YES
ignore
>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
YES
ignore
>TNL QoS
O

9.2.1.56A

YES
ignore

Range bound
Explanation
maxNoOfUSCHs
Maximum number of USCHs for one UE.
maxNoOfRB
Maximum number of Radio Bearers for one UE.

9.2.3.16	Support of PLCCH
The Support of PLCCH IE indicates whether PLCCH is supported or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Support of PLCCH


ENUMERATED(supported)


9.2.3.17	PLCCH Information
The PLCCH Information IE carres a PLCCH assignment for a timeslot of an UL DCH-type CCTrCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TDD Channelisation Code
M

9.2.3.8
Only QPSK modulation is used with PLCCH.
Time Slot LCR
M

9.2.3.12a

Midamble Shift LCR
M

9.2.3.4C

PLCCH Sequence Number
M

9.2.3.18


9.2.3.18	PLCCH Sequence Number
This sequence number represents a portion of a PLCCH used to signal TPC / SS bits to a single UE. A value of zero indicates that the PLCCH assignment has been deleted.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
PLCCH Sequence Number


INTEGER (0..14)


9.2.3.19	Minimum Spreading Factor 7.68Mcps
Defines the minimum spreading factor the UE has the capability of receiving or transmitting for 7.68Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Minimum Spreading Factor 768


INTEGER
(1..32)


9.2.3.20	Maximum Number of DL Physical Channels 7.68Mcps
Defines the maximum number of physical channels for 7.68Mcps TDD – per frame that the UE is capable to receive.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Number of DL Physical Channels 768


INTEGER
(1..448)


9.2.3.21	Maximum Number of DL Physical Channels per Timeslot 7.68Mcps
Defines the maximum number of physical channels per timeslot that the UE is capable to receive for 7.68 Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Maximum Number of DL Physical Channels per Timeslot 768


INTEGER
(1..32)


9.2.3.22	Secondary CCPCH Info 7.68Mcps TDD
The Secondary CCPCH Info 7.68Mcps TDD IE provides information on the Secondary CCPCH that carries the logical channel SHCCH for the UE for 7.68Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TFCS
M

9.2.1.63
For the DL.
–

TFCI Coding
M

9.2.3.11

–

Secondary CCPCH

0..<maxNrOfSCCPCHs768>


–

>Time Slot
M

9.2.1.56

–

>Midamble Shift And Burst Type 7.68Mcps
M

9.2.3.23

–

>TFCI Presence
M

9.2.1.55

–

>Secondary CCPCH TDD Code Information 7.68Mcps
M

9.2.3.24

–

>TDD Physical Channel Offset
M

9.2.3.9

–

>Repetition Length
M

9.2.3.6

–

>Repetition Period
M

9.2.3.7

–

FACH

0..maxNrOfFACHs


–

>TFS
M

Transport Format Set
9.2.1.64
For the DL.
–

PCH

0..1


–

>TFS
M

Transport Format Set
9.2.1.64
For the DL.
–


Range bound
Explanation
maxNrOfSCCPCHs768
Maximum number of Secondary CCPCHs per CCTrCH.
maxNrOfFACHs
Maximum number of FACHs mapped onto a Secondary CCPCH.

9.2.3.23	Midamble Shift And Burst Type 7.68Mcps
This information element indicates burst type and midamble allocation for 7.68Mcps TDD.
Three different midamble allocation schemes exist:
-	Default midamble: the midamble is allocated by layer 1 depending on the associated channelisation code (DL and UL);
-	Common midamble: the midamble is allocated 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).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Burst Type




>Type 1




>>Midamble Configuration Burst Type 1 And 3
M

ENUMERATED(4, 8, 16)
As defined in TS 25.221 [12].
>>Midamble Allocation Mode
M

ENUMERATED(Default midamble, Common midamble, UE specific midamble)

>>Midamble Shift Long
C-UE

INTEGER(0..15)

>Type 2 




>>Midamble Configuration Burst Type 2
M

ENUMERATED (4, 8)
As defined in TS 25.221 [12].
>>Midamble Allocation Mode
M

ENUMERATED(Default midamble, Common midamble, UE specific midamble)

>>Midamble Shift Short
C-UE

INTEGER
(0..7)

>Type 3



UL only.
>>Midamble Configuration Burst Type 1 And 3
M

ENUMERATED (4, 8, 16)
As defined in TS 25.221 [12].
>>Midamble Allocation Mode
M

ENUMERATED(Default midamble, UE specific midamble)

>>Midamble Shift Long
C-UE

INTEGER(0..15)


Condition
Explanation
UE
The IE shall be present if the Midamble Allocation Mode IE is set to “UE-specific midamble”.

9.2.3.24	Secondary CCPCH TDD Code Information 7.68Mcps
The Secondary CCPCH TDD Code Information 7.68Mcps IE provides TDD Channelisation Code information for all SCCPCHs of one Time Slot for 7.68Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Secondary CCPCH TDD Code Information 7.68Mcps

1..<maxNrOfSCCPCHs768>


–

>TDD Channelisation Code 7.68Mcps
M

9.2.3.25

–


Range bound
Explanation
maxNrOfSCCPCHs768
Maximum number of SCCPCHs for one CCTrCH.

9.2.3.25	TDD Channelisation Code 7.68Mcps
The Channelisation Code Number indicates which Channelisation Code is used for a given Physical Channel. In 7.68Mcps TDD the Channelisation Code is an Orthogonal Variable Spreading Factor code that can have a spreading factor of 1, 2, 4, 8, 16 or 32.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TDD Channelisation Code 


ENUMERATED((1/1), (2/1), (2/2), (4/1), .. (4/4), (8/1), .. (8/8), (16/1), .. (16/16), (32/1), .. (32,32),… )


9.2.3.26	UL Timeslot Information 7.68Mcps
The UL Timeslot Information IE provides information on the time slot allocation for a UL DPCH for 7.68Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UL Timeslot Information

1..<maxNrOfTS>


–

>Time Slot
M

9.2.1.56

–

>Midamble Shift And Burst Type 7.68Mcps
M

9.2.3.23

–

>TFCI Presence
M

9.2.1.55

–

>UL Code Information 7.68Mcps
M

TDD UL Code Information 7.68Mcps
9.2.3.27

–


Range bound
Explanation
maxNrOfTS
Maximum number of Timeslots for a UE.

9.2.3.27	TDD UL Code Information 7.68Mcps
The TDD UL Code Information 7.68Mcps IE provides TDD UL Code information for all DPCHs of one UL Time Slot for 7.68Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TDD UL Code Information

1..<maxNrOfDPCHs768>


–

>DPCH ID
M

9.2.3.3

–

>TDD Channelisation Code 7.68Mcps
M

9.2.3.25

–


Range bound
Explanation
maxNrOfDPCHs768
Maximum number of DPCHs for one CCTrCH.

9.2.3.28	DL Timeslot Information 7.68Mcps
The DL Timeslot Information 7.68Mcps IE provides information on the time slot allocation for a DL DPCH for 7.68Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
DL Timeslot Information

1..<maxNrOfTS>


–

>Time Slot
M

9.2.1.56

–

>Midamble Shift And Burst Type 7.68Mcps
M

9.2.3.23

–

>TFCI Presence
M

9.2.1.55

–

>DL Code Information 7.68Mcps
M

TDD DL Code Information 7.68Mcps
9.2.3.29

–


Range bound
Explanation
maxNrOfTS
Maximum number of Timeslots for a UE.

9.2.3.29	TDD DL Code Information 7.68Mcps
The TDD DL Code Information IE provides TDD DL Code information for all DPCHs of one DL Time Slot for 7.68Mpcs TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
TDD DL Code Information

1..<maxNrOfDPCHs768>


–

>DPCH ID
M

9.2.3.3

–

>TDD Channelisation Code 7.68Mcps
M

9.2.3.25

–


Range bound
Explanation
maxNrOfDPCHs768
Maximum number of DPCHs for one CCTrCH.

9.2.3.30	Rx Timing Deviation 7.68Mcps
Measured Rx Timing Deviation as a basis for timing advance, either measured directly from a RACH burst, or calculated from the Rx Timing Deviation measurement on the USCH by adding the current Timing Advance value..
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Rx Timing Deviation


INTEGER
(0..1023)
As specified in TS 25.435 [5].

9.2.3.31	Cell Capability Container 7.68 Mcps TDD
The Cell Capability Container 7.68 McpsTDD indicates which functionalities a cell supports.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell Capability Container TDD


BIT STRING (SIZE(32))
Each bit indicates whether a cell supports a particular functionality or not. The value 1 of a bit indicates that the corresponding functionality is supported in a cell and value 0 indicates that the corresponding functionality is not supported in a cell. Each bit is defined as follows.
The first bit: Delayed Activation Support Indicator.
The second bit: HS-DSCH Support Indicator.
The third bit: DSCH Support Indicator.
The fourth bit: Flexible MAC-d PDU Size Support Indicator.
Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.3.32	Neighbouring TDD Cell Measurement Information 7.68Mcps
This IE provides information on the 7.68Mcps TDD neighbouring cells used for the purpose of Measurements. Since the measurement can be performed on every time slot and midamble shift, the Time slot IE and Midamble shift and burst type IE shall be included if available.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UTRAN Cell Identifier
M

9.2.1.71

UARFCN
M

9.2.1.66
Corresponds to Nt TS 25.105 [7].
Cell Parameter ID
M

9.2.1.8

Time Slot
O

9.2.1.56

Midamble Shift And Burst Type 7.68Mcps
O

9.2.3.23


9.2.3.33	UE Measurement Timeslot Information 7.68Mcps
The UE Measurement Time Slot Information IE provides information for DL timeslots for the UE to measure, see TS 25.331 [16].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Measurement Timeslot Information

1..<maxNrOfTS>


>Time Slot
M

9.2.1.56

>Burst Type
M

ENUMERATED(Type1, Type 2, Type 3,…)


Range bound
Explanation
maxNrOfTS
Maximum number of Timeslots for a UE for 7.68Mcps TDD.

9.2.3.34	DPCH ID 7.68Mcps
The DPCH ID 7.68Mcps identifies unambiguously a DPCH inside a downlink Radio Link for 7.68Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
DPCH ID


INTEGER (0..479)


9.2.3.35	Rx Timing Deviation 3.84Mcps Extended
Measured Rx Timing Deviation as a basis for timing advance, either measured directly from a RACH burst, or calculated from the Rx Timing Deviation measurement on the USCH by adding the current Timing Advance value. This is used when the extended timing advance is in use at 3.84 Mcps.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Rx Timing Deviation


INTEGER
(0..511)
As specified in TS 25.435 [5].

9.2.3.36	E-PUCH Information
The E-PUCH Information IE provides parameters to configure the E-PUCH physical channel for 3.84Mcps TDD and 7.68 Mcps TDD. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Minimum code rate
M

INTEGER (0..63)

Unit: -
Range: 0.055 ..1.
Step: 0.015. 
Maximum code rate
M

INTEGER (0..63)

Unit: -
Range: 0.055 ..1.
Step: 0.015. 
HARQ Info for E-DCH
M

ENUMERATED (rv0, rvtable)

“rv0” indicates that the UE will only use E_DCH RV index 0.
“rvtable” indicates that the UE will use an RSN based RV index as specified in TS 25.211 [8].
NE-UCCH
M

INTEGER (1..12)
Number of slots that are required to carry TPC and TFCI (consecutively allocated slots beginning with the first). 

9.2.3.36a	E-PUCH Information LCR
The E-PUCH Information LCR IE provides parameters to configure the E-PUCH physical channel for 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Minimum code rate
M

INTEGER (0..63)
Unit: -
Range: 0.055 ..1.
Step: 0.015.
–

Maximum code rate
M

INTEGER (0..63)

Unit: -
Range: 0.055..1.
Step: 0.015. 
–

HARQ Info for E-DCH
M

ENUMERATED (rv0, rvtable)

“rv0” indicates that the UE will only use E_DCH RV index 0.
“rvtable” indicates that the UE will use an RSN based RV index as specified in TS 25.211 [8].
–

PRXdes­_base
M

INTEGER 
(-112..-50) 
dBm. Reference Desired RX power level for E-PUCH.
–

E-PUCH TPC Step Size
M

TDD TPC Uplink Step Size
9.2.3.10a

–

NE-UCCH
M

INTEGER (1..8)
Number of E-UCCH and TPC instances within an E-DCH TTI. Details are described in TS 25.221 [12]. 
–

E-PUCH Power Control GAP
O

INTEGER (1..255)
Unit: Number of subframes.
Reference to E-PUCH Power Control for 1.28Mcps TDD in TS 25.224 [22]. If it is not present, UE shall deem it to be infinite in which case closed loop power control shall always be used.
YES
ignore

9.2.3.37	E-TFCS Information TDD
Whereas the related E-DCH Transport Block sizes are standardised in TS 25.425 [32] this IE gives details on the Reference Betas.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Reference Beta Information QPSK

1..<maxNrOfRefBetas>


>Reference Code Rate
M

INTEGER (0..10)

Unit: -
Range: 0..1.
Step: 0.1.
>Reference Beta
M

INTEGER(
-15..16)
Unit: -
Range: -15..+16.
Step: 1 dB.
Reference Beta Information 16QAM

1..<maxNrOfRefBetas>


>Reference Code Rate
M

INTEGER (0..10)

Unit: -
Range: 0..1.
Step: 0.1.
>Reference Beta
M

INTEGER(
-15..16)
Unit: -
Range: -15..+16.
Step: 1 dB.

Range Bound
Explanation
maxNrOfRefBetas
Maximum number of signalled reference betas.

9.2.3.38	E-DCH MAC-d Flows Information TDD
The E-DCH MAC-d Flows Information TDD IE is used for the establishment of E-DCH MAC-d flows for TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-DCH MAC-d Flow Specific Information

1..<maxNrOfEDCHMACdFlows>


–

>E-DCH MAC-d Flow ID
M

9.2.1.91

–

>Allocation/Retention Priority
M

9.2.1.1

–

>TNL QoS
O

9.2.1.56A

–

>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
–

>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
–

>Payload CRC Presence Indicator
M

Payload CRC Present Indicator
9.2.1.42

–

>Maximum Number of Retransmissions for E-DCH
M

9.2.1.100

–

>E-DCH HARQ Power Offset TDD
M

9.2.3.49

–

>E-DCH MAC-d Flow Multiplexing List
O

9.2.1.89

–

>E-DCH Grant Type
M

9.2.3.43

–

>E-DCH Logical Channel Information
M

9.2.1.92

–

>E-DCH MAC-d Flow Retransmission Timer
O

9.2.3.49a
Mandatory for LCR TDD.
Not applicable for 3.84Mcps TDD and 7.68Mcps TDD.
YES
YES
>Traffic Class
M

9.2.1.58A

YES
ignore

Range Bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.

9.2.3.39	E-DCH Non-scheduled Grant Information TDD
The E-DCH Non-scheduled Grant Information TDD IE is used to specify the details of an non-scheduled grant for 3.84Mcps and 7.68Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Timeslot Resource Related Information
M

9.2.3.44

Power Resource Related Information
M

9.2.3.45

Repetition Period
M

9.2.3.7

Repetition Length
M

9.2.3.6

TDD E-PUCH Offset
M

E-PUCH Offset
9.2.3.46

TDD Channelisation Code
M

9.2.3.8


9.2.3.39a	E-DCH Non-scheduled Grant Information LCR TDD
The E-DCH Non-scheduled Grant Information LCR TDD IE is used to specify the details of an non-scheduled grant for 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Timeslot Resource Related Information LCR
M

9.2.3.44a

Power Resource Related Information
M

9.2.3.45

Repetition Period
M

9.2.3.7

Repetition Length
M

9.2.3.6

Subframe Number
M

ENUMERATED (0,1)
Used to indicate from which subframe of the Radio Frame indicated by TDD E-PUCH Offset IE the physical resources are assigned to the E-DCH Non-scheduled Grant.
TDD E-PUCH Offset
M

E-PUCH Offset
9.2.3.46

TDD Channelisation Code
M

9.2.3.8


9.2.3.40	E-DCH TDD Information
The E-DCH TDD Information specifies the details of the maximum bit rate and processing overload level.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH TDD Maximum Bitrate 
O

9.2.3.47

E-DCH Processing Overload Level
O

9.2.1.95

E-DCH Power Offset for Scheduling Info
O

9.2.1.96


9.2.3.40a	E-DCH TDD Information LCR
The E-DCH TDD Information LCR IE specifies the details of UE physical layer category, Node B processing overload level and power offset, Maximum Number of Retransmission and E-DCH Retransmission timer for scheduling info. The E-AGCH Inactivity Monitor Threshold IE is used for E-AGCH channel monitoring control for scheduled transmission.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-DCH Physical Layer Category LCR
O

9.2.3.54
If the Extended E-DCH Physical Layer Category LCR IE is included in the E-DCH TDD Information LCR IE, the E-DCH Physical Layer Category LCR IE shall be ignored.
In case of multi-carrier E-DCH, this IE indicates the capability for each carrier.
–

E-DCH Processing Overload Level
O

9.2.1.95

–

E-DCH Power Offset for Scheduling Info
O

9.2.1.96

–

Extended E-DCH Physical Layer Category LCR
O

9.2.3.54A
The Extended E-DCH Physical Layer Category LCR IE shall be used if the E-DCH Physical Layer Category has a value larger than 5.
In case of multi-carrier E-DCH, this IE indicates the capability for each carrier.
YES
reject
Maximum Number of Retransmission for Scheduling Info LCR
O

Maximum Number of Retransmissions for E-DCH
9.2.1.100

YES
ignore
E-DCH Retransmission timer for Scheduling Info LCR
O

E-DCH MAC-d Flow Retransmission Timer
9.2.3.49a

YES
ignore
E-AGCH Inactivity Monitor Threshold
O

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, spare5, …, infinity)
Units of subframes.

YES
ignore
SNPL Carrier Group Indicator
O

INTEGER 
(1..3)
Applicable to 1.28Mcps TDD in multi-carrier E-DCH operation only.
The absence of this IE indicates the corresponding frequency belongs to a separate SNPL carrier group which only contains this carrier. The SNPL carrier group is defined in [16].
YES
reject
Multi-Carrier E-DCH Physical Layer Category LCR
O

9.2.3.54B
Applicable to 1.28Mcps TDD in multi-carrier E-DCH operation only.
YES
reject
UE TS0 Capability LCR
O

ENUMERATED (TS0 Capable, TS0 Non-Capable)
Applicable to 1.28Mcps TDD only.
YES
ignore

9.2.3.41	E-DCH TDD Information Response
The E-DCH TDD Information Response IE provides information for E-DCH MAC-d flows that have been established or modified. It also provides additional E-DCH information determined within the Node B.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH MAC-d Flow Specific Information Response

0..<maxNrOfEDCHMACdFlows>


>E-DCH MAC-d Flow ID
M

9.2.1.91

>Binding ID
O

9.2.1.3

>Transport Layer Address
O

9.2.1.62

E-AGCH Specific Information Response

0..<maxNrOfEAGCHCodes> 


>Time Slot
M

9.2.1.56

>Midamble Shift And Burst Type
M

9.2.3.4

>TDD Channelisation Code
M

9.2.3.8

E-HICH Information Response

0..1 


>Time Slot
M

9.2.1.56

>Midamble Shift And Burst Type
M

9.2.3.4

>TDD Channelisation Code
M

9.2.3.8

>E-HICH Time Offset
M

9.2.3.48

E-DCH Non-scheduled Grant Information TDD
O

9.2.3.39

E-RNTI
O

9.2.1.94


Range bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of MAC-d flows.
maxNrOfEAGCHCodes
Maximum number of E-AGCHs assigned to one UE.

9.2.3.41a	E-DCH TDD Information Response 1.28Mcps
Only for 1.28Mcps TDD. The E-DCH TDD Information Response 1.28Mcps IE provides information for E-DCH MAC-d flows that have been established or modified. It also provides additional E-DCH information determined within the Node B.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH MAC-d Flow Specific Information Response

0..<maxNrOfEDCHMACdFlows>


>E-DCH MAC-d Flow ID
M

9.2.1.91

>Binding ID
O

9.2.1.3

>Transport Layer Address
O

9.2.1.62

E-AGCH Specific Information Response

0..<maxNrOfEAGCHCodes> 


>Time Slot LCR
M

9.2.3.12a

>Midamble Shift LCR
M

9.2.3.4C

>TDD Channelisation Code
M

9.2.3.8

E-HICH Scheduled specific Information Response

0..1 


>Scheduled

0..< maxNrOfEHICHCodes>


>>EI
M

INTEGER (0..3)
E-HICH indication which is used to indicate UE on which E-HICH the feedback info is carried.
>>Time Slot LCR
M

9.2.3.12a

>>Midamble Shift LCR
M

9.2.3.4C

>>TDD Channelisation Code
M

9.2.3.8

>Non-Scheduled

0..1


>>Time Slot LCR
M

9.2.3.12a

>>Midamble Shift LCR
M

9.2.3.4C

>>TDD Channelisation Code
M

9.2.3.8

>>Signature Sequence Group Index
M

INTEGER (0..19)

>E-HICH Time Offset LCR
M

9.2.3.48a

E-DCH Non-scheduled Grant Information LCR TDD
O

9.2.3.39a

E-RNTI
O

9.2.1.94


Range bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of MAC-d flows.
maxNrOfEAGCHCodes
Maximum number of E-AGCHs assigned to one UE.
maxNrOfEHICHCodes
Maximum number of E-HICHs assigned to one UE.

9.2.3.42	E-DCH TDD Information to Modify
The E-DCH MAC-d Flows Information TDD IE is used for the establishment of E-DCH MAC-d flows for TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
E-DCH MAC-d Flow Specific Information

1..<maxNrOfEDCHMACdFlows>


–

>E-DCH MAC-d Flow ID
M

9.2.1.91

–

>Allocation/Retention Priority
O

9.2.1.1

–

>Transport Bearer Request Indicator
M

9.2.1.61

–

>Binding ID
O

9.2.1.3
Shall be ignored if bearer establishment with ALCAP.
–

>Transport Layer Address
O

9.2.1.62
Shall be ignored if bearer establishment with ALCAP.
–

>TNL QoS
O

9.2.1.56A

–

>Maximum Number of Retransmissions for E-DCH
O

9.2.1.100

–

>E-DCH HARQ Power Offset TDD
O

9.2.3.49

–

>E-DCH MAC-d Flow Multiplexing List
O

9.2.1.89

–

>E-DCH Grant Type
O

9.2.3.43

–

>E-DCH Logical Channel To Add
O

E-DCH Logical Channel Information
9.2.1.92

–

>E-DCH Logical Channel To Modify
O

9.2.1.93

–

>E-DCH Logical Channel To Delete

0..< maxNoOfLogicalChannels>


–

>>Logical Channel ID
M

9.2.1.97

–

>E-DCH MAC-d Flow Retransmission Timer
O

9.2.3.49a
Applicable for 1.28Mcps TDD only.
YES
ignore
>Traffic Class
O

9.2.1.58A

YES
ignore
MAC-e Reset Indicator
O

9.2.1.99

–

E-DCH MAC-d PDU Size Format 
O

9.2.1.91A

YES
reject
UE TS0 Capability LCR
O

ENUMERATED (TS0 Capable, TS0 Non-Capable)
Applicable to 1.28Mcps TDD only.
YES
ignore

Range Bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.
maxNoOfLogicalChannels
Maximum number of logical channels.

9.2.3.43	E-DCH Grant Type
The E-DCH Grant Type identifies whether a MAC-d flow is scheduled or non-scheduled.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH Grant Type


ENUMERATED (Scheduled, Non-scheduled)


9.2.3.44	Timeslot Resource Related Information
The Timeslot Resource Related Information is a bitmap indicating which of the timeslots configured for E-DCH are allocated for non-scheduled transmissions.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Timeslot Resource Related Information


BIT STRING (SIZE(13))


9.2.3.44a	Timeslot Resource Related Information LCR
The Timeslot Resource Related Information LCR IE is a bitmap indicating which of the timeslots configured for E-DCH are allocated for non-scheduled transmissions.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Timeslot Resource Related Information LCR


BIT STRING (SIZE(5))


9.2.3.45	Power Resource Related Information
The Power Resource Related Information specifies the maximum allowed E-PUCH power resource (dB relative to Pe-base) that the UE may use for non-scheduled transmissions.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Power Resource Related Information


INTEGER (1..32)


9.2.3.46	E-PUCH Offset
The E-PUCH Offset represents the CFN offset at which an non-scheduled E-DCH grant begins.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-PUCH Offset


INTEGER (0..255)


9.2.3.47	E-DCH TDD Maximum Bitrate
The E-DCH TDD Maximum Bitrate parameter indicates the Maximum Bitrate for an E-DCH in TDD mode.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH TDD Maximum Bitrate


INTEGER (0..9201,…)
Bitrate on transport block level. Unit is kbits per second. 

9.2.3.48	E-HICH Time Offset
The E-HICH Time Offset ( aka nE-HICH (TS 25.221 [12]))is determined by the Node B.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-HICH Time Offset 


INTEGER (4..44)


9.2.3.48a	E-HICH Time Offset LCR
The E-HICH Time Offset LCR IE(aka nE-HICH (TS 25.221 [12]))is determined by the Node B.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-HICH Time Offset LCR


INTEGER (4..15)


9.2.3.49	E-DCH HARQ Power Offset TDD
The E-DCH HARQ Power Offset TDD is the power offset measured in dB.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH HARQ Power Offset TDD


INTEGER (0..6)


9.2.3.49a	E-DCH MAC-d Flow Retransmission Timer
The E-DCH MAC-d Flow Retransmission Timer IE is used in the E-DCH retransmission control as defined in TS 25.425 [32].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH MAC-d Flow Retransmission Timer


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.
Node B may use this value to stop the re-transmission of the corresponding MAC-e PDU.

9.2.3.50	E-DCH Non-scheduled Grant Information 7.68Mcps TDD
The E-DCH Non-scheduled Grant Information 7.68Mcps TDD IE is used to specify the details of an non-scheduled grant for TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Timeslot Resource Related Information
M

9.2.3.44

Power Resource Related Information
M

9.2.3.45

Repetition Period
M

9.2.3.7

Repetition Length
M

9.2.3.6

TDD E-PUCH Offset
M

E-PUCH Offset
9.2.3.46

TDD Channelisation Code 7.68Mcps
M

9.2.3.25


9.2.3.51	E-DCH TDD Information 7.68Mcps
The E-DCH TDD Information 7.68Mcps specifies the details of the maximum bit rate and processing overload level for 7.68Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH TDD Maximum Bitrate 7.68Mcps 
O

9.2.3.53

E-DCH Processing Overload Level
O

9.2.1.95

E-DCH Power Offset for Scheduling Info
O

9.2.1.96


9.2.3.52	E-DCH TDD Information Response 7.68Mcps
The E-DCH TDD Information Response 7.68Mcps IE provides information for E-DCH MAC-d flows that have been established or modified for 7.68Mcps TDD. It also provides additional E-DCH information determined within the Node B.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH MAC-d Flow Specific Information Response

0..<maxNrOfEDCHMACdFlows>


>E-DCH MAC-d Flow ID
M

9.2.1.91

>Binding ID
O

9.2.1.3

>Transport Layer Address
O

9.2.1.62

E-AGCH Specific Information Response 7.68Mcps

0..<maxNrOfEAGCHCodes> 


>Time Slot
M

9.2.1.56

>Midamble Shift And Burst Type 7.68Mcps
M

9.2.3.23

>TDD Channelisation Code 7.68Mcps
M

9.2.3.25

E-HICH Information Response 7.68Mcps

0..1 


>Time Slot
M

9.2.1.56

>Midamble Shift And Burst Type 7.68Mcps
M

9.2.3.23

>TDD Channelisation Code 7.68Mcps
M

9.2.3.25

>E-HICH Time Offset
M

9.2.3.48

E-DCH Non-scheduled Grant Information 7.68Mcps TDD
O

9.2.3.50

E-RNTI
O

9.2.1.94


Range Bound
Explanation
maxNrOfEDCHMACdFlows
Maximum number of E-DCH MAC-d flows.
maxNrOfEAGCHCodes
Maximum number of E-AGCHs assigned to one UE.

9.2.3.53	E-DCH TDD Maximum Bitrate 7.68Mcps
The E-DCH TDD Maximum Bitrate 7.68Mcps parameter indicates the Maximum Bitrate for an E-DCH in 7.68Mcps TDD mode.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH TDD Maximum Bitrate 7.68Mcps


INTEGER (0..17713,…)
Bitrate on transport block level. Unit is kbits per second. 

9.2.3.54	E-DCH Physical Layer Category LCR
Only for 1.28Mcps TDD. The E-DCH Physical Layer Category LCR IE parameter indicates the E-DCH physical layer capability of UE in LCR TDD mode.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH Physical Layer Category LCR


INTEGER (1..5)
As defined in TS 25.306 [42].

9.2.3.54A	Extended E-DCH Physical Layer Category LCR
Only for 1.28Mcps TDD. The Extended E-DCH Physical Layer Category LCR IE parameter indicates the E-DCH physical layer capability of UE in LCR TDD mode.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended E-DCH Physical Layer Category LCR


INTEGER(6,...)
As defined in TS 25.306 [42].

9.2.3.54B	Multi-Carrier E-DCH Physical Layer Category LCR
Only for 1.28Mcps TDD. The Multi-Carrier E-DCH Physical Layer Category LCR IE parameter indicates the E-DCH physical layer capability of UE in multi-carrier E-DCH operation mode.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Multi-Carrier E-DCH Physical Layer Category LCR


INTEGER (1..8,…)
As defined in [42].

9.2.3.55	UpPCH Information LCR
Only for 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
UpPCH Information LCR

1..<maxFrequencyinCell>


EACH
ignore
>UARFCN
O

9.2.1.66

–

>UpPCH Position LCR
O

9.2.3.56

–


Range Bound
Explanation
maxFrequencyinCell
Maximum number of Frequency that can be defined in a Cell.

9.2.3.56	UpPCH Position LCR
Only for 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UpPCH Position LCR


INTEGER (1..127)


9.2.3.57	Common E-DCH MAC-d Flow ID
The Common E-DCH MAC-d Flow ID IE is the unique identifier for one MAC-d flow on E-DCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Common E-DCH MAC-d Flow ID


INTEGER
(0..255)


9.2.3.58	Common E-DCH MAC-d Flow Specific Information LCR
The Common E-DCH MAC-d Flow Specific Information LCR IE provides information associated to Common E-DCH MAC-d Flow used for Common E-DCH.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Common E-DCH MAC-d Flow Specific Information LCR

1..<maxNrOfEDCHMACdFlowsLCR>


>Common E-DCH MAC-d Flow ID
M

9.2.3.57

>Maximum Number of Retransmissions for E-DCH
M

9.2.1.100

>E-DCH HARQ Power Offset TDD
M

9.2.3.49

>E-DCH MAC-d Flow Multiplexing List
O

9.2.1.89

>Common E-DCH Logical Channel information
M
1..<maxNoOfLogicalChannels>


>>Logical Channel ID
M

9.2.1.97

>>Maximum MAC-d PDU Size Extended
M

MAC PDU Size Extended
9.2.1.34D


Range bound
Explanation
maxNrOfEDCHMACdFlowsLCR
Maximum number of E-DCH MAC-d Flows for 1.28Mcps TDD.
maxNoOfLogicalChannels
Maximum number of logical channels.

9.2.3.59	MAC-es Maximum Bit Rate LCR
The MAC-es Maximum Bit Rate LCR IE indicates the maximum number of bits per second to be delivered over the air interface.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MAC-es Maximum Bit Rate LCR


INTEGER (0.. 256,000,000,…)
Unit: bit/s.

9.2.3.60	Idle Interval Information
The Idle Interval Information IE indicates the idle interval used for E-UTRAN measurements by a multi-RAT UE in CELL_DCH state. See TS 36.133 [64].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
K
M

INTEGER (2..3)
The actual idle interval period = 2^k.
Offset
M

INTEGER (0..7)
The idle interval position in the period.

9.2.3.61	Continuous Packet Connectivity DRX Information LCR
The Continuous Packet Connectivity DRX Information LCR IE defines the parameters used for Continuous Packet Connectivity DRX operation for 1.28 Mcps TDD (see TS 25.224 [22]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Enabling Delay
M

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128)
Units of radio frames.
-

HS-SCCH DRX Information

1




>UE DRX Cycle
M

ENUMERATED(1,2,4,8,16,32,64,…)
Units of subframes.
-

>Inactivity Threshold for UE DRX Cycle
O

ENUMERATED(1,2,4,8,16,32,64,…)
Units of subframes.
-

>UE DRX Offset
M

INTEGER (0..63)
Units of subframes. Offset of the UE DRX cycles at the given TTI.
-

>Inactivity Threshold for UE DRX Cycle Ext
O

ENUMERATED(128,256,512,…)
Units of subframes.
YES
ignore
E-AGCH DRX Information

0..1




CHOICE E-AGCH DRX information type
M





>Same as HS-SCCH


NULL
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.
-

>E-AGCH DRX parameters






>>E-AGCH DRX cycle 
M

ENUMERATED (1, 2, 4, 8, 16 ,32 ,64,…)
Units of subframes.
-

>>E-AGCH Inactivity Monitor Threshold
O

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, infinity,…)
Units of subframes.
-

>>E-AGCH DRX Offset
M

INTEGER (0.. 63)
Units of subframes. Offset of the E-AGCH DRX cycles.
-


9.2.3.62	Continuous Packet Connectivity DRX Information To Modify LCR
The Continuous Packet Connectivity DRX Information To Modify LCR IE is used for modification of Continuous Packet Connectivity DRX information in a Node B Communication Context. The Continuous Packet Connectivity DRX Information To Modify LCR IE shall include at least one of the following IE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Enabling Delay
O

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128)
Units of radio frames.
-

CHOICE DRX Information To Modify 
O





>Modify






>>HS-SCCH DRX Information

0..1




>>>UE DRX Cycle
M

ENUMERATED(1,2,4,8,16,32,64,…)
Units of subframes.
-

>>>Inactivity Threshold for UE DRX Cycle
O

ENUMERATED(1,2,4,8,16,32,64,…)
Units of subframes.
-

>>>UE DRX Offset
M

INTEGER (0..63)
Units of subframes. Offset of the UE DRX cycles at the given TTI.
-

>>>Inactivity Threshold for UE DRX Cycle Ext
O

ENUMERATED(128,256,512,…)
Units of subframes.
YES
ignore
>>E-AGCH DRX Information

0..1




>>>CHOICE E-AGCH DRX information type
M



-

>>>>Same as HS-SCCH


NULL
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.
-

>>>>E-AGCH DRX parameters






>>>>>E-AGCH DRX cycle 
M

ENUMERATED (1,2,4,8,16,32,64,…)
Units of subframes.
-

>>>>>E-AGCH Inactivity Monitor Threshold
O

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, infinity,…)
Units of subframes.
-

>>>>>E-AGCH DRX Offset
M

INTEGER (0.. 63)
Units of subframes. Offset of the E-AGCH DRX cycles.
-

>Deactivate


NULL

-


9.2.3.63	Continuous Packet Connectivity DRX Information Response LCR
DRNS uses the Continuous Packet Connectivity DRX Information Response LCR IE to inform the SRNS the parameters used for Continuous Packet Connectivity DRX operation for 1.28 Mcps TDD (see TS 25.224 [22]). Continuous Packet Connectivity DRX related parameters shall be configured by SRNS. For the parameters which can be accepted by DRNS, the DRNS shall not included the related IEs in the Continuous Packet Connectivity DRX Information Response LCR IE. For the parameters which can be not accepted by DRNS, the DRNS shall included the related IEs in the Continuous Packet Connectivity DRX Information Response LCR IE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Enabling Delay
O

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128)
Units of radio frames.
-

HS-SCCH DRX Information

0..1




>UE DRX Cycle
O

ENUMERATED(1,2,4,8,16,32,64,…)
Units of subframes.
-

>Inactivity Threshold for UE DRX Cycle
O

ENUMERATED(1,2,4,8,16,32,64,…)
Units of subframes.
-

>UE DRX Offset
O

INTEGER (0..63)
Units of subframes. Offset of the UE DRX cycles at the given TTI.
-

>Inactivity Threshold for UE DRX Cycle Ext
O

ENUMERATED(128,256,512,…)
Units of subframes.
This IE can only be used when the Inactivity Threshold for UE DRX Cycle Ext is included in the request message, otherwise, the IE shall not be used.
YES
ignore
E-AGCH DRX Information

0..1




CHOICE E-AGCH DRX information type
M





>Same as HS-SCCH


NULL
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.
-

>E-AGCH DRX parameters






>>E-AGCH DRX cycle 
O

ENUMERATED (1,2,4,8,16,32,64,…)
Units of subframes.
-

>>E-AGCH Inactivity Monitor Threshold
O

ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, infinity,…)
Units of subframes.
-

>>E-AGCH DRX Offset
O

INTEGER (0.. 63)
Units of subframes. Offset of the E-AGCH DRX cycles.
-


9.2.3.64	HS-DSCH Semi-Persistent scheduling Information LCR
The HS-DSCH Semi-Persistent scheduling Information LCR IE defines the parameters used for HS-DSCH semi-Persistent scheduling for 1.28 Mcps TDD (see TS 25.224 [22]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transport Block Size List

1..< maxNoOfTBSs-Mapping-HS-DSCH-SPS >


>Transport Block Size maping Index
M

INTEGER (0.. maxNoOfTBSs-Mapping-HS-DSCH-SPS-1)
Corresponds to the Transport-block size information field carried on HS-SCCH (see TS 25.222 [46]).
>Transport Block Size Index
M

INTEGER (1.. maxNoOfHS-DSCH-TBSsLCR)
Corresponds to the TB index in the related Transport Block Size table (see TS 25.425 [32]).
Repetition Period list

1..<maxNoOfRepetition-Period-LCR>


>Repetition Period Index
M

INTEGER (0.. maxNoOfRepetition-Period-LCR-1)
Corresponds to the Resource repetition period index field carried on HS-SCCH (see TS 25.222 [46]).
>Repetition Period
M

ENUMERATED 
(1, 2, 4, 8, 16, 32, 64,…)
Units of subframes.
>Repetition Length
O

INTEGER 
(1..63))
Absence means Repetition Length equal to 1.
HS-DSCH Semi-Persistent Resource Reservation Indicator
O

ENUMERATED(Reserve)
Reserve means the HS-DSCH Semi-Persistent Resource is required to be reserved and be informed via response message.
HS-DSCH Semi-Persistent scheduling operation Indicator

1


>CHOICE configuration 




>>Logical Channel level


BIT STRING (SIZE(16))
Available when MAC-ehs is configured.
Indicates the logical channels for which the HS-DSCH Semi-Persistent operation is intended to be used.
Bit 0 is for logical channel 0, Bit 1 is for logical channel 1, … 
Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.
>>Priority Queue level


BIT STRING (SIZE(8))
Indicates the Priority Queues for which the HS-DSCH Semi-Persistent operation is intended to be used.
Bit 0 is for priority queue 0, Bit 1 is for priority queue 1, ...
Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.

Range Bound
Explanation
maxNoOfHS-DSCH-TBSsLCR
Maximum number of HS-DSCH Transport Block Sizes.
maxNoOfRepetition-Period-LCR
Maximum number of Repetition Period for 1.28Mcps TDD.
maxNoOfTBSs-Mapping-HS-DSCH-SPS
Maximum number of Transport Block Size mapping index on HS-SCCH.

9.2.3.65	HS-DSCH Semi-Persistent scheduling Information to modify LCR
The HS-DSCH Semi-Persistent scheduling Information to modify LCR IE is used for the modification of HS-DSCH Semi-Persistent scheduling information for 1.28 Mcps TDD (see TS 25.224 [22]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Transport Block Size List

0..< maxNoOfTBSs-Mapping-HS-DSCH-SPS >


>Transport Block Size maping Index
M

INTEGER (0.. maxNoOfTBSs-Mapping-HS-DSCH-SPS-1)
Corresponds to the Transport-block size information field carried on HS-SCCH (see TS 25.222 [46]).
>Transport Block Size Index
M

INTEGER (1.. maxNoOfHS-DSCH-TBSsLCR)
Corresponds to the TB index in the related Transport Block Size table (see TS 25.425 [32]).
Repetition Period list

0..<maxNoOfRepetition-Period-LCR>


>Repetition Period Index
M

INTEGER (0.. maxNoOfRepetition-Period-LCR)
Corresponds to the Resource repetition period index field carried on HS-SCCH (see TS 25.222 [46]).
>Repetition Period
M

ENUMERATED 
(1, 2, 4, 8, 16, 32, 64,…)
Units of subframes.
>Repetition Length
O

INTEGER 
(1..63))
Absence means Repetition Length equal to 1.
HS-DSCH Semi-Persistent Resource Reservation Indicator
O

ENUMERATED(Reserve)
Reserve means the Semi-Persistent HS-DSCH Resource is required to be reserved and be informed via response message.
HS-DSCH Semi-Persistent scheduling operation Indicator

0..1


>CHOICE configuration 




>>Logical Channel level


BIT STRING (SIZE(16))
Available when MAC-ehs is configured.
Indicates the logical channels for which the HS-DSCH Semi-Persistent operation is intended to be used.
Bit 0 is for logical channel 0, Bit1 is for logical channel 1, ...
Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.
>>Priority Queue level


BIT STRING (SIZE(8))
Indicates the Priority Queues for which the HS-DSCH Semi-Persistent operation is intended to be used. 
Bit 0 is for prority queue 0, Bit1 is for priority queue 1, ...
Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.

Range Bound
Explanation
maxNoOfHS-DSCH-TBSsLCR
Maximum number of HS-DSCH Transport Block Sizes.
maxNoOfRepetition-Period-LCR
Maximum number of Repetition Period for 1.28Mcps TDD.
maxNoOfTBSs-Mapping-HS-DSCH-SPS
Maximum number of Transport Block Size mapping index on HS-SCCH.

9.2.3.66	E-DCH Semi-Persistent scheduling Information LCR
The E-DCH Semi-Persistent scheduling Information LCR IE defines the parameters used for E-DCH semi-Persistent scheduling for 1.28 Mcps TDD (see TS 25.224 [22]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Repetition Period list

1..<maxNoOfRepetition-Period-LCR>


>Repetition Period Index
M

INTEGER (0.. maxNoOfRepetition-Period-LCR-1)

>Repetition Period
M

ENUMERATED 
(1, 2, 4, 8, 16, 32, 64,…)
Units of subframes.
>Repetition Length
O

INTEGER 
(1..63))
Absence means Repetition Length equal to 1.
E-DCH Semi-Persistent scheduling Indicator
M

BIT STRING (SIZE(16))
Indicates the logical channels for which the E-DCH Semi-Persistent operation is intended to be used. 
Bit 0 is for logical channel 0, Bit1 is for logical channel 1, ...
Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.
E-DCH Semi-Persistent Resource Reservation Indicator
O

ENUMERATED(Reserve)
Reserve means the E-DCH Semi-Persistent Resource is required to be reserved and be informed via response message.

Range Bound
Explanation
maxNoOfRepetition-Period-LCR
Maximum number of Repetition Period for 1.28Mcps TDD.

9.2.3.67	E-DCH Semi-Persistent scheduling Information to modify LCR
The E-DCH Semi-Persistent scheduling Information to modify LCR IE is used for the modification of E-DCH Semi-Persistent scheduling information for 1.28 Mcps TDD (see TS 25.224 [22]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Repetition Period list

0..<maxNoOfRepetition-Period-LCR>


>Repetition Period Index
M

INTEGER (0.. maxNoOfRepetition-Period-LCR-1)

>Repetition Period
M

ENUMERATED 
(1, 2, 4, 8, 16, 32, 64,…)
Units of subframes.
>Repetition Length
O

INTEGER 
(1..63))
Absence means Repetition Length equal to 1.
E-DCH Semi-Persistent scheduling Indicator
O

BIT STRING (SIZE(16))
Indicates the logical channels for which the E-DCH Semi-Persistent operation is intended to be used.
Bit 0 is for logical channel 0, Bit1 is for logical channel 1, ...
Value ‘1’ for a bit means that the HS-DSCH Semi-Persistent operation is allowed. Bit 0 is the first/leftmost bit of the bit string.
E-DCH Semi-Persistent Resource Reservation Indicator
O

ENUMERATED(Reserve)
Reserve means the E-DCH Semi-Persistent Resource is required to be reserved and be informed via response message.

Range Bound
Explanation
maxNoOfRepetition-Period-LCR
Maximum number of Repetition Period for 1.28Mcps TDD.

9.2.3.68	HS-DSCH Semi-Persistent scheduling Information Response LCR
The HS-DSCH Semi-Persistent scheduling Information Response LCR IE provides information for HS-DSCH Semi-Persistent scheduling determined within the Node B (see TS 25.224 [22]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-SICH information for HS-DSCH Semi-Persistent Scheduling operation

1..< maxNoOf-HS-SICH-SPS>


>HS-SICH mapping index
M

INTEGER (0.. maxNoOf-HS-SICH-SPS-1)

>CHIOCE HS-SICH type




>>HS-SCCH associated HS-SICH




>>>HS-SICH ID
M

9.2.3.3ad

>>Non-HS-SCCH associated HS-SICH




>>>Time Slot LCR
M

9.2.3.12a

>>>Midamble Shift LCR
M

9.2.3.4C

>>>TDD Channelisation Code
M

9.2.3.8

Allcoated HS-PDSCH Semi-persistent resource

0..1


>Repetition Period Index
M

INTEGER (0.. maxNoOfRepetition-Period-LCR-1)

>Repetition Length for HS-PDSCH Semi-persistent Resouce
O

INTEGER 
(1..63))
Absence means Repetition Length equal to 1.
>HS-PDSCH offset
M

INTEGER 
(0..63))
Units of subframes.
>HS-PDSCH Midamble Configuation
M

Midamble Shift LCR 9.2.3.7A

>Timeslot Resource Related Information
M

BIT STRING (SIZE(5))
Each bit indicates availability of a timeslot, where the bit 0 corresponds to TS2, the bit 1 is TS3, the bit 3 is TS4… bit 5 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.
>Start Code
M

TDD Channelisation Code 9.2.3.8

>End Code
M

TDD Channelisation Code 9.2.3.8

>Transport Block Size Index
M

INTEGER (0.. maxNoOfTBSs-Mapping-HS-DSCH-SPS-1)

>Modulation type
M

ENUMERATED 
(QPSK, 16QAM)

>HS-SICH mapping index
M

INTEGER (0.. maxNoOf-HS-SICH-SPS-1)

Buffer Size for HS-DSCH Semi-Persistent scheduling
O

ENUMERATED (800..304000,…)
Indicats the buffer size that shall be reserved for HS-DSCH semi-persistent scheduling operation.

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.
Number of Processes for HS-DSCH Semi-Persistent scheduling
O

INTEGER (1..16)


Range Bound
Explanation
maxNoOf-HS-SICH-SPS
Maximum number of HS-SICH for HS-DSCH Semi-Persistent scheduling operation.
maxNoOfTBSs-Mapping-HS-DSCH-SPS
Maximum number of Transport Block Size mapping index on HS-SCCH.
maxNoOfRepetition-Period-LCR
Maximum number of Repetition Period for 1.28Mcps TDD.

9.2.3.69	E-DCH Semi-Persistent scheduling Information Response LCR
The E-DCH Semi-Persistent scheduling Information Response LCR IE provides information for E-DCH Semi-Persistent scheduling information determined within the Node B (see TS 25.224 [22]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Allcoated E-DCH Semi-persistent resource

0..1



>Timeslot Resource Related Information LCR
M

9.2.3.54a

>Power Resource Related Information
M

9.2.3.45

>Repetition Period Index
M

INTEGER (0.. maxNoOfRepetition-Period-LCR-1)

>Repetition Length
M

INTEGER 
(1..63))
Absence means Repetition Length equal to 1.
>Subframe Number
M

ENUMERATED (
0,1)
Used to indicate from which subframe of the Radio Frame indicated by TDD E-PUCH Offset IE the physical resources are assigned to the E-DCH Non-scheduled Grant.
>TDD E-PUCH Offset
M

E-PUCH Offset
9.2.3.46

>TDD Channelisation Code
M

9.2.3.8

>NE-UCCH
M

INTEGER (1..8)
Number of E-UCCH and TPC instances within an E-DCH TTI. Details are described in TS 25.221 [12]. 
E-DCH SPS E-HICH information

0..1


>CHOICE E-HICH configuration
M



>>same as scheduled E-HICH




>>>EI


INTEGER (0..3)

>>explicit




>>>Time Slot LCR
M

9.2.3.12a

>>>Midamble Shift LCR
M

9.2.3.4C

>>>TDD Channelisation Code
M

9.2.3.8

>Signature Sequence Group Index
M

INTEGER (0..19)


Range Bound
Explanation
maxNoOfRepetition-Period-LCR
Maximum number of Repetition Period for 1.28Mcps TDD.

9.2.3.70	HS-DSCH Semi-Persistent scheduling Deactivate Indicator LCR
The HS-DSCH Semi-Persistent scheduling Deactivate Indicator LCR IE is used to deactivate HS-DSCH Semi-Persistent scheduling operation for 1.28 Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
HS-DSCH Semi-Persistent scheduling Deactivate Indicator
M

NULL


9.2.3.71	E-DCH Semi-Persistent scheduling Deactivate Indicator LCR
The E-DCH Semi-Persistent scheduling Deactivate Indicator LCR IE is used to deactivate E-DCH Semi-Persistent schedulung operation for 1.28 Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-DCH Semi-Persistent scheduling Deactivate Indicator
M

NULL


9.2.3.72	HS-SICH Reference Signal Information
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Midamble Configuration LCR
M

ENUMERATED (2, 4, 6, 8, 10, 12, 14, 16, ...)
As defined in TS 25.221 [12].


Midamble Shift
M

INTEGER (0..15)



Time Slot LCR
M

9.2.3.12a




9.2.3.73	Cell Portion LCR ID 
Cell Portion LCR ID is the unique identifier for a cell portion within a cell for 1.28 Mcps TDD. See TS 25.225 [14].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell Portion LCR ID


INTEGER (0..255,…)


9.2.3.74	TS0 HS-PDSCH Indication LCR
Only for 1.28Mcps TDD. The TS0 HS-PDSCH Indication LCR IE indicates the first bit of timeslot information included in the HS-SCCH can be used to allocate the HS-PDSCH resources on TS0.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
TS0 HS-PDSCH Indication LCR


NULL


9.2.3.75	DCH Measurement Occasion Information
The DCH Measurement Occasion Information IE indicates Measurement Occasion Information used for inter-frequency/ inter-RAT measurements in CELL_DCH state for 1.28Mcps TDD. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CELL_DCH measurement occasion pattern sequence

1 to <maxNrOfDCHMeasurementOccasionPatternSequence>


>Pattern sequence identifier
M

INTEGER (1.. maxNrOfDCHMeasurementOccasionPatternSequence)

>Status Flag
M

ENUMERATED(activate, deactivate)
This flag indicates whether the measurement occasion pattern sequence shall be activated or deactivated.
>Measurement purpose
O

BIT STRING (SIZE(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.
>Measurement occasion pattern sequence parameters
O



>>k
M

INTEGER (1..9)
CELL_DCH measurement occasion cycle length coefficient. The actual measurement occasion period equal to 2k radio frames. Value 0 indicates continuous allocation.
>>Offset
M

INTEGER (0..511)
In frames. The measurement occasion position in the measurement period.
>>M_Length
M

INTEGER (1..512)
The measurement occasion length in frames starting from the Offset.
>>Timeslot Bitmap
M

BIT STRING (SIZE(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.

Condition
Explanation
Measurementoccasionpatternsequence parameters
The IE shall be present if Measurement occasion pattern sequence parameters IE is present.

Range Bound
Explanation
maxNrOfDCHMeasurementOccasionPatternSequence
Maximum number of measurement occasion pattern sequence

9.2.3.76	DCH Measurement Type Indicator
The DCH Measurement Type Indicator IE indicates the measurement type(s) which the DRNS shall configured for the UE in CELL_DCH state for 1.28Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Measurement type
M

BIT STRING (SIZE(5))
Measurement type. 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 should be configured for the corresponding type of measurement.
Bit 0 is the first/leftmost bit of the bit string.

9.2.3.77	Multi-Carrier E-DCH Information LCR
The Multi-Carrier E-DCH Information LCR IE defines the parameters used for Multi-Carrier E-DCH operation for 1.28 Mcps TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Multi-Carrier E-DCH Information

1..<maxNrOfULCarriersLCR-1>


>UARFCN
M

9.2.1.66
Corresponds to Nt (3GPP TS 25.105).
>SNPL Carrier Group Indicator
O

INTEGER 
(1..3)
Indicates to which SNPL carrier Group this frequency belongs. The absence of this IE indicates the corresponding frequency belongs to a separate SNPL carrier group which only contains this carrier. The SNPL carrier Group is defined in TS 25.331 [16].
>PRXdes_base
M

INTEGER 
(-112..-50)
dBm. Reference Desired RX power level for E-PUCH.
>Multi-Carrier E-DCH TDD MAC-d Flow Specific Information

0..<maxNrOfEDCHMACdFlows>

Shall be ignored if bearer establishment with ALCAP.

Shall be present only if the Separate Iur transport bearer mode is used.
>>E-DCH MAC-d Flow ID
M

9.2.1.91

>>Binding ID
M

9.2.1.3

>>Transport Layer Address
M

9.2.1.62


Range Bound
Explanation
maxNrOfULCarriersLCR
Maximum number of uplink frequencis in Multi-Carrier E-DCH Operation.
maxNrOfEDCHMACdFlows
Maximum number of MAC-d flows.

9.2.3.78	Multi-Carrier E-DCH Information Response LCR
The Multi-Carrier E-DCH Information Response LCR IE provides information for E-DCH MAC-d flows that determined within the DRNS.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Multi-Carrier E-DCH Information Response

1..<maxNrOfULCarriersLCR-1>


>UARFCN
M

9.2.1.66
Corresponds to Nt (3GPP TS 25.105).
>E-DCH TDD MAC-d Flow Specific Information Response

0..<maxNrOfEDCHMACdFlows>


>>E-DCH MAC-d Flow ID
M

9.2.1.91

>>Binding ID
O

9.2.1.3

>>Transport Layer Address
O

9.2.1.62

>E-AGCH Specific Information Response

0..<maxNrOfEAGCHCodes>


>>Time Slot LCR
M

9.2.3.12a

>>Midamble Shift LCR
M

9.2.3.4C

>>TDD Channelisation Code
M

9.2.3.8

>E-HICH Scheduled specific Information Response

0..< maxNrOfEHICHCodes>


>>EI
M

INTEGER (0..3)
E-HICH indication which is used to indicate UE on which E-HICH the feedback info is carried.
>>Time Slot LCR
M

9.2.3.12a

>>Midamble Shift LCR
M

9.2.3.4C

>>TDD Channelisation Code
M

9.2.3.8


Range bound
Explanation
maxNrOfULCarriersLCR
Maximum number of uplink frequencis in Multi-Carrier E-DCH Operation.
maxNrOfEDCHMACdFlows
Maximum number of MAC-d flows.
maxNrOfEAGCHCodes
Maximum number of E-AGCHs assigned to one UE.
maxNrOfEHICHCodes
Maximum number of E-HICHs assigned to one UE.

9.2.3.79	Multi-Carrier E-DCH Transport Bearer Mode LCR
This parameter indicates the Multicarrier E-DCH Transport Bearer Mode. For Multi-Carrier E-DCH Transport Bearer Mode LCR = " Separate Iur transport bearer mode" the Mac-d flows from each carrier uses different Iur transport bearers, for Multi-Carrier E-DCH Transport Bearer Mode LCR = " E-DCH UL flow multiplexing mode " the Mac-d flow received on the different carriers in the DRNS is multiplexed on one Iur transport bearer.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Multicarrier E-DCH Transport Bearer Mode


ENUMERATED (Separate Iur transport bearer mode,E-DCH UL flow multiplexing mode,…)


9.2.3.80	Cell Capability Container Extension TDD LCR
The Cell Capability Container Extension TDD LCR IE is an extension to the Cell Capability Container TDD LCR IE and indicates the cell capability in the same way as Cell Capability Container TDD LCR IE. 
The Cell Capability Container Extension TDD LCR IE indicates the cell capability of Multi-Carrier related functions. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Cell Capability Container Extension TDD LCR


BIT STRING (SIZE(32))
Each bit indicates whether a cell supports a particular functionality or not. The value 1 of a bit indicates that the corresponding functionality is supported in a cell and value 0 indicates that the corresponding functionality is not supported in a cell. Each bit is defined as follows.
The first bit: Multi-Carrier E-DCH Operation Support Indicator. This bit shall be ignored by the SRNC if the second bit: Separate Iur Transport Bearer Support Indicator = “0” and the third bit: E-DCH UL Flow Multiplexing Support Indicator = “0”.
The second bit: Separate Iur Transport Bearer Support Indicator, /Multi-carrier/.
This bit shall be ignored by the SRNC if the first bit: Multi-Carrier E-DCH Operation Support Indicator = “0”.
The third bit: E-DCH UL flow multiplexing mode Indicator, /Multi-carrier/.
This bit shall be ignored by the SRNC if the first bit: Multi-Carrier E-DCH Operation Support Indicator = “0”.

Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver. Note that Reserved bits are not considered as a spare bit. They shall however be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.3.81	MU-MIMO Information
The MU-MIMO Information IE defines the parameters used for MU-MIMO operation for 1.28 Mcps TDD (see TS 25.224 [22]).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MU-MIMO Operation
M

ENUMERATED (MU-MIMO Used, MU-MIMO Not Used)

Standalone Midamble Channel Information

0..1


>Standalone Midamble Configuration
M

ENUMERATED (2, 4, 6, 8, 10, 12, 14, 16, ...)
As defined in TS 25.221 [12].
>Standalone Midamble Shift
M

INTEGER (0..15)

>Time Slot LCR
M

9.2.3.12a

>Repetition Period
M

ENUMERATED (1, 2,4, 8, 16, 32, 64)
Units of subframes.
>Offset
M

INTEGER (0..63)
Units of subframes.
>Reference Beta
C-E-DCH

INTEGER (-15..16)
Unit range -15db to +16db.

Condition
Explanation
E-DCH
This IE shall be present if IE "E-DCH Information 1.28Mcps" is present. Otherwise it is not needed.


9.2.3.82	MU-MIMO Indicator
The MU-MIMO Indicator IE indicates the DRNC can use MU-MIMO on UL and/or DL. It also indicates that whether Standalone Midamble Channel should be used or not.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MU-MIMO Usage Indicator
M

ENUMERATED (UL Only, DL Only, UL and DL)

Standalone Midamble Channel indicator
M

ENUMERATED (Used, Not Used)


9.2.3.83	M2 Report
This IE defines the parameters for a M2 report, TDD report of UE radio measurements. This IE is not used by the DRNS.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
M2 Report




>CHOICE Report trigger
M



>>Periodic




>>>MDT Report Parameters
M

9.2.1.140

>>Event1I




>>>threshold
M

INTEGER(-120..-25)


9.2.3.84	UE RF Band Capability LCR
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE RF Band Capability Info

1..< maxFreqBandsTDD>


>UE RF Band Capability
M

ENUMERATED (a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,…)
Corresponds to the radio bands definition (TS 25.105 [7]).

Range Bound
Explanation
maxFreqBandsTDD
Maximum number of Frequency bands for TDD.

9.3	Message and Information Element Abstract Syntax (with ASN.1)
9.3.0	General
RNSAP ASN.1 definition conforms with ITU-T Rec. X.680 [18] and ITU-T Rec. X.681 [19].
Subclause 9.3 presents the Abstract Syntax of RNSAP protocol with ASN.1. In case there is contradiction between the ASN.1 definition in this subclause and the tabular format in subclause 9.1 and 9.2, the ASN.1 shall take precedence, except for the definition of conditions for the presence of conditional elements, in which the tabular format shall take precedence.
The ASN.1 definition specifies the structure and content of RNSAP messages. RNSAP messages can contain any IEs specified in the object set definitions for that message without the order or number of occurrence being restricted by ASN.1. However, for this version of the standard, a sending entity shall construct a RNSAP message according to the PDU definitions module and with the following additional rules:
-	IEs shall be ordered (in an IE container) in the order they appear in object set definitions.
-	Object set definitions specify how many times IEs may appear. An IE shall appear exactly once if the presence field in an object has value “mandatory”. An IE may appear at most once if the presence field in an object has value “optional” or “conditional”. If in a tabular format there is multiplicity specified for an IE (i.e. an IE list) then in the corresponding ASN.1 definition the list definition is separated into two parts. The first part defines an IE container list in which the list elements reside. The second part defines list elements. The IE container list appears as an IE of its own. For this version of the standard an IE container list may contain only one kind of list elements.
NOTE: In the above “IE” means an IE in the object set with an explicit ID. If one IE needs to appear more than once in one object set, then the different occurrences have different IE IDs.
If a RNSAP message that is not constructed as defined above is received, this shall be considered as Abstract Syntax Error, and the message shall be handled as defined for Abstract Syntax Error in subclause 10.3.6.
9.3.1	Usage of Private Message Mechanism for Non-standard Use
The private message mechanism for non-standard use may be used:
-	for special operator (and/or vendor) specific features considered not to be part of the basic functionality, i.e. the functionality required for a complete and high-quality specification in order to guarantee multivendor inter-operability.
-	by vendors for research purposes, e.g. to implement and evaluate new algorithms/features before such features are proposed for standardisation.
The private message mechanism shall not be used for basic functionality. Such functionality shall be standardised.
9.3.2	Elementary Procedure Definitions
-- **************************************************************
--
-- Elementary Procedure definitions
--
-- **************************************************************

RNSAP-PDU-Descriptions {
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
umts-Access (20) modules (3) rnsap (1) version1 (1) rnsap-PDU-Descriptions (0) }

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

-- **************************************************************
--
-- IE parameter types from other modules.
--
-- **************************************************************

IMPORTS
	Criticality,
	ProcedureID,
	TransactionID
FROM RNSAP-CommonDataTypes

	CommonMeasurementFailureIndication,
	CommonMeasurementInitiationFailure,
	CommonMeasurementInitiationRequest,
	CommonMeasurementInitiationResponse,
	CommonMeasurementReport,
	CommonMeasurementTerminationRequest,
	CommonTransportChannelResourcesFailure,
	CommonTransportChannelResourcesRequest,
	CommonTransportChannelResourcesReleaseRequest,
	CommonTransportChannelResourcesResponseFDD,
	CommonTransportChannelResourcesResponseTDD,
	CompressedModeCommand,
	DedicatedMeasurementFailureIndication,
	DedicatedMeasurementInitiationFailure,
	DedicatedMeasurementInitiationRequest,
	DedicatedMeasurementInitiationResponse,
	DedicatedMeasurementReport,
	DedicatedMeasurementTerminationRequest,
	DirectInformationTransfer,
	DL-PowerControlRequest,
	DL-PowerTimeslotControlRequest,
	DownlinkSignallingTransferRequest,
	ErrorIndication,
	EnhancedRelocationCancel,
	EnhancedRelocationFailure,
	EnhancedRelocationRequest,
	EnhancedRelocationResponse,
	EnhancedRelocationSignallingTransfer,
	EnhancedRelocationRelease,
	EnhancedRelocationResourceRequest,
	EnhancedRelocationResourceResponse,
	EnhancedRelocationResourceFailure,
	EnhancedRelocationResourceReleaseCommand,
	EnhancedRelocationResourceReleaseComplete,
	InformationExchangeFailureIndication,
	InformationExchangeInitiationFailure,
	InformationExchangeInitiationRequest,
	InformationExchangeInitiationResponse,
	InformationExchangeTerminationRequest,
	InformationReport,
	InformationTransferControlRequest,
	IurDeactivateTrace,
	IurInvokeTrace,
	MBMSAttachCommand,
	MBMSDetachCommand,
	MBSFNMCCHInformation,
	PagingRequest,
	PhysicalChannelReconfigurationCommand,
	PhysicalChannelReconfigurationFailure,
	PhysicalChannelReconfigurationRequestFDD,
	PhysicalChannelReconfigurationRequestTDD,
	PrivateMessage,
	RadioLinkActivationCommandFDD,
	RadioLinkActivationCommandTDD,
	RadioLinkAdditionFailureFDD,
	RadioLinkAdditionFailureTDD,
	RadioLinkAdditionRequestFDD,
	RadioLinkAdditionRequestTDD,
	RadioLinkAdditionResponseFDD,
	RadioLinkAdditionResponseTDD,
	RadioLinkCongestionIndication,
	RadioLinkDeletionRequest,
	RadioLinkDeletionResponse,
	RadioLinkFailureIndication,
	RadioLinkParameterUpdateIndicationFDD,
	RadioLinkParameterUpdateIndicationTDD,
	RadioLinkPreemptionRequiredIndication,
	RadioLinkReconfigurationCancel,
	RadioLinkReconfigurationCommit,
	RadioLinkReconfigurationFailure,
	RadioLinkReconfigurationPrepareFDD,
	RadioLinkReconfigurationPrepareTDD,
	RadioLinkReconfigurationReadyFDD,
	RadioLinkReconfigurationReadyTDD,
	RadioLinkReconfigurationRequestFDD,
	RadioLinkReconfigurationRequestTDD,
	RadioLinkReconfigurationResponseFDD,
	RadioLinkReconfigurationResponseTDD,
	RadioLinkRestoreIndication,
	RadioLinkSetupFailureFDD,
	RadioLinkSetupFailureTDD,
	RadioLinkSetupRequestFDD,
	RadioLinkSetupRequestTDD,
	RadioLinkSetupResponseFDD,
	RadioLinkSetupResponseTDD,
	RelocationCommit,
	ResetRequest,
	ResetResponse,
	UEMeasurementFailureIndication,
	UEMeasurementInitiationFailure,
	UEMeasurementInitiationRequest,
	UEMeasurementInitiationResponse,
	UEMeasurementReport,
	UEMeasurementTerminationRequest,
	SecondaryULFrequencyReport,
	SecondaryULFrequencyUpdateIndication,
	UplinkSignallingTransferIndicationFDD,
	UplinkSignallingTransferIndicationTDD,
	GERANUplinkSignallingTransferIndication
FROM RNSAP-PDU-Contents

	id-commonMeasurementFailure,
	id-commonMeasurementInitiation,
	id-commonMeasurementReporting,
	id-commonMeasurementTermination,
	id-commonTransportChannelResourcesInitialisation,
	id-commonTransportChannelResourcesRelease,
	id-compressedModeCommand,
	id-downlinkPowerControl,
	id-downlinkSignallingTransfer,
	id-downlinkPowerTimeslotControl,
	id-enhancedRelocation,
	id-enhancedRelocationCancel,
	id-enhancedRelocationSignallingTransfer,
	id-enhancedRelocationRelease,
	id-errorIndication,
	id-informationExchangeFailure,
	id-informationExchangeInitiation,
	id-informationReporting,
	id-informationExchangeTermination,
	id-informationTransferControl,
	id-iurDeactivateTrace,
	id-iurInvokeTrace,
	id-dedicatedMeasurementFailure,
	id-dedicatedMeasurementInitiation,
	id-dedicatedMeasurementReporting,
	id-dedicatedMeasurementTermination,
	id-directInformationTransfer,
	id-mBMSAttach,
	id-mBMSDetach,
	id-mBSFNMCCHInformation,
	id-paging,
	id-physicalChannelReconfiguration,
	id-privateMessage,
	id-radioLinkActivation,
	id-radioLinkAddition,
	id-radioLinkCongestion,
	id-radioLinkDeletion,
	id-radioLinkFailure,
	id-radioLinkParameterUpdate,
	id-radioLinkPreemption,
	id-radioLinkRestoration,
	id-radioLinkSetup,
	id-relocationCommit,
	id-reset,
	id-synchronisedRadioLinkReconfigurationCancellation,
	id-synchronisedRadioLinkReconfigurationCommit,
	id-synchronisedRadioLinkReconfigurationPreparation,
	id-uEMeasurementFailure,
	id-uEMeasurementInitiation,
	id-uEMeasurementReporting,
	id-uEMeasurementTermination, 
	id-secondaryULFrequencyReporting,
	id-secondaryULFrequencyUpdate,
	id-unSynchronisedRadioLinkReconfiguration,
	id-uplinkSignallingTransfer,
	id-gERANuplinkSignallingTransfer,
	id-enhancedRelocationResourceAllocation,
	id-enhancedRelocationResourceRelease

FROM RNSAP-Constants;

-- **************************************************************
--
-- Interface Elementary Procedure Class
--
-- **************************************************************

RNSAP-ELEMENTARY-PROCEDURE ::= CLASS {
	&InitiatingMessage				,
	&SuccessfulOutcome				OPTIONAL,
	&UnsuccessfulOutcome				OPTIONAL,
	&Outcome					OPTIONAL,
	&procedureID			ProcedureID 	UNIQUE,
	&criticality			Criticality 	DEFAULT ignore
}
WITH SYNTAX {
	INITIATING MESSAGE		&InitiatingMessage
	[SUCCESSFUL OUTCOME		&SuccessfulOutcome]
	[UNSUCCESSFUL OUTCOME		&UnsuccessfulOutcome]
	[OUTCOME			&Outcome]
	PROCEDURE ID			&procedureID
	[CRITICALITY			&criticality]
}

-- **************************************************************
--
-- Interface PDU Definition
--
-- **************************************************************

RNSAP-PDU ::= CHOICE {
	initiatingMessage	InitiatingMessage,
	successfulOutcome	SuccessfulOutcome,
	unsuccessfulOutcome	UnsuccessfulOutcome,
	outcome			Outcome,
	...
}

InitiatingMessage ::= SEQUENCE {
	procedureID	RNSAP-ELEMENTARY-PROCEDURE.&procedureID		({RNSAP-ELEMENTARY-PROCEDURES}),
	criticality	RNSAP-ELEMENTARY-PROCEDURE.&criticality		({RNSAP-ELEMENTARY-PROCEDURES}{@procedureID}),
	transactionID	TransactionID,
	value		RNSAP-ELEMENTARY-PROCEDURE.&InitiatingMessage	({RNSAP-ELEMENTARY-PROCEDURES}{@procedureID})
}

SuccessfulOutcome ::= SEQUENCE {
	procedureID	RNSAP-ELEMENTARY-PROCEDURE.&procedureID		({RNSAP-ELEMENTARY-PROCEDURES}),
	criticality	RNSAP-ELEMENTARY-PROCEDURE.&criticality		({RNSAP-ELEMENTARY-PROCEDURES}{@procedureID}),
	transactionID	TransactionID,
	value		RNSAP-ELEMENTARY-PROCEDURE.&SuccessfulOutcome	({RNSAP-ELEMENTARY-PROCEDURES}{@procedureID})
}

UnsuccessfulOutcome ::= SEQUENCE {
	procedureID	RNSAP-ELEMENTARY-PROCEDURE.&procedureID		({RNSAP-ELEMENTARY-PROCEDURES}),
	criticality	RNSAP-ELEMENTARY-PROCEDURE.&criticality		({RNSAP-ELEMENTARY-PROCEDURES}{@procedureID}),
	transactionID	TransactionID,
	value		RNSAP-ELEMENTARY-PROCEDURE.&UnsuccessfulOutcome	({RNSAP-ELEMENTARY-PROCEDURES}{@procedureID})
}

Outcome ::= SEQUENCE {
	procedureID	RNSAP-ELEMENTARY-PROCEDURE.&procedureID		({RNSAP-ELEMENTARY-PROCEDURES}),
	criticality	RNSAP-ELEMENTARY-PROCEDURE.&criticality		({RNSAP-ELEMENTARY-PROCEDURES}{@procedureID}),
	transactionID	TransactionID,
	value		RNSAP-ELEMENTARY-PROCEDURE.&Outcome		({RNSAP-ELEMENTARY-PROCEDURES}{@procedureID})
}

-- **************************************************************
--
-- Interface Elementary Procedure List
--
-- **************************************************************

RNSAP-ELEMENTARY-PROCEDURES RNSAP-ELEMENTARY-PROCEDURE ::= {
	RNSAP-ELEMENTARY-PROCEDURES-CLASS-1			|
	RNSAP-ELEMENTARY-PROCEDURES-CLASS-2			|
	RNSAP-ELEMENTARY-PROCEDURES-CLASS-3			,
	...
}

RNSAP-ELEMENTARY-PROCEDURES-CLASS-1 RNSAP-ELEMENTARY-PROCEDURE ::= {
	radioLinkSetupFDD										|
	radioLinkSetupTDD										|
	radioLinkAdditionFDD									|
	radioLinkAdditionTDD									|
	radioLinkDeletion										|
	synchronisedRadioLinkReconfigurationPreparationFDD		|
	synchronisedRadioLinkReconfigurationPreparationTDD		|
	unSynchronisedRadioLinkReconfigurationFDD				|
	unSynchronisedRadioLinkReconfigurationTDD				|
	physicalChannelReconfigurationFDD						|
	physicalChannelReconfigurationTDD						|
	dedicatedMeasurementInitiation							|
	commonTransportChannelResourcesInitialisationFDD		|
	commonTransportChannelResourcesInitialisationTDD		,
	...,
	commonMeasurementInitiation								|
	informationExchangeInitiation							|
	reset													|
	uEMeasurementInitiation									|
	enhancedRelocation										|
	enhancedRelocationResourceAllocation					|
	enhancedRelocationResourceRelease
}

RNSAP-ELEMENTARY-PROCEDURES-CLASS-2 RNSAP-ELEMENTARY-PROCEDURE ::= {
	uplinkSignallingTransferFDD							|
	uplinkSignallingTransferTDD							|
	downlinkSignallingTransfer							|
	relocationCommit									|
	paging												|
	synchronisedRadioLinkReconfigurationCommit			|
	synchronisedRadioLinkReconfigurationCancellation	|
	radioLinkFailure									|
	radioLinkPreemption									|
	radioLinkRestoration								|
	dedicatedMeasurementReporting						|
	dedicatedMeasurementTermination						|
	dedicatedMeasurementFailure							|
	downlinkPowerControlFDD								|
	downlinkPowerTimeslotControl						|
	compressedModeCommandFDD							|
	commonTransportChannelResourcesRelease				|
	errorIndication										|
	privateMessage										,
	...,
	radioLinkCongestion									|
	commonMeasurementFailure							|
	commonMeasurementReporting							|
	commonMeasurementTermination						|
	informationExchangeFailure							|
	informationExchangeTermination						|
	informationReporting								|
	radioLinkActivationFDD								|
	radioLinkActivationTDD								|
	gERANuplinkSignallingTransfer						|
	radioLinkParameterUpdateFDD							|
	radioLinkParameterUpdateTDD							|
	uEMeasurementReporting								|
	uEMeasurementTermination							|
	uEMeasurementFailure								|
	iurInvokeTrace										|
	iurDeactivateTrace									|
	mBMSAttach											|
	mBMSDetach											|
	directInformationTransfer							|
	enhancedRelocationCancel							|
	enhancedRelocationSignallingTransfer				|
	enhancedRelocationRelease							|
	mBSFNMCCHInformation								|
	secondaryULFrequencyReportingFDD					|
	secondaryULFrequencyUpdateFDD						|
	informationTransferControl




}

RNSAP-ELEMENTARY-PROCEDURES-CLASS-3 RNSAP-ELEMENTARY-PROCEDURE ::= {
	...
}

-- **************************************************************
--
-- Interface Elementary Procedures
--
-- **************************************************************

radioLinkSetupFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkSetupRequestFDD
	SUCCESSFUL OUTCOME	RadioLinkSetupResponseFDD
	UNSUCCESSFUL OUTCOME	RadioLinkSetupFailureFDD
	PROCEDURE ID		{ procedureCode id-radioLinkSetup, ddMode fdd }
	CRITICALITY		reject
}

radioLinkSetupTDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkSetupRequestTDD
	SUCCESSFUL OUTCOME	RadioLinkSetupResponseTDD
	UNSUCCESSFUL OUTCOME	RadioLinkSetupFailureTDD
	PROCEDURE ID		{ procedureCode id-radioLinkSetup, ddMode tdd }
	CRITICALITY		reject
}

radioLinkAdditionFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkAdditionRequestFDD
	SUCCESSFUL OUTCOME	RadioLinkAdditionResponseFDD
	UNSUCCESSFUL OUTCOME	RadioLinkAdditionFailureFDD
	PROCEDURE ID		{ procedureCode id-radioLinkAddition , ddMode fdd }
	CRITICALITY		reject
}

radioLinkAdditionTDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkAdditionRequestTDD
	SUCCESSFUL OUTCOME	RadioLinkAdditionResponseTDD
	UNSUCCESSFUL OUTCOME	RadioLinkAdditionFailureTDD
	PROCEDURE ID		{ procedureCode id-radioLinkAddition , ddMode tdd }
	CRITICALITY		reject
}

radioLinkDeletion RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkDeletionRequest
	SUCCESSFUL OUTCOME	RadioLinkDeletionResponse
	PROCEDURE ID		{ procedureCode id-radioLinkDeletion, ddMode common }
	CRITICALITY		reject
}

synchronisedRadioLinkReconfigurationPreparationFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkReconfigurationPrepareFDD
	SUCCESSFUL OUTCOME	RadioLinkReconfigurationReadyFDD
	UNSUCCESSFUL OUTCOME	RadioLinkReconfigurationFailure
	PROCEDURE ID		{ procedureCode id-synchronisedRadioLinkReconfigurationPreparation, ddMode fdd }
	CRITICALITY		reject
}

synchronisedRadioLinkReconfigurationPreparationTDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkReconfigurationPrepareTDD
	SUCCESSFUL OUTCOME	RadioLinkReconfigurationReadyTDD
	UNSUCCESSFUL OUTCOME	RadioLinkReconfigurationFailure
	PROCEDURE ID		{ procedureCode id-synchronisedRadioLinkReconfigurationPreparation, ddMode tdd }
	CRITICALITY		reject
}

unSynchronisedRadioLinkReconfigurationFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkReconfigurationRequestFDD
	SUCCESSFUL OUTCOME	RadioLinkReconfigurationResponseFDD
	UNSUCCESSFUL OUTCOME	RadioLinkReconfigurationFailure
	PROCEDURE ID		{ procedureCode id-unSynchronisedRadioLinkReconfiguration, ddMode fdd }
	CRITICALITY		reject
}

unSynchronisedRadioLinkReconfigurationTDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkReconfigurationRequestTDD
	SUCCESSFUL OUTCOME	RadioLinkReconfigurationResponseTDD
	UNSUCCESSFUL OUTCOME	RadioLinkReconfigurationFailure
	PROCEDURE ID		{ procedureCode id-unSynchronisedRadioLinkReconfiguration, ddMode tdd }
	CRITICALITY		reject
}

physicalChannelReconfigurationFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	PhysicalChannelReconfigurationRequestFDD
	SUCCESSFUL OUTCOME	PhysicalChannelReconfigurationCommand
	UNSUCCESSFUL OUTCOME	PhysicalChannelReconfigurationFailure
	PROCEDURE ID		{ procedureCode id-physicalChannelReconfiguration, ddMode fdd }
	CRITICALITY		reject
}

physicalChannelReconfigurationTDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	PhysicalChannelReconfigurationRequestTDD
	SUCCESSFUL OUTCOME	PhysicalChannelReconfigurationCommand
	UNSUCCESSFUL OUTCOME	PhysicalChannelReconfigurationFailure
	PROCEDURE ID		{ procedureCode id-physicalChannelReconfiguration, ddMode tdd }
	CRITICALITY		reject
}

dedicatedMeasurementInitiation RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	DedicatedMeasurementInitiationRequest
	SUCCESSFUL OUTCOME	DedicatedMeasurementInitiationResponse
	UNSUCCESSFUL OUTCOME	DedicatedMeasurementInitiationFailure
	PROCEDURE ID		{ procedureCode id-dedicatedMeasurementInitiation, ddMode common }
	CRITICALITY		reject
}

commonTransportChannelResourcesInitialisationFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	CommonTransportChannelResourcesRequest
	SUCCESSFUL OUTCOME	CommonTransportChannelResourcesResponseFDD
	UNSUCCESSFUL OUTCOME	CommonTransportChannelResourcesFailure
	PROCEDURE ID		{ procedureCode id-commonTransportChannelResourcesInitialisation, ddMode fdd }
	CRITICALITY		reject
}

commonTransportChannelResourcesInitialisationTDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	CommonTransportChannelResourcesRequest
	SUCCESSFUL OUTCOME	CommonTransportChannelResourcesResponseTDD
	UNSUCCESSFUL OUTCOME	CommonTransportChannelResourcesFailure
	PROCEDURE ID		{ procedureCode id-commonTransportChannelResourcesInitialisation, ddMode tdd }
	CRITICALITY		reject
}

uplinkSignallingTransferFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	UplinkSignallingTransferIndicationFDD
	PROCEDURE ID		{ procedureCode id-uplinkSignallingTransfer, ddMode fdd }
	CRITICALITY		ignore
}

uplinkSignallingTransferTDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	UplinkSignallingTransferIndicationTDD
	PROCEDURE ID		{ procedureCode id-uplinkSignallingTransfer, ddMode tdd }
	CRITICALITY		ignore
}

downlinkSignallingTransfer RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	DownlinkSignallingTransferRequest
	PROCEDURE ID		{ procedureCode id-downlinkSignallingTransfer, ddMode common }
	CRITICALITY		ignore
}

relocationCommit RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RelocationCommit
	PROCEDURE ID		{ procedureCode id-relocationCommit, ddMode common }
	CRITICALITY		ignore
}

paging RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	PagingRequest
	PROCEDURE ID		{ procedureCode id-paging, ddMode common }
	CRITICALITY		ignore
}

synchronisedRadioLinkReconfigurationCommit RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkReconfigurationCommit
	PROCEDURE ID		{ procedureCode id-synchronisedRadioLinkReconfigurationCommit, ddMode common }
	CRITICALITY		ignore
}

synchronisedRadioLinkReconfigurationCancellation RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkReconfigurationCancel
	PROCEDURE ID		{ procedureCode id-synchronisedRadioLinkReconfigurationCancellation, ddMode common }
	CRITICALITY		ignore
}

radioLinkFailure RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkFailureIndication
	PROCEDURE ID		{ procedureCode id-radioLinkFailure, ddMode common }
	CRITICALITY		ignore
}

radioLinkPreemption RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkPreemptionRequiredIndication
	PROCEDURE ID		{ procedureCode id-radioLinkPreemption, ddMode common }
	CRITICALITY		ignore
}

radioLinkRestoration RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkRestoreIndication
	PROCEDURE ID		{ procedureCode id-radioLinkRestoration, ddMode common }
	CRITICALITY		ignore
}

dedicatedMeasurementReporting RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	DedicatedMeasurementReport
	PROCEDURE ID		{ procedureCode id-dedicatedMeasurementReporting, ddMode common }
	CRITICALITY		ignore
}

dedicatedMeasurementTermination RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	DedicatedMeasurementTerminationRequest
	PROCEDURE ID		{ procedureCode id-dedicatedMeasurementTermination, ddMode common }
	CRITICALITY		ignore
}

dedicatedMeasurementFailure RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	DedicatedMeasurementFailureIndication
	PROCEDURE ID		{ procedureCode id-dedicatedMeasurementFailure, ddMode common }
	CRITICALITY		ignore
}

radioLinkCongestion RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	RadioLinkCongestionIndication
	PROCEDURE ID		{ procedureCode id-radioLinkCongestion, ddMode common }
	CRITICALITY		ignore
}

downlinkPowerControlFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	DL-PowerControlRequest
	PROCEDURE ID		{ procedureCode id-downlinkPowerControl, ddMode fdd }
	CRITICALITY		ignore
}

downlinkPowerTimeslotControl RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	DL-PowerTimeslotControlRequest
	PROCEDURE ID		{ procedureCode id-downlinkPowerTimeslotControl, ddMode tdd }
	CRITICALITY		ignore
}

compressedModeCommandFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	CompressedModeCommand
	PROCEDURE ID		{ procedureCode id-compressedModeCommand, ddMode fdd }
	CRITICALITY		ignore
}

commonTransportChannelResourcesRelease RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	CommonTransportChannelResourcesReleaseRequest
	PROCEDURE ID		{ procedureCode id-commonTransportChannelResourcesRelease, ddMode common }
	CRITICALITY		ignore
}

errorIndication RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	ErrorIndication
	PROCEDURE ID		{ procedureCode id-errorIndication, ddMode common }
	CRITICALITY		ignore
}

commonMeasurementInitiation RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		CommonMeasurementInitiationRequest
	SUCCESSFUL OUTCOME		CommonMeasurementInitiationResponse
	UNSUCCESSFUL OUTCOME	CommonMeasurementInitiationFailure
	PROCEDURE ID			{ procedureCode id-commonMeasurementInitiation, ddMode common }
	CRITICALITY				reject
}

commonMeasurementReporting RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	CommonMeasurementReport
	PROCEDURE ID		{ procedureCode id-commonMeasurementReporting, ddMode common }
	CRITICALITY			ignore
}

commonMeasurementTermination RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	CommonMeasurementTerminationRequest
	PROCEDURE ID		{ procedureCode id-commonMeasurementTermination, ddMode common }
	CRITICALITY		ignore
}

commonMeasurementFailure RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	CommonMeasurementFailureIndication
	PROCEDURE ID		{ procedureCode id-commonMeasurementFailure, ddMode common }
	CRITICALITY		ignore
}

informationExchangeInitiation RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		InformationExchangeInitiationRequest
	SUCCESSFUL OUTCOME		InformationExchangeInitiationResponse
	UNSUCCESSFUL OUTCOME	InformationExchangeInitiationFailure
	PROCEDURE ID			{ procedureCode id-informationExchangeInitiation, ddMode common }
	CRITICALITY				reject
}

informationReporting RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		InformationReport
	PROCEDURE ID			{ procedureCode id-informationReporting, ddMode common }
	CRITICALITY				ignore
}

informationExchangeTermination RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		InformationExchangeTerminationRequest
	PROCEDURE ID			{ procedureCode id-informationExchangeTermination, ddMode common }
	CRITICALITY				ignore
}

informationExchangeFailure RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		InformationExchangeFailureIndication
	PROCEDURE ID			{ procedureCode id-informationExchangeFailure, ddMode common }
	CRITICALITY				ignore
}

privateMessage RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	PrivateMessage
	PROCEDURE ID		{ procedureCode id-privateMessage, ddMode common }
	CRITICALITY		ignore
}

reset RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		ResetRequest
	SUCCESSFUL OUTCOME		ResetResponse
	PROCEDURE ID 			{ procedureCode id-reset, ddMode common } 
	CRITICALITY 			reject
}

radioLinkActivationFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		RadioLinkActivationCommandFDD
	PROCEDURE ID			{ procedureCode id-radioLinkActivation, ddMode fdd }
	CRITICALITY				ignore
}

radioLinkActivationTDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		RadioLinkActivationCommandTDD
	PROCEDURE ID			{ procedureCode id-radioLinkActivation, ddMode tdd }
	CRITICALITY				ignore
}

gERANuplinkSignallingTransfer RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	GERANUplinkSignallingTransferIndication
	PROCEDURE ID		{ procedureCode id-gERANuplinkSignallingTransfer, ddMode common }
	CRITICALITY		ignore
}

radioLinkParameterUpdateFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		RadioLinkParameterUpdateIndicationFDD
	PROCEDURE ID 			{ procedureCode id-radioLinkParameterUpdate, ddMode fdd }
	CRITICALITY 			ignore
}

radioLinkParameterUpdateTDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		RadioLinkParameterUpdateIndicationTDD
	PROCEDURE ID 			{ procedureCode id-radioLinkParameterUpdate, ddMode tdd }
	CRITICALITY 			ignore
}

uEMeasurementInitiation RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	UEMeasurementInitiationRequest
	SUCCESSFUL OUTCOME	UEMeasurementInitiationResponse
	UNSUCCESSFUL OUTCOME	UEMeasurementInitiationFailure
	PROCEDURE ID		{ procedureCode id-uEMeasurementInitiation, ddMode tdd }
	CRITICALITY		reject
}

uEMeasurementReporting RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	UEMeasurementReport
	PROCEDURE ID		{ procedureCode id-uEMeasurementReporting, ddMode tdd }
	CRITICALITY		ignore
}

uEMeasurementTermination RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	UEMeasurementTerminationRequest
	PROCEDURE ID		{ procedureCode id-uEMeasurementTermination, ddMode tdd }
	CRITICALITY		ignore
}

uEMeasurementFailure RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	UEMeasurementFailureIndication
	PROCEDURE ID		{ procedureCode id-uEMeasurementFailure, ddMode tdd }
	CRITICALITY		ignore
}

iurInvokeTrace RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	IurInvokeTrace
	PROCEDURE ID		{ procedureCode id-iurInvokeTrace, ddMode common }
	CRITICALITY			ignore
}

iurDeactivateTrace RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	IurDeactivateTrace
	PROCEDURE ID		{ procedureCode id-iurDeactivateTrace, ddMode common }
	CRITICALITY			ignore
}

mBMSAttach RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		MBMSAttachCommand
	PROCEDURE ID			{ procedureCode id-mBMSAttach, ddMode common }
	CRITICALITY				ignore
}

mBMSDetach RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		MBMSDetachCommand
	PROCEDURE ID			{ procedureCode id-mBMSDetach, ddMode common }
	CRITICALITY				ignore
}

directInformationTransfer RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		DirectInformationTransfer
	PROCEDURE ID			{ procedureCode id-directInformationTransfer, ddMode common }
	CRITICALITY				ignore
}

enhancedRelocation RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE	EnhancedRelocationRequest
	SUCCESSFUL OUTCOME	EnhancedRelocationResponse
	UNSUCCESSFUL OUTCOME	EnhancedRelocationFailure
	PROCEDURE ID		{ procedureCode id-enhancedRelocation, ddMode common }
	CRITICALITY		reject
}

enhancedRelocationCancel RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		EnhancedRelocationCancel
	PROCEDURE ID			{ procedureCode id-enhancedRelocationCancel, ddMode common }
	CRITICALITY				ignore
}

enhancedRelocationSignallingTransfer RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		EnhancedRelocationSignallingTransfer
	PROCEDURE ID			{ procedureCode id-enhancedRelocationSignallingTransfer, ddMode common }
	CRITICALITY				ignore
}

enhancedRelocationRelease RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		EnhancedRelocationRelease
	PROCEDURE ID			{ procedureCode id-enhancedRelocationRelease, ddMode common }
	CRITICALITY				ignore
}

mBSFNMCCHInformation RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		MBSFNMCCHInformation
	PROCEDURE ID			{ procedureCode id-mBSFNMCCHInformation, ddMode common }
	CRITICALITY				reject
}

secondaryULFrequencyReportingFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		SecondaryULFrequencyReport
	PROCEDURE ID			{ procedureCode id-secondaryULFrequencyReporting, ddMode fdd }
	CRITICALITY				ignore
}

secondaryULFrequencyUpdateFDD RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		SecondaryULFrequencyUpdateIndication
	PROCEDURE ID 			{ procedureCode id-secondaryULFrequencyUpdate, ddMode fdd }
	CRITICALITY 			ignore
}
enhancedRelocationResourceAllocation RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		EnhancedRelocationResourceRequest
	SUCCESSFUL OUTCOME		EnhancedRelocationResourceResponse
	UNSUCCESSFUL OUTCOME	EnhancedRelocationResourceFailure
	PROCEDURE ID			{ procedureCode id-enhancedRelocationResourceAllocation, ddMode tdd }
	CRITICALITY				reject
}

enhancedRelocationResourceRelease RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		EnhancedRelocationResourceReleaseCommand
	SUCCESSFUL OUTCOME		EnhancedRelocationResourceReleaseComplete
	PROCEDURE ID			{ procedureCode id-enhancedRelocationResourceRelease, ddMode tdd }
	CRITICALITY				reject
}

informationTransferControl RNSAP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		InformationTransferControlRequest
	PROCEDURE ID			{ procedureCode id-informationTransferControl, ddMode common }
	CRITICALITY				ignore
}

END

9.3.3	PDU Definitions
-- **************************************************************
--
-- PDU definitions for RNSAP.
--
-- **************************************************************

RNSAP-PDU-Contents {
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
umts-Access (20) modules (3) rnsap (1) version1 (1) rnsap-PDU-Contents (1) }

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

-- **************************************************************
--
-- IE parameter types from other modules.
--
-- **************************************************************

IMPORTS
	Active-Pattern-Sequence-Information,
	Active-MBMS-Bearer-Service-ListFDD,
	Active-MBMS-Bearer-Service-ListFDD-PFL,
	Active-MBMS-Bearer-Service-ListTDD,
	Active-MBMS-Bearer-Service-ListTDD-PFL,
	AllocationRetentionPriority,
	AllowedQueuingTime,
	Allowed-Rate-Information,
	AlphaValue,
	AlternativeFormatReportingIndicator,
	AntennaColocationIndicator,
	ActivationDelay,
	BLER,
	SCTD-Indicator,
	BindingID,
	C-ID,
	C-RNTI,
	CCTrCH-ID,
	CFN,
	CGI,
	ClosedLoopMode1-SupportIndicator,
	Closedlooptimingadjustmentmode,
	CN-CS-DomainIdentifier,
	CN-PS-DomainIdentifier,
	CNDomainType,
	Cause,
	CellCapabilityContainer-FDD,
	CellCapabilityContainerExtension-FDD,
	CellCapabilityContainer-TDD,
	CellCapabilityContainer-TDD-LCR,
	CellCapabilityContainer-TDD768,
	CellParameterID,
	CellPortionID,
	ChipOffset,
	CommonMeasurementAccuracy,
	CommonMeasurementType,
	CommonMeasurementValue,
	CommonMeasurementValueInformation,
	CommonTransportChannelResourcesInitialisationNotRequired,
	Common-EDCH-MAC-d-Flow-Specific-InformationFDD,
	Common-EDCH-Support-Indicator,
	CongestionCause,
	Continuous-Packet-Connectivity-DTX-DRX-Information,
	Continuous-Packet-Connectivity-HS-SCCH-Less-Information,
	Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response,
	CPC-Information,
	CoverageIndicator,
	CriticalityDiagnostics, 
	CellPortionLCRID,
	D-RNTI,
	D-RNTI-ReleaseIndication,
	DCH-FDD-Information,
	DCH-ID,
	DCH-Indicator-For-E-DCH-HSDPA-Operation,
	DPCH-ID768,
	DCH-InformationResponse,
	DCH-TDD-Information,
	DL-DPCH-SlotFormat,
	DL-TimeslotISCP,
	DL-Power,
	DL-PowerBalancing-Information,
	DL-PowerBalancing-ActivationIndicator,
	DL-PowerBalancing-UpdatedIndicator,
	DL-ReferencePowerInformation,
	DL-ScramblingCode,
	DL-Timeslot-Information,
	DL-Timeslot-Information768,
	DL-TimeslotLCR-Information,
	DL-TimeSlot-ISCP-Info,
	DL-TimeSlot-ISCP-LCR-Information,
	DPC-Mode,
	DPC-Mode-Change-SupportIndicator,
	DPCH-ID,
	DL-DPCH-TimingAdjustment,
	DRXCycleLengthCoefficient,
	DedicatedMeasurementType,
	DedicatedMeasurementValue,
	DedicatedMeasurementValueInformation,
	DelayedActivation,
	DelayedActivationUpdate,
	DiversityControlField,
	DiversityMode,
	DSCH-FlowControlInformation,
	DSCH-FlowControlItem,
	DSCH-TDD-Information,
	DSCH-ID,
	DSCH-RNTI,
	EDCH-FDD-Information,
	EDCH-FDD-InformationResponse,
	EDCH-FDD-Information-To-Modify,
	EDCH-FDD-DL-ControlChannelInformation,
	EDCH-DDI-Value,
	EDCH-MACdFlow-ID,
	EDCH-MACdFlow-Specific-InfoList,
	EDCH-MACdFlows-To-Delete,
	EDCH-MACdFlows-Information,
	EDCH-RL-Indication,
	EDCH-Serving-RL,
	E-DCH-Decoupling-Indication,
	E-DCH-Serving-cell-change-informationResponse,
	EDPCH-Information-FDD,
	EDPCH-Information-RLReconfPrepare-FDD,
	EDPCH-Information-RLReconfRequest-FDD,
	E-DCH-FDD-Update-Information,
	E-DPCCH-PO,
	E-RGCH-2-IndexStepThreshold,
	E-RGCH-3-IndexStepThreshold,
	E-RNTI,
	E-TFCS-Information,
	E-TTI,
	Enhanced-FACH-Support-Indicator,
	Enhanced-FACH-Information-ResponseFDD,
	Enhanced-PCH-Capability,
	ExtendedPropagationDelay,
	Extended-RNC-ID,
	Extended-RNTI,
	Extended-S-RNTI-Group,
	SchedulingPriorityIndicator,
	Enhanced-PrimaryCPICH-EcNo,
	F-DPCH-SlotFormat,
	F-DPCH-SlotFormatSupportRequest,
	FACH-FlowControlInformation,
	Fast-Reconfiguration-Mode,
	Fast-Reconfiguration-Permission,
	FDD-DCHs-to-Modify,
	FDD-DL-ChannelisationCodeNumber,
	FDD-DL-CodeInformation,
	FDD-TPC-DownlinkStepSize,
	FirstRLS-Indicator,
	FNReportingIndicator,
	FrameHandlingPriority,
	FrameOffset,
	GA-AccessPointPosition,
	GA-Cell,
	GA-CellAdditionalShapes,
	HARQ-Info-for-E-DCH,
	HCS-Prio,
	HSDSCH-Configured-Indicator,
	HSDSCH-FDD-Information,
	HSDSCH-FDD-Information-Response,
	HSDSCH-FDD-Update-Information,
	HSDSCH-TDD-Update-Information,
	HSDSCH-Information-to-Modify,
	HSDSCH-Information-to-Modify-Unsynchronised,
	HSDSCH-MACdFlow-ID,
	HSDSCH-MACdFlows-Information,
	HSDSCH-MACdFlows-to-Delete, 
	HSDSCH-Physical-Layer-Category,
	HSDSCH-RNTI,
	HS-DSCH-serving-cell-change-information,
	HS-DSCH-serving-cell-change-informationResponse,
	HSDSCH-TDD-Information,
	HSDSCH-TDD-Information-Response,
	HS-SICH-ID,
	IMSI,
	InformationExchangeID,
	InformationReportCharacteristics,
	InformationType,
	Initial-DL-DPCH-TimingAdjustment-Allowed,
	InnerLoopDLPCStatus,
	Inter-Frequency-Cell-List,
	L3-Information,
	LimitedPowerIncrease,
	MaximumAllowedULTxPower,
	MaxNrDLPhysicalchannels,
	MaxNrDLPhysicalchannelsTS,
	MaxNrDLPhysicalchannels768,
	MaxNrDLPhysicalchannelsTS768,
	MaxNrOfUL-DPCHs,
	MaxNrTimeslots,
	MaxNrULPhysicalchannels,
	MACes-Guaranteed-Bitrate,
	MaxNr-Retransmissions-EDCH,
	Max-Set-E-DPDCHs,
	Max-UE-DTX-Cycle,
	MeasurementFilterCoefficient,
	MeasurementID,
	MeasurementRecoveryBehavior,
	MeasurementRecoveryReportingIndicator,
	MeasurementRecoverySupportIndicator,
	MBMS-Bearer-Service-List,
	MBSFN-Cluster-Identity,
	MCCH-Configuration-Info,
	MCCH-Message-List,
	MBSFN-Scheduling-Transmission-Time-Interval-Info-List,
	MidambleAllocationMode,
	MidambleShiftAndBurstType,
	MidambleShiftAndBurstType768,
	MidambleShiftLCR,
	MinimumSpreadingFactor,
	MinimumSpreadingFactor768,
	MinUL-ChannelisationCodeLength,
	Multiple-PLMN-List,
	MultiplexingPosition,
	NeighbouringFDDCellMeasurementInformation,
	NeighbouringTDDCellMeasurementInformation,
	NeighbouringTDDCellMeasurementInformation768,
	Neighbouring-GSM-CellInformation,
	Neighbouring-UMTS-CellInformation,
	NeighbouringTDDCellMeasurementInformationLCR,
	Neighbouring-E-UTRA-CellInformation,
	Non-rectangular-resource-allocation-indicator,
	Non-rectangular-resource-timeslot-set,
	NrOfDLchannelisationcodes,
	PagingCause,
	PagingRecordType,
	PartialReportingIndicator,
	PayloadCRC-PresenceIndicator,
	PCCPCH-Power,
	PC-Preamble,
	Permanent-NAS-UE-Identity,
	Phase-Reference-Update-Indicator,
	PowerAdjustmentType,
	PowerOffset,
	PrimaryCCPCH-RSCP,
	PrimaryCPICH-EcNo,
	PrimaryCPICH-Power,
	Primary-CPICH-Usage-For-Channel-Estimation,
	PrimaryScramblingCode,
	PropagationDelay,
	ProvidedInformation,
	PunctureLimit,
	QE-Selector,
	RANAP-EnhancedRelocationInformationRequest,
	RANAP-EnhancedRelocationInformationResponse,
	RANAP-RelocationInformation,
	RB-Info,
	Released-CN-Domain,
	RL-ID,
	RL-Set-ID,
	RL-Specific-EDCH-Information,
	RNC-ID,
	RepetitionLength,
	RepetitionPeriod,
	ReportCharacteristics,
	Received-total-wide-band-power,
	RequestedDataValue,
	RequestedDataValueInformation,
	RL-Specific-DCH-Info,
	RxTimingDeviationForTA,
	RxTimingDeviationForTA768,
	S-RNTI,
	S-RNTI-Group,
	SCH-TimeSlot,
	SAI,
	SFN,
	Secondary-CCPCH-Info-TDD,
	Secondary-CCPCH-Info-TDD768,
	Secondary-CCPCH-System-Information-MBMS,
	Secondary-CPICH-Information,
	Secondary-CPICH-Information-Change,
	Secondary-LCR-CCPCH-Info-TDD, 
	Secondary-Serving-Cell-List,
	SNA-Information,
	SpecialBurstScheduling,
	SSDT-SupportIndicator,
	STTD-SupportIndicator,
	AdjustmentPeriod,
	ScaledAdjustmentRatio,
	MaxAdjustmentStep,
	SRB-Delay,
	Support-8PSK,
	SyncCase,
	SynchronisationConfiguration,
	SixtyfourQAM-DL-SupportIndicator,
	TDD-ChannelisationCode,
	TDD-ChannelisationCode768,
	TDD-DCHs-to-Modify,
	TDD-DL-Code-Information,
	TDD-DPCHOffset,
	TDD-PhysicalChannelOffset,
	TDD-TPC-DownlinkStepSize,
	TDD-ChannelisationCodeLCR,
	TDD-DL-Code-LCR-Information,
	TDD-DL-Code-Information768,
	TDD-UL-Code-Information,
	TDD-UL-Code-LCR-Information,
	TDD-UL-Code-Information768,
	TFCI-Coding,
	TFCI-Presence,
	TFCI-SignallingMode,
	TimeSlot,
	TimeSlotLCR,
	TimingAdvanceApplied,
	TMGI,
	TnlQos,
	ToAWE,
	ToAWS,
	TraceDepth,
	TraceRecordingSessionReference,
	TraceReference,
	TrafficClass,
	TransmitDiversityIndicator,
	TransportBearerID,
	TransportBearerRequestIndicator,
	TFCS,
	Transmission-Gap-Pattern-Sequence-Information,
	TransportFormatManagement,
	TransportFormatSet,
	TransportLayerAddress,
	TrCH-SrcStatisticsDescr,
	TSTD-Indicator,
	TSTD-Support-Indicator,
	UARFCN,
	UC-ID,
	UE-AggregateMaximumBitRate,
	UEIdentity,
	UEMeasurementType,
	UEMeasurementTimeslotInfoHCR,
	UEMeasurementTimeslotInfoLCR,
	UEMeasurementTimeslotInfo768,
	UEMeasurementReportCharacteristics,
	UEMeasurementParameterModAllow,
	UEMeasurementValueInformation,
	UE-State,
	UE-Support-of-non-rectangular-resource-allocation,
	UL-DPCCH-SlotFormat,
	UL-DPDCHIndicatorEDCH,
	UL-SIR,
	UL-FP-Mode,
	UL-PhysCH-SF-Variation,
	UL-ScramblingCode,
	UL-Timeslot-Information,
	UL-Timeslot-Information768,
	UL-TimeslotLCR-Information,
	UL-TimeSlot-ISCP-Info,
	UL-TimeSlot-ISCP-LCR-Info,
	URA-ID,
	URA-Information,
	USCH-ID,
	USCH-Information,
	UL-Synchronisation-Parameters-LCR,
	TDD-DL-DPCH-TimeSlotFormat-LCR,
	TDD-UL-DPCH-TimeSlotFormat-LCR,
	MAChs-ResetIndicator,
	UL-TimingAdvanceCtrl-LCR,
	TDD-TPC-UplinkStepSize-LCR,
	PrimaryCCPCH-RSCP-Delta,
	SynchronisationIndicator,
	Support-PLCCH,
	PLCCHinformation,
	RxTimingDeviationForTAext,
	E-DCH-Information,
	E-DCH-Information-Reconfig,
	E-DCH-Information-Response,
	E-DCH-768-Information,
	E-DCH-768-Information-Reconfig,
	E-DCH-768-Information-Response,
	E-DCH-LCR-Information,
	E-DCH-LCR-Information-Reconfig,
	E-DCH-LCR-Information-Response,
	ControlGAP,
	IdleIntervalInformation,
	NeedforIdleInterval,
	HS-SICH-ID-Extension,
	TSN-Length,
	UPPCHPositionLCR,
	Common-EDCH-MAC-d-Flow-Specific-InformationLCR,
	Enhanced-FACH-Information-ResponseLCR,
	HSDSCH-PreconfigurationSetup,
	HSDSCH-PreconfigurationInfo,
	NoOfTargetCellHS-SCCH-Order,
	EnhancedHSServingCC-Abort,
	GANSS-Time-ID,
	HS-DSCH-FDD-Secondary-Serving-Update-Information,
	HS-DSCH-Secondary-Serving-Remove,
	HS-DSCH-FDD-Secondary-Serving-Information-To-Modify-Unsynchronised,
	HS-DSCH-Secondary-Serving-Information-To-Modify,
	HS-DSCH-Secondary-Serving-Cell-Change-Information-Response,
	HS-DSCH-FDD-Secondary-Serving-Information-Response,
	HS-DSCH-FDD-Secondary-Serving-Information,
	MinimumReducedE-DPDCH-GainFactor,
	ContinuousPacketConnectivity-DRX-InformationLCR,
	ContinuousPacketConnectivity-DRX-Information-ResponseLCR,
	CPC-InformationLCR,
	E-DCH-Semi-PersistentScheduling-Information-LCR,
	HS-DSCH-Semi-PersistentScheduling-Information-LCR,
	HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR,
	E-DCH-Semi-PersistentScheduling-Information-ResponseLCR,
	RNTI-Allocation-Indicator,
	ActivationInformation,
	Additional-EDCH-Setup-Info,
	Additional-EDCH-Cell-Information-Response-List,
	Additional-EDCH-FDD-Update-Information,
	Additional-EDCH-Cell-Information-To-Add-List,
	Additional-EDCH-Cell-Information-Response-RLReconf-List,
	DCH-MeasurementOccasion-Information,
	DCH-MeasurementType-Indicator,
	Setup-Or-ConfigurationChange-Or-Removal-Of-EDCH-On-secondary-UL-Frequency,
	Additional-EDCH-Cell-Information-Response-RLAddList,
	Non-Serving-RL-Preconfig-Setup,
	Non-Serving-RL-Preconfig-Info,
	CellCapabilityContainerExtension-TDD-LCR,
	Multi-Carrier-EDCH-Info,
	Multi-Carrier-EDCH-Reconfigure,
	Multi-Carrier-EDCH-Information-Response,
	MU-MIMO-InformationLCR,
	MU-MIMO-Indicator,
	Usefulness-Of-Battery-Optimization,
	MDT-Configuration,
	Neighbouring-UMTS-CellInformation-Ext,
	SourceID,
	TargetID,
	ClassmarkInformation2,
	ClassmarkInformation3,
	SpeechVersion,
	Cell-Capacity-Class-Value,
	LoadValue,
	Controlled-Object-Scope,
	CPC-RecoveryReport,
	UL-CLTD-Information,
	UL-CLTD-Information-Reconf,
	UL-CLTD-State-Update-Information,
	FTPICH-Information,
	FTPICH-Information-Reconf,
	FTPICH-Information-Response,
	FTPICH-Reconfiguration-Information,
	DCH-ENH-Information,
	DCH-ENH-Information-Reconf,
	Radio-Links-without-DPCH-FDPCH-Indication,
	UL-DPCCH2-Information,
	UL-DPCCH2-Information-Reconf,
	UE-Measurement-Value,
	Improved-Synchronized-Indicator,
	PLMN-Identity,
	Downlink-TPC-enhancements-Information,
	Downlink-TPC-enhancements-Reconf,
	TPC-slot-position



FROM RNSAP-IEs

	PrivateIE-Container{},
	ProtocolExtensionContainer{},
	ProtocolIE-ContainerList{},
	ProtocolIE-ContainerPair{},
	ProtocolIE-ContainerPairList{},
	ProtocolIE-Container{},
	ProtocolIE-Single-Container{},
	RNSAP-PRIVATE-IES,
	RNSAP-PROTOCOL-EXTENSION,
	RNSAP-PROTOCOL-IES,
	RNSAP-PROTOCOL-IES-PAIR
FROM RNSAP-Containers

	maxCellsMeas,
	maxNoOfDSCHs,
	maxNoOfUSCHs,
	maxNrOfCCTrCHs,
	maxNoOfCommonRGCells,
	maxNrOfDCHs,
	maxNrOfTS,
	maxNrOfDPCHs,
	maxNrOfDPCHs768,
	maxNrOfDPCHsPerRL-1,
	maxNrOfDPCHs768PerRL-1,
	maxNrOfInterfaces,
	maxNrOfRLs,
	maxNrOfRLSets,
	maxNrOfRLSets-1,
	maxNrOfRLs-1,
	maxNrOfRLs-2,
	maxNrOfULTs,
	maxNrOfDLTs,
	maxResetContext,
	maxResetContextGroup,
	maxNoOfDSCHsLCR,
	maxNoOfUSCHsLCR,
	maxNrOfCCTrCHsLCR,
	maxNrOfTsLCR,
	maxNrOfDLTsLCR,
	maxNrOfULTsLCR,
	maxNrOfDPCHsLCR,
	maxNrOfDPCHsLCRPerRL-1,
	maxNrOfLCRTDDNeighboursPerRNC,
	maxNrOfMeasNCell,
	maxNrOfMACdFlows,
	maxNrOfMACdPDUSize,
	maxNrOfMCCHMessages,
	maxNrOfMBMSL3,
	maxNrOfEDCHMACdFlows,
	maxNrOfHSSICHs,
	maxNrOfHSSICHs-1,
	maxNrOfActiveMBMSServices,
	maxNrOfMBMSServices,
	maxNrofSigSeqERGHICH-1,
	maxNrOfCells,
	maxNrOfHSDSCH-1,
	maxNrOfEDCH-1, 
	maxNrOfULCarriersLCR-1,
	maxNoOfGsmCell,
	maxNrOfANRCells,

	id-Active-MBMS-Bearer-ServiceFDD,
	id-Active-MBMS-Bearer-ServiceFDD-PFL,
	id-Active-MBMS-Bearer-ServiceTDD,
	id-Active-MBMS-Bearer-ServiceTDD-PFL,
	id-Active-Pattern-Sequence-Information,
	id-AdjustmentRatio,
	id-AllowedQueuingTime,
	id-AlternativeFormatReportingIndicator,
	id-AntennaColocationIndicator,
	id-BindingID,
	id-C-ID,
	id-C-RNTI,
	id-CFN,
	id-CFNReportingIndicator,
	id-CN-CS-DomainIdentifier,
	id-CN-PS-DomainIdentifier,
	id-Cause,
	id-CauseLevel-RL-AdditionFailureFDD,
	id-CauseLevel-RL-AdditionFailureTDD,
	id-CauseLevel-RL-ReconfFailure,
	id-CauseLevel-RL-SetupFailureFDD,
	id-CauseLevel-RL-SetupFailureTDD,
	id-CCTrCH-InformationItem-RL-FailureInd,
	id-CCTrCH-InformationItem-RL-RestoreInd,
	id-CellCapabilityContainer-FDD, 
	id-CellCapabilityContainerExtension-FDD,
	id-CellCapabilityContainer-TDD,
	id-CellCapabilityContainer-TDD-LCR,
	id-CellPortionID,
	id-ChipOffset,
	id-ClosedLoopMode1-SupportIndicator,
	id-CNOriginatedPage-PagingRqst,
	id-CommonMeasurementAccuracy,
	id-CommonMeasurementObjectType-CM-Rprt,
	id-CommonMeasurementObjectType-CM-Rqst,
	id-CommonMeasurementObjectType-CM-Rsp,
	id-CommonMeasurementType,
	id-CommonTransportChannelResourcesInitialisationNotRequired,
	id-Common-EDCH-MAC-d-Flow-Specific-InformationFDD,
	id-Common-EDCH-Support-Indicator,
	id-CongestionCause,
	id-Continuous-Packet-Connectivity-DTX-DRX-Information,
	id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information,
	id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response,
	id-CPC-Information,
	id-CoverageIndicator,
	id-CriticalityDiagnostics, 
	id-CellPortionLCRID,
	id-D-RNTI,
	id-D-RNTI-ReleaseIndication,
	id-DCHs-to-Add-FDD,
	id-DCHs-to-Add-TDD,
	id-DCH-DeleteList-RL-ReconfPrepFDD,
	id-DCH-DeleteList-RL-ReconfPrepTDD,
	id-DCH-DeleteList-RL-ReconfRqstFDD,
	id-DCH-DeleteList-RL-ReconfRqstTDD,
	id-DCH-FDD-Information,
	id-DCH-TDD-Information,
	id-DCH-Indicator-For-E-DCH-HSDPA-Operation,
	id-FDD-DCHs-to-Modify,
	id-TDD-DCHs-to-Modify,
	id-DCH-InformationResponse,
	id-DCH-Rate-InformationItem-RL-CongestInd,
	id-DL-CCTrCH-InformationAddItem-RL-ReconfPrepTDD,
	id-DL-CCTrCH-InformationDeleteItem-RL-ReconfPrepTDD,
	id-DL-CCTrCH-InformationModifyItem-RL-ReconfPrepTDD,
	id-DL-CCTrCH-InformationListIE-RL-ReconfReadyTDD,
	id-DL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD,
	id-DL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD,
	id-DL-CCTrCH-InformationItem-RL-SetupRqstTDD,
	id-DL-CCTrCH-InformationListIE-PhyChReconfRqstTDD,
	id-DL-CCTrCH-InformationListIE-RL-AdditionRspTDD,
	id-DL-CCTrCH-InformationListIE-RL-SetupRspTDD,
	id-DL-CCTrCH-InformationAddList-RL-ReconfPrepTDD,
	id-DL-CCTrCH-InformationDeleteList-RL-ReconfPrepTDD,
	id-DL-CCTrCH-InformationModifyList-RL-ReconfPrepTDD,
	id-DL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD,
	id-DL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD,
	id-DL-CCTrCH-InformationList-RL-SetupRqstTDD,
	id-FDD-DL-CodeInformation,
	id-DL-DPCH-Information-RL-ReconfPrepFDD,
	id-DL-DPCH-Information-RL-SetupRqstFDD,
	id-DL-DPCH-Information-RL-ReconfRqstFDD,
	id-DL-DPCH-InformationItem-PhyChReconfRqstTDD,
	id-DL-DPCH-InformationItem-RL-AdditionRspTDD,
	id-DL-DPCH-InformationItem-RL-SetupRspTDD,
	id-DL-DPCH-InformationAddListIE-RL-ReconfReadyTDD,
	id-DL-DPCH-InformationDeleteListIE-RL-ReconfReadyTDD,
	id-DL-DPCH-InformationModifyListIE-RL-ReconfReadyTDD,
	id-DL-DPCH-TimingAdjustment,
	id-DL-DPCH-Power-Information-RL-ReconfPrepFDD,
	id-DL-Physical-Channel-Information-RL-SetupRqstTDD,
	id-DL-PowerBalancing-Information,
	id-DL-PowerBalancing-ActivationIndicator,
	id-DL-PowerBalancing-UpdatedIndicator,
	id-DL-ReferencePowerInformation,
	id-DLReferencePower,
	id-DLReferencePowerList-DL-PC-Rqst,
	id-DL-ReferencePowerInformation-DL-PC-Rqst,
	id-DRXCycleLengthCoefficient,
	id-DedicatedMeasurementObjectType-DM-Fail,
	id-DedicatedMeasurementObjectType-DM-Fail-Ind,
	id-DedicatedMeasurementObjectType-DM-Rprt,
	id-DedicatedMeasurementObjectType-DM-Rqst,
	id-DedicatedMeasurementObjectType-DM-Rsp,
	id-DedicatedMeasurementType,
	id-DelayedActivation,
	id-DelayedActivationList-RL-ActivationCmdFDD,
	id-DelayedActivationList-RL-ActivationCmdTDD,
	id-DelayedActivationInformation-RL-ActivationCmdFDD,
	id-DelayedActivationInformation-RL-ActivationCmdTDD,
	id-DPC-Mode,
	id-DPC-Mode-Change-SupportIndicator,
	id-DSCHs-to-Add-TDD,
	id-DSCH-DeleteList-RL-ReconfPrepTDD,
	id-DSCH-InformationListIE-RL-AdditionRspTDD,
	id-DSCH-InformationListIEs-RL-SetupRspTDD,
	id-DSCH-TDD-Information,
	id-DSCH-ModifyList-RL-ReconfPrepTDD,
	id-DSCH-RNTI,
	id-DSCHToBeAddedOrModifiedList-RL-ReconfReadyTDD,
	id-Dual-Band-Secondary-Serving-Cell-List,
	id-EDPCH-Information,
	id-EDCH-RL-Indication,
	id-EDCH-FDD-Information,
	id-Serving-EDCHRL-Id,
	id-E-DCH-Decoupling-Indication,
	id-EDCH-FDD-DL-ControlChannelInformation,
	id-EDCH-FDD-InformationResponse,
	id-E-DCH-FDD-Update-Information,
	id-EDCH-MACdFlows-To-Add,
	id-EDCH-FDD-Information-To-Modify,
	id-EDCH-MACdFlows-To-Delete,
	id-EDPCH-Information-RLReconfRequest-FDD,
	id-EDPCH-Information-RLAdditionReq-FDD,
	id-EDCH-MacdFlowSpecificInformationList-RL-PreemptRequiredInd,
	id-EDCH-MacdFlowSpecificInformationItem-RL-PreemptRequiredInd,
	id-EDCH-MacdFlowSpecificInformationList-RL-CongestInd,
	id-EDCH-MacdFlowSpecificInformationItem-RL-CongestInd,
	id-Enhanced-FACH-Support-Indicator,
	id-Enhanced-FACH-Information-ResponseFDD,
	id-Enhanced-PCH-Capability,
	id-ExtendedPropagationDelay,
	id-Extended-SRNC-ID,
	id-Extended-RNC-ID,
	id-Extended-S-RNTI,
	id-Extended-S-RNTI-Group,
	id-Serving-cell-change-CFN,
	id-E-DCH-Serving-cell-change-informationResponse,
	id-E-RNTI-For-FACH,
	id-H-RNTI-For-FACH,
	id-RNTI-Allocation-Indicator,
	id-Enhanced-PrimaryCPICH-EcNo,
	id-E-RNTI,
	id-F-DPCH-SlotFormat,
	id-F-DPCH-SlotFormatSupportRequest,
	id-FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspFDD,
	id-FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspTDD,
	id-Fast-Reconfiguration-Mode,
	id-Fast-Reconfiguration-Permission,
	id-FrameOffset,
	id-F-DPCH-Information-RL-ReconfPrepFDD,
	id-F-DPCH-Information-RL-SetupRqstFDD,
	id-GA-Cell,
	id-GA-CellAdditionalShapes,
	id-GSM-Cell-InfEx-Rqst,
	id-HCS-Prio,
	id-HSDSCH-Configured-Indicator,
	id-HSDSCH-FDD-Information,
	id-HSDSCH-FDD-Information-Response,
	id-HSDSCH-FDD-Update-Information,
	id-HSDSCH-TDD-Update-Information,
	id-HSDSCH-Information-to-Modify,
	id-HSDSCH-Information-to-Modify-Unsynchronised,
	id-HSDSCH-MACdFlows-to-Add,
	id-HSDSCH-MACdFlows-to-Delete,
	id-HSDSCHMacdFlowSpecificInformationList-RL-PreemptRequiredInd,
	id-HSDSCHMacdFlowSpecificInformationItem-RL-PreemptRequiredInd, 
	id-HSDSCH-Physical-Layer-Category,
	id-HSDSCH-RNTI,
	id-HS-DSCH-serving-cell-change-information,
	id-HS-DSCH-serving-cell-change-informationResponse,
	id-HSDSCH-TDD-Information,
	id-HSDSCH-TDD-Information-Response,
	id-HSPDSCH-RL-ID,
	id-HSPDSCH-Timeslot-InformationList-PhyChReconfRqstTDD,
	id-HSPDSCH-Timeslot-InformationListLCR-PhyChReconfRqstTDD,
	id-HSSICH-Info-DM-Rprt,
	id-HSSICH-Info-DM-Rqst,
	id-HSSICH-Info-DM,
	id-Improved-Synchronized-Indicator,
	id-IMSI,
	id-InformationExchangeID,
	id-InformationExchangeObjectType-InfEx-Rprt,
	id-InformationExchangeObjectType-InfEx-Rqst,
	id-InformationExchangeObjectType-InfEx-Rsp,
	id-InformationReportCharacteristics,
	id-InformationType,
	id-Initial-DL-DPCH-TimingAdjustment,
	id-Initial-DL-DPCH-TimingAdjustment-Allowed,
	id-InnerLoopDLPCStatus,
	id-InterfacesToTraceItem,
	id-Inter-Frequency-Cell-List,
	id-L3-Information,
	id-AdjustmentPeriod,
	id-ListOfInterfacesToTrace,
	id-MaxAdjustmentStep,
	id-Max-UE-DTX-Cycle,
	id-MBMS-Bearer-Service-List,
	id-MBMS-Bearer-Service-List-InfEx-Rsp,
	id-MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rqst,
	id-MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rsp,
	id-MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rprt,
	id-MBMS-Cell-InfEx-Rqst,
	id-MBMS-Cell-InfEx-Rsp,
	id-MBMS-Cell-InfEx-Rprt,
	id-MBSFN-Cluster-Identity,
	id-MBSFN-Scheduling-Transmission-Time-Interval-Info-List,
	id-MCCH-Configuration-Info,
	id-MCCH-Message-List,
	id-MeasurementFilterCoefficient,
	id-MeasurementID,
	id-MeasurementRecoveryBehavior,
	id-MeasurementRecoveryReportingIndicator,
	id-MeasurementRecoverySupportIndicator,
	id-Multiple-PLMN-List,
	id-Multiple-RL-InformationResponse-RL-ReconfReadyTDD,
	id-NACC-Related-Data,
	id-Neighbouring-E-UTRA-CellInformation,
	id-Non-rectangular-resource-allocation-indicator,
	id-Non-rectangular-resource-timeslot-set,
	id-Old-URA-ID,
	id-PagingArea-PagingRqst,
	id-PartialReportingIndicator,
	id-PDSCH-RL-ID,
	id-Permanent-NAS-UE-Identity,
	id-Phase-Reference-Update-Indicator,
	id-FACH-FlowControlInformation,
	id-PLCCH-Information-PhyChReconfRqstTDD,
	id-PowerAdjustmentType,
	id-PrimCCPCH-RSCP-DL-PC-RqstTDD,
	id-Primary-CPICH-Usage-For-Channel-Estimation,
	id-PropagationDelay,
	id-ProvidedInformation,
	id-RANAP-EnhancedRelocationInformationRequest,
	id-RANAP-EnhancedRelocationInformationResponse,
	id-RANAP-RelocationInformation,
	id-ResetIndicator,
	id-Released-CN-Domain,
	id-EDCH-RLSet-Id,
	id-RL-Information-PhyChReconfRqstFDD,
	id-RL-Information-PhyChReconfRqstTDD,
	id-RL-Information-RL-AdditionRqstFDD,
	id-RL-Information-RL-AdditionRqstTDD,
	id-RL-Information-RL-DeletionRqst,
	id-RL-Information-RL-FailureInd,
	id-RL-Information-RL-ReconfPrepFDD,
	id-RL-Information-RL-ReconfPrepTDD,
	id-RL-Information-RL-RestoreInd,
	id-RL-Information-RL-SetupRqstFDD,
	id-RL-Information-RL-SetupRqstTDD,
	id-RL-InformationItem-RL-CongestInd,
	id-RL-InformationItem-DM-Rprt,
	id-RL-InformationItem-DM-Rqst,
	id-RL-InformationItem-DM-Rsp,
	id-RL-InformationItem-RL-PreemptRequiredInd,
	id-RL-InformationItem-RL-SetupRqstFDD,
	id-RL-InformationList-RL-CongestInd,
	id-RL-InformationList-RL-AdditionRqstFDD,
	id-RL-InformationList-RL-DeletionRqst,
	id-RL-InformationList-RL-PreemptRequiredInd,
	id-RL-InformationList-RL-ReconfPrepFDD,
	id-RL-InformationResponse-RL-AdditionRspTDD,
	id-RL-InformationResponse-RL-ReconfReadyTDD,
	id-RL-InformationResponse-RL-ReconfRspTDD,
	id-RL-InformationResponse-RL-SetupRspTDD,
	id-RL-InformationResponseItem-RL-AdditionRspFDD,
	id-RL-InformationResponseItem-RL-ReconfReadyFDD,
	id-RL-InformationResponseItem-RL-ReconfRspFDD,
	id-RL-InformationResponseItem-RL-SetupRspFDD,
	id-RL-InformationResponseList-RL-AdditionRspFDD,
	id-RL-InformationResponseList-RL-ReconfReadyFDD,
	id-RL-InformationResponseList-RL-ReconfRspFDD,
	id-RL-InformationResponseList-RL-SetupRspFDD,
	id-RL-ParameterUpdateIndicationFDD-RL-Information-Item,
	id-RL-ParameterUpdateIndicationFDD-RL-InformationList,
	id-RL-ReconfigurationFailure-RL-ReconfFail,
	id-RL-ReconfigurationRequestFDD-RL-InformationList,
	id-RL-ReconfigurationRequestFDD-RL-Information-IEs,
	id-RL-ReconfigurationRequestTDD-RL-Information,
	id-RL-ReconfigurationResponseTDD-RL-Information,
	id-RL-Specific-DCH-Info,
	id-RL-Specific-EDCH-Information,
	id-RL-Set-InformationItem-DM-Rprt,
	id-RL-Set-InformationItem-DM-Rqst,
	id-RL-Set-InformationItem-DM-Rsp,
	id-RL-Set-Information-RL-FailureInd,
	id-RL-Set-Information-RL-RestoreInd,
	id-RL-Set-Successful-InformationItem-DM-Fail,
	id-RL-Set-Unsuccessful-InformationItem-DM-Fail,
	id-RL-Set-Unsuccessful-InformationItem-DM-Fail-Ind,
	id-RL-Successful-InformationItem-DM-Fail,
	id-RL-Unsuccessful-InformationItem-DM-Fail,
	id-RL-Unsuccessful-InformationItem-DM-Fail-Ind,
	id-ReportCharacteristics,
	id-Reporting-Object-RL-FailureInd,
	id-Reporing-Object-RL-RestoreInd,
	id-RNC-ID,
	id-RxTimingDeviationForTA,
	id-S-RNTI,
	id-SAI,
	id-Secondary-CPICH-Information,
	id-Secondary-CPICH-Information-Change, 
	id-Secondary-Serving-Cell-List,
	id-SixtyfourQAM-DL-SupportIndicator,
	id-SFN,
	id-SFNReportingIndicator,
	id-SNA-Information,
	id-SRNC-ID,
	id-STTD-SupportIndicator,
	id-SuccessfulRL-InformationResponse-RL-AdditionFailureFDD,
	id-SuccessfulRL-InformationResponse-RL-SetupFailureFDD,
	id-TDD-maxNrDLPhysicalchannels,
	id-TDD-Support-8PSK,
	id-TDD-Support-PLCCH,
	id-timeSlot-ISCP,
	id-TimeSlot-RL-SetupRspTDD,
	id-TnlQos,
	id-TraceDepth,
	id-TraceRecordingSessionReference,
	id-TraceReference,
	id-TransportBearerID,
	id-TransportBearerRequestIndicator,
	id-TransportLayerAddress,
	id-UC-ID,
	id-ContextInfoItem-Reset,
	id-ContextGroupInfoItem-Reset,
	id-Transmission-Gap-Pattern-Sequence-Information,
	id-UE-AggregateMaximumBitRate,
	id-UEIdentity,
	id-UEMeasurementType,
	id-UEMeasurementTimeslotInfoHCR,
	id-UEMeasurementTimeslotInfoLCR,
	id-UEMeasurementReportCharacteristics,
	id-UEMeasurementParameterModAllow,
	id-UEMeasurementValueInformation,
	id-UE-State,
	id-UE-Support-of-non-rectangular-resource-allocation,
	id-UE-with-enhanced-HS-SCCH-support-indicator,
	id-UL-CCTrCH-AddInformation-RL-ReconfPrepTDD,
	id-UL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD,
	id-UL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD,
	id-UL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD,
	id-UL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD,
	id-UL-CCTrCH-InformationAddList-RL-ReconfPrepTDD,
	id-UL-CCTrCH-InformationDeleteList-RL-ReconfPrepTDD,
	id-UL-CCTrCH-InformationModifyList-RL-ReconfPrepTDD,
	id-UL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD,
	id-UL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD,
	id-UL-CCTrCH-InformationItem-RL-SetupRqstTDD,
	id-UL-CCTrCH-InformationList-RL-SetupRqstTDD,
	id-UL-CCTrCH-InformationListIE-PhyChReconfRqstTDD,
	id-UL-CCTrCH-InformationListIE-RL-AdditionRspTDD,
	id-UL-CCTrCH-InformationListIE-RL-ReconfReadyTDD,
	id-UL-CCTrCH-InformationListIE-RL-SetupRspTDD,
	id-UL-DPCH-Information-RL-ReconfPrepFDD,
	id-UL-DPCH-Information-RL-ReconfRqstFDD,
	id-UL-DPCH-Information-RL-SetupRqstFDD,
	id-UL-DPDCHIndicatorEDCH,
	id-UL-DPCH-InformationItem-PhyChReconfRqstTDD,
	id-UL-DPCH-InformationItem-RL-AdditionRspTDD,
	id-UL-DPCH-InformationItem-RL-SetupRspTDD,
	id-UL-DPCH-InformationAddListIE-RL-ReconfReadyTDD,
	id-UL-DPCH-InformationDeleteListIE-RL-ReconfReadyTDD,
	id-UL-DPCH-InformationModifyListIE-RL-ReconfReadyTDD,
	id-UL-Physical-Channel-Information-RL-SetupRqstTDD,
	id-UL-SIRTarget,
	id-URA-ID,
	id-URA-Information,
	id-UnsuccessfulRL-InformationResponse-RL-AdditionFailureFDD,
	id-UnsuccessfulRL-InformationResponse-RL-AdditionFailureTDD,
	id-UnsuccessfulRL-InformationResponse-RL-SetupFailureFDD,
	id-UnsuccessfulRL-InformationResponse-RL-SetupFailureTDD,
	id-USCHs-to-Add,
	id-USCH-DeleteList-RL-ReconfPrepTDD,
	id-USCH-InformationListIE-RL-AdditionRspTDD,
	id-USCH-InformationListIEs-RL-SetupRspTDD,
	id-USCH-Information,
	id-USCH-ModifyList-RL-ReconfPrepTDD,
	id-USCHToBeAddedOrModifiedList-RL-ReconfReadyTDD,
	id-DL-Timeslot-ISCP-LCR-Information-RL-SetupRqstTDD,
	id-RL-LCR-InformationResponse-RL-SetupRspTDD,
	id-UL-CCTrCH-LCR-InformationListIE-RL-SetupRspTDD,
	id-UL-DPCH-LCR-InformationItem-RL-SetupRspTDD,
	id-DL-CCTrCH-LCR-InformationListIE-RL-SetupRspTDD,
	id-DL-DPCH-LCR-InformationItem-RL-SetupRspTDD,
	id-DSCH-LCR-InformationListIEs-RL-SetupRspTDD,
	id-USCH-LCR-InformationListIEs-RL-SetupRspTDD,
	id-DL-Timeslot-ISCP-LCR-Information-RL-AdditionRqstTDD,
	id-RL-LCR-InformationResponse-RL-AdditionRspTDD,
	id-UL-CCTrCH-LCR-InformationListIE-RL-AdditionRspTDD,
	id-UL-DPCH-LCR-InformationItem-RL-AdditionRspTDD,
	id-DL-CCTrCH-LCR-InformationListIE-RL-AdditionRspTDD,
	id-DL-DPCH-LCR-InformationItem-RL-AdditionRspTDD,
	id-DSCH-LCR-InformationListIEs-RL-AdditionRspTDD,
	id-USCH-LCR-InformationListIEs-RL-AdditionRspTDD,
	id-UL-DPCH-LCR-InformationAddListIE-RL-ReconfReadyTDD,
	id-UL-Timeslot-LCR-InformationModifyList-RL-ReconfReadyTDD,
	id-DL-DPCH-LCR-InformationAddListIE-RL-ReconfReadyTDD,
	id-DL-Timeslot-LCR-InformationModifyList-RL-ReconfReadyTDD,
	id-UL-Timeslot-LCR-InformationList-PhyChReconfRqstTDD,
	id-DL-Timeslot-LCR-InformationList-PhyChReconfRqstTDD,
	id-timeSlot-ISCP-LCR-List-DL-PC-Rqst-TDD,
	id-TSTD-Support-Indicator-RL-SetupRqstTDD,
	id-PrimaryCCPCH-RSCP-RL-ReconfPrepTDD,
	id-DL-TimeSlot-ISCP-Info-RL-ReconfPrepTDD,
	id-DL-Timeslot-ISCP-LCR-Information-RL-ReconfPrepTDD,
	id-neighbouringTDDCellMeasurementInformationLCR,
	id-UL-SIR-Target-CCTrCH-InformationItem-RL-SetupRspTDD,
	id-UL-SIR-Target-CCTrCH-LCR-InformationItem-RL-SetupRspTDD,
	id-TrafficClass,
	id-UL-Synchronisation-Parameters-LCR,
	id-TDD-DL-DPCH-TimeSlotFormatModifyItem-LCR-RL-ReconfReadyTDD,
	id-TDD-UL-DPCH-TimeSlotFormatModifyItem-LCR-RL-ReconfReadyTDD,
	id-MAChs-ResetIndicator,
	id-UL-TimingAdvanceCtrl-LCR,
	id-CCTrCH-Maximum-DL-Power-RL-SetupRspTDD,
	id-CCTrCH-Minimum-DL-Power-RL-SetupRspTDD,
	id-CCTrCH-Maximum-DL-Power-RL-AdditionRspTDD,
	id-CCTrCH-Minimum-DL-Power-RL-AdditionRspTDD,
	id-CCTrCH-Maximum-DL-Power-RL-ReconfReadyTDD,
	id-CCTrCH-Minimum-DL-Power-RL-ReconfReadyTDD,
	id-Maximum-DL-Power-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD,
	id-Minimum-DL-Power-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD,
	id-DL-CCTrCH-InformationList-RL-ReconfRspTDD,
	id-DL-DPCH-InformationModifyItem-LCR-RL-ReconfRspTDD,
	id-TDD-TPC-UplinkStepSize-LCR-RL-SetupRqstTDD,
	id-UL-CCTrCH-InformationList-RL-AdditionRqstTDD,
	id-UL-CCTrCH-InformationItem-RL-AdditionRqstTDD,
	id-DL-CCTrCH-InformationList-RL-AdditionRqstTDD,
	id-DL-CCTrCH-InformationItem-RL-AdditionRqstTDD,
	id-TDD-TPC-UplinkStepSize-InformationAdd-LCR-RL-ReconfPrepTDD,
	id-TDD-TPC-UplinkStepSize-InformationModify-LCR-RL-ReconfPrepTDD,
	id-TDD-TPC-DownlinkStepSize-InformationAdd-RL-ReconfPrepTDD,
	id-TDD-TPC-DownlinkStepSize-InformationModify-RL-ReconfPrepTDD,
	id-PrimaryCCPCH-RSCP-Delta,
	id-multiple-DedicatedMeasurementValueList-TDD-DM-Rsp,
	id-multiple-DedicatedMeasurementValueList-LCR-TDD-DM-Rsp,
	id-SynchronisationIndicator,
	id-secondary-LCR-CCPCH-Info-TDD,
	id-multiple-HSSICHMeasurementValueList-TDD-DM-Rsp,
	id-CellCapabilityContainer-TDD768,
	id-neighbouringTDDCellMeasurementInformation768,
	id-RL-InformationResponse-RL-SetupRspTDD768,
	id-UL-CCTrCH-InformationListIE-RL-SetupRspTDD768,
	id-DL-CCTrCH-InformationListIE-RL-SetupRspTDD768,
	id-UL-DPCH-InformationItem-RL-SetupRspTDD768,
	id-DL-DPCH-InformationItem-RL-SetupRspTDD768,
	id-TDD768-minimumSpreadingFactor-UL,
	id-TDD768-minimumSpreadingFactor-DL,
	id-TDD768-maxNrDLPhysicalchannels,
	id-TDD768-maxNrDLPhysicalchannelsTS,
	id-RL-InformationResponse-RL-AdditionRspTDD768,
	id-UL-CCTrCH-InformationListIE-RL-AdditionRspTDD768,
	id-DL-CCTrCH-InformationListIE-RL-AdditionRspTDD768,
	id-UL-DPCH-InformationItem-RL-AdditionRspTDD768,
	id-DL-DPCH-InformationItem-RL-AdditionRspTDD768,
	id-UL-DPCH-InformationAddListIE-RL-ReconfReadyTDD768,
	id-UL-Timeslot-InformationModifyList-RL-ReconfReadyTDD768,
	id-DL-DPCH-InformationAddListIE-RL-ReconfReadyTDD768,
	id-DL-Timeslot-InformationModifyList-RL-ReconfReadyTDD768,
	id-secondary-CCPCH-Info-RL-ReconfReadyTDD768,
	id-HSPDSCH-Timeslot-InformationList-PhyChReconfRqstTDD768,
	id-UL-Timeslot-InformationList-PhyChReconfRqstTDD768,
	id-DL-Timeslot-InformationList-PhyChReconfRqstTDD768,
	id-multiple-DedicatedMeasurementValueList-TDD768-DM-Rsp,
	id-UEMeasurementTimeslotInfo768,
	id-DL-DPCH-InformationDeleteList768-RL-ReconfReadyTDD,
	id-DPCH-ID768-DM-Rsp,
	id-DPCH-ID768-DM-Rqst,
	id-DPCH-ID768-DM-Rprt,
	id-RxTimingDeviationForTAext,
	id-RxTimingDeviationForTA768,
	id-E-DCH-Information,
	id-E-DCH-Information-Reconfig,
	id-E-DCH-Serving-RL-ID,
	id-E-DCH-Information-Response,
	id-E-DCH-768-Information,
	id-E-DCH-768-Information-Reconfig,
	id-E-DCH-768-Information-Response,
	id-E-DCH-LCR-Information,
	id-E-DCH-LCR-Information-Reconfig,
	id-E-DCH-LCR-Information-Response,
	id-PowerControlGAP,
	id-IdleIntervalInformation,
	id-NeedforIdleInterval,
	id-IdleIntervalConfigurationIndicator,
	id-UARFCNforNt,
	id-HS-SICH-ID-Extension,
	id-HSSICH-Info-DM-Rqst-Extension,
	id-UPPCHPositionLCR,
	id-Common-EDCH-MAC-d-Flow-Specific-InformationLCR,
	id-Enhanced-FACH-Information-ResponseLCR,
	id-HSDSCH-PreconfigurationSetup,
	id-HSDSCH-PreconfigurationInfo,
	id-NoOfTargetCellHS-SCCH-Order,
	id-EnhancedHSServingCC-Abort,
	id-GANSS-Time-ID,
	id-Additional-HS-Cell-Information-RL-Setup,
	id-Additional-HS-Cell-Information-Response,
	id-Additional-HS-Cell-Information-RL-Addition,
	id-Additional-HS-Cell-Change-Information-Response,
	id-Additional-HS-Cell-Information-RL-Reconf-Prep,
	id-Additional-HS-Cell-Information-RL-Reconf-Req,
	id-Additional-HS-Cell-RL-Reconf-Response,
	id-Additional-HS-Cell-Information-RL-Param-Upd,
	id-MinimumReducedE-DPDCH-GainFactor,
	id-ContinuousPacketConnectivity-DRX-InformationLCR,
	id-ContinuousPacketConnectivity-DRX-Information-ResponseLCR,
	id-CPC-InformationLCR,
	id-E-DCH-Semi-PersistentScheduling-Information-LCR,
	id-HS-DSCH-Semi-PersistentScheduling-Information-LCR,
	id-HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR,
	id-E-DCH-Semi-PersistentScheduling-Information-ResponseLCR,
	id-ActivationInformation,
	id-Additional-EDCH-Cell-Information-RL-Setup-Req,
	id-Additional-EDCH-Cell-Information-Response,
	id-Additional-EDCH-Cell-Information-RL-Add-Req,
	id-Additional-EDCH-Cell-Information-Response-RLAdd,
	id-Additional-EDCH-Cell-Information-RL-Reconf-Prep,
	id-Additional-EDCH-Cell-Information-RL-Reconf-Req,
	id-Additional-EDCH-Cell-Information-RL-Param-Upd,
	id-Additional-EDCH-Cell-Information-ResponseRLReconf,
	id-DCH-MeasurementOccasion-Information,
	id-DCH-MeasurementType-Indicator,
	id-Non-Serving-RL-Preconfig-Info,
	id-Non-Serving-RL-Preconfig-Setup,
	id-Non-Serving-RL-Preconfig-Removal,
	id-CellCapabilityContainerExtension-TDD-LCR,
	id-Multi-Carrier-EDCH-Setup,
	id-Multi-Carrier-EDCH-Reconfigure,
	id-Multi-Carrier-EDCH-Response,
	id-MU-MIMO-InformationLCR,
	id-MU-MIMO-Indicator,
	id-Usefulness-Of-Battery-Optimization,
	id-MDT-Configuration,
	id-Neighbouring-UMTS-CellInformation-Ext,
	id-Extension-CommonMeasurementObjectType-CM-Rprt,
	id-Extension-CommonMeasurementObjectType-CM-Rqst,
	id-Extension-CommonMeasurementObjectType-CM-Rsp,
	id-Extension-FailureIndicationMeasurementList,
	id-Extension-FailureMeasurementList,
	id-Extension-TerminationMeasurementList,
	id-GsmCellList-CM-Rprt,
	id-GsmCellList-CM-Rqst,
	id-GsmCellList-CM-Rsp,
	id-SpeechVersion,
	id-SourceID,
	id-TargetID,
	id-ClassmarkInformation2,
	id-ClassmarkInformation3,
	id-GSM-Cell-CM-Rqst,
	id-LoadValue,
	id-EventH,
	id-Cell-Capacity-Class-Value,
	id-Control-Type-InformationTransferControlReq,
	id-ANR-Cell-InfEx-Rqst,
	id-ANR-Cell-InfEx-Rsp,
	id-Trace-Collection-Entity-IP-Address,
	id-CPC-RecoveryReport,
	id-UL-CLTD-Information,
	id-UL-CLTD-Information-Reconf,
	id-UL-CLTD-State-Update-Information,
	id-FTPICH-Information,
	id-FTPICH-Information-Reconf,
	id-FTPICH-Information-Response,
	id-FTPICH-Reconfiguration-Information,
	id-Common-E-RGCH-Cell-InfEx-Rqst,
	id-Common-E-RGCH-Cell-InfEx-Rsp,
	id-Common-E-RGCH-Cell-InfEx-Rprt,
	id-DCH-ENH-Information,
	id-DCH-ENH-Information-Reconf,
	id-Radio-Links-without-DPCH-FDPCH-Indication,
	id-UL-DPCCH2-Information,
	id-UL-DPCCH2-Information-Reconf,
	id-UE-Measurement-Forwarding,
	id-ActivationDelay,
	id-Selected-PLMN-Identity,
	id-Downlink-TPC-enhancements-Information,
	id-Downlink-TPC-enhancements-Reconf,
	id-TPC-slot-position

FROM RNSAP-Constants;

-- **************************************************************
--
-- RADIO LINK SETUP REQUEST FDD
--
-- **************************************************************

RadioLinkSetupRequestFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkSetupRequestFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkSetupRequestFDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkSetupRequestFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-SRNC-ID					CRITICALITY reject	TYPE RNC-ID						PRESENCE mandatory} |
	{ ID id-S-RNTI					CRITICALITY reject	TYPE S-RNTI 					PRESENCE mandatory	} |
	{ ID id-D-RNTI					CRITICALITY reject	TYPE D-RNTI					PRESENCE optional	} |
	{ ID id-AllowedQueuingTime			CRITICALITY reject	TYPE AllowedQueuingTime 			PRESENCE optional	} |
	{ ID id-UL-DPCH-Information-RL-SetupRqstFDD	CRITICALITY reject	TYPE UL-DPCH-Information-RL-SetupRqstFDD		PRESENCE mandatory	} |
	{ ID id-DL-DPCH-Information-RL-SetupRqstFDD	CRITICALITY reject	TYPE DL-DPCH-Information-RL-SetupRqstFDD		PRESENCE optional	} |
	{ ID id-DCH-FDD-Information		CRITICALITY reject	TYPE DCH-FDD-Information		PRESENCE mandatory	} |
	{ ID id-RL-Information-RL-SetupRqstFDD		CRITICALITY notify	TYPE RL-InformationList-RL-SetupRqstFDD		PRESENCE mandatory	}|
	{ ID id-Transmission-Gap-Pattern-Sequence-Information		CRITICALITY reject	TYPE Transmission-Gap-Pattern-Sequence-Information	 PRESENCE optional } |
	{ ID id-Active-Pattern-Sequence-Information	CRITICALITY reject	TYPE Active-Pattern-Sequence-Information	 PRESENCE optional },
	...
}

UL-DPCH-Information-RL-SetupRqstFDD ::= SEQUENCE {
	ul-ScramblingCode				UL-ScramblingCode,
	minUL-ChannelisationCodeLength			MinUL-ChannelisationCodeLength,
	maxNrOfUL-DPCHs					MaxNrOfUL-DPCHs			OPTIONAL
	-- This IE shall be present if minUL-ChannelisationCodeLength equals to 4 -- ,
	ul-PunctureLimit				PunctureLimit,
	ul-TFCS							TFCS,
	ul-DPCCH-SlotFormat				UL-DPCCH-SlotFormat,
	ul-SIRTarget					UL-SIR			OPTIONAL,
	diversityMode					DiversityMode,
	not-Used-sSDT-CellIdLength		NULL			OPTIONAL,
	not-Used-s-FieldLength			NULL			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-Information-RL-SetupRqstFDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-Information-RL-SetupRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DPC-Mode				CRITICALITY reject		EXTENSION DPC-Mode				PRESENCE optional }|
	{ ID id-UL-DPDCHIndicatorEDCH	CRITICALITY reject		EXTENSION UL-DPDCHIndicatorEDCH	PRESENCE optional },
	...
}

DL-DPCH-Information-RL-SetupRqstFDD ::= SEQUENCE {
	tFCS							TFCS,
	dl-DPCH-SlotFormat				DL-DPCH-SlotFormat,
	nrOfDLchannelisationcodes		NrOfDLchannelisationcodes,
	tFCI-SignallingMode				TFCI-SignallingMode,
	tFCI-Presence					TFCI-Presence			OPTIONAL
	-- This IE shall be present if DL DPCH Slot Format IE is equal to any of the values from 12 to 16 --,
	multiplexingPosition				MultiplexingPosition,
	powerOffsetInformation				PowerOffsetInformation-RL-SetupRqstFDD,
	fdd-dl-TPC-DownlinkStepSize		FDD-TPC-DownlinkStepSize,
	limitedPowerIncrease			LimitedPowerIncrease,
	innerLoopDLPCStatus				InnerLoopDLPCStatus,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-Information-RL-SetupRqstFDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-Information-RL-SetupRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

PowerOffsetInformation-RL-SetupRqstFDD ::= SEQUENCE {
		po1-ForTFCI-Bits				PowerOffset,
		po2-ForTPC-Bits					PowerOffset,
		po3-ForPilotBits				PowerOffset,
		iE-Extensions					ProtocolExtensionContainer { { PowerOffsetInformation-RL-SetupRqstFDD-ExtIEs} } OPTIONAL,
		...
}

PowerOffsetInformation-RL-SetupRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-InformationList-RL-SetupRqstFDD 			::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-InformationItemIEs-RL-SetupRqstFDD} }

RL-InformationItemIEs-RL-SetupRqstFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationItem-RL-SetupRqstFDD	CRITICALITY notify	TYPE RL-InformationItem-RL-SetupRqstFDD 		PRESENCE mandatory	}
}

RL-InformationItem-RL-SetupRqstFDD ::= SEQUENCE {
	rL-ID							RL-ID,
	c-ID							C-ID,
	firstRLS-indicator				FirstRLS-Indicator,
	frameOffset						FrameOffset,
	chipOffset						ChipOffset,
	propagationDelay				PropagationDelay		OPTIONAL,
	diversityControlField			DiversityControlField		OPTIONAL
	-- This IE shall be present if the RL is not the first one in the RL-InformationList-RL-SetupRqstFDD --,
	dl-InitialTX-Power				DL-Power			OPTIONAL,
	primaryCPICH-EcNo				PrimaryCPICH-EcNo			OPTIONAL,
	not-Used-sSDT-CellID			NULL			OPTIONAL,
	transmitDiversityIndicator		TransmitDiversityIndicator		OPTIONAL,
	-- This IE shall be present unless Diversity Mode IE in UL DPCH Information group is “none”
	iE-Extensions					ProtocolExtensionContainer { {RL-InformationItem-RL-SetupRqstFDD-ExtIEs} } OPTIONAL,
	...
}

RL-InformationItem-RL-SetupRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Enhanced-PrimaryCPICH-EcNo	CRITICALITY ignore	EXTENSION Enhanced-PrimaryCPICH-EcNo	PRESENCE optional }|
	{ ID id-RL-Specific-DCH-Info	CRITICALITY ignore	EXTENSION RL-Specific-DCH-Info	PRESENCE optional }|
	{ ID id-DelayedActivation	CRITICALITY reject	EXTENSION DelayedActivation	PRESENCE optional }|
	{ ID id-CellPortionID	CRITICALITY ignore	EXTENSION CellPortionID 	PRESENCE optional }|
	{ ID id-RL-Specific-EDCH-Information	CRITICALITY reject	EXTENSION RL-Specific-EDCH-Information	PRESENCE optional }|
	{ ID id-EDCH-RL-Indication	CRITICALITY reject	EXTENSION EDCH-RL-Indication	PRESENCE optional }|
	{ ID id-ExtendedPropagationDelay	CRITICALITY ignore	EXTENSION ExtendedPropagationDelay 	PRESENCE optional }|
	{ ID id-SynchronisationIndicator	CRITICALITY reject	EXTENSION SynchronisationIndicator	PRESENCE optional }|
	{ ID id-HSDSCH-PreconfigurationSetup	CRITICALITY ignore	EXTENSION HSDSCH-PreconfigurationSetup	PRESENCE optional }|
	{ ID id-Non-Serving-RL-Preconfig-Setup	CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Setup	PRESENCE optional }|
	{ ID id-FTPICH-Information	CRITICALITY ignore	EXTENSION FTPICH-Information	PRESENCE optional }|
	{ ID id-TPC-slot-position	CRITICALITY ignore	EXTENSION TPC-slot-position	PRESENCE optional },
	...
}

RadioLinkSetupRequestFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Permanent-NAS-UE-Identity	CRITICALITY ignore	EXTENSION Permanent-NAS-UE-Identity	PRESENCE optional}|
	{ ID id-DL-PowerBalancing-Information	CRITICALITY ignore	EXTENSION DL-PowerBalancing-Information	PRESENCE optional}|
	{ ID id-HSDSCH-FDD-Information	CRITICALITY reject	EXTENSION HSDSCH-FDD-Information		PRESENCE optional}|
	{ ID id-HSPDSCH-RL-ID	CRITICALITY reject	EXTENSION RL-ID	PRESENCE conditional}|
	-- This IE shall be present if HS-DSCH Information IE is present.
	{ ID id-MBMS-Bearer-Service-List	CRITICALITY notify	EXTENSION MBMS-Bearer-Service-List	PRESENCE optional}|
	{ ID id-EDPCH-Information	CRITICALITY reject	EXTENSION EDPCH-Information-FDD	PRESENCE optional}|
	{ ID id-EDCH-FDD-Information	CRITICALITY reject	EXTENSION EDCH-FDD-Information	PRESENCE conditional}|
	-- This IE is present if E-DPCH Information IE is present.
	{ ID id-Serving-EDCHRL-Id	CRITICALITY reject	EXTENSION EDCH-Serving-RL	PRESENCE optional}|
	-- This IE is present if E-DCHInformation IE is present.
	{ ID id-F-DPCH-Information-RL-SetupRqstFDD	CRITICALITY reject	EXTENSION F-DPCH-Information-RL-SetupRqstFDD	PRESENCE optional}|
	{ ID id-Initial-DL-DPCH-TimingAdjustment-Allowed	CRITICALITY ignore	EXTENSION Initial-DL-DPCH-TimingAdjustment-Allowed	PRESENCE optional}|
	{ ID id-DCH-Indicator-For-E-DCH-HSDPA-Operation	CRITICALITY reject	EXTENSION DCH-Indicator-For-E-DCH-HSDPA-Operation	PRESENCE optional}|
	{ ID id-Serving-cell-change-CFN	CRITICALITY reject	EXTENSION CFN			PRESENCE optional}|
	{ ID id-Continuous-Packet-Connectivity-DTX-DRX-Information	CRITICALITY reject	EXTENSION Continuous-Packet-Connectivity-DTX-DRX-Information								PRESENCE optional}|
	{ ID id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information	CRITICALITY reject	EXTENSION Continuous-Packet-Connectivity-HS-SCCH-Less-Information					PRESENCE optional}|
	{ ID id-Extended-SRNC-ID	CRITICALITY reject	EXTENSION Extended-RNC-ID	PRESENCE optional}|
	{ ID id-Additional-HS-Cell-Information-RL-Setup	CRITICALITY reject	EXTENSION Additional-HS-Cell-Information-RL-Setup-List	PRESENCE optional}|
	{ ID id-UE-AggregateMaximumBitRate					CRITICALITY ignore	EXTENSION UE-AggregateMaximumBitRate	PRESENCE optional}|
	{ ID id-Additional-EDCH-Cell-Information-RL-Setup-Req	CRITICALITY reject	EXTENSION Additional-EDCH-Setup-Info	PRESENCE optional}|
	{ ID id-Usefulness-Of-Battery-Optimization			CRITICALITY ignore	EXTENSION Usefulness-Of-Battery-Optimization	PRESENCE optional}|
	{ ID id-UL-CLTD-Information							CRITICALITY reject	EXTENSION UL-CLTD-Information	PRESENCE optional}|
	{ ID id-Extended-S-RNTI								CRITICALITY reject	EXTENSION Extended-RNTI	PRESENCE optional}|
	{ ID id-E-DCH-Decoupling-Indication					CRITICALITY reject	EXTENSION E-DCH-Decoupling-Indication	PRESENCE optional}|
	{ ID id-DCH-ENH-Information							CRITICALITY reject	EXTENSION DCH-ENH-Information	PRESENCE optional}|
	{ ID id-Radio-Links-without-DPCH-FDPCH-Indication	CRITICALITY reject	EXTENSION Radio-Links-without-DPCH-FDPCH-Indication	PRESENCE optional}|
	{ ID id-UL-DPCCH2-Information						CRITICALITY reject	EXTENSION UL-DPCCH2-Information	PRESENCE optional}|
	{ ID id-Selected-PLMN-Identity						CRITICALITY ignore	EXTENSION PLMN-Identity	PRESENCE optional}|
	{ ID id-Downlink-TPC-enhancements-Information		CRITICALITY reject	EXTENSION Downlink-TPC-enhancements-Information	PRESENCE optional},
	...
}

Additional-HS-Cell-Information-RL-Setup-List	::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF Additional-HS-Cell-Information-RL-Setup-ItemIEs



Additional-HS-Cell-Information-RL-Setup-ItemIEs	::=SEQUENCE{
	hSPDSCH-RL-ID									RL-ID,
	c-ID											C-ID,
	hS-DSCH-FDD-Secondary-Serving-Information		HS-DSCH-FDD-Secondary-Serving-Information,
	iE-Extensions					ProtocolExtensionContainer { { Additional-HS-Cell-Information-RL-Setup-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-HS-Cell-Information-RL-Setup-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

F-DPCH-Information-RL-SetupRqstFDD ::= SEQUENCE {
	powerOffsetInformation			PowerOffsetInformation-F-DPCH-RL-SetupRqstFDD,
	fdd-dl-TPC-DownlinkStepSize		FDD-TPC-DownlinkStepSize,
	limitedPowerIncrease			LimitedPowerIncrease,
	innerLoopDLPCStatus				InnerLoopDLPCStatus,
	iE-Extensions					ProtocolExtensionContainer { { F-DPCH-Information-RL-SetupRqstFDD-ExtIEs} }					OPTIONAL,
	...
}

F-DPCH-Information-RL-SetupRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-F-DPCH-SlotFormatSupportRequest		CRITICALITY reject			EXTENSION F-DPCH-SlotFormatSupportRequest		PRESENCE optional	}|
	{ ID id-F-DPCH-SlotFormat				CRITICALITY ignore	EXTENSION F-DPCH-SlotFormat		PRESENCE optional},
	...
}

PowerOffsetInformation-F-DPCH-RL-SetupRqstFDD ::= SEQUENCE {
	po2-ForTPC-Bits					PowerOffset,
	--This IE shall be ignored by DRNS
	iE-Extensions					ProtocolExtensionContainer { { PowerOffsetInformation-F-DPCH-RL-SetupRqstFDD-ExtIEs} }		OPTIONAL,
	...
}

PowerOffsetInformation-F-DPCH-RL-SetupRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK SETUP REQUEST TDD
--
-- **************************************************************

RadioLinkSetupRequestTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkSetupRequestTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkSetupRequestTDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkSetupRequestTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-SRNC-ID	CRITICALITY reject	TYPE RNC-ID	PRESENCE mandatory } |
	{ ID id-S-RNTI	CRITICALITY reject	TYPE S-RNTI 	PRESENCE mandatory } |
	{ ID id-D-RNTI	CRITICALITY reject	TYPE D-RNTI	PRESENCE optional } |
	{ ID id-UL-Physical-Channel-Information-RL-SetupRqstTDD	CRITICALITY reject	TYPE UL-Physical-Channel-Information-RL-SetupRqstTDD	PRESENCE mandatory } |
	{ ID id-DL-Physical-Channel-Information-RL-SetupRqstTDD	CRITICALITY reject	TYPE DL-Physical-Channel-Information-RL-SetupRqstTDD	PRESENCE mandatory } |
	{ ID id-AllowedQueuingTime	CRITICALITY reject	TYPE AllowedQueuingTime 	PRESENCE optional } |
	{ ID id-UL-CCTrCH-InformationList-RL-SetupRqstTDD	CRITICALITY notify	TYPE UL-CCTrCH-InformationList-RL-SetupRqstTDD	PRESENCE optional } |
	{ ID id-DL-CCTrCH-InformationList-RL-SetupRqstTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationList-RL-SetupRqstTDD	PRESENCE optional } |
	{ ID id-DCH-TDD-Information	CRITICALITY reject	TYPE DCH-TDD-Information 	PRESENCE optional } |
	{ ID id-DSCH-TDD-Information	CRITICALITY reject	TYPE DSCH-TDD-Information	PRESENCE optional } |
	{ ID id-USCH-Information	CRITICALITY reject	TYPE USCH-Information	PRESENCE optional } |
	{ ID id-RL-Information-RL-SetupRqstTDD	CRITICALITY reject	TYPE RL-Information-RL-SetupRqstTDD	PRESENCE mandatory },
	...
}

UL-Physical-Channel-Information-RL-SetupRqstTDD ::= SEQUENCE {
	maxNrTimeslots-UL				MaxNrTimeslots,
	minimumSpreadingFactor-UL		MinimumSpreadingFactor,
	maxNrULPhysicalchannels			MaxNrULPhysicalchannels,
	iE-Extensions					ProtocolExtensionContainer { {UL-Physical-Channel-InformationItem-RL-SetupRqstTDD-ExtIEs} } OPTIONAL,
	...
}

UL-Physical-Channel-InformationItem-RL-SetupRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TDD-Support-8PSK		CRITICALITY ignore		EXTENSION Support-8PSK		PRESENCE optional	}|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-TDD768-minimumSpreadingFactor-UL		CRITICALITY ignore			EXTENSION MinimumSpreadingFactor768		PRESENCE optional	},
	...
}

DL-Physical-Channel-Information-RL-SetupRqstTDD ::= SEQUENCE {
	maxNrTimeslots-DL				MaxNrTimeslots,
	minimumSpreadingFactor-DL		MinimumSpreadingFactor,
	maxNrDLPhysicalchannels			MaxNrDLPhysicalchannels,
	iE-Extensions					ProtocolExtensionContainer { {DL-Physical-Channel-InformationItem-RL-SetupRqstTDD-ExtIEs} } OPTIONAL,
	...
}

DL-Physical-Channel-InformationItem-RL-SetupRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TDD-maxNrDLPhysicalchannels				CRITICALITY ignore			EXTENSION MaxNrDLPhysicalchannelsTS			PRESENCE optional	}|
	{ ID id-TDD-Support-8PSK						CRITICALITY ignore			EXTENSION Support-8PSK							PRESENCE optional	}|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-TDD-Support-PLCCH						CRITICALITY ignore			EXTENSION Support-PLCCH							PRESENCE optional	}|
	{ ID id-TDD768-minimumSpreadingFactor-DL		CRITICALITY ignore			EXTENSION MinimumSpreadingFactor768			PRESENCE optional	}|
	{ ID id-TDD768-maxNrDLPhysicalchannels			CRITICALITY ignore			EXTENSION MaxNrDLPhysicalchannels768		PRESENCE optional	}|
	{ ID id-TDD768-maxNrDLPhysicalchannelsTS		CRITICALITY ignore			EXTENSION MaxNrDLPhysicalchannelsTS768		PRESENCE optional	},
	...
}

UL-CCTrCH-InformationList-RL-SetupRqstTDD			::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {UL-CCTrCH-InformationItemIEs-RL-SetupRqstTDD} }

UL-CCTrCH-InformationItemIEs-RL-SetupRqstTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-InformationItem-RL-SetupRqstTDD	CRITICALITY notify	TYPE UL-CCTrCH-InformationItem-RL-SetupRqstTDD 	PRESENCE mandatory	}
}

UL-CCTrCH-InformationItem-RL-SetupRqstTDD ::= SEQUENCE {
	cCTrCH-ID						CCTrCH-ID,
	ul-TFCS							TFCS,
	tFCI-Coding						TFCI-Coding,
	ul-PunctureLimit				PunctureLimit,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCH-InformationItem-RL-SetupRqstTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCH-InformationItem-RL-SetupRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TDD-TPC-UplinkStepSize-LCR-RL-SetupRqstTDD		CRITICALITY reject		EXTENSION	TDD-TPC-UplinkStepSize-LCR		PRESENCE optional	},
	-- Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD
	...
}

DL-CCTrCH-InformationList-RL-SetupRqstTDD			::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {DL-CCTrCH-InformationItemIEs-RL-SetupRqstTDD} }

DL-CCTrCH-InformationItemIEs-RL-SetupRqstTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationItem-RL-SetupRqstTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationItem-RL-SetupRqstTDD	PRESENCE mandatory	 }
}

DL-CCTrCH-InformationItem-RL-SetupRqstTDD ::= SEQUENCE {
	cCTrCH-ID						CCTrCH-ID,
	dl-TFCS							TFCS,
	tFCI-Coding						TFCI-Coding,
	dl-PunctureLimit				PunctureLimit,
	tdd-TPC-DownlinkStepSize		TDD-TPC-DownlinkStepSize,
	cCTrCH-TPCList					CCTrCH-TPCList-RL-SetupRqstTDD	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCH-InformationItem-RL-SetupRqstTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-InformationItem-RL-SetupRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CCTrCH-TPCList-RL-SetupRqstTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF CCTrCH-TPCItem-RL-SetupRqstTDD

CCTrCH-TPCItem-RL-SetupRqstTDD	 ::= SEQUENCE {
	cCTrCH-ID							CCTrCH-ID,
	iE-Extensions						ProtocolExtensionContainer { { CCTrCH-TPCItem-RL-SetupRqstTDD-ExtIEs} } OPTIONAL,
	...
}

CCTrCH-TPCItem-RL-SetupRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Information-RL-SetupRqstTDD ::= SEQUENCE {
	rL-ID							RL-ID,
	c-ID							C-ID,
	frameOffset						FrameOffset,
	specialBurstScheduling			SpecialBurstScheduling,
	primaryCCPCH-RSCP				PrimaryCCPCH-RSCP		OPTIONAL,
	dL-TimeSlot-ISCP				DL-TimeSlot-ISCP-Info	OPTIONAL,
	--for 3.84Mcps TDD and 7.68Mcps TDD only
	iE-Extensions					ProtocolExtensionContainer { {RL-Information-RL-SetupRqstTDD-ExtIEs} } OPTIONAL,
	...
}

RL-Information-RL-SetupRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DL-Timeslot-ISCP-LCR-Information-RL-SetupRqstTDD	CRITICALITY reject		EXTENSION 	DL-TimeSlot-ISCP-LCR-Information	PRESENCE optional	}|
	{ ID id-TSTD-Support-Indicator-RL-SetupRqstTDD				CRITICALITY ignore		EXTENSION 	TSTD-Support-Indicator				PRESENCE optional	}|
	--for 1.28Mcps TDD only
	{ ID id-RL-Specific-DCH-Info	CRITICALITY	ignore		EXTENSION 	RL-Specific-DCH-Info	PRESENCE 	optional	}|
	{ ID id-DelayedActivation CRITICALITY reject EXTENSION DelayedActivation PRESENCE optional }|
	{ ID id-UL-Synchronisation-Parameters-LCR			CRITICALITY	reject		EXTENSION 	UL-Synchronisation-Parameters-LCR		PRESENCE 	optional	}|	-- Mandatory for 1.28Mcps TDD, Not Applicable to 3.84Mcps TDD or 7.68Mcps TDD
	{ ID id-PrimaryCCPCH-RSCP-Delta		CRITICALITY	ignore		EXTENSION 	PrimaryCCPCH-RSCP-Delta		PRESENCE 	optional	}|
	{ ID id-IdleIntervalConfigurationIndicator							CRITICALITY ignore	EXTENSION	NULL				PRESENCE optional }|
	{ ID id-CellPortionLCRID	CRITICALITY ignore	EXTENSION CellPortionLCRID 	PRESENCE optional },
	...
}

RadioLinkSetupRequestTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Permanent-NAS-UE-Identity		CRITICALITY ignore	EXTENSION Permanent-NAS-UE-Identity	PRESENCE optional}|
	{ ID id-HSDSCH-TDD-Information		CRITICALITY reject	EXTENSION HSDSCH-TDD-Information	PRESENCE optional}|
	{ ID id-HSPDSCH-RL-ID		CRITICALITY reject	EXTENSION RL-ID	PRESENCE conditional}|
	-- This IE shall be present if HS-DSCH Information IE is present.
	{ ID id-PDSCH-RL-ID		CRITICALITY ignore	EXTENSION RL-ID	PRESENCE optional}|
	{ ID id-MBMS-Bearer-Service-List		CRITICALITY notify	EXTENSION MBMS-Bearer-Service-List	PRESENCE optional}|
	{ ID id-E-DCH-Information		CRITICALITY reject	EXTENSION E-DCH-Information	PRESENCE optional}|
	{ ID id-E-DCH-Serving-RL-ID		CRITICALITY reject	EXTENSION RL-ID		PRESENCE optional}|
	{ ID id-E-DCH-768-Information		CRITICALITY reject	EXTENSION E-DCH-768-Information	PRESENCE optional}|
	{ ID id-E-DCH-LCR-Information		CRITICALITY reject	EXTENSION E-DCH-LCR-Information	PRESENCE optional}|
	{ ID id-Extended-SRNC-ID		CRITICALITY reject	EXTENSION Extended-RNC-ID	PRESENCE optional}|
	{ ID id-ContinuousPacketConnectivity-DRX-InformationLCR	CRITICALITY reject	EXTENSION ContinuousPacketConnectivity-DRX-InformationLCR		PRESENCE optional}|
	{ ID id-HS-DSCH-Semi-PersistentScheduling-Information-LCR	CRITICALITY reject	EXTENSION HS-DSCH-Semi-PersistentScheduling-Information-LCR	PRESENCE optional}|
	{ ID id-E-DCH-Semi-PersistentScheduling-Information-LCR		CRITICALITY reject	EXTENSION E-DCH-Semi-PersistentScheduling-Information-LCR	PRESENCE optional}|
	{ ID id-RNTI-Allocation-Indicator							CRITICALITY ignore	EXTENSION RNTI-Allocation-Indicator		PRESENCE optional}|
	{ ID id-DCH-MeasurementType-Indicator						CRITICALITY reject	EXTENSION DCH-MeasurementType-Indicator	PRESENCE optional}|
	{ ID id-Multi-Carrier-EDCH-Setup							CRITICALITY reject	EXTENSION Multi-Carrier-EDCH-Info		PRESENCE optional}|
	{ ID id-MU-MIMO-Indicator									CRITICALITY reject	EXTENSION MU-MIMO-Indicator			PRESENCE optional}|
	{ ID id-Extended-S-RNTI										CRITICALITY reject	EXTENSION Extended-RNTI			PRESENCE optional}|
	{ ID id-UE-Support-of-non-rectangular-resource-allocation	CRITICALITY ignore	EXTENSION UE-Support-of-non-rectangular-resource-allocation		PRESENCE optional},
	...
}

-- **************************************************************
--
-- RADIO LINK SETUP RESPONSE FDD
--
-- **************************************************************

RadioLinkSetupResponseFDD ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container		{{RadioLinkSetupResponseFDD-IEs}},
	protocolExtensions	ProtocolExtensionContainer	{{RadioLinkSetupResponseFDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkSetupResponseFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-D-RNTI							CRITICALITY ignore	TYPE D-RNTI	PRESENCE optional }|
	{ ID id-CN-PS-DomainIdentifier			CRITICALITY ignore	TYPE CN-PS-DomainIdentifier	PRESENCE optional }|
	{ ID id-CN-CS-DomainIdentifier			CRITICALITY ignore	TYPE CN-CS-DomainIdentifier	PRESENCE optional }|
	{ ID id-RL-InformationResponseList-RL-SetupRspFDD	CRITICALITY ignore	TYPE RL-InformationResponseList-RL-SetupRspFDD	PRESENCE mandatory }|
	{ ID id-UL-SIRTarget					CRITICALITY ignore	TYPE UL-SIR	PRESENCE optional }|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics	PRESENCE optional },
	...
}

RL-InformationResponseList-RL-SetupRspFDD 		::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-InformationResponseItemIEs-RL-SetupRspFDD} }

RL-InformationResponseItemIEs-RL-SetupRspFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationResponseItem-RL-SetupRspFDD	CRITICALITY ignore	TYPE RL-InformationResponseItem-RL-SetupRspFDD 	PRESENCE mandatory	}
}

RL-InformationResponseItem-RL-SetupRspFDD ::= SEQUENCE {
	rL-ID							RL-ID,
	rL-Set-ID						RL-Set-ID,
	uRA-Information					URA-Information		OPTIONAL,
	sAI								SAI,
	gA-Cell							GA-Cell		OPTIONAL,
	gA-AccessPointPosition			GA-AccessPointPosition		OPTIONAL,
	received-total-wide-band-power	Received-total-wide-band-power,
	not-Used-secondary-CCPCH-Info			NULL		OPTIONAL,
	dl-CodeInformation				FDD-DL-CodeInformation,
	diversityIndication				DiversityIndication-RL-SetupRspFDD,
	sSDT-SupportIndicator			SSDT-SupportIndicator,
	maxUL-SIR						UL-SIR,
	minUL-SIR						UL-SIR,
	closedlooptimingadjustmentmode	Closedlooptimingadjustmentmode			OPTIONAL,
	maximumAllowedULTxPower			MaximumAllowedULTxPower,
	maximumDLTxPower				DL-Power,
	minimumDLTxPower				DL-Power,
	primaryScramblingCode			PrimaryScramblingCode					OPTIONAL,
	uL-UARFCN						UARFCN									OPTIONAL,
	dL-UARFCN						UARFCN									OPTIONAL,
	primaryCPICH-Power				PrimaryCPICH-Power,
	not-Used-dSCHInformationResponse	NULL								OPTIONAL,
	neighbouring-UMTS-CellInformation	Neighbouring-UMTS-CellInformation	OPTIONAL,
	neighbouring-GSM-CellInformation	Neighbouring-GSM-CellInformation	OPTIONAL,
	pC-Preamble						PC-Preamble,
	sRB-Delay						SRB-Delay,
	iE-Extensions					ProtocolExtensionContainer { {RL-InformationResponseItem-RL-SetupRspFDD-ExtIEs} } OPTIONAL,
	...
}

RL-InformationResponseItem-RL-SetupRspFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GA-CellAdditionalShapes						CRITICALITY ignore	EXTENSION GA-CellAdditionalShapes			PRESENCE optional }|
	{ ID id-DL-PowerBalancing-ActivationIndicator		CRITICALITY ignore	EXTENSION DL-PowerBalancing-ActivationIndicator	PRESENCE optional }|
	{ ID id-HCS-Prio									CRITICALITY ignore	EXTENSION HCS-Prio						PRESENCE optional }|
	{ ID id-Primary-CPICH-Usage-For-Channel-Estimation	CRITICALITY ignore	EXTENSION Primary-CPICH-Usage-For-Channel-Estimation	PRESENCE optional }|
	{ ID id-Secondary-CPICH-Information					CRITICALITY ignore	EXTENSION Secondary-CPICH-Information		PRESENCE optional }|
	{ ID id-Active-MBMS-Bearer-ServiceFDD-PFL			CRITICALITY ignore	EXTENSION Active-MBMS-Bearer-Service-ListFDD-PFL	PRESENCE optional }|
	{ ID id-EDCH-RLSet-Id								CRITICALITY ignore	EXTENSION RL-Set-ID						PRESENCE optional }|
	{ ID id-EDCH-FDD-DL-ControlChannelInformation		CRITICALITY ignore	EXTENSION EDCH-FDD-DL-ControlChannelInformation	PRESENCE optional }|
	{ ID id-Initial-DL-DPCH-TimingAdjustment			CRITICALITY ignore	EXTENSION DL-DPCH-TimingAdjustment			PRESENCE optional }|
	{ ID id-F-DPCH-SlotFormat							CRITICALITY ignore	EXTENSION F-DPCH-SlotFormat			PRESENCE optional }|
	{ ID id-FrameOffset									CRITICALITY ignore	EXTENSION FrameOffset			PRESENCE optional }|
	{ ID id-ChipOffset									CRITICALITY ignore	EXTENSION ChipOffset					PRESENCE optional }|
	{ ID id-Neighbouring-E-UTRA-CellInformation			CRITICALITY ignore	EXTENSION Neighbouring-E-UTRA-CellInformation	PRESENCE optional }|
	{ ID id-HSDSCH-PreconfigurationInfo					CRITICALITY ignore	EXTENSION HSDSCH-PreconfigurationInfo			PRESENCE optional }|
	{ ID id-Non-Serving-RL-Preconfig-Info				CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Info		PRESENCE optional }|
	{ ID id-Neighbouring-UMTS-CellInformation-Ext		CRITICALITY ignore	EXTENSION Neighbouring-UMTS-CellInformation-Ext	PRESENCE optional }|
	{ ID id-FTPICH-Information-Response					CRITICALITY ignore	EXTENSION FTPICH-Information-Response		PRESENCE optional },
	...
}

DiversityIndication-RL-SetupRspFDD ::= CHOICE {
	combining						Combining-RL-SetupRspFDD,
	nonCombiningOrFirstRL			NonCombiningOrFirstRL-RL-SetupRspFDD
}

Combining-RL-SetupRspFDD ::= SEQUENCE {
	rL-ID						RL-ID,
	iE-Extensions				ProtocolExtensionContainer { { CombiningItem-RL-SetupRspFDD-ExtIEs} } OPTIONAL,
	...
}

CombiningItem-RL-SetupRspFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DCH-InformationResponse			CRITICALITY ignore	EXTENSION DCH-InformationResponse					PRESENCE optional	}|
	{ ID id-EDCH-FDD-InformationResponse	CRITICALITY ignore	EXTENSION EDCH-FDD-InformationResponse			PRESENCE optional	},
	...
}

NonCombiningOrFirstRL-RL-SetupRspFDD ::= SEQUENCE {
	dCH-InformationResponse		DCH-InformationResponse,
	iE-Extensions				ProtocolExtensionContainer { { NonCombiningOrFirstRLItem-RL-SetupRspFDD-ExtIEs} } OPTIONAL,
	...
}

NonCombiningOrFirstRLItem-RL-SetupRspFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-EDCH-FDD-InformationResponse		CRITICALITY ignore	EXTENSION EDCH-FDD-InformationResponse			PRESENCE optional},
	...
}

RadioLinkSetupResponseFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HSDSCH-RNTI							CRITICALITY ignore		EXTENSION HSDSCH-RNTI									PRESENCE optional }|
	{ ID id-HSDSCH-FDD-Information-Response		CRITICALITY ignore		EXTENSION HSDSCH-FDD-Information-Response		PRESENCE optional }|
	{ ID id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response		CRITICALITY ignore		EXTENSION Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response		PRESENCE optional }|
	{ ID id-SixtyfourQAM-DL-SupportIndicator	CRITICALITY ignore		EXTENSION SixtyfourQAM-DL-SupportIndicator		PRESENCE optional }|
	{ ID id-Additional-HS-Cell-Information-Response	CRITICALITY ignore		EXTENSION Additional-HS-Cell-Information-Response-List		PRESENCE optional }|
	{ ID id-Additional-EDCH-Cell-Information-Response		CRITICALITY ignore	EXTENSION	Additional-EDCH-Cell-Information-Response-List			PRESENCE optional },
	...
}

Additional-HS-Cell-Information-Response-List	::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF Additional-HS-Cell-Information-Response-ItemIEs



Additional-HS-Cell-Information-Response-ItemIEs	::=SEQUENCE{
	hSPDSCH-RL-ID										RL-ID,
	hSDSCH-RNTI											HSDSCH-RNTI,
	hS-DSCH-FDD-Secondary-Serving-Information-Response	HS-DSCH-FDD-Secondary-Serving-Information-Response,
	sixtyfourQAM-DL-SupportIndicator					SixtyfourQAM-DL-SupportIndicator	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Additional-HS-Cell-Information-Response-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-HS-Cell-Information-Response-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK SETUP RESPONSE TDD
--
-- **************************************************************

RadioLinkSetupResponseTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkSetupResponseTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkSetupResponseTDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkSetupResponseTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-D-RNTI	CRITICALITY ignore	TYPE D-RNTI 	PRESENCE optional } |
	{ ID id-CN-PS-DomainIdentifier	CRITICALITY ignore	TYPE CN-PS-DomainIdentifier	PRESENCE optional } |
	{ ID id-CN-CS-DomainIdentifier	CRITICALITY ignore	TYPE CN-CS-DomainIdentifier	PRESENCE optional } |
	{ ID id-RL-InformationResponse-RL-SetupRspTDD	CRITICALITY ignore	TYPE RL-InformationResponse-RL-SetupRspTDD	PRESENCE optional } |
	--Mandatory for 3.84Mcps TDD only
	{ ID id-UL-SIRTarget	CRITICALITY ignore	TYPE UL-SIR	PRESENCE mandatory } |
	{ ID id-CriticalityDiagnostics	CRITICALITY ignore	TYPE CriticalityDiagnostics	PRESENCE optional },
	...
}

RL-InformationResponse-RL-SetupRspTDD ::= SEQUENCE {
	rL-ID						RL-ID,
	uRA-Information				URA-Information		OPTIONAL,
	sAI							SAI,
	gA-Cell						GA-Cell		OPTIONAL,
	gA-AccessPointPosition		GA-AccessPointPosition	OPTIONAL,
	ul-TimeSlot-ISCP-Info		UL-TimeSlot-ISCP-Info,
	maxUL-SIR					UL-SIR,
	minUL-SIR					UL-SIR,
	maximumAllowedULTxPower		MaximumAllowedULTxPower,
	maximumDLTxPower			DL-Power,
	minimumDLTxPower			DL-Power,
	uARFCNforNt					UARFCN				OPTIONAL,
	cellParameterID				CellParameterID		OPTIONAL,
	syncCase					SyncCase			OPTIONAL,
	sCH-TimeSlot				SCH-TimeSlot		OPTIONAL,
	-- This IE shall be present if Sync Case IE is equal to “Case2”. --
	sCTD-Indicator				SCTD-Indicator	OPTIONAL,
	pCCPCH-Power				PCCPCH-Power,
	timingAdvanceApplied		TimingAdvanceApplied,
	alphaValue					AlphaValue,
	ul-PhysCH-SF-Variation		UL-PhysCH-SF-Variation,
	synchronisationConfiguration		SynchronisationConfiguration,
	secondary-CCPCH-Info-TDD			Secondary-CCPCH-Info-TDD	OPTIONAL,
	ul-CCTrCHInformation				UL-CCTrCHInformationList-RL-SetupRspTDD		OPTIONAL,
	dl-CCTrCHInformation				DL-CCTrCHInformationList-RL-SetupRspTDD		OPTIONAL,
	dCH-InformationResponse				DCH-InformationResponseList-RL-SetupRspTDD	OPTIONAL,
	dsch-InformationResponse			DSCH-InformationResponse-RL-SetupRspTDD OPTIONAL,
	usch-InformationResponse			USCH-InformationResponse-RL-SetupRspTDD OPTIONAL,
	neighbouring-UMTS-CellInformation			Neighbouring-UMTS-CellInformation OPTIONAL,
	neighbouring-GSM-CellInformation			Neighbouring-GSM-CellInformation OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {RL-InformationResponse-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

RL-InformationResponse-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GA-CellAdditionalShapes					CRITICALITY ignore	EXTENSION GA-CellAdditionalShapes			PRESENCE optional }|
	{ ID id-HCS-Prio								CRITICALITY ignore	EXTENSION HCS-Prio							PRESENCE optional }|
	{ ID id-TimeSlot-RL-SetupRspTDD					CRITICALITY ignore	EXTENSION TimeSlot							PRESENCE conditional }|
	-- This IE shall be present if Sync Case IE is Case1. --
	{ ID id-Neighbouring-E-UTRA-CellInformation		CRITICALITY ignore	EXTENSION Neighbouring-E-UTRA-CellInformation		PRESENCE optional }|
	{ ID id-Neighbouring-UMTS-CellInformation-Ext	CRITICALITY ignore	EXTENSION Neighbouring-UMTS-CellInformation-Ext		PRESENCE optional },
	...
}

UL-CCTrCHInformationList-RL-SetupRspTDD ::= ProtocolIE-Single-Container {{UL-CCTrCHInformationListIEs-RL-SetupRspTDD}}

UL-CCTrCHInformationListIEs-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-InformationListIE-RL-SetupRspTDD	CRITICALITY ignore	TYPE UL-CCTrCHInformationListIE-RL-SetupRspTDD	PRESENCE mandatory }
}

UL-CCTrCHInformationListIE-RL-SetupRspTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF UL-CCTrCHInformationItem-RL-SetupRspTDD

UL-CCTrCHInformationItem-RL-SetupRspTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	ul-DPCH-Information				UL-DPCH-InformationList-RL-SetupRspTDD		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCHInformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCHInformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-UL-SIR-Target-CCTrCH-InformationItem-RL-SetupRspTDD		CRITICALITY ignore		EXTENSION UL-SIR		PRESENCE optional},
	...
}

UL-DPCH-InformationList-RL-SetupRspTDD ::= ProtocolIE-Single-Container { {UL-DPCH-InformationListIEs-RL-SetupRspTDD} }

UL-DPCH-InformationListIEs-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-DPCH-InformationItem-RL-SetupRspTDD		CRITICALITY ignore	TYPE UL-DPCH-InformationItem-RL-SetupRspTDD	PRESENCE mandatory}
}


UL-DPCH-InformationItem-RL-SetupRspTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	uL-Timeslot-Information			UL-Timeslot-Information,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-InformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-InformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCHInformationList-RL-SetupRspTDD ::= ProtocolIE-Single-Container {{DL-CCTrCHInformationListIEs-RL-SetupRspTDD}}

DL-CCTrCHInformationListIEs-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationListIE-RL-SetupRspTDD	CRITICALITY ignore	TYPE DL-CCTrCHInformationListIE-RL-SetupRspTDD	PRESENCE mandatory}
}

DL-CCTrCHInformationListIE-RL-SetupRspTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF DL-CCTrCHInformationItem-RL-SetupRspTDD

DL-CCTrCHInformationItem-RL-SetupRspTDD ::= SEQUENCE {
	cCTrCH-ID						CCTrCH-ID,
	dl-DPCH-Information				DL-DPCH-InformationList-RL-SetupRspTDD		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCHInformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCHInformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-CCTrCH-Maximum-DL-Power-RL-SetupRspTDD	CRITICALITY ignore	EXTENSION DL-Power	PRESENCE optional }| -- this is a DCH type CCTrCH power
	{ ID id-CCTrCH-Minimum-DL-Power-RL-SetupRspTDD	CRITICALITY ignore	EXTENSION DL-Power	PRESENCE optional }, -- this is a DCH type CCTrCH power
	...
}

DL-DPCH-InformationList-RL-SetupRspTDD ::= ProtocolIE-Single-Container { {DL-DPCH-InformationListIEs-RL-SetupRspTDD} }

DL-DPCH-InformationListIEs-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-DPCH-InformationItem-RL-SetupRspTDD		CRITICALITY ignore	TYPE DL-DPCH-InformationItem-RL-SetupRspTDD	PRESENCE mandatory}
}

DL-DPCH-InformationItem-RL-SetupRspTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	dL-Timeslot-Information			DL-Timeslot-Information,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-InformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-InformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-InformationResponseList-RL-SetupRspTDD ::= ProtocolIE-Single-Container {{DCH-InformationResponseListIEs-RL-SetupRspTDD}}

DCH-InformationResponseListIEs-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DCH-InformationResponse	CRITICALITY ignore	TYPE DCH-InformationResponse	PRESENCE mandatory}
}

DSCH-InformationResponse-RL-SetupRspTDD ::= ProtocolIE-Single-Container {{DSCH-InformationList-RL-SetupRspTDD}}

DSCH-InformationList-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DSCH-InformationListIEs-RL-SetupRspTDD		CRITICALITY ignore	TYPE DSCH-InformationListIEs-RL-SetupRspTDD PRESENCE mandatory }
}

DSCH-InformationListIEs-RL-SetupRspTDD ::= SEQUENCE (SIZE(0..maxNoOfDSCHs)) OF DSCHInformationItem-RL-SetupRspTDD

DSCHInformationItem-RL-SetupRspTDD ::= SEQUENCE {
	dsch-ID					DSCH-ID,
	dSCH-FlowControlInformation		DSCH-FlowControlInformation,
	bindingID				BindingID	OPTIONAL,
	transportLayerAddress	TransportLayerAddress	OPTIONAL,
	transportFormatManagement	TransportFormatManagement,
	iE-Extensions			ProtocolExtensionContainer { {DSCHInformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

DSCHInformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

USCH-InformationResponse-RL-SetupRspTDD ::= ProtocolIE-Single-Container {{USCH-InformationList-RL-SetupRspTDD}}

USCH-InformationList-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-USCH-InformationListIEs-RL-SetupRspTDD		CRITICALITY ignore	TYPE USCH-InformationListIEs-RL-SetupRspTDD PRESENCE mandatory }
}

USCH-InformationListIEs-RL-SetupRspTDD ::= SEQUENCE (SIZE(0..maxNoOfUSCHs)) OF USCHInformationItem-RL-SetupRspTDD 

USCHInformationItem-RL-SetupRspTDD ::= SEQUENCE {
	usch-ID						USCH-ID,
	bindingID					BindingID	OPTIONAL,
	transportLayerAddress		TransportLayerAddress	OPTIONAL,
	transportFormatManagement	TransportFormatManagement,
	iE-Extensions				ProtocolExtensionContainer { {USCHInformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

USCHInformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkSetupResponseTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-RL-LCR-InformationResponse-RL-SetupRspTDD	CRITICALITY ignore	EXTENSION RL-LCR-InformationResponse-RL-SetupRspTDD	PRESENCE optional}|
	--Mandatory for 1.28Mcps TDD only
	{ ID id-HSDSCH-RNTI									CRITICALITY ignore	EXTENSION HSDSCH-RNTI					PRESENCE optional}|
	{ ID id-HSDSCH-TDD-Information-Response				CRITICALITY ignore	EXTENSION HSDSCH-TDD-Information-Response		PRESENCE optional}|
	{ ID id-DSCH-RNTI									CRITICALITY ignore	EXTENSION DSCH-RNTI						PRESENCE optional}|
	{ ID id-Active-MBMS-Bearer-ServiceTDD-PFL			CRITICALITY ignore	EXTENSION Active-MBMS-Bearer-Service-ListTDD-PFL	PRESENCE optional}|
	{ ID id-RL-InformationResponse-RL-SetupRspTDD768	CRITICALITY ignore	EXTENSION RL-InformationResponse-RL-SetupRspTDD768	PRESENCE optional}|
	{ ID id-E-DCH-Information-Response					CRITICALITY ignore	EXTENSION E-DCH-Information-Response			PRESENCE optional}|
	{ ID id-E-DCH-768-Information-Response				CRITICALITY ignore	EXTENSION E-DCH-768-Information-Response		PRESENCE optional}|
	{ ID id-E-DCH-LCR-Information-Response				CRITICALITY ignore	EXTENSION E-DCH-LCR-Information-Response		PRESENCE optional}|
	{ ID id-ContinuousPacketConnectivity-DRX-Information-ResponseLCR	CRITICALITY ignore	EXTENSION ContinuousPacketConnectivity-DRX-Information-ResponseLCR		PRESENCE optional}|
	{ ID id-HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR	CRITICALITY ignore	EXTENSION HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR		PRESENCE optional}|
	{ ID id-E-DCH-Semi-PersistentScheduling-Information-ResponseLCR		CRITICALITY ignore	EXTENSION E-DCH-Semi-PersistentScheduling-Information-ResponseLCR		PRESENCE optional}|
	{ ID id-E-RNTI-For-FACH								CRITICALITY ignore	EXTENSION E-RNTI						PRESENCE optional}|
	{ ID id-H-RNTI-For-FACH								CRITICALITY ignore	EXTENSION HSDSCH-RNTI					PRESENCE optional}|
	{ ID id-DCH-MeasurementOccasion-Information			CRITICALITY reject	EXTENSION DCH-MeasurementOccasion-Information	PRESENCE optional}|
	{ ID id-Multi-Carrier-EDCH-Response					CRITICALITY ignore	EXTENSION Multi-Carrier-EDCH-Information-Response	PRESENCE optional}|
	{ ID id-MU-MIMO-InformationLCR						CRITICALITY reject	EXTENSION MU-MIMO-InformationLCR			PRESENCE optional}|
	{ ID id-Non-rectangular-resource-allocation-indicator	CRITICALITY reject	EXTENSION Non-rectangular-resource-allocation-indicator			PRESENCE optional}|
	{ ID id-Non-rectangular-resource-timeslot-set		CRITICALITY reject	EXTENSION Non-rectangular-resource-timeslot-set	PRESENCE optional},
	...
}

RL-LCR-InformationResponse-RL-SetupRspTDD ::= SEQUENCE {
	rL-ID						RL-ID,
	uRA-Information				URA-Information,
	sAI							SAI,
	gA-Cell						GA-Cell		OPTIONAL,
	gA-AccessPointPosition		GA-AccessPointPosition	OPTIONAL,
	ul-TimeSlot-ISCP-LCR-Info	UL-TimeSlot-ISCP-LCR-Info,
	maxUL-SIR					UL-SIR,
	minUL-SIR					UL-SIR,
	maximumAllowedULTxPower		MaximumAllowedULTxPower,
	maximumDLTxPower			DL-Power,
	minimumDLTxPower			DL-Power,
	uARFCNforNt					UARFCN					OPTIONAL,
	cellParameterID				CellParameterID			OPTIONAL,
	sCTD-Indicator				SCTD-Indicator	OPTIONAL,
	pCCPCH-Power				PCCPCH-Power,
	alphaValue					AlphaValue,
	ul-PhysCH-SF-Variation		UL-PhysCH-SF-Variation,
	synchronisationConfiguration			SynchronisationConfiguration,
	secondary-LCR-CCPCH-Info-TDD			Secondary-LCR-CCPCH-Info-TDD					OPTIONAL,
	ul-LCR-CCTrCHInformation				UL-LCR-CCTrCHInformationList-RL-SetupRspTDD		OPTIONAL,
	dl-LCR-CCTrCHInformation				DL-LCR-CCTrCHInformationList-RL-SetupRspTDD		OPTIONAL,
	dCH-InformationResponse					DCH-InformationResponseList-RL-SetupRspTDD	OPTIONAL,
	dsch-LCR-InformationResponse			DSCH-LCR-InformationResponse-RL-SetupRspTDD		OPTIONAL,
	usch-LCR-InformationResponse			USCH-LCR-InformationResponse-RL-SetupRspTDD		OPTIONAL,
	neighbouring-UMTS-CellInformation		Neighbouring-UMTS-CellInformation				OPTIONAL,
	neighbouring-GSM-CellInformation		Neighbouring-GSM-CellInformation				OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { RL-LCR-InformationResponseList-RL-SetupRspTDD-ExtIEs} }	OPTIONAL,
	... 
}

RL-LCR-InformationResponseList-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GA-CellAdditionalShapes					CRITICALITY	ignore	EXTENSION GA-CellAdditionalShapes			PRESENCE optional }|
	{ ID id-HCS-Prio								CRITICALITY	ignore	EXTENSION HCS-Prio							PRESENCE optional }|
	{ ID id-UL-TimingAdvanceCtrl-LCR				CRITICALITY ignore	EXTENSION UL-TimingAdvanceCtrl-LCR			PRESENCE optional }|
	--Mandatory for 1.28Mcps TDD only
	{ ID id-PowerControlGAP							CRITICALITY ignore	EXTENSION ControlGAP				PRESENCE optional }|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-SixtyfourQAM-DL-SupportIndicator		CRITICALITY ignore	EXTENSION SixtyfourQAM-DL-SupportIndicator		PRESENCE optional }|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-Neighbouring-E-UTRA-CellInformation		CRITICALITY ignore	EXTENSION Neighbouring-E-UTRA-CellInformation		PRESENCE optional }|
	{ ID id-IdleIntervalInformation					CRITICALITY ignore	EXTENSION IdleIntervalInformation			PRESENCE optional }|
	{ ID id-Neighbouring-UMTS-CellInformation-Ext	CRITICALITY ignore	EXTENSION Neighbouring-UMTS-CellInformation-Ext		PRESENCE optional },
	...
}

UL-LCR-CCTrCHInformationList-RL-SetupRspTDD ::= ProtocolIE-Single-Container {{UL-LCR-CCTrCHInformationListIEs-RL-SetupRspTDD}}

UL-LCR-CCTrCHInformationListIEs-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-LCR-InformationListIE-RL-SetupRspTDD	CRITICALITY ignore	TYPE UL-LCR-CCTrCHInformationListIE-RL-SetupRspTDD		PRESENCE mandatory }
}

UL-LCR-CCTrCHInformationListIE-RL-SetupRspTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHsLCR)) OF UL-LCR-CCTrCHInformationItem-RL-SetupRspTDD

UL-LCR-CCTrCHInformationItem-RL-SetupRspTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	ul-DPCH-LCR-Information		UL-DPCH-LCR-InformationList-RL-SetupRspTDD		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {UL-LCR-CCTrCHInformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

UL-LCR-CCTrCHInformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-UL-SIR-Target-CCTrCH-LCR-InformationItem-RL-SetupRspTDD		CRITICALITY ignore		EXTENSION UL-SIR		PRESENCE optional},
	...
}

UL-DPCH-LCR-InformationList-RL-SetupRspTDD ::= ProtocolIE-Single-Container { {UL-DPCH-LCR-InformationListIEs-RL-SetupRspTDD} }

UL-DPCH-LCR-InformationListIEs-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-DPCH-LCR-InformationItem-RL-SetupRspTDD		CRITICALITY ignore	TYPE UL-DPCH-LCR-InformationItem-RL-SetupRspTDD	PRESENCE mandatory}
}

UL-DPCH-LCR-InformationItem-RL-SetupRspTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	uL-TimeslotLCR-Information		UL-TimeslotLCR-Information,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-LCR-InformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-LCR-InformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}
DL-LCR-CCTrCHInformationList-RL-SetupRspTDD ::= ProtocolIE-Single-Container {{DL-LCR-CCTrCHInformationListIEs-RL-SetupRspTDD}}

DL-LCR-CCTrCHInformationListIEs-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-LCR-InformationListIE-RL-SetupRspTDD	CRITICALITY ignore	TYPE DL-CCTrCH-LCR-InformationListIE-RL-SetupRspTDD	PRESENCE mandatory}
}

DL-CCTrCH-LCR-InformationListIE-RL-SetupRspTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHsLCR)) OF DL-CCTrCH-LCR-InformationItem-RL-SetupRspTDD

DL-CCTrCH-LCR-InformationItem-RL-SetupRspTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	dl-DPCH-LCR-Information		DL-DPCH-LCR-InformationList-RL-SetupRspTDD		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {DL-CCTrCH-LCR-InformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-LCR-InformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-DPCH-LCR-InformationList-RL-SetupRspTDD ::= ProtocolIE-Single-Container { {DL-DPCH-LCR-InformationListIEs-RL-SetupRspTDD} }

DL-DPCH-LCR-InformationListIEs-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-DPCH-LCR-InformationItem-RL-SetupRspTDD		CRITICALITY ignore	TYPE DL-DPCH-LCR-InformationItem-RL-SetupRspTDD	PRESENCE mandatory}
}

DL-DPCH-LCR-InformationItem-RL-SetupRspTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	dL-Timeslot-LCR-Information		DL-TimeslotLCR-Information,
	tSTD-Indicator					TSTD-Indicator,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-LCR-InformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-LCR-InformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DSCH-LCR-InformationResponse-RL-SetupRspTDD ::= ProtocolIE-Single-Container {{DSCH-LCR-InformationList-RL-SetupRspTDD}}

DSCH-LCR-InformationList-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DSCH-LCR-InformationListIEs-RL-SetupRspTDD		CRITICALITY ignore	TYPE DSCH-LCR-InformationListIEs-RL-SetupRspTDD PRESENCE mandatory }
}

DSCH-LCR-InformationListIEs-RL-SetupRspTDD ::= SEQUENCE (SIZE(0..maxNoOfDSCHsLCR)) OF DSCH-LCR-InformationItem-RL-SetupRspTDD

DSCH-LCR-InformationItem-RL-SetupRspTDD ::= SEQUENCE {
	dsch-ID								DSCH-ID,
	dSCH-FlowControlInformation			DSCH-FlowControlInformation,
	bindingID							BindingID	OPTIONAL,
	transportLayerAddress				TransportLayerAddress	OPTIONAL,
	transportFormatManagement			TransportFormatManagement,
	iE-Extensions						ProtocolExtensionContainer { {DSCH-LCR-InformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

DSCH-LCR-InformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

USCH-LCR-InformationResponse-RL-SetupRspTDD ::= ProtocolIE-Single-Container {{USCH-LCR-InformationList-RL-SetupRspTDD}}

USCH-LCR-InformationList-RL-SetupRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-USCH-LCR-InformationListIEs-RL-SetupRspTDD		CRITICALITY ignore	TYPE USCH-LCR-InformationListIEs-RL-SetupRspTDD PRESENCE mandatory }
}

USCH-LCR-InformationListIEs-RL-SetupRspTDD ::= SEQUENCE (SIZE(0..maxNoOfUSCHsLCR)) OF USCH-LCR-InformationItem-RL-SetupRspTDD 

USCH-LCR-InformationItem-RL-SetupRspTDD ::= SEQUENCE {
	usch-ID						USCH-ID,
	bindingID					BindingID	OPTIONAL,
	transportLayerAddress		TransportLayerAddress	OPTIONAL,
	transportFormatManagement	TransportFormatManagement,
	iE-Extensions				ProtocolExtensionContainer { {USCH-LCR-InformationItem-RL-SetupRspTDD-ExtIEs} } OPTIONAL,
	...
}

USCH-LCR-InformationItem-RL-SetupRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-InformationResponse-RL-SetupRspTDD768 ::= SEQUENCE {
	rL-ID						RL-ID,
	uRA-Information				URA-Information		OPTIONAL,
	sAI							SAI,
	gA-Cell						GA-Cell		OPTIONAL,
	gA-AccessPointPosition		GA-AccessPointPosition	OPTIONAL,
	ul-TimeSlot-ISCP-Info		UL-TimeSlot-ISCP-Info,
	maxUL-SIR					UL-SIR,
	minUL-SIR					UL-SIR,
	maximumAllowedULTxPower		MaximumAllowedULTxPower,
	maximumDLTxPower			DL-Power,
	minimumDLTxPower			DL-Power,
	uARFCNforNt					UARFCN				OPTIONAL,
	cellParameterID				CellParameterID		OPTIONAL,
	syncCase					SyncCase			OPTIONAL,
	sCH-TimeSlot				SCH-TimeSlot		OPTIONAL,
	-- This IE shall be present if Sync Case IE is equal to “Case2”. --
	sCTD-Indicator				SCTD-Indicator	OPTIONAL,
	pCCPCH-Power				PCCPCH-Power,
	timingAdvanceApplied		TimingAdvanceApplied,
	alphaValue					AlphaValue,
	ul-PhysCH-SF-Variation		UL-PhysCH-SF-Variation,
	synchronisationConfiguration		SynchronisationConfiguration,
	secondary-CCPCH-Info-TDD768			Secondary-CCPCH-Info-TDD768		OPTIONAL,
	ul-CCTrCHInformation768				UL-CCTrCHInformationList-RL-SetupRspTDD768		OPTIONAL,
	dl-CCTrCHInformation768				DL-CCTrCHInformationList-RL-SetupRspTDD768		OPTIONAL,
	dCH-InformationResponse				DCH-InformationResponseList-RL-SetupRspTDD	OPTIONAL,
	dsch-InformationResponse			DSCH-InformationResponse-RL-SetupRspTDD OPTIONAL,
	usch-InformationResponse			USCH-InformationResponse-RL-SetupRspTDD OPTIONAL,
	neighbouring-UMTS-CellInformation			Neighbouring-UMTS-CellInformation OPTIONAL,
	neighbouring-GSM-CellInformation			Neighbouring-GSM-CellInformation OPTIONAL,
	gA-CellAdditionalShapes						GA-CellAdditionalShapes		OPTIONAL,
	hCS-Prio							HCS-Prio		OPTIONAL,
	timeSlot-RL-SetupRspTDD				TimeSlot	OPTIONAL,
	-- This IE shall be present if Sync Case IE is Case1. --

	iE-Extensions					ProtocolExtensionContainer { {RL-InformationResponse-RL-SetupRspTDD768-ExtIEs} } OPTIONAL,
	...
}

RL-InformationResponse-RL-SetupRspTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Neighbouring-E-UTRA-CellInformation			CRITICALITY ignore	EXTENSION Neighbouring-E-UTRA-CellInformation	PRESENCE optional }|
	{ ID id-Neighbouring-UMTS-CellInformation-Ext		CRITICALITY ignore	EXTENSION Neighbouring-UMTS-CellInformation-Ext	PRESENCE optional },
	...
}

UL-CCTrCHInformationList-RL-SetupRspTDD768 ::= ProtocolIE-Single-Container {{UL-CCTrCHInformationListIEs-RL-SetupRspTDD768}}

UL-CCTrCHInformationListIEs-RL-SetupRspTDD768 RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-InformationListIE-RL-SetupRspTDD768	CRITICALITY ignore	TYPE UL-CCTrCHInformationListIE-RL-SetupRspTDD768		PRESENCE mandatory}
}

UL-CCTrCHInformationListIE-RL-SetupRspTDD768 ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF UL-CCTrCHInformationItem-RL-SetupRspTDD768

UL-CCTrCHInformationItem-RL-SetupRspTDD768 ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	ul-DPCH-Information768				UL-DPCH-InformationList-RL-SetupRspTDD768		OPTIONAL,
	uL-SIR-Target-CCTrCH-InformationItem-RL-SetupRspTDD768		UL-SIR		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCHInformationItem-RL-SetupRspTDD768-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCHInformationItem-RL-SetupRspTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-DPCH-InformationList-RL-SetupRspTDD768 ::= ProtocolIE-Single-Container { {UL-DPCH-InformationListIEs-RL-SetupRspTDD768} }

UL-DPCH-InformationListIEs-RL-SetupRspTDD768 RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-DPCH-InformationItem-RL-SetupRspTDD768		CRITICALITY ignore	TYPE UL-DPCH-InformationItem-RL-SetupRspTDD768	PRESENCE mandatory}
}

UL-DPCH-InformationItem-RL-SetupRspTDD768 ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	uL-Timeslot-Information768			UL-Timeslot-Information768,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-InformationItem-RL-SetupRspTDD768-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-InformationItem-RL-SetupRspTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCHInformationList-RL-SetupRspTDD768 ::= ProtocolIE-Single-Container {{DL-CCTrCHInformationListIEs-RL-SetupRspTDD768}}

DL-CCTrCHInformationListIEs-RL-SetupRspTDD768 RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationListIE-RL-SetupRspTDD768	CRITICALITY ignore	TYPE DL-CCTrCHInformationListIE-RL-SetupRspTDD768	PRESENCE mandatory}
}

DL-CCTrCHInformationListIE-RL-SetupRspTDD768 ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF DL-CCTrCHInformationItem-RL-SetupRspTDD768

DL-CCTrCHInformationItem-RL-SetupRspTDD768 ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	dl-DPCH-Information768				DL-DPCH-InformationList-RL-SetupRspTDD768		OPTIONAL,
	cCTrCH-Maximum-DL-Power				DL-Power		OPTIONAL, -- this is a DCH type CCTrCH power
	cCTrCH-Minimum-DL-Power				DL-Power		OPTIONAL, -- this is a DCH type CCTrCH power
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCHInformationItem-RL-SetupRspTDD768-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCHInformationItem-RL-SetupRspTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-DPCH-InformationList-RL-SetupRspTDD768 ::= ProtocolIE-Single-Container { {DL-DPCH-InformationListIEs-RL-SetupRspTDD768} }

DL-DPCH-InformationListIEs-RL-SetupRspTDD768 RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-DPCH-InformationItem-RL-SetupRspTDD768		CRITICALITY ignore	TYPE DL-DPCH-InformationItem-RL-SetupRspTDD768	PRESENCE mandatory}
}

DL-DPCH-InformationItem-RL-SetupRspTDD768 ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	dL-Timeslot-Information768		DL-Timeslot-Information768,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-InformationItem-RL-SetupRspTDD768-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-InformationItem-RL-SetupRspTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK SETUP FAILURE FDD
--
-- **************************************************************

RadioLinkSetupFailureFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkSetupFailureFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkSetupFailureFDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkSetupFailureFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-D-RNTI	CRITICALITY ignore	TYPE D-RNTI	PRESENCE optional	} |
	{ ID id-CN-PS-DomainIdentifier	CRITICALITY ignore	TYPE CN-PS-DomainIdentifier	PRESENCE optional	} |
	{ ID id-CN-CS-DomainIdentifier	CRITICALITY ignore	TYPE CN-CS-DomainIdentifier	PRESENCE optional	} |
	{ ID id-CauseLevel-RL-SetupFailureFDD	CRITICALITY ignore	TYPE CauseLevel-RL-SetupFailureFDD	PRESENCE mandatory }|
	{ ID id-UL-SIRTarget	CRITICALITY ignore	TYPE UL-SIR 	PRESENCE optional	} |
	{ ID id-CriticalityDiagnostics	CRITICALITY ignore	TYPE CriticalityDiagnostics	PRESENCE optional	},
	...
}

CauseLevel-RL-SetupFailureFDD ::= CHOICE {
	generalCause		GeneralCauseList-RL-SetupFailureFDD,
	rLSpecificCause		RLSpecificCauseList-RL-SetupFailureFDD,
	...
}

GeneralCauseList-RL-SetupFailureFDD ::= SEQUENCE {
	cause										Cause,
	iE-Extensions								ProtocolExtensionContainer { { GeneralCauseItem-RL-SetupFailureFDD-ExtIEs} }		OPTIONAL,
	...
}

GeneralCauseItem-RL-SetupFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RLSpecificCauseList-RL-SetupFailureFDD ::= SEQUENCE {
	unsuccessful-RL-InformationRespList-RL-SetupFailureFDD		UnsuccessfulRL-InformationResponseList-RL-SetupFailureFDD,
	successful-RL-InformationRespList-RL-SetupFailureFDD		SuccessfulRL-InformationResponseList-RL-SetupFailureFDD	OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { RLSpecificCauseItem-RL-SetupFailureFDD-ExtIEs} }		OPTIONAL,
	...
}

RLSpecificCauseItem-RL-SetupFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HSDSCH-RNTI							CRITICALITY ignore		EXTENSION HSDSCH-RNTI									PRESENCE optional }|
	{ ID id-HSDSCH-FDD-Information-Response		CRITICALITY ignore		EXTENSION HSDSCH-FDD-Information-Response		PRESENCE optional }|
	{ ID id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response		CRITICALITY ignore		EXTENSION Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response		PRESENCE optional }|
	{ ID id-SixtyfourQAM-DL-SupportIndicator	CRITICALITY ignore		EXTENSION SixtyfourQAM-DL-SupportIndicator		PRESENCE optional }|
	{ ID id-Additional-HS-Cell-Information-Response	CRITICALITY ignore		EXTENSION Additional-HS-Cell-Information-Response-List		PRESENCE optional }|
	{ ID id-Additional-EDCH-Cell-Information-Response		CRITICALITY ignore	EXTENSION	Additional-EDCH-Cell-Information-Response-List			PRESENCE optional},
	...
}

UnsuccessfulRL-InformationResponseList-RL-SetupFailureFDD ::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {UnsuccessfulRL-InformationResponse-RL-SetupFailureFDD-IEs} }

UnsuccessfulRL-InformationResponse-RL-SetupFailureFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UnsuccessfulRL-InformationResponse-RL-SetupFailureFDD		CRITICALITY ignore	TYPE UnsuccessfulRL-InformationResponse-RL-SetupFailureFDD		PRESENCE mandatory	}
}

UnsuccessfulRL-InformationResponse-RL-SetupFailureFDD ::= SEQUENCE {
	rL-ID						RL-ID,
	cause						Cause,
	iE-Extensions					ProtocolExtensionContainer { {UnsuccessfulRL-InformationResponse-RL-SetupFailureFDD-ExtIEs} } OPTIONAL,
	...
}

UnsuccessfulRL-InformationResponse-RL-SetupFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Max-UE-DTX-Cycle		CRITICALITY ignore		EXTENSION Max-UE-DTX-Cycle				PRESENCE conditional },
	-- This IE shall be present if the Cause IE is set to “Continuous Packet Connectivity UE DTX Cycle not Available”.
	...
}

SuccessfulRL-InformationResponseList-RL-SetupFailureFDD ::= SEQUENCE (SIZE (0..maxNrOfRLs-1)) OF ProtocolIE-Single-Container { {SuccessfulRL-InformationResponse-RL-SetupFailureFDD-IEs} }

SuccessfulRL-InformationResponse-RL-SetupFailureFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-SuccessfulRL-InformationResponse-RL-SetupFailureFDD		CRITICALITY ignore	TYPE SuccessfulRL-InformationResponse-RL-SetupFailureFDD		PRESENCE mandatory	}
}

SuccessfulRL-InformationResponse-RL-SetupFailureFDD ::= SEQUENCE {
	rL-ID									RL-ID,
	rL-Set-ID								RL-Set-ID,
	uRA-Information							URA-Information						OPTIONAL,
	sAI										SAI,
	gA-Cell									GA-Cell		OPTIONAL,
	gA-AccessPointPosition					GA-AccessPointPosition				OPTIONAL,
	received-total-wide-band-power			Received-total-wide-band-power,
	not-Used-secondary-CCPCH-Info					NULL				OPTIONAL,
	dl-CodeInformation						FDD-DL-CodeInformation,
	diversityIndication						DiversityIndication-RL-SetupFailureFDD, 
	sSDT-SupportIndicator					SSDT-SupportIndicator,
	maxUL-SIR								UL-SIR,
	minUL-SIR								UL-SIR,
	closedlooptimingadjustmentmode			Closedlooptimingadjustmentmode		OPTIONAL,
	maximumAllowedULTxPower					MaximumAllowedULTxPower,
	maximumDLTxPower						DL-Power,
	minimumDLTxPower						DL-Power,
	primaryCPICH-Power						PrimaryCPICH-Power,
	primaryScramblingCode					PrimaryScramblingCode				OPTIONAL,
	uL-UARFCN								UARFCN								OPTIONAL,
	dL-UARFCN								UARFCN								OPTIONAL,
	not-Used-dSCH-InformationResponse-RL-SetupFailureFDD	NULL				OPTIONAL,
	neighbouring-UMTS-CellInformation		Neighbouring-UMTS-CellInformation	OPTIONAL,
	neighbouring-GSM-CellInformation		Neighbouring-GSM-CellInformation	OPTIONAL,
	pC-Preamble								PC-Preamble,
	sRB-Delay								SRB-Delay,
	iE-Extensions							ProtocolExtensionContainer { {SuccessfulRL-InformationResponse-RL-SetupFailureFDD-ExtIEs} } OPTIONAL,
	...
}

SuccessfulRL-InformationResponse-RL-SetupFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GA-CellAdditionalShapes						CRITICALITY ignore	EXTENSION GA-CellAdditionalShapes			PRESENCE optional }|
	{ ID id-DL-PowerBalancing-ActivationIndicator		CRITICALITY ignore	EXTENSION DL-PowerBalancing-ActivationIndicator	PRESENCE optional }|
	{ ID id-HCS-Prio									CRITICALITY ignore	EXTENSION HCS-Prio						PRESENCE optional }|
	{ ID id-Primary-CPICH-Usage-For-Channel-Estimation	CRITICALITY ignore	EXTENSION Primary-CPICH-Usage-For-Channel-Estimation	PRESENCE optional }|
	{ ID id-Secondary-CPICH-Information					CRITICALITY ignore	EXTENSION Secondary-CPICH-Information		PRESENCE optional }|
	{ ID id-Active-MBMS-Bearer-ServiceFDD-PFL			CRITICALITY ignore	EXTENSION Active-MBMS-Bearer-Service-ListFDD-PFL	PRESENCE optional }|
	{ ID id-EDCH-RLSet-Id								CRITICALITY ignore	EXTENSION RL-Set-ID						PRESENCE optional }|
	{ ID id-EDCH-FDD-DL-ControlChannelInformation		CRITICALITY ignore	EXTENSION EDCH-FDD-DL-ControlChannelInformation	PRESENCE optional }|
	{ ID id-Initial-DL-DPCH-TimingAdjustment			CRITICALITY ignore	EXTENSION DL-DPCH-TimingAdjustment			PRESENCE optional }|
	{ ID id-Neighbouring-E-UTRA-CellInformation			CRITICALITY ignore	EXTENSION Neighbouring-E-UTRA-CellInformation	PRESENCE optional }|
	{ ID id-HSDSCH-PreconfigurationInfo					CRITICALITY ignore	EXTENSION HSDSCH-PreconfigurationInfo		PRESENCE optional }|
	{ ID id-F-DPCH-SlotFormat							CRITICALITY ignore	EXTENSION F-DPCH-SlotFormat				PRESENCE optional }|
	{ ID id-Non-Serving-RL-Preconfig-Info				CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Info		PRESENCE optional }|
	{ ID id-Neighbouring-UMTS-CellInformation-Ext		CRITICALITY ignore	EXTENSION Neighbouring-UMTS-CellInformation-Ext	PRESENCE optional },
	...
}

DiversityIndication-RL-SetupFailureFDD ::= CHOICE {
	combining						Combining-RL-SetupFailureFDD,
	nonCombiningOrFirstRL		NonCombiningOrFirstRL-RL-SetupFailureFDD
}

Combining-RL-SetupFailureFDD ::= SEQUENCE {
	rL-ID						RL-ID,
	iE-Extensions				ProtocolExtensionContainer { { CombiningItem-RL-SetupFailureFDD-ExtIEs} } OPTIONAL,
	...
}

CombiningItem-RL-SetupFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DCH-InformationResponse			CRITICALITY ignore	EXTENSION DCH-InformationResponse			PRESENCE optional	}|
	{ ID id-EDCH-FDD-InformationResponse	CRITICALITY ignore	EXTENSION EDCH-FDD-InformationResponse			PRESENCE optional	},
	...
}

NonCombiningOrFirstRL-RL-SetupFailureFDD ::= SEQUENCE {
	dCH-InformationResponse					DCH-InformationResponse,
	iE-Extensions							ProtocolExtensionContainer { { NonCombiningOrFirstRLItem-RL-SetupFailureFDD-ExtIEs} } OPTIONAL,
	...
}

NonCombiningOrFirstRLItem-RL-SetupFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-EDCH-FDD-InformationResponse	CRITICALITY ignore	EXTENSION EDCH-FDD-InformationResponse			PRESENCE optional	},
	...
}

RadioLinkSetupFailureFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK SETUP FAILURE TDD
--
-- **************************************************************

RadioLinkSetupFailureTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkSetupFailureTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkSetupFailureTDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkSetupFailureTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-CauseLevel-RL-SetupFailureTDD	CRITICALITY ignore	TYPE CauseLevel-RL-SetupFailureTDD		PRESENCE mandatory }|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics					PRESENCE optional	},
	...
}

CauseLevel-RL-SetupFailureTDD ::= CHOICE {
	generalCause		GeneralCauseList-RL-SetupFailureTDD,
	rLSpecificCause		RLSpecificCauseList-RL-SetupFailureTDD,
	...
}

GeneralCauseList-RL-SetupFailureTDD ::= SEQUENCE {
	cause						Cause,
	iE-Extensions				ProtocolExtensionContainer { { GeneralCauseItem-RL-SetupFailureTDD-ExtIEs} }		OPTIONAL,
	...
}

GeneralCauseItem-RL-SetupFailureTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RLSpecificCauseList-RL-SetupFailureTDD ::= SEQUENCE {
	unsuccessful-RL-InformationRespItem-RL-SetupFailureTDD	Unsuccessful-RL-InformationRespItem-RL-SetupFailureTDD,
	iE-Extensions											ProtocolExtensionContainer { { RLSpecificCauseItem-RL-SetupFailureTDD-ExtIEs} }		OPTIONAL,
	...
}

RLSpecificCauseItem-RL-SetupFailureTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-SixtyfourQAM-DL-SupportIndicator	CRITICALITY ignore		EXTENSION SixtyfourQAM-DL-SupportIndicator		PRESENCE optional },
	...
}

Unsuccessful-RL-InformationRespItem-RL-SetupFailureTDD ::= ProtocolIE-Single-Container { {Unsuccessful-RL-InformationRespItemIE-RL-SetupFailureTDD} }

Unsuccessful-RL-InformationRespItemIE-RL-SetupFailureTDD RNSAP-PROTOCOL-IES ::= {
	{ ID	id-UnsuccessfulRL-InformationResponse-RL-SetupFailureTDD		CRITICALITY	ignore 		TYPE 	UnsuccessfulRL-InformationResponse-RL-SetupFailureTDD		PRESENCE	mandatory	}
}

UnsuccessfulRL-InformationResponse-RL-SetupFailureTDD ::= SEQUENCE {
	rL-ID						RL-ID,
	cause						Cause,
	iE-Extensions				ProtocolExtensionContainer { {UnsuccessfulRL-InformationResponse-RL-SetupFailureTDD-ExtIEs} } OPTIONAL,
	...
}

UnsuccessfulRL-InformationResponse-RL-SetupFailureTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkSetupFailureTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK ADDITION REQUEST FDD
--
-- **************************************************************

RadioLinkAdditionRequestFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkAdditionRequestFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkAdditionRequestFDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkAdditionRequestFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-SIRTarget				CRITICALITY reject	TYPE UL-SIR					PRESENCE mandatory	} |
	{ ID id-RL-InformationList-RL-AdditionRqstFDD	CRITICALITY notify	TYPE RL-InformationList-RL-AdditionRqstFDD	PRESENCE mandatory	}|
	{ ID id-Active-Pattern-Sequence-Information	CRITICALITY reject	TYPE Active-Pattern-Sequence-Information	 PRESENCE optional },
	...
}

RL-InformationList-RL-AdditionRqstFDD			::= SEQUENCE (SIZE (1..maxNrOfRLs-1)) OF ProtocolIE-Single-Container { {RL-Information-RL-AdditionRqstFDD-IEs} }

RL-Information-RL-AdditionRqstFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Information-RL-AdditionRqstFDD	CRITICALITY notify	TYPE RL-Information-RL-AdditionRqstFDD		PRESENCE mandatory	}
}

RL-Information-RL-AdditionRqstFDD ::= SEQUENCE {
	rL-ID							RL-ID,
	c-ID							C-ID,
	frameOffset						FrameOffset,
	chipOffset						ChipOffset,
	diversityControlField			DiversityControlField,
	primaryCPICH-EcNo				PrimaryCPICH-EcNo		OPTIONAL,
	not-Used-sSDT-CellID			NULL			OPTIONAL,
	transmitDiversityIndicator		TransmitDiversityIndicator		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {RL-Information-RL-AdditionRqstFDD-ExtIEs} } OPTIONAL,
	...
}

RL-Information-RL-AdditionRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DLReferencePower						CRITICALITY ignore	EXTENSION DL-Power							PRESENCE optional }|
	{ ID id-Enhanced-PrimaryCPICH-EcNo				CRITICALITY ignore	EXTENSION Enhanced-PrimaryCPICH-EcNo			PRESENCE optional }|
	{ ID id-RL-Specific-DCH-Info					CRITICALITY ignore	EXTENSION RL-Specific-DCH-Info				PRESENCE optional }|
	{ ID id-DelayedActivation 						CRITICALITY reject	EXTENSION DelayedActivation				PRESENCE optional }|
	{ ID id-RL-Specific-EDCH-Information			CRITICALITY reject	EXTENSION RL-Specific-EDCH-Information			PRESENCE optional }|
	{ ID id-EDCH-RL-Indication						CRITICALITY reject	EXTENSION EDCH-RL-Indication				PRESENCE optional }|
	{ ID id-SynchronisationIndicator				CRITICALITY ignore	EXTENSION SynchronisationIndicator			PRESENCE optional }|
	{ ID id-HSDSCH-PreconfigurationSetup			CRITICALITY ignore	EXTENSION HSDSCH-PreconfigurationSetup			PRESENCE optional }|
	{ ID id-Non-Serving-RL-Preconfig-Setup			CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Setup			PRESENCE optional }|
	{ ID id-FTPICH-Information						CRITICALITY ignore	EXTENSION FTPICH-Information				PRESENCE optional }|
	{ ID id-TPC-slot-position						CRITICALITY ignore	EXTENSION TPC-slot-position				PRESENCE optional},
	...
}

RadioLinkAdditionRequestFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DPC-Mode									CRITICALITY reject	EXTENSION DPC-Mode						PRESENCE optional}|
	{ ID id-Permanent-NAS-UE-Identity					CRITICALITY ignore	EXTENSION Permanent-NAS-UE-Identity			PRESENCE optional}|
	{ ID id-Serving-EDCHRL-Id							CRITICALITY reject	EXTENSION EDCH-Serving-RL				PRESENCE optional}|
	{ ID id-Initial-DL-DPCH-TimingAdjustment-Allowed	CRITICALITY ignore	EXTENSION Initial-DL-DPCH-TimingAdjustment-Allowed	PRESENCE optional}|
	{ ID id-HS-DSCH-serving-cell-change-information		CRITICALITY reject	EXTENSION HS-DSCH-serving-cell-change-information	PRESENCE optional}|
	{ ID id-Serving-cell-change-CFN						CRITICALITY reject	EXTENSION CFN							PRESENCE optional}|
	{ ID id-EDPCH-Information							CRITICALITY reject	EXTENSION EDPCH-Information-RLAdditionReq-FDD	PRESENCE optional}|
	{ ID id-EDCH-FDD-Information						CRITICALITY reject	EXTENSION EDCH-FDD-Information			PRESENCE optional}|
	{ ID id-Additional-HS-Cell-Information-RL-Addition	CRITICALITY reject	EXTENSION Additional-HS-Cell-Information-RL-Addition-List	PRESENCE optional}|
	-- This IE shall be present if E-DPCH Information is present
	{ ID id-UE-AggregateMaximumBitRate					CRITICALITY ignore	EXTENSION UE-AggregateMaximumBitRate			PRESENCE optional}|
	{ ID id-Additional-EDCH-Cell-Information-RL-Add-Req	CRITICALITY reject	EXTENSION Additional-EDCH-Cell-Information-RL-Add-Req	PRESENCE optional}|
	{ ID id-UL-CLTD-Information							CRITICALITY reject	EXTENSION UL-CLTD-Information			PRESENCE optional}|
	{ ID id-E-DCH-Decoupling-Indication					CRITICALITY reject	EXTENSION E-DCH-Decoupling-Indication		PRESENCE optional}|
	{ ID id-Radio-Links-without-DPCH-FDPCH-Indication	CRITICALITY reject	EXTENSION Radio-Links-without-DPCH-FDPCH-Indication	PRESENCE optional}|
	{ ID id-UL-DPCCH2-Information						CRITICALITY reject	EXTENSION UL-DPCCH2-Information			PRESENCE optional}|
	{ ID id-Downlink-TPC-enhancements-Information		CRITICALITY reject	EXTENSION Downlink-TPC-enhancements-Information	PRESENCE optional},
	...
}

Additional-HS-Cell-Information-RL-Addition-List	::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF Additional-HS-Cell-Information-RL-Addition-ItemIEs


Additional-HS-Cell-Information-RL-Addition-ItemIEs	::=SEQUENCE{
	hSPDSCH-RL-ID								RL-ID,
	c-ID										C-ID,
	hS-DSCH-FDD-Secondary-Serving-Information	HS-DSCH-FDD-Secondary-Serving-Information,
	iE-Extensions					ProtocolExtensionContainer { { Additional-HS-Cell-Information-RL-Addition-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-HS-Cell-Information-RL-Addition-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-Cell-Information-RL-Add-Req	::=SEQUENCE{
	setup-Or-Addition-Of-EDCH-On-secondary-UL-Frequency							Setup-Or-Addition-Of-EDCH-On-secondary-UL-Frequency,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-Cell-Information-RL-Add-Req-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-Cell-Information-RL-Add-Req-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Setup-Or-Addition-Of-EDCH-On-secondary-UL-Frequency::= CHOICE {
	setup			Additional-EDCH-Setup-Info,
	addition		Additional-EDCH-Cell-Information-To-Add-List,
	...
}

EDPCH-Information-RLAdditionReq-FDD::= SEQUENCE {
	maxSet-E-DPDCHs								Max-Set-E-DPDCHs,
	ul-PunctureLimit							PunctureLimit,
	e-TFCS-Information							E-TFCS-Information,
	e-TTI										E-TTI,
	e-DPCCH-PO									E-DPCCH-PO,
	e-RGCH-2-IndexStepThreshold					E-RGCH-2-IndexStepThreshold,
	e-RGCH-3-IndexStepThreshold					E-RGCH-3-IndexStepThreshold,
	hARQ-Info-for-E-DCH							HARQ-Info-for-E-DCH,
	iE-Extensions								ProtocolExtensionContainer { { EDPCH-Information-RLAdditionReq-FDD-ExtIEs} }		OPTIONAL,
	...
}

EDPCH-Information-RLAdditionReq-FDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-HSDSCH-Configured-Indicator		CRITICALITY	reject	EXTENSION	HSDSCH-Configured-Indicator	PRESENCE mandatory}|
-- This shall be present for EDPCH configuration with HSDCH
{ ID id-MinimumReducedE-DPDCH-GainFactor		CRITICALITY ignore	EXTENSION MinimumReducedE-DPDCH-GainFactor	PRESENCE optional },
	...
}

-- **************************************************************
--
-- RADIO LINK ADDITION REQUEST TDD
--
-- **************************************************************

RadioLinkAdditionRequestTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkAdditionRequestTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkAdditionRequestTDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkAdditionRequestTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Information-RL-AdditionRqstTDD	CRITICALITY reject	TYPE RL-Information-RL-AdditionRqstTDD		PRESENCE mandatory	},
	...
}

RL-Information-RL-AdditionRqstTDD ::= SEQUENCE {
	rL-ID							RL-ID,
	c-ID							C-ID,
	frameOffset						FrameOffset,
	diversityControlField			DiversityControlField,
	primaryCCPCH-RSCP				PrimaryCCPCH-RSCP		OPTIONAL,
	dL-TimeSlot-ISCP-Info			DL-TimeSlot-ISCP-Info	OPTIONAL,
	--for 3.84Mcps TDD only
	iE-Extensions					ProtocolExtensionContainer { {RL-Information-RL-AdditionRqstTDD-ExtIEs} } OPTIONAL,
	...
}

RL-Information-RL-AdditionRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DL-Timeslot-ISCP-LCR-Information-RL-AdditionRqstTDD	CRITICALITY reject	EXTENSION DL-TimeSlot-ISCP-LCR-Information		PRESENCE optional }|
	--for 1.28Mcps TDD only
	{ ID id-RL-Specific-DCH-Info	CRITICALITY ignore	EXTENSION RL-Specific-DCH-Info	PRESENCE optional }|
	{ ID id-DelayedActivation	CRITICALITY reject	EXTENSION DelayedActivation	PRESENCE optional }|
	{ ID id-UL-Synchronisation-Parameters-LCR	CRITICALITY reject	EXTENSION UL-Synchronisation-Parameters-LCR	PRESENCE optional }|
	-- Mandatory for 1.28Mcps TDD, Not Applicable to 3.84Mcps TDD or 7.68Mcps TDD
	{ ID id-PrimaryCCPCH-RSCP-Delta	CRITICALITY ignore	EXTENSION PrimaryCCPCH-RSCP-Delta	PRESENCE optional }|
	{ ID id-IdleIntervalConfigurationIndicator	CRITICALITY ignore	EXTENSION NULL	PRESENCE optional },
	...
}

RadioLinkAdditionRequestTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Permanent-NAS-UE-Identity						CRITICALITY ignore	EXTENSION Permanent-NAS-UE-Identity	PRESENCE optional}|
	{ ID id-UL-CCTrCH-InformationList-RL-AdditionRqstTDD	CRITICALITY notify	EXTENSION UL-CCTrCH-InformationList-RL-AdditionRqstTDD	PRESENCE optional}|
	{ ID id-DL-CCTrCH-InformationList-RL-AdditionRqstTDD	CRITICALITY notify	EXTENSION DL-CCTrCH-InformationList-RL-AdditionRqstTDD 	PRESENCE optional}|
	{ ID id-HSDSCH-TDD-Information							CRITICALITY reject	EXTENSION HSDSCH-TDD-Information		PRESENCE optional}|
	{ ID id-HSPDSCH-RL-ID									CRITICALITY reject	EXTENSION RL-ID					PRESENCE optional}|
	{ ID id-E-DCH-Information								CRITICALITY reject	EXTENSION E-DCH-Information		PRESENCE optional}|
	{ ID id-E-DCH-Serving-RL-ID								CRITICALITY reject	EXTENSION RL-ID			PRESENCE optional}|
	{ ID id-E-DCH-768-Information							CRITICALITY reject	EXTENSION E-DCH-768-Information		PRESENCE optional}|
	{ ID id-E-DCH-LCR-Information							CRITICALITY reject	EXTENSION E-DCH-LCR-Information		PRESENCE optional}|
	{ ID id-ContinuousPacketConnectivity-DRX-InformationLCR		CRITICALITY reject	EXTENSION ContinuousPacketConnectivity-DRX-InformationLCR	PRESENCE optional}|
	{ ID id-HS-DSCH-Semi-PersistentScheduling-Information-LCR	CRITICALITY reject	EXTENSION HS-DSCH-Semi-PersistentScheduling-Information-LCR	PRESENCE optional}|
	{ ID id-E-DCH-Semi-PersistentScheduling-Information-LCR		CRITICALITY reject	EXTENSION E-DCH-Semi-PersistentScheduling-Information-LCR	PRESENCE optional}|
	{ ID id-DCH-MeasurementType-Indicator					CRITICALITY reject	EXTENSION DCH-MeasurementType-Indicator	PRESENCE optional}|
	{ ID id-Multi-Carrier-EDCH-Setup						CRITICALITY reject	EXTENSION Multi-Carrier-EDCH-Info	PRESENCE optional}|
	{ ID id-MU-MIMO-Indicator								CRITICALITY reject	EXTENSION MU-MIMO-Indicator		PRESENCE optional}|
	{ ID id-UE-Support-of-non-rectangular-resource-allocation	CRITICALITY ignore	EXTENSION UE-Support-of-non-rectangular-resource-allocation		PRESENCE optional},
	...
}

UL-CCTrCH-InformationList-RL-AdditionRqstTDD	::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {UL-CCTrCH-InformationItemIEs-RL-AdditionRqstTDD} }

UL-CCTrCH-InformationItemIEs-RL-AdditionRqstTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-InformationItem-RL-AdditionRqstTDD	CRITICALITY notify	TYPE UL-CCTrCH-InformationItem-RL-AdditionRqstTDD 	PRESENCE optional},
	...
}

UL-CCTrCH-InformationItem-RL-AdditionRqstTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	uplinkStepSizeLCR			TDD-TPC-UplinkStepSize-LCR	OPTIONAL, 
	-- Applicable to 1.28Mcps TDD only
	iE-Extensions				ProtocolExtensionContainer { {UL-CCTrCH-InformationItem-RL-AdditionRqstTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCH-InformationItem-RL-AdditionRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCH-InformationList-RL-AdditionRqstTDD	::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {DL-CCTrCH-InformationItemIEs-RL-AdditionRqstTDD} }

DL-CCTrCH-InformationItemIEs-RL-AdditionRqstTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationItem-RL-AdditionRqstTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationItem-RL-AdditionRqstTDD	PRESENCE optional},
	...
}

DL-CCTrCH-InformationItem-RL-AdditionRqstTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	downlinkStepSize			TDD-TPC-DownlinkStepSize	OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {DL-CCTrCH-InformationItem-RL-AdditionRqstTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-InformationItem-RL-AdditionRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK ADDITION RESPONSE FDD
--
-- **************************************************************

RadioLinkAdditionResponseFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkAdditionResponseFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkAdditionResponseFDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkAdditionResponseFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationResponseList-RL-AdditionRspFDD	CRITICALITY ignore	TYPE RL-InformationResponseList-RL-AdditionRspFDD 		PRESENCE mandatory	} |
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

RL-InformationResponseList-RL-AdditionRspFDD 		::= SEQUENCE (SIZE (1..maxNrOfRLs-1)) OF ProtocolIE-Single-Container { {RL-InformationResponseItemIEs-RL-AdditionRspFDD} }

RL-InformationResponseItemIEs-RL-AdditionRspFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationResponseItem-RL-AdditionRspFDD		CRITICALITY ignore	TYPE RL-InformationResponseItem-RL-AdditionRspFDD 	PRESENCE mandatory	}
}

RL-InformationResponseItem-RL-AdditionRspFDD ::= SEQUENCE {
	rL-ID							RL-ID,
	rL-Set-ID						RL-Set-ID,
	uRA-Information					URA-Information		OPTIONAL,
	sAI								SAI,
	gA-Cell							GA-Cell		OPTIONAL,
	gA-AccessPointPosition			GA-AccessPointPosition	OPTIONAL,
	received-total-wide-band-power	Received-total-wide-band-power,
	not-Used-secondary-CCPCH-Info			NULL		OPTIONAL,
	dl-CodeInformation				DL-CodeInformationList-RL-AdditionRspFDD,
	diversityIndication				DiversityIndication-RL-AdditionRspFDD, 

	sSDT-SupportIndicator				SSDT-SupportIndicator,
	minUL-SIR							UL-SIR,
	maxUL-SIR							UL-SIR,
	closedlooptimingadjustmentmode		Closedlooptimingadjustmentmode	OPTIONAL,
	maximumAllowedULTxPower				MaximumAllowedULTxPower,
	maximumDLTxPower					DL-Power,
	minimumDLTxPower					DL-Power,
	neighbouring-UMTS-CellInformation	Neighbouring-UMTS-CellInformation	OPTIONAL,
	neighbouring-GSM-CellInformation	Neighbouring-GSM-CellInformation OPTIONAL,
	pC-Preamble							PC-Preamble,
	sRB-Delay							SRB-Delay,
	primaryCPICH-Power					PrimaryCPICH-Power,
	iE-Extensions						ProtocolExtensionContainer { {RL-InformationResponseItem-RL-AdditionRspFDD-ExtIEs} } OPTIONAL,
	...
}

RL-InformationResponseItem-RL-AdditionRspFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GA-CellAdditionalShapes					CRITICALITY ignore	EXTENSION GA-CellAdditionalShapes			PRESENCE optional }|
	{ ID id-DL-PowerBalancing-ActivationIndicator	CRITICALITY ignore	EXTENSION DL-PowerBalancing-ActivationIndicator		PRESENCE optional }|
	{ ID id-HCS-Prio								CRITICALITY ignore	EXTENSION HCS-Prio							PRESENCE optional }|
	{ ID id-Active-MBMS-Bearer-ServiceFDD-PFL		CRITICALITY ignore	EXTENSION Active-MBMS-Bearer-Service-ListFDD-PFL	PRESENCE optional }|
	{ ID id-EDCH-RLSet-Id							CRITICALITY ignore	EXTENSION RL-Set-ID							PRESENCE optional }|
	{ ID id-EDCH-FDD-DL-ControlChannelInformation	CRITICALITY ignore	EXTENSION EDCH-FDD-DL-ControlChannelInformation		PRESENCE optional }|
	{ ID id-Initial-DL-DPCH-TimingAdjustment		CRITICALITY ignore	EXTENSION DL-DPCH-TimingAdjustment			PRESENCE optional }|
	{ ID id-F-DPCH-SlotFormat						CRITICALITY ignore	EXTENSION F-DPCH-SlotFormat				PRESENCE optional }|
	{ ID id-Neighbouring-E-UTRA-CellInformation		CRITICALITY ignore	EXTENSION Neighbouring-E-UTRA-CellInformation		PRESENCE optional }|
	{ ID id-HSDSCH-PreconfigurationInfo				CRITICALITY ignore	EXTENSION HSDSCH-PreconfigurationInfo			PRESENCE optional }|
	{ ID id-Non-Serving-RL-Preconfig-Info			CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Info			PRESENCE optional }|
	{ ID id-Neighbouring-UMTS-CellInformation-Ext	CRITICALITY ignore	EXTENSION Neighbouring-UMTS-CellInformation-Ext		PRESENCE optional }|
	{ ID id-FTPICH-Information-Response				CRITICALITY ignore	EXTENSION FTPICH-Information-Response			PRESENCE optional },
	...
}

DL-CodeInformationList-RL-AdditionRspFDD ::= ProtocolIE-Single-Container {{ DL-CodeInformationListIEs-RL-AdditionRspFDD }}

DL-CodeInformationListIEs-RL-AdditionRspFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-FDD-DL-CodeInformation	CRITICALITY ignore	TYPE FDD-DL-CodeInformation		PRESENCE mandatory }
}

DiversityIndication-RL-AdditionRspFDD ::= CHOICE {
	combining						Combining-RL-AdditionRspFDD,
	nonCombining					NonCombining-RL-AdditionRspFDD
}

Combining-RL-AdditionRspFDD ::= SEQUENCE {
	rL-ID						RL-ID,
	iE-Extensions				ProtocolExtensionContainer { { CombiningItem-RL-AdditionRspFDD-ExtIEs} } OPTIONAL,
	...
}

CombiningItem-RL-AdditionRspFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DCH-InformationResponse			CRITICALITY ignore	EXTENSION DCH-InformationResponse			PRESENCE optional	}|
	{ ID id-EDCH-FDD-InformationResponse	CRITICALITY ignore	EXTENSION EDCH-FDD-InformationResponse			PRESENCE optional	},
	...
}

NonCombining-RL-AdditionRspFDD ::= SEQUENCE {
	dCH-InformationResponse					DCH-InformationResponse,
	iE-Extensions								ProtocolExtensionContainer { { NonCombiningItem-RL-AdditionRspFDD-ExtIEs} } OPTIONAL,
	...
}

NonCombiningItem-RL-AdditionRspFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-EDCH-FDD-InformationResponse	CRITICALITY ignore	EXTENSION EDCH-FDD-InformationResponse			PRESENCE optional	},
	...
}

RadioLinkAdditionResponseFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HS-DSCH-serving-cell-change-informationResponse	CRITICALITY ignore	EXTENSION HS-DSCH-serving-cell-change-informationResponse			PRESENCE optional}|
	{ ID id-E-DCH-Serving-cell-change-informationResponse	CRITICALITY ignore	EXTENSION E-DCH-Serving-cell-change-informationResponse				PRESENCE optional}|
	{ ID id-MAChs-ResetIndicator							CRITICALITY ignore	EXTENSION MAChs-ResetIndicator												PRESENCE optional}|
	{ ID id-Additional-HS-Cell-Change-Information-Response	CRITICALITY ignore	EXTENSION Additional-HS-Cell-Change-Information-Response-List		PRESENCE optional}|
	{ ID id-Additional-EDCH-Cell-Information-Response-RLAdd	CRITICALITY ignore	EXTENSION Additional-EDCH-Cell-Information-Response-RLAddList	PRESENCE optional },
	...
}

Additional-HS-Cell-Change-Information-Response-List	::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF Additional-HS-Cell-Change-Information-Response-ItemIEs



Additional-HS-Cell-Change-Information-Response-ItemIEs	::=SEQUENCE{
	hSPDSCH-RL-ID												RL-ID,
	hSDSCH-RNTI													HSDSCH-RNTI,
	hS-DSCH-Secondary-Serving-Cell-Change-Information-Response	HS-DSCH-Secondary-Serving-Cell-Change-Information-Response,
	iE-Extensions					ProtocolExtensionContainer { { Additional-HS-Cell-Change-Information-Response-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-HS-Cell-Change-Information-Response-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


-- **************************************************************
--
-- RADIO LINK ADDITION RESPONSE TDD
--
-- **************************************************************

RadioLinkAdditionResponseTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkAdditionResponseTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkAdditionResponseTDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkAdditionResponseTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationResponse-RL-AdditionRspTDD		CRITICALITY ignore	TYPE RL-InformationResponse-RL-AdditionRspTDD 	PRESENCE optional	} |
	--Mandatory for 3.84Mcps TDD only
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

RL-InformationResponse-RL-AdditionRspTDD ::= SEQUENCE {
	rL-ID								RL-ID,
	uRA-Information						URA-Information		OPTIONAL,
	sAI									SAI,
	gA-Cell								GA-Cell		OPTIONAL,
	gA-AccessPointPosition				GA-AccessPointPosition	OPTIONAL,
	ul-TimeSlot-ISCP-Info				UL-TimeSlot-ISCP-Info,
	minUL-SIR							UL-SIR,
	maxUL-SIR							UL-SIR,
	maximumAllowedULTxPower				MaximumAllowedULTxPower,
	maximumDLTxPower					DL-Power,
	minimumDLTxPower					DL-Power,
	pCCPCH-Power						PCCPCH-Power,
	timingAdvanceApplied				TimingAdvanceApplied,
	alphaValue							AlphaValue,
	ul-PhysCH-SF-Variation				UL-PhysCH-SF-Variation,
	synchronisationConfiguration		SynchronisationConfiguration,
	secondary-CCPCH-Info-TDD			Secondary-CCPCH-Info-TDD						OPTIONAL,
	ul-CCTrCHInformation				UL-CCTrCHInformationList-RL-AdditionRspTDD		OPTIONAL,
	dl-CCTrCHInformation				DL-CCTrCHInformationList-RL-AdditionRspTDD		OPTIONAL,
	dCH-Information						DCH-Information-RL-AdditionRspTDD				OPTIONAL,
	dSCH-InformationResponse			DSCH-InformationResponse-RL-AdditionRspTDD		OPTIONAL,
	uSCH-InformationResponse			USCH-InformationResponse-RL-AdditionRspTDD		OPTIONAL,
	neighbouring-UMTS-CellInformation	Neighbouring-UMTS-CellInformation 	OPTIONAL,
	neighbouring-GSM-CellInformation	Neighbouring-GSM-CellInformation OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { {RL-InformationResponse-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

RL-InformationResponse-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GA-CellAdditionalShapes					CRITICALITY ignore	EXTENSION GA-CellAdditionalShapes			PRESENCE optional }|
	{ ID id-HCS-Prio								CRITICALITY ignore	EXTENSION HCS-Prio							PRESENCE optional }|
	{ ID id-Neighbouring-E-UTRA-CellInformation		CRITICALITY ignore	EXTENSION Neighbouring-E-UTRA-CellInformation		PRESENCE optional }|
	{ ID id-Neighbouring-UMTS-CellInformation-Ext	CRITICALITY ignore	EXTENSION Neighbouring-UMTS-CellInformation-Ext		PRESENCE optional },
	...
}

UL-CCTrCHInformationList-RL-AdditionRspTDD ::= ProtocolIE-Single-Container {{UL-CCTrCHInformationListIEs-RL-AdditionRspTDD}}

UL-CCTrCHInformationListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-InformationListIE-RL-AdditionRspTDD	CRITICALITY ignore	TYPE UL-CCTrCHInformationListIE-RL-AdditionRspTDD	PRESENCE mandatory}
}

UL-CCTrCHInformationListIE-RL-AdditionRspTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF UL-CCTrCHInformationItem-RL-AdditionRspTDD

UL-CCTrCHInformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	ul-DPCH-Information				UL-DPCH-InformationList-RL-AdditionRspTDD		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCHInformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCHInformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-DPCH-InformationList-RL-AdditionRspTDD ::= ProtocolIE-Single-Container { {UL-DPCH-InformationListIEs-RL-AdditionRspTDD} }

UL-DPCH-InformationListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-DPCH-InformationItem-RL-AdditionRspTDD		CRITICALITY ignore	TYPE UL-DPCH-InformationItem-RL-AdditionRspTDD	PRESENCE mandatory}
}

UL-DPCH-InformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	uL-Timeslot-Information			UL-Timeslot-Information,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-InformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-InformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCHInformationList-RL-AdditionRspTDD ::= ProtocolIE-Single-Container {{DL-CCTrCHInformationListIEs-RL-AdditionRspTDD}}

DL-CCTrCHInformationListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationListIE-RL-AdditionRspTDD	CRITICALITY ignore	TYPE DL-CCTrCHInformationListIE-RL-AdditionRspTDD	PRESENCE mandatory }
}

DL-CCTrCHInformationListIE-RL-AdditionRspTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF DL-CCTrCHInformationItem-RL-AdditionRspTDD

DL-CCTrCHInformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	dl-DPCH-Information				DL-DPCH-InformationList-RL-AdditionRspTDD		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCHInformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCHInformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-CCTrCH-Maximum-DL-Power-RL-AdditionRspTDD	CRITICALITY ignore	EXTENSION  DL-Power	PRESENCE optional}| -- this is a DCH type CCTrCH power
	{ ID id-CCTrCH-Minimum-DL-Power-RL-AdditionRspTDD	CRITICALITY ignore	EXTENSION  DL-Power	PRESENCE optional}, -- this is a DCH type CCTrCH power
	...
}

DL-DPCH-InformationList-RL-AdditionRspTDD ::= ProtocolIE-Single-Container { {DL-DPCH-InformationListIEs-RL-AdditionRspTDD} }

DL-DPCH-InformationListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-DPCH-InformationItem-RL-AdditionRspTDD	CRITICALITY ignore	TYPE DL-DPCH-InformationItem-RL-AdditionRspTDD	PRESENCE mandatory}
}

DL-DPCH-InformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	dL-Timeslot-Information			DL-Timeslot-Information,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-InformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-InformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-Information-RL-AdditionRspTDD ::= SEQUENCE {
	diversityIndication					DiversityIndication-RL-AdditionRspTDD,

	iE-Extensions					ProtocolExtensionContainer { { DCH-Information-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

DCH-Information-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DiversityIndication-RL-AdditionRspTDD ::= CHOICE {
	combining		Combining-RL-AdditionRspTDD,
	nonCombining	NonCombining-RL-AdditionRspTDD
}

Combining-RL-AdditionRspTDD	::= SEQUENCE {
	rL-ID						RL-ID,
	iE-Extensions				ProtocolExtensionContainer { { CombiningItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

CombiningItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DCH-InformationResponse			CRITICALITY ignore	EXTENSION DCH-InformationResponse			PRESENCE optional	},
	...
}

NonCombining-RL-AdditionRspTDD	::= SEQUENCE {
	dCH-InformationResponse		DCH-InformationResponse,
	iE-Extensions					ProtocolExtensionContainer { { NonCombiningItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

NonCombiningItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DSCH-InformationResponse-RL-AdditionRspTDD ::= ProtocolIE-Single-Container {{DSCH-InformationListIEs-RL-AdditionRspTDD}}

DSCH-InformationListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DSCH-InformationListIE-RL-AdditionRspTDD	CRITICALITY ignore	TYPE DSCH-InformationListIE-RL-AdditionRspTDD		PRESENCE mandatory }
}

DSCH-InformationListIE-RL-AdditionRspTDD ::= SEQUENCE (SIZE(0..maxNoOfDSCHs)) OF DSCHInformationItem-RL-AdditionRspTDD 

DSCHInformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	dsch-ID					DSCH-ID,
	transportFormatManagement	TransportFormatManagement,
	dSCH-FlowControlInformation		DSCH-FlowControlInformation,
	diversityIndication		DiversityIndication-RL-AdditionRspTDD2 OPTIONAL,
	-- diversityIndication present, if CHOICE = nonCombining
	iE-Extensions			ProtocolExtensionContainer { {DSCHInformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

DSCHInformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DiversityIndication-RL-AdditionRspTDD2 ::= SEQUENCE {
	bindingID				BindingID	OPTIONAL,
	transportLayerAddress	TransportLayerAddress	OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { {DiversityIndication-RL-AdditionRspTDD2-ExtIEs} } OPTIONAL,
	...
}
DiversityIndication-RL-AdditionRspTDD2-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

USCH-InformationResponse-RL-AdditionRspTDD ::= ProtocolIE-Single-Container {{USCH-InformationListIEs-RL-AdditionRspTDD}}

USCH-InformationListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-USCH-InformationListIE-RL-AdditionRspTDD	CRITICALITY ignore	TYPE USCH-InformationListIE-RL-AdditionRspTDD		PRESENCE mandatory }
}

USCH-InformationListIE-RL-AdditionRspTDD ::= SEQUENCE (SIZE(0..maxNoOfUSCHs)) OF USCHInformationItem-RL-AdditionRspTDD 

USCHInformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	uSCH-ID					USCH-ID,
	transportFormatManagement	TransportFormatManagement,
	diversityIndication		DiversityIndication-RL-AdditionRspTDD2 OPTIONAL,
	-- diversityIndication present, if CHOICE = nonCombining
	iE-Extensions			ProtocolExtensionContainer { {USCHInformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

USCHInformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkAdditionResponseTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-RL-LCR-InformationResponse-RL-AdditionRspTDD	CRITICALITY ignore	EXTENSION 	RL-LCR-InformationResponse-RL-AdditionRspTDD	PRESENCE optional}|
	--Mandatory for 1.28Mcps TDD only
	{ ID id-Active-MBMS-Bearer-ServiceTDD-PFL		CRITICALITY ignore	EXTENSION Active-MBMS-Bearer-Service-ListTDD-PFL	PRESENCE optional}|
	{ ID id-HSDSCH-TDD-Information-Response			CRITICALITY ignore	EXTENSION HSDSCH-TDD-Information-Response		PRESENCE optional}|
	{ ID id-DSCH-RNTI								CRITICALITY ignore	EXTENSION DSCH-RNTI							PRESENCE optional}|
	{ ID id-RL-InformationResponse-RL-AdditionRspTDD768	CRITICALITY ignore	EXTENSION RL-InformationResponse-RL-AdditionRspTDD768	PRESENCE optional}|
	{ ID id-E-DCH-Information-Response				CRITICALITY ignore	EXTENSION E-DCH-Information-Response			PRESENCE optional}|
	{ ID id-E-DCH-768-Information-Response			CRITICALITY ignore	EXTENSION E-DCH-768-Information-Response			PRESENCE optional}|
	{ ID id-E-DCH-LCR-Information-Response			CRITICALITY ignore	EXTENSION E-DCH-LCR-Information-Response			PRESENCE optional}|
	{ ID id-ContinuousPacketConnectivity-DRX-Information-ResponseLCR	CRITICALITY ignore	EXTENSION ContinuousPacketConnectivity-DRX-Information-ResponseLCR		PRESENCE optional}|
	{ ID id-HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR	CRITICALITY ignore	EXTENSION HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR		PRESENCE optional}|
	{ ID id-E-DCH-Semi-PersistentScheduling-Information-ResponseLCR		CRITICALITY ignore	EXTENSION E-DCH-Semi-PersistentScheduling-Information-ResponseLCR	PRESENCE optional}|
	{ ID id-DCH-MeasurementOccasion-Information		CRITICALITY reject	EXTENSION DCH-MeasurementOccasion-Information		PRESENCE optional}|
	{ ID id-Multi-Carrier-EDCH-Response				CRITICALITY ignore	EXTENSION Multi-Carrier-EDCH-Information-Response	PRESENCE optional}|
	{ ID id-MU-MIMO-InformationLCR					CRITICALITY reject	EXTENSION MU-MIMO-InformationLCR				PRESENCE optional}|
	{ ID id-Non-rectangular-resource-allocation-indicator	CRITICALITY reject	EXTENSION Non-rectangular-resource-allocation-indicator			PRESENCE optional}|
	{ ID id-Non-rectangular-resource-timeslot-set	CRITICALITY reject	EXTENSION Non-rectangular-resource-timeslot-set		PRESENCE optional},
	...
}

RL-LCR-InformationResponse-RL-AdditionRspTDD ::= SEQUENCE { 
	rL-ID						RL-ID,
	uRA-Information				URA-Information,
	sAI							SAI,
	gA-Cell						GA-Cell		OPTIONAL,
	gA-AccessPointPosition		GA-AccessPointPosition	OPTIONAL,
	ul-TimeSlot-ISCP-LCR-Info	UL-TimeSlot-ISCP-LCR-Info,
	maxUL-SIR					UL-SIR,
	minUL-SIR					UL-SIR,
	pCCPCH-Power				PCCPCH-Power,
	maximumAllowedULTxPower		MaximumAllowedULTxPower,
	maximumDLTxPower			DL-Power,
	minimumDLTxPower			DL-Power,
	alphaValue					AlphaValue,
	ul-PhysCH-SF-Variation		UL-PhysCH-SF-Variation,
	synchronisationConfiguration		SynchronisationConfiguration,
	secondary-LCR-CCPCH-Info-TDD		Secondary-LCR-CCPCH-Info-TDD						OPTIONAL,
	ul-CCTrCH-LCR-Information			UL-CCTrCH-LCR-InformationList-RL-AdditionRspTDD		OPTIONAL,
	dl-CCTrCH-LCR-Information			DL-CCTrCH-LCR-InformationList-RL-AdditionRspTDD		OPTIONAL,
	dCH-InformationResponse				DCH-InformationResponseList-RL-AdditionRspTDD	OPTIONAL,
	dsch-LCR-InformationResponse		DSCH-LCR-InformationResponse-RL-AdditionRspTDD	OPTIONAL,
	usch-LCR-InformationResponse			USCH-LCR-InformationResponse-RL-AdditionRspTDD	OPTIONAL,
	neighbouring-UMTS-CellInformation			Neighbouring-UMTS-CellInformation	OPTIONAL,
	neighbouring-GSM-CellInformation			Neighbouring-GSM-CellInformation			 OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { RL-LCR-InformationResponseList-RL-AdditionRspTDD-ExtIEs} }		OPTIONAL,
	...
}

RL-LCR-InformationResponseList-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GA-CellAdditionalShapes					CRITICALITY	ignore	EXTENSION GA-CellAdditionalShapes			PRESENCE optional }|
	{ ID id-HCS-Prio								CRITICALITY	ignore	EXTENSION HCS-Prio							PRESENCE optional }|
	{ ID id-UL-TimingAdvanceCtrl-LCR				CRITICALITY ignore	EXTENSION UL-TimingAdvanceCtrl-LCR			PRESENCE optional }|
	--Mandatory for 1.28Mcps TDD only
	{ ID id-PowerControlGAP							CRITICALITY ignore	EXTENSION ControlGAP						PRESENCE optional }|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-UARFCNforNt								CRITICALITY ignore	EXTENSION UARFCN							PRESENCE optional }|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-Neighbouring-E-UTRA-CellInformation		CRITICALITY ignore	EXTENSION Neighbouring-E-UTRA-CellInformation		PRESENCE optional }|
	{ ID id-IdleIntervalInformation					CRITICALITY ignore	EXTENSION IdleIntervalInformation			PRESENCE optional }|
	{ ID id-Neighbouring-UMTS-CellInformation-Ext	CRITICALITY ignore	EXTENSION Neighbouring-UMTS-CellInformation-Ext		PRESENCE optional },
	...
}

UL-CCTrCH-LCR-InformationList-RL-AdditionRspTDD ::= ProtocolIE-Single-Container {{UL-CCTrCH-LCR-InformationListIEs-RL-AdditionRspTDD }}

UL-CCTrCH-LCR-InformationListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-LCR-InformationListIE-RL-AdditionRspTDD	CRITICALITY ignore	TYPE UL-CCTrCH-LCR-InformationListIE-RL-AdditionRspTDD		PRESENCE mandatory}
}

UL-CCTrCH-LCR-InformationListIE-RL-AdditionRspTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHsLCR)) OF UL-CCTrCH-LCR-InformationItem-RL-AdditionRspTDD

UL-CCTrCH-LCR-InformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	ul-DPCH-LCR-Information				UL-DPCH-LCR-InformationList-RL-AdditionRspTDD		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-DPCH-LCR-InformationList-RL-AdditionRspTDD ::= ProtocolIE-Single-Container { {UL-DPCH-LCR-InformationListIEs-RL-AdditionRspTDD} }

UL-DPCH-LCR-InformationListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-DPCH-LCR-InformationItem-RL-AdditionRspTDD	CRITICALITY ignore	TYPE UL-DPCH-LCR-InformationItem-RL-AdditionRspTDD	PRESENCE mandatory}
}

UL-DPCH-LCR-InformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	uL-TimeslotLCR-Information		UL-TimeslotLCR-Information,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCH-LCR-InformationList-RL-AdditionRspTDD ::= ProtocolIE-Single-Container {{DL-CCTrCH-LCR-InformationListIEs-RL-AdditionRspTDD}}

DL-CCTrCH-LCR-InformationListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-LCR-InformationListIE-RL-AdditionRspTDD	CRITICALITY ignore	TYPE DL-CCTrCH-LCR-InformationListIE-RL-AdditionRspTDD	PRESENCE mandatory}
}

DL-CCTrCH-LCR-InformationListIE-RL-AdditionRspTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHsLCR)) OF DL-CCTrCH-LCR-InformationItem-RL-AdditionRspTDD

DL-CCTrCH-LCR-InformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	dl-DPCH-LCR-Information		DL-DPCH-LCR-InformationList-RL-AdditionRspTDD		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {DL-CCTrCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-DPCH-LCR-InformationList-RL-AdditionRspTDD ::= ProtocolIE-Single-Container { {DL-DPCH-LCR-InformationListIEs-RL-AdditionRspTDD} }

DL-DPCH-LCR-InformationListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-DPCH-LCR-InformationItem-RL-AdditionRspTDD	CRITICALITY ignore	TYPE DL-DPCH-LCR-InformationItem-RL-AdditionRspTDD	PRESENCE mandatory}
}

DL-DPCH-LCR-InformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	dL-TimeslotLCR-Information		DL-TimeslotLCR-Information,
	tSTD-Indicator					TSTD-Indicator,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-InformationResponseList-RL-AdditionRspTDD ::= ProtocolIE-Single-Container {{DCH-InformationResponseListIEs-RL-AdditionRspTDD}}

DCH-InformationResponseListIEs-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DCH-InformationResponse	CRITICALITY ignore	TYPE DCH-InformationResponse	PRESENCE mandatory}
}

DSCH-LCR-InformationResponse-RL-AdditionRspTDD ::= ProtocolIE-Single-Container {{DSCH-LCR-InformationList-RL-AdditionRspTDD}}

DSCH-LCR-InformationList-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DSCH-LCR-InformationListIEs-RL-AdditionRspTDD		CRITICALITY ignore	TYPE DSCH-LCR-InformationListIEs-RL-AdditionRspTDD PRESENCE mandatory }
}

DSCH-LCR-InformationListIEs-RL-AdditionRspTDD ::= SEQUENCE (SIZE(0..maxNoOfDSCHsLCR)) OF DSCH-LCR-InformationItem-RL-AdditionRspTDD

DSCH-LCR-InformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	dsch-ID					DSCH-ID,
	dSCH-FlowControlInformation		DSCH-FlowControlInformation,
	bindingID				BindingID	OPTIONAL,
	transportLayerAddress	TransportLayerAddress	OPTIONAL,
	transportFormatManagement	TransportFormatManagement,
	iE-Extensions			ProtocolExtensionContainer { {DSCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

DSCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

USCH-LCR-InformationResponse-RL-AdditionRspTDD ::= ProtocolIE-Single-Container {{USCH-LCR-InformationList-RL-AdditionRspTDD}}

USCH-LCR-InformationList-RL-AdditionRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-USCH-LCR-InformationListIEs-RL-AdditionRspTDD		CRITICALITY ignore	TYPE USCH-LCR-InformationListIEs-RL-AdditionRspTDD PRESENCE mandatory }
}

USCH-LCR-InformationListIEs-RL-AdditionRspTDD ::= SEQUENCE (SIZE(0..maxNoOfUSCHsLCR)) OF USCH-LCR-InformationItem-RL-AdditionRspTDD 

USCH-LCR-InformationItem-RL-AdditionRspTDD ::= SEQUENCE {
	usch-ID						USCH-ID,
	transportFormatManagement	TransportFormatManagement,
	diversityIndication			DiversityIndication-RL-AdditionRspTDD2		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {USCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs} } OPTIONAL,
	...
}

USCH-LCR-InformationItem-RL-AdditionRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-InformationResponse-RL-AdditionRspTDD768 ::= SEQUENCE { 
	rL-ID								RL-ID,
	uRA-Information						URA-Information		OPTIONAL,
	sAI									SAI,
	gA-Cell								GA-Cell		OPTIONAL,
	gA-AccessPointPosition				GA-AccessPointPosition	OPTIONAL,
	ul-TimeSlot-ISCP-Info				UL-TimeSlot-ISCP-Info,
	minUL-SIR							UL-SIR,
	maxUL-SIR							UL-SIR,
	maximumAllowedULTxPower				MaximumAllowedULTxPower,
	maximumDLTxPower					DL-Power,
	minimumDLTxPower					DL-Power,
	pCCPCH-Power						PCCPCH-Power,
	timingAdvanceApplied				TimingAdvanceApplied,
	alphaValue							AlphaValue,
	ul-PhysCH-SF-Variation				UL-PhysCH-SF-Variation,
	synchronisationConfiguration		SynchronisationConfiguration,
	secondary-CCPCH-Info-TDD768			Secondary-CCPCH-Info-TDD768						OPTIONAL,
	ul-CCTrCHInformation768				UL-CCTrCHInformationList-RL-AdditionRspTDD768		OPTIONAL,
	dl-CCTrCHInformation768				DL-CCTrCHInformationList-RL-AdditionRspTDD768		OPTIONAL,
	dCH-Information						DCH-Information-RL-AdditionRspTDD				OPTIONAL,
	dSCH-InformationResponse			DSCH-InformationResponse-RL-AdditionRspTDD		OPTIONAL,
	uSCH-InformationResponse			USCH-InformationResponse-RL-AdditionRspTDD		OPTIONAL,
	neighbouring-UMTS-CellInformation	Neighbouring-UMTS-CellInformation 	OPTIONAL,
	neighbouring-GSM-CellInformation	Neighbouring-GSM-CellInformation OPTIONAL,
	gA-CellAdditionalShapes				GA-CellAdditionalShapes			OPTIONAL,
	hCS-Prio							HCS-Prio						OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { {RL-InformationResponse-RL-AdditionRspTDD768-ExtIEs} } OPTIONAL,
	...
}

RL-InformationResponse-RL-AdditionRspTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Neighbouring-E-UTRA-CellInformation		CRITICALITY ignore	EXTENSION Neighbouring-E-UTRA-CellInformation		PRESENCE optional }|
	{ ID id-Neighbouring-UMTS-CellInformation-Ext	CRITICALITY ignore	EXTENSION Neighbouring-UMTS-CellInformation-Ext		PRESENCE optional },
	...
}

UL-CCTrCHInformationList-RL-AdditionRspTDD768 ::= ProtocolIE-Single-Container {{UL-CCTrCHInformationListIEs-RL-AdditionRspTDD768}}

UL-CCTrCHInformationListIEs-RL-AdditionRspTDD768 RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-InformationListIE-RL-AdditionRspTDD768	CRITICALITY ignore	TYPE UL-CCTrCHInformationListIE-RL-AdditionRspTDD768	PRESENCE mandatory}
}

UL-CCTrCHInformationListIE-RL-AdditionRspTDD768 ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF UL-CCTrCHInformationItem-RL-AdditionRspTDD768

UL-CCTrCHInformationItem-RL-AdditionRspTDD768 ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	ul-DPCH-Information768				UL-DPCH-InformationList-RL-AdditionRspTDD768		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCHInformationItem-RL-AdditionRspTDD768-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCHInformationItem-RL-AdditionRspTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-DPCH-InformationList-RL-AdditionRspTDD768 ::= ProtocolIE-Single-Container { {UL-DPCH-InformationListIEs-RL-AdditionRspTDD768} }

UL-DPCH-InformationListIEs-RL-AdditionRspTDD768 RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-DPCH-InformationItem-RL-AdditionRspTDD	CRITICALITY ignore	TYPE UL-DPCH-InformationItem-RL-AdditionRspTDD768	PRESENCE mandatory}
}

UL-DPCH-InformationItem-RL-AdditionRspTDD768 ::= SEQUENCE {
	repetitionPeriod					RepetitionPeriod,
	repetitionLength					RepetitionLength,
	tDD-DPCHOffset						TDD-DPCHOffset,
	uL-Timeslot-Information768			UL-Timeslot-Information768,
	iE-Extensions						ProtocolExtensionContainer { {UL-DPCH-InformationItem-RL-AdditionRspTDD768-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-InformationItem-RL-AdditionRspTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCHInformationList-RL-AdditionRspTDD768 ::= ProtocolIE-Single-Container {{DL-CCTrCHInformationListIEs-RL-AdditionRspTDD768}}

DL-CCTrCHInformationListIEs-RL-AdditionRspTDD768 RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationListIE-RL-AdditionRspTDD768	CRITICALITY ignore	TYPE DL-CCTrCHInformationListIE-RL-AdditionRspTDD768	PRESENCE mandatory}
}

DL-CCTrCHInformationListIE-RL-AdditionRspTDD768 ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF DL-CCTrCHInformationItem-RL-AdditionRspTDD768

DL-CCTrCHInformationItem-RL-AdditionRspTDD768 ::= SEQUENCE {
	cCTrCH-ID							CCTrCH-ID,
	dl-DPCH-Information768				DL-DPCH-InformationList-RL-AdditionRspTDD768		OPTIONAL,
	cCTrCH-Maximum-DL-Power				DL-Power	OPTIONAL,-- this is a DCH type CCTrCH power
	cCTrCH-Minimum-DL-Power				DL-Power	OPTIONAL, -- this is a DCH type CCTrCH power
	iE-Extensions						ProtocolExtensionContainer { {DL-CCTrCHInformationItem-RL-AdditionRspTDD768-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCHInformationItem-RL-AdditionRspTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-DPCH-InformationList-RL-AdditionRspTDD768 ::= ProtocolIE-Single-Container { {DL-DPCH-InformationListIEs-RL-AdditionRspTDD768} }

DL-DPCH-InformationListIEs-RL-AdditionRspTDD768 RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-DPCH-InformationItem-RL-AdditionRspTDD768	CRITICALITY ignore	TYPE DL-DPCH-InformationItem-RL-AdditionRspTDD768	PRESENCE mandatory}
}

DL-DPCH-InformationItem-RL-AdditionRspTDD768 ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	dL-Timeslot-Information768		DL-Timeslot-Information768,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-InformationItem-RL-AdditionRspTDD768-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-InformationItem-RL-AdditionRspTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK ADDITION FAILURE FDD
--
-- **************************************************************

RadioLinkAdditionFailureFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkAdditionFailureFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkAdditionFailureFDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkAdditionFailureFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-CauseLevel-RL-AdditionFailureFDD	CRITICALITY ignore	TYPE CauseLevel-RL-AdditionFailureFDD	PRESENCE mandatory}|
	{ ID id-CriticalityDiagnostics				CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional},
	...
}

CauseLevel-RL-AdditionFailureFDD ::= CHOICE {
	generalCause		GeneralCauseList-RL-AdditionFailureFDD,
	rLSpecificCause		RLSpecificCauseList-RL-AdditionFailureFDD,
	...
}

GeneralCauseList-RL-AdditionFailureFDD ::= SEQUENCE {
	cause				Cause,
	iE-Extensions		ProtocolExtensionContainer { { GeneralCauseItem-RL-AdditionFailureFDD-ExtIEs} }		OPTIONAL,
	...
}

GeneralCauseItem-RL-AdditionFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RLSpecificCauseList-RL-AdditionFailureFDD ::= SEQUENCE {
	unsuccessful-RL-InformationRespList-RL-AdditionFailureFDD		UnsuccessfulRL-InformationResponseList-RL-AdditionFailureFDD,
	successful-RL-InformationRespList-RL-AdditionFailureFDD			SuccessfulRL-InformationResponseList-RL-AdditionFailureFDD	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { RLSpecificCauseItem-RL-AdditionFailureFDD-ExtIEs} }	OPTIONAL,
	...
}

RLSpecificCauseItem-RL-AdditionFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UnsuccessfulRL-InformationResponseList-RL-AdditionFailureFDD ::= SEQUENCE (SIZE (1..maxNrOfRLs-1)) OF ProtocolIE-Single-Container { {UnsuccessfulRL-InformationResponse-RL-AdditionFailureFDD-IEs} }

UnsuccessfulRL-InformationResponse-RL-AdditionFailureFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UnsuccessfulRL-InformationResponse-RL-AdditionFailureFDD	CRITICALITY ignore	TYPE UnsuccessfulRL-InformationResponse-RL-AdditionFailureFDD		PRESENCE mandatory	}
}

UnsuccessfulRL-InformationResponse-RL-AdditionFailureFDD ::= SEQUENCE {
	rL-ID							RL-ID,
	cause							Cause,
	iE-Extensions					ProtocolExtensionContainer { {UnsuccessfulRL-InformationResponse-RL-AdditionFailureFDD-ExtIEs} } OPTIONAL,
	...
}

UnsuccessfulRL-InformationResponse-RL-AdditionFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

SuccessfulRL-InformationResponseList-RL-AdditionFailureFDD ::= SEQUENCE (SIZE (0..maxNrOfRLs-2)) OF ProtocolIE-Single-Container { {SuccessfulRL-InformationResponse-RL-AdditionFailureFDD-IEs} }

SuccessfulRL-InformationResponse-RL-AdditionFailureFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-SuccessfulRL-InformationResponse-RL-AdditionFailureFDD		CRITICALITY ignore	TYPE SuccessfulRL-InformationResponse-RL-AdditionFailureFDD		PRESENCE mandatory	}
}

SuccessfulRL-InformationResponse-RL-AdditionFailureFDD ::= SEQUENCE {
	rL-ID								RL-ID,
	rL-Set-ID							RL-Set-ID,
	uRA-Information						URA-Information		OPTIONAL,
	sAI									SAI,
	gA-Cell								GA-Cell		OPTIONAL,
	gA-AccessPointPosition				GA-AccessPointPosition		OPTIONAL,
	received-total-wide-band-power		Received-total-wide-band-power,
	not-Used-secondary-CCPCH-Info				NULL		OPTIONAL,
	dl-CodeInformation					DL-CodeInformationList-RL-AdditionFailureFDD,
	diversityIndication					DiversityIndication-RL-AdditionFailureFDD, 
	-- This IE represents both the Diversity Indication IE and the choice based on the diversity indication as described in 
	-- the tabular message format in subclause 9.1.
	sSDT-SupportIndicator				SSDT-SupportIndicator,
	minUL-SIR							UL-SIR,
	maxUL-SIR							UL-SIR,
	closedlooptimingadjustmentmode		Closedlooptimingadjustmentmode	OPTIONAL,
	maximumAllowedULTxPower				MaximumAllowedULTxPower,
	maximumDLTxPower					DL-Power,
	minimumDLTxPower					DL-Power,
	neighbouring-UMTS-CellInformation	Neighbouring-UMTS-CellInformation OPTIONAL,
	neighbouring-GSM-CellInformation	Neighbouring-GSM-CellInformation OPTIONAL,
	primaryCPICH-Power					PrimaryCPICH-Power,
	pC-Preamble							PC-Preamble,
	sRB-Delay							SRB-Delay,
	iE-Extensions						ProtocolExtensionContainer { {SuccessfulRL-InformationResponse-RL-AdditionFailureFDD-ExtIEs} } OPTIONAL,
	...
}

SuccessfulRL-InformationResponse-RL-AdditionFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GA-CellAdditionalShapes						CRITICALITY ignore	EXTENSION GA-CellAdditionalShapes			PRESENCE optional }|
	{ ID id-DL-PowerBalancing-ActivationIndicator		CRITICALITY ignore	EXTENSION DL-PowerBalancing-ActivationIndicator	PRESENCE optional }|
	{ ID id-HCS-Prio									CRITICALITY ignore	EXTENSION HCS-Prio						PRESENCE optional }|
	{ ID id-Active-MBMS-Bearer-ServiceFDD-PFL			CRITICALITY ignore	EXTENSION Active-MBMS-Bearer-Service-ListFDD-PFL	PRESENCE optional }|
	{ ID id-EDCH-RLSet-Id								CRITICALITY ignore	EXTENSION RL-Set-ID						PRESENCE optional }|
	{ ID id-EDCH-FDD-DL-ControlChannelInformation		CRITICALITY ignore	EXTENSION EDCH-FDD-DL-ControlChannelInformation	PRESENCE optional }|
	{ ID id-Initial-DL-DPCH-TimingAdjustment			CRITICALITY ignore	EXTENSION DL-DPCH-TimingAdjustment			PRESENCE optional }|
	{ ID id-Neighbouring-E-UTRA-CellInformation			CRITICALITY ignore	EXTENSION Neighbouring-E-UTRA-CellInformation	PRESENCE optional }|
	{ ID id-HSDSCH-PreconfigurationInfo					CRITICALITY ignore	EXTENSION HSDSCH-PreconfigurationInfo		PRESENCE optional }|
	{ ID id-F-DPCH-SlotFormat							CRITICALITY ignore	EXTENSION F-DPCH-SlotFormat				PRESENCE optional }|
	{ ID id-Non-Serving-RL-Preconfig-Info				CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Info		PRESENCE optional }|
	{ ID id-Neighbouring-UMTS-CellInformation-Ext		CRITICALITY ignore	EXTENSION Neighbouring-UMTS-CellInformation-Ext	PRESENCE optional },
	...
}

DL-CodeInformationList-RL-AdditionFailureFDD ::= ProtocolIE-Single-Container {{ DL-CodeInformationListIEs-RL-AdditionFailureFDD }}

DL-CodeInformationListIEs-RL-AdditionFailureFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-FDD-DL-CodeInformation	CRITICALITY ignore	TYPE FDD-DL-CodeInformation		PRESENCE mandatory }
}

DiversityIndication-RL-AdditionFailureFDD ::= CHOICE {
	combining						Combining-RL-AdditionFailureFDD,
	nonCombining					NonCombining-RL-AdditionFailureFDD
}

Combining-RL-AdditionFailureFDD ::= SEQUENCE {
	rL-ID						RL-ID,
	iE-Extensions				ProtocolExtensionContainer { { CombiningItem-RL-AdditionFailureFDD-ExtIEs} } OPTIONAL,
	...
}

CombiningItem-RL-AdditionFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DCH-InformationResponse			CRITICALITY ignore	EXTENSION DCH-InformationResponse			PRESENCE optional	}|
	{ ID id-EDCH-FDD-InformationResponse	CRITICALITY ignore	EXTENSION EDCH-FDD-InformationResponse			PRESENCE optional	},
	...
}

NonCombining-RL-AdditionFailureFDD ::= SEQUENCE {
	dCH-InformationResponse		DCH-InformationResponse,
	iE-Extensions								ProtocolExtensionContainer { { NonCombiningItem-RL-AdditionFailureFDD-ExtIEs} } OPTIONAL,
	...
}

NonCombiningItem-RL-AdditionFailureFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-EDCH-FDD-InformationResponse	CRITICALITY ignore	EXTENSION EDCH-FDD-InformationResponse			PRESENCE optional	},
	...
}

RadioLinkAdditionFailureFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HS-DSCH-serving-cell-change-informationResponse	CRITICALITY ignore	EXTENSION HS-DSCH-serving-cell-change-informationResponse	PRESENCE optional}|
	{ ID id-E-DCH-Serving-cell-change-informationResponse	CRITICALITY ignore	EXTENSION E-DCH-Serving-cell-change-informationResponse	PRESENCE optional}|
	{ ID id-Additional-HS-Cell-Change-Information-Response	CRITICALITY ignore	EXTENSION Additional-HS-Cell-Change-Information-Response-List	PRESENCE optional}|
	{ ID id-MAChs-ResetIndicator							CRITICALITY ignore	EXTENSION MAChs-ResetIndicator					PRESENCE optional}|
	{ ID id-Additional-EDCH-Cell-Information-Response-RLAdd	CRITICALITY ignore	EXTENSION Additional-EDCH-Cell-Information-Response-RLAddList	PRESENCE optional},
	...
}

-- **************************************************************
--
-- RADIO LINK ADDITION FAILURE TDD
--
-- **************************************************************

RadioLinkAdditionFailureTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkAdditionFailureTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkAdditionFailureTDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkAdditionFailureTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-CauseLevel-RL-AdditionFailureTDD	CRITICALITY ignore	TYPE CauseLevel-RL-AdditionFailureTDD	PRESENCE mandatory }|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

CauseLevel-RL-AdditionFailureTDD ::= CHOICE {
	generalCause		GeneralCauseList-RL-AdditionFailureTDD,
	rLSpecificCause		RLSpecificCauseList-RL-AdditionFailureTDD,
	...
}

GeneralCauseList-RL-AdditionFailureTDD ::= SEQUENCE {
	cause						Cause,
	iE-Extensions				ProtocolExtensionContainer { { GeneralCauseItem-RL-AdditionFailureTDD-ExtIEs} }		OPTIONAL,
	...
}

GeneralCauseItem-RL-AdditionFailureTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RLSpecificCauseList-RL-AdditionFailureTDD ::= SEQUENCE {
	unsuccessful-RL-InformationRespItem-RL-AdditionFailureTDD	Unsuccessful-RL-InformationRespItem-RL-AdditionFailureTDD,
	iE-Extensions												ProtocolExtensionContainer { { RLSpecificCauseItem-RL-AdditionFailureTDD-ExtIEs} }		OPTIONAL,
	...
}

RLSpecificCauseItem-RL-AdditionFailureTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Unsuccessful-RL-InformationRespItem-RL-AdditionFailureTDD ::= ProtocolIE-Single-Container { {Unsuccessful-RL-InformationRespItemIE-RL-AdditionFailureTDD} }

Unsuccessful-RL-InformationRespItemIE-RL-AdditionFailureTDD RNSAP-PROTOCOL-IES ::= {
	{ ID	id-UnsuccessfulRL-InformationResponse-RL-AdditionFailureTDD		CRITICALITY	ignore 		TYPE 	UnsuccessfulRL-InformationResponse-RL-AdditionFailureTDD	PRESENCE mandatory}
}

UnsuccessfulRL-InformationResponse-RL-AdditionFailureTDD ::= SEQUENCE {
	rL-ID						RL-ID,
	cause						Cause,
	iE-Extensions				ProtocolExtensionContainer { {UnsuccessfulRL-InformationResponse-RL-AdditionFailureTDD-ExtIEs} } OPTIONAL,
	...
}

UnsuccessfulRL-InformationResponse-RL-AdditionFailureTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkAdditionFailureTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK DELETION REQUEST
--
-- **************************************************************

RadioLinkDeletionRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkDeletionRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkDeletionRequest-Extensions}}		OPTIONAL,
	...
}

RadioLinkDeletionRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationList-RL-DeletionRqst	CRITICALITY notify	TYPE RL-InformationList-RL-DeletionRqst		PRESENCE mandatory	},
	...
}

RL-InformationList-RL-DeletionRqst			::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-Information-RL-DeletionRqst-IEs} }

RL-Information-RL-DeletionRqst-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Information-RL-DeletionRqst		CRITICALITY notify	TYPE RL-Information-RL-DeletionRqst		PRESENCE mandatory	}
}

RL-Information-RL-DeletionRqst ::= SEQUENCE {
	rL-ID						RL-ID,
	iE-Extensions				ProtocolExtensionContainer { {RL-Information-RL-DeletionRqst-ExtIEs} } OPTIONAL,
	...
}

RL-Information-RL-DeletionRqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkDeletionRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK DELETION RESPONSE
--
-- **************************************************************

RadioLinkDeletionResponse ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkDeletionResponse-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkDeletionResponse-Extensions}}	OPTIONAL,
	...
}

RadioLinkDeletionResponse-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

RadioLinkDeletionResponse-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK RECONFIGURATION PREPARE FDD
--
-- **************************************************************

RadioLinkReconfigurationPrepareFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationPrepareFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationPrepareFDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationPrepareFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-AllowedQueuingTime			CRITICALITY reject	TYPE AllowedQueuingTime				PRESENCE optional	} |
	{ ID id-UL-DPCH-Information-RL-ReconfPrepFDD			CRITICALITY reject	TYPE UL-DPCH-Information-RL-ReconfPrepFDD			PRESENCE optional	} |
	{ ID id-DL-DPCH-Information-RL-ReconfPrepFDD			CRITICALITY reject	TYPE DL-DPCH-Information-RL-ReconfPrepFDD			PRESENCE optional	} |
	{ ID id-FDD-DCHs-to-Modify		CRITICALITY reject	TYPE FDD-DCHs-to-Modify		PRESENCE optional	} |
	{ ID id-DCHs-to-Add-FDD		CRITICALITY reject	TYPE DCH-FDD-Information		PRESENCE optional	} |
	{ ID id-DCH-DeleteList-RL-ReconfPrepFDD		CRITICALITY reject	TYPE DCH-DeleteList-RL-ReconfPrepFDD		PRESENCE optional	} |
	{ ID id-RL-InformationList-RL-ReconfPrepFDD	CRITICALITY reject	TYPE RL-InformationList-RL-ReconfPrepFDD	PRESENCE optional	}|
	{ ID id-Transmission-Gap-Pattern-Sequence-Information	CRITICALITY reject	TYPE Transmission-Gap-Pattern-Sequence-Information	 PRESENCE optional },
	...
}

UL-DPCH-Information-RL-ReconfPrepFDD ::= SEQUENCE {
	ul-ScramblingCode				UL-ScramblingCode		OPTIONAL,
	ul-SIRTarget					UL-SIR					OPTIONAL,
	minUL-ChannelisationCodeLength	MinUL-ChannelisationCodeLength 	OPTIONAL,
	maxNrOfUL-DPDCHs				MaxNrOfUL-DPCHs			OPTIONAL
	-- This IE shall be present if minUL-ChannelisationCodeLength equals to 4 --,
	ul-PunctureLimit				PunctureLimit			OPTIONAL,
	tFCS							TFCS 	OPTIONAL,
	ul-DPCCH-SlotFormat				UL-DPCCH-SlotFormat		OPTIONAL,
	diversityMode					DiversityMode			OPTIONAL,
	not-Used-sSDT-CellIDLength		NULL		OPTIONAL,
	not-Used-s-FieldLength			NULL			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-Information-RL-ReconfPrepFDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-Information-RL-ReconfPrepFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UL-DPDCHIndicatorEDCH	CRITICALITY reject		EXTENSION UL-DPDCHIndicatorEDCH	PRESENCE optional	},
	...
}

DL-DPCH-Information-RL-ReconfPrepFDD ::= SEQUENCE {
	tFCS							TFCS	OPTIONAL,
	dl-DPCH-SlotFormat				DL-DPCH-SlotFormat		OPTIONAL,
	nrOfDLchannelisationcodes		NrOfDLchannelisationcodes	OPTIONAL,
	tFCI-SignallingMode				TFCI-SignallingMode		OPTIONAL,
	tFCI-Presence					TFCI-Presence			OPTIONAL
	-- This IE shall be present if DL DPCH Slot Format IE is from 12 to 16 --,
	multiplexingPosition			MultiplexingPosition		OPTIONAL,
	limitedPowerIncrease			LimitedPowerIncrease		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-Information-RL-ReconfPrepFDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-Information-RL-ReconfPrepFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DL-DPCH-Power-Information-RL-ReconfPrepFDD	CRITICALITY reject	EXTENSION DL-DPCH-Power-Information-RL-ReconfPrepFDD	PRESENCE optional	},
	...
}

DL-DPCH-Power-Information-RL-ReconfPrepFDD ::= SEQUENCE {
	powerOffsetInformation					PowerOffsetInformation-RL-ReconfPrepFDD,
	fdd-TPC-DownlinkStepSize				FDD-TPC-DownlinkStepSize,
	innerLoopDLPCStatus						InnerLoopDLPCStatus,
	iE-Extensions							ProtocolExtensionContainer { { DL-DPCH-Power-Information-RL-ReconfPrepFDD-ExtIEs } }	OPTIONAL,
	...
}

DL-DPCH-Power-Information-RL-ReconfPrepFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

PowerOffsetInformation-RL-ReconfPrepFDD ::= SEQUENCE {
	pO1-ForTFCI-Bits						PowerOffset,
	pO2-ForTPC-Bits							PowerOffset,
	pO3-ForPilotBits						PowerOffset,
	iE-Extensions							ProtocolExtensionContainer { { PowerOffsetInformation-RL-ReconfPrepFDD-ExtIEs} }	OPTIONAL,
	...
}

PowerOffsetInformation-RL-ReconfPrepFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-DeleteList-RL-ReconfPrepFDD				::= SEQUENCE (SIZE (0..maxNrOfDCHs)) OF DCH-DeleteItem-RL-ReconfPrepFDD

DCH-DeleteItem-RL-ReconfPrepFDD ::= SEQUENCE {
	dCH-ID							DCH-ID,
	iE-Extensions					ProtocolExtensionContainer { {DCH-DeleteItem-RL-ReconfPrepFDD-ExtIEs} } OPTIONAL,
	...
}

DCH-DeleteItem-RL-ReconfPrepFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-InformationList-RL-ReconfPrepFDD			::= SEQUENCE (SIZE (0..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-Information-RL-ReconfPrepFDD-IEs} }

RL-Information-RL-ReconfPrepFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Information-RL-ReconfPrepFDD		CRITICALITY reject	TYPE RL-Information-RL-ReconfPrepFDD		PRESENCE mandatory	}
}

RL-Information-RL-ReconfPrepFDD ::= SEQUENCE {
	rL-ID						RL-ID,
	not-Used-sSDT-Indication			NULL		OPTIONAL,
	not-Used-sSDT-CellIdentity			NULL		OPTIONAL,
	transmitDiversityIndicator		TransmitDiversityIndicator		OPTIONAL,
	-- This IE shall be present if Diversity Mode IE is present in UL DPCH Information IE and is not equal to “none”
	iE-Extensions					ProtocolExtensionContainer { {RL-Information-RL-ReconfPrepFDD-ExtIEs} } OPTIONAL,
	...
}

RL-Information-RL-ReconfPrepFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DLReferencePower					CRITICALITY ignore	EXTENSION DL-Power							PRESENCE optional}|
	{ ID id-RL-Specific-DCH-Info				CRITICALITY ignore	EXTENSION RL-Specific-DCH-Info			PRESENCE optional}|
	{ ID id-DL-DPCH-TimingAdjustment			CRITICALITY reject	EXTENSION DL-DPCH-TimingAdjustment			PRESENCE optional}|
	{ ID id-Phase-Reference-Update-Indicator	CRITICALITY ignore	EXTENSION Phase-Reference-Update-Indicator		PRESENCE optional}|
	{ ID id-RL-Specific-EDCH-Information		CRITICALITY reject	EXTENSION RL-Specific-EDCH-Information		PRESENCE optional}|
	{ ID id-EDCH-RL-Indication					CRITICALITY reject	EXTENSION EDCH-RL-Indication				PRESENCE optional}|
	{ ID id-HSDSCH-PreconfigurationSetup		CRITICALITY ignore	EXTENSION HSDSCH-PreconfigurationSetup		PRESENCE optional}|
	{ ID id-Non-Serving-RL-Preconfig-Setup		CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Setup		PRESENCE optional}|
	{ ID id-Non-Serving-RL-Preconfig-Removal	CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Setup		PRESENCE optional}|
	{ ID id-FTPICH-Information-Reconf			CRITICALITY ignore	EXTENSION FTPICH-Information-Reconf			PRESENCE optional}|
	{ ID id-TPC-slot-position					CRITICALITY ignore	EXTENSION TPC-slot-position			PRESENCE optional},
	...
}

RadioLinkReconfigurationPrepareFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HSDSCH-FDD-Information							CRITICALITY reject	EXTENSION HSDSCH-FDD-Information			PRESENCE optional}|
	{ ID id-HSDSCH-Information-to-Modify					CRITICALITY reject	EXTENSION HSDSCH-Information-to-Modify		PRESENCE optional}|
	{ ID id-HSDSCH-MACdFlows-to-Add							CRITICALITY reject	EXTENSION HSDSCH-MACdFlows-Information		PRESENCE optional}|
	{ ID id-HSDSCH-MACdFlows-to-Delete						CRITICALITY reject	EXTENSION HSDSCH-MACdFlows-to-Delete		PRESENCE optional}|
	{ ID id-HSPDSCH-RL-ID									CRITICALITY reject	EXTENSION RL-ID						PRESENCE optional}|
	{ ID id-EDPCH-Information								CRITICALITY reject	EXTENSION EDPCH-Information-RLReconfPrepare-FDD	PRESENCE optional}|
	{ ID id-EDCH-FDD-Information							CRITICALITY reject	EXTENSION EDCH-FDD-Information			PRESENCE optional}|
	{ ID id-EDCH-FDD-Information-To-Modify					CRITICALITY reject	EXTENSION EDCH-FDD-Information-To-Modify	PRESENCE optional}|
	{ ID id-EDCH-MACdFlows-To-Add							CRITICALITY reject	EXTENSION EDCH-MACdFlows-Information		PRESENCE optional}|
	{ ID id-EDCH-MACdFlows-To-Delete						CRITICALITY reject	EXTENSION EDCH-MACdFlows-To-Delete		PRESENCE optional}|
	{ ID id-Serving-EDCHRL-Id								CRITICALITY reject	EXTENSION EDCH-Serving-RL			PRESENCE optional}|
	{ ID id-F-DPCH-Information-RL-ReconfPrepFDD				CRITICALITY reject	EXTENSION F-DPCH-Information-RL-ReconfPrepFDD	PRESENCE optional}|
	{ ID id-Fast-Reconfiguration-Mode						CRITICALITY ignore	EXTENSION Fast-Reconfiguration-Mode		PRESENCE optional}|
	{ ID id-CPC-Information									CRITICALITY reject	EXTENSION CPC-Information			PRESENCE optional}|
	{ ID id-Additional-HS-Cell-Information-RL-Reconf-Prep	CRITICALITY reject	EXTENSION Additional-HS-Cell-Information-RL-Reconf-Prep	PRESENCE optional}|
	{ ID id-UE-AggregateMaximumBitRate						CRITICALITY ignore	EXTENSION UE-AggregateMaximumBitRate		PRESENCE optional}|
	{ ID id-Additional-EDCH-Cell-Information-RL-Reconf-Prep	CRITICALITY reject	EXTENSION Additional-EDCH-Cell-Information-RL-Reconf-Prep	PRESENCE optional}|
	{ ID id-UL-CLTD-Information-Reconf						CRITICALITY reject	EXTENSION UL-CLTD-Information-Reconf		PRESENCE optional}|
	{ ID id-E-DCH-Decoupling-Indication						CRITICALITY reject	EXTENSION E-DCH-Decoupling-Indication		PRESENCE optional}|
	{ ID id-DCH-ENH-Information-Reconf						CRITICALITY reject	EXTENSION DCH-ENH-Information-Reconf		PRESENCE optional}|
	{ ID id-Radio-Links-without-DPCH-FDPCH-Indication	CRITICALITY reject	EXTENSION Radio-Links-without-DPCH-FDPCH-Indication	PRESENCE optional}|
	{ ID id-UL-DPCCH2-Information-Reconf					CRITICALITY reject	EXTENSION UL-DPCCH2-Information-Reconf		PRESENCE optional}|
	{ ID id-Downlink-TPC-enhancements-Reconf				CRITICALITY reject	EXTENSION Downlink-TPC-enhancements-Reconf	PRESENCE optional}|
	{ ID id-Improved-Synchronized-Indicator					CRITICALITY ignore	EXTENSION Improved-Synchronized-Indicator	PRESENCE optional},
	...
}

Additional-HS-Cell-Information-RL-Reconf-Prep	::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF Additional-HS-Cell-Information-RL-Reconf-Prep-ItemIEs

Additional-HS-Cell-Information-RL-Reconf-Prep-ItemIEs	::=SEQUENCE{
	hSPDSCH-RL-ID									RL-ID,
	c-ID											C-ID												OPTIONAL,
	hS-DSCH-FDD-Secondary-Serving-Information		HS-DSCH-FDD-Secondary-Serving-Information			OPTIONAL,
	hS-DSCH-Secondary-Serving-Information-To-Modify	HS-DSCH-Secondary-Serving-Information-To-Modify	OPTIONAL,
	hS-HS-DSCH-Secondary-Serving-Remove				HS-DSCH-Secondary-Serving-Remove	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Additional-HS-Cell-Information-RL-Reconf-Prep-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-HS-Cell-Information-RL-Reconf-Prep-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-Cell-Information-RL-Reconf-Prep	::=SEQUENCE{
	setup-Or-ConfigurationChange-Or-Removal-Of-EDCH-On-secondary-UL-Frequency							Setup-Or-ConfigurationChange-Or-Removal-Of-EDCH-On-secondary-UL-Frequency,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-Cell-Information-RL-Reconf-Prep-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-Cell-Information-RL-Reconf-Prep-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

F-DPCH-Information-RL-ReconfPrepFDD ::= SEQUENCE {
	powerOffsetInformation			PowerOffsetInformation-F-DPCH-RL-ReconfPrepFDD,
	fdd-dl-TPC-DownlinkStepSize		FDD-TPC-DownlinkStepSize,
	limitedPowerIncrease			LimitedPowerIncrease,
	innerLoopDLPCStatus				InnerLoopDLPCStatus,
	iE-Extensions					ProtocolExtensionContainer { { F-DPCH-Information-RL-ReconfPrepFDD-ExtIEs} }					OPTIONAL,
	...
}

F-DPCH-Information-RL-ReconfPrepFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-F-DPCH-SlotFormatSupportRequest		CRITICALITY reject			EXTENSION F-DPCH-SlotFormatSupportRequest		PRESENCE optional	}|
	{ ID id-F-DPCH-SlotFormat				CRITICALITY ignore	EXTENSION F-DPCH-SlotFormat		PRESENCE optional},
	...
}

PowerOffsetInformation-F-DPCH-RL-ReconfPrepFDD ::= SEQUENCE {
	po2-ForTPC-Bits					PowerOffset,
	--This IE shall be ignored by DRNS
	iE-Extensions					ProtocolExtensionContainer { { PowerOffsetInformation-F-DPCH-RL-ReconfPrepFDD-ExtIEs} }		OPTIONAL,
	...
}

PowerOffsetInformation-F-DPCH-RL-ReconfPrepFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


-- **************************************************************
--
-- RADIO LINK RECONFIGURATION PREPARE TDD
--
-- **************************************************************

RadioLinkReconfigurationPrepareTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationPrepareTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationPrepareTDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationPrepareTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-AllowedQueuingTime			CRITICALITY reject	TYPE AllowedQueuingTime				PRESENCE optional	} |
	{ ID id-UL-CCTrCH-InformationAddList-RL-ReconfPrepTDD	CRITICALITY notify	TYPE UL-CCTrCH-InformationAddList-RL-ReconfPrepTDD	PRESENCE optional	} |
	{ ID id-UL-CCTrCH-InformationModifyList-RL-ReconfPrepTDD	CRITICALITY notify	TYPE UL-CCTrCH-InformationModifyList-RL-ReconfPrepTDD	PRESENCE optional	} |
	{ ID id-UL-CCTrCH-InformationDeleteList-RL-ReconfPrepTDD	CRITICALITY notify	TYPE UL-CCTrCH-InformationDeleteList-RL-ReconfPrepTDD	PRESENCE optional	} |
	{ ID id-DL-CCTrCH-InformationAddList-RL-ReconfPrepTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationAddList-RL-ReconfPrepTDD	PRESENCE optional	} |
	{ ID id-DL-CCTrCH-InformationModifyList-RL-ReconfPrepTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationModifyList-RL-ReconfPrepTDD	PRESENCE optional	} |
	{ ID id-DL-CCTrCH-InformationDeleteList-RL-ReconfPrepTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationDeleteList-RL-ReconfPrepTDD	PRESENCE optional	} |
	{ ID id-TDD-DCHs-to-Modify		CRITICALITY reject	TYPE TDD-DCHs-to-Modify		PRESENCE optional	} |
	{ ID id-DCHs-to-Add-TDD		CRITICALITY reject	TYPE DCH-TDD-Information		PRESENCE optional	} |
	{ ID id-DCH-DeleteList-RL-ReconfPrepTDD		CRITICALITY reject	TYPE DCH-DeleteList-RL-ReconfPrepTDD		PRESENCE optional	}|
	{ ID id-DSCH-ModifyList-RL-ReconfPrepTDD	CRITICALITY reject	TYPE DSCH-ModifyList-RL-ReconfPrepTDD		PRESENCE optional	} |
	{ ID id-DSCHs-to-Add-TDD		CRITICALITY reject	TYPE DSCH-TDD-Information			PRESENCE optional	} |
	{ ID id-DSCH-DeleteList-RL-ReconfPrepTDD	CRITICALITY reject	TYPE DSCH-DeleteList-RL-ReconfPrepTDD		PRESENCE optional	} |
	{ ID id-USCH-ModifyList-RL-ReconfPrepTDD	CRITICALITY reject	TYPE USCH-ModifyList-RL-ReconfPrepTDD		PRESENCE optional	} |
	{ ID id-USCHs-to-Add		CRITICALITY reject	TYPE USCH-Information			PRESENCE optional	} |
	{ ID id-USCH-DeleteList-RL-ReconfPrepTDD	CRITICALITY reject	TYPE USCH-DeleteList-RL-ReconfPrepTDD		PRESENCE optional	},
	...
}

UL-CCTrCH-InformationAddList-RL-ReconfPrepTDD		::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {UL-CCTrCH-AddInformation-RL-ReconfPrepTDD-IEs} }

UL-CCTrCH-AddInformation-RL-ReconfPrepTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-AddInformation-RL-ReconfPrepTDD	CRITICALITY notify	TYPE UL-CCTrCH-AddInformation-RL-ReconfPrepTDD	PRESENCE mandatory	}
}

UL-CCTrCH-AddInformation-RL-ReconfPrepTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	tFCS						TFCS,
	tFCI-Coding					TFCI-Coding,
	punctureLimit					PunctureLimit,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCH-AddInformation-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCH-AddInformation-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UL-SIRTarget		CRITICALITY reject		EXTENSION		UL-SIR		PRESENCE optional}|
	-- This IE shall be mandatory for 1.28Mcps TDD, not applicable for 3.84Mcps TDD or 7.68Mcps TDD.
{ ID id-TDD-TPC-UplinkStepSize-InformationAdd-LCR-RL-ReconfPrepTDD	CRITICALITY reject	EXTENSION TDD-TPC-UplinkStepSize-LCR	PRESENCE optional	},
	-- Mandatory for 1.28Mcps TDD, not applicable to 3.84Mcps TDD or 7.68Mcps TDD
	...
}

UL-CCTrCH-InformationModifyList-RL-ReconfPrepTDD		::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {UL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD-IEs} }

UL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD	CRITICALITY notify	TYPE UL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD	PRESENCE mandatory	}
}

UL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	tFCS						TFCS		OPTIONAL,
	tFCI-Coding					TFCI-Coding				OPTIONAL,
	punctureLimit					PunctureLimit				OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UL-SIRTarget		CRITICALITY reject		EXTENSION		UL-SIR		PRESENCE optional}|
	-- This IE shall be applicable for 1.28Mcps TDD only.
{ ID id-TDD-TPC-UplinkStepSize-InformationModify-LCR-RL-ReconfPrepTDD	CRITICALITY reject	EXTENSION	TDD-TPC-UplinkStepSize-LCR		PRESENCE optional	},
	-- Applicable to 1.28Mcps TDD only
	...
}

UL-CCTrCH-InformationDeleteList-RL-ReconfPrepTDD		::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {UL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD-IEs} }

UL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD	CRITICALITY notify	TYPE UL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD	PRESENCE mandatory	}
}

UL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCH-InformationAddList-RL-ReconfPrepTDD		::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {DL-CCTrCH-AddInformation-RL-ReconfPrepTDD-IEs} }

DL-CCTrCH-AddInformation-RL-ReconfPrepTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationAddItem-RL-ReconfPrepTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationAddItem-RL-ReconfPrepTDD	PRESENCE mandatory	}
}

DL-CCTrCH-InformationAddItem-RL-ReconfPrepTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	tFCS						TFCS,
	tFCI-Coding					TFCI-Coding,
	punctureLimit					PunctureLimit,
	cCTrCH-TPCList					CCTrCH-TPCAddList-RL-ReconfPrepTDD	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCH-InformationAddItem-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-InformationAddItem-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-TDD-TPC-DownlinkStepSize-InformationAdd-RL-ReconfPrepTDD	CRITICALITY reject	EXTENSION	TDD-TPC-DownlinkStepSize	PRESENCE optional	},
	...
}

CCTrCH-TPCAddList-RL-ReconfPrepTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF CCTrCH-TPCAddItem-RL-ReconfPrepTDD

CCTrCH-TPCAddItem-RL-ReconfPrepTDD	 ::= SEQUENCE {
	cCTrCH-ID						CCTrCH-ID,
	iE-Extensions					ProtocolExtensionContainer { { CCTrCH-TPCAddItem-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

CCTrCH-TPCAddItem-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCH-InformationModifyList-RL-ReconfPrepTDD		::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {DL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD-IEs} }

DL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationModifyItem-RL-ReconfPrepTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationModifyItem-RL-ReconfPrepTDD	PRESENCE mandatory	}
}

DL-CCTrCH-InformationModifyItem-RL-ReconfPrepTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	tFCS						TFCS		OPTIONAL,
	tFCI-Coding					TFCI-Coding				OPTIONAL,
	punctureLimit					PunctureLimit				OPTIONAL,
	cCTrCH-TPCList					CCTrCH-TPCModifyList-RL-ReconfPrepTDD		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCH-InformationModifyItem-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-InformationModifyItem-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-TDD-TPC-DownlinkStepSize-InformationModify-RL-ReconfPrepTDD	CRITICALITY reject		EXTENSION	TDD-TPC-DownlinkStepSize	PRESENCE optional},
	...
}

CCTrCH-TPCModifyList-RL-ReconfPrepTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF CCTrCH-TPCModifyItem-RL-ReconfPrepTDD

CCTrCH-TPCModifyItem-RL-ReconfPrepTDD	 ::= SEQUENCE {
	cCTrCH-ID						CCTrCH-ID,
	iE-Extensions					ProtocolExtensionContainer { { CCTrCH-TPCModifyItem-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

CCTrCH-TPCModifyItem-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCH-InformationDeleteList-RL-ReconfPrepTDD		::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {DL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD-IEs} }

DL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationDeleteItem-RL-ReconfPrepTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationDeleteItem-RL-ReconfPrepTDD	PRESENCE mandatory	}
}

DL-CCTrCH-InformationDeleteItem-RL-ReconfPrepTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCH-InformationDeleteItem-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-InformationDeleteItem-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-DeleteList-RL-ReconfPrepTDD				::= SEQUENCE (SIZE (0..maxNrOfDCHs)) OF DCH-DeleteItem-RL-ReconfPrepTDD

DCH-DeleteItem-RL-ReconfPrepTDD ::= SEQUENCE {
	dCH-ID						DCH-ID,
	iE-Extensions				ProtocolExtensionContainer { {DCH-DeleteItem-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

DCH-DeleteItem-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DSCH-ModifyList-RL-ReconfPrepTDD ::= SEQUENCE (SIZE(0..maxNoOfDSCHs)) OF DSCH-ModifyItem-RL-ReconfPrepTDD

DSCH-ModifyItem-RL-ReconfPrepTDD ::= SEQUENCE {
	dSCH-ID								DSCH-ID,
	dl-ccTrCHID							CCTrCH-ID						OPTIONAL,
	trChSourceStatisticsDescriptor		TrCH-SrcStatisticsDescr	OPTIONAL,
	transportFormatSet					TransportFormatSet				OPTIONAL,
	allocationRetentionPriority 		AllocationRetentionPriority		OPTIONAL,
	schedulingPriorityIndicator			SchedulingPriorityIndicator		OPTIONAL,
	bLER								BLER							OPTIONAL,
	transportBearerRequestIndicator		TransportBearerRequestIndicator,
	iE-Extensions					ProtocolExtensionContainer { {DSCH-ModifyItem-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

DSCH-ModifyItem-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TrafficClass					CRITICALITY ignore	EXTENSION TrafficClass							PRESENCE optional	}|
	{ ID id-BindingID						CRITICALITY	ignore		EXTENSION 	BindingID			PRESENCE 	optional	}|
	-- Shall be ignored if bearer establishment with ALCAP.
	{ ID id-TransportLayerAddress			CRITICALITY	ignore		EXTENSION 	TransportLayerAddress		PRESENCE optional	}|
	-- Shall be ignored if bearer establishment with ALCAP.
	{ ID id-TnlQos							CRITICALITY ignore		EXTENSION	TnlQos							PRESENCE optional	},
	-- Shall be ignored if bearer establishment with ALCAP.
	...
}

DSCH-DeleteList-RL-ReconfPrepTDD ::= SEQUENCE (SIZE(0..maxNoOfDSCHs)) OF DSCH-DeleteItem-RL-ReconfPrepTDD

DSCH-DeleteItem-RL-ReconfPrepTDD ::= SEQUENCE {
	dSCH-ID								DSCH-ID,
	iE-Extensions					ProtocolExtensionContainer { {DSCH-DeleteItem-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

DSCH-DeleteItem-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

USCH-ModifyList-RL-ReconfPrepTDD ::= SEQUENCE (SIZE(0..maxNoOfUSCHs)) OF USCH-ModifyItem-RL-ReconfPrepTDD

USCH-ModifyItem-RL-ReconfPrepTDD ::= SEQUENCE {
	uSCH-ID								USCH-ID,
	ul-ccTrCHID							CCTrCH-ID						OPTIONAL,
	trChSourceStatisticsDescriptor		TrCH-SrcStatisticsDescr	OPTIONAL,
	transportFormatSet					TransportFormatSet				OPTIONAL,
	allocationRetentionPriority 		AllocationRetentionPriority		OPTIONAL,
	schedulingPriorityIndicator			SchedulingPriorityIndicator		OPTIONAL,
	bLER								BLER							OPTIONAL,
	transportBearerRequestIndicator		TransportBearerRequestIndicator,
	rb-Info								RB-Info							OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { {USCH-ModifyItem-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

USCH-ModifyItem-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TrafficClass			CRITICALITY ignore	EXTENSION TrafficClass				PRESENCE optional	}|
	{ ID id-BindingID				CRITICALITY	ignore	EXTENSION 	BindingID	PRESENCE 		optional	}|
	-- Shall be ignored if bearer establishment with ALCAP.
	{ ID id-TransportLayerAddress			CRITICALITY	ignore		EXTENSION 	TransportLayerAddress		PRESENCE 	optional	}|
	-- Shall be ignored if bearer establishment with ALCAP.
	{ ID id-TnlQos						CRITICALITY 	ignore		EXTENSION 	TnlQos		PRESENCE 		optional	},
	...
}

USCH-DeleteList-RL-ReconfPrepTDD ::= SEQUENCE (SIZE(0..maxNoOfUSCHs)) OF USCH-DeleteItem-RL-ReconfPrepTDD

USCH-DeleteItem-RL-ReconfPrepTDD ::= SEQUENCE {
	uSCH-ID								USCH-ID,
	iE-Extensions					ProtocolExtensionContainer { {USCH-DeleteItem-RL-ReconfPrepTDD-ExtIEs} } OPTIONAL,
	...
}

USCH-DeleteItem-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkReconfigurationPrepareTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-PrimaryCCPCH-RSCP-RL-ReconfPrepTDD	CRITICALITY ignore	EXTENSION PrimaryCCPCH-RSCP					PRESENCE optional}|
	{ ID id-DL-TimeSlot-ISCP-Info-RL-ReconfPrepTDD	CRITICALITY ignore	EXTENSION DL-TimeSlot-ISCP-Info			PRESENCE optional}|
	{ ID id-DL-Timeslot-ISCP-LCR-Information-RL-ReconfPrepTDD	CRITICALITY ignore	EXTENSION DL-TimeSlot-ISCP-LCR-Information	PRESENCE optional}|
	{ ID id-HSDSCH-TDD-Information				CRITICALITY reject	EXTENSION HSDSCH-TDD-Information		PRESENCE optional}|
	{ ID id-HSDSCH-Information-to-Modify		CRITICALITY reject	EXTENSION HSDSCH-Information-to-Modify		PRESENCE optional}|
	{ ID id-HSDSCH-MACdFlows-to-Add				CRITICALITY reject	EXTENSION HSDSCH-MACdFlows-Information		PRESENCE optional}|
	{ ID id-HSDSCH-MACdFlows-to-Delete			CRITICALITY reject	EXTENSION HSDSCH-MACdFlows-to-Delete		PRESENCE optional}|
	{ ID id-HSPDSCH-RL-ID						CRITICALITY reject	EXTENSION RL-ID								PRESENCE optional}|
	{ ID id-PDSCH-RL-ID							CRITICALITY ignore	EXTENSION RL-ID								PRESENCE optional}|
	{ ID id-UL-Synchronisation-Parameters-LCR	CRITICALITY ignore	EXTENSION UL-Synchronisation-Parameters-LCR		PRESENCE optional}|
-- Mandatory for 1.28Mcps TDD, Not Applicable to 3.84Mcps TDD or 7.68Mcps TDD
	{ ID id-RL-Information-RL-ReconfPrepTDD		CRITICALITY ignore	EXTENSION RL-Information-RL-ReconfPrepTDD		PRESENCE optional}|
	{ ID id-PrimaryCCPCH-RSCP-Delta				CRITICALITY ignore	EXTENSION PrimaryCCPCH-RSCP-Delta			PRESENCE optional}|
	{ ID id-E-DCH-Information-Reconfig			CRITICALITY reject	EXTENSION E-DCH-Information-Reconfig		PRESENCE optional}|
	{ ID id-E-DCH-Serving-RL-ID					CRITICALITY reject	EXTENSION RL-ID						PRESENCE optional}|
	{ ID id-E-DCH-768-Information-Reconfig		CRITICALITY reject	EXTENSION E-DCH-768-Information-Reconfig		PRESENCE optional}|
	{ ID id-E-DCH-LCR-Information-Reconfig		CRITICALITY reject	EXTENSION E-DCH-LCR-Information-Reconfig		PRESENCE optional}|
	{ ID id-NeedforIdleInterval					CRITICALITY ignore	EXTENSION NeedforIdleInterval				PRESENCE optional}|
	{ ID id-CPC-InformationLCR					CRITICALITY reject	EXTENSION CPC-InformationLCR				PRESENCE optional}|
	{ ID id-RNTI-Allocation-Indicator			CRITICALITY ignore	EXTENSION RNTI-Allocation-Indicator			PRESENCE optional}|
	{ ID id-DCH-MeasurementType-Indicator		CRITICALITY reject	EXTENSION DCH-MeasurementType-Indicator		PRESENCE optional}|
	{ ID id-Multi-Carrier-EDCH-Reconfigure		CRITICALITY reject	EXTENSION Multi-Carrier-EDCH-Reconfigure		PRESENCE optional}|
	{ ID id-MU-MIMO-Indicator					CRITICALITY reject	EXTENSION MU-MIMO-Indicator					PRESENCE optional}|
	{ ID id-UE-Support-of-non-rectangular-resource-allocation	CRITICALITY ignore	EXTENSION UE-Support-of-non-rectangular-resource-allocation		PRESENCE optional},
	...
}


RL-Information-RL-ReconfPrepTDD ::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF RL-InformationIE-RL-ReconfPrepTDD

RL-InformationIE-RL-ReconfPrepTDD ::= SEQUENCE {
	rL-ID								RL-ID,
	rL-Specific-DCH-Info				RL-Specific-DCH-Info			OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { RL-InformationIE-RL-ReconfPrepTDD-ExtIEs} }		OPTIONAL,
	...
}

RL-InformationIE-RL-ReconfPrepTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK RECONFIGURATION READY FDD
--
-- **************************************************************

RadioLinkReconfigurationReadyFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationReadyFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationReadyFDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationReadyFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationResponseList-RL-ReconfReadyFDD	CRITICALITY ignore	TYPE RL-InformationResponseList-RL-ReconfReadyFDD		PRESENCE optional	} |
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

RL-InformationResponseList-RL-ReconfReadyFDD		::= SEQUENCE (SIZE (0..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-InformationResponse-RL-ReconfReadyFDD-IEs} }

RL-InformationResponse-RL-ReconfReadyFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationResponseItem-RL-ReconfReadyFDD	CRITICALITY ignore	TYPE RL-InformationResponseItem-RL-ReconfReadyFDD		PRESENCE mandatory	}
}

RL-InformationResponseItem-RL-ReconfReadyFDD ::= SEQUENCE {
	rL-ID	RL-ID,
	max-UL-SIR	UL-SIR	OPTIONAL,
	min-UL-SIR	UL-SIR	OPTIONAL,
	maximumDLTxPower	DL-Power	OPTIONAL,
	minimumDLTxPower	DL-Power	OPTIONAL,
	not-Used-secondary-CCPCH-Info	NULL	OPTIONAL,
	dl-CodeInformationList	DL-CodeInformationList-RL-ReconfReadyFDD	OPTIONAL,
	dCHInformationResponse	DCH-InformationResponseList-RL-ReconfReadyFDD	OPTIONAL,
	not-Used-dSCHsToBeAddedOrModified	NULL	OPTIONAL,
	iE-Extensions	ProtocolExtensionContainer { {RL-InformationResponseItem-RL-ReconfReadyFDD-ExtIEs} }	OPTIONAL,
	...
}

RL-InformationResponseItem-RL-ReconfReadyFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DL-PowerBalancing-UpdatedIndicator			CRITICALITY ignore	EXTENSION DL-PowerBalancing-UpdatedIndicator	PRESENCE optional }|
	{ ID id-Primary-CPICH-Usage-For-Channel-Estimation	CRITICALITY ignore	EXTENSION Primary-CPICH-Usage-For-Channel-Estimation	PRESENCE optional }|
	{ ID id-Secondary-CPICH-Information-Change			CRITICALITY ignore	EXTENSION Secondary-CPICH-Information-Change	PRESENCE optional }|
	{ ID id-EDCH-FDD-InformationResponse				CRITICALITY ignore	EXTENSION EDCH-FDD-InformationResponse		PRESENCE optional }|
	{ ID id-EDCH-RLSet-Id								CRITICALITY ignore	EXTENSION RL-Set-ID						PRESENCE optional }|
	{ ID id-EDCH-FDD-DL-ControlChannelInformation		CRITICALITY ignore	EXTENSION EDCH-FDD-DL-ControlChannelInformation	PRESENCE optional }|
	{ ID id-F-DPCH-SlotFormat							CRITICALITY ignore	EXTENSION F-DPCH-SlotFormat				PRESENCE optional }|
	{ ID id-HSDSCH-PreconfigurationInfo					CRITICALITY ignore	EXTENSION HSDSCH-PreconfigurationInfo		PRESENCE optional }|
	{ ID id-Non-Serving-RL-Preconfig-Info				CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Info		PRESENCE optional }|
	{ ID id-FTPICH-Information-Response					CRITICALITY ignore	EXTENSION FTPICH-Information-Response		PRESENCE optional },
	...
}

DL-CodeInformationList-RL-ReconfReadyFDD ::= ProtocolIE-Single-Container {{ DL-CodeInformationListIEs-RL-ReconfReadyFDD }}

DL-CodeInformationListIEs-RL-ReconfReadyFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-FDD-DL-CodeInformation	CRITICALITY ignore	TYPE FDD-DL-CodeInformation	PRESENCE mandatory}
}

DCH-InformationResponseList-RL-ReconfReadyFDD				::= ProtocolIE-Single-Container { {DCH-InformationResponseListIEs-RL-ReconfReadyFDD} }

DCH-InformationResponseListIEs-RL-ReconfReadyFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DCH-InformationResponse		CRITICALITY ignore	TYPE DCH-InformationResponse		PRESENCE mandatory	}
}

RadioLinkReconfigurationReadyFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HSDSCH-RNTI								CRITICALITY ignore	EXTENSION HSDSCH-RNTI					PRESENCE optional}|
	{ ID id-HSDSCH-FDD-Information-Response			CRITICALITY ignore	EXTENSION HSDSCH-FDD-Information-Response	PRESENCE optional}|
	{ ID id-MAChs-ResetIndicator					CRITICALITY ignore	EXTENSION MAChs-ResetIndicator			PRESENCE optional}|
	{ ID id-Fast-Reconfiguration-Permission			CRITICALITY ignore	EXTENSION Fast-Reconfiguration-Permission	PRESENCE optional}|
	{ ID id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response	CRITICALITY ignore	EXTENSION Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response		PRESENCE optional}|
	{ ID id-Additional-HS-Cell-RL-Reconf-Response	CRITICALITY ignore	EXTENSION Additional-HS-Cell-RL-Reconf-Response	PRESENCE optional}|
	{ ID id-Additional-EDCH-Cell-Information-ResponseRLReconf	CRITICALITY ignore	EXTENSION	Additional-EDCH-Cell-Information-Response-RLReconf-List	PRESENCE optional},
	...
}


Additional-HS-Cell-RL-Reconf-Response	::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF Additional-HS-Cell-RL-Reconf-Response-ItemIEs

Additional-HS-Cell-RL-Reconf-Response-ItemIEs	::=SEQUENCE{
	hSPDSCH-RL-ID										RL-ID,
	hSDSCH-RNTI											HSDSCH-RNTI,
	hS-DSCH-FDD-Secondary-Serving-Information-Response	HS-DSCH-FDD-Secondary-Serving-Information-Response,
	iE-Extensions					ProtocolExtensionContainer { { Additional-HS-Cell-RL-Reconf-Response-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-HS-Cell-RL-Reconf-Response-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK RECONFIGURATION READY TDD
--
-- **************************************************************

RadioLinkReconfigurationReadyTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationReadyTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationReadyTDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationReadyTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationResponse-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE RL-InformationResponse-RL-ReconfReadyTDD	PRESENCE optional} |
	--This RL-InformationResponse-RL-ReconfReadyTDD is for the first RL repetition in the list.
	--Repetitions 2 and on are defined in Multiple-RL-InformationResponse-RL-ReconfReadyTDD.
	{ ID id-CriticalityDiagnostics						CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional},
	...
}

RL-InformationResponse-RL-ReconfReadyTDD ::= SEQUENCE {
	rL-ID							RL-ID,
	max-UL-SIR						UL-SIR			OPTIONAL,
	min-UL-SIR						UL-SIR			OPTIONAL,
	maximumDLTxPower				DL-Power		OPTIONAL,
	minimumDLTxPower				DL-Power		OPTIONAL,
	secondary-CCPCH-Info-TDD		Secondary-CCPCH-Info-TDD	OPTIONAL,
	ul-CCTrCH-Information			UL-CCTrCH-InformationList-RL-ReconfReadyTDD 	OPTIONAL,
	dl-CCTrCH-Information			DL-CCTrCH-InformationList-RL-ReconfReadyTDD	OPTIONAL,
	dCHInformationResponse			DCH-InformationResponseList-RL-ReconfReadyTDD	OPTIONAL,
	dSCHsToBeAddedOrModified		DSCHToBeAddedOrModified-RL-ReconfReadyTDD	OPTIONAL,
	uSCHsToBeAddedOrModified		USCHToBeAddedOrModified-RL-ReconfReadyTDD	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {RL-InformationResponse-RL-ReconfReadyTDD-ExtIEs} }	OPTIONAL,
	...
}

RL-InformationResponse-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UL-TimingAdvanceCtrl-LCR					CRITICALITY ignore	EXTENSION UL-TimingAdvanceCtrl-LCR			PRESENCE optional}|
	--For 1.28Mcps TDD only
	{ ID id-secondary-LCR-CCPCH-Info-TDD				CRITICALITY ignore	EXTENSION Secondary-LCR-CCPCH-Info-TDD		PRESENCE optional}|
	--For 1.28Mcps TDD only
	{ ID id-secondary-CCPCH-Info-RL-ReconfReadyTDD768	CRITICALITY ignore	EXTENSION Secondary-CCPCH-Info-TDD768		PRESENCE optional}|
	{ ID id-UARFCNforNt									CRITICALITY ignore	EXTENSION UARFCN				PRESENCE optional},
	-- Applicable to 1.28Mcps TDD only
	...
}

UL-CCTrCH-InformationList-RL-ReconfReadyTDD 		::= ProtocolIE-Single-Container {{UL-CCTrCHInformationListIEs-RL-ReconfReadyTDD}}

UL-CCTrCHInformationListIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-InformationListIE-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE UL-CCTrCHInformationListIE-RL-ReconfReadyTDD	PRESENCE mandatory}
}

UL-CCTrCHInformationListIE-RL-ReconfReadyTDD ::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF UL-CCTrCH-InformationItem-RL-ReconfReadyTDD

UL-CCTrCH-InformationItem-RL-ReconfReadyTDD ::= SEQUENCE {
	cCTrCH-ID						CCTrCH-ID,
	ul-DPCH-AddInformation			UL-DPCH-InformationAddList-RL-ReconfReadyTDD			OPTIONAL,
	--For 3.84Mcps TDD only
	ul-DPCH-ModifyInformation		UL-DPCH-InformationModifyList-RL-ReconfReadyTDD				OPTIONAL,
	ul-DPCH-DeleteInformation		UL-DPCH-InformationDeleteList-RL-ReconfReadyTDD				OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCH-InformationItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCH-InformationItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UL-DPCH-LCR-InformationAddListIE-RL-ReconfReadyTDD		CRITICALITY ignore		EXTENSION UL-DPCH-LCR-InformationAddList-RL-ReconfReadyTDD		PRESENCE optional }|
	--For 1.28Mcps TDD only
	{ ID id-UL-DPCH-InformationAddListIE-RL-ReconfReadyTDD768		CRITICALITY ignore		EXTENSION UL-DPCH-InformationAddList-RL-ReconfReadyTDD768		PRESENCE optional },
	--For 7.68Mcps TDD only
	...
}

UL-DPCH-LCR-InformationAddList-RL-ReconfReadyTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	uL-TimeslotLCR-Info				UL-TimeslotLCR-Information,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-LCR-InformationAddItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-LCR-InformationAddItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-DPCH-InformationAddList-RL-ReconfReadyTDD ::= ProtocolIE-Single-Container {{UL-DPCH-InformationAddListIEs-RL-ReconfReadyTDD}}

UL-DPCH-InformationAddListIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-DPCH-InformationAddListIE-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE UL-DPCH-InformationAddListIE-RL-ReconfReadyTDD	PRESENCE optional}
}

UL-DPCH-InformationAddListIE-RL-ReconfReadyTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	rxTimingDeviationForTA			RxTimingDeviationForTA			OPTIONAL,
	uL-Timeslot-Information			UL-Timeslot-Information,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-InformationAddItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-InformationAddItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-RxTimingDeviationForTAext		CRITICALITY ignore		EXTENSION RxTimingDeviationForTAext		PRESENCE optional },
	...
}

UL-DPCH-InformationAddList-RL-ReconfReadyTDD768 ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	rxTimingDeviationForTA768			RxTimingDeviationForTA768			OPTIONAL,
	uL-Timeslot-Information768			UL-Timeslot-Information768,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-InformationAddItem-RL-ReconfReadyTDD768-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-InformationAddItem-RL-ReconfReadyTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-DPCH-InformationModifyList-RL-ReconfReadyTDD ::= ProtocolIE-Single-Container {{UL-DPCH-InformationModifyListIEs-RL-ReconfReadyTDD}}

UL-DPCH-InformationModifyListIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-DPCH-InformationModifyListIE-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE UL-DPCH-InformationModifyListIE-RL-ReconfReadyTDD		PRESENCE mandatory}
}

UL-DPCH-InformationModifyListIE-RL-ReconfReadyTDD::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod			OPTIONAL,
	repetitionLength				RepetitionLength			OPTIONAL,
	tDD-DPCHOffset					TDD-DPCHOffset				OPTIONAL,
	uL-Timeslot-InformationModifyList-RL-ReconfReadyTDD			UL-Timeslot-InformationModifyList-RL-ReconfReadyTDD			OPTIONAL,
	--For 3.84Mcps TDD only
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UL-Timeslot-LCR-InformationModifyList-RL-ReconfReadyTDD	CRITICALITY ignore	EXTENSION UL-TimeslotLCR-InformationModifyList-RL-ReconfReadyTDD	PRESENCE optional}|
	--For 1.28Mcps TDD only
	{ ID id-UL-Timeslot-InformationModifyList-RL-ReconfReadyTDD768	CRITICALITY ignore	EXTENSION UL-Timeslot-InformationModifyList-RL-ReconfReadyTDD768	PRESENCE optional},
	--For 7.68Mcps TDD only
...
}

UL-TimeslotLCR-InformationModifyList-RL-ReconfReadyTDD::= SEQUENCE ( SIZE (1..maxNrOfTsLCR)) OF UL-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD

UL-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD ::= SEQUENCE {
	timeSlotLCR						TimeSlotLCR,
	midambleShiftLCR				MidambleShiftLCR			OPTIONAL,
	tFCI-Presence					TFCI-Presence			OPTIONAL,
	tDD-uL-Code-LCR-Information			TDD-UL-Code-LCR-InformationModifyList-RL-ReconfReadyTDD			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

TDD-UL-Code-LCR-InformationModifyList-RL-ReconfReadyTDD::= SEQUENCE ( SIZE (1..maxNrOfDPCHsLCR)) OF TDD-UL-Code-LCR-InformationModifyItem-RL-ReconfReadyTDD

TDD-UL-Code-LCR-InformationModifyItem-RL-ReconfReadyTDD ::= SEQUENCE {
	dPCH-ID							DPCH-ID,
	tDD-ChannelisationCodeLCR			TDD-ChannelisationCodeLCR		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {TDD-UL-Code-LCR-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

TDD-UL-Code-LCR-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-TDD-UL-DPCH-TimeSlotFormatModifyItem-LCR-RL-ReconfReadyTDD	CRITICALITY reject	EXTENSION TDD-UL-DPCH-TimeSlotFormat-LCR	PRESENCE optional},
	...
}

UL-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-Timeslot-InformationModifyList-RL-ReconfReadyTDD::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF UL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD

UL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType					MidambleShiftAndBurstType			OPTIONAL,
	tFCI-Presence					TFCI-Presence			OPTIONAL,
	uL-Code-Information			TDD-UL-Code-InformationModifyList-RL-ReconfReadyTDD			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

UL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TDD-UL-Code-InformationModifyList-RL-ReconfReadyTDD::= SEQUENCE ( SIZE (1..maxNrOfDPCHs)) OF TDD-UL-Code-InformationModifyItem-RL-ReconfReadyTDD

TDD-UL-Code-InformationModifyItem-RL-ReconfReadyTDD ::= SEQUENCE {
	dPCH-ID							DPCH-ID,
	tDD-ChannelisationCode			TDD-ChannelisationCode		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {TDD-UL-Code-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

TDD-UL-Code-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-Timeslot-InformationModifyList-RL-ReconfReadyTDD768::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF UL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD768

UL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD768 ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType768	MidambleShiftAndBurstType768			OPTIONAL,
	tFCI-Presence					TFCI-Presence			OPTIONAL,
	uL-Code-Information768			TDD-UL-Code-InformationModifyList-RL-ReconfReadyTDD768		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD768-ExtIEs} } OPTIONAL,
	...
}

UL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TDD-UL-Code-InformationModifyList-RL-ReconfReadyTDD768::= SEQUENCE ( SIZE (1..maxNrOfDPCHs768)) OF TDD-UL-Code-InformationModifyItem-RL-ReconfReadyTDD768

TDD-UL-Code-InformationModifyItem-RL-ReconfReadyTDD768 ::= SEQUENCE {
	dPCH-ID							DPCH-ID,
	tDD-ChannelisationCode768		TDD-ChannelisationCode768		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {TDD-UL-Code-InformationModifyItem-RL-ReconfReadyTDD768-ExtIEs} } OPTIONAL,
	...
}

TDD-UL-Code-InformationModifyItem-RL-ReconfReadyTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


UL-DPCH-InformationDeleteList-RL-ReconfReadyTDD ::= ProtocolIE-Single-Container {{UL-DPCH-InformationDeleteListIEs-RL-ReconfReadyTDD}}

UL-DPCH-InformationDeleteListIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-DPCH-InformationDeleteListIE-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE UL-DPCH-InformationDeleteListIE-RL-ReconfReadyTDD		PRESENCE mandatory}
}

UL-DPCH-InformationDeleteListIE-RL-ReconfReadyTDD ::= SEQUENCE (SIZE (0..maxNrOfDPCHs)) OF UL-DPCH-InformationDeleteItem-RL-ReconfReadyTDD

UL-DPCH-InformationDeleteItem-RL-ReconfReadyTDD ::= SEQUENCE {
	dPCH-ID						DPCH-ID,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-InformationDeleteList-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-InformationDeleteList-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCH-InformationList-RL-ReconfReadyTDD 		::= ProtocolIE-Single-Container {{DL-CCTrCHInformationListIEs-RL-ReconfReadyTDD}} 

DL-CCTrCHInformationListIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationListIE-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE DL-CCTrCHInformationListIE-RL-ReconfReadyTDD	PRESENCE mandatory}
}

DL-CCTrCHInformationListIE-RL-ReconfReadyTDD ::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF DL-CCTrCH-InformationItem-RL-ReconfReadyTDD

DL-CCTrCH-InformationItem-RL-ReconfReadyTDD ::= SEQUENCE {
	cCTrCH-ID						CCTrCH-ID,
	dl-DPCH-AddInformation			DL-DPCH-InformationAddList-RL-ReconfReadyTDD			OPTIONAL,
	--For 3.84Mcps TDD only
	dl-DPCH-ModifyInformation		DL-DPCH-InformationModifyList-RL-ReconfReadyTDD			OPTIONAL,
	dl-DPCH-DeleteInformation		DL-DPCH-InformationDeleteList-RL-ReconfReadyTDD			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCH-InformationItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-InformationItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DL-DPCH-LCR-InformationAddListIE-RL-ReconfReadyTDD		CRITICALITY ignore	EXTENSION	DL-DPCH-LCR-InformationAddList-RL-ReconfReadyTDD		PRESENCE optional}|
	--For 1.28Mcps TDD only
	{ ID id-CCTrCH-Maximum-DL-Power-RL-ReconfReadyTDD				CRITICALITY ignore	EXTENSION DL-Power		PRESENCE optional}|
	-- Applicable to 3.84Mcps TDD and 7.68Mcps TDD only, this is a DCH type CCTrCH power
	{ ID id-CCTrCH-Minimum-DL-Power-RL-ReconfReadyTDD				CRITICALITY ignore	EXTENSION DL-Power		PRESENCE optional}|
	-- Applicable to 3.84Mcps TDD and 7.68Mcps TDD only, this is a DCH type CCTrCH power
	{ ID id-DL-DPCH-InformationAddListIE-RL-ReconfReadyTDD768		CRITICALITY ignore	EXTENSION DL-DPCH-InformationAddList-RL-ReconfReadyTDD768			PRESENCE optional}|
	--For 7.68Mcps TDD only
	{ ID id-DL-DPCH-InformationDeleteList768-RL-ReconfReadyTDD		CRITICALITY ignore	EXTENSION DL-DPCH-InformationDeleteList768-RL-ReconfReadyTDD		PRESENCE optional},
	...
}

DL-DPCH-LCR-InformationAddList-RL-ReconfReadyTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	dL-TimeslotLCR-Info				DL-TimeslotLCR-Information,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-LCR-InformationAddItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-LCR-InformationAddItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-DPCH-InformationAddList-RL-ReconfReadyTDD ::= ProtocolIE-Single-Container {{DL-DPCH-InformationAddListIEs-RL-ReconfReadyTDD}}

DL-DPCH-InformationAddListIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-DPCH-InformationAddListIE-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE DL-DPCH-InformationAddListIE-RL-ReconfReadyTDD		PRESENCE mandatory}
}

DL-DPCH-InformationAddListIE-RL-ReconfReadyTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	dL-Timeslot-Information			DL-Timeslot-Information,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-InformationAddItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-InformationAddItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-DPCH-InformationAddList-RL-ReconfReadyTDD768 ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tDD-DPCHOffset					TDD-DPCHOffset,
	dL-Timeslot-Information768		DL-Timeslot-Information768,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-InformationAddItem-RL-ReconfReadyTDD768-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-InformationAddItem-RL-ReconfReadyTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-DPCH-InformationModifyList-RL-ReconfReadyTDD ::= ProtocolIE-Single-Container {{DL-DPCH-InformationModifyListIEs-RL-ReconfReadyTDD}}

DL-DPCH-InformationModifyListIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-DPCH-InformationModifyListIE-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE DL-DPCH-InformationModifyListIE-RL-ReconfReadyTDD		PRESENCE mandatory}
}

DL-DPCH-InformationModifyListIE-RL-ReconfReadyTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod			OPTIONAL,
	repetitionLength				RepetitionLength			OPTIONAL,
	tDD-DPCHOffset					TDD-DPCHOffset				OPTIONAL,
	dL-Timeslot-InformationModifyList-RL-ReconfReadyTDD			DL-Timeslot-InformationModifyList-RL-ReconfReadyTDD			OPTIONAL,
	--For 3.84Mcps TDD only
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DL-Timeslot-LCR-InformationModifyList-RL-ReconfReadyTDD	CRITICALITY ignore	EXTENSION DL-TimeslotLCR-InformationModifyList-RL-ReconfReadyTDD		PRESENCE optional}|
	--For 1.28Mcps TDD only
	{ ID id-DL-Timeslot-InformationModifyList-RL-ReconfReadyTDD768	CRITICALITY ignore	EXTENSION DL-Timeslot-InformationModifyList-RL-ReconfReadyTDD768	PRESENCE optional},
	--For 7.68Mcps TDD only
	...
}

DL-TimeslotLCR-InformationModifyList-RL-ReconfReadyTDD::= SEQUENCE ( SIZE (1..maxNrOfTsLCR)) OF DL-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD

DL-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD ::= SEQUENCE {
	timeSlotLCR						TimeSlotLCR,
	midambleShiftLCR				MidambleShiftLCR			OPTIONAL,
	tFCI-Presence					TFCI-Presence			OPTIONAL,
	tDD-dL-Code-LCR-Information		TDD-DL-Code-LCR-InformationModifyList-RL-ReconfReadyTDD			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

TDD-DL-Code-LCR-InformationModifyList-RL-ReconfReadyTDD::= SEQUENCE ( SIZE (1..maxNrOfDPCHsLCR)) OF TDD-DL-Code-LCR-InformationModifyItem-RL-ReconfReadyTDD

TDD-DL-Code-LCR-InformationModifyItem-RL-ReconfReadyTDD ::= SEQUENCE {
	dPCH-ID							DPCH-ID,
	tDD-ChannelisationCodeLCR		TDD-ChannelisationCodeLCR		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {TDD-DL-Code-LCR-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

TDD-DL-Code-LCR-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TDD-DL-DPCH-TimeSlotFormatModifyItem-LCR-RL-ReconfReadyTDD		CRITICALITY reject			EXTENSION TDD-DL-DPCH-TimeSlotFormat-LCR		PRESENCE optional},
	...
}

DL-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Maximum-DL-Power-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD	CRITICALITY ignore	EXTENSION DL-Power	PRESENCE optional}|
	{ ID id-Minimum-DL-Power-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD	CRITICALITY ignore	EXTENSION DL-Power	PRESENCE optional},
	...
}

DL-Timeslot-InformationModifyList-RL-ReconfReadyTDD::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF DL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD

DL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType		MidambleShiftAndBurstType			OPTIONAL,
	tFCI-Presence					TFCI-Presence			OPTIONAL,
	dL-Code-Information				TDD-DL-Code-InformationModifyList-RL-ReconfReadyTDD			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

DL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TDD-DL-Code-InformationModifyList-RL-ReconfReadyTDD::= SEQUENCE ( SIZE (1..maxNrOfDPCHs)) OF TDD-DL-Code-InformationModifyItem-RL-ReconfReadyTDD

TDD-DL-Code-InformationModifyItem-RL-ReconfReadyTDD ::= SEQUENCE {
	dPCH-ID							DPCH-ID,
	tDD-ChannelisationCode			TDD-ChannelisationCode		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {TDD-DL-Code-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

TDD-DL-Code-InformationModifyItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TDD-DL-DPCH-TimeSlotFormatModifyItem-LCR-RL-ReconfReadyTDD	CRITICALITY reject	EXTENSION TDD-DL-DPCH-TimeSlotFormat-LCR	PRESENCE optional},
	-- This IE shall not be used
	...
}

DL-Timeslot-InformationModifyList-RL-ReconfReadyTDD768::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF DL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD768

DL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD768 ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType768	MidambleShiftAndBurstType768			OPTIONAL,
	tFCI-Presence					TFCI-Presence			OPTIONAL,
	dL-Code-Information768			TDD-DL-Code-InformationModifyList-RL-ReconfReadyTDD768			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD768-ExtIEs} } OPTIONAL,
	...
}

DL-Timeslot-InformationModifyItem-RL-ReconfReadyTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TDD-DL-Code-InformationModifyList-RL-ReconfReadyTDD768::= SEQUENCE ( SIZE (1..maxNrOfDPCHs768)) OF TDD-DL-Code-InformationModifyItem-RL-ReconfReadyTDD768

TDD-DL-Code-InformationModifyItem-RL-ReconfReadyTDD768 ::= SEQUENCE {
	dPCH-ID768						DPCH-ID768,
	tDD-ChannelisationCode768		TDD-ChannelisationCode768		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {TDD-DL-Code-InformationModifyItem-RL-ReconfReadyTDD768-ExtIEs} } OPTIONAL,
	...
}

TDD-DL-Code-InformationModifyItem-RL-ReconfReadyTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-DPCH-InformationDeleteList-RL-ReconfReadyTDD ::= ProtocolIE-Single-Container {{DL-DPCH-InformationDeleteListIEs-RL-ReconfReadyTDD}}

DL-DPCH-InformationDeleteListIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-DPCH-InformationDeleteListIE-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE DL-DPCH-InformationDeleteListIE-RL-ReconfReadyTDD		PRESENCE mandatory}
}

DL-DPCH-InformationDeleteListIE-RL-ReconfReadyTDD ::= SEQUENCE (SIZE (0..maxNrOfDPCHs)) OF DL-DPCH-InformationDeleteItem-RL-ReconfReadyTDD

DL-DPCH-InformationDeleteItem-RL-ReconfReadyTDD ::= SEQUENCE {
	dPCH-ID						DPCH-ID,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-InformationDeleteList-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-InformationDeleteList-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-DPCH-InformationDeleteList768-RL-ReconfReadyTDD ::= SEQUENCE (SIZE (0..maxNrOfDPCHs768)) OF DL-DPCH-InformationDeleteItem768-RL-ReconfReadyTDD

DL-DPCH-InformationDeleteItem768-RL-ReconfReadyTDD ::= SEQUENCE {
	dPCH-ID768						DPCH-ID768,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-InformationDeleteList768-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-InformationDeleteList768-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-InformationResponseList-RL-ReconfReadyTDD				::= ProtocolIE-Single-Container { {DCH-InformationResponseListIEs-RL-ReconfReadyTDD} }

DCH-InformationResponseListIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DCH-InformationResponse		CRITICALITY ignore	TYPE DCH-InformationResponse		PRESENCE mandatory	}
}

DSCHToBeAddedOrModified-RL-ReconfReadyTDD			::= ProtocolIE-Single-Container { {DSCHToBeAddedOrModifiedIEs-RL-ReconfReadyTDD} }

DSCHToBeAddedOrModifiedIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DSCHToBeAddedOrModifiedList-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE DSCHToBeAddedOrModifiedList-RL-ReconfReadyTDD		PRESENCE mandatory	}
}

DSCHToBeAddedOrModifiedList-RL-ReconfReadyTDD ::= SEQUENCE (SIZE (0..maxNoOfDSCHs)) OF DSCHToBeAddedOrModifiedItem-RL-ReconfReadyTDD

DSCHToBeAddedOrModifiedItem-RL-ReconfReadyTDD ::= SEQUENCE {
	dsch-ID					DSCH-ID,
	transportFormatManagement	TransportFormatManagement,
	dSCH-FlowControlInformation	DSCH-FlowControlInformation,
	bindingID				BindingID	OPTIONAL,
	transportLayerAddress	TransportLayerAddress	OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { {DSCHToBeAddedOrModifiedItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

DSCHToBeAddedOrModifiedItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

USCHToBeAddedOrModified-RL-ReconfReadyTDD			::= ProtocolIE-Single-Container { {USCHToBeAddedOrModifiedIEs-RL-ReconfReadyTDD} }USCHToBeAddedOrModifiedIEs-RL-ReconfReadyTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-USCHToBeAddedOrModifiedList-RL-ReconfReadyTDD	CRITICALITY ignore	TYPE USCHToBeAddedOrModifiedList-RL-ReconfReadyTDD		PRESENCE mandatory	}
}

USCHToBeAddedOrModifiedList-RL-ReconfReadyTDD ::= SEQUENCE (SIZE (0..maxNoOfUSCHs)) OF USCHToBeAddedOrModifiedItem-RL-ReconfReadyTDD

USCHToBeAddedOrModifiedItem-RL-ReconfReadyTDD ::= SEQUENCE {
	uSCH-ID					USCH-ID,
	transportFormatManagement	TransportFormatManagement,
	bindingID				BindingID	OPTIONAL,
	transportLayerAddress	TransportLayerAddress	OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { {USCHToBeAddedOrModifiedItem-RL-ReconfReadyTDD-ExtIEs} } OPTIONAL,
	...
}

USCHToBeAddedOrModifiedItem-RL-ReconfReadyTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkReconfigurationReadyTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HSDSCH-RNTI							CRITICALITY ignore	EXTENSION HSDSCH-RNTI						PRESENCE optional}|
	{ ID id-DSCH-RNTI							CRITICALITY ignore	EXTENSION DSCH-RNTI							PRESENCE optional}|
	{ ID id-HSDSCH-TDD-Information-Response		CRITICALITY ignore	EXTENSION HSDSCH-TDD-Information-Response		PRESENCE optional}|
	{ ID id-MAChs-ResetIndicator				CRITICALITY ignore	EXTENSION MAChs-ResetIndicator			PRESENCE optional}|
	{ ID id-Multiple-RL-InformationResponse-RL-ReconfReadyTDD	CRITICALITY	ignore	EXTENSION Multiple-RL-InformationResponse-RL-ReconfReadyTDD	PRESENCE optional}|
-- This is for RL repetitions 2 and on in RL list.
	{ ID id-E-DCH-Information-Response			CRITICALITY ignore	EXTENSION E-DCH-Information-Response		PRESENCE optional}|
	{ ID id-E-DCH-768-Information-Response		CRITICALITY ignore	EXTENSION E-DCH-768-Information-Response		PRESENCE optional}|
	{ ID id-E-DCH-LCR-Information-Response		CRITICALITY ignore	EXTENSION E-DCH-LCR-Information-Response		PRESENCE optional}|
	{ ID id-PowerControlGAP						CRITICALITY ignore	EXTENSION ControlGAP				PRESENCE optional}|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-IdleIntervalInformation				CRITICALITY ignore	EXTENSION	IdleIntervalInformation		PRESENCE optional}|
	{ ID id-ContinuousPacketConnectivity-DRX-Information-ResponseLCR	CRITICALITY ignore	EXTENSION ContinuousPacketConnectivity-DRX-Information-ResponseLCR		PRESENCE optional}|
	{ ID id-HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR	CRITICALITY ignore	EXTENSION HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR		PRESENCE optional}|
	{ ID id-E-DCH-Semi-PersistentScheduling-Information-ResponseLCR		CRITICALITY ignore	EXTENSION E-DCH-Semi-PersistentScheduling-Information-ResponseLCR		PRESENCE optional}|
	{ ID id-E-RNTI-For-FACH						CRITICALITY ignore	EXTENSION E-RNTI							PRESENCE optional}|
	{ ID id-H-RNTI-For-FACH						CRITICALITY ignore	EXTENSION HSDSCH-RNTI						PRESENCE optional}|
	{ ID id-DCH-MeasurementOccasion-Information	CRITICALITY reject	EXTENSION DCH-MeasurementOccasion-Information	PRESENCE optional}|
	{ ID id-Multi-Carrier-EDCH-Response			CRITICALITY ignore	EXTENSION Multi-Carrier-EDCH-Information-Response	PRESENCE optional}|
	{ ID id-MU-MIMO-InformationLCR				CRITICALITY reject	EXTENSION MU-MIMO-InformationLCR			PRESENCE optional}|
	{ ID id-Non-rectangular-resource-allocation-indicator	CRITICALITY reject	EXTENSION Non-rectangular-resource-allocation-indicator		PRESENCE optional}|
	{ ID id-Non-rectangular-resource-timeslot-set	CRITICALITY reject	EXTENSION Non-rectangular-resource-timeslot-set	PRESENCE optional},
	...
}

Multiple-RL-InformationResponse-RL-ReconfReadyTDD ::= SEQUENCE (SIZE (1..maxNrOfRLs-1)) OF RL-InformationResponse-RL-ReconfReadyTDD


-- **************************************************************
--
-- RADIO LINK RECONFIGURATION COMMIT
--
-- **************************************************************

RadioLinkReconfigurationCommit ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationCommit-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationCommit-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationCommit-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-CFN										CRITICALITY ignore	TYPE CFN								PRESENCE mandatory}|
	{ ID id-Active-Pattern-Sequence-Information		CRITICALITY ignore	TYPE Active-Pattern-Sequence-Information		PRESENCE optional},--FDD only
	...
}

RadioLinkReconfigurationCommit-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Fast-Reconfiguration-Mode	CRITICALITY reject	EXTENSION Fast-Reconfiguration-Mode		PRESENCE optional}|--FDD only
	{ ID id-ActivationDelay				CRITICALITY reject	EXTENSION ActivationDelay				PRESENCE optional},--FDD only
	...
}

-- **************************************************************
--
-- RADIO LINK RECONFIGURATION FAILURE
--
-- **************************************************************

RadioLinkReconfigurationFailure ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationFailure-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationFailure-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationFailure-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-CauseLevel-RL-ReconfFailure		CRITICALITY ignore	TYPE CauseLevel-RL-ReconfFailure	PRESENCE mandatory } |
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional },
	...
}

CauseLevel-RL-ReconfFailure ::= CHOICE {
	generalCause		GeneralCauseList-RL-ReconfFailure,
	rLSpecificCause		RLSpecificCauseList-RL-ReconfFailure,
	...
}

GeneralCauseList-RL-ReconfFailure ::= SEQUENCE {
	cause										Cause,
	iE-Extensions								ProtocolExtensionContainer { { GeneralCauseItem-RL-ReconfFailure-ExtIEs} }			OPTIONAL,
	...
 }

GeneralCauseItem-RL-ReconfFailure-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RLSpecificCauseList-RL-ReconfFailure ::= SEQUENCE {
	rL-ReconfigurationFailureList-RL-ReconfFailure		RL-ReconfigurationFailureList-RL-ReconfFailure		OPTIONAL,
	iE-Extensions										ProtocolExtensionContainer { { RLSpecificCauseItem-RL-ReconfFailure-ExtIEs} }			OPTIONAL,
	...
 }

RLSpecificCauseItem-RL-ReconfFailure-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-ReconfigurationFailureList-RL-ReconfFailure ::= SEQUENCE (SIZE (0..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-ReconfigurationFailure-RL-ReconfFailure-IEs} }

RL-ReconfigurationFailure-RL-ReconfFailure-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-ReconfigurationFailure-RL-ReconfFail	CRITICALITY ignore	TYPE RL-ReconfigurationFailure-RL-ReconfFail	PRESENCE mandatory	}
}

RL-ReconfigurationFailure-RL-ReconfFail ::= SEQUENCE {
	rL-ID						RL-ID,
	cause						Cause,
	iE-Extensions				ProtocolExtensionContainer { {RL-ReconfigurationFailure-RL-ReconfFailure-ExtIEs} } OPTIONAL,
	...
}

RL-ReconfigurationFailure-RL-ReconfFailure-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Max-UE-DTX-Cycle		CRITICALITY ignore		EXTENSION Max-UE-DTX-Cycle				PRESENCE conditional },
	-- This IE shall be present if the Cause IE is set to “Continuous Packet Connectivity UE DTX Cycle not Available”.
	...
}

RadioLinkReconfigurationFailure-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK RECONFIGURATION CANCEL
--
-- **************************************************************

RadioLinkReconfigurationCancel ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationCancel-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationCancel-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationCancel-IEs RNSAP-PROTOCOL-IES ::= {
	...
}

RadioLinkReconfigurationCancel-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK RECONFIGURATION REQUEST FDD
--
-- **************************************************************

RadioLinkReconfigurationRequestFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationRequestFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationRequestFDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationRequestFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-AllowedQueuingTime								CRITICALITY reject	TYPE AllowedQueuingTime	PRESENCE optional}|
	{ ID id-UL-DPCH-Information-RL-ReconfRqstFDD			CRITICALITY reject	TYPE UL-DPCH-Information-RL-ReconfRqstFDD	PRESENCE optional}|
	{ ID id-DL-DPCH-Information-RL-ReconfRqstFDD			CRITICALITY reject	TYPE DL-DPCH-Information-RL-ReconfRqstFDD	PRESENCE optional}|
	{ ID id-FDD-DCHs-to-Modify								CRITICALITY reject	TYPE FDD-DCHs-to-Modify	PRESENCE optional}|
	{ ID id-DCHs-to-Add-FDD									CRITICALITY reject	TYPE DCH-FDD-Information	PRESENCE optional}|
	{ ID id-DCH-DeleteList-RL-ReconfRqstFDD					CRITICALITY reject	TYPE DCH-DeleteList-RL-ReconfRqstFDD	PRESENCE optional}|
	{ ID id-Transmission-Gap-Pattern-Sequence-Information	CRITICALITY reject	TYPE Transmission-Gap-Pattern-Sequence-Information	PRESENCE optional},
	...
}

UL-DPCH-Information-RL-ReconfRqstFDD ::= SEQUENCE {
	tFCS							TFCS	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-Information-RL-ReconfRqstFDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-Information-RL-ReconfRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UL-DPDCHIndicatorEDCH	CRITICALITY reject		EXTENSION UL-DPDCHIndicatorEDCH		PRESENCE optional },
	...
}

DL-DPCH-Information-RL-ReconfRqstFDD ::= SEQUENCE {
	tFCS							TFCS	OPTIONAL,
	tFCI-SignallingMode				TFCI-SignallingMode	OPTIONAL,
	limitedPowerIncrease			LimitedPowerIncrease	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-DPCH-Information-RL-ReconfRqstFDD-ExtIEs} } OPTIONAL,
	...
}

DL-DPCH-Information-RL-ReconfRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-DeleteList-RL-ReconfRqstFDD				::= SEQUENCE (SIZE (0..maxNrOfDCHs)) OF DCH-DeleteItem-RL-ReconfRqstFDD

DCH-DeleteItem-RL-ReconfRqstFDD ::= SEQUENCE {
	dCH-ID							DCH-ID,
	iE-Extensions					ProtocolExtensionContainer { {DCH-DeleteItem-RL-ReconfRqstFDD-ExtIEs} } OPTIONAL,
	...
}

DCH-DeleteItem-RL-ReconfRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkReconfigurationRequestFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-RL-ReconfigurationRequestFDD-RL-InformationList	CRITICALITY ignore	EXTENSION RL-ReconfigurationRequestFDD-RL-InformationList		PRESENCE optional}|
	{ ID id-DL-ReferencePowerInformation			CRITICALITY ignore	EXTENSION DL-ReferencePowerInformation			PRESENCE optional}|
	{ ID id-HSDSCH-FDD-Information					CRITICALITY reject	EXTENSION HSDSCH-FDD-Information			PRESENCE optional}|
	{ ID id-HSDSCH-Information-to-Modify-Unsynchronised	CRITICALITY reject	EXTENSION HSDSCH-Information-to-Modify-Unsynchronised	PRESENCE optional}|
	{ ID id-HSDSCH-MACdFlows-to-Add					CRITICALITY reject	EXTENSION HSDSCH-MACdFlows-Information			PRESENCE optional}|
	{ ID id-HSDSCH-MACdFlows-to-Delete				CRITICALITY reject	EXTENSION HSDSCH-MACdFlows-to-Delete			PRESENCE optional}|
	{ ID id-HSPDSCH-RL-ID							CRITICALITY reject	EXTENSION RL-ID								PRESENCE optional}|
	{ ID id-EDPCH-Information-RLReconfRequest-FDD	CRITICALITY reject	EXTENSION EDPCH-Information-RLReconfRequest-FDD		PRESENCE optional}|
	{ ID id-EDCH-FDD-Information					CRITICALITY reject	EXTENSION EDCH-FDD-Information				PRESENCE optional}|
	{ ID id-EDCH-FDD-Information-To-Modify			CRITICALITY reject	EXTENSION EDCH-FDD-Information-To-Modify			PRESENCE optional}|
	{ ID id-EDCH-MACdFlows-To-Add					CRITICALITY reject	EXTENSION EDCH-MACdFlows-Information			PRESENCE optional}|
	{ ID id-EDCH-MACdFlows-To-Delete				CRITICALITY reject	EXTENSION EDCH-MACdFlows-To-Delete			PRESENCE optional}|
	{ ID id-Serving-EDCHRL-Id						CRITICALITY reject	EXTENSION EDCH-Serving-RL					PRESENCE optional}|
	{ ID id-CPC-Information							CRITICALITY reject	EXTENSION CPC-Information					PRESENCE optional}|
	{ ID id-NoOfTargetCellHS-SCCH-Order				CRITICALITY ignore	EXTENSION NoOfTargetCellHS-SCCH-Order			PRESENCE optional}|
	{ ID id-Additional-HS-Cell-Information-RL-Reconf-Req	CRITICALITY reject	EXTENSION Additional-HS-Cell-Information-RL-Reconf-Req		PRESENCE optional}|
	{ ID id-UE-AggregateMaximumBitRate				CRITICALITY ignore	EXTENSION UE-AggregateMaximumBitRate			PRESENCE optional}|
	{ ID id-Additional-EDCH-Cell-Information-RL-Reconf-Req	CRITICALITY reject	EXTENSION Additional-EDCH-Cell-Information-RL-Reconf-Req	PRESENCE optional}|
	{ ID id-UL-CLTD-Information-Reconf				CRITICALITY reject	EXTENSION UL-CLTD-Information-Reconf			PRESENCE optional}|
	{ ID id-E-DCH-Decoupling-Indication				CRITICALITY reject	EXTENSION E-DCH-Decoupling-Indication			PRESENCE optional}|
	{ ID id-Radio-Links-without-DPCH-FDPCH-Indication	CRITICALITY reject	EXTENSION Radio-Links-without-DPCH-FDPCH-Indication	PRESENCE optional}|
	{ ID id-UL-DPCCH2-Information-Reconf			CRITICALITY reject	EXTENSION UL-DPCCH2-Information-Reconf			PRESENCE optional}|
	{ ID id-Downlink-TPC-enhancements-Reconf		CRITICALITY reject	EXTENSION Downlink-TPC-enhancements-Reconf		PRESENCE optional},
	...
}

Additional-HS-Cell-Information-RL-Reconf-Req	::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF Additional-HS-Cell-Information-RL-Reconf-Req-ItemIEs

Additional-HS-Cell-Information-RL-Reconf-Req-ItemIEs	::=SEQUENCE{
	hSPDSCH-RL-ID									RL-ID,
	c-ID											C-ID										OPTIONAL,
	hS-DSCH-FDD-Secondary-Serving-Information		HS-DSCH-FDD-Secondary-Serving-Information	OPTIONAL,
	hS-DSCH-FDD-Secondary-Serving-Information-To-Modify-Unsynchronised		HS-DSCH-FDD-Secondary-Serving-Information-To-Modify-Unsynchronised	OPTIONAL,
	hS-DSCH-Secondary-Serving-Remove				HS-DSCH-Secondary-Serving-Remove	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Additional-HS-Cell-Information-RL-Reconf-Req-ExtIEs} } OPTIONAL,
	...
}

Additional-HS-Cell-Information-RL-Reconf-Req-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-Cell-Information-RL-Reconf-Req	::=SEQUENCE{
	setup-Or-ConfigurationChange-Or-Removal-Of-EDCH-On-secondary-UL-Frequency		Setup-Or-ConfigurationChange-Or-Removal-Of-EDCH-On-secondary-UL-Frequency,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-Cell-Information-RL-Reconf-Req-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-Cell-Information-RL-Reconf-Req-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-ReconfigurationRequestFDD-RL-InformationList ::= SEQUENCE (SIZE (0..maxNrOfRLs)) OF ProtocolIE-Single-Container { 
	{RL-ReconfigurationRequestFDD-RL-Information-ListItem} }

RL-ReconfigurationRequestFDD-RL-Information-ListItem RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-ReconfigurationRequestFDD-RL-Information-IEs	CRITICALITY ignore	TYPE RL-ReconfigurationRequestFDD-RL-Information-IEs	PRESENCE optional	}
}

RL-ReconfigurationRequestFDD-RL-Information-IEs ::= SEQUENCE {
	rL-ID					RL-ID,
	rL-Specific-DCH-Info	RL-Specific-DCH-Info OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { RL-ReconfigurationRequestFDD-RL-Information-ExtIEs} } OPTIONAL,
	...
}

RL-ReconfigurationRequestFDD-RL-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-RL-Specific-EDCH-Information		CRITICALITY reject	EXTENSION RL-Specific-EDCH-Information 		PRESENCE optional}|
	{ ID id-EDCH-RL-Indication					CRITICALITY reject	EXTENSION EDCH-RL-Indication				PRESENCE optional}|
	{ ID id-HSDSCH-PreconfigurationSetup		CRITICALITY ignore	EXTENSION HSDSCH-PreconfigurationSetup		PRESENCE optional}|
	{ ID id-Non-Serving-RL-Preconfig-Setup		CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Setup		PRESENCE optional}|
	{ ID id-Non-Serving-RL-Preconfig-Removal	CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Setup		PRESENCE optional}|
	{ ID id-FTPICH-Information-Reconf			CRITICALITY ignore	EXTENSION FTPICH-Information-Reconf			PRESENCE optional}|
	{ ID id-Downlink-TPC-enhancements-Reconf	CRITICALITY reject	EXTENSION Downlink-TPC-enhancements-Reconf		PRESENCE optional},
	...
}

-- **************************************************************
--
-- RADIO LINK RECONFIGURATION REQUEST TDD
--
-- **************************************************************

RadioLinkReconfigurationRequestTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationRequestTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationRequestTDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationRequestTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-AllowedQueuingTime			CRITICALITY reject	TYPE AllowedQueuingTime				PRESENCE optional	} |
	{ ID id-UL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD	CRITICALITY notify	TYPE UL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD	PRESENCE optional	} |
	{ ID id-UL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD	CRITICALITY notify	TYPE UL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD	PRESENCE optional	} |
	{ ID id-DL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD	PRESENCE optional	} |
	{ ID id-DL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD	PRESENCE optional	} |
	{ ID id-TDD-DCHs-to-Modify		CRITICALITY reject	TYPE TDD-DCHs-to-Modify		PRESENCE optional	} |
	{ ID id-DCHs-to-Add-TDD		CRITICALITY reject	TYPE DCH-TDD-Information		PRESENCE optional	} |
	{ ID id-DCH-DeleteList-RL-ReconfRqstTDD		CRITICALITY reject	TYPE DCH-DeleteList-RL-ReconfRqstTDD		PRESENCE optional	},
	...
}

UL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD		::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {UL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD-IEs} }

UL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD	CRITICALITY notify	TYPE UL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD	PRESENCE mandatory	}
}

UL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	tFCS						TFCS		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-UL-SIRTarget		CRITICALITY reject	EXTENSION UL-SIR		PRESENCE optional},
	-- Applicable to 1.28Mcps TDD only
	...
}

UL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD		::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {UL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD-IEs} }

UL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD	CRITICALITY notify	TYPE UL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD	PRESENCE mandatory	}
}

UL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	iE-Extensions				ProtocolExtensionContainer { {UL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD		::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {DL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD-IEs} }

DL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD	PRESENCE mandatory	}
}

DL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	tFCS						TFCS		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD		::= SEQUENCE (SIZE (0..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container { {DL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD-IEs} }

DL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD	CRITICALITY notify	TYPE DL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD	PRESENCE mandatory	}
}

DL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD ::= SEQUENCE {
	cCTrCH-ID					CCTrCH-ID,
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-DeleteList-RL-ReconfRqstTDD				::= SEQUENCE (SIZE(0..maxNrOfDCHs)) OF DCH-DeleteItem-RL-ReconfRqstTDD

DCH-DeleteItem-RL-ReconfRqstTDD ::= SEQUENCE {
	dCH-ID						DCH-ID,
	iE-Extensions					ProtocolExtensionContainer { {DCH-DeleteItem-RL-ReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

DCH-DeleteItem-RL-ReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkReconfigurationRequestTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-RL-ReconfigurationRequestTDD-RL-Information	CRITICALITY ignore	EXTENSION Multiple-RL-ReconfigurationRequestTDD-RL-Information	PRESENCE optional}|
	{ ID id-HSDSCH-TDD-Information				CRITICALITY reject	EXTENSION HSDSCH-TDD-Information		PRESENCE optional}|
	{ ID id-HSDSCH-Information-to-Modify-Unsynchronised	CRITICALITY reject	EXTENSION HSDSCH-Information-to-Modify-Unsynchronised	PRESENCE optional}|
	{ ID id-HSDSCH-MACdFlows-to-Add				CRITICALITY reject	EXTENSION HSDSCH-MACdFlows-Information		PRESENCE optional}|
	{ ID id-HSDSCH-MACdFlows-to-Delete			CRITICALITY reject	EXTENSION HSDSCH-MACdFlows-to-Delete		PRESENCE optional}|
	{ ID id-HSPDSCH-RL-ID						CRITICALITY reject	EXTENSION RL-ID								PRESENCE optional}|
	{ ID id-E-DCH-Information-Reconfig			CRITICALITY reject	EXTENSION E-DCH-Information-Reconfig		PRESENCE optional}|
	{ ID id-E-DCH-Serving-RL-ID					CRITICALITY reject	EXTENSION RL-ID						PRESENCE optional}|
	{ ID id-E-DCH-768-Information-Reconfig		CRITICALITY reject	EXTENSION E-DCH-768-Information-Reconfig		PRESENCE optional}|
	{ ID id-E-DCH-LCR-Information-Reconfig		CRITICALITY reject	EXTENSION E-DCH-LCR-Information-Reconfig		PRESENCE optional}|
	{ ID id-CPC-InformationLCR					CRITICALITY reject	EXTENSION CPC-InformationLCR				PRESENCE optional}|
	{ ID id-RNTI-Allocation-Indicator			CRITICALITY ignore	EXTENSION RNTI-Allocation-Indicator			PRESENCE optional}|
	{ ID id-DCH-MeasurementType-Indicator		CRITICALITY reject	EXTENSION DCH-MeasurementType-Indicator		PRESENCE optional}|
	{ ID id-Multi-Carrier-EDCH-Reconfigure		CRITICALITY reject	EXTENSION Multi-Carrier-EDCH-Reconfigure		PRESENCE optional}|
	{ ID id-MU-MIMO-Indicator					CRITICALITY reject	EXTENSION MU-MIMO-Indicator					PRESENCE optional}|
	{ ID id-UE-Support-of-non-rectangular-resource-allocation	CRITICALITY ignore	EXTENSION UE-Support-of-non-rectangular-resource-allocation		PRESENCE optional},
	...
}

Multiple-RL-ReconfigurationRequestTDD-RL-Information ::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF RL-ReconfigurationRequestTDD-RL-Information

RL-ReconfigurationRequestTDD-RL-Information ::= SEQUENCE {
	rL-ID					RL-ID,
	rL-Specific-DCH-Info	RL-Specific-DCH-Info OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { RL-ReconfigurationRequestTDD-RL-Information-ExtIEs} } OPTIONAL,
	...
}

RL-ReconfigurationRequestTDD-RL-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID	id-UL-Synchronisation-Parameters-LCR			CRITICALITY	ignore		EXTENSION 	UL-Synchronisation-Parameters-LCR		PRESENCE 	optional	}|	-- Mandatory for 1.28Mcps TDD, Not Applicable to 3.84Mcps TDD or 7.68Mcps TDD
	{ ID id-NeedforIdleInterval							CRITICALITY ignore	EXTENSION	NeedforIdleInterval				PRESENCE optional },
	...
}

-- **************************************************************
--
-- RADIO LINK RECONFIGURATION RESPONSE FDD
--
-- **************************************************************

RadioLinkReconfigurationResponseFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationResponseFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationResponseFDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationResponseFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationResponseList-RL-ReconfRspFDD		CRITICALITY ignore	TYPE RL-InformationResponseList-RL-ReconfRspFDD			PRESENCE optional	} |
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

RL-InformationResponseList-RL-ReconfRspFDD		::= SEQUENCE (SIZE (0..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-InformationResponse-RL-ReconfRspFDD-IEs} }

RL-InformationResponse-RL-ReconfRspFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationResponseItem-RL-ReconfRspFDD		CRITICALITY ignore	TYPE RL-InformationResponseItem-RL-ReconfRspFDD		PRESENCE mandatory	}
}

RL-InformationResponseItem-RL-ReconfRspFDD ::= SEQUENCE {
	rL-ID							RL-ID,
	max-UL-SIR						UL-SIR			OPTIONAL,
	min-UL-SIR						UL-SIR			OPTIONAL,
	maximumDLTxPower				DL-Power		OPTIONAL,
	minimumDLTxPower				DL-Power		OPTIONAL,
	not-Used-secondary-CCPCH-Info			NULL		OPTIONAL,
	dCHsInformationResponseList		DCH-InformationResponseList-RL-ReconfRspFDD	OPTIONAL,
	dL-CodeInformationList-RL-ReconfResp 	DL-CodeInformationList-RL-ReconfRspFDD	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {RL-InformationResponseItem-RL-ReconfRspFDD-ExtIEs} } OPTIONAL,
	...
}

RL-InformationResponseItem-RL-ReconfRspFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DL-PowerBalancing-UpdatedIndicator		CRITICALITY ignore	EXTENSION DL-PowerBalancing-UpdatedIndicator		PRESENCE optional }|
	{ ID id-EDCH-FDD-InformationResponse			CRITICALITY ignore	EXTENSION EDCH-FDD-InformationResponse			PRESENCE optional }|
	{ ID id-EDCH-RLSet-Id							CRITICALITY ignore	EXTENSION RL-Set-ID							PRESENCE optional }|
	{ ID id-EDCH-FDD-DL-ControlChannelInformation	CRITICALITY ignore	EXTENSION EDCH-FDD-DL-ControlChannelInformation		PRESENCE optional }|
	{ ID id-F-DPCH-SlotFormat						CRITICALITY ignore	EXTENSION F-DPCH-SlotFormat				PRESENCE optional }|
	{ ID id-HSDSCH-PreconfigurationInfo				CRITICALITY ignore	EXTENSION HSDSCH-PreconfigurationInfo			PRESENCE optional }|
	{ ID id-Non-Serving-RL-Preconfig-Info			CRITICALITY ignore	EXTENSION Non-Serving-RL-Preconfig-Info			PRESENCE optional }|
	{ ID id-FTPICH-Information-Response				CRITICALITY ignore	EXTENSION FTPICH-Information-Response			PRESENCE optional },
	...
}

DCH-InformationResponseList-RL-ReconfRspFDD				::= ProtocolIE-Single-Container { {DCH-InformationResponseListIEs-RL-ReconfRspFDD} }

DCH-InformationResponseListIEs-RL-ReconfRspFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DCH-InformationResponse		CRITICALITY ignore	TYPE DCH-InformationResponse		PRESENCE mandatory	}
}

DL-CodeInformationList-RL-ReconfRspFDD ::= ProtocolIE-Single-Container {{ DL-CodeInformationListIEs-RL-ReconfRspFDD }}

DL-CodeInformationListIEs-RL-ReconfRspFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-FDD-DL-CodeInformation	CRITICALITY ignore	TYPE FDD-DL-CodeInformation		PRESENCE optional}
}

RadioLinkReconfigurationResponseFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HSDSCH-RNTI							CRITICALITY ignore		EXTENSION HSDSCH-RNTI									PRESENCE optional }|
	{ ID id-HSDSCH-FDD-Information-Response		CRITICALITY ignore		EXTENSION HSDSCH-FDD-Information-Response		PRESENCE optional }|
	{ ID id-MAChs-ResetIndicator				CRITICALITY ignore		EXTENSION MAChs-ResetIndicator						PRESENCE optional }|
	{ ID id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response				CRITICALITY ignore		EXTENSION Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response						PRESENCE optional }|
	{ ID id-Additional-HS-Cell-Information-Response	CRITICALITY ignore		EXTENSION Additional-HS-Cell-Information-Response-List		PRESENCE optional }|
	{ ID id-Additional-EDCH-Cell-Information-ResponseRLReconf		CRITICALITY ignore	EXTENSION	Additional-EDCH-Cell-Information-Response-RLReconf-List			PRESENCE optional },
	...
}

-- **************************************************************
--
-- RADIO LINK RECONFIGURATION RESPONSE TDD
--
-- **************************************************************

RadioLinkReconfigurationResponseTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkReconfigurationResponseTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkReconfigurationResponseTDD-Extensions}}	OPTIONAL,
	...
}

RadioLinkReconfigurationResponseTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationResponse-RL-ReconfRspTDD		CRITICALITY ignore	TYPE RL-InformationResponse-RL-ReconfRspTDD			PRESENCE optional	} |
	--This RL-InformationResponse-RL-ReconfRspTDD is for the first RL repetition in the list.
	--Repetitions 2 and on are defined in Multiple-RL-InformationResponse-RL-ReconfRspTDD.
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

RL-InformationResponse-RL-ReconfRspTDD ::= SEQUENCE {
	rL-ID							RL-ID,
	max-UL-SIR						UL-SIR			OPTIONAL,
	min-UL-SIR						UL-SIR			OPTIONAL,
	maximumDLTxPower				DL-Power		OPTIONAL,
	minimumDLTxPower				DL-Power		OPTIONAL,
	dCHsInformationResponseList		DCH-InformationResponseList-RL-ReconfRspTDD	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {RL-InformationResponse-RL-ReconfRspTDD-ExtIEs} } OPTIONAL,
	...
}

RL-InformationResponse-RL-ReconfRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DL-CCTrCH-InformationList-RL-ReconfRspTDD	CRITICALITY ignore	EXTENSION DL-CCTrCH-InformationList-RL-ReconfRspTDD		PRESENCE optional }|
	{ ID id-UL-TimingAdvanceCtrl-LCR					CRITICALITY ignore	EXTENSION UL-TimingAdvanceCtrl-LCR		PRESENCE optional },
	--For 1.28Mcps TDD only
	...
}

DL-CCTrCH-InformationList-RL-ReconfRspTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF DL-CCTrCH-InformationItem-RL-ReconfRspTDD

DL-CCTrCH-InformationItem-RL-ReconfRspTDD ::= SEQUENCE {
	cCTrCH-ID									CCTrCH-ID,
	dl-DPCH-ModifyInformation-LCR				DL-DPCH-InformationModifyList-LCR-RL-ReconfRspTDD			OPTIONAL,
	--For 1.28Mcps TDD only
	cCTrCH-Maximum-DL-Power						DL-Power				OPTIONAL,
	--For 3.84Mcps TDD and 7.68Mcps TDD only, this is a DCH type CCTrCH power
	cCTrCH-Minimum-DL-Power						DL-Power				OPTIONAL,
	--For 3.84Mcps TDD and 7.68Mcps TDD only, this is a DCH type CCTrCH power
	iE-Extensions								ProtocolExtensionContainer { { DL-CCTrCH-InformationItem-RL-ReconfRspTDD-ExtIEs} }		OPTIONAL,
	...
}

DL-CCTrCH-InformationItem-RL-ReconfRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= { 
	...
}

DL-DPCH-InformationModifyList-LCR-RL-ReconfRspTDD ::= ProtocolIE-Single-Container {{ DL-DPCH-InformationModifyListIEs-LCR-RL-ReconfRspTDD }}

DL-DPCH-InformationModifyListIEs-LCR-RL-ReconfRspTDD RNSAP-PROTOCOL-IES ::= {
	{ID id-DL-DPCH-InformationModifyItem-LCR-RL-ReconfRspTDD	CRITICALITY ignore	TYPE DL-DPCH-InformationModifyItem-LCR-RL-ReconfRspTDD		PRESENCE optional},
	...
}

DL-DPCH-InformationModifyItem-LCR-RL-ReconfRspTDD ::= SEQUENCE {
	dL-Timeslot-LCR-InformationModifyList-RL-ReconfRqstTDD		DL-Timeslot-LCR-InformationModifyList-RL-ReconfRspTDD			OPTIONAL, 
	iE-Extensions	ProtocolExtensionContainer { { DL-DPCH-InformationModifyItem-LCR-RL-ReconfRspTDD-ExtIEs} }		OPTIONAL,
	...
}

DL-DPCH-InformationModifyItem-LCR-RL-ReconfRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-Timeslot-LCR-InformationModifyList-RL-ReconfRspTDD ::= SEQUENCE (SIZE (1..maxNrOfDLTsLCR)) OF DL-Timeslot-LCR-InformationModifyItem-RL-ReconfRspTDD

DL-Timeslot-LCR-InformationModifyItem-RL-ReconfRspTDD	 ::= SEQUENCE {
	timeSlotLCR								TimeSlotLCR,
	maxPowerLCR								DL-Power	OPTIONAL,
	minPowerLCR								DL-Power	OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { DL-Timeslot-LCR-InformationModifyItem-RL-ReconfRspTDD-ExtIEs} }		OPTIONAL,
	...
}

DL-Timeslot-LCR-InformationModifyItem-RL-ReconfRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-InformationResponseList-RL-ReconfRspTDD				::= ProtocolIE-Single-Container { {DCH-InformationResponseListIEs-RL-ReconfRspTDD} }

DCH-InformationResponseListIEs-RL-ReconfRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DCH-InformationResponse	CRITICALITY ignore	TYPE DCH-InformationResponse	PRESENCE optional	}
}

RadioLinkReconfigurationResponseTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HSDSCH-RNTI							CRITICALITY ignore	EXTENSION HSDSCH-RNTI						PRESENCE optional}|
	{ ID id-HSDSCH-TDD-Information-Response		CRITICALITY ignore	EXTENSION HSDSCH-TDD-Information-Response		PRESENCE optional}|
	{ ID id-MAChs-ResetIndicator				CRITICALITY ignore	EXTENSION MAChs-ResetIndicator			PRESENCE optional}|
	{ ID id-RL-ReconfigurationResponseTDD-RL-Information	CRITICALITY ignore	EXTENSION Multiple-RL-InformationResponse-RL-ReconfRspTDD	PRESENCE optional}|
	{ ID id-E-DCH-Information-Response			CRITICALITY ignore	EXTENSION E-DCH-Information-Response		PRESENCE optional}|
	{ ID id-E-DCH-768-Information-Response		CRITICALITY ignore	EXTENSION E-DCH-768-Information-Response		PRESENCE optional}|
	{ ID id-E-DCH-LCR-Information-Response		CRITICALITY ignore	EXTENSION E-DCH-LCR-Information-Response		PRESENCE optional}|
	{ ID id-PowerControlGAP						CRITICALITY ignore	EXTENSION ControlGAP				PRESENCE optional}|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-IdleIntervalInformation				CRITICALITY ignore	EXTENSION	IdleIntervalInformation		PRESENCE optional}|
	{ ID id-ContinuousPacketConnectivity-DRX-Information-ResponseLCR	CRITICALITY ignore	EXTENSION ContinuousPacketConnectivity-DRX-Information-ResponseLCR	PRESENCE optional}|
	{ ID id-HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR	CRITICALITY ignore	EXTENSION HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR	PRESENCE optional}|
	{ ID id-E-DCH-Semi-PersistentScheduling-Information-ResponseLCR		CRITICALITY ignore	EXTENSION E-DCH-Semi-PersistentScheduling-Information-ResponseLCR	PRESENCE optional}|
	{ ID id-E-RNTI-For-FACH						CRITICALITY ignore	EXTENSION E-RNTI							PRESENCE optional}|
	{ ID id-H-RNTI-For-FACH						CRITICALITY ignore	EXTENSION HSDSCH-RNTI						PRESENCE optional}|
	{ ID id-DCH-MeasurementOccasion-Information	CRITICALITY reject	EXTENSION DCH-MeasurementOccasion-Information	PRESENCE optional}|
	{ ID id-Multi-Carrier-EDCH-Response			CRITICALITY ignore	EXTENSION Multi-Carrier-EDCH-Information-Response	PRESENCE optional}|
	{ ID id-MU-MIMO-InformationLCR				CRITICALITY reject	EXTENSION MU-MIMO-InformationLCR			PRESENCE optional}|
	{ ID id-Non-rectangular-resource-allocation-indicator	CRITICALITY reject	EXTENSION Non-rectangular-resource-allocation-indicator			PRESENCE optional}|
	{ ID id-Non-rectangular-resource-timeslot-set	CRITICALITY reject	EXTENSION Non-rectangular-resource-timeslot-set	PRESENCE optional},
	...
}

Multiple-RL-InformationResponse-RL-ReconfRspTDD ::= SEQUENCE (SIZE (1..maxNrOfRLs-1)) OF RL-InformationResponse-RL-ReconfRspTDD
--Includes the 2nd through the max number of radio link information repetitions.

-- **************************************************************
--
-- RADIO LINK FAILURE INDICATION
--
-- **************************************************************

RadioLinkFailureIndication ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkFailureIndication-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkFailureIndication-Extensions}}	OPTIONAL,
	...
}

RadioLinkFailureIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Reporting-Object-RL-FailureInd	CRITICALITY ignore	TYPE Reporting-Object-RL-FailureInd		PRESENCE mandatory	},
	...
}

Reporting-Object-RL-FailureInd ::= CHOICE {
	rL						RL-RL-FailureInd,
	rL-Set					RL-Set-RL-FailureInd,	--FDD only
	...,
	cCTrCH					CCTrCH-RL-FailureInd	--TDD only
}

RL-RL-FailureInd		 	::= SEQUENCE {
	rL-InformationList-RL-FailureInd		RL-InformationList-RL-FailureInd,
	iE-Extensions							ProtocolExtensionContainer { { RLItem-RL-FailureInd-ExtIEs} } OPTIONAL,
	...
} 

RLItem-RL-FailureInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-InformationList-RL-FailureInd		 	::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-Information-RL-FailureInd-IEs} }

RL-Information-RL-FailureInd-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Information-RL-FailureInd		CRITICALITY ignore	TYPE RL-Information-RL-FailureInd		PRESENCE mandatory	}
}

RL-Information-RL-FailureInd ::= SEQUENCE {
	rL-ID						RL-ID,
	cause						Cause,
	iE-Extensions					ProtocolExtensionContainer { {RL-Information-RL-FailureInd-ExtIEs} } OPTIONAL,
	...
} 

RL-Information-RL-FailureInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-RL-FailureInd		 	::= SEQUENCE {
	rL-Set-InformationList-RL-FailureInd	RL-Set-InformationList-RL-FailureInd,
	iE-Extensions							ProtocolExtensionContainer { { RL-SetItem-RL-FailureInd-ExtIEs} } OPTIONAL,
	...
} 

RL-SetItem-RL-FailureInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-InformationList-RL-FailureInd		 	::= SEQUENCE (SIZE (1..maxNrOfRLSets)) OF ProtocolIE-Single-Container { {RL-Set-Information-RL-FailureInd-IEs} }

RL-Set-Information-RL-FailureInd-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Set-Information-RL-FailureInd		CRITICALITY ignore	TYPE RL-Set-Information-RL-FailureInd		PRESENCE mandatory	}
}

RL-Set-Information-RL-FailureInd ::= SEQUENCE {
	rL-Set-ID						RL-Set-ID,
	cause							Cause,
	iE-Extensions					ProtocolExtensionContainer { {RL-Set-Information-RL-FailureInd-ExtIEs} } OPTIONAL,
	...
} 

RL-Set-Information-RL-FailureInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkFailureIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CCTrCH-RL-FailureInd ::= SEQUENCE {
	rL-ID										RL-ID,
	cCTrCH-InformationList-RL-FailureInd		CCTrCH-InformationList-RL-FailureInd,
	iE-Extensions							ProtocolExtensionContainer { { CCTrCHItem-RL-FailureInd-ExtIEs } }		OPTIONAL,
	...
 }

CCTrCHItem-RL-FailureInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CCTrCH-InformationList-RL-FailureInd ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container {{ CCTrCH-InformationItemIE-RL-FailureInd}}

CCTrCH-InformationItemIE-RL-FailureInd RNSAP-PROTOCOL-IES ::= {
 	{ ID	id-CCTrCH-InformationItem-RL-FailureInd			CRITICALITY		ignore			TYPE	CCTrCH-InformationItem-RL-FailureInd			PRESENCE	mandatory}
 }

CCTrCH-InformationItem-RL-FailureInd ::= SEQUENCE {
 	cCTrCH-ID									CCTrCH-ID,
	cause										Cause,
	iE-Extensions								ProtocolExtensionContainer { { CCTrCH-InformationItem-RL-FailureInd-ExtIEs } }		OPTIONAL,
	...
 }

CCTrCH-InformationItem-RL-FailureInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK PREEMPTION REQUIRED INDICATION
--
-- **************************************************************

RadioLinkPreemptionRequiredIndication ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkPreemptionRequiredIndication-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkPreemptionRequiredIndication-Extensions}}	OPTIONAL,
	...
}

RadioLinkPreemptionRequiredIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationList-RL-PreemptRequiredInd	CRITICALITY ignore	TYPE RL-InformationList-RL-PreemptRequiredInd		PRESENCE optional	},
	...
}

RL-InformationList-RL-PreemptRequiredInd			::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-InformationItemIEs-RL-PreemptRequiredInd} }

RL-InformationItemIEs-RL-PreemptRequiredInd RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationItem-RL-PreemptRequiredInd		CRITICALITY ignore	TYPE RL-InformationItem-RL-PreemptRequiredInd		PRESENCE mandatory	}
}

RL-InformationItem-RL-PreemptRequiredInd::= SEQUENCE {
	rL-ID						RL-ID,
	iE-Extensions				ProtocolExtensionContainer { {RL-Information-RL-PreemptRequiredInd-ExtIEs} } OPTIONAL,
	...
}

RL-Information-RL-PreemptRequiredInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-EDCH-MacdFlowSpecificInformationList-RL-PreemptRequiredInd	CRITICALITY ignore	EXTENSION EDCH-MacdFlowSpecificInformationList-RL-PreemptRequiredInd	PRESENCE optional},
	...
}

RadioLinkPreemptionRequiredIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HSDSCHMacdFlowSpecificInformationList-RL-PreemptRequiredInd	CRITICALITY ignore	EXTENSION HSDSCHMacdFlowSpecificInformationList-RL-PreemptRequiredInd	PRESENCE optional},
	...
}

HSDSCHMacdFlowSpecificInformationList-RL-PreemptRequiredInd	::= SEQUENCE (SIZE (1.. maxNrOfMACdFlows)) OF ProtocolIE-Single-Container { {HSDSCHMacdFlowSpecificInformationItemIEs-RL-PreemptRequiredInd} }

HSDSCHMacdFlowSpecificInformationItemIEs-RL-PreemptRequiredInd RNSAP-PROTOCOL-IES ::= {
	{ ID id-HSDSCHMacdFlowSpecificInformationItem-RL-PreemptRequiredInd		CRITICALITY ignore	TYPE HSDSCHMacdFlowSpecificInformationItem-RL-PreemptRequiredInd	PRESENCE mandatory	}
}

HSDSCHMacdFlowSpecificInformationItem-RL-PreemptRequiredInd ::= SEQUENCE {
	hSDSCH-MACdFlow-ID						HSDSCH-MACdFlow-ID,
	iE-Extensions				ProtocolExtensionContainer { { HSDSCHMacdFlowSpecificInformation-RL-PreemptRequiredInd-ExtIEs} } OPTIONAL,
	...
}

HSDSCHMacdFlowSpecificInformation-RL-PreemptRequiredInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EDCH-MacdFlowSpecificInformationList-RL-PreemptRequiredInd	::= SEQUENCE (SIZE (1.. maxNrOfEDCHMACdFlows)) OF ProtocolIE-Single-Container { {EDCH-MacdFlowSpecificInformationItemIEs-RL-PreemptRequiredInd} }

EDCH-MacdFlowSpecificInformationItemIEs-RL-PreemptRequiredInd RNSAP-PROTOCOL-IES ::= {
	{ ID id-EDCH-MacdFlowSpecificInformationItem-RL-PreemptRequiredInd		CRITICALITY ignore	TYPE EDCH-MacdFlowSpecificInformationItem-RL-PreemptRequiredInd	PRESENCE mandatory	}
}

EDCH-MacdFlowSpecificInformationItem-RL-PreemptRequiredInd ::= SEQUENCE {
	eDCH-MACdFlow-ID			EDCH-MACdFlow-ID,
	iE-Extensions				ProtocolExtensionContainer { { EDCH-MacdFlowSpecificInformation-RL-PreemptRequiredInd-ExtIEs} } OPTIONAL,
	...
}

EDCH-MacdFlowSpecificInformation-RL-PreemptRequiredInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


-- **************************************************************
--
-- RADIO LINK RESTORE INDICATION
--
-- **************************************************************

RadioLinkRestoreIndication ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkRestoreIndication-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkRestoreIndication-Extensions}}	OPTIONAL,
	...
}

RadioLinkRestoreIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Reporing-Object-RL-RestoreInd	CRITICALITY ignore	TYPE Reporting-Object-RL-RestoreInd		PRESENCE mandatory	},
	...
}

Reporting-Object-RL-RestoreInd ::= CHOICE {
	rL						RL-RL-RestoreInd,		--TDD only
	rL-Set					RL-Set-RL-RestoreInd,	--FDD only
	...,
	cCTrCH					CCTrCH-RL-RestoreInd	--TDD only
}

RL-RL-RestoreInd ::= SEQUENCE {
	rL-InformationList-RL-RestoreInd		RL-InformationList-RL-RestoreInd,
	iE-Extensions							ProtocolExtensionContainer { { RLItem-RL-RestoreInd-ExtIEs} } OPTIONAL,
	...
} 

RLItem-RL-RestoreInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-InformationList-RL-RestoreInd		 	::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-Information-RL-RestoreInd-IEs} }

RL-Information-RL-RestoreInd-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Information-RL-RestoreInd		CRITICALITY ignore	TYPE RL-Information-RL-RestoreInd		PRESENCE mandatory	}
}

RL-Information-RL-RestoreInd ::= SEQUENCE {
	rL-ID						RL-ID,
	iE-Extensions					ProtocolExtensionContainer { {RL-Information-RL-RestoreInd-ExtIEs} } OPTIONAL,
	...
} 

RL-Information-RL-RestoreInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-RL-RestoreInd ::= SEQUENCE {
	rL-Set-InformationList-RL-RestoreInd	RL-Set-InformationList-RL-RestoreInd,
	iE-Extensions							ProtocolExtensionContainer { { RL-SetItem-RL-RestoreInd-ExtIEs} } OPTIONAL,
	...
} 

RL-SetItem-RL-RestoreInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-InformationList-RL-RestoreInd		 	::= SEQUENCE (SIZE (1..maxNrOfRLSets)) OF ProtocolIE-Single-Container { {RL-Set-Information-RL-RestoreInd-IEs} }

RL-Set-Information-RL-RestoreInd-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Set-Information-RL-RestoreInd		CRITICALITY ignore	TYPE RL-Set-Information-RL-RestoreInd		PRESENCE mandatory	}
}

RL-Set-Information-RL-RestoreInd ::= SEQUENCE {
	rL-Set-ID						RL-Set-ID,
	iE-Extensions					ProtocolExtensionContainer { {RL-Set-Information-RL-RestoreInd-ExtIEs} } OPTIONAL,
	...
} 

RL-Set-Information-RL-RestoreInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkRestoreIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CCTrCH-RL-RestoreInd ::= SEQUENCE {
	rL-ID										RL-ID,
	cCTrCH-InformationList-RL-RestoreInd		CCTrCH-InformationList-RL-RestoreInd,
	iE-Extensions							ProtocolExtensionContainer { { CCTrCHItem-RL-RestoreInd-ExtIEs } }		OPTIONAL,
	...
 }

CCTrCHItem-RL-RestoreInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CCTrCH-InformationList-RL-RestoreInd ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF ProtocolIE-Single-Container {{ CCTrCH-InformationItemIE-RL-RestoreInd}}

CCTrCH-InformationItemIE-RL-RestoreInd RNSAP-PROTOCOL-IES ::= {
 	{ ID	id-CCTrCH-InformationItem-RL-RestoreInd			CRITICALITY		ignore			TYPE	CCTrCH-InformationItem-RL-RestoreInd			PRESENCE	mandatory}
 }

CCTrCH-InformationItem-RL-RestoreInd ::= SEQUENCE {
 	cCTrCH-ID										CCTrCH-ID,
	iE-Extensions								ProtocolExtensionContainer { { CCTrCH-InformationItem-RL-RestoreInd-ExtIEs } }		OPTIONAL,
	...
 }

CCTrCH-InformationItem-RL-RestoreInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- DOWNLINK POWER CONTROL REQUEST
--
-- **************************************************************

DL-PowerControlRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{DL-PowerControlRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{DL-PowerControlRequest-Extensions}}	OPTIONAL,
	...
}

DL-PowerControlRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-PowerAdjustmentType	CRITICALITY ignore	TYPE PowerAdjustmentType	PRESENCE mandatory} |
	{ ID id-DLReferencePower	CRITICALITY ignore	TYPE DL-Power	PRESENCE conditional} |
	-- This IE shall be present if Power Adjustment Type IE equals to ‘Common’
	{ ID id-InnerLoopDLPCStatus	CRITICALITY ignore	TYPE InnerLoopDLPCStatus	PRESENCE optional } |
	{ ID id-DLReferencePowerList-DL-PC-Rqst	CRITICALITY ignore	TYPE DL-ReferencePowerInformationList-DL-PC-Rqst	PRESENCE conditional} |
	-- This IE shall be present if Power Adjustment Type IE equals to ‘Individual’
	{ ID id-MaxAdjustmentStep	CRITICALITY ignore	TYPE MaxAdjustmentStep	PRESENCE conditional } |
	-- This IE shall be present if Power Adjustment Type IE equals to ‘Common’ or ‘Individual’
	{ ID id-AdjustmentPeriod	CRITICALITY ignore	TYPE AdjustmentPeriod	PRESENCE conditional }|
	-- This IE shall be present if Power Adjustment Type IE equals to ‘Common’ or ‘Individual’
	{ ID id-AdjustmentRatio	CRITICALITY ignore	TYPE ScaledAdjustmentRatio	PRESENCE conditional },
	-- This IE shall be present if Power Adjustment Type IE equals to ‘Common’ or ‘Individual’
	...
}

DL-ReferencePowerInformationList-DL-PC-Rqst 		::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {DL-ReferencePowerInformation-DL-PC-Rqst-IEs} }

DL-ReferencePowerInformation-DL-PC-Rqst-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-ReferencePowerInformation-DL-PC-Rqst	CRITICALITY ignore	TYPE DL-ReferencePowerInformation-DL-PC-Rqst	PRESENCE mandatory	}
}

DL-ReferencePowerInformation-DL-PC-Rqst ::= SEQUENCE {
	rL-ID						RL-ID,
	dl-Reference-Power			DL-Power,
	iE-Extensions				ProtocolExtensionContainer { {DL-ReferencePowerInformation-DL-PC-Rqst-ExtIEs} } OPTIONAL,
	...
}

DL-ReferencePowerInformation-DL-PC-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-PowerControlRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- DOWNLINK POWER TIMESLOT CONTROL REQUEST TDD
--
-- **************************************************************

DL-PowerTimeslotControlRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{DL-PowerTimeslotControlRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{DL-PowerTimeslotControlRequest-Extensions}}	OPTIONAL,
	...
}

DL-PowerTimeslotControlRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-timeSlot-ISCP	CRITICALITY ignore	TYPE DL-TimeSlot-ISCP-Info	PRESENCE optional},
	--Mandatory for 3.84Mcps TDD and 7.68 Mcps TDD only
	...
}

DL-PowerTimeslotControlRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-timeSlot-ISCP-LCR-List-DL-PC-Rqst-TDD	CRITICALITY ignore	EXTENSION DL-TimeSlot-ISCP-LCR-Information		PRESENCE optional}|
	--Mandatory for 1.28Mcps TDD only
	{ ID id-PrimCCPCH-RSCP-DL-PC-RqstTDD			CRITICALITY ignore	EXTENSION PrimaryCCPCH-RSCP				PRESENCE optional}|
	{ ID id-PrimaryCCPCH-RSCP-Delta					CRITICALITY ignore	EXTENSION PrimaryCCPCH-RSCP-Delta			PRESENCE optional},
	...
}

-- **************************************************************
--
-- PHYSICAL CHANNEL RECONFIGURATION REQUEST FDD
--
-- **************************************************************

PhysicalChannelReconfigurationRequestFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{PhysicalChannelReconfigurationRequestFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{PhysicalChannelReconfigurationRequestFDD-Extensions}}	OPTIONAL,
	...
}

PhysicalChannelReconfigurationRequestFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Information-PhyChReconfRqstFDD	CRITICALITY reject	TYPE RL-Information-PhyChReconfRqstFDD	PRESENCE mandatory},
	...
}

RL-Information-PhyChReconfRqstFDD ::= SEQUENCE {
	rL-ID						RL-ID,
	dl-CodeInformation				DL-CodeInformationList-PhyChReconfRqstFDD,
	iE-Extensions					ProtocolExtensionContainer { {RL-Information-PhyChReconfRqstFDD-ExtIEs} } OPTIONAL,
	...
}

RL-Information-PhyChReconfRqstFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-F-DPCH-SlotFormat					CRITICALITY ignore	EXTENSION F-DPCH-SlotFormat					PRESENCE optional}|
	{ ID id-FTPICH-Reconfiguration-Information	CRITICALITY ignore	EXTENSION FTPICH-Reconfiguration-Information		PRESENCE optional},
	...
}

DL-CodeInformationList-PhyChReconfRqstFDD 		::= ProtocolIE-Single-Container { {DL-CodeInformationListIEs-PhyChReconfRqstFDD} }

DL-CodeInformationListIEs-PhyChReconfRqstFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-FDD-DL-CodeInformation	CRITICALITY notify	TYPE FDD-DL-CodeInformation	PRESENCE mandatory	}
}

PhysicalChannelReconfigurationRequestFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- PHYSICAL CHANNEL RECONFIGURATION REQUEST TDD
--
-- **************************************************************

PhysicalChannelReconfigurationRequestTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{PhysicalChannelReconfigurationRequestTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{PhysicalChannelReconfigurationRequestTDD-Extensions}}	OPTIONAL,
	...
}

PhysicalChannelReconfigurationRequestTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Information-PhyChReconfRqstTDD	CRITICALITY reject	TYPE RL-Information-PhyChReconfRqstTDD		PRESENCE mandatory	},
	...
}

RL-Information-PhyChReconfRqstTDD ::= SEQUENCE {
	rL-ID						RL-ID,
	ul-CCTrCH-Information		UL-CCTrCH-InformationList-PhyChReconfRqstTDD	OPTIONAL,
	dl-CCTrCH-Information		DL-CCTrCH-InformationList-PhyChReconfRqstTDD	OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {RL-Information-PhyChReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

RL-Information-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HSPDSCH-Timeslot-InformationList-PhyChReconfRqstTDD			CRITICALITY reject	EXTENSION HSPDSCH-Timeslot-InformationList-PhyChReconfRqstTDD		PRESENCE optional } |
	--For 3.84Mcps TDD only
	{ ID id-HSPDSCH-Timeslot-InformationListLCR-PhyChReconfRqstTDD		CRITICALITY reject	EXTENSION HSPDSCH-Timeslot-InformationListLCR-PhyChReconfRqstTDD	PRESENCE optional }|
	--For 1.28Mcps TDD only
	{ ID id-HSPDSCH-Timeslot-InformationList-PhyChReconfRqstTDD768		CRITICALITY reject	EXTENSION HSPDSCH-Timeslot-InformationList-PhyChReconfRqstTDD768		PRESENCE optional }|
	--For 7.68Mcps TDD only
	{ ID id-UARFCNforNt													CRITICALITY ignore	EXTENSION UARFCN		PRESENCE optional },
	-- Applicable to 1.28Mcps TDD only
	...
}

UL-CCTrCH-InformationList-PhyChReconfRqstTDD 		::= ProtocolIE-Single-Container { {UL-CCTrCH-InformationListIEs-PhyChReconfRqstTDD} }

UL-CCTrCH-InformationListIEs-PhyChReconfRqstTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-CCTrCH-InformationListIE-PhyChReconfRqstTDD		CRITICALITY reject	TYPE UL-CCTrCH-InformationListIE-PhyChReconfRqstTDD		PRESENCE mandatory	}
}

UL-CCTrCH-InformationListIE-PhyChReconfRqstTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF UL-CCTrCH-InformationItem-PhyChReconfRqstTDD

UL-CCTrCH-InformationItem-PhyChReconfRqstTDD ::= SEQUENCE {
	cCTrCH-ID						CCTrCH-ID,
	ul-DPCH-Information				UL-DPCH-InformationList-PhyChReconfRqstTDD,
	iE-Extensions					ProtocolExtensionContainer { {UL-CCTrCH-InformationItem-PhyChReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

UL-CCTrCH-InformationItem-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-DPCH-InformationList-PhyChReconfRqstTDD ::= ProtocolIE-Single-Container {{UL-DPCH-InformationListIEs-PhyChReconfRqstTDD}}

UL-DPCH-InformationListIEs-PhyChReconfRqstTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-UL-DPCH-InformationItem-PhyChReconfRqstTDD	CRITICALITY notify	TYPE UL-DPCH-InformationItem-PhyChReconfRqstTDD		PRESENCE mandatory}
}

UL-DPCH-InformationItem-PhyChReconfRqstTDD ::= SEQUENCE {
	repetitionPeriod				RepetitionPeriod		OPTIONAL,
	repetitionLength				RepetitionLength		OPTIONAL,
	tDD-DPCHOffset					TDD-DPCHOffset			OPTIONAL,
	uL-Timeslot-InformationList-PhyChReconfRqstTDD			UL-Timeslot-InformationList-PhyChReconfRqstTDD		OPTIONAL,
	--For 3.84Mcps TDD only
	iE-Extensions					ProtocolExtensionContainer { {UL-DPCH-InformationItem-PhyChReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

UL-DPCH-InformationItem-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UL-Timeslot-LCR-InformationList-PhyChReconfRqstTDD	CRITICALITY reject	EXTENSION UL-TimeslotLCR-InformationList-PhyChReconfRqstTDD	PRESENCE optional}|
	--For 1.28Mcps TDD only
	{ ID id-UL-Timeslot-InformationList-PhyChReconfRqstTDD768	CRITICALITY reject	EXTENSION UL-Timeslot-InformationList-PhyChReconfRqstTDD768	PRESENCE optional},
	--For 7.68Mcps TDD only
	...
}

UL-TimeslotLCR-InformationList-PhyChReconfRqstTDD::= SEQUENCE ( SIZE (1..maxNrOfTsLCR)) OF UL-TimeslotLCR-InformationItem-PhyChReconfRqstTDD

UL-TimeslotLCR-InformationItem-PhyChReconfRqstTDD ::= SEQUENCE {
	timeSlotLCR						TimeSlotLCR,
	midambleShiftLCR				MidambleShiftLCR		OPTIONAL,
	tFCI-Presence					TFCI-Presence		OPTIONAL,
	uL-Code-LCR-Information			TDD-UL-Code-LCR-Information		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-TimeslotLCR-InformationItem-PhyChReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

UL-TimeslotLCR-InformationItem-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-PLCCH-Information-PhyChReconfRqstTDD		CRITICALITY reject		EXTENSION PLCCHinformation		PRESENCE optional },
	...
}

UL-Timeslot-InformationList-PhyChReconfRqstTDD::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF UL-Timeslot-InformationItem-PhyChReconfRqstTDD

UL-Timeslot-InformationItem-PhyChReconfRqstTDD ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType					MidambleShiftAndBurstType		OPTIONAL,
	tFCI-Presence					TFCI-Presence		OPTIONAL,
	uL-Code-Information			TDD-UL-Code-Information		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-Timeslot-InformationItem-PhyChReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

UL-Timeslot-InformationItem-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-Timeslot-InformationList-PhyChReconfRqstTDD768::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF UL-Timeslot-InformationItem-PhyChReconfRqstTDD768

UL-Timeslot-InformationItem-PhyChReconfRqstTDD768 ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType768	MidambleShiftAndBurstType768		OPTIONAL,
	tFCI-Presence					TFCI-Presence		OPTIONAL,
	uL-Code-Information768			TDD-UL-Code-Information768		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {UL-Timeslot-InformationItem-PhyChReconfRqstTDD768-ExtIEs} } OPTIONAL,
	...
}

UL-Timeslot-InformationItem-PhyChReconfRqstTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CCTrCH-InformationList-PhyChReconfRqstTDD 		::= ProtocolIE-Single-Container { {DL-CCTrCH-InformationListIEs-PhyChReconfRqstTDD} }

DL-CCTrCH-InformationListIEs-PhyChReconfRqstTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-CCTrCH-InformationListIE-PhyChReconfRqstTDD		CRITICALITY reject	TYPE DL-CCTrCH-InformationListIE-PhyChReconfRqstTDD		PRESENCE mandatory	}
}

DL-CCTrCH-InformationListIE-PhyChReconfRqstTDD ::= SEQUENCE (SIZE (1..maxNrOfCCTrCHs)) OF DL-CCTrCH-InformationItem-PhyChReconfRqstTDD

DL-CCTrCH-InformationItem-PhyChReconfRqstTDD ::= SEQUENCE {
	cCTrCH-ID						CCTrCH-ID,
	dl-DPCH-Information				DL-DPCH-InformationList-PhyChReconfRqstTDD,
	iE-Extensions					ProtocolExtensionContainer { {DL-CCTrCH-InformationItem-PhyChReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

DL-CCTrCH-InformationItem-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-DPCH-InformationList-PhyChReconfRqstTDD ::= ProtocolIE-Single-Container {{DL-DPCH-InformationListIEs-PhyChReconfRqstTDD}}

DL-DPCH-InformationListIEs-PhyChReconfRqstTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-DL-DPCH-InformationItem-PhyChReconfRqstTDD	CRITICALITY notify	TYPE DL-DPCH-InformationItem-PhyChReconfRqstTDD		PRESENCE mandatory}
}

DL-DPCH-InformationItem-PhyChReconfRqstTDD ::= SEQUENCE {
	repetitionPeriod	RepetitionPeriod	OPTIONAL,
	repetitionLength	RepetitionLength	OPTIONAL,
	tDD-DPCHOffset	TDD-DPCHOffset	OPTIONAL,
	dL-Timeslot-InformationList-PhyChReconfRqstTDD	DL-Timeslot-InformationList-PhyChReconfRqstTDD	OPTIONAL,
	iE-Extensions	ProtocolExtensionContainer { {DL-DPCH-InformationItem-PhyChReconfRqstTDD-ExtIEs} }	OPTIONAL,
	...
}

DL-DPCH-InformationItem-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DL-Timeslot-LCR-InformationList-PhyChReconfRqstTDD		CRITICALITY reject		EXTENSION DL-TimeslotLCR-InformationList-PhyChReconfRqstTDD		PRESENCE optional }|
	--For 1.28Mcps TDD only
	{ ID id-DL-Timeslot-InformationList-PhyChReconfRqstTDD768		CRITICALITY reject		EXTENSION DL-Timeslot-InformationList-PhyChReconfRqstTDD768		PRESENCE optional },
	--For 7.68Mcps TDD only
	...
}

DL-TimeslotLCR-InformationList-PhyChReconfRqstTDD ::= SEQUENCE ( SIZE (1..maxNrOfTsLCR)) OF DL-TimeslotLCR-InformationItem-PhyChReconfRqstTDD

DL-TimeslotLCR-InformationItem-PhyChReconfRqstTDD ::= SEQUENCE {
	timeSlotLCR						TimeSlotLCR,
	midambleShiftLCR				MidambleShiftLCR				OPTIONAL,
	tFCI-Presence					TFCI-Presence					OPTIONAL,
	dL-Code-LCR-Information			TDD-DL-Code-LCR-Information		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-TimeslotLCR-InformationItem-PhyChReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

DL-TimeslotLCR-InformationItem-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-Timeslot-InformationList-PhyChReconfRqstTDD::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF DL-Timeslot-InformationItem-PhyChReconfRqstTDD

DL-Timeslot-InformationItem-PhyChReconfRqstTDD ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType		MidambleShiftAndBurstType	OPTIONAL,
	tFCI-Presence					TFCI-Presence				OPTIONAL,
	dL-Code-Information				TDD-DL-Code-Information		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-Timeslot-InformationItem-PhyChReconfRqstTDD-ExtIEs} } OPTIONAL,
	...
}

DL-Timeslot-InformationItem-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-Timeslot-InformationList-PhyChReconfRqstTDD768::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF DL-Timeslot-InformationItem-PhyChReconfRqstTDD768

DL-Timeslot-InformationItem-PhyChReconfRqstTDD768 ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType768	MidambleShiftAndBurstType768		OPTIONAL,
	tFCI-Presence					TFCI-Presence		OPTIONAL,
	dL-Code-Information768			TDD-DL-Code-Information768		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {DL-Timeslot-InformationItem-PhyChReconfRqstTDD768-ExtIEs} } OPTIONAL,
	...
}

DL-Timeslot-InformationItem-PhyChReconfRqstTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSPDSCH-Timeslot-InformationList-PhyChReconfRqstTDD ::= SEQUENCE (SIZE (1..maxNrOfDLTs)) OF HSPDSCH-Timeslot-InformationItem-PhyChReconfRqstTDD

HSPDSCH-Timeslot-InformationItem-PhyChReconfRqstTDD::= SEQUENCE {
	timeslot										TimeSlot,
	midambleShiftAndBurstType						MidambleShiftAndBurstType,
	iE-Extensions									ProtocolExtensionContainer { { HSPDSCH-Timeslot-InformationItem-PhyChReconfRqstTDD-ExtIEs } }			OPTIONAL,
	...
}

HSPDSCH-Timeslot-InformationItem-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSPDSCH-Timeslot-InformationListLCR-PhyChReconfRqstTDD::= SEQUENCE (SIZE (1..maxNrOfDLTsLCR)) OF HSPDSCH-Timeslot-InformationItemLCR-PhyChReconfRqstTDD

HSPDSCH-Timeslot-InformationItemLCR-PhyChReconfRqstTDD::= SEQUENCE {
	timeslotLCR									TimeSlotLCR,
	midambleShiftLCR							MidambleShiftLCR,
	iE-Extensions								ProtocolExtensionContainer { { HSPDSCH-Timeslot-InformationItemLCR-PhyChReconfRqstTDD-ExtIEs } }			OPTIONAL,
	...
}

HSPDSCH-Timeslot-InformationItemLCR-PhyChReconfRqstTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSPDSCH-Timeslot-InformationList-PhyChReconfRqstTDD768 ::= SEQUENCE (SIZE (1..maxNrOfDLTs)) OF HSPDSCH-Timeslot-InformationItem-PhyChReconfRqstTDD768

HSPDSCH-Timeslot-InformationItem-PhyChReconfRqstTDD768::= SEQUENCE {
	timeslot										TimeSlot,
	midambleShiftAndBurstType768					MidambleShiftAndBurstType768,
	iE-Extensions									ProtocolExtensionContainer { { HSPDSCH-Timeslot-InformationItem-PhyChReconfRqstTDD768-ExtIEs } }			OPTIONAL,
	...
}

HSPDSCH-Timeslot-InformationItem-PhyChReconfRqstTDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

PhysicalChannelReconfigurationRequestTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- PHYSICAL CHANNEL RECONFIGURATION COMMAND
--
-- **************************************************************

PhysicalChannelReconfigurationCommand ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{PhysicalChannelReconfigurationCommand-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{PhysicalChannelReconfigurationCommand-Extensions}}	OPTIONAL,
	...
}

PhysicalChannelReconfigurationCommand-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-CFN							CRITICALITY ignore	TYPE CFN							PRESENCE mandatory}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional},
	...
}

PhysicalChannelReconfigurationCommand-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- PHYSICAL CHANNEL RECONFIGURATION FAILURE
--
-- **************************************************************

PhysicalChannelReconfigurationFailure ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{PhysicalChannelReconfigurationFailure-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{PhysicalChannelReconfigurationFailure-Extensions}}	OPTIONAL,
	...
}

PhysicalChannelReconfigurationFailure-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE mandatory}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional},
	...
}

PhysicalChannelReconfigurationFailure-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK CONGESTION INDICATION
--
-- **************************************************************

RadioLinkCongestionIndication ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkCongestionIndication-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkCongestionIndication-Extensions}}	OPTIONAL,
	...
}

RadioLinkCongestionIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-CongestionCause						CRITICALITY ignore	TYPE CongestionCause						PRESENCE optional}|
	{ ID id-RL-InformationList-RL-CongestInd	CRITICALITY ignore	TYPE RL-InformationList-RL-CongestInd		PRESENCE mandatory},
	...
}

RL-InformationList-RL-CongestInd ::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-InformationItemIEs-RL-CongestInd} }

RL-InformationItemIEs-RL-CongestInd RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationItem-RL-CongestInd		CRITICALITY ignore	TYPE RL-InformationItem-RL-CongestInd		PRESENCE mandatory	}
}

RL-InformationItem-RL-CongestInd ::= SEQUENCE {
	rL-ID								RL-ID,
	dCH-Rate-Information		DCH-Rate-Information-RL-CongestInd,
	iE-Extensions				ProtocolExtensionContainer { {RL-Information-RL-CongestInd-ExtIEs} } OPTIONAL,
	...
}

DCH-Rate-Information-RL-CongestInd ::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF ProtocolIE-Single-Container { {DCH-Rate-InformationItemIEs-RL-CongestInd} }

DCH-Rate-InformationItemIEs-RL-CongestInd RNSAP-PROTOCOL-IES ::= {
	{ ID id-DCH-Rate-InformationItem-RL-CongestInd		CRITICALITY ignore	TYPE DCH-Rate-InformationItem-RL-CongestInd		PRESENCE mandatory	}
}

DCH-Rate-InformationItem-RL-CongestInd ::= SEQUENCE {
	dCH-ID						DCH-ID,
	allowed-Rate-Information	Allowed-Rate-Information OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {DCH-Rate-InformationItem-RL-CongestInd-ExtIEs} } OPTIONAL,
	...
}

DCH-Rate-InformationItem-RL-CongestInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Information-RL-CongestInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-EDCH-MacdFlowSpecificInformationList-RL-CongestInd	CRITICALITY ignore	EXTENSION EDCH-MacdFlowSpecificInformationList-RL-CongestInd	PRESENCE optional}|
	{ ID id-DCH-Indicator-For-E-DCH-HSDPA-Operation		CRITICALITY ignore	EXTENSION DCH-Indicator-For-E-DCH-HSDPA-Operation	PRESENCE optional},
	...
}

RadioLinkCongestionIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EDCH-MacdFlowSpecificInformationList-RL-CongestInd	::= SEQUENCE (SIZE (1.. maxNrOfEDCHMACdFlows)) OF ProtocolIE-Single-Container { {EDCH-MacdFlowSpecificInformationItemIEs-RL-CongestInd} }

EDCH-MacdFlowSpecificInformationItemIEs-RL-CongestInd RNSAP-PROTOCOL-IES ::= {
	{ ID id-EDCH-MacdFlowSpecificInformationItem-RL-CongestInd		CRITICALITY ignore	TYPE EDCH-MacdFlowSpecificInformationItem-RL-CongestInd	PRESENCE mandatory	}
}

EDCH-MacdFlowSpecificInformationItem-RL-CongestInd ::= SEQUENCE {
	eDCH-MACdFlow-ID			EDCH-MACdFlow-ID,
	iE-Extensions				ProtocolExtensionContainer { { EDCH-MacdFlowSpecificInformation-RL-CongestInd-ExtIEs} } OPTIONAL,
	...
}

EDCH-MacdFlowSpecificInformation-RL-CongestInd-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- UPLINK SIGNALLING TRANSFER INDICATION FDD
--
-- **************************************************************

UplinkSignallingTransferIndicationFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container	{{UplinkSignallingTransferIndicationFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{UplinkSignallingTransferIndicationFDD-Extensions}}	OPTIONAL,
	...
}

UplinkSignallingTransferIndicationFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UC-ID	CRITICALITY ignore	TYPE UC-ID	PRESENCE mandatory} |
	{ ID id-SAI	CRITICALITY ignore	TYPE SAI	PRESENCE mandatory} |
	{ ID id-GA-Cell	CRITICALITY ignore	TYPE GA-Cell	PRESENCE optional} |
	{ ID id-C-RNTI	CRITICALITY ignore	TYPE C-RNTI	PRESENCE mandatory} |
	{ ID id-S-RNTI	CRITICALITY ignore	TYPE S-RNTI	PRESENCE mandatory} |
	{ ID id-D-RNTI	CRITICALITY ignore	TYPE D-RNTI	PRESENCE optional} |
	{ ID id-PropagationDelay	CRITICALITY ignore	TYPE PropagationDelay	PRESENCE mandatory} |
	{ ID id-STTD-SupportIndicator	CRITICALITY ignore 	TYPE STTD-SupportIndicator	PRESENCE mandatory} |
	{ ID id-ClosedLoopMode1-SupportIndicator	CRITICALITY ignore 	TYPE ClosedLoopMode1-SupportIndicator	PRESENCE mandatory} |
	{ ID id-L3-Information	CRITICALITY ignore	TYPE L3-Information	PRESENCE mandatory} |
	{ ID id-CN-PS-DomainIdentifier	CRITICALITY ignore	TYPE CN-PS-DomainIdentifier	PRESENCE optional} |
	{ ID id-CN-CS-DomainIdentifier	CRITICALITY ignore	TYPE CN-CS-DomainIdentifier	PRESENCE optional} |
	{ ID id-URA-Information	CRITICALITY ignore	TYPE URA-Information	PRESENCE optional},
	...
}

UplinkSignallingTransferIndicationFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GA-CellAdditionalShapes	CRITICALITY ignore	EXTENSION GA-CellAdditionalShapes	PRESENCE optional}|
	{ ID id-DPC-Mode-Change-SupportIndicator	CRITICALITY ignore	EXTENSION DPC-Mode-Change-SupportIndicator	PRESENCE optional}|
	{ ID id-CommonTransportChannelResourcesInitialisationNotRequired	CRITICALITY ignore	EXTENSION CommonTransportChannelResourcesInitialisationNotRequired	PRESENCE optional}|
	{ ID id-CellCapabilityContainer-FDD	CRITICALITY ignore	EXTENSION CellCapabilityContainer-FDD	PRESENCE optional}|
	{ ID id-SNA-Information	CRITICALITY ignore	EXTENSION SNA-Information	PRESENCE optional}|
	{ ID id-CellPortionID	CRITICALITY ignore	EXTENSION CellPortionID 	PRESENCE optional}|
	{ ID id-Active-MBMS-Bearer-ServiceFDD	CRITICALITY ignore	EXTENSION Active-MBMS-Bearer-Service-ListFDD	PRESENCE optional}|
	{ ID id-Inter-Frequency-Cell-List	CRITICALITY ignore	EXTENSION Inter-Frequency-Cell-List	PRESENCE optional}|
	{ ID id-ExtendedPropagationDelay	CRITICALITY ignore	EXTENSION ExtendedPropagationDelay	PRESENCE optional}|
	{ ID id-HSDSCH-RNTI	CRITICALITY ignore	EXTENSION HSDSCH-RNTI	PRESENCE optional}|
	{ ID id-Multiple-PLMN-List	CRITICALITY ignore	EXTENSION Multiple-PLMN-List	PRESENCE optional}|
	{ ID id-E-RNTI	CRITICALITY ignore	EXTENSION E-RNTI	PRESENCE optional}|
	{ ID id-Max-UE-DTX-Cycle	CRITICALITY ignore	EXTENSION Max-UE-DTX-Cycle	PRESENCE conditional}|
	-- This IE shall be present if the Continuous Packet Connectivity DTX-DRX Support Indicator IE in Cell Capability Container FDD IE is set to 1.
	{ ID id-CellCapabilityContainerExtension-FDD			CRITICALITY ignore	EXTENSION CellCapabilityContainerExtension-FDD	PRESENCE optional}|
	{ ID id-Secondary-Serving-Cell-List						CRITICALITY ignore	EXTENSION Secondary-Serving-Cell-List		PRESENCE optional}|
	{ ID id-Dual-Band-Secondary-Serving-Cell-List			CRITICALITY ignore	EXTENSION Secondary-Serving-Cell-List		PRESENCE optional}|
	{ ID id-Extended-S-RNTI									CRITICALITY ignore	EXTENSION Extended-RNTI				PRESENCE optional},
	...
}

-- **************************************************************
--
-- UPLINK SIGNALLING TRANSFER INDICATION TDD
--
-- **************************************************************

UplinkSignallingTransferIndicationTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{UplinkSignallingTransferIndicationTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{UplinkSignallingTransferIndicationTDD-Extensions}}	OPTIONAL,
	...
}

UplinkSignallingTransferIndicationTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UC-ID	CRITICALITY ignore	TYPE UC-ID	PRESENCE mandatory} |
	{ ID id-SAI	CRITICALITY ignore	TYPE SAI	PRESENCE mandatory} |
	{ ID id-GA-Cell	CRITICALITY ignore	TYPE GA-Cell	PRESENCE optional} |
	{ ID id-C-RNTI	CRITICALITY ignore	TYPE C-RNTI	PRESENCE mandatory} |
	{ ID id-S-RNTI	CRITICALITY ignore	TYPE S-RNTI	PRESENCE mandatory} |
	{ ID id-D-RNTI	CRITICALITY ignore	TYPE D-RNTI	PRESENCE optional} |
	{ ID id-RxTimingDeviationForTA	CRITICALITY ignore	TYPE RxTimingDeviationForTA	PRESENCE mandatory} |
	{ ID id-L3-Information	CRITICALITY ignore	TYPE L3-Information	PRESENCE mandatory} |
	{ ID id-CN-PS-DomainIdentifier	CRITICALITY ignore	TYPE CN-PS-DomainIdentifier	PRESENCE optional} |
	{ ID id-CN-CS-DomainIdentifier	CRITICALITY ignore	TYPE CN-CS-DomainIdentifier	PRESENCE optional} |
	{ ID id-URA-Information	CRITICALITY ignore	TYPE URA-Information	PRESENCE optional},
	...
}

UplinkSignallingTransferIndicationTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GA-CellAdditionalShapes	CRITICALITY ignore	EXTENSION GA-CellAdditionalShapes	PRESENCE optional }|
	{ ID id-CommonTransportChannelResourcesInitialisationNotRequired	CRITICALITY ignore	EXTENSION CommonTransportChannelResourcesInitialisationNotRequired		PRESENCE optional }|
	{ ID id-CellCapabilityContainer-TDD	CRITICALITY ignore	EXTENSION CellCapabilityContainer-TDD	PRESENCE optional }|
	-- Applicable to 3.84Mcps TDD only
	{ ID id-CellCapabilityContainer-TDD-LCR	CRITICALITY ignore	EXTENSION CellCapabilityContainer-TDD-LCR	PRESENCE optional }|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-SNA-Information	CRITICALITY ignore	EXTENSION SNA-Information	PRESENCE optional }|
	{ ID id-Active-MBMS-Bearer-ServiceTDD	CRITICALITY ignore	EXTENSION Active-MBMS-Bearer-Service-ListTDD	PRESENCE optional }|
	{ ID id-CellCapabilityContainer-TDD768	CRITICALITY ignore	EXTENSION CellCapabilityContainer-TDD768	PRESENCE optional }|
	-- Applicable to 7.68Mcps TDD only
	{ ID id-RxTimingDeviationForTA768	CRITICALITY ignore	EXTENSION RxTimingDeviationForTA768	PRESENCE optional }|
	{ ID id-RxTimingDeviationForTAext	CRITICALITY ignore	EXTENSION RxTimingDeviationForTAext	PRESENCE optional }|
	{ ID id-Multiple-PLMN-List	CRITICALITY ignore	EXTENSION Multiple-PLMN-List	PRESENCE optional }|
	{ ID id-HSDSCH-RNTI	CRITICALITY ignore	EXTENSION HSDSCH-RNTI	PRESENCE optional }|
	{ ID id-E-RNTI	CRITICALITY ignore	EXTENSION E-RNTI	PRESENCE optional }|
	{ ID id-CellPortionLCRID	CRITICALITY ignore	EXTENSION CellPortionLCRID 	PRESENCE optional }|
	{ ID id-CellCapabilityContainerExtension-TDD-LCR CRITICALITY ignore EXTENSION CellCapabilityContainerExtension-TDD-LCR	PRESENCE optional }|
	{ ID id-Extended-S-RNTI	CRITICALITY ignore	EXTENSION Extended-RNTI	PRESENCE optional },
	...

}

-- **************************************************************
--
-- DOWNLINK SIGNALLING TRANSFER REQUEST
--
-- **************************************************************

DownlinkSignallingTransferRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{DownlinkSignallingTransferRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{DownlinkSignallingTransferRequest-Extensions}}	OPTIONAL,
	...
}

DownlinkSignallingTransferRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-C-ID						CRITICALITY ignore	TYPE C-ID							PRESENCE mandatory } |
	-- May be a GERAN cell identifier
	{ ID id-D-RNTI						CRITICALITY ignore	TYPE D-RNTI							PRESENCE mandatory } |
	{ ID id-L3-Information				CRITICALITY ignore	TYPE L3-Information					PRESENCE mandatory } |
	{ ID id-D-RNTI-ReleaseIndication	CRITICALITY ignore	TYPE D-RNTI-ReleaseIndication			PRESENCE mandatory },
	...
}

DownlinkSignallingTransferRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-URA-ID						CRITICALITY ignore	EXTENSION URA-ID							PRESENCE optional}|
	{ ID id-MBMS-Bearer-Service-List	CRITICALITY ignore	EXTENSION MBMS-Bearer-Service-List			PRESENCE optional}|
	{ ID id-Old-URA-ID					CRITICALITY ignore	EXTENSION URA-ID							PRESENCE optional}|
	{ ID id-SRNC-ID						CRITICALITY ignore	EXTENSION RNC-ID							PRESENCE conditional}|
	-- This IE shall be present if the URA-ID IE or Old URA-ID IE is present.
	{ ID id-Extended-SRNC-ID			CRITICALITY reject	EXTENSION Extended-RNC-ID					PRESENCE optional}|
	{ ID id-Enhanced-PCH-Capability		CRITICALITY ignore	EXTENSION Enhanced-PCH-Capability			PRESENCE optional},
	-- FDD and 1.28Mcps TDD only
	...
}


-- **************************************************************
--
-- RELOCATION COMMIT
--
-- **************************************************************

RelocationCommit ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RelocationCommit-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RelocationCommit-Extensions}}	OPTIONAL,
	...
}

RelocationCommit-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-D-RNTI					CRITICALITY ignore	TYPE D-RNTI					PRESENCE optional	} |
	{ ID id-RANAP-RelocationInformation		CRITICALITY ignore	TYPE RANAP-RelocationInformation		PRESENCE optional	},
	...
}

RelocationCommit-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- PAGING REQUEST
--
-- **************************************************************

PagingRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{PagingRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{PagingRequest-Extensions}}	OPTIONAL,
	...
}

PagingRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-PagingArea-PagingRqst			CRITICALITY ignore	TYPE PagingArea-PagingRqst				PRESENCE mandatory}|
	{ ID id-SRNC-ID							CRITICALITY ignore	TYPE RNC-ID								PRESENCE mandatory}| -- May be a BSC-Id.
	{ ID id-S-RNTI							CRITICALITY ignore	TYPE S-RNTI								PRESENCE mandatory}|
	{ ID id-IMSI							CRITICALITY ignore	TYPE IMSI								PRESENCE mandatory}|
	{ ID id-DRXCycleLengthCoefficient		CRITICALITY ignore	TYPE DRXCycleLengthCoefficient			PRESENCE mandatory}|
	{ ID id-CNOriginatedPage-PagingRqst		CRITICALITY ignore	TYPE CNOriginatedPage-PagingRqst		PRESENCE optional},
	...
}

PagingArea-PagingRqst ::= CHOICE {
	uRA						URA-PagingRqst, -- May be a GRA-ID.
	cell					Cell-PagingRqst, -- UTRAN only
	...
}

URA-PagingRqst ::= SEQUENCE {
	uRA-ID						URA-ID,
	iE-Extensions				ProtocolExtensionContainer { { URAItem-PagingRqst-ExtIEs} } OPTIONAL,
	...
}

URAItem-PagingRqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Cell-PagingRqst ::= SEQUENCE {
	c-ID						C-ID,
	iE-Extensions				ProtocolExtensionContainer { { CellItem-PagingRqst-ExtIEs} } OPTIONAL,
	...
}

CellItem-PagingRqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CNOriginatedPage-PagingRqst::= SEQUENCE {
	pagingCause					PagingCause,
	cNDomainType				CNDomainType,
	pagingRecordType			PagingRecordType,
	iE-Extensions				ProtocolExtensionContainer { { CNOriginatedPage-PagingRqst-ExtIEs} } OPTIONAL,
	...
}

CNOriginatedPage-PagingRqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

PagingRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extended-SRNC-ID			CRITICALITY reject	EXTENSION Extended-RNC-ID				PRESENCE optional}|
	{ ID id-Enhanced-PCH-Capability		CRITICALITY ignore	EXTENSION Enhanced-PCH-Capability		PRESENCE optional}|
	-- FDD and 1.28Mcps TDD only
	{ ID id-Extended-S-RNTI				CRITICALITY ignore	EXTENSION Extended-RNTI					PRESENCE optional},
	...
}

-- **************************************************************
--
-- DEDICATED MEASUREMENT INITIATION REQUEST
--
-- **************************************************************

DedicatedMeasurementInitiationRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{DedicatedMeasurementInitiationRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{DedicatedMeasurementInitiationRequest-Extensions}}	OPTIONAL,
	...
}

DedicatedMeasurementInitiationRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID				CRITICALITY reject	TYPE MeasurementID				PRESENCE mandatory } |
	{ ID id-DedicatedMeasurementObjectType-DM-Rqst	CRITICALITY reject	TYPE DedicatedMeasurementObjectType-DM-Rqst	PRESENCE mandatory } |

	{ ID id-DedicatedMeasurementType		CRITICALITY reject	TYPE DedicatedMeasurementType			PRESENCE mandatory } |
	{ ID id-MeasurementFilterCoefficient	CRITICALITY reject	TYPE MeasurementFilterCoefficient		PRESENCE optional } |
	{ ID id-ReportCharacteristics			CRITICALITY reject	TYPE ReportCharacteristics				PRESENCE mandatory }|
	{ ID id-CFNReportingIndicator			CRITICALITY reject	TYPE FNReportingIndicator				PRESENCE mandatory }|
	{ ID id-CFN								CRITICALITY reject	TYPE CFN								PRESENCE optional },
	...
}

DedicatedMeasurementObjectType-DM-Rqst ::= CHOICE {
	rL						RL-DM-Rqst,
	rLS						RL-Set-DM-Rqst,
	allRL					All-RL-DM-Rqst,
	allRLS					All-RL-Set-DM-Rqst,
	...
}

RL-DM-Rqst ::= SEQUENCE {
	rL-InformationList-DM-Rqst		RL-InformationList-DM-Rqst,
	iE-Extensions					ProtocolExtensionContainer { { RLItem-DM-Rqst-ExtIEs} } OPTIONAL,
	...
	}

RLItem-DM-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-InformationList-DM-Rqst					::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-Information-DM-Rqst-IEs} }

RL-Information-DM-Rqst-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationItem-DM-Rqst		CRITICALITY reject	TYPE RL-InformationItem-DM-Rqst			PRESENCE mandatory	}
}

RL-InformationItem-DM-Rqst ::= SEQUENCE {
	rL-ID						RL-ID,
	dPCH-ID						DPCH-ID		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {RL-InformationItem-DM-Rqst-ExtIEs} } OPTIONAL,
	...
}

RL-InformationItem-DM-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HSSICH-Info-DM-Rqst					CRITICALITY reject				EXTENSION HSSICH-Info-DM-Rqst					PRESENCE optional}|
	-- TDD only
	{ ID id-DPCH-ID768-DM-Rqst					CRITICALITY reject				EXTENSION DPCH-ID768										PRESENCE optional}|
	{ ID id-HSSICH-Info-DM-Rqst-Extension		CRITICALITY reject				EXTENSION HSSICH-Info-DM-Rqst-Extension			PRESENCE optional},
	-- Applicable for 1.28Mcps TDD only when the HS-SICH ID IE is more than 31
	...
}

HSSICH-Info-DM-Rqst ::= SEQUENCE (SIZE (1..maxNrOfHSSICHs)) OF HS-SICH-ID

HSSICH-Info-DM-Rqst-Extension ::= SEQUENCE (SIZE (1..maxNrOfHSSICHs)) OF HS-SICH-ID-Extension

RL-Set-DM-Rqst ::= SEQUENCE {
	rL-Set-InformationList-DM-Rqst	RL-Set-InformationList-DM-Rqst,
	iE-Extensions					ProtocolExtensionContainer { { RL-SetItem-DM-Rqst-ExtIEs} } OPTIONAL,
	...
	}

RL-SetItem-DM-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-InformationList-DM-Rqst					::= SEQUENCE (SIZE (1..maxNrOfRLSets)) OF ProtocolIE-Single-Container { {RL-Set-Information-DM-Rqst-IEs} }

RL-Set-Information-DM-Rqst-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Set-InformationItem-DM-Rqst		CRITICALITY reject	TYPE RL-Set-InformationItem-DM-Rqst			PRESENCE mandatory	}
}

RL-Set-InformationItem-DM-Rqst ::= SEQUENCE {
	rL-Set-ID						RL-Set-ID,
	iE-Extensions					ProtocolExtensionContainer { {RL-Set-InformationItem-DM-Rqst-ExtIEs} } OPTIONAL,
	...
}

RL-Set-InformationItem-DM-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

All-RL-DM-Rqst ::= NULL

All-RL-Set-DM-Rqst ::= NULL

DedicatedMeasurementInitiationRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-PartialReportingIndicator				CRITICALITY ignore	EXTENSION	PartialReportingIndicator					PRESENCE optional }|
	{ ID	id-MeasurementRecoveryBehavior			CRITICALITY ignore	EXTENSION	MeasurementRecoveryBehavior				PRESENCE optional }|
	{ ID id-AlternativeFormatReportingIndicator		CRITICALITY ignore	EXTENSION	AlternativeFormatReportingIndicator	PRESENCE optional },
	...
}

-- **************************************************************
--
-- DEDICATED MEASUREMENT INITIATION RESPONSE
--
-- **************************************************************

DedicatedMeasurementInitiationResponse ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{DedicatedMeasurementInitiationResponse-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{DedicatedMeasurementInitiationResponse-Extensions}}	OPTIONAL,
	...
}

DedicatedMeasurementInitiationResponse-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID							CRITICALITY ignore	TYPE MeasurementID						PRESENCE mandatory} |
	{ ID id-DedicatedMeasurementObjectType-DM-Rsp	CRITICALITY ignore	TYPE DedicatedMeasurementObjectType-DM-Rsp	PRESENCE optional} |
	{ ID id-CriticalityDiagnostics					CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional},
	...
}

DedicatedMeasurementObjectType-DM-Rsp ::= CHOICE {
	rLs						RL-DM-Rsp,
	rLS						RL-Set-DM-Rsp,
	allRL					RL-DM-Rsp,
	allRLS					RL-Set-DM-Rsp,
	...
}

RL-DM-Rsp ::= SEQUENCE {
	rL-InformationList-DM-Rsp						RL-InformationList-DM-Rsp,
	iE-Extensions					ProtocolExtensionContainer { { RLItem-DM-Rsp-ExtIEs} } OPTIONAL,
	...
}

RLItem-DM-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-DM-Rsp ::= SEQUENCE {
	rL-Set-InformationList-DM-Rsp	RL-Set-InformationList-DM-Rsp,
	iE-Extensions					ProtocolExtensionContainer { { RL-SetItem-DM-Rsp-ExtIEs} } OPTIONAL,
	...
}

RL-SetItem-DM-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-InformationList-DM-Rsp					::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-Information-DM-Rsp-IEs} }

RL-Information-DM-Rsp-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationItem-DM-Rsp		CRITICALITY ignore	TYPE RL-InformationItem-DM-Rsp		PRESENCE mandatory	}
}

RL-InformationItem-DM-Rsp ::= SEQUENCE {
	rL-ID						RL-ID,
	dPCH-ID						DPCH-ID				OPTIONAL,
	dedicatedMeasurementValue	DedicatedMeasurementValue,
	cFN							CFN					OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {RL-InformationItem-DM-Rsp-ExtIEs} }	OPTIONAL,
	...
}

RL-InformationItem-DM-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-HSSICH-Info-DM												CRITICALITY reject	EXTENSION HS-SICH-ID	PRESENCE optional}|
	-- TDD only
	{ ID	id-multiple-DedicatedMeasurementValueList-TDD-DM-Rsp		CRITICALITY ignore	EXTENSION Multiple-DedicatedMeasurementValueList-TDD-DM-Rsp	PRESENCE optional}|
	-- Applicable to 3.84Mcps TDD only. This list of dedicated measurement values is used for the 2nd and beyond measurements of a RL when multiple dedicated measurement values need to be reported.
	{ ID	id-multiple-DedicatedMeasurementValueList-LCR-TDD-DM-Rsp	CRITICALITY ignore	EXTENSION Multiple-DedicatedMeasurementValueList-LCR-TDD-DM-Rsp	PRESENCE optional}|
	-- Applicable to 1.28Mcps TDD only. This list of dedicated measurement values is used for the 2nd and beyond measurements of a RL when multiple dedicated measurement values need to be reported.
	{ ID	id-multiple-HSSICHMeasurementValueList-TDD-DM-Rsp			CRITICALITY ignore	EXTENSION Multiple-HSSICHMeasurementValueList-TDD-DM-Rsp	PRESENCE optional}|
	-- TDD only. This list of HS-SICH measurement values is used for the 2nd and beyond measurements of a RL when multiple HS-SICH measurement values need to be reported.
	{ ID	id-multiple-DedicatedMeasurementValueList-TDD768-DM-Rsp		CRITICALITY ignore	EXTENSION Multiple-DedicatedMeasurementValueList-TDD768-DM-Rsp	PRESENCE optional}|
	-- Applicable to 7.68Mcps TDD only. This list of dedicated measurement values is used for the 2nd and beyond measurements of a RL when multiple dedicated measurement values need to be reported.
	{ ID	id-DPCH-ID768-DM-Rsp										CRITICALITY ignore	EXTENSION DPCH-ID768			PRESENCE optional}|
	{ ID id-HS-SICH-ID-Extension										CRITICALITY ignore	EXTENSION HS-SICH-ID-Extension	PRESENCE optional},
	-- Applicable for 1.28Mcps TDD only when the HS-SICH ID IE is more than 31
	...
}

RL-Set-InformationList-DM-Rsp	::= SEQUENCE (SIZE (1..maxNrOfRLSets)) OF ProtocolIE-Single-Container { {RL-Set-Information-DM-Rsp-IEs} }

RL-Set-Information-DM-Rsp-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Set-InformationItem-DM-Rsp		CRITICALITY ignore	TYPE RL-Set-InformationItem-DM-Rsp		PRESENCE mandatory	}
}

RL-Set-InformationItem-DM-Rsp ::= SEQUENCE {
	rL-Set-ID						RL-Set-ID,
	dedicatedMeasurementValue		DedicatedMeasurementValue,
	cFN								CFN			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {RL-Set-InformationItem-DM-Rspns-ExtIEs} }	OPTIONAL,
	...
}

RL-Set-InformationItem-DM-Rspns-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DedicatedMeasurementInitiationResponse-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID	id-MeasurementRecoverySupportIndicator		CRITICALITY ignore		EXTENSION	MeasurementRecoverySupportIndicator		PRESENCE optional
	},
	...
}

Multiple-DedicatedMeasurementValueList-TDD-DM-Rsp ::= SEQUENCE (SIZE (1.. maxNrOfDPCHsPerRL-1)) OF Multiple-DedicatedMeasurementValueItem-TDD-DM-Rsp

Multiple-DedicatedMeasurementValueItem-TDD-DM-Rsp ::= SEQUENCE {
	dPCH-ID								DPCH-ID, 
	dedicatedMeasurementValue			DedicatedMeasurementValue,
	iE-Extensions						ProtocolExtensionContainer { { Multiple-DedicatedMeasurementValueItem-TDD-DM-Rsp-ExtIEs} }		OPTIONAL,
	...

}

Multiple-DedicatedMeasurementValueItem-TDD-DM-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Multiple-DedicatedMeasurementValueList-LCR-TDD-DM-Rsp ::= SEQUENCE (SIZE (1.. maxNrOfDPCHsLCRPerRL-1)) OF Multiple-DedicatedMeasurementValueItem-LCR-TDD-DM-Rsp

Multiple-DedicatedMeasurementValueItem-LCR-TDD-DM-Rsp ::= SEQUENCE {
	dPCH-ID								DPCH-ID, 
	dedicatedMeasurementValue			DedicatedMeasurementValue,
	iE-Extensions						ProtocolExtensionContainer { { Multiple-DedicatedMeasurementValueItem-LCR-TDD-DM-Rsp-ExtIEs} }		OPTIONAL,
	...
}

Multiple-DedicatedMeasurementValueItem-LCR-TDD-DM-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Multiple-HSSICHMeasurementValueList-TDD-DM-Rsp ::= SEQUENCE (SIZE (1.. maxNrOfHSSICHs-1)) OF Multiple-HSSICHMeasurementValueItem-TDD-DM-Rsp

Multiple-HSSICHMeasurementValueItem-TDD-DM-Rsp ::= SEQUENCE {
	hsSICH-ID							HS-SICH-ID, 
	dedicatedMeasurementValue			DedicatedMeasurementValue,
	iE-Extensions						ProtocolExtensionContainer { { Multiple-HSSICHMeasurementValueItem-TDD-DM-Rsp-ExtIEs} }		OPTIONAL,
	...
}


Multiple-HSSICHMeasurementValueItem-TDD-DM-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HS-SICH-ID-Extension			CRITICALITY ignore		EXTENSION HS-SICH-ID-Extension		PRESENCE optional},
	-- Applicable for 1.28Mcps TDD only when the HS-SICH ID IE is more than 31
	...
}

Multiple-DedicatedMeasurementValueList-TDD768-DM-Rsp ::= SEQUENCE (SIZE (1.. maxNrOfDPCHs768PerRL-1)) OF Multiple-DedicatedMeasurementValueItem-TDD768-DM-Rsp

Multiple-DedicatedMeasurementValueItem-TDD768-DM-Rsp ::= SEQUENCE {
	dPCH-ID768							DPCH-ID768, 
	dedicatedMeasurementValue			DedicatedMeasurementValue,
	iE-Extensions						ProtocolExtensionContainer { { Multiple-DedicatedMeasurementValueItem-TDD768-DM-Rsp-ExtIEs} }		OPTIONAL,
	...

}

Multiple-DedicatedMeasurementValueItem-TDD768-DM-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- DEDICATED MEASUREMENT INITIATION FAILURE
--
-- **************************************************************

DedicatedMeasurementInitiationFailure ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{DedicatedMeasurementInitiationFailure-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{DedicatedMeasurementInitiationFailure-Extensions}}	OPTIONAL,
	...
}

DedicatedMeasurementInitiationFailure-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID				CRITICALITY ignore	TYPE MeasurementID				PRESENCE mandatory	} |
	{ ID id-Cause					CRITICALITY ignore	TYPE Cause					PRESENCE mandatory	} |
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

DedicatedMeasurementInitiationFailure-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DedicatedMeasurementObjectType-DM-Fail	CRITICALITY ignore	EXTENSION DedicatedMeasurementObjectType-DM-Fail	PRESENCE optional	},
	...
}

DedicatedMeasurementObjectType-DM-Fail ::= CHOICE {
	rL						RL-DM-Fail,
	rLS						RL-Set-DM-Fail,
	allRL					RL-DM-Fail,
	allRLS					RL-Set-DM-Fail,
	...
}

RL-DM-Fail ::= SEQUENCE {
	rL-unsuccessful-InformationRespList-DM-Fail		RL-Unsuccessful-InformationRespList-DM-Fail,
	rL-successful-InformationRespList-DM-Fail		RL-Successful-InformationRespList-DM-Fail			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { RLItem-DM-Fail-ExtIEs} } OPTIONAL,
	...
}

RLItem-DM-Fail-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-DM-Fail ::= SEQUENCE {
	rL-Set-unsuccessful-InformationRespList-DM-Fail	RL-Set-Unsuccessful-InformationRespList-DM-Fail,
	rL-Set-successful-InformationRespList-DM-Fail	RL-Set-Successful-InformationRespList-DM-Fail			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { RL-SetItem-DM-Fail-ExtIEs} } OPTIONAL,
	...
}

RL-SetItem-DM-Fail-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Unsuccessful-InformationRespList-DM-Fail			::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-Unsuccessful-InformationResp-DM-Fail-IEs} }

RL-Unsuccessful-InformationResp-DM-Fail-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Unsuccessful-InformationItem-DM-Fail		CRITICALITY ignore	TYPE RL-Unsuccessful-InformationItem-DM-Fail		PRESENCE mandatory	}
}

RL-Unsuccessful-InformationItem-DM-Fail ::= SEQUENCE {
	rL-ID						RL-ID,
	individualcause				Cause	OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {RL-Unsuccessful-InformationItem-DM-Fail-ExtIEs} } OPTIONAL,
	...
}

RL-Unsuccessful-InformationItem-DM-Fail-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Successful-InformationRespList-DM-Fail			::= SEQUENCE (SIZE (1..maxNrOfRLs-1)) OF ProtocolIE-Single-Container { {RL-Successful-InformationResp-DM-Fail-IEs} }

RL-Successful-InformationResp-DM-Fail-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Successful-InformationItem-DM-Fail		CRITICALITY ignore	TYPE RL-Successful-InformationItem-DM-Fail		PRESENCE mandatory	}
}

RL-Successful-InformationItem-DM-Fail ::= SEQUENCE {
	rL-ID						RL-ID,
	dPCH-ID						DPCH-ID				OPTIONAL,
	dedicatedMeasurementValue	DedicatedMeasurementValue,
	cFN							CFN					OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {RL-Successful-InformationItem-DM-Fail-ExtIEs} } OPTIONAL,
	...
}

RL-Successful-InformationItem-DM-Fail-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-HSSICH-Info-DM					CRITICALITY reject				EXTENSION	HS-SICH-ID		PRESENCE optional}|
	-- TDD only
	{ ID id-HS-SICH-ID-Extension			CRITICALITY ignore				EXTENSION HS-SICH-ID-Extension			PRESENCE optional},
	-- Applicable for 1.28Mcps TDD only when the HS-SICH ID IE is more than 31
	...
}

RL-Set-Unsuccessful-InformationRespList-DM-Fail				::= SEQUENCE (SIZE (1..maxNrOfRLSets)) OF ProtocolIE-Single-Container { {RL-Set-Unsuccessful-InformationResp-DM-Fail-IEs} }

RL-Set-Unsuccessful-InformationResp-DM-Fail-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Set-Unsuccessful-InformationItem-DM-Fail		CRITICALITY ignore	TYPE RL-Set-Unsuccessful-InformationItem-DM-Fail		PRESENCE mandatory	}
}

RL-Set-Unsuccessful-InformationItem-DM-Fail ::= SEQUENCE {
	rL-Set-ID						RL-Set-ID,
	individualcause					Cause		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {RL-Set-Unsuccessful-InformationItem-DM-Failns-ExtIEs} } OPTIONAL,
	...
}

RL-Set-Unsuccessful-InformationItem-DM-Failns-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-Successful-InformationRespList-DM-Fail				::= SEQUENCE (SIZE (1..maxNrOfRLSets-1)) OF ProtocolIE-Single-Container { {RL-Set-Successful-InformationResp-DM-Fail-IEs} }

RL-Set-Successful-InformationResp-DM-Fail-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Set-Successful-InformationItem-DM-Fail		CRITICALITY ignore	TYPE RL-Set-Successful-InformationItem-DM-Fail		PRESENCE mandatory	}
}

RL-Set-Successful-InformationItem-DM-Fail ::= SEQUENCE {
	rL-Set-ID						RL-Set-ID,
	dedicatedMeasurementValue		DedicatedMeasurementValue,
	cFN								CFN					OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {RL-Set-Successful-InformationItem-DM-Failns-ExtIEs} }	OPTIONAL,
	...
}

RL-Set-Successful-InformationItem-DM-Failns-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- DEDICATED MEASUREMENT REPORT
--
-- **************************************************************

DedicatedMeasurementReport ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{DedicatedMeasurementReport-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{DedicatedMeasurementReport-Extensions}}	OPTIONAL,
	...
}

DedicatedMeasurementReport-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID				CRITICALITY ignore	TYPE MeasurementID				PRESENCE mandatory	} |
	{ ID id-DedicatedMeasurementObjectType-DM-Rprt	CRITICALITY ignore	TYPE DedicatedMeasurementObjectType-DM-Rprt	PRESENCE mandatory	},
	...
}

DedicatedMeasurementObjectType-DM-Rprt ::= CHOICE {
	rLs						RL-DM-Rprt,
	rLS						RL-Set-DM-Rprt,
	allRL					RL-DM-Rprt,
	allRLS					RL-Set-DM-Rprt,
	...
}

RL-DM-Rprt ::= SEQUENCE {
	rL-InformationList-DM-Rprt		RL-InformationList-DM-Rprt,
	iE-Extensions					ProtocolExtensionContainer { { RLItem-DM-Rprt-ExtIEs} } OPTIONAL,
	...
}

RLItem-DM-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-DM-Rprt ::= SEQUENCE {
	rL-Set-InformationList-DM-Rprt	RL-Set-InformationList-DM-Rprt,
	iE-Extensions					ProtocolExtensionContainer { { RL-SetItem-DM-Rprt-ExtIEs} } OPTIONAL,
	...
}

RL-SetItem-DM-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-InformationList-DM-Rprt					::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-Information-DM-Rprt-IEs} }

RL-Information-DM-Rprt-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-InformationItem-DM-Rprt		CRITICALITY ignore	TYPE RL-InformationItem-DM-Rprt			PRESENCE mandatory	}
}

RL-InformationItem-DM-Rprt ::= SEQUENCE {
	rL-ID						RL-ID,
	dPCH-ID						DPCH-ID				OPTIONAL,
	dedicatedMeasurementValueInformation	DedicatedMeasurementValueInformation,
	iE-Extensions					ProtocolExtensionContainer { {RL-InformationItem-DM-Rprt-ExtIEs} } OPTIONAL,
	...
}

RL-InformationItem-DM-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-HSSICH-Info-DM-Rprt		CRITICALITY ignore				EXTENSION	HS-SICH-ID		PRESENCE optional}|
	-- TDD only
	{ ID	id-DPCH-ID768-DM-Rprt		CRITICALITY ignore				EXTENSION	DPCH-ID768		PRESENCE optional}|
	{ ID id-HS-SICH-ID-Extension		CRITICALITY ignore				EXTENSION HS-SICH-ID-Extension					PRESENCE optional},
	-- Applicable for 1.28Mcps TDD only when the HS-SICH ID IE is more than 31
	...
}

RL-Set-InformationList-DM-Rprt					::= SEQUENCE (SIZE (1..maxNrOfRLSets)) OF ProtocolIE-Single-Container { {RL-Set-Information-DM-Rprt-IEs} }

RL-Set-Information-DM-Rprt-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Set-InformationItem-DM-Rprt		CRITICALITY ignore	TYPE RL-Set-InformationItem-DM-Rprt			PRESENCE mandatory	}
}

RL-Set-InformationItem-DM-Rprt ::= SEQUENCE {
	rL-Set-ID						RL-Set-ID,
	dedicatedMeasurementValueInformation	DedicatedMeasurementValueInformation,
	iE-Extensions					ProtocolExtensionContainer { {RL-Set-InformationItem-DM-Rprt-ExtIEs} } OPTIONAL,
	...
}

RL-Set-InformationItem-DM-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DedicatedMeasurementReport-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID	id-MeasurementRecoveryReportingIndicator		CRITICALITY ignore		EXTENSION	MeasurementRecoveryReportingIndicator		PRESENCE optional },
	...
}

-- **************************************************************
--
-- DEDICATED MEASUREMENT TERMINATION REQUEST
--
-- **************************************************************

DedicatedMeasurementTerminationRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{DedicatedMeasurementTerminationRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{DedicatedMeasurementTerminationRequest-Extensions}}OPTIONAL,
	...
}

DedicatedMeasurementTerminationRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID				CRITICALITY ignore	TYPE MeasurementID				PRESENCE mandatory	},
	...
}

DedicatedMeasurementTerminationRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- DEDICATED MEASUREMENT FAILURE INDICATION
--
-- **************************************************************

DedicatedMeasurementFailureIndication ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{DedicatedMeasurementFailureIndication-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{DedicatedMeasurementFailureIndication-Extensions}}	OPTIONAL,
	...
}

DedicatedMeasurementFailureIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID			CRITICALITY ignore	TYPE MeasurementID			PRESENCE mandatory}|
	{ ID id-Cause					CRITICALITY ignore	TYPE Cause					PRESENCE mandatory},
	...
}

DedicatedMeasurementFailureIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DedicatedMeasurementObjectType-DM-Fail-Ind	CRITICALITY ignore	EXTENSION DedicatedMeasurementObjectType-DM-Fail-Ind	PRESENCE optional	},
	...
}

DedicatedMeasurementObjectType-DM-Fail-Ind ::= CHOICE {
	rL						RL-DM-Fail-Ind,
	rLS						RL-Set-DM-Fail-Ind,
	allRL					RL-DM-Fail-Ind,
	allRLS					RL-Set-DM-Fail-Ind,
	...
}

RL-DM-Fail-Ind ::= SEQUENCE {
	rL-unsuccessful-InformationRespList-DM-Fail-Ind		RL-Unsuccessful-InformationRespList-DM-Fail-Ind,
	iE-Extensions										ProtocolExtensionContainer { { RLItem-DM-Fail-Ind-ExtIEs} } OPTIONAL,
	...
}

RLItem-DM-Fail-Ind-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-DM-Fail-Ind ::= SEQUENCE {
	rL-Set-unsuccessful-InformationRespList-DM-Fail-Ind		RL-Set-Unsuccessful-InformationRespList-DM-Fail-Ind,
	iE-Extensions											ProtocolExtensionContainer { { RL-SetItem-DM-Fail-Ind-ExtIEs} } OPTIONAL,
	...
}

RL-SetItem-DM-Fail-Ind-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Unsuccessful-InformationRespList-DM-Fail-Ind			::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { {RL-Unsuccessful-InformationResp-DM-Fail-Ind-IEs} }

RL-Unsuccessful-InformationResp-DM-Fail-Ind-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Unsuccessful-InformationItem-DM-Fail-Ind		CRITICALITY ignore	TYPE RL-Unsuccessful-InformationItem-DM-Fail-Ind		PRESENCE mandatory	}
}

RL-Unsuccessful-InformationItem-DM-Fail-Ind ::= SEQUENCE {
	rL-ID						RL-ID,
	individualcause				Cause		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {RL-Unsuccessful-InformationItem-DM-Fail-Ind-ExtIEs} } OPTIONAL,
	...
}

RL-Unsuccessful-InformationItem-DM-Fail-Ind-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-Set-Unsuccessful-InformationRespList-DM-Fail-Ind				::= SEQUENCE (SIZE (1..maxNrOfRLSets)) OF ProtocolIE-Single-Container { {RL-Set-Unsuccessful-InformationResp-DM-Fail-Ind-IEs} }

RL-Set-Unsuccessful-InformationResp-DM-Fail-Ind-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-Set-Unsuccessful-InformationItem-DM-Fail-Ind		CRITICALITY ignore	TYPE RL-Set-Unsuccessful-InformationItem-DM-Fail-Ind		PRESENCE mandatory	}
}

RL-Set-Unsuccessful-InformationItem-DM-Fail-Ind ::= SEQUENCE {
	rL-Set-ID						RL-Set-ID,
	individualcause					Cause		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {RL-Set-Unsuccessful-InformationItem-DM-Fail-Indns-ExtIEs} } OPTIONAL,
	...
}

RL-Set-Unsuccessful-InformationItem-DM-Fail-Indns-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- COMMON TRANSPORT CHANNEL RESOURCES RELEASE REQUEST
--
-- **************************************************************

CommonTransportChannelResourcesReleaseRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CommonTransportChannelResourcesReleaseRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonTransportChannelResourcesReleaseRequest-Extensions}}	OPTIONAL,
	...
}

CommonTransportChannelResourcesReleaseRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-D-RNTI					CRITICALITY ignore	TYPE D-RNTI					PRESENCE mandatory},
	...
}

CommonTransportChannelResourcesReleaseRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- COMMON TRANSPORT CHANNEL RESOURCES REQUEST
--
-- **************************************************************

CommonTransportChannelResourcesRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CommonTransportChannelResourcesRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonTransportChannelResourcesRequest-Extensions}}	OPTIONAL,
	...
}

CommonTransportChannelResourcesRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-D-RNTI	CRITICALITY reject	TYPE D-RNTI	PRESENCE mandatory } |
	{ ID id-C-ID	CRITICALITY reject	TYPE C-ID	PRESENCE optional } |
	{ ID id-TransportBearerRequestIndicator	CRITICALITY reject	TYPE TransportBearerRequestIndicator	PRESENCE mandatory } |
	{ ID id-TransportBearerID	CRITICALITY reject	TYPE TransportBearerID	PRESENCE mandatory },
	...
}

CommonTransportChannelResourcesRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Permanent-NAS-UE-Identity	CRITICALITY ignore	EXTENSION Permanent-NAS-UE-Identity	PRESENCE optional }|
	{ ID id-BindingID	CRITICALITY ignore	EXTENSION BindingID	PRESENCE optional }|
	-- Shall be ignored if bearer establishment with ALCAP.
	{ ID id-TransportLayerAddress	CRITICALITY ignore	EXTENSION TransportLayerAddress	PRESENCE optional }|
	-- Shall be ignored if bearer establishment with ALCAP.
	{ ID id-MBMS-Bearer-Service-List	CRITICALITY notify	EXTENSION MBMS-Bearer-Service-List	PRESENCE optional }|
	{ ID id-TnlQos	CRITICALITY ignore	EXTENSION TnlQos	PRESENCE optional }|
	{ ID id-Enhanced-FACH-Support-Indicator	CRITICALITY ignore	EXTENSION Enhanced-FACH-Support-Indicator	PRESENCE optional }|
	 -- FDD and 1.28Mcps TDD only
	{ ID id-Common-EDCH-Support-Indicator	CRITICALITY ignore	EXTENSION Common-EDCH-Support-Indicator	PRESENCE optional }|
	 -- FDD only
	{ ID id-HSDSCH-Physical-Layer-Category	CRITICALITY ignore	EXTENSION HSDSCH-Physical-Layer-Category	PRESENCE optional }|
	{ ID id-UE-with-enhanced-HS-SCCH-support-indicator CRITICALITY ignore EXTENSION NULL	PRESENCE optional },
	...
}

-- **************************************************************
--
-- COMMON TRANSPORT CHANNEL RESOURCES RESPONSE FDD
--
-- **************************************************************

CommonTransportChannelResourcesResponseFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CommonTransportChannelResourcesResponseFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonTransportChannelResourcesResponseFDD-Extensions}}	OPTIONAL,
	...
}

CommonTransportChannelResourcesResponseFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-S-RNTI					CRITICALITY ignore	TYPE S-RNTI					PRESENCE mandatory	} |
	{ ID id-C-RNTI					CRITICALITY ignore	TYPE C-RNTI					PRESENCE optional	} |
	{ ID id-FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspFDD	CRITICALITY ignore	TYPE FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspFDD		PRESENCE mandatory	} |
	{ ID id-TransportLayerAddress			CRITICALITY ignore	TYPE TransportLayerAddress			PRESENCE optional	} |
	{ ID id-BindingID				CRITICALITY ignore	TYPE BindingID					PRESENCE optional	} |
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspFDD ::= SEQUENCE {
	fACH-FlowControlInformation		FACH-FlowControlInformation-CTCH-ResourceRspFDD,
-- If the Enhanced FACH Information Response IE is included in the message, the FACH Flow Control Information IE shall be ignored.
	iE-Extensions					ProtocolExtensionContainer { {FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspFDD-ExtIEs} } OPTIONAL,
	...
}

FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

FACH-FlowControlInformation-CTCH-ResourceRspFDD ::= ProtocolIE-Single-Container {{ FACH-FlowControlInformationIEs-CTCH-ResourceRspFDD }}

FACH-FlowControlInformationIEs-CTCH-ResourceRspFDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-FACH-FlowControlInformation	CRITICALITY ignore	TYPE	FACH-FlowControlInformation	PRESENCE mandatory	}
}

CommonTransportChannelResourcesResponseFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-C-ID											CRITICALITY ignore	EXTENSION C-ID						PRESENCE mandatory}|
	{ ID id-Active-MBMS-Bearer-ServiceFDD					CRITICALITY ignore	EXTENSION Active-MBMS-Bearer-Service-ListFDD	PRESENCE optional}|
	{ ID id-Enhanced-FACH-Information-ResponseFDD			CRITICALITY ignore	EXTENSION Enhanced-FACH-Information-ResponseFDD	PRESENCE optional}|
	{ ID id-Common-EDCH-MAC-d-Flow-Specific-InformationFDD	CRITICALITY ignore	EXTENSION Common-EDCH-MAC-d-Flow-Specific-InformationFDD		PRESENCE optional}|
	{ ID id-E-RNTI											CRITICALITY ignore	EXTENSION E-RNTI					PRESENCE optional}|
	{ ID id-Extended-S-RNTI									CRITICALITY ignore	EXTENSION Extended-RNTI				PRESENCE optional},
	...
}

-- **************************************************************
--
-- COMMON TRANSPORT CHANNEL RESOURCES RESPONSE TDD
--
-- **************************************************************

CommonTransportChannelResourcesResponseTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CommonTransportChannelResourcesResponseTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonTransportChannelResourcesResponseTDD-Extensions}}	OPTIONAL,
	...
}

CommonTransportChannelResourcesResponseTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-S-RNTI					CRITICALITY ignore	TYPE S-RNTI					PRESENCE mandatory	} |
	{ ID id-C-RNTI					CRITICALITY ignore	TYPE C-RNTI					PRESENCE optional	} |
	{ ID id-FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspTDD	CRITICALITY ignore	TYPE FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspTDD		PRESENCE mandatory	} |
	{ ID id-TransportLayerAddress			CRITICALITY ignore	TYPE TransportLayerAddress			PRESENCE optional	} |
	{ ID id-BindingID				CRITICALITY ignore	TYPE BindingID					PRESENCE optional	} |
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspTDD ::= SEQUENCE {
	fACH-FlowControlInformation		FACH-FlowControlInformation-CTCH-ResourceRspTDD,
	iE-Extensions					ProtocolExtensionContainer { {FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspTDD-ExtIEs} } OPTIONAL,
	...
}

FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

FACH-FlowControlInformation-CTCH-ResourceRspTDD ::= ProtocolIE-Single-Container {{ FACH-FlowControlInformationIEs-CTCH-ResourceRspTDD }}

FACH-FlowControlInformationIEs-CTCH-ResourceRspTDD RNSAP-PROTOCOL-IES ::= {
	{ ID id-FACH-FlowControlInformation	CRITICALITY ignore	TYPE	FACH-FlowControlInformation	PRESENCE mandatory	}
}

CommonTransportChannelResourcesResponseTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-C-ID											CRITICALITY ignore	EXTENSION C-ID						PRESENCE mandatory}|
	{ ID id-Active-MBMS-Bearer-ServiceTDD					CRITICALITY ignore	EXTENSION Active-MBMS-Bearer-Service-ListTDD	PRESENCE optional}|
	{ ID id-Enhanced-FACH-Information-ResponseLCR			CRITICALITY ignore	EXTENSION Enhanced-FACH-Information-ResponseLCR	PRESENCE optional}|
	{ ID id-Common-EDCH-MAC-d-Flow-Specific-InformationLCR	CRITICALITY ignore	EXTENSION Common-EDCH-MAC-d-Flow-Specific-InformationLCR	PRESENCE optional}|
	{ ID id-Extended-S-RNTI									CRITICALITY ignore	EXTENSION Extended-RNTI				PRESENCE optional},
	...
}

-- **************************************************************
--
-- COMMON TRANSPORT CHANNEL RESOURCES FAILURE
--
-- **************************************************************

CommonTransportChannelResourcesFailure ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CommonTransportChannelResourcesFailure-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonTransportChannelResourcesFailure-Extensions}}	OPTIONAL,
	...
}

CommonTransportChannelResourcesFailure-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-S-RNTI							CRITICALITY ignore	TYPE S-RNTI							PRESENCE mandatory } |
	{ ID id-Cause							CRITICALITY ignore	TYPE Cause							PRESENCE mandatory } |
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional },
	...
}

CommonTransportChannelResourcesFailure-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extended-S-RNTI			CRITICALITY ignore	EXTENSION Extended-RNTI		PRESENCE optional},
	...
}

-- **************************************************************
--
-- COMPRESSED MODE COMMAND
--
-- **************************************************************

CompressedModeCommand ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CompressedModeCommand-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CompressedModeCommand-Extensions}}	OPTIONAL,
	...
}

CompressedModeCommand-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Active-Pattern-Sequence-Information		CRITICALITY ignore	TYPE Active-Pattern-Sequence-Information		 PRESENCE mandatory },
	...
}

CompressedModeCommand-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- ERROR INDICATION
--
-- **************************************************************

ErrorIndication ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{ErrorIndication-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{ErrorIndication-Extensions}}	OPTIONAL,
	...
}

ErrorIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE optional}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional},
	...
}

ErrorIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-S-RNTI					CRITICALITY ignore	EXTENSION S-RNTI					PRESENCE optional}|
	{ ID id-D-RNTI					CRITICALITY ignore	EXTENSION D-RNTI					PRESENCE optional}|
	{ ID id-Extended-S-RNTI			CRITICALITY ignore	EXTENSION Extended-RNTI				PRESENCE optional},
	...
}

-- **************************************************************
--
-- COMMON MEASUREMENT INITIATION REQUEST
--
-- **************************************************************

CommonMeasurementInitiationRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CommonMeasurementInitiationRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonMeasurementInitiationRequest-Extensions}}		OPTIONAL,
	...
}

CommonMeasurementInitiationRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID					CRITICALITY	reject	TYPE	MeasurementID										PRESENCE mandatory }|
	{ ID id-CommonMeasurementObjectType-CM-Rqst	CRITICALITY	reject	TYPE	CommonMeasurementObjectType-CM-Rqst		PRESENCE mandatory }|
	{ ID id-CommonMeasurementType			CRITICALITY	reject	TYPE	CommonMeasurementType								PRESENCE mandatory }|
	{ ID id-MeasurementFilterCoefficient	CRITICALITY	reject	TYPE	MeasurementFilterCoefficient						PRESENCE optional }|
	-- UTRAN only
	{ ID id-ReportCharacteristics			CRITICALITY	reject	TYPE	ReportCharacteristics								PRESENCE mandatory }|
	{ ID id-SFNReportingIndicator			CRITICALITY	reject	TYPE	FNReportingIndicator								PRESENCE mandatory } |
	{ ID id-SFN								CRITICALITY reject	TYPE	SFN													PRESENCE optional }|
	-- UTRAN only
	{ ID id-CommonMeasurementAccuracy		CRITICALITY reject	TYPE	CommonMeasurementAccuracy							PRESENCE optional },
	-- UTRAN only
	...
}

CommonMeasurementInitiationRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID	id-MeasurementRecoveryBehavior				CRITICALITY ignore	EXTENSION MeasurementRecoveryBehavior		PRESENCE optional
	}|
	-- UTRAN only
	{ ID id-GANSS-Time-ID							CRITICALITY ignore	EXTENSION GANSS-Time-ID					PRESENCE optional}|
	{ ID id-Extension-CommonMeasurementObjectType-CM-Rqst	CRITICALITY ignore	EXTENSION Extension-CommonMeasurementObjectType-CM-Rqst	PRESENCE optional},
	...
}

CommonMeasurementObjectType-CM-Rqst ::= CHOICE {
	cell							Cell-CM-Rqst,
	...,
	additional-CommonMeasurementObjectType-CM-Rqst	Additional-CommonMeasurementObjectType-CM-Rqst
}

Cell-CM-Rqst ::= SEQUENCE {
	uC-ID							UC-ID,
	-- May be a GERAN cell identifier
	timeSlot						TimeSlot		OPTIONAL,	--3.84Mcps TDD and 7.68Mcps TDD only
	timeSlotLCR						TimeSlotLCR		OPTIONAL,	--1.28Mcps TDD only
	neighbouringCellMeasurementInformation			NeighbouringCellMeasurementInfo		OPTIONAL,
	-- UTRAN only
	iE-Extensions					ProtocolExtensionContainer { { CellItem-CM-Rqst-ExtIEs} }	OPTIONAL,
	...
}

NeighbouringCellMeasurementInfo ::=	SEQUENCE (SIZE (1..maxNrOfMeasNCell)) OF
		CHOICE {
				neighbouringFDDCellMeasurementInformation		NeighbouringFDDCellMeasurementInformation,
				neighbouringTDDCellMeasurementInformation		NeighbouringTDDCellMeasurementInformation,
				...,
				extension-neighbouringCellMeasurementInformation	Extension-neighbouringCellMeasurementInformation,
				extension-neighbouringCellMeasurementInformation768	Extension-neighbouringCellMeasurementInformation768
			}

Extension-neighbouringCellMeasurementInformation	::=	ProtocolIE-Single-Container {{ Extension-neighbouringCellMeasurementInformationIE }}

Extension-neighbouringCellMeasurementInformationIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-neighbouringTDDCellMeasurementInformationLCR	CRITICALITY reject	TYPE NeighbouringTDDCellMeasurementInformationLCR	PRESENCE mandatory },
	...
}


Extension-neighbouringCellMeasurementInformation768	::=	ProtocolIE-Single-Container {{ Extension-neighbouringCellMeasurementInformation768IE }}

Extension-neighbouringCellMeasurementInformation768IE RNSAP-PROTOCOL-IES ::= {
	{ ID id-neighbouringTDDCellMeasurementInformation768	CRITICALITY reject	TYPE NeighbouringTDDCellMeasurementInformation768	PRESENCE mandatory },
	...
}

CellItem-CM-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UARFCNforNt					CRITICALITY ignore	EXTENSION UARFCN				PRESENCE optional }|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-UPPCHPositionLCR			CRITICALITY reject	EXTENSION UPPCHPositionLCR		PRESENCE optional},
	-- Applicable to 1.28Mcps TDD only
	...
}
Additional-CommonMeasurementObjectType-CM-Rqst ::= ProtocolIE-Single-Container {{ Additional-CommonMeasurementObjectType-CM-RqstIE }}

Additional-CommonMeasurementObjectType-CM-RqstIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-GSM-Cell-CM-Rqst	CRITICALITY ignore	TYPE GSM-Cell-CM-Rqst	PRESENCE mandatory },
	...
}

GSM-Cell-CM-Rqst ::= SEQUENCE {
	cGI					CGI,
	iE-Extensions		ProtocolExtensionContainer { { GSMCell-CM-Rqst-ExtIEs} }		OPTIONAL,
	...
}

GSMCell-CM-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Extension-CommonMeasurementObjectType-CM-Rqst ::= ProtocolIE-Single-Container {{ Extension-CommonMeasurementObjectType-CM-RqstIE }}

Extension-CommonMeasurementObjectType-CM-RqstIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-GsmCellList-CM-Rqst		CRITICALITY ignore	TYPE GsmCellList-CM-Rqst	PRESENCE mandatory },
	...
}

GsmCellList-CM-Rqst ::= SEQUENCE (SIZE (1..maxNoOfGsmCell)) OF GsmCellItem-CM-Rqst

GsmCellItem-CM-Rqst ::= SEQUENCE {
	measurementID			MeasurementID,
	gsmCell					GSM-Cell-CM-Rqst,
	iE-Extensions			ProtocolExtensionContainer { { GsmCellItem-CM-Rqst-ExtIEs} }		OPTIONAL,
	...
}

GsmCellItem-CM-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- COMMON MEASUREMENT INITIATION RESPONSE
--
-- **************************************************************

CommonMeasurementInitiationResponse ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CommonMeasurementInitiationResponse-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonMeasurementInitiationResponse-Extensions}}	OPTIONAL,
	...
}

CommonMeasurementInitiationResponse-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID						CRITICALITY ignore	TYPE MeasurementID							PRESENCE mandatory }|
	{ ID id-CommonMeasurementObjectType-CM-Rsp	CRITICALITY ignore	TYPE CommonMeasurementObjectType-CM-Rsp		PRESENCE optional }|
	{ ID id-SFN									CRITICALITY ignore	TYPE SFN									PRESENCE optional }|
	-- UTRAN only
	{ ID id-CriticalityDiagnostics				CRITICALITY ignore	TYPE CriticalityDiagnostics					PRESENCE optional }|
	{ ID id-CommonMeasurementAccuracy			CRITICALITY reject	TYPE CommonMeasurementAccuracy			PRESENCE optional },
	-- UTRAN only
	...
}

CommonMeasurementInitiationResponse-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-MeasurementRecoverySupportIndicator		CRITICALITY ignore	EXTENSION MeasurementRecoverySupportIndicator	PRESENCE optional }|
	-- UTRAN only
	{ ID id-Extension-CommonMeasurementObjectType-CM-Rsp	CRITICALITY ignore	EXTENSION Extension-CommonMeasurementObjectType-CM-Rsp	PRESENCE optional},
	...
}

CommonMeasurementObjectType-CM-Rsp ::= CHOICE {
	cell						Cell-CM-Rsp,
	...
}

Cell-CM-Rsp ::= SEQUENCE {
	commonMeasurementValue			CommonMeasurementValue,
	iE-Extensions					ProtocolExtensionContainer { { CellItem-CM-Rsp-ExtIEs} }		OPTIONAL,
	...
}

CellItem-CM-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}
Extension-CommonMeasurementObjectType-CM-Rsp ::= ProtocolIE-Single-Container {{ Extension-CommonMeasurementObjectType-CM-RspIE }}

Extension-CommonMeasurementObjectType-CM-RspIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-GsmCellList-CM-Rsp	CRITICALITY ignore	TYPE GsmCellList-CM-Rsp	PRESENCE mandatory },
	...
}

GsmCellList-CM-Rsp ::= SEQUENCE (SIZE (1..maxNoOfGsmCell)) OF GsmCellItem-CM-Rsp

GsmCellItem-CM-Rsp ::= SEQUENCE {
	measurementID						MeasurementID,
	commonMeasurementValue				CommonMeasurementValue	OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { GsmCellItem-CM-Rsp-ExtIEs} }	OPTIONAL,
	...
}

GsmCellItem-CM-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


-- **************************************************************
--
-- COMMON MEASUREMENT INITIATION FAILURE
--
-- **************************************************************

CommonMeasurementInitiationFailure ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container	{{CommonMeasurementInitiationFailure-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonMeasurementInitiationFailure-Extensions}}		OPTIONAL,
	...
}

CommonMeasurementInitiationFailure-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID				CRITICALITY ignore	TYPE MeasurementID				PRESENCE mandatory }|
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE mandatory }|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional },
	...
}

CommonMeasurementInitiationFailure-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extension-FailureMeasurementList	CRITICALITY ignore	EXTENSION Extension-FailureMeasurementList		PRESENCE optional },
	...
}

Extension-FailureMeasurementList ::= SEQUENCE (SIZE (1..maxNoOfGsmCell)) OF Extension-FailureMeasurementItem
Extension-FailureMeasurementItem ::= SEQUENCE {
	measurementID			MeasurementID,
	cause					Cause,
	iE-Extensions			ProtocolExtensionContainer { { Extension-FailureMeasurementItem-ExtIEs} }	OPTIONAL,
	...
}

Extension-FailureMeasurementItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- COMMON MEASUREMENT REPORT
--
-- **************************************************************

CommonMeasurementReport ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CommonMeasurementReport-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonMeasurementReport-Extensions}}		OPTIONAL,
	...
}

CommonMeasurementReport-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID						CRITICALITY ignore	TYPE MeasurementID						PRESENCE mandatory }|
	{ ID id-CommonMeasurementObjectType-CM-Rprt	CRITICALITY ignore	TYPE CommonMeasurementObjectType-CM-Rprt	PRESENCE mandatory }|
	{ ID id-SFN									CRITICALITY ignore	TYPE SFN								PRESENCE optional },
	-- UTRAN only
	...
}

CommonMeasurementReport-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-MeasurementRecoveryReportingIndicator		CRITICALITY ignore	EXTENSION MeasurementRecoveryReportingIndicator	PRESENCE optional }|
	-- UTRAN only
	{ ID id-Extension-CommonMeasurementObjectType-CM-Rprt	CRITICALITY ignore	EXTENSION Extension-CommonMeasurementObjectType-CM-Rprt	PRESENCE optional },
	...
}

CommonMeasurementObjectType-CM-Rprt ::= CHOICE {
	cell							Cell-CM-Rprt,
	...
 }

Cell-CM-Rprt ::= SEQUENCE {
	commonMeasurementValueInformation	CommonMeasurementValueInformation,
	iE-Extensions					ProtocolExtensionContainer {{ CellItem-CM-Rprt-ExtIEs }}		OPTIONAL,
	...

 }

CellItem-CM-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}
Extension-CommonMeasurementObjectType-CM-Rprt ::= ProtocolIE-Single-Container {{ Extension-CommonMeasurementObjectType-CM-RprtIE }}

Extension-CommonMeasurementObjectType-CM-RprtIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-GsmCellList-CM-Rprt		CRITICALITY ignore	TYPE GsmCellList-CM-Rprt	PRESENCE mandatory },
	...
}

GsmCellList-CM-Rprt ::= SEQUENCE (SIZE (1..maxNoOfGsmCell)) OF GsmCellItem-CM-Rprt

GsmCellItem-CM-Rprt ::= SEQUENCE {
	measurementID								MeasurementID,
	commonMeasurementValueInformation			CommonMeasurementValueInformation,
	iE-Extensions								ProtocolExtensionContainer { { GsmCellItem-CM-Rprt-ExtIEs} }		OPTIONAL,
	...
}

GsmCellItem-CM-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- COMMON MEASUREMENT TERMINATION REQUEST
--
-- **************************************************************

CommonMeasurementTerminationRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CommonMeasurementTerminationRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonMeasurementTerminationRequest-Extensions}}	OPTIONAL,
	...
}

CommonMeasurementTerminationRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID	id-MeasurementID			CRITICALITY		ignore				TYPE	MeasurementID			PRESENCE	mandatory},
	...
}

CommonMeasurementTerminationRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extension-TerminationMeasurementList	CRITICALITY ignore	EXTENSION Extension-TerminationMeasurementList	PRESENCE optional },
	...
}

Extension-TerminationMeasurementList ::= SEQUENCE (SIZE (1..maxNoOfGsmCell)) OF Extension-TerminationMeasurementItem

Extension-TerminationMeasurementItem ::= SEQUENCE {
	measurementID						MeasurementID,
	iE-Extensions						ProtocolExtensionContainer { { Extension-TerminationMeasurementItem-ExtIEs} }	OPTIONAL,
	...
}

Extension-TerminationMeasurementItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- COMMON MEASUREMENT FAILURE INDICATION
--
-- **************************************************************

CommonMeasurementFailureIndication ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{CommonMeasurementFailureIndication-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{CommonMeasurementFailureIndication-Extensions}}	OPTIONAL,
	...
}

CommonMeasurementFailureIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID	id-MeasurementID			CRITICALITY	ignore			TYPE	MeasurementID			PRESENCE	mandatory	}|
	{ ID	id-Cause					CRITICALITY	ignore			TYPE	Cause					PRESENCE	mandatory	},
	...
}

CommonMeasurementFailureIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extension-FailureIndicationMeasurementList	CRITICALITY ignore	EXTENSION Extension-FailureIndicationMeasurementList	PRESENCE optional },
	...
}

Extension-FailureIndicationMeasurementList ::= SEQUENCE (SIZE (1..maxNoOfGsmCell)) OF Extension-FailureIndicationMeasurementItem

Extension-FailureIndicationMeasurementItem ::= SEQUENCE {
	measurementID					MeasurementID,
	cause							Cause,
	iE-Extensions					ProtocolExtensionContainer { { Extension-FailureIndicationMeasurementItem-ExtIEs} }		OPTIONAL,
	...
}

Extension-FailureIndicationMeasurementItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- INFORMATION EXCHANGE INITIATION REQUEST
--
-- **************************************************************

InformationExchangeInitiationRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{InformationExchangeInitiationRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{InformationExchangeInitiationRequest-Extensions}}	OPTIONAL,
	...
}

InformationExchangeInitiationRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID	id-InformationExchangeID						CRITICALITY	reject		TYPE	InformationExchangeID					PRESENCE	mandatory	}|
	{ ID	id-InformationExchangeObjectType-InfEx-Rqst		CRITICALITY	reject		TYPE 	InformationExchangeObjectType-InfEx-Rqst		PRESENCE 	mandatory	}|

	{ ID	id-InformationType								CRITICALITY	reject		TYPE	InformationType							PRESENCE	mandatory	}|
	{ ID	id-InformationReportCharacteristics				CRITICALITY	reject		TYPE	InformationReportCharacteristics		PRESENCE	mandatory	},
	...
}

InformationExchangeInitiationRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

InformationExchangeObjectType-InfEx-Rqst ::= CHOICE {
	cell													Cell-InfEx-Rqst,
	...,
	extension-InformationExchangeObjectType-InfEx-Rqst		Extension-InformationExchangeObjectType-InfEx-Rqst

}

Cell-InfEx-Rqst ::= SEQUENCE {
	c-ID							C-ID, --May be a GERAN cell identifier
	iE-Extensions					ProtocolExtensionContainer { { CellItem-InfEx-Rqst-ExtIEs} }		OPTIONAL,
	...
}

CellItem-InfEx-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Extension-InformationExchangeObjectType-InfEx-Rqst	::= ProtocolIE-Single-Container {{ Extension-InformationExchangeObjectType-InfEx-RqstIE }}

Extension-InformationExchangeObjectType-InfEx-RqstIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-GSM-Cell-InfEx-Rqst								CRITICALITY reject	TYPE GSM-Cell-InfEx-Rqst				PRESENCE mandatory}|
	{ ID id-MBMS-Bearer-Service-List						CRITICALITY reject	TYPE MBMS-Bearer-Service-List			PRESENCE mandatory}|
	{ ID id-MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rqst		CRITICALITY reject	TYPE MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rqst	PRESENCE mandatory}|
	{ ID id-MBMS-Cell-InfEx-Rqst							CRITICALITY reject	TYPE MBMS-Cell-InfEx-Rqst			PRESENCE mandatory}|
	{ ID id-ANR-Cell-InfEx-Rqst								CRITICALITY reject	TYPE ANR-Cell-InfEx-Rqst				PRESENCE mandatory}|
	{ ID id-Common-E-RGCH-Cell-InfEx-Rqst					CRITICALITY reject	TYPE Common-E-RGCH-Cell-InfEx-Rqst		PRESENCE mandatory}

}

GSM-Cell-InfEx-Rqst ::= SEQUENCE {
	cGI								CGI,
	iE-Extensions					ProtocolExtensionContainer { { GSMCellItem-InfEx-Rqst-ExtIEs} }		OPTIONAL,
	...
}

GSMCellItem-InfEx-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rqst	::= SEQUENCE (SIZE (1..maxNrOfCells)) OF MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rqst

MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rqst	::= SEQUENCE {
	c-ID							C-ID,
	mBMS-Bearer-Service-List-InfEx-Rqst							MBMS-Bearer-Service-List-InfEx-Rqst,
	iE-Extensions					ProtocolExtensionContainer { { MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rqst-ExtIEs} }	OPTIONAL,
	...
}

MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rqst-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Bearer-Service-List-InfEx-Rqst	::=	SEQUENCE (SIZE (1..maxNrOfMBMSServices)) OF TMGI

MBMS-Cell-InfEx-Rqst	::= SEQUENCE (SIZE (1..maxNrOfCells)) OF C-ID

ANR-Cell-InfEx-Rqst		::= SEQUENCE (SIZE (1..maxNrOfANRCells)) OF C-ID

Common-E-RGCH-Cell-InfEx-Rqst	::= SEQUENCE (SIZE (1..maxNoOfCommonRGCells)) OF C-ID


-- **************************************************************
--
-- INFORMATION EXCHANGE INITIATION RESPONSE
--
-- **************************************************************

InformationExchangeInitiationResponse ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{InformationExchangeInitiationResponse-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{InformationExchangeInitiationResponse-Extensions}}	OPTIONAL,
	...
}

InformationExchangeInitiationResponse-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID	id-InformationExchangeID					CRITICALITY ignore	TYPE	InformationExchangeID					PRESENCE	mandatory	}|
	{ ID	id-InformationExchangeObjectType-InfEx-Rsp	CRITICALITY ignore	TYPE	InformationExchangeObjectType-InfEx-Rsp		PRESENCE	optional	}|
	{ ID	id-CriticalityDiagnostics					CRITICALITY ignore	TYPE	CriticalityDiagnostics					PRESENCE	optional	},
	...
}

InformationExchangeInitiationResponse-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

InformationExchangeObjectType-InfEx-Rsp ::= CHOICE {
	cell						Cell-InfEx-Rsp,
	...,
	extension-InformationExchangeObjectType-InfEx-Rsp		Extension-InformationExchangeObjectType-InfEx-Rsp
}

Cell-InfEx-Rsp ::= SEQUENCE {
	requestedDataValue				RequestedDataValue,
	iE-Extensions					ProtocolExtensionContainer { { CellItem-InfEx-Rsp-ExtIEs} }	OPTIONAL,
	...
}

CellItem-InfEx-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


Extension-InformationExchangeObjectType-InfEx-Rsp	::= ProtocolIE-Single-Container {{ Extension-InformationExchangeObjectType-InfEx-RspIE }}

Extension-InformationExchangeObjectType-InfEx-RspIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-MBMS-Bearer-Service-List-InfEx-Rsp				CRITICALITY ignore	TYPE MBMS-Bearer-Service-List-InfEx-Rsp		PRESENCE mandatory}|
	{ ID id-MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rsp		CRITICALITY ignore	TYPE MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rsp	PRESENCE mandatory}|
	{ ID id-MBMS-Cell-InfEx-Rsp								CRITICALITY ignore	TYPE MBMS-Cell-InfEx-Rsp				PRESENCE mandatory}|
	{ ID id-ANR-Cell-InfEx-Rsp								CRITICALITY ignore	TYPE ANR-Cell-InfEx-Rsp				PRESENCE mandatory}|
	{ ID id-Common-E-RGCH-Cell-InfEx-Rsp					CRITICALITY ignore	TYPE Common-E-RGCH-Cell-InfEx-Rsp		PRESENCE mandatory}

}

MBMS-Bearer-Service-List-InfEx-Rsp	::= SEQUENCE (SIZE (1..maxNrOfMBMSServices)) OF MBMS-Bearer-ServiceItemIEs-InfEx-Rsp



MBMS-Bearer-ServiceItemIEs-InfEx-Rsp	::=SEQUENCE{
	tmgi	TMGI,
	requestedDataValue		RequestedDataValue,
	iE-Extensions					ProtocolExtensionContainer { { MBMS-Bearer-ServiceItem-InfEx-Rsp-ExtIEs} } OPTIONAL,
	...
}

MBMS-Bearer-ServiceItem-InfEx-Rsp-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rsp	::= SEQUENCE (SIZE (1..maxNrOfCells)) OF MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rsp

MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rsp	::= SEQUENCE {
	c-ID							C-ID,
	mBMS-Bearer-Service-List-InfEx-Rsp							MBMS-Bearer-Service-List-InfEx-Rsp,
	iE-Extensions			ProtocolExtensionContainer { { MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rsp-ExtIEs} }	OPTIONAL,
	...
}

MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Cell-InfEx-Rsp	::= SEQUENCE (SIZE (1..maxNrOfCells)) OF MBMS-Cell-Item-InfEx-Rsp

MBMS-Cell-Item-InfEx-Rsp	::= SEQUENCE {
	c-ID							C-ID,
	requestedDataValue				RequestedDataValue,
	iE-Extensions					ProtocolExtensionContainer { { MBMS-Cell-Item-InfEx-Rsp-ExtIEs} }	OPTIONAL,
	...
}

MBMS-Cell-Item-InfEx-Rsp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ANR-Cell-InfEx-Rsp	::= SEQUENCE (SIZE (1..maxNrOfANRCells)) OF ANR-Cell-ItemIEs-InfEx-Rsp

ANR-Cell-ItemIEs-InfEx-Rsp	::=SEQUENCE{
	c-ID							C-ID,
	requestedDataValue				RequestedDataValue,
	iE-Extensions					ProtocolExtensionContainer { { ANR-Cell-ItemIEs-InfEx-Rsp-ExtIEs} } OPTIONAL,
	...
}

ANR-Cell-ItemIEs-InfEx-Rsp-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Common-E-RGCH-Cell-InfEx-Rsp	::= SEQUENCE (SIZE (1.. maxNoOfCommonRGCells)) OF Common-E-RGCH-Cell-ItemIEs-InfEx-Rsp

Common-E-RGCH-Cell-ItemIEs-InfEx-Rsp	::=SEQUENCE{
	c-ID								C-ID,
	requestedDataValue					RequestedDataValue,
	iE-Extensions						ProtocolExtensionContainer { { Common-E-RGCH-Cell-ItemIEs-InfEx-Rsp-ExtIEs} } OPTIONAL,
	...
}

Common-E-RGCH-Cell-ItemIEs-InfEx-Rsp-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- INFORMATION EXCHANGE INITIATION FAILURE
--
-- **************************************************************

InformationExchangeInitiationFailure ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{InformationExchangeInitiationFailure-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{InformationExchangeInitiationFailure-Extensions}}	OPTIONAL,
	...
}

InformationExchangeInitiationFailure-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID	id-InformationExchangeID				CRITICALITY		ignore			TYPE	InformationExchangeID				PRESENCE	mandatory	}|
	{ ID	id-Cause								CRITICALITY		ignore			TYPE	Cause										PRESENCE	mandatory	}|
	{ ID	id-CriticalityDiagnostics				CRITICALITY		ignore			TYPE	CriticalityDiagnostics				PRESENCE	optional	},
	...
}

InformationExchangeInitiationFailure-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- INFORMATION REPORT
--
-- **************************************************************

InformationReport ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{InformationReport-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{InformationReport-Extensions}}		OPTIONAL,
	...
}

InformationReport-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID	id-InformationExchangeID						CRITICALITY	ignore			TYPE	InformationExchangeID								PRESENCE	mandatory	}|
	{ ID	id-InformationExchangeObjectType-InfEx-Rprt		CRITICALITY	ignore			TYPE	InformationExchangeObjectType-InfEx-Rprt		PRESENCE	mandatory	},
	...
}

InformationReport-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

InformationExchangeObjectType-InfEx-Rprt ::= CHOICE {
	cell							Cell-InfEx-Rprt,
	...,
	extension-InformationExchangeObjectType-InfEx-Rprt		Extension-InformationExchangeObjectType-InfEx-Rprt

 }

Extension-InformationExchangeObjectType-InfEx-Rprt	::= ProtocolIE-Single-Container {{ Extension-InformationExchangeObjectType-InfEx-RprtIE }}

Extension-InformationExchangeObjectType-InfEx-RprtIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rprt	CRITICALITY ignore	TYPE MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rprt	PRESENCE mandatory}|
	{ ID id-MBMS-Cell-InfEx-Rprt						CRITICALITY ignore	TYPE MBMS-Cell-InfEx-Rprt				PRESENCE mandatory}|
	{ ID id-Common-E-RGCH-Cell-InfEx-Rprt				CRITICALITY ignore	TYPE Common-E-RGCH-Cell-InfEx-Rprt			PRESENCE mandatory}

}


Cell-InfEx-Rprt ::= SEQUENCE {
	requestedDataValueInformation	RequestedDataValueInformation,
	iE-Extensions					ProtocolExtensionContainer {{ CellItem-InfEx-Rprt-ExtIEs }}		OPTIONAL,
	...

 }

CellItem-InfEx-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rprt	::= SEQUENCE (SIZE (1..maxNrOfCells)) OF MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rprt

MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rprt	::= SEQUENCE {
	c-ID							C-ID,
	mBMS-Bearer-Service-List-InfEx-Rprt							MBMS-Bearer-Service-List-InfEx-Rprt,
	iE-Extensions					ProtocolExtensionContainer { { MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rprt-ExtIEs} }		OPTIONAL,
	...
}

MBMS-Bearer-Service-in-MBMS-Cell-Item-InfEx-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Bearer-Service-List-InfEx-Rprt	::= SEQUENCE (SIZE (1..maxNrOfMBMSServices)) OF MBMS-Bearer-Service-List-Item-InfEx-Rprt

MBMS-Bearer-Service-List-Item-InfEx-Rprt	::=	SEQUENCE {
	tmgi					TMGI,
	requestedDataValueInformation	RequestedDataValueInformation,
	iE-Extensions					ProtocolExtensionContainer { { MBMS-Bearer-Service-List-Item-InfEx-Rprt-ExtIEs} }		OPTIONAL,
	...
}

MBMS-Bearer-Service-List-Item-InfEx-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Cell-InfEx-Rprt	::= SEQUENCE (SIZE (1..maxNrOfCells)) OF MBMS-Cell-Item-InfEx-Rprt

MBMS-Cell-Item-InfEx-Rprt	::= SEQUENCE {
	c-ID							C-ID,
	requestedDataValueInformation	RequestedDataValueInformation,
	iE-Extensions					ProtocolExtensionContainer { { MBMS-Cell-Item-InfEx-Rprt-ExtIEs} }		OPTIONAL,
	...
}

MBMS-Cell-Item-InfEx-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Common-E-RGCH-Cell-InfEx-Rprt	::= SEQUENCE (SIZE (1.. maxNoOfCommonRGCells)) OF Common-E-RGCH-Cell-Item-InfEx-Rprt

Common-E-RGCH-Cell-Item-InfEx-Rprt	::= SEQUENCE {
	c-ID								C-ID,
	requestedDataValueInformation		RequestedDataValueInformation,
	iE-Extensions						ProtocolExtensionContainer { { Common-E-RGCH-Cell-Item-InfEx-Rprt-ExtIEs} }	OPTIONAL,
	...
}

Common-E-RGCH-Cell-Item-InfEx-Rprt-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


-- **************************************************************
--
-- INFORMATION EXCHANGE TERMINATION REQUEST
--
-- **************************************************************

InformationExchangeTerminationRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{InformationExchangeTerminationRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{InformationExchangeTerminationRequest-Extensions}}		OPTIONAL,
	...
}

InformationExchangeTerminationRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID	id-InformationExchangeID			CRITICALITY	 ignore	TYPE InformationExchangeID	PRESENCE mandatory},
	...
}

InformationExchangeTerminationRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


-- **************************************************************
--
-- INFORMATION EXCHANGE FAILURE INDICATION
--
-- **************************************************************

InformationExchangeFailureIndication ::= SEQUENCE {
	protocolIEs					ProtocolIE-Container		{{InformationExchangeFailureIndication-IEs}},
	protocolExtensions			ProtocolExtensionContainer	{{InformationExchangeFailureIndication-Extensions}}		OPTIONAL,
	...
}

InformationExchangeFailureIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID	id-InformationExchangeID	CRITICALITY ignore	TYPE InformationExchangeID		PRESENCE mandatory}|
	{ ID	id-Cause					CRITICALITY ignore	TYPE Cause						PRESENCE mandatory},
	...
}

InformationExchangeFailureIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RESET REQUEST
--
-- **************************************************************

ResetRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{ResetRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{ResetRequest-Extensions}}		OPTIONAL,
	...
}

ResetRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RNC-ID				CRITICALITY reject	TYPE RNC-ID				PRESENCE mandatory}|
	{ ID id-ResetIndicator		CRITICALITY reject	TYPE ResetIndicator		PRESENCE mandatory},
	...
}

ResetRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extended-RNC-ID				CRITICALITY reject	EXTENSION Extended-RNC-ID		PRESENCE optional},
	...
}

ResetIndicator ::= CHOICE {
	context			ContextList-Reset,
	all-contexts		NULL,
	...,
	contextGroup	ContextGroupList-Reset
}

ContextList-Reset ::= SEQUENCE {
	contextInfoList-Reset		ContextInfoList-Reset,
	iE-Extensions							ProtocolExtensionContainer { {ContextItem-Reset-ExtIEs} }		OPTIONAL,
	...
}

ContextItem-Reset-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ContextInfoList-Reset ::= SEQUENCE (SIZE (1.. maxResetContext))	OF ProtocolIE-Single-Container {{ ContextInfoItemIE-Reset }}

ContextInfoItemIE-Reset RNSAP-PROTOCOL-IES ::= {
	{ID id-ContextInfoItem-Reset		CRITICALITY reject	TYPE ContextInfoItem-Reset		PRESENCE mandatory}
}

ContextInfoItem-Reset ::= SEQUENCE {
	contextType-Reset			ContextType-Reset,
	iE-Extensions				ProtocolExtensionContainer { { ContextInfoItem-Reset-ExtIEs} }		OPTIONAL,
	...
}

ContextInfoItem-Reset-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ContextType-Reset ::= CHOICE {
	sRNTI			S-RNTI,
	dRNTI			D-RNTI,
	...,
	extension-ContextType-Reset	Extension-ContextType-Reset	
}

Extension-ContextType-Reset	::= ProtocolIE-Single-Container {{ Extension-ContextType-ResetIE }}

Extension-ContextType-ResetIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-Extended-S-RNTI		CRITICALITY reject	TYPE Extended-RNTI		PRESENCE mandatory },
	...
}

ContextGroupList-Reset ::= SEQUENCE {
	contextGroupInfoList-Reset		ContextGroupInfoList-Reset,
	iE-Extensions					ProtocolExtensionContainer { {ContextGroupItem-Reset-ExtIEs} }		OPTIONAL,
	...
}

ContextGroupItem-Reset-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ContextGroupInfoList-Reset ::= SEQUENCE (SIZE (1.. maxResetContextGroup))	OF ProtocolIE-Single-Container {{ ContextGroupInfoItemIE-Reset }}

ContextGroupInfoItemIE-Reset RNSAP-PROTOCOL-IES ::= {
	{ID id-ContextGroupInfoItem-Reset		CRITICALITY reject	TYPE ContextGroupInfoItem-Reset		PRESENCE mandatory}
}

ContextGroupInfoItem-Reset ::= SEQUENCE {
	s-RNTI-Group				S-RNTI-Group,
	iE-Extensions				ProtocolExtensionContainer { { ContextGroupInfoItem-Reset-ExtIEs} }		OPTIONAL,
	...
}

ContextGroupInfoItem-Reset-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extended-S-RNTI-Group	CRITICALITY reject	EXTENSION Extended-S-RNTI-Group		PRESENCE optional},
	...
}

-- **************************************************************
--
-- RESET RESPONSE
--
-- **************************************************************

ResetResponse ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{ResetResponse-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{ResetResponse-Extensions}}		OPTIONAL,
	...
}

ResetResponse-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RNC-ID						CRITICALITY ignore	TYPE RNC-ID						PRESENCE mandatory}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional},
	...
}

ResetResponse-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extended-RNC-ID				CRITICALITY reject	EXTENSION Extended-RNC-ID		PRESENCE optional},
	...
}

-- **************************************************************
--
-- RADIO LINK ACTIVATION COMMAND FDD
--
-- **************************************************************

RadioLinkActivationCommandFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkActivationCommandFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkActivationCommandFDD-Extensions}}		OPTIONAL,
	...
}

RadioLinkActivationCommandFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-DelayedActivationList-RL-ActivationCmdFDD	CRITICALITY ignore	TYPE DelayedActivationInformationList-RL-ActivationCmdFDD	PRESENCE mandatory},
	...
}

RadioLinkActivationCommandFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DelayedActivationInformationList-RL-ActivationCmdFDD ::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { 
	{ DelayedActivationInformation-RL-ActivationCmdFDD-IEs} }

DelayedActivationInformation-RL-ActivationCmdFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-DelayedActivationInformation-RL-ActivationCmdFDD	CRITICALITY ignore	TYPE DelayedActivationInformation-RL-ActivationCmdFDD	PRESENCE optional	}
}

DelayedActivationInformation-RL-ActivationCmdFDD ::= SEQUENCE {
	rL-ID						RL-ID,
	delayed-activation-update	DelayedActivationUpdate,
	iE-Extensions				ProtocolExtensionContainer { { DelayedActivationInformation-RL-ActivationCmdFDD-ExtIEs} } OPTIONAL,
	...
}

DelayedActivationInformation-RL-ActivationCmdFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK ACTIVATION COMMAND TDD
--
-- **************************************************************

RadioLinkActivationCommandTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkActivationCommandTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkActivationCommandTDD-Extensions}}		OPTIONAL,
	...
}

RadioLinkActivationCommandTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-DelayedActivationList-RL-ActivationCmdTDD	CRITICALITY ignore	TYPE DelayedActivationInformationList-RL-ActivationCmdTDD	PRESENCE mandatory},
	...
}

RadioLinkActivationCommandTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DelayedActivationInformationList-RL-ActivationCmdTDD ::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { 
	{ DelayedActivationInformation-RL-ActivationCmdTDD-IEs} }

DelayedActivationInformation-RL-ActivationCmdTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-DelayedActivationInformation-RL-ActivationCmdTDD	CRITICALITY ignore	TYPE DelayedActivationInformation-RL-ActivationCmdTDD	PRESENCE optional}
}

DelayedActivationInformation-RL-ActivationCmdTDD ::= SEQUENCE {
	rL-ID						RL-ID,
	delayed-activation-update	DelayedActivationUpdate,
	iE-Extensions				ProtocolExtensionContainer { { DelayedActivationInformation-RL-ActivationCmdTDD-ExtIEs} } OPTIONAL,
	...
}

DelayedActivationInformation-RL-ActivationCmdTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- GERAN UPLINK SIGNALLING TRANSFER INDICATION
--
-- **************************************************************

GERANUplinkSignallingTransferIndication ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{GERANUplinkSignallingTransferIndication-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{GERANUplinkSignallingTransferIndication-Extensions}}		OPTIONAL,
	...
}

GERANUplinkSignallingTransferIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UC-ID						CRITICALITY ignore	TYPE UC-ID							PRESENCE mandatory}|
	-- UC-Id may be GERAN cell identifier.
	{ ID id-SAI							CRITICALITY ignore	TYPE SAI							PRESENCE mandatory}|
	{ ID id-S-RNTI						CRITICALITY ignore	TYPE S-RNTI							PRESENCE mandatory}|
	{ ID id-D-RNTI						CRITICALITY ignore	TYPE D-RNTI							PRESENCE optional}|
	{ ID id-L3-Information				CRITICALITY ignore	TYPE L3-Information					PRESENCE mandatory}|
	{ ID id-CN-PS-DomainIdentifier		CRITICALITY ignore	TYPE CN-PS-DomainIdentifier			PRESENCE optional}|
	{ ID id-CN-CS-DomainIdentifier		CRITICALITY ignore	TYPE CN-CS-DomainIdentifier			PRESENCE optional}|
	{ ID id-URA-Information				CRITICALITY ignore	TYPE URA-Information				PRESENCE optional},
	-- URA information may be GRA information
	...
}

GERANUplinkSignallingTransferIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-Extended-S-RNTI		CRITICALITY ignore	EXTENSION Extended-RNTI		PRESENCE optional},
	...
}

-- **************************************************************
--
-- RADIO LINK PARAMETER UPDATE INDICATION FDD
--
-- **************************************************************

RadioLinkParameterUpdateIndicationFDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkParameterUpdateIndicationFDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkParameterUpdateIndicationFDD-Extensions}}		OPTIONAL,
	...
}

RadioLinkParameterUpdateIndicationFDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID	id-HSDSCH-FDD-Update-Information						CRITICALITY ignore	TYPE HSDSCH-FDD-Update-Information		PRESENCE optional}|
	{ ID	id-RL-ParameterUpdateIndicationFDD-RL-InformationList	CRITICALITY ignore	TYPE RL-ParameterUpdateIndicationFDD-RL-InformationList		PRESENCE optional},
	...
}

RL-ParameterUpdateIndicationFDD-RL-InformationList ::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF ProtocolIE-Single-Container { { RL-ParameterUpdateIndicationFDD-RL-InformationList-IEs} }

RL-ParameterUpdateIndicationFDD-RL-InformationList-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RL-ParameterUpdateIndicationFDD-RL-Information-Item		CRITICALITY ignore	TYPE RL-ParameterUpdateIndicationFDD-RL-Information-Item		PRESENCE mandatory}
}

RL-ParameterUpdateIndicationFDD-RL-Information-Item::= SEQUENCE {
	rL-ID								RL-ID,
	phase-Reference-Update-Indicator	Phase-Reference-Update-Indicator	OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { RL-ParameterUpdateIndicationFDD-RL-Information-ExtIEs} } OPTIONAL,
	...
}

RL-ParameterUpdateIndicationFDD-RL-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RadioLinkParameterUpdateIndicationFDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-E-DCH-FDD-Update-Information				CRITICALITY ignore	EXTENSION E-DCH-FDD-Update-Information		PRESENCE optional}|
	{ ID id-Additional-HS-Cell-Information-RL-Param-Upd	CRITICALITY ignore	EXTENSION Additional-HS-Cell-Information-RL-Param-Upd	PRESENCE optional}|
	{ ID id-Additional-EDCH-Cell-Information-RL-Param-Upd	CRITICALITY ignore	EXTENSION Additional-EDCH-Cell-Information-RL-Param-Upd	PRESENCE optional}|
	{ ID id-CPC-RecoveryReport							CRITICALITY ignore	EXTENSION CPC-RecoveryReport				PRESENCE optional}|
	{ ID id-UL-CLTD-State-Update-Information			CRITICALITY ignore	EXTENSION UL-CLTD-State-Update-Information		PRESENCE optional}|
	{ ID id-UE-Measurement-Forwarding					CRITICALITY ignore	EXTENSION UE-Measurement-Forwarding			PRESENCE optional}|
	{ ID id-CFN											CRITICALITY ignore	EXTENSION CFN							PRESENCE optional},
	...
}

UE-Measurement-Forwarding ::= SEQUENCE {
	measurementID				MeasurementID,
	uE-Measurement-Value		UE-Measurement-Value,
	iE-Extensions				ProtocolExtensionContainer { {UE-Measurement-Forwarding-ExtIEs} } OPTIONAL,
	...
}

UE-Measurement-Forwarding-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-HS-Cell-Information-RL-Param-Upd ::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF Additional-HS-Cell-Information-RL-Param-Upd-ItemIEs


Additional-HS-Cell-Information-RL-Param-Upd-ItemIEs ::=SEQUENCE{
	hSPDSCH-RL-ID										RL-ID,
	hS-DSCH-FDD-Secondary-Serving-Update-Information	HS-DSCH-FDD-Secondary-Serving-Update-Information,
	iE-Extensions					ProtocolExtensionContainer { { Additional-HS-Cell-Information-RL-Setup-ExtIEs} } OPTIONAL,
	...
}

Additional-HS-Cell-Information-RL-Setup-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-Cell-Information-RL-Param-Upd ::= SEQUENCE (SIZE (1..maxNrOfEDCH-1)) OF Additional-EDCH-Cell-Information-RL-Param-Upd-ItemIEs

Additional-EDCH-Cell-Information-RL-Param-Upd-ItemIEs ::=SEQUENCE{
	additional-EDCH-FDD-Update-Information						Additional-EDCH-FDD-Update-Information,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-FDD-Update-Information-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-FDD-Update-Information-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- RADIO LINK PARAMETER UPDATE INDICATION TDD
--
-- **************************************************************

RadioLinkParameterUpdateIndicationTDD ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{RadioLinkParameterUpdateIndicationTDD-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{RadioLinkParameterUpdateIndicationTDD-Extensions}}		OPTIONAL,
	...
}

RadioLinkParameterUpdateIndicationTDD-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID	id-HSDSCH-TDD-Update-Information		CRITICALITY ignore	TYPE HSDSCH-TDD-Update-Information	PRESENCE optional},
	...
}

RadioLinkParameterUpdateIndicationTDD-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- UE MEASUREMENT INITIATION REQUEST
--
-- **************************************************************

UEMeasurementInitiationRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{UEMeasurementInitiationRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{UEMeasurementInitiationRequest-Extensions}}	OPTIONAL,
	...
}

UEMeasurementInitiationRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-AllowedQueuingTime					CRITICALITY reject	TYPE AllowedQueuingTime 					PRESENCE optional}|
	{ ID id-MeasurementID						CRITICALITY reject	TYPE MeasurementID							PRESENCE mandatory}|
	{ ID id-UEMeasurementType					CRITICALITY reject	TYPE UEMeasurementType						PRESENCE mandatory}|
	{ ID id-UEMeasurementTimeslotInfoHCR		CRITICALITY reject	TYPE UEMeasurementTimeslotInfoHCR			PRESENCE optional}|
	{ ID id-UEMeasurementTimeslotInfoLCR		CRITICALITY reject	TYPE UEMeasurementTimeslotInfoLCR			PRESENCE optional}|
	{ ID id-MeasurementFilterCoefficient		CRITICALITY reject	TYPE MeasurementFilterCoefficient			PRESENCE optional}|
	{ ID id-UEMeasurementReportCharacteristics	CRITICALITY reject	TYPE UEMeasurementReportCharacteristics		PRESENCE mandatory}|
	{ ID id-UEMeasurementParameterModAllow		CRITICALITY reject	TYPE UEMeasurementParameterModAllow			PRESENCE mandatory	},
	...
}

UEMeasurementInitiationRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UEMeasurementTimeslotInfo768				CRITICALITY reject	EXTENSION UEMeasurementTimeslotInfo768	PRESENCE optional},
	...
}

-- **************************************************************
--
-- UE MEASUREMENT INITIATION RESPONSE
--
-- **************************************************************

UEMeasurementInitiationResponse ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{UEMeasurementInitiationResponse-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{UEMeasurementInitiationResponse-Extensions}}	OPTIONAL,
	...
}

UEMeasurementInitiationResponse-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID						CRITICALITY ignore	TYPE MeasurementID							PRESENCE mandatory}|
	{ ID id-MeasurementFilterCoefficient		CRITICALITY reject	TYPE MeasurementFilterCoefficient			PRESENCE optional}|
	{ ID id-UEMeasurementReportCharacteristics	CRITICALITY reject	TYPE UEMeasurementReportCharacteristics		PRESENCE optional}|
	{ ID id-CriticalityDiagnostics				CRITICALITY ignore	TYPE CriticalityDiagnostics					PRESENCE optional},
	...
}

UEMeasurementInitiationResponse-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- UE MEASUREMENT INITIATION FAILURE
--
-- **************************************************************

UEMeasurementInitiationFailure ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{UEMeasurementInitiationFailure-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{UEMeasurementInitiationFailure-Extensions}}	OPTIONAL,
	...
}

UEMeasurementInitiationFailure-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID					CRITICALITY ignore	TYPE MeasurementID						PRESENCE mandatory}|
	{ ID id-Cause							CRITICALITY ignore	TYPE Cause								PRESENCE mandatory}|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional},
	...
}

UEMeasurementInitiationFailure-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- UE MEASUREMENT REPORT
--
-- **************************************************************

UEMeasurementReport ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{UEMeasurementReport-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{UEMeasurementReport-Extensions}}	OPTIONAL,
	...
}

UEMeasurementReport-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID					CRITICALITY ignore	TYPE MeasurementID							PRESENCE mandatory}|
	{ ID id-UEMeasurementValueInformation	CRITICALITY ignore	TYPE UEMeasurementValueInformation		PRESENCE mandatory},
	...
}

UEMeasurementReport-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- UE MEASUREMENT TERMINATION REQUEST
--
-- **************************************************************

UEMeasurementTerminationRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{UEMeasurementTerminationRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{UEMeasurementTerminationRequest-Extensions}}	OPTIONAL,
	...
}

UEMeasurementTerminationRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID				CRITICALITY ignore	TYPE MeasurementID				PRESENCE mandatory},
	...
}

UEMeasurementTerminationRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- UE MEASUREMENT FAILURE INDICATION
--
-- **************************************************************

UEMeasurementFailureIndication ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{UEMeasurementFailureIndication-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{UEMeasurementFailureIndication-Extensions}}	OPTIONAL,
	...
}

UEMeasurementFailureIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MeasurementID				CRITICALITY ignore	TYPE MeasurementID				PRESENCE mandatory}|
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE mandatory},
	...
}

UEMeasurementFailureIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- IUR INVOKE TRACE
--
-- **************************************************************

IurInvokeTrace ::= SEQUENCE {
	protocolIEs									ProtocolIE-Container		{{IurInvokeTrace-IEs}},
	protocolExtensions							ProtocolExtensionContainer	{{IurInvokeTrace-Extensions}}	OPTIONAL,
	...
}

IurInvokeTrace-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-D-RNTI								CRITICALITY ignore	TYPE D-RNTI										PRESENCE optional}|
	{ ID id-TraceReference						CRITICALITY ignore	TYPE TraceReference								PRESENCE mandatory}|
	{ ID id-UEIdentity							CRITICALITY ignore	TYPE UEIdentity									PRESENCE mandatory}|
	{ ID id-TraceRecordingSessionReference		CRITICALITY ignore	TYPE TraceRecordingSessionReference				PRESENCE mandatory}|
	{ ID id-ListOfInterfacesToTrace				CRITICALITY ignore	TYPE ListOfInterfacesToTrace					PRESENCE optional}|
	{ ID id-TraceDepth							CRITICALITY ignore	TYPE TraceDepth									PRESENCE mandatory},
	...
}

ListOfInterfacesToTrace ::= SEQUENCE (SIZE (1..maxNrOfInterfaces)) OF ProtocolIE-Single-Container {{ InterfacesToBeTracedItemIE }}

InterfacesToBeTracedItemIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-InterfacesToTraceItem				CRITICALITY ignore	TYPE InterfacesToTraceItem						PRESENCE mandatory}
}

InterfacesToTraceItem ::= SEQUENCE {
	interface				ENUMERATED {iub,iur,...},
	iE-Extensions			ProtocolExtensionContainer { {InterfacesToTraceItem-ExtIEs} }	OPTIONAL,
	...
}

InterfacesToTraceItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


IurInvokeTrace-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
-- Extension for Release 10 to support MDT
	{ID id-MDT-Configuration					CRITICALITY ignore	EXTENSION MDT-Configuration			PRESENCE optional}|
-- Extension for Release 10 to support MDT
	{ID id-Trace-Collection-Entity-IP-Address	CRITICALITY ignore	EXTENSION TransportLayerAddress	PRESENCE optional},
	...
}

-- **************************************************************
--
-- IUR DEACTIVATE TRACE
--
-- **************************************************************

IurDeactivateTrace ::= SEQUENCE {
	protocolIEs									ProtocolIE-Container		{{IurDeactivateTrace-IEs}},
	protocolExtensions							ProtocolExtensionContainer	{{IurDeactivateTrace-Extensions}}	OPTIONAL,
	...
}

IurDeactivateTrace-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-D-RNTI								CRITICALITY ignore	TYPE D-RNTI								PRESENCE optional}|
	{ ID id-TraceReference						CRITICALITY ignore	TYPE TraceReference						PRESENCE mandatory},
	...
}

IurDeactivateTrace-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- MBMS ATTACH COMMAND
--
-- **************************************************************

MBMSAttachCommand ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{MBMSAttachCommand-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{MBMSAttachCommand-Extensions}}		OPTIONAL,
	...
}

MBMSAttachCommand-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MBMS-Bearer-Service-List		CRITICALITY ignore	TYPE MBMS-Bearer-Service-List	PRESENCE mandatory}|
	{ ID id-UE-State						CRITICALITY ignore	TYPE UE-State					PRESENCE optional},
	...
}

MBMSAttachCommand-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- MBMS DETACH COMMAND
--
-- **************************************************************

MBMSDetachCommand ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{MBMSDetachCommand-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{MBMSDetachCommand-Extensions}}		OPTIONAL,
	...
}

MBMSDetachCommand-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MBMS-Bearer-Service-List 	CRITICALITY ignore	TYPE MBMS-Bearer-Service-List	PRESENCE mandatory}|
	{ ID id-UE-State					CRITICALITY ignore	TYPE UE-State					PRESENCE optional},
	...
}

MBMSDetachCommand-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- DIRECT INFORMATION TRANSFER
--
-- **************************************************************

DirectInformationTransfer ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{DirectInformationTransfer-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{DirectInformationTransfer-Extensions}}OPTIONAL,
	...
}

DirectInformationTransfer-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RNC-ID								CRITICALITY ignore	TYPE RNC-ID									PRESENCE mandatory}|
	{ ID id-ProvidedInformation					CRITICALITY ignore	TYPE ProvidedInformation					PRESENCE mandatory},
	...
}

DirectInformationTransfer-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extended-RNC-ID						CRITICALITY reject	EXTENSION Extended-RNC-ID	PRESENCE optional},
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION REQUEST
--
-- **************************************************************

EnhancedRelocationRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{EnhancedRelocationRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{EnhancedRelocationRequest-Extensions}}	OPTIONAL,
	...
}

EnhancedRelocationRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Cause										CRITICALITY reject	TYPE Cause								PRESENCE mandatory}|
	{ ID id-Permanent-NAS-UE-Identity					CRITICALITY reject	TYPE Permanent-NAS-UE-Identity			PRESENCE mandatory}|
	{ ID id-SRNC-ID										CRITICALITY reject	TYPE RNC-ID								PRESENCE optional}|
	-- This IE shall be present if the Relocation type IE is set to “UE involved in relocation of SRNS” --
	{ ID id-Extended-SRNC-ID							CRITICALITY reject	TYPE Extended-RNC-ID					PRESENCE optional}|
	{ ID id-S-RNTI										CRITICALITY reject	TYPE S-RNTI								PRESENCE mandatory}|
	{ ID id-RANAP-EnhancedRelocationInformationRequest	CRITICALITY reject	TYPE RANAP-EnhancedRelocationInformationRequest	PRESENCE mandatory},
	...
}

EnhancedRelocationRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-Extended-S-RNTI		CRITICALITY reject	EXTENSION Extended-RNTI			PRESENCE optional},
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION RESPONSE
--
-- **************************************************************

EnhancedRelocationResponse ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{EnhancedRelocationResponse-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{EnhancedRelocationResponse-Extensions}}	OPTIONAL,
	...
}

EnhancedRelocationResponse-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-RANAP-EnhancedRelocationInformationResponse		CRITICALITY ignore	TYPE RANAP-EnhancedRelocationInformationResponse	PRESENCE mandatory},
	...
}

EnhancedRelocationResponse-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION FAILURE
--
-- **************************************************************

EnhancedRelocationFailure ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{EnhancedRelocationFailure-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{EnhancedRelocationFailure-Extensions}}OPTIONAL,
	...
}

EnhancedRelocationFailure-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause							PRESENCE mandatory}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional},
	...
}

EnhancedRelocationFailure-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION CANCEL
--
-- **************************************************************

EnhancedRelocationCancel ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{EnhancedRelocationCancel-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{EnhancedRelocationCancel-Extensions}}		OPTIONAL,
	...
}

EnhancedRelocationCancel-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Cause		CRITICALITY ignore	TYPE Cause					PRESENCE mandatory	},
	...
}

EnhancedRelocationCancel-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION SIGNALLING TRANSFER
--
-- **************************************************************

EnhancedRelocationSignallingTransfer ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{EnhancedRelocationSignallingTransfer-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{EnhancedRelocationSignallingTransfer-Extensions}}	OPTIONAL,
	...
}

EnhancedRelocationSignallingTransfer-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-L3-Information		CRITICALITY ignore	TYPE L3-Information					PRESENCE mandatory},
	...
}

EnhancedRelocationSignallingTransfer-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION RELEASE
--
-- **************************************************************

EnhancedRelocationRelease ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{EnhancedRelocationRelease-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{EnhancedRelocationRelease-Extensions}}	OPTIONAL,
	...
}

EnhancedRelocationRelease-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Released-CN-Domain		CRITICALITY ignore	TYPE Released-CN-Domain					PRESENCE mandatory},
	...
}

EnhancedRelocationRelease-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- MBSFN MCCH INFORMATION
--
-- **************************************************************

MBSFNMCCHInformation ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{MBSFNMCCHInformation-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{MBSFNMCCHInformation-Extensions}}		OPTIONAL,
	...
}

MBSFNMCCHInformation-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-MBSFN-Cluster-Identity		CRITICALITY ignore	TYPE MBSFN-Cluster-Identity		PRESENCE mandatory}|
	{ ID id-MCCH-Message-List			CRITICALITY reject	TYPE MCCH-Message-List			PRESENCE mandatory}|
	{ ID id-CFN							CRITICALITY reject	TYPE CFN						PRESENCE mandatory}|
	{ ID id-MCCH-Configuration-Info		CRITICALITY ignore	TYPE MCCH-Configuration-Info	PRESENCE optional}|
	{ ID id-MBSFN-Scheduling-Transmission-Time-Interval-Info-List	CRITICALITY ignore	TYPE MBSFN-Scheduling-Transmission-Time-Interval-Info-List	PRESENCE optional},
	...
}

MBSFNMCCHInformation-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- SECONDARY UL FREQUENCY REPORT
--
-- **************************************************************

SecondaryULFrequencyReport ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{SecondaryULFrequencyReport-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{SecondaryULFrequencyReport-Extensions}}		OPTIONAL,
	...
}

SecondaryULFrequencyReport-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-ActivationInformation		CRITICALITY ignore	TYPE ActivationInformation		PRESENCE mandatory},
	...
}

SecondaryULFrequencyReport-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- SECONDARY UL FREQUENCY UPDATE INDICATION
--
-- **************************************************************

SecondaryULFrequencyUpdateIndication ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{SecondaryULFrequencyUpdateIndication-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{SecondaryULFrequencyUpdateIndication-Extensions}}		OPTIONAL,
	...
}


SecondaryULFrequencyUpdateIndication-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-ActivationInformation		CRITICALITY ignore	TYPE ActivationInformation		PRESENCE mandatory},
	...
}

SecondaryULFrequencyUpdateIndication-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION RESOURCE REQUEST
--
-- **************************************************************

EnhancedRelocationResourceRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{ EnhancedRelocationResourceRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{ EnhancedRelocationResourceRequest-Extensions}}	OPTIONAL,
	...
}

EnhancedRelocationResourceRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-IMSI						CRITICALITY reject	TYPE IMSI						PRESENCE optional}|
	{ ID id-SourceID					CRITICALITY ignore	TYPE SourceID					PRESENCE mandatory}|
	{ ID id-TargetID					CRITICALITY reject	TYPE TargetID					PRESENCE mandatory}|
	{ ID id-ClassmarkInformation2		CRITICALITY reject	TYPE ClassmarkInformation2		PRESENCE mandatory}|
	{ ID id-ClassmarkInformation3		CRITICALITY ignore	TYPE ClassmarkInformation3		PRESENCE mandatory}|
	{ ID id-SpeechVersion				CRITICALITY ignore	TYPE SpeechVersion				PRESENCE mandatory},
	...
}
EnhancedRelocationResourceRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION RESOURCE RESPONSE
--
-- **************************************************************

EnhancedRelocationResourceResponse ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{EnhancedRelocationResourceResponse-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{EnhancedRelocationResourceResponse-Extensions}}	OPTIONAL,
	...
}

EnhancedRelocationResourceResponse-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-D-RNTI							CRITICALITY ignore	TYPE D-RNTI							PRESENCE mandatory }|
	{ ID id-L3-Information					CRITICALITY ignore	TYPE L3-Information					PRESENCE mandatory }|
	{ ID id-Cell-Capacity-Class-Value		CRITICALITY ignore	TYPE Cell-Capacity-Class-Value		PRESENCE optional }|
	{ ID id-LoadValue						CRITICALITY ignore	TYPE LoadValue						PRESENCE optional },
	...
}

EnhancedRelocationResourceResponse-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION RESOURCE FAILURE
--
-- **************************************************************

EnhancedRelocationResourceFailure ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{EnhancedRelocationResourceFailure-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{EnhancedRelocationResourceFailure-Extensions}}		OPTIONAL,
	...
}

EnhancedRelocationResourceFailure-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause							PRESENCE mandatory }|
	{ ID id-Cell-Capacity-Class-Value	CRITICALITY ignore	TYPE Cell-Capacity-Class-Value		PRESENCE optional }|
	{ ID id-LoadValue					CRITICALITY ignore	TYPE LoadValue						PRESENCE optional },
	...
}

EnhancedRelocationResourceFailure-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION RESOURCE RELEASE COMMAND
--
-- **************************************************************

EnhancedRelocationResourceReleaseCommand ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{EnhancedRelocationResourceReleaseCommand-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{EnhancedRelocationResourceReleaseCommand-Extensions}}	OPTIONAL,
	...
}

EnhancedRelocationResourceReleaseCommand-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Cause		CRITICALITY ignore	TYPE Cause		PRESENCE mandatory},
	...
}

EnhancedRelocationResourceReleaseCommand-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- ENHANCED RELOCATION RESOURCE RELEASE COMPLETE
--
-- **************************************************************

EnhancedRelocationResourceReleaseComplete ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{EnhancedRelocationResourceReleaseComplete-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{EnhancedRelocationResourceReleaseComplete-Extensions}}		OPTIONAL,
	...
}

EnhancedRelocationResourceReleaseComplete-IEs RNSAP-PROTOCOL-IES ::= {
	...
}

EnhancedRelocationResourceReleaseComplete-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- PRIVATE MESSAGE
--
-- **************************************************************

PrivateMessage ::= SEQUENCE {
	privateIEs		PrivateIE-Container {{PrivateMessage-IEs}},
	...
}

PrivateMessage-IEs RNSAP-PRIVATE-IES ::= {
	...
}

-- **************************************************************
--
-- INFORMATION TRANSFER CONTROL REQUEST
--
-- **************************************************************

InformationTransferControlRequest ::= SEQUENCE {
	protocolIEs				ProtocolIE-Container		{{ InformationTransferControlRequest-IEs}},
	protocolExtensions		ProtocolExtensionContainer	{{ InformationTransferControlRequest-Extensions}}	OPTIONAL,
	...
}

InformationTransferControlRequest-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-Control-Type-InformationTransferControlReq	CRITICALITY ignore	TYPE Control-Type-InformationTransferControlReq	PRESENCE mandatory },
	...
}

InformationTransferControlRequest-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Control-Type-InformationTransferControlReq ::= CHOICE {
	suspension			Suspension-Control-Type,
	resume				Resume-Control-Type,
	...
}

Suspension-Control-Type ::= SEQUENCE {
	controlled-Object-Scope	Controlled-Object-Scope,
	iE-Extensions			ProtocolExtensionContainer {{ Suspension-Control-Type-ExtIEs}},
	...
}

Suspension-Control-Type-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Resume-Control-Type ::= SEQUENCE {
	controlled-Object-Scope	Controlled-Object-Scope,
	iE-Extensions			ProtocolExtensionContainer { { Resume-Control-Type-ExtIEs}},
	...
}

Resume-Control-Type-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

END

9.3.4	Information Element Definitions
-- **************************************************************
--
-- Information Element Definitions
--
-- **************************************************************

RNSAP-IEs {
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
umts-Access (20) modules (3) rnsap (1) version1 (1) rnsap-IEs (2) }

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

IMPORTS
	maxCellSIB11OrSIB12,
	maxCellSIB11ter-ext,
	maxCellSIB11ter-1,
	maxNrOfFACHs,
	maxIBSEG,
	maxIGPInfo,
	maxCellsMeas,
	maxNoOfDSCHs,
	maxNoOfUSCHs,
	maxNrOfDCHs,
	maxNrOfDL-Codes,
	maxNrOfDLTs,
	maxNrOfDLTsLCR,
	maxNrOfDPCHs,
	maxNrOfDPCHs768,
	maxNrOfDPCHsLCR,
	maxNrOfEDCH-HARQ-PO-QUANTSTEPs,
	maxNrOfEDCHHARQProcesses2msEDCH,
	maxNrOfBits-MACe-PDU-non-scheduled,
	maxNrOfEDPCCH-PO-QUANTSTEPs,
	maxNrOfRefETFCI-PO-QUANTSTEPs,
	maxNrOfRefETFCIs,
	maxNrOfErrors,
	maxNrOfFDDNeighboursPerRNC,
	maxNrOfMACcshSDU-Length,
	maxNrOfNeighbouringRNCs,
	maxNrOfTDDNeighboursPerRNC,
	maxNrOfLCRTDDNeighboursPerRNC,
	maxNrOfTS,
	maxNrOfTsLCR,
	maxNrOfULTs,
	maxNrOfULTsLCR,
	maxNrOfGSMNeighboursPerRNC,
	maxRateMatching,
	maxNrOfPoints,
	maxNoOfRB,
	maxNrOfRLs,
	maxNrOfTFCs,
	maxNrOfTFs,
	maxCTFC,
	maxRNCinURA-1,
	maxNrOfSCCPCHs,
	maxNrOfSCCPCHs768,
	maxTGPS,
	maxTTI-Count,
	maxNoGPSTypes,
	maxNoSat,
	maxNrOfActiveMBMSServices,
	maxNrOfCells,
	maxNrOfSNAs,
	maxNrOfHARQProc,
	maxNrOfHSSCCHCodes,
	maxNrOfMACdFlows,
	maxNrOfMACdFlows-1,
	maxNrOfMACdPDUSize,
	maxNrOfMBMSL3,
	maxNrOfMCCHMessages,
	maxNrOfEDCHMACdFlows,
	maxNrOfEDCHMACdFlows-1,
	maxNrOfEDCHMACdFlowsLCR,
	maxNrOfEDCHMACdFlowsLCR-1,
	maxNrOfMBMSServices,
	maxNrOfPDUIndexes,
	maxNrOfPDUIndexes-1,
	maxNrOfPrioQueues,
	maxNrOfPrioQueues-1,
	maxNrOfSatAlmanac-maxNoSat,
	maxNrOfGERANSI,
	maxNrofSigSeqERGHICH-1,
	maxNrOfUEs,
	maxNrOfAddFreq,
	maxNrOfCellsPerFreq,
	maxNoOfLogicalChannels,
	maxNrOfRefBetas,
	maxNrOfEAGCHCodes,
	maxNrOfHS-DSCHTBSs,
	maxNrOfHS-DSCHTBSs-HS-SCCHless,
	maxHS-PDSCHCodeNrComp-1,
	maxNrOfEHICHCodes,
	maxGANSSSat,
	maxNoGANSS,
	maxSgnType,
	maxNrOfBroadcastPLMNs,
	maxHSDPAFrequency,
	maxHSDPAFrequency-1,
	maxFrequencyinCell,
	maxFrequencyinCell-1,
	maxGANSSSatAlmanac,
	maxGANSSClockMod,
	maxNrOfEDCHRLs,
	maxNrOfEUTRANeighboursPerRNC,
	maxEARFCN,
	maxEARFCN-Extended,
	maxNrOfPreconfiguredNeighbours,
	maxNrOfHSDSCH-1,
	maxNrOfHSDSCH,
	maxGANSS-1,
	maxlengthMBMSconcatservlists,
	maxNoOfTBSs-Mapping-HS-DSCH-SPS,
	maxNoOfTBSs-Mapping-HS-DSCH-SPS-1,
	maxNoOfHS-DSCH-TBSsLCR,
	maxNoOfRepetition-Period-LCR,
	maxNoOfRepetitionPeriod-SPS-LCR-1,
	maxNoOf-HS-SICH-SPS,
	maxNoOf-HS-SICH-SPS-1,
	maxNoOfNon-HS-SCCH-Assosiated-HS-SICH,
	maxNrOfEDCH-1,
	maxNrOfDCHMeasurementOccasionPatternSequence,
	maxNrOfULCarriersLCR-1,
	maxNrOfCellIds,
	maxNrOfRAIs,
	maxNrOfLAIs,
	maxNrOfExtendedNeighbouringRNCs,
	maxFreqBandsTDD,
	maxSCPICHCell,
	maxSCPICHCell-1,
	maxNrofConcatenatedDCH,
	maxMultipleFrequencyBands,
	maxMultipleFrequencyBandsEUTRA,

	id-Allowed-Rate-Information,
	id-AntennaColocationIndicator,
	id-BindingID,
	id-Cell-Capacity-Class-Value,
	id-CellCapabilityContainer-FDD,
	id-CellCapabilityContainer-TDD,
	id-CellCapabilityContainer-TDD-LCR,
	id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information,
	id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response,
	id-Counting-Information,
	id-CoverageIndicator,
	id-DPC-Mode-Change-SupportIndicator,
	id-E-DCH-Minimum-Set-E-TFCIValidityIndicator,
	id-E-RGCH-E-HICH-ChannelisationCodeValidityIndicator,
	id-Extended-Round-Trip-Time-Value,
	id-ExtendedPropagationDelay,
	id-Extended-SRNC-ID,
	id-Extended-RNC-ID,
	id-ExtendedAffectedUEInformationForMBMS,
	id-Additional-Associated-Secondary-CPICH,
	id-MIMO-withfourtransmitantennas-ActivationIndicator,
	id-MIMO-withfourtransmitantennas-ModeIndicator,
	id-DualStream-MIMO-withfourtransmitantennas-ActivationIndicator,
	id-DualStream-MIMO-withfourtransmitantennas-ModeIndicator,
	id-GERAN-Cell-Capability,
	id-GERAN-Classmark,
	id-Guaranteed-Rate-Information,
	id-HARQ-Preamble-Mode-Activation-Indicator,
	id-HCS-Prio,
	id-Inter-Frequency-Cell-Information,
	id-Load-Value,
	id-Load-Value-IncrDecrThres,
	id-Neighbouring-GSM-CellInformation,
	id-Neighbouring-UMTS-CellInformationItem,
	id-neighbouring-LCR-TDD-CellInformation,
	id-NRT-Load-Information-Value,
	id-NRT-Load-Information-Value-IncrDecrThres,
	id-OnModification,
	id-PrecoderWeightSetRestriction,
	id-Received-Total-Wideband-Power-Value,
	id-Received-Total-Wideband-Power-Value-IncrDecrThres,
	id-RT-Load-Value,
	id-RT-Load-Value-IncrDecrThres,
	id-SFNSFNMeasurementThresholdInformation,
	id-SNA-Information,
	id-TrafficClass,
	id-Transmitted-Carrier-Power-Value,
	id-Transmitted-Carrier-Power-Value-IncrDecrThres,
	id-TUTRANGPSMeasurementThresholdInformation,
	id-UL-Timeslot-ISCP-Value,
	id-UL-Timeslot-ISCP-Value-IncrDecrThres,
	maxNrOfLevels,
	maxNrOfMeasNCell,
	maxNrOfMeasNCell-1,
	id-MessageStructure,
	id-RestrictionStateIndicator,
	id-Rx-Timing-Deviation-Value-LCR,
	id-TransportLayerAddress,
	id-Transmission-Mode-Information,
	id-TypeOfError,
	id-Angle-Of-Arrival-Value-LCR,
	id-IPDL-TDD-ParametersLCR,
	id-DSCH-InitialWindowSize,
	id-Maximum-DL-Power-TimeslotLCR-InformationItem,
	id-MBMS-Bearer-Service-Full-Address,
	id-MBMS-Neighbouring-Cell-Information,
	id-MBMS-RLC-Sequence-Number-Information,
	id-MBSFN-Cluster-Identity,
	id-MBSFN-Scheduling-Transmission-Time-Interval-Info-List,
	id-MCCH-Configuration-Info,
	id-MCCH-Message-List,
	id-Minimum-DL-Power-TimeslotLCR-InformationItem,
	id-HS-SICH-Reception-Quality,
	id-HS-SICH-Reception-Quality-Measurement-Value,
	id-HS-PDSCH-Code-Change-Grant,
	id-HS-PDSCH-Code-Change-Indicator,
	id-ExtendedGSMCellIndividualOffset,
	id-Unidirectional-DCH-Indicator,
	id-RTLoadValue,
	id-RLC-Sequence-Number,
	id-NRTLoadInformationValue,
	id-Satellite-Almanac-Information-ExtItem,
	id-TnlQos,
	id-UpPTSInterferenceValue,
	id-NACC-Related-Data,
	id-HARQ-Preamble-Mode,
	id-User-Plane-Congestion-Fields-Inclusion,
	id-FrequencyBandIndicator,
	id-PLCCH-Information-UL-TimeslotLCR-Info,
	id-CellCapabilityContainer-TDD768,
	id-hSSCCH-TDD-Specific-InfoList-Response768,
	id-hSPDSCH-TDD-Specific-InfoList-Response768,
	id-Rx-Timing-Deviation-Value-768,
	id-UEMeasurementValueTransmittedPowerList768,
	id-UEMeasurementValueTimeslotISCPList768,
	id-E-DCH-PowerOffset-for-SchedulingInfo,
	id-Rx-Timing-Deviation-Value-ext,
	id-TrCH-SrcStatisticsDescr,
	id-eDCH-MACdFlow-Retransmission-Timer-LCR,
	id-MIMO-ActivationIndicator,
	id-MIMO-InformationResponse,
	id-MIMO-Mode-Indicator,
	id-MIMO-N-M-Ratio,
	id-SixteenQAM-UL-Operation-Indicator,
	id-E-AGCH-Table-Choice,
	id-E-TFCI-Boost-Information,
	id-E-DPDCH-PowerInterpolation,
	id-HSDSCH-MACdPDUSizeFormat,
	id-MaximumMACdPDU-SizeExtended,
	id-GANSS-Common-Data,
	id-GANSS-Information,
	id-GANSS-Generic-Data,
	id-TUTRANGANSSMeasurementThresholdInformation,
	id-TUTRANGANSSMeasurementValueInformation,
	id-HARQ-MemoryPartitioningInfoExtForMIMO,
	id-Ext-Reference-E-TFCI-PO,
	id-Ext-Max-Bits-MACe-PDU-non-scheduled,
	id-Multiple-PLMN-List,
	id-TransportBearerNotSetupIndicator,
	id-TransportBearerNotRequestedIndicator,
	id-UARFCNforNt,
	id-LCRTDD-uplink-Physical-Channel-Capability,
	id-number-Of-Supported-Carriers,
	id-HSSICH-SIRTarget,
	id-HSSICH-TPC-StepSize,
	id-tSN-Length,
	id-HS-SICH-ID-Extension,
	id-multipleFreq-HSPDSCH-InformationList-ResponseTDDLCR,
	id-multicarrier-number,
	id-UpPCH-InformationList-LCRTDD,
	id-UpPCH-InformationItem-LCRTDD,
	id-Max-UE-DTX-Cycle,
	id-Default-Serving-Grant-in-DTX-Cycle2,
	id-SixtyfourQAM-UsageAllowedIndicator,
	id-SixtyfourQAM-DL-UsageIndicator,
	id-UE-Capabilities-Info,
	id-Extended-E-DCH-LCRTDD-PhysicalLayerCategory,
	id-Continuous-Packet-Connectivity-HS-SCCH-Less-Deactivate-Indicator,
	id-E-DCH-MACdPDUSizeFormat,
	id-E-PUCH-PowerControlGAP,
	id-MaximumNumber-Of-Retransmission-For-SchedulingInfo-LCRTDD,
	id-E-DCH-RetransmissionTimer-For-SchedulingInfo-LCRTDD,
	id-HSDSCH-TBSizeTableIndicator,
	id-E-DCH-DL-Control-Channel-Change-Information,
	id-E-DCH-DL-Control-Channel-Grant-Information,
	id-DGANSS-Corrections-Req,
	id-UE-with-enhanced-HS-SCCH-support-indicator,
	id-EnhancedHSServingCC-Abort,
	id-GANSS-Time-ID,
	id-GANSS-AddIonoModelReq,
	id-GANSS-EarthOrientParaReq,
	id-GANSS-AddNavigationModelsReq,
	id-GANSS-AddUTCModelsReq,
	id-GANSS-AuxInfoReq,
	id-GANSS-SBAS-ID,
	id-GANSS-ID,
	id-GANSS-Additional-Ionospheric-Model,
	id-GANSS-Earth-Orientation-Parameters,
	id-GANSS-Additional-Time-Models,
	id-GANSS-Additional-Navigation-Models,
	id-GANSS-Additional-UTC-Models,
	id-GANSS-Auxiliary-Information,
	id-GANSS-alm-keplerianNAVAlmanac,
	id-GANSS-alm-keplerianReducedAlmanac,
	id-GANSS-alm-keplerianMidiAlmanac,
	id-GANSS-alm-keplerianGLONASS,
	id-GANSS-alm-ecefSBASAlmanac,
	id-GANSS-alm-keplerianBDSAlmanac,
	id-DBDS-CorrectionsReq,
	id-DBDS-Corrections,
	id-BDS-IonosphericGridModelReq,
	id-BDS-Ionospheric-Grid-Model,
	id-Secondary-Serving-Cell-List,
	id-MinimumReducedE-DPDCH-GainFactor,
	id-E-AGCH-UE-Inactivity-Monitor-Threshold,
	id-MACes-Maximum-Bitrate-LCR,
	id-MultiCarrier-HSDSCH-Physical-Layer-Category,
	id-MIMO-SFMode-For-HSPDSCHDualStream,
	id-MIMO-SFMode-Supported-For-HSPDSCHDualStream,
	id-MIMO-ReferenceSignal-InformationListLCR,
	id-DL-RLC-PDU-Size-Format,
	id-UE-SupportIndicatorExtension,
	id-power-offset-for-S-CPICH-for-MIMO,
	id-power-offset-for-S-CPICH-for-MIMO-Request-Indicator,
	id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas,
	id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas-Request-Indicator,
	id-Dual-Band-Secondary-Serving-Cell-List,
	id-Single-Stream-MIMO-ActivationIndicator,
	id-Single-Stream-MIMO-Mode-Indicator,
	id-Additional-EDCH-Preconfiguration-Information,
	id-MulticellEDCH-Information,
	id-EDCH-Indicator,
	id-DiversityMode,
	id-TransmitDiversityIndicator,
	id-NonCellSpecificTxDiversity,
	id-CellCapabilityContainerExtension-FDD,
	id-HSDSCH-Physical-Layer-Category,
	id-TS0-HS-PDSCH-Indication-LCR,
	id-UE-TS0-CapabilityLCR,
	id-DGNSS-ValidityPeriod,
	id-UE-AggregateMaximumBitRate-Enforcement-Indicator,
	id-Out-of-Sychronization-Window,
	id-MulticellEDCH-RL-SpecificInformation,
	id-Continuous-Packet-Connectivity-DTX-DRX-Information,
	id-Additional-E-DCH-Non-Serving-RL-Preconfiguration-Setup,
	id-Additional-E-DCH-New-non-serving-RL-E-DCH-FDD-DL-Control-Channel-InfoList,
	id-OrdinalNumberOfFrequency,
	id-Multicell-EDCH-Restriction,
	id-CellListValidityIndicator,
	id-completeAlmanacProvided,
	id-ganss-Delta-T,
	id-CellCapabilityContainerExtension-TDD-LCR,
	id-SNPL-Carrier-Group-Indicator,
	id-HS-SCCH-Inactivity-Threshold-for-UE-DRX-Cycle-LCR-Ext,
	id-Measurement-Power-Offset,
	id-Multi-Carrier-E-DCH-LCRTDD-PhysicalLayerCategory,
	id-Neighbouring-UMTS-CellInformationExtensionItem,
	id-EventH,
	id-UMTS-Cells-Info,
	id-ANRReportIndication,
	id-ANR-Cell-Information,
	id-Affected-HSDSCH-Serving-Cell-List,
	id-Support-of-Dynamic-DTXDRX-Related-HS-SCCH-Order,
	id-Inter-Frequency-Cell-Information-SIB11ter,
	id-UE-RF-Band-CapabilityLCR,
	id-UE-transmission-power-headroom,
	id-Multiflow-Information,
	id-Multiflow-Reconfiguration,
	id-Multiflow-OrdinalNumberOfFrequency,
	id-UL-MIMO-Information,
	id-UL-MIMO-Reconfiguration,
	id-UL-MIMO-DL-Control-Channel-Information,
	id-SixtyfourQAM-UL-Operation-Indicator,
	id-Common-E-RGCH-Cell-Information,
	id-PCI,
	id-TAC,
	id-PLMN-List,
	id-FTPICH-Information,
	id-FTPICH-Information-Response,
	id-UL-CLTD-Information,
	id-EARFCN-FDD-Extended,
	id-EARFCN-TDD-Extended,
	id-Assisting-RepetitionFactors,
	id-Gainfactors-10ms-mode,
	id-UPH-Filtering-Measurement-Forwarding-Request,
	id-TTI-Update-Indicator,
	id-CQI-Feedback-Cycle2-k,
	id-CQI-Cycle-Switch-Timer,
	id-UE-DRX-Cycle2,
	id-Inactivity-Threshold-for-UE-DRX-Cycle2,
	id-DTX-Information2,
	id-ImplicitGrantHandling,
	id-MinimumTEBSthreshold,
	id-MultipleFrequencyBandsIndicatorList,
	id-MultipleFrequencyBandsIndicatorList-EUTRA,
	id-Fast-TTI-switching-Mode-synchronized,
	id-Fast-TTI-switching-Mode-unsynchronized,
	id-Fast-TTI-switching-Mode-Supported,
	id-GANSS-BDSclockModel,
	id-GANSS-NavModel-BDSKeplerianSet,
	id-GANSS-UTCmodelSet4,
	id-TPC-slot-position,
	id-DL-TBS,
	id-Dual-Cell-EDCH-Enhancements-Information


FROM RNSAP-Constants

	Criticality,
	ProcedureID,
	ProtocolIE-ID,
	TransactionID,
	TriggeringMessage
FROM RNSAP-CommonDataTypes

	ProtocolIE-Single-Container{},
	ProtocolExtensionContainer{},
	RNSAP-PROTOCOL-IES,
	RNSAP-PROTOCOL-EXTENSION
FROM RNSAP-Containers;

-- A

AccessPointName		::= OCTET STRING (SIZE (1..255))

AckNack-RepetitionFactor ::= INTEGER (1..4,...)
-- Step: 1

Ack-Power-Offset ::= INTEGER (0..8,..., 9..10)
-- According to mapping in TS 25.213 [21] subclause 4.2.1

ActivationDelay ::= ENUMERATED {v0, v1, v2, v3, v4, v5, ...}

Activate-Info ::= SEQUENCE {
	activation-type			Execution-Type,
	initial-dl-tx-power		DL-Power,
	firstRLS-Indicator		FirstRLS-Indicator											OPTIONAL, --FDD Only
	propagation-delay		PropagationDelay 											OPTIONAL, --FDD Only
	iE-Extensions			ProtocolExtensionContainer { { Activate-Info-ExtIEs} }		OPTIONAL,
	...
}

Activate-Info-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-ExtendedPropagationDelay	CRITICALITY ignore	EXTENSION ExtendedPropagationDelay		PRESENCE optional	},
	...
}

ActivationInformation ::= SEQUENCE (SIZE (1..maxNrOfEDCH-1)) OF ActivationInformationItem

ActivationInformationItem ::= SEQUENCE {
	uU-ActivationState	Uu-ActivationState,
	iE-Extensions									ProtocolExtensionContainer { { ActivationInformationItem-ExtIEs} }				OPTIONAL,
	...
}

ActivationInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Active-MBMS-Bearer-Service-ListFDD	::= SEQUENCE (SIZE (1..maxNrOfActiveMBMSServices)) OF MBMS-Bearer-ServiceItemFDD

Active-MBMS-Bearer-Service-ListFDD-PFL	::= SEQUENCE (SIZE (1..maxNrOfActiveMBMSServices)) OF MBMS-Bearer-ServiceItemFDD-PFL

Active-MBMS-Bearer-Service-ListTDD	::= SEQUENCE (SIZE (1..maxNrOfActiveMBMSServices)) OF MBMS-Bearer-ServiceItemTDD

Active-MBMS-Bearer-Service-ListTDD-PFL	::= SEQUENCE (SIZE (1..maxNrOfActiveMBMSServices)) OF MBMS-Bearer-ServiceItemTDD-PFL

Active-Pattern-Sequence-Information ::= SEQUENCE {
	cMConfigurationChangeCFN		CFN,
	transmission-Gap-Pattern-Sequence-Status	Transmission-Gap-Pattern-Sequence-Status-List		OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { {Active-Pattern-Sequence-Information-ExtIEs} } OPTIONAL,
	...
}

Active-Pattern-Sequence-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-Cell-Information-Response-RLAddList	::= SEQUENCE (SIZE (1..maxNrOfEDCH-1)) OF Additional-EDCH-Cell-Information-Response-RLAdd-ItemIEs

Additional-EDCH-Cell-Information-Response-RLAdd-ItemIEs	::=SEQUENCE{
	additional-EDCH-FDD-Information-Response						Additional-EDCH-FDD-Information-Response-ItemIEs 	OPTIONAL,
	additional-EDCH-Serving-Cell-Change-Information-Response-RLAdd		E-DCH-Serving-cell-change-informationResponse		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-Cell-Information-Response-RLAdd-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-Cell-Information-Response-RLAdd-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-Setup-Info	::=SEQUENCE{
	multicell-EDCH-Transport-Bearer-Mode									Multicell-EDCH-Transport-Bearer-Mode,
	additional-EDCH-Cell-Information-Setup									Additional-EDCH-Cell-Information-Setup,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-Setup-Info-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-Setup-Info-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ANRReportIndication ::= SEQUENCE {
	pLMN-Identity		PLMN-Identity,
	l3-Information		L3-Information,
	iE-Extensions		ProtocolExtensionContainer { {ANRReportIndication-ExtIEs} } OPTIONAL,
	...
}

ANRReportIndication-ExtIEs RNSAP-PROTOCOL-EXTENSION ::={
	...
}

Additional-EDCH-Cell-Information-Setup	::= SEQUENCE (SIZE (1..maxNrOfEDCH-1)) OF Additional-EDCH-FDD-Setup-Cell-Information

Additional-EDCH-FDD-Setup-Cell-Information	::=SEQUENCE{
	additional-EDCH-UL-DPCH-Information-Setup								Additional-EDCH-UL-DPCH-Information-Setup,
	additional-EDCH-RL-Specific-Information-To-Setup						Additional-EDCH-RL-Specific-Information-To-Setup-List,
	additional-EDCH-FDD-Information											Additional-EDCH-FDD-Information	 OPTIONAL,
	additional-EDCH-F-DPCH-Information-Setup								Additional-EDCH-F-DPCH-Information, 
	multicellEDCH-Information												MulticellEDCH-Information	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-FDD-Setup-Cell-Information-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-FDD-Setup-Cell-Information-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-UL-DPCH-Information-Setup	::=SEQUENCE{
	ul-ScramblingCode						UL-ScramblingCode,
	ul-SIR-Target							UL-SIR 		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-UL-DPCH-Information-Setup-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-UL-DPCH-Information-Setup-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-F-DPCH-Information	::=SEQUENCE{
	fdd-TPC-DownlinkStepSize			FDD-TPC-DownlinkStepSize,
	limitedPowerIncrease				LimitedPowerIncrease,
	innerLoopDLPCStatus					InnerLoopDLPCStatus,
	f-DPCH-SlotFormatSupportRequest		F-DPCH-SlotFormatSupportRequest			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-F-DPCH-Information-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-F-DPCH-Information-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-RL-Specific-Information-To-Setup-List	::= SEQUENCE (SIZE (1.. maxNrOfEDCHRLs)) OF Additional-EDCH-RL-Specific-Information-To-Setup-ItemIEs

Additional-EDCH-RL-Specific-Information-To-Setup-ItemIEs	::=SEQUENCE{
	eDCH-Additional-RL-ID				RL-ID,
	c-ID								C-ID				OPTIONAL,
	firstRLS-indicator					FirstRLS-Indicator,
	propagationDelay					PropagationDelay				OPTIONAL,
	initialDL-transmissionPower			DL-Power				OPTIONAL,
	primaryCPICH-EcNo					PrimaryCPICH-EcNo			OPTIONAL,
	e-AGCH-PowerOffset					E-AGCH-PowerOffset							OPTIONAL,
	e-RGCH-PowerOffset					E-RGCH-PowerOffset							OPTIONAL,
	e-HICH-PowerOffset					E-HICH-PowerOffset							OPTIONAL,
	additional-EDCH-MAC-d-Flows-Specific-Info-List		Additional-EDCH-MAC-d-Flows-Specific-Info-List		OPTIONAL, 
	multicellEDCH-RL-SpecificInformation		MulticellEDCH-RL-SpecificInformation	OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { Additional-EDCH-RL-Specific-Information-To-Setup-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-RL-Specific-Information-To-Setup-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TPC-slot-position			CRITICALITY ignore	EXTENSION TPC-slot-position			PRESENCE optional},
	...
}

Additional-EDCH-Cell-Information-To-Add-List	::= SEQUENCE (SIZE (1.. maxNrOfEDCH-1)) OF Additional-EDCH-Cell-Information-To-Add-ItemIEs

Additional-EDCH-Cell-Information-To-Add-ItemIEs::=SEQUENCE{
	additional-EDCH-UL-DPCH-Information-Setup				Additional-EDCH-UL-DPCH-Information-Addition,
	additional-EDCH-RL-Specific-Information-To-Add-List		Additional-EDCH-RL-Specific-Information-To-Add-List, 
	additional-EDCH-FDD-Information					Additional-EDCH-FDD-Information		OPTIONAL,
	multicellEDCH-Information						MulticellEDCH-Information		OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { Additional-EDCH-Cell-Information-To-Add-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-Cell-Information-To-Add-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-UL-DPCH-Information-Addition	::=SEQUENCE{
	ul-SIR-Target							UL-SIR,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-UL-DPCH-Information-Addition-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-UL-DPCH-Information-Addition-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-RL-Specific-Information-To-Add-List		::= SEQUENCE (SIZE (1.. maxNrOfEDCHRLs)) OF Additional-EDCH-RL-Specific-Information-To-Add-ItemIEs

Additional-EDCH-RL-Specific-Information-To-Add-ItemIEs	::=SEQUENCE{
	eDCH-Additional-RL-ID				RL-ID,
	c-ID								C-ID,
	primaryCPICH-EcNo					PrimaryCPICH-EcNo			OPTIONAL,
	e-AGCH-PowerOffset					E-AGCH-PowerOffset							OPTIONAL, 
	e-RGCH-PowerOffset					E-RGCH-PowerOffset							OPTIONAL, 
	e-HICH-PowerOffset					E-HICH-PowerOffset							OPTIONAL,
	additional-EDCH-MAC-d-Flows-Specific-Info-List		Additional-EDCH-MAC-d-Flows-Specific-Info-List		OPTIONAL, 
	multicellEDCH-RL-SpecificInformation		MulticellEDCH-RL-SpecificInformation		OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { Additional-EDCH-RL-Specific-Information-To-Add-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-RL-Specific-Information-To-Add-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TPC-slot-position			CRITICALITY ignore	EXTENSION TPC-slot-position			PRESENCE optional},
	...
}

Additional-EDCH-RL-Specific-Information-To-Modify-List	::= SEQUENCE (SIZE (1..maxNrOfEDCHRLs)) OF Additional-EDCH-RL-Specific-Information-To-Modify-ItemIEs

Additional-EDCH-RL-Specific-Information-To-Modify-ItemIEs	::=SEQUENCE{
	eDCH-Additional-RL-ID				RL-ID,
	e-AGCH-PowerOffset					E-AGCH-PowerOffset							OPTIONAL,
	e-RGCH-PowerOffset					E-RGCH-PowerOffset							OPTIONAL, 
	e-HICH-PowerOffset					E-HICH-PowerOffset							OPTIONAL,
	additional-EDCH-MAC-d-Flows-Specific-Info-List		Additional-EDCH-MAC-d-Flows-Specific-Info-List		OPTIONAL, 
	multicellEDCH-RL-SpecificInformation		MulticellEDCH-RL-SpecificInformation		OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { Additional-EDCH-RL-Specific-Information-To-Modify-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-RL-Specific-Information-To-Modify-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TPC-slot-position			CRITICALITY ignore	EXTENSION TPC-slot-position			PRESENCE optional},
	...
}

Additional-EDCH-FDD-Information	::=SEQUENCE{
	hARQ-Process-Allocation-Scheduled-2ms-EDCH		HARQ-Process-Allocation-2ms-EDCH											OPTIONAL,
	e-DCH-Maximum-Bitrate							E-DCH-Maximum-Bitrate														OPTIONAL,
	e-DCH-Processing-Overload-Level					E-DCH-Processing-Overload-Level												OPTIONAL, 
	e-DCH-Min-Set-E-TFCI							E-TFCI																		OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { Additional-EDCH-FDD-Information-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-FDD-Information-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DTX-Information2		CRITICALITY ignore	EXTENSION DTX-Information2			PRESENCE optional}|
	{ ID id-ImplicitGrantHandling	CRITICALITY ignore	EXTENSION Implicit-Grant-Handling	PRESENCE optional}|
	{ ID id-MinimumTEBSthreshold	CRITICALITY ignore	EXTENSION Minimum-TEBS-threshold	PRESENCE optional}|
	{ ID id-Dual-Cell-EDCH-Enhancements-Information		CRITICALITY reject	EXTENSION Dual-Cell-EDCH-Enhancements-Information			PRESENCE optional},
	...
}

Additional-EDCH-MAC-d-Flows-Specific-Info-List ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF Additional-EDCH-MAC-d-Flows-Specific-Info

Additional-EDCH-MAC-d-Flows-Specific-Info ::= SEQUENCE {
	e-DCH-MACdFlow-ID								EDCH-MACdFlow-ID,
	bindingID										BindingID																	OPTIONAL,
	transportLayerAddress							TransportLayerAddress														OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { Additional-EDCH-MAC-d-Flows-Specific-Info-ExtIEs} }				OPTIONAL,
	...
}

Additional-EDCH-MAC-d-Flows-Specific-Info-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-MAC-d-Flow-Specific-Information-Response-List::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF Additional-EDCH-MAC-d-Flows-Specific-Info-Response

Additional-EDCH-MAC-d-Flows-Specific-Info-Response ::= SEQUENCE {
	e-DCH-MACdFlow-ID						EDCH-MACdFlow-ID,
	bindingID								BindingID																	OPTIONAL,
	transportLayerAddress					TransportLayerAddress														OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { Additional-EDCH-MAC-d-Flows-Specific-Info-Response-ExtIEs} }		OPTIONAL,
	...
}

Additional-EDCH-MAC-d-Flows-Specific-Info-Response-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-Cell-Information-Response-List	::= SEQUENCE (SIZE (1..maxNrOfEDCH-1)) OF Additional-EDCH-FDD-Information-Response-ItemIEs

Additional-EDCH-FDD-Information-Response-ItemIEs	::=SEQUENCE{
	eDCH-Additional-RL-Specific-Information-Response						EDCH-Additional-RL-Specific-Information-Response-List,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-FDD-Information-Response-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-FDD-Information-Response-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-Cell-Information-Response-RLReconf-List::= SEQUENCE (SIZE (1..maxNrOfEDCH-1)) OF Additional-EDCH-FDD-Information-Response-RLReconf-Items

Additional-EDCH-FDD-Information-Response-RLReconf-Items::=SEQUENCE{
	eDCH-Additional-RL-Specific-Information-Response						EDCH-Additional-RL-Specific-Information-Response-List		OPTIONAL,
	eDCH-Additional-RL-Specific-Modified-Information-Response		EDCH-Additional-RL-Specific-Modified-Information-Response-List		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-FDD-Information-Response-RLReconf-Items-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-FDD-Information-Response-RLReconf-Items-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-Cell-Information-ConfigurationChange-List	::= SEQUENCE (SIZE (1..maxNrOfEDCH-1)) OF Additional-EDCH-ConfigurationChange-Info-ItemIEs
Additional-EDCH-ConfigurationChange-Info-ItemIEs	::=SEQUENCE{
	additional-EDCH-UL-DPCH-Information-Modify							Additional-EDCH-UL-DPCH-Information-Modify		OPTIONAL,
	additional-EDCH-RL-Specific-Information-To-Add						Additional-EDCH-RL-Specific-Information-To-Add-List 		OPTIONAL,
	additional-EDCH-RL-Specific-Information-To-Modify					Additional-EDCH-RL-Specific-Information-To-Modify-List 	OPTIONAL,
	additional-EDCH-FDD-Information-To-Modify							Additional-EDCH-FDD-Information		OPTIONAL,
	additional-EDCH-F-DPCH-Information-Modify							Additional-EDCH-F-DPCH-Information		OPTIONAL, 
	multicellEDCH-Information											MulticellEDCH-Information		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-ConfigurationChange-Info-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-ConfigurationChange-Info-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-UL-DPCH-Information-Modify		::=SEQUENCE{
	ul-ScramblingCode						UL-ScramblingCode 	OPTIONAL,
	ul-SIR-Target							UL-SIR 				OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { Additional-EDCH-UL-DPCH-Information-Modify-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-UL-DPCH-Information-Modify-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Additional-EDCH-Cell-Information-Removal-List	::= SEQUENCE (SIZE (1..maxNrOfEDCH-1)) OF Additional-EDCH-Cell-Information-Removal-Info-ItemIEs

Additional-EDCH-Cell-Information-Removal-Info-ItemIEs	::=SEQUENCE{
	rL-on-Secondary-UL-Frequency							RL-on-Secondary-UL-Frequency,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-Cell-Information-Removal-Info-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-Cell-Information-Removal-Info-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RL-on-Secondary-UL-Frequency ::= ENUMERATED {
	remove,
	...
}

Additional-EDCH-FDD-Update-Information	::=SEQUENCE{
	hARQ-Process-Allocation-Scheduled-2ms-EDCH						HARQ-Process-Allocation-2ms-EDCH					OPTIONAL,
	additional-EDCH-DL-Control-Channel-Change-Information			Additional-EDCH-DL-Control-Channel-Change-Information-List			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-FDD-Update-Information-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-FDD-Update-Information-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


Additional-EDCH-DL-Control-Channel-Change-Information-List	::= SEQUENCE (SIZE (1..maxNrOfEDCHRLs)) OF Additional-EDCH-DL-Control-Channel-Change-Info-ItemIEs

Additional-EDCH-DL-Control-Channel-Change-Info-ItemIEs	::=SEQUENCE{
	eDCH-Additional-RL-ID				RL-ID,
	iE-Extensions						ProtocolExtensionContainer { { Additional-EDCH-DL-Control-Channel-Change-Info-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-DL-Control-Channel-Change-Info-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


AdditionalPreferredFrequency	::= SEQUENCE (SIZE (1..maxNrOfAddFreq)) OF AdditionalPreferredFrequencyItem

AdditionalPreferredFrequencyItem ::= SEQUENCE {
	dL-UARFCN						UARFCN,
	correspondingCells				CorrespondingCells	,
	iE-Extensions					ProtocolExtensionContainer { { AdditionalPreferredFrequencyItem-ExtIEs} } OPTIONAL,
	...
}


AdditionalPreferredFrequencyItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

AdjustmentPeriod			::= INTEGER(1..256)
-- Unit Frame

AffectedUEInformationForMBMS	::= SEQUENCE (SIZE (1..maxNrOfUEs)) OF S-RNTI

AllocationRetentionPriority ::= SEQUENCE {
	priorityLevel				PriorityLevel,
	pre-emptionCapability		Pre-emptionCapability,
	pre-emptionVulnerability	Pre-emptionVulnerability,
	iE-Extensions			ProtocolExtensionContainer { {AllocationRetentionPriority-ExtIEs} } OPTIONAL,
	...
}

AllocationRetentionPriority-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Allowed-Rate-Information	::= SEQUENCE {
	allowed-UL-Rate			Allowed-Rate OPTIONAL,
	allowed-DL-Rate			Allowed-Rate OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { {Allowed-Rate-Information-ExtIEs} } OPTIONAL,
	...
}

Allowed-Rate-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Allowed-Rate			::= INTEGER (1..maxNrOfTFs)
-- “1”: TFI 0, “2”: TFI 1, “3”: TFI 2, ...

AllowedQueuingTime			::= INTEGER (1..60)
-- seconds

AlphaValue					::=	INTEGER (0..8)
-- Actual value = Alpha / 8

AlternativeFormatReportingIndicator ::= ENUMERATED {
alternativeFormatAllowed,...
}

Angle-Of-Arrival-Value-LCR ::= SEQUENCE {
	aOA-LCR					AOA-LCR,
	aOA-LCR-Accuracy-Class	AOA-LCR-Accuracy-Class,
	iE-Extensions			ProtocolExtensionContainer { {Angle-Of-Arrival-Value-LCR-ExtIEs} } OPTIONAL,
...
}

Angle-Of-Arrival-Value-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ANR-Cell-Information	::= SEQUENCE {
	rNC-ID							RNC-ID,
	lAC								LAC							OPTIONAL,
	rAC								RAC							OPTIONAL,
	aNR-FDD-CellInformation			ANR-FDD-CellInformation		OPTIONAL,
	aNR-TDD-CellInformation			ANR-TDD-CellInformation		OPTIONAL,
	aNR-LCR-TDD-CellInformation		ANR-LCR-TDD-CellInformation	OPTIONAL,
	extended-RNC-ID					Extended-RNC-ID				OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { ANR-Cell-Information-ExtIEs} } OPTIONAL,
	...
}

ANR-Cell-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


ANR-FDD-CellInformation ::= SEQUENCE {
	primaryCPICH-Power					PrimaryCPICH-Power					OPTIONAL,
	txDiversityIndicator 				TxDiversityIndicator,
	sTTD-SupportIndicator				STTD-SupportIndicator				OPTIONAL,
	closedLoopMode1-SupportIndicator	ClosedLoopMode1-SupportIndicator	OPTIONAL,
	restrictionStateIndicator			RestrictionStateIndicator			OPTIONAL,
	dpc-ModeChangeSupportIndicator		DPC-Mode-Change-SupportIndicator	OPTIONAL,
	cellCapabilityContainerFDD			CellCapabilityContainer-FDD			OPTIONAL,
	sNA-Information						SNA-Information						OPTIONAL,
	frequencyBandIndicator				FrequencyBandIndicator				OPTIONAL,
	max-UE-DTX-Cycle					Max-UE-DTX-Cycle					OPTIONAL,
	aNR-Multiple-PLMN-List				ANR-Multiple-PLMN-List				OPTIONAL,
	secondaryServingCellList			Secondary-Serving-Cell-List			OPTIONAL,
	dualBandSecondaryServingCellList	Secondary-Serving-Cell-List			OPTIONAL,
	cellCapabilityContainerExtensionFDD	CellCapabilityContainerExtension-FDD	OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { ANR-FDD-CellInformation-ExtIEs} } OPTIONAL,
	...
}

ANR-FDD-CellInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ANR-TDD-CellInformation ::= SEQUENCE {
	syncCase						SyncCase,
	timeSlot						TimeSlot					OPTIONAL
	-- This IE shall be present if Sync Case = Case1 -- ,
	sCH-TimeSlot					SCH-TimeSlot				OPTIONAL
	-- This IE shall be present if Sync Case = Case2 -- ,
	sCTD-Indicator					SCTD-Indicator,
	dPCHConstantValue				DPCHConstantValue			OPTIONAL,
	pCCPCH-Power					PCCPCH-Power				OPTIONAL,
	restrictionStateIndicator		RestrictionStateIndicator	OPTIONAL,
	cellCapabilityContainerTDD		CellCapabilityContainer-TDD	OPTIONAL,
	-- Applicable to 3.84Mcps TDD only
	cellCapabilityContainerTDD768	CellCapabilityContainer-TDD768	OPTIONAL,
	-- Applicable to 7.68Mcps TDD only
	sNA-Information					SNA-Information				OPTIONAL,
	aNR-Multiple-PLMN-List			ANR-Multiple-PLMN-List		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { ANR-TDD-CellInformation-ExtIEs} } OPTIONAL,
	...
}

ANR-TDD-CellInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


ANR-LCR-TDD-CellInformation ::= SEQUENCE {
	sCTD-Indicator								SCTD-Indicator,
	dPCHConstantValue							DPCHConstantValue							OPTIONAL,
	pCCPCH-Power								PCCPCH-Power								OPTIONAL,
	restrictionStateIndicator					RestrictionStateIndicator					OPTIONAL,
	cellCapabilityContainerTDD-LCR				CellCapabilityContainer-TDD-LCR				OPTIONAL,
	-- Applicable to 1.28Mcps TDD only
	sNA-Information								SNA-Information								OPTIONAL,
	aNR-Multiple-PLMN-List						ANR-Multiple-PLMN-List						OPTIONAL,
	cellCapabilityContainerExternsionTDD-LCR	CellCapabilityContainerExtension-TDD-LCR	OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { ANR-LCR-TDD-CellInformation-ExtIEs} } OPTIONAL,
	...
}

ANR-LCR-TDD-CellInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}



ANR-Multiple-PLMN-List ::= SEQUENCE {
	list-Of-PLMNs		List-Of-PLMNs												OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { ANR-Multiple-PLMN-List-ExtIEs} } OPTIONAL,
	...

}

ANR-Multiple-PLMN-List-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

AOA-LCR ::= INTEGER (0..719)
-- Angle Of Arrival for 1.28Mcps TDD

AOA-LCR-Accuracy-Class	::= ENUMERATED {a,b,c,d,e,f,g,h,...}

AntennaColocationIndicator ::= ENUMERATED {
	co-located,
	...
}

-- B

BadSatellites ::= SEQUENCE {
	badSatelliteInformation		SEQUENCE (SIZE (1..maxNoSat)) OF
		SEQUENCE {
			badSAT-ID					SAT-ID,
			iE-Extensions				ProtocolExtensionContainer { { BadSatelliteInformation-ExtIEs} }		OPTIONAL,
			...
		},
	iE-Extensions				ProtocolExtensionContainer { { BadSatellites-ExtIEs} }		OPTIONAL,
	...
}

BadSatelliteInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

BadSatellites-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Band-Indicator ::= ENUMERATED {
	dcs1800Band,
	pcs1900Band,
	...
}

BCC ::= BIT STRING (SIZE (3))

BCCH-ARFCN ::= INTEGER (0..1023)

BDS-IGPInfoList ::= SEQUENCE (SIZE (1..maxIGPInfo)) OF BDS-IGPInfo

BDS-IGPInfo ::= SEQUENCE {
	bds-IGPNumber				INTEGER (1..320),
	bds-VerticalDelay			BIT STRING (SIZE (9)),
	bds-GIVEI					BIT STRING (SIZE (4)),
	iE-Extensions				ProtocolExtensionContainer { { BDS-IGPInfo-ExtIEs} }	OPTIONAL,
	...
}

BDS-IGPInfo-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

BDS-IonosphericGridModelReq ::= ENUMERATED {
	requested,
	...
}

BDS-Ionospheric-Grid-Model ::= SEQUENCE {
	bDS-RefTime					INTEGER (0..119),
-- Time = bDS-RefTime *30
-- Range 0 to 3570, step 30
	bds-IGPInfoList				BDS-IGPInfoList,
	iE-Extensions				ProtocolExtensionContainer { { BDS-Ionospheric-Grid-Model-ExtIEs} }	OPTIONAL,
	...
}

BDS-Ionospheric-Grid-Model-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

BetaCD ::= INTEGER (0..15)

BindingID				::= OCTET STRING (SIZE (1..4,...))
-- If the Binding ID includes an UDP port, the UDP port is included in octet 1 and 2.

BLER					::= INTEGER (-63..0)
-- Step 0.1 (Range -6.3..0). It is the Log10 of the BLER

BSIC ::= SEQUENCE {
	nCC			NCC,
	bCC			BCC
}

BundlingModeIndicator ::= ENUMERATED {
	bundling,
	no-bundling
}

BurstModeParameters ::= SEQUENCE {
	burstStart		INTEGER (0..15),
	burstLength		INTEGER (10..25),
	burstFreq		INTEGER (1..16),
	iE-Extensions				ProtocolExtensionContainer { { BurstModeParameters-ExtIEs} }		OPTIONAL,
	...
}

BurstModeParameters-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- C

Cause ::= CHOICE {
	radioNetwork		CauseRadioNetwork,
	transport			CauseTransport,
	protocol			CauseProtocol,
	misc				CauseMisc,
	...
}

CauseMisc ::= ENUMERATED {
	control-processing-overload,
	hardware-failure,
	om-intervention,
	not-enough-user-plane-processing-resources,
	unspecified,
	...
}

CauseProtocol ::= ENUMERATED {
	transfer-syntax-error,
	abstract-syntax-error-reject,
	abstract-syntax-error-ignore-and-notify,
	message-not-compatible-with-receiver-state,
	semantic-error,
	unspecified,
	abstract-syntax-error-falsely-constructed-message,
	...
}

CauseRadioNetwork ::= ENUMERATED {
	unknown-C-ID,
	cell-not-available,
	power-level-not-supported,
	ul-scrambling-code-already-in-use,
	dl-radio-resources-not-available,
	ul-radio-resources-not-available,
	measurement-not-supported-for-the-object,
	combining-resources-not-available,
	combining-not-supported,
	reconfiguration-not-allowed,
	requested-configuration-not-supported,
	synchronisation-failure,
	requested-tx-diversity-mode-not-supported,
	measurement-temporaily-not-available,
	unspecified,
	invalid-CM-settings,
	reconfiguration-CFN-not-elapsed,
	number-of-DL-codes-not-supported,
	dedicated-transport-channel-type-not-supported,
	dl-shared-channel-type-not-supported,
	ul-shared-channel-type-not-supported,
	common-transport-channel-type-not-supported,
	ul-spreading-factor-not-supported,
	dl-spreading-factor-not-supported,
	cm-not-supported,
	transaction-not-supported-by-destination-node-b,
	rl-already-activated-or-alocated,
	...,
	number-of-UL-codes-not-supported,
	cell-reserved-for-operator-use,
	dpc-mode-change-not-supported,
	information-temporarily-not-available,
	information-provision-not-supported-for-the-object,
	power-balancing-status-not-compatible,
	delayed-activation-not-supported,
	rl-timing-adjustment-not-supported,
	unknown-RNTI,
	measurement-repetition-rate-not-compatible,
	ue-not-capable-of-support,
	f-dpch-not-supported,
	e-dch-not-supported,
	continuous-packet-connectivity-dtx-drx-operation-not-supported,
	continuous-packet-connectivity-hs-scch-less-operation-not-supported,
	mimo-not-supported,
	e-dch-tti2ms-not-supported,
	continuous-packet-connectivity-DTX-DRX-operation-not-available,
	continuous-packet-connectivity-UE-DTX-Cycle-not-available,
	mimo-not-available,
	sixteenQAM-UL-not-Supported,
	hSDSCH-MACdPDU-SizeFormatNotSupported,
	f-dpch-slot-format-operation-not-supported,
	e-DCH-MACdPDU-SizeFormat-not-available,
	e-DPCCH-Power-Boosting-not-supported,
	trelocprep-expiry,
	directed-retry,
	no-Iu-CS-UP-relocation,
	reduce-load-in-serving-cell,
	relocation-cancelled,
	relocation-desirable-for-radio-reasons,
	resource-optimisation-relocation,
	time-critical-relocation,
	traffic-load-in-the-target-cell-higher-than-in-the-source-cell,
	sixtyfourQAM-DL-and-MIMO-Combined-not-available,
	multi-Cell-operation-not-available,
	multi-Cell-operation-not-supported,
	semi-Persistent-scheduling-not-supported,
	continuous-Packet-Connectivity-DRX-not-supported,
	continuous-Packet-Connectivity-DRX-not-available,
	enhanced-relocation-not-supported,
	relocation-not-supported-due-to-PUESBINE-feature,
	relocation-failure-in-target-RNC,
	relocation-target-not-allowed,
	requested-ciphering-and-or-integrity-protection-algorithms-not-supported,
	sixtyfourQAM-DL-and-MIMO-Combined-not-supported,
	tx-diversity-for-mimo-on-DL-control-channels-not-available,
	single-Stream-MIMO-not-supported,
	single-Stream-MIMO-not-available,
	multi-Cell-operation-with-MIMO-not-supported,
	multi-Cell-operation-with-MIMO-not-available,
	multi-Cell-EDCH-operation-not-supported,
	multi-Cell-EDCH-operation-not-available,
	multi-Cell-operation-with-Single-Stream-MIMO-not-supported,
	multi-Cell-operation-with-Single-Stream-MIMO-not-available,
	cellSpecificTxDiversityHandlingForMultiCellOperationNotAvailable,
	cellSpecificTxDiversityHandlingForMultiCellOperationNotSupported,
	frequencySpecificCompressedModeNotAvailable,
	uL-CLTD-Operation-not-available,
	uL-CLTD-Operation-not-supported,
	mimo-withfourtransmitantennas-not-supported,
	mimo-withfourtransmitantennas-not-available,
	dualstream-mimo-withfourtransmitantennas-not-supported,
	dualstream-mimo-withfourtransmitantennas-not-available,
	multiflow-operation-not-supported,
	multiflow-operation-not-available,
	ul-SixtyfourQAM-not-available,
	ul-SixtyfourQAM-not-supported,
	ul-MIMO-Operation-not-available,
	uL-MIMO-Operation-not-supported,
	ul-MIMO-SixteenQAM-Operation-not-available,
	uL-MIMO-SixteenQAM-Operation-not-supported,
	ul-MIMO-SixtyfourQAM-Operation-not-available,
	uL-MIMO-SixtyfourQAM-Operation-not-supported,
	e-DCH-Decoupling-operation-not-available,
	e-DCH-Decoupling-operation-not-supported,
	basic-dch-enh-not-available,
	basic-dch-enh-not-supported,
	full-dch-enh-not-available,
	full-dch-enh-not-supported,
	radio-Links-without-DPCH-FDPCH-Indication-operation-not-available,
	radio-Links-without-DPCH-FDPCH-Indication-operation-not-supported,
	uL-DPCCH2-operation-not-available,
	uL-DPCCH2-operation-not-supported,
	downlink-TPC-enhancements-operation-not-available,
	downlink-TPC-enhancements-operation-not-supported,
	dual-Cell-EDCH-enhancements-with-10ms-and-10ms-TTI-operation-not-available,
	dual-Cell-EDCH-enhancements-with-10ms-and-10ms-TTI-operation-not-supported,
	dual-Cell-EDCH-enhancements-with-different-TTI-operation-not-available,
	dual-Cell-EDCH-enhancements-with-different-TTI-operation-not-supported

}

CauseTransport ::= ENUMERATED {
	transport-resource-unavailable,
	unspecified,
	...
}

CellBased::= SEQUENCE {
	cellIdList			CellIdList,
	iE-Extensions		ProtocolExtensionContainer { {CellBased-ExtIEs} } OPTIONAL,
	...
}

CellBased-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


CellIdList ::= SEQUENCE (SIZE (1..maxNrOfCellIds)) OF
	Cell-Id

Cell-Id 	::= INTEGER (0..268435455)

CellCapabilityContainer-FDD ::= BIT STRING (SIZE (32))
-- First bit: Reserved
-- Second bit: Delayed Activation Support Indicator
-- Third bit: HS-DSCH Support Indicator
-- Fourth bit: Reserved
-- Fifth bit: F-DPCH Support Indicator
-- sixth bit: E-DCH Support Indicator
-- Seventh bit: E-DCH TTI2ms Support Indicator
-- Eighth bit: E-DCH 2sf2and2sf4 and all inferior SFs Support Indicator
-- Ninth bit: E-DCH 2sf2 and all inferior SFs Support Indicator
-- Tenth bit: E-DCH 2sf4 and all inferior SFs Support Indicator
-- Eleventh bit: E-DCH sf4 and all inferior SFs Support Indicator
-- Twelveth bit: E-DCH sf8 and all inferior SFs Support Indicator
-- Thirteenth bit: E-DCH HARQ IR Combining Support Indicator
-- Fourteenth bit: E-DCH HARQ Chase Combining Support Indicator
-- Fifteenth bit: Continuous Packet Connectivity DTX-DRX Support Indicator
-- Sixteenth bit: Continuous Packet Connectivity HS-SCCH less Support Indicator
-- Seventeenth bit: MIMO Support Indicator
-- Eighteenth bit: SixteenQAM UL Support Indicator
-- Nineteenth bit: Flexible MAC-d PDU Size Support Indicator
-- Twentieth bit: F-DPCH Slot Format Support Indicator
-- Twentyfirst bit: SixtyfourQAM DL Support Indicator
-- Twentysecond bit: Flexible E-DCH MAC-d PDU Size Support Indicator
-- Twentythird bit: E-DPCCH Power Boosting Support Indicator
-- Twentyfourth bit: SixtyfourQAM DL and MIMO Combined Support Indicator
-- Twentyfifth bit: Multi Cell Support Indicator Support Indicator
-- Twentysixth bit: MBMS Support Indicator
-- Twentyseventh bit: DRNS Support STTD on DL ctrl ch when the RL is in MIMO P-CPICH + S-CPICH cell
-- Twentyeighth bit: Dual Band Support Indicator (HS-DSCH)
-- Twentyninth bit: Single Stream MIMO Support Indicator
-- Thirtieth bit: Preferred Precoding Weight Set Restriction Support Indicator
-- Thirtyfirst bit: Dual Band E-DCH Support Indicator
-- Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

CellCapabilityContainerExtension-FDD ::= BIT STRING (SIZE (128))
-- First bit: Cell Specific Tx Diversity Handling For Multi Cell Operation Support Indicator
-- Second bit: Multi Cell and MIMO Support Indicator
-- Third bit: Multi Cell and Single Stream MIMO Support Indicator
-- Fourth bit: Multi Cell E-DCH Support Indicator
-- Fifth bit: Separate Iub Transport Bearer Support Indicator
-- Sixth bit: E-DCH UL Flow Multiplexing Support Indicator
-- Seventh to eleventh bit: Maximum No of HSDPA Frequencies Support Indicator
-- Twelfth bit: Dual Band and MIMO Support Indicator
-- Thirteenth bit: 3 or more carrier HSDPA and MIMO Single Band Support Indicator
-- Fourteenth bit: 3 or more carrier HSDPA and MIMO Dual Band Support Indicator
-- Fifteenth bit : Dual Band and Single Stream MIMO Support Indicator 
-- Sixteenth bit : 3 or more carrier HSDPA and Single Stream MIMO Single Band Support Indicator 
-- Seventeenth bit : 3 or more carrier HSDPA and Single Stream MIMO Dual Band Support Indicator 
-- Eighteenth bit: Frequency specific Compressed Mode Support Indicator
-- Nineteenth bit: UL CLTD Capability
-- Twentieth to twenty-second bit: Supported MIMO transmit antennas (N).
-- Twenty-third bit: MIMO with N transmit antennas Capability Adjacent-carrier.
-- Twenty-fourth bit: MIMO with N transmit antennas Capability Dual Band/Dual Band.
-- Twenty-fifth bit: Multi Cell and MIMO with N transmit antennas Capability Adjacent-carrier.
-- Twenty-sixth bit: Multi Cell and MIMO with N transmit antennas Capability Dual Band/Dual Band.
-- Twenty-seventh bit: HSPA 3 or more Carrier and MIMO with N transmit antennas Capability Adjacent-carrier.
-- Twenty-eighth bit: HSPA 3 or more Carrier and MIMO with N transmit antennas Capability Dual Band/Dual Band.
-- Twenty-ninth bit: Intra-site Multiflow
-- Thirtieth bit: Inter-site Multiflow
-- The thirty-first to thirty-third bits: Supported Multiflow configuration, where:
--		value 0 indicates support for one frequency two cells
--		value 1 indicates support for two frequencies three cells
--		value 2 indicates support for two frequencies four cells
--		value 3 indicates support for three frequencies four cells
--		values 4-7 are reserved for future use.
-- Thirty-fourth bit: Multiflow and MIMO
-- Thirty-fifth bit: Cell Specific Tx Diversity Handling For Multiflow Cell Operation
-- Thirty-sixth bit: Multiflow and single stream MIMO
-- Thirty-seventh bit: UL 64QAM Capability
-- Thirty-eighth bit: UL MIMO Capability
-- Thirty-ninth bit: UL MIMO and 16QAM Capability
-- Fortieth bit: UL MIMO and 64QAM Capability
-- Forty-first bit: Common E-RGCH Capability
-- Forty-second bit: E-DCH Decoupling capability
-- Forty-third bit: Basic DCH Enhancements Capability
-- Forty-fourth bit: Full DCH Enhancements Capability
-- Forty-fifth bit: Radio Links without DPCH/F-DPCH operation Capability
-- Forty-sixth bit: UL DPCCH2 operation Capability
-- Forty-seventh bit: feEUL TTI switching Node B Autonomous Capability.
-- Forty-eighth bit: feEUL TTI switching RNC notify Capability.
-- Forty-ninth bit: downlink TPC enhancements Capability.
-- Fiftieth bit: NAICS offloading Capability.
-- Fifty-first bit: Multi Cell E-DCH with DPDCH Capability.
-- Fifty-second bit: Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Capability.
-- Fifty-third bit: Dual Cell E-DCH operation enhancements with different TTI Capability.
-- Fifty-fourth bit: Simplified HS-SCCH type 1 operation capability.

-- Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.


CellCapabilityContainer-TDD ::= BIT STRING (SIZE (32))
-- First bit: Delayed Activation Support Indicator
-- Second bit: HS-DSCH Support Indicator
-- Third bit: DSCH Support Indicator
-- The fourth bit: Flexible MAC-d PDU Size Support Indicator
-- Fifth bit: MBMS Support Indicator
-- Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

CellCapabilityContainer-TDD-LCR ::= BIT STRING (SIZE (32))
-- First bit: Delayed Activation Support Indicator
-- Second bit: HS-DSCH Support Indicator
-- Third bit: DSCH Support Indicator
-- The fourth bit: Flexible MAC-d PDU Size Support Indicator
-- Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

CellCapabilityContainerExtension-TDD-LCR ::= BIT STRING (SIZE (32))
-- First bit: Multi-Carrier E-DCH Operation Support Indicator
-- Second bit: Separate Iur Transport Bearer Support Indicator
-- Third bit: E-DCH UL flow Multiplexing Support Indicator
-- Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

CellCapabilityContainer-TDD768 ::= BIT STRING (SIZE (32))
-- First bit: Delayed Activation Support Indicator
-- Second bit: HS-DSCH Support Indicator
-- Third bit: DSCH Support Indicator
-- The fourth bit: Flexible MAC-d PDU Size Support Indicator
-- Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

C-ID					::= INTEGER (0..65535)

CCTrCH-ID				::= INTEGER (0..15)

Cell-Capacity-Class-Value ::= SEQUENCE {
		uplinkCellCapacityClassValue		INTEGER(1..100,...),
		downlinkCellCapacityClassValue		INTEGER(1..100,...)
}


CellIndividualOffset	::= INTEGER (-20..20)

CellListValidityIndicator	::= ENUMERATED {
	ignoreSecondaryServingCellList,
	ignoreDualBandSecondaryServingCellList,
	ignoreBoth
}

CellParameterID				::= INTEGER (0..127,...)

CellPortionID	::= INTEGER (0..63,...) 

CellPortionLCRID	::= INTEGER (0..255,...)

CFN					::= INTEGER (0..255)

CGI ::= SEQUENCE {
	lAI				LAI,
	cI				CI,
	iE-Extensions	ProtocolExtensionContainer { {CGI-ExtIEs} } OPTIONAL
}

LAI-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CGI-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ChannelCodingType ::= ENUMERATED {
	no-codingTDD,
	convolutional-coding,
	turbo-coding,
	...
}

ChipOffset				::= INTEGER (0..38399)

CI					::= OCTET STRING (SIZE (2))

ClassmarkInformation2			::= OCTET STRING

ClassmarkInformation3			::= OCTET STRING

ClosedLoopMode1-SupportIndicator	::= ENUMERATED {
	closedLoop-Mode1-Supported,
	closedLoop-Mode1-not-Supported
}


Closedlooptimingadjustmentmode	::= ENUMERATED {
	adj-1-slot,
	adj-2-slot,
	...
}

CodingRate ::= ENUMERATED {
	half,
	third,
	...
}

CommonMeasurementAccuracy ::= CHOICE {
	tUTRANGPSMeasurementAccuracyClass		TUTRANGPSAccuracyClass,
	...,
	tUTRANGANSSMeasurementAccuracyClass		TUTRANGANSSAccuracyClass
}

CommonMeasurementType ::= ENUMERATED {
	uTRAN-GPS-timing-of-cell-frames-for-UE-Positioning,
	sFN-SFN-observerd-time-difference,
	load,
	transmitted-carrier-power, 
	received-total-wide-band-power,
	uplink-timeslot-iscp,
	...,
	rT-load,
	nRT-load-Information,
	upPTSInterference,
	uTRAN-GANSS-timing-of-cell-frames-for-UE-Positioning
}
-- For measurements on the Iur-g interface, only load, RT Load and NRT Load information are requested.

CommonMeasurementValue ::= CHOICE {
	tUTRANGPSMeasurementValueInformation	TUTRANGPSMeasurementValueInformation,
	sFNSFNMeasurementValueInformation		SFNSFNMeasurementValueInformation,
	loadValue								LoadValue,
	transmittedCarrierPowerValue			INTEGER(0..100),
	receivedTotalWideBandPowerValue			INTEGER(0..621),
	uplinkTimeslotISCPValue					UL-TimeslotISCP,
	...,
	extension-CommonMeasurementValue		Extension-CommonMeasurementValue
}

CommonMeasurementValueInformation ::= CHOICE {
	measurementAvailable		CommonMeasurementAvailable,
	measurementnotAvailable		NULL
}

CommonMeasurementAvailable::= SEQUENCE {
	commonMeasurementValue		CommonMeasurementValue,
	iE-Extensions					ProtocolExtensionContainer { { CommonMeasurementAvailableItem-ExtIEs} }		OPTIONAL,
	...
}

CommonMeasurementAvailableItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CongestionCause ::= ENUMERATED {
	uTRAN-dynamic-resources,
	uTRAN-semistatic-resources,
	...
}

CommonTransportChannelResourcesInitialisationNotRequired ::= ENUMERATED {
	not-Required
}


Common-EDCH-MAC-d-Flow-Specific-InformationFDD ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF Common-EDCH-MAC-d-Flow-Specific-InformationFDDItem

Common-EDCH-MAC-d-Flow-Specific-InformationFDDItem ::= SEQUENCE {
	common-EDCH-MACdFlow-ID							EDCH-MACdFlow-ID,
	maximum-Number-of-Retransmissions-For-E-DCH		MaxNr-Retransmissions-EDCH,
	eDCH-HARQ-PO-FDD								E-DCH-HARQ-PO-FDD,
	eDCH-MACdFlow-Multiplexing-List					E-DCH-MACdFlow-Multiplexing-List							OPTIONAL,
	common-E-DCHLogicalChannelInformation			Common-E-DCH-LogicalChannelInformation,
	iE-Extensions									ProtocolExtensionContainer { { Common-EDCH-MAC-d-Flow-Specific-InformationFDDItem-ExtIEs} }				OPTIONAL,
	...
}

Common-EDCH-MAC-d-Flow-Specific-InformationFDDItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


Common-EDCH-MAC-d-Flow-Specific-InformationLCR ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlowsLCR)) OF Common-EDCH-MAC-d-Flow-Specific-InformationItemLCR

Common-EDCH-MAC-d-Flow-Specific-InformationItemLCR ::= SEQUENCE {
	common-EDCH-MACdFlow-ID-LCR						EDCH-MACdFlow-ID-LCR,
	maximum-Number-of-Retransmissions-For-E-DCH		MaxNr-Retransmissions-EDCH,
	eDCH-HARQ-PO-TDD								E-DCH-HARQ-PO-TDD,
	eDCH-MACdFlow-Multiplexing-List					E-DCH-MACdFlow-Multiplexing-List							OPTIONAL,
	common-E-DCHLogicalChannelInformation			Common-E-DCH-LogicalChannelInformation,
	iE-Extensions									ProtocolExtensionContainer { { Common-EDCH-MAC-d-Flow-Specific-InformationItemLCR-ExtIEs} }				OPTIONAL,
	...
}

Common-EDCH-MAC-d-Flow-Specific-InformationItemLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Common-E-DCH-LogicalChannelInformation ::= SEQUENCE (SIZE (1..maxNoOfLogicalChannels)) OF Common-E-DCH-LogicalChannelInformationItem

Common-E-DCH-LogicalChannelInformationItem ::= SEQUENCE {
	logicalChannelId				LogicalChannelID,
	maximumMACdPDU-SizeExtended		MAC-PDU-SizeExtended, 
	iE-Extensions					ProtocolExtensionContainer { { Common-E-DCH-LogicalChannelInformationItem-ExtIEs } }			OPTIONAL,
	...
}

Common-E-DCH-LogicalChannelInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


Common-EDCH-Support-Indicator ::= NULL

Common-E-RGCH-Cell-Information	::= CHOICE {
	deActivation							Common-E-RGCH-De-Activation,
	common-E-RGCH-Cell-Info					Common-E-RGCH-Cell-Info,
	...
}

Common-E-RGCH-Cell-Info ::= SEQUENCE {
	eRGCH-ChannelisationCode				FDD-DL-ChannelisationCodeNumber,
	eRGCH-SignatureSequence					ERGCH-SignatureSequence,
	serving-Grant-Value						E-Serving-Grant-Value				OPTIONAL,
	...
}

Common-E-RGCH-De-Activation ::= NULL

CompleteAlmanacProvided	::=	BOOLEAN

Continuous-Packet-Connectivity-DTX-DRX-Information ::= SEQUENCE {
	uE-DTX-DRX-Offset							UE-DTX-DRX-Offset,
	enabling-Delay								Enabling-Delay,
	dTX-Information								DTX-Information,
	dRX-Information								DRX-Information							OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { Continuous-Packet-Connectivity-DTX-DRX-Information-ExtIEs } }			OPTIONAL,
	...
}

Continuous-Packet-Connectivity-DTX-DRX-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Continuous-Packet-Connectivity-DTX-DRX-Information-to-Modify ::= SEQUENCE {
	uE-DTX-DRX-Offset							UE-DTX-DRX-Offset						OPTIONAL,
	enabling-Delay								Enabling-Delay							OPTIONAL,
	dTX-Information-to-Modify					DTX-Information-to-Modify				OPTIONAL,
	dRX-Information-to-Modify					DRX-Information-to-Modify				OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { Continuous-Packet-Connectivity-DTX-DRX-Information-to-Modify-ExtIEs } }			OPTIONAL,
	...
}

Continuous-Packet-Connectivity-DTX-DRX-Information-to-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Continuous-Packet-Connectivity-HS-SCCH-Less-Information ::= SEQUENCE (SIZE (1..maxNrOfHS-DSCHTBSs-HS-SCCHless)) OF Continuous-Packet-Connectivity-HS-SCCH-Less-InformationItem

Continuous-Packet-Connectivity-HS-SCCH-Less-InformationItem ::= SEQUENCE {
	transport-Block-Size-Index				Transport-Block-Size-Index,
	hSPDSCH-Second-Code-Support				HSPDSCH-Second-Code-Support, 
	iE-Extensions							ProtocolExtensionContainer { { Continuous-Packet-Connectivity-HS-SCCH-Less-InformationItem-ExtIEs } }			OPTIONAL,
	...
}

Continuous-Packet-Connectivity-HS-SCCH-Less-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response ::= SEQUENCE {
	hSPDSCH-First-Code-Index				HSPDSCH-First-Code-Index,
	hSPDSCH-Second-Code-Index				HSPDSCH-Second-Code-Index				OPTIONAL, 
	iE-Extensions							ProtocolExtensionContainer { { Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response-ExtIEs } }			OPTIONAL,
	...
}

Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CorrespondingCells	::= SEQUENCE (SIZE (1..maxNrOfCellsPerFreq)) OF C-ID


CoverageIndicator ::= ENUMERATED {
	overlap, 
	covers, 
	containedIn,
	...
}



CPC-Information ::= SEQUENCE {
	continuous-Packet-Connectivity-DTX-DRX-Information						Continuous-Packet-Connectivity-DTX-DRX-Information						OPTIONAL,
	continuous-Packet-Connectivity-DTX-DRX-Information-to-Modify			Continuous-Packet-Connectivity-DTX-DRX-Information-to-Modify			OPTIONAL,
	continuous-Packet-Connectivity-HS-SCCH-Less-Information					Continuous-Packet-Connectivity-HS-SCCH-Less-Information				OPTIONAL,
	iE-Extensions															ProtocolExtensionContainer { { CPC-Information-ExtIEs} }				OPTIONAL,
	...
}

CPC-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-Continuous-Packet-Connectivity-HS-SCCH-Less-Deactivate-Indicator			CRITICALITY reject				EXTENSION Continuous-Packet-Connectivity-HS-SCCH-less-Deactivate-Indicator			PRESENCE optional},
	...
}

CPC-RecoveryReport ::= ENUMERATED {
	initiated,
	...
}

Continuous-Packet-Connectivity-HS-SCCH-less-Deactivate-Indicator ::= NULL

Counting-Information ::= SEQUENCE ( SIZE (1..maxNrOfFDDNeighboursPerRNC,...)) OF Counting-Information-List

Counting-Information-List ::= SEQUENCE {
	c-ID								C-ID,
	counting-Result						Counting-Result,
	iE-Extensions						ProtocolExtensionContainer { { Counting-Information-List-ExtIEs} } OPTIONAL,
	...
}

Counting-Information-List-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Counting-Result ::= INTEGER (0..63)


CRC-Size 				::= ENUMERATED {
	v0,
	v8,
	v12,
	v16,
	v24,
	...
}

CriticalityDiagnostics ::= SEQUENCE {
	procedureID						ProcedureID				OPTIONAL,
	triggeringMessage				TriggeringMessage		OPTIONAL,
	procedureCriticality			Criticality				OPTIONAL,
	transactionID					TransactionID			OPTIONAL,
	iEsCriticalityDiagnostics		CriticalityDiagnostics-IE-List	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {CriticalityDiagnostics-ExtIEs} } OPTIONAL,
	...
}

CriticalityDiagnostics-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CriticalityDiagnostics-IE-List ::= SEQUENCE (SIZE (1..maxNrOfErrors)) OF
	SEQUENCE {
		iECriticality			Criticality,
		iE-ID					ProtocolIE-ID,
		repetitionNumber		RepetitionNumber0		OPTIONAL,
		iE-Extensions			ProtocolExtensionContainer { {CriticalityDiagnostics-IE-List-ExtIEs} } OPTIONAL,
		...
	}

CriticalityDiagnostics-IE-List-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{	ID id-MessageStructure		CRITICALITY ignore		EXTENSION MessageStructure		PRESENCE optional	}|
{	ID id-TypeOfError			CRITICALITY ignore		EXTENSION TypeOfError			PRESENCE mandatory	},
	...
}

CN-CS-DomainIdentifier ::= SEQUENCE {
	pLMN-Identity		PLMN-Identity,
	lAC					LAC,
	iE-Extensions		ProtocolExtensionContainer { {CN-CS-DomainIdentifier-ExtIEs} } OPTIONAL
}

CN-CS-DomainIdentifier-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CN-PS-DomainIdentifier ::= SEQUENCE {
	pLMN-Identity		PLMN-Identity,
	lAC					LAC,
	rAC					RAC,
	iE-Extensions		ProtocolExtensionContainer { {CN-PS-DomainIdentifier-ExtIEs} } OPTIONAL
}

CN-PS-DomainIdentifier-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CNDomainType	::= ENUMERATED {
	cs-domain,
	ps-domain,
	i-care,
	...
}
-- See in TS 25.331 [16]

CQI-DTX-Timer ::= ENUMERATED {v0, v1, v2, v4, v8, v16, v32, v64, v128, v256, v512, infinity}
	-- Unit subframe

CQI-Cycle-Switch-Timer ::= ENUMERATED {v4, v8, v16, v32, v64, v128, v256, v512, infinity}
	-- Unit subframe

ControlGAP ::= INTEGER (1..255)

CQI-Feedback-Cycle ::= ENUMERATED {v0, v2, v4, v8, v10, v20, v40, v80, v160,..., v16, v32, v64}

CQI-Feedback-Cycle2 ::= ENUMERATED {v0, v2, v4, v8, v16, v10, v20, v32, v40, v64, v80, v160,...}

CQI-Power-Offset ::= INTEGER (0..8,..., 9..10)
-- According to mapping in TS 25.213 [21] subclause 4.2.1

CQI-RepetitionFactor ::= INTEGER (1..4,...)
-- Step: 1

C-RNTI					::= INTEGER (0..65535)

CodeRate ::= INTEGER (0..63)

CodeRate-short ::= INTEGER (0..10)

CPC-InformationLCR ::= SEQUENCE {
	continuousPacketConnectivity-DRX-InformationLCR					ContinuousPacketConnectivity-DRX-InformationLCR						OPTIONAL,
	continuousPacketConnectivity-DRX-Information-to-Modify-LCR		ContinuousPacketConnectivity-DRX-Information-to-Modify-LCR		OPTIONAL,
	hS-DSCH-Semi-PersistentScheduling-Information-LCR				HS-DSCH-Semi-PersistentScheduling-Information-LCR					OPTIONAL,
	hS-DSCH-Semi-PersistentScheduling-Information-to-Modify-LCR		HS-DSCH-Semi-PersistentScheduling-Information-to-Modify-LCR		OPTIONAL,
	hS-DSCH-SPS-Deactivate-Indicator-LCR							NULL		OPTIONAL,
	e-DCH-Semi-PersistentScheduling-Information-LCR					E-DCH-Semi-PersistentScheduling-Information-LCR						OPTIONAL,
	e-DCH-Semi-PersistentScheduling-Information-to-Modify-LCR		E-DCH-Semi-PersistentScheduling-Information-to-Modify-LCR		OPTIONAL,
	e-DCH-SPS-Deactivate-Indicator-LCR								NULL		OPTIONAL,
	iE-Extensions													ProtocolExtensionContainer { { CPC-InformationLCR-ExtIEs} }		OPTIONAL,
	...
}

CPC-InformationLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ContinuousPacketConnectivity-DRX-InformationLCR ::= SEQUENCE {
	enabling-Delay					Enabling-Delay,
	hS-SCCH-DRX-Information-LCR		HS-SCCH-DRX-Information-LCR,
	e-AGCH-DRX-Information-LCR		E-AGCH-DRX-Information-LCR			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { ContinuousPacketConnectivity-DRX-InformationLCR-ExtIEs } }			OPTIONAL,
	...
}

ContinuousPacketConnectivity-DRX-InformationLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ContinuousPacketConnectivity-DRX-Information-to-Modify-LCR ::= SEQUENCE {
	enabling-Delay								Enabling-Delay							OPTIONAL,
	dRX-Information-to-Modify-LCR				DRX-Information-to-Modify-LCR			OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { ContinuousPacketConnectivity-DRX-Information-to-Modify-LCR-ExtIEs } }				OPTIONAL,
	...
}

ContinuousPacketConnectivity-DRX-Information-to-Modify-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ContinuousPacketConnectivity-DRX-Information-ResponseLCR ::= SEQUENCE {
	enabling-Delay							Enabling-Delay							OPTIONAL,
	hS-SCCH-DRX-Information-ResponseLCR		HS-SCCH-DRX-Information-ResponseLCR		OPTIONAL,
	e-AGCH-DRX-Information-ResponseLCR		E-AGCH-DRX-Information-ResponseLCR		OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { ContinuousPacketConnectivity-DRX-Information-ResponseLCR-ExtIEs } }			OPTIONAL,
	...
}

ContinuousPacketConnectivity-DRX-Information-ResponseLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Controlled-Object-Scope ::= SEQUENCE{
	rNC-ID									RNC-ID,
	extended-RNC-ID							Extended-RNC-ID OPTIONAL,
	multiple-PLMN-List						Multiple-PLMN-List OPTIONAL,
	umts-cell-Info							UMTS-Cells-Info-List OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { {Controlled-Object-Scope-ExtIEs} } OPTIONAL,
	...
}

Controlled-Object-Scope-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- D

DATA-ID ::= INTEGER (0..3)

DBDS-CorrectionsReq ::= SEQUENCE {
	dGANSS-Signal-ID		BIT STRING (SIZE (8)),
	ie-Extensions			ProtocolExtensionContainer { { DBDS-CorrectionsReq-ExtIEs } } OPTIONAL,
	... 
}

DBDS-CorrectionsReq-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DBDS-Corrections ::= SEQUENCE {
	bDS-RefTime				INTEGER (0..119),
	-- Time = bDS-RefTime *30
	dBDS-InfoList			DBDS-InfoList,
	iE-Extensions			ProtocolExtensionContainer { { DBDS-CorrectionsItem-ExtIEs} } OPTIONAL,
	...
}

DBDS-CorrectionsItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DBDS-Info ::= SEQUENCE {
	dBDS-SignalID			GANSS-Signal-ID		OPTIONAL,
	dBDS-SignalInfoList		DBDS-SignalInfoList,
	iE-Extensions			ProtocolExtensionContainer { { DBDS-InfoItem-ExtIEs} } OPTIONAL,
	...
}

DBDS-InfoItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

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)),
	ie-Extensions		ProtocolExtensionContainer { { DBDS-SignalInfoItem-ExtIEs} } OPTIONAL,
	...
}

DBDS-SignalInfoItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DBDS-InfoList ::= SEQUENCE (SIZE (1..maxSgnType)) OF DBDS-Info

DCH-ENH-Information ::= SEQUENCE {
	pO2-SRB					PowerOffset,
	dl-FET-Mode				DL-FET-Mode,
	dCH-ENH-Concat			DCH-ENH-Concat		OPTIONAL
-- This IE shall be present if dl-FET-Mode is equal to “full” --,
	iE-Extensions			ProtocolExtensionContainer { { DCH-ENH-Information-ExtIEs } }	OPTIONAL,
	...
}

DCH-ENH-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-ENH-Information-to-Modify ::= SEQUENCE {
	pO-SRB					PowerOffset			OPTIONAL,
	dl-FET-Mode				DL-FET-Mode			OPTIONAL,
	dCH-ENH-Concat			DCH-ENH-Concat		OPTIONAL
-- This IE shall be present if dl-FET-Mode is equal to “full” --,
	iE-Extensions			ProtocolExtensionContainer { { DCH-ENH-Information-to-Modify-ExtIEs } }	OPTIONAL,
	...
}

DCH-ENH-Information-to-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-FET-Mode ::= ENUMERATED {
	basic,
	full,
	...
}

DCH-ENH-Concat ::= SEQUENCE (SIZE (1.. maxNrofConcatenatedDCH)) OF DCH-ID

DCH-ENH-Information-Reconf ::=SEQUENCE{
	setup-Or-ConfigurationChange-Or-Removal-Of-DCH-ENH		Setup-Or-ConfigurationChange-Or-Removal-Of-DCH-ENH,
	iE-Extensions											ProtocolExtensionContainer { { DCH-ENH-Information-Reconf-ExtIEs} } OPTIONAL,
	...
}

DCH-ENH-Information-Reconf-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


DCH-ENH-Information-Removal ::= ENUMERATED {
	remove,
	...
}

DCH-FDD-Information		::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF DCH-FDD-InformationItem

DCH-FDD-InformationItem ::= SEQUENCE {
	payloadCRC-PresenceIndicator		PayloadCRC-PresenceIndicator,
	ul-FP-Mode							UL-FP-Mode,
	toAWS								ToAWS,
	toAWE								ToAWE,
	dCH-SpecificInformationList			DCH-Specific-FDD-InformationList,
	iE-Extensions						ProtocolExtensionContainer { {DCH-FDD-InformationItem-ExtIEs} } OPTIONAL,
	...
}

DCH-FDD-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TnlQos			CRITICALITY 	ignore		EXTENSION 	TnlQos		PRESENCE 	optional	},
	...
}

DCH-MeasurementOccasion-Information ::= SEQUENCE (SIZE (1.. maxNrOfDCHMeasurementOccasionPatternSequence)) OF DchMeasurementOccasionInformation-Item

DchMeasurementOccasionInformation-Item ::= SEQUENCE {
	pattern-Sequence-Identifier					Pattern-Sequence-Identifier,
	status-Flag									Status-Flag,
	measurement-Occasion-Pattern-Sequence-parameters					Measurement-Occasion-Pattern-Sequence-parameters 			OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { DCH-MeasurementOccasion-Information-ExtIEs } }			OPTIONAL,
	...
}

DCH-MeasurementOccasion-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Measurement-Occasion-Pattern-Sequence-parameters ::= SEQUENCE {
	measurement-Occasion-Pattern-Sequence-parameters-k					INTEGER(1..9),
	measurement-Occasion-Pattern-Sequence-parameters-offset				INTEGER(0..511),
	measurement-Occasion-Pattern-Sequence-parameters-M-Length			INTEGER(1..512),
	measurement-Occasion-Pattern-Sequence-parameters-Timeslot-Bitmap	BIT STRING (SIZE (7)),
	iE-Extensions				ProtocolExtensionContainer { { Measurement-Occasion-Pattern-Sequence-parameters-ExtIEs } } OPTIONAL,
	...
}

Measurement-Occasion-Pattern-Sequence-parameters-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DCH-MeasurementType-Indicator ::= BIT STRING (SIZE (5))


DCH-Specific-FDD-InformationList ::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF DCH-Specific-FDD-Item

DCH-Specific-FDD-Item ::=	SEQUENCE {
	dCH-ID								DCH-ID,
	trCH-SrcStatisticsDescr				TrCH-SrcStatisticsDescr,
	ul-transportFormatSet				TransportFormatSet,
	dl-transportFormatSet				TransportFormatSet,
	ul-BLER								BLER,
	dl-BLER								BLER,
	allocationRetentionPriority			AllocationRetentionPriority,
	frameHandlingPriority				FrameHandlingPriority,
	qE-Selector							QE-Selector,
	dRACControl							DRACControl,
	iE-Extensions						ProtocolExtensionContainer { {DCH-FDD-SpecificItem-ExtIEs} } OPTIONAL,
	...
}

DCH-FDD-SpecificItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Guaranteed-Rate-Information		CRITICALITY ignore	EXTENSION Guaranteed-Rate-Information		PRESENCE optional	}|
	{ ID id-TrafficClass					CRITICALITY ignore	EXTENSION TrafficClass	PRESENCE mandatory}|
	{ ID id-Unidirectional-DCH-Indicator	CRITICALITY reject	EXTENSION Unidirectional-DCH-Indicator		PRESENCE optional	},
	...
}

DCH-Indicator-For-E-DCH-HSDPA-Operation ::= ENUMERATED {
	dch-not-present
}

DCH-ID					::= INTEGER (0..255)

DCH-InformationResponse ::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF DCH-InformationResponseItem

DCH-InformationResponseItem ::= SEQUENCE {
	dCH-ID						DCH-ID,
	bindingID					BindingID				OPTIONAL,
	transportLayerAddress		TransportLayerAddress	OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {DCH-InformationResponseItem-ExtIEs} } OPTIONAL,
	...
}

DCH-InformationResponseItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Allowed-Rate-Information			CRITICALITY ignore	EXTENSION Allowed-Rate-Information					PRESENCE optional	}|
	{ ID id-TransportBearerNotSetupIndicator	CRITICALITY ignore	EXTENSION TransportBearerNotSetupIndicator		PRESENCE optional	}, -- FDD only
	...
}

DCH-TDD-Information		::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF DCH-TDD-InformationItem

DCH-TDD-InformationItem ::= SEQUENCE {
	payloadCRC-PresenceIndicator		PayloadCRC-PresenceIndicator,
	ul-FP-Mode							UL-FP-Mode,
	toAWS								ToAWS,
	toAWE								ToAWE,
	dCH-SpecificInformationList			DCH-Specific-TDD-InformationList,
	iE-Extensions						ProtocolExtensionContainer { {DCH-TDD-InformationItem-ExtIEs} } OPTIONAL,
	...
}

DCH-TDD-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TnlQos						CRITICALITY 	ignore		EXTENSION 	TnlQos		PRESENCE 	optional	},
	...
}

DCH-Specific-TDD-InformationList ::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF DCH-Specific-TDD-Item

DCH-Specific-TDD-Item ::=	SEQUENCE {
	dCH-ID								DCH-ID,	
	ul-cCTrCH-ID						CCTrCH-ID, -- UL CCTrCH in which the DCH is mapped
	dl-cCTrCH-ID						CCTrCH-ID, -- DL CCTrCH in which the DCH is mapped
	trCH-SrcStatisticsDescr				TrCH-SrcStatisticsDescr,
	ul-transportFormatSet				TransportFormatSet,
	dl-transportFormatSet				TransportFormatSet,
	ul-BLER								BLER,
	dl-BLER								BLER,
	allocationRetentionPriority			AllocationRetentionPriority,
	frameHandlingPriority				FrameHandlingPriority,
	qE-Selector							QE-Selector			OPTIONAL,
	-- This IE shall be present if DCH is part of set of Co-ordinated DCHs
	iE-Extensions						ProtocolExtensionContainer { {DCH-Specific-TDD-Item-ExtIEs} } OPTIONAL,
	...
}

DCH-Specific-TDD-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Guaranteed-Rate-Information		CRITICALITY ignore	EXTENSION Guaranteed-Rate-Information		PRESENCE optional	}|
	{ ID id-TrafficClass					CRITICALITY ignore	EXTENSION TrafficClass 	PRESENCE mandatory}|
	{ ID id-Unidirectional-DCH-Indicator	CRITICALITY reject	EXTENSION Unidirectional-DCH-Indicator		PRESENCE optional	},
	...
}

DecimationFactor ::= ENUMERATED {
	slots3,
	slots5
}

DedicatedMeasurementType ::= ENUMERATED { 
	sir, 
	sir-error, 
	transmitted-code-power, 
	rSCP, 
	rx-timing-deviation,
	round-trip-time,
	..., 
	rx-timing-deviation-LCR,
	angle-Of-Arrival-LCR,
	hs-sich-quality,
	rx-timing-deviation-768,
	rx-timing-deviation-ext,
	ue-transmission-power-headroom,
	dl-TBS
}

DedicatedMeasurementValue ::= CHOICE {
	sIR-Value					SIR-Value,
	sIR-ErrorValue				SIR-Error-Value,
	transmittedCodePowerValue	Transmitted-Code-Power-Value,
	rSCP						RSCP-Value,					-- TDD only
	rxTimingDeviationValue		Rx-Timing-Deviation-Value,	-- 3.84Mcps TDD only
	roundTripTime				Round-Trip-Time-Value,		-- FDD only
	...,
	extension-DedicatedMeasurementValue		Extension-DedicatedMeasurementValue
}

DedicatedMeasurementValueInformation ::= CHOICE {
	measurementAvailable		DedicatedMeasurementAvailable,
	measurementnotAvailable		DedicatedMeasurementnotAvailable
}

DedicatedMeasurementAvailable::= SEQUENCE {
	dedicatedmeasurementValue		DedicatedMeasurementValue,
	cFN								CFN		OPTIONAL,
	ie-Extensions					ProtocolExtensionContainer { { DedicatedMeasurementAvailableItem-ExtIEs} }		OPTIONAL,
	...
}

DedicatedMeasurementAvailableItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DedicatedMeasurementnotAvailable ::= NULL

DelayedActivation ::= CHOICE {
	cfn						CFN,
	separate-indication		NULL
}

DelayedActivationUpdate ::= CHOICE {
	activate		Activate-Info,
	deactivate		Deactivate-Info
}

Deactivate-Info ::= SEQUENCE {
	deactivation-type		Execution-Type,
	iE-Extensions			ProtocolExtensionContainer { { Deactivate-Info-ExtIEs} }		OPTIONAL,
	...
}

Deactivate-Info-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DeltaSIR				::= INTEGER (0..30)
-- Step 0.1 dB, Range 0..3 dB.

DGANSSCorrections ::= SEQUENCE {
	dGANSS-ReferenceTime			INTEGER(0..119),
	dGANSS-Information				SEQUENCE (SIZE (1..maxSgnType)) OF SEQUENCE {
		gANSS-SignalId					GANSS-Signal-ID												OPTIONAL,
		gANSS-StatusHealth				GANSS-StatusHealth,
-- The following IE shall be present if the StatusHealth IE value is not equal to “no data” or “invalid data” 
		dGANSS-SignalInformation		SEQUENCE (SIZE (1..maxGANSSSat)) OF SEQUENCE {
			satId							INTEGER(0..63),
			gANSS-iod						BIT STRING (SIZE (10)),
			udre							UDRE,
			ganss-prc						INTEGER(-2047..2047),
			ganss-rrc						INTEGER(-127..127),
			ie-Extensions					ProtocolExtensionContainer { { DGANSS-SignalInformationItem-ExtIEs } }	OPTIONAL,
			...
		}																							OPTIONAL,
		ie-Extensions		 			ProtocolExtensionContainer { { DGANSS-InformationItem-ExtIEs } }	OPTIONAL,
		...
	},
	ie-Extensions					ProtocolExtensionContainer { { DGANSSCorrections-ExtIEs } }		OPTIONAL,
	...
}

DGANSSCorrections-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DGANSS-Corrections-Req ::= SEQUENCE {
	dGANSS-Signal-ID					BIT STRING (SIZE (8)),
	ie-Extensions		 				ProtocolExtensionContainer { { DGANSS-Corrections-Req-ExtIEs } }	OPTIONAL,
	...
}

DGANSS-Corrections-Req-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-GANSS-ID				CRITICALITY	ignore	EXTENSION	GANSS-ID			PRESENCE	optional},
	...
}

DGANSS-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DGANSS-SignalInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-DGNSS-ValidityPeriod	CRITICALITY	ignore	EXTENSION	DGNSS-ValidityPeriod	PRESENCE	optional},
	...
}

DGANSSThreshold ::= SEQUENCE {
	pRCDeviation		PRCDeviation,
	...
}

DGNSS-ValidityPeriod ::= 			SEQUENCE {
	udreGrowthRate						UDREGrowthRate,
	udreValidityTime					UDREValidityTime,
	iE-Extensions						ProtocolExtensionContainer { { DGNSS-ValidityPeriod-ExtIEs } }		OPTIONAL,
	...
}

DGNSS-ValidityPeriod-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DGPSCorrections ::= SEQUENCE {
	gPSTOW									GPSTOW,
	gPS-Status-Health						GPS-Status-Health,
	satellite-DGPSCorrections-Information	SEQUENCE (SIZE (1..maxNoSat)) OF
		SEQUENCE {
			sAT-ID								SAT-ID,
			iode-dgps							BIT STRING (SIZE (8)),
			uDRE								UDRE,
			pRC									PRC,
			range-Correction-Rate				Range-Correction-Rate,
			iE-Extensions						ProtocolExtensionContainer { { Satellite-DGPSCorrections-Information-ExtIEs} }		OPTIONAL,
			...
		},
	iE-Extensions					ProtocolExtensionContainer { { DGPSCorrections-ExtIEs} }		OPTIONAL,
	...
}

DGPSCorrections-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DGPSThreshold ::= SEQUENCE {
	pRCDeviation		PRCDeviation,
	iE-Extensions		ProtocolExtensionContainer { { DGPSThreshold-ExtIEs} }		OPTIONAL,
	...
}

DGPSThreshold-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DiscardTimer ::= ENUMERATED {v20,v40,v60,v80,v100,v120,v140,v160,v180,v200,v250,v300,v400,v500,v750,v1000,v1250,v1500,v1750,v2000,v2500,v3000,v3500,v4000,v4500,v5000,v7500,
 ...
}

DiversityControlField			::= ENUMERATED {
	may,
	must,
	must-not
}

DiversityMode				::= ENUMERATED {
	none,
	sTTD,
	closedLoopMode1,
	not-used-closedLoopMode2,
	...
}

DL-TBS ::= SEQUENCE {
	hs-DSCH-Cell-List				HS-DSCH-Cell-List,
	iE-Extensions					ProtocolExtensionContainer { { DL-TBS-ExtIEs} } OPTIONAL,
	...
}

DL-TBS-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-TBS-Value ::= INTEGER (0..160000)

DL-DPCH-SlotFormat			::= INTEGER (0..16,...,17..18)

DL-DPCH-TimingAdjustment ::= ENUMERATED {
	timing-advance,
	timing-delay
}

DL-Power				::= INTEGER (-350..150)
-- Value = DL-Power / 10
-- Unit dB, Range –35dB .. +15dB, Step 0.1dB

DL-PowerBalancing-Information ::= SEQUENCE {
	powerAdjustmentType					PowerAdjustmentType,
	dLReferencePower					DL-Power							OPTIONAL,
	-- This IE shall be present if Power Adjustment Type IE equals to ‘Common’
	dLReferencePowerList				DL-ReferencePowerInformationList	OPTIONAL,
	-- This IE shall be present if Power Adjustment Type IE equals to ‘Individual’
	maxAdjustmentStep					MaxAdjustmentStep					OPTIONAL,
	-- This IE shall be present if Power Adjustment Type IE equals to ‘Common’ or ‘Individual’
	adjustmentPeriod					AdjustmentPeriod					OPTIONAL,
	-- This IE shall be present if Power Adjustment Type IE equals to ‘Common’ or ‘Individual’
	adjustmentRatio						ScaledAdjustmentRatio				OPTIONAL,
	-- This IE shall be present if Power Adjustment Type IE equals to ‘Common’ or ‘Individual’
	iE-Extensions						ProtocolExtensionContainer { { DL-PowerBalancing-Information-ExtIEs } } OPTIONAL,
	...
}

DL-PowerBalancing-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-ReferencePowerInformationList ::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF DL-ReferencePowerInformationItem

DL-ReferencePowerInformationItem ::= SEQUENCE {
	rL-ID						RL-ID,
	dl-Reference-Power			DL-Power,
	iE-Extensions				ProtocolExtensionContainer { {DL-ReferencePowerInformationItem-ExtIEs} } OPTIONAL,
	...
}

DL-ReferencePowerInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-PowerBalancing-ActivationIndicator	::= ENUMERATED {
	dL-PowerBalancing-Activated
}

DL-PowerBalancing-UpdatedIndicator	::= ENUMERATED {
	dL-PowerBalancing-Updated
}

DL-ReferencePowerInformation	::=	SEQUENCE {
	common-DL-ReferencePowerInformation			DL-Power		OPTIONAL,
	individual-DL-ReferencePowerInformation		DL-ReferencePowerInformationList		OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { DL-ReferencePowerInformation-ExtIEs } } OPTIONAL,
	...
}

DL-ReferencePowerInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

D-RNTI ::= INTEGER (0..1048575)

D-RNTI-ReleaseIndication ::= ENUMERATED {
	release-D-RNTI,
	not-release-D-RNTI
}

DL-ScramblingCode ::= INTEGER (0..15)

DL-FrameType ::= ENUMERATED {
	typeA,
	typeB,
	...
}

DL-Timeslot-Information ::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF DL-Timeslot-InformationItem

DL-Timeslot-InformationItem ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType		MidambleShiftAndBurstType,
	tFCI-Presence					TFCI-Presence,
	dL-Code-Information				TDD-DL-Code-Information,
	iE-Extensions					ProtocolExtensionContainer { {DL-Timeslot-InformationItem-ExtIEs} } OPTIONAL,
	...
}

DL-Timeslot-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-TimeslotLCR-Information ::= SEQUENCE (SIZE (1.. maxNrOfDLTsLCR)) OF DL-TimeslotLCR-InformationItem

DL-TimeslotLCR-InformationItem ::= SEQUENCE {
	timeSlotLCR								TimeSlotLCR,
	midambleShiftLCR						MidambleShiftLCR,
	tFCI-Presence							TFCI-Presence,
	dL-Code-LCR-Information					TDD-DL-Code-LCR-Information,
	iE-Extensions							ProtocolExtensionContainer { { DL-TimeslotLCR-InformationItem-ExtIEs} }		OPTIONAL,
	...
}

DL-TimeslotLCR-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Maximum-DL-Power-TimeslotLCR-InformationItem	CRITICALITY ignore	EXTENSION DL-Power		PRESENCE optional}|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-Minimum-DL-Power-TimeslotLCR-InformationItem	CRITICALITY ignore	 EXTENSION DL-Power		PRESENCE optional},
	-- Applicable to 1.28Mcps TDD only
	...
}

DL-Timeslot-Information768 ::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF DL-Timeslot-InformationItem768

DL-Timeslot-InformationItem768 ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType768	MidambleShiftAndBurstType768,
	tFCI-Presence					TFCI-Presence,
	dL-Code-Information768			TDD-DL-Code-Information768,
	iE-Extensions					ProtocolExtensionContainer { {DL-Timeslot-InformationItem768-ExtIEs} } OPTIONAL,
	...
}

DL-Timeslot-InformationItem768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-TimeSlot-ISCP-Info ::= SEQUENCE (SIZE (1..maxNrOfDLTs)) OF DL-TimeSlot-ISCP-InfoItem

DL-TimeSlot-ISCP-InfoItem ::= SEQUENCE {
	timeSlot					TimeSlot,
	dL-TimeslotISCP				DL-TimeslotISCP,
	iE-Extensions				ProtocolExtensionContainer { { DL-TimeSlot-ISCP-InfoItem-ExtIEs} } OPTIONAL,
	...
}

DL-TimeSlot-ISCP-InfoItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-TimeSlot-ISCP-LCR-Information ::= SEQUENCE (SIZE (1..maxNrOfDLTsLCR)) OF	DL-TimeSlot-ISCP-LCR-InfoItem

DL-TimeSlot-ISCP-LCR-InfoItem ::= SEQUENCE {
 	timeSlotLCR						TimeSlotLCR,
	dL-TimeslotISCP					DL-TimeslotISCP,
	iE-Extensions					ProtocolExtensionContainer { { DL-TimeSlot-ISCP-LCR-InfoItem-ExtIEs} }		OPTIONAL,
	...
 }

DL-TimeSlot-ISCP-LCR-InfoItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DL-TimeslotISCP ::= INTEGER (0..91)
-- According to mapping in TS 25.123 [24]

Downlink-Compressed-Mode-Method ::= ENUMERATED {
	not-Used-puncturing,
	sFdiv2,
	higher-layer-scheduling,
	...
}

Downlink-TPC-enhancements-Information ::= SEQUENCE {
	decimationFactorforPrimaryFrequency			DecimationFactor			OPTIONAL,
	decimationFactorforSecFrequency				DecimationFactor			OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { Downlink-TPC-enhancements-Information-ExtIEs } }		OPTIONAL,
	...
}

Downlink-TPC-enhancements-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Downlink-TPC-enhancements-Reconf ::= SEQUENCE{
	setup-Or-ConfigurationChange-Or-Removal-Of-Downlink-TPC-enhancements			Setup-Or-ConfigurationChange-Or-Removal-Of-Downlink-TPC-enhancements,
	iE-Extensions										ProtocolExtensionContainer { { Downlink-TPC-enhancements-Reconf-ExtIEs} }	OPTIONAL,
	...
}

Downlink-TPC-enhancements-Reconf-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Downlink-TPC-enhancements-Information-Removal ::= ENUMERATED {
	remove,
	...
}

DPC-Mode ::= ENUMERATED {
	mode0,
	mode1,
	...
}

DPC-Mode-Change-SupportIndicator ::= ENUMERATED {
dPC-ModeChangeSupported
}

DPCH-ID ::= INTEGER (0..239)

DPCH-ID768 ::= INTEGER (0..479)

DPCHConstantValue ::= INTEGER (-10..10)
-- Unit dB, Step 1dB

DRACControl ::= ENUMERATED {
	not-Used-requested,
	not-requested
}

DRXCycleLengthCoefficient ::= INTEGER (3..9)
-- See in TS 25.331 [16]


DRX-Information ::= SEQUENCE {
	uE-DRX-Cycle							UE-DRX-Cycle, 
	inactivity-Threshold-for-UE-DRX-Cycle							Inactivity-Threshold-for-UE-DRX-Cycle, 
	inactivity-Threshold-for-UE-Grant-Monitoring					Inactivity-Threshold-for-UE-Grant-Monitoring,
	uE-DRX-Grant-Monitoring 				UE-DRX-Grant-Monitoring,
	iE-Extensions							ProtocolExtensionContainer { {DRX-Information-ExtIEs} } OPTIONAL,
	...
}

DRX-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UE-DRX-Cycle2							CRITICALITY ignore	EXTENSION UE-DRX-Cycle					PRESENCE optional}|
	{ ID id-Inactivity-Threshold-for-UE-DRX-Cycle2	CRITICALITY ignore	EXTENSION Inactivity-Threshold-for-UE-DRX-Cycle	PRESENCE optional},
	...
}

DRX-Information-to-Modify-LCR ::= CHOICE {
	modify			DRX-Information-to-Modify-Items-LCR,
	deactivate		NULL,
	...
}

DRX-Information-to-Modify-Items-LCR ::= SEQUENCE {
	hS-SCCH-DRX-Information-LCR					HS-SCCH-DRX-Information-LCR			OPTIONAL,
	e-AGCH-DRX-Information-LCR					E-AGCH-DRX-Information-LCR			OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { {DRX-Information-to-Modify-Items-LCR-ExtIEs} } OPTIONAL,
	...
}

DRX-Information-to-Modify-Items-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DRX-Information-to-Modify ::= CHOICE {
	modify					DRX-Information-to-Modify-Items, 
	deactivate			NULL,	
	...
}


DRX-Information-to-Modify-Items ::= SEQUENCE {
	uE-DRX-Cycle							UE-DRX-Cycle				OPTIONAL, 
	inactivity-Threshold-for-UE-DRX-Cycle							Inactivity-Threshold-for-UE-DRX-Cycle				OPTIONAL, 
	inactivity-Threshold-for-UE-Grant-Monitoring					Inactivity-Threshold-for-UE-Grant-Monitoring				OPTIONAL,
	uE-DRX-Grant-Monitoring 				UE-DRX-Grant-Monitoring				OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { {DRX-Information-to-Modify-Items-ExtIEs} } OPTIONAL,
	...
}

DRX-Information-to-Modify-Items-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UE-DRX-Cycle2								CRITICALITY ignore	EXTENSION UE-DRX-Cycle			PRESENCE optional}|
	{ ID id-Inactivity-Threshold-for-UE-DRX-Cycle2		CRITICALITY ignore	EXTENSION Inactivity-Threshold-for-UE-DRX-Cycle	PRESENCE optional},
	...
}

DSCH-RNTI ::= INTEGER (0..65535)

DSCH-FlowControlInformation ::= SEQUENCE (SIZE(1..16)) OF DSCH-FlowControlItem

DSCH-FlowControlItem ::= SEQUENCE {
	dSCH-SchedulingPriority				SchedulingPriorityIndicator,
	mAC-c-sh-SDU-Lengths				MAC-c-sh-SDU-LengthList,
	iE-Extensions						ProtocolExtensionContainer { {DSCH-FlowControlItem-ExtIEs} } OPTIONAL,
	...
}

DSCH-FlowControlItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-DSCH-InitialWindowSize	CRITICALITY ignore	EXTENSION	DSCH-InitialWindowSize	PRESENCE optional },
	...
}

DSCH-ID ::= INTEGER (0..255)

DSCH-InitialWindowSize ::= INTEGER (1..255)
-- Number of MAC-c/sh SDUs.
-- 255 = Unlimited number of MAC-c/sh SDUs

DSCH-TDD-Information ::= SEQUENCE (SIZE (1..maxNoOfDSCHs)) OF DSCH-TDD-InformationItem

DSCH-TDD-InformationItem ::= SEQUENCE {
	dSCH-ID								DSCH-ID,
	dl-ccTrCHID							CCTrCH-ID, -- DL CCTrCH in which the DSCH is mapped
	trChSourceStatisticsDescriptor		TrCH-SrcStatisticsDescr,
	transportFormatSet					TransportFormatSet,
	allocationRetentionPriority 		AllocationRetentionPriority,
	schedulingPriorityIndicator			SchedulingPriorityIndicator,
	bLER								BLER,
	iE-Extensions						ProtocolExtensionContainer { {DSCH-TDD-InformationItem-ExtIEs} } OPTIONAL,
	...
}

DSCH-TDD-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TrafficClass					CRITICALITY ignore	EXTENSION TrafficClass					PRESENCE mandatory}|
	{ ID id-BindingID						CRITICALITY	ignore	EXTENSION BindingID				PRESENCE optional	}|
	-- Shall be ignored if bearer establishment with ALCAP.	
	{ ID id-TransportLayerAddress			CRITICALITY	ignore	EXTENSION TransportLayerAddress		PRESENCE optional	}|
	-- Shall be ignored if bearer establishment with ALCAP.
	{ ID id-TnlQos							CRITICALITY ignore	EXTENSION TnlQos						PRESENCE optional },
	-- Shall be ignored if bearer establishment with ALCAP.
	...
}

DsField ::= BIT STRING (SIZE (8))


DTX-Cycle-2ms-Items ::= 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,
	iE-Extensions								ProtocolExtensionContainer { { DTX-Cycle-2ms-Items-ExtIEs} }			OPTIONAL,
	...
}

DTX-Cycle-2ms-Items-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DTX-Cycle-2ms-to-Modify-Items ::= SEQUENCE {
	uE-DTX-Cycle1-2ms				UE-DTX-Cycle1-2ms			OPTIONAL,
	uE-DTX-Cycle2-2ms				UE-DTX-Cycle2-2ms			OPTIONAL,
	mAC-DTX-Cycle-2ms				MAC-DTX-Cycle-2ms			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { DTX-Cycle-2ms-to-Modify-Items-ExtIEs} }			OPTIONAL,
	...
}

DTX-Cycle-2ms-to-Modify-Items-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DTX-Cycle-10ms-Items ::= 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,
	iE-Extensions					ProtocolExtensionContainer { { DTX-Cycle-10ms-Items-ExtIEs} }			OPTIONAL,
	...
}

DTX-Cycle-10ms-Items-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DTX-Cycle-10ms-to-Modify-Items ::= SEQUENCE {
	uE-DTX-Cycle1-10ms				UE-DTX-Cycle1-10ms			OPTIONAL,
	uE-DTX-Cycle2-10ms				UE-DTX-Cycle2-10ms			OPTIONAL,
	mAC-DTX-Cycle-10ms				MAC-DTX-Cycle-10ms			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { DTX-Cycle-10ms-to-Modify-Items-ExtIEs} }			OPTIONAL,
	...
}

DTX-Cycle-10ms-to-Modify-Items-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DTX-Information ::= SEQUENCE {
	e-DCH-TTI-Length						E-DCH-TTI-Length, 
	inactivity-Threshold-for-UE-DTX-Cycle2	Inactivity-Threshold-for-UE-DTX-Cycle2,
	uE-DTX-Long-Preamble 					UE-DTX-Long-Preamble,
	mAC-Inactivity-Threshold				MAC-Inactivity-Threshold,
	cQI-DTX-Timer							CQI-DTX-Timer,
	uE-DPCCH-burst1							UE-DPCCH-burst1,
	uE-DPCCH-burst2							UE-DPCCH-burst2,
	iE-Extensions							ProtocolExtensionContainer { {DTX-Information-ExtIEs} } OPTIONAL,
	...
}

DTX-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DTX-Information2 ::= SEQUENCE {
	uE-DTX-Cycle1							UE-DTX-Cycle1-2ms,
	uE-DTX-Cycle2							UE-DTX-Cycle2-ext-2ms,
	inactivity-Threshold-for-UE-DTX-Cycle2	Inactivity-Threshold-for-UE-DTX-Cycle2,
	iE-Extensions							ProtocolExtensionContainer { {DTX-Information2-ExtIEs} } OPTIONAL,
	...
}

DTX-Information2-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

DTX-Information-to-Modify ::= CHOICE {
	modify					DTX-Information-to-Modify-Items,
	deactivate			NULL,	
	...
}


DTX-Information-to-Modify-Items ::= SEQUENCE {
	e-DCH-TTI-Length-to-Modify				E-DCH-TTI-Length-to-Modify									OPTIONAL,
	inactivity-Threshold-for-UE-DTX-Cycle2	Inactivity-Threshold-for-UE-DTX-Cycle2						OPTIONAL,
	uE-DTX-Long-Preamble 					UE-DTX-Long-Preamble										OPTIONAL,
	mAC-Inactivity-Threshold				MAC-Inactivity-Threshold									OPTIONAL,
	cQI-DTX-Timer							CQI-DTX-Timer												OPTIONAL,
	uE-DPCCH-burst1							UE-DPCCH-burst1												OPTIONAL,
	uE-DPCCH-burst2							UE-DPCCH-burst2												OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { {DTX-Information-to-Modify-Items-ExtIEs} } OPTIONAL,
	...
}

DTX-Information-to-Modify-Items-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Dual-Cell-EDCH-Enhancements-Information ::= SEQUENCE{
	e-TTI												E-TTI,
	eDCH-Reference-E-TFCI-Information		EDCH-Reference-E-TFCI-Information			OPTIONAL,
	eDCH-E-TFCI-Boost-Information			E-TFCI-Boost-Information						OPTIONAL,
	eDCH-E-DPCCH-Power-Offset				E-DPCCH-PO									OPTIONAL,
	eDCH-E-TFCI-Table-Index					E-DCH-TFCI-Table-Index						OPTIONAL,
	eDCH-Power-Offset-for-SchedulingInfo	E-DCH-PowerOffset-for-SchedulingInfo			OPTIONAL,
	eDCH-Max-Set-E-DPDCHs					Max-Set-E-DPDCHs			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Dual-Cell-EDCH-Enhancements-Information-ExtIEs} } OPTIONAL,
	...
}

Dual-Cell-EDCH-Enhancements-Information-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- E


EARFCN ::= INTEGER (0..maxEARFCN)

EARFCN-Extended ::= INTEGER (0..maxEARFCN-Extended, ...)

EARFCN-Information ::= CHOICE {
	fDD		EARFCN-FDD,
	tDD		EARFCN,
	...,
	extension-EARFCN-Information	Extension-EARFCN-Information
}

Extension-EARFCN-Information	::= ProtocolIE-Single-Container {{ Extension-EARFCN-InformationIE }}

Extension-EARFCN-InformationIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-EARFCN-FDD-Extended		CRITICALITY ignore	TYPE EARFCN-FDD-Extended	PRESENCE optional }|
	{ ID id-EARFCN-TDD-Extended		CRITICALITY ignore	TYPE EARFCN-Extended		PRESENCE optional },
	...
}

EARFCN-FDD ::= SEQUENCE {
	uL-EARFCN		EARFCN,
	dL-EARFCN		EARFCN
}

EARFCN-FDD-Extended ::= SEQUENCE {
	uL-EARFCN		EARFCN-Extended,
	dL-EARFCN		EARFCN-Extended
}

E-AGCH-DRX-Information-ResponseLCR ::= CHOICE {
	sameAsHS-SCCH						NULL,
	e-AGCH-DRX-Parameters-Response		E-AGCH-DRX-Parameters-Response,
	...
}

E-AGCH-DRX-Parameters-Response ::= SEQUENCE {
	e-AGCH-UE-DRX-Cycle-LCR							UE-DRX-Cycle-LCR						OPTIONAL,
	e-AGCH-UE-Inactivity-Monitor-Threshold			E-AGCH-UE-Inactivity-Monitor-Threshold	OPTIONAL,
	e-AGCH-UE-DRX-Offset-LCR						UE-DRX-Offset-LCR						OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { E-AGCH-DRX-Parameters-Response-ExtIEs} } OPTIONAL,
	...
}

E-AGCH-DRX-Parameters-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-AGCH-DRX-Information-LCR ::= CHOICE {
	sameAsHS-SCCH				NULL,
	e-AGCH-DRX-Parameters		E-AGCH-DRX-Parameters,
	...
}

E-AGCH-DRX-Parameters ::= SEQUENCE {
	e-AGCH-UE-DRX-Cycle-LCR								UE-DRX-Cycle-LCR,
	e-AGCH-UE-Inactivity-Monitor-Threshold				E-AGCH-UE-Inactivity-Monitor-Threshold			OPTIONAL,
	e-AGCH-UE-DRX-Offset-LCR							UE-DRX-Offset-LCR,
	iE-Extensions										ProtocolExtensionContainer { { E-AGCH-DRX-Parameters-ExtIEs} } OPTIONAL,
	...
}

E-AGCH-DRX-Parameters-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-AGCH-Table-Choice ::= ENUMERATED{table16B, table16B-1, ...}

E-AGCH-UE-Inactivity-Monitor-Threshold ::= ENUMERATED {v0, v1, v2, v4, v8, v16, v32, v64, v128, v256, v512, infinity,...}
	-- Unit subframe
 
ECGI ::= SEQUENCE {
	pLMN-Identity			PLMN-Identity,
	e-UTRAN-Cell-ID			BIT STRING (SIZE (28)),
	iE-Extensions			ProtocolExtensionContainer { {ECGI-ExtIEs} } OPTIONAL,
	...
}

ECGI-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EDCH-Additional-RL-Specific-Information-Response-List	::= SEQUENCE (SIZE (1..maxNrOfEDCHRLs)) OF EDCH-Additional-RL-Specific-Information-Response-ItemIEs

EDCH-Additional-RL-Specific-Information-Response-ItemIEs	::=SEQUENCE{
	eDCH-Additional-RL-ID				RL-ID,
	received-total-wide-band-power					Received-total-wide-band-power,
	dL-PowerBalancing-ActivationIndicator			DL-PowerBalancing-ActivationIndicator	OPTIONAL,
	rL-Set-ID										RL-Set-ID, 
	e-DCH-RL-Set-ID									RL-Set-ID,
	eDCH-FDD-DL-ControlChannelInformation			EDCH-FDD-DL-ControlChannelInformation,
	dl-CodeInformation								FDD-DL-CodeInformation,
	additional-EDCH-MAC-d-Flow-Specific-Information-Response-List
	Additional-EDCH-MAC-d-Flow-Specific-Information-Response-List	OPTIONAL,
	hARQ-Process-Allocation-Scheduled-2ms-EDCH		HARQ-Process-Allocation-2ms-EDCH		OPTIONAL,
	maxUL-SIR										UL-SIR,
	minUL-SIR										UL-SIR,
	maximumAllowedULTxPower							MaximumAllowedULTxPower,
	maximumDL-power									DL-Power,
	minimumDL-power									DL-Power,
	primaryScramblingCode							PrimaryScramblingCode					OPTIONAL,
	uL-UARFCN										UARFCN									OPTIONAL,
	dL-UARFCN										UARFCN									OPTIONAL,
	primaryCPICH-Power								PrimaryCPICH-Power,
	pC-Preamble										PC-Preamble,
	primary-CPICH-Usage-For-Channel-Estimation		Primary-CPICH-Usage-For-Channel-Estimation		OPTIONAL,
	secondary-CPICH-Information						Secondary-CPICH-Information				OPTIONAL,
	f-DPCH-SlotFormat								F-DPCH-SlotFormat 						OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { EDCH-Additional-RL-Specific-Information-Response-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

EDCH-Additional-RL-Specific-Information-Response-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EDCH-Additional-RL-Specific-Modified-Information-Response-List	::= SEQUENCE (SIZE (1..maxNrOfEDCHRLs)) OF EDCH-Additional-RL-Specific-Modified-Information-Response-ItemIEs

EDCH-Additional-RL-Specific-Modified-Information-Response-ItemIEs	::=SEQUENCE{
	eDCH-Additional-RL-ID				RL-ID,
	dL-PowerBalancing-UpdatedIndicator				DL-PowerBalancing-UpdatedIndicator		OPTIONAL, 
	eDCH-FDD-DL-ControlChannelInformation			EDCH-FDD-DL-ControlChannelInformation		OPTIONAL,
	additional-EDCH-MAC-d-Flow-Specific-Information-Response-List			Additional-EDCH-MAC-d-Flow-Specific-Information-Response-List		OPTIONAL,
	hARQ-Process-Allocation-Scheduled-2ms-EDCH		HARQ-Process-Allocation-2ms-EDCH		OPTIONAL,
	maxUL-SIR						UL-SIR		OPTIONAL,
	minUL-SIR						UL-SIR		OPTIONAL,
	maximumDL-power						DL-Power		OPTIONAL,
	minimumDL-power						DL-Power		OPTIONAL,
	primary-CPICH-Usage-For-Channel-Estimation					Primary-CPICH-Usage-For-Channel-Estimation				OPTIONAL,
	secondary-CPICH-Information-Change 		Secondary-CPICH-Information-Change			OPTIONAL,
	f-DPCH-SlotFormat					F-DPCH-SlotFormat 							OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { EDCH-Additional-RL-Specific-Modified-Information-Response-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

EDCH-Additional-RL-Specific-Modified-Information-Response-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EDCH-DDI-Value ::= INTEGER (0..62)

E-DCH-Decoupling-Indication ::= ENUMERATED {
		serving-E-DCH-cell-only,
		serving-HS-DSCH-cell-only,
		...
}

EDCH-FDD-DL-ControlChannelInformation ::= SEQUENCE {
	eAGCH-ERGCH-EHICH-FDD-ScramblingCode				DL-ScramblingCode					OPTIONAL,
	eAGCH-ChannelisationCode							FDD-DL-ChannelisationCodeNumber		OPTIONAL,
	primary-e-RNTI										E-RNTI								OPTIONAL,
	secondary-e-RNTI									E-RNTI								OPTIONAL,
	eRGCH-EHICH-ChannelisationCode						FDD-DL-ChannelisationCodeNumber,
	eRGCH-SignatureSequence								ERGCH-SignatureSequence				OPTIONAL,
	eHICH-SignatureSequence								EHICH-SignatureSequence				OPTIONAL,
	serving-Grant-Value									E-Serving-Grant-Value				OPTIONAL,
	primary-Secondary-Grant-Selector					E-Primary-Secondary-Grant-Selector	OPTIONAL,
	e-RGCH-Release-Indicator							E-RGCH-Release-Indicator			OPTIONAL,
	iE-Extensions										ProtocolExtensionContainer { { EDCH-FDD-DL-ControlChannelInformation-ExtIEs } }			OPTIONAL,
	...
}

EDCH-FDD-DL-ControlChannelInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-E-RGCH-E-HICH-ChannelisationCodeValidityIndicator	CRITICALITY ignore	EXTENSION E-RGCH-E-HICH-ChannelisationCodeValidityIndicator			PRESENCE optional }|
	{ ID id-Default-Serving-Grant-in-DTX-Cycle2			CRITICALITY ignore	EXTENSION E-Serving-Grant-Value			PRESENCE optional }|
	{ ID id-UL-MIMO-DL-Control-Channel-Information		CRITICALITY ignore	EXTENSION UL-MIMO-DL-Control-Channel-Information	PRESENCE optional },
	...
}
E-RGCH-E-HICH-ChannelisationCodeValidityIndicator ::= ENUMERATED {
	e-RGCH-E-HICH-Channelisation-Code-response-not-valid
}

EDCH-FDD-Information ::= SEQUENCE {
	eDCH-MACdFlows-Information						EDCH-MACdFlows-Information,
	hARQ-Process-Allocation-Scheduled-2ms-EDCH		HARQ-Process-Allocation-2ms-EDCH								OPTIONAL,
	e-DCH-Maximum-Bitrate							E-DCH-Maximum-Bitrate									OPTIONAL,
	e-DCH-Processing-Overload-Level					E-DCH-Processing-Overload-Level							OPTIONAL,
	e-DCH-Reference-Power-Offset					E-DCH-Reference-Power-Offset							OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { EDCH-FDD-Information-ExtIEs } }			OPTIONAL,
	...
}

EDCH-FDD-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-E-DCH-PowerOffset-for-SchedulingInfo		CRITICALITY ignore	EXTENSION E-DCH-PowerOffset-for-SchedulingInfo	PRESENCE optional}|
	{ ID id-SixteenQAM-UL-Operation-Indicator			CRITICALITY reject	EXTENSION SixteenQAM-UL-Operation-Indicator		PRESENCE optional}|
	{ ID id-E-AGCH-Table-Choice							CRITICALITY ignore	EXTENSION E-AGCH-Table-Choice			PRESENCE conditional}|
	-- The IE shall be present if the SixteenQAM UL Operation Indicator IE is set to “Activate”—
	{ ID id-SixtyfourQAM-UL-Operation-Indicator			CRITICALITY reject	EXTENSION SixtyfourQAM-UL-Operation-Indicator	PRESENCE optional}|
	{ ID id-UL-MIMO-Information							CRITICALITY reject	EXTENSION UL-MIMO-Information			PRESENCE optional}|
	{ ID id-UPH-Filtering-Measurement-Forwarding-Request	CRITICALITY reject	EXTENSION UPH-Filtering-Measurement-Forwarding-Request	PRESENCE optional},
	...
}

EDCH-FDD-InformationResponse ::= SEQUENCE {
	eDCH-MACdFlow-Specific-InformationResponse				EDCH-MACdFlow-Specific-InformationResponse,
	hARQ-Process-Allocation-Scheduled-2ms-EDCH				HARQ-Process-Allocation-2ms-EDCH							OPTIONAL,
	iE-Extensions											ProtocolExtensionContainer { { EDCH-FDD-InformationResponse-ExtIEs } }	OPTIONAL,
	...
}

EDCH-FDD-InformationResponse-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Fast-TTI-switching-Mode-Supported		CRITICALITY reject	EXTENSION Fast-TTI-switching-Mode-Supported	PRESENCE optional},	...
}


EDCH-MACdFlow-Specific-InformationResponse ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF EDCH-MACdFlow-Specific-InformationResponseItem

EDCH-MACdFlow-Specific-InformationResponseItem ::= SEQUENCE {
	eDCH-MACdFlow-ID								EDCH-MACdFlow-ID,
	bindingID										BindingID													OPTIONAL,
	transportLayerAddress							TransportLayerAddress										OPTIONAL,
	hARQ-Process-Allocation-NonSched-2ms-EDCH		HARQ-Process-Allocation-2ms-EDCH							OPTIONAL,
	iE-Extensions		 		ProtocolExtensionContainer { {EDCH-MACdFlow-Specific-InformationResponseItem-ExtIEs} } OPTIONAL,
	...
}

EDCH-MACdFlow-Specific-InformationResponseItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TransportBearerNotSetupIndicator	CRITICALITY ignore	EXTENSION TransportBearerNotSetupIndicator		PRESENCE optional}, -- FDD only
	...
}

EDCH-FDD-Information-To-Modify ::= SEQUENCE {
	eDCH-MACdFlow-Specific-Information				EDCH-MACdFlow-Specific-InfoToModifyList,
	hARQ-Process-Allocation-Scheduled-2ms-EDCH		HARQ-Process-Allocation-2ms-EDCH								OPTIONAL,
	e-DCH-Maximum-Bitrate							E-DCH-Maximum-Bitrate									OPTIONAL,
	e-DCH-Processing-Overload-Level					E-DCH-Processing-Overload-Level							OPTIONAL,
	e-DCH-Reference-Power-Offset					E-DCH-Reference-Power-Offset							OPTIONAL,
	mACeReset-Indicator								MACeReset-Indicator										OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { EDCH-FDD-Information-To-Modify-ExtIEs } }	OPTIONAL,
	...
}

EDCH-FDD-Information-To-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-E-DCH-PowerOffset-for-SchedulingInfo		CRITICALITY ignore	EXTENSION E-DCH-PowerOffset-for-SchedulingInfo		PRESENCE optional}|
{ ID id-SixteenQAM-UL-Operation-Indicator			CRITICALITY reject	EXTENSION SixteenQAM-UL-Operation-Indicator			PRESENCE optional}|
{ ID id-E-DCH-MACdPDUSizeFormat						CRITICALITY reject	EXTENSION E-DCH-MACdPDUSizeFormat			PRESENCE optional}|
{ ID id-E-DCH-DL-Control-Channel-Grant-Information	CRITICALITY ignore	EXTENSION E-DCH-DL-Control-Channel-Grant-Information	PRESENCE optional}|
{ ID id-E-AGCH-Table-Choice							CRITICALITY ignore	EXTENSION E-AGCH-Table-Choice			PRESENCE conditional}|
-- The IE shall be present if the SixteenQAM UL Operation Indicator IE is set to “Activate”—
{ ID id-SixtyfourQAM-UL-Operation-Indicator			CRITICALITY reject	EXTENSION SixtyfourQAM-UL-Operation-Indicator		PRESENCE optional}|
{ ID id-UL-MIMO-Information							CRITICALITY reject	EXTENSION UL-MIMO-Information			PRESENCE optional}|
{ ID id-Fast-TTI-switching-Mode-synchronized		CRITICALITY reject	EXTENSION Fast-TTI-switching-Mode-synchronized		PRESENCE optional}|
{ ID id-Fast-TTI-switching-Mode-unsynchronized		CRITICALITY reject	EXTENSION Fast-TTI-switching-Mode-unsynchronized	PRESENCE optional},
...
}

E-DCH-FDD-Update-Information ::= SEQUENCE {
	e-DCH-MACdFlow-Specific-UpdateInformation		E-DCH-MACdFlow-Specific-UpdateInformation				OPTIONAL,
	hARQ-Process-Allocation-Scheduled-2ms-EDCH		HARQ-Process-Allocation-2ms-EDCH								OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { E-DCH-FDD-Update-Information-ExtIEs } }	OPTIONAL,
	...
}

E-DCH-FDD-Update-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-E-DCH-DL-Control-Channel-Change-Information		CRITICALITY ignore	EXTENSION E-DCH-DL-Control-Channel-Change-Information	PRESENCE optional}|
	{ ID id-TTI-Update-Indicator							CRITICALITY ignore	EXTENSION TTI-Update-Indicator			PRESENCE optional},
	...
}


E-DCH-MACdFlow-Specific-UpdateInformation ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF E-DCH-MACdFlow-Specific-UpdateInformation-Item

E-DCH-MACdFlow-Specific-UpdateInformation-Item ::= SEQUENCE {
	e-DCH-MACdFlow-ID								EDCH-MACdFlow-ID,
	hARQ-Process-Allocation-NonSched-2ms-EDCH	HARQ-Process-Allocation-2ms-EDCH									OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { E-DCH-MACdFlow-Specific-UpdateInformation-Item-ExtIEs} }	OPTIONAL,
	...
}

E-DCH-MACdFlow-Specific-UpdateInformation-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-DL-Control-Channel-Change-Information ::= SEQUENCE (SIZE (1..maxNrOfEDCHRLs)) OF E-DCH-DL-Control-Channel-Change-Information-Item

E-DCH-DL-Control-Channel-Change-Information-Item ::= SEQUENCE {
	e-DCH-RL-ID					RL-ID,
	iE-Extensions				ProtocolExtensionContainer { { E-DCH-DL-Control-Channel-Change-Information-Item-ExtIEs} }	OPTIONAL,
	...
}

E-DCH-DL-Control-Channel-Change-Information-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-DL-Control-Channel-Grant-Information ::= SEQUENCE (SIZE (1..maxNrOfEDCHRLs)) OF E-DCH-DL-Control-Channel-Grant-Information-Item

E-DCH-DL-Control-Channel-Grant-Information-Item ::= SEQUENCE {
	e-DCH-RL-ID					RL-ID,
	iE-Extensions				ProtocolExtensionContainer { { E-DCH-DL-Control-Channel-Grant-Information-Item-ExtIEs} }	OPTIONAL,
	...
}

E-DCH-DL-Control-Channel-Grant-Information-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}



E-DCH-Grant-Type-Information ::= CHOICE {
	e-DCH-Non-Scheduled-Transmission-Grant		E-DCH-Non-Scheduled-Transmission-Grant-Items,
	e-DCH-Scheduled-Transmission-Grant			NULL,
	...
}

E-DCH-HARQ-PO-FDD ::= INTEGER (0.. maxNrOfEDCH-HARQ-PO-QUANTSTEPs)


E-DCH-LogicalChannelInformation ::= SEQUENCE (SIZE (1..maxNoOfLogicalChannels)) OF E-DCH-LogicalChannelInformationItem

E-DCH-LogicalChannelInformationItem ::= SEQUENCE {
	logicalChannelId				LogicalChannelID,
	schedulingPriorityIndicator		SchedulingPriorityIndicator,
	schedulingInformation			SchedulingInformation,
	mACes-GuaranteedBitRate			MACes-Guaranteed-Bitrate		OPTIONAL,
	eDCH-DDI-Value					EDCH-DDI-Value,
	mACd-PDU-Size-List				E-DCH-MACdPDU-SizeList, 
	iE-Extensions					ProtocolExtensionContainer { { E-DCH-LogicalChannelInformationItem-ExtIEs } }			OPTIONAL,
	...
}

E-DCH-LogicalChannelInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-MaximumMACdPDU-SizeExtended		CRITICALITY reject	EXTENSION	MAC-PDU-SizeExtended		PRESENCE optional}|
	{ ID id-MACes-Maximum-Bitrate-LCR		CRITICALITY ignore	EXTENSION	MACes-Maximum-Bitrate-LCR	PRESENCE optional}| --1.28Mcps TDD only
	{ ID id-UE-AggregateMaximumBitRate-Enforcement-Indicator	CRITICALITY ignore	EXTENSION UE-AggregateMaximumBitRate-Enforcement-Indicator	PRESENCE optional},
	...
}

E-DCH-Maximum-Bitrate ::= INTEGER (0..5742,...,5743..11498|11499..34507)

E-DCH-PowerOffset-for-SchedulingInfo ::= INTEGER (0.. maxNrOfEDCH-HARQ-PO-QUANTSTEPs)

E-DCH-Processing-Overload-Level ::= INTEGER (0..10,...)

E-DCH-Reference-Power-Offset ::= INTEGER (0.. maxNrOfEDCH-HARQ-PO-QUANTSTEPs)

E-DCH-MACdPDU-SizeList ::= SEQUENCE (SIZE (1..maxNrOfMACdPDUSize)) OF E-DCH-MACdPDU-SizeListItem

E-DCH-MACdPDU-SizeListItem ::= SEQUENCE {
	mACdPDU-Size					MACdPDU-Size,
	iE-Extensions					ProtocolExtensionContainer { { E-DCH-MACdPDU-SizeListItem-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-MACdPDU-SizeListItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-MACdPDUSizeFormat ::= ENUMERATED {
	fixedMACdPDU-Size,
	flexibleMACdPDU-Size
}



E-DCH-LogicalChannelToModify ::= SEQUENCE (SIZE (1..maxNoOfLogicalChannels)) OF E-DCH-LogicalChannelToModifyItem

E-DCH-LogicalChannelToModifyItem ::= SEQUENCE {
	logicalChannelId				LogicalChannelID,
	schedulingPriorityIndicator		SchedulingPriorityIndicator		OPTIONAL,
	schedulingInformation			SchedulingInformation			OPTIONAL,
	mACes-GuaranteedBitRate			MACes-Guaranteed-Bitrate		OPTIONAL,
	eDCH-DDI-Value					EDCH-DDI-Value					OPTIONAL,
	mACd-PDU-Size-List				E-DCH-MACdPDU-SizeToModifyList, 
	iE-Extensions					ProtocolExtensionContainer { { E-DCH-LogicalChannelToModifyItem-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-LogicalChannelToModifyItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-MaximumMACdPDU-SizeExtended		CRITICALITY reject	EXTENSION MAC-PDU-SizeExtended			PRESENCE optional}|
	{ ID id-MACes-Maximum-Bitrate-LCR		CRITICALITY ignore	EXTENSION MACes-Maximum-Bitrate-LCR	PRESENCE optional},--1.28Mcps TDD only
	...
}

E-DCH-MACdPDU-SizeToModifyList ::= SEQUENCE (SIZE (0..maxNrOfMACdPDUSize)) OF E-DCH-MACdPDU-SizeListItem



E-DCH-LogicalChannelToDelete ::= SEQUENCE (SIZE (1..maxNoOfLogicalChannels)) OF E-DCH-LogicalChannelToDeleteItem

E-DCH-LogicalChannelToDeleteItem ::= SEQUENCE {
	logicalChannelId				LogicalChannelID,
	iE-Extensions					ProtocolExtensionContainer { { E-DCH-LogicalChannelToDeleteItem-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-LogicalChannelToDeleteItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EDCH-MACdFlow-ID ::= INTEGER (0..maxNrOfEDCHMACdFlows-1)

EDCH-MACdFlow-ID-LCR ::= INTEGER (0..maxNrOfEDCHMACdFlowsLCR-1)

EDCH-MACdFlows-Information ::= SEQUENCE {
	eDCH-MACdFlow-Specific-Information				EDCH-MACdFlow-Specific-InfoList,
	iE-Extensions									ProtocolExtensionContainer { { EDCH-MACdFlow-Information-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-MACdFlow-Multiplexing-List ::= BIT STRING ( SIZE(maxNrOfEDCHMACdFlows) )

EDCH-MACdFlow-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EDCH-MACdFlow-Specific-InfoList ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF EDCH-MACdFlow-Specific-InfoItem

EDCH-MACdFlow-Specific-InfoItem ::= SEQUENCE {
	eDCH-MACdFlow-ID					EDCH-MACdFlow-ID,
	allocationRetentionPriority			AllocationRetentionPriority			OPTIONAL,
	tnlQoS								TnlQos 								OPTIONAL,
	payloadCRC-PresenceIndicator		PayloadCRC-PresenceIndicator,
	maxNr-Retransmissions-EDCH			MaxNr-Retransmissions-EDCH,
	trafficClass						TrafficClass,
	eDCH-HARQ-PO-FDD					E-DCH-HARQ-PO-FDD,
	eDCH-MACdFlow-Multiplexing-List		E-DCH-MACdFlow-Multiplexing-List	OPTIONAL,
	eDCH-Grant-Type-Information			E-DCH-Grant-Type-Information		OPTIONAL,
	bundlingModeIndicator				BundlingModeIndicator				OPTIONAL,
	eDCHLogicalChannelInformation		E-DCH-LogicalChannelInformation,
	iE-Extensions						ProtocolExtensionContainer { { EDCH-MACdFlow-Specific-InfoItem-ExtIEs } }	OPTIONAL,
	...
}

EDCH-MACdFlow-Specific-InfoItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-TrCH-SrcStatisticsDescr	CRITICALITY ignore	EXTENSION	TrCH-SrcStatisticsDescr	PRESENCE optional },
	...
}

EDCH-MACdFlow-Specific-InfoToModifyList ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF EDCH-MACdFlow-Specific-InfoToModifyItem

EDCH-MACdFlow-Specific-InfoToModifyItem ::= SEQUENCE {
	eDCH-MACdFlow-ID					EDCH-MACdFlow-ID,
	allocationRetentionPriority			AllocationRetentionPriority			OPTIONAL,
	transportBearerRequestIndicator		TransportBearerRequestIndicator,
	tnlQoS								TnlQos 								OPTIONAL,
	maxNr-Retransmissions-EDCH			MaxNr-Retransmissions-EDCH			OPTIONAL,
	trafficClass						TrafficClass						OPTIONAL,
	eDCH-HARQ-PO-FDD					E-DCH-HARQ-PO-FDD					OPTIONAL,
	eDCH-MACdFlow-Multiplexing-List		E-DCH-MACdFlow-Multiplexing-List	OPTIONAL,
	eDCH-Grant-Type-Information			E-DCH-Grant-Type-Information		OPTIONAL,
	bundlingModeIndicator				BundlingModeIndicator				OPTIONAL,
	eDCH-LogicalChannelToAdd			E-DCH-LogicalChannelInformation		OPTIONAL,
	eDCH-LogicalChannelToModify			E-DCH-LogicalChannelToModify		OPTIONAL,
	eDCH-LogicalChannelToDelete			E-DCH-LogicalChannelToDelete		OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { EDCH-MACdFlow-Specific-InfoToModifyItem-ExtIEs } }	OPTIONAL,
	...
}

EDCH-MACdFlow-Specific-InfoToModifyItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EDCH-MACdFlows-To-Delete ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF EDCH-MACdFlows-To-Delete-Item

EDCH-MACdFlows-To-Delete-Item ::= SEQUENCE {
	eDCH-MACdFlow-ID					EDCH-MACdFlow-ID,
	iE-Extensions						ProtocolExtensionContainer { { EDCH-MACdFlows-To-Delete-Item-ExtIEs } }		OPTIONAL,
	...
}

EDCH-MACdFlows-To-Delete-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EDCH-Reference-E-TFCI-Information ::= SEQUENCE (SIZE (0..maxNrOfRefETFCIs)) OF EDCH-Reference-E-TFCI-Information-Item

EDCH-Reference-E-TFCI-Information-Item ::= SEQUENCE {
	eDCH-reference-E-TFCI				E-TFCI,
	eDCH-reference-E-TFCI-PO				EDCH-Reference-E-TFCI-PO,
	iE-Extensions					ProtocolExtensionContainer { { EDCH-Reference-E-TFCI-Information-Item-ExtIEs} }		OPTIONAL,
	...
}

EDCH-Reference-E-TFCI-Information-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EDCH-Reference-E-TFCI-PO ::= INTEGER (0..31)

EDCH-RL-Indication ::= ENUMERATED {
	eDCH,
	non-EDCH
}

E-DCH-Non-Scheduled-Transmission-Grant-Items ::= SEQUENCE {
	-- The following IE shall be ignored if id-Ext-Max-Bits-MACe-PDU-non-scheduled is present in E-DCH-Non-Scheduled-Transmission-Grant-Items-ExtIEs
	maxBits-MACe-PDU-non-scheduled			Max-Bits-MACe-PDU-non-scheduled,
	hARQ-Process-Allocation-NonSched-2ms	HARQ-Process-Allocation-2ms-EDCH				OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { E-DCH-Non-Scheduled-Transmission-Grant-Items-ExtIEs} }	OPTIONAL,
	...
}

E-DCH-Non-Scheduled-Transmission-Grant-Items-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	-- The following IE shall be present if the maximum number of bits to be signalled exceeds maxNrOfBits-MACe-PDU-non-scheduled
	{ ID id-Ext-Max-Bits-MACe-PDU-non-scheduled		CRITICALITY reject	EXTENSION Ext-Max-Bits-MACe-PDU-non-scheduled	PRESENCE optional},
	...
}

E-DCH-TFCI-Table-Index ::= INTEGER (0..1,...,2..7)

E-DCH-Serving-cell-change-informationResponse ::= SEQUENCE {
	e-DCH-serving-cell-outcome-choice		E-DCH-serving-cell-change-choice,
	iE-Extensions							ProtocolExtensionContainer { { E-DCH-serving-cell-change-informationResponse-ExtIEs} } OPTIONAL,
	...
}

E-DCH-serving-cell-change-informationResponse-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-serving-cell-change-choice ::= CHOICE {
	e-DCH-serving-cell-change-successful		E-DCH-serving-cell-change-successful,
	e-DCH-serving-cell-change-unsuccessful		E-DCH-serving-cell-change-unsuccessful,
	...
}

E-DCH-serving-cell-change-successful ::= SEQUENCE {
	e-DCH-RL-InformationList-Rsp			E-DCH-RL-InformationList-Rsp,
	iE-Extensions							ProtocolExtensionContainer { { E-DCH-serving-cell-change-successful-ExtIEs} } OPTIONAL,
	...
}

E-DCH-serving-cell-change-successful-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-RL-InformationList-Rsp ::= SEQUENCE (SIZE (0..maxNrOfRLs)) OF E-DCH-RL-InformationList-Rsp-Item 

E-DCH-RL-InformationList-Rsp-Item ::= SEQUENCE {
	e-DCH-reconfigured-RL-Id					RL-ID,
	e-DCH-FDD-DL-Control-Channel-Info			EDCH-FDD-DL-ControlChannelInformation,
	iE-Extensions								ProtocolExtensionContainer { { E-DCH-RL-InformationList-Rsp-Item-ExtIEs} }	OPTIONAL,
	...
}

E-DCH-RL-InformationList-Rsp-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}



E-DCH-serving-cell-change-unsuccessful ::= SEQUENCE {
	cause					Cause,
	iE-Extensions			ProtocolExtensionContainer { { E-DCH-serving-cell-change-unsuccessful-ExtIEs} } OPTIONAL,
	...
}

E-DCH-serving-cell-change-unsuccessful-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-TTI-Length ::= CHOICE {
	two-ms		DTX-Cycle-2ms-Items,
	ten-ms		DTX-Cycle-10ms-Items,
	...
}

E-DCH-TTI-Length-to-Modify ::= CHOICE {
	two-ms		DTX-Cycle-2ms-to-Modify-Items,
	ten-ms		DTX-Cycle-10ms-to-Modify-Items,
	...
}

EDPCH-Information-FDD ::= SEQUENCE {
	maxSet-E-DPDCHs									Max-Set-E-DPDCHs,
	punctureLimit									PunctureLimit,
	e-TFCS-Information								E-TFCS-Information,
	e-TTI											E-TTI,
	e-DPCCH-PO							E-DPCCH-PO,
	e-RGCH-2-IndexStepThreshold			E-RGCH-2-IndexStepThreshold,
	e-RGCH-3-IndexStepThreshold			E-RGCH-3-IndexStepThreshold,
	hARQ-Info-for-E-DCH					HARQ-Info-for-E-DCH,
	hSDSCH-Configured-Indicator			HSDSCH-Configured-Indicator,
	iE-Extensions						ProtocolExtensionContainer { { EDPCH-Information-FDD-ExtIEs } }		OPTIONAL,
	...
}

EDPCH-Information-FDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-MinimumReducedE-DPDCH-GainFactor		CRITICALITY ignore	EXTENSION MinimumReducedE-DPDCH-GainFactor	PRESENCE optional },
	...
}

EDPCH-Information-RLReconfPrepare-FDD ::= SEQUENCE {
	maxSet-E-DPDCHs						Max-Set-E-DPDCHs				OPTIONAL,
	punctureLimit						PunctureLimit					OPTIONAL,
	e-TFCS-Information					E-TFCS-Information				OPTIONAL,
	e-TTI								E-TTI							OPTIONAL,
	e-DPCCH-PO							E-DPCCH-PO						OPTIONAL,
	e-RGCH-2-IndexStepThreshold			E-RGCH-2-IndexStepThreshold		OPTIONAL,
	e-RGCH-3-IndexStepThreshold			E-RGCH-3-IndexStepThreshold		OPTIONAL,
	hARQ-Info-for-E-DCH					HARQ-Info-for-E-DCH				OPTIONAL,
	hSDSCH-Configured-Indicator			HSDSCH-Configured-Indicator		OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { EDPCH-Information-RLReconfPrepare-FDD-ExtIEs } }		OPTIONAL,
	...
}

EDPCH-Information-RLReconfPrepare-FDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-MinimumReducedE-DPDCH-GainFactor		CRITICALITY ignore	EXTENSION MinimumReducedE-DPDCH-GainFactor	PRESENCE optional },
	...
}

EDPCH-Information-RLReconfRequest-FDD ::= SEQUENCE {
	maxSet-E-DPDCHs						Max-Set-E-DPDCHs					OPTIONAL,
	punctureLimit						PunctureLimit						OPTIONAL,
	e-TFCS-Information					E-TFCS-Information					OPTIONAL,
	e-TTI								E-TTI								OPTIONAL,
	e-DPCCH-PO							E-DPCCH-PO							OPTIONAL,
	e-RGCH-2-IndexStepThreshold			E-RGCH-2-IndexStepThreshold			OPTIONAL,
	e-RGCH-3-IndexStepThreshold			E-RGCH-3-IndexStepThreshold			OPTIONAL,
	hARQ-Info-for-E-DCH					HARQ-Info-for-E-DCH					OPTIONAL,
	hSDSCH-Configured-Indicator			HSDSCH-Configured-Indicator			OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { EDPCH-Information-RLReconfRequest-FDD-ExtIEs } }		OPTIONAL,
	...
}

EDPCH-Information-RLReconfRequest-FDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-MinimumReducedE-DPDCH-GainFactor		CRITICALITY ignore	EXTENSION MinimumReducedE-DPDCH-GainFactor	PRESENCE optional },
	...
}

E-DPCCH-PO ::= INTEGER (0..maxNrOfEDPCCH-PO-QUANTSTEPs)

Extended-E-DPCCH-PO ::= INTEGER (9..15)

E-DPDCH-PowerInterpolation ::= BOOLEAN

E-Primary-Secondary-Grant-Selector ::= ENUMERATED {
	primary,
	secondary
}

EHICH-SignatureSequence ::= INTEGER (0..maxNrofSigSeqERGHICH-1)


E-RGCH-Release-Indicator ::= ENUMERATED {e-RGCHreleased}

ERGCH-SignatureSequence ::= INTEGER (0..maxNrofSigSeqERGHICH-1)

E-Serving-Grant-Value ::= INTEGER (0..38)

E-RGCH-2-IndexStepThreshold ::= INTEGER (0..37)

E-RGCH-3-IndexStepThreshold ::= INTEGER (0..37)


EDCH-Serving-RL ::= CHOICE {
	e-DCH-Serving-RL-in-this-DRNS			EDCH-Serving-RL-in-this-DRNS,
	e-DCH-Serving-RL-not-in-this-DRNS		NULL,
	...
}

EDCH-Serving-RL-in-this-DRNS ::= SEQUENCE {
	e-DCH-Serving-RL-Id				RL-ID,
	iE-Extensions					ProtocolExtensionContainer { { EDCH-Serving-RL-in-this-DRNS-ExtIEs} }	OPTIONAL,
	...
}

EDCH-Serving-RL-in-this-DRNS-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Enhanced-FACH-Information-ResponseFDD ::= SEQUENCE {
	common-HS-DSCH-RNTI-priorityQueueInfo-EnhancedFACH			PriorityQueue-InfoList-EnhancedFACH-PCH,
	dedicated-HS-DSCH-RNTI-priorityQueueInfo-EnhancedFACH		PriorityQueue-InfoList-EnhancedFACH-PCH,
	priorityQueueInfo-EnhancedPCH								PriorityQueue-InfoList-EnhancedFACH-PCH				OPTIONAL,
	hSDSCH-Initial-Capacity-Allocation							HSDSCH-Initial-Capacity-Allocation,
	hSDSCH-RNTI													HSDSCH-RNTI											OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { Enhanced-FACH-Information-ResponseFDD-ExtIEs } }		OPTIONAL,
	...
}

Enhanced-FACH-Information-ResponseFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Enhanced-FACH-Information-ResponseLCR ::= SEQUENCE {
	common-HS-DSCH-RNTI-priorityQueueInfo-EnhancedFACH		PriorityQueue-InfoList-EnhancedFACH-PCH,
	dedicated-HS-DSCH-RNTI-priorityQueueInfo-EnhancedFACH	PriorityQueue-InfoList-EnhancedFACH-PCH,
	priorityQueueInfo-EnhancedPCH							PriorityQueue-InfoList-EnhancedFACH-PCH			OPTIONAL,
	hSDSCH-Initial-Capacity-Allocation						HSDSCH-Initial-Capacity-Allocation,
	hSDSCH-RNTI												HSDSCH-RNTI											OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { Enhanced-FACH-Information-ResponseLCR-ExtIEs } }			OPTIONAL,
	...
}

Enhanced-FACH-Information-ResponseLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Enhanced-FACH-Support-Indicator ::= NULL

EnhancedHSServingCC-Abort ::= ENUMERATED {abortEnhancedHSServingCC,...}


Enhanced-PCH-Capability ::= ENUMERATED {
	enhanced-pch-capable,
	enhanced-pch-not-capable
}


E-RNTI ::= INTEGER (0..65535)

E-ROCH-PowerOffset ::= INTEGER(0..255,...)

E-TFCI ::= INTEGER (0..127)

E-TFCI-BetaEC-Boost ::= INTEGER (0..127,...)


E-TFCI-Boost-Information ::= SEQUENCE {
	e-TFCI-BetaEC-Boost								E-TFCI-BetaEC-Boost,
	uL-Delta-T2TP									UL-Delta-T2TP			OPTIONAL,
	-- This IE shall be present if the E-TFCI BetaEC Boost IE value is not set to 127.
	iE-Extensions									ProtocolExtensionContainer { { E-TFCI-Boost-Information-ExtIEs} }		OPTIONAL,
	...
}

E-TFCI-Boost-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-TFCS-Information ::= SEQUENCE {
	e-DCH-TFCI-Table-Index							E-DCH-TFCI-Table-Index,
	e-DCH-Min-Set-E-TFCI							E-TFCI,
	reference-E-TFCI-Information					Reference-E-TFCI-Information,
	iE-Extensions									ProtocolExtensionContainer { {E-TFCS-Information-ExtIEs} }		OPTIONAL,
	...

}

E-TFCS-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-E-DCH-Minimum-Set-E-TFCIValidityIndicator	CRITICALITY reject	EXTENSION E-DCH-Minimum-Set-E-TFCIValidityIndicator		PRESENCE optional}|
	{ ID id-E-TFCI-Boost-Information					CRITICALITY reject	EXTENSION E-TFCI-Boost-Information			PRESENCE optional}|
	{ ID id-E-DPDCH-PowerInterpolation					CRITICALITY reject	EXTENSION E-DPDCH-PowerInterpolation			PRESENCE optional},
	...
}

E-DCH-Minimum-Set-E-TFCIValidityIndicator ::= ENUMERATED {
	e-DCH-Minimum-Set-E-TFCI-response-not-valid
}

E-TTI ::= ENUMERATED {
	tti10,
	tti2
-- 10ms TTI, 2ms TTI
}

E-AGCH-PowerOffset ::= INTEGER (0..255,...)
-- PowerOffset = -32 + offset * 0.25
-- Unit dB, Range -32dB .. +31.75dB, Step +0.25dB

E-RGCH-PowerOffset ::= INTEGER (0..255,...) 
-- PowerOffset = -32 + offset * 0.25
-- Unit dB, Range -32dB .. +31.75dB, Step +0.25dB

E-HICH-PowerOffset ::= INTEGER (0..255,...) 
-- PowerOffset = -32 + offset * 0.25
-- Unit dB, Range -32dB .. +31.75dB, Step +0.25dB

Enhanced-PrimaryCPICH-EcNo			::= INTEGER (0..49)

EventA ::= SEQUENCE {
	measurementTreshold			MeasurementThreshold,
	measurementHysteresisTime	MeasurementHysteresisTime		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {EventA-ExtIEs} } OPTIONAL,
	...
}

EventA-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EventB ::= SEQUENCE {
	measurementTreshold			MeasurementThreshold,
	measurementHysteresisTime	MeasurementHysteresisTime		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {EventB-ExtIEs} } OPTIONAL,
	...
}

EventB-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


EventC ::= SEQUENCE {
	measurementIncreaseDecreaseThreshold	MeasurementIncreaseDecreaseThreshold,
	measurementChangeTime					MeasurementChangeTime,
	iE-Extensions							ProtocolExtensionContainer { {EventC-ExtIEs} } OPTIONAL,
	...
}

EventC-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EventD ::= SEQUENCE {
	measurementIncreaseDecreaseThreshold	MeasurementIncreaseDecreaseThreshold,
	measurementChangeTime					MeasurementChangeTime,
	iE-Extensions							ProtocolExtensionContainer { {EventD-ExtIEs} } OPTIONAL,
	...
}

EventD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EventE ::= SEQUENCE {
	measurementThreshold1		MeasurementThreshold,
	measurementThreshold2		MeasurementThreshold			OPTIONAL,
	measurementHysteresisTime	MeasurementHysteresisTime		OPTIONAL,
	reportPeriodicity			ReportPeriodicity				OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {EventE-ExtIEs} } OPTIONAL,
	...
}

EventE-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EventF ::= SEQUENCE {
	measurementThreshold1		MeasurementThreshold,
	measurementThreshold2		MeasurementThreshold			OPTIONAL,
	measurementHysteresisTime	MeasurementHysteresisTime		OPTIONAL,
	reportPeriodicity			ReportPeriodicity				OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {EventF-ExtIEs} } OPTIONAL,
	...
}

EventF-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

EventH ::= SEQUENCE {
	measurementThreshold1		MeasurementThreshold,
	measurementThreshold2		MeasurementThreshold			OPTIONAL,
	measurementHysteresisTime	MeasurementHysteresisTime		OPTIONAL,
	reportPeriodicity			ReportPeriodicity				OPTIONAL,
	measurementFluctuationRange	INTEGER (0..100)				OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {EventH-ExtIEs} } OPTIONAL,
	...
}

EventH-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Event1F-Parameters ::= SEQUENCE {
	measurementQuantity		MeasurementQuantity,
	threshold				INTEGER(-120..165),
	...
}

Event1I-Parameters ::= SEQUENCE {
	threshold				INTEGER(-120..-25),
	...
}

ExtendedGSMCellIndividualOffset ::= INTEGER (-50..-11|11..50)

E-DCH-Information ::= SEQUENCE {
	e-PUCH-Information 							E-PUCH-Information,
	e-TFCS-Information-TDD 						E-TFCS-Information-TDD,
	e-DCH-MACdFlows-Information-TDD				E-DCH-MACdFlows-Information-TDD,
	e-DCH-TDD-Information						E-DCH-TDD-Information,
	iE-Extensions								ProtocolExtensionContainer { { E-DCH-Information-ExtIEs} }	OPTIONAL,
	...
}

E-DCH-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-PUCH-Information ::= SEQUENCE {
	minCR										CodeRate,
	maxCR										CodeRate,
	harqInfo									HARQ-Info-for-E-DCH,
	n-E-UCCH									N-E-UCCH,
	iE-Extensions								ProtocolExtensionContainer { { E-PUCH-Information-ExtIEs } }	OPTIONAL,
	...
}

E-PUCH-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-TFCS-Information-TDD ::= SEQUENCE {
	e-DCH-QPSK-RefBetaInfo 						E-DCH-QPSK-RefBetaInfo,
	e-DCH-sixteenQAM-RefBetaInfo				E-DCH-sixteenQAM-RefBetaInfo,
	iE-Extensions								ProtocolExtensionContainer { { E-TFCS-Information-TDD-ExtIEs } }	OPTIONAL,
	...
}

E-TFCS-Information-TDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-QPSK-RefBetaInfo ::= SEQUENCE (SIZE (1..maxNrOfRefBetas)) OF E-DCH-RefBeta-Item

E-DCH-sixteenQAM-RefBetaInfo ::= SEQUENCE (SIZE (1..maxNrOfRefBetas)) OF E-DCH-RefBeta-Item

E-DCH-RefBeta-Item ::= SEQUENCE {
	refCodeRate				CodeRate-short,
	refBeta					RefBeta
}

E-DCH-MACdFlows-Information-TDD ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF E-DCH-MACdFlow-InfoTDDItem

E-DCH-MACdFlow-InfoTDDItem ::= SEQUENCE {
	e-DCH-MACdFlow-ID								EDCH-MACdFlow-ID,
	allocationRetentionPriority						AllocationRetentionPriority,
	tnlQos											TnlQos						OPTIONAL,
	bindingID										BindingID					OPTIONAL,
	transportLayerAddress							TransportLayerAddress		OPTIONAL,
	payloadCRC-PresenceIndicator					PayloadCRC-PresenceIndicator,
	maximum-Number-of-Retransmissions-For-E-DCH		MaxNr-Retransmissions-EDCH,
	eDCH-HARQ-PO-TDD								E-DCH-HARQ-PO-TDD,
	eDCH-MACdFlow-Multiplexing-List					E-DCH-MACdFlow-Multiplexing-List							OPTIONAL,
	eDCH-Grant-TypeTDD								E-DCH-Grant-TypeTDD,
	eDCHLogicalChannelInformation					E-DCH-LogicalChannelInformation,
	iE-Extensions									ProtocolExtensionContainer { { E-DCH-MACdFlow-InfoTDDItem-ExtIEs} }				OPTIONAL,
	...
}

E-DCH-MACdFlow-InfoTDDItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-eDCH-MACdFlow-Retransmission-Timer-LCR	CRITICALITY ignore	EXTENSION E-DCH-MACdFlow-Retransmission-Timer-LCR	PRESENCE optional}|
	{ ID id-TrafficClass							CRITICALITY ignore	EXTENSION TrafficClass				PRESENCE mandatory},
	...
}


E-DCH-MACdFlow-Retransmission-Timer-LCR ::= 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-HARQ-PO-TDD ::= INTEGER (0..6)

E-DCH-Grant-TypeTDD ::= ENUMERATED {
	scheduled,
	non-scheduled
}

E-DCH-TimeslotResource ::= BIT STRING (SIZE (13))

E-DCH-PowerResource ::= INTEGER(1..32)

TddE-PUCH-Offset ::= INTEGER(0..255)

E-DCH-TDD-Information ::= SEQUENCE {
	e-DCH-TDD-Maximum-Bitrate						E-DCH-TDD-Maximum-Bitrate							OPTIONAL,
	e-DCH-Processing-Overload-Level					E-DCH-Processing-Overload-Level						OPTIONAL,
	e-DCH-PowerOffset-for-SchedulingInfo			E-DCH-PowerOffset-for-SchedulingInfo				OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { E-DCH-TDD-Information-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-TDD-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-TDD-Maximum-Bitrate ::= INTEGER (0..9201,...)

E-DCH-Information-Reconfig ::= SEQUENCE {
	e-PUCH-Information 							E-PUCH-Information									OPTIONAL,
	e-TFCS-Information-TDD 						E-TFCS-Information-TDD								OPTIONAL,
	e-DCH-MACdFlows-to-Add						E-DCH-MACdFlows-Information-TDD						OPTIONAL,
	e-DCH-MACdFlows-to-Delete					EDCH-MACdFlows-To-Delete							OPTIONAL,
	e-DCH-Non-Scheduled-Grant-Info 				E-DCH-Non-Scheduled-Grant-Info						OPTIONAL,
	e-DCH-TDD-Information						E-DCH-TDD-Information								OPTIONAL,
	e-DCH-TDD-Information-to-Modify				E-DCH-TDD-Information-to-Modify						OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { E-DCH-Information-Reconfig-ExtIEs} }		OPTIONAL,
	...
}

E-DCH-Information-Reconfig-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-TDD-Information-to-Modify ::= SEQUENCE {
	e-DCH-TDD-Information-to-Modify-List	E-DCH-TDD-Information-to-Modify-List	OPTIONAL,
	mACeReset-Indicator						MACeReset-Indicator						OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { E-DCH-TDD-Information-to-Modify-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-TDD-Information-to-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-E-DCH-MACdPDUSizeFormat			CRITICALITY reject	EXTENSION E-DCH-MACdPDUSizeFormat	PRESENCE optional}|
	{ ID id-UE-TS0-CapabilityLCR			CRITICALITY ignore	EXTENSION UE-TS0-CapabilityLCR		PRESENCE optional},
	...
}
E-DCH-TDD-Information-to-Modify-List ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF E-DCH-MACdFlow-ModifyTDDItem

E-DCH-MACdFlow-ModifyTDDItem ::= SEQUENCE {
	e-DCH-MACdFlow-ID								EDCH-MACdFlow-ID,
	allocationRetentionPriority						AllocationRetentionPriority			OPTIONAL,
	transportBearerRequestIndicator					TransportBearerRequestIndicator,
	bindingID										BindingID							OPTIONAL,
	transportLayerAddress							TransportLayerAddress				OPTIONAL,
	tnlQos											TnlQos								OPTIONAL,
	maximum-Number-of-Retransmissions-For-E-DCH		MaxNr-Retransmissions-EDCH			OPTIONAL,
	eDCH-HARQ-PO-TDD								E-DCH-HARQ-PO-TDD					OPTIONAL,
	eDCH-MACdFlow-Multiplexing-List					E-DCH-MACdFlow-Multiplexing-List	OPTIONAL,
	eDCH-Grant-TypeTDD								E-DCH-Grant-TypeTDD					OPTIONAL,
	e-DCH-LogicalChannelToAdd						E-DCH-LogicalChannelInformation		OPTIONAL,
	e-DCH-LogicalChannelToModify					E-DCH-LogicalChannelToModify		OPTIONAL,
	e-DCH-LogicalChannelToDelete					E-DCH-LogicalChannelToDelete		OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { {E-DCH-MACdFlow-ModifyTDDItem-ExtIEs } }	OPTIONAL,
	...
}

E-DCH-MACdFlow-ModifyTDDItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-eDCH-MACdFlow-Retransmission-Timer-LCR		CRITICALITY ignore	EXTENSION E-DCH-MACdFlow-Retransmission-Timer-LCR	PRESENCE optional}|
	{ ID id-TrafficClass								CRITICALITY ignore	EXTENSION TrafficClass				PRESENCE optional},
	...
}

E-DCH-Information-Response ::= SEQUENCE {
	e-DCH-TDD-MACdFlow-Specific-InformationResp		E-DCH-TDD-MACdFlow-Specific-InformationResp		OPTIONAL,
	e-AGCH-Specific-Information-ResponseTDD			E-AGCH-Specific-InformationRespListTDD			OPTIONAL,
	e-HICH-Information-Response						E-HICH-InformationResp							OPTIONAL,
	e-DCH-Non-Scheduled-Grant-Info 					E-DCH-Non-Scheduled-Grant-Info					OPTIONAL,
	e-RNTI											E-RNTI,
	iE-Extensions									ProtocolExtensionContainer { { E-DCH-Information-Response-ExtIEs } }	OPTIONAL,
	...
}

E-DCH-Information-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-TDD-MACdFlow-Specific-InformationResp ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF E-DCH-TDD-MACdFlow-Specific-InformationResp-Item

E-DCH-TDD-MACdFlow-Specific-InformationResp-Item ::= SEQUENCE {
	e-DCH-MacdFlow-Id								EDCH-MACdFlow-ID,
	bindingID										BindingID					OPTIONAL,
	transportLayerAddress							TransportLayerAddress		OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { E-DCH-TDD-MACdFlow-Specific-InformationRespItem-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-TDD-MACdFlow-Specific-InformationRespItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-AGCH-Specific-InformationRespListTDD ::= SEQUENCE (SIZE (1..maxNrOfEAGCHCodes)) OF E-AGCH-Specific-InformationResp-ItemTDD

E-AGCH-Specific-InformationResp-ItemTDD ::= SEQUENCE {
	timeslot						TimeSlot,
	midambleShiftAndBurstType		MidambleShiftAndBurstType,
	tDD-ChannelisationCode			TDD-ChannelisationCode,
	iE-Extensions					ProtocolExtensionContainer { { E-AGCH-Specific-InformationResp-ItemTDD-ExtIEs } }		OPTIONAL,
	...
}

E-AGCH-Specific-InformationResp-ItemTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-HICH-InformationResp::= SEQUENCE {
	timeslot						TimeSlot,
	midambleShiftAndBurstType		MidambleShiftAndBurstType,
	tDD-ChannelisationCode			TDD-ChannelisationCode,
	e-HICH-TimeOffset				E-HICH-TimeOffset,
	iE-Extensions					ProtocolExtensionContainer { { E-HICH-InformationResp-ExtIEs } }		OPTIONAL,
	...
}

E-HICH-InformationResp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-HICH-TimeOffset ::= INTEGER (4..44)

E-DCH-Non-Scheduled-Grant-Info ::= SEQUENCE {
	timeslotResource				E-DCH-TimeslotResource,
	powerResource					E-DCH-PowerResource,
	repetitionPeriod				RepetitionPeriod,
	repetitionLength				RepetitionLength,
	tddE-PUCH-Offset				TddE-PUCH-Offset,
	tdd-ChannelisationCode			TDD-ChannelisationCode,
	iE-Extensions					ProtocolExtensionContainer { { E-DCH-Non-Scheduled-Grant-Info-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-Non-Scheduled-Grant-Info-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


E-DCH-768-Information ::= SEQUENCE {
	e-PUCH-Information 							E-PUCH-Information,
	e-TFCS-Information-TDD 						E-TFCS-Information-TDD,
	e-DCH-MACdFlows-Information-TDD				E-DCH-MACdFlows-Information-TDD,
	e-DCH-TDD-Information768					E-DCH-TDD-Information768,
	iE-Extensions								ProtocolExtensionContainer { { E-DCH-768-Information-ExtIEs} }		OPTIONAL,
	...
}

E-DCH-768-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-TDD-Information768 ::= SEQUENCE {
	e-DCH-TDD-Maximum-Bitrate768					E-DCH-TDD-Maximum-Bitrate768						OPTIONAL,
	e-DCH-Processing-Overload-Level					E-DCH-Processing-Overload-Level						OPTIONAL,
	e-DCH-PowerOffset-for-SchedulingInfo			E-DCH-PowerOffset-for-SchedulingInfo				OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { E-DCH-TDD-Information768-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-TDD-Information768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-TDD-Maximum-Bitrate768 ::= INTEGER (0..17713,...)

E-DCH-768-Information-Reconfig ::= SEQUENCE {
	e-PUCH-Information 							E-PUCH-Information									OPTIONAL,
	e-TFCS-Information-TDD 						E-TFCS-Information-TDD								OPTIONAL,
	e-DCH-MACdFlows-to-Add						E-DCH-MACdFlows-Information-TDD						OPTIONAL,
	e-DCH-MACdFlows-to-Delete					EDCH-MACdFlows-To-Delete							OPTIONAL,
	e-DCH-Non-Scheduled-Grant-Info768			E-DCH-Non-Scheduled-Grant-Info768					OPTIONAL,
	e-DCH-TDD-Information768					E-DCH-TDD-Information768							OPTIONAL,
	e-DCH-TDD-Information-to-Modify				E-DCH-TDD-Information-to-Modify						OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { E-DCH-768-Information-Reconfig-ExtIEs} }		OPTIONAL,
	...
}

E-DCH-768-Information-Reconfig-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}
E-DCH-768-Information-Response ::= SEQUENCE {
	e-DCH-TDD-MACdFlow-Specific-InformationResp		E-DCH-TDD-MACdFlow-Specific-InformationResp	OPTIONAL,
	e-AGCH-Specific-Information-Response768TDD		E-AGCH-Specific-InformationRespList768TDD	OPTIONAL,
	e-HICH-Information-Response768					E-HICH-InformationResp768					OPTIONAL,
	e-DCH-Non-Scheduled-Grant-Info768				E-DCH-Non-Scheduled-Grant-Info768			OPTIONAL,
	e-RNTI											E-RNTI,
	iE-Extensions									ProtocolExtensionContainer { { E-DCH-768-Information-Response-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-768-Information-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-AGCH-Specific-InformationRespList768TDD ::= SEQUENCE (SIZE (1..maxNrOfEAGCHCodes)) OF E-AGCH-Specific-InformationResp-Item768TDD

E-AGCH-Specific-InformationResp-Item768TDD ::= SEQUENCE {
	timeslot										TimeSlot,
	midambleShiftAndBurstType768					MidambleShiftAndBurstType768,
	tDD-ChannelisationCode768						TDD-ChannelisationCode768,
	iE-Extensions									ProtocolExtensionContainer { { E-AGCH-Specific-InformationResp-Item768TDD-ExtIEs } }		OPTIONAL,
	...
}

E-AGCH-Specific-InformationResp-Item768TDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-HICH-InformationResp768 ::= SEQUENCE {
	timeslot										TimeSlot,
	midambleShiftAndBurstType768					MidambleShiftAndBurstType768,
	tDD-ChannelisationCode768						TDD-ChannelisationCode768,
	e-HICH-TimeOffset								E-HICH-TimeOffset,
	iE-Extensions									ProtocolExtensionContainer { { E-HICH-InformationResp768-ExtIEs } }		OPTIONAL,
	...
}

E-HICH-InformationResp768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-Non-Scheduled-Grant-Info768 ::= SEQUENCE {
	timeslotResource					E-DCH-TimeslotResource,
	powerResource						E-DCH-PowerResource,
	repetitionPeriod					RepetitionPeriod,
	repetitionLength					RepetitionLength,
	tddE-PUCH-Offset					TddE-PUCH-Offset,
	tdd-ChannelisationCode768			TDD-ChannelisationCode768,
	iE-Extensions						ProtocolExtensionContainer { { E-DCH-Non-Scheduled-Grant-Info768-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-Non-Scheduled-Grant-Info768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-LCR-Information ::= SEQUENCE {
	e-PUCH-LCR-Information 						E-PUCH-LCR-Information,
	e-TFCS-Information-TDD 						E-TFCS-Information-TDD,
	e-DCH-MACdFlows-Information-TDD				E-DCH-MACdFlows-Information-TDD,
	e-DCH-LCR-TDD-Information					E-DCH-LCR-TDD-Information,
	iE-Extensions								ProtocolExtensionContainer { { E-DCH-Information-LCR-ExtIEs} }		OPTIONAL,
	...
}

E-DCH-Information-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-PUCH-LCR-Information ::= SEQUENCE {
	minCR										CodeRate,
	maxCR										CodeRate,
	harqInfo									HARQ-Info-for-E-DCH,
	pRxdesBase									E-PUCH-PRXdesBase,
	e-PUCH-TPC-Step-Size						TDD-TPC-UplinkStepSize-LCR,
	n-E-UCCH-LCR								N-E-UCCH-LCR,
	iE-Extensions								ProtocolExtensionContainer { { E-PUCH-Information-LCR-ExtIEs } }		OPTIONAL,
	...
}

E-PUCH-Information-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-E-PUCH-PowerControlGAP		CRITICALITY ignore		EXTENSION ControlGAP		PRESENCE optional	},
	...
}

E-PUCH-PRXdesBase ::= INTEGER(-112..-50)
--SETP=1

E-DCH-LCR-TDD-Information ::= SEQUENCE {
	e-DCH-Physical-Layer-Category-LCR			E-DCH-Physical-Layer-Category-LCR					OPTIONAL,
	e-DCH-Processing-Overload-Level				E-DCH-Processing-Overload-Level						OPTIONAL,
	e-DCH-PowerOffset-for-SchedulingInfo		E-DCH-PowerOffset-for-SchedulingInfo				OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { E-DCH-LCR-TDD-Information-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-LCR-TDD-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extended-E-DCH-LCRTDD-PhysicalLayerCategory			CRITICALITY reject	EXTENSION Extended-E-DCH-LCRTDD-PhysicalLayerCategory	PRESENCE optional}|
	-- This IE shall be used if the E-DCH Physical Layer Category has a value larger than 5.
	{ ID id-MaximumNumber-Of-Retransmission-For-SchedulingInfo-LCRTDD	CRITICALITY ignore	EXTENSION MaxNr-Retransmissions-EDCH	PRESENCE optional}|
	{ ID id-E-DCH-RetransmissionTimer-For-SchedulingInfo-LCRTDD	CRITICALITY ignore	EXTENSION E-DCH-MACdFlow-Retransmission-Timer-LCR	PRESENCE optional}|
	{ ID id-E-AGCH-UE-Inactivity-Monitor-Threshold				CRITICALITY ignore	EXTENSION E-AGCH-UE-Inactivity-Monitor-Threshold	PRESENCE optional}|
	{ ID id-SNPL-Carrier-Group-Indicator						CRITICALITY reject	EXTENSION SNPL-Carrier-Group-Indicator		PRESENCE optional}|
	{ ID id-Multi-Carrier-E-DCH-LCRTDD-PhysicalLayerCategory	CRITICALITY reject	EXTENSION Multi-Carrier-E-DCH-LCRTDD-PhysicalLayerCategory	PRESENCE optional}|
	{ ID id-UE-TS0-CapabilityLCR								CRITICALITY ignore	EXTENSION UE-TS0-CapabilityLCR			PRESENCE optional},
	...
}

E-DCH-Physical-Layer-Category-LCR ::= INTEGER (1..5)

Execution-Type ::= CHOICE {
	synchronised 	CFN,
	unsynchronised	NULL
}

Extended-E-DCH-LCRTDD-PhysicalLayerCategory ::= INTEGER (6,...)

Extension-CommonMeasurementValue	::= ProtocolIE-Single-Container {{ Extension-CommonMeasurementValueIE }}

Extension-CommonMeasurementValueIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-RTLoadValue									CRITICALITY ignore	TYPE RTLoadValue										PRESENCE mandatory }|
	{ ID id-NRTLoadInformationValue						CRITICALITY ignore	TYPE NRTLoadInformationValue						PRESENCE mandatory }|
	{ ID id-UpPTSInterferenceValue						CRITICALITY reject	TYPE UpPTSInterferenceValue							PRESENCE mandatory }|
	{ ID id-TUTRANGANSSMeasurementValueInformation		CRITICALITY reject	TYPE TUTRANGANSSMeasurementValueInformation	PRESENCE mandatory }
}

-- For measurements on the Iur-g interface, only load, RT Load and NRT Load values are reported. 

Extension-DedicatedMeasurementValue	::= ProtocolIE-Single-Container {{ Extension-DedicatedMeasurementValueIE }}

Extension-DedicatedMeasurementValueIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-Rx-Timing-Deviation-Value-LCR		CRITICALITY reject	TYPE Rx-Timing-Deviation-Value-LCR		PRESENCE mandatory}|
	{ ID id-Angle-Of-Arrival-Value-LCR			CRITICALITY reject	TYPE Angle-Of-Arrival-Value-LCR		PRESENCE mandatory}|
	{ ID id-HS-SICH-Reception-Quality			CRITICALITY reject	TYPE HS-SICH-Reception-Quality-Value		PRESENCE mandatory}|
	{ ID id-Rx-Timing-Deviation-Value-768		CRITICALITY reject	TYPE Rx-Timing-Deviation-Value-768		PRESENCE mandatory}|
	{ ID id-Rx-Timing-Deviation-Value-ext		CRITICALITY reject	TYPE Rx-Timing-Deviation-Value-ext		PRESENCE mandatory}|
	{ ID id-Extended-Round-Trip-Time-Value		CRITICALITY reject	TYPE Extended-Round-Trip-Time-Value		PRESENCE mandatory}|
	{ ID id-UE-transmission-power-headroom		CRITICALITY reject	TYPE UE-transmission-power-headroom-Value	PRESENCE mandatory}|
	{ ID id-DL-TBS									CRITICALITY reject	TYPE DL-TBS							PRESENCE mandatory},
	...
}

E-DCH-LCR-Information-Reconfig ::= SEQUENCE {
	e-PUCH-LCR-Information 						E-PUCH-LCR-Information								OPTIONAL,
	e-TFCS-Information-TDD 						E-TFCS-Information-TDD								OPTIONAL,
	e-DCH-MACdFlows-to-Add						E-DCH-MACdFlows-Information-TDD						OPTIONAL,
	e-DCH-MACdFlows-to-Delete					EDCH-MACdFlows-To-Delete							OPTIONAL,
	e-DCH-LCR-TDD-Information					E-DCH-LCR-TDD-Information							OPTIONAL,
	e-DCH-TDD-Information-to-Modify				E-DCH-TDD-Information-to-Modify						OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { E-DCH-Information-Reconfig-LCR-ExtIEs} }		OPTIONAL,
	...
}

E-DCH-Information-Reconfig-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-LCR-Information-Response ::= SEQUENCE {
	e-DCH-TDD-MACdFlow-Specific-InformationResp		E-DCH-TDD-MACdFlow-Specific-InformationResp	OPTIONAL,
	e-AGCH-Specific-Information-Response-LCR-TDD	E-AGCH-Specific-InformationRespList-LCR-TDD	OPTIONAL, 
	e-HICH-Specific-Information-Response-LCR		E-HICH-Specific-InformationResp-LCR	OPTIONAL, 
	e-DCH-Non-Scheduled-Grant-Info-LCR 				E-DCH-Non-Scheduled-Grant-Info-LCR	OPTIONAL,
	e-RNTI											E-RNTI		OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { E-DCH-Information-Response-LCR-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-Information-Response-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-AGCH-Specific-InformationRespList-LCR-TDD ::= SEQUENCE (SIZE (1..maxNrOfEAGCHCodes)) OF E-AGCH-Specific-InformationResp-Item-LCR-TDD

E-AGCH-Specific-InformationResp-Item-LCR-TDD ::= SEQUENCE {
	timeSlotLCR						TimeSlotLCR,
	midambleShiftLCR				MidambleShiftLCR,
	tDD-ChannelisationCode			TDD-ChannelisationCode,
	iE-Extensions					ProtocolExtensionContainer { { E-AGCH-Specific-InformationResp-ItemTDD-LCR-ExtIEs } }	OPTIONAL,
	...
}

E-AGCH-Specific-InformationResp-ItemTDD-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-HICH-Specific-InformationResp-LCR::= SEQUENCE {
	e-HICH-Scheduled-InformationResp-LCR			E-HICH-Scheduled-InformationRespList-LCR-TDD	OPTIONAL,
	e-HICH-non-Scheduled-InformationResp-LCR		E-HICH-InformationResp-LCR						OPTIONAL,
	e-HICH-TimeOffset-lcr							E-HICH-TimeOffset-LCR,
	iE-Extensions									ProtocolExtensionContainer { { E-HICH-Specific-InformationResp-LCR-ExtIEs } }	OPTIONAL,
	...
}

E-HICH-Specific-InformationResp-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


E-HICH-Scheduled-InformationRespList-LCR-TDD ::= SEQUENCE (SIZE (1..maxNrOfEHICHCodes)) OF E-HICH-Scheduled-InformationResp-Item-LCR-TDD

E-HICH-Scheduled-InformationResp-Item-LCR-TDD ::= SEQUENCE {
e-HICH-EI									E-HICH-EI,
e-HICH-Scheduled-InformationResp-LCR		E-HICH-InformationResp-LCR,
iE-Extensions								ProtocolExtensionContainer { { E-HICH-Scheduled-InformationResp-LCR-ExtIEs } }		OPTIONAL,
...
}

E-HICH-Scheduled-InformationResp-LCR-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


E-HICH-EI ::= INTEGER (0..3)

E-HICH-InformationResp-LCR::= SEQUENCE {
	timeSlotLCR										TimeSlotLCR,
	midambleShiftLCR								MidambleShiftLCR,
	tDD-ChannelisationCode							TDD-ChannelisationCode,
	signatureSequenceGroupIndex						SignatureSequenceGroupIndex,
	iE-Extensions									ProtocolExtensionContainer { { E-HICH-InformationResp-LCR-ExtIEs } }	OPTIONAL,
	...
}


E-HICH-InformationResp-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


E-HICH-TimeOffset-LCR ::= INTEGER (4..15)

E-DCH-SubframeNumber-LCR ::= ENUMERATED{s0,s1}

E-DCH-TimeslotResource-LCR ::= BIT STRING (SIZE (5))

E-DCH-Non-Scheduled-Grant-Info-LCR ::= SEQUENCE {
	timeslotResource-LCR						E-DCH-TimeslotResource-LCR,
	powerResource								E-DCH-PowerResource,
	repetitionPeriod							RepetitionPeriod,
	repetitionLength							RepetitionLength,
	subframenumber								E-DCH-SubframeNumber-LCR,
	tddE-PUCH-Offset							TddE-PUCH-Offset,
	tdd-ChannelisationCode						TDD-ChannelisationCode,
	iE-Extensions								ProtocolExtensionContainer { { E-DCH-Non-Scheduled-Grant-Info-LCR-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-Non-Scheduled-Grant-Info-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


Enabling-Delay ::= ENUMERATED {v0, v1, v2, v4, v8, v16, v32, v64, v128}
-- Unit radio frame


Ext-Reference-E-TFCI-PO ::= INTEGER(30..31,...)

ExtendedPropagationDelay ::= INTEGER(255..1023)

Extended-RNC-ID					::= INTEGER (4096..65535)

Extended-RNTI					::= INTEGER (1048576..4194303,...)
-- From 2^20 to 2^22-1

Extended-Round-Trip-Time-Value ::= INTEGER(32767..103041)
-- See also mapping in TS 25.133 [23]

Extended-S-RNTI-Group			::= SEQUENCE {
	extended-sRNTI					Extended-RNTI,
	extended-sRNTI-BitMaskIndex		ENUMERATED {
		b1,
		b2,
		b3,
		b4,
		b5,
		b6,
		b7,
		b8,
		b9,
		b10,
		b11,
		b12,
		b13,
		b14,
		b15,
		b16,
		b17,
		b18,
		b19,
		b20,
		b21,...
}
}

ExtendedAffectedUEInformationForMBMS ::= SEQUENCE (SIZE (0..maxNrOfUEs)) OF Extended-RNTI

Ext-Max-Bits-MACe-PDU-non-scheduled ::= INTEGER(19983..22978,... ,22979..34507)

E-DCH-Semi-PersistentScheduling-Information-LCR ::= SEQUENCE {
	repetition-Period-List-LCR				Repetition-Period-List-LCR,
	e-DCH-SPS-Indicator						E-DCH-SPS-Indicator,
	e-DCH-SPS-Reservation-Indicator			SPS-Reservation-Indicator		OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { E-DCH-Semi-PersistentScheduling-Information-LCR-ExtIEs } }			OPTIONAL,
	...
}

E-DCH-Semi-PersistentScheduling-Information-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-SPS-Indicator ::= BIT STRING (SIZE (16))

E-DCH-Semi-PersistentScheduling-Information-to-Modify-LCR ::= SEQUENCE {
	repetition-Period-List-LCR			Repetition-Period-List-LCR		OPTIONAL,
	e-DCH-SPS-Indicator					E-DCH-SPS-Indicator				OPTIONAL,
	e-DCH-SPS-Reservation-Indicator		SPS-Reservation-Indicator		OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { E-DCH-Semi-PersistentScheduling-Information-to-Modify-LCR-ExtIEs } }	OPTIONAL,
	...
}

E-DCH-Semi-PersistentScheduling-Information-to-Modify-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-Semi-PersistentScheduling-Information-ResponseLCR ::= SEQUENCE {
	initial-E-DCH-SPS-resource		Initial-E-DCH-SPS-resource			OPTIONAL,
	e-DCH-SPS-HICH-Information		E-DCH-SPS-HICH-Information			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { E-DCH-Semi-PersistentScheduling-Information-ResponseLCR-ExtIEs } }	OPTIONAL,
	...
}

E-DCH-Semi-PersistentScheduling-Information-ResponseLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-DCH-SPS-HICH-Information ::= SEQUENCE {
	e-HICH-Configuration					E-HICH-Configuration,
	signatureSequenceGroupIndex				SignatureSequenceGroupIndex,
	iE-Extensions							ProtocolExtensionContainer { { E-DCH-SPS-HICH-Information-ExtIEs } }		OPTIONAL,
	...
}

E-DCH-SPS-HICH-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-HICH-Configuration ::= CHOICE {
	same-As-Scheduled-E-HICH			Same-As-Scheduled-E-HICH,
	explicit							E-HICH-InformationResp-ExplicitConfiguration-LCR,
	...
}

E-HICH-InformationResp-ExplicitConfiguration-LCR	::= SEQUENCE {
	timeSlotLCR						TimeSlotLCR,
	midambleShiftLCR				MidambleShiftLCR,
	tDD-ChannelisationCode			TDD-ChannelisationCode,
	iE-Extensions					ProtocolExtensionContainer { { E-HICH-InformationResp-ExplicitConfiguration-LCR-ExtIEs } }		OPTIONAL,
	...
}

E-HICH-InformationResp-ExplicitConfiguration-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- F

FACH-FlowControlInformation ::= SEQUENCE (SIZE (1..16)) OF FACH-FlowControlInformationItem

FACH-FlowControlInformationItem ::= SEQUENCE {
	fACH-SchedulingPriority			SchedulingPriorityIndicator,
	mAC-c-sh-SDU-Lengths			MAC-c-sh-SDU-LengthList,
	fACH-InitialWindowSize			FACH-InitialWindowSize,
	iE-Extensions					ProtocolExtensionContainer { {FACH-FlowControlInformationItem-ExtIEs} } OPTIONAL,
	...
}

FACH-FlowControlInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

FACH-InitialWindowSize ::= INTEGER { unlimited(255) } (0..255)
-- Number of frames MAC-c-sh SDUs.
-- 255 = Unlimited number of FACH data frames

FACH-InformationList ::= SEQUENCE (SIZE(0.. maxNrOfFACHs)) OF FACH-InformationItem

FACH-InformationItem ::= SEQUENCE {
	transportFormatSet				TransportFormatSet,
	iE-Extensions					ProtocolExtensionContainer { { FACH-InformationItem-ExtIEs} } OPTIONAL,
	...
}

FACH-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


Fast-Reconfiguration-Mode ::= ENUMERATED {fast,...}
Fast-Reconfiguration-Permission ::= ENUMERATED {allowed,...}

Fast-TTI-switching-Mode-synchronized ::= CHOICE {
	mode1			Mode1-Ind,
	mode2			CFN
}

Fast-TTI-switching-Mode-unsynchronized ::= CHOICE {
	mode1			ActivationDelay,
	mode2			CFN
}

Fast-TTI-switching-Mode-Supported ::= ENUMERATED {mode1, mode2}

FDD-DCHs-to-Modify ::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF FDD-DCHs-to-ModifyItem

FDD-DCHs-to-ModifyItem ::= SEQUENCE {
	ul-FP-Mode							UL-FP-Mode		OPTIONAL,
	toAWS								ToAWS			OPTIONAL,
	toAWE								ToAWE			OPTIONAL,
	transportBearerRequestIndicator		TransportBearerRequestIndicator,
	dCH-SpecificInformationList			FDD-DCHs-to-ModifySpecificInformationList,
	iE-Extensions						ProtocolExtensionContainer { {FDD-DCHs-to-ModifyItem-ExtIEs} } OPTIONAL,
	...
}

FDD-DCHs-to-ModifyItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TnlQos				CRITICALITY ignore	EXTENSION TnlQos	PRESENCE optional},
	...
}

FDD-DCHs-to-ModifySpecificInformationList ::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF FDD-DCHs-to-ModifySpecificItem

FDD-DCHs-to-ModifySpecificItem ::= SEQUENCE {
	dCH-ID							DCH-ID,
	ul-TransportformatSet			TransportFormatSet				OPTIONAL,
	dl-TransportformatSet			TransportFormatSet				OPTIONAL,
	allocationRetentionPriority		AllocationRetentionPriority	OPTIONAL,
	frameHandlingPriority			FrameHandlingPriority			OPTIONAL,
	not-Used-dRACControl			NULL				OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {FDD-DCHs-to-ModifySpecificItem-ExtIEs} } OPTIONAL,
	...
}

FDD-DCHs-to-ModifySpecificItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Guaranteed-Rate-Information		CRITICALITY ignore	EXTENSION Guaranteed-Rate-Information	PRESENCE optional}|
	{ ID id-TrafficClass					CRITICALITY ignore	EXTENSION TrafficClass					PRESENCE optional}|
	{ ID id-Unidirectional-DCH-Indicator	CRITICALITY reject	EXTENSION Unidirectional-DCH-Indicator	PRESENCE optional},
	...
}

FDD-DL-ChannelisationCodeNumber ::= INTEGER (0..511)
-- According to the mapping in TS 25.213 [27]. The maximum value is equal to the DL spreading factor -1--

FDD-DL-CodeInformation ::= SEQUENCE (SIZE (1..maxNrOfDL-Codes)) OF FDD-DL-CodeInformationItem

FDD-DL-CodeInformationItem ::= SEQUENCE {
	dl-ScramblingCode													DL-ScramblingCode,
	fDD-DL-ChannelisationCodeNumber										FDD-DL-ChannelisationCodeNumber,
	transmission-Gap-Pattern-Sequence-ScramblingCode-Information		Transmission-Gap-Pattern-Sequence-ScramblingCode-Information	OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { {FDD-DL-CodeInformationItem-ExtIEs} } OPTIONAL,
	...
}

FDD-DL-CodeInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

FDD-TPC-DownlinkStepSize ::= ENUMERATED {
	step-size0-5,
	step-size1,
	step-size1-5,
	step-size2,
	...
}

SchedulingPriorityIndicator ::= INTEGER { lowest(0), highest(15) } (0..15)

F-DPCH-Info ::= SEQUENCE {
	f-DPCH-SlotFormat						F-DPCH-SlotFormat,
	fdd-dl-ChannelisationCodeNumber			FDD-DL-ChannelisationCodeNumber,
	extended-E-DPCCH-PO						Extended-E-DPCCH-PO		OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { F-DPCH-Info-ExtIEs } }		OPTIONAL,
	...
}

F-DPCH-Info-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

F-DPCH-Info-To-Modify ::= SEQUENCE {
	f-DPCH-SlotFormat						F-DPCH-SlotFormat						OPTIONAL,
	fdd-dl-ChannelisationCodeNumber			FDD-DL-ChannelisationCodeNumber			OPTIONAL,
	extended-E-DPCCH-PO						Extended-E-DPCCH-PO						OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { F-DPCH-Info-To-Modify-ExtIEs } }	OPTIONAL,
	...
}

F-DPCH-Info-To-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

F-DPCH-SlotFormat ::= INTEGER (0..9)

F-DPCH-SlotFormatSupportRequest ::= NULL

FirstRLS-Indicator ::= ENUMERATED {
	first-RLS,
	not-first-RLS
}

FNReportingIndicator ::= ENUMERATED {
	fN-reporting-required,
	fN-reporting-not-required
}

FPACH-Information ::= SEQUENCE {
	timeSlotLCR					TimeSlotLCR,
	tDD-ChannelisationCodeLCR	TDD-ChannelisationCodeLCR,
	midambleShiftLCR			MidambleShiftLCR,
	wT							INTEGER (1..4),
	...
	}

FTPICH-Information ::= SEQUENCE {
	fTPICH-Offset							FTPICH-Offset,
	iE-Extensions							ProtocolExtensionContainer { { FTPICH-Information-ExtIEs } }		OPTIONAL,
	...
}

FTPICH-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

FTPICH-SlotFormat ::= INTEGER (0..9,...)

FTPICH-Offset ::= INTEGER (0..149)

FTPICH-Information-Removal ::= ENUMERATED {
	remove,
	...
}

FTPICH-Information-To-Modify ::= SEQUENCE {
	fTPICH-Offset				FTPICH-Offset				OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { FTPICH-Information-To-Modify-ExtIEs } }		OPTIONAL,
	...
}

FTPICH-Information-To-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

FTPICH-Information-Reconf ::=SEQUENCE{
	setup-Or-ConfigurationChange-Or-Removal-Of-FTPICH-Information	Setup-Or-ConfigurationChange-Or-Removal-Of-FTPICH-Information,
	iE-Extensions													ProtocolExtensionContainer { { FTPICH-Information-Reconf-ExtIEs} } OPTIONAL,
	...
}

FTPICH-Information-Reconf-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

FTPICH-Reconfiguration-Information ::= SEQUENCE {
	fTPICH-SlotFormat						FTPICH-SlotFormat					OPTIONAL,
	fTPICH-ChannelisationCodenumber			FDD-DL-ChannelisationCodeNumber		OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { FTPICH-Reconfiguration-Information-ExtIEs } }		OPTIONAL,
	...
}

FTPICH-Reconfiguration-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

FTPICH-Information-Response ::= SEQUENCE {
	fTPICH-SlotFormat						FTPICH-SlotFormat,
	fTPICH-ChannelisationCodenumber			FDD-DL-ChannelisationCodeNumber,
	iE-Extensions							ProtocolExtensionContainer { { FTPICH-Information-Response-ExtIEs } }		OPTIONAL,
	...
}

FTPICH-Information-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

FrameHandlingPriority ::= INTEGER { lowest(0), highest(15) } (0..15)

FrameOffset	 ::= INTEGER (0..255)
-- Frames

FrequencyBandIndicator ::= ENUMERATED {
	bandI,
	bandII,
	bandIII,
	bandIV,
	bandV,
	bandVI,
	bandVII,
	bandVIII,
	bandIX,
	bandX,
	bandXI,
	bandXII,
	bandXIII,
	bandXIV,
	bandXV,
	bandXVI,
	bandXVII,
	bandXVIII,
	bandXIX,
	bandXX,
	bandXXI,
	bandXXII,
	...,
	reserved23,
	reserved24,
	bandXXV,
	bandXXVI,
	reserved27,
	reserved28,
	reserved29,
	reserved30,
	reserved31,
	bandXXXII
}


-- G

GapLength ::= INTEGER (1..14)
-- Unit Slot

GapDuration ::= INTEGER (1..144,...)
-- Unit Frame

GA-Cell ::= SEQUENCE (SIZE (1..maxNrOfPoints)) OF
	SEQUENCE {
		cell-GAIgeographicalCoordinate		GeographicalCoordinate,
		iE-Extensions			ProtocolExtensionContainer { {GA-Cell-ExtIEs} } OPTIONAL,
		...
	}

GA-Cell-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GA-CellAdditionalShapes ::= CHOICE {
	pointWithUncertainty							GA-PointWithUnCertainty,
	pointWithUncertaintyEllipse						GA-PointWithUnCertaintyEllipse,
	pointWithAltitude								GA-PointWithAltitude,
	pointWithAltitudeAndUncertaintyEllipsoid		GA-PointWithAltitudeAndUncertaintyEllipsoid,
	ellipsoidArc									GA-EllipsoidArc,
	...
	}

GA-AltitudeAndDirection ::= SEQUENCE {
	directionOfAltitude		ENUMERATED {height, depth},
	altitude				INTEGER (0..32767),
	...
}

GA-EllipsoidArc ::= SEQUENCE {
	geographicalCoordinates		GeographicalCoordinate,
	innerRadius					INTEGER (0..65535),
	uncertaintyRadius			INTEGER (0..127),
	offsetAngle					INTEGER (0..179),
	includedAngle				INTEGER (0..179),
	confidence					INTEGER (0..127),
	iE-Extensions				ProtocolExtensionContainer { { GA-EllipsoidArc-ExtIEs} } OPTIONAL,
	...
}

GA-EllipsoidArc-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Gainfactors-10ms-mode ::= CHOICE {
	signalledGainFactors10ms		SEQUENCE {
		gain10ms-betaC					BetaCD,
		gain10ms-betaD					BetaCD,
		gain10ms-refTFCNumber			RefTFCNumber	OPTIONAL,
		iE-Extensions		ProtocolExtensionContainer { { SignalledGainFactors10ms-ExtIEs } }	OPTIONAL,
		...
	},
	computedGainFactors10ms		RefTFCNumber,
	...
}

SignalledGainFactors10ms-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-AddClockModels ::= CHOICE {
	navClockModel					GANSS-NAVclockModel,
	cnavClockModel					GANSS-CNAVclockModel,
	glonassClockModel				GANSS-GLONASSclockModel,
	sbasClockModel					GANSS-SBASclockModel,
	...,
	extension-GANSS-AddClockModels	Extension-GANSS-AddClockModels
}

Extension-GANSS-AddClockModels ::= ProtocolIE-Single-Container {{ Extension-GANSS-AddClockModels-IE }}

Extension-GANSS-AddClockModels-IE RNSAP-PROTOCOL-IES ::= {
	{ ID id-GANSS-BDSclockModel			CRITICALITY ignore	TYPE GANSS-BDSclockModel	PRESENCE mandatory}

}

GANSS-AddIonoModelReq ::= BIT STRING (SIZE(2))

GANSS-AddNavigationModelsReq ::= BOOLEAN

GANSS-AddOrbitModels ::= CHOICE {
	navKeplerianSet	 				GANSS-NavModel-NAVKeplerianSet,
	cnavKeplerianSet				GANSS-NavModel-CNAVKeplerianSet,
	glonassECEF						GANSS-NavModel-GLONASSecef,
	sbasECEF						GANSS-NavModel-SBASecef,
	...,
	extension-GANSS-AddOrbitModels	Extension-GANSS-AddOrbitModels
}

Extension-GANSS-AddOrbitModels ::= ProtocolIE-Single-Container {{ Extension-GANSS-AddOrbitModels-IE }}

Extension-GANSS-AddOrbitModels-IE RNSAP-PROTOCOL-IES ::= {
	{ ID id-GANSS-NavModel-BDSKeplerianSet			CRITICALITY ignore	TYPE GANSS-NavModel-BDSKeplerianSet	PRESENCE mandatory}

}

GANSS-AddUTCModelsReq ::= BOOLEAN

GANSS-Additional-Ionospheric-Model ::= SEQUENCE {
	dataID								BIT STRING (SIZE(2)),
	alpha-beta-parameters				GPS-Ionospheric-Model,
	ie-Extensions						ProtocolExtensionContainer { { GANSS-Additional-Ionospheric-Model-ExtIEs } }	OPTIONAL,
	...
}

GANSS-Additional-Ionospheric-Model-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Additional-Navigation-Models ::= SEQUENCE {
	ganss-Transmission-Time		GANSS-Transmission-Time,
	non-broadcastIndication		ENUMERATED { true }			OPTIONAL,
	ganssSatInfoNavList			Ganss-Sat-Info-AddNavList,
	ie-Extensions				ProtocolExtensionContainer { { GANSS-Additional-Navigation-Models-ExtIEs } } OPTIONAL,
	...
}

GANSS-Additional-Navigation-Models-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Additional-Time-Models ::= SEQUENCE (SIZE (1..maxGANSS-1)) OF GANSS-Time-Model

GANSS-Additional-UTC-Models ::= CHOICE {
	utcModel1									GANSS-UTCmodelSet1,
	utcModel2									GANSS-UTCmodelSet2,
	utcModel3									GANSS-UTCmodelSet3,
	...,
	extension-GANSS-Additional-UTC-Models		Extension-GANSS-Additional-UTC-Models
}

Extension-GANSS-Additional-UTC-Models ::= ProtocolIE-Single-Container {{ Extension-GANSS-Additional-UTC-Models-IE }}

Extension-GANSS-Additional-UTC-Models-IE RNSAP-PROTOCOL-IES ::= {
	{ ID id-GANSS-UTCmodelSet4		CRITICALITY ignore	TYPE GANSS-UTCmodelSet4		PRESENCE mandatory}

}

GANSS-Almanac ::= SEQUENCE{
	ganss-wk-number					INTEGER(0..255),
	gANSS-AlmanacModel				CHOICE {
		gANSS-keplerianParameters		SEQUENCE {
			t-oa							INTEGER(0..1023),
			iod-a							INTEGER(0..15),
			gANSS-SatelliteInformationKP	GANSS-SatelliteInformationKP,
			ie-Extensions					ProtocolExtensionContainer { { GANSS-KeplerianParametersAlm-ExtIEs } }	OPTIONAL,
			...
		},
		...,
		extension-GANSS-AlmanacModel		Extension-GANSS-AlmanacModel
	},
	ie-Extensions		 			ProtocolExtensionContainer { { GANSS-Almanac-ExtIEs } }			OPTIONAL,
	...
}

GANSS-KeplerianParametersAlm-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Extension-GANSS-AlmanacModel	::= ProtocolIE-Single-Container {{ Extension-GANSS-AlmanacModel-IE }}

Extension-GANSS-AlmanacModel-IE RNSAP-PROTOCOL-IES ::= {
	{ ID id-GANSS-alm-keplerianNAVAlmanac			CRITICALITY ignore	TYPE GANSS-alm-keplerianNAVAlmanac		PRESENCE mandatory}|
	{ ID id-GANSS-alm-keplerianReducedAlmanac		CRITICALITY ignore	TYPE GANSS-alm-keplerianReducedAlmanac		PRESENCE mandatory}|
	{ ID id-GANSS-alm-keplerianMidiAlmanac			CRITICALITY ignore	TYPE GANSS-alm-keplerianMidiAlmanac		PRESENCE mandatory}|
	{ ID id-GANSS-alm-keplerianGLONASS				CRITICALITY ignore	TYPE GANSS-alm-keplerianGLONASS			PRESENCE mandatory}|
	{ ID id-GANSS-alm-ecefSBASAlmanac				CRITICALITY ignore	TYPE GANSS-alm-ecefSBASAlmanac			PRESENCE mandatory}|
	{ ID id-GANSS-alm-keplerianBDSAlmanac			CRITICALITY ignore	TYPE GANSS-alm-KEPLERIANBDSALMANAC		PRESENCE mandatory}

}

GANSS-alm-keplerianNAVAlmanac ::= SEQUENCE {
	t-oa						INTEGER (0..255),
	sat-info-NAVkpList			GANSS-SAT-Info-Almanac-NAVkpList,
	ie-Extensions				ProtocolExtensionContainer { { GANSS-ALM-NAVKeplerianSet-ExtIEs } }	OPTIONAL,
	...
}

GANSS-ALM-NAVKeplerianSet-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-alm-KEPLERIANBDSALMANAC ::= SEQUENCE {
	sat-info-BDSkpList			GANSS-SAT-Info-Almanac-BDSkpList,
	iE-Extensions		 		ProtocolExtensionContainer { { GANSS-alm-KEPLERIANBDSALMANAC-ExtIEs } }	OPTIONAL,
	...
}

GANSS-alm-KEPLERIANBDSALMANAC-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-alm-keplerianReducedAlmanac ::= SEQUENCE {
	t-oa						INTEGER (0..255),
	sat-info-REDkpList			GANSS-SAT-Info-Almanac-REDkpList,
	ie-Extensions				ProtocolExtensionContainer { { GANSS-ALM-ReducedKeplerianSet-ExtIEs } }	OPTIONAL,
	...
}


GANSS-ALM-ReducedKeplerianSet-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-alm-keplerianMidiAlmanac ::= SEQUENCE {
	t-oa						INTEGER (0..255),
	sat-info-MIDIkpList			GANSS-SAT-Info-Almanac-MIDIkpList,
	ie-Extensions				ProtocolExtensionContainer { { GANSS-ALM-MidiAlmanacSet-ExtIEs } }	OPTIONAL,
	...
}

GANSS-ALM-MidiAlmanacSet-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-alm-keplerianGLONASS ::= SEQUENCE {
	sat-info-GLOkpList			GANSS-SAT-Info-Almanac-GLOkpList,
	ie-Extensions				ProtocolExtensionContainer { { GANSS-ALM-GlonassAlmanacSet-ExtIEs } }	OPTIONAL,
	...
}

GANSS-ALM-GlonassAlmanacSet-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-alm-ecefSBASAlmanac ::= SEQUENCE {
	sat-info-SBASecefList		GANSS-SAT-Info-Almanac-SBASecefList,
	ie-Extensions				ProtocolExtensionContainer { { GANSS-ALM-ECEFsbasAlmanacSet-ExtIEs } }	OPTIONAL,
	...
}

GANSS-ALM-ECEFsbasAlmanacSet-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Almanac-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-completeAlmanacProvided	CRITICALITY		ignore	EXTENSION	CompleteAlmanacProvided	PRESENCE	optional},
	...
}

GANSS-Auxiliary-Information ::= CHOICE {
	ganssID1	GANSS-AuxInfoGANSS-ID1, 	-- This choice may only be present if GANSS ID indicates Modernized GPS
	ganssID3	GANSS-AuxInfoGANSS-ID3, 	-- This choice may only be present if GANSS ID indicates GLONASS
	...
}

GANSS-AuxInfoGANSS-ID1 ::= SEQUENCE (SIZE(1.. maxGANSSSat)) OF SEQUENCE {
	svID				INTEGER(0..63),
	signalsAvailable	BIT STRING (SIZE(8)),
	ie-Extensions		ProtocolExtensionContainer { { GANSS-AuxInfoGANSS-ID1-element-ExtIEs } }	OPTIONAL,
	...
}

GANSS-AuxInfoGANSS-ID1-element-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-AuxInfoGANSS-ID3 ::= SEQUENCE (SIZE(1.. maxGANSSSat)) OF SEQUENCE {
	svID				INTEGER(0..63),
	signalsAvailable	BIT STRING (SIZE(8)),
	channelNumber		INTEGER (-7..13),
	ie-Extensions		ProtocolExtensionContainer { { GANSS-AuxInfoGANSS-ID3-element-ExtIEs } }	OPTIONAL,
	...
}

GANSS-AuxInfoGANSS-ID3-element-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-AuxInfoReq ::= BOOLEAN

GANSS-BDSclockModel ::= SEQUENCE {
	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)),
	bdsAODC				BIT STRING (SIZE (5)),
	iE-Extensions		ProtocolExtensionContainer { { GANSS-BDSclockModelItem-ExtIEs } }	OPTIONAL,
	...
}

GANSS-BDSclockModelItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Clock-Model ::= SEQUENCE (SIZE (1..maxGANSSClockMod)) OF SEQUENCE {
	t-oc								BIT STRING (SIZE (14)),
	a-i2								BIT STRING (SIZE (6)),
	a-i1								BIT STRING (SIZE (21)),
	a-i0								BIT STRING (SIZE (31)),
	t-gd								BIT STRING (SIZE (10))									OPTIONAL,
	sisa								BIT STRING (SIZE (8)),
	model-id							INTEGER(0..1,...)											OPTIONAL,
	ie-Extensions						ProtocolExtensionContainer { { GANSS-ClockModelItem-ExtIEs } }	OPTIONAL,
	...
}

GANSS-ClockModelItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-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,
	ie-Extensions		ProtocolExtensionContainer { { GANSS-CNAVclockModel-ExtIEs } }	OPTIONAL,
	...
}

GANSS-CNAVclockModel-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Common-Data ::= SEQUENCE {
	ganss-Ionospheric-Model				GANSS-Ionospheric-Model												OPTIONAL,
	ganss-Rx-Pos						GANSS-RX-Pos														OPTIONAL,
	ie-Extensions						ProtocolExtensionContainer { { GANSS-Common-Data-ExtIEs } }		OPTIONAL,
	...
}

GANSS-Common-Data-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GANSS-Additional-Ionospheric-Model		CRITICALITY ignore	EXTENSION GANSS-Additional-Ionospheric-Model	PRESENCE optional}|
	{ ID id-GANSS-Earth-Orientation-Parameters		CRITICALITY ignore	EXTENSION GANSS-Earth-Orientation-Parameters	PRESENCE optional},
	...
}

GANSS-CommonDataInfoReq ::= SEQUENCE {
	ionospheric-Model					BOOLEAN																OPTIONAL,
	ie-Extensions						ProtocolExtensionContainer { { GANSS-CommonDataInfoReq-ExtIEs } }	OPTIONAL,
	...
}

GANSS-CommonDataInfoReq-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-GANSS-AddIonoModelReq		CRITICALITY ignore	EXTENSION GANSS-AddIonoModelReq				PRESENCE optional}|
	{ID id-GANSS-EarthOrientParaReq		CRITICALITY ignore	EXTENSION GANSS-EarthOrientParaReq			PRESENCE optional},
	...
}

GANSS-Data-Bit-Assistance ::= SEQUENCE {
	ganssTod							INTEGER (0..59,...),
	dataBitAssistancelist				GANSS-DataBitAssistanceList, 
	ie-Extensions						ProtocolExtensionContainer { { GANSS-Data-Bit-Assistance-ExtIEs } }	OPTIONAL,
	...
}

GANSS-Data-Bit-Assistance-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-DataBitAssistanceList ::= SEQUENCE (SIZE (1..maxGANSSSat)) OF GANSS-DataBitAssistanceItem

GANSS-DataBitAssistanceItem ::= SEQUENCE {
	satId							INTEGER(0..63),
	dataBitAssistanceSgnList		GANSS-DataBitAssistanceSgnList,
	ie-Extensions					ProtocolExtensionContainer { { GANSS-DataBitAssistanceItem-ExtIEs } }	OPTIONAL,
	...
}

GANSS-DataBitAssistanceItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-DataBitAssistanceSgnList ::= SEQUENCE (SIZE (1..maxSgnType)) OF GANSS-DataBitAssistanceSgnItem

GANSS-DataBitAssistanceSgnItem ::= SEQUENCE {
	ganss-SignalId			GANSS-Signal-ID,
	ganssDataBits			BIT STRING (SIZE (1..1024)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-DataBitAssistanceSgnItem-ExtIEs } }	OPTIONAL,
	...
}

GANSS-DataBitAssistanceSgnItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Data-Bit-Assistance-ReqItem ::= SEQUENCE {
	ganssTod								INTEGER (0..86399),
	ganss-Data-Bit-Assistance-ReqList		GANSS-Data-Bit-Assistance-ReqList,
	iE-Extensions							ProtocolExtensionContainer { { GANSS-Data-Bit-Assistance-ReqItem-ExtIEs } }	OPTIONAL,
	...
}

GANSS-Data-Bit-Assistance-ReqItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Data-Bit-Assistance-ReqList ::= SEQUENCE {
	dGANSS-Signal-ID					BIT STRING (SIZE (8)),
	ganss-DataBitInterval				INTEGER(0..15),
	ganss-SatelliteInfo					SEQUENCE (SIZE (1..maxGANSSSat)) OF INTEGER(0..63)						OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { GANSS-Data-Bit-Assistance-ReqList-ExtIEs } }	OPTIONAL,
	...
}

GANSS-Data-Bit-Assistance-ReqList-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Delta-T ::=	INTEGER(-128..127)

GANSS-DeltaUT1 ::= SEQUENCE {
	b1					BIT STRING (SIZE(11)),
	b2					BIT STRING (SIZE(10)),
	ie-Extensions		ProtocolExtensionContainer { { GANSS-DeltaUT1-ExtIEs } }	OPTIONAL,
	...
}

GANSS-DeltaUT1-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Earth-Orientation-Parameters ::= 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)),
	ie-Extensions		ProtocolExtensionContainer { { GANSS-Earth-Orientation-Parameters-ExtIEs } }	OPTIONAL,
	...
}

GANSS-Earth-Orientation-Parameters-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-EarthOrientParaReq ::= BOOLEAN

GANSS-GenericDataInfoReqList ::= SEQUENCE (SIZE(1..maxNoGANSS)) OF GANSS-GenericDataInfoReqItem

GANSS-GenericDataInfoReqItem ::= SEQUENCE {
	ganss-Id									GANSS-ID															OPTIONAL,
	ganss-Navigation-Model-And-Time-Recovery	BOOLEAN														OPTIONAL,
	ganss-Time-Model-GNSS-GNSS					BIT STRING (SIZE (9))										OPTIONAL,
	ganss-UTC-Model								BOOLEAN														OPTIONAL,
	ganss-Almanac								BOOLEAN														OPTIONAL,
	ganss-Real-Time-Integrity					BOOLEAN														OPTIONAL,
	ganss-Data-Bit-Assistance-Req				GANSS-Data-Bit-Assistance-ReqItem							OPTIONAL,
	ie-Extensions								ProtocolExtensionContainer { { GANSS-GenericDataInfoReqItem-ExtIEs } }		OPTIONAL,
	...
}

GANSS-GenericDataInfoReqItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-GANSS-AddNavigationModelsReq	CRITICALITY ignore	EXTENSION GANSS-AddNavigationModelsReq			PRESENCE optional}|
	{ID id-GANSS-AddUTCModelsReq		CRITICALITY ignore	EXTENSION GANSS-AddUTCModelsReq						PRESENCE optional}|
	{ID id-GANSS-AuxInfoReq				CRITICALITY ignore	EXTENSION GANSS-AuxInfoReq							PRESENCE optional}|
	-- The following IE shall be present if ‘GANSS-ID’ in ‘GANSS-GenericDataInfoReqItem’ is ‘0’ (SBAS)
	{ID id-GANSS-SBAS-ID				CRITICALITY	ignore	EXTENSION GANSS-SBAS-ID						PRESENCE optional}|
	{ID id-DBDS-CorrectionsReq			CRITICALITY ignore	EXTENSION DBDS-CorrectionsReq				PRESENCE optional}|
	{ID id-BDS-IonosphericGridModelReq	CRITICALITY ignore	EXTENSION BDS-IonosphericGridModelReq		PRESENCE optional},
	...
}


GANSS-Generic-Data ::= SEQUENCE (SIZE(1..maxNoGANSS)) OF GANSS-Generic-DataItem

GANSS-Generic-DataItem ::= SEQUENCE {
	ganss-Id									GANSS-ID													OPTIONAL,
	dganss-Correction							DGANSSCorrections											OPTIONAL,
	ganss-Navigation-Model-And-Time-Recovery	GANSS-Navigation-Model-And-Time-Recovery					OPTIONAL,
	ganss-Time-Model							GANSS-Time-Model											OPTIONAL,
	ganss-UTC-TIME								GANSS-UTC-Model												OPTIONAL,
	ganss-Almanac								GANSS-Almanac												OPTIONAL,
	ganss-Real-Time-Integrity					GANSS-Real-Time-Integrity									OPTIONAL,
	ganss-Data-Bit-Assistance					GANSS-Data-Bit-Assistance									OPTIONAL,
	ie-Extensions								ProtocolExtensionContainer { { GANSS-Generic-DataItem-ExtIEs } }	OPTIONAL,
	...
}

GANSS-Generic-DataItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GANSS-Additional-Time-Models			CRITICALITY ignore	EXTENSION GANSS-Additional-Time-Models		PRESENCE optional}|
	{ ID id-GANSS-Additional-Navigation-Models		CRITICALITY ignore	EXTENSION GANSS-Additional-Navigation-Models	PRESENCE optional}|
	{ ID id-GANSS-Additional-UTC-Models				CRITICALITY ignore	EXTENSION GANSS-Additional-UTC-Models		PRESENCE optional}|
	{ ID id-GANSS-Auxiliary-Information				CRITICALITY ignore	EXTENSION GANSS-Auxiliary-Information		PRESENCE optional}|
	-- The following element shall be present if ‘GANSS-ID’ in ‘GANSS-Generic-DataItem’ is ‘0’ (‘SBAS’)
	{ ID id-GANSS-SBAS-ID							CRITICALITY ignore	EXTENSION GANSS-SBAS-ID			PRESENCE optional}|
	{ ID id-DBDS-Corrections						CRITICALITY ignore	EXTENSION DBDS-Corrections		PRESENCE optional}|
	{ ID id-BDS-Ionospheric-Grid-Model				CRITICALITY ignore	EXTENSION BDS-Ionospheric-Grid-Model		PRESENCE optional},
	...
}

GANSS-GLONASSclockModel ::= SEQUENCE {
	gloTau					BIT STRING (SIZE (22)),
	gloGamma				BIT STRING (SIZE (11)),
	gloDeltaTau				BIT STRING (SIZE (5))												OPTIONAL,
	ie-Extensions			ProtocolExtensionContainer { { GANSS-GLONASSclockModel-ExtIEs } }	OPTIONAL,
	...
}

GANSS-GLONASSclockModel-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-ID ::= INTEGER(0..7,...)

GANSS-Information ::= SEQUENCE {
	gANSS-CommonDataInfoReq				GANSS-CommonDataInfoReq										OPTIONAL,
	gANSS-GenericDataInfoReqList		GANSS-GenericDataInfoReqList								OPTIONAL,
	ie-Extensions						ProtocolExtensionContainer { { GANSS-Information-ExtIEs } }	OPTIONAL,
	...
}

GANSS-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Ionospheric-Model ::= SEQUENCE {
	alpha-zero-ionos					BIT STRING (SIZE (11)),
	alpha-one-ionos						BIT STRING (SIZE (11)),
	alpha-two-ionos						BIT STRING (SIZE (14)),
	gANSS-IonosphereRegionalStormFlags	GANSS-IonosphereRegionalStormFlags							OPTIONAL,
	ie-Extensions						ProtocolExtensionContainer { { GANSS-Ionospheric-Model-ExtIEs } }	OPTIONAL,
	...
}

GANSS-Ionospheric-Model-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-IonosphereRegionalStormFlags ::= SEQUENCE {
	storm-flag-one						BOOLEAN,
	storm-flag-two						BOOLEAN,
	storm-flag-three					BOOLEAN,
	storm-flag-four						BOOLEAN,
	storm-flag-five						BOOLEAN,
	ie-Extensions						ProtocolExtensionContainer { { GANSS-IonosphereRegionalStormFlags-ExtIEs } } OPTIONAL,
	...
}

GANSS-IonosphereRegionalStormFlags-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-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)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-NAVclockModel-ExtIEs } }	OPTIONAL,
	...
}

GANSS-NAVclockModel-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Navigation-Model-And-Time-Recovery ::= SEQUENCE {
	ganss-Transmission-Time		GANSS-Transmission-Time,
	non-broadcastIndication		ENUMERATED{true}		OPTIONAL,
	ganssSatInfoNav				GANSS-Sat-Info-Nav,
	ie-Extensions				ProtocolExtensionContainer { { GANSS-Navigation-Model-And-Time-Recovery-ExtIEs } } OPTIONAL,
	...
}

GANSS-Navigation-Model-And-Time-Recovery-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-NavModel-BDSKeplerianSet ::= 		SEQUENCE {
	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)),
	bdsAODE				BIT STRING (SIZE (5)),
	iE-Extensions		ProtocolExtensionContainer { { GANSS-NavModel-BDSKeplerianSet-ExtIEs } } OPTIONAL,
	...
}

GANSS-NavModel-BDSKeplerianSet-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-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)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-NavModel-CNAVKeplerianSet-ExtIEs } }	OPTIONAL,
	...
}

GANSS-NavModel-CNAVKeplerianSet-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-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)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-NavModel-GLONASSecef-ExtIEs } }	OPTIONAL,
	...
}

GANSS-NavModel-GLONASSecef-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


GANSS-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)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-NavModel-NAVKeplerianSet-ExtIEs } }	OPTIONAL,
	...
}

GANSS-NavModel-NAVKeplerianSet-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-NavModel-SBASecef ::= SEQUENCE {
	-- the following IE shall be present if ‘GANSS-SBASclockModel’ in ‘GANSS-AddClockModels’ is not included in ‘Ganss-Sat-Info-AddNavList’
	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)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-NavModel-SBASecef-ExtIEs } }	OPTIONAL,
	...
}


GANSS-NavModel-SBASecef-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Orbit-Model ::= CHOICE {
	gANSS-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)),
		ie-Extensions		 				ProtocolExtensionContainer { { GANSS-KeplerianParametersOrb-ExtIEs } }		OPTIONAL,
		...
	},
	...
}

GANSS-KeplerianParametersOrb-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Real-Time-Integrity ::= SEQUENCE (SIZE (1..maxGANSSSat)) OF SEQUENCE {
	bad-ganss-satId						INTEGER(0..63),
	bad-ganss-signalId					BIT STRING(SIZE(8))											OPTIONAL,
	ie-Extensions						ProtocolExtensionContainer { { GANSS-RealTimeInformationItem-ExtIEs } }	OPTIONAL,
	...
}

GANSS-RealTimeInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-RX-Pos ::= SEQUENCE {
	latitudeSign			ENUMERATED{north,south},
	degreesOfLatitude		INTEGER(0..2147483647),
	degreesOfLongitude		INTEGER(-2147483648..2147483647),
	directionOfAltitude		ENUMERATED{height,depth},
	altitude				INTEGER(0..32767),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-RX-Pos-ExtIEs } }	OPTIONAL,
	...
}

GANSS-RX-Pos-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-SatelliteInformationKP ::= SEQUENCE (SIZE (1..maxGANSSSatAlmanac)) OF SEQUENCE {
	satId								INTEGER(0..63),
	ganss-e-alm							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)),
	ie-Extensions						ProtocolExtensionContainer { { GANSS-SatelliteInformationKPItem-ExtIEs } }	OPTIONAL,
	...
}

GANSS-SatelliteInformationKPItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Ganss-Sat-Info-AddNavList ::= SEQUENCE (SIZE (1..maxGANSSSat)) OF SEQUENCE {
	satId						INTEGER (0..63),
	svHealth					BIT STRING (SIZE (9)),
	iod							BIT STRING (SIZE (11)),
	ganssAddClockModels			GANSS-AddClockModels,
	ganssAddOrbitModels			GANSS-AddOrbitModels,
	ie-Extensions				ProtocolExtensionContainer { { Ganss-Sat-Info-AddNavList-ExtIEs } } OPTIONAL,
	...
}

Ganss-Sat-Info-AddNavList-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-SAT-Info-Almanac-BDSkpList ::= SEQUENCE (SIZE (1.. maxGANSSSatAlmanac)) OF GANSS-SAT-Info-Almanac-BDS

GANSS-SAT-Info-Almanac-BDS ::= SEQUENCE {
	satId					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,
-- Mondatory if the IE “Sat ID” is between 0 and 29 and not needed otherwise
	iE-Extensions			ProtocolExtensionContainer { { GANSS-SAT-Info-Almanac-BDS-ExtIEs } } OPTIONAL,
	...
}

GANSS-SAT-Info-Almanac-BDS-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-SAT-Info-Almanac-GLOkpList ::= SEQUENCE (SIZE (1.. maxGANSSSatAlmanac)) OF 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,
	ie-Extensions			ProtocolExtensionContainer { { GANSS-SAT-Info-Almanac-GLOkp-ExtIEs } }	OPTIONAL,
	...
}

GANSS-SAT-Info-Almanac-GLOkp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-SAT-Info-Almanac-MIDIkpList ::= SEQUENCE (SIZE (1.. maxGANSSSatAlmanac)) OF 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)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-SAT-Info-Almanac-MIDIkp-ExtIEs } }	OPTIONAL,
	...
}

GANSS-SAT-Info-Almanac-MIDIkp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-SAT-Info-Almanac-NAVkpList ::= SEQUENCE (SIZE (1.. maxGANSSSatAlmanac)) OF 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)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-SAT-Info-Almanac-NAVkp-ExtIEs } }	OPTIONAL,
	...
}

GANSS-SAT-Info-Almanac-NAVkp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-SAT-Info-Almanac-REDkpList ::= SEQUENCE (SIZE (1.. maxGANSSSatAlmanac)) OF 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)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-SAT-Info-Almanac-REDkp-ExtIEs } }	OPTIONAL,
	...
}

GANSS-SAT-Info-Almanac-REDkp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-SAT-Info-Almanac-SBASecefList ::= SEQUENCE (SIZE (1.. maxGANSSSatAlmanac)) OF 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)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-SAT-Info-Almanac-SBASecef-ExtIEs } }	OPTIONAL,
	...
}

GANSS-SAT-Info-Almanac-SBASecef-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


GANSS-Sat-Info-Nav ::= SEQUENCE (SIZE(1..maxGANSSSat)) OF SEQUENCE {
	satId						INTEGER(0..63),
	svHealth					BIT STRING (SIZE(5)),
	iod							BIT STRING (SIZE(10)),
	ganssClockModel				GANSS-Clock-Model,
	ganssOrbitModel				GANSS-Orbit-Model,
	ie-Extensions				ProtocolExtensionContainer { { GANSS-Sat-Info-Nav-ExtIEs } } OPTIONAL,
	...
}

GANSS-Sat-Info-Nav-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-SBAS-ID ::= ENUMERATED {
			waas,
			egnos,
			msas,
			gagan,
			...
			}

GANSS-SBASclockModel ::= SEQUENCE {
	sbasTo					BIT STRING (SIZE (13)),
	sbasAgfo				BIT STRING (SIZE (12)),
	sbasAgf1				BIT STRING (SIZE (8)),
	ie-Extensions			ProtocolExtensionContainer { { GANSS-SBASclockModel-ExtIEs } }	OPTIONAL,
	...
}

GANSS-SBASclockModel-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-Signal-ID ::= INTEGER(0..7,...)

GANSS-StatusHealth ::= ENUMERATED {
	udre-scale-1dot0,
	udre-scale-0dot75,
	udre-scale-0dot5,
	udre-scale-0dot3,
	udre-scale-0dot2,
	udre-scale-0dot1,
	no-data,
	invalid-data
}

GANSS-Time-ID	::= INTEGER(0..7,...)

GANSS-Time-Model ::= SEQUENCE {
	ganss-time-model-Ref-Time			INTEGER(0..37799),
	ganss-t-a0							INTEGER(-2147483648..2147483647),
	ganss-t-a1							INTEGER(-8388608..8388607)									OPTIONAL,
	ganss-t-a2							INTEGER(-64..63)											OPTIONAL,
	gnss-to-id							ENUMERATED{gps,...,galileo,qzss,glonass,bds},
	ganss-wk-number						INTEGER(0..8191)											OPTIONAL,
	ie-Extensions						ProtocolExtensionContainer { { GANSS-Time-Model-ExtIEs } }	OPTIONAL,
	...
}

GANSS-Time-Model-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-ganss-Delta-T	CRITICALITY ignore	EXTENSION GANSS-Delta-T	PRESENCE optional},
	...
}

GANSS-Transmission-Time ::= SEQUENCE {
	ganssDay					INTEGER(0..8191)															OPTIONAL,
	ganssTod					INTEGER(0..86399),
	ie-Extensions				ProtocolExtensionContainer { { GANSS-Transmission-Time-ExtIEs } } 		OPTIONAL,
	...
}

GANSS-Transmission-Time-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-UTC-Model ::= SEQUENCE {
	a-one-utc							BIT STRING (SIZE (24)),
	a-zero-utc							BIT STRING (SIZE (32)),
	t-ot-utc							BIT STRING (SIZE (8)),
	w-n-t-utc							BIT STRING (SIZE (8)),
	delta-t-ls-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)),
	ie-Extensions						ProtocolExtensionContainer { { GANSS-UTC-Model-ExtIEs } }	OPTIONAL,
	...
}

GANSS-UTC-Model-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-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)),
	ie-Extensions		ProtocolExtensionContainer { { GANSS-UTCmodelSet1-ExtIEs } }	OPTIONAL,
	...
}

GANSS-UTCmodelSet1-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-UTCmodelSet2 ::= SEQUENCE {
	nA					BIT STRING (SIZE(11)),
	tauC				BIT STRING (SIZE(32)),
	deltaUT1			GANSS-DeltaUT1													OPTIONAL,
	kp					BIT STRING (SIZE(2)) 											OPTIONAL,
	ie-Extensions		ProtocolExtensionContainer { { GANSS-UTCmodelSet2-ExtIEs } }	OPTIONAL,
	...
}

GANSS-UTCmodelSet2-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-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)),
	ie-Extensions		ProtocolExtensionContainer { { GANSS-UTCmodelSet3-ExtIEs } }	OPTIONAL,
	...
}

GANSS-UTCmodelSet3-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GANSS-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)),
	iE-Extensions	ProtocolExtensionContainer { { GANSS-UTCmodelSet4-ExtIEs } } OPTIONAL,
	...
}

GANSS-UTCmodelSet4-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GA-PointWithAltitude ::= SEQUENCE {
	geographicalCoordinates		GeographicalCoordinate,
	altitudeAndDirection		GA-AltitudeAndDirection,
	iE-Extensions				ProtocolExtensionContainer { { GA-PointWithAltitude-ExtIEs} } OPTIONAL,
	...
}

GA-PointWithAltitude-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GA-PointWithAltitudeAndUncertaintyEllipsoid ::= SEQUENCE {
	geographicalCoordinates		GeographicalCoordinate,
	altitudeAndDirection		GA-AltitudeAndDirection,
	uncertaintyEllipse			GA-UncertaintyEllipse,
	uncertaintyAltitude			INTEGER (0..127),
	confidence					INTEGER (0..127),
	iE-Extensions				ProtocolExtensionContainer { { GA-PointWithAltitudeAndUncertaintyEllipsoid-ExtIEs} } OPTIONAL,
	...
}

GA-PointWithAltitudeAndUncertaintyEllipsoid-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GA-PointWithUnCertaintyEllipse ::= SEQUENCE {
	geographicalCoordinates		GeographicalCoordinate,
	uncertaintyEllipse			GA-UncertaintyEllipse,
	confidence					INTEGER (0..127),
	iE-Extensions				ProtocolExtensionContainer { { GA-PointWithUnCertaintyEllipse-ExtIEs} } OPTIONAL,
	...
}

GA-PointWithUnCertaintyEllipse-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GA-UncertaintyEllipse ::= SEQUENCE {
	uncertaintySemi-major		INTEGER (0..127),
	uncertaintySemi-minor		INTEGER (0..127),
	orientationOfMajorAxis		INTEGER (0..179),	-- The values 90..179 shall not be used.
	...
}

GA-PointWithUnCertainty ::=SEQUENCE {
	geographicalCoordinates		GeographicalCoordinate,
	uncertaintyCode				INTEGER (0..127),
	iE-Extensions				ProtocolExtensionContainer { {GA-PointWithUnCertainty-ExtIEs} } OPTIONAL,
	...
}

GA-PointWithUnCertainty-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GA-AccessPointPosition ::= SEQUENCE {
	geographicalCoordinate		GeographicalCoordinate,
	iE-Extensions				ProtocolExtensionContainer { {GA-AccessPoint-ExtIEs} } OPTIONAL,
	...
}

GA-AccessPoint-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GeographicalCoordinate ::= SEQUENCE {
	latitudeSign		ENUMERATED { north, south },
	latitude			INTEGER (0..8388607),
	longitude			INTEGER (-8388608..8388607),
	iE-Extensions		ProtocolExtensionContainer { {GeographicalCoordinate-ExtIEs} } OPTIONAL,
	...
}

GeographicalCoordinate-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GERAN-Cell-Capability ::= BIT STRING (SIZE (16))
-- First bit: A/Gb mode --
-- Second bit: Iu mode --
-- Note: undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver. –

GERAN-Classmark ::= OCTET STRING
	-- GERAN Classmark as defined in (38) --

GERAN-SI-Type ::= CHOICE {
	sI							GERAN-SystemInfo,
	pSI							GERAN-SystemInfo,
	...
}

GERAN-SystemInfo ::= SEQUENCE (SIZE (1..maxNrOfGERANSI)) OF
		SEQUENCE {
			gERAN-SI-block		OCTET STRING (SIZE (1..23)),
			iE-Extensions		ProtocolExtensionContainer { { GERAN-SystemInfo-ExtIEs } }		OPTIONAL,
			...
}

GERAN-SystemInfo-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GenericTrafficCategory ::= BIT STRING (SIZE (8))

GPS-Almanac ::= SEQUENCE {
	wna-alm							BIT STRING (SIZE (8)),
	satellite-Almanac-Information	SEQUENCE (SIZE (1..maxNoSat)) OF
		SEQUENCE {
			dATA-ID				DATA-ID,
			sAT-ID				SAT-ID,
			gps-e-alm			BIT STRING (SIZE (16)),
			gps-toa-alm			BIT STRING (SIZE (8)), 
			gps-delta-I-alm		BIT STRING (SIZE (16)),
			omegadot-alm		BIT STRING (SIZE (16)),
			svhealth-alm		BIT STRING (SIZE (8)),
			gps-a-sqrt-alm		BIT STRING (SIZE (24)),
			omegazero-alm		BIT STRING (SIZE (24)),
			m-zero-alm			BIT STRING (SIZE (24)),
			gps-omega-alm		BIT STRING (SIZE (24)),
			gps-af-zero-alm		BIT STRING (SIZE (11)),
			gps-af-one-alm		BIT STRING (SIZE (11)),
			iE-Extensions		ProtocolExtensionContainer { { Satellite-Almanac-Information-ExtIEs} }		OPTIONAL,
			...
		},
	-- This GPS-Almanac-Information is for the 1st 16 satellites
	sVGlobalHealth-alm		BIT STRING (SIZE (364))		OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { GPS-Almanac-ExtIEs} }		OPTIONAL,
	...
}

Satellite-Almanac-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
} 

GPS-Almanac-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Satellite-Almanac-Information-ExtItem	CRITICALITY ignore	EXTENSION Satellite-Almanac-Information-ExtItem		PRESENCE optional}|
	{ ID id-completeAlmanacProvided					CRITICALITY ignore	EXTENSION CompleteAlmanacProvided			PRESENCE optional},
	...
}

Satellite-Almanac-Information-ExtItem ::= SEQUENCE (SIZE (1..maxNrOfSatAlmanac-maxNoSat)) OF
		SEQUENCE {
			dATA-ID				DATA-ID,
			sAT-ID				SAT-ID,
			gps-e-alm			BIT STRING (SIZE (16)),
			gps-toa-alm			BIT STRING (SIZE (8)), 
			gps-delta-I-alm		BIT STRING (SIZE (16)),
			omegadot-alm		BIT STRING (SIZE (16)),
			svhealth-alm		BIT STRING (SIZE (8)),
			gps-a-sqrt-alm		BIT STRING (SIZE (24)),
			omegazero-alm		BIT STRING (SIZE (24)),
			m-zero-alm			BIT STRING (SIZE (24)),
			gps-omega-alm		BIT STRING (SIZE (24)),
			gps-af-zero-alm		BIT STRING (SIZE (11)),
			gps-af-one-alm		BIT STRING (SIZE (11)),
			iE-Extensions		ProtocolExtensionContainer { { Satellite-Almanac-Information-ExtItemIEs} }		OPTIONAL,
			...
		}
--	Includes the GPS-Almanac-Information for the 17th through 32nd satellites.

Satellite-Almanac-Information-ExtItemIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GPSInformation ::= SEQUENCE (SIZE (1..maxNoGPSTypes)) OF
	SEQUENCE {
		gPSInformationItem		ENUMERATED {
			gPS-NavigationModel-and-TimeRecovery,
			gPS-Ionospheric-Model,
			gPS-UTC-Model,
			gPS-Almanac,
			gPS-RealTime-Integrity,
			...
		},
		iE-Extensions			ProtocolExtensionContainer { { GPSInformation-ExtIEs} }		OPTIONAL,
		...
	}
-- This IE shall be present if the Information Type IE indicates ‘GPS Information’

GPSInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GPS-Ionospheric-Model ::= SEQUENCE {
	alpha-zero-ionos		BIT STRING (SIZE (8)),
	alpha-one-ionos			BIT STRING (SIZE (8)),
	alpha-two-ionos			BIT STRING (SIZE (8)),
	alpha-three-ionos		BIT STRING (SIZE (8)),
	beta-zero-ionos			BIT STRING (SIZE (8)),
	beta-one-ionos			BIT STRING (SIZE (8)),
	beta-two-ionos			BIT STRING (SIZE (8)),
	beta-three-ionos		BIT STRING (SIZE (8)),
	iE-Extensions			ProtocolExtensionContainer { { GPS-Ionospheric-Model-ExtIEs} }		OPTIONAL,
	...
}

GPS-Ionospheric-Model-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GPS-NavigationModel-and-TimeRecovery ::= SEQUENCE (SIZE (1..maxNoSat)) OF
	SEQUENCE {
		tx-tow-nav						INTEGER (0..1048575),
		sAT-ID							SAT-ID,
		tlm-message-nav					BIT STRING (SIZE (14)),
		tlm-revd-c-nav					BIT STRING (SIZE (2)),
		ho-word-nav						BIT STRING (SIZE (22)),
		w-n-nav							BIT STRING (SIZE (10)),
		ca-or-p-on-l2-nav				BIT STRING (SIZE (2)),
		user-range-accuracy-index-nav	BIT STRING (SIZE (4)),
		sv-health-nav					BIT STRING (SIZE (6)),
		iodc-nav						BIT STRING (SIZE (10)),
		l2-p-dataflag-nav				BIT STRING (SIZE (1)),
		sf1-reserved-nav				BIT STRING (SIZE (87)),
		t-gd-nav						BIT STRING (SIZE (8)),
		t-oc-nav						BIT STRING (SIZE (16)),
		a-f-2-nav						BIT STRING (SIZE (8)),
		a-f-1-nav						BIT STRING (SIZE (16)),
		a-f-zero-nav					BIT STRING (SIZE (22)),
		c-rs-nav						BIT STRING (SIZE (16)),
		delta-n-nav						BIT STRING (SIZE (16)),
		m-zero-nav						BIT STRING (SIZE (32)),
		c-uc-nav						BIT STRING (SIZE (16)),
		gps-e-nav						BIT STRING (SIZE (32)),
		c-us-nav						BIT STRING (SIZE (16)),
		a-sqrt-nav						BIT STRING (SIZE (32)),
		t-oe-nav						BIT STRING (SIZE (16)),
		fit-interval-flag-nav			BIT STRING (SIZE (1)),
		aodo-nav						BIT STRING (SIZE (5)),
		c-ic-nav						BIT STRING (SIZE (16)),
		omega-zero-nav					BIT STRING (SIZE (32)),
		c-is-nav						BIT STRING (SIZE (16)),
		i-zero-nav						BIT STRING (SIZE (32)),
		c-rc-nav						BIT STRING (SIZE (16)),
		gps-omega-nav					BIT STRING (SIZE (32)),
		omegadot-nav					BIT STRING (SIZE (24)),
		idot-nav						BIT STRING (SIZE (14)),
		spare-zero-fill					BIT STRING (SIZE (20)),
		iE-Extensions					ProtocolExtensionContainer { { GPS-NavigationModel-and-TimeRecoveryItem-ExtIEs} }		OPTIONAL,
		...
	}

GPS-NavigationModel-and-TimeRecoveryItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GPS-RealTime-Integrity ::= CHOICE {
	badSatellites				BadSatellites,
	noBadSatellite				NULL
}

GPS-RX-POS ::= SEQUENCE {
	geographicalCoordinate		GeographicalCoordinate,
	altitudeAndDirection		GA-AltitudeAndDirection,
	iE-Extensions				ProtocolExtensionContainer { { GPS-RX-POS-ExtIEs} } OPTIONAL,
	...
}

GPS-RX-POS-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

GPS-Status-Health ::= ENUMERATED {
	udre-1-0,
	udre-0-75,
	udre-0-5,
	udre-0-3,
	udre-0-1,
	no-data,
	invalid-data
}

GPSTOW ::= INTEGER (0..604799)

GPS-UTC-Model ::= 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)),
	iE-Extensions			ProtocolExtensionContainer { { GPS-UTC-Model-ExtIEs} }		OPTIONAL,
	...
}

GPS-UTC-Model-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Guaranteed-Rate-Information	::= SEQUENCE {
	guaranteed-UL-Rate			Guaranteed-Rate OPTIONAL,
	guaranteed-DL-Rate			Guaranteed-Rate OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {Guaranteed-Rate-Information-ExtIEs} } OPTIONAL,
	...
}

Guaranteed-Rate-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Guaranteed-Rate	 ::= INTEGER (1..maxNrOfTFs)
-- “1”: TFI 0, “2”: TFI 1, “3”: TFI 2, ...

-- H

HARQ-Info-for-E-DCH ::= ENUMERATED {
	rv0,
	rvtable
}

HARQ-MemoryPartitioning ::= CHOICE {
	implicit		HARQ-MemoryPartitioning-Implicit,
	explicit		HARQ-MemoryPartitioning-Explicit,
	...
	}

HARQ-MemoryPartitioning-Implicit ::= SEQUENCE {
	number-of-Processes			INTEGER (1..8,...,12|14|16),
	iE-Extensions				ProtocolExtensionContainer { { HARQ-MemoryPartitioning-Implicit-ExtIEs } }			OPTIONAL,
	...
}

HARQ-MemoryPartitioning-Implicit-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HARQ-MemoryPartitioning-Explicit ::= SEQUENCE {
	hARQ-MemoryPartitioningList			HARQ-MemoryPartitioningList,
	iE-Extensions						ProtocolExtensionContainer { { HARQ-MemoryPartitioning-Explicit-ExtIEs } }			OPTIONAL,
	...
}

HARQ-MemoryPartitioning-Explicit-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-HARQ-MemoryPartitioningInfoExtForMIMO	CRITICALITY ignore	EXTENSION HARQ-MemoryPartitioningInfoExtForMIMO	PRESENCE optional},
	...
}

HARQ-MemoryPartitioningList	::= SEQUENCE (SIZE (1..maxNrOfHARQProc)) OF HARQ-MemoryPartitioningItem

HARQ-MemoryPartitioningInfoExtForMIMO ::= SEQUENCE (SIZE (4|6|8)) OF HARQ-MemoryPartitioningItem

HARQ-MemoryPartitioningItem ::= SEQUENCE {
	process-Memory-Size					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,...},
	iE-Extensions						ProtocolExtensionContainer { { HARQ-MemoryPartitioningItem-ExtIEs } }			OPTIONAL,
	...
}

HARQ-MemoryPartitioningItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HARQ-Preamble-Mode ::= ENUMERATED {
mode0,
mode1
}

HARQ-Process-Allocation-2ms-EDCH ::= BIT STRING ( SIZE(maxNrOfEDCHHARQProcesses2msEDCH) )

HARQ-Preamble-Mode-Activation-Indicator	::=ENUMERATED	{
	harqPreambleModeSupported
}

HCS-Prio	::= INTEGER (0..7)
-- 0 = lowest priority, ...7 = highest priority

HS-DSCH-Cell-List ::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF HS-DSCH-Cell

HS-DSCH-Cell ::=SEQUENCE{
	hs-DSCH-Cell-TBS				DL-TBS-Value,
	iE-Extensions					ProtocolExtensionContainer { { HS-DSCH-Cell-ExtIEs} } OPTIONAL,
	...
}

HS-DSCH-Cell-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSDSCH-Configured-Indicator ::= ENUMERATED {
	configured-HS-DSCH,
	no-configured-HS-DSCH
}

HSDSCH-FDD-Information ::= SEQUENCE {
	hSDSCH-MACdFlows-Information				HSDSCH-MACdFlows-Information,
	uE-Capabilities-Info						UE-Capabilities-Info,
	mAChs-Reordering-Buffer-Size-for-RLC-UM		MAChsReorderingBufferSize-for-RLC-UM,
	cqiFeedback-CycleK							CQI-Feedback-Cycle,
	cqiRepetitionFactor							CQI-RepetitionFactor						OPTIONAL,
	-- This IE shall be present if the CQI Feedback Cycle k IE is set to a value greater than 0.
	ackNackRepetitionFactor						AckNack-RepetitionFactor,
	cqiPowerOffset								CQI-Power-Offset,
	ackPowerOffset								Ack-Power-Offset,
	nackPowerOffset								Nack-Power-Offset,
	hsscch-PowerOffset							HSSCCH-PowerOffset							OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { HSDSCH-FDD-Information-ExtIEs } }			OPTIONAL,
	...
}

HSDSCH-FDD-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-HARQ-Preamble-Mode							CRITICALITY ignore	EXTENSION HARQ-Preamble-Mode			PRESENCE optional}|
{ ID id-MIMO-ActivationIndicator					CRITICALITY reject	EXTENSION MIMO-ActivationIndicator			PRESENCE optional}|
{ ID id-HSDSCH-MACdPDUSizeFormat					CRITICALITY reject	EXTENSION HSDSCH-MACdPDUSizeFormat			PRESENCE optional}|
{ ID id-SixtyfourQAM-UsageAllowedIndicator			CRITICALITY ignore	EXTENSION SixtyfourQAM-UsageAllowedIndicator		PRESENCE optional}|
{ ID id-UE-with-enhanced-HS-SCCH-support-indicator	CRITICALITY ignore	EXTENSION NULL						PRESENCE optional}|
{ ID id-EnhancedHSServingCC-Abort					CRITICALITY reject	EXTENSION EnhancedHSServingCC-Abort			PRESENCE optional}|
{ ID id-UE-SupportIndicatorExtension				CRITICALITY ignore	EXTENSION UE-SupportIndicatorExtension			PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-Request-Indicator	CRITICALITY ignore EXTENSION PowerOffsetForSecondaryCPICHforMIMORequestIndicator	PRESENCE optional}|
{ ID id-Single-Stream-MIMO-ActivationIndicator		CRITICALITY reject	EXTENSION Single-Stream-MIMO-ActivationIndicator	PRESENCE optional}|
{ ID id-MIMO-withfourtransmitantennas-ActivationIndicator	CRITICALITY reject	EXTENSION MIMO-withfourtransmitantennas-ActivationIndicator	PRESENCE optional}|
{ ID id-DualStream-MIMO-withfourtransmitantennas-ActivationIndicator	CRITICALITY reject	EXTENSION DualStream-MIMO-withfourtransmitantennas-ActivationIndicator		PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennasRequestIndicator		PRESENCE optional}|
{ ID id-Multiflow-Information						CRITICALITY reject	EXTENSION Multiflow-Information				PRESENCE optional}|
{ ID id-CQI-Feedback-Cycle2-k						CRITICALITY ignore	EXTENSION CQI-Feedback-Cycle2				PRESENCE optional}|
{ ID id-CQI-Cycle-Switch-Timer						CRITICALITY ignore	EXTENSION CQI-Cycle-Switch-Timer				PRESENCE optional},
	...
}

HSDSCH-FDD-Information-Response ::= SEQUENCE {
	hSDSCH-MACdFlow-Specific-InfoList-Response		HSDSCH-MACdFlow-Specific-InfoList-Response													OPTIONAL,
	hSSCCH-Specific-InfoList-Response				HSSCCH-FDD-Specific-InfoList-Response														OPTIONAL,
	hSPDSCH-and-HSSCCH-ScramblingCode				DL-ScramblingCode														OPTIONAL,
	measurement-Power-Offset						Measurement-Power-Offset																	OPTIONAL,
	hARQ-MemoryPartitioning							HARQ-MemoryPartitioning																		OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { HSDSCH-FDD-Information-Response-ExtIEs } }		OPTIONAL,
	...
}

HSDSCH-FDD-Information-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-User-Plane-Congestion-Fields-Inclusion		CRITICALITY ignore	EXTENSION User-Plane-Congestion-Fields-Inclusion	PRESENCE optional}|
{ ID id-HARQ-Preamble-Mode-Activation-Indicator		CRITICALITY ignore	EXTENSION HARQ-Preamble-Mode-Activation-Indicator	PRESENCE optional}|
{ ID id-MIMO-InformationResponse					CRITICALITY ignore	EXTENSION MIMO-InformationResponse			PRESENCE optional}|
{ ID id-SixtyfourQAM-DL-UsageIndicator				CRITICALITY ignore	EXTENSION SixtyfourQAM-DL-UsageIndicator			PRESENCE optional}|
{ ID id-HSDSCH-TBSizeTableIndicator					CRITICALITY ignore	EXTENSION HSDSCH-TBSizeTableIndicator			PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO			CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMO		PRESENCE optional}|
{ ID id-Support-of-Dynamic-DTXDRX-Related-HS-SCCH-Order	CRITICALITY ignore	EXTENSION Support-of-Dynamic-DTXDRX-Related-HS-SCCH-Order	PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennas		PRESENCE optional}|
{ ID id-PrecoderWeightSetRestriction				CRITICALITY ignore	EXTENSION Precoder-Weight-Set-Restriction		PRESENCE optional},
	...
}

HS-DSCH-FDD-Secondary-Serving-Information ::= SEQUENCE {
	hsscch-PowerOffset								HSSCCH-PowerOffset										OPTIONAL,
	sixtyfourQAM-UsageAllowedIndicator				SixtyfourQAM-UsageAllowedIndicator						OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { HS-DSCH-FDD-Secondary-Serving-Information-ExtIEs } }		OPTIONAL,
	...
}

HS-DSCH-FDD-Secondary-Serving-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ID id-MIMO-ActivationIndicator					CRITICALITY reject	EXTENSION MIMO-ActivationIndicator			PRESENCE optional}|
{ID id-Single-Stream-MIMO-ActivationIndicator	CRITICALITY reject	EXTENSION Single-Stream-MIMO-ActivationIndicator	PRESENCE optional}|
{ID id-DiversityMode							CRITICALITY reject	EXTENSION DiversityMode						PRESENCE optional}|
{ID id-TransmitDiversityIndicator				CRITICALITY reject	EXTENSION TransmitDiversityIndicator			PRESENCE optional}|
{ID id-power-offset-for-S-CPICH-for-MIMO-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMORequestIndicator	PRESENCE optional}|
{ID id-OrdinalNumberOfFrequency					CRITICALITY reject	EXTENSION OrdinalNumberOfFrequency			PRESENCE optional}|
{ID id-MIMO-withfourtransmitantennas-ActivationIndicator	CRITICALITY reject	EXTENSION MIMO-withfourtransmitantennas-ActivationIndicator	PRESENCE optional}|
{ID id-DualStream-MIMO-withfourtransmitantennas-ActivationIndicator	CRITICALITY reject	EXTENSION DualStream-MIMO-withfourtransmitantennas-ActivationIndicator		PRESENCE optional}|
{ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennasRequestIndicator		PRESENCE optional}|
{ID id-Multiflow-OrdinalNumberOfFrequency		CRITICALITY reject	EXTENSION Multiflow-OrdinalNumberOfFrequency		PRESENCE optional},
	...
}

HS-DSCH-FDD-Secondary-Serving-Information-Response ::= SEQUENCE {
	hSSCCH-Specific-InfoList-Response		HSSCCH-FDD-Specific-InfoList-Response						OPTIONAL,
	hSPDSCH-and-HSSCCH-ScramblingCode		DL-ScramblingCode											OPTIONAL,
	measurement-Power-Offset				Measurement-Power-Offset									OPTIONAL,
	sixtyfourQAM-DL-UsageIndicator			SixtyfourQAM-DL-UsageIndicator								OPTIONAL,
	hSDSCH-TBSizeTableIndicator				HSDSCH-TBSizeTableIndicator									OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { HS-DSCH-FDD-Secondary-Serving-Information-Respons-ExtIEs } }			OPTIONAL,
	...
}

HS-DSCH-FDD-Secondary-Serving-Information-Respons-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ID id-MIMO-InformationResponse				CRITICALITY ignore	EXTENSION MIMO-InformationResponse		PRESENCE optional}|
{ID id-power-offset-for-S-CPICH-for-MIMO	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMO	PRESENCE optional}|
{ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennas		PRESENCE optional}|
{ID id-PrecoderWeightSetRestriction			CRITICALITY ignore	EXTENSION Precoder-Weight-Set-Restriction	PRESENCE optional},
	...
}

HS-DSCH-Secondary-Serving-Information-To-Modify ::= SEQUENCE {
	hsscch-PowerOffset							HSSCCH-PowerOffset									OPTIONAL,
	hSSCCH-CodeChangeGrant						HSSCCH-Code-Change-Grant							OPTIONAL,
	sixtyfourQAM-UsageAllowedIndicator			SixtyfourQAM-UsageAllowedIndicator					OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { HS-DSCH-Secondary-Serving-Information-To-Modify-ExtIEs } }		OPTIONAL,
	...
}

HS-DSCH-Secondary-Serving-Information-To-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ID id-MIMO-Mode-Indicator							CRITICALITY reject	EXTENSION MIMO-Mode-Indicator				PRESENCE optional}|
{ID id-Single-Stream-MIMO-Mode-Indicator			CRITICALITY reject	EXTENSION Single-Stream-MIMO-Mode-Indicator		PRESENCE optional}|
{ID id-DiversityMode								CRITICALITY reject	EXTENSION DiversityMode						PRESENCE optional}|
{ID id-TransmitDiversityIndicator					CRITICALITY reject	EXTENSION TransmitDiversityIndicator			PRESENCE optional}|
-- This IE shall be present if Diversity Mode IE is present and is not set to “none”
{ID id-NonCellSpecificTxDiversity					CRITICALITY reject	EXTENSION NonCellSpecificTxDiversity			PRESENCE optional}|
{ID id-power-offset-for-S-CPICH-for-MIMO-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMORequestIndicator		PRESENCE optional}|
{ID id-OrdinalNumberOfFrequency						CRITICALITY reject	EXTENSION OrdinalNumberOfFrequency			PRESENCE optional}|
{ID id-MIMO-withfourtransmitantennas-ModeIndicator	CRITICALITY reject	EXTENSION MIMO-withfourtransmitantennas-ModeIndicator	PRESENCE optional}|
{ID id-DualStream-MIMO-withfourtransmitantennas-ModeIndicator	CRITICALITY reject	EXTENSION DualStream-MIMO-withfourtransmitantennas-ModeIndicator	PRESENCE optional}|
{ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennasRequestIndicator			PRESENCE optional}|
	{ID id-Multiflow-OrdinalNumberOfFrequency		CRITICALITY reject	EXTENSION Multiflow-OrdinalNumberOfFrequency		PRESENCE optional},
	...
}

HS-DSCH-FDD-Secondary-Serving-Information-To-Modify-Unsynchronised ::= SEQUENCE {
	hsscch-PowerOffset							HSSCCH-PowerOffset									OPTIONAL,
	sixtyfourQAM-UsageAllowedIndicator			SixtyfourQAM-UsageAllowedIndicator					OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { HS-DSCH-FDD-Secondary-Serving-Information-To-Modify-Unsynchronised-ExtIEs } }			OPTIONAL,
	...
}

HS-DSCH-FDD-Secondary-Serving-Information-To-Modify-Unsynchronised-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ID id-MIMO-Mode-Indicator							CRITICALITY reject	EXTENSION MIMO-Mode-Indicator				PRESENCE optional}|
{ID id-Single-Stream-MIMO-Mode-Indicator			CRITICALITY reject	EXTENSION Single-Stream-MIMO-Mode-Indicator		PRESENCE optional}|
{ID id-power-offset-for-S-CPICH-for-MIMO-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMORequestIndicator	PRESENCE optional}|
{ID id-OrdinalNumberOfFrequency						CRITICALITY reject	EXTENSION OrdinalNumberOfFrequency			PRESENCE optional}|
{ID id-MIMO-withfourtransmitantennas-ModeIndicator	CRITICALITY reject	EXTENSION MIMO-withfourtransmitantennas-ModeIndicator	PRESENCE optional}|
{ID id-DualStream-MIMO-withfourtransmitantennas-ModeIndicator	CRITICALITY reject	EXTENSION DualStream-MIMO-withfourtransmitantennas-ModeIndicator PRESENCE optional}|
{ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennasRequestIndicator		PRESENCE optional}|
	{ID id-Multiflow-OrdinalNumberOfFrequency		CRITICALITY reject	EXTENSION Multiflow-OrdinalNumberOfFrequency		PRESENCE optional},
	...
}

HS-DSCH-FDD-Secondary-Serving-Update-Information ::= SEQUENCE {
	hsSCCHCodeChangeIndicator					HSSCCH-CodeChangeIndicator					OPTIONAL,
	hS-PDSCH-Code-Change-Indicator				HS-PDSCH-Code-Change-Indicator				OPTIONAL,
	-- This IE shall never be included. If received it shall be ignored.
	iE-Extensions								ProtocolExtensionContainer { { HS-DSCH-FDD-Secondary-Serving-Update-Information-ExtIEs } }		OPTIONAL,
	...
}

HS-DSCH-FDD-Secondary-Serving-Update-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-PrecoderWeightSetRestriction		CRITICALITY ignore	EXTENSION Precoder-Weight-Set-Restriction		PRESENCE optional},
	...
}

HS-DSCH-Secondary-Serving-Cell-Change-Information-Response ::= SEQUENCE {
	hS-DSCH-Secondary-Serving-cell-choice		HS-DSCH-Secondary-Serving-cell-change-choice,
	iE-Extensions								ProtocolExtensionContainer { { HS-DSCH-Secondary-Serving-Cell-Change-Information-Response-ExtIEs } }		OPTIONAL,
	...
}

HS-DSCH-Secondary-Serving-Cell-Change-Information-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-DSCH-Secondary-Serving-cell-change-choice ::= CHOICE {
	hS-Secondary-Serving-cell-change-successful			HS-Secondary-Serving-cell-change-successful,
	hS-Secondary-Serving-cell-change-unsuccessful		HS-Secondary-Serving-cell-change-unsuccessful,
	...
}

HS-Secondary-Serving-cell-change-successful ::= SEQUENCE {
	hS-DSCH-FDD-Secondary-Serving-Information-Response		HS-DSCH-FDD-Secondary-Serving-Information-Response,
	hSDSCH-RNTI												HSDSCH-RNTI, 
	iE-Extensions						ProtocolExtensionContainer { { HS-Secondary-Serving-cell-change-successful-ExtIEs} } OPTIONAL,
	...
}

HS-Secondary-Serving-cell-change-successful-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-Secondary-Serving-cell-change-unsuccessful ::= SEQUENCE {
	cause							Cause,
	iE-Extensions					ProtocolExtensionContainer { { HS-Secondary-Serving-cell-change-unsuccessful-ExtIEs} } OPTIONAL,
	...
}

HS-Secondary-Serving-cell-change-unsuccessful-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}
HS-DSCH-Secondary-Serving-Remove ::= NULL


HSDSCH-Information-to-Modify ::= SEQUENCE {
	hSDSCH-MACdFlow-Specific-InfoList-to-Modify		HSDSCH-MACdFlow-Specific-InfoList-to-Modify			OPTIONAL,
	priorityQueue-Info-to-Modify					PriorityQueue-InfoList-to-Modify					OPTIONAL,
	mAChs-Reordering-Buffer-Size-for-RLC-UM			MAChsReorderingBufferSize-for-RLC-UM				OPTIONAL,
	cqiFeedback-CycleK								CQI-Feedback-Cycle									OPTIONAL, 	-- For FDD only
	cqiRepetitionFactor								CQI-RepetitionFactor								OPTIONAL,	-- For FDD only
	ackNackRepetitionFactor							AckNack-RepetitionFactor							OPTIONAL,	-- For FDD only
	cqiPowerOffset									CQI-Power-Offset									OPTIONAL,	-- For FDD only
	ackPowerOffset									Ack-Power-Offset									OPTIONAL,	-- For FDD only
	nackPowerOffset									Nack-Power-Offset									OPTIONAL,	-- For FDD only
	hsscch-PowerOffset								HSSCCH-PowerOffset									OPTIONAL,	-- For FDD only
	hSSCCH-CodeChangeGrant							HSSCCH-Code-Change-Grant							OPTIONAL,
	tDDAckNackPowerOffset							TDD-AckNack-Power-Offset							OPTIONAL,	-- For TDD only
	iE-Extensions									ProtocolExtensionContainer { { HSDSCH-Information-to-Modify-ExtIEs } }		OPTIONAL,
	...
}

HSDSCH-Information-to-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-HARQ-Preamble-Mode					CRITICALITY ignore	EXTENSION HARQ-Preamble-Mode						PRESENCE optional}|
{ ID id-HS-PDSCH-Code-Change-Grant			CRITICALITY ignore	EXTENSION HS-PDSCH-Code-Change-Grant			PRESENCE optional}|
	 -- Applicable to FDD only
{ ID id-MIMO-Mode-Indicator					CRITICALITY reject	EXTENSION MIMO-Mode-Indicator						PRESENCE optional}|
{ ID id-HSDSCH-MACdPDUSizeFormat			CRITICALITY reject	EXTENSION HSDSCH-MACdPDUSizeFormat 				PRESENCE optional}|
{ ID id-SixtyfourQAM-UsageAllowedIndicator	CRITICALITY ignore	EXTENSION SixtyfourQAM-UsageAllowedIndicator			PRESENCE optional}|
{ ID id-UE-Capabilities-Info				CRITICALITY	ignore	EXTENSION UE-Capabilities-Info						PRESENCE optional}|
{ ID id-EnhancedHSServingCC-Abort			CRITICALITY reject	EXTENSION EnhancedHSServingCC-Abort				PRESENCE optional}|
{ ID id-UE-SupportIndicatorExtension		CRITICALITY ignore	EXTENSION UE-SupportIndicatorExtension				PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMORequestIndicator		PRESENCE optional}|
{ ID id-Single-Stream-MIMO-Mode-Indicator	CRITICALITY reject	EXTENSION Single-Stream-MIMO-Mode-Indicator			PRESENCE optional}|
{ ID id-MIMO-withfourtransmitantennas-ModeIndicator	CRITICALITY reject	EXTENSION MIMO-withfourtransmitantennas-ModeIndicator	PRESENCE optional}|
{ ID id-DualStream-MIMO-withfourtransmitantennas-ModeIndicator	CRITICALITY reject	EXTENSION DualStream-MIMO-withfourtransmitantennas-ModeIndicator	PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennasRequestIndicator		PRESENCE optional}|
{ ID id-Multiflow-Reconfiguration			CRITICALITY reject	EXTENSION Multiflow-Reconfiguration				PRESENCE optional}|
{ ID id-CQI-Feedback-Cycle2-k				CRITICALITY ignore	EXTENSION CQI-Feedback-Cycle2						PRESENCE optional}|
{ ID id-CQI-Cycle-Switch-Timer				CRITICALITY ignore	EXTENSION CQI-Cycle-Switch-Timer					PRESENCE optional},
	...
}

HSDSCH-Information-to-Modify-Unsynchronised ::= SEQUENCE {
	hSDSCH-MACdFlow-Specific-InfoList-to-Modify		HSDSCH-MACdFlow-Specific-InfoList-to-Modify			OPTIONAL,
	priorityQueueInfotoModifyUnsynchronised			PriorityQueue-InfoList-to-Modify-Unsynchronised	OPTIONAL,
	cqiPowerOffset									CQI-Power-Offset									OPTIONAL,	-- For FDD only
	ackPowerOffset									Ack-Power-Offset									OPTIONAL,	-- For FDD only
	nackPowerOffset									Nack-Power-Offset									OPTIONAL,	-- For FDD only
	hsscch-PowerOffset								HSSCCH-PowerOffset									OPTIONAL,	-- Only for FDD
	tDDAckNackPowerOffset							TDD-AckNack-Power-Offset							OPTIONAL,	-- For TDD only
	iE-Extensions									ProtocolExtensionContainer { { HSDSCH-Information-to-Modify-Unsynchronised-ExtIEs } }	OPTIONAL,
	...
}

HSDSCH-Information-to-Modify-Unsynchronised-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-HARQ-Preamble-Mode					CRITICALITY ignore	EXTENSION HARQ-Preamble-Mode						PRESENCE optional}|
{ ID id-MIMO-Mode-Indicator					CRITICALITY reject	EXTENSION MIMO-Mode-Indicator						PRESENCE optional}|
{ ID id-SixtyfourQAM-UsageAllowedIndicator	CRITICALITY ignore	EXTENSION SixtyfourQAM-UsageAllowedIndicator			PRESENCE optional}|
{ ID id-EnhancedHSServingCC-Abort			CRITICALITY reject	EXTENSION EnhancedHSServingCC-Abort				PRESENCE optional}|
{ ID id-UE-SupportIndicatorExtension		CRITICALITY ignore	EXTENSION UE-SupportIndicatorExtension				PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMORequestIndicator		PRESENCE optional}|
{ ID id-Single-Stream-MIMO-Mode-Indicator	CRITICALITY reject	EXTENSION Single-Stream-MIMO-Mode-Indicator			PRESENCE optional}|
{ ID id-MIMO-withfourtransmitantennas-ModeIndicator		CRITICALITY reject	EXTENSION	MIMO-withfourtransmitantennas-ModeIndicator	PRESENCE optional}|
{ ID id-DualStream-MIMO-withfourtransmitantennas-ModeIndicator	CRITICALITY reject	EXTENSION	DualStream-MIMO-withfourtransmitantennas-ModeIndicator PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennasRequestIndicator			PRESENCE optional}|
{ ID id-Multiflow-Reconfiguration			CRITICALITY reject	EXTENSION Multiflow-Reconfiguration				PRESENCE optional},
	...
}

HSDSCH-MACdFlow-ID ::= INTEGER (0..maxNrOfMACdFlows-1)

HSDSCH-MACdFlow-Specific-InfoList ::= SEQUENCE (SIZE (1..maxNrOfMACdFlows)) OF HSDSCH-MACdFlow-Specific-InfoItem

HSDSCH-MACdPDUSizeFormat ::= ENUMERATED {
	indexedMACdPDU-Size,
	flexibleMACdPDU-Size
}

HSDSCH-MACdFlow-Specific-InfoItem ::= SEQUENCE {
	hSDSCH-MACdFlow-ID					HSDSCH-MACdFlow-ID,
	allocationRetentionPriority			AllocationRetentionPriority,
	trafficClass						TrafficClass,
	bindingID							BindingID								OPTIONAL,
	transportLayerAddress				TransportLayerAddress					OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { HSDSCH-MACdFlow-Specific-InfoItem-ExtIEs } }			OPTIONAL,
	...
}

HSDSCH-MACdFlow-Specific-InfoItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-TnlQos					CRITICALITY ignore	EXTENSION TnlQos						PRESENCE optional}|
	{ID id-TrCH-SrcStatisticsDescr	CRITICALITY ignore	EXTENSION TrCH-SrcStatisticsDescr		PRESENCE optional},
	...
}

HSDSCH-MACdFlow-Specific-InfoList-Response ::= SEQUENCE (SIZE (0..maxNrOfMACdFlows)) OF HSDSCH-MACdFlow-Specific-InfoItem-Response

HSDSCH-MACdFlow-Specific-InfoItem-Response ::= SEQUENCE {
	hSDSCH-MACdFlow-ID					HSDSCH-MACdFlow-ID,
	bindingID							BindingID								OPTIONAL,
	transportLayerAddress				TransportLayerAddress					OPTIONAL,
	hSDSCH-Initial-Capacity-Allocation	HSDSCH-Initial-Capacity-Allocation		OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { HSDSCH-MACdFlow-Specific-InfoItem-Response-ExtIEs } }		OPTIONAL,
	...
}

HSDSCH-MACdFlow-Specific-InfoItem-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSDSCH-MACdFlow-Specific-InfoList-to-Modify ::= SEQUENCE (SIZE (1..maxNrOfMACdFlows)) OF HSDSCH-MACdFlow-Specific-InfoItem-to-Modify

HSDSCH-MACdFlow-Specific-InfoItem-to-Modify ::= SEQUENCE {
	hSDSCH-MACdFlow-ID					HSDSCH-MACdFlow-ID,
	allocationRetentionPriority			AllocationRetentionPriority				OPTIONAL,
	transportBearerRequestIndicator		TransportBearerRequestIndicator,
	trafficClass						TrafficClass							OPTIONAL,
	bindingID							BindingID								OPTIONAL,
	transportLayerAddress				TransportLayerAddress					OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { HSDSCH-MACdFlow-Specific-InfoItem-to-Modify-ExtIEs } }		OPTIONAL,
	...
}

HSDSCH-MACdFlow-Specific-InfoItem-to-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-TnlQos			CRITICALITY ignore		EXTENSION	TnlQos 	PRESENCE optional },
	...
}

HSDSCH-MACdFlows-Information ::= SEQUENCE {
	hSDSCH-MACdFlow-Specific-Info					HSDSCH-MACdFlow-Specific-InfoList,
	priorityQueue-Info								PriorityQueue-InfoList,
	iE-Extensions									ProtocolExtensionContainer { { HSDSCH-MACdFlows-Information-ExtIEs } }		OPTIONAL,
	...
}


HSDSCH-MACdFlows-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSDSCH-MACdFlows-to-Delete ::= SEQUENCE (SIZE (1..maxNrOfMACdFlows)) OF HSDSCH-MACdFlows-to-Delete-Item

HSDSCH-MACdFlows-to-Delete-Item ::= SEQUENCE {
	hsDSCH-MACdFlow-ID					HSDSCH-MACdFlow-ID,
	iE-Extensions						ProtocolExtensionContainer { { HSDSCH-MACdFlows-to-Delete-Item-ExtIEs} }		OPTIONAL,
	...
}

HSDSCH-MACdFlows-to-Delete-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSDSCH-Initial-Capacity-Allocation::= SEQUENCE (SIZE (1..maxNrOfPrioQueues)) OF HSDSCH-Initial-Capacity-AllocationItem

HSDSCH-Initial-Capacity-AllocationItem ::= SEQUENCE {
	schedulingPriorityIndicator		SchedulingPriorityIndicator,
	maximum-MACdPDU-Size			MACdPDU-Size,
	hSDSCH-InitialWindowSize		HSDSCH-InitialWindowSize,
	iE-Extensions					ProtocolExtensionContainer { {HSDSCH-Initial-Capacity-AllocationItem-ExtIEs} } OPTIONAL,
	...
}

HSDSCH-Initial-Capacity-AllocationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-MaximumMACdPDU-SizeExtended	CRITICALITY ignore	EXTENSION MAC-PDU-SizeExtended		PRESENCE optional},
	...
}

HSDSCH-InitialWindowSize ::= INTEGER (1..255)
-- Number of MAC-d PDUs.



HSDSCH-PreconfigurationInfo ::= SEQUENCE {
	setsOfHS-SCCH-Codes							SetsOfHS-SCCH-Codes,
	hARQ-MemoryPartitioning						HARQ-MemoryPartitioning,
	eDCH-FDD-DL-ControlChannelInformation		EDCH-FDD-DL-ControlChannelInformation		OPTIONAL,
	hARQ-Preamble-Mode-Activation-Indicator		HARQ-Preamble-Mode-Activation-Indicator		OPTIONAL,
	mIMO-N-M-Ratio								MIMO-InformationResponse					OPTIONAL,
	continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response	Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response		OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { HSDSCH-PreconfigurationInfo-ExtIEs} }		OPTIONAL,
	...
}

HSDSCH-PreconfigurationInfo-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-power-offset-for-S-CPICH-for-MIMO					CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMO			PRESENCE optional}|
{ ID id-Additional-EDCH-Preconfiguration-Information		CRITICALITY ignore	EXTENSION Additional-EDCH-Preconfiguration-Information		PRESENCE optional}|
{ ID id-Support-of-Dynamic-DTXDRX-Related-HS-SCCH-Order		CRITICALITY ignore	EXTENSION Support-of-Dynamic-DTXDRX-Related-HS-SCCH-Order	PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennas		PRESENCE optional}|
{ ID id-FTPICH-Information-Response							CRITICALITY ignore	EXTENSION FTPICH-Information-Response	PRESENCE optional},
	...
}

Additional-EDCH-Preconfiguration-Information ::= SEQUENCE (SIZE (1..maxNrOfEDCH-1)) OF Additional-EDCH-Preconfiguration-Information-ItemIEs

Additional-EDCH-Preconfiguration-Information-ItemIEs ::= SEQUENCE {
	eDCH-FDD-DL-ControlChannelInformation		EDCH-FDD-DL-ControlChannelInformation,
	iE-Extensions					ProtocolExtensionContainer { { Additional-EDCH-Preconfiguration-Information-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Additional-EDCH-Preconfiguration-Information-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


HSDSCH-PreconfigurationSetup ::= SEQUENCE {
	mAChsResetScheme							MAChsResetScheme,
	hSDSCH-Physical-Layer-Category				INTEGER (1..64,...),
	mAChs-Reordering-Buffer-Size-for-RLC-UM		MAChsReorderingBufferSize-for-RLC-UM,
	secondaryServingCells						SecondaryServingCells				OPTIONAL,
	numPrimaryHS-SCCH-Codes						NumHS-SCCH-Codes					OPTIONAL,
	hARQ-Preamble-Mode							HARQ-Preamble-Mode					OPTIONAL,
	mIMO-ActivationIndicator					MIMO-ActivationIndicator			OPTIONAL,
	hSDSCH-MACdPDUSizeFormat					HSDSCH-MACdPDUSizeFormat			OPTIONAL,
	sixtyfourQAM-UsageAllowedIndicator			SixtyfourQAM-UsageAllowedIndicator	OPTIONAL,
	uE-with-enhanced-HS-SCCH-support-indicator	NULL							OPTIONAL,
	continuous-Packet-Connectivity-HS-SCCH-Less-Information			Continuous-Packet-Connectivity-HS-SCCH-Less-Information		OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { HSDSCHPreconfigurationSetup-ExtIEs } }			OPTIONAL,
	...
}

HSDSCHPreconfigurationSetup-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-UE-SupportIndicatorExtension					CRITICALITY ignore	EXTENSION UE-SupportIndicatorExtension			PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-Request-Indicator		CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMORequestIndicator	PRESENCE optional}|
{ ID id-MIMO-withfourtransmitantennas-ActivationIndicator		CRITICALITY ignore	EXTENSION MIMO-withfourtransmitantennas-ActivationIndicator		PRESENCE optional}|
{ ID id-DualStream-MIMO-withfourtransmitantennas-ActivationIndicator	CRITICALITY ignore	EXTENSION DualStream-MIMO-withfourtransmitantennas-ActivationIndicator		PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennasRequestIndicator			PRESENCE optional}|
{ ID id-Multiflow-Information							CRITICALITY ignore	EXTENSION Multiflow-Information			PRESENCE optional}|
{ ID id-FTPICH-Information								CRITICALITY ignore	EXTENSION FTPICH-Information				PRESENCE optional}|
{ ID id-UL-CLTD-Information								CRITICALITY ignore	EXTENSION UL-CLTD-Information			PRESENCE optional}|
{ ID id-UL-MIMO-Information								CRITICALITY ignore	EXTENSION UL-MIMO-Information			PRESENCE optional}|
{ ID id-SixteenQAM-UL-Operation-Indicator				CRITICALITY ignore	EXTENSION SixteenQAM-UL-Operation-Indicator		PRESENCE optional}|
{ ID id-SixtyfourQAM-UL-Operation-Indicator				CRITICALITY reject	EXTENSION SixtyfourQAM-UL-Operation-Indicator	PRESENCE optional},
	...
}


HS-SCCH-PreconfiguredCodes ::= SEQUENCE (SIZE (1..maxNrOfHSSCCHCodes)) OF HS-SCCH-PreconfiguredCodesItem

HS-SCCH-PreconfiguredCodesItem ::= SEQUENCE {
	hS-SCCH-CodeNumber		HS-SCCH-CodeNumber,
	iE-Extensions			ProtocolExtensionContainer { { HS-SCCH-PreconfiguredCodesItem-ExtIEs} } OPTIONAL,
	...
}

HS-SCCH-PreconfiguredCodesItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-SCCH-CodeNumber ::= INTEGER (0..127)


HSDSCH-RNTI ::= INTEGER (0..65535)


HS-DSCH-serving-cell-change-information ::= SEQUENCE {
	hS-PDSCH-RLID				RL-ID,
	hSDSCH-FDD-Information		HSDSCH-FDD-Information															OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { HS-DSCH-serving-cell-change-information-ExtIEs} } 	OPTIONAL,
	...
}

HS-DSCH-serving-cell-change-information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information	CRITICALITY reject	EXTENSION Continuous-Packet-Connectivity-HS-SCCH-Less-Information		PRESENCE optional}|
{ ID id-Continuous-Packet-Connectivity-DTX-DRX-Information	CRITICALITY reject	EXTENSION Continuous-Packet-Connectivity-DTX-DRX-Information		PRESENCE optional},
	...
}


HS-DSCH-serving-cell-change-informationResponse ::= SEQUENCE {
	hS-DSCH-serving-cell-choice		HS-DSCH-serving-cell-change-choice,
	iE-Extensions					ProtocolExtensionContainer { { HS-DSCH-serving-cell-change-informationResponse-ExtIEs} } OPTIONAL,
	...
}

HS-DSCH-serving-cell-change-informationResponse-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-DSCH-serving-cell-change-choice ::= CHOICE {
	hS-serving-cell-change-successful		HS-serving-cell-change-successful,
	hS-serving-cell-change-unsuccessful		HS-serving-cell-change-unsuccessful,
	...
}

HSDSCH-TBSizeTableIndicator ::= ENUMERATED {
	octet-aligned
}

HS-serving-cell-change-successful ::= SEQUENCE {
	hSDSCH-FDD-Information-Response		HSDSCH-FDD-Information-Response,
	hSDSCH-RNTI							HSDSCH-RNTI, 
	iE-Extensions						ProtocolExtensionContainer { { HS-serving-cell-change-successful-ExtIEs} } OPTIONAL,
	...
}

HS-serving-cell-change-successful-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response	CRITICALITY ignore	EXTENSION Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response		PRESENCE optional},
	...
}

HS-serving-cell-change-unsuccessful ::= SEQUENCE {
	cause							Cause,
	iE-Extensions					ProtocolExtensionContainer { { HS-serving-cell-change-unsuccessful-ExtIEs} } OPTIONAL,
	...
}

HS-serving-cell-change-unsuccessful-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSPDSCH-First-Code-Index ::= INTEGER (1..maxHS-PDSCHCodeNrComp-1)
	-- index of first HS-PDSCH code

HSPDSCH-Second-Code-Index ::= INTEGER (1..maxHS-PDSCHCodeNrComp-1)
	-- index of second HS-PDSCH code

HSPDSCH-Second-Code-Support ::= BOOLEAN
	-- true: applied, false: not applied


HSDSCH-TDD-Information ::= SEQUENCE {
	hSDSCH-MACdFlows-Information				HSDSCH-MACdFlows-Information,
	uE-Capabilities-Info						UE-Capabilities-Info,
	mAChs-Reordering-Buffer-Size-for-RLC-UM		MAChsReorderingBufferSize-for-RLC-UM,
	tDD-AckNack-Power-Offset					TDD-AckNack-Power-Offset,
	iE-Extensions								ProtocolExtensionContainer { { HSDSCH-TDD-Information-ExtIEs } }			OPTIONAL,
	...
}

HSDSCH-TDD-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-HSDSCH-MACdPDUSizeFormat 	CRITICALITY reject	EXTENSION HSDSCH-MACdPDUSizeFormat			PRESENCE optional}|
{ ID id-HSSICH-SIRTarget			CRITICALITY ignore	EXTENSION UL-SIR							PRESENCE optional}|
-- Applicable to 1.28Mcps TDD only
{ ID id-HSSICH-TPC-StepSize			CRITICALITY ignore	EXTENSION TDD-TPC-UplinkStepSize-LCR		PRESENCE optional}|
-- Mandatory for 1.28Mcps TDD only
{ ID id-tSN-Length					CRITICALITY reject	EXTENSION TSN-Length						PRESENCE optional}|
-- Applicable for 1.28Mcps TDD when using multiple frequencies
{ ID id-MIMO-ActivationIndicator	CRITICALITY reject	EXTENSION MIMO-ActivationIndicator			PRESENCE optional},
	...
}

HSDSCH-TDD-Information-Response ::= SEQUENCE {
	hSDSCH-MACdFlow-Specific-InfoList-Response		HSDSCH-MACdFlow-Specific-InfoList-Response			OPTIONAL,
	hSSCCH-TDD-Specific-InfoList-Response			HSSCCH-TDD-Specific-InfoList-Response				OPTIONAL,
	-- Not Applicable to 1.28Mcps TDD
	hSSCCH-TDD-Specific-InfoList-Response-LCR		HSSCCH-TDD-Specific-InfoList-Response-LCR			OPTIONAL,
	-- Not Applicable to 3.84Mcps TDD or 7.68Mcps TDD. This HSSCCH Specific Information is for the first Frequency repetition, HSSCCH Specific Information for Frequency repetitions 2 and on, should be defined in MultipleFreq-HSPDSCH-InformationList-ResponseTDDLCR
	hSPDSCH-TDD-Specific-InfoList-Response			HSPDSCH-TDD-Specific-InfoList-Response				OPTIONAL,
	hSPDSCH-TDD-Specific-InfoList-Response-LCR		HSPDSCH-TDD-Specific-InfoList-Response-LCR			OPTIONAL,
	hARQ-MemoryPartitioning							HARQ-MemoryPartitioning								OPTIONAL,
	-- For 1.28Mcps TDD, this HARQ Memory Partitioning Information is for the first Frequency repetition, HARQ Memory Partitioning Information for Frequency repetitions 2 and on, should be defined in MultipleFreq-HSPDSCH-InformationList-ResponseTDDLCR
	iE-Extensions									ProtocolExtensionContainer { { HSDSCH-TDD-Information-Response-ExtIEs } }			OPTIONAL,
	...
}

HSDSCH-TDD-Information-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-User-Plane-Congestion-Fields-Inclusion			CRITICALITY ignore	EXTENSION User-Plane-Congestion-Fields-Inclusion	PRESENCE optional}|
{ ID id-hSSCCH-TDD-Specific-InfoList-Response768		CRITICALITY ignore	EXTENSION HSSCCH-TDD-Specific-InfoList-Response768	PRESENCE optional}|
{ ID id-hSPDSCH-TDD-Specific-InfoList-Response768		CRITICALITY ignore	EXTENSION HSPDSCH-TDD-Specific-InfoList-Response768	PRESENCE optional}|
{ ID id-UARFCNforNt										CRITICALITY ignore	EXTENSION UARFCN						PRESENCE optional}|
-- Applicable to 1.28Mcps TDD when using multiple frequencies ,This is the UARFCN for the first Frequency repetition
{ ID id-multipleFreq-HSPDSCH-InformationList-ResponseTDDLCR	CRITICALITY ignore	EXTENSION MultipleFreq-HSPDSCH-InformationList-ResponseTDDLCR	PRESENCE optional}|
-- Applicable to 1.28Mcps TDD when using multiple frequencies ,This MultipleFreq-HSPDSCH-InformationList-ResponseTDDLCR is the HS-SCCH and HARQ Memory Partitioning information for the 2nd and beyond HS-PDSCH frequencies
{ ID id-multicarrier-number								CRITICALITY ignore	EXTENSION Multicarrier-Number			PRESENCE optional}|
-- Applicable for 1.28Mcps TDD when using multiple frequencies
{ID id-MIMO-SFMode-For-HSPDSCHDualStream				CRITICALITY reject	EXTENSION MIMO-SFMode-For-HSPDSCHDualStream		PRESENCE optional}|
{ID id-MIMO-ReferenceSignal-InformationListLCR			CRITICALITY reject	EXTENSION MIMO-ReferenceSignal-InformationListLCR	PRESENCE optional}|
{ ID id-TS0-HS-PDSCH-Indication-LCR 					CRITICALITY	ignore	EXTENSION TS0-HS-PDSCH-Indication-LCR		PRESENCE optional}|
{ ID id-Out-of-Sychronization-Window					CRITICALITY reject	EXTENSION Out-of-Sychronization-Window		PRESENCE optional},
	...
}

Multicarrier-Number ::= INTEGER (1..maxHSDPAFrequency)

HSPDSCH-TDD-Specific-InfoList-Response ::= SEQUENCE (SIZE (0..maxNrOfDLTs)) OF HSPDSCH-TDD-Specific-InfoItem-Response

HSPDSCH-TDD-Specific-InfoItem-Response ::= SEQUENCE {
	timeslot							TimeSlot,
	midambleShiftAndBurstType			MidambleShiftAndBurstType,
	iE-Extensions						ProtocolExtensionContainer { { HSPDSCH-TDD-Specific-InfoItem-Response-ExtIEs } }		OPTIONAL,
	...
}

HSPDSCH-TDD-Specific-InfoItem-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSPDSCH-TDD-Specific-InfoList-Response-LCR ::= SEQUENCE (SIZE (1.. maxNrOfDLTsLCR)) OF HSPDSCH-TDD-Specific-InfoItem-Response-LCR

HSPDSCH-TDD-Specific-InfoItem-Response-LCR ::= SEQUENCE {
	timeslotLCR						TimeSlotLCR,
	midambleShiftLCR				MidambleShiftLCR,
	iE-Extensions					ProtocolExtensionContainer { { HSPDSCH-TDD-Specific-InfoItem-Response-LCR-ExtIEs } }		OPTIONAL,
	...
}

HSPDSCH-TDD-Specific-InfoItem-Response-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSPDSCH-TDD-Specific-InfoList-Response768 ::= SEQUENCE (SIZE (0..maxNrOfDLTs)) OF HSPDSCH-TDD-Specific-InfoItem-Response768

HSPDSCH-TDD-Specific-InfoItem-Response768 ::= SEQUENCE {
	timeslot								TimeSlot,
	midambleShiftAndBurstType768			MidambleShiftAndBurstType768,
	iE-Extensions							ProtocolExtensionContainer { { HSPDSCH-TDD-Specific-InfoItem-Response-768-ExtIEs } }	OPTIONAL,
	...
}

HSPDSCH-TDD-Specific-InfoItem-Response-768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-SCCH-DRX-Information-LCR ::= SEQUENCE {
	hS-SCCH-UE-DRX-Cycle-LCR									UE-DRX-Cycle-LCR,
	hS-SCCH-Inactivity-Threshold-for-UE-DRX-Cycle-LCR			Inactivity-Threshold-for-UE-DRX-Cycle-LCR			OPTIONAL,
	hS-SCCH-UE-DRX-Offset-LCR									UE-DRX-Offset-LCR,
	iE-Extensions					ProtocolExtensionContainer { { HS-SCCH-DRX-Information-LCR-ExtIEs} } OPTIONAL,
	...
}

HS-SCCH-DRX-Information-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HS-SCCH-Inactivity-Threshold-for-UE-DRX-Cycle-LCR-Ext	CRITICALITY ignore	EXTENSION Inactivity-Threshold-for-UE-DRX-Cycle-LCR-Ext	PRESENCE optional },
	...
}

HS-SCCH-DRX-Information-ResponseLCR ::= SEQUENCE {
	hS-SCCH-UE-DRX-Cycle-LCR									UE-DRX-Cycle-LCR		OPTIONAL,
	hS-SCCH-Inactivity-Threshold-for-UE-DRX-Cycle-LCR			Inactivity-Threshold-for-UE-DRX-Cycle-LCR		OPTIONAL,
	hS-SCCH-UE-DRX-Offset-LCR									UE-DRX-Offset-LCR		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { HS-SCCH-DRX-Information-ResponseLCR-ExtIEs} } OPTIONAL,
	...
}

HS-SCCH-DRX-Information-ResponseLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HS-SCCH-Inactivity-Threshold-for-UE-DRX-Cycle-LCR-Ext	CRITICALITY ignore	EXTENSION Inactivity-Threshold-for-UE-DRX-Cycle-LCR-Ext	PRESENCE optional },
	...
}

HSSCCH-FDD-Specific-InfoList-Response ::= SEQUENCE (SIZE (0..maxNrOfHSSCCHCodes)) OF HSSCCH-FDD-Specific-InfoItem-Response

HSSCCH-FDD-Specific-InfoItem-Response ::= SEQUENCE {
	code-Number						INTEGER (0..127),
	iE-Extensions					ProtocolExtensionContainer { { HSSCCH-FDD-Specific-InfoItem-Response-ExtIEs } }		OPTIONAL,
	...
}

HSSCCH-FDD-Specific-InfoItem-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSSCCH-PowerOffset ::= INTEGER (0..255)
-- PowerOffset = -32 + offset * 0.25
-- Unit dB, Range -32dB .. +31.75dB, Step +0.25dB

HSSCCH-TDD-Specific-InfoList-Response ::= SEQUENCE (SIZE (0..maxNrOfHSSCCHCodes)) OF HSSCCH-TDD-Specific-InfoItem-Response

HSSCCH-TDD-Specific-InfoItem-Response ::= SEQUENCE {
	timeslot						TimeSlot,
	midambleShiftAndBurstType		MidambleShiftAndBurstType,
	tDD-ChannelisationCode			TDD-ChannelisationCode,
	hSSICH-Info						HSSICH-Info,
	iE-Extensions					ProtocolExtensionContainer { { HSSCCH-TDD-Specific-InfoItem-Response-ExtIEs } }		OPTIONAL,
	...
}

HSSCCH-TDD-Specific-InfoItem-Response-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSSCCH-TDD-Specific-InfoList-Response-LCR ::= SEQUENCE (SIZE (0..maxNrOfHSSCCHCodes)) OF HSSCCH-TDD-Specific-InfoItem-Response-LCR

HSSCCH-TDD-Specific-InfoItem-Response-LCR ::= SEQUENCE {
	timeslotLCR							TimeSlotLCR,
	midambleShiftLCR					MidambleShiftLCR,
	first-TDD-ChannelisationCode		TDD-ChannelisationCode,
	second-TDD-ChannelisationCode		TDD-ChannelisationCode,
	hSSICH-InfoLCR						HSSICH-InfoLCR,
	iE-Extensions						ProtocolExtensionContainer { { HSSCCH-TDD-Specific-InfoItem-Response-LCR-ExtIEs } }		OPTIONAL,
	...
}

HSSCCH-TDD-Specific-InfoItem-Response-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSSCCH-TDD-Specific-InfoList-Response768 ::= SEQUENCE (SIZE (0..maxNrOfHSSCCHCodes)) OF HSSCCH-TDD-Specific-InfoItem-Response768

HSSCCH-TDD-Specific-InfoItem-Response768 ::= SEQUENCE {
	timeslot							TimeSlot,
	midambleShiftAndBurstType768		MidambleShiftAndBurstType768,
	tDD-ChannelisationCode768			TDD-ChannelisationCode768,
	hSSICH-Info768						HSSICH-Info768,
	iE-Extensions						ProtocolExtensionContainer { { HSSCCH-TDD-Specific-InfoItem-Response768-ExtIEs } }		OPTIONAL,
	...
}

HSSCCH-TDD-Specific-InfoItem-Response768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSSICH-Info ::= SEQUENCE {
	hsSICH-ID										HS-SICH-ID,
	timeslot										TimeSlot,
	midambleShiftAndBurstType						MidambleShiftAndBurstType,
	tDD-ChannelisationCode							TDD-ChannelisationCode,
	iE-Extensions									ProtocolExtensionContainer { { HSSICH-Info-ExtIEs } }		OPTIONAL,
	...
}

HSSICH-Info-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSSICH-InfoLCR ::= SEQUENCE {
	hsSICH-ID										HS-SICH-ID,
	timeslotLCR										TimeSlotLCR,
	midambleShiftLCR								MidambleShiftLCR,
	tDD-ChannelisationCode						TDD-ChannelisationCode,
	iE-Extensions									ProtocolExtensionContainer { { HSSICH-Info-LCR-ExtIEs } }		OPTIONAL,
	...
}

HSSICH-Info-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-HS-SICH-ID-Extension			CRITICALITY ignore		EXTENSION HS-SICH-ID-Extension	PRESENCE optional},
	-- Applicable for 1.28Mcps TDD only when the HS-SICH ID IE is more than 31
	...
}

HSSICH-Info768 ::= SEQUENCE {
	hsSICH-ID										HS-SICH-ID,
	timeslot										TimeSlot,
	midambleShiftAndBurstType768					MidambleShiftAndBurstType768,
	tDD-ChannelisationCode768						TDD-ChannelisationCode768,
	iE-Extensions									ProtocolExtensionContainer { { HSSICH-Info-768-ExtIEs } }		OPTIONAL,
	...
}

HSSICH-Info-768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-SICH-Reception-Quality-Value ::= SEQUENCE {
	failed-HS-SICH				HS-SICH-failed,
	missed-HS-SICH				HS-SICH-missed,
	total-HS-SICH				HS-SICH-total,
	iE-Extensions				ProtocolExtensionContainer { { HS-SICH-Reception-Quality-Value-ExtIEs} } OPTIONAL,
...
}

HS-SICH-Reception-Quality-Value-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-SICH-failed ::= INTEGER (0..20)

HS-SICH-missed ::= INTEGER (0..20)

HS-SICH-total ::= INTEGER (0..20)

HS-SICH-Reception-Quality-Measurement-Value ::= INTEGER (0..20)
-- According to mapping in TS 25.133 [23]

HS-SICH-ID ::= INTEGER (0..31)

HS-SICH-ID-Extension ::= INTEGER (32..255,...)

HSSCCH-CodeChangeIndicator ::= ENUMERATED {
	hsSCCHCodeChangeNeeded
}

HSSCCH-Code-Change-Grant ::= ENUMERATED {
	changeGranted
}

HS-PDSCH-Code-Change-Indicator ::= ENUMERATED {
	hsPDSCHCodeChangeNeeded
}

HS-PDSCH-Code-Change-Grant ::= ENUMERATED {
	changeGranted
}

HSDSCH-FDD-Update-Information ::= SEQUENCE {
	hsSCCHCodeChangeIndicator						HSSCCH-CodeChangeIndicator					OPTIONAL,
	cqiFeedback-CycleK								CQI-Feedback-Cycle							OPTIONAL, 
	cqiRepetitionFactor								CQI-RepetitionFactor						OPTIONAL,
	ackNackRepetitionFactor							AckNack-RepetitionFactor					OPTIONAL,
	cqiPowerOffset									CQI-Power-Offset 							OPTIONAL,
	ackPowerOffset									Ack-Power-Offset							OPTIONAL,
	nackPowerOffset									Nack-Power-Offset							OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { HSDSCH-FDD-Update-Information-ExtIEs } }		OPTIONAL,
	...
}

HSDSCH-FDD-Update-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ID id-HS-PDSCH-Code-Change-Indicator			CRITICALITY ignore	EXTENSION HS-PDSCH-Code-Change-Indicator		PRESENCE optional}|
{ID id-PrecoderWeightSetRestriction				CRITICALITY ignore	EXTENSION Precoder-Weight-Set-Restriction		PRESENCE optional}|
{ID id-CQI-Feedback-Cycle2-k					CRITICALITY ignore	EXTENSION CQI-Feedback-Cycle2		PRESENCE optional}|
{ID id-CQI-Cycle-Switch-Timer					CRITICALITY ignore	EXTENSION CQI-Cycle-Switch-Timer		PRESENCE optional},
	...
}

HSDSCH-TDD-Update-Information ::= SEQUENCE {
	hsSCCHCodeChangeIndicator						HSSCCH-CodeChangeIndicator					OPTIONAL,
	tDDAckNackPowerOffset							TDD-AckNack-Power-Offset					OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer { { HSDSCH-TDD-Update-Information-ExtIEs } }		OPTIONAL,
	...
}

HSDSCH-TDD-Update-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MIMO-ReferenceSignal-InformationListLCR ::= SEQUENCE (SIZE (1..maxNrOfHSSCCHCodes)) OF HSSICH-ReferenceSignal-InformationLCR

HSSICH-ReferenceSignal-InformationLCR ::= SEQUENCE {
	midambleConfigurationLCR		MidambleConfigurationLCR,	
	midambleShift					INTEGER (0..15),
	timeSlotLCR						TimeSlotLCR,
	iE-Extensions					ProtocolExtensionContainer { { HSSICH-ReferenceSignal-InformationLCR-ExtIEs } }		OPTIONAL,
	...
}

HSSICH-ReferenceSignal-InformationLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-DSCH-Semi-PersistentScheduling-Information-LCR ::= SEQUENCE {
	transport-Block-Size-List			Transport-Block-Size-List-LCR,
	repetition-Period-List-LCR			Repetition-Period-List-LCR,
	hS-DSCH-SPS-Reservation-Indicator	SPS-Reservation-Indicator				OPTIONAL,
	hS-DSCH-SPS-Operation-Indicator		HS-DSCH-SPS-Operation-Indicator,
	iE-Extensions						ProtocolExtensionContainer { { HS-DSCH-Semi-PersistentScheduling-Information-LCR-ExtIEs } }	OPTIONAL,
	...
}

HS-DSCH-Semi-PersistentScheduling-Information-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HSDSCH-Physical-Layer-Category ::= INTEGER (1..64)

Transport-Block-Size-List-LCR ::= SEQUENCE (SIZE (1..maxNoOfTBSs-Mapping-HS-DSCH-SPS)) OF Transport-Block-Size-Item-LCR

Transport-Block-Size-Item-LCR ::= SEQUENCE {
	transport-Block-Size-maping-Index-LCR		Transport-Block-Size-maping-Index-LCR,
	transport-Block-Size-Index-LCR				Transport-Block-Size-Index-LCR,
	iE-Extensions								ProtocolExtensionContainer { { Transport-Block-Size-Item-LCR-ExtIEs } }			OPTIONAL,
	...
}

Transport-Block-Size-Item-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Transport-Block-Size-maping-Index-LCR ::= INTEGER (0..maxNoOfTBSs-Mapping-HS-DSCH-SPS-1)

Transport-Block-Size-Index-LCR ::= INTEGER (1..maxNoOfHS-DSCH-TBSsLCR)

TS0-HS-PDSCH-Indication-LCR ::= NULL

Repetition-Period-List-LCR ::= SEQUENCE (SIZE (1..maxNoOfRepetition-Period-LCR)) OF Repetition-Period-Item-LCR

Repetition-Period-Item-LCR ::= SEQUENCE {
	repetitionPeriodIndex		RepetitionPeriodIndex,
	repetitionPeriod			RepetitionPeriod,
	repetitionLength			RepetitionLength				OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { Repetition-Period-Item-LCR-ExtIEs } }			OPTIONAL,
	...
}

Repetition-Period-Item-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RepetitionPeriodIndex ::= INTEGER (0..maxNoOfRepetitionPeriod-SPS-LCR-1)

SPS-Reservation-Indicator ::= ENUMERATED {
	reserve
}

HS-DSCH-SPS-Operation-Indicator ::= CHOICE {
	logicalChannellevel			LogicalChannellevel,
	priorityQueuelevel			PriorityQueuelevel,
	...
}

LogicalChannellevel ::= BIT STRING (SIZE (16))

PriorityQueuelevel ::= BIT STRING (SIZE (8))

HS-DSCH-Semi-PersistentScheduling-Information-to-Modify-LCR ::= SEQUENCE {
	transport-Block-Size-List				Transport-Block-Size-List-LCR			OPTIONAL,
	repetition-Period-List-LCR				Repetition-Period-List-LCR				OPTIONAL,
	hS-DSCH-SPS-Reservation-Indicator		SPS-Reservation-Indicator				OPTIONAL,
	hS-DSCH-SPS-Operation-Indicator			HS-DSCH-SPS-Operation-Indicator			OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { HS-DSCH-Semi-PersistentScheduling-Information-to-Modify-LCR-ExtIEs } }		OPTIONAL,
	...
}

HS-DSCH-Semi-PersistentScheduling-Information-to-Modify-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR ::= SEQUENCE {
	hS-SICH-InformationList-for-HS-DSCH-SPS		HS-SICH-InformationList-for-HS-DSCH-SPS,
	initial-HS-PDSCH-SPS-Resource				Initial-HS-PDSCH-SPS-Resource			OPTIONAL,
	buffer-Size-for-HS-DSCH-SPS					Process-Memory-Size						OPTIONAL,
	number-of-Processes-for-HS-DSCH-SPS			Number-of-Processes-for-HS-DSCH-SPS		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR-ExtIEs } }	OPTIONAL,
	...
}

HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


HS-SICH-InformationList-for-HS-DSCH-SPS ::= SEQUENCE (SIZE (1..maxNoOf-HS-SICH-SPS)) OF HS-SICH-InformationItem-for-HS-DSCH-SPS

HS-SICH-InformationItem-for-HS-DSCH-SPS ::= SEQUENCE {
	hS-SICH-Mapping-Index			HS-SICH-Mapping-Index			OPTIONAL,
	hS-SICH-Type					HS-SICH-Type,
	iE-Extensions					ProtocolExtensionContainer { { HS-SICH-InformationItem-for-HS-DSCH-SPS-ExtIEs } }		OPTIONAL,
	...
}

HS-SICH-InformationItem-for-HS-DSCH-SPS-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-SICH-Mapping-Index ::= INTEGER (0..maxNoOf-HS-SICH-SPS-1)

HS-SICH-Type ::= CHOICE {
	hS-SCCH-Associated-HS-SICH			HS-SCCH-Associated-HS-SICH,
	non-HS-SCCH-Associated-HS-SICH		Non-HS-SCCH-Associated-HS-SICH,
	...
}

HS-SCCH-Associated-HS-SICH ::= SEQUENCE {
	hsSICH-ID							HS-SICH-ID,
	extended-HS-SICH-ID					HS-SICH-ID-Extension			OPTIONAL,
...
}


Non-HS-SCCH-Associated-HS-SICH::= SEQUENCE {
	non-HS-SCCH-Aassociated-HS-SICH-ID	Non-HS-SCCH-Aassociated-HS-SICH-ID,
...
}

Non-HS-SCCH-Aassociated-HS-SICH-ID ::= INTEGER (0..255)

Initial-HS-PDSCH-SPS-Resource::= SEQUENCE {
	repetitionPeriodIndex						RepetitionPeriodIndex,
	repetitionLength							RepetitionLength			OPTIONAL,
	hS-PDSCH-Offset								TDD-PhysicalChannelOffset,
	hS-PDSCH-Midamble-Configuation				MidambleShiftLCR,
	timeslot-Resource-Related-Information		HS-DSCH-TimeslotResourceLCR,
	startCode									TDD-ChannelisationCode,
	endCode										TDD-ChannelisationCode,
	transport-Block-Size-Index					Transport-Block-Size-Index-LCR,
	modulationType								ModulationSPS-LCR,
	hS-SICH-Mapping-Index						HS-SICH-Mapping-Index,
	iE-Extensions								ProtocolExtensionContainer { { Initial-HS-PDSCH-SPS-Resource-ExtIEs } }		OPTIONAL,
...
}

Initial-HS-PDSCH-SPS-Resource-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

HS-DSCH-TimeslotResourceLCR ::= BIT STRING (SIZE (5))

ModulationSPS-LCR ::= ENUMERATED {
	qPSK,
	sixteenQAM,
	...
}

Number-of-Processes-for-HS-DSCH-SPS ::= INTEGER (1..16)

-- I

IMEI ::= OCTET STRING (SIZE(8))

IMEISV ::= OCTET STRING (SIZE(8))

IMSI ::= OCTET STRING (SIZE(3..8))

Implicit-Grant-Handling ::= ENUMERATED {
	true
}

Improved-Synchronized-Indicator ::= ENUMERATED {true}

Inactivity-Threshold-for-UE-DRX-Cycle-LCR ::= ENUMERATED {v1, v2, v4, v8, v16, v32, v64,...}
	-- Unit subframe

Inactivity-Threshold-for-UE-DRX-Cycle-LCR-Ext ::= ENUMERATED {v128, v256, v512,...}
	-- Unit subframe

Inactivity-Threshold-for-UE-DTX-Cycle2 ::= ENUMERATED {v1, v4, v8, v16, v32, v64, v128, v256}
-- Unit E-DCH TTI

Inactivity-Threshold-for-UE-DRX-Cycle ::= ENUMERATED {v0, v1, v2, v4, v8, v16, v32, v64, v128, v256, v512}
-- Unit subframe

Inactivity-Threshold-for-UE-Grant-Monitoring ::= ENUMERATED {v0, v1, v2, v4, v8, v16, v32, v64, v128, v256}
-- Unit E-DCH TTI



InformationAvailable::= SEQUENCE {
	requestedDataValue		RequestedDataValue,
	iE-Extensions			ProtocolExtensionContainer { { InformationAvailable-ExtIEs} }		OPTIONAL,
	...
}

InformationAvailable-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

InformationExchangeID ::= INTEGER (0..1048575)

InformationNotAvailable ::= NULL

InformationReportCharacteristics ::= CHOICE {
	onDemand				NULL,
	periodic				PeriodicInformation,
	onModification			OnModificationInformation,
	...
}

InformationReportPeriodicity ::= CHOICE {
	min				INTEGER (1..60,...),
-- Unit min, Step 1min
	hour			INTEGER (1..24,...),
-- Unit hour, Step 1hour
	...
}

InformationThreshold ::= CHOICE {
	dGPSThreshold		DGPSThreshold,
	...,
	dGANSSThreshold		DGANSSThreshold
} 


InformationType ::= SEQUENCE {
	informationTypeItem		ENUMERATED {
		gA-AccessPointPositionwithAltitude,
		gA-AccessPointPosition,
		iPDLParameters,
		gPSInformation,
		dGPSCorrections,
		gPS-RX-POS,
		sFNSFN-GA-AccessPointPosition,
		...,
		cell-Capacity-Class,
		nACC-Related-Data,
		mBMSBearerServiceFullAddress,
		interFrequencyCellInformation,
		gANSSInformation,
		dGANSSCorrections,
		gANSS-RX-Pos,
		mBMS-Counting-Information,
		mBMS-Transmission-Mode,
		mBMS-Neighbouring-Cell-Information,
		mBMS-RLC-Sequence-Number,
		aNR-Cell-Information,
		cOmmonERGCH-Cell-Information
	},
	gPSInformation				GPSInformation			OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { InformationType-ExtIEs} }		OPTIONAL,
	...
}

-- The GPS Information IE shall be present if the Information Exchange Type IE indicates ‘GPS Information’
-- For information exchange on the Iur-g interface, only the Cell Capacity Class is used.

InformationType-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
-- The following IE shall be present if the Information Type Item IE indicates ‘GANSS Information’
	{ ID id-GANSS-Information						CRITICALITY ignore	EXTENSION GANSS-Information			PRESENCE conditional}|
-- The following IE shall be present if the Information Type Item IE indicates ‘DGANSS Corrections’
	{ ID id-DGANSS-Corrections-Req					CRITICALITY ignore	EXTENSION DGANSS-Corrections-Req			PRESENCE conditional}|
-- The following IE shall be present if the Information Type Item IE indicates ‘MBMS RLC Sequence Number’
	{ ID id-MBMS-RLC-Sequence-Number-Information	CRITICALITY ignore	EXTENSION MBMS-RLC-Sequence-Number-Information	PRESENCE conditional},
	...
}

Initial-E-DCH-SPS-resource ::= SEQUENCE {
	timeslot-Resource-Related-Information		E-DCH-TimeslotResource-LCR,
	powerResource								E-DCH-PowerResource,
	repetitionPeriodIndex						RepetitionPeriodIndex,
	repetitionLength							RepetitionLength,
	subframeNumber								ENUMERATED {v0, v1},
	tddE-PUCH-Offset							TddE-PUCH-Offset,
	tdd-ChannelisationCode						TDD-ChannelisationCode,
	n-E-UCCHLCR									N-E-UCCH-LCR,
	iE-Extensions								ProtocolExtensionContainer { { Initial-E-DCH-SPS-resource-ExtIEs } }		OPTIONAL,
	...
}

Initial-E-DCH-SPS-resource-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Initial-DL-DPCH-TimingAdjustment-Allowed ::= ENUMERATED {
	initial-DL-DPCH-TimingAdjustment-Allowed
}

InnerLoopDLPCStatus ::= ENUMERATED {active, inactive}

IPDLParameters ::= CHOICE {
	iPDL-FDD-Parameters			IPDL-FDD-Parameters,
	iPDL-TDD-Parameters			IPDL-TDD-Parameters,	--3.84Mcps TDD and 7.68Mcps TDD only
	...,
	extension-IPDLParameters	Extension-IPDLParameters
}

Extension-IPDLParameters ::=	ProtocolIE-Single-Container {{ Extension-IPDLParametersIE }}

Extension-IPDLParametersIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-IPDL-TDD-ParametersLCR	CRITICALITY reject	TYPE IPDL-TDD-ParametersLCR	PRESENCE mandatory },
	...
}

Inter-Frequency-Cell-List ::= SEQUENCE (SIZE (0..maxCellsMeas)) OF Inter-Frequency-Cell

Inter-Frequency-Cell ::= SEQUENCE {
	dL-UARFCN					UARFCN,
	uL-UARFCN					UARFCN		OPTIONAL,
	primaryScramblingCode		PrimaryScramblingCode,
	iE-Extensions				ProtocolExtensionContainer { {Inter-Frequency-Cell-ExtIEs} }		OPTIONAL,
	...
}

Inter-Frequency-Cell-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Inter-Frequency-Cell-Information ::= SEQUENCE {
	inter-Frequency-Cell-Information-SIB11		Inter-Frequency-Cell-Information-SIB11,
	inter-Frequency-Cell-Information-SIB12		Inter-Frequency-Cell-Information-SIB12,
	iE-Extensions				ProtocolExtensionContainer { {Inter-Frequency-Cell-Information-ExtIEs } }	OPTIONAL,
	...
}

Inter-Frequency-Cell-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-Inter-Frequency-Cell-Information-SIB11ter	CRITICALITY ignore	EXTENSION Inter-Frequency-Cell-Information-SIB11ter	PRESENCE optional},
	...
}

Inter-Frequency-Cell-Information-SIB11 ::= SEQUENCE (SIZE (0..2)) OF Inter-Frequency-Cells-Information-SIB11-Per-Indication

Inter-Frequency-Cell-Information-SIB12 ::= SEQUENCE (SIZE (0..2)) OF Inter-Frequency-Cells-Information-SIB12-Per-Indication

Inter-Frequency-Cell-Information-SIB11ter ::= SEQUENCE (SIZE (1..2)) OF Inter-Frequency-Cells-Information-SIB11ter-Per-Indication

Inter-Frequency-Cells-Information-SIB11-Per-Indication ::= SEQUENCE {
	inter-Frequency-Cell-Indication-SIB11	Inter-Frequency-Cell-Indication,
	inter-Frequency-Cell-List-SIB11			Inter-Frequency-Cell-SIB11-or-SIB12-List,
	iE-Extensions				ProtocolExtensionContainer { { Inter-Frequency-Cells-Information-SIB11-Per-Indication-ExtIEs } }	OPTIONAL,
	...
}

Inter-Frequency-Cells-Information-SIB11-Per-Indication-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


Inter-Frequency-Cells-Information-SIB12-Per-Indication ::= SEQUENCE {
	inter-Frequency-Cell-Indication-SIB12	Inter-Frequency-Cell-Indication,
	inter-Frequency-Cell-List-SIB12			Inter-Frequency-Cell-SIB11-or-SIB12-List,
	iE-Extensions				ProtocolExtensionContainer { { Inter-Frequency-Cells-Information-SIB12-Per-Indication-ExtIEs } }	OPTIONAL,
	...
}

Inter-Frequency-Cells-Information-SIB12-Per-Indication-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Inter-Frequency-Cells-Information-SIB11ter-Per-Indication ::= SEQUENCE {
	inter-Frequency-Cell-Indication-SIB11ter	Inter-Frequency-Cell-Indication,
	inter-Frequency-Cell-List-SIB11ter			Inter-Frequency-Cell-SIB11ter-List, 
	iE-Extensions				ProtocolExtensionContainer { { Inter-Frequency-Cells-Information-SIB11ter-Per-Indication-ExtIEs } } 	OPTIONAL,
	...
}

Inter-Frequency-Cell-SIB11ter-List ::= SEQUENCE (SIZE (1..maxCellSIB11ter-ext)) OF Inter-Frequency-Cell-SIB11ter

Inter-Frequency-Cells-Information-SIB11ter-Per-Indication-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Inter-Frequency-Cell-SIB11ter ::= SEQUENCE {
	interFrequencyCellID		InterFrequencyCellID-Ext,
	dL-UARFCN					UARFCN,
	uL-UARFCN					UARFCN		OPTIONAL,
	primaryScramblingCode		PrimaryScramblingCode,
	iE-Extensions				ProtocolExtensionContainer { { Inter-Frequency-Cell-SIB11ter-ExtIEs} }		OPTIONAL,
	...
}

InterFrequencyCellID-Ext ::= INTEGER(0..maxCellSIB11ter-1)

Inter-Frequency-Cell-SIB11ter-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Inter-Frequency-Cell-Indication ::= INTEGER (0..1)

Inter-Frequency-Cell-SIB11-or-SIB12-List ::= SEQUENCE (SIZE (0..maxCellSIB11OrSIB12)) OF Inter-Frequency-Cell-SIB11-or-SIB12

Inter-Frequency-Cell-SIB11-or-SIB12 ::= SEQUENCE {
	interFrequencyCellID		InterFrequencyCellID,
	dL-UARFCN					UARFCN,
	uL-UARFCN					UARFCN		OPTIONAL,
	primaryScramblingCode		PrimaryScramblingCode,
	iE-Extensions				ProtocolExtensionContainer { {Inter-Frequency-Cell-ExtIEs} }		OPTIONAL,
	...
}

InterFrequencyCellID ::= INTEGER (0..31)

InterStream-Interference-Compensation ::= INTEGER(0..15,...)

IPDL-FDD-Parameters ::= SEQUENCE {
	iPSpacingFDD				IPSpacingFDD,
	iPLength					IPLength,
	iPOffset					IPOffset,
	seed						Seed,
	burstModeParameters			BurstModeParameters		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { IPDL-FDD-Parameters-ExtIEs} }		OPTIONAL,
	...
}

IPDL-FDD-Parameters-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

IPDL-TDD-Parameters ::= SEQUENCE {
	iPSpacingTDD				IPSpacingTDD,
	iPStart						IPStart,
	iPSlot						IPSlot,
	iP-P-CCPCH					IP-P-CCPCH,
	burstModeParameters			BurstModeParameters		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { IPDL-TDD-Parameters-ExtIEs} }		OPTIONAL,
	...
}

-- The BurstModeParameters IE shall be included if the Idle Periods are arranged in Burst Mode.

IPDL-TDD-Parameters-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

IPDL-TDD-ParametersLCR ::= SEQUENCE {
	iPSpacingTDD				IPSpacingTDD,
	iPStart						IPStart,
	iPSub						IPSub,
	burstModeParameters			BurstModeParameters		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { IPDL-TDD-ParametersLCR-ExtIEs} }		OPTIONAL,
	...
}

-- The BurstModeParameters IE shall be included if the Idle Periods are arranged in Burst Mode.

IPDL-TDD-ParametersLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

IPLength ::= ENUMERATED {
	ipl5,
	ipl10,
	...
}

IPMulticastAddress ::= OCTET STRING (SIZE (4..16))

IPOffset ::= INTEGER (0..9)

IP-P-CCPCH ::= ENUMERATED {
	switchOff-1-Frame,
	switchOff-2-Frames
}

IPSlot ::= INTEGER (0..14)

IPSpacingFDD ::= ENUMERATED {
	ipsF5,
	ipsF7,
	ipsF10,
	ipsF15,
	ipsF20,
	ipsF30,
	ipsF40,
	ipsF50,
	...
}

IPSpacingTDD ::= ENUMERATED {
	ipsT30,
	ipsT40,
	ipsT50,
	ipsT70,
	ipsT100,
	...
}

IPStart ::= INTEGER (0..4095)

IPSub ::= ENUMERATED {
	first,
	second,
	both
}

IdleIntervalInformation ::= SEQUENCE {
	idleIntervalInfo-k							INTEGER(2..3),
	idleIntervalInfo-offset						INTEGER(0..7),
	...
}

-- J
-- K
-- L

LABased ::= SEQUENCE {
	laiList				LAI-List,
	iE-Extensions		ProtocolExtensionContainer { {LABased-ExtIEs} } OPTIONAL,
	...
}

LABased-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

LAI-List ::= SEQUENCE (SIZE (1..maxNrOfLAIs)) OF
	LAI

LAC ::= OCTET STRING (SIZE (2)) --(EXCEPT (‘0000’H|’FFFE’H))

LAI ::= SEQUENCE {
		pLMN-Identity		PLMN-Identity,
		lAC					LAC,
		iE-Extensions		ProtocolExtensionContainer { {LAI-ExtIEs} } OPTIONAL,
		...
	}

LimitedPowerIncrease ::= ENUMERATED {
	used,
	not-used
}

List-Of-PLMNs ::= SEQUENCE (SIZE (1..maxNrOfBroadcastPLMNs)) OF	PLMN-Identity

L3-Information ::= BIT STRING

Load-Value-IncrDecrThres ::= INTEGER(0..100)

Load-Value ::= INTEGER(0..100)

LoadValue ::= SEQUENCE {
		uplinkLoadValue		INTEGER(0..100),
		downlinkLoadValue	INTEGER(0..100)
}

LCRTDD-Uplink-Physical-Channel-Capability ::= SEQUENCE {
	maxTimeslotsPerSubFrame				INTEGER(1..6),
	maxPhysChPerTimeslot				ENUMERATED{ts1, ts2, ts3, ts4,...},
	iE-Extensions						ProtocolExtensionContainer { { LCRTDD-Uplink-Physical-Channel-Capability-ExtIEs} } OPTIONAL,
	...
}

LCRTDD-Uplink-Physical-Channel-Capability-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

LogicalChannelID ::= INTEGER (1..15)


-- M

M1Report ::= CHOICE {
	periodic			MDT-Report-Parameters,
	event1F				Event1F-Parameters,
	...
}

M2Report ::= CHOICE {
	periodic			MDT-Report-Parameters,
	event1I				Event1I-Parameters,
	...
}

MDT-Activation ::=	ENUMERATED { mdt-only,
									 mdt-and-trace,
									... }

MDTAreaScope ::=	CHOICE {
	cellbased			CellBased,
	labased				LABased,
	rabased				RABased,
	plmn-area-based		NULL,
	...
}

MDT-Configuration ::= SEQUENCE {
		mdtActivation					MDT-Activation,
		mdtAreaScope					MDTAreaScope,
		m1report						M1Report 		OPTIONAL,
		m2report						M2Report		OPTIONAL,
		m3report						NULL			OPTIONAL,
		iE-Extensions		ProtocolExtensionContainer { { MDT-Configuration-ExtIEs} } OPTIONAL,
		...
}

MDT-Configuration-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
...
}

MDT-Report-Parameters ::=	SEQUENCE {
	reportInterval			ReportInterval,
	reportAmount			ReportAmount,
	...
}

MeasurementQuantity ::= ENUMERATED {
		cpichEcNo,
		cpichRSCP,	
		pathloss,
		...
}

MaxNrOfUL-DPCHs ::= INTEGER (1..6)

MAC-c-sh-SDU-Length ::= INTEGER (1..5000)

MAC-c-sh-SDU-LengthList ::= SEQUENCE(SIZE(1..maxNrOfMACcshSDU-Length)) OF MAC-c-sh-SDU-Length

MAC-DTX-Cycle-2ms ::= ENUMERATED {v1, v4, v5, v8, v10, v16, v20}

MAC-DTX-Cycle-10ms ::= ENUMERATED {v5, v10, v20}

MAC-ehs-Reset-Timer ::= ENUMERATED {v1, v2, v3, v4,...}

MAC-Inactivity-Threshold ::= ENUMERATED {v1, v2, v4, v8, v16, v32, v64, v128, v256, v512, infinity}
	-- Unit subframe

MACdPDU-Size ::= INTEGER (1..5000,...)
	-- In case of E-DCH value 8 and values not multiple of 8 shall not be used

MAC-PDU-SizeExtended ::= INTEGER (1..1504,...,1505)
	-- In case of E-DCH value 1 shall not be used

MACdPDU-Size-IndexList ::= SEQUENCE (SIZE (1..maxNrOfPDUIndexes)) OF MACdPDU-Size-IndexItem

MACdPDU-Size-IndexItem ::= SEQUENCE {
	sID									SID,
	mACdPDU-Size						MACdPDU-Size,
	iE-Extensions						ProtocolExtensionContainer { { MACdPDU-Size-IndexItem-ExtIEs } }			OPTIONAL,
	...
}

MACdPDU-Size-IndexItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MACdPDU-Size-IndexList-to-Modify ::= SEQUENCE (SIZE (1..maxNrOfPDUIndexes)) OF MACdPDU-Size-IndexItem-to-Modify

MACdPDU-Size-IndexItem-to-Modify ::= SEQUENCE {
	sID									SID,
	mACdPDU-Size						MACdPDU-Size,
	iE-Extensions						ProtocolExtensionContainer { { MACdPDU-Size-IndexItem-to-Modify-ExtIEs } }		OPTIONAL,
	...
}

MACdPDU-Size-IndexItem-to-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MACes-Guaranteed-Bitrate ::= INTEGER (0..16777215,...,16777216..256000000)

MACes-Maximum-Bitrate-LCR ::= INTEGER (0..256000000,...)

MACeReset-Indicator ::= ENUMERATED {mACeReset}

MAChsGuaranteedBitRate ::= INTEGER (0..16777215,...,16777216..1000000000)

MAChsReorderingBufferSize-for-RLC-UM ::= INTEGER (0..300,...)
-- Unit kBytes

MAC-hsWindowSize ::= ENUMERATED {v4, v6, v8, v12, v16, v24, v32,... , v64, v128, v256}

MAChsResetScheme ::= ENUMERATED {
	always,
	interNodeB-change
}

MaximumAllowedULTxPower ::= INTEGER (-50..33)

Max-Bits-MACe-PDU-non-scheduled ::= INTEGER(1..maxNrOfBits-MACe-PDU-non-scheduled)

MaxNrDLPhysicalchannels ::= INTEGER (1..224)
-- 1.28Mcps TDD 97 – 224 are unused

MaxNrDLPhysicalchannels768 ::= INTEGER (1..448)

MaxNrDLPhysicalchannelsTS ::= INTEGER (1..16)

MaxNrDLPhysicalchannelsTS768 ::= INTEGER (1..32)

MaxNr-Retransmissions-EDCH ::= INTEGER (0..15)

MaxNrTimeslots ::= INTEGER (1..14)
-- 1.28Mcps values 7-14 are unused


MaxNrULPhysicalchannels ::= INTEGER (1..2)

Max-Set-E-DPDCHs ::= ENUMERATED {
	vN256, vN128, vN64, vN32, vN16, vN8, vN4, v2xN4, v2xN2, v2xN2plus2xN4,
	...,
	v2xM2plus2xM4
	}
-- Values releated to TS 25.212 [9]


Max-UE-DTX-Cycle ::= ENUMERATED {
	v5, v10, v20, v40, v64, v80, v128, v160,
	...,v256, v320, v512, v640, v1024, v1280
	}

MBMS-Bearer-Service-Full-Address ::= SEQUENCE {
	accessPointName						AccessPointName,
	iPMulticastAddress					IPMulticastAddress,
	iE-Extensions						ProtocolExtensionContainer { { MBMS-Bearer-Service-Full-Address-ExtIEs } }			OPTIONAL,
	...
}

MBMS-Bearer-Service-Full-Address-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Bearer-Service-List ::= SEQUENCE (SIZE (1..maxNrOfMBMSServices)) OF TMGI

MBMS-Bearer-ServiceItemFDD ::= SEQUENCE{
	tmgi	TMGI,
	transmissionMode	 TransmissionMode,
	iE-Extensions		ProtocolExtensionContainer { { MBMS-Bearer-ServiceItemFDD-ExtIEs} } OPTIONAL,
	...
}


MBMS-Bearer-ServiceItemFDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Bearer-ServiceItemFDD-PFL	::=SEQUENCE{
	tmgi	TMGI,
	transmissionMode		TransmissionMode	OPTIONAL,
	preferredFrequencyLayer		UARFCN			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { MBMS-Bearer-ServiceItemFDD-PFL-ExtIEs} } OPTIONAL,
	...
}

MBMS-Bearer-ServiceItemFDD-PFL-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Bearer-ServiceItemTDD	::=SEQUENCE{
	tmgi	TMGI,
	transmissionMode	TransmissionMode,
	iE-Extensions					ProtocolExtensionContainer { { MBMS-Bearer-ServiceItemTDD-ExtIEs} } OPTIONAL,
	...
}

MBMS-Bearer-ServiceItemTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Bearer-ServiceItemTDD-PFL	::=SEQUENCE{
	tmgi	TMGI,
	transmissionMode			TransmissionMode	OPTIONAL,
	preferredFrequencyLayer		UARFCN				OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { MBMS-Bearer-ServiceItemTDD-PFL-ExtIEs} } OPTIONAL,
	...
}
MBMS-Bearer-ServiceItemTDD-PFL-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMSChannelTypeInfo ::= SEQUENCE {
	tMGI					TMGI,
	pTM-Cell-List			PTMCellList			OPTIONAL,
	pTP-Cell-List			PTPCellList			OPTIONAL,
	not-Provided-Cell-List	NotProvidedCellList	OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { MBMSChannelTypeInfo-ExtIEs} } OPTIONAL,
	...
}

MBMSChannelTypeInfo-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMSChannelTypeCellList ::= SEQUENCE {
	c-ID								C-ID,
	affectedUEInformationForMBMS		AffectedUEInformationForMBMS	OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { MBMSChannelTypeCellList-ExtIEs} } OPTIONAL,
	...
}

MBMSChannelTypeCellList-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-ExtendedAffectedUEInformationForMBMS		CRITICALITY ignore	EXTENSION ExtendedAffectedUEInformationForMBMS	PRESENCE optional},
	...
}

MBMSPreferredFreqLayerInfo ::= SEQUENCE {
	tMGI							TMGI,
	preferredFrequencyLayerInfo		PreferredFrequencyLayerInfo,
	iE-Extensions					ProtocolExtensionContainer { { MBMSPreferredFreqLayerInfo-ExtIEs} } OPTIONAL,
	...
}
MBMSPreferredFreqLayerInfo-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Neighbouring-Cell-Information ::= SEQUENCE {
	mBMS-ConcatenatedServiceList		MBMS-ConcatenatedServiceList,
	l3-Information-1					L3-Information		OPTIONAL,
-- This IE contains MBMS Common p-t-m rb Information defined in TS 25.331 [16]
	l3-Information-2					L3-Information		OPTIONAL,
-- This IE contains MBMS Current Cell p-t-m rb Information defined in TS 25.331 [16]
	iE-Extensions					ProtocolExtensionContainer { { MBMS-Neighbouring-Cell-Information-ExtIEs} } OPTIONAL,
	...
}

MBMS-Neighbouring-Cell-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}
MBMS-ConcatenatedServiceList ::= SEQUENCE (SIZE (1..maxlengthMBMSconcatservlists)) OF TMGI


MBMS-RLC-Sequence-Number-Information ::= SEQUENCE (SIZE (1..maxNrOfCells)) OF MBMS-RLC-Sequence-Number-Information-List

MBMS-RLC-Sequence-Number-Information-List ::= SEQUENCE {
	c-ID								C-ID,
	mBMS-Bearer-Service-List-RLC	MBMS-Bearer-Service-List-RLC,
	iE-Extensions					ProtocolExtensionContainer { { MBMS-RLC-Sequence-Number-Information-List-ExtIEs} }		OPTIONAL,
	...
}

MBMS-RLC-Sequence-Number-Information-List-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBMS-Bearer-Service-List-RLC::= SEQUENCE (SIZE (1..maxNrOfMBMSServices)) OF MBMS-Bearer-Service-List-RLCinfo

MBMS-Bearer-Service-List-RLCinfo	::= SEQUENCE {
	tmgi							TMGI,
	time-Stamp						Time-Stamp,
	iE-Extensions					ProtocolExtensionContainer { { MBMS-Bearer-Service-List-RLCinfo-ExtIEs} }		OPTIONAL,
	...
}

MBMS-Bearer-Service-List-RLCinfo-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MBSFN-Cluster-Identity ::= INTEGER (0..65535)

MCCH-Message-List ::= SEQUENCE (SIZE (1.. maxNrOfMCCHMessages)) OF L3-Information

MCCH-Configuration-Info ::= SEQUENCE {
	secondaryCCPCHSystemInformationMBMS			Secondary-CCPCH-System-Information-MBMS,
	ie-Extensions								ProtocolExtensionContainer { {MCCH-Configuration-Info-ExtIEs } }	OPTIONAL,
	...
}

MCCH-Configuration-Info-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Secondary-CCPCH-System-Information-MBMS ::= BIT STRING

MBSFN-Scheduling-Transmission-Time-Interval-Info-List ::= SEQUENCE (SIZE (1.. maxNrOfMBMSL3)) OF MBSFN-Scheduling-Transmission-Time-Interval-Item

MBSFN-Scheduling-Transmission-Time-Interval-Item ::= SEQUENCE {
	tMGI										TMGI,
	mbsfnSchedulingTransmissionTimeInterval		MbsfnSchedulingTransmissionTimeInterval,
	ie-Extensions								ProtocolExtensionContainer { { MBSFN-Scheduling-Transmission-Time-Interval-Item-ExtIEs } }	OPTIONAL,
	...
}

MBSFN-Scheduling-Transmission-Time-Interval-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}



MbsfnSchedulingTransmissionTimeInterval	::= ENUMERATED {tti4, tti8, tti16, tti32, tti64, tti128, tti256}

MeasurementFilterCoefficient ::= ENUMERATED{k0, k1, k2, k3, k4, k5, k6, k7, k8, k9, k11, k13, k15, k17, k19,...}
-- Measurement Filter Coefficient to be used for measurement

MeasurementID ::= INTEGER (0..1048575)

Measurement-Power-Offset ::= INTEGER(-12 .. 26)
-- Actual value = IE value * 0.5

MinimumSpreadingFactor ::= INTEGER (1..16)

MinimumSpreadingFactor768 ::= INTEGER (1..32)

Minimum-TEBS-threshold ::= ENUMERATED {v2, v4, v8, v16, v32, v64, v128, v256, v512, v1024, v2048, v4096, v8192, v16384, v32768, v65536, v131072, v262144, v524288, v1048576,...}

MultipleURAsIndicator ::= ENUMERATED {
	multiple-URAs-exist,
	single-URA-exists
}

MaxAdjustmentStep ::= INTEGER(1..10)
-- Unit Slot

MeasurementChangeTime ::= INTEGER (1..6000,...)
-- The MeasurementChangeTime gives the MeasurementChangeTime
-- in number of 10 ms periods.
-- E.g. Value 6000 means 60000ms(1min)
-- Unit is ms, Step is 10 ms


MeasurementHysteresisTime ::= INTEGER (1..6000,...)
-- The MeasurementHysteresisTime gives the
-- MeasurementHysteresisTime in number of 10 ms periods.
-- E.g. Value 6000 means 60000ms(1min)
-- Unit is ms, Step is 10ms

MeasurementIncreaseDecreaseThreshold ::= CHOICE {
	sir								SIR-Value-IncrDecrThres,
	sir-error						SIR-Error-Value-IncrDecrThres,
	transmitted-code-power			Transmitted-Code-Power-Value-IncrDecrThres,
	rscp							RSCP-Value-IncrDecrThres,
	round-trip-time					Round-Trip-Time-IncrDecrThres,
	...,
	extension-MeasurementIncreaseDecreaseThreshold		Extension-MeasurementIncreaseDecreaseThreshold
}

Extension-MeasurementIncreaseDecreaseThreshold ::= ProtocolIE-Single-Container {{ Extension-MeasurementIncreaseDecreaseThresholdIE }}

Extension-MeasurementIncreaseDecreaseThresholdIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-Load-Value-IncrDecrThres	CRITICALITY reject	TYPE Load-Value-IncrDecrThres	PRESENCE mandatory }|
	{ ID id-Transmitted-Carrier-Power-Value-IncrDecrThres	CRITICALITY reject	TYPE Transmitted-Carrier-Power-Value-IncrDecrThres		PRESENCE mandatory }|
	{ ID id-Received-Total-Wideband-Power-Value-IncrDecrThres	CRITICALITY reject	TYPE Received-Total-Wideband-Power-Value-IncrDecrThres		PRESENCE mandatory }|
	{ ID id-UL-Timeslot-ISCP-Value-IncrDecrThres	CRITICALITY reject	TYPE UL-Timeslot-ISCP-Value-IncrDecrThres	PRESENCE mandatory }|
	{ ID id-RT-Load-Value-IncrDecrThres	CRITICALITY reject	TYPE RT-Load-Value-IncrDecrThres	PRESENCE mandatory }|
	{ ID id-NRT-Load-Information-Value-IncrDecrThres	CRITICALITY reject	TYPE NRT-Load-Information-Value-IncrDecrThres	PRESENCE mandatory }|
	{ ID id-UpPTSInterferenceValue		CRITICALITY reject	TYPE 	UpPTSInterferenceValue		PRESENCE mandatory }
}

MeasurementRecoveryBehavior ::= NULL

MeasurementRecoveryReportingIndicator ::= NULL

MeasurementRecoverySupportIndicator ::= NULL

MeasurementThreshold ::= CHOICE {
	sir								SIR-Value,
	sir-error						SIR-Error-Value,
	transmitted-code-power			Transmitted-Code-Power-Value,
	rscp							RSCP-Value,
	rx-timing-deviation				Rx-Timing-Deviation-Value,
	round-trip-time					Round-Trip-Time-Value,
	...,
	extension-MeasurementThreshold	Extension-MeasurementThreshold
}

MessageStructure ::= SEQUENCE (SIZE (1..maxNrOfLevels)) OF
	SEQUENCE { 
		iE-ID					ProtocolIE-ID,
		repetitionNumber		RepetitionNumber1		OPTIONAL,
		iE-Extensions			ProtocolExtensionContainer { {MessageStructure-ExtIEs} } OPTIONAL,
		...
	}


MessageStructure-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Extension-MeasurementThreshold ::= ProtocolIE-Single-Container {{ Extension-MeasurementThresholdIE }}

Extension-MeasurementThresholdIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-TUTRANGPSMeasurementThresholdInformation	CRITICALITY reject	TYPE TUTRANGPSMeasurementThresholdInformation	PRESENCE mandatory }|
	{ ID id-SFNSFNMeasurementThresholdInformation		CRITICALITY reject	TYPE SFNSFNMeasurementThresholdInformation		PRESENCE mandatory }|
	{ ID id-Load-Value									CRITICALITY reject	TYPE Load-Value							PRESENCE mandatory }|
	{ ID id-Transmitted-Carrier-Power-Value				CRITICALITY reject	TYPE Transmitted-Carrier-Power-Value			PRESENCE mandatory }|
	{ ID id-Received-Total-Wideband-Power-Value			CRITICALITY reject	TYPE Received-Total-Wideband-Power-Value		PRESENCE mandatory }|
	{ ID id-UL-Timeslot-ISCP-Value						CRITICALITY reject	TYPE UL-Timeslot-ISCP-Value				PRESENCE mandatory }|
	{ ID id-RT-Load-Value								CRITICALITY reject	TYPE RT-Load-Value						PRESENCE mandatory }|
	{ ID id-NRT-Load-Information-Value					CRITICALITY reject	TYPE NRT-Load-Information-Value			PRESENCE mandatory }|
	{ ID id-Rx-Timing-Deviation-Value-LCR				CRITICALITY reject	TYPE Rx-Timing-Deviation-Value-LCR			PRESENCE mandatory}|
	{ ID id-HS-SICH-Reception-Quality-Measurement-Value	CRITICALITY reject	TYPE HS-SICH-Reception-Quality-Measurement-Value	PRESENCE mandatory }|
	{ ID id-UpPTSInterferenceValue						CRITICALITY reject	TYPE UpPTSInterferenceValue				PRESENCE mandatory }|
	{ ID id-Rx-Timing-Deviation-Value-768				CRITICALITY reject	TYPE Rx-Timing-Deviation-Value-768			PRESENCE mandatory }|
	{ ID id-Rx-Timing-Deviation-Value-ext				CRITICALITY reject	TYPE Rx-Timing-Deviation-Value-ext			PRESENCE mandatory }|
	{ ID id-Extended-Round-Trip-Time-Value				CRITICALITY reject	TYPE Extended-Round-Trip-Time-Value			PRESENCE mandatory }|
	{ ID id-TUTRANGANSSMeasurementThresholdInformation	CRITICALITY reject	TYPE TUTRANGANSSMeasurementThresholdInformation	PRESENCE mandatory }|
	{ ID id-UE-transmission-power-headroom	CRITICALITY reject	TYPE UE-transmission-power-headroom-Value			PRESENCE mandatory }
}

MidambleConfigurationBurstType1And3 ::= ENUMERATED {v4, v8, v16}

MidambleConfigurationBurstType2 ::= ENUMERATED {v3, v6}

MidambleConfigurationLCR ::= ENUMERATED {v2, v4, v6, v8, v10, v12, v14, v16, ...}

MidambleShiftAndBurstType ::= CHOICE {
	type1								SEQUENCE {
		midambleConfigurationBurstType1And3		MidambleConfigurationBurstType1And3,
		midambleAllocationMode 				CHOICE {
			defaultMidamble						NULL,
			commonMidamble						NULL,
			ueSpecificMidamble					MidambleShiftLong,
			...
		},
		...
	},
	type2								SEQUENCE {
		midambleConfigurationBurstType2		MidambleConfigurationBurstType2,
		midambleAllocationMode 				CHOICE {
			defaultMidamble						NULL,
			commonMidamble						NULL,
			ueSpecificMidamble					MidambleShiftShort,
			...
		},
		...
	},
	type3								SEQUENCE {
		midambleConfigurationBurstType1And3	MidambleConfigurationBurstType1And3,
		midambleAllocationMode 			CHOICE {
			defaultMidamble						NULL,
			ueSpecificMidamble					MidambleShiftLong,
			...
		},
		...
	},
	...
}

MidambleShiftLong ::=				INTEGER (0..15)

MidambleShiftShort ::=				INTEGER (0..5)

MidambleShiftLCR ::= SEQUENCE {
	midambleAllocationMode		MidambleAllocationMode,
	midambleShift				MidambleShiftLong		OPTIONAL,
	-- The IE shall be present if the Midamble Allocation Mode IE is set to “UE specific midamble”.
midambleConfigurationLCR	MidambleConfigurationLCR,
	iE-Extensions				ProtocolExtensionContainer { {MidambleShiftLCR-ExtIEs} }		OPTIONAL,
	...
	}

MidambleAllocationMode ::= ENUMERATED {
	defaultMidamble,
	commonMidamble,
	uESpecificMidamble, 
	...
	}

MidambleShiftLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MidambleShiftAndBurstType768 ::=		CHOICE {	
	type1								SEQUENCE {
		midambleConfigurationBurstType1And3		MidambleConfigurationBurstType1And3,
		midambleAllocationMode 				CHOICE {
			defaultMidamble						NULL,
			commonMidamble						NULL,
			ueSpecificMidamble					MidambleShiftLong,
			...
		},
		...
	},
	type2								SEQUENCE {
		midambleConfigurationBurstType2-768		MidambleConfigurationBurstType2-768,
		midambleAllocationMode 				CHOICE {
			defaultMidamble						NULL,
			commonMidamble						NULL,
			ueSpecificMidamble					MidambleShiftShort768,
			...
		},
		...
	},
	type3								SEQUENCE {
		midambleConfigurationBurstType1And3	MidambleConfigurationBurstType1And3,
		midambleAllocationMode 			CHOICE {
			defaultMidamble						NULL,
			ueSpecificMidamble					MidambleShiftLong,
			...
		},
		...
	},
	...
}

MidambleConfigurationBurstType2-768 ::= ENUMERATED {v4, v8}

MidambleShiftShort768 ::= INTEGER (0..7)

MIMO-ActivationIndicator ::= NULL

MIMO-InformationResponse ::= SEQUENCE {
	mIMO-PilotConfiguration						MIMO-PilotConfiguration,
	mIMO-N-M-Ratio								MIMO-N-M-Ratio,
	iE-Extensions								ProtocolExtensionContainer { { MIMO-InformationResponse-ExtIEs } }			OPTIONAL,
	...
}

MIMO-InformationResponse-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Additional-Associated-Secondary-CPICH	CRITICALITY reject	EXTENSION Additional-Associated-Secondary-CPICH		PRESENCE optional},
	...
}


MIMO-Mode-Indicator ::= ENUMERATED {
	activate,
	deactivate
}

MIMO-N-M-Ratio ::= ENUMERATED {v1-2, v2-3, v3-4, v4-5, v5-6, v6-7, v7-8, v8-9, v9-10, v1-1,...}

MIMO-PilotConfiguration ::= CHOICE {
	primary-and-secondary-CPICH				MIMO-S-CPICH-Channelisation-Code,
	normal-and-diversity-primary-CPICH		NULL,
	...
}

MIMO-S-CPICH-Channelisation-Code ::= INTEGER (0..255)

MIMO-withfourtransmitantennas-ActivationIndicator ::= NULL

MIMO-withfourtransmitantennas-ModeIndicator ::= ENUMERATED {
	activate,
	deactivate
}

DualStream-MIMO-withfourtransmitantennas-ActivationIndicator ::= NULL

DualStream-MIMO-withfourtransmitantennas-ModeIndicator ::= ENUMERATED {
	activate,
	deactivate
}

Additional-Associated-Secondary-CPICH ::= SEQUENCE (SIZE (1.. maxSCPICHCell-1)) OF Additional-Secondary-CPICH

Additional-Secondary-CPICH ::= SEQUENCE{
	additional-secondary-CPICH				MIMO-S-CPICH-Channelisation-Code,
	additional-D-CPICH						MIMO-S-CPICH-Channelisation-Code OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { Additional-Secondary-CPICH-Item-ExtIEs} }		OPTIONAL,
	...
}

Additional-Secondary-CPICH-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MinUL-ChannelisationCodeLength ::= ENUMERATED {
	v4,
	v8,
	v16,
	v32,
	v64,
	v128,
	v256
}

MinimumReducedE-DPDCH-GainFactor ::= ENUMERATED {m8-15, m11-15, m15-15, m21-15, m30-15, m42-15, m60-15, m84-15,...}


ModifyPriorityQueue ::= CHOICE {
	addPriorityQueue			PriorityQueue-InfoItem-to-Add,
	modifyPriorityQueue			PriorityQueue-InfoItem-to-Modify,
	deletePriorityQueue			PriorityQueue-Id,
	...
}

Modulation ::= ENUMERATED {
	qPSK,
	eightPSK,
	...
}

Multi-Carrier-E-DCH-LCRTDD-PhysicalLayerCategory ::= INTEGER (1..8,...)

Multicell-EDCH-Transport-Bearer-Mode ::= ENUMERATED {
	separate-Iur-Transport-Bearer-Mode,
	uL-Flow-Multiplexing-Mode
}

MulticellEDCH-Information ::= ProtocolIE-Single-Container { {MulticellEDCH-InformationItem} }

MulticellEDCH-InformationItem RNSAP-PROTOCOL-IES ::= {
	{ ID id-MulticellEDCH-Information	CRITICALITY ignore	TYPE MulticellEDCH-InformationItemIEs		PRESENCE mandatory }
}

MulticellEDCH-InformationItemIEs::= SEQUENCE {
	dL-PowerBalancing-Information					DL-PowerBalancing-Information				OPTIONAL,
	minimumReducedE-DPDCH-GainFactor				MinimumReducedE-DPDCH-GainFactor			OPTIONAL,
	secondary-UL-Frequency-Activation-State			Secondary-UL-Frequency-Activation-State		OPTIONAL,
	f-DPCH-SlotFormat								F-DPCH-SlotFormat							OPTIONAL,
	common-DL-ReferencePowerInformation				DL-Power									OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { MulticellEDCH-InformationItemIEs-ExtIEs } } OPTIONAL,
	...

}

MulticellEDCH-InformationItemIEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

MulticellEDCH-RL-SpecificInformation ::= ProtocolIE-Single-Container { {MulticellEDCH-RL-SpecificInformationItem} }

MulticellEDCH-RL-SpecificInformationItem RNSAP-PROTOCOL-IES ::= {
	{ ID id-MulticellEDCH-RL-SpecificInformation	CRITICALITY ignore	TYPE MulticellEDCH-RL-SpecificInformationItemIEs	PRESENCE mandatory	}
}

MulticellEDCH-RL-SpecificInformationItemIEs::= SEQUENCE {
	extendedPropagationDelay						ExtendedPropagationDelay			OPTIONAL,
	enhanced-PrimaryCPICH-EcNo						Enhanced-PrimaryCPICH-EcNo			OPTIONAL,
	dl-Reference-Power								DL-Power							OPTIONAL,
	phase-Reference-Update-Indicator				Phase-Reference-Update-Indicator	OPTIONAL,
	additional-e-DCH-DL-Control-Channel-Grant		NULL								OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { MulticellEDCH-RL-SpecificInformationItemIEs-ExtIEs } } OPTIONAL,
	...

}

MulticellEDCH-RL-SpecificInformationItemIEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
} 

Multicell-EDCH-Restriction ::= BOOLEAN

Multiple-PLMN-List ::= SEQUENCE {
	pLMN-Identity		PLMN-Identity,
	list-Of-PLMNs		List-Of-PLMNs												OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { Multiple-PLMN-List-ExtIEs} } OPTIONAL,
	...

}

Multiple-PLMN-List-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
} 

MultiplexingPosition ::= ENUMERATED {
	fixed,
	flexible
}

MAChs-ResetIndicator ::= ENUMERATED{
	mAChs-NotReset
}

MultipleFreq-HSPDSCH-InformationList-ResponseTDDLCR ::= SEQUENCE (SIZE (1.. maxHSDPAFrequency-1)) OF MultipleFreq-HSPDSCH-InformationItem-ResponseTDDLCR
--Includes the 2nd through the max number of frequency repetitions

MultipleFreq-HSPDSCH-InformationItem-ResponseTDDLCR ::= SEQUENCE{
	hSSCCH-TDD-Specific-InfoList-Response-LCR		HSSCCH-TDD-Specific-InfoList-Response-LCR	OPTIONAL,
	hARQ-MemoryPartitioning							HARQ-MemoryPartitioning						OPTIONAL,
	uARFCN											UARFCN,
	-- This is the UARFCN for the second and beyond Frequency repetition.
	iE-Extensions									ProtocolExtensionContainer { { MultipleFreq-HSPDSCH-InformationItem-ResponseTDDLCR-ExtIEs } }		OPTIONAL,
	...
}

MultipleFreq-HSPDSCH-InformationItem-ResponseTDDLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
...
}

MIMO-SFMode-For-HSPDSCHDualStream ::= ENUMERATED {
	sF1,
	sF1SF16
}

Multi-Carrier-EDCH-Info ::= SEQUENCE{
	multicarrier-EDCH-Transport-Bearer-Mode							Multicarrier-EDCH-Transport-Bearer-Mode,
	multi-carrier-EDCH-Information									Multi-Carrier-EDCH-Information,
	iE-Extensions					ProtocolExtensionContainer { { Multi-Carrier-EDCH-Info-ExtIEs} } OPTIONAL,
	...
}

Multi-Carrier-EDCH-Info-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Multicarrier-EDCH-Transport-Bearer-Mode ::= ENUMERATED {
	separate-Iur-Transport-Bearer-Mode,
	shared-Iur-Transport-Bearer-Mode
}

Multi-Carrier-EDCH-Information	::= SEQUENCE (SIZE (1..maxNrOfULCarriersLCR-1)) OF Multi-Carrier-EDCH-LCR-InformationItem

Multi-Carrier-EDCH-LCR-InformationItem	::=SEQUENCE{
	uARFCNforNt										UARFCN,
	sNPL-carrier-group-indicator					SNPL-Carrier-Group-Indicator					OPTIONAL,
	pRxdesBase										E-PUCH-PRXdesBase,
	multi-Carrier-EDCH-MACdFlows-Information-TDD	Multi-Carrier-EDCH-MACdFlows-Information-TDD	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Multi-Carrier-EDCH-LCR-InformationItem-ExtIEs} } OPTIONAL,
	...
}

Multi-Carrier-EDCH-LCR-InformationItem-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

SNPL-Carrier-Group-Indicator ::= INTEGER (1..3)
-- for multi-carrier E-DCH operation 1.28Mcps TDD only

Multi-Carrier-EDCH-MACdFlows-Information-TDD ::= SEQUENCE (SIZE (1.. maxNrOfEDCHMACdFlows)) OF Multi-Carrier-EDCH-MACdFlows-Specific-Info

Multi-Carrier-EDCH-MACdFlows-Specific-Info ::= SEQUENCE {
	e-DCH-MACdFlow-ID								EDCH-MACdFlow-ID,
	bindingID										BindingID,
	transportLayerAddress							TransportLayerAddress,
	iE-Extensions									ProtocolExtensionContainer { { Multi-Carrier-EDCH-MACdFlows-Specific-Info-ExtIEs} }				OPTIONAL,
	...
}

Multi-Carrier-EDCH-MACdFlows-Specific-Info-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Multi-Carrier-EDCH-Reconfigure ::=SEQUENCE{
	continue-setup-change-Of-Multi-Carrier-EDCH							Continue-Setup-Change-Multi-Carrier-EDCH,
	iE-Extensions					ProtocolExtensionContainer { { Multi-Carrier-EDCH-Reconfigure-ExtIEs} } OPTIONAL,
	...
}

Multi-Carrier-EDCH-Reconfigure-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Continue-Setup-Change-Multi-Carrier-EDCH ::= CHOICE {
	continue				NULL,
	setup					Multi-Carrier-EDCH-Info,
	change					Multi-Carrier-EDCH-Change-Info,
	...
}

Multi-Carrier-EDCH-Change-Info ::=SEQUENCE{
	multicarrier-EDCH-Transport-Bearer-Mode					Multicarrier-EDCH-Transport-Bearer-Mode		OPTIONAL,
	multi-carrier-EDCH-Information							Multi-Carrier-EDCH-Information					OPTIONAL,
	multi-Carrier-EDCH-Information-Removal-List				Multi-Carrier-EDCH-Information-Removal-List		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Multi-Carrier-EDCH-Change-Info-ExtIEs} } OPTIONAL,
	...
}

Multi-Carrier-EDCH-Change-Info-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Multi-Carrier-EDCH-Information-Removal-List ::= SEQUENCE (SIZE (1..maxNrOfULCarriersLCR-1)) OF Multi-Carrier-EDCH-Information-Removal-Info-ItemIEs

Multi-Carrier-EDCH-Information-Removal-Info-ItemIEs ::=SEQUENCE{
	uARFCNforNt						UARFCN,
	iE-Extensions					ProtocolExtensionContainer { { Multi-Carrier-EDCH-Information-Removal-Info-ItemIEs-ExtIEs} } OPTIONAL,
	...
}

Multi-Carrier-EDCH-Information-Removal-Info-ItemIEs-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Multi-Carrier-EDCH-Information-Response ::= SEQUENCE (SIZE (1..maxNrOfULCarriersLCR-1)) OF Multi-Carrier-EDCH-LCR-Information-ResponseItem

Multi-Carrier-EDCH-LCR-Information-ResponseItem	::=SEQUENCE{
	uARFCNforNt										UARFCN,
	e-DCH-TDD-MACdFlow-Specific-InformationResp		E-DCH-TDD-MACdFlow-Specific-InformationResp			OPTIONAL,
	e-AGCH-Specific-Information-Response-LCR-TDD	E-AGCH-Specific-InformationRespList-LCR-TDD			OPTIONAL,
	e-HICH-Scheduled-InformationResp-LCR			E-HICH-Scheduled-InformationRespList-LCR-TDD		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Multi-Carrier-EDCH-LCR-Information-ResponseItem-ExtIEs} } OPTIONAL,
	...
}

Multi-Carrier-EDCH-LCR-Information-ResponseItem-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Multiflow-Reconfiguration ::= CHOICE {
	setup						Multiflow-Information,
	configurationChange			Multiflow-Information-To-Modify,
	stop						Multiflow-Stop,
	...
}

Multiflow-Information ::= SEQUENCE {
	total-Number-of-HS-DSCH-Cells			INTEGER (2..32,...),
	mode									Multiflow-Mode,
	mimo									Multiflow-MIMO,
	timing									Multiflow-Timing						OPTIONAL,
	max-Number-of-HS-SCCH-Sets-per-NodeB	INTEGER (1..16,...)						OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { Multiflow-Information-ExtIEs } }			OPTIONAL,
	...
}

Multiflow-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ID id-Assisting-RepetitionFactors	CRITICALITY ignore	EXTENSION Multiflow-RepetitionFactors	PRESENCE optional},
	...
}

Multiflow-Information-To-Modify ::= SEQUENCE {
	total-Number-of-HS-DSCH-Cells			INTEGER (2..32,...)						OPTIONAL,
	mode									Multiflow-Mode							OPTIONAL,
	mimo									Multiflow-MIMO							OPTIONAL,
	timing									Multiflow-Timing						OPTIONAL,
	max-Number-of-HS-SCCH-Sets-per-NodeB	INTEGER (1..16,...)						OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { Multiflow-Information-To-Modify-ExtIEs } }		OPTIONAL,
	...
}

Multiflow-Information-To-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ID id-Assisting-RepetitionFactors	CRITICALITY ignore	EXTENSION Multiflow-RepetitionFactors	PRESENCE optional},
	...
}

Multiflow-RepetitionFactors ::= SEQUENCE {
	assisting-CQI-RepetitionFactor		CQI-RepetitionFactor					OPTIONAL,
	assisting-AckNack-RepetitionFactor	AckNack-RepetitionFactor				OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { Multiflow-RepetitionFactors-ExtIEs } }		OPTIONAL,
	...
}

Multiflow-RepetitionFactors-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Multiflow-Stop ::= ENUMERATED {
	stop,
	...
}

Multiflow-Mode ::= ENUMERATED {
	primary,
	assisting,
	...
}

Multiflow-MIMO ::= ENUMERATED {
	on,
	off,
	...
}

Multiflow-Timing ::= CHOICE {
	time-Reference						NULL,
	non-Time-Reference					INTEGER	(0..30,...),
	-- Unit: chip, step size 256 chips
	-- example: 0 = 0chip, 1 = 256chips
	...
}

Multiflow-OrdinalNumberOfFrequency ::= INTEGER (1..32,...)

MU-MIMO-InformationLCR ::= SEQUENCE {
	mU-MIMO-Operation							MU-MIMO-Operation,
	standalone-Midamble-Channel-Information		Standalone-Midamble-Channel-Information OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { MU-MIMO-InformationLCR-ExtIEs} } OPTIONAL,
	...
}

MU-MIMO-Operation ::= ENUMERATED {
	mU-MIMO-Used,
	mU-MIMO-Not-Used,
	...
}

MU-MIMO-Usage-Indicator ::= ENUMERATED {
	ul-Only,
	dl-Only,
	ul-and-dl
}

Standalone-Midamble-Channel-Information ::= SEQUENCE {
	standalone-Midamble-Configuration	Standalone-Midamble-Configuration,
	standalone-MidambleShift			Standalone-MidambleShift,
	timeslotLCR							TimeSlotLCR,
	repetitionPeriod					Standalone-Midamble-RepetitionPeriod,
	offset								Standalone-Midamble-Offset,
	referenceBeta						ReferenceBeta					OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { Standalone-Midamble-Channel-Information-ExtIEs} } OPTIONAL,
	...
}

Standalone-Midamble-Configuration::= ENUMERATED {
	v2,
	v4,
	v6,
	v8,
	v10,
	v12,
	v14,
	v16,
	...
}

Standalone-MidambleShift ::= INTEGER (0..15)

Standalone-Midamble-RepetitionPeriod ::= ENUMERATED {
	v1,
	v2,
	v4,
	v8,
	v16,
	v32,
	v64,
	...
}

Standalone-Midamble-Offset ::= INTEGER (0..63)

ReferenceBeta ::= INTEGER (-15..16)

Standalone-Midamble-Channel-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Mode1-Ind ::= NULL

MU-MIMO-InformationLCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


MU-MIMO-Indicator ::= SEQUENCE {
	mU-MIMO-Usage-Indicator					MU-MIMO-Usage-Indicator,
	standalone-Midamble-Channel-Indicator	Standalone-Midamble-Channel-Indicator,
	iE-Extensions							ProtocolExtensionContainer { { MU-MIMO-Indicator-ExtIEs} } OPTIONAL,
	...
}

MU-MIMO-Indicator-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- N

NACC-Related-Data ::= SEQUENCE {
	gERAN-SI-Type				GERAN-SI-Type,
	iE-Extensions				ProtocolExtensionContainer { {NACC-Related-Data-ExtIEs} }		OPTIONAL,
	...
	}

NACC-Related-Data-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


Nack-Power-Offset ::= INTEGER (0..8,..., 9..10)
-- According to mapping in TS 25.213 [21] subclause 4.2.1

NCC ::= BIT STRING (SIZE (3))

Neighbouring-UMTS-CellInformation ::= SEQUENCE (SIZE (1..maxNrOfNeighbouringRNCs)) OF ProtocolIE-Single-Container {{ Neighbouring-UMTS-CellInformationItemIE }}

Neighbouring-UMTS-CellInformation-Ext ::= SEQUENCE (SIZE (1..maxNrOfExtendedNeighbouringRNCs)) OF ProtocolIE-Single-Container {{ Neighbouring-UMTS-CellInformationExtensionItemIE }}

Neighbouring-UMTS-CellInformationExtensionItemIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-Neighbouring-UMTS-CellInformationExtensionItem	CRITICALITY ignore	TYPE Neighbouring-UMTS-CellInformationExtensionItem	PRESENCE	mandatory }
}

Neighbouring-UMTS-CellInformationExtensionItem ::= SEQUENCE {
	rNC-ID									RNC-ID,
	cN-PS-DomainIdentifier					CN-PS-DomainIdentifier					OPTIONAL,
	cN-CS-DomainIdentifier					CN-CS-DomainIdentifier					OPTIONAL,
	neighbouring-FDD-CellInformation		Neighbouring-FDD-CellInformation		OPTIONAL,
	neighbouring-TDD-CellInformation		Neighbouring-TDD-CellInformation		OPTIONAL,
	neighbouring-LCR-TDD-CellInformation	Neighbouring-LCR-TDD-CellInformation	OPTIONAL,
	extended-RNC-ID							Extended-RNC-ID							OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { {Neighbouring-UMTS-CellInformationExtensionItem-ExtIEs} } OPTIONAL,
	...
}

Neighbouring-UMTS-CellInformationExtensionItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Neighbouring-UMTS-CellInformationItemIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-Neighbouring-UMTS-CellInformationItem	CRITICALITY ignore	TYPE	Neighbouring-UMTS-CellInformationItem	PRESENCE	mandatory }
}

Neighbouring-UMTS-CellInformationItem ::= SEQUENCE {
	rNC-ID									RNC-ID,
	cN-PS-DomainIdentifier					CN-PS-DomainIdentifier		OPTIONAL,
	cN-CS-DomainIdentifier					CN-CS-DomainIdentifier		OPTIONAL,
	neighbouring-FDD-CellInformation		Neighbouring-FDD-CellInformation	OPTIONAL,
	neighbouring-TDD-CellInformation		Neighbouring-TDD-CellInformation	OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { {Neighbouring-UMTS-CellInformationItem-ExtIEs} } OPTIONAL,
	...
}

Neighbouring-UMTS-CellInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-neighbouring-LCR-TDD-CellInformation	CRITICALITY ignore	EXTENSION Neighbouring-LCR-TDD-CellInformation	PRESENCE optional}|
	{ ID id-Extended-RNC-ID							CRITICALITY reject	EXTENSION Extended-RNC-ID				PRESENCE optional},
	...
}

Neighbouring-FDD-CellInformation ::= SEQUENCE ( SIZE (1..maxNrOfFDDNeighboursPerRNC,...)) OF Neighbouring-FDD-CellInformationItem

Neighbouring-FDD-CellInformationItem ::= SEQUENCE {
	c-ID										C-ID,
	uARFCNforNu									UARFCN,
	uARFCNforNd									UARFCN,
	frameOffset									FrameOffset							OPTIONAL,
	primaryScramblingCode						PrimaryScramblingCode,
	primaryCPICH-Power							PrimaryCPICH-Power					OPTIONAL,
	cellIndividualOffset						CellIndividualOffset				OPTIONAL,
	txDiversityIndicator 						TxDiversityIndicator,
	sTTD-SupportIndicator						STTD-SupportIndicator				OPTIONAL,
	closedLoopMode1-SupportIndicator			ClosedLoopMode1-SupportIndicator	OPTIONAL,
	not-used-closedLoopMode2-SupportIndicator	NULL								OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { Neighbouring-FDD-CellInformationItem-ExtIEs} } OPTIONAL,
	...
}

Neighbouring-FDD-CellInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-RestrictionStateIndicator			CRITICALITY ignore	EXTENSION RestrictionStateIndicator			PRESENCE optional}|
	{ ID id-DPC-Mode-Change-SupportIndicator	CRITICALITY ignore	EXTENSION DPC-Mode-Change-SupportIndicator		PRESENCE optional}|
	{ ID id-CoverageIndicator					CRITICALITY ignore	EXTENSION CoverageIndicator					PRESENCE optional}|
	{ ID id-AntennaColocationIndicator			CRITICALITY ignore	EXTENSION AntennaColocationIndicator			PRESENCE optional}|
	{ ID id-HCS-Prio							CRITICALITY ignore	EXTENSION HCS-Prio							PRESENCE optional}|
	{ ID id-CellCapabilityContainer-FDD			CRITICALITY ignore	EXTENSION CellCapabilityContainer-FDD		PRESENCE optional}|
	{ ID id-SNA-Information						CRITICALITY ignore	EXTENSION SNA-Information					PRESENCE optional}|
	{ ID id-FrequencyBandIndicator				CRITICALITY ignore	EXTENSION FrequencyBandIndicator			PRESENCE optional}|
	{ ID id-Max-UE-DTX-Cycle					CRITICALITY ignore	EXTENSION Max-UE-DTX-Cycle					PRESENCE conditional}|
	-- This IE shall be present if the the fifteenth bit Continuous Packet Connectivity DTX-DRX Support Indicator in the Cell Capability Container FDD IE is set to the value “1”.
	{ ID id-Multiple-PLMN-List					CRITICALITY ignore	EXTENSION Multiple-PLMN-List				PRESENCE optional}|
	{ ID id-Secondary-Serving-Cell-List 		CRITICALITY ignore	EXTENSION Secondary-Serving-Cell-List		PRESENCE optional}|
	{ ID id-Dual-Band-Secondary-Serving-Cell-List	CRITICALITY ignore	EXTENSION Secondary-Serving-Cell-List		PRESENCE optional}|
-- This IE shall be present if the twenty-eighth bit Dual Band Support Indicator in the Cell Capability Container FDD IE is set to the value “1”.
	{ ID id-CellCapabilityContainerExtension-FDD	CRITICALITY ignore	EXTENSION CellCapabilityContainerExtension-FDD	PRESENCE optional}|
	{ ID id-CellListValidityIndicator			CRITICALITY ignore	EXTENSION CellListValidityIndicator			PRESENCE optional}|
	{ ID id-MultipleFrequencyBandsIndicatorList	CRITICALITY ignore	EXTENSION MultipleFrequencyBandsIndicatorList	PRESENCE optional},
	...
}

MultipleFrequencyBandsIndicatorList ::= SEQUENCE (SIZE (0..maxMultipleFrequencyBands)) OF FrequencyBandIndicator

NeighbouringFDDCellMeasurementInformation ::= SEQUENCE {
	uC-ID								UC-ID,
	uARFCN								UARFCN,
	primaryScramblingCode				PrimaryScramblingCode,
	iE-Extensions						ProtocolExtensionContainer { { NeighbouringFDDCellMeasurementInformationItem-ExtIEs} } OPTIONAL,
	...
}

NeighbouringFDDCellMeasurementInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Neighbouring-GSM-CellInformation ::= ProtocolIE-Single-Container {{ Neighbouring-GSM-CellInformationIE }}

Neighbouring-GSM-CellInformationIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-Neighbouring-GSM-CellInformation	CRITICALITY ignore	TYPE	Neighbouring-GSM-CellInformationIEs	PRESENCE	mandatory }
}

Neighbouring-GSM-CellInformationIEs ::= SEQUENCE ( SIZE (1..maxNrOfGSMNeighboursPerRNC,...)) OF Neighbouring-GSM-CellInformationItem

Neighbouring-GSM-CellInformationItem ::= SEQUENCE {
	cGI									CGI,
	cellIndividualOffset				CellIndividualOffset	OPTIONAL,
	bSIC								BSIC,
	band-Indicator 						Band-Indicator,
	bCCH-ARFCN							BCCH-ARFCN,
	iE-Extensions						ProtocolExtensionContainer { { Neighbouring-GSM-CellInformationItem-ExtIEs} } OPTIONAL,
	...
}

Neighbouring-GSM-CellInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-CoverageIndicator				CRITICALITY ignore	EXTENSION CoverageIndicator					PRESENCE optional}|
	{ ID id-AntennaColocationIndicator		CRITICALITY ignore	EXTENSION AntennaColocationIndicator		PRESENCE optional}|
	{ ID id-HCS-Prio						CRITICALITY ignore	EXTENSION HCS-Prio							PRESENCE optional}|
	{ ID id-SNA-Information					CRITICALITY ignore	EXTENSION SNA-Information					PRESENCE optional}|
	{ ID id-GERAN-Cell-Capability			CRITICALITY ignore	EXTENSION GERAN-Cell-Capability				PRESENCE optional}|
	{ ID id-GERAN-Classmark					CRITICALITY ignore	EXTENSION GERAN-Classmark					PRESENCE optional}|
	{ ID id-ExtendedGSMCellIndividualOffset	CRITICALITY ignore	EXTENSION ExtendedGSMCellIndividualOffset	PRESENCE optional}|
	{ ID id-PLMN-List						CRITICALITY ignore	EXTENSION PLMN-List							PRESENCE optional},
	...
}

Neighbouring-TDD-CellInformation ::= SEQUENCE ( SIZE (1..maxNrOfTDDNeighboursPerRNC,...)) OF Neighbouring-TDD-CellInformationItem

Neighbouring-TDD-CellInformationItem ::= SEQUENCE {
	c-ID							C-ID,
	uARFCNforNt						UARFCN,
	frameOffset						FrameOffset				OPTIONAL,
	cellParameterID					CellParameterID,
	syncCase						SyncCase,
	timeSlot						TimeSlot				OPTIONAL
	-- This IE shall be present if Sync Case = Case1 -- ,
	sCH-TimeSlot					SCH-TimeSlot			OPTIONAL
	-- This IE shall be present if Sync Case = Case2 -- ,
	sCTD-Indicator					SCTD-Indicator,
	cellIndividualOffset			CellIndividualOffset	OPTIONAL,
	dPCHConstantValue				DPCHConstantValue		OPTIONAL,
	pCCPCH-Power					PCCPCH-Power			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Neighbouring-TDD-CellInformationItem-ExtIEs} } OPTIONAL,
	...
}

Neighbouring-TDD-CellInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-RestrictionStateIndicator				CRITICALITY ignore			EXTENSION RestrictionStateIndicator		PRESENCE optional	}|
	{ ID id-CoverageIndicator				CRITICALITY ignore			EXTENSION CoverageIndicator					PRESENCE optional	}|
	{ ID id-AntennaColocationIndicator		CRITICALITY ignore			EXTENSION AntennaColocationIndicator		PRESENCE optional	}|
	{ ID id-HCS-Prio						CRITICALITY ignore			EXTENSION HCS-Prio								PRESENCE optional	}|
	{ ID id-CellCapabilityContainer-TDD				CRITICALITY	ignore	EXTENSION	CellCapabilityContainer-TDD			PRESENCE optional }|
	{ ID id-SNA-Information							CRITICALITY ignore	EXTENSION SNA-Information						PRESENCE optional	}|
	{ ID id-CellCapabilityContainer-TDD768				CRITICALITY	ignore	EXTENSION	CellCapabilityContainer-TDD768			PRESENCE optional }|
	{ ID id-Multiple-PLMN-List				CRITICALITY ignore			EXTENSION Multiple-PLMN-List					PRESENCE optional },
	...
}

NeighbouringTDDCellMeasurementInformation ::= SEQUENCE {
	uC-ID								UC-ID,
	uARFCN								UARFCN,
	cellParameterID						CellParameterID,
	timeSlot							TimeSlot					OPTIONAL,
	midambleShiftAndBurstType			MidambleShiftAndBurstType	OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { NeighbouringTDDCellMeasurementInformationItem-ExtIEs} } OPTIONAL,
	...
}

NeighbouringTDDCellMeasurementInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

NeighbouringTDDCellMeasurementInformationLCR ::= SEQUENCE {
	uC-ID								UC-ID,
	uARFCN								UARFCN,
	cellParameterID						CellParameterID,
	timeSlotLCR							TimeSlotLCR					OPTIONAL,
	midambleShiftLCR					MidambleShiftLCR			OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { NeighbouringTDDCellMeasurementInformationLCRItem-ExtIEs} } OPTIONAL,
	...
}

NeighbouringTDDCellMeasurementInformationLCRItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

NeighbouringTDDCellMeasurementInformation768 ::= SEQUENCE {
	uC-ID								UC-ID,
	uARFCN								UARFCN,
	cellParameterID						CellParameterID,
	timeSlot							TimeSlot						OPTIONAL,
	midambleShiftAndBurstType768		MidambleShiftAndBurstType768	OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { NeighbouringTDDCellMeasurementInformationItem768-ExtIEs} } OPTIONAL,
	...
}

NeighbouringTDDCellMeasurementInformationItem768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Neighbouring-LCR-TDD-CellInformation ::= SEQUENCE (SIZE (1.. maxNrOfLCRTDDNeighboursPerRNC,...)) OF Neighbouring-LCR-TDD-CellInformationItem

Neighbouring-LCR-TDD-CellInformationItem ::= SEQUENCE {
	c-ID							C-ID,
	uARFCNforNt						UARFCN,
	frameOffset						FrameOffset					OPTIONAL,
	cellParameterID					CellParameterID,
	sCTD-Indicator					SCTD-Indicator,
	cellIndividualOffset			CellIndividualOffset		OPTIONAL,
	dPCHConstantValue				DPCHConstantValue			OPTIONAL,
	pCCPCH-Power					PCCPCH-Power				OPTIONAL,
	restrictionStateIndicator		RestrictionStateIndicator	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Neighbouring-LCR-TDD-CellInformationItem-ExtIEs} } OPTIONAL,
	...
}

Neighbouring-LCR-TDD-CellInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-CoverageIndicator				CRITICALITY ignore	EXTENSION CoverageIndicator							PRESENCE optional}|
	{ ID id-AntennaColocationIndicator		CRITICALITY ignore	EXTENSION AntennaColocationIndicator				PRESENCE optional}|
	{ ID id-HCS-Prio						CRITICALITY ignore	EXTENSION HCS-Prio									PRESENCE optional}|
	{ ID id-CellCapabilityContainer-TDD-LCR	CRITICALITY ignore	EXTENSION CellCapabilityContainer-TDD-LCR			PRESENCE optional}|
	{ ID id-SNA-Information					CRITICALITY ignore	EXTENSION SNA-Information							PRESENCE optional}|
	{ ID id-Multiple-PLMN-List				CRITICALITY ignore	EXTENSION Multiple-PLMN-List						PRESENCE optional}|
	{ ID id-CellCapabilityContainerExtension-TDD-LCR	CRITICALITY ignore	EXTENSION CellCapabilityContainerExtension-TDD-LCR	PRESENCE optional},
	...
}


Neighbouring-E-UTRA-CellInformation ::= SEQUENCE ( SIZE (1..maxNrOfEUTRANeighboursPerRNC,...)) OF Neighbouring-E-UTRA-CellInformationItem

Neighbouring-E-UTRA-CellInformationItem ::= SEQUENCE {
	eCGI								ECGI,
	eARFCN-Information					EARFCN-Information,
	iE-Extensions						ProtocolExtensionContainer { { Neighbouring-E-UTRA-CellInformationItem-ExtIEs} } OPTIONAL,
	...
}

Neighbouring-E-UTRA-CellInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-PCI											CRITICALITY ignore	EXTENSION PCI							PRESENCE optional}|
	{ ID id-TAC											CRITICALITY ignore	EXTENSION TAC							PRESENCE optional}|
	{ ID id-PLMN-List									CRITICALITY ignore	EXTENSION PLMN-List						PRESENCE optional}|
	{ ID id-MultipleFrequencyBandsIndicatorList-EUTRA	CRITICALITY ignore	EXTENSION MultipleFrequencyBandsIndicatorList-EUTRA	PRESENCE optional},
	...
}

MultipleFrequencyBandsIndicatorList-EUTRA ::= SEQUENCE (SIZE (0.. maxMultipleFrequencyBandsEUTRA)) OF RadioFrequencyBandEUTRA

RadioFrequencyBandEUTRA ::= INTEGER (1..256)

NonCellSpecificTxDiversity ::= ENUMERATED {
	txDiversity,
	...
}

Non-rectangular-resource-allocation-indicator ::= ENUMERATED {
	activate
}

Non-rectangular-resource-timeslot-set ::= BIT STRING (SIZE (7))

NotProvidedCellList	::= SEQUENCE (SIZE (1..maxNrOfCells)) OF MBMSChannelTypeCellList

NrOfDLchannelisationcodes ::= INTEGER (1..8)

NrOfTransportBlocks ::= INTEGER (0..512)

NRT-Load-Information-Value-IncrDecrThres ::= INTEGER(0..3) 

NRT-Load-Information-Value ::= INTEGER(0..3)

NRTLoadInformationValue ::= SEQUENCE {
		uplinkNRTLoadInformationValue		INTEGER(0..3),
		downlinkNRTLoadInformationValue		INTEGER(0..3)
}

N-E-UCCH ::= INTEGER (1..12)

N-E-UCCH-LCR ::= INTEGER (1..8)

Number-Of-Supported-Carriers ::= ENUMERATED {
	one-one-carrier,
	one-three-carrier,
	three-three-carrier,
	one-six-carrier,
	three-six-carrier,
	six-six-carrier,
	...,
	one-two-carrier-discontiguous,
	two-two-carrier-discontiguous,
	one-two-carrier-contiguous,
	two-two-carrier-contiguous
}

NumHS-SCCH-Codes ::= INTEGER (1..maxNrOfHSSCCHCodes)

NoOfTargetCellHS-SCCH-Order::= INTEGER (1..30)

Non-Serving-RL-Preconfig-Setup	::=	SEQUENCE {
	new-non-serving-RL-selection	New-non-serving-RL-setup-selection,
	iE-Extensions			ProtocolExtensionContainer { {Non-Serving-RL-Preconfig-Setup-ExtIEs} } OPTIONAL,
	...
}

Non-Serving-RL-Preconfig-Setup-ExtIEs	RNSAP-PROTOCOL-EXTENSION::=	{
	{ID id-Additional-E-DCH-Non-Serving-RL-Preconfiguration-Setup	CRITICALITY ignore	EXTENSION Additional-E-DCH-Non-Serving-RL-Preconfiguration-Setup PRESENCE optional }|
	{ ID id-FTPICH-Information							CRITICALITY ignore	EXTENSION FTPICH-Information			PRESENCE optional},
...
}

Additional-E-DCH-Non-Serving-RL-Preconfiguration-Setup	::= NULL

New-non-serving-RL-setup-selection	::=	CHOICE {
	new-Serving-RL-in-DRNS					NULL,
	new-Serving-RL-Not-in-DRNS				NULL,
	new-Serving-RL-in-or-Not-in-DRNS		NULL,
	...
}


Non-Serving-RL-Preconfig-Info	::=	SEQUENCE {
	new-non-serving-RL-E-DCH-FDD-DL-ControlChannelInformation-A		EDCH-FDD-DL-ControlChannelInformation OPTIONAL,
	new-non-serving-RL-E-DCH-FDD-DL-ControlChannelInformation-B		EDCH-FDD-DL-ControlChannelInformation OPTIONAL,
	new-non-serving-RL-E-DCH-FDD-DL-ControlChannelInformation-C		EDCH-FDD-DL-ControlChannelInformation OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { {Non-Serving-RL-Preconfig-Info-ExtIEs} } OPTIONAL,
	...
}

Non-Serving-RL-Preconfig-Info-ExtIEs	RNSAP-PROTOCOL-EXTENSION	::=	{
	{ID id-Additional-E-DCH-New-non-serving-RL-E-DCH-FDD-DL-Control-Channel-InfoList	CRITICALITY ignore	EXTENSION Additional-E-DCH-New-non-serving-RL-E-DCH-FDD-DL-Control-Channel-InfoList PRESENCE optional}|
	{ ID id-FTPICH-Information-Response				CRITICALITY ignore	EXTENSION FTPICH-Information-Response		PRESENCE optional},
...
}

Additional-E-DCH-New-non-serving-RL-E-DCH-FDD-DL-Control-Channel-InfoList	::=	SEQUENCE(SIZE(1.. maxNrOfEDCH-1)) OF SEQUENCE { 
	new-non-serving-RL-E-DCH-FDD-DL-Control-Channel-Information-A	EDCH-FDD-DL-ControlChannelInformation OPTIONAL,
	new-non-serving-RL-E-DCH-FDD-DL-Control-Channel-Information-B	EDCH-FDD-DL-ControlChannelInformation OPTIONAL,
	new-non-serving-RL-E-DCH-FDD-DL-Control-Channel-Information-C	EDCH-FDD-DL-ControlChannelInformation OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { Additional-E-DCH-New-non-serving-RL-E-DCH-FDD-DL-Control-Channel-InfoList-ExtIEs} } OPTIONAL,
	...
}

Additional-E-DCH-New-non-serving-RL-E-DCH-FDD-DL-Control-Channel-InfoList-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
...
}

NeedforIdleInterval ::= ENUMERATED {
	true,
	false
}


-- O

OnModification ::= SEQUENCE {
	measurementThreshold	MeasurementThreshold,
	iE-Extensions			ProtocolExtensionContainer { {OnModification-ExtIEs} } OPTIONAL,
	...
}

OnModification-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

OnModificationInformation ::= SEQUENCE {
	informationThreshold	InformationThreshold 	OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { {OnModificationInformation-ExtIEs} } OPTIONAL,
	...
}

OnModificationInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

OrdinalNumberOfFrequency ::= INTEGER (1..32,...)

Out-of-Sychronization-Window ::= ENUMERATED {
ms40,
ms80,
ms160,
ms320,
ms640,
...
}

-- P

PagingCause ::= ENUMERATED {
	terminating-conversational-call,
	terminating-streaming-call,
	terminating-interactive-call,
	terminating-background-call,
	terminating-low-priority-signalling,
	...,
	terminating-high-priority-signalling, 
	terminating-cause-unknown
}
-- See in TS 25.331 [16]

PagingRecordType ::= ENUMERATED {
	imsi-gsm-map,
	tmsi-gsm-map,
	p-tmsi-gsm-map,
	imsi-ds-41,
	tmsi-ds-41,
	...
}
-- See in TS 25.331 [16]

PartialReportingIndicator ::= ENUMERATED {
	partial-reporting-allowed
}

Pattern-Sequence-Identifier ::= INTEGER (1.. maxNrOfDCHMeasurementOccasionPatternSequence)

PayloadCRC-PresenceIndicator ::= ENUMERATED {
	crc-included,
	crc-not-included
}

PCCPCH-Power ::= INTEGER (-150..400,...)
-- PCCPCH-power = power * 10
-- If power <= -15 PCCPCH shall be set to -150
-- If power >= 40 PCCPCH shall be set to 400
-- Unit dBm, Range -15dBm .. +40 dBm, Step 0.1dBm

PCH-InformationList ::= SEQUENCE (SIZE(0..1)) OF PCH-InformationItem

PCH-InformationItem ::= SEQUENCE {
	transportFormatSet				TransportFormatSet,
	iE-Extensions					ProtocolExtensionContainer { { PCH-InformationItem-ExtIEs} } OPTIONAL,
	...
}

PCH-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

PC-Preamble ::= INTEGER(0..7,...)

PCI ::= INTEGER (0..503,...)

Periodic ::= SEQUENCE {
	reportPeriodicity		ReportPeriodicity,
	iE-Extensions			ProtocolExtensionContainer { {Periodic-ExtIEs} } OPTIONAL,
	...
}

Periodic-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

PeriodicInformation ::= SEQUENCE {
	informationReportPeriodicity		InformationReportPeriodicity,
	iE-Extensions						ProtocolExtensionContainer { {PeriodicInformation-ExtIEs} } OPTIONAL,
	...
}

PeriodicInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Permanent-NAS-UE-Identity ::= CHOICE {
	imsi		IMSI,
	...
}

Phase-Reference-Update-Indicator ::= ENUMERATED {
	phase-reference-needs-to-be-changed
}

PLCCHsequenceNumber ::= INTEGER (0..14)

PLMN-Identity ::= OCTET STRING (SIZE(3))

PLMN-List ::= SEQUENCE (SIZE(0..maxNrOfBroadcastPLMNs)) OF PLMN-Identity

PowerAdjustmentType ::= ENUMERATED {
	none,
	common,
	individual
}

PowerOffset ::= INTEGER (0..24)

PowerOffsetForSecondaryCPICHforMIMO ::= INTEGER (-6..0)
-- Unit dB, Range -10dB .. 5dB, Step +1dB

PowerOffsetForSecondaryCPICHforMIMORequestIndicator ::= NULL

PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennas ::= SEQUENCE (SIZE (1.. maxSCPICHCell)) OF Associated-Secondary-CPICH

Associated-Secondary-CPICH ::= SEQUENCE{
	associated-secondary-CPICH-channelId	CommonPhysicalChannelID,
	associated-secondary-CPICH				PowerOffsetForSCPICH-DCPICHforMIMOwithfourtransmitantennas			OPTIONAL,
	associated-D-CPICH-channelId			CommonPhysicalChannelID												OPTIONAL,
	associated-D-CPICH						PowerOffsetForSCPICH-DCPICHforMIMOwithfourtransmitantennas			OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { Associated-Secondary-CPICH-Item-ExtIEs} }	OPTIONAL,
	...
}

Associated-Secondary-CPICH-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

CommonPhysicalChannelID ::= INTEGER (0..255)

PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennasRequestIndicator ::= NULL

PowerOffsetForSCPICH-DCPICHforMIMOwithfourtransmitantennas ::= INTEGER (-12..0)
-- Unit dB, Range -10dB .. 5dB, Step +1dB

PRC ::= INTEGER (-2047..2047)
--pseudo range correction; scaling factor 0.32 meters

PRCDeviation ::= ENUMERATED {
	prcd1,
	prcd2,
	prcd5,
	prcd10,
	...
}

Pre-emptionCapability ::= ENUMERATED {
	shall-not-trigger-pre-emption,
	may-trigger-pre-emption
}

Pre-emptionVulnerability ::= ENUMERATED {
	not-pre-emptable,
	pre-emptable
}

Precoder-Weight-Set-Restriction ::= BIT STRING (SIZE (64))

PredictedSFNSFNDeviationLimit ::= INTEGER (1..256)
-- Unit chip, Step 1/16 chip, Range 1/16..16 chip

PredictedTUTRANGPSDeviationLimit ::= INTEGER (1..256)
-- Unit chip, Step 1/16 chip, Range 1/16..16 chip

PreferredFrequencyLayerInfo	::= SEQUENCE {
	defaultPreferredFrequency	UARFCN,
	additionalPreferredFrequency	AdditionalPreferredFrequency	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { PreferredFrequencyLayerInfo-ExtIEs} } OPTIONAL,
	...
}
PreferredFrequencyLayerInfo-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


PrimaryCPICH-Power ::= INTEGER (-100..500)
-- step 0.1 (Range –10.0..50.0) Unit is dBm

PrimaryCPICH-EcNo ::= INTEGER (-30..30)

Primary-CPICH-Usage-For-Channel-Estimation ::= ENUMERATED {
primary-CPICH-may-be-used,
primary-CPICH-shall-not-be-used
}

PrimaryCCPCH-RSCP ::= INTEGER (0..91)
-- Mapping of Non Negative values according to maping in TS 25.123 [24]

PrimaryCCPCH-RSCP-Delta ::= INTEGER (-5..-1,...)
-- Mapping of Negative values according to maping in TS 25.123 [24]

PrimaryScramblingCode ::= INTEGER (0..511)

PriorityLevel ::= INTEGER (0..15)
-- 0 = spare, 1 = highest priority, ...14 = lowest priority and 15 = no priority

PriorityQueue-Id ::= INTEGER (0..maxNrOfPrioQueues-1)

PriorityQueue-InfoList ::= SEQUENCE (SIZE (1..maxNrOfPrioQueues)) OF PriorityQueue-InfoItem

PriorityQueue-InfoItem ::= SEQUENCE {
	priorityQueue-Id					PriorityQueue-Id,
	associatedHSDSCH-MACdFlow			HSDSCH-MACdFlow-ID,
	schedulingPriorityIndicator			SchedulingPriorityIndicator,
	t1									T1,
	discardTimer						DiscardTimer				OPTIONAL,
	mAC-hsWindowSize					MAC-hsWindowSize,
	mAChsGuaranteedBitRate				MAChsGuaranteedBitRate		OPTIONAL,
	mACdPDU-Size-Index					MACdPDU-Size-IndexList,
	rLC-Mode							RLC-Mode,
	iE-Extensions						ProtocolExtensionContainer { { PriorityQueue-InfoItem-ExtIEs } }			OPTIONAL,
	...
}

PriorityQueue-InfoItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-MaximumMACdPDU-SizeExtended 		CRITICALITY reject	EXTENSION MAC-PDU-SizeExtended			PRESENCE optional}|
{ ID id-DL-RLC-PDU-Size-Format				CRITICALITY ignore	EXTENSION DL-RLC-PDU-Size-Format		PRESENCE optional}|
{ ID id-UE-AggregateMaximumBitRate-Enforcement-Indicator	CRITICALITY ignore	EXTENSION UE-AggregateMaximumBitRate-Enforcement-Indicator	PRESENCE optional},
	...
}

PriorityQueue-InfoList-EnhancedFACH-PCH	::= SEQUENCE (SIZE (1..maxNrOfPrioQueues)) OF PriorityQueue-InfoItem-EnhancedFACH-PCH

PriorityQueue-InfoItem-EnhancedFACH-PCH ::= SEQUENCE {
	priorityQueue-Id					PriorityQueue-Id,
	schedulingPriorityIndicator			SchedulingPriorityIndicator,
	t1									T1,
	mAC-ehs-Reset-Timer					MAC-ehs-Reset-Timer,
	discardTimer						DiscardTimer							OPTIONAL,
	mAC-hsWindowSize					MAC-hsWindowSize,
	maximum-MACdPDU-Size				MAC-PDU-SizeExtended,
	iE-Extensions						ProtocolExtensionContainer { { PriorityQueue-InfoItem-EnhancedFACH-PCH-ExtIEs } }			OPTIONAL,
	...
}

PriorityQueue-InfoItem-EnhancedFACH-PCH-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

PriorityQueue-InfoList-to-Modify ::= SEQUENCE (SIZE (1..maxNrOfPrioQueues)) OF ModifyPriorityQueue

PriorityQueue-InfoItem-to-Add ::= SEQUENCE {
	priorityQueue-Id					PriorityQueue-Id,
	associatedHSDSCH-MACdFlow			HSDSCH-MACdFlow-ID,
	schedulingPriorityIndicator			SchedulingPriorityIndicator,
	t1									T1,
	discardTimer						DiscardTimer							OPTIONAL,
	mAC-hsWindowSize					MAC-hsWindowSize,
	mAChsGuaranteedBitRate				MAChsGuaranteedBitRate					OPTIONAL,
	mACdPDU-Size-Index					MACdPDU-Size-IndexList,
	rLC-Mode							RLC-Mode,
	iE-Extensions						ProtocolExtensionContainer { { PriorityQueue-InfoItem-to-Add-ExtIEs } }			OPTIONAL,
	...
}

PriorityQueue-InfoItem-to-Add-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-MaximumMACdPDU-SizeExtended 	CRITICALITY reject		EXTENSION	MAC-PDU-SizeExtended 	PRESENCE optional}|
{ ID id-DL-RLC-PDU-Size-Format				CRITICALITY ignore		EXTENSION	DL-RLC-PDU-Size-Format	PRESENCE optional},
	...
}

PriorityQueue-InfoItem-to-Modify ::= SEQUENCE {
	priorityQueue-Id					PriorityQueue-Id,
	schedulingPriorityIndicator			SchedulingPriorityIndicator				OPTIONAL,
	t1									T1										OPTIONAL,
	discardTimer						DiscardTimer							OPTIONAL,
	mAC-hsWindowSize					MAC-hsWindowSize						OPTIONAL,
	mAChsGuaranteedBitRate				MAChsGuaranteedBitRate					OPTIONAL,
	mACdPDU-Size-Index-to-Modify		MACdPDU-Size-IndexList-to-Modify					OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { PriorityQueue-InfoItem-to-Modify-ExtIEs } }			OPTIONAL,
	...
}

PriorityQueue-InfoItem-to-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-MaximumMACdPDU-SizeExtended 	CRITICALITY reject	EXTENSION MAC-PDU-SizeExtended		PRESENCE optional}|
{ ID id-DL-RLC-PDU-Size-Format			CRITICALITY ignore	EXTENSION DL-RLC-PDU-Size-Format	PRESENCE optional},
	...
}

PriorityQueue-InfoList-to-Modify-Unsynchronised ::= SEQUENCE (SIZE (0..maxNrOfPrioQueues)) OF PriorityQueue-InfoItem-to-Modify-Unsynchronised

PriorityQueue-InfoItem-to-Modify-Unsynchronised ::= SEQUENCE {
	priorityQueueId						PriorityQueue-Id,
	schedulingPriorityIndicator			SchedulingPriorityIndicator									OPTIONAL,
	discardTimer						DiscardTimer												OPTIONAL,
	mAChsGuaranteedBitRate				MAChsGuaranteedBitRate										OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { PriorityQueue-InfoItem-to-Modify-Unsynchronised-ExtIEs} }	OPTIONAL,
	...
}

PriorityQueue-InfoItem-to-Modify-Unsynchronised-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

PropagationDelay ::= INTEGER (0..255)

ProvidedInformation	::= SEQUENCE {
	mBMSChannelTypeInfo				MBMSChannelTypeInfo				OPTIONAL,
	mBMSPreferredFreqLayerInfo		MBMSPreferredFreqLayerInfo		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { ProvideInformation-ExtIEs} } OPTIONAL,
	...
}
ProvideInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UpPCH-InformationList-LCRTDD	CRITICALITY ignore	EXTENSION UpPCH-InformationList-LCRTDD	PRESENCE optional}|
	-- Applicable to 1.28Mcps TDD only
	{ ID id-ANRReportIndication				CRITICALITY ignore	EXTENSION ANRReportIndication			PRESENCE optional},
	...
}


UpPCH-InformationList-LCRTDD ::= SEQUENCE (SIZE (0.. maxFrequencyinCell)) OF ProtocolIE-Single-Container {{ UpPCH-InformationItemIE-LCRTDD }}

UpPCH-InformationItemIE-LCRTDD RNSAP-PROTOCOL-IES ::= {
	{ ID	id-UpPCH-InformationItem-LCRTDD	CRITICALITY ignore	TYPE UpPCH-InformationItem-LCRTDD	PRESENCE mandatory},
	...
}

UpPCH-InformationItem-LCRTDD ::= SEQUENCE {
	uARFCNforNt				UARFCN					OPTIONAL,
	uPPCHPositionLCR		UPPCHPositionLCR		OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { UpPCH-InformationItem-LCRTDD-ExtIEs} }		OPTIONAL,
	...
}

UpPCH-InformationItem-LCRTDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

PunctureLimit ::= INTEGER (0..15)
-- 0: 40%; 1: 44%; ... 14: 96%; 15: 100
-- 0 is not applicable for E-DPCH


PTMCellList ::= SEQUENCE (SIZE (1..maxNrOfCells)) OF MBMSChannelTypeCellList

PTPCellList ::= SEQUENCE (SIZE (1..maxNrOfCells)) OF MBMSChannelTypeCellList


-- Q

QE-Selector ::= ENUMERATED {
	selected,
	non-selected
}
Process-Memory-Size	::=	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,...}

-- R

RABased	::= SEQUENCE {
	raiList				RAI-List,
	iE-Extensions		ProtocolExtensionContainer { {RABased-ExtIEs} } OPTIONAL,
	...
}

RABased-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


Radio-Links-without-DPCH-FDPCH-Indication ::= SEQUENCE (SIZE (1..maxNrOfRLs)) OF Radio-Links-without-DPCH-FDPCH-Information

Radio-Links-without-DPCH-FDPCH-Information ::= SEQUENCE {
	rL-ID													RL-ID,
	radio-Links-without-DPCH-FDPCH-Operation-Indicator		ENUMERATED {true},
	iE-Extensions				ProtocolExtensionContainer { { Radio-Links-without-DPCH-FDPCH-Information-ExtIEs} } OPTIONAL,
	...
}

Radio-Links-without-DPCH-FDPCH-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RAI-List	::= SEQUENCE (SIZE (1..maxNrOfRAIs)) OF
	RAI


ReportInterval ::=	ENUMERATED {
							ms250,
							ms500,
							ms1000,
							ms2000,
							ms3000,
							ms4000,
							ms6000,
							ms12000,
							ms16000,
							ms20000,
							ms24000,
							ms32000,
							ms64000,
							... }

ReportAmount ::=	ENUMERATED { n1, n2, n4, n8, n16, n32, n64, infinity, ... }

RAC ::= OCTET STRING (SIZE(1))

RAI ::= SEQUENCE {
	pLMN-Identity		PLMN-Identity,
	lAC					LAC,
	rAC					RAC
}

RANAP-EnhancedRelocationInformationRequest ::= BIT STRING

RANAP-EnhancedRelocationInformationResponse ::= BIT STRING

RANAP-RelocationInformation	 ::= BIT STRING

Range-Correction-Rate ::= INTEGER (-127..127)
-- scaling factor 0.032 m/s

RateMatchingAttribute ::= INTEGER (1..maxRateMatching)

RB-Identity ::= INTEGER (0..31)

RB-Info ::= SEQUENCE (SIZE(1..maxNoOfRB)) OF RB-Identity

Received-Total-Wideband-Power-Value ::= Received-total-wide-band-power

Received-Total-Wideband-Power-Value-IncrDecrThres ::= INTEGER(0..620)
-- Unit dB Step 0.1dB
-- e.g. value 100 means 10dB

Reference-E-TFCI-Information ::= SEQUENCE (SIZE (1..maxNrOfRefETFCIs)) OF Reference-E-TFCI-Information-Item

Reference-E-TFCI-Information-Item ::= SEQUENCE {
	reference-E-TFCI				E-TFCI,
	-- The following IE shall be ignored if id-Ext-Reference-E-TFCI-PO is present in Reference-E-TFCI-Information-Item-ExtIEs
	reference-E-TFCI-PO				Reference-E-TFCI-PO,
	iE-Extensions					ProtocolExtensionContainer { { Reference-E-TFCI-Information-Item-ExtIEs} }		OPTIONAL,
	...
}

Reference-E-TFCI-Information-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	-- The following IE shall be present if the ref E-TFCI power offset to be signalled exceeds maxNrOfRefETFCI-PO-QUANTSTEPs
	{ ID id-Ext-Reference-E-TFCI-PO		CRITICALITY reject		EXTENSION	Ext-Reference-E-TFCI-PO		PRESENCE optional},
	...
}

Reference-E-TFCI-PO ::= INTEGER (0.. maxNrOfRefETFCI-PO-QUANTSTEPs)

RefTFCNumber ::= INTEGER (0..15)

Released-CN-Domain ::= CHOICE {
	pSDomain				NULL,
	cSDomain				NULL,
	pS-CSDomain				NULL,
	...
}


RepetitionLength 			::= INTEGER (1..63)

RepetitionPeriod ::= ENUMERATED {
	v1,
	v2,
	v4,
	v8,
	v16,
	v32,
	v64
}

RepetitionNumber0 ::= INTEGER (0..255)

RepetitionNumber1 ::= INTEGER (1..256)

ReportCharacteristics ::= CHOICE {
	onDemand			NULL,
	periodic			Periodic,
	eventA				EventA,
	eventB				EventB,
	eventC				EventC,
	eventD				EventD,
	eventE				EventE,
	eventF				EventF,
	...,
	extension-ReportCharacteristics		Extension-ReportCharacteristics
}

Extension-ReportCharacteristics ::= ProtocolIE-Single-Container {{ Extension-ReportCharacteristicsIE }}

Extension-ReportCharacteristicsIE RNSAP-PROTOCOL-IES ::= {
	{ ID id-OnModification	CRITICALITY reject	TYPE OnModification		PRESENCE mandatory }|
	{ ID id-EventH			CRITICALITY reject	TYPE EventH				PRESENCE mandatory }
}

ReportPeriodicity ::= CHOICE {
	ten-msec 		INTEGER (1..6000,...),
-- The Report Periodicity gives the reporting periodicity in number of 10 ms periods.
-- E.g. value 6000 means 60000ms (i.e. 1min)
-- Unit ms, Step 10ms
	min				INTEGER (1..60,...),
-- Unit min, Step 1min
	...
}

RequestedDataValue ::= SEQUENCE {
	gA-AccessPointPositionwithAltitude			GA-AccessPointPositionwithOptionalAltitude	OPTIONAL,
	iPDLParameters								IPDLParameters								OPTIONAL,
	dGPSCorrections								DGPSCorrections								OPTIONAL,
	gPS-NavigationModel-and-TimeRecovery		GPS-NavigationModel-and-TimeRecovery		OPTIONAL,
	gPS-Ionospheric-Model						GPS-Ionospheric-Model						OPTIONAL,
	gPS-UTC-Model								GPS-UTC-Model								OPTIONAL,
	gPS-Almanac									GPS-Almanac									OPTIONAL,
	gPS-RealTime-Integrity						GPS-RealTime-Integrity						OPTIONAL,
	gPS-RX-POS									GPS-RX-POS									OPTIONAL,
	sFNSFN-GA-AccessPointPosition				GA-AccessPointPositionwithOptionalAltitude	OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { RequestedDataValue-ExtIEs} }		OPTIONAL,
	...
}

RequestedDataValue-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Cell-Capacity-Class-Value				CRITICALITY ignore	EXTENSION Cell-Capacity-Class-Value			PRESENCE optional }|
	{ ID id-NACC-Related-Data						CRITICALITY ignore	EXTENSION NACC-Related-Data				PRESENCE optional }|
	{ ID id-MBMS-Bearer-Service-Full-Address		CRITICALITY ignore	EXTENSION MBMS-Bearer-Service-Full-Address		PRESENCE optional }|
	{ ID id-Inter-Frequency-Cell-Information		CRITICALITY ignore	EXTENSION Inter-Frequency-Cell-Information		PRESENCE optional }|
	{ ID id-GANSS-Common-Data						CRITICALITY ignore	EXTENSION GANSS-Common-Data			PRESENCE optional }|
	{ ID id-GANSS-Generic-Data						CRITICALITY ignore	EXTENSION GANSS-Generic-Data				PRESENCE optional }|
	{ ID id-Counting-Information					CRITICALITY ignore	EXTENSION Counting-Information			PRESENCE optional }|
	{ ID id-Transmission-Mode-Information			CRITICALITY ignore	EXTENSION Transmission-Mode-Information			PRESENCE optional }|
	{ ID id-MBMS-Neighbouring-Cell-Information		CRITICALITY ignore	EXTENSION MBMS-Neighbouring-Cell-Information		PRESENCE optional }|
	{ ID id-RLC-Sequence-Number						CRITICALITY ignore	EXTENSION RLC-Sequence-Number			PRESENCE optional }|
	{ ID id-ANR-Cell-Information					CRITICALITY ignore	EXTENSION ANR-Cell-Information			PRESENCE optional }|
	{ ID id-Common-E-RGCH-Cell-Information			CRITICALITY ignore	EXTENSION Common-E-RGCH-Cell-Information			PRESENCE optional },
	...
}

RequestedDataValueInformation ::= CHOICE {
	informationAvailable		InformationAvailable,
	informationNotAvailable		InformationNotAvailable
}

RestrictionStateIndicator ::= ENUMERATED {
	cellNotResevedForOperatorUse,
	cellResevedForOperatorUse,
	...
}

RL-ID ::= INTEGER (0..31)

RL-Set-ID ::= INTEGER (0..31)

RL-Specific-DCH-Info ::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF RL-Specific-DCH-Info-Item

RL-Specific-DCH-Info-Item ::= SEQUENCE {
	dCH-id					DCH-ID,
	bindingID				BindingID OPTIONAL,
	-- Shall be ignored if bearer establishment with ALCAP.
	transportLayerAddress	TransportLayerAddress		OPTIONAL,
	-- Shall be ignored if bearer establishment with ALCAP.
	iE-Extensions			ProtocolExtensionContainer { { RL-Specific-DCH-Info-Item-ExtIEs} }	OPTIONAL,
	...
}

RL-Specific-DCH-Info-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TransportBearerNotRequestedIndicator	CRITICALITY ignore	EXTENSION TransportBearerNotRequestedIndicator		PRESENCE optional	}, -- FDD only
	...
}

RL-Specific-EDCH-Information ::= SEQUENCE {
	rL-Specific-EDCH-Info	RL-Specific-EDCH-Info, 
	e-AGCH-PowerOffset		E-AGCH-PowerOffset														OPTIONAL,
	e-RGCH-PowerOffset		E-RGCH-PowerOffset														OPTIONAL,
	e-HICH-PowerOffset		E-HICH-PowerOffset														OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { RL-Specific-EDCH-Information-Item-ExtIEs} }	OPTIONAL,
	...
}


RL-Specific-EDCH-Information-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


RL-Specific-EDCH-Info ::= SEQUENCE (SIZE (1..maxNrOfEDCHMACdFlows)) OF RL-Specific-EDCH-InfoItem

RL-Specific-EDCH-InfoItem ::= SEQUENCE {
	eDCH-MACdFlow-ID					EDCH-MACdFlow-ID,
	bindingID							BindingID 					OPTIONAL,
	-- Shall be ignored if bearer establishment with ALCAP.
	transportLayerAddress				TransportLayerAddress		OPTIONAL,
	-- Shall be ignored if bearer establishment with ALCAP.
	iE-Extensions			ProtocolExtensionContainer { { RL-Specific-EDCH-Info-Item-ExtIEs} }	OPTIONAL,
	...
}

RL-Specific-EDCH-Info-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TransportBearerNotRequestedIndicator	CRITICALITY ignore	EXTENSION TransportBearerNotRequestedIndicator		PRESENCE optional	}, -- FDD only
	...
}

RLC-Mode	::= ENUMERATED {
	rLC-AM,
	rLC-UM,
	...
}
DL-RLC-PDU-Size-Format	::= ENUMERATED {
	fixed-RLC-PDU-Size,
	flexible-RLC-PDU-Size,
	...
}

RLC-Sequence-Number ::= INTEGER (0..127)

RNC-ID ::= INTEGER (0..4095)

RNTI-Allocation-Indicator ::= ENUMERATED {
	true
}

Round-Trip-Time-IncrDecrThres ::= INTEGER(0..32766)

Round-Trip-Time-Value ::= INTEGER(0..32767)
-- According to mapping in TS 25.133 [23]

RSCP-Value ::= INTEGER (0..127)
-- According to mapping in TS 25.123 [24]

RSCP-Value-IncrDecrThres ::= INTEGER (0..126)

Received-total-wide-band-power ::= INTEGER (0..621)
-- According to mapping in TS 25.133 [23]

RT-Load-Value-IncrDecrThres ::= INTEGER(0..100)

RT-Load-Value ::= INTEGER(0..100)

RTLoadValue ::= SEQUENCE {
		uplinkRTLoadValue		INTEGER(0..100),
		downlinkRTLoadValue		INTEGER(0..100)
}

RxTimingDeviationForTA ::= INTEGER (0..127)
-- As specified in TS 25.435 [5], ch. 6.2.7.6
-- For 1.28Mcps TDD this IE must be set to 0.

RxTimingDeviationForTAext ::= INTEGER (0..511)
-- As specified in TS 25.435 [5] [3.84 Mcps TDD only]

RxTimingDeviationForTA768 ::= INTEGER (0.. 1023)
-- As specified in TS 25.435 [5]

Rx-Timing-Deviation-Value ::= INTEGER (0..8191)
--According to mapping in TS 25.123 [24][3.84Mcps TDD only]

Rx-Timing-Deviation-Value-ext ::= INTEGER (0..32767)
--According to mapping in TS 25.123 [24][3.84Mcps TDD only]

Rx-Timing-Deviation-Value-LCR ::= INTEGER (0..511)
--According to mapping in TS 25.123 [24][1.28Mcps TDD only]

Rx-Timing-Deviation-Value-768 ::= INTEGER (0..65535)
--According to mapping in TS 25.123 [24][7.68Mcps TDD only]

RefBeta ::= INTEGER (-15..16)

-- S

SAC	 ::= OCTET STRING (SIZE (2))

SAI ::= SEQUENCE {
	pLMN-Identity		PLMN-Identity,
	lAC					LAC,
	sAC					SAC,
	iE-Extensions		ProtocolExtensionContainer { {SAI-ExtIEs} } OPTIONAL
}

SAI-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Same-As-Scheduled-E-HICH ::= SEQUENCE {
	e-HICH-EI									E-HICH-EI,
	...
}

SAT-ID ::= INTEGER (0..63)

Satellite-DGPSCorrections-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-DGNSS-ValidityPeriod	CRITICALITY	ignore	EXTENSION	DGNSS-ValidityPeriod	PRESENCE	optional},
	...
}

SCH-TimeSlot ::= INTEGER (0..6)

ScaledAdjustmentRatio ::= INTEGER(0..100)
-- AdjustmentRatio = ScaledAdjustmentRatio / 100

SchedulingInformation ::= ENUMERATED {
	included,
	not-included
}

SCTD-Indicator	::= ENUMERATED {
	active,
	inactive
}

SDPCCH-PowerOffsetInformation ::= INTEGER (0..6,...)

SecondaryServingCells ::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF SecondaryServingCellsItem

SecondaryServingCellsItem ::= SEQUENCE {
	secondaryC-ID							C-ID,
	numSecondaryHS-SCCH-Codes				NumHS-SCCH-Codes						OPTIONAL,
	sixtyfourQAM-UsageAllowedIndicator		SixtyfourQAM-UsageAllowedIndicator 		OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { { SecondaryServingCellsItem-ExtIEs} }		OPTIONAL,
	...
}

SecondaryServingCellsItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ID id-MIMO-ActivationIndicator				CRITICALITY ignore	EXTENSION MIMO-ActivationIndicator				PRESENCE optional}|
{ID id-EDCH-Indicator						CRITICALITY ignore	EXTENSION NULL										PRESENCE optional}|
{ID id-power-offset-for-S-CPICH-for-MIMO-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMORequestIndicator	PRESENCE optional}|
{ID id-OrdinalNumberOfFrequency				CRITICALITY reject	EXTENSION OrdinalNumberOfFrequency				PRESENCE optional}|
{ ID id-MIMO-withfourtransmitantennas-ActivationIndicator	CRITICALITY ignore	EXTENSION MIMO-withfourtransmitantennas-ActivationIndicator
	PRESENCE optional}|
{ ID id-DualStream-MIMO-withfourtransmitantennas-ActivationIndicator	CRITICALITY ignore	EXTENSION DualStream-MIMO-withfourtransmitantennas-ActivationIndicator		PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas-Request-Indicator	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennasRequestIndicator		PRESENCE optional}|
{ID id-Multiflow-OrdinalNumberOfFrequency	CRITICALITY reject	EXTENSION Multiflow-OrdinalNumberOfFrequency			PRESENCE optional},
	...
}


Secondary-CCPCH-Info-TDD::= SEQUENCE {
	dl-TFCS									TFCS,
	tFCI-Coding								TFCI-Coding,
	secondary-CCPCH-TDD-InformationList		Secondary-CCPCH-TDD-InformationList,
	fACH-InformationList					FACH-InformationList,
	pCH-InformationList						PCH-InformationList,
	iE-Extensions							ProtocolExtensionContainer { { Secondary-CCPCH-Info-TDD-ExtIEs} } OPTIONAL,
	...
}

Secondary-CCPCH-Info-TDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Secondary-CPICH-Information ::= SEQUENCE {
dl-ScramblingCode							DL-ScramblingCode,
fDD-DL-ChannelisationCodeNumber			FDD-DL-ChannelisationCodeNumber,
iE-Extensions								ProtocolExtensionContainer { { Secondary-CPICH-Information-ExtIEs} } OPTIONAL,
	...
}

Secondary-CPICH-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Secondary-CPICH-Information-Change ::= CHOICE {
new-secondary-CPICH					Secondary-CPICH-Information,
secondary-CPICH-shall-not-be-used	NULL,
...
}

Secondary-LCR-CCPCH-Info-TDD::= SEQUENCE {
	dl-TFCS									TFCS,
	tFCI-Coding								TFCI-Coding,
	secondary-LCR-CCPCH-TDD-InformationList	Secondary-LCR-CCPCH-TDD-InformationList,
	fACH-InformationList					FACH-InformationList,
	pCH-InformationList						PCH-InformationList,
	iE-Extensions							ProtocolExtensionContainer { { Secondary-LCR-CCPCH-Info-TDD-ExtIEs} } OPTIONAL,
	...
}

Secondary-LCR-CCPCH-Info-TDD-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Secondary-CCPCH-Info-TDD768::= SEQUENCE {
	dl-TFCS									TFCS,
	tFCI-Coding								TFCI-Coding,
	secondary-CCPCH-TDD-InformationList768	Secondary-CCPCH-TDD-InformationList768,
	fACH-InformationList					FACH-InformationList,
	pCH-InformationList						PCH-InformationList,
	iE-Extensions							ProtocolExtensionContainer { { Secondary-CCPCH-Info-TDD768-ExtIEs} } OPTIONAL,
	...
}

Secondary-CCPCH-Info-TDD768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Secondary-CCPCH-TDD-InformationList ::= SEQUENCE (SIZE(0.. maxNrOfSCCPCHs)) OF Secondary-CCPCH-TDD-InformationItem

Secondary-CCPCH-TDD-InformationItem ::= SEQUENCE {
	timeSlot								TimeSlot,
	midambleShiftAndBurstType				MidambleShiftAndBurstType,
	tFCI-Presence							TFCI-Presence,
	secondary-CCPCH-TDD-Code-Information	Secondary-CCPCH-TDD-Code-Information,
	tDD-PhysicalChannelOffset				TDD-PhysicalChannelOffset,
	repetitionLength						RepetitionLength,
	repetitionPeriod						RepetitionPeriod,
	iE-Extensions							ProtocolExtensionContainer { { Secondary-CCPCH-TDD-InformationItem-ExtIEs} } OPTIONAL,
	...
}

Secondary-CCPCH-TDD-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Secondary-LCR-CCPCH-TDD-InformationList ::= SEQUENCE (SIZE(0.. maxNrOfSCCPCHs)) OF Secondary-LCR-CCPCH-TDD-InformationItem

Secondary-LCR-CCPCH-TDD-InformationItem ::= SEQUENCE {
	timeSlotLCR									TimeSlotLCR,
	midambleShiftLCR							MidambleShiftLCR,
	tFCI-Presence								TFCI-Presence,
	secondary-LCR-CCPCH-TDD-Code-Information	Secondary-LCR-CCPCH-TDD-Code-Information,
	tDD-PhysicalChannelOffset					TDD-PhysicalChannelOffset,
	repetitionLength							RepetitionLength,
	repetitionPeriod							RepetitionPeriod,
	iE-Extensions								ProtocolExtensionContainer { { Secondary-LCR-CCPCH-TDD-InformationItem-ExtIEs} } OPTIONAL,
	...
}

Secondary-LCR-CCPCH-TDD-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Secondary-CCPCH-TDD-InformationList768 ::= SEQUENCE (SIZE(0.. maxNrOfSCCPCHs768)) OF Secondary-CCPCH-TDD-InformationItem768

Secondary-CCPCH-TDD-InformationItem768 ::= SEQUENCE {
	timeSlot									TimeSlot,
	midambleShiftAndBurstType768				MidambleShiftAndBurstType768,
	tFCI-Presence								TFCI-Presence,
	secondary-CCPCH-TDD-Code-Information768		Secondary-CCPCH-TDD-Code-Information768,
	tDD-PhysicalChannelOffset					TDD-PhysicalChannelOffset,
	repetitionLength							RepetitionLength,
	repetitionPeriod							RepetitionPeriod,
	iE-Extensions								ProtocolExtensionContainer { { Secondary-CCPCH-TDD-InformationItem768-ExtIEs} } OPTIONAL,
	...
}

Secondary-CCPCH-TDD-InformationItem768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Secondary-CCPCH-TDD-Code-Information ::= SEQUENCE ( SIZE (1..maxNrOfSCCPCHs)) OF Secondary-CCPCH-TDD-Code-InformationItem

Secondary-CCPCH-TDD-Code-InformationItem ::= SEQUENCE {
	tDD-ChannelisationCode			TDD-ChannelisationCode,
	iE-Extensions					ProtocolExtensionContainer { {Secondary-CCPCH-TDD-Code-InformationItem-ExtIEs} } OPTIONAL,
	...
}

Secondary-CCPCH-TDD-Code-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Secondary-LCR-CCPCH-TDD-Code-Information ::= SEQUENCE ( SIZE (1..maxNrOfSCCPCHs)) OF Secondary-LCR-CCPCH-TDD-Code-InformationItem

Secondary-LCR-CCPCH-TDD-Code-InformationItem ::= SEQUENCE {
	tDD-ChannelisationCodeLCR		TDD-ChannelisationCodeLCR,
	s-CCPCH-TimeSlotFormat-LCR		TDD-DL-DPCH-TimeSlotFormat-LCR,
	iE-Extensions					ProtocolExtensionContainer { {Secondary-LCR-CCPCH-TDD-Code-InformationItem-ExtIEs} } OPTIONAL,
	...
}

Secondary-LCR-CCPCH-TDD-Code-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Secondary-CCPCH-TDD-Code-Information768 ::= SEQUENCE ( SIZE (1..maxNrOfSCCPCHs768)) OF Secondary-CCPCH-TDD-Code-InformationItem768

Secondary-CCPCH-TDD-Code-InformationItem768 ::= SEQUENCE {
	tDD-ChannelisationCode768		TDD-ChannelisationCode768,
	iE-Extensions					ProtocolExtensionContainer { {Secondary-CCPCH-TDD-Code-InformationItem768-ExtIEs} } OPTIONAL,
	...
}

Secondary-CCPCH-TDD-Code-InformationItem768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}


Secondary-Serving-Cell-List ::= SEQUENCE {
	possible-Secondary-Serving-Cell-List						Possible-Secondary-Serving-Cell-List,
	iE-Extensions				ProtocolExtensionContainer { { Secondary-Serving-Cell-List-ExtIEs } }		OPTIONAL,
	...
}

Secondary-Serving-Cell-List-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-Multicell-EDCH-Restriction		CRITICALITY	ignore		EXTENSION	Multicell-EDCH-Restriction	PRESENCE optional },
	-- This IE shall never be included. If received it shall be ignored.
	...
}

--“maxNrOfHSDSCH-1” represents the maximum number of possible secondary serving cells for a Multi Cell/Dual-Band capable cell when it applies to the range of “Possible-Secondary-Serving-Cell-List”.

Possible-Secondary-Serving-Cell-List ::= SEQUENCE (SIZE (1..maxNrOfHSDSCH-1)) OF Possible-Secondary-Serving-Cell

Possible-Secondary-Serving-Cell ::= SEQUENCE {
	c-ID						C-ID,
	iE-Extensions				ProtocolExtensionContainer { { Possible-Secondary-Serving-Cell-ExtIEs } }		OPTIONAL,
	...
}

Possible-Secondary-Serving-Cell-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-Multicell-EDCH-Restriction		CRITICALITY ignore	EXTENSION Multicell-EDCH-Restriction	PRESENCE optional },
	...
}

SecondInterleavingMode ::= ENUMERATED {
	frame-related,
	timeslot-related,
	...
}

Secondary-UL-Frequency-Activation-State ::= ENUMERATED {
	activated,
	deactivated,
		...
}

S-E-DPCCH-PowerOffset ::= INTEGER(0..17,...)

Seed ::= INTEGER (0..63)

Service-ID	::=	OCTET STRING (SIZE (3))

S-E-ROCH-Release-Indicator ::= ENUMERATED {s-E-ROCHreleased}

SetsOfHS-SCCH-Codes ::= SEQUENCE (SIZE (1..maxNrOfHSDSCH)) OF SetsOfHS-SCCH-CodesItem

SetsOfHS-SCCH-CodesItem ::= SEQUENCE {
	hS-SCCH-PreconfiguredCodes		HS-SCCH-PreconfiguredCodes,
	hSDSCH-RNTI 		HSDSCH-RNTI,
	hSPDSCH-and-HSSCCH-ScramblingCode		DL-ScramblingCode,
	sixtyfourQAM-DL-SupportIndicator		SixtyfourQAM-DL-SupportIndicator		OPTIONAL,
	sixtyfourQAM-DL-UsageIndicator		SixtyfourQAM-DL-UsageIndicator		OPTIONAL,
	hSDSCH-TBSizeTableIndicator		HSDSCH-TBSizeTableIndicator				OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { SetsOfHS-SCCH-CodesItem-ExtIEs} } OPTIONAL,
	...
}

SetsOfHS-SCCH-CodesItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ID id-MIMO-InformationResponse						CRITICALITY ignore	EXTENSION MIMO-InformationResponse			PRESENCE optional}|
{ID id-power-offset-for-S-CPICH-for-MIMO			CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMO		PRESENCE optional}|
{ID id-Measurement-Power-Offset						CRITICALITY ignore	EXTENSION Measurement-Power-Offset			PRESENCE optional}|
{ ID id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas	CRITICALITY ignore	EXTENSION PowerOffsetForSecondaryCPICHforMIMOwithfourtransmitantennas		PRESENCE optional},
	...
}

Setup-Or-ConfigurationChange-Or-Removal-Of-EDCH-On-secondary-UL-Frequency::= CHOICE {
	setup					Additional-EDCH-Setup-Info,
	configurationChange		Additional-EDCH-Cell-Information-ConfigurationChange-List, 
	removal					Additional-EDCH-Cell-Information-Removal-List,
	...
}

Setup-Or-ConfigurationChange-Or-Removal-Of-Downlink-TPC-enhancements ::= CHOICE {
	setup					Downlink-TPC-enhancements-Information,
	configurationChange		Downlink-TPC-enhancements-Information,
	removal					Downlink-TPC-enhancements-Information-Removal,
	...
}

Setup-Or-ConfigurationChange-Or-Removal-Of-UL-CLTD ::= CHOICE {
	setup					UL-CLTD-Information,
	configurationChange		UL-CLTD-Information-To-Modify,
	removal					UL-CLTD-Information-Removal,
	...
}

Setup-Or-ConfigurationChange-Or-Removal-Of-FTPICH-Information ::= CHOICE {
	setup					FTPICH-Information,
	configurationChange		FTPICH-Information-To-Modify,
	removal					FTPICH-Information-Removal,
	...
}

Setup-Or-ConfigurationChange-Or-Removal-Of-DCH-ENH ::= CHOICE {
	setup					DCH-ENH-Information,
	configurationChange		DCH-ENH-Information-to-Modify,
	removal					DCH-ENH-Information-Removal,
	...
}

Setup-Or-ConfigurationChange-Or-Removal-Of-UL-DPCCH2 ::= CHOICE {
	setup					UL-DPCCH2-Information,
	configurationChange		UL-DPCCH2-Information-To-Modify,
	removal					UL-DPCCH2-Information-Removal,
	...
}

SFN ::= INTEGER (0..4095)

SFNSFN-FDD ::= INTEGER(0..614399)

SFNSFN-TDD ::= INTEGER(0..40961)

SFNSFN-TDD768 ::= INTEGER(0..81923)

GA-AccessPointPositionwithOptionalAltitude ::= SEQUENCE {
	geographicalCoordinate						GeographicalCoordinate,
	altitudeAndDirection						GA-AltitudeAndDirection	 OPTIONAL,
	iE-Extensions								ProtocolExtensionContainer { { GA-AccessPointPositionwithOptionalAltitude-ExtIEs} } OPTIONAL,
	...
}

GA-AccessPointPositionwithOptionalAltitude-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

SFNSFNChangeLimit ::= INTEGER (1..256)
-- Unit chip, Step 1/16 chip, Range 1/16..16 chip

SFNSFNDriftRate ::= INTEGER (-100..100)
-- Unit chip/s, Step 1/256 chip/s, Range -100/256..+100/256 chip/s

SFNSFNDriftRateQuality ::= INTEGER (0..100)
-- Unit chip/s, Step 1/256 chip/s, Range 0..100/256 chip/s

SFNSFNMeasurementThresholdInformation::= SEQUENCE {
	sFNSFNChangeLimit					SFNSFNChangeLimit					OPTIONAL,
	predictedSFNSFNDeviationLimit		PredictedSFNSFNDeviationLimit		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { SFNSFNMeasurementThresholdInformation-ExtIEs} }		OPTIONAL,
	...
}

SFNSFNMeasurementThresholdInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

SFNSFNMeasurementValueInformation ::= SEQUENCE {
	successfullNeighbouringCellSFNSFNObservedTimeDifferenceMeasurementInformation		SEQUENCE (SIZE(1..maxNrOfMeasNCell)) OF
		SEQUENCE {
			uC-ID		UC-ID,
			sFNSFNValue					SFNSFNValue,
			sFNSFNQuality				SFNSFNQuality					OPTIONAL,
			sFNSFNDriftRate				SFNSFNDriftRate,
			sFNSFNDriftRateQuality		SFNSFNDriftRateQuality		OPTIONAL,
			sFNSFNTimeStampInformation	SFNSFNTimeStampInformation,
			iE-Extensions				ProtocolExtensionContainer { { SuccessfullNeighbouringCellSFNSFNObservedTimeDifferenceMeasurementInformationItem-ExtIEs} }		OPTIONAL,
			...
		},
	unsuccessfullNeighbouringCellSFNSFNObservedTimeDifferenceMeasurementInformation		SEQUENCE (SIZE(0..maxNrOfMeasNCell-1)) OF
		SEQUENCE {
			uC-ID		UC-ID,
			iE-Extensions		ProtocolExtensionContainer { { UnsuccessfullNeighbouringCellSFNSFNObservedTimeDifferenceMeasurementInformationItem-ExtIEs} }		OPTIONAL,
			...
		},
	iE-Extensions		ProtocolExtensionContainer { { SFNSFNMeasurementValueInformationItem-ExtIEs} }		OPTIONAL,
	...
}

SFNSFNMeasurementValueInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

SuccessfullNeighbouringCellSFNSFNObservedTimeDifferenceMeasurementInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UnsuccessfullNeighbouringCellSFNSFNObservedTimeDifferenceMeasurementInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

SFNSFNQuality ::= INTEGER (0..255)
-- Unit chip, Step 1/16 chip, Range 0.. 255/16 chip

SFNSFNTimeStampInformation ::= CHOICE {
	sFNSFNTimeStamp-FDD		SFN,
	sFNSFNTimeStamp-TDD		SFNSFNTimeStamp-TDD,
	...
}

SFNSFNTimeStamp-TDD::= SEQUENCE {
	sFN					SFN,
	timeSlot			TimeSlot,
	iE-Extensions					ProtocolExtensionContainer { { SFNSFNTimeStamp-ExtIEs}} OPTIONAL,
	...
}

SFNSFNTimeStamp-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

SFNSFNValue ::= CHOICE {
	sFNSFN-FDD		SFNSFN-FDD,
	sFNSFN-TDD		SFNSFN-TDD,		-- LCR & HCR TDD
	...,
	sFNSFN-TDD768	SFNSFN-TDD768
}

SID ::= INTEGER (0..maxNrOfPDUIndexes-1)

Single-Stream-MIMO-ActivationIndicator ::=	NULL

Single-Stream-MIMO-Mode-Indicator ::= ENUMERATED {
	activate,
	deactivate
}


SIR-Error-Value	 ::= INTEGER (0..125)

SIR-Error-Value-IncrDecrThres ::= INTEGER (0..124)

SIR-Value ::= INTEGER (0..63)
-- According to mapping in TS 25.215 [11]/TS 25.225 [14]

SIR-Value-IncrDecrThres ::= INTEGER (0..62)


SixteenQAM-UL-Operation-Indicator ::= ENUMERATED {
	activate,
	deactivate
}

SixtyfourQAM-UL-Operation-Indicator ::= ENUMERATED {
	activate,
	deactivate
}

SixtyfourQAM-UsageAllowedIndicator ::= ENUMERATED {
	allowed,
	not-allowed
}

SixtyfourQAM-DL-SupportIndicator ::= ENUMERATED {
	sixtyfourQAM-DL-supported,
	sixtyfourQAM-DL-not-supported
}

SixtyfourQAM-DL-UsageIndicator ::= ENUMERATED {
	sixtyfourQAM-DL-used,
	sixtyfourQAM-DL-not-used
}

SignatureSequenceGroupIndex ::= INTEGER (0..19)

SNA-Information ::= SEQUENCE {
	pLMN-Identity		PLMN-Identity,
	listOfSNAs			ListOfSNAs						OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { SNA-Information-ExtIEs} } OPTIONAL,
	...
}

SNA-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ListOfSNAs ::= SEQUENCE (SIZE (1.. maxNrOfSNAs)) OF SNACode

SNACode ::= INTEGER (0..65535)

SourceID ::= SAI

SpecialBurstScheduling ::= INTEGER (1..256)

SpeechVersion::= BIT STRING (SIZE (4))

S-RNTI ::= INTEGER (0..1048575)
-- From 0 to 2^20-1

S-RNTI-Group ::= SEQUENCE {
	sRNTI					S-RNTI,
	sRNTI-BitMaskIndex		ENUMERATED {
		b1,
		b2,
		b3,
		b4,
		b5,
		b6,
		b7,
		b8,
		b9,
		b10,
		b11,
		b12,
		b13,
		b14,
		b15,
		b16,
		b17,
		b18,
		b19,...
}
}

SRB-Delay ::= INTEGER(0..7,...)



SSDT-SupportIndicator ::= ENUMERATED {
	not-Used-sSDT-supported,
	sSDT-not-supported 
}

Standalone-Midamble-Channel-Indicator ::= ENUMERATED {
	used,
	not-used
}

Status-Flag ::= ENUMERATED {
	activate,
	deactivate
}

STTD-SupportIndicator ::= ENUMERATED {
	sTTD-Supported,
	sTTD-not-Supported
}

Support-8PSK ::= ENUMERATED {
	v8PSK-Supported
}

Support-PLCCH ::= ENUMERATED {
	vPLCCH-Supported
}

Support-of-Dynamic-DTXDRX-Related-HS-SCCH-Order ::= ENUMERATED {
	supported,
	not-supported
}

SyncCase ::= INTEGER (1..2,...)

SynchronisationConfiguration ::= SEQUENCE {
	n-INSYNC-IND			INTEGER (1..256),
	n-OUTSYNC-IND			INTEGER (1..256),
	t-RLFAILURE				INTEGER (0..255),
-- Unit seconds, Range 0s .. 25.5s, Step 0.1s
	iE-Extensions			ProtocolExtensionContainer { { SynchronisationConfiguration-ExtIEs} }		OPTIONAL,
	...
}

SynchronisationConfiguration-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

SYNC-UL-ProcParameters ::= SEQUENCE {
	maxSYNC-UL-transmissions		ENUMERATED {v1, v2, v4, v8, ...},
	powerRampStep					INTEGER (0..3, ...),
	...
	}

-- T

T1 ::= ENUMERATED {v10,v20,v30,v40,v50,v60,v70,v80,v90,v100,v120,v140,v160,v200,v300,v400,...}

TAC ::= OCTET STRING (SIZE (2))

TargetID ::= CGI

TDD-AckNack-Power-Offset ::= INTEGER (-7..8,...)
-- Unit dB, Range –7dB .. +8dB, Step 1dB

TDD-ChannelisationCode ::= ENUMERATED {
	chCode1div1,
	chCode2div1,
	chCode2div2,
	chCode4div1,
	chCode4div2,
	chCode4div3,
	chCode4div4,
	chCode8div1,
	chCode8div2,
	chCode8div3,
	chCode8div4,
	chCode8div5,
	chCode8div6,
	chCode8div7,
	chCode8div8,
	chCode16div1,
	chCode16div2,
	chCode16div3,
	chCode16div4,
	chCode16div5,
	chCode16div6,
	chCode16div7,
	chCode16div8,
	chCode16div9,
	chCode16div10,
	chCode16div11,
	chCode16div12,
	chCode16div13,
	chCode16div14,
	chCode16div15,
	chCode16div16,
	...
}

TDD-ChannelisationCode768 ::= ENUMERATED {
	chCode1div1,
	chCode2div1,
	chCode2div2,
	chCode4div1,
	chCode4div2,
	chCode4div3,
	chCode4div4,
	chCode8div1,
	chCode8div2,
	chCode8div3,
	chCode8div4,
	chCode8div5,
	chCode8div6,
	chCode8div7,
	chCode8div8,
	chCode16div1,
	chCode16div2,
	chCode16div3,
	chCode16div4,
	chCode16div5,
	chCode16div6,
	chCode16div7,
	chCode16div8,
	chCode16div9,
	chCode16div10,
	chCode16div11,
	chCode16div12,
	chCode16div13,
	chCode16div14,
	chCode16div15,
	chCode16div16,
	chCode32div1,
	chCode32div2,
	chCode32div3,
	chCode32div4,
	chCode32div5,
	chCode32div6,
	chCode32div7,
	chCode32div8,
	chCode32div9,
	chCode32div10,
	chCode32div11,
	chCode32div12,
	chCode32div13,
	chCode32div14,
	chCode32div15,
	chCode32div16,
	chCode32div17,
	chCode32div18,
	chCode32div19,
	chCode32div20,
	chCode32div21,
	chCode32div22,
	chCode32div23,
	chCode32div24,
	chCode32div25,
	chCode32div26,
	chCode32div27,
	chCode32div28,
	chCode32div29,
	chCode32div30,
	chCode32div31,
	chCode32div32,
	...
}

TDD-ChannelisationCodeLCR ::= SEQUENCE {
	tDD-ChannelisationCode			TDD-ChannelisationCode,
	modulation						Modulation, -- Modulation options for 1.28Mcps TDD in contrast to 3.84Mcps TDD or 7.68Mcps TDD
	...
}

TDD-DCHs-to-Modify ::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF TDD-DCHs-to-ModifyItem

TDD-DCHs-to-ModifyItem ::= SEQUENCE {
	ul-FP-Mode							UL-FP-Mode	OPTIONAL,
	toAWS								ToAWS		OPTIONAL,
	toAWE								ToAWE		OPTIONAL,
	transportBearerRequestIndicator		TransportBearerRequestIndicator,
	dCH-SpecificInformationList			TDD-DCHs-to-ModifySpecificInformationList,
	iE-Extensions						ProtocolExtensionContainer { {TDD-DCHs-to-ModifyItem-ExtIEs} } OPTIONAL,
	...
}

TDD-DCHs-to-ModifyItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TnlQos						CRITICALITY 	ignore		EXTENSION 	TnlQos	PRESENCE 	optional	},
	...
}

TDD-DCHs-to-ModifySpecificInformationList ::= SEQUENCE (SIZE (1..maxNrOfDCHs)) OF TDD-DCHs-to-ModifySpecificItem

TDD-DCHs-to-ModifySpecificItem ::= SEQUENCE {
	dCH-ID							DCH-ID,
	ul-CCTrCH-ID					CCTrCH-ID					OPTIONAL,
	dl-CCTrCH-ID					CCTrCH-ID					OPTIONAL,
	ul-TransportformatSet			TransportFormatSet			OPTIONAL,
	dl-TransportformatSet			TransportFormatSet			OPTIONAL,
	allocationRetentionPriority		AllocationRetentionPriority	OPTIONAL,
	frameHandlingPriority			FrameHandlingPriority		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {TDD-DCHs-to-ModifySpecificItem-ExtIEs} } OPTIONAL,
	...
}

TDD-DCHs-to-ModifySpecificItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Guaranteed-Rate-Information		CRITICALITY ignore	EXTENSION Guaranteed-Rate-Information		PRESENCE optional}|
	{ ID id-TrafficClass					CRITICALITY ignore	EXTENSION TrafficClass						PRESENCE optional},
	...
}

TDD-DL-Code-Information ::= SEQUENCE ( SIZE (1..maxNrOfDPCHs)) OF TDD-DL-Code-InformationItem

TDD-DL-Code-InformationItem ::= SEQUENCE {
	dPCH-ID							DPCH-ID,
	tDD-ChannelisationCode			TDD-ChannelisationCode,
	iE-Extensions					ProtocolExtensionContainer { {TDD-DL-Code-InformationItem-ExtIEs} } OPTIONAL,
	...
}

TDD-DL-Code-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TDD-DL-Code-LCR-Information ::= SEQUENCE (SIZE (1..maxNrOfDPCHsLCR)) OF TDD-DL-Code-LCR-InformationItem

TDD-DL-Code-LCR-InformationItem ::= SEQUENCE {
	dPCH-ID									DPCH-ID,
	tdd-ChannelisationCodeLCR				TDD-ChannelisationCodeLCR,
	tdd-DL-DPCH-TimeSlotFormat-LCR			TDD-DL-DPCH-TimeSlotFormat-LCR,
	iE-Extensions							ProtocolExtensionContainer { { TDD-DL-Code-LCR-InformationItem-ExtIEs} }		OPTIONAL,
	...
}

TDD-DL-Code-LCR-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TDD-DL-Code-Information768 ::= SEQUENCE ( SIZE (1..maxNrOfDPCHs768)) OF TDD-DL-Code-InformationItem768

TDD-DL-Code-InformationItem768 ::= SEQUENCE {
	dPCH-ID							DPCH-ID,
	tDD-ChannelisationCode768		TDD-ChannelisationCode768,
	iE-Extensions					ProtocolExtensionContainer { {TDD-DL-Code-InformationItem768-ExtIEs} } OPTIONAL,
	...
}

TDD-DL-Code-InformationItem768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TDD-DL-DPCH-TimeSlotFormat-LCR ::= CHOICE {
	qPSK				QPSK-DL-DPCH-TimeSlotFormatTDD-LCR,
	eightPSK			EightPSK-DL-DPCH-TimeSlotFormatTDD-LCR,
	...
}

QPSK-DL-DPCH-TimeSlotFormatTDD-LCR ::= INTEGER(0..24,...)

EightPSK-DL-DPCH-TimeSlotFormatTDD-LCR ::= INTEGER(0..24,...)

TDD-DPCHOffset ::= CHOICE {
	initialOffset		INTEGER (0..255),
	noinitialOffset		INTEGER (0..63)
}

TDD-PhysicalChannelOffset ::= INTEGER (0..63)

TDD-TPC-DownlinkStepSize ::= ENUMERATED {
	step-size1,
	step-size2,
	step-size3,
	...
}

TDD-TPC-UplinkStepSize-LCR ::= ENUMERATED {
	step-size1,
	step-size2,
	step-size3,
	...
}

TDD-UL-Code-Information ::= SEQUENCE ( SIZE (1..maxNrOfDPCHs)) OF TDD-UL-Code-InformationItem

TDD-UL-Code-InformationItem ::= SEQUENCE {
	dPCH-ID							DPCH-ID,
	tDD-ChannelisationCode			TDD-ChannelisationCode,
	iE-Extensions					ProtocolExtensionContainer { {TDD-UL-Code-InformationItem-ExtIEs} } OPTIONAL,
	...
}

TDD-UL-Code-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TDD-UL-Code-LCR-Information ::= SEQUENCE (SIZE (1..maxNrOfDPCHsLCR)) OF TDD-UL-Code-LCR-InformationItem

TDD-UL-Code-LCR-InformationItem ::= SEQUENCE {
	dPCH-ID									DPCH-ID,
	tdd-ChannelisationCodeLCR				TDD-ChannelisationCodeLCR,
	tdd-UL-DPCH-TimeSlotFormat-LCR			TDD-UL-DPCH-TimeSlotFormat-LCR,
	iE-Extensions							ProtocolExtensionContainer { { TDD-UL-Code-LCR-InformationItem-ExtIEs} }	OPTIONAL,
	...
}

TDD-UL-Code-LCR-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TDD-UL-Code-Information768 ::= SEQUENCE ( SIZE (1..maxNrOfDPCHs768)) OF TDD-UL-Code-InformationItem768

TDD-UL-Code-InformationItem768 ::= SEQUENCE {
	dPCH-ID							DPCH-ID,
	tDD-ChannelisationCode768		TDD-ChannelisationCode768,
	iE-Extensions					ProtocolExtensionContainer { {TDD-UL-Code-InformationItem768-ExtIEs} } OPTIONAL,
	...
}

TDD-UL-Code-InformationItem768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TDD-UL-DPCH-TimeSlotFormat-LCR ::= CHOICE {
	qPSK						QPSK-UL-DPCH-TimeSlotFormatTDD-LCR,
	eightPSK					EightPSK-UL-DPCH-TimeSlotFormatTDD-LCR,
	...
}

QPSK-UL-DPCH-TimeSlotFormatTDD-LCR ::= INTEGER(0..69,...)

EightPSK-UL-DPCH-TimeSlotFormatTDD-LCR ::= INTEGER(0..24,...)

TFCI-Coding ::= ENUMERATED {
	v4,
	v8,
	v16,
	v32,
	...
}

TFCI-Presence ::= ENUMERATED {
	present,
	not-present
}

TFCI-SignallingMode ::= ENUMERATED {
	normal,
	not-Used-split
}
-- The value “Not Used” shall not be used by the SRNC. The procedure shall be rejected by the DRNC if the value “Not Used” is received.

TGD ::= INTEGER (0|15..269)
-- 0 = Undefined, only one transmission gap in the transmission gap pattern sequence 

TGPRC ::= INTEGER (0..511)
-- 0 = infinity

TGPSID ::= INTEGER (1.. maxTGPS)

TGSN ::= INTEGER (0..14)

TimeSlot ::= INTEGER (0..14)

TimeSlotLCR ::= INTEGER (0..6)

Time-Stamp ::= INTEGER (0..9999)
-- Unit: 10ms



TimingAdvanceApplied ::= ENUMERATED {
	yes,
	no
}

SynchronisationIndicator ::= ENUMERATED {
	timingMaintainedSynchronisation,
	...
}

TMGI ::= SEQUENCE {
	plmn-id			PLMN-Identity,
	service-id		Service-ID,
	iE-Extensions	ProtocolExtensionContainer { { TMGI-ExtIEs} }	OPTIONAL,
	...
}

TMGI-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TnlQos ::= CHOICE {
	dsField						DsField,
	genericTrafficCategory		GenericTrafficCategory,
	...
}

ToAWE ::= INTEGER (0..2559)

ToAWS ::= INTEGER (0..1279)

TraceDepth ::= ENUMERATED { 
	minimum,
	medium,
	maximum,
	...
}

TraceRecordingSessionReference ::= INTEGER (0..65535)

TraceReference ::= OCTET STRING (SIZE (2..3))

TrafficClass ::= ENUMERATED { 
	conversational, 
	streaming, 
	interactive, 
	background,
	...
}

Transmission-Gap-Pattern-Sequence-Information ::= SEQUENCE (SIZE (1..maxTGPS)) OF
	SEQUENCE {
		tGPSID			TGPSID,
		tGSN			TGSN,
		tGL1			GapLength,
		tGL2			GapLength	OPTIONAL,
		tGD				TGD,
		tGPL1			GapDuration,
		not-to-be-used-1	GapDuration	OPTIONAL,
			-- This IE shall never be included in the SEQUENCE. If received it shall be ignored
		uL-DL-mode			UL-DL-mode,
		downlink-Compressed-Mode-Method		Downlink-Compressed-Mode-Method		OPTIONAL,
			-- This IE shall be present if the value of the UL/DL mode IE is “DL only” or “UL/DL”
		uplink-Compressed-Mode-Method		Uplink-Compressed-Mode-Method		OPTIONAL,
			-- This IE shall be present if the value of the UL/DL mode IE is “UL only” or “UL/DL”
		dL-FrameType		DL-FrameType,
		delta-SIR1			DeltaSIR,
		delta-SIR-after1	DeltaSIR,
		delta-SIR2			DeltaSIR	OPTIONAL,
		delta-SIR-after2	DeltaSIR	OPTIONAL,
		iE-Extensions		ProtocolExtensionContainer { {Transmission-Gap-Pattern-Sequence-Information-ExtIEs} } OPTIONAL,
		...
	}

Transmission-Gap-Pattern-Sequence-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Transmission-Gap-Pattern-Sequence-ScramblingCode-Information ::= ENUMERATED{
code-change,
nocode-change
}

Transmission-Gap-Pattern-Sequence-Status-List ::= SEQUENCE (SIZE (0..maxTGPS)) OF
	SEQUENCE {
		tGPSID			TGPSID,
		tGPRC			TGPRC,
		tGCFN			CFN,
		iE-Extensions	ProtocolExtensionContainer { { Transmission-Gap-Pattern-Sequence-Status-List-ExtIEs } } OPTIONAL,
		...
}

Transmission-Gap-Pattern-Sequence-Status-List-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-Affected-HSDSCH-Serving-Cell-List	CRITICALITY reject	EXTENSION Affected-HSDSCH-Serving-Cell-List	PRESENCE optional},
	...
}

Affected-HSDSCH-Serving-Cell-List ::= SEQUENCE (SIZE (0.. maxNrOfHSDSCH)) OF C-ID

TransmissionMode ::=ENUMERATED {
	p-t-p, 
	p-t-m, 
	not-provided,
	...
}

Transmission-Mode-Information::= SEQUENCE ( SIZE (1..maxNrOfFDDNeighboursPerRNC,...)) OF Transmission-Mode-Information-List

Transmission-Mode-Information-List ::= SEQUENCE {
	c-ID						C-ID,
	transmissionMode			TransmissionMode,
	iE-Extensions				ProtocolExtensionContainer { { Transmission-Mode-Information-List-ExtIEs} } OPTIONAL,
	...
}

Transmission-Mode-Information-List-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TransmissionTimeIntervalDynamic ::= ENUMERATED {
	msec-10,
	msec-20,
	msec-40,
	msec-80,
	...
}

TransmissionTimeIntervalSemiStatic ::= ENUMERATED {
	msec-10,
	msec-20,
	msec-40,
	msec-80,
	dynamic,
	...
}

TransmitDiversityIndicator ::= ENUMERATED {
	active,
	inactive
}

Transmitted-Carrier-Power-Value ::= INTEGER(0..100)
-- according to mapping in TS 25.133 [23] and TS 25.123 [24]

Transmitted-Carrier-Power-Value-IncrDecrThres ::= INTEGER(0..100)
-- according to mapping in TS 25.133 [23] and TS 25.123 [24]

Transport-Block-Size-Index ::= INTEGER(1..maxNrOfHS-DSCHTBSs)

TUTRANGANSS ::= SEQUENCE {
	mS				INTEGER(0..16383),
	lS				INTEGER(0..4294967295)
}

TUTRANGANSSAccuracyClass ::= ENUMERATED {
	ganssAccuracy-class-A,
	ganssAccuracy-class-B,
	ganssAccuracy-class-C,
	...
}

TUTRANGANSSMeasurementThresholdInformation ::= SEQUENCE {
	tUTRANGANSSChangeLimit					INTEGER(1..256)												OPTIONAL,
	predictedTUTRANGANSSDeviationLimit		INTEGER(1..256)												OPTIONAL,
	ie-Extensions			ProtocolExtensionContainer { { TUTRANGANSSMeasurementThresholdInformation-ExtIEs } }	OPTIONAL,
	...
}

TUTRANGANSSMeasurementThresholdInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TUTRANGANSSMeasurementValueInformation ::= SEQUENCE {
	tUTRANGANSS						TUTRANGANSS,
	tUTRANGANSSQuality				INTEGER(0..255)							OPTIONAL,
	tUTRANGANSSDriftRate			INTEGER(-50..50),
	tUTRANGANSSDriftRateQuality		INTEGER(0..50)							OPTIONAL,
	ie-Extensions					ProtocolExtensionContainer { { TUTRANGANSSMeasurementValueInformation-ExtIEs } }	OPTIONAL,
	...
}

TUTRANGANSSMeasurementValueInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-GANSS-Time-ID			CRITICALITY ignore	EXTENSION GANSS-Time-ID		PRESENCE optional},
	...
}

TUTRANGPS ::= SEQUENCE {
	ms-part	INTEGER (0..16383),
	ls-part	INTEGER (0..4294967295)
}

TUTRANGPSChangeLimit ::= INTEGER (1..256)
-- Unit chip, Step 1/16 chip, Range 1/16..16 chip

TUTRANGPSDriftRate ::= INTEGER (-50..50)
-- Unit chip/s, Step 1/256 chip/s, Range -50/256..+50/256 chip/s

TUTRANGPSDriftRateQuality ::= INTEGER (0..50)
-- Unit chip/s, Step 1/256 chip/s, Range 0..50/256 chip/s

TUTRANGPSAccuracyClass ::= ENUMERATED {
	accuracy-class-A,
	accuracy-class-B,
	accuracy-class-C,
	...
}

TUTRANGPSMeasurementThresholdInformation ::= SEQUENCE {
	tUTRANGPSChangeLimit					TUTRANGPSChangeLimit					OPTIONAL,
	predictedTUTRANGPSDeviationLimit		PredictedTUTRANGPSDeviationLimit		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { TUTRANGPSMeasurementThresholdInformation-ExtIEs} }		OPTIONAL,
	...
}

TUTRANGPSMeasurementThresholdInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TUTRANGPSMeasurementValueInformation ::= SEQUENCE {
		tUTRANGPS						TUTRANGPS,
		tUTRANGPSQuality				TUTRANGPSQuality				OPTIONAL,
		tUTRANGPSDriftRate				TUTRANGPSDriftRate,
		tUTRANGPSDriftRateQuality		TUTRANGPSDriftRateQuality		OPTIONAL,
		iEe-Extensions					ProtocolExtensionContainer { { TUTRANGPSMeasurementValueInformationItem-ExtIEs} }		OPTIONAL,
		...
}

TUTRANGPSMeasurementValueInformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TUTRANGPSQuality ::= INTEGER (0..255)
-- Unit chip, Step 1/16 chip, Range 0.. 255/16 chip

TransportBearerID ::= INTEGER (0..4095)

TransportBearerRequestIndicator ::= ENUMERATED {
	bearer-requested,
	bearer-not-requested,
	...
}

TransportBearerNotRequestedIndicator ::= ENUMERATED {
	transport-bearer-shall-not-be-established,
	transport-bearer-may-not-be-established
}

TransportBearerNotSetupIndicator ::= ENUMERATED {
	transport-bearer-not-setup
}

TransportBlockSize ::= INTEGER (0..5000)
-- Unit is bits

TransportFormatCombination-Beta ::= CHOICE {
	signalledGainFactors	SEQUENCE {
		betaC					BetaCD,
		betaD					BetaCD,
		refTFCNumber			RefTFCNumber	OPTIONAL,
		iE-Extensions			ProtocolExtensionContainer { { SignalledGainFactors-ExtIEs} } OPTIONAL,
		...
	},
	refTFCNumber			RefTFCNumber,
	...
}

SignalledGainFactors-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TFCS ::= SEQUENCE {
	tFCSvalues			CHOICE {
		no-Split-in-TFCI			TFCS-TFCSList,
		not-Used-split-in-TFCI		NULL,
		-- This choice shall never be made by the SRNC and the DRNC shall consider the procedure as failed if it is received.
		...
	},
	iE-Extensions		ProtocolExtensionContainer { { TFCS-ExtIEs} }		OPTIONAL,
	...
}

TFCS-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TFCS-TFCSList ::= SEQUENCE (SIZE (1..maxNrOfTFCs)) OF
	SEQUENCE {
		cTFC				TFCS-CTFC,
		tFC-Beta		TransportFormatCombination-Beta	OPTIONAL,
		-- The IE shall be present if the TFCS concerns a UL DPCH [FDD – or PRACH channel in FDD]
		iE-Extensions		ProtocolExtensionContainer { { TFCS-TFCSList-ExtIEs} }		OPTIONAL,
	...
}

TFCS-TFCSList-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
{ ID id-Gainfactors-10ms-mode		CRITICALITY reject	EXTENSION Gainfactors-10ms-mode	PRESENCE optional},
	...
}

TFCS-CTFC ::= 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),
	ctfcmaxbit							INTEGER (0..maxCTFC)
}

TPC-slot-position ::= SEQUENCE {
	slot-position					INTEGER(0..4)		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { TPC-slot-position-ExtIEs } }		OPTIONAL,
	...
}

TPC-slot-position-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TransportFormatSet ::= SEQUENCE {
	dynamicParts			TransportFormatSet-DynamicPartList,
	semi-staticPart			TransportFormatSet-Semi-staticPart,
	iE-Extensions			ProtocolExtensionContainer { {TransportFormatSet-ExtIEs} } OPTIONAL,
	...
}

TransportFormatSet-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TransportFormatSet-DynamicPartList ::= SEQUENCE (SIZE (1..maxNrOfTFs)) OF
	SEQUENCE {
		nrOfTransportBlocks		NrOfTransportBlocks,
		transportBlockSize		TransportBlockSize		OPTIONAL
		-- This IE shall be present if nrOfTransportBlocks is greater than 0 --,
		mode					TransportFormatSet-ModeDP,
		iE-Extensions			ProtocolExtensionContainer { {TransportFormatSet-DynamicPartList-ExtIEs} } OPTIONAL,
		...
	}

TransportFormatSet-DynamicPartList-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TransportFormatSet-ModeDP ::= CHOICE {
	tdd					TDD-TransportFormatSet-ModeDP,
	notApplicable		NULL,
	...
}

TDD-TransportFormatSet-ModeDP ::= SEQUENCE {
	transmissionTimeIntervalInformation		TransmissionTimeIntervalInformation		OPTIONAL,
	-- This IE shall be present if the “Transmission Time Interval” of the “Semi-static Transport Format Information” is “dynamic”. Otherwise it is absent.
	iE-Extensions							ProtocolExtensionContainer { {TDD-TransportFormatSet-ModeDP-ExtIEs} } OPTIONAL,
	...
	}

TDD-TransportFormatSet-ModeDP-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TransmissionTimeIntervalInformation ::= SEQUENCE (SIZE (1..maxTTI-Count)) OF
	SEQUENCE {
		transmissionTimeInterval	TransmissionTimeIntervalDynamic,
		iE-Extensions				ProtocolExtensionContainer { {TransmissionTimeIntervalInformation-ExtIEs} } OPTIONAL,
		...
	}

TransmissionTimeIntervalInformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Transmitted-Code-Power-Value ::= INTEGER (0..127)
-- According to mapping in TS 25.215 [11]/TS 25.225 [14]

Transmitted-Code-Power-Value-IncrDecrThres ::= INTEGER (0..112,...)

TransportFormatManagement ::= ENUMERATED {
	cell-based,
	ue-based,
	...
}

TransportFormatSet-Semi-staticPart ::= SEQUENCE {
	transmissionTime 		TransmissionTimeIntervalSemiStatic,
	channelCoding			ChannelCodingType,
	codingRate			CodingRate				OPTIONAL
	-- This IE shall be present if channelCoding is ‘convolutional’ or ‘turbo’ --,
	rateMatcingAttribute		RateMatchingAttribute,
	cRC-Size			CRC-Size,
	mode				TransportFormatSet-ModeSSP,
	iE-Extensions			ProtocolExtensionContainer { {TransportFormatSet-Semi-staticPart-ExtIEs} } OPTIONAL,
	...
}

TransportFormatSet-Semi-staticPart-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

TransportFormatSet-ModeSSP ::= CHOICE {
	tdd					SecondInterleavingMode,
	notApplicable		NULL,
	...
}

TransportLayerAddress ::= BIT STRING (SIZE(1..160, ...))

TrCH-SrcStatisticsDescr ::= ENUMERATED {
	speech,
	rRC,
	unknown,
	...
}

TSN-Length ::= ENUMERATED {
	tsn-6bits,
	tsn-9bits
}

TSTD-Indicator ::= ENUMERATED {
	active,
	inactive
}

TSTD-Support-Indicator ::= ENUMERATED {
	tSTD-supported,
	tSTD-not-supported
}

TTI-Update-Indicator ::= CHOICE {
	tTI-Update-CFN			CFN,
	tTI-Update-Ind			TTI-Update-Ind
}

TTI-Update-Ind ::= NULL

TxDiversityIndicator ::= ENUMERATED {
	true,
	false
}

TypeOfError ::= ENUMERATED {
	not-understood,
	missing,
	...
}

-- U

UARFCN ::= INTEGER (0..16383,...)
-- Corresponds to: 0.0Hz..3276.6Mhz. See TS 25.105 [7], TS 25.101 [43]

UDRE ::= ENUMERATED {
	lessThan1,
	between1-and-4,
	between4-and-8,
	over8,
	...
}

UDREGrowthRate ::= ENUMERATED { 	
										growth-1-point-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-AggregateMaximumBitRate ::= SEQUENCE {
	uE-AggregateMaximumBitRateDownlink		UE-AggregateMaximumBitRateDownlink	OPTIONAL,
	uE-AggregateMaximumBitRateUplink		UE-AggregateMaximumBitRateUplink	OPTIONAL,
	...
}

UE-AggregateMaximumBitRateDownlink ::= INTEGER (1..1000000000)
-- Unit is bits per sec

UE-AggregateMaximumBitRateUplink ::= INTEGER (1..1000000000)
-- Unit is bits per sec

UE-AggregateMaximumBitRate-Enforcement-Indicator ::= NULL

UE-Capabilities-Info ::= SEQUENCE {
	hSDSCH-Physical-Layer-Category		INTEGER (1..64,...),
	iE-Extensions						ProtocolExtensionContainer { { UE-Capabilities-Info-ExtIEs } }		OPTIONAL,
	...
}

UE-Capabilities-Info-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ID id-LCRTDD-uplink-Physical-Channel-Capability	CRITICALITY ignore	EXTENSION LCRTDD-Uplink-Physical-Channel-Capability	PRESENCE optional}|
	{ID id-number-Of-Supported-Carriers					CRITICALITY reject	EXTENSION Number-Of-Supported-Carriers		PRESENCE optional}|
	{ID id-MIMO-SFMode-Supported-For-HSPDSCHDualStream	CRITICALITY ignore	EXTENSION MIMO-SFMode-For-HSPDSCHDualStream		PRESENCE optional}|
	{ID id-MultiCarrier-HSDSCH-Physical-Layer-Category	CRITICALITY ignore	EXTENSION LCRTDD-HSDSCH-Physical-Layer-Category	PRESENCE optional}|
	{ID id-UE-TS0-CapabilityLCR							CRITICALITY ignore	EXTENSION UE-TS0-CapabilityLCR			PRESENCE optional}|
	{ID id-UE-RF-Band-CapabilityLCR						CRITICALITY ignore	EXTENSION UE-RF-Band-CapabilityLCR			PRESENCE conditional},
	...
}

UE-Support-of-non-rectangular-resource-allocation ::= ENUMERATED {
	support
}

UE-TS0-CapabilityLCR ::= ENUMERATED {
	tS0-Capable,
	tS0-Not-Capable
}

UE-RF-Band-CapabilityLCR ::= SEQUENCE (SIZE (1.. maxFreqBandsTDD)) OF Radio-Frequency-BandItem

Radio-Frequency-BandItem ::= SEQUENCE {
	radio-Frequency-Band					Radio-Frequency-Band,
	iE-Extensions							ProtocolExtensionContainer { { Radio-Frequency-BandItem-ExtIEs } }		OPTIONAL,
	...
}

Radio-Frequency-Band ::= ENUMERATED {
	a,
	b,
	c,
	d,
	e,
	f,
	g,
	h,
	i,
	j,
	k,
	l,
	m,
	n,
	o,
	p,
...
}

Radio-Frequency-BandItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

LCRTDD-HSDSCH-Physical-Layer-Category ::= INTEGER (1..64)

UE-DPCCH-burst1 ::= ENUMERATED {v1, v2, v5}
	-- Unit subframe

UE-DPCCH-burst2 ::= ENUMERATED {v1, v2, v5}
	-- Unit subframe

UE-DRX-Cycle-LCR ::= ENUMERATED {v1, v2, v4, v8, v16, v32, v64,...}
	-- Unit subframe

UE-DRX-Offset-LCR ::= INTEGER (0..63)
	-- Unit subframe

UE-DRX-Cycle ::= ENUMERATED {v4, v5, v8, v10, v16, v20}
	-- Unit subframe

UE-DRX-Grant-Monitoring ::= BOOLEAN
	-- true: applied, false: not applied

UE-DTX-Cycle1-2ms ::= ENUMERATED {v1, v4, v5, v8, v10, v16, v20}
	-- Unit subframe

UE-DTX-Cycle1-10ms ::= ENUMERATED {v1, v5, v10, v20}
	-- Unit subframe

UE-DTX-Cycle2-2ms ::= ENUMERATED {v4, v5, v8, v10, v16, v20, v32, v40, v64, v80, v128, v160}
	-- Unit subframe

UE-DTX-Cycle2-ext-2ms ::= ENUMERATED {v4, v5, v8, v10, v16, v20, v32, v40, v64, v80, v128, v160, v256, v320, v512, v640, v1024, v1280}
	-- Unit subframe

UE-DTX-Cycle2-10ms ::= ENUMERATED {v5, v10, v20, v40, v80, v160}
	-- Unit subframe

UE-DTX-DRX-Offset ::= INTEGER (0..159)
	-- Unit subframe

UE-DTX-Long-Preamble ::= ENUMERATED {v2, v4, v15}
	-- Units of slots



UEIdentity ::= CHOICE {
	imsi		IMSI,
	imei		IMEI,
	imeisv		IMEISV,
	...
}

UEMeasurementHysteresisTime ::= INTEGER (0..15)
	-- Unit dB
	-- Range 0..7.5 dB
	-- Step 0.5 dB

UEMeasurementParameterModAllow ::= ENUMERATED {
	parameterModificationAllowed,
	...
}

UEMeasurementReportCharacteristics ::= CHOICE {
	periodic			UEMeasurementReportCharacteristicsPeriodic,
	event1h				UEMeasurementReportCharacteristicsEvent1h,
	event1i				UEMeasurementReportCharacteristicsEvent1i,
	event6a				UEMeasurementReportCharacteristicsEvent6a,
	event6b				UEMeasurementReportCharacteristicsEvent6b,
	event6c				UEMeasurementReportCharacteristicsEvent6c,
	event6d				UEMeasurementReportCharacteristicsEvent6d,
	...,
	extension-ReportCharacteristics		UEMeasurementReportCharacteristics-Extension
}

UEMeasurementReportCharacteristicsEvent1h ::= SEQUENCE {
	uEMeasurementTreshold		UEMeasurementThreshold,
	uEMeasurementTimeToTrigger	UEMeasurementTimeToTrigger,
	uEMeasurementHysteresisTime	UEMeasurementHysteresisTime,
	iE-Extensions				ProtocolExtensionContainer { { UEMeasurementReportCharacteristicsEvent1h-ExtIEs} } OPTIONAL,
	...
}

UEMeasurementReportCharacteristicsEvent1h-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementReportCharacteristicsEvent1i ::= SEQUENCE {
	uEMeasurementTreshold		UEMeasurementThreshold,
	uEMeasurementTimeToTrigger	UEMeasurementTimeToTrigger,
	uEMeasurementHysteresisTime	UEMeasurementHysteresisTime,
	iE-Extensions				ProtocolExtensionContainer { { UEMeasurementReportCharacteristicsEvent1i-ExtIEs} } OPTIONAL,
	...
}

UEMeasurementReportCharacteristicsEvent1i-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementReportCharacteristicsEvent6a ::= SEQUENCE {
	uEMeasurementTreshold		UEMeasurementThreshold,
	uEMeasurementTimeToTrigger	UEMeasurementTimeToTrigger,
	iE-Extensions				ProtocolExtensionContainer { { UEMeasurementReportCharacteristicsEvent6a-ExtIEs} } OPTIONAL,
	...
}

UEMeasurementReportCharacteristicsEvent6a-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementReportCharacteristicsEvent6b ::= SEQUENCE {
	uEMeasurementTreshold		UEMeasurementThreshold,
	uEMeasurementTimeToTrigger	UEMeasurementTimeToTrigger,
	iE-Extensions				ProtocolExtensionContainer { { UEMeasurementReportCharacteristicsEvent6b-ExtIEs} } OPTIONAL,
	...
}

UEMeasurementReportCharacteristicsEvent6b-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementReportCharacteristicsEvent6c ::= SEQUENCE {
	uEMeasurementTimeToTrigger	UEMeasurementTimeToTrigger,
	iE-Extensions				ProtocolExtensionContainer { { UEMeasurementReportCharacteristicsEvent6c-ExtIEs} } OPTIONAL,
	...
}

UEMeasurementReportCharacteristicsEvent6c-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementReportCharacteristicsEvent6d ::= SEQUENCE {
	uEMeasurementTimeToTrigger	UEMeasurementTimeToTrigger,
	iE-Extensions				ProtocolExtensionContainer { { UEMeasurementReportCharacteristicsEvent6d-ExtIEs} } OPTIONAL,
	...
}

UEMeasurementReportCharacteristicsEvent6d-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementReportCharacteristicsPeriodic ::= SEQUENCE {
	amountofReporting		UEMeasurementReportCharacteristicsPeriodicAmountofReporting,
	reportingInterval		UEMeasurementReportCharacteristicsPeriodicReportingInterval,
	iE-Extensions			ProtocolExtensionContainer { {UEMeasurementReportCharacteristicsPeriodic-ExtIEs} } OPTIONAL,
	...
}

UEMeasurementReportCharacteristicsPeriodicAmountofReporting::= ENUMERATED {
	r1,
	r2,
	r4,
	r8,
	r16,
	r32,
	r64,
	rInfinity
}

UEMeasurementReportCharacteristicsPeriodicReportingInterval::= ENUMERATED {
	r250,
	r500,
	r1000,
	r2000,
	r3000,
	r4000,
	r6000,
	r8000,
	r12000,
	r16000,
	r20000,
	r24000,
	r28000,
	r32000,
	r64000
}

UEMeasurementReportCharacteristicsPeriodic-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementReportCharacteristics-Extension ::= ProtocolIE-Single-Container {{ UEMeasurementReportCharacteristics-ExtensionIE }}

UEMeasurementReportCharacteristics-ExtensionIE RNSAP-PROTOCOL-IES ::= {
	...
}

UEMeasurementThreshold ::= CHOICE {
	timeslotISCP					UEMeasurementThresholdDLTimeslotISCP,
	uETransmitPower					UEMeasurementThresholdUETransmitPower,
	...,
	extension-UEMeasurementThreshold	UEMeasurementThreshold-Extension
}

UEMeasurementThresholdDLTimeslotISCP ::= INTEGER(-115..-25)

UEMeasurementThresholdUETransmitPower ::= INTEGER(-50..33)

UEMeasurementThreshold-Extension ::= ProtocolIE-Single-Container {{ UEMeasurementThreshold-ExtensionIE }}

UEMeasurementThreshold-ExtensionIE RNSAP-PROTOCOL-IES ::= {
	...
}

UEMeasurementTimeslotInfoHCR::= SEQUENCE (SIZE (1..maxNrOfTS)) OF UEMeasurementTimeslotInfoHCR-IEs

UEMeasurementTimeslotInfoHCR-IEs ::= SEQUENCE {
	timeSlot						TimeSlot,
	burstType						UEMeasurementTimeslotInfoHCRBurstType,
	iE-Extensions					ProtocolExtensionContainer { { UEMeasurementTimeslotInfoHCR-IEs-ExtIEs} }		OPTIONAL,
	...
}

UEMeasurementTimeslotInfoHCRBurstType ::= ENUMERATED {
	type1,
	type2,
	type3,
	...
}

UEMeasurementTimeslotInfoHCR-IEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementTimeslotInfoLCR::= SEQUENCE (SIZE (1..maxNrOfTsLCR)) OF UEMeasurementTimeslotInfoLCR-IEs

UEMeasurementTimeslotInfoLCR-IEs ::= SEQUENCE {
	timeSlot						TimeSlotLCR,
	iE-Extensions					ProtocolExtensionContainer { { UEMeasurementTimeslotInfoLCR-IEs-ExtIEs} }		OPTIONAL,
	...

}

UEMeasurementTimeslotInfoLCR-IEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementTimeslotInfo768::= SEQUENCE (SIZE (1..maxNrOfTS)) OF UEMeasurementTimeslotInfo768-IEs

UEMeasurementTimeslotInfo768-IEs ::= SEQUENCE {
	timeSlot						TimeSlot,
	burstType						UEMeasurementTimeslotInfo768BurstType,
	iE-Extensions					ProtocolExtensionContainer { { UEMeasurementTimeslotInfo768-IEs-ExtIEs} }		OPTIONAL,
	...
}

UEMeasurementTimeslotInfo768BurstType ::= ENUMERATED {
	type1,
	type2,
	type3,
	...
}

UEMeasurementTimeslotInfo768-IEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementTimeToTrigger ::= ENUMERATED { 
	r0,
	r10,
	r20,
	r40,
	r60,
	r80,
	r100,
	r120,
	r160,
	r200,
	r240,
	r320,
	r640,
	r1280,
	r2560,
	r5000
}

UEMeasurementType ::= ENUMERATED { 
	primary-CCPCH-RSCP, 
	dL-Timeslot-ISCP,
	uE-Transmitted-power, 
	...
}

UEMeasurementValue ::= CHOICE {
	uE-Transmitted-Power				UE-MeasurementValue-UE-Transmitted-Power, 
	primary-CCPCH-RSCP					UE-MeasurementValue-Primary-CCPCH-RSCP,
	dL-Timeslot-ISCP					UE-MeasurementValue-DL-Timeslot-ISCP,
	...,
	extension-UEMeasurementValue		UEMeasurementValue-Extension
}

UE-MeasurementValue-UE-Transmitted-Power ::= SEQUENCE {
	uEMeasurementTransmittedPowerListHCR		UEMeasurementValueTransmittedPowerListHCR	OPTIONAL,
-- Mandatory for 3.84Mcps TDD, Not applicable for 1.28Mcps TDD or 7.68Mcps TDD
	uEMeasurementTransmittedPowerListLCR		UEMeasurementValueTransmittedPowerListLCR	OPTIONAL,
-- Mandatory for 1.28Mcps TDD, Not applicable for 3.84Mcps TDD or 7.68Mcps TDD
	iE-Extensions								ProtocolExtensionContainer { { UE-MeasurementValue-UE-Transmitted-Power-ExtIEs} }	OPTIONAL,
	...
}

UE-MeasurementValue-UE-Transmitted-Power-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UEMeasurementValueTransmittedPowerList768	CRITICALITY ignore	EXTENSION UEMeasurementValueTransmittedPowerList768	PRESENCE optional},
	...
}

UEMeasurementValueTransmittedPowerListHCR ::= SEQUENCE (SIZE (1..maxNrOfTS)) OF UEMeasurementValueTransmittedPowerListHCR-IEs

UEMeasurementValueTransmittedPowerListHCR-IEs ::= SEQUENCE {
	timeSlot						TimeSlot,
	uETransmitPower					INTEGER(0..104),
	-- mapping according to TS 25.123 [24],values 0..20 not used
	iE-Extensions					ProtocolExtensionContainer { { UEMeasurementValueTransmittedPowerListHCR-IEs-ExtIEs} }		OPTIONAL,
	...

}

UEMeasurementValueTransmittedPowerListHCR-IEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}
UEMeasurementValueTransmittedPowerListLCR	::= SEQUENCE (SIZE (1..maxNrOfTsLCR)) OF UEMeasurementValueTransmittedPowerListLCR-IEs

UEMeasurementValueTransmittedPowerListLCR-IEs ::= SEQUENCE {
	timeSlotLCR						TimeSlotLCR,
	uETransmitPower					INTEGER(0..104),
	-- mapping according to TS 25.123 [24],values 0..20 not used
	iE-Extensions					ProtocolExtensionContainer { { UEMeasurementValueTransmittedPowerListLCR-IEs-ExtIEs} }		OPTIONAL,
	...

}
UEMeasurementValueTransmittedPowerListLCR-IEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementValueTransmittedPowerList768 ::= SEQUENCE (SIZE (1..maxNrOfTS)) OF UEMeasurementValueTransmittedPowerList768-IEs

UEMeasurementValueTransmittedPowerList768-IEs ::= SEQUENCE {
	timeSlot						TimeSlot,
	uETransmitPower					INTEGER(0..104),
	-- mapping according to TS 25.123 [24],values 0..20 not used
	iE-Extensions					ProtocolExtensionContainer { { UEMeasurementValueTransmittedPowerList768-IEs-ExtIEs} }		OPTIONAL,
	...

}

UEMeasurementValueTransmittedPowerList768-IEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UE-MeasurementValue-Primary-CCPCH-RSCP::= SEQUENCE {
	primaryCCPCH-RSCP					PrimaryCCPCH-RSCP				OPTIONAL,
	primaryCCPCH-RSCP-Delta				PrimaryCCPCH-RSCP-Delta			OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { UE-MeasurementValue-Primary-CCPCH-RSCP-ExtIEs} }		OPTIONAL,
	...
}

UE-MeasurementValue-Primary-CCPCH-RSCP-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UE-MeasurementValue-DL-Timeslot-ISCP ::= SEQUENCE {
	uEMeasurementTimeslotISCPListHCR		UEMeasurementValueTimeslotISCPListHCR	OPTIONAL,
-- Mandatory for 3.84Mcps TDD, Not applicable for 1.28Mcps TDD or 7.68Mcps TDD
	uEMeasurementTimeslotISCPListLCR		UEMeasurementValueTimeslotISCPListLCR	OPTIONAL,
-- Mandatory for 1.28Mcps TDD, Not applicable for 3.84Mcps TDD or 7.68Mcps TDD
	iE-Extensions							ProtocolExtensionContainer { { UE-MeasurementValue-DL-Timeslot-ISCP-ExtIEs} }		OPTIONAL,
	...
}

UE-MeasurementValue-DL-Timeslot-ISCP-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-UEMeasurementValueTimeslotISCPList768	CRITICALITY ignore	EXTENSION UEMeasurementValueTimeslotISCPList768		PRESENCE optional},
	...
}

UEMeasurementValueTimeslotISCPListHCR ::= SEQUENCE (SIZE (1..maxNrOfTS)) OF UEMeasurementValueTimeslotISCPListHCR-IEs

UEMeasurementValueTimeslotISCPListHCR-IEs ::= SEQUENCE {
	timeSlot				TimeSlot,
	dL-TimeslotISCP			DL-TimeslotISCP,
	iE-Extensions			ProtocolExtensionContainer { { UEMeasurementValueTimeslotISCPListHCR-IEs-ExtIEs} }		OPTIONAL,
	...

}
UEMeasurementValueTimeslotISCPListHCR-IEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}
UEMeasurementValueTimeslotISCPListLCR ::= SEQUENCE (SIZE (1..maxNrOfTsLCR)) OF UEMeasurementValueTimeslotISCPListLCR-IEs

UEMeasurementValueTimeslotISCPListLCR-IEs ::= SEQUENCE {
	timeSlotLCR						TimeSlotLCR,
	dL-TimeslotISCP					DL-TimeslotISCP,
	iE-Extensions					ProtocolExtensionContainer { { UEMeasurementValueTimeslotISCPListLCR-IEs-ExtIEs} }		OPTIONAL,
	...

}
UEMeasurementValueTimeslotISCPListLCR-IEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementValueTimeslotISCPList768 ::= SEQUENCE (SIZE (1..maxNrOfTS)) OF UEMeasurementValueTimeslotISCPList768-IEs

UEMeasurementValueTimeslotISCPList768-IEs ::= SEQUENCE {
	timeSlot						TimeSlot,
	dL-TimeslotISCP					DL-TimeslotISCP,
	iE-Extensions					ProtocolExtensionContainer { { UEMeasurementValueTimeslotISCPList768-IEs-ExtIEs} }		OPTIONAL,
	...

}
UEMeasurementValueTimeslotISCPList768-IEs-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementValue-Extension ::= ProtocolIE-Single-Container {{ UEMeasurementValue-ExtensionIE }}

UEMeasurementValue-ExtensionIE RNSAP-PROTOCOL-IES ::= {
	...
}

UEMeasurementValueInformation ::= CHOICE {
	measurementAvailable		UEMeasurementValueInformationAvailable,
	measurementnotAvailable		UEMeasurementValueInformationnotAvailable
}

UEMeasurementValueInformationAvailable::= SEQUENCE {
	uEmeasurementValue			UEMeasurementValue,
	ie-Extensions				ProtocolExtensionContainer { { UEMeasurementValueInformationAvailableItem-ExtIEs} }		OPTIONAL,
	...
}

UEMeasurementValueInformationAvailableItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UEMeasurementValueInformationnotAvailable ::= NULL

UE-Measurement-Value ::= CHOICE {
	uPHFiltering-Value					UPHFiltering-Value,
	extension-UE-Measurement-Value		Extension-UE-Measurement-Value
}

Extension-UE-Measurement-Value ::= ProtocolIE-Single-Container {{ Extension-UE-Measurement-ValueIE}}

Extension-UE-Measurement-ValueIE RNSAP-PROTOCOL-IES ::= {
	...
}

UPHFiltering-Value ::= INTEGER (0..32)
-- According to mapping in TS 25.321

UPH-Filtering-Measurement-Forwarding-Request ::= ENUMERATED {
	requested,
	notRequested
}

UE-SupportIndicatorExtension ::= BIT STRING (SIZE (32))
-- First bit: Different HS-SCCH In Consecutive TTIs Support Indicator
-- Second bit: HS-SCCH orders in HS-SCCH-less Operation Support Indicator
-- Third bit: RRC Rel-9 (onwards) handling of DL secondary HS-DSCH (de)activation state Support Indicator
-- Fourth bit: UE DTX/DRX related HS-SCCH orders uniform behavior indicator
-- Fifth bit: UE longer HARQ processing time for Multiflow and MIMO indicator
-- Sixth bit: UE blind HARQ retransmissions indicator for HSDPA
-- Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

UE-State ::= CHOICE {
	cell-fach-pch					Cell-Fach-Pch-State,
	ura-pch							Ura-Pch-State,
	...
}

UE-transmission-power-headroom-Value ::= INTEGER (0..31)

Cell-Fach-Pch-State ::= SEQUENCE {
	d-RNTI							D-RNTI, 
	iE-Extensions					ProtocolExtensionContainer { { Cell-Fach-Pch-State-ExtIEs} }		OPTIONAL,
	...
}

Cell-Fach-Pch-State-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Ura-Pch-State ::= SEQUENCE {
	srnc-id							RNC-ID, 
	ura-id							URA-ID,
	iE-Extensions					ProtocolExtensionContainer { { Ura-Pch-State-ExtIEs} }		OPTIONAL,
	...
}

Ura-Pch-State-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extended-SRNC-ID		CRITICALITY reject	EXTENSION Extended-RNC-ID		PRESENCE optional},
	...
}

UL-Delta-T2TP ::= INTEGER (0..6,...)

UL-DL-mode ::= ENUMERATED {
	ul-only,
	dl-only,
	both-ul-and-dl
}

UL-DPDCHIndicatorEDCH ::= ENUMERATED {
	uL-DPDCH-present,
	uL-DPDCH-not-present}

UL-Timeslot-Information::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF UL-Timeslot-InformationItem

UL-Timeslot-InformationItem ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType		MidambleShiftAndBurstType,
	tFCI-Presence					TFCI-Presence,
	uL-Code-Information				TDD-UL-Code-Information,
	iE-Extensions					ProtocolExtensionContainer { {UL-Timeslot-InformationItem-ExtIEs} } OPTIONAL,
	...
}

UL-Timeslot-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-TimeslotLCR-Information ::= SEQUENCE (SIZE (1..maxNrOfULTsLCR)) OF UL-TimeslotLCR-InformationItem

UL-TimeslotLCR-InformationItem ::= SEQUENCE {
	timeSlotLCR								TimeSlotLCR,
	midambleShiftLCR						MidambleShiftLCR,
	tFCI-Presence							TFCI-Presence,
	uL-Code-LCR-InformationList			TDD-UL-Code-LCR-Information,
	iE-Extensions							ProtocolExtensionContainer { { UL-TimeslotLCR-InformationItem-ExtIEs} }		OPTIONAL,
	...
}

UL-TimeslotLCR-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-PLCCH-Information-UL-TimeslotLCR-Info	CRITICALITY ignore	EXTENSION PLCCHinformation		PRESENCE optional},
	...
}
PLCCHinformation ::= SEQUENCE {
	tDD-ChannelisationCode					TDD-ChannelisationCode,
	timeSlotLCR								TimeSlotLCR,
	midambleShiftLCR						MidambleShiftLCR,
	sequenceNumber							PLCCHsequenceNumber,
	iE-Extensions							ProtocolExtensionContainer { { PLCCHinformation-ExtIEs} }		OPTIONAL,
	...
}

PLCCHinformation-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-Timeslot-Information768::= SEQUENCE ( SIZE (1..maxNrOfTS)) OF UL-Timeslot-InformationItem768

UL-Timeslot-InformationItem768 ::= SEQUENCE {
	timeSlot						TimeSlot,
	midambleShiftAndBurstType768	MidambleShiftAndBurstType768,
	tFCI-Presence					TFCI-Presence,
	uL-Code-Information768			TDD-UL-Code-Information768,
	iE-Extensions					ProtocolExtensionContainer { {UL-Timeslot-InformationItem768-ExtIEs} } OPTIONAL,
	...
}

UL-Timeslot-InformationItem768-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-TimeSlot-ISCP-Info ::= SEQUENCE (SIZE (1..maxNrOfULTs)) OF UL-TimeSlot-ISCP-InfoItem

UL-TimeSlot-ISCP-InfoItem ::= SEQUENCE {
	timeSlot					TimeSlot,
	uL-TimeslotISCP				UL-TimeslotISCP,
	iE-Extensions				ProtocolExtensionContainer { { UL-TimeSlot-ISCP-InfoItem-ExtIEs} } OPTIONAL,
	...
}

UL-TimeSlot-ISCP-InfoItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-TimeSlot-ISCP-LCR-Info ::= SEQUENCE (SIZE (1..maxNrOfULTsLCR)) OF	UL-TimeSlot-ISCP-LCR-InfoItem

UL-TimeSlot-ISCP-LCR-InfoItem ::= SEQUENCE {
 	timeSlotLCR						TimeSlotLCR,
	iSCP							UL-Timeslot-ISCP-Value,
	iE-Extensions					ProtocolExtensionContainer { { UL-TimeSlot-ISCP-LCR-InfoItem-ExtIEs} }	OPTIONAL,
	...
 }

UL-TimeSlot-ISCP-LCR-InfoItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-Timeslot-ISCP-Value ::= UL-TimeslotISCP

UL-Timeslot-ISCP-Value-IncrDecrThres ::= INTEGER(0..126)
-- Unit dB. Step 0.5dB
-- e.g. Value 100 means 50dB

UL-TimingAdvanceCtrl-LCR ::= SEQUENCE {
	sync-UL-codes-bitmap						BIT STRING (SIZE(8)),
	fPACH-info									FPACH-Information,
	prxUpPCHdes									INTEGER (-120 .. -58, ...),
	syncUL-procParameter						SYNC-UL-ProcParameters,
	mMax										INTEGER (1..32),
	...
	}

Uplink-Compressed-Mode-Method ::= ENUMERATED {
	sFdiv2,
	higher-layer-scheduling,
	...
}

UL-SIR ::= INTEGER (-82..173)
-- The UL-SIR gives the UL-SIR in number of 0.1 dB steps.
-- E.g. Value 173 means 17.3 dB
-- Unit dB. Step 0.1 dB.

UC-ID ::= SEQUENCE {
	rNC-ID				RNC-ID,
	c-ID				C-ID,
	iE-Extensions		ProtocolExtensionContainer { {UC-ID-ExtIEs} } OPTIONAL,
	...
}

UC-ID-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extended-RNC-ID		CRITICALITY reject	EXTENSION Extended-RNC-ID		PRESENCE optional},
	...
}

UL-DPCCH-SlotFormat ::= INTEGER (0..5,...)

UL-FP-Mode ::= ENUMERATED {
	normal,
	silent,
	...
}

UL-PhysCH-SF-Variation ::= ENUMERATED {
	sf-variation-supported,
	sf-variation-not-supported
}

UL-ScramblingCode ::= SEQUENCE {
	ul-ScramblingCodeNumber		UL-ScramblingCodeNumber,
	ul-ScramblingCodeLength		UL-ScramblingCodeLength,
	iE-Extensions				ProtocolExtensionContainer { {UL-ScramblingCode-ExtIEs} } OPTIONAL
}

UL-ScramblingCode-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-ScramblingCodeLength ::= ENUMERATED {
	short,
	long
}

UL-ScramblingCodeNumber ::= INTEGER (0..16777215)

UL-Synchronisation-Parameters-LCR ::= SEQUENCE {
	uL-Synchronisation-StepSize			UL-Synchronisation-StepSize,
	uL-Synchronisation-Frequency		UL-Synchronisation-Frequency,
	iE-Extensions						ProtocolExtensionContainer { { UL-Synchronisation-Parameters-LCR-ExtIEs } }		OPTIONAL,
	...
}

UL-Synchronisation-Parameters-LCR-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-Synchronisation-StepSize ::= INTEGER (1..8)

UL-Synchronisation-Frequency ::= INTEGER (1..8)

UL-TimeslotISCP ::= INTEGER (0..127)
-- According to mapping in TS 25.225 [14]

UPPCHPositionLCR ::= INTEGER (0..127)

UpPTSInterferenceValue ::= INTEGER (0..127,...)

Unidirectional-DCH-Indicator ::= ENUMERATED {
	downlink-DCH-only,
	uplink-DCH-only
}

URA-ID ::= INTEGER (0..65535)

URA-Information ::= SEQUENCE {
	uRA-ID								URA-ID,
	multipleURAsIndicator				MultipleURAsIndicator,
	rNCsWithCellsInTheAccessedURA-List	RNCsWithCellsInTheAccessedURA-List	OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { {URA-Information-ExtIEs} } OPTIONAL,
	...
}

URA-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

RNCsWithCellsInTheAccessedURA-List ::= SEQUENCE (SIZE (1..maxRNCinURA-1)) OF RNCsWithCellsInTheAccessedURA-Item

RNCsWithCellsInTheAccessedURA-Item ::= SEQUENCE {
	rNC-ID							RNC-ID,
	iE-Extensions					ProtocolExtensionContainer { {RNCsWithCellsInTheAccessedURA-Item-ExtIEs} } OPTIONAL,
	...
}

RNCsWithCellsInTheAccessedURA-Item-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-Extended-RNC-ID		CRITICALITY reject		EXTENSION Extended-RNC-ID			PRESENCE optional},
	...
}

USCH-ID ::= INTEGER (0..255)

USCH-Information ::= SEQUENCE (SIZE (1..maxNoOfUSCHs)) OF USCH-InformationItem

USCH-InformationItem ::= SEQUENCE {
	uSCH-ID								USCH-ID,
	ul-CCTrCH-ID						CCTrCH-ID,
	trChSourceStatisticsDescriptor		TrCH-SrcStatisticsDescr,
	transportFormatSet					TransportFormatSet,
	allocationRetentionPriority 		AllocationRetentionPriority,
	schedulingPriorityIndicator			SchedulingPriorityIndicator,
	rb-Info								RB-Info,
	iE-Extensions						ProtocolExtensionContainer { {USCH-InformationItem-ExtIEs} } OPTIONAL,
	...
}

USCH-InformationItem-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	{ ID id-TrafficClass					CRITICALITY ignore	EXTENSION TrafficClass				PRESENCE mandatory}|
	{ ID id-BindingID						CRITICALITY ignore	EXTENSION BindingID					PRESENCE optional}|
	-- Shall be ignored if bearer establishment with ALCAP.
	{ ID id-TransportLayerAddress			CRITICALITY ignore	EXTENSION TransportLayerAddress		PRESENCE optional}|
	-- Shall be ignored if bearer establishment with ALCAP.
	{ ID id-TnlQos							CRITICALITY ignore	EXTENSION TnlQos					PRESENCE optional},
	...
}

Usefulness-Of-Battery-Optimization ::= ENUMERATED {can-benefit, cannot-benefit}

User-Plane-Congestion-Fields-Inclusion ::= ENUMERATED { shall-be-included }

Uu-ActivationState ::= ENUMERATED {
	activated,
	de-activated,
	...,
	changeRequest
}

UMTS-Cells-Info-List ::= SEQUENCE (SIZE (0..maxNrOfCells)) OF ProtocolIE-Single-Container { {UMTS-Cells-Info-IEs} }

UMTS-Cells-Info-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-UMTS-Cells-Info	CRITICALITY ignore	TYPE UMTS-Cell-Info		PRESENCE optional }
}

UMTS-Cell-Info ::= SEQUENCE{
	c-ID								C-ID,
	iE-Extensions						ProtocolExtensionContainer { { UMTS-Cell-Info-ExtIEs} } OPTIONAL,
	...
}

UMTS-Cell-Info-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-CLTD-Information ::= SEQUENCE {
	sDPCCH-PowerOffsetInformation		SDPCCH-PowerOffsetInformation,
	c-ID								C-ID							OPTIONAL,
-- The IE shall be present if there is no serving E-DCH RL or HS-DSCH RL configuration in the concerned UE Context.
	uL-CLTD-Activation-Information 		UL-CLTD-Activation-Information	OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { UL-CLTD-Info-ExtIEs } }		OPTIONAL,
	...
}

UL-CLTD-Info-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-CLTD-Information-Reconf ::=SEQUENCE{
	setup-Or-ConfigurationChange-Or-Removal-Of-UL-CLTD				Setup-Or-ConfigurationChange-Or-Removal-Of-UL-CLTD,
	iE-Extensions													ProtocolExtensionContainer { { UL-CLTD-Information-Reconf-ExtIEs} } OPTIONAL,
	...
}

UL-CLTD-Information-Reconf-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-CLTD-Information-To-Modify ::= SEQUENCE {
	sDPCCH-PowerOffsetInformation		SDPCCH-PowerOffsetInformation				OPTIONAL,
	c-ID								C-ID										OPTIONAL,
	uL-CLTD-Activation-Information		UL-CLTD-Activation-Information				OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { UL-CLTD-Information-To-Modify-ExtIEs } }		OPTIONAL,
	...
}

UL-CLTD-Information-To-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-CLTD-Information-Removal ::= ENUMERATED {
	remove,
	...
}

UL-CLTD-State-Update-Information ::= ENUMERATED {
	activate,
	de-activate,
	...
}

UL-DPCCH2-Information ::= SEQUENCE {
	f-DPCH-Info			F-DPCH-Info,
	iE-Extensions		ProtocolExtensionContainer { { UL-DPCCH2-Information-ExtIEs } }		OPTIONAL,
	...
}

UL-DPCCH2-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-DPCCH2-Information-Reconf ::=SEQUENCE{
	setup-Or-ConfigurationChange-Or-Removal-Of-UL-DPCCH2	Setup-Or-ConfigurationChange-Or-Removal-Of-UL-DPCCH2,
	iE-Extensions											ProtocolExtensionContainer { { UL-DPCCH2-Information-Reconf-ExtIEs} } OPTIONAL,
	...
}

UL-DPCCH2-Information-Reconf-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-DPCCH2-Information-Removal ::= ENUMERATED {
	remove,
	...
}

UL-DPCCH2-Information-To-Modify ::= SEQUENCE {
	f-DPCH-Info			F-DPCH-Info-To-Modify		OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { UL-DPCCH2-Information-To-Modify-ExtIEs } }		OPTIONAL,
	...
}

UL-DPCCH2-Information-To-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-CLTD-Activation-Information ::= ENUMERATED {
	activated,
	de-activated,
	...
}

UL-MIMO-Information ::= SEQUENCE {
	e-roch-power-offset			E-ROCH-PowerOffset				OPTIONAL,
	s-e-dpcch-power-offset		S-E-DPCCH-PowerOffset,
	interstream-compensation	InterStream-Interference-Compensation,
	minimum-E-TFCI-rank2		INTEGER(0..127),
	iE-Extensions				ProtocolExtensionContainer { { UL-MIMO-Information-ExtIEs } } OPTIONAL,
	...
}

UL-MIMO-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-MIMO-Information-To-Modify ::= SEQUENCE {
	e-roch-power-offset			E-ROCH-PowerOffset						OPTIONAL,
	s-e-dpcch-power-offset		S-E-DPCCH-PowerOffset					OPTIONAL,
	interstream-compensation	InterStream-Interference-Compensation	OPTIONAL,
	minimum-E-TFCI-rank2		INTEGER(0..127)							OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { UL-MIMO-Information-To-Modify-ExtIEs } } OPTIONAL,
	...
}

UL-MIMO-Information-To-Modify-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

UL-MIMO-Reconfiguration ::= CHOICE {
	setup					UL-MIMO-Information,
	configurationChange		UL-MIMO-Information-To-Modify,
	removal					UL-MIMO-Removal
}

UL-MIMO-Removal ::= ENUMERATED {
	remove,
	...
}

UL-MIMO-DL-Control-Channel-Information ::= SEQUENCE {
	e-roch-channelization-code		FDD-DL-ChannelisationCodeNumber,
	s-e-rnti						E-RNTI,
	s-signature-sequence			ERGCH-SignatureSequence,
	s-e-roch-release-indicator		S-E-ROCH-Release-Indicator			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { UL-MIMO-DL-Control-Channel-Information-ExtIEs } } OPTIONAL,
	...
}

UL-MIMO-DL-Control-Channel-Information-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

-- V
-- W
-- X
-- Y
-- Z

END

9.3.5	Common Definitions
-- **************************************************************
--
-- Common definitions
--
-- **************************************************************

RNSAP-CommonDataTypes {
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
umts-Access (20) modules (3) rnsap (1) version1 (1) rnsap-CommonDataTypes (3) }

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

-- **************************************************************
--
-- Extension constants
--
-- **************************************************************

maxPrivateIEs 									INTEGER ::= 65535
maxProtocolExtensions 							INTEGER ::= 65535
maxProtocolIEs									INTEGER ::= 65535

-- **************************************************************
--
-- Common Data Types
--
-- **************************************************************

Criticality ::= ENUMERATED { reject, ignore, notify }

Presence ::= ENUMERATED { optional, conditional, mandatory }

PrivateIE-ID ::= CHOICE {
	local				INTEGER (0.. maxPrivateIEs),
	global				OBJECT IDENTIFIER
}

ProcedureCode ::= INTEGER (0..255)

ProcedureID ::= SEQUENCE {
	procedureCode			ProcedureCode,
	ddMode				ENUMERATED { tdd, fdd, common, ... }
}

ProtocolIE-ID ::= INTEGER (0..maxProtocolIEs)

TransactionID ::= CHOICE {
	shortTransActionId	INTEGER (0..127),
	longTransActionId	INTEGER (0..32767)
}

TriggeringMessage ::= ENUMERATED { initiating-message, successful-outcome, unsuccessful-outcome, outcome }

END

9.3.6	Constant Definitions
-- **************************************************************
--
-- Constant definitions
--
-- **************************************************************

RNSAP-Constants {
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
umts-Access (20) modules (3) rnsap (1) version1 (1) rnsap-Constants (4) }

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

IMPORTS
	ProcedureCode,
	ProtocolIE-ID
FROM RNSAP-CommonDataTypes;

-- **************************************************************
--
-- Elementary Procedures
--
-- **************************************************************

id-commonTransportChannelResourcesInitialisation			ProcedureCode ::= 0
id-commonTransportChannelResourcesRelease					ProcedureCode ::= 1
id-compressedModeCommand									ProcedureCode ::= 2
id-downlinkPowerControl										ProcedureCode ::= 3
id-downlinkPowerTimeslotControl								ProcedureCode ::= 4
id-downlinkSignallingTransfer								ProcedureCode ::= 5
id-errorIndication											ProcedureCode ::= 6
id-dedicatedMeasurementFailure								ProcedureCode ::= 7
id-dedicatedMeasurementInitiation							ProcedureCode ::= 8
id-dedicatedMeasurementReporting							ProcedureCode ::= 9
id-dedicatedMeasurementTermination							ProcedureCode ::= 10
id-paging													ProcedureCode ::= 11
id-physicalChannelReconfiguration							ProcedureCode ::= 12
id-privateMessage											ProcedureCode ::= 13
id-radioLinkAddition										ProcedureCode ::= 14
id-radioLinkCongestion										ProcedureCode ::= 34
id-radioLinkDeletion										ProcedureCode ::= 15
id-radioLinkFailure											ProcedureCode ::= 16
id-radioLinkPreemption										ProcedureCode ::= 17
id-radioLinkRestoration										ProcedureCode ::= 18
id-radioLinkSetup											ProcedureCode ::= 19
id-relocationCommit											ProcedureCode ::= 20
id-synchronisedRadioLinkReconfigurationCancellation			ProcedureCode ::= 21
id-synchronisedRadioLinkReconfigurationCommit				ProcedureCode ::= 22
id-synchronisedRadioLinkReconfigurationPreparation			ProcedureCode ::= 23
id-unSynchronisedRadioLinkReconfiguration					ProcedureCode ::= 24
id-uplinkSignallingTransfer									ProcedureCode ::= 25
id-commonMeasurementFailure									ProcedureCode ::= 26
id-commonMeasurementInitiation								ProcedureCode ::= 27
id-commonMeasurementReporting								ProcedureCode ::= 28
id-commonMeasurementTermination								ProcedureCode ::= 29
id-informationExchangeFailure								ProcedureCode ::= 30
id-informationExchangeInitiation							ProcedureCode ::= 31
id-informationReporting										ProcedureCode ::= 32
id-informationExchangeTermination							ProcedureCode ::= 33
id-reset													ProcedureCode ::= 35
id-radioLinkActivation 										ProcedureCode ::= 36
id-gERANuplinkSignallingTransfer							ProcedureCode ::= 37
id-radioLinkParameterUpdate									ProcedureCode ::= 38
id-uEMeasurementFailure										ProcedureCode ::= 39
id-uEMeasurementInitiation									ProcedureCode ::= 40
id-uEMeasurementReporting									ProcedureCode ::= 41
id-uEMeasurementTermination									ProcedureCode ::= 42
id-iurDeactivateTrace										ProcedureCode ::= 43
id-iurInvokeTrace											ProcedureCode ::= 44
id-mBMSAttach												ProcedureCode ::= 45
id-mBMSDetach												ProcedureCode ::= 46
id-directInformationTransfer								ProcedureCode ::= 48
id-enhancedRelocation										ProcedureCode ::= 49
id-enhancedRelocationCancel									ProcedureCode ::= 50
id-enhancedRelocationSignallingTransfer						ProcedureCode ::= 51
id-enhancedRelocationRelease								ProcedureCode ::= 52
id-mBSFNMCCHInformation										ProcedureCode ::= 53
id-secondaryULFrequencyReporting							ProcedureCode ::= 54
id-secondaryULFrequencyUpdate								ProcedureCode ::= 55
id-informationTransferControl								ProcedureCode ::= 56
id-enhancedRelocationResourceAllocation						ProcedureCode ::= 60
id-enhancedRelocationResourceRelease						ProcedureCode ::= 61

-- **************************************************************
--
-- Lists
--
-- **************************************************************

maxCellSIB11OrSIB12						INTEGER ::= 32
maxCellSIB11ter-ext						INTEGER ::= 48
maxCellSIB11ter-1						INTEGER ::= 79
maxCellsMeas							INTEGER ::= 8
maxRateMatching							INTEGER ::= 256
maxNoOfDSCHs							INTEGER ::= 10
maxNoOfDSCHsLCR							INTEGER ::= 10
maxNoOfRB								INTEGER ::= 32
maxNoOfUSCHs							INTEGER ::= 10
maxNoOfUSCHsLCR							INTEGER ::= 10
maxNrOfTFCs								INTEGER ::= 1024
maxNrOfTFs								INTEGER ::= 32
maxNrOfCCTrCHs							INTEGER ::= 16
maxNrOfCCTrCHsLCR						INTEGER ::= 16
maxNrOfDCHs								INTEGER ::= 128
maxNrOfDL-Codes							INTEGER ::= 8
maxNrOfDPCHs							INTEGER ::= 240
maxNrOfDPCHsPerRL-1						INTEGER ::= 239	-- maxNrofCCTrCH*maxNrOfULTs-1
maxNrOfDPCHsLCR							INTEGER ::= 240
maxNrOfDPCHsLCRPerRL-1					INTEGER ::= 95	-- maxNrofCCTrCH*maxNrOfULTsLCR-1
maxNrOfDPCHs768							INTEGER ::= 480
maxNrOfDPCHs768PerRL-1					INTEGER ::= 479
maxNrOfErrors							INTEGER ::= 256
maxNrOfMACcshSDU-Length					INTEGER ::= 16
maxNrOfMBMSServices						INTEGER ::= 128
maxNrOfActiveMBMSServices				INTEGER ::= 256
maxNrOfPoints							INTEGER ::= 15
maxNrOfRLs								INTEGER ::= 16
maxNrOfRLSets							INTEGER ::= maxNrOfRLs
maxNrOfRLSets-1						INTEGER ::= 15	-- maxNrOfRLSets – 1
maxNrOfRLs-1							INTEGER ::= 15	-- maxNrOfRLs – 1
maxNrOfRLs-2							INTEGER ::= 14	-- maxNrOfRLs – 2
maxNrOfUEs								INTEGER ::= 4096
maxNrOfULTs								INTEGER ::= 15
maxNrOfULTsLCR							INTEGER ::= 6
maxNrOfDLTs								INTEGER ::= 15
maxNrOfDLTsLCR							INTEGER ::= 6
maxRNCinURA-1							INTEGER ::= 15
maxTTI-Count							INTEGER ::= 4
maxCTFC									INTEGER ::= 16777215
maxNrOfNeighbouringRNCs					INTEGER ::= 10
maxNrOfFDDNeighboursPerRNC				INTEGER ::= 256
maxNrOfGSMNeighboursPerRNC				INTEGER ::= 256
maxNrOfTDDNeighboursPerRNC				INTEGER ::= 256
maxNrOfFACHs							INTEGER	::=	8
maxNrOfLCRTDDNeighboursPerRNC			INTEGER ::= 256
maxIBSEG								INTEGER ::= 16
maxNrOfSCCPCHs							INTEGER	::=	8
maxNrOfSCCPCHs768						INTEGER	::=	16
maxTGPS									INTEGER ::= 6
maxNrOfTS								INTEGER ::= 15
maxNrOfLevels							INTEGER ::= 256
maxNrOfTsLCR							INTEGER ::= 6
maxNoSat								INTEGER ::= 16
maxNoGPSTypes							INTEGER ::= 8
maxNrOfMeasNCell						INTEGER ::= 96
maxNrOfMeasNCell-1						INTEGER ::= 95	-- maxNrOfMeasNCell – 1
maxResetContext							INTEGER ::= 250
maxResetContextGroup					INTEGER ::= 32
maxNrOfHARQProc							INTEGER ::= 8
maxNrOfHSSCCHCodes						INTEGER ::= 4
maxNrOfHSSICHs							INTEGER ::= 4
maxNrOfHSSICHs-1						INTEGER ::= 3
maxNrOfMACdFlows						INTEGER ::= 8
maxNrOfMACdFlows-1						INTEGER ::= 7	-- maxNrOfMACdFlows – 1
maxNrOfMACdPDUSize						INTEGER ::= 32
maxNrOfPDUIndexes						INTEGER ::= 8
maxNrOfPDUIndexes-1						INTEGER ::= 7	-- maxNrOfPDUIndexes – 1
maxNrOfPrioQueues						INTEGER ::= 8
maxNrOfPrioQueues-1						INTEGER ::= 7	-- maxNrOfPrioQueues – 1
maxNrOfSNAs								INTEGER ::= 65536
maxNrOfSatAlmanac-maxNoSat				INTEGER ::= 16
maxNrOfGERANSI 							INTEGER ::= 8
maxNrOfInterfaces						INTEGER ::= 16
maxNrofSigSeqERGHICH-1					INTEGER ::= 39
maxNrOfCells							INTEGER ::= 65536
maxNrOfAddFreq							INTEGER ::= 8
maxNrOfCellsPerFreq						INTEGER ::= 65536
maxNrOfEDCHMACdFlows-1					INTEGER ::= 7
maxNrOfEDCH-HARQ-PO-QUANTSTEPs			INTEGER ::= 6
maxNrOfEDPCCH-PO-QUANTSTEPs				INTEGER ::= 8
maxNrOfEDCHHARQProcesses2msEDCH			INTEGER ::= 8
maxNrOfBits-MACe-PDU-non-scheduled		INTEGER ::= 19982
maxNrOfRefETFCIs						INTEGER ::= 8
maxNrOfRefETFCI-PO-QUANTSTEPs			INTEGER ::= 29
maxNrOfEDCHMACdFlows					INTEGER ::= 8
maxNoOfLogicalChannels					INTEGER ::= 16 -- only maximum 15 can be used
maxNrOfRefBetas							INTEGER ::= 8
maxNrOfEAGCHCodes						INTEGER ::= 4
maxNrOfHS-DSCHTBSs						INTEGER ::= 90
maxNrOfHS-DSCHTBSs-HS-SCCHless			INTEGER ::= 4
maxHS-PDSCHCodeNrComp-1					INTEGER ::= 15
maxNrOfEHICHCodes						INTEGER ::= 4
maxGANSSSat								INTEGER ::= 64
maxNoGANSS								INTEGER ::= 8
maxSgnType								INTEGER ::= 8
maxNrOfBroadcastPLMNs					INTEGER ::= 5
maxHSDPAFrequency						INTEGER ::= 8
maxHSDPAFrequency-1						INTEGER ::= 7
maxFrequencyinCell						INTEGER ::= 12
maxFrequencyinCell-1					INTEGER ::= 11
maxGANSSSatAlmanac						INTEGER ::= 36
maxGANSSClockMod						INTEGER ::= 4
maxNrOfEDCHRLs							INTEGER ::= 4
maxEARFCN								INTEGER ::= 65535
maxEARFCN-Extended						INTEGER ::= 262143
maxNrOfEUTRANeighboursPerRNC			INTEGER ::= 256
maxNrOfMCCHMessages						INTEGER ::= 5
maxNrOfMBMSL3							INTEGER ::= 64
maxNrOfEDCHMACdFlowsLCR					INTEGER ::= 256
maxNrOfEDCHMACdFlowsLCR-1				INTEGER ::= 255
maxNrOfPreconfiguredNeighbours			INTEGER ::= 256
maxNrOfHSDSCH-1							INTEGER ::= 32
maxNrOfHSDSCH							INTEGER ::= 33
maxGANSS-1								INTEGER ::= 7
maxlengthMBMSconcatservlists			INTEGER ::= 96
maxNoOfTBSs-Mapping-HS-DSCH-SPS			INTEGER ::= 4
maxNoOfTBSs-Mapping-HS-DSCH-SPS-1		INTEGER ::= 3
maxNoOfHS-DSCH-TBSsLCR					INTEGER ::= 64
maxNoOfRepetition-Period-LCR			INTEGER ::= 4
maxNoOfRepetitionPeriod-SPS-LCR-1		INTEGER ::= 3
maxNoOf-HS-SICH-SPS						INTEGER ::= 4
maxNoOf-HS-SICH-SPS-1					INTEGER ::= 3
maxNoOfNon-HS-SCCH-Assosiated-HS-SICH	INTEGER ::= 4
maxNrOfEDCH-1							INTEGER ::= 32
maxNrOfDCHMeasurementOccasionPatternSequence	INTEGER ::= 6
maxNrOfULCarriersLCR-1					INTEGER ::= 5
maxNrOfCellIds							INTEGER ::= 32
maxNrOfRAIs								INTEGER ::= 8
maxNrOfLAIs								INTEGER ::= 8
maxNrOfExtendedNeighbouringRNCs			INTEGER ::= 64
maxNoOfGsmCell							INTEGER ::= 128
maxNrOfANRCells							INTEGER ::= 256
maxFreqBandsTDD							INTEGER ::= 16
maxSCPICHCell							INTEGER ::= 32
maxSCPICHCell-1							INTEGER ::= 31
maxNoOfCommonRGCells					INTEGER ::= 256
maxIGPInfo								INTEGER ::= 320
maxNrofConcatenatedDCH					INTEGER ::= 3
maxMultipleFrequencyBands				INTEGER ::= 8
maxMultipleFrequencyBandsEUTRA			INTEGER ::= 8

-- **************************************************************
--
-- IEs
--
-- **************************************************************

id-AllowedQueuingTime														ProtocolIE-ID ::= 4
id-Allowed-Rate-Information													ProtocolIE-ID ::= 42
id-AntennaColocationIndicator												ProtocolIE-ID ::= 309
id-BindingID																ProtocolIE-ID ::= 5
id-C-ID																		ProtocolIE-ID ::= 6
id-C-RNTI																	ProtocolIE-ID ::= 7
id-Cell-Capacity-Class-Value												ProtocolIE-ID ::= 303
id-CFN																		ProtocolIE-ID ::= 8
id-CN-CS-DomainIdentifier													ProtocolIE-ID ::= 9
id-CN-PS-DomainIdentifier													ProtocolIE-ID ::= 10
id-Cause																	ProtocolIE-ID ::= 11
id-CoverageIndicator														ProtocolIE-ID ::= 310
id-CriticalityDiagnostics													ProtocolIE-ID ::= 20
id-ContextInfoItem-Reset													ProtocolIE-ID ::= 211
id-ContextGroupInfoItem-Reset												ProtocolIE-ID ::= 515
id-D-RNTI																	ProtocolIE-ID ::= 21
id-D-RNTI-ReleaseIndication													ProtocolIE-ID ::= 22
id-DCHs-to-Add-FDD															ProtocolIE-ID ::= 26
id-DCHs-to-Add-TDD															ProtocolIE-ID ::= 27
id-DCH-DeleteList-RL-ReconfPrepFDD											ProtocolIE-ID ::= 30
id-DCH-DeleteList-RL-ReconfPrepTDD											ProtocolIE-ID ::= 31
id-DCH-DeleteList-RL-ReconfRqstFDD											ProtocolIE-ID ::= 32
id-DCH-DeleteList-RL-ReconfRqstTDD											ProtocolIE-ID ::= 33
id-DCH-FDD-Information														ProtocolIE-ID ::= 34
id-DCH-TDD-Information														ProtocolIE-ID ::= 35
id-FDD-DCHs-to-Modify														ProtocolIE-ID ::= 39
id-TDD-DCHs-to-Modify														ProtocolIE-ID ::= 40
id-DCH-InformationResponse													ProtocolIE-ID ::= 43
id-DCH-Rate-InformationItem-RL-CongestInd									ProtocolIE-ID ::= 38
id-DL-CCTrCH-InformationAddItem-RL-ReconfPrepTDD							ProtocolIE-ID ::= 44
id-DL-CCTrCH-InformationListIE-RL-ReconfReadyTDD							ProtocolIE-ID ::= 45
id-DL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD							ProtocolIE-ID ::= 46
id-DL-CCTrCH-InformationItem-RL-SetupRqstTDD								ProtocolIE-ID ::= 47
id-DL-CCTrCH-InformationListIE-PhyChReconfRqstTDD							ProtocolIE-ID ::= 48
id-DL-CCTrCH-InformationListIE-RL-AdditionRspTDD							ProtocolIE-ID ::= 49
id-DL-CCTrCH-InformationListIE-RL-SetupRspTDD								ProtocolIE-ID ::= 50
id-DL-CCTrCH-InformationAddList-RL-ReconfPrepTDD							ProtocolIE-ID ::= 51
id-DL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD							ProtocolIE-ID ::= 52
id-DL-CCTrCH-InformationList-RL-SetupRqstTDD								ProtocolIE-ID ::= 53
id-FDD-DL-CodeInformation													ProtocolIE-ID ::= 54
id-DL-DPCH-Information-RL-ReconfPrepFDD										ProtocolIE-ID ::= 59
id-DL-DPCH-Information-RL-SetupRqstFDD										ProtocolIE-ID ::= 60
id-DL-DPCH-Information-RL-ReconfRqstFDD										ProtocolIE-ID ::= 61
id-DL-DPCH-InformationItem-PhyChReconfRqstTDD								ProtocolIE-ID ::= 62
id-DL-DPCH-InformationItem-RL-AdditionRspTDD								ProtocolIE-ID ::= 63
id-DL-DPCH-InformationItem-RL-SetupRspTDD									ProtocolIE-ID ::= 64
id-DL-DPCH-TimingAdjustment													ProtocolIE-ID ::= 278
id-DLReferencePower															ProtocolIE-ID ::= 67
id-DLReferencePowerList-DL-PC-Rqst											ProtocolIE-ID ::= 68
id-DL-ReferencePowerInformation-DL-PC-Rqst									ProtocolIE-ID ::= 69
id-DPC-Mode																	ProtocolIE-ID ::= 12
id-DRXCycleLengthCoefficient												ProtocolIE-ID ::= 70
id-DedicatedMeasurementObjectType-DM-Fail-Ind								ProtocolIE-ID ::= 470
id-DedicatedMeasurementObjectType-DM-Fail									ProtocolIE-ID ::= 471
id-DedicatedMeasurementObjectType-DM-Rprt									ProtocolIE-ID ::= 71
id-DedicatedMeasurementObjectType-DM-Rqst									ProtocolIE-ID ::= 72
id-DedicatedMeasurementObjectType-DM-Rsp									ProtocolIE-ID ::= 73
id-DedicatedMeasurementType													ProtocolIE-ID ::= 74
id-FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspFDD						ProtocolIE-ID ::= 82
id-FACH-InfoForUESelectedS-CCPCH-CTCH-ResourceRspTDD						ProtocolIE-ID ::= 83
id-Guaranteed-Rate-Information												ProtocolIE-ID ::= 41
id-IMSI																		ProtocolIE-ID ::= 84
id-HCS-Prio																	ProtocolIE-ID ::= 311
id-L3-Information															ProtocolIE-ID ::= 85
id-AdjustmentPeriod															ProtocolIE-ID ::= 90
id-MaxAdjustmentStep														ProtocolIE-ID ::= 91
id-MeasurementFilterCoefficient												ProtocolIE-ID ::= 92
id-MessageStructure															ProtocolIE-ID ::= 57
id-MeasurementID															ProtocolIE-ID ::= 93
id-Neighbouring-GSM-CellInformation											ProtocolIE-ID ::= 13
id-Neighbouring-UMTS-CellInformationItem									ProtocolIE-ID ::= 95
id-NRT-Load-Information-Value												ProtocolIE-ID ::= 305
id-NRT-Load-Information-Value-IncrDecrThres									ProtocolIE-ID ::= 306
id-PagingArea-PagingRqst													ProtocolIE-ID ::= 102
id-FACH-FlowControlInformation												ProtocolIE-ID ::= 103
id-PartialReportingIndicator												ProtocolIE-ID ::= 472
id-Permanent-NAS-UE-Identity												ProtocolIE-ID ::= 17
id-PowerAdjustmentType														ProtocolIE-ID ::= 107
id-RANAP-RelocationInformation												ProtocolIE-ID ::= 109
id-RL-Information-PhyChReconfRqstFDD										ProtocolIE-ID ::= 110
id-RL-Information-PhyChReconfRqstTDD										ProtocolIE-ID ::= 111
id-RL-Information-RL-AdditionRqstFDD										ProtocolIE-ID ::= 112
id-RL-Information-RL-AdditionRqstTDD										ProtocolIE-ID ::= 113
id-RL-Information-RL-DeletionRqst											ProtocolIE-ID ::= 114
id-RL-Information-RL-FailureInd												ProtocolIE-ID ::= 115
id-RL-Information-RL-ReconfPrepFDD											ProtocolIE-ID ::= 116
id-RL-Information-RL-RestoreInd												ProtocolIE-ID ::= 117
id-RL-Information-RL-SetupRqstFDD											ProtocolIE-ID ::= 118
id-RL-Information-RL-SetupRqstTDD											ProtocolIE-ID ::= 119
id-RL-InformationItem-RL-CongestInd											ProtocolIE-ID ::= 55
id-RL-InformationItem-DM-Rprt												ProtocolIE-ID ::= 120
id-RL-InformationItem-DM-Rqst												ProtocolIE-ID ::= 121
id-RL-InformationItem-DM-Rsp												ProtocolIE-ID ::= 122
id-RL-InformationItem-RL-PreemptRequiredInd									ProtocolIE-ID ::= 2
id-RL-InformationItem-RL-SetupRqstFDD										ProtocolIE-ID ::= 123
id-RL-InformationList-RL-CongestInd											ProtocolIE-ID ::= 56
id-RL-InformationList-RL-AdditionRqstFDD									ProtocolIE-ID ::= 124
id-RL-InformationList-RL-DeletionRqst										ProtocolIE-ID ::= 125
id-RL-InformationList-RL-PreemptRequiredInd									ProtocolIE-ID ::= 1
id-RL-InformationList-RL-ReconfPrepFDD										ProtocolIE-ID ::= 126
id-RL-InformationResponse-RL-AdditionRspTDD									ProtocolIE-ID ::= 127
id-RL-InformationResponse-RL-ReconfReadyTDD									ProtocolIE-ID ::= 128
id-RL-InformationResponse-RL-SetupRspTDD									ProtocolIE-ID ::= 129
id-RL-InformationResponseItem-RL-AdditionRspFDD								ProtocolIE-ID ::= 130
id-RL-InformationResponseItem-RL-ReconfReadyFDD								ProtocolIE-ID ::= 131
id-RL-InformationResponseItem-RL-ReconfRspFDD								ProtocolIE-ID ::= 132
id-RL-InformationResponseItem-RL-SetupRspFDD								ProtocolIE-ID ::= 133
id-RL-InformationResponseList-RL-AdditionRspFDD								ProtocolIE-ID ::= 134
id-RL-InformationResponseList-RL-ReconfReadyFDD								ProtocolIE-ID ::= 135
id-RL-InformationResponseList-RL-ReconfRspFDD								ProtocolIE-ID ::= 136
id-RL-InformationResponse-RL-ReconfRspTDD									ProtocolIE-ID ::= 28
id-RL-InformationResponseList-RL-SetupRspFDD								ProtocolIE-ID ::= 137
id-RL-ReconfigurationFailure-RL-ReconfFail									ProtocolIE-ID ::= 141
id-RL-Set-InformationItem-DM-Rprt											ProtocolIE-ID ::= 143
id-RL-Set-InformationItem-DM-Rqst											ProtocolIE-ID ::= 144
id-RL-Set-InformationItem-DM-Rsp											ProtocolIE-ID ::= 145
id-RL-Set-Information-RL-FailureInd											ProtocolIE-ID ::= 146
id-RL-Set-Information-RL-RestoreInd											ProtocolIE-ID ::= 147
id-RL-Set-Successful-InformationItem-DM-Fail								ProtocolIE-ID ::= 473
id-RL-Set-Unsuccessful-InformationItem-DM-Fail								ProtocolIE-ID ::= 474
id-RL-Set-Unsuccessful-InformationItem-DM-Fail-Ind							ProtocolIE-ID ::= 475
id-RL-Successful-InformationItem-DM-Fail									ProtocolIE-ID ::= 476
id-RL-Unsuccessful-InformationItem-DM-Fail									ProtocolIE-ID ::= 477
id-RL-Unsuccessful-InformationItem-DM-Fail-Ind								ProtocolIE-ID ::= 478
id-ReportCharacteristics													ProtocolIE-ID ::= 152
id-Reporting-Object-RL-FailureInd											ProtocolIE-ID ::= 153
id-Reporing-Object-RL-RestoreInd											ProtocolIE-ID ::= 154
id-RT-Load-Value															ProtocolIE-ID ::= 307
id-RT-Load-Value-IncrDecrThres												ProtocolIE-ID ::= 308
id-S-RNTI																	ProtocolIE-ID ::= 155
id-ResetIndicator															ProtocolIE-ID ::= 244
id-RNC-ID																	ProtocolIE-ID ::= 245
id-SAI																		ProtocolIE-ID ::= 156
id-SRNC-ID																	ProtocolIE-ID ::= 157
id-SuccessfulRL-InformationResponse-RL-AdditionFailureFDD					ProtocolIE-ID ::= 159
id-SuccessfulRL-InformationResponse-RL-SetupFailureFDD						ProtocolIE-ID ::= 160
id-TransportBearerID														ProtocolIE-ID ::= 163
id-TransportBearerRequestIndicator											ProtocolIE-ID ::= 164
id-TransportLayerAddress													ProtocolIE-ID ::= 165
id-TypeOfError																ProtocolIE-ID ::= 140
id-UC-ID																	ProtocolIE-ID ::= 166
id-UL-CCTrCH-AddInformation-RL-ReconfPrepTDD								ProtocolIE-ID ::= 167
id-UL-CCTrCH-InformationAddList-RL-ReconfPrepTDD							ProtocolIE-ID ::= 169
id-UL-CCTrCH-InformationItem-RL-SetupRqstTDD								ProtocolIE-ID ::= 171
id-UL-CCTrCH-InformationList-RL-SetupRqstTDD								ProtocolIE-ID ::= 172
id-UL-CCTrCH-InformationListIE-PhyChReconfRqstTDD							ProtocolIE-ID ::= 173
id-UL-CCTrCH-InformationListIE-RL-AdditionRspTDD							ProtocolIE-ID ::= 174
id-UL-CCTrCH-InformationListIE-RL-ReconfReadyTDD							ProtocolIE-ID ::= 175
id-UL-CCTrCH-InformationListIE-RL-SetupRspTDD								ProtocolIE-ID ::= 176
id-UL-DPCH-Information-RL-ReconfPrepFDD										ProtocolIE-ID ::= 177
id-UL-DPCH-Information-RL-ReconfRqstFDD										ProtocolIE-ID ::= 178
id-UL-DPCH-Information-RL-SetupRqstFDD										ProtocolIE-ID ::= 179
id-UL-DPCH-InformationItem-PhyChReconfRqstTDD								ProtocolIE-ID ::= 180
id-UL-DPCH-InformationItem-RL-AdditionRspTDD								ProtocolIE-ID ::= 181
id-UL-DPCH-InformationItem-RL-SetupRspTDD									ProtocolIE-ID ::= 182
id-UL-DPCH-InformationAddListIE-RL-ReconfReadyTDD							ProtocolIE-ID ::= 183
id-UL-SIRTarget																ProtocolIE-ID ::= 184
id-URA-Information															ProtocolIE-ID ::= 185
id-UnsuccessfulRL-InformationResponse-RL-AdditionFailureFDD					ProtocolIE-ID ::= 188
id-UnsuccessfulRL-InformationResponse-RL-SetupFailureFDD					ProtocolIE-ID ::= 189
id-UnsuccessfulRL-InformationResponse-RL-SetupFailureTDD					ProtocolIE-ID ::= 190
id-Active-Pattern-Sequence-Information										ProtocolIE-ID ::= 193
id-AdjustmentRatio															ProtocolIE-ID ::= 194
id-CauseLevel-RL-AdditionFailureFDD											ProtocolIE-ID ::= 197
id-CauseLevel-RL-AdditionFailureTDD											ProtocolIE-ID ::= 198
id-CauseLevel-RL-ReconfFailure												ProtocolIE-ID ::= 199
id-CauseLevel-RL-SetupFailureFDD											ProtocolIE-ID ::= 200
id-CauseLevel-RL-SetupFailureTDD											ProtocolIE-ID ::= 201
id-DL-CCTrCH-InformationDeleteItem-RL-ReconfPrepTDD							ProtocolIE-ID ::= 205
id-DL-CCTrCH-InformationModifyItem-RL-ReconfPrepTDD							ProtocolIE-ID ::= 206
id-DL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD							ProtocolIE-ID ::= 207
id-DL-CCTrCH-InformationDeleteList-RL-ReconfPrepTDD							ProtocolIE-ID ::= 208
id-DL-CCTrCH-InformationModifyList-RL-ReconfPrepTDD							ProtocolIE-ID ::= 209
id-DL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD							ProtocolIE-ID ::= 210
id-DL-DPCH-InformationAddListIE-RL-ReconfReadyTDD							ProtocolIE-ID ::= 212
id-DL-DPCH-InformationDeleteListIE-RL-ReconfReadyTDD						ProtocolIE-ID ::= 213
id-DL-DPCH-InformationModifyListIE-RL-ReconfReadyTDD						ProtocolIE-ID ::= 214
id-DSCHs-to-Add-TDD															ProtocolIE-ID ::= 215
id-Unused-ProtocolIE-ID-216													ProtocolIE-ID ::= 216
id-DSCH-DeleteList-RL-ReconfPrepTDD											ProtocolIE-ID ::= 217
id-Unused-ProtocolIE-ID-218													ProtocolIE-ID ::= 218
id-Unused-ProtocolIE-ID-219													ProtocolIE-ID ::= 219
id-DSCH-InformationListIE-RL-AdditionRspTDD									ProtocolIE-ID ::= 220
id-DSCH-InformationListIEs-RL-SetupRspTDD									ProtocolIE-ID ::= 221
id-DSCH-TDD-Information														ProtocolIE-ID ::= 222
id-Unused-ProtocolIE-ID-223													ProtocolIE-ID ::= 223
id-Unused-ProtocolIE-ID-226													ProtocolIE-ID ::= 226
id-DSCH-ModifyList-RL-ReconfPrepTDD											ProtocolIE-ID ::= 227
id-Unused-ProtocolIE-ID-228													ProtocolIE-ID ::= 228
id-Unused-ProtocolIE-ID-324													ProtocolIE-ID ::= 324
id-Unused-ProtocolIE-ID-229													ProtocolIE-ID ::= 229
id-DSCHToBeAddedOrModifiedList-RL-ReconfReadyTDD							ProtocolIE-ID ::= 230
id-Unused-ProtocolIE-ID-29													ProtocolIE-ID ::= 29
id-Unused-ProtocolIE-ID-225													ProtocolIE-ID ::= 225
id-GA-Cell																	ProtocolIE-ID ::= 232
id-GA-CellAdditionalShapes													ProtocolIE-ID ::= 3
id-Unused-ProtocolIE-ID-246													ProtocolIE-ID ::= 246
id-Transmission-Gap-Pattern-Sequence-Information							ProtocolIE-ID ::= 255
id-UL-CCTrCH-DeleteInformation-RL-ReconfPrepTDD								ProtocolIE-ID ::= 256
id-UL-CCTrCH-ModifyInformation-RL-ReconfPrepTDD								ProtocolIE-ID ::= 257
id-UL-CCTrCH-InformationModifyItem-RL-ReconfRqstTDD							ProtocolIE-ID ::= 258
id-UL-CCTrCH-InformationDeleteList-RL-ReconfPrepTDD							ProtocolIE-ID ::= 259
id-UL-CCTrCH-InformationModifyList-RL-ReconfPrepTDD							ProtocolIE-ID ::= 260
id-UL-CCTrCH-InformationModifyList-RL-ReconfRqstTDD							ProtocolIE-ID ::= 261
id-UL-CCTrCH-InformationDeleteItem-RL-ReconfRqstTDD							ProtocolIE-ID ::= 262
id-UL-CCTrCH-InformationDeleteList-RL-ReconfRqstTDD							ProtocolIE-ID ::= 263
id-UL-DPCH-InformationDeleteListIE-RL-ReconfReadyTDD						ProtocolIE-ID ::= 264
id-UL-DPCH-InformationModifyListIE-RL-ReconfReadyTDD						ProtocolIE-ID ::= 265
id-UnsuccessfulRL-InformationResponse-RL-AdditionFailureTDD					ProtocolIE-ID ::= 266
id-USCHs-to-Add																ProtocolIE-ID ::= 267
id-USCH-DeleteList-RL-ReconfPrepTDD											ProtocolIE-ID ::= 268
id-USCH-InformationListIE-RL-AdditionRspTDD									ProtocolIE-ID ::= 269
id-USCH-InformationListIEs-RL-SetupRspTDD									ProtocolIE-ID ::= 270
id-USCH-Information															ProtocolIE-ID ::= 271
id-USCH-ModifyList-RL-ReconfPrepTDD											ProtocolIE-ID ::= 272
id-USCHToBeAddedOrModifiedList-RL-ReconfReadyTDD							ProtocolIE-ID ::= 273
id-DL-Physical-Channel-Information-RL-SetupRqstTDD							ProtocolIE-ID ::= 274
id-UL-Physical-Channel-Information-RL-SetupRqstTDD							ProtocolIE-ID ::= 275
id-ClosedLoopMode1-SupportIndicator											ProtocolIE-ID ::= 276
id-Unused-ProtocolIE-ID-277													ProtocolIE-ID ::= 277
id-STTD-SupportIndicator													ProtocolIE-ID ::= 279
id-CFNReportingIndicator													ProtocolIE-ID ::= 14
id-CNOriginatedPage-PagingRqst												ProtocolIE-ID ::= 23
id-InnerLoopDLPCStatus														ProtocolIE-ID ::= 24
id-PropagationDelay															ProtocolIE-ID ::= 25
id-RxTimingDeviationForTA													ProtocolIE-ID ::= 36
id-timeSlot-ISCP															ProtocolIE-ID ::= 37
id-CCTrCH-InformationItem-RL-FailureInd										ProtocolIE-ID ::= 15
id-CCTrCH-InformationItem-RL-RestoreInd										ProtocolIE-ID ::= 16
id-CommonMeasurementAccuracy												ProtocolIE-ID ::= 280
id-CommonMeasurementObjectType-CM-Rprt										ProtocolIE-ID ::= 281
id-CommonMeasurementObjectType-CM-Rqst										ProtocolIE-ID ::= 282
id-CommonMeasurementObjectType-CM-Rsp										ProtocolIE-ID ::= 283
id-CommonMeasurementType													ProtocolIE-ID ::= 284
id-CongestionCause 															ProtocolIE-ID ::= 18
id-SFN																		ProtocolIE-ID ::= 285
id-SFNReportingIndicator													ProtocolIE-ID ::= 286
id-InformationExchangeID													ProtocolIE-ID ::= 287
id-InformationExchangeObjectType-InfEx-Rprt									ProtocolIE-ID ::= 288
id-InformationExchangeObjectType-InfEx-Rqst									ProtocolIE-ID ::= 289
id-InformationExchangeObjectType-InfEx-Rsp									ProtocolIE-ID ::= 290
id-InformationReportCharacteristics											ProtocolIE-ID ::= 291
id-InformationType															ProtocolIE-ID ::= 292
id-neighbouring-LCR-TDD-CellInformation										ProtocolIE-ID ::= 58
id-DL-Timeslot-ISCP-LCR-Information-RL-SetupRqstTDD							ProtocolIE-ID ::= 65
id-RL-LCR-InformationResponse-RL-SetupRspTDD								ProtocolIE-ID ::= 66
id-UL-CCTrCH-LCR-InformationListIE-RL-SetupRspTDD							ProtocolIE-ID ::= 75
id-UL-DPCH-LCR-InformationItem-RL-SetupRspTDD								ProtocolIE-ID ::= 76
id-DL-CCTrCH-LCR-InformationListIE-RL-SetupRspTDD							ProtocolIE-ID ::= 77
id-DL-DPCH-LCR-InformationItem-RL-SetupRspTDD								ProtocolIE-ID ::= 78
id-DSCH-LCR-InformationListIEs-RL-SetupRspTDD								ProtocolIE-ID ::= 79
id-USCH-LCR-InformationListIEs-RL-SetupRspTDD								ProtocolIE-ID ::= 80
id-DL-Timeslot-ISCP-LCR-Information-RL-AdditionRqstTDD						ProtocolIE-ID ::= 81
id-RL-LCR-InformationResponse-RL-AdditionRspTDD								ProtocolIE-ID ::= 86
id-UL-CCTrCH-LCR-InformationListIE-RL-AdditionRspTDD						ProtocolIE-ID ::= 87
id-UL-DPCH-LCR-InformationItem-RL-AdditionRspTDD							ProtocolIE-ID ::= 88
id-DL-CCTrCH-LCR-InformationListIE-RL-AdditionRspTDD						ProtocolIE-ID ::= 89
id-DL-DPCH-LCR-InformationItem-RL-AdditionRspTDD							ProtocolIE-ID ::= 94
id-DSCH-LCR-InformationListIEs-RL-AdditionRspTDD							ProtocolIE-ID ::= 96
id-USCH-LCR-InformationListIEs-RL-AdditionRspTDD							ProtocolIE-ID ::= 97
id-UL-DPCH-LCR-InformationAddListIE-RL-ReconfReadyTDD						ProtocolIE-ID ::= 98
id-UL-Timeslot-LCR-InformationModifyList-RL-ReconfReadyTDD					ProtocolIE-ID ::= 100
id-DL-DPCH-LCR-InformationAddListIE-RL-ReconfReadyTDD						ProtocolIE-ID ::= 101
id-DL-Timeslot-LCR-InformationModifyList-RL-ReconfReadyTDD					ProtocolIE-ID ::= 104
id-UL-Timeslot-LCR-InformationList-PhyChReconfRqstTDD						ProtocolIE-ID ::= 105
id-DL-Timeslot-LCR-InformationList-PhyChReconfRqstTDD						ProtocolIE-ID ::= 106
id-timeSlot-ISCP-LCR-List-DL-PC-Rqst-TDD									ProtocolIE-ID ::= 138
id-TSTD-Support-Indicator-RL-SetupRqstTDD									ProtocolIE-ID ::= 139
id-RestrictionStateIndicator												ProtocolIE-ID ::= 142
id-Load-Value																ProtocolIE-ID ::= 233
id-Load-Value-IncrDecrThres													ProtocolIE-ID ::= 234
id-OnModification															ProtocolIE-ID ::= 235
id-Received-Total-Wideband-Power-Value										ProtocolIE-ID ::= 236
id-Received-Total-Wideband-Power-Value-IncrDecrThres						ProtocolIE-ID ::= 237
id-SFNSFNMeasurementThresholdInformation									ProtocolIE-ID ::= 238
id-Transmitted-Carrier-Power-Value											ProtocolIE-ID ::= 239
id-Transmitted-Carrier-Power-Value-IncrDecrThres							ProtocolIE-ID ::= 240
id-TUTRANGPSMeasurementThresholdInformation									ProtocolIE-ID ::= 241
id-UL-Timeslot-ISCP-Value													ProtocolIE-ID ::= 242
id-UL-Timeslot-ISCP-Value-IncrDecrThres										ProtocolIE-ID ::= 243
id-Rx-Timing-Deviation-Value-LCR											ProtocolIE-ID ::= 293
id-DPC-Mode-Change-SupportIndicator											ProtocolIE-ID ::= 19
id-Unused-ProtocolIE-ID-247													ProtocolIE-ID ::= 247
id-Unused-ProtocolIE-ID-295													ProtocolIE-ID ::= 295
id-PrimaryCCPCH-RSCP-RL-ReconfPrepTDD										ProtocolIE-ID ::= 202
id-DL-TimeSlot-ISCP-Info-RL-ReconfPrepTDD									ProtocolIE-ID ::= 203
id-DL-Timeslot-ISCP-LCR-Information-RL-ReconfPrepTDD						ProtocolIE-ID ::= 204
id-DSCH-RNTI																ProtocolIE-ID ::= 249
id-DL-PowerBalancing-Information											ProtocolIE-ID ::= 296
id-DL-PowerBalancing-ActivationIndicator									ProtocolIE-ID ::= 297
id-DL-PowerBalancing-UpdatedIndicator										ProtocolIE-ID ::= 298
id-DL-ReferencePowerInformation												ProtocolIE-ID ::= 299
id-Enhanced-PrimaryCPICH-EcNo												ProtocolIE-ID ::= 224
id-IPDL-TDD-ParametersLCR													ProtocolIE-ID ::= 252
id-CellCapabilityContainer-FDD												ProtocolIE-ID ::= 300
id-CellCapabilityContainer-TDD												ProtocolIE-ID ::= 301
id-CellCapabilityContainer-TDD-LCR											ProtocolIE-ID ::= 302
id-RL-Specific-DCH-Info														ProtocolIE-ID ::= 317
id-RL-ReconfigurationRequestFDD-RL-InformationList 							ProtocolIE-ID ::= 318
id-RL-ReconfigurationRequestFDD-RL-Information-IEs							ProtocolIE-ID ::= 319
id-RL-ReconfigurationRequestTDD-RL-Information								ProtocolIE-ID ::= 321
id-CommonTransportChannelResourcesInitialisationNotRequired					ProtocolIE-ID ::= 250
id-DelayedActivation 														ProtocolIE-ID ::= 312
id-DelayedActivationList-RL-ActivationCmdFDD								ProtocolIE-ID ::= 313
id-DelayedActivationInformation-RL-ActivationCmdFDD							ProtocolIE-ID ::= 314
id-DelayedActivationList-RL-ActivationCmdTDD								ProtocolIE-ID ::= 315
id-DelayedActivationInformation-RL-ActivationCmdTDD							ProtocolIE-ID ::= 316
id-neighbouringTDDCellMeasurementInformationLCR								ProtocolIE-ID ::= 251
id-UL-SIR-Target-CCTrCH-InformationItem-RL-SetupRspTDD						ProtocolIE-ID ::= 150
id-UL-SIR-Target-CCTrCH-LCR-InformationItem-RL-SetupRspTDD					ProtocolIE-ID ::= 151
id-PrimCCPCH-RSCP-DL-PC-RqstTDD												ProtocolIE-ID ::= 451
id-HSDSCH-FDD-Information													ProtocolIE-ID ::= 452
id-HSDSCH-FDD-Information-Response											ProtocolIE-ID ::= 453
id-HSDSCH-FDD-Update-Information											ProtocolIE-ID ::= 466
id-HSDSCH-Information-to-Modify												ProtocolIE-ID ::= 456
id-HSDSCHMacdFlowSpecificInformationList-RL-PreemptRequiredInd				ProtocolIE-ID ::= 516
id-HSDSCHMacdFlowSpecificInformationItem-RL-PreemptRequiredInd				ProtocolIE-ID ::= 517
id-HSDSCH-RNTI																ProtocolIE-ID ::= 457
id-HSDSCH-TDD-Information													ProtocolIE-ID ::= 458
id-HSDSCH-TDD-Information-Response											ProtocolIE-ID ::= 459
id-HSDSCH-TDD-Update-Information											ProtocolIE-ID ::= 467
id-HSPDSCH-RL-ID															ProtocolIE-ID ::= 463
id-HSDSCH-MACdFlows-to-Add 													ProtocolIE-ID ::= 531
id-HSDSCH-MACdFlows-to-Delete												ProtocolIE-ID ::= 532
id-Angle-Of-Arrival-Value-LCR												ProtocolIE-ID ::= 148
id-TrafficClass																ProtocolIE-ID ::= 158
id-Unused-ProtocolIE-ID-248													ProtocolIE-ID ::= 248
id-Unused-ProtocolIE-ID-253													ProtocolIE-ID ::= 253
id-PDSCH-RL-ID																ProtocolIE-ID ::= 323
id-TimeSlot-RL-SetupRspTDD													ProtocolIE-ID ::= 325
id-GERAN-Cell-Capability													ProtocolIE-ID ::= 468
id-GERAN-Classmark															ProtocolIE-ID ::= 469
id-DSCH-InitialWindowSize													ProtocolIE-ID ::= 480
id-UL-Synchronisation-Parameters-LCR										ProtocolIE-ID ::= 464
id-SNA-Information															ProtocolIE-ID ::= 479
id-MAChs-ResetIndicator														ProtocolIE-ID ::= 465
id-TDD-DL-DPCH-TimeSlotFormatModifyItem-LCR-RL-ReconfReadyTDD				ProtocolIE-ID ::= 481
id-TDD-UL-DPCH-TimeSlotFormatModifyItem-LCR-RL-ReconfReadyTDD				ProtocolIE-ID ::= 482
id-TDD-TPC-UplinkStepSize-LCR-RL-SetupRqstTDD								ProtocolIE-ID ::= 483
id-UL-CCTrCH-InformationList-RL-AdditionRqstTDD								ProtocolIE-ID ::= 484
id-UL-CCTrCH-InformationItem-RL-AdditionRqstTDD								ProtocolIE-ID ::= 485
id-DL-CCTrCH-InformationList-RL-AdditionRqstTDD								ProtocolIE-ID ::= 486
id-DL-CCTrCH-InformationItem-RL-AdditionRqstTDD								ProtocolIE-ID ::= 487
id-TDD-TPC-UplinkStepSize-InformationAdd-LCR-RL-ReconfPrepTDD				ProtocolIE-ID ::= 488
id-TDD-TPC-UplinkStepSize-InformationModify-LCR-RL-ReconfPrepTDD			ProtocolIE-ID ::= 489
id-TDD-TPC-DownlinkStepSize-InformationAdd-RL-ReconfPrepTDD					ProtocolIE-ID ::= 490
id-TDD-TPC-DownlinkStepSize-InformationModify-RL-ReconfPrepTDD				ProtocolIE-ID ::= 491
id-UL-TimingAdvanceCtrl-LCR													ProtocolIE-ID ::= 492
id-HSPDSCH-Timeslot-InformationList-PhyChReconfRqstTDD						ProtocolIE-ID ::= 493
id-HSPDSCH-Timeslot-InformationListLCR-PhyChReconfRqstTDD					ProtocolIE-ID ::= 494
id-HS-SICH-Reception-Quality 												ProtocolIE-ID ::= 495
id-HS-SICH-Reception-Quality-Measurement-Value 								ProtocolIE-ID ::= 496
id-HSSICH-Info-DM-Rprt														ProtocolIE-ID ::= 497
id-HSSICH-Info-DM-Rqst														ProtocolIE-ID ::= 498
id-HSSICH-Info-DM															ProtocolIE-ID ::= 499
id-CCTrCH-Maximum-DL-Power-RL-SetupRspTDD									ProtocolIE-ID ::= 500
id-CCTrCH-Minimum-DL-Power-RL-SetupRspTDD	ProtocolIE-ID ::= 501
id-CCTrCH-Maximum-DL-Power-RL-AdditionRspTDD								ProtocolIE-ID ::= 502
id-CCTrCH-Minimum-DL-Power-RL-AdditionRspTDD	ProtocolIE-ID ::= 503
id-CCTrCH-Maximum-DL-Power-RL-ReconfReadyTDD								ProtocolIE-ID ::= 504
id-CCTrCH-Minimum-DL-Power-RL-ReconfReadyTDD								ProtocolIE-ID ::= 505
id-Maximum-DL-Power-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD		ProtocolIE-ID ::= 506
id-Minimum-DL-Power-TimeslotLCR-InformationModifyItem-RL-ReconfReadyTDD		ProtocolIE-ID ::= 507
id-DL-CCTrCH-InformationList-RL-ReconfRspTDD								ProtocolIE-ID ::= 508
id-DL-DPCH-InformationModifyItem-LCR-RL-ReconfRspTDD						ProtocolIE-ID ::= 509
id-Maximum-DL-Power-TimeslotLCR-InformationItem								ProtocolIE-ID ::= 510
id-Minimum-DL-Power-TimeslotLCR-InformationItem								ProtocolIE-ID ::= 511
id-TDD-Support-8PSK															ProtocolIE-ID ::= 512
id-TDD-maxNrDLPhysicalchannels												ProtocolIE-ID ::= 513
id-ExtendedGSMCellIndividualOffset											ProtocolIE-ID ::= 514
id-RL-ParameterUpdateIndicationFDD-RL-InformationList 						ProtocolIE-ID ::= 518
id-Primary-CPICH-Usage-For-Channel-Estimation								ProtocolIE-ID ::= 519
id-Secondary-CPICH-Information												ProtocolIE-ID ::= 520
id-Secondary-CPICH-Information-Change										ProtocolIE-ID ::= 521
id-Unused-ProtocolIE-ID-522													ProtocolIE-ID ::= 522
id-Unused-ProtocolIE-ID-523													ProtocolIE-ID ::= 523
id-RL-ParameterUpdateIndicationFDD-RL-Information-Item						ProtocolIE-ID ::= 524
id-Phase-Reference-Update-Indicator											ProtocolIE-ID ::= 525
id-Unidirectional-DCH-Indicator												ProtocolIE-ID ::= 526
id-RL-Information-RL-ReconfPrepTDD											ProtocolIE-ID ::= 527
id-Multiple-RL-InformationResponse-RL-ReconfReadyTDD						ProtocolIE-ID ::= 528
id-RL-ReconfigurationResponseTDD-RL-Information								ProtocolIE-ID ::= 529
id-Satellite-Almanac-Information-ExtItem									ProtocolIE-ID ::= 530
id-HSDSCH-Information-to-Modify-Unsynchronised								ProtocolIE-ID ::= 533
id-TnlQos																	ProtocolIE-ID ::= 534
id-RTLoadValue																ProtocolIE-ID ::= 535
id-NRTLoadInformationValue													ProtocolIE-ID ::= 536
id-CellPortionID															ProtocolIE-ID ::= 537
id-UpPTSInterferenceValue													ProtocolIE-ID ::= 538
id-PrimaryCCPCH-RSCP-Delta													ProtocolIE-ID ::= 539
id-UEMeasurementType														ProtocolIE-ID ::= 540
id-UEMeasurementTimeslotInfoHCR												ProtocolIE-ID ::= 541
id-UEMeasurementTimeslotInfoLCR												ProtocolIE-ID ::= 542
id-UEMeasurementReportCharacteristics										ProtocolIE-ID ::= 543
id-UEMeasurementParameterModAllow											ProtocolIE-ID ::= 544
id-UEMeasurementValueInformation											ProtocolIE-ID ::= 545
id-InterfacesToTraceItem													ProtocolIE-ID ::= 546
id-ListOfInterfacesToTrace													ProtocolIE-ID ::= 547
id-TraceDepth																ProtocolIE-ID ::= 548
id-TraceRecordingSessionReference											ProtocolIE-ID ::= 549
id-TraceReference															ProtocolIE-ID ::= 550
id-UEIdentity																ProtocolIE-ID ::= 551
id-NACC-Related-Data														ProtocolIE-ID ::= 552
id-GSM-Cell-InfEx-Rqst														ProtocolIE-ID ::= 553
id-MeasurementRecoveryBehavior												ProtocolIE-ID ::= 554
id-MeasurementRecoveryReportingIndicator									ProtocolIE-ID ::= 555
id-MeasurementRecoverySupportIndicator										ProtocolIE-ID ::= 556
id-DL-DPCH-Power-Information-RL-ReconfPrepFDD								ProtocolIE-ID ::= 557
id-F-DPCH-Information-RL-ReconfPrepFDD										ProtocolIE-ID ::= 558
id-F-DPCH-Information-RL-SetupRqstFDD										ProtocolIE-ID ::= 559
id-MBMS-Bearer-Service-List													ProtocolIE-ID ::= 560
id-MBMS-Bearer-Service-List-InfEx-Rsp										ProtocolIE-ID ::= 561
id-Active-MBMS-Bearer-ServiceFDD											ProtocolIE-ID ::= 562
id-Active-MBMS-Bearer-ServiceTDD											ProtocolIE-ID ::= 563
id-Old-URA-ID																ProtocolIE-ID ::= 564
id-UE-State																	ProtocolIE-ID ::= 568
id-URA-ID																	ProtocolIE-ID ::= 569
id-HARQ-Preamble-Mode														ProtocolIE-ID ::= 571
id-SynchronisationIndicator													ProtocolIE-ID ::= 572
id-UL-DPDCHIndicatorEDCH													ProtocolIE-ID ::= 573
id-EDPCH-Information														ProtocolIE-ID ::= 574
id-RL-Specific-EDCH-Information												ProtocolIE-ID ::= 575
id-EDCH-RL-Indication														ProtocolIE-ID ::= 576
id-EDCH-FDD-Information														ProtocolIE-ID ::= 577
id-EDCH-RLSet-Id															ProtocolIE-ID ::= 578
id-Serving-EDCHRL-Id														ProtocolIE-ID ::= 579
id-EDCH-FDD-DL-ControlChannelInformation									ProtocolIE-ID ::= 580
id-EDCH-FDD-InformationResponse												ProtocolIE-ID ::= 581
id-EDCH-MACdFlows-To-Add													ProtocolIE-ID ::= 582
id-EDCH-FDD-Information-To-Modify											ProtocolIE-ID ::= 583
id-EDCH-MACdFlows-To-Delete													ProtocolIE-ID ::= 584
id-EDPCH-Information-RLReconfRequest-FDD									ProtocolIE-ID ::= 585
id-EDCH-MacdFlowSpecificInformationList-RL-PreemptRequiredInd				ProtocolIE-ID ::= 586
id-EDCH-MacdFlowSpecificInformationItem-RL-PreemptRequiredInd				ProtocolIE-ID ::= 587
id-EDCH-MacdFlowSpecificInformationList-RL-CongestInd						ProtocolIE-ID ::= 588
id-EDCH-MacdFlowSpecificInformationItem-RL-CongestInd						ProtocolIE-ID ::= 589
id-MBMS-Bearer-Service-Full-Address											ProtocolIE-ID ::= 590
id-Initial-DL-DPCH-TimingAdjustment											ProtocolIE-ID ::= 591
id-Initial-DL-DPCH-TimingAdjustment-Allowed									ProtocolIE-ID ::= 592
id-User-Plane-Congestion-Fields-Inclusion									ProtocolIE-ID ::= 593
id-HARQ-Preamble-Mode-Activation-Indicator									ProtocolIE-ID ::= 594
id-multiple-DedicatedMeasurementValueList-TDD-DM-Rsp						ProtocolIE-ID ::= 595
id-multiple-DedicatedMeasurementValueList-LCR-TDD-DM-Rsp					ProtocolIE-ID ::= 596
id-ProvidedInformation														ProtocolIE-ID ::= 597
id-Active-MBMS-Bearer-ServiceFDD-PFL										ProtocolIE-ID ::= 598
id-Active-MBMS-Bearer-ServiceTDD-PFL										ProtocolIE-ID ::= 599
id-FrequencyBandIndicator													ProtocolIE-ID ::= 600
id-Serving-cell-change-CFN													ProtocolIE-ID ::= 601
id-HS-DSCH-serving-cell-change-information									ProtocolIE-ID ::= 602
id-HS-DSCH-serving-cell-change-informationResponse							ProtocolIE-ID ::= 603
id-E-DCH-Serving-cell-change-informationResponse							ProtocolIE-ID ::= 604
id-secondary-LCR-CCPCH-Info-TDD												ProtocolIE-ID ::= 605
id-E-DCH-FDD-Update-Information												ProtocolIE-ID ::= 606
id-Inter-Frequency-Cell-List												ProtocolIE-ID ::= 607
id-Inter-Frequency-Cell-Information											ProtocolIE-ID ::= 608
id-multiple-HSSICHMeasurementValueList-TDD-DM-Rsp							ProtocolIE-ID ::= 609
id-TDD-Support-PLCCH														ProtocolIE-ID ::= 610
id-PLCCH-Information-UL-TimeslotLCR-Info									ProtocolIE-ID ::= 611
id-PLCCH-Information-PhyChReconfRqstTDD										ProtocolIE-ID ::= 612
id-TDD768-maxNrDLPhysicalchannelsTS											ProtocolIE-ID ::= 613
id-RL-InformationResponse-RL-AdditionRspTDD768								ProtocolIE-ID ::= 614
id-UL-CCTrCH-InformationListIE-RL-AdditionRspTDD768							ProtocolIE-ID ::= 615
id-DL-CCTrCH-InformationListIE-RL-AdditionRspTDD768							ProtocolIE-ID ::= 616
id-UL-DPCH-InformationItem-RL-AdditionRspTDD768								ProtocolIE-ID ::= 617
id-DL-DPCH-InformationItem-RL-AdditionRspTDD768								ProtocolIE-ID ::= 618
id-UL-DPCH-InformationAddListIE-RL-ReconfReadyTDD768						ProtocolIE-ID ::= 619
id-UL-Timeslot-InformationModifyList-RL-ReconfReadyTDD768					ProtocolIE-ID ::= 620
id-DL-DPCH-InformationAddListIE-RL-ReconfReadyTDD768						ProtocolIE-ID ::= 621
id-DL-Timeslot-InformationModifyList-RL-ReconfReadyTDD768					ProtocolIE-ID ::= 622
id-secondary-CCPCH-Info-RL-ReconfReadyTDD768								ProtocolIE-ID ::= 623
id-hSSCCH-TDD-Specific-InfoList-Response768									ProtocolIE-ID ::= 624
id-hSPDSCH-TDD-Specific-InfoList-Response768								ProtocolIE-ID ::= 625
id-HSPDSCH-Timeslot-InformationList-PhyChReconfRqstTDD768					ProtocolIE-ID ::= 626
id-UL-Timeslot-InformationList-PhyChReconfRqstTDD768						ProtocolIE-ID ::= 627
id-DL-Timeslot-InformationList-PhyChReconfRqstTDD768						ProtocolIE-ID ::= 628
id-CellCapabilityContainer-TDD768											ProtocolIE-ID ::= 629
id-multiple-DedicatedMeasurementValueList-TDD768-DM-Rsp						ProtocolIE-ID ::= 630
id-neighbouringTDDCellMeasurementInformation768								ProtocolIE-ID ::= 631
id-UEMeasurementTimeslotInfo768												ProtocolIE-ID ::= 632
id-Rx-Timing-Deviation-Value-768											ProtocolIE-ID ::= 633
id-UEMeasurementValueTransmittedPowerList768								ProtocolIE-ID ::= 634
id-UEMeasurementValueTimeslotISCPList768									ProtocolIE-ID ::= 635
id-RL-InformationResponse-RL-SetupRspTDD768									ProtocolIE-ID ::= 636
id-UL-CCTrCH-InformationListIE-RL-SetupRspTDD768							ProtocolIE-ID ::= 637
id-DL-CCTrCH-InformationListIE-RL-SetupRspTDD768							ProtocolIE-ID ::= 638
id-UL-DPCH-InformationItem-RL-SetupRspTDD768								ProtocolIE-ID ::= 639
id-DL-DPCH-InformationItem-RL-SetupRspTDD768								ProtocolIE-ID ::= 640
id-TDD768-minimumSpreadingFactor-UL											ProtocolIE-ID ::= 641
id-TDD768-minimumSpreadingFactor-DL											ProtocolIE-ID ::= 642
id-TDD768-maxNrDLPhysicalchannels											ProtocolIE-ID ::= 643
id-DL-DPCH-InformationDeleteList768-RL-ReconfReadyTDD						ProtocolIE-ID ::= 644
id-DPCH-ID768-DM-Rsp														ProtocolIE-ID ::= 645
id-DPCH-ID768-DM-Rqst														ProtocolIE-ID ::= 646
id-DPCH-ID768-DM-Rprt														ProtocolIE-ID ::= 647
id-EDPCH-Information-RLAdditionReq-FDD										ProtocolIE-ID ::= 648
id-HSDSCH-Configured-Indicator												ProtocolIE-ID ::= 649
id-RxTimingDeviationForTAext												ProtocolIE-ID ::= 650
id-RxTimingDeviationForTA768												ProtocolIE-ID ::= 651
id-Rx-Timing-Deviation-Value-ext											ProtocolIE-ID ::= 652
id-E-DCH-PowerOffset-for-SchedulingInfo										ProtocolIE-ID ::= 653
id-TrCH-SrcStatisticsDescr													ProtocolIE-ID ::= 654
id-E-DCH-Information														ProtocolIE-ID ::= 655
id-E-DCH-Serving-RL-ID														ProtocolIE-ID ::= 656
id-E-DCH-Information-Reconfig												ProtocolIE-ID ::= 657
id-E-DCH-Information-Response												ProtocolIE-ID ::= 658
id-E-DCH-768-Information													ProtocolIE-ID ::= 659
id-E-DCH-768-Information-Reconfig											ProtocolIE-ID ::= 660
id-E-DCH-768-Information-Response											ProtocolIE-ID ::= 661
id-ExtendedPropagationDelay													ProtocolIE-ID ::= 662
id-Extended-Round-Trip-Time-Value											ProtocolIE-ID ::= 663
id-AlternativeFormatReportingIndicator										ProtocolIE-ID ::= 664
id-DCH-Indicator-For-E-DCH-HSDPA-Operation									ProtocolIE-ID ::= 665
id-E-RGCH-E-HICH-ChannelisationCodeValidityIndicator						ProtocolIE-ID ::= 666
id-E-DCH-Minimum-Set-E-TFCIValidityIndicator								ProtocolIE-ID ::= 667
id-Fast-Reconfiguration-Mode												ProtocolIE-ID ::= 668
id-Fast-Reconfiguration-Permission											ProtocolIE-ID ::= 669
id-Continuous-Packet-Connectivity-DTX-DRX-Information						ProtocolIE-ID ::= 670
id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information					ProtocolIE-ID ::= 671
id-Continuous-Packet-Connectivity-HS-SCCH-Less-Information-Response			ProtocolIE-ID ::= 672
id-CPC-Information															ProtocolIE-ID ::= 673
id-MIMO-InformationResponse													ProtocolIE-ID ::= 675
id-E-DCH-LCR-Information													ProtocolIE-ID ::= 677
id-E-DCH-LCR-Information-Reconfig											ProtocolIE-ID ::= 678
id-E-DCH-LCR-Information-Response											ProtocolIE-ID ::= 679
id-HS-PDSCH-Code-Change-Grant												ProtocolIE-ID ::= 680
id-HS-PDSCH-Code-Change-Indicator											ProtocolIE-ID ::= 681
id-Extended-SRNC-ID															ProtocolIE-ID ::= 682
id-Extended-RNC-ID															ProtocolIE-ID ::= 683
id-SixtyfourQAM-DL-SupportIndicator											ProtocolIE-ID ::= 684
id-Enhanced-FACH-Support-Indicator											ProtocolIE-ID ::= 685
id-Enhanced-FACH-Information-ResponseFDD									ProtocolIE-ID ::= 686
id-HSDSCH-MACdPDUSizeFormat													ProtocolIE-ID ::= 690
id-MaximumMACdPDU-SizeExtended												ProtocolIE-ID ::= 691
id-F-DPCH-SlotFormat														ProtocolIE-ID ::= 692
id-F-DPCH-SlotFormatSupportRequest											ProtocolIE-ID ::= 693
id-eDCH-MACdFlow-Retransmission-Timer-LCR									ProtocolIE-ID ::= 694
id-Max-UE-DTX-Cycle															ProtocolIE-ID ::= 695
id-GANSS-Common-Data														ProtocolIE-ID ::= 699
id-GANSS-Information														ProtocolIE-ID ::= 700
id-GANSS-Generic-Data														ProtocolIE-ID ::= 701
id-TUTRANGANSSMeasurementThresholdInformation								ProtocolIE-ID ::= 702
id-TUTRANGANSSMeasurementValueInformation									ProtocolIE-ID ::= 703
id-Ext-Reference-E-TFCI-PO													ProtocolIE-ID ::= 705
id-Ext-Max-Bits-MACe-PDU-non-scheduled										ProtocolIE-ID ::= 706
id-HARQ-MemoryPartitioningInfoExtForMIMO									ProtocolIE-ID ::= 707
id-MIMO-ActivationIndicator													ProtocolIE-ID ::= 708
id-MIMO-Mode-Indicator														ProtocolIE-ID ::= 709
id-MIMO-N-M-Ratio															ProtocolIE-ID ::= 710
id-TransportBearerNotSetupIndicator											ProtocolIE-ID ::= 711
id-TransportBearerNotRequestedIndicator										ProtocolIE-ID ::= 712
id-PowerControlGAP																ProtocolIE-ID ::= 713
id-UARFCNforNt																ProtocolIE-ID ::= 714
id-LCRTDD-uplink-Physical-Channel-Capability								ProtocolIE-ID ::= 715
id-number-Of-Supported-Carriers												ProtocolIE-ID ::= 716
id-HSSICH-SIRTarget																ProtocolIE-ID ::= 717
id-HSSICH-TPC-StepSize														ProtocolIE-ID ::= 718
id-tSN-Length																ProtocolIE-ID ::= 719
id-HS-SICH-ID-Extension														ProtocolIE-ID ::= 720
id-HSSICH-Info-DM-Rqst-Extension											ProtocolIE-ID ::= 721
id-multipleFreq-HSPDSCH-InformationList-ResponseTDDLCR						ProtocolIE-ID ::= 722
id-multicarrier-number														ProtocolIE-ID ::= 723
id-UPPCHPositionLCR															ProtocolIE-ID ::= 724
id-UpPCH-InformationList-LCRTDD												ProtocolIE-ID ::= 725
id-UpPCH-InformationItem-LCRTDD												ProtocolIE-ID ::= 726
id-Multiple-PLMN-List														ProtocolIE-ID ::= 727
id-UE-Capabilities-Info														ProtocolIE-ID ::= 728
id-FrameOffset																ProtocolIE-ID ::= 729
id-ChipOffset																ProtocolIE-ID ::= 730
id-Enhanced-PCH-Capability													ProtocolIE-ID ::= 731
id-SixteenQAM-UL-Operation-Indicator										ProtocolIE-ID ::= 732
id-E-TFCI-Boost-Information													ProtocolIE-ID ::= 733
id-SixtyfourQAM-UsageAllowedIndicator										ProtocolIE-ID ::= 734
id-SixtyfourQAM-DL-UsageIndicator											ProtocolIE-ID ::= 735
id-Default-Serving-Grant-in-DTX-Cycle2										ProtocolIE-ID ::= 736
id-E-DPDCH-PowerInterpolation												ProtocolIE-ID ::= 737
id-Extended-E-DCH-LCRTDD-PhysicalLayerCategory								ProtocolIE-ID ::= 738
id-E-DCH-MACdPDUSizeFormat													ProtocolIE-ID ::= 739
id-Continuous-Packet-Connectivity-HS-SCCH-Less-Deactivate-Indicator			ProtocolIE-ID ::= 740
id-E-DCH-DL-Control-Channel-Change-Information								ProtocolIE-ID ::= 741
id-E-DCH-DL-Control-Channel-Grant-Information								ProtocolIE-ID ::= 742
id-MaximumNumber-Of-Retransmission-For-SchedulingInfo-LCRTDD				ProtocolIE-ID ::= 743
id-E-DCH-RetransmissionTimer-For-SchedulingInfo-LCRTDD						ProtocolIE-ID ::= 744
id-E-PUCH-PowerControlGAP													ProtocolIE-ID ::= 745
id-HSDSCH-TBSizeTableIndicator												ProtocolIE-ID ::= 746
id-UE-with-enhanced-HS-SCCH-support-indicator								ProtocolIE-ID ::= 747
id-DGANSS-Corrections-Req													ProtocolIE-ID ::= 748
id-E-AGCH-Table-Choice														ProtocolIE-ID ::= 749
id-RANAP-EnhancedRelocationInformationRequest								ProtocolIE-ID ::= 750
id-RANAP-EnhancedRelocationInformationResponse								ProtocolIE-ID ::= 751
id-Common-EDCH-MAC-d-Flow-Specific-InformationFDD							ProtocolIE-ID ::= 752
id-Common-EDCH-Support-Indicator											ProtocolIE-ID ::= 753
id-E-RNTI																	ProtocolIE-ID ::= 754
id-Released-CN-Domain														ProtocolIE-ID ::= 755
id-MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rqst								ProtocolIE-ID ::= 756
id-MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rsp								ProtocolIE-ID ::= 757
id-MBMS-Bearer-Service-in-MBMS-Cell-InfEx-Rprt								ProtocolIE-ID ::= 758
id-MBMS-Cell-InfEx-Rqst														ProtocolIE-ID ::= 759
id-MBMS-Cell-InfEx-Rsp														ProtocolIE-ID ::= 760
id-MBMS-Cell-InfEx-Rprt														ProtocolIE-ID ::= 761
id-Counting-Information														ProtocolIE-ID ::= 762
id-Transmission-Mode-Information											ProtocolIE-ID ::= 763
id-MBMS-Neighbouring-Cell-Information										ProtocolIE-ID ::= 764
id-MBMS-RLC-Sequence-Number-Information										ProtocolIE-ID ::= 765
id-RLC-Sequence-Number														ProtocolIE-ID ::= 766
id-Neighbouring-E-UTRA-CellInformation										ProtocolIE-ID ::= 767
id-MBSFN-Cluster-Identity													ProtocolIE-ID ::= 769
id-MCCH-Configuration-Info 													ProtocolIE-ID ::= 770
id-MCCH-Message-List 														ProtocolIE-ID ::= 771
id-MBSFN-Scheduling-Transmission-Time-Interval-Info-List					ProtocolIE-ID ::= 772
id-GANSS-Time-ID															ProtocolIE-ID ::= 773
id-GANSS-AddIonoModelReq													ProtocolIE-ID ::= 774
id-GANSS-EarthOrientParaReq													ProtocolIE-ID ::= 775
id-GANSS-AddNavigationModelsReq												ProtocolIE-ID ::= 776
id-GANSS-AddUTCModelsReq													ProtocolIE-ID ::= 777
id-GANSS-AuxInfoReq															ProtocolIE-ID ::= 778
id-GANSS-SBAS-ID															ProtocolIE-ID ::= 779
id-GANSS-ID																	ProtocolIE-ID ::= 780
id-GANSS-Additional-Ionospheric-Model										ProtocolIE-ID ::= 781
id-GANSS-Earth-Orientation-Parameters										ProtocolIE-ID ::= 782
id-GANSS-Additional-Time-Models												ProtocolIE-ID ::= 783
id-GANSS-Additional-Navigation-Models										ProtocolIE-ID ::= 784
id-GANSS-Additional-UTC-Models												ProtocolIE-ID ::= 785
id-GANSS-Auxiliary-Information												ProtocolIE-ID ::= 786
id-MinimumReducedE-DPDCH-GainFactor											ProtocolIE-ID ::= 787
id-Enhanced-FACH-Information-ResponseLCR									ProtocolIE-ID ::= 788
id-Common-EDCH-MAC-d-Flow-Specific-InformationLCR							ProtocolIE-ID ::= 789
id-HSDSCH-PreconfigurationSetup												ProtocolIE-ID ::= 790
id-HSDSCH-PreconfigurationInfo												ProtocolIE-ID ::= 791
id-NoOfTargetCellHS-SCCH-Order												ProtocolIE-ID ::= 792
id-EnhancedHSServingCC-Abort												ProtocolIE-ID ::= 793
id-Additional-HS-Cell-Information-RL-Setup									ProtocolIE-ID ::= 794
id-Additional-HS-Cell-Information-Response									ProtocolIE-ID ::= 795
id-Additional-HS-Cell-Information-RL-Addition								ProtocolIE-ID ::= 796
id-Additional-HS-Cell-Change-Information-Response							ProtocolIE-ID ::= 797
id-Additional-HS-Cell-Information-RL-Reconf-Prep							ProtocolIE-ID ::= 798
id-Additional-HS-Cell-Information-RL-Reconf-Req								ProtocolIE-ID ::= 799
id-Additional-HS-Cell-RL-Reconf-Response									ProtocolIE-ID ::= 800
id-Additional-HS-Cell-Information-RL-Param-Upd								ProtocolIE-ID ::= 801
id-Secondary-Serving-Cell-List												ProtocolIE-ID ::= 802
id-MultiCarrier-HSDSCH-Physical-Layer-Category 								ProtocolIE-ID ::= 803
id-IdleIntervalInformation													ProtocolIE-ID ::= 804
id-NeedforIdleInterval														ProtocolIE-ID ::= 805
id-IdleIntervalConfigurationIndicator										ProtocolIE-ID ::= 806
id-ContinuousPacketConnectivity-DRX-InformationLCR							ProtocolIE-ID ::= 807
id-ContinuousPacketConnectivity-DRX-Information-ResponseLCR					ProtocolIE-ID ::= 808
id-E-AGCH-UE-Inactivity-Monitor-Threshold									ProtocolIE-ID ::= 809
id-CPC-InformationLCR														ProtocolIE-ID ::= 810
id-E-DCH-Semi-PersistentScheduling-Information-LCR							ProtocolIE-ID ::= 811
id-HS-DSCH-Semi-PersistentScheduling-Information-LCR						ProtocolIE-ID ::= 812
id-HS-DSCH-Semi-PersistentScheduling-Information-ResponseLCR				ProtocolIE-ID ::= 813
id-E-DCH-Semi-PersistentScheduling-Information-ResponseLCR					ProtocolIE-ID ::= 814
id-MIMO-SFMode-For-HSPDSCHDualStream										ProtocolIE-ID ::= 815
id-MIMO-SFMode-Supported-For-HSPDSCHDualStream								ProtocolIE-ID ::= 816
id-MIMO-ReferenceSignal-InformationListLCR									ProtocolIE-ID ::= 817
id-GANSS-alm-keplerianNAVAlmanac											ProtocolIE-ID ::= 818
id-GANSS-alm-keplerianReducedAlmanac										ProtocolIE-ID ::= 819
id-GANSS-alm-keplerianMidiAlmanac											ProtocolIE-ID ::= 820
id-GANSS-alm-keplerianGLONASS												ProtocolIE-ID ::= 821
id-GANSS-alm-ecefSBASAlmanac												ProtocolIE-ID ::= 822
id-DL-RLC-PDU-Size-Format													ProtocolIE-ID ::= 823
id-MACes-Maximum-Bitrate-LCR												ProtocolIE-ID ::= 824
id-Single-Stream-MIMO-ActivationIndicator									ProtocolIE-ID ::= 825
id-Single-Stream-MIMO-Mode-Indicator										ProtocolIE-ID ::= 826
id-Dual-Band-Secondary-Serving-Cell-List									ProtocolIE-ID ::= 827
id-UE-AggregateMaximumBitRate												ProtocolIE-ID ::= 828
id-power-offset-for-S-CPICH-for-MIMO										ProtocolIE-ID ::= 829
id-power-offset-for-S-CPICH-for-MIMO-Request-Indicator						ProtocolIE-ID ::= 830
id-UE-SupportIndicatorExtension												ProtocolIE-ID ::= 831
id-ActivationInformation													ProtocolIE-ID ::= 835
id-CellPortionLCRID															ProtocolIE-ID ::= 836
id-Additional-EDCH-Cell-Information-RL-Setup-Req							ProtocolIE-ID ::= 837
id-Additional-EDCH-Cell-Information-Response								ProtocolIE-ID ::= 838
id-Additional-EDCH-Cell-Information-RL-Add-Req								ProtocolIE-ID ::= 839
id-Additional-EDCH-Cell-Information-Response-RLAdd							ProtocolIE-ID ::= 840
id-Additional-EDCH-Cell-Information-RL-Reconf-Prep							ProtocolIE-ID ::= 841
id-Additional-EDCH-Cell-Information-RL-Reconf-Req							ProtocolIE-ID ::= 842
id-Additional-EDCH-Cell-Information-RL-Param-Upd							ProtocolIE-ID ::= 843
id-Additional-EDCH-Preconfiguration-Information								ProtocolIE-ID ::= 844
id-MulticellEDCH-Information												ProtocolIE-ID ::= 845
id-Additional-EDCH-Cell-Information-ResponseRLReconf						ProtocolIE-ID ::= 854
id-EDCH-Indicator															ProtocolIE-ID ::= 855
id-DiversityMode															ProtocolIE-ID ::= 856
id-TransmitDiversityIndicator												ProtocolIE-ID ::= 857
id-NonCellSpecificTxDiversity												ProtocolIE-ID ::= 858
id-CellCapabilityContainerExtension-FDD										ProtocolIE-ID ::= 859
id-HSDSCH-Physical-Layer-Category											ProtocolIE-ID ::= 860
id-E-RNTI-For-FACH															ProtocolIE-ID ::= 861
id-H-RNTI-For-FACH															ProtocolIE-ID ::= 862
id-RNTI-Allocation-Indicator												ProtocolIE-ID ::= 863
id-UE-AggregateMaximumBitRate-Enforcement-Indicator							ProtocolIE-ID ::= 864
id-DCH-MeasurementOccasion-Information										ProtocolIE-ID ::= 865
id-DCH-MeasurementType-Indicator											ProtocolIE-ID ::= 866
id-Out-of-Sychronization-Window												ProtocolIE-ID ::= 867
id-MulticellEDCH-RL-SpecificInformation										ProtocolIE-ID ::= 868
id-DGNSS-ValidityPeriod														ProtocolIE-ID ::= 869
id-TS0-HS-PDSCH-Indication-LCR 												ProtocolIE-ID ::= 870
id-UE-TS0-CapabilityLCR														ProtocolIE-ID ::= 871
id-Non-Serving-RL-Preconfig-Info											ProtocolIE-ID ::= 872
id-Non-Serving-RL-Preconfig-Setup											ProtocolIE-ID ::= 873
id-Non-Serving-RL-Preconfig-Removal											ProtocolIE-ID ::= 874
id-Additional-E-DCH-Non-Serving-RL-Preconfiguration-Setup					ProtocolIE-ID ::= 875
id-Additional-E-DCH-New-non-serving-RL-E-DCH-FDD-DL-Control-Channel-InfoList	ProtocolIE-ID ::= 876
id-CellListValidityIndicator												ProtocolIE-ID ::= 877
id-completeAlmanacProvided													ProtocolIE-ID ::= 878
id-ganss-Delta-T															ProtocolIE-ID ::= 879
id-OrdinalNumberOfFrequency													ProtocolIE-ID ::= 880
id-Multicell-EDCH-Restriction												ProtocolIE-ID ::= 882
id-CellCapabilityContainerExtension-TDD-LCR									ProtocolIE-ID ::= 883
id-Multi-Carrier-EDCH-Setup													ProtocolIE-ID ::= 884
id-Multi-Carrier-EDCH-Reconfigure											ProtocolIE-ID ::= 885
id-Multi-Carrier-EDCH-Response												ProtocolIE-ID ::= 886
id-SNPL-Carrier-Group-Indicator												ProtocolIE-ID ::= 887
id-MU-MIMO-InformationLCR													ProtocolIE-ID ::= 888
id-MU-MIMO-Indicator														ProtocolIE-ID ::= 889
id-HS-SCCH-Inactivity-Threshold-for-UE-DRX-Cycle-LCR-Ext					ProtocolIE-ID ::= 890
id-Usefulness-Of-Battery-Optimization										ProtocolIE-ID ::= 891
id-Multi-Carrier-E-DCH-LCRTDD-PhysicalLayerCategory							ProtocolIE-ID ::= 892
id-Measurement-Power-Offset													ProtocolIE-ID ::= 893
id-MDT-Configuration														ProtocolIE-ID ::= 894
id-Neighbouring-UMTS-CellInformation-Ext									ProtocolIE-ID ::= 895
id-Neighbouring-UMTS-CellInformationExtensionItem							ProtocolIE-ID ::= 896
id-Control-Type-InformationTransferControlReq								ProtocolIE-ID ::= 897
id-UMTS-Cells-Info															ProtocolIE-ID ::= 898
id-ANRReportIndication														ProtocolIE-ID ::= 899
id-ANR-Cell-InfEx-Rqst														ProtocolIE-ID ::= 900
id-ANR-Cell-InfEx-Rsp														ProtocolIE-ID ::= 901
id-ANR-Cell-Information														ProtocolIE-ID ::= 902
id-Trace-Collection-Entity-IP-Address										ProtocolIE-ID ::= 904
id-Affected-HSDSCH-Serving-Cell-List										ProtocolIE-ID ::= 905
id-UL-CLTD-Information														ProtocolIE-ID ::= 906
id-UL-CLTD-Information-Reconf												ProtocolIE-ID ::= 907
id-UL-CLTD-State-Update-Information											ProtocolIE-ID ::= 908
id-Support-of-Dynamic-DTXDRX-Related-HS-SCCH-Order							ProtocolIE-ID ::= 909
id-CPC-RecoveryReport														ProtocolIE-ID ::= 910
id-FTPICH-Information														ProtocolIE-ID ::= 911
id-FTPICH-Information-Reconf												ProtocolIE-ID ::= 912
id-UE-RF-Band-CapabilityLCR													ProtocolIE-ID ::= 913
id-Extended-S-RNTI															ProtocolIE-ID ::= 914
id-ExtendedAffectedUEInformationForMBMS										ProtocolIE-ID ::= 915
id-Extended-S-RNTI-Group													ProtocolIE-ID ::= 916
id-FTPICH-Information-Response												ProtocolIE-ID ::= 917
id-FTPICH-Reconfiguration-Information										ProtocolIE-ID ::= 918
id-MIMO-withfourtransmitantennas-ActivationIndicator						ProtocolIE-ID ::= 919
id-MIMO-withfourtransmitantennas-ModeIndicator								ProtocolIE-ID ::= 920
id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas				ProtocolIE-ID ::= 921
id-power-offset-for-S-CPICH-for-MIMO-withfourtransmitantennas-Request-Indicator ProtocolIE-ID ::= 922
id-DualStream-MIMO-withfourtransmitantennas-ActivationIndicator				ProtocolIE-ID ::= 923
id-DualStream-MIMO-withfourtransmitantennas-ModeIndicator					ProtocolIE-ID ::= 924
id-Additional-Associated-Secondary-CPICH									ProtocolIE-ID ::= 925
id-UE-transmission-power-headroom											ProtocolIE-ID ::= 926
id-Multiflow-Information													ProtocolIE-ID ::= 927
id-Multiflow-Reconfiguration												ProtocolIE-ID ::= 928
id-Multiflow-OrdinalNumberOfFrequency										ProtocolIE-ID ::= 929
id-UL-MIMO-Information														ProtocolIE-ID ::= 930
id-UL-MIMO-Reconfiguration													ProtocolIE-ID ::= 931
id-UL-MIMO-DL-Control-Channel-Information									ProtocolIE-ID ::= 932
id-SixtyfourQAM-UL-Operation-Indicator										ProtocolIE-ID ::= 933
id-Common-E-RGCH-Cell-InfEx-Rqst											ProtocolIE-ID ::= 935
id-Common-E-RGCH-Cell-InfEx-Rsp												ProtocolIE-ID ::= 936
id-Common-E-RGCH-Cell-InfEx-Rprt											ProtocolIE-ID ::= 937
id-Common-E-RGCH-Cell-Information											ProtocolIE-ID ::= 938
id-PCI																		ProtocolIE-ID ::= 939
id-TAC																		ProtocolIE-ID ::= 940
id-PLMN-List																ProtocolIE-ID ::= 941
id-PrecoderWeightSetRestriction												ProtocolIE-ID ::= 942
id-EARFCN-FDD-Extended														ProtocolIE-ID ::= 943
id-EARFCN-TDD-Extended														ProtocolIE-ID ::= 944
id-Non-rectangular-resource-allocation-indicator							ProtocolIE-ID ::= 945
id-Non-rectangular-resource-timeslot-set									ProtocolIE-ID ::= 946
id-UE-Support-of-non-rectangular-resource-allocation						ProtocolIE-ID ::= 947
id-DBDS-CorrectionsReq														ProtocolIE-ID ::= 948
id-DBDS-Corrections															ProtocolIE-ID ::= 949
id-BDS-IonosphericGridModelReq												ProtocolIE-ID ::= 950
id-BDS-Ionospheric-Grid-Model												ProtocolIE-ID ::= 951
id-GANSS-alm-keplerianBDSAlmanac											ProtocolIE-ID ::= 952
id-Assisting-RepetitionFactors												ProtocolIE-ID ::= 953
id-E-DCH-Decoupling-Indication												ProtocolIE-ID ::= 954
id-UE-Measurement-Forwarding												ProtocolIE-ID ::= 955
id-UPH-Filtering-Measurement-Forwarding-Request								ProtocolIE-ID ::= 956
id-TTI-Update-Indicator														ProtocolIE-ID ::= 957
id-CQI-Feedback-Cycle2-k													ProtocolIE-ID ::= 958
id-CQI-Cycle-Switch-Timer													ProtocolIE-ID ::= 959
id-UE-DRX-Cycle2															ProtocolIE-ID ::= 960
id-Inactivity-Threshold-for-UE-DRX-Cycle2									ProtocolIE-ID ::= 961
id-DTX-Information2															ProtocolIE-ID ::= 962
id-DCH-ENH-Information														ProtocolIE-ID ::= 964
id-DCH-ENH-Information-Reconf												ProtocolIE-ID ::= 965
id-Gainfactors-10ms-mode													ProtocolIE-ID ::= 966
id-Radio-Links-without-DPCH-FDPCH-Indication								ProtocolIE-ID ::= 967
id-UL-DPCCH2-Information													ProtocolIE-ID ::= 968
id-UL-DPCCH2-Information-Reconf												ProtocolIE-ID ::= 969
id-ImplicitGrantHandling													ProtocolIE-ID ::= 970
id-MinimumTEBSthreshold														ProtocolIE-ID ::= 971
id-MultipleFrequencyBandsIndicatorList-EUTRA								ProtocolIE-ID ::= 972
id-MultipleFrequencyBandsIndicatorList										ProtocolIE-ID ::= 973
id-ActivationDelay															ProtocolIE-ID ::= 974
id-Fast-TTI-switching-Mode-synchronized										ProtocolIE-ID ::= 975
id-Fast-TTI-switching-Mode-unsynchronized									ProtocolIE-ID ::= 976
id-Fast-TTI-switching-Mode-Supported										ProtocolIE-ID ::= 977
id-GANSS-BDSclockModel														ProtocolIE-ID ::= 978
id-GANSS-NavModel-BDSKeplerianSet											ProtocolIE-ID ::= 979
id-GANSS-UTCmodelSet4														ProtocolIE-ID ::= 980
id-Inter-Frequency-Cell-Information-SIB11ter								ProtocolIE-ID ::= 981
id-Improved-Synchronized-Indicator											ProtocolIE-ID ::= 982
id-Downlink-TPC-enhancements-Information									ProtocolIE-ID ::= 983
id-Downlink-TPC-enhancements-Reconf											ProtocolIE-ID ::= 984
id-TPC-slot-position														ProtocolIE-ID ::= 985
id-DL-TBS																	ProtocolIE-ID ::= 986
id-Selected-PLMN-Identity													ProtocolIE-ID ::= 987
id-Dual-Cell-EDCH-Enhancements-Information									ProtocolIE-ID ::= 988
id-SpeechVersion															ProtocolIE-ID ::= 2048
id-SourceID																	ProtocolIE-ID ::= 2049
id-TargetID																	ProtocolIE-ID ::= 2050
id-ClassmarkInformation2													ProtocolIE-ID ::= 2051
id-ClassmarkInformation3													ProtocolIE-ID ::= 2052
id-GSM-Cell-CM-Rqst															ProtocolIE-ID ::= 2053
id-Extension-CommonMeasurementObjectType-CM-Rprt							ProtocolIE-ID ::= 2054
id-Extension-CommonMeasurementObjectType-CM-Rqst							ProtocolIE-ID ::= 2055
id-Extension-CommonMeasurementObjectType-CM-Rsp								ProtocolIE-ID ::= 2056
id-Extension-FailureIndicationMeasurementList								ProtocolIE-ID ::= 2057
id-Extension-FailureMeasurementList											ProtocolIE-ID ::= 2058
id-Extension-TerminationMeasurementList										ProtocolIE-ID ::= 2059
id-GsmCellList-CM-Rprt														ProtocolIE-ID ::= 2060
id-GsmCellList-CM-Rqst														ProtocolIE-ID ::= 2061
id-GsmCellList-CM-Rsp														ProtocolIE-ID ::= 2062
id-LoadValue																ProtocolIE-ID ::= 2063
id-EventH																	ProtocolIE-ID ::= 2064 

END

9.3.7	Container Definitions
-- **************************************************************
--
-- Container definitions
--
-- **************************************************************

RNSAP-Containers {
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
umts-Access (20) modules (3) rnsap (1) version1 (1) rnsap-Containers (5) }

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

-- **************************************************************
--
-- IE parameter types from other modules.
--
-- **************************************************************

IMPORTS
	maxPrivateIEs,
	maxProtocolExtensions,
	maxProtocolIEs,
	Criticality,
	Presence,
	PrivateIE-ID,
	ProtocolIE-ID	
FROM RNSAP-CommonDataTypes;

-- **************************************************************
--
-- Class Definition for Protocol IEs
--
-- **************************************************************

RNSAP-PROTOCOL-IES ::= CLASS {
	&id				ProtocolIE-ID 					UNIQUE,
	&criticality			Criticality,
	&Value,
	&presence			Presence
}
WITH SYNTAX {
	ID				&id
	CRITICALITY			&criticality
	TYPE				&Value
	PRESENCE			&presence
}

-- **************************************************************
--
-- Class Definition for Protocol IE Pairs
--
-- **************************************************************

RNSAP-PROTOCOL-IES-PAIR ::= CLASS {
	&id						ProtocolIE-ID 			UNIQUE,
	&firstCriticality		Criticality,
	&FirstValue,
	&secondCriticality		Criticality,
	&SecondValue,
	&presence				Presence
}
WITH SYNTAX {
	ID						&id
	FIRST CRITICALITY 		&firstCriticality
	FIRST TYPE				&FirstValue
	SECOND CRITICALITY 		&secondCriticality
	SECOND TYPE				&SecondValue
	PRESENCE				&presence
}

-- **************************************************************
--
-- Class Definition for Protocol Extensions
--
-- **************************************************************

RNSAP-PROTOCOL-EXTENSION ::= CLASS {
	&id					ProtocolIE-ID 		UNIQUE,
	&criticality		Criticality,
	&Extension,
	&presence			Presence
}
WITH SYNTAX {
	ID					&id
	CRITICALITY			&criticality
	EXTENSION			&Extension
	PRESENCE			&presence
}

-- **************************************************************
--
-- Class Definition for Private IEs
--
-- **************************************************************

RNSAP-PRIVATE-IES ::= CLASS {
	&id				PrivateIE-ID,
	&criticality	Criticality,
	&Value,
	&presence		Presence
}
WITH SYNTAX {
	ID				&id
	CRITICALITY		&criticality
	TYPE			&Value
	PRESENCE		&presence
}

-- **************************************************************
--
-- Container for Protocol IEs
--
-- **************************************************************

ProtocolIE-Container {RNSAP-PROTOCOL-IES : IesSetParam} ::= 
	SEQUENCE (SIZE (0..maxProtocolIEs)) OF
	ProtocolIE-Field {{IesSetParam}}

ProtocolIE-Single-Container {RNSAP-PROTOCOL-IES : IesSetParam} ::= 
	ProtocolIE-Field {{IesSetParam}}

ProtocolIE-Field {RNSAP-PROTOCOL-IES : IesSetParam} ::= SEQUENCE {
	id					RNSAP-PROTOCOL-IES.&id				({IesSetParam}),
	criticality			RNSAP-PROTOCOL-IES.&criticality		({IesSetParam}{@id}),
	value				RNSAP-PROTOCOL-IES.&Value			({IesSetParam}{@id})
}

-- **************************************************************
--
-- Container for Protocol IE Pairs
--
-- **************************************************************

ProtocolIE-ContainerPair {RNSAP-PROTOCOL-IES-PAIR : IesSetParam} ::= 
	SEQUENCE (SIZE (0..maxProtocolIEs)) OF
	ProtocolIE-FieldPair {{IesSetParam}}

ProtocolIE-FieldPair {RNSAP-PROTOCOL-IES-PAIR : IesSetParam} ::= SEQUENCE {
	id						RNSAP-PROTOCOL-IES-PAIR.&id					({IesSetParam}),
	firstCriticality		RNSAP-PROTOCOL-IES-PAIR.&firstCriticality	({IesSetParam}{@id}),
	firstValue				RNSAP-PROTOCOL-IES-PAIR.&FirstValue			({IesSetParam}{@id}),
	secondCriticality		RNSAP-PROTOCOL-IES-PAIR.&secondCriticality	({IesSetParam}{@id}),
	secondValue				RNSAP-PROTOCOL-IES-PAIR.&SecondValue		({IesSetParam}{@id})
}

-- **************************************************************
--
-- Container Lists for Protocol IE Containers
--
-- **************************************************************

ProtocolIE-ContainerList {INTEGER : lowerBound, INTEGER : upperBound, RNSAP-PROTOCOL-IES : IesSetParam} ::=
	SEQUENCE (SIZE (lowerBound..upperBound)) OF
	ProtocolIE-Container {{IesSetParam}}

ProtocolIE-ContainerPairList {INTEGER : lowerBound, INTEGER : upperBound, RNSAP-PROTOCOL-IES-PAIR : IesSetParam} ::=
	SEQUENCE (SIZE (lowerBound..upperBound)) OF
	ProtocolIE-ContainerPair {{IesSetParam}}

-- **************************************************************
--
-- Container for Protocol Extensions
--
-- **************************************************************

ProtocolExtensionContainer {RNSAP-PROTOCOL-EXTENSION : ExtensionSetParam} ::= 
	SEQUENCE (SIZE (1..maxProtocolExtensions)) OF
	ProtocolExtensionField {{ExtensionSetParam}}

ProtocolExtensionField {RNSAP-PROTOCOL-EXTENSION : ExtensionSetParam} ::= SEQUENCE {
	id						RNSAP-PROTOCOL-EXTENSION.&id			({ExtensionSetParam}),
	criticality				RNSAP-PROTOCOL-EXTENSION.&criticality	({ExtensionSetParam}{@id}),
	extensionValue			RNSAP-PROTOCOL-EXTENSION.&Extension		({ExtensionSetParam}{@id})
}

-- **************************************************************
--
-- Container for Private IEs
--
-- **************************************************************

PrivateIE-Container {RNSAP-PRIVATE-IES : IesSetParam} ::= 
	SEQUENCE (SIZE (1..maxPrivateIEs)) OF
	PrivateIE-Field {{IesSetParam}}

PrivateIE-Field {RNSAP-PRIVATE-IES : IesSetParam} ::= SEQUENCE {
	id				RNSAP-PRIVATE-IES.&id				({IesSetParam}),
	criticality		RNSAP-PRIVATE-IES.&criticality		({IesSetParam}{@id}),
	value			RNSAP-PRIVATE-IES.&Value			({IesSetParam}{@id})
}

END


9.4	Message Transfer Syntax
RNSAP shall use the ASN.1 Basic Packed Encoding Rules (BASIC-PER) Aligned Variant as transfer syntax as specified in ITU-T Rec. X.691 [20].
9.5	Timers
T Preempt
-	Specifies the maximum time that a DRNS may wait for pre-emption of resources for establishment or reconfiguration of Radio Links.
TRELOCprep
-	Specifies the maximum time for the Enhanced Relocation procedure in the SRNC.
10	Handling of Unknown, Unforeseen and Erroneous Protocol Data
10.1	General
Protocol Error cases can be divided into three classes:
1.	Transfer Syntax Error;
2.	Abstract Syntax Error;
3.	Logical Error.
Protocol errors can occur in the following functions within a receiving node.

Figure 34: Protocol Errors in RNSAP
The information stated in subclauses 10.2, 10.3 and 10.4, to be included in the message used when reporting an error, is what at minimum shall be included. Other optional information elements within the message may also be included, if available. This is also valid for the case when the reporting is done with a response message. The latter is an exception to what is stated in subclause 4.1.
10.2	Transfer Syntax Error
A Transfer Syntax Error occurs when the receiver is not able to decode the received physical message. Transfer syntax errors are always detected in the process of ASN.1 decoding. If a Transfer Syntax Error occurs, the receiver should initiate Error Indication procedure with appropriate cause value for the Transfer Syntax protocol error.
Examples for Transfer Syntax Errors are:
-	Violation of value ranges in ASN.1 definition of messages. E.g.: If an IE has a defined value range of 0 to 10 (ASN.1: INTEGER (0..10)), and 12 will be received, then this will be treated as a transfer syntax error;
-	Violation in list element constraints. E.g.: If a list is defined as containing 1 to 10 elements, and 12 elements will be received, than this case will be handled as a transfer syntax error;
-	Missing mandatory elements in ASN.1 SEQUENCE definitions (as sent by the originator of the message);
-	Wrong order of elements in ASN.1 SEQUENCE definitions (as sent by the originator of the message).
10.3	Abstract Syntax Error
10.3.1	General
An Abstract Syntax Error occurs when the receiving functional RNSAP entity:
1.	Receives IEs or IE groups that cannot be understood (unknown IE id);
2	Receives IEs for which the logical range is violated (e.g.: ASN.1 definition: 0 to 15, the logical range is 0 to 10 (values 11 to 15 are undefined), and 12 will be received; this case will be handled as an abstract syntax error using criticality information sent by the originator of the message);
3	Does not receive IEs or IE groups but according to the specified presence of the concerned object, the IEs or IE groups should have been present in the received message;
4	Receives IEs or IE groups that are defined to be part of that message in wrong order or with too many occurrences of the same IE or IE group;
5	receives IEs or IE groups but according to the conditional presence of the concerned object and the specified condition, the IEs or IE groups should not have been present in the received message.
Cases 1 and 2 (not comprehended IE/IE group) are handled based on received Criticality information. Case 3 (missing IE/IE group) is handled based on Criticality information and Presence information for the missing IE/IE group specified in the version of the specification used by the receiver. Case 4 (IEs or IE groups in wrong order or with too many occurrences) and Case 5 (erroneously present conditional IEs or IE groups) result in rejecting the procedure.
If an Abstract Syntax Error occurs, the receiver shall read the remaining message and shall then for each detected Abstract Syntax Error that belong to cases 1-3 act according to the Criticality Information and Presence Information for the IE/IE group due to which Abstract Syntax Error occurred in accordance with subclauses 10.3.4 and 10.3.5. The handling of cases 4 and 5 is specified in subclause 10.3.6.
10.3.2	Criticality Information
In the RNSAP messages there is criticality information set for individual IEs and/or IE groups. This criticality information instructs the receiver how to act when receiving an IE or an IE group that is not comprehended, i.e. the entire item (IE or IE group) which is not (fully or partially) comprehended shall be treated in accordance with its own criticality information as specified in subclause 10.3.4.
In addition, the criticality information is used in case of the missing IE/IE group abstract syntax error (see subclause 10.3.5).
The receiving node shall take different actions depending on the value of the Criticality Information. The three possible values of the Criticality Information for an IE/IE group are:
1.	Reject IE;
2.	Ignore IE and Notify Sender;
3.	Ignore IE.
The following rules restrict when a receiving entity may consider an IE, an IE group or an EP not comprehended (not implemented), and when action based on criticality information is applicable:
1.	IE or IE group: When one new or modified IE or IE group is implemented for one EP from a standard version, then other new or modified IEs or IE groups specified for that EP in that standard version shall be considered comprehended by a receiving entity (some may still remain unsupported).
2.	EP: The comprehension of different Eps within a standard version or between different standard versions is not mandated. Any EP that is not supported may be considered not comprehended, even if another EP from that standard version is comprehended, and action based on criticality shall be applied.
10.3.3	Presence Information
For many IEs/IE groups which are optional according to the ASN.1 transfer syntax, RNSAP specifies separately if the presence of these IEs/IE groups is optional or mandatory with respect to RNS application by means of the presence field f the concerned object of class RNSAP-PROTOCOL-IES, RNSAP-PROTOCOL-IES-PAIR, RNSAP-PROTOCOL-EXTENSION or RNSAP-PRIVATE-IES.
The presence field of the indicated classes supports three values:
1.	Optional;
2.	Conditional;
3.	Mandatory.
If an IE/IE group is not included in a received message and the presence of the IE/IE group is mandatory or the presence is conditional and the condition is true according to the version of the specification used by the receiver, an abstract syntax error occurs due to a missing IE/IE group.
If an IE/IE group is included in a received message and the presence of the IE/IE group is conditional and the condition is false according to the version of the specification used by the receiver, an abstract syntax error occurs due to this erroneously present conditional IE/IE group.
10.3.4	Not Comprehended IE/IE Group
10.3.4.1	Procedure ID
The receiving node shall treat the different types of received criticality information of the Procedure ID according to the following:
Reject IE:
-	If a message is received with a Procedure ID marked with “Reject IE” which the receiving node does not comprehend, the receiving node shall reject the procedure using the Error Indication procedure.
Ignore IE and Notify Sender:
-	If a message is received with a Procedure ID marked with “Ignore IE and Notify Sender” which the receiving node does not comprehend, the receiving node shall ignore the procedure and initiate the Error Indication procedure.
Ignore IE:
-	If a message is received with a Procedure ID marked with “Ignore IE” which the receiving node does not comprehend, the receiving node shall ignore the procedure.
When using the Error Indication procedure to reject a procedure or to report an ignored procedure it shall include the Procedure ID IE, the Triggering Message IE, and the Procedure Criticality IE in the Criticality Diagnostics IE.
10.3.4.1A	Type of Message
When the receiving node cannot decode the Type of Message IE, the Error Indication procedure shall be initiated with an appropriate cause value.
10.3.4.2	IEs Other Than the Procedure ID and Type of Message
The receiving node shall treat the different types of received criticality information of an IE/IE group other than the Procedure ID IE and Type of Message IE according to the following:
Reject IE:
-	If a message initiating a procedure is received containing one or more IEs/IE groups marked with “Reject IE” which the receiving node does not comprehend; none of the functional requests of the message shall be executed. The receiving node shall reject the procedure and report the rejection of one or more IEs/IE groups using the message normally used to report unsuccessful outcome of the procedure. In case the information received in the initiating message was insufficient to determine a value for all IEs that are required to be present in the message used to report the unsuccessful outcome of the procedure, the receiving node shall instead terminate the procedure and initiate the Error Indication procedure.
-	If a message initiating a procedure that does not have a message to report unsuccessful outcome is received containing one or more IEs/IE groups marked with “Reject IE” which the receiving node does not comprehend, the receiving node shall terminate the procedure and initiate the Error Indication procedure.
-	If a response message is received containing one or more IEs/IE groups marked with “Reject IE, that the receiving node does not comprehend, the receiving node shall consider the procedure as unsuccessfully terminated and initiate local error handling.
Ignore IE and Notify Sender:
-	If a message initiating a procedure is received containing one or more IEs/IE groups marked with “Ignore IE and Notify Sender” which the receiving node does not comprehend, the receiving node shall ignore the content of the not comprehended IEs/IE groups, continue with the procedure as if the not comprehended IEs/IE groups were not received (except for the reporting) using the understood IEs/IE groups, and report in the response message of the procedure that one or more IEs/IE groups have been ignored. In case the information received in the initiating message was insufficient to determine a value for all IEs that are required to be present in the response message, the receiving node shall instead terminate the procedure and initiate the Error Indication procedure.
-	If a message initiating a procedure that does not have a message to report the outcome of the procedure is received containing one or more IEs/IE groups marked with “Ignore IE and Notify Sender” which the receiving node does not comprehend, the receiving node shall ignore the content of the not comprehended IEs/IE groups, continue with the procedure as if the not comprehended IEs/IE groups were not received (except for the reporting) using the understood IEs/IE groups, and initiate the Error Indication procedure to report that one or more IEs/IE groups have been ignored.
-	If a response message is received containing one or more IEs/IE groups marked with “Ignore IE and Notify Sender” which the receiving node does not comprehend, the receiving node shall ignore the content of the not comprehended IEs/IE groups, continue with the procedure as if the not comprehended IEs/IE groups were not received (except for the reporting) using the understood IEs/IE groups and initiate the Error Indication procedure.
Ignore IE:
-	If a message initiating a procedure is received containing one or more IEs/IE groups marked with “Ignore IE” which the receiving node does not comprehend, the receiving node shall ignore the content of the not comprehended IEs/IE groups and continue with the procedure as if the not comprehended IEs/IE groups were not received using the understood IEs/IE groups.
-	If a response message is received containing one or more IEs/IE groups marked with “Ignore IE” which the receiving node does not comprehend, the receiving node shall ignore the content of the not comprehended IEs/IE groups and continue with the procedure as if the not comprehended IEs/IE groups were not received using the understood IEs/IE groups.
When reporting not comprehended IEs/IE groups marked with “Reject IE” or “Ignore IE and Notify Sender” using a response message defined for the procedure, the Information Element Criticality Diagnostics IE shall be included in the Criticality Diagnostics IE for each reported IE/IE group. In the Information Element Criticality Diagnostics IE the Repetition Number IE shall be included and in addition, if the not comprehended IE/IE group is not at message hierarchy level 1 (top level; see annex C) also the Message Structure IE shall be included.
When reporting not comprehended IEs/IE groups marked with “Reject IE” or “Ignore IE and Notify Sender” using the Error Indication procedure, the Procedure ID IE, the Triggering Message IE, Procedure Criticality IE, the Transaction ID IE, and the Information Element Criticality Diagnostics IE shall be included in the Criticality Diagnostics IE for each reported IE/IE group. In the Information Element Criticality Diagnostics IE the Repetition Number IE shall be included and in addition, if the not comprehended IE/IE group is not at message hierarchy level 1 (top level; see annex C) also the Message Structure IE shall be included.
10.3.5	Missing IE or IE Group
The receiving node shall treat the missing IE/IE group according to the criticality information for the missing IE/IE group in the received message specified in the version of this specification used by the receiver:
Reject IE:
-	If a received message initiating a procedure is missing one or more IEs/IE groups with specified criticality “Reject IE”; none of the functional requests of the message shall be executed. The receiving node shall reject the procedure and report the missing IEs/IE groups using the message normally used to report unsuccessful outcome of the procedure. In case the information received in the initiating message was insufficient to determine a value for all IEs that are required to be present in the message used to report the unsuccessful outcome of the procedure, the receiving node shall instead terminate the procedure and initiate the Error Indication procedure.
-	If a received message initiating a procedure that does not have a message to report unsuccessful outcome is missing one or more IEs/IE groups with specified criticality “Reject IE”, the receiving node shall terminate the procedure and initiate the Error Indication procedure.
-	If a received response message is missing one or more IEs/IE groups with specified criticality “Reject IE, the receiving node shall consider the procedure as unsuccessfully terminated and initiate local error handling.
Ignore IE and Notify Sender:
-	If a received message initiating a procedure is missing one or more IEs/IE groups with specified criticality “Ignore IE and Notify Sender”, the receiving node shall ignore that those IEs are missing and continue with the procedure based on the other IEs/IE groups present in the message and report in the response message of the procedure that one or more IEs/IE groups were missing. In case the information received in the initiating message was insufficient to determine a value for all IEs that are required to be present in the response message, the receiving node shall instead terminate the procedure and initiate the Error Indication procedure.
-	If a received message initiating a procedure that does not have a message to report the outcome of the procedure is missing one or more IEs/IE groups with specified criticality “Ignore IE and Notify Sender”, the receiving node shall ignore that those IEs are missing and continue with the procedure based on the other IEs/IE groups present in the message and initiate the Error Indication procedure to report that one or more IEs/IE groups were missing.
-	If a received response message is missing one or more IEs/IE groups with specified criticality “Ignore IE and Notify Sender”, the receiving node shall ignore that those IEs are missing and continue with the procedure based on the other IEs/IE groups present in the message and initiate the Error Indication procedure to report that one or more IEs/IE groups were missing.
Ignore IE:
-	If a received message initiating a procedure is missing one or more IEs/IE groups with specified criticality “Ignore IE”, the receiving node shall ignore that those IEs are missing and continue with the procedure based on the other IEs/IE groups present in the message.
-	If a received response message is missing one or more IEs/IE groups with specified criticality “Ignore IE”, the receiving node shall ignore that those IEs/IE groups are missing and continue with the procedure based on the other IEs/IE groups present in the message.
When reporting missing IEs/IE groups with specified criticality “Reject IE” or “Ignore IE and Notify Sender” using a response message defined for the procedure, the Information Element Criticality Diagnostics IE shall be included in the Criticality Diagnostics IE for each reported IE/IE group. In the Information Element Criticality Diagnostics IE the Repetition Number IE shall be included and in addition, if the missing IE/IE group is not at message hierarchy level 1 (top level; see annex C) also the Message Structure IE shall be included.
When reporting missing IEs/IE groups with specified criticality “Reject IE” or “Ignore IE and Notify Sender” using the Error Indication procedure, the Procedure ID IE, the Triggering Message IE, Procedure Criticality IE, the Transaction ID IE, and the Information Element Criticality Diagnostics IE shall be included in the Criticality Diagnostics IE for each reported IE/IE group. In the Information Element Criticality Diagnostics IE the Repetition Number IE shall be included and in addition, if the missing IE/IE group is not at message hierarchy level 1 (top level; see annex C) also the Message Structure IE shall be included.
10.3.6	IEs or IE Groups Received in Wrong Order or With Too Many Occurrences or Erroneously Present
If a message with IEs or IE groups in wrong order or with too many occurrences is received or if IEs or IE groups with a conditional presence are present when the condition is not met (i.e. erroneously present), the receiving node shall behave according to the following:
-	If a message initiating a procedure is received containing IEs or IE groups in wrong order or with too many occurrences or erroneously present, none of the functional requests of the message shall be executed. The receiving node shall reject the procedure and report the cause value “Abstract Syntax Error (Falsely Constructed Message)” using the message normally used to report unsuccessful outcome of the procedure. In case the information received in the initiating message was insufficient to determine a value for all IEs that are required to be present in the message used to report the unsuccessful outcome of the procedure, the receiving node shall instead terminate the procedure and initiate the Error Indication procedure.
-	If a message initiating a procedure that does not have a message to report unsuccessful outcome is received containing IEs or IE groups in wrong order or with too many occurrences or erroneously present, the receiving node shall terminate the procedure and initiate the Error Indication procedure, and use cause value “Abstract Syntax Error (Falsely Constructed Message)”.
-	If a response message is received containing IEs or IE groups in wrong order or with too many occurrences or erroneously present, the receiving node consider the procedure as unsuccessfully terminated and initiate local error handling.
When determining the correct order only the IEs specified in the specification version used by the receiver shall be considered.
10.4	Logical Error
Logical error situations occur when a message is comprehended correctly, but the information contained within the message is not valid (i.e. semantic error), or describes a procedure which is not compatible with the state of the receiver. In these conditions, the following behaviour shall be performed (unless otherwise specified) as defined by the class of the elementary procedure, irrespective of the criticality information of the IEs/IE groups containing the erroneous values.
Class 1:
Where the logical error occurs in a request message of a class 1 procedure, and the procedure has a message to report this unsuccessful outcome, this message shall be sent with an appropriate cause value. Typical cause values are:
Protocol Causes:
1.	Semantic Error;
2.	Message not Compatible with Receiver State.
Where the logical error is contained in a request message of a class 1 procedure, and the procedure does not have a message to report this unsuccessful outcome, the procedure shall be terminated and the Error Indication procedure shall be initiated with an appropriate cause value. The Procedure ID IE, the Triggering Message IE and the Transaction ID IE within the Criticality Diagnostics IE shall then be included in order to identify the message containing the logical error.
Where the logical error exists in a response message of a class 1 procedure, the procedure shall be considered as unsuccessfully terminated and local error handling shall be initiated.
Class 2:
Where the logical error occurs in a message of a class 2 procedure, the procedure shall be terminated and the Error Indication procedure shall be initiated with an appropriate cause value. The Procedure ID IE, the Triggering Message IE and the Transaction ID IE within the Criticality Diagnostics IE shall then be included in order to identify the message containing the logical error.
10.5	Exceptions
The error handling for all the cases described hereafter shall take precedence over any other error handling described in the other subclauses of clause 10.
-	If any type of error (Transfer Syntax Error, Abstract Syntax Error or Logical Error) is detected in the ERROR INDICATION message, it shall not trigger the Error Indication procedure in the receiving Node but local error handling.
-	In case a response message or ERROR INDICATION message needs to be returned, but the information necessary to determine the receiver of that message is missing, the procedure shall be considered as unsuccessfully terminated and local error handling shall be initiated.
	If an error that terminates a procedure occurs, the returned cause value shall reflect the error that caused the termination of the procedure even if one or more abstract syntax errors with criticality “ignore and notify” have earlier occurred within the same procedure.
Annex A (normative):
Allocation and Pre-emption of Radio Links in the DRNS
A.1	Deriving Allocation Information for a Radio Link
A.1.1	Establishment of a New Radio Link
The Allocation Information for a Radio Link in the case of establishment of a new Radio Link shall be derived as follows:
-	The latest received Allocation/Retention Priority IE for each transport channel shall be used.
Note:	The Allocation/Retention Priority IE for a transport channel may have been received in 
a) the procedure that establishes the first Radio Link for the UE in the DRNS or
b) a procedure adding or modifying the transport channel.
-	If the Priority Level IE in the Allocation/Retention Priority IE for all transport channels that are intended to use the Radio Link is set to “no priority”, the pre-emption capability of the Radio Link shall be set to “shall not trigger pre-emption”.
-	If the Priority Level IE in the Allocation/Retention Priority IE for one or more of the transport channels that are intended to use the Radio Link is not set to “no priority”, the allocation priority and the pre-emption capability of the Radio Link shall be set according to the following:
-	The transport channels that have the Priority Level IE in the Allocation/Retention Priority IE set to “no priority” shall be excluded when setting the allocation priority and pre-emption capability of a Radio Link.
-	The allocation priority for a Radio Link shall be set to highest priority level, given by the Priority Level IE in the Allocation/Retention Priority IE, for all non excluded transport channels that are intended to use the Radio Link.
-	If all non-excluded transport channels that are intended to use a Radio Link to be established have the pre-emption capability, given by the Pre-emption Capability IE in the Allocation/Retention Priority IE, set to “shall not trigger pre-emption”, the pre-emption capability of the Radio Link shall be set to “shall not trigger pre-emption”.
If one or more non-excluded transport channels that are intended to use the Radio Link to be established have the value of the Pre-emption Capability IE in the Allocation/Retention Priority IE set to “may trigger pre-emption”, the pre-emption capability of the Radio Link shall be set to “may trigger pre-emption”.
The derived allocation priority and pre-emption capability are only valid during this allocation/retention process.
A.1.2	Modification of an Existing Radio Link
The Allocation Information for a Radio Link in the case of modification of a Radio Link (addition or modification of transport channels using the Radio Link) shall be derived as follows:
-	The latest received Allocation/Retention Priority IE for each transport channel shall be used.
Note:	The Allocation/Retention Priority IE for a transport channel may have been received in 
a) the procedure that establishes the first Radio Link for the UE in the DRNS,
b) a previous procedure adding or modifying the transport channel, or
c) the current procedure adding or modifying the transport channel.
-	If the Priority Level IE in the Allocation/Retention Priority IE for all transport channels to be added or modified in the Radio Link is set to “no priority”, the pre-emption capability of the Radio Link to be modified shall be set to “shall not trigger pre-emption”.
-	If the Priority Level IE in the Allocation/Retention Priority IE for one or more of the transport channels to be added or modified in the Radio Link is not set to “no priority”, the allocation priority of and the pre-emption capability of the Radio Link to be modified shall be set according to the following:
-	The transport channels to be added or modified that have the Priority Level IE in the Allocation/Retention Priority IE set to “no priority” shall be excluded when setting the allocation priority and pre-emption capability of a Radio Link to be modified.
-	The allocation priority for a Radio Link to be modified shall be set to highest priority level, given by the Priority Level IE in the Allocation/Retention Priority IE, for all the non-excluded transport channels that are to be added or modified.
-	If all non-excluded transport channels that are to be added or modified in the Radio Link have the pre-emption capability, given by the Pre-emption Capability IE in the Allocation/Retention Priority IE, set to “shall not trigger pre-emption”, the pre-emption capability of the Radio Link to be modified shall be set to “shall not trigger pre-emption”.
If one or more of the non-excluded transport channels to be added or modified in the Radio Link have the value of the Pre-emption Capability IE in the Allocation/Retention Priority IE set to “may trigger pre-emption”, the pre-emption capability of the Radio Link to be modified shall be set to “may trigger pre-emption”.
The derived allocation priority and pre-emption capability are only valid during this allocation/retention process.
A.2	Deriving Retention Information for a Radio Link
The Retention Information for an existing Radio Link shall be derived as follows:
-	The latest received Allocation/Retention Priority IE for each transport channel shall be used.
Note:	The Allocation/Retention Priority IE for a transport channel may have been received in 
a) the procedure that establishes the first Radio Link for the UE in the DRNS or
b) a procedure adding or modifying the transport channel.
-	If the Priority Level IE in the Allocation/Retention Priority IE for one or more transport channels using the Radio Link is set to “no priority”, the pre-emption vulnerability of the Radio Link shall be set to “not pre-emptable”.
-	If the Priority Level IE in the Allocation/Retention Priority IE for all the transport channels using the Radio Link is not set to “no priority”, the retention priority of the Radio Link and the pre-emption vulnerability of the Radio Link shall be set according to the following:
-	The retention priority for a Radio Link shall be set to highest priority level, given by the Priority Level IE in the Allocation/Retention Priority IE, for all transport channels that uses the Radio Link.
-	If all transport channels that uses the Radio Link have the pre-emption vulnerability, given by the Pre-emption Vulnerability IE in the Allocation/Retention Priority IE, set to “pre-emptable”, the pre-emption vulnerability of the Radio Link shall be set to “pre-emptable”.
If one or more transport channels that uses the Radio Link have the value of the Pre-emption Vulnerability IE in the Allocation/Retention Priority IE set to “not pre-emptable”, the pre-emption vulnerability of the Radio Link shall be set to “not pre-emptable”.
The derived retention priority and pre-emption vulnerability are valid until they are changed, or until the Radio Link is deleted. When new transport channels are added to or deleted from the Radio Link or when existing transport channels are modified with regards to the Allocation/Retention Priority IE, the retention information shall be derived again according to above.
A.3	The Allocation/Retention Process
The DRNS shall establish or modify the resources for a Radio Link according to:
-	The value of the Allocation Information (allocation priority and pre-emption capability) of the Radio to be established or modified. The Allocation Information is derived according to clause A.1.
-	The value of the Retention Information (retention priority and pre-emption vulnerability) of existing Radio Links. The Retention Information derived according to clause A.2.
-	The resource situation in the DRNS.
Whilst the process and the extent of the pre-emption functionality is operator dependent, the pre-emption indicators (pre-emption capability and pre-emption vulnerability) shall be treated as follows:
-.	If the pre-emption capability for a Radio Link to be established or modified is set to “may trigger pre-emption” and the resource situation so requires, the DRNS may trigger the pre-emption process in clause A.4 to free resources for this allocation request.
-.	If the pre-emption capability for a Radio Link to be established or modified is set to “shall not trigger pre-emption”, then this allocation request shall not trigger the pre-emption process in clause A.4.
-.	If the pre-emption vulnerability for an existing Radio Link is set to “pre-emptable”, then this Radio Link shall be included in the pre-emption process in clause A.4.
-.	If the pre-emption vulnerability for an existing Radio Link is set to “not pre-emptable”, then this Radio Link shall not be included in the pre-emption process in clause A.4.
A.4	The Pre-emption Process
The pre-emption process shall only pre-empt Radio Links with lower retention priority than the allocation priority of the Radio Link to be established or modified. The Radio Links to be pre-empted shall be selected in ascending order of the retention priority.
When the pre-emption process detects that one or more Radio Links have to be pre-empted to free resources for a Radio Link(s) to be established or modified, the DRNS shall initiate the Radio Link Pre-emption procedure for all the UE Contexts having Radio Links selected for pre-emption and start the TPreempt timer.
When enough resources are freed to establish or modify the Radio Link(s) according to the request, the DRNS shall stop the TPreempt timer and complete the procedure that triggered the pre-emption process in accordance with the “Successful Operation” subclause of the procedure.
If the TPreempt timer expires, the DRNS shall reject the procedure that triggered the pre-emption process and complete the procedure in accordance with the “Unsuccessful Operation” subclause of the procedure.
Annex B (informative):
Measurement Reporting
When the Report Characteristics IE is set to “Event A” (figure B.1), the Measurement Reporting procedure is initiated when the measured entity rises above the requested threshold and stays there for the requested hysteresis time. If no hysteresis time is given, the value zero shall be used for the hysteresis time.

Figure B.1: Event A reporting with Hysteresis Time specified
When the Report Characteristics IE is set to “Event B” (figure B.2), the Measurement Reporting procedure is initiated when the measured entity falls below the requested threshold and stays there for the requested hysteresis time. If no hysteresis time is given, the value zero shall be used for the hysteresis time.

Figure B.2: Event B reporting with Hysteresis Time specified
When the Report Characteristics IE is set to “Event C” (figure B.3), the Measurement Reporting procedure is initiated always when the measured entity rises by an amount greater than the requested threshold within the requested time. The reporting in figure B.3 is initiated if the Rising Time T1 is less than the requested time.

Figure B.3: Event C reporting
When the Report Characteristics IE is set to “Event D” (figure B.4), the Measurement Reporting procedure is initiated always when the measured entity falls by an amount greater than the requested threshold within the requested time. The reporting in figureB.4 is initiated if the Falling Time T1 is less than the requested time.

Figure B.4: Event D reporting

When the Report Characteristics IE is set to “Event E” (figure B.5), the Measurement Reporting procedure (Report A) is initiated always when the measured entity rises above the “Measurement Threshold 1” and stays there for the “Measurement Hysteresis Time” (T1 in figure B.5). If Report Periodicity IE is provided DRNS shall also initiate Measurement Reporting procedure periodically. The periodic reporting continues although the measured entity falls below the “Measurement Threshold 1” and is terminated by the Report B.
When the Report A conditions have been met and the measured entity falls below the “Measurement Threshold 2” and stays there for the “Measurement Hysteresis Time” (T1) the Measurement Reporting procedure (Report B) is initiated and the periodic reporting is terminated.

Figure B.5: Event E reporting with Hysteresis Time specified and Periodic Reporting requested
When the Report Characteristics IE is set to “Event F” (figure B.6), the Measurement Reporting procedure (Report A) is initiated always when the measured entity falls below the “Measurement Threshold 1” and stays there for the “Measurement Hysteresis Time” (T1 in figure B.6). If Report Periodicity IE is provided DRNS shall also initiate Measurement Reporting procedure periodically. The periodic reporting continues although the measured entity rises above the “Measurement Threshold 1” and is terminated by the Report B.
When the Report A conditions have been met and the measured entity rises above the “Measurement Threshold 2” and stays there for the “Measurement Hysteresis Time” (T1) Measurement Reporting procedure (Report B) is initiated and the periodic reporting is terminated.

Figure B.6: Event F reporting with Hysteresis Time specified and Periodic Reporting requested
When the Report Characteristics IE is set to “Event H” (figure B.7), the Measurement Reporting procedure (Report A) is initiated when the measurement value of measured entity rises above the Measurement Threshold 1 and stays above the threshold for the Measurement Hysteresis Time (T1 in figure B.7).] The measurement value of measured entity in Report A substitutes the Measurement Base value for the consequent measurement reporting.
When the Report A conditions has been met and the measurement value of measured entity rises above or falls below the Measurement Base Value by Measurement Fluctuation Range (H1 in figure B.7), and stays there for the Measurement Hysteresis Time (Th in figure B.7) counting from the beginning of every Report Periodicity, the Measurement Reporting procedure (Report B or Report C) is initiated. The the measurement value of measured entity in (Report B or Report C) substitutes the Measurement Base value for the consequent measurement reporting.
When the Report A conditions have been met and the measurement value of measured entity falls below the Measurement Threshold 2 and stays there for the Measurement Hysteresis Time (Th in figure B.7), the Measurement Reporting procedure (Report D) is initiated and the reporting is terminated.

Figure B.7: Event H reporting with Hysteresis Time specified and Periodic Reporting requested
Annex C (informative):
Guidelines for Usage of the Criticality Diagnostics IE
C.1	EXAMPLE MESSAGE Layout
Assume the following message format:
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Message Type
M



YES
reject
Transaction ID
M



–

A
M



YES
reject
B
M



YES
reject
>E

1..<maxE>


EACH
ignore
>>F

1..<maxF>


-

>>>G

0..3, …


EACH
ignore
>>H

1..<maxH>


EACH
ignore
>>>G

0..3, …


EACH
ignore and notify
>>G
M



YES
reject
>>J

1..<maxJ>


-

>>>G

0..3, …


EACH
reject
C
M



YES
reject
>K

1..<maxK>


EACH
ignore and notify
>>L

1..<maxL>


-

>>>M
O



-

D
M



YES
reject

Note 1.	The IEs F, J, and L do not have assigned criticality. The IEs F, J, and L are consequently realised as the ASN.1 type SEQUENCE OF of “ordinary” ASN.1 type, e.g. INTEGER. On the other hand, the repeatable IEs with assigned criticality are realised as the ASN.1 type SEQUENCE OF of an IE object, e.g. ProtocolIE-Single-Container.
For the corresponding ASN.1 layout, see subclause C.4.
C.2	Example on a Received EXAMPLE MESSAGE
Assume further more that a received message based on the above tabular format is according to the figure below.

Figure C.1: Example of content of a received RNSAP message based on the EXAMPLE MESSAGE
C.3	Content of Criticality Diagnostics
C.3.1	Example 1

Figure C.2: Example of a received RNSAP message containing a not comprehended IE
If there is an error within the instance marked as grey in the IE G in the IE J shown in the figure C.2 above, this will be reported within the Information Element Criticality Diagnostics IE within the Criticality Diagnostics IE as follows:
IE name
Value
Comment
IE Criticality
reject
Criticality for IE on the reported level, i.e. level 4.
IE ID
id-G
IE ID from the reported level, i.e. level 4.
Repetition Number
11
Repetition number on the reported level, i.e. level 4.
(Since the IE E (level 2) is the lowest level included in the Message Structure IE this is the eleventh occurrence of IE G within the IE E (level 2).
Type of Error
not understood

Message Structure, first repetition
>IE ID
id-B
IE ID from level 1. 
Message Structure, second repetition
>IE ID
id-E
IE ID from the lowest level above the reported level, i.e. level 2. 
>Repetition Number
3
Repetition number from the lowest level above the reported level, i.e. level 2. 

Note 2.	The IE J on level 3 cannot be included in the Message Structure IE since they have no criticality of their own.
Note 3.	The repetition number of the reported IE indicates the number of repetitions of IE G received up to the detected erroneous repetition, counting all occurrences of the IE G below the same instance of the previous level with assigned criticality (instance 3 of IE E on level 2).
C.3.2	Example 2

Figure C.3: Example of a received RNSAP message containing a not comprehended IE
If there is an error within the second instance (marked as grey) in the sequence (IE L in the tabular format) on level 3 below IE K in the structure shown in the figure C.3 above, this will be reported within the Information Element Criticality Diagnostics IE within the Criticality Diagnostics IE as follows:
IE name
Value
Comment
IE Criticality
ignore and notify
Criticality for IE on the reported level, i.e. level 2.
IE ID
id-K
IE ID from the reported level, i.e. level 2.
Repetition Number
3
Repetition number on the reported level, i.e. level 2. 
Type of Error
not understood

Message Structure, first repetition
>IE ID
id-C
IE ID from the lowest level above the reported level, i.e. level 1. 

Note 4.	The IE L on level 3 cannot be reported individually included in the Message Structure IE since it has no criticality of its own.
C.3.3	Example 3

Figure C.4: Example of a received RNSAP message containing a not comprehended IE
If there is an error within the instance marked as grey in the IE G in the IE H shown in the figure C.4 above, this will be reported within the Information Element Criticality Diagnostics IE within the Criticality Diagnostics IE as follows:
IE name
Value
Comment
IE Criticality
ignore and notify
Criticality for IE on the reported level, i.e. level 4.
IE ID
id-G
IE ID from the reported level, i.e. level 4.
Repetition Number
2
Repetition number on the reported level, i.e. level 4. 
Type of Error
not understood

Message Structure, first repetition
>IE ID
id-B
IE ID from level 1. 
Message Structure, second repetition
>IE ID
id-E
IE ID from level 2. 
>Repetition Number
3
Repetition number from level 2. 
Message Structure, third repetition
>IE ID
id-H
IE ID from the lowest level above the reported level, i.e. level 3. 
>Repetition Number
1
Repetition number from the lowest level above the reported level, i.e. level 3. 

Note 5.	The repetition number of level 4 indicates the number of repetitions of IE G received up to the detected erroneous repetition, counted below the same instance of the previous level with assigned criticality (instance 1 of IE H on level 3).
C.3.4	Example 4

Figure C.5: Example of a received RNSAP message containing a not comprehended IE
If there is an error within the instance marked as grey in the IE G in the IE E shown in the figure C.5 above, this will be reported within the Information Element Criticality Diagnostics IE within the Criticality Diagnostics IE as follows:
IE name
Value
Comment
IE Criticality
reject
Criticality for IE on the reported level, i.e. level 3.
IE ID
id-G
IE ID from the reported level, i.e. level 3.
Repetition Number
5
Repetition number on the reported level, i.e. level 3.
(Since the IE E (level 2) is the lowest level included in the Message Structure IE this is the fifth occurrence of IE G within the IE E (level 2).
Type of Error
not understood

Message Structure, first repetition
>IE ID
id-B
IE ID from level 1. 
Message Structure, second repetition
>IE ID
id-E
IE ID from the lowest level above the reported level, i.e. level 2. 
>Repetition Number
3
Repetition number from the lowest level above the reported level, i.e. level 2. 

Note 6.	The repetition number of the reported IE indicates the number of repetitions of IE G received up to the detected erroneous repetition, counting all occurrences of the IE G below the same instance of the previous level with assigned criticality (instance 3 of IE E on level 2).
C.3.5	Example 5

Figure C.6: Example of a received RNSAP message with a missing IE
If the instance marked as grey in the IE G in the IE E shown in the figure C.6 above, is missing this will be reported within the Information Element Criticality Diagnostics IE within the Criticality Diagnostics IE as follows:
IE name
Value
Comment
IE Criticality
reject
Criticality for IE on the reported level, i.e. level 3.
IE ID
id-G
IE ID from the reported level, i.e. level 3.
Repetition Number
4
Repetition number up to the missing IE on the reported level, i.e. level 3. 
(Since the IE E (level 2) is the lowest level included in the Message Structure IE there have been four occurrences of IE G within the IE E (level 2) up to the missing occurrence.
Type of Error
missing

Message Structure, first repetition
>IE ID
id-B
IE ID from level 1. 
Message Structure, second repetition
>IE ID
id-E
IE ID from the lowest level above the reported level, i.e. level 2. 
>Repetition Number
3
Repetition number from the lowest level above the reported level, i.e. level 2. 

Note 7.	The repetition number of the reported IE indicates the number of repetitions of IE G received up to but not including the missing occurrence, counting all occurrences of the IE G below the same instance of the previous level with assigned criticality (instance 3 of IE E on level 2).
C.4	ASN.1 of EXAMPLE MESSAGE
ExampleMessage ::= SEQUENCE {
	ProtocolIEs			ProtocolIE-Container		{{ExampleMessage-Ies}},
	ProtocolExtensions	ProtocolExtensionContainer	{{ExampleMessage-Extensions}}	OPTIONAL,
	...
}

ExampleMessage-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-A	CRITICALITY reject	TYPE A	PRESENCE mandatory} |
	{ ID id-B	CRITICALITY reject	TYPE B	PRESENCE mandatory} |
	{ ID id-C	CRITICALITY reject	TYPE C	PRESENCE mandatory} |
	{ ID id-D	CRITICALITY reject	TYPE D	PRESENCE mandatory} ,
	...
}

B ::= SEQUENCE {
	e				E-List,
	iE-Extensions	ProtocolExtensionContainer { {B-ExtIEs} }	OPTIONAL,
	...
}

B-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

E-List ::= SEQUENCE (SIZE (1..maxE)) OF ProtocolIE-Single-Container { {E-IEs} }

E-Ies RNSAP-PROTOCOL-IES ::= {
	{ ID id-E	CRITICALITY ignore	TYPE E	PRESENCE mandatory	}
}

E ::= SEQUENCE {
	f				F-List,
	h				H-List,
	g				G-List1,
	j				J-List,
	iE-Extensions	ProtocolExtensionContainer { {E-ExtIEs} }	OPTIONAL,
	...
}

E-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

F-List ::= SEQUENCE (SIZE (1..maxF)) OF F

F ::= SEQUENCE {
	g				G-List2	OPTIONAL,
	iE-Extensions	ProtocolExtensionContainer { {F-ExtIEs} }	OPTIONAL,
	...
}

F-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

G-List2 ::= SEQUENCE (SIZE (1..3, ...)) OF ProtocolIE-Single-Container { {G2-IEs} }

G2-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-G	CRITICALITY ignore	TYPE G	PRESENCE mandatory	}
}

H-List ::= SEQUENCE (SIZE (1..maxH)) OF ProtocolIE-Single-Container { {H-IEs} }

H-Ies RNSAP-PROTOCOL-IES ::= {
	{ ID id-H	CRITICALITY ignore	TYPE H	PRESENCE mandatory	}
}

H ::= SEQUENCE {
	g				G-List3	OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {H-ExtIEs} } OPTIONAL,
	...
}

H-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

G-List3 ::= SEQUENCE (SIZE (1..3, ...)) OF ProtocolIE-Single-Container { {G3-IEs} }

G3-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-G	CRITICALITY notify	TYPE G	PRESENCE mandatory	}
}

G-List1 ::= ProtocolIE-Single-Container { {G1-IEs} }

G1-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-G	CRITICALITY reject	TYPE G	PRESENCE mandatory	}
}

J-List ::= SEQUENCE (SIZE (1..maxJ)) OF J

J ::= SEQUENCE {
	g				G-List4	OPTIONAL,
	iE-Extensions	ProtocolExtensionContainer { {J-ExtIEs} }	OPTIONAL,
	...
}

J-ExtIEs	RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

G-List4 ::= SEQUENCE (SIZE (1..3, ...)) OF ProtocolIE-Single-Container { {G4-IEs} }

G4-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-G	CRITICALITY reject	TYPE G	PRESENCE mandatory	}
}

C ::= SEQUENCE {
	k				K-List,
	iE-Extensions	ProtocolExtensionContainer { {C-ExtIEs} }	OPTIONAL,
	...
}

C-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

K-List ::= SEQUENCE (SIZE (1..maxK)) OF ProtocolIE-Single-Container { {K-IEs} }

K-IEs RNSAP-PROTOCOL-IES ::= {
	{ ID id-K	CRITICALITY notify	TYPE K	PRESENCE mandatory	}
}

K ::= SEQUENCE {
	l				L-List,
	iE-Extensions	ProtocolExtensionContainer { {K-ExtIEs} }	OPTIONAL,
	...
}

K-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

L-List ::= SEQUENCE (SIZE (1..maxL)) OF L

L ::= SEQUENCE {
	m				M	OPTIONAL,
	iE-Extensions	ProtocolExtensionContainer { {L-ExtIEs} }	OPTIONAL,
	...
}

L-ExtIEs RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

ExampleMessage-Extensions RNSAP-PROTOCOL-EXTENSION ::= {
	...
}

Annex D (normative):
DRNS Behaviour at SRNC or RNSAP Signalling Bearer Failure
This annex describes the DRNC actions in the event of SRNC or RNSAP Signalling Bearer failure when all or some of the UE Contexts related to the SRNC need to be removed in DRNC.
D.1	Detection of SRNC or RNSAP Signalling Bearer/Connection Failure
Termination of all or some of the UE Contexts in DRNC which are related to an SRNC may be triggered due to failure of SRNC, RNSAP Signalling Bearer or the Iur signalling connection of an UE(s).
D.1.1	Termination of all UE Contexts Related to a Specific SRNC
Termination of all UE Contexts in DRNC which are related to a specific SRNC is triggered if the RNSAP Signalling Bearer failure is detected by the RNSAP according to the procedure described in the sub-clause 4.5.1.5.1 of TS 25.420. By “all” UE Contexts, it means all Ues having dedicated and/or common channel resources.
D.1.2	Termination of Specific UE Context
Termination of a specific UE Context in DRNC is triggered for an UE which has dedicated transport channel resources according to the procedure described in the sub-clause 4.5.1.5.2 of TS 25.420.
D.2	DRNC Actions at UE Context Termination
When termination of the UE Context is required, the DRNC shall remove any common and/or dedicated radio resources related to the UE Context. The DRNC shall also initiate release of the dedicated or common user plane resources that were involved in these UE contexts. In addition, if it is possible the DRNC shall release the RRC connection.
Annex E (informative):
Change History
TSG #
TSG Doc.
CR
Rev
Subject/Comment
New
09/2009
-
-
-
Release 9 version created based on v8.6.0
9.0.0
45
RP-090777
1521
2
Introduction of UE AMBR concept in UMTS
9.0.0
45
RP-090774
1528
1
Introduction of TxAA extension for non-MIMO Ues
9.0.0
45
RP-090772
1529
2
Introduction of Dual-Band HSDPA
9.0.0
45
RP-090773
1536
1
Introduction of MIMO for DC HSDPA
9.0.0
46
RP-091188
1540
-
Introduction of Cell Portion for 1.28 Mcps TDD
9.1.0
46
RP-091187
1541
1
Single Stream MIMO for DC-HSDPA
9.1.0
46
RP-091186
1542
-
Activation and deactivation of secondary carrier in non serving Node B
9.1.0
46
RP-091182
1544
1
Correction of abnormal conditions for Dual cell HS-DSCH in RL Addition procedure
9.1.0
46
RP-091180
1551
1
Clarification of the meaning of BIT STRING type IEs for SPS operation for 1.28Mcps TDD
9.1.0
46
RP-091181
1558
1
MAC-e Reset Indicator for MAC-I Reset
9.1.0
46
RP-091182
1560
-
Further Corrections for DC-HSDPA
9.1.0
46
RP-091179
1563
1
Wrong ref in tabular
9.1.0
46
RP-091179
1567

STTD is cell specific in Dual-Cell HSDPA
9.1.0
46
RP-091186
1568
2
Introduction of Dual Cell E-DCH mode of operation
9.1.0
46
RP-091187
1571

Removal of MAC-ehs format indicator
9.1.0
46
RP-091179
1573

Correction on IE “E-AGCH Table Choice”
9.1.0
46
RP-091186
1574
1
Introduction of Re9 HSPA Capability into RNSAP
9.1.0
47
RP-100215
1576

Addition of HS-DSCH physical layer category over Iur
9.2.0
47
RP-100219
1577
1
E-RNTI Allocation for UE moves to Cell_FACH from Cell_DCH
9.2.0
47
RP-100215
1579

Allow reconfiguration of some Ies in RL Addition procedure
9.2.0
47
RP-100219
1581

Correction of DC-HSDPA Capability in Iur
9.2.0
47
RP-100218
1584

Correction for the description of E-DCH serving radio link IE for E-DCH semi-persistent operation
9.2.0
47
RP-100215
1586

Combining E-DCH Radio Links within the RLS
9.2.0
47
RP-100220
1587
1
Correction of Multi-cell Capability Report in Iur
9.2.0
47
RP-100230
1588
2
Introduction of HS-PDSCH resources on TS0 for 1.28Mcps TDD
9.2.0
47
RP-100217
1591
3
Correction to state transition of Enhanced CELL_FACH UE for LCR TDD
9.2.0
47
RP-100230
1592
2
Rel-9 Flexible cell combinations in DC-HSDPA
9.2.0
47
RP-100230
1593
1
Addition of DGNSS Validity Period in RNSAP
9.2.0
47
RP-100229
1594
1
Introduction of UE Aggregate Maximum Bit Rate Enforcement Indicator
9.2.0
47
RP-100218
1596
1
Syncronization detection window configuration in CPC for 1.28 Mcps TDD
9.2.0
47
RP-100230
1597
2
Measurement occasion configuration in CELL_DCH for 1.28Mcps TDD
9.2.0
47
RP-100216
1601

Correction for Procedural Text on E-RNTI Allocation at E-DCH Serving Cell Change
9.2.0
47
RP-100199
1604

Indication of Precoding Weight Set Restriction preference
9.2.0
47
RP-100229
1605

Rapporteur’s update of RNSAP protocol
9.2.0
47
RP-100224
1606
3
Corrections to DC HSUPA
9.2.0
47
RP-100221
1608

Remove Cell Specific HARQ memory partitioning for DC HSDPA+MIMO and additional corrections for HS-DSCH preconfiguration
9.2.0
04/2010



Corrected a typo in ASN.1 to make it pass the syntax checker
9.2.1
04/2010



ToC updated
9.2.2
04/2010



Corrupted headers fixed
9.2.3
48
RP-100592
1618
1
CPC parameters missing for serving HS-DSCH RL change in RL Addition procedure
9.3.0
48
RP-100593
1622

Correction of procedure text that appears to be duplicated and mis-placed
9.3.0
48
RP-100594
1625
2
CQI Feedback Cycle k for DC-HSDPA and MIMO operation
9.3.0
48
RP-100591
1629

Correction when the power offset for S-CPICH for MIMO is zero
9.3.0
48
RP-100545
1631

Correction for Enhanced Serving Cell Change
9.3.0
49
RP-100904
1633
1
Clarification of 64 QAM usage at intra Node B serving HS-DSCH RL change
9.4.0
49
RP-100909
1634
2
Corrections to HSDPA secondary serving cell list handling
9.4.0
49
RP-100905
1637

Correction of procedure text for E-DCH SPS operation
9.4.0
49
RP-100904
1641

Addition of UE with enhanced HS-SCCH support indicator IE for Cell_FACH
9.4.0
09/2010
-
-
-
Release 10 version created based on v9.4.0
10.0.0
49
RP-100911
1635
2
Introduction of 4C-HSDPA
10.0.0
49
RP-100910
1638
1
Small Technical Enhancements and Improvements for GNSS (RNSAP)
10.0.0
50
RP-101275
1642

Correction of 4C-HSDPA secondary serving HS-DSCH RL change
10.1.0
50
RP-101274
1643
2
Introduction of MC-HSUPA to RNSAP
10.1.0
50
RP-101277
1644
2
Introduction of MU-MIMO to RNSAP
10.1.0
50
RP-101269
1647

Corrections to E-DCH MAC-d Flow Multiplexing for 1.28Mcps TDD
10.1.0
50
RP-101269
1650
2
Correction of Inactivity Threshold for UE DRX Cycle for 1.28Mcps TDD
10.1.0
50
RP-101271
1652
1
Power Offset For S-CPICH for MIMO of secondary cell
10.1.0
50
RP-101275
1657
1
Addition of simultaneous cell capability for Multi-Carrier HSDPA and Single Stream MIMO
10.1.0
50
RP-101275
1658
3
Throughput/Energy Savings tradeoff for Dual Band UEs
10.1.0
SP-49
SP-100629


Clarification on the use of References (TS 21.801 CR#0030)
10.2.0
51
RP-110222
1660
1
Addition of Measurement Power Offset in ESCC procedure over Iur
10.2.0
51
RP-110224
1661

Addition of Multi-Carrier E-DCH capability IEs for MC-HSUPA to RNSAP
10.2.0
51
RP-110225
1662
1
Correction related to "Power Offset For S-CPICH for MIMO"
10.2.0
51
RP-110224
1663

Correction of SNPL carrier group indicator for 1.28 Mcps TDD Multi-Carrier E-DCH
10.2.0
51
RP-110228
1664
1
Battery optimization - tabular/ASN.1 mismatch cleanup
10.2.0
51
RP-110230
1667
1
Introduction of MDT
10.2.0
51
RP-110226
1669
5
Extension of maximum number neighbouring RNCs
10.2.0
52
RP-110688
1674
1
Clarification on the Range of Possible Secondary Serving Cell List
10.3.0
52
RP-110681
1677
1
Misalignment between message tabular and ASN.1 for Idle Interval Information IE
10.3.0
52
RP-110689
1678
3
Extend the Number of Supported Carriers for Multi-Carrier HSDPA for 1.28Mcps TDD
10.3.0
52
RP-110880
1681
4
Introduction of Enhancements of Iur-g Interface
10.3.0
52
RP-110689
1682
1
Correction of the dependency of RNSAP to a specific signalling transport network layer
10.3.0
52
RP-110693
1683
3
Introduction of information transfer control for UTRAN ANR related information
10.3.0
52
RP-110681
1685
1
UE support indicator for DL secondary HS-DSCH activation state according to RRC Rel-9
10.3.0
52
RP-110690
1686
1
Correction of abnormal condition text
10.3.0
52
RP-110686
1687
1
Rapporteur’s proposal following review of TS 25.423
10.3.0
52
RP-110693
1688
2
ANR Report Distribution using Direct Information Transfer procedure
10.3.0
52
RP-110693
1689
2
ANR Neighbour cell configuration supported by Information Exchange Initiation procedure
10.3.0
52
RP-110685
1690

Reference review outcome in TS 25.423
10.3.0
53
RP-111194
1698
1
Corrections to UMTS ANR
10.4.0
53
RP-111195
1699
1
Clarification on M1 and M2 in MDT Configuration over Iur
10.4.0
53
RP-111195
1700
3
Clarification on MDT Recording Session Reference in MDT Configuration
10.4.0
53
RP-111195
1701
2
Area scope RAI list in MDT configuration
10.4.0
53
RP-111194
1706
-
Correction of Frequency Band Indicator, adding Band XXV
10.4.0
53
RP-111196
1708
1
Rapporteur corrections
10.4.0
53
RP-111196
1709
-
Correction of some generic references to dated references
10.4.0
53
RP-111196
1710
1
Correction of the CELL_DCH Measurement Occasion Information for 1.28Mcps TDD
10.4.0
54
RP-111654
1714
-
Addition of new Band 26 for E850
10.5.0
54
RP-111649
1715
2
Addition of TCE IP in IUR INVOKE TRACE
10.5.0
54
RP-111651
1718
1
Support for frequency specific compressed mode
10.5.0
54
RP-111645
1724
2
Support of dynamic HS-SCCH order for DTXDRX
10.5.0
12/2011



Release 11 version created based on v10.5.0
11.0.0
54
RP-111653
1716
1
Introduction of UL CLTD
11.0.0
54
RP-111652
1722
1
Introduction of 8-carrier HSDPA
11.0.0
55
RP-120235
1732
1
Addition of new Band 26 for E850
11.1.0
55
RP-120234
1735
-
Correction of placement of Power Offset For S-CPICH for MIMO Request Indicator IE
11.1.0
55
RP-120231
1738
1
The role of RNC in RNSAP Reset procedure
11.1.0
56
RP-120815
1740
-
Clarification of the carrier capability for two-carrier HSDPA for 1.28Mcps TDD
11.2.0
56
RP-120745
1741
1
Some corrections for UL CLTD
11.2.0
56
RP-120744
1743
-
Clarification of the enhanced TS0 capability for 1.28Mcps TDD
11.2.0
56
RP-120752
1750
1
Introduction of Extended S-RNTI
11.2.0
56
RP-120746
1752
3
Supporting Non-adjacent multi-carrier operation
11.2.0
56
RP-120751
1754

Introduction of enhanced DC-HSDPA
11.2.0
57
RP-121131
1756

Corrections on Multicell E-DCH Restriction of Secondary cell list
11.3.0
57
RP-121132
1757
1
Further corrections on UL CLTD
11.3.0
57
RP-121140
1762
1
Correction of misalignment between ASN.1 and tabular format
11.3.0
09/2012



Removed errorneously implemented CR (#1763) [MCC]
11.3.1
58
RP-121730
1766
2
Introduction of UPH in dedicated measurement procedure
11.4.0
58
RP-121726
1767

Supporting MIMO with four transmit antennas
11.4.0
58
RP-121727
1768
3
Introduction of Multiflow in TS 25.423
11.4.0
58
RP-121729
1769
2
Introduction of Uplink MIMO and 64QAM in TS 25.433
11.4.0
58
RP-121725
1771
2
Introduction of Further Enhancements to CELL_FACH feature
11.4.0
58
RP-121737
1779
1
Specification cleanup before freeze
11.4.0
58
RP-121726
1780

ESCC support in MIMO with four transmit antennas
11.4.0
59
RP-130224
1782
2
Addition of new information to neighbouring E-UTRA cell information element
11.5.0
59
RP-130205
1785
1
Adding enhanced serving cell change support for 4C-HSDPA, 8C-HSDPA, Multflow, UL CLTD, UL MIMO, UL 16QAM and 64QAM
11.5.0
59
RP-130206
1789
1
Correction of Power Offset for Multiflow
11.5.0
59
RP-130223
1792
1
Erroneous addition of MDT configuration to Iur
11.5.0
59
RP-130206
1793
1
Codebook restriction in MIMO with four transmit antennas
11.5.0
59
RP-130237
1795
2
Extending maxEARFCN
11.5.0
59
RP-130212
1796
3
Rapporteur correction of RNSAP
11.5.0
59
RP-130206
1798
-
Correction on the values of Non-time Reference IE
11.5.0
60
RP-131180
1803
1
Correct criticality of UL MIMO DL Control Channel Information
11.6.0
62
RP-131902
1807
1
Add missing multiple PLMN list for neigbouring GSM cells
11.7.0
62
RP-131641
1813
2
Correction to Galileo Assistance Data Elements
11.7.0
62
RP-131905
1799
3
Introduction of HSPA signalling enhancements for more efficient resource usage for 1.28Mcps TDD
12.0.0
62
RP-131906
1808
2
Introduction of BeiDou Navigation Satellite System
12.0.0
62
RP-131642
1814
3
Correction to Galileo Assistance Data Elements
12.0.0
64
RP-140900
1816
2
Supporting L-band for Supplemental Downlink in UTRA
12.1.0
64
RP-140899
1826
1
Correction on PLMN list within Neighbouring GSM Cell Information
12.1.0
64
RP-140898
1833
-
Adding assisting HS-DPCCH repetition factors for multiflow
12.1.0
65
RP-141516
1824
3
Introduction of UTRAN Heterogeneous Networks
12.2.0
65
RP-141515
1827
5
Introduction of DCH Enhancements
12.2.0
65
RP-141516
1835
2
Introduction of sub-features for UTRAN Hetnet
12.2.0
66
RP-142086
1838
6
Introduction of further EUL Enhancement
12.3.0
66
RP-142093
1839
3
Adding the multiple frequency band indicators
12.3.0
66
RP-142095
1841
1
Introduction of the UL CLTD feedback from the Multiflow assisting serving cell
12.3.0
66
RP-142086
1842
3
RNC to inform the serving Node B about the TTI switching decision
12.3.0
66
RP-142094
1844
2
RNSAP Rapporteur Update
12.3.0
66
RP-142093
1845
-
Correction of abnormal case handling when value 5 is used in UL DPCCH Slot Format
12.3.0
66
RP-142084
1852
1
BDS Satellite Specific ICD update to version 2.0
12.3.0
66
RP-142081
1853
1
Correction to Galileo Assistance Data
12.3.0
66
RP-142094
1857
1
Correction of section number references for USCH ID and USCH Information
12.3.0
66
RP-142094
1858
-
Alignment of the tabular for RADIO LINK RECONFIGURATION REQUEST (TDD) with the ASN.1
12.3.0
66
RP-142095
1859
-
Usage of E-DCH-Non-Scheduled-Grant-Info in initiating messages (TDD)
12.3.0
67
RP-150350
1861
1
Add missing new SIB for IncMon
12.4.0
67
RP-150349
1862
1
Correction on the value of Activation Delay
12.4.0
67
RP-150356
1863
-
Corrections following Rel-12 ASN.1 review
12.4.0
68
RP-150941
1868
2
Correction of the Additional E-DCH FDD Information IE
12.5.0
68
RP-150942
1870
1
Corrections of EUL Enhancements
12.5.0
69
RP-151453
1871
2
Introduction of the Multiflow 3F-4C configuration
13.0.0
70
RP-152091
1873
3
Enhancement to legacy load balancing mechanism
13.1.0
70
RP-152090
1874
3
Introduction of blind HARQ retransmissions
13.1.0
70
RP-152089
1875
1
Introduction of TPC enhancements
13.1.0
70
RP-152093
1876
2
Introduction of NAICS
13.1.0
70
RP-152090
1877
1
Introduction of improved synchronized RRC procedures
13.1.0
70
RP-152087
1878
1
Introduction of Dual-Band Dual-Cell HSUPA Carrier Aggregation
13.1.0
70
RP-152094
1879
1
Introduce Dual Carrier/Dual Band HSUPA operation with DPDCH channel feature
13.1.0
71
RP-160448
1883
1
Restriction removing for Dual-carrier HSUPA enhancements for UTRAN CS
13.2.0
71
RP-160449
1884
1
Corrections on Extended RNC-ID
13.2.0
71
RP-160449
1885
2
RNSAP Rapporteur Update
13.2.0
72
RP-161049
1887
-
Correction on DL DPCH Slot Format configuration for DCH enhancements
13.3.0
74
RP-162339
1894
-
Introduction of Dual Cell E-DCH operation enhancements configuration
14.0.0


Change history
Date
Meeting
TDoc
CR
Rev
Cat
Subject/Comment
New version
06/2017
RP-76
RP-171324
1896
1
D
Rapporteurs review of 25.423 Editorials
14.1.0
06/2017
RP-76
RP-171327
1897
1
F
Correction of the abnormal case in Dual Cell E-DCH operation enhancements configuration
14.1.0
09/2017
RP-77
RP-171981
1900
-
A
Removal of references to 44.118
14.2.0






Version 14.2.0 is withdraw (Version is corrupted)

11/2017
RP-77
RP-171981
1900
-
A
Removal of references to 44.118
14.3.0
12/2017
RP-78
RP-172676
1901
2
B
Support on a simplified HS-SCCH for UMTS
15.0.0
2020-07
SA#88-e
-
-
-
-
Update to Rel-16 version (MCC)
16.0.0

