﻿3GPP TS 36.413 V16.10.0 (2022-06)
Technical Specification
3rd Generation Partnership Project;
Technical Specification Group Radio Access Network;
Evolved Universal Terrestrial Radio Access Network
(E-UTRAN);
S1 Application Protocol (S1AP)
(Release 16)


Keywords
LTE, radio

3GPP
Postal address

3GPP support office address
650 Route des Lucioles - Sophia Antipolis
Valbonne - FRANCE
Tel.: +33 4 92 94 42 00 Fax: +33 4 93 65 47 16
Internet
http://www.3gpp.org

Copyright Notification
No part may be reproduced except as authorized by written permission.
The copyright and the foregoing restriction extend to reproduction in all media.

© 2022, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TSDSI, TTA, TTC).
All rights reserved.

UMTS™ is a Trade Mark of ETSI registered for the benefit of its members
3GPP™ is a Trade Mark of ETSI registered for the benefit of its Members and of the 3GPP Organizational Partners
LTE™ is a Trade Mark of ETSI registered for the benefit of its Members and of the 3GPP Organizational Partners
GSM® and the GSM logo are registered and owned by the GSM Association
Contents
Foreword	15
1	Scope	16
2	References	16
3	Definitions and abbreviations	19
3.1	Definitions	19
3.2	Abbreviations	20
4	General	21
4.1	Procedure Specification Principles	21
4.2	Forwards and Backwards Compatibility	22
4.3	Specification Notations	22
5	S1AP Services	23
6	Services Expected from Signalling Transport	24
7	Functions of S1AP	25
8	S1AP Procedures	27
8.1	List of S1AP Elementary procedures	27
8.2	E-RAB Management procedures	30
8.2.1	E-RAB Setup	30
8.2.1.1	General	30
8.2.1.2	Successful Operation	30
8.2.1.3	Unsuccessful Operation	32
8.2.1.4	Abnormal Conditions	32
8.2.2	E-RAB Modify	32
8.2.2.1	General	32
8.2.2.2	Successful Operation	32
8.2.2.3	Unsuccessful Operation	33
8.2.2.4	Abnormal Conditions	34
8.2.3	E-RAB Release	34
8.2.3.1	General	34
8.2.3.2	Successful Operation	34
8.2.3.2.1	E-RAB Release – MME initiated	34
8.2.3.2.2	E-RAB Release Indication – eNB initiated	35
8.2.3.3	Abnormal Conditions	36
8.2.4	E-RAB Modification Indication	36
8.2.4.1	General	36
8.2.4.2	Successful Operation	36
8.2.4.3	Unsuccessful Operation	37
8.2.4.4	Abnormal Conditions	37
8.3	Context Management procedures	37
8.3.1	Initial Context Setup	37
8.3.1.1	General	37
8.3.1.2	Successful Operation	38
8.3.1.3	Unsuccessful Operation	42
8.3.1.4	Abnormal Conditions	42
8.3.2	UE Context Release Request (eNB initiated)	43
8.3.2.1	General	43
8.3.2.2	Successful Operation	43
8.3.3	UE Context Release (MME initiated)	44
8.3.3.1	General	44
8.3.3.2	Successful Operation	44
8.3.3.3	Abnormal Conditions	45
8.3.4	UE Context Modification	45
8.3.4.1	General	45
8.3.4.2	Successful Operation	45
8.3.4.3	Unsuccessful Operation	48
8.3.4.4	Abnormal Conditions	48
8.3.5	UE Radio Capability Match	48
8.3.5.1	General	48
8.3.5.2	Successful Operation	48
8.3.5.3	Unsuccessful Operation	49
8.3.5.4	Abnormal Conditions	49
8.3.6	UE Context Modification Indication	49
8.3.6.1	General	49
8.3.6.2	Successful Operation	49
8.3.6.3	Unsuccessful Operation	49
8.3.6.4	Abnormal Conditions	50
8.3.7	UE Context Suspend	50
8.3.7.1	General	50
8.3.7.2	Successful Operation	50
8.3.8	UE Context Resume	50
8.3.8.1	General	50
8.3.8.2	Successful Operation	51
8.3.8.3	Unsuccessful Operation	51
8.3.9	Connection Establishment Indication	52
8.3.9.1	General	52
8.3.9.2	Successful Operation	52
8.3.9.3	Unsuccessful Operation	52
8.3.9.4	Abnormal Conditions	53
8.3.10	Retrieve UE Information	53
8.3.10.1	General	53
8.3.10.2	Successful Operation	53
8.3.10.3	Unsuccessful Operation	53
8.3.10.4	Abnormal Conditions	53
8.3.11	UE Information Transfer	53
8.3.11.1	General	53
8.3.11.2	Successful Operation	53
8.3.11.3	Unsuccessful Operation	54
8.3.11.4	Abnormal Conditions	54
8.3.12	eNB CP Relocation Indication	54
8.3.12.1	General	54
8.3.12.2	Successful Operation	55
8.3.12.3	Unsuccessful Operation	55
8.3.12.4	Abnormal Conditions	55
8.3.13	MME CP Relocation Indication	55
8.3.13.1	General	55
8.3.13.2	Successful Operation	55
8.3.13.3	Unsuccessful Operation	56
8.3.13.4	Abnormal Conditions	56
8.4	Handover Signalling	56
8.4.1	Handover Preparation	56
8.4.1.1	General	56
8.4.1.2	Successful Operation	56
8.4.1.3	Unsuccessful Operation	60
8.4.1.4	Abnormal Conditions	60
8.4.2	Handover Resource Allocation	60
8.4.2.1	General	60
8.4.2.2	Successful Operation	61
8.4.2.3	Unsuccessful Operation	65
8.4.2.4	Abnormal Conditions	66
8.4.3	Handover Notification	66
8.4.3.1	General	66
8.4.3.2	Successful Operation	66
8.4.3.3	Abnormal Conditions	67
8.4.4	Path Switch Request	67
8.4.4.1	General	67
8.4.4.2	Successful Operation	67
8.4.4.3	Unsuccessful Operation	70
8.4.4.4	Abnormal Conditions	70
8.4.5	Handover Cancellation	70
8.4.5.1	General	70
8.4.5.2	Successful Operation	71
8.4.5.3	Unsuccessful Operation	71
8.4.5.4	Abnormal Conditions	71
8.4.6	eNB Status Transfer	71
8.4.6.1	General	71
8.4.6.2	Successful Operation	71
8.4.6.3	Unsuccessful Operation	72
8.4.6.4	Abnormal Conditions	72
8.4.7	MME Status Transfer	72
8.4.7.1	General	72
8.4.7.2	Successful Operation	72
8.4.7.3	Unsuccessful Operation	73
8.4.7.4	Abnormal Conditions	73
8.4.8	Handover Success	73
8.4.8.1	General	73
8.4.8.2	Successful Operation	73
8.4.8.3	Abnormal Conditions	73
8.4.9	eNB Early Status Transfer	73
8.4.9.1	General	73
8.4.9.2	Successful Operation	74
8.4.9.3	Unsuccessful Operation	74
8.4.9.4	Abnormal Conditions	74
8.4.10	MME Early Status Transfer	74
8.4.10.1	General	74
8.4.10.2	Successful Operation	74
8.4.10.3	Unsuccessful Operation	75
8.4.10.4	Abnormal Conditions	75
8.5	Paging	75
8.5.1	General	75
8.5.2	Successful Operation	75
8.5.3	Unsuccessful Operation	76
8.5.4	Abnormal Conditions	76
8.6	NAS transport	76
8.6.1	General	76
8.6.2	Successful Operations	77
8.6.2.1	Initial UE Message	77
8.6.2.2	DOWNLINK NAS TRANSPORT	78
8.6.2.3	UPLINK NAS TRANSPORT	80
8.6.2.4	NAS NON DELIVERY INDICATION	80
8.6.2.4a	NAS DELIVERY INDICATION	81
8.6.2.5	Reroute NAS Request	81
8.6.3	Unsuccessful Operation	81
8.6.4	Abnormal Conditions	81
8.7	Management procedures	82
8.7.1	Reset	82
8.7.1.1	General	82
8.7.1.2	Successful Operation	82
8.7.1.2.1	Reset Procedure Initiated from the MME	82
8.7.1.2.2	Reset Procedure Initiated from the E-UTRAN	83
8.7.1.3	Abnormal Conditions	84
8.7.1.3.1	Abnormal Condition at the EPC	84
8.7.1.3.2	Abnormal Condition at the E-UTRAN	84
8.7.1.3.3	Crossing of Reset Messages	84
8.7.2	Error Indication	84
8.7.2.1	General	84
8.7.2.2	Successful Operation	84
8.7.2.3	Abnormal Conditions	85
8.7.3	S1 Setup	85
8.7.3.1	General	85
8.7.3.2	Successful Operation	85
8.7.3.3	Unsuccessful Operation	86
8.7.3.4	Abnormal Conditions	86
8.7.4	eNB Configuration Update	86
8.7.4.1	General	86
8.7.4.2	Successful Operation	87
8.7.4.3	Unsuccessful Operation	88
8.7.4.4	Abnormal Conditions	88
8.7.5	MME Configuration Update	88
8.7.5.1	General	88
8.7.5.2	Successful Operation	88
8.7.5.3	Unsuccessful Operation	89
8.7.5.4	Abnormal Conditions	89
8.7.6	Overload Start	89
8.7.6.1	General	89
8.7.6.2	Successful Operation	90
8.7.6.3	Unsuccessful Operation	91
8.7.7	Overload Stop	91
8.7.7.1	General	91
8.7.7.2	Successful Operation	91
8.7.7.3	Unsuccessful Operation	91
8.8	S1 CDMA2000 Tunnelling Procedures	91
8.8.1	General	91
8.8.2	Successful Operations	92
8.8.2.1	Downlink S1 CDMA2000 Tunnelling	92
8.8.2.2	Uplink S1 CDMA2000 Tunnelling	92
8.8.3	Unsuccessful Operation	93
8.8.4	Abnormal Conditions	93
8.9	UE Capability Info Indication	93
8.9.1	General	93
8.9.2	Successful Operation	93
8.9.3	Abnormal Conditions	94
8.10	Trace Procedures	94
8.10.1	Trace Start	94
8.10.1.1	General	94
8.10.1.2	Successful Operation	94
8.10.2	Trace Failure Indication	95
8.10.2.1	General	95
8.10.2.2	Successful Operation	95
8.10.3	Deactivate Trace	95
8.10.3.1	General	95
8.10.3.2	Successful Operation	96
8.10.4	Cell Traffic Trace	96
8.10.4.1	General	96
8.10.4.2	Successful Operation	96
8.11	Location Reporting Procedures	96
8.11.1	Location Reporting Control	96
8.11.1.1	General	96
8.11.1.2	Successful Operation	97
8.11.1.3	Abnormal Conditions	97
8.11.2	Location Report Failure Indication	97
8.11.2.1	General	97
8.11.2.2	Successful Operation	97
8.11.3	Location Report	98
8.11.3.1	General	98
8.11.3.2	Successful Operation	98
8.11.3.3	Abnormal Conditions	98
8.12	Warning Message Transmission Procedures	98
8.12.1	Write-Replace Warning	98
8.12.1.1	General	98
8.12.1.2	Successful Operation	99
8.12.1.3	Abnormal Conditions	100
8.12.2	Kill	100
8.12.2.1	General	100
8.12.2.2	Successful Operation	100
8.12.3	PWS Restart Indication	101
8.12.3.1	General	101
8.12.3.2	Successful Operation	101
8.12.4	PWS Failure Indication	101
8.12.4.1	General	101
8.12.4.2	Successful Operation	101
8.13	eNB Direct Information Transfer	102
8.13.1	General	102
8.13.2	Successful Operation	102
8.13.2.1	eNB Direct Information Transfer	102
8.13.3	Abnormal Conditions	102
8.14	MME Direct Information Transfer	102
8.14.1	General	102
8.14.2	Successful Operation	103
8.14.2.1	MME Direct Information Transfer	103
8.14.3	Abnormal Conditions	103
8.15	eNB Configuration Transfer	103
8.15.1	General	103
8.15.2	Successful Operation	103
8.15.2.1	eNB Configuration Transfer	103
8.15.3	Abnormal Conditions	104
8.16	MME Configuration Transfer	104
8.16.1	General	104
8.16.2	Successful Operation	104
8.16.2.1	MME Configuration Transfer	104
8.16.3	Abnormal Conditions	105
8.17	LPPa transport	105
8.17.1	General	105
8.17.2	Successful Operations	106
8.17.2.1	DOWNLINK UE ASSOCIATED LPPA TRANSPORT	106
8.17.2.2	UPLINK UE ASSOCIATED LPPA TRANSPORT	106
8.17.2.3	DOWNLINK NON UE ASSOCIATED LPPA TRANSPORT	106
8.17.2.4	UPLINK NON UE ASSOCIATED LPPA TRANSPORT	107
8.17.3	Unsuccessful Operation	107
8.17.4	Abnormal Conditions	107
8.18	Secondary RAT Data Usage Report	107
8.18.1	General	107
8.18.2	Successful Operations	107
8.18.2.1	SECONDARY RAT DATA USAGE REPORT	107
8.18.3	Unsuccessful Operation	108
8.18.4	Abnormal Conditions	108
8.19	UE Radio Capability ID Mapping	108
8.19.1	General	108
8.19.2	Successful Operation	108
8.19.3	Unsuccessful Operation	108
8.19.4	Abnormal Conditions	108
9	Elements for S1AP Communication	109
9.1	Message Functional Definition and Content	109
9.1.1	General	109
9.1.2	Message Contents	109
9.1.2.1	Presence	109
9.1.2.2	Criticality	109
9.1.2.3	Range	109
9.1.2.4	Assigned Criticality	109
9.1.3	E-RAB Management Messages	110
9.1.3.1	E-RAB SETUP REQUEST	110
9.1.3.2	E-RAB SETUP RESPONSE	111
9.1.3.3	E-RAB MODIFY REQUEST	112
9.1.3.4	E-RAB MODIFY RESPONSE	113
9.1.3.5	E-RAB RELEASE COMMAND	113
9.1.3.6	E-RAB RELEASE RESPONSE	114
9.1.3.7	E-RAB RELEASE INDICATION	114
9.1.3.8	E-RAB MODIFICATION INDICATION	115
9.1.3.9	E-RAB MODIFICATION CONFIRM	116
9.1.4	Context Management Messages	116
9.1.4.1	INITIAL CONTEXT SETUP REQUEST	116
9.1.4.2	Void	118
9.1.4.3	INITIAL CONTEXT SETUP RESPONSE	118
9.1.4.4	INITIAL CONTEXT SETUP FAILURE	119
9.1.4.5	UE CONTEXT RELEASE REQUEST	119
9.1.4.6	UE CONTEXT RELEASE COMMAND	119
9.1.4.7	UE CONTEXT RELEASE COMPLETE	119
9.1.4.8	UE CONTEXT MODIFICATION REQUEST	120
9.1.4.9	UE CONTEXT MODIFICATION RESPONSE	121
9.1.4.10	UE CONTEXT MODIFICATION FAILURE	122
9.1.4.11	UE RADIO CAPABILITY MATCH REQUEST	122
9.1.4.12	UE RADIO CAPABILITY MATCH RESPONSE	122
9.1.4.13	UE CONTEXT MODIFICATION INDICATION	122
9.1.4.14	UE CONTEXT MODIFICATION CONFIRM	123
9.1.4.15	UE CONTEXT SUSPEND REQUEST	123
9.1.4.16	UE CONTEXT SUSPEND RESPONSE	123
9.1.4.17	UE CONTEXT RESUME REQUEST	124
9.1.4.18	UE CONTEXT RESUME RESPONSE	124
9.1.4.19	UE CONTEXT RESUME FAILURE	125
9.1.4.20	CONNECTION ESTABLISHMENT INDICATION	125
9.1.4.21	RETRIEVE UE INFORMATION	125
9.1.4.22	UE INFORMATION TRANSFER	125
9.1.4.23	eNB CP RELOCATION INDICATION	126
9.1.4.24	MME CP RELOCATION INDICATION	126
9.1.5	Handover Signalling Messages	127
9.1.5.1	HANDOVER REQUIRED	127
9.1.5.2	HANDOVER COMMAND	128
9.1.5.3	HANDOVER PREPARATION FAILURE	129
9.1.5.4	HANDOVER REQUEST	130
9.1.5.5	HANDOVER REQUEST ACKNOWLEDGE	132
9.1.5.6	HANDOVER FAILURE	132
9.1.5.7	HANDOVER NOTIFY	133
9.1.5.8	PATH SWITCH REQUEST	134
9.1.5.9	PATH SWITCH REQUEST ACKNOWLEDGE	135
9.1.5.10	PATH SWITCH REQUEST FAILURE	136
9.1.5.11	HANDOVER CANCEL	136
9.1.5.12	HANDOVER CANCEL ACKNOWLEDGE	136
9.1.5.13	eNB STATUS TRANSFER	136
9.1.5.14	MME STATUS TRANSFER	137
9.1.5.15	HANDOVER SUCCESS	137
9.1.5.16	eNB EARLY STATUS TRANSFER	137
9.1.5.17	MME EARLY STATUS TRANSFER	137
9.1.6	PAGING	138
9.1.7	NAS Transport Messages	139
9.1.7.1	INITIAL UE MESSAGE	139
9.1.7.2	DOWNLINK NAS TRANSPORT	140
9.1.7.3	UPLINK NAS TRANSPORT	140
9.1.7.4	NAS NON DELIVERY INDICATION	141
9.1.7.4a	NAS DELIVERY INDICATION	141
9.1.7.5	REROUTE NAS REQUEST	142
9.1.8	Management messages	142
9.1.8.1	RESET	142
9.1.8.2	RESET ACKNOWLEDGE	142
9.1.8.3	ERROR INDICATION	143
9.1.8.4	S1 SETUP REQUEST	143
9.1.8.5	S1 SETUP RESPONSE	145
9.1.8.6	S1 SETUP FAILURE	145
9.1.8.7	ENB CONFIGURATION UPDATE	146
9.1.8.8	ENB CONFIGURATION UPDATE ACKNOWLEDGE	148
9.1.8.9	ENB CONFIGURATION UPDATE FAILURE	148
9.1.8.10	MME CONFIGURATION UPDATE	148
9.1.8.11	MME CONFIGURATION UPDATE ACKNOWLEDGE	149
9.1.8.12	MME CONFIGURATION UPDATE FAILURE	149
9.1.8.13	OVERLOAD START	150
9.1.8.14	OVERLOAD STOP	150
9.1.9	S1 CDMA2000 Tunnelling Messages	151
9.1.9.1	DOWNLINK S1 CDMA2000 TUNNELLING	151
9.1.9.2	UPLINK S1 CDMA2000 TUNNELLING	151
9.1.10	UE CAPABILITY INFO INDICATION	151
9.1.11	Trace Messages	152
9.1.11.1	TRACE START	152
9.1.11.2	TRACE FAILURE INDICATION	152
9.1.11.3	DEACTIVATE TRACE	153
9.1.12	Location Reporting Messages	153
9.1.12.1	LOCATION REPORTING CONTROL	153
9.1.12.2	LOCATION REPORT FAILURE INDICATION	153
9.1.12.3	LOCATION REPORT	153
9.1.13	Warning Message Transmission Messages	154
9.1.13.1	WRITE-REPLACE WARNING REQUEST	154
9.1.13.2	WRITE-REPLACE WARNING RESPONSE	154
9.1.13.3	KILL REQUEST	154
9.1.13.4	KILL RESPONSE	155
9.1.13.5	PWS RESTART INDICATION	155
9.1.13.6	PWS FAILURE INDICATION	156
9.1.14	eNB DIRECT INFORMATION TRANSFER	156
9.1.15	MME DIRECT INFORMATION TRANSFER	156
9.1.16	eNB CONFIGURATION TRANSFER	156
9.1.17	MME CONFIGURATION TRANSFER	157
9.1.18	CELL TRAFFIC TRACE	157
9.1.19	LPPa Transport Messages	158
9.1.19.1	DOWNLINK UE ASSOCIATED LPPA TRANSPORT	158
9.1.19.2	UPLINK UE ASSOCIATED LPPA TRANSPORT	158
9.1.19.3	DOWNLINK NON UE ASSOCIATED LPPA TRANSPORT	159
9.1.19.4	UPLINK NON UE ASSOCIATED LPPA TRANSPORT	159
9.1.20	Secondary RAT Report Data Usage Messages	159
9.1.20.1	SECONDARY RAT DATA USAGE REPORT	159
9.1.21	UE Radio Capability ID Mapping Messages	159
9.1.21.1	UE RADIO CAPABILITY ID MAPPING REQUEST	159
9.1.21.2	UE RADIO CAPABILITY ID MAPPING RESPONSE	160
9.2	Information Element Definitions	160
9.2.0	General	160
9.2.1	Radio Network Layer Related IEs	160
9.2.1.1	Message Type	160
9.2.1.2	E-RAB ID	160
9.2.1.3	Cause	161
9.2.1.3a	RRC Establishment Cause	165
9.2.1.4	Trace Activation	165
9.2.1.5	Source ID	166
9.2.1.6	Target ID	166
9.2.1.7	Source eNB to Target eNB Transparent Container	167
9.2.1.8	Target eNB to Source eNB Transparent Container	169
9.2.1.9	Source RNC to Target RNC Transparent Container	169
9.2.1.10	Target RNC to Source RNC Transparent Container	170
9.2.1.11	Source BSS to Target BSS Transparent Container	170
9.2.1.12	Target BSS to Source BSS Transparent Container	170
9.2.1.13	Handover Type	170
9.2.1.14	Extended RNC-ID	170
9.2.1.15	E-RAB Level QoS Parameters	170
9.2.1.16	Paging DRX	171
9.2.1.17	Paging Cause	171
9.2.1.18	GBR QoS Information	171
9.2.1.19	Bit Rate	172
9.2.1.20	UE Aggregate Maximum Bit Rate	173
9.2.1.21	Criticality Diagnostics	173
9.2.1.22	Handover Restriction List	174
9.2.1.23	CDMA2000-PDU	176
9.2.1.24	CDMA2000 RAT Type	176
9.2.1.25	CDMA2000 Sector ID	177
9.2.1.26	Security Context	177
9.2.1.27	UE Radio Capability	178
9.2.1.28	CDMA2000 HO Status	178
9.2.1.29	CDMA2000 HO Required Indication	178
9.2.1.30	1xRTT MEID	178
9.2.1.31	eNB Status Transfer Transparent Container	178
9.2.1.32	COUNT Value	180
9.2.1.33	CDMA2000 1xRTT RAND	180
9.2.1.34	Request Type	181
9.2.1.35	CDMA2000 1xRTT SRVCC Info	181
9.2.1.36	E-RAB List	181
9.2.1.37	Global eNB ID	182
9.2.1.37a	Global en-gNB ID	182
9.2.1.38	E-UTRAN CGI	182
9.2.1.39	Subscriber Profile ID for RAT/Frequency priority	182
9.2.1.39a	Additional RRM Policy Index	183
9.2.1.40	UE Security Capabilities	183
9.2.1.41	Security Key	183
9.2.1.42	UE History Information	183
9.2.1.43	Last Visited Cell Information	184
9.2.1.43a	Last Visited E-UTRAN Cell Information	184
9.2.1.43b	Last Visited GERAN Cell Information	185
9.2.1.44	Message Identifier	185
9.2.1.45	Serial Number	185
9.2.1.46	Warning Area List	185
9.2.1.47	Emergency Area ID	186
9.2.1.48	Repetition Period	186
9.2.1.49	Number of Broadcasts Requested	186
9.2.1.50	Warning Type	186
9.2.1.51	Warning Security Information	187
9.2.1.52	Data Coding Scheme	187
9.2.1.53	Warning Message Contents	187
9.2.1.54	Broadcast Completed Area List	187
9.2.1.55	Inter-system Information Transfer Type	188
9.2.1.56	Source To Target Transparent Container	188
9.2.1.57	Target To Source Transparent Container	189
9.2.1.58	SRVCC Operation Possible	189
9.2.1.59	SRVCC HO Indication	189
9.2.1.60	Allocation and Retention Priority	189
9.2.1.61	Time to wait	190
9.2.1.62	CSG Id	190
9.2.1.63	CSG Id List	190
9.2.1.64	MS Classmark 2	191
9.2.1.65	MS Classmark 3	191
9.2.1.66	Cell Type	191
9.2.1.67	Old BSS to New BSS Information	191
9.2.1.68	Layer 3 Information	191
9.2.1.69	E-UTRAN Round Trip Delay Estimation Info	191
9.2.1.70	Broadcast Cancelled Area List	191
9.2.1.71	Number of Broadcasts	192
9.2.1.72	Concurrent Warning Message Indicator	192
9.2.1.73	CSG Membership Status	193
9.2.1.74	Cell Access Mode	193
9.2.1.75	Extended Repetition Period	193
9.2.1.76	Data Forwarding Not Possible	193
9.2.1.77	PS Service Not Available	193
9.2.1.78	Paging Priority	193
9.2.1.79	Relay Node Indicator	194
9.2.1.80	Correlation ID	194
9.2.1.81	MDT Configuration	194
9.2.1.82	MME Relay Support Indicator	197
9.2.1.83	Management Based MDT Allowed	197
9.2.1.84	GW Context Release Indication	198
9.2.1.85	Voice Support Match Indicator	198
9.2.1.86	M3 Configuration	198
9.2.1.87	M4 Configuration	198
9.2.1.88	M5 Configuration	198
9.2.1.89	MDT PLMN List	199
9.2.1.90	COUNT Value Extended	199
9.2.1.91	Kill-all Warning Messages Indicator	199
9.2.1.92	LHN ID	199
9.2.1.93	User Location Information	199
9.2.1.94	MBSFN-ResultToLog	200
9.2.1.95	EARFCN	200
9.2.1.96	Expected UE Behaviour	200
9.2.1.97	Expected UE Activity Behaviour	201
9.2.1.98	UE Radio Capability for Paging	201
9.2.1.99	ProSe Authorized	201
9.2.1.100	COUNT Value for PDCP SN Length 18	202
9.2.1.101	M6 Configuration	202
9.2.1.102	M7 Configuration	202
9.2.1.103	Assistance Data for Paging	203
9.2.1.104	Assistance Data for Recommended Cells	203
9.2.1.105	Information on Recommended Cells and eNBs for Paging	203
9.2.1.106	Recommended Cells for Paging	203
9.2.1.107	Recommended eNBs for Paging	204
9.2.1.108	Assistance Data for CE capable UEs	204
9.2.1.109	Cell Identifier and Coverage Enhancement Level	205
9.2.1.110	Paging Attempt Information	205
9.2.1.111	Paging eDRX Information	205
9.2.1.112	UE Retention Information	205
9.2.1.113	UE User Plane CIoT Support Indicator	205
9.2.1.114	NB-IoT Default Paging DRX	206
9.2.1.115	NB-IoT Paging eDRX Information	206
9.2.1.116	Bearer Type	206
9.2.1.117	RAT Type	206
9.2.1.118	CE-mode-B Support Indicator	206
9.2.1.119	SRVCC Operation Not Possible	206
9.2.1.120	V2X Services Authorized	207
9.2.1.121	Served DCNs Items	207
9.2.1.122	UE Sidelink Aggregate Maximum Bit Rate	207
9.2.1.123	Enhanced Coverage Restricted	207
9.2.1.124	Secondary RAT Usage Report List	208
9.2.1.125	Handover Flag	209
9.2.1.126	Extended Bit Rate	209
9.2.1.127	NR UE Security Capabilities	209
9.2.1.128	UE Application layer measurement configuration	209
9.2.1.129	CE-mode-B Restricted	210
9.2.1.130	Packet Loss Rate	211
9.2.1.131 	Global RAN Node ID	211
9.2.1.132	Global gNB ID	211
9.2.1.133	Source NG-RAN Node To Target NG-RAN Node Transparent Container	211
9.2.1.134	Target NG-RAN Node To Source NG-RAN Node Transparent Container	212
9.2.1.135	LTE-M Indication	212
9.2.1.136	Aerial UE subscription information	212
9.2.1.137	Bluetooth Measurement Configuration	212
9.2.1.138	WLAN Measurement Configuration	212
9.2.1.139	Warning Area Coordinates	213
9.2.1.140	Subscription Based UE Differentiation Information	213
9.2.1.141	PSCell Information	214
9.2.1.142	NR CGI	215
9.2.1.143	Time Since Secondary Node Release	215
9.2.1.144	UE Context Reference at Source	215
9.2.1.145	RAN UE NGAP ID	215
9.2.1.146	IAB Authorized	215
9.2.1.147	Ethernet Type	216
9.2.1.148	NR V2X Services Authorized	216
9.2.1.149	NR UE Sidelink Aggregate Maximum Bit Rate	216
9.2.1.150	PC5 QoS Parameters	216
9.2.1.151	Inter System Measurement Configuration	217
9.2.1.152	Source Node ID	219
9.2.1.153	UE Radio Capability ID	219
9.2.1.154	UE Radio Capability – NR Format	219
9.2.1.155	DAPS Request Information	220
9.2.1.156	DAPS Response Information	220
9.2.1.157	eNB Early Status Transfer Transparent Container	220
9.2.1.158	WUS Assistance Information	221
9.2.1.159	NB-IoT Paging DRX	221
9.2.1.160	UE Radio Capability for Paging – NR Format	221
9.2.2	Transport Network Layer Related IEs	222
9.2.2.1	Transport Layer Address	222
9.2.2.2	GTP-TEID	222
9.2.2.3	Tunnel Information	222
9.2.2.4	URI	222
9.2.3	NAS Related IEs	223
9.2.3.1	LAI	223
9.2.3.2	RAC	223
9.2.3.3	MME UE S1AP ID	223
9.2.3.4	eNB UE S1AP ID	223
9.2.3.5	NAS-PDU	223
9.2.3.6	S-TMSI	224
9.2.3.7	TAC	224
9.2.3.8	PLMN Identity	224
9.2.3.9	GUMMEI	224
9.2.3.10	UE Identity Index value	224
9.2.3.11	IMSI	225
9.2.3.12	MMEC	225
9.2.3.13	UE Paging Identity	225
9.2.3.14	DL Forwarding	225
9.2.3.15	Direct Forwarding Path Availability	226
9.2.3.16	TAI	226
9.2.3.17	Relative MME Capacity	226
9.2.3.18	UE S1AP ID pair	226
9.2.3.19	Overload Response	226
9.2.3.20	Overload Action	226
9.2.3.21	CS Fallback Indicator	227
9.2.3.22	CN Domain	227
9.2.3.23	RIM Transfer	227
9.2.3.24	RIM Information	227
9.2.3.25	RIM Routing Address	227
9.2.3.26	SON Configuration Transfer	228
9.2.3.26a	EN-DC SON Configuration Transfer	229
9.2.3.27	SON Information	229
9.2.3.28	SON Information Reply	230
9.2.3.29	X2 TNL Configuration Info	230
9.2.3.30	NAS Security Parameters from E-UTRAN	231
9.2.3.31	NAS Security Parameters to E-UTRAN	231
9.2.3.32	LPPa-PDU	232
9.2.3.33	Routing ID	232
9.2.3.34	Time Synchronisation Info	232
9.2.3.35	Void	232
9.2.3.36	Traffic Load Reduction Indication	232
9.2.3.37	Additional CS Fallback Indicator	233
9.2.3.38	Masked IMEISV	233
9.2.3.39	SON Information Report	233
9.2.3.40	RLF Report Information	233
9.2.3.41	Muting Pattern Information	234
9.2.3.42	Synchronisation Information	234
9.2.3.43	Listening Subframe Pattern	234
9.2.3.44	MME Group ID	234
9.2.3.45	Additional GUTI	235
9.2.3.46	Extended UE Identity Index Value	235
9.2.3.47	NB-IoT UE Identity Index Value	235
9.2.3.48	DL NAS PDU Delivey Request	235
9.2.3.49	DL CP Security Information	235
9.2.3.50	UL CP Security Information	236
9.2.3.51	UE Capability Info Request	236
9.2.3.52	5GS TAI	236
9.2.3.53	5GS TAC	236
9.2.3.54	End Indication	236
9.2.3.55	Pending Data Indication	236
9.3	Message and Information Element Abstract Syntax (with ASN.1)	238
9.3.0	General	238
9.3.1	Usage of private message mechanism for non-standard use	238
9.3.2	Elementary Procedure Definitions	239
9.3.3	PDU Definitions	254
9.3.4	Information Element Definitions	318
9.3.5	Common Definitions	378
9.3.6	Constant Definitions	378
9.3.7	Container Definitions	388
9.4	Message Transfer Syntax	392
9.5	Timers	392
10	Handling of Unknown, Unforeseen and Erroneous Protocol Data	393
10.1	General	393
10.2	Transfer Syntax Error	393
10.3	Abstract Syntax Error	393
10.3.1	General	393
10.3.2	Criticality Information	394
10.3.3	Presence Information	394
10.3.4	Not comprehended IE/IE group	395
10.3.4.1	Procedure Code	395
10.3.4.1A	Type of Message	395
10.3.4.2	IEs other than the Procedure Code and Type of Message	395
10.3.5	Missing IE or IE group	396
10.3.6	IEs or IE groups received in wrong order or with too many occurrences or erroneously present	397
10.4	Logical Error	398
10.5	Exceptions	398
10.6	Handling of AP ID	399
Annex A (informative): S1AP Transparent containers content	400
Annex B (normative): IEs for SON Transfer	401
B.1	Tabular definition	401
B.1.1	SON Transfer Application Identity	401
B.1.2	SON Transfer Request Container	401
B.1.3	SON Transfer Response Container	402
B.1.4	SON Transfer Cause	403
B.1.5	Cell Load Reporting Response	405
B.1.6	E-UTRAN Cell Load Reporting Response	405
B.1.7	Multi-Cell Load Reporting Request	406
B.1.8	IRAT Cell ID	406
B.1.9	Multi-Cell Load Reporting Response	406
B.1.10	Cell Load Reporting Cause	407
B.1.11	Event-Triggered Cell Load Reporting Request	408
B.1.12	Event-triggered Cell Load Reporting Response	408
B.1.13	HO Report	408
B.1.14	Cell Activation Request	409
B.1.15	Cell Activation Response	410
B.1.16	Cell State Indication	410
B.1.17	Failure Event Report	410
B.1.18	eHRPD Sector ID	411
B.1.19	eHRPD Sector Load Reporting Response	411
B.1.20	eHRPD Composite Available Capacity	411
B.1.21	eHRPD Sector Capacity Class Value	412
B.1.22	eHRPD Capacity Value	412
B.1.23	Candidate PCI	412
B.2	ASN.1 definition	412
Annex C (informative): Processing of Transparent Containers at the MME	417
Annex D (informative): Change history	418

Foreword
This Technical Specification has been produced by the 3rd Generation Partnership Project (3GPP).
The contents of the present document are subject to continuing work within the TSG and may change following formal TSG approval. Should the TSG modify the contents of the present document, it will be re-released by the TSG with an identifying change of release date and an increase in version number as follows:
Version x.y.z
where:
x	the first digit
1	presented to TSG for information;
2	presented to TSG for approval;
3	or greater indicates TSG approved document under change control.
y	the second digit is incremented for all changes of substance, i.e., technical enhancements, corrections, updates, etc.
z	the third digit is incremented when editorial only changes have been incorporated in the document.
1	Scope
The present document specifies the E-UTRAN radio network layer signalling protocol for the S1 interface. The S1 Application Protocol (S1AP) supports the functions of S1 interface by signalling procedures defined in this document. S1AP is developed in accordance to the general principles stated in TS 36.401 [2] and TS 36.410 [3].
2	References
The following documents contain provisions which, through reference in this text, constitute provisions of the present document.
-	References are either specific (identified by date of publication, edition number, version number, etc.) or non‑specific.
-	For a specific reference, subsequent revisions do not apply.
-	For a non-specific reference, the latest version applies. In the case of a reference to a 3GPP document (including a GSM document), a non-specific reference implicitly refers to the latest version of that document in the same Release as the present document.
[1]	3GPP TR 21.905: "Vocabulary for 3GPP Specifications".
[2]	3GPP TS 36.401: "E-UTRAN Architecture Description".
[3]	3GPP TS 36.410: "S1 General Aspects and Principles".
[4]	ITU-T Recommendation X.691 (07/2002): "Information technology – ASN.1 encoding rules: Specification of Packed Encoding Rules (PER)".
[5]	ITU-T Recommendation X.680 (07/2002): "Information technology – Abstract Syntax Notation One (ASN.1): Specification of basic notation".
[6]	ITU-T Recommendation X.681 (07/2002): "Information technology – Abstract Syntax Notation One (ASN.1): Information object specification".
[7]	Void
[8]	3GPP TS 23.402: "Architecture enhancements for non-3GPP accesses".
[9]	3GPP TS 23.216: "Single Radio Voice Call Continuity (SRVCC)".
[10]	3GPP TS 32.422: "Trace control and configuration management".
[11]	3GPP TS 23.401: "General Packet Radio Service (GPRS) enhancements for E-UTRAN access".
[12]	3GPP TS 36.414: "Evolved Universal Terrestrial Radio Access Network (E-UTRAN); S1 data transport".
[13]	3GPP TS 23.203: "Policy and charging control architecture"
[14]	3GPP TS 36.300: "Evolved Universal Terrestrial Radio Access (E-UTRA), Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Overall description; Stage 2".
[15]	3GPP TS 33.401: "Security architecture".
[16]	3GPP TS 36.331: "Evolved Universal Terrestrial Radio Access (E-UTRAN); Radio Resource Control (RRC) Protocol Specification".
[17]	3GPP TS 23.272: "Circuit Switched Fallback in Evolved Packet System; Stage 2".
[18]	3GPP TS 48.018: "General Packet Radio Service (GPRS); BSS GPRS Protocol (BSSGP)".
[19]	3GPP TS 25.413: "UTRAN Iu interface RANAP signalling".
[20]	3GPP TS 36.304: "Evolved Universal Terrestrial Radio Access (E-UTRA), User Equipment (UE) procedures in idle mode".
[21]	3GPP TS 23.003: "Technical Specification Group Core Network and Terminals; Numbering, addressing and identification".
[22]	3GPP TS 36.423: "Evolved Universal Terrestrial Radio Access Network (E-UTRAN); X2 Application Protocol (X2AP)".
[23]	3GPP TS 48.008: "Mobile Switching Centre-Base Station System (MSC-BSS) interface; Layer 3 specification".
[24]	3GPP TS 24.301: "Non-Access Stratum (NAS) protocol for Evolved Packet System (EPS); Stage 3".
[25]	3GPP2 A.S0008-C: "Interoperability Specification (IOS) for High Rate Packet Data (HRPD) Radio Access Network Interfaces with Session Control in the Access Network".
[26]	3GPP TS 36.213: "Evolved Universal Terrestrial Radio Access (E-UTRA); Physical layer procedures".
[27]	3GPP2 C.S0024-B: "cdma2000 High Rate Packet Data Air Interface Specification".
[28]	3GPP TS 22.220: "Service requirements for Home Node Bs and Home eNode Bs".
[29]	3GPP TS 23.041: "Technical realization of Cell Broadcast Service (CBS)".
[30] 	3GPP TS 48.016: "General Packet Radio Service (GPRS); Base Station System (BSS) - Serving GPRS Support Node (SGSN) interface; Network service".
[31]	3GPP TS 37.320: "Universal Terrestrial Radio Access (UTRA) and Evolved Universal Terrestrial Radio Access (E-UTRA); Radio measurement collection for Minimization of Drive Tests (MDT);Overall description; Stage 2".
[32] 	3GPP TS 29.281: "General Packet Radio Service (GPRS); Tunnelling Protocol User Plane (GTPv1-U)".
[33]	3GPP TS 24.008: "Mobile radio interface Layer 3 specification; Core network protocols; Stage 3".
[34]	3GPP TS 36.455: "Evolved Universal Terrestrial Radio Access (E-UTRA); LTE Positioning Protocol A (LPPa)".
[35]	3GPP TS 29.060: "GPRS Tunnelling Protocol (GTP) across the Gn and Gp interface".
[36]	3GPP TS 29.274: "Evolved Packet System (EPS); Evolved General Packet Radio Service (GPRS) Tunnelling Protocol for Control plane (GTPv2-C); Stage 3".
[37]	3GPP TS 23.139: "3GPP system – fixed broadband access network interworking".
[38]	3GPP TS 23.007: "Technical Specification Group Core Network Terminals; Restoration procedures".
[39] 	3GPP TS 36.104: "Base Station (BS) radio transmission and reception".
[40]	3GPP TR 25.921 (version.7.0.0): "Guidelines and principles for protocol description and error handling".
[41]	3GPP TS 36.306: "User Equipment (UE) radio access capabilities".
[42]	IETF RFC 5905 (2010-06): "Network Time Protocol Version 4: Protocol and Algorithms Specification".
[43]	3GPP TS 26.247: "Transparent end-to-end Packet-switched Streaming Service (PSS); Progressive Download and Dynamic Adaptive Streaming over HTTP (3GP-DASH)". 
[44]	3GPP TS 38.413: "NG Radio Access Network (NG-RAN); NG Application Protocol (NGAP)". 
[45]	3GPP TS 38.300: "NR; Overall description; Stage-2".
[46]	3GPP TS 23.501: "System Architecture for the 5G System".
[47]	3GPP TS 37.340: "NR; Multi-connectivity; Overall description; Stage-2".
[48]	3GPP TS 33.501: "Security architecture and procedures for 5G System".
[49]	3GPP TS 23.285: "Technical Specification Group Services and System Aspects; Architecture enhancements for V2X services".
[50]	3GPP TS 38.331: "NR; Radio Resource Control (RRC); Protocol specification".
[51]	3GPP TS 23.502: "Procedures for the 5G System; Stage 2".
3	Definitions and abbreviations
3.1	Definitions
For the purposes of the present document, the terms and definitions given in TR 21.905 [1] and the following apply. 
A term defined in the present document takes precedence over the definition of the same term, if any, in TR 21.905 [1].
ACL functionality: A functionality controlling the access to network nodes. In case of Access Control Lists (ACL) functionality is applied in a network node the network node may only accept connections from other peer network nodes once the source addresses of the sending network node is already known in the target node.
CSG Cell: an E-UTRAN cell broadcasting a CSG indicator set to true and a CSG identity. This cell operates in Closed Access Mode as defined in TS 22.220 [28].
DAPS Handover: as defined in TS 36.300 [14].
DCN-ID: DCN identity identifies a specific decicated core network (DCN).
Dual Connectivity: as defined in TS 36.300 [14].
Elementary Procedure: S1AP consists of Elementary Procedures (EPs). An Elementary Procedure is a unit of interaction between eNBs and the EPC. These Elementary Procedures are defined separately and are intended to be used to build up complete sequences in a flexible manner. If the independence between some EPs is restricted, it is described under the relevant EP description. Unless otherwise stated by the restrictions, the EPs may be invoked independently of each other as standalone procedures, which can be active in parallel. The usage of several S1AP EPs together or together with EPs from other interfaces is specified in stage 2 specifications (e.g., TS 23.401 [11] and TS 36.300 [14]).
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 and/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 successfully completed with the receipt of the response.
Unsuccessful:
-	A signalling message explicitly indicates that the EP failed.
-	On time supervision expiry (i.e., absence of expected response).
Successful and Unsuccessful:
-	One signalling message reports both successful and unsuccessful outcome for the different included requests. The response message used is the one defined for successful outcome.
Class 2 EPs are considered always successful.
eNB UE S1AP ID: as defined in TS 36.401 [2]. 
Hybrid Cell: an E-UTRAN cell broadcasting a CSG indicator set to false and a CSG identity. This cell operates in Hybrid Access Mode as defined in TS 22.220 [28].
MME UE S1AP ID: as defined in TS 36.401 [2].
E-RAB: as defined in TS 36.401 [2].
NOTE 1:	The E-RAB is either a default E-RAB or a dedicated E-RAB.
E-RAB ID: the E-RAB ID uniquely identifies an E-RAB for one UE.
NOTE 2:	The E-RAB ID remains unique for the UE even if the UE-associated logical S1-connection is released during periods of user inactivity.
Data Radio Bearer: the Data Radio bearer transports the packets of an E-RAB between a UE and an eNB. There is a one-to-one mapping between the E-RAB and the Data Radio Bearer.
Secondary Cell Group: as defined in TS 36.300 [14].
UE-associated signalling: When S1-AP messages associated to one UE uses the UE-associated logical S1-connection for association of the message to the UE in eNB and EPC.
UE-associated logical S1-connection: The UE-associated logical S1-connection uses the identities MME UE S1AP ID and eNB UE S1AP ID according to definition in TS 23.401 [11]. For a received UE associated S1-AP message the MME identifies the associated UE based on the MME UE S1AP ID IE and the eNB identifies the associated UE based on the eNB UE S1AP ID IE. The UE-associated logical S1-connection may exist before the S1 UE context is setup in eNB.
3.2	Abbreviations
For the purposes of the present document, the abbreviations given in TR 21.905 [1] and the following apply. 
An abbreviation defined in the present document takes precedence over the definition of the same abbreviation, if any, in TR 21.905 [1].
ACL	Access Control List
ARPI	Additional RRM Policy Index
BBF	Broadband Forum
CCO	Cell Change Order
CDMA	Code Division Multiple Access
CID	Cell-ID (positioning method)
CIoT	Cellular Internet of Things
CS	Circuit Switched
CSG	Closed Subscriber Group
CN	Core Network
DAPS	Dual Active Protocol Stacks
DCN	Dedicated Core Network
DL	Downlink
eAN	evolved Access Network
ECGI	E-UTRAN Cell Global Identifier
E-CID	Enhanced Cell-ID (positioning method)
eHRPD	evolved High Rate Packet Data
eNB	E-UTRAN NodeB
EN-DC	E-UTRA-NR Dual Connectivity
EP	Elementary Procedure
EPC	Evolved Packet Core
EPS	Evolved Packet System
E-RAB	E-UTRAN Radio Access Bearer
E-SMLC	Evolved Serving Mobile Location Centre
E-UTRAN	Evolved UTRAN
GBR	Guaranteed Bit Rate
GNSS	Global Navigation Satellite System
GUMMEI	Globally Unique MME Identifier
GTP	GPRS Tunnelling Protocol
HFN	Hyper Frame Number
HRPD	High Rate Packet Data
IAB	Integrated Access and Backhaul
IE	Information Element
IMEISV	International Mobile station Equipment Identity and Software Version number
IoT	Internet of Things
LAA	Licensed-Assisted Access
L-GW	Local GateWay
LHN	Local Home Network
LHN ID	Local Home Network ID
LIPA	Local IP Access 
LPPa	LTE Positioning Protocol Annex
LWA	LTE-WLAN Aggregation
LWIP	LTE WLAN Radio Level Integration with IPsec Tunnel
MBSFN	Multimedia Broadcast multicast service Single Frequency Network
MDT	Minimization of Drive Tests
MME	Mobility Management Entity
MTSI	Multimedia Telephony Service for IMS
NAS	Non Access Stratum
NB-IoT	Narrowband IoT
NNSF	NAS Node Selection Function 
OTDOA	Observed Time Difference of Arrival
PS	Packet Switched
PSCell	Primary SCell
ProSe	Proximity Services
PWS	Public Warning System
PDCP	Packet Data Convergence Protocol
PLMN	Public Land Mobile Network
PS	Packet Switched
RRC	Radio Resource Control
RIM	RAN Information Management
QMC	QoE Measurement Collection
QoE	Quality of Experience
SCTP	Stream Control Transmission Protocol
SCG	Secondary Cell Group
S-GW	Serving GateWay
SN	Sequence Number
SIPTO	Selected IP Traffic Offload
SIPTO@LN	Selected IP Traffic Offload at the Local Network
SSID	Service Set Identifier
S-TMSI	S-Temporary Mobile Subscriber Identity
SUL	Supplementary Uplink
TAC	Tracking Area Code
TAI	Tracking Area Identity
TEID	Tunnel Endpoint Identifier
UE	User Equipment
UE-AMBR	UE-Aggregate Maximum Bitrate
UL	Uplink
UTDOA	Uplink Time Difference of Arrival
V2X	Vehicle-to-Everything
WUS	Wake Up Signal
4	General
4.1	Procedure Specification Principles
The principle for specifying the procedure logic is to specify the functional behaviour of the terminating node exactly and completely. Any rule that specifies the behaviour of the originating node shall be possible to be verified with information that is visible within the system.
The following specification principles have been applied for the procedure text in clause 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 on including Criticality Diagnostics IE, see clause 10.
4.2	Forwards and Backwards Compatibility
The forwards and backwards compatibility of the protocol is assured by mechanism where 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	Specification Notations
For the purposes of the present document, the following notations apply:
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., E-RAB 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., MESSAGE NAME 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., Information Element 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., “Value”.
5	S1AP Services
S1AP provides the signalling service between E-UTRAN and the evolved packet core (EPC) that is required to fulfil the S1AP functions described in clause 7. S1AP services are divided into two groups:
Non UE-associated services:	They are related to the whole S1 interface instance between the eNB and MME utilising a non UE-associated signalling connection.
UE-associated services:	They are related to one UE. S1AP functions that provide these services are associated with a UE-associated signalling connection that is maintained for the UE in question.
6	Services Expected from Signalling Transport
The signalling connection shall provide in sequence delivery of S1AP messages. S1AP shall be notified if the signalling connection breaks.
7	Functions of S1AP
The S1AP protocol has the following functions:
-	E-RAB management function: This overall functionality is responsible for setting up, modifying and releasing E-RABs, which are triggered by the MME. The release and modification of E-RABs may be triggered by the eNB as well.
-	Initial Context Transfer function: This functionality is used to establish an S1UE context in the eNB, to setup the default IP connectivity, to setup one or more E-RAB(s) if requested by the MME, and to transfer NAS signalling related information to the eNB if needed.
-	UE Capability Info Indication function: This functionality is used to provide the UE Capability Info when received from the UE to the MME.
-	Mobility Functions for UEs in LTE_ACTIVE in order to enable
-	a change of eNBs within SAE/LTE (Inter MME/Serving SAE-GW Handovers) via the S1 interface (with EPC involvement).
-	a change of RAN nodes between different RATs (Inter-3GPP-RAT Handovers) via the S1 interface (with EPC involvement).
-	Paging: This functionality provides the EPC with the capability to page the UE.
-	S1 interface management functions comprise the:
-	Reset functionality to ensure a well defined initialisation on the S1 interface.
-	Error Indication functionality to allow a proper error reporting/handling in cases where no failure messages are defined.
-	Overload function to indicate the load situation in the control plane of the S1 interface. 
-	Load balancing function to ensure equally loaded MMEs within an MME pool area
-	S1 Setup functionality for initial S1 interface setup for providing configuration information
-	eNB and MME Configuration Update functions are to update application level configuration data needed for the eNB and MME to interoperate correctly on the S1 interface.
-	NAS Signalling transport function between the UE and the MME is used:
-	to transfer and reroute NAS signalling related information and to establish the S1 UE context in the eNB.
-	to transfer NAS signalling related information when the S1 UE context in the eNB is already established.
-	S1 UE context Release function: This functionality is responsible to manage the release of UE specific context in the eNB and the MME.
-	UE Context Modification function: This functionality allows to modify the established UE Context partly.
-	UE Context Resumption function: This functionality allows keeping the UE Context in the eNB for a UE in RRC_IDLE that has been enabled to use User Plane EPS Optimization (see TS 23.401 [11]) and to resume the RRC connection without the need to re-establish the UE Context.
-	Status Transfer: This functionality transfers PDCP SN Status information from source eNB to target eNB in support of in-sequence delivery and duplication avoidance for intra LTE handover. 
-	Trace function: This functionality is to control a trace session recording for a UE in ECM_CONNECTED or to control an MDT session transferring MDT measurements collected by the UE.
-	Location Reporting: This functionality allows MME to be aware of the UE’s current location.
-	LPPa Signalling transport: This functionality transfers LPPa messages between eNB and E-SMLC over the S1 interface.
-	S1 CDMA2000 Tunnelling function: This functionality is to carry CDMA2000 signalling between UE and CDMA2000 RAT over the S1 Interface.
-	Warning message transmission function:
This functionality provides the means to start and overwrite the broadcasting of warning message.
-	RAN Information Management (RIM) function: This functionality allows the request and transfer of RAN information (e.g., GERAN system information) between two RAN nodes via the core network.
-	Configuration Transfer function: This functionality allows the request and transfer of RAN configuration information (e.g., SON information) between two RAN nodes via the core network. 
-	UE Radio Capability Match function. The functionality enables the eNB to derive and provide an indication to the MME whether the UE radio capabilities are compatible with the network configuration for voice continuity.
-	PWS Restart Indication function. The functionality enables the eNB to inform the MME that PWS information for some or all cells of the eNB are available for reloading from the CBC if needed.
-	PWS Failure Indication function. The functionality enables the eNB to inform the MME that ongoing PWS operation for one or more cells of the eNB has failed.
-	Connection Establishment Indication function. The functionality enables the MME to complete the establishment of the UE-associated logical S1-connection.
-	Retrieve UE Information function. The functionality enables the eNB to request UE information from the MME.
-	UE Information Transfer function. The functionality enables the MME to transfer UE information to the eNB.
-	CP Relocation function. The functionality enables the initiation of the UE-associated logical S1-connection for a NB-IOT UE using Control Plane CIoT EPS Optimisation following a re-establishment request.
-	Report of Secondary RAT data volumes function. The functionality enables the eNB to report Secondary RAT data usage information in case of EN-DC as specified in TS 23.401 [11].
-	QMC function. The functionality enables the eNB to collect QoE measurements from the UE.

8	S1AP Procedures
8.1	List of S1AP Elementary procedures
In the following tables, all EPs are divided into Class 1 and Class 2 EPs (see subclause 3.1 for explanation of the different classes):
Table 1: Class 1 procedures
Elementary Procedure
Initiating Message
Successful Outcome
Unsuccessful Outcome



Response message
Response message

Handover Preparation
HANDOVER REQUIRED
HANDOVER COMMAND
HANDOVER PREPARATION FAILURE

Handover Resource Allocation
HANDOVER REQUEST
HANDOVER REQUEST ACKNOWLEDGE
HANDOVER FAILURE

Path Switch Request
PATH SWITCH REQUEST
PATH SWITCH REQUEST ACKNOWLEDGE
PATH SWITCH REQUEST FAILURE

Handover Cancellation
HANDOVER CANCEL
HANDOVER CANCEL ACKNOWLEDGE


E-RAB Setup
E-RAB SETUP REQUEST
E-RAB SETUP RESPONSE


E-RAB Modify
E-RAB MODIFY REQUEST
E-RAB MODIFY RESPONSE


E-RAB Modification Indication
E-RAB MODIFICATION INDICATION
E-RAB MODIFICATION CONFIRM


E-RAB Release
E-RAB RELEASE COMMAND
E-RAB RELEASE RESPONSE


Initial Context Setup
INITIAL CONTEXT SETUP REQUEST
INITIAL CONTEXT SETUP RESPONSE
INITIAL CONTEXT SETUP FAILURE

Reset
RESET
RESET ACKNOWLEDGE


S1 Setup
S1 SETUP REQUEST
S1 SETUP RESPONSE
S1 SETUP FAILURE

UE Context Release
UE CONTEXT RELEASE COMMAND
UE CONTEXT RELEASE COMPLETE


UE Context Modification
UE CONTEXT MODIFICATION REQUEST
UE CONTEXT MODIFICATION RESPONSE
UE CONTEXT MODIFICATION FAILURE

eNB Configuration Update
ENB CONFIGURATION UPDATE
ENB CONFIGURATION UPDATE ACKNOWLEDGE
ENB CONFIGURATION UPDATE FAILURE

MME Configuration Update
MME CONFIGURATION UPDATE
MME CONFIGURAION UPDATE ACKNOWLEDGE
MME CONFIGURATION UPDATE FAILURE

Write-Replace Warning 
WRITE-REPLACE WARNING REQUEST
WRITE-REPLACE WARNING RESPONSE


Kill
KILL REQUEST
KILL RESPONSE


UE Radio Capability Match
UE RADIO CAPABILITY MATCH REQUEST
UE RADIO CAPABILITY MATCH RESPONSE


UE Context Modification Indication
UE CONTEXT MODIFICATION INDICATION
UE CONTEXT MODIFICATION CONFIRM


UE Context Suspend
UE CONTEXT SUSPEND REQUEST
UE CONTEXT SUSPEND RESPONSE


UE Context Resume
UE CONTEXT RESUME REQUEST
UE CONTEXT RESUME RESPONSE
UE CONTEXT RESUME FAILURE


UE Radio Capability ID Mapping
UE RADIO CAPABILITY ID MAPPING REQUEST
UE RADIO CAPABILITY ID MAPPING RESPONSE


Table 2: Class 2 procedures
Elementary Procedure
Message
Handover Notification
HANDOVER NOTIFY
E-RAB Release Indication
E-RAB RELEASE INDICATION
Paging
PAGING
Initial UE Message
INITIAL UE MESSAGE
Downlink NAS Transport
DOWNLINK NAS TRANSPORT
Uplink NAS Transport
UPLINK NAS TRANSPORT
NAS non delivery indication
NAS NON DELIVERY INDICATION
Error Indication
ERROR INDICATION
UE Context Release Request
UE CONTEXT RELEASE REQUEST
DownlinkS1 CDMA2000 Tunnelling
DOWNLINK S1 CDMA2000 TUNNELLING
Uplink S1 CDMA2000 Tunnelling
UPLINK S1 CDMA2000 TUNNELLING
UE Capability Info Indication
UE CAPABILITY INFO INDICATION
eNB Status Transfer
eNB STATUS TRANSFER
MME Status Transfer
MME STATUS TRANSFER
Deactivate Trace
DEACTIVATE TRACE
Trace Start
TRACE START
Trace Failure Indication
TRACE FAILURE INDICATION
Location Reporting Control
LOCATION REPORTING CONTROL
Location Reporting Failure Indication
LOCATION REPORTING FAILURE INDICATION
Location Report
LOCATION REPORT
Overload Start
OVERLOAD START
Overload Stop
OVERLOAD STOP
eNB Direct Information Transfer
eNB DIRECT INFORMATION TRANSFER
MME Direct Information Transfer
MME DIRECT INFORMATION TRANSFER
eNB Configuration Transfer
eNB CONFIGURATION TRANSFER
MME Configuration Transfer
MME CONFIGURATION TRANSFER
Cell Traffic Trace
CELL TRAFFIC TRACE
Downlink UE Associated LPPa Transport
DOWNLINK UE ASSOCIATED LPPA TRANSPORT
Uplink UE Associated LPPa Transport
UPLINK UE ASSOCIATED LPPA TRANSPORT
Downlink Non UE Associated LPPa Transport
DOWNLINK NON UE ASSOCIATED LPPA TRANSPORT
Uplink Non UE Associated LPPa Transport
UPLINK NON UE ASSOCIATED LPPA TRANSPORT
PWS Restart Indication
PWS RESTART INDICATION
Reroute NAS Request
REROUTE NAS REQUEST
PWS Failure Indication
PWS FAILURE INDICATION
Connection Establishment Indication
CONNECTION ESTABLISHMENT INDICATION
NAS Delivery Indication
NAS DELIVERY INDICATION
Retrieve UE Information
RETRIEVE UE INFORMATION
UE Information Transfer
UE INFORMATION TRANSFER
eNB CP Relocation Indication
eNB CP RELOCATION INDICATION
MME CP Relocation Indication
MME CP RELOCATION INDICATION
Secondary RAT Data Usage Report
SECONDARY RAT DATA USAGE REPORT
Handover Success
HANDOVER SUCCESS
eNB Early Status Transfer
eNB EARLY STATUS TRANSFER
MME Early Status Transfer
MME EARLY STATUS TRANSFER

The following applies concerning interference between Elementary Procedures:
-	The Reset procedure takes precedence over all other EPs.
-	The UE Context Release procedure takes precedence over all other EPs that are using the UE-associated signalling. 
8.2	E-RAB Management procedures
8.2.1	E-RAB Setup
8.2.1.1	General
The purpose of the E-RAB Setup procedure is to assign resources on Uu and S1 for one or several E-RABs and to setup corresponding Data Radio Bearers for a given UE. The procedure uses UE-associated signalling.
8.2.1.2	Successful Operation

Figure 8.2.1.2-1: E-RAB Setup procedure. Successful operation.
The MME initiates the procedure by sending an E-RAB SETUP REQUEST message to the eNB. 
-	The E-RAB SETUP REQUEST message shall contain the information required by the eNB to build the E-RAB configuration consisting of at least one E-RAB and for each E-RAB to setup include an E-RAB to be Setup Item IE. 
Upon reception of the E-RAB SETUP REQUEST message, and if resources are available for the requested configuration, the eNB shall execute the requested E-RAB configuration. For each E-RAB and based on the E-RAB level QoS parameters IE the eNB shall establish a Data Radio Bearer and allocate the required resources on Uu. The eNB shall pass the NAS-PDU IE and the value contained in the E-RAB ID IE received for the E-RAB for each established Data Radio Bearer to the UE. The eNB does not send the NAS PDUs associated to the failed Data radio bearers to the UE. The eNB shall allocate the required resources on S1 for the E-RABs requested to be established.
If the Correlation ID IE is included in the E-RAB SETUP REQUEST message towards the eNB with L-GW function for LIPA operation, then the eNB shall use this information for LIPA operation for the concerned E-RAB.
If the SIPTO Correlation ID IE is included in the E-RAB SETUP REQUEST message towards the eNB with L-GW function for SIPTO@LN operation, then the eNB shall use this information for SIPTO@LN operation for the concerned E-RAB. 
If the Bearer Type IE is included in the E-RAB SETUP REQUEST message and is set to "non IP", then the eNB shall not perform IP header compression for the concerned E-RAB.
If the Ethernet Type IE is included in the E-RAB SETUP REQUEST message and is set to "True", then the eNB shall, if supported, take this into account to perform header compression appropriately for the concerned E-RAB.
The E-RAB SETUP REQUEST message may contain 
-	the UE Aggregate Maximum Bit Rate IE. 
If the UE Aggregate Maximum Bit Rate IE is included in the E-RAB SETUP REQUEST the eNB shall
-	replace the previously provided UE Aggregate Maximum Bit Rate by the received UE Aggregate Maximum Bit Rate in the UE context;
-	use the received UE Aggregate Maximum Bit Rate for non-GBR Bearers for the concerned UE.
If the UE Aggregate Maximum Bit Rate IE is not contained in the E-RAB SETUP REQUEST message, the eNB shall use the previously provided UE Aggregate Maximum Bit Rate which is stored in the UE context. 
The eNB shall establish or modify the resources according to the values of the Allocation and Retention Priority IE (priority level and pre-emption indicators) and the resource situation as follows:
-	The eNB shall consider the priority level of the requested E-RAB, when deciding on the resource allocation.
-	The priority levels and the pre-emption indicators may (individually or in combination) be used to determine whether the E-RAB setup has to be performed unconditionally and immediately. If the requested E-RAB is marked as “may trigger pre-emption” and the resource situation requires so, the eNB may trigger the pre-emption procedure which may then cause the forced release of a lower priority E-RAB which is marked as “pre-emptable”. Whilst the process and the extent of the pre-emption procedure are operator-dependent, the pre-emption indicators shall be treated as follows:
1.	The values of the last received Pre-emption Vulnerability IE and Priority Level IE shall prevail.
2.	If the Pre-emption Capability IE is set to “may trigger pre-emption”, then this allocation request may trigger the pre-emption procedure.
3.	If the Pre-emption Capability IE is set to “shall not trigger pre-emption”, then this allocation request shall not trigger the pre-emption procedure.
4.	If the Pre-emption Vulnerability IE is set to “pre-emptable”, then this E-RAB shall be included in the pre-emption process.
5.	If the Pre-emption Vulnerability IE is set to “not pre-emptable”, then this E-RAB shall not be included in the pre-emption process.
6.	If the Priority Level IE is set to “no priority” the given values for the Pre-emption Capability IE and Pre-emption Vulnerability IE shall not be considered. Instead the values “shall not trigger pre-emption” and “not pre-emptable” shall prevail.
-	The E-UTRAN pre-emption process shall keep the following rules:
1.	E-UTRAN shall only pre‑empt E-RABs with lower priority, in ascending order of priority.
2.	The pre-emption may be done for E-RABs belonging to the same UE or to other UEs.
The eNB shall report to the MME, in the E-RAB SETUP RESPONSE message, the result for all the requested E-RABs.
-	A list of E-RABs which are successfully established shall be included in the E-RAB Setup List IE.
-	A list of E-RABs which failed to be established, if any, shall be included in the E-RAB Failed to Setup List IE. 
In case of the establishment of an E-RAB the EPC must be prepared to receive user data before the E-RAB SETUP RESPONSE message has been received.
When the eNB reports unsuccessful establishment of an E-RAB, the cause value should be precise enough to enable the MME to know the reason for an unsuccessful establishment, e.g., “Radio resources not available”, “Failure in the Radio Interface Procedure”.
Interactions with Handover Preparation procedure:
If a handover becomes necessary during E-RAB Setup, the eNB may interrupt the ongoing E-RAB Setup procedure and initiate the Handover Preparation procedure as follows:
1.	The eNB shall send the E-RAB SETUP RESPONSE message in which the eNB shall indicate, if necessary 
-	all the E-RABs fail with an appropriate cause value, e.g., ”S1 intra system Handover triggered”, “S1 inter system Handover triggered” or “X2 Handover triggered”.
2.	The eNB shall trigger the handover procedure.
8.2.1.3	Unsuccessful Operation
The unsuccessful operation is specified in the successful operation section.
8.2.1.4	Abnormal Conditions
If the eNB receives a E-RAB SETUP REQUEST message containing a E-RAB Level QoS Parameters IE which contains a QCI IE indicating a GBR bearer (as defined in TS 23.203 [13]), and which does not contain the GBR QoS Information IE, the eNB shall consider the establishment of the corresponding E-RAB as failed. 
If the eNB receives an E-RAB SETUP REQUEST message containing several E-RAB ID IEs (in the E-RAB To Be Setup List IE) set to the same value, the eNB shall report the establishment of the corresponding E-RABs as failed in the E-RAB SETUP RESPONSE with the appropriate cause value, e.g., “Multiple E-RAB ID instances”.
If the eNB receives an E-RAB SETUP REQUEST message containing a E-RAB ID IE (in the E-RAB To Be Setup List IE) set to the value that identifies an active E-RAB (established before the E-RAB SETUP REQUEST message was received), the eNB shall report the establishment of the new E-RAB as failed in the E-RAB SETUP RESPONSE with the appropriate cause value, e.g., “Multiple E-RAB ID instances”.
If the eNB receives an E-RAB SETUP REQUEST message containing both the Correlation ID and the SIPTO Correlation ID IEs for the same E-RAB, the eNB shall consider the establishment of the corresponding E-RAB as failed.
8.2.2	E-RAB Modify
8.2.2.1	General
The purpose of the E-RAB Modify procedure is to enable modifications of already established E-RABs for a given UE. The procedure uses UE-associated signalling.
8.2.2.2	Successful Operation

Figure 8.2.2.2-1: E-RAB Modify procedure. Successful operation.
The MME initiates the procedure by sending an E-RAB MODIFY REQUEST message to the eNB. 
-	The E-RAB MODIFY REQUEST message shall contain the information required by the eNB to modify one or several E-RABs of the existing E-RAB configuration. 
Information shall be present in the E-RAB MODIFY REQUEST message only when any previously set value for the E-RAB configuration is requested to be modified.
Upon reception of the E-RAB MODIFY REQUEST message, and if resources are available for the requested target configuration, the eNB shall execute the modification of the requested E-RAB configuration. For each E-RAB that shall be modified and for which the Transport Information IE is not included and based on the new E-RAB level QoS parameters IE the eNB shall modify the Data Radio Bearer configuration and change allocation of resources on Uu according to the new resource request. The eNB shall pass the NAS-PDU IE received for the E-RAB to the UE when modifying the Data Radio Bearer configuration. The eNB does not send the NAS PDUs associated to the failed Data radio bearers to the UE. The eNB shall change allocation of resources on S1 according to the new resource request.
If the E-UTRAN failed to modify an E-RAB the E-UTRAN shall keep the E-RAB configuration as it was configured prior the E-RAB MODIFY REQUEST.
The E-RAB MODIFY REQUEST message may contain the
-	the UE Aggregate Maximum Bit Rate IE,
-	the Secondary RAT Data Usage Request IE.
If the UE Aggregate Maximum Bit Rate IE is included in the E-RAB MODIFY REQUEST, the eNB shall
-	replace the previously provided UE Aggregate Maximum Bit Rate by the received UE Aggregate Maximum Bit Rate in the UE context;
-	use the received UE Aggregate Maximum Bit Rate for non-GBR Bearers for the concerned UE.
If the UE Aggregate Maximum Bit Rate IE is not contained in the E-RAB MODIFY REQUEST message, the eNB shall use the previously provided UE Aggregate Maximum Bit Rate which is stored in the UE context. 
The modification of resources according to the values of the Allocation and Retention Priority IE shall follow the principles described for the E-RAB Setup procedure.
If the Transport Information IE is included in the E-RAB MODIFY REQUEST message, the eNB shall use the included information as the new S-GW address and uplink packet destination for the relevant E-RAB as defined in TS 23.401 [11], and it shall ignore the E-RAB Level QoS Parameters and NAS-PDU IEs for the same E-RAB.
The eNB shall report to the MME, in the E-RAB MODIFY RESPONSE message, the result for all the requested E-RABs to be modified.
-	A list of E-RABs which are successfully modified shall be included in the E-RAB Modify List IE.
-	A list of E-RABs which failed to be modified, if any, shall be included in the E-RAB Failed to Modify List IE.
When the eNB reports unsuccessful modification of an E-RAB, the cause value should be precise enough to enable the MME to know the reason for an unsuccessful modification, e.g., “Radio resources not available”, “Failure in the Radio Interface Procedure”.
In case of a modification of an E-RAB the EPC must be prepared to receive user data according to the modified E-RAB profile prior to the E-RAB MODIFY RESPONSE message.
If the Secondary RAT Data Usage Request IE set to "requested" was included in the E-RAB MODIFY REQUEST message, and the eNB supports EN-DC, LAA, LWA or LWIP and has secondary RAT usage data to report, then the Secondary RAT Usage Report List IE shall be included in the E-RAB MODIFY RESPONSE message.
Interactions with Handover Preparation procedure:
If a handover becomes necessary during E-RAB modify, the eNB may interrupt the ongoing E-RAB Modify procedure and initiate the Handover Preparation procedure as follows:
1.	The eNB shall send the E-RAB MODIFY RESPONSE message in which the eNB shall indicate, if necessary 
-	all the E-RABs fail with an appropriate cause value, e.g., “S1 intra system Handover triggered”, “S1 inter system Handover triggered” or “X2 Handover triggered”.
2.	The eNB shall trigger the handover procedure.
8.2.2.3	Unsuccessful Operation
The unsuccessful operation is specified in the successful operation section.
8.2.2.4	Abnormal Conditions
If the eNB receives a E-RAB MODIFY REQUEST message containing a E-RAB Level QoS Parameters IE which contains a QCI IE indicating a GBR bearer (as defined in TS 23.203 [13]) for a E-RAB previously configured as a non-GBR bearer (as defined in TS 23.203 [13]), and which does not contain the GBR QoS Information IE, the eNB shall consider the modification of the corresponding E-RAB as failed. 
If the eNB receives an E-RAB MODIFY REQUEST message containing several E-RAB ID IEs (in the E-RAB to be Modified List IE) set to the same value, the eNB shall report the modification of the corresponding E-RABs as failed in the E-RAB MODIFY RESPONSE with the appropriate cause value, e.g., “Multiple E-RAB ID instances”.
If the eNB receives an E-RAB MODIFY REQUEST message containing some E-RAB ID IEs that eNB does not recognize, the eNB shall report the corresponding invalid E-RABs as failed in the E-RAB MODIFY RESPONSE with the appropriate cause value, e.g., “Unknown E-RAB ID”.
8.2.3	E-RAB Release
8.2.3.1	General
The purpose of the E-RAB Release procedure is to enable the release of already established E-RABs for a given UE. The procedure uses UE-associated signalling.
8.2.3.2	Successful Operation
8.2.3.2.1	E-RAB Release – MME initiated

Figure 8.2.3.2.1-1: E-RAB Release procedure. Successful operation.
The MME initiates the procedure by sending an E-RAB RELEASE COMMAND message. 
The E-RAB RELEASE COMMAND message shall contain the information required by the eNB to release at least one E-RAB in the E-RAB To Be Released List IE. If a NAS-PDU IE is contained in the message, the eNB shall pass it to the UE.
Upon reception of the E-RAB RELEASE COMMAND message the eNB shall execute the release of the requested E-RABs. For each E-RAB to be released the eNB shall release the corresponding Data Radio Bearer and release the allocated resources on Uu. The eNB shall pass the value contained in the E-RAB ID IE received for the E-RAB to the radio interface protocol for each Data Radio Bearer to be released. The eNB shall release allocated resources on S1 for the E-RABs requested to be released.
The E-RAB RELEASE COMMAND message may contain 
-	the UE Aggregate Maximum Bit Rate IE.
If the UE Aggregate Maximum Bit Rate IE is included in the E-RAB RELEASE COMMAND the eNB shall
-	replace the previously provided UE Aggregate Maximum Bit Rate by the received UE Aggregate Maximum Bit Rate in the UE context; the eNB shall use the received UE Aggregate Maximum Bit Rate for non-GBR Bearers for the concerned UE. 
If the UE Aggregate Maximum Bit Rate IE is not contained in the E-RAB RELEASE COMMAND message, the eNB shall use the previously provided UE Aggregate Maximum Bit Rate which is stored in the UE context.
The eNB shall report to the MME, in the E-RAB RELEASE RESPONSE message, the result for all the E-RABs to be released.
-	A list of E-RABs which are released successfully shall be included in the E-RAB Release List IE.
-	A list of E-RABs which failed to be released, if any, shall be included in the E-RAB Failed to Release List IE. 
The eNB shall be prepared to receive an E-RAB RELEASE COMMAND message on an established UE-associated logical S1-connection containing an E-RAB Release List IE at any time and shall always reply to it with an E-RAB RELEASE RESPONSE message.
The eNB shall, if supported, report in the E-RAB RELEASE RESPONSE message location information of the UE in the User Location Information IE.
After sending an E-RAB RELEASE RESPONSE message containing an E-RAB ID within the E-RAB Release List IE, the eNB shall be prepared to receive an E-RAB SETUP REQUEST message requesting establishment of an E-RAB with this E-RAB ID.
If the User Location Information IE is included in the E-RAB RELEASE RESPONSE message, the MME shall handle this information as specified in TS 23.401 [11].
If the Secondary RAT Usage Report List IE is included in the E-RAB RELEASE RESPONSE message, the MME shall handle this information as specified in TS 23.401 [11].
8.2.3.2.2	E-RAB Release Indication – eNB initiated

Figure 8.2.3.2.2-1: E-RAB Release INDICATION procedure. Successful operation.
The eNB initiates the procedure by sending an E-RAB RELEASE INDICATION message towards the MME.
The E-RAB RELEASE INDICATION message shall contain at least one E-RAB released at the eNB, in the E-RAB Released List IE.
The eNB shall, if supported, report in the E-RAB RELEASE INDICATION message location information of the UE in the User Location Information IE.
Upon reception of the E-RAB RELEASE INDICATION message the MME shall normally initiate the appropriate release procedure on the core network side for the E-RABs identified in the E-RAB RELEASE INDICATION message.
If the User Location Information IE is included in the E-RAB RELEASE INDICATION message, the MME shall handle this information as specified in TS 23.401 [11].
If the Secondary RAT Usage Report List IE is included in the E-RAB RELEASE INDICATION message, the MME shall handle this information as specified in TS 23.401 [11].
Interaction with UE Context Release Request procedure:
If the eNB wants to remove all remaining E-RABs, e.g., for user inactivity, the UE Context Release Request procedure shall be used instead. 
8.2.3.3	Abnormal Conditions
If the eNB receives an E-RAB RELEASE COMMAND message containing multiple E-RAB ID IEs (in the E-RAB To Be Released List IE) set to the same value, the eNB shall initiate the release of one corresponding E-RAB and ignore the duplication of the instances of the selected corresponding E-RABs.
If the MME receives an E-RAB RELEASE INDICATION message containing multiple E-RAB ID IEs (in the E-RAB Released List IE) set to the same value, the MME shall initiate the release of one corresponding E-RAB and ignore the duplication of the instances of the selected corresponding E-RABs.
If the eNB receives an E-RAB RELEASE COMMAND message containing some E-RAB ID IEs that eNB does not recognize, the eNB shall report the corresponding invalid E-RABs as failed in the E-RAB RELEASE RESPONSE message with the appropriate cause, e.g., “Unknown E-RAB ID”.
8.2.4	E-RAB Modification Indication
8.2.4.1	General
The purpose of the E-RAB Modification Indication procedure is to enable the eNB to request modifications of already established E-RABs for a given UE. The procedure uses UE-associated signalling.
8.2.4.2	Successful Operation

Figure 8.2.4.2-1: E-RAB Modification Indication procedure. Successful operation.
The eNB initiates the procedure by sending an E-RAB MODIFICATION INDICATION message to the MME.
The Transport Layer Address IE and DL GTP TEID IE included in the E-RAB To Be Modified Item IEs IE in the E-RAB MODIFICATION INDICATON message shall be considered by the MME as the new DL address of the E-RABs. The Transport Layer Address IE and DL GTP TEID IE included in the E-RAB Not To Be Modified Item IEs IE in the E-RAB MODIFICATION INDICATION message shall be considered by the MME as the E-RABs with unchanged DL address
If the Secondary RAT Usage Report List IE is included in the E-RAB MODIFICATION INDICATION message, the MME shall handle this information as specified in TS 23.401 [11].
The E-RAB MODIFICATION CONFIRM message shall contain the result for all the E-RABs that were requested to be modified according to the E-RAB To Be Modified Item IEs IE of the E-RAB MODIFICATION INDICATION message as follows:
-	A list of E-RABs which are successfully modified shall be included in the E-RAB Modify List IE.
-	A list of E-RABs which failed to be modified, if any, shall be included in the E-RAB Failed to Modify List IE.
-	A list of E-RABs which are to be released, if any, shall be included in the E-RAB To Be Released List IE.
If the E-RAB Failed to Modify List IE is received in the E-RAB MODIFICATION CONFIRM message, the eNB shall either
-	release all corresponding E-UTRA and E-UTRAN resources for the concerned E-RAB or
-	keep the previous transport information before sending the E-RAB MODIFICATION INDICATION message unchanged for the concerned E-RAB.
If the E-RAB To Be Released List IE is received in the E-RAB MODIFICATION CONFIRM message, the eNB shall release all corresponding E-UTRA and E-UTRAN resources for the concerned E-RAB.
If the CSG Membership Info IE is included in the E-RAB MODIFICATION INDICATION message, the MME shall use the information for CSG membership verification as specified in TS 36.300 [14] and provide the result of the membership verification in the CSG Membership Status IE contained in the E-RAB MODIFICATION CONFIRM message.
If PLMN Identity IE is received in the CSG Membership Info IE in the E-RAB MODIFICATION INDICATION message, the MME shall use it for CSG membership verification as specified in TS 36.300 [14].
When the MME reports unsuccessful modification of an E-RAB, the cause value should be precise enough to enable the eNB to know the reason for an unsuccessful modification.
If the Tunnel Information for BBF IE is received in the E-RAB MODIFICATION INDICATION message, the MME shall, if supported, use it in the core network as specified in TS 23.139 [37].
If the User Location Information IE is included in the E-RAB MODIFICATION INDICATION message, the MME shall handle this information as specified in TS 23.401 [11].
Interactions with E-RAB Setup procedure or E-RAB Modify procedure:
If the E-RAB MODIFICATION INDICATION message is received by the MME during an ongoing E-RAB Setup procedure or an ongoing E-RAB Modify procedure, the MME shall proceed with the E-RAB Modification Indication procedure.
8.2.4.3	Unsuccessful Operation
The unsuccessful operation is specified in the successful operation section.
8.2.4.4	Abnormal Conditions
Interaction with UE Context Release Request procedure:
If the E-RAB MODIFICATION INDICATION message does not contain all the E-RABs previously included in the UE Context, the MME shall trigger the UE Context Release procedure.
If the E-RAB MODIFICATION INDICATION message contains several E-RAB ID IEs set to the same value, the MME shall trigger the UE Context Release procedure.
If the CSG Membership Info IE in the E-RAB MODIFICATION INDICATION message does not contain the Cell Access Mode IE set to "hybrid", the MME shall trigger the UE Context Release procedure.
8.3	Context Management procedures
8.3.1	Initial Context Setup
8.3.1.1	General
The purpose of the Initial Context Setup procedure is to establish the necessary overall initial UE Context including E-RAB context, the Security Key, Handover Restriction List, UE Radio capability and UE Security Capabilities etc. The procedure uses UE-associated signalling.
8.3.1.2	Successful Operation

Figure 8.3.1.2-1: Initial Context Setup procedure. Successful operation.
In case of the establishment of an E-RAB the EPC must be prepared to receive user data before the INITIAL CONTEXT SETUP RESPONSE message has been received by the MME. If no UE-associated logical S1-connection exists, the UE-associated logical S1-connection shall be established at reception of the INITIAL CONTEXT SETUP REQUEST message.
The INITIAL CONTEXT SETUP REQUEST message shall contain within the E-RAB to be Setup List IE the information required by the eNB to build the new E-RAB configuration consisting of at least one additional E-RAB. 
The E-RAB to be Setup Item IE may contain:
-	the NAS-PDU IE,
-	the Correlation ID IE in case of LIPA operation,
-	the SIPTO Correlation ID IE in case of SIPTO@LN operation,
-	the Bearer Type IE.
The INITIAL CONTEXT SETUP REQUEST message may contain
-	the Trace Activation IE.
-	the Handover Restriction List IE, which may contain roaming or access restrictions.
-	the UE Radio Capability IE.
-	the Subscriber Profile ID for RAT/Frequency priority IE.
-	the Additional RRM Policy Index IE.
-	the CS Fallback Indicator IE.
-	the SRVCC Operation Possible IE.
-	the CSG Membership Status IE.
-	the Registered LAI IE.
-	the GUMMEI IE, which indicates the MME serving the UE, and shall only be present according to subclauses 4.6.2 and 4.7.6.6 of TS 36.300 [14].
-	the MME UE S1AP ID 2 IE, which indicates the MME UE S1AP ID assigned by the MME, and shall only be present according to subclause 4.6.2 of TS 36.300 [14]. 
-	the Management Based MDT Allowed IE.
-	the Management Based MDT PLMN List IE.
-	the Additional CS Fallback Indicator IE.
-	the Masked IMEISV IE.
-	the Expected UE Behaviour IE.
-	the ProSe Authorized IE.
-	the UE User Plane CIoT Support Indicator IE.
-	the V2X Services Authorized IE.
-	the UE Sidelink Aggregate Maximum Bit Rate IE.
-	the NR UE Security Capabilities IE.
-	the Aerial UE subscription information IE.
-	the Pending Data Indication IE.
-	the IAB Authorized IE.
-	the NR V2X Services Authorized IE.
-	the NR UE Sidelink Aggregate Maximum Bit Rate IE.
-	the PC5 QoS Parameters IE.
The INITIAL CONTEXT SETUP REQUEST message shall contain the Subscriber Profile ID for RAT/Frequency priority IE, if available in the MME.
If the Correlation ID IE is included in the INITIAL CONTEXT SETUP REQUEST message towards the eNB with L-GW function for LIPA operation, then the eNB shall use this information for LIPA operation for the concerned E-RAB.
If the SIPTO Correlation ID IE is included in the INITIAL CONTEXT SETUP REQUEST message towards the eNB with L-GW function for SIPTO@LN operation, then the eNB shall use this information for SIPTO@LN operation for the concerned E-RAB.
If the Bearer Type IE is included in the INITIAL CONTEXT SETUP REQUEST message and is set to "non IP", then the eNB shall not perform IP header compression for the concerned E-RAB.
If the Ethernet Type IE is included in the INITIAL CONTEXT SETUP REQUEST message and is set to "True", then the eNB shall, if supported, take this into account to perform header compression appropriately for the concerned E-RAB.
If the Masked IMEISV IE is contained in the INITIAL CONTEXT SETUP REQUEST the target eNB shall, if supported, use it to determine the characteristics of the UE for subsequent handling.
If the Expected UE Behaviour IE is included in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall, if supported, store this information and may use it to determine the RRC connection time.
Upon receipt of the INITIAL CONTEXT SETUP REQUEST message the eNB shall
-	attempt to execute the requested E-RAB configuration.
-	store the UE Aggregate Maximum Bit Rate in the UE context, and use the received UE Aggregate Maximum Bit Rate for non-GBR Bearers for the concerned UE.
-	pass the value contained in the E-RAB ID IE and the NAS-PDU IE received for the E-RAB for each established Data radio bearer to the radio interface protocol. The eNB shall not send the NAS PDUs associated to the failed Data radio bearers to the UE.
-	store the received Handover Restriction List in the UE context.
-	store the received UE Radio Capability in the UE context.
-	store the received Subscriber Profile ID for RAT/Frequency priority in the UE context and use it as defined in TS 36.300 [14].
-	if supported, store the received Additional RRM Policy Index IE in the UE context and use it as defined in TS 36.300 [14].
-	store the received SRVCC Operation Possible in the UE context and use it as defined in TS 23.216 [9].
-	store the received UE Security Capabilities in the UE context.
-	store the received Security Key in the UE context, take it into use and associate it with the initial value of NCC as defined in TS 33.401 [15].
-	store the received CSG Membership Status, if supported, in the UE context.
-	store the received Management Based MDT Allowed information, if supported, in the UE context.
-	store the received Management Based MDT PLMN List information, if supported, in the UE context.
 -	store the received ProSe Authorization information, if supported, in the UE context.
-	store the received V2X Services Authorization information, if supported, in the UE context.
-	store the received UE Sidelink Aggregate Maximum Bit Rate, if supported, in the UE context, and use it for the concerned UE’s sidelink communication in network scheduled mode for V2X services.
-	store the received IAB Authorization Information, if supported, in the UE context.
-	store the received NR V2X Services Authorization information, if supported, in the UE context.
-	store the received NR UE Sidelink Aggregate Maximum Bit Rate, if supported, in the UE context, and use it for the concerned UE’s sidelink communication in network scheduled mode for NR V2X services.
-	store the received PC5 QoS Parameters, if supported, in the UE context, and use it for the concerned UE’s NR sidelink communication as specified in TS 23.285 [49].
For the Initial Context Setup an initial value for the Next Hop Chaining Count is stored in the UE context.
The allocation of resources according to the values of the Allocation and Retention Priority IE shall follow the principles described for the E-RAB Setup procedure.
The eNB shall use the information in the Handover Restriction List IE if present in the INITIAL CONTEXT SETUP REQUEST message to
-	determine a target for subsequent mobility action for which the eNB provides information about the target of the mobility action towards the UE, except if the CS Fallback Indicator IE is set to “CS Fallback High Priority” and the Additional CS Fallback Indicator IE is not present in which case the eNB may use the information in the Handover Restriction List IE;
-	select a proper SCG during dual connectivity operation.
If the Handover Restriction List IE is not contained in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall consider that no roaming and no access restriction apply to the UE. The eNB shall also consider that no roaming and no access restriction apply to the UE when:
-	one of the setup E-RABs has a particular ARP value (TS 23.401 [11]);
-	the CS Fallback Indicator IE is set to “CS Fallback High Priority” and the Additional CS Fallback Indicator IE is not present and, in case the Handover Restriction List IE is applied, no suitable target is found, in which case it shall process according to TS 23.272 [17];
-	the CS Fallback Indicator IE is set to “CS Fallback High Priority” and the Additional CS Fallback Indicator IE is set to “no restriction”, in which case it shall process according to TS 23.272 [17].
If the Trace Activation IE is included in the INITIAL CONTEXT SETUP REQUEST message then eNB shall, if supported, initiate the requested trace function as described in TS 32.422 [10]. In particular, the eNB shall, if supported:
-	if the Trace Activation IE does not include the MDT Configuration IE, initiate the requested trace session as described in TS 32.422 [10];
-	if the Trace Activation IE includes the MDT Activation IE, within the MDT Configuration IE, set to “Immediate MDT and Trace”, initiate the requested trace session and MDT session as described in TS 32.422 [10];
-	if the Trace Activation IE includes the MDT Activation IE ,within the MDT Configuration IE, set to “Immediate MDT Only”, “Logged MDT only” or “Logged MBSFN MDT”, initiate the requested MDT session as described in TS 32.422 [10] and the eNB shall ignore Interfaces To Trace IE, and Trace Depth IE.
-	if the Trace Activation IE includes the MDT Location Information IE, within the MDT Configuration IE, store this information and take it into account in the requested MDT session.
-	if the Trace Activation IE includes the Signalling based MDT PLMN List IE, within the MDT Configuration IE, the eNB may use it to propagate the MDT Configuration as described in TS 37.320 [31].
-	if the Trace Activation IE includes the MBSFN-ResultToLog IE, within the MDT Configuration IE, take it into account for MDT Configuration as described in TS 37.320 [31].
-	if the Trace Activation IE includes the MBSFN-AreaId IE in the MBSFN-ResultToLog IE, within the MDT Configuration IE, take it into account for MDT Configuration as described in TS 37.320 [31].
-	if the Trace Activation IE includes the UE Application layer measurement configuration IE, initiate the requested trace session and QoE Measurement Collection function as described in TS 36.300 [14].
-	if the Trace Activation IE includes the Bluetooth Measurement Configuration IE, within the MDT Configuration IE, take it into account for MDT Configuration as described in TS 37.320 [31].
-	if the Trace Activation IE includes the WLAN Measurement Configuration IE, within the MDT Configuration IE, take it into account for MDT Configuration as described in TS 37.320 [31].
-	if the Trace Activation IE includes the MDT Configuration NR IE, store and forward the MDT Configuration NR IE to the SgNB, if the eNB has configured EN-DC for the UE.
If the CS Fallback Indicator IE is included in the INITIAL CONTEXT SETUP REQUEST message, it indicates that the UE Context to be set-up is subject to CS Fallback. The eNB shall reply with the INITIAL CONTEXT SETUP RESPONSE message and then act as defined in TS 23.272 [17].
If the Registered LAI IE is included in the INITIAL CONTEXT SETUP REQUEST message, it indicates that the eNB may take the Registered LAI IE into account when selecting the target cell or frequency and then act as defined in TS 23.272 [17].
If the UE Security Capabilities IE included in the INITIAL CONTEXT SETUP REQUEST message only contains the EIA0 algorithm as defined in TS 33.401 [15] and if this EIA0 algorithm is defined in the configured list of allowed integrity protection algorithms in the eNB (TS 33.401 [15]), the eNB shall take it into use and ignore the keys received in the Security Key IE.
If the GUMMEI IE is contained in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall, if supported, store this information in the UE context and use it for subsequent X2 handovers.
If the MME UE S1AP ID 2 IE is contained in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall, if supported, store this information in the UE context and use it for subsequent X2 handovers.
If the Management Based MDT Allowed IE is contained in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall use it, if supported, together with information in the Management Based MDT PLMN List IE, if available in the UE context, to allow subsequent selection of the UE for management based MDT defined in TS 32.422 [10].
If the UE User Plane CIoT Support Indicator IE is included in the INITIAL CONTEXT SETUP REQUEST message and is set to "supported", the eNB shall, if supported, consider that User Plane CIoT EPS Optimisation as specified in TS 23.401 [11] is supported for the UE. 
If the Enhanced Coverage Restricted IE is included in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall store this information in the UE context and use it as defined in TS 23.401 [11].
If the CE-Mode-B Restricted IE is included in the INITIAL CONTEXT SETUP REQUEST message and the Enhanced Coverage Restricted IE is not set to restricted and the Enhanced Coverage Restricted information stored in the UE context is not set to restricted, the eNB shall store this information in the UE context and use it as defined in TS 23.401 [11].
If the NR UE Security Capabilities IE is included in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall, if supported, store this information in the UE context and use it as defined in TS 33.401 [15].
If the Aerial UE subscription information IE is included in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall, if supported, store this information in the UE context and use it as defined in TS 36.300 [14].
If the Pending Data Indication IE is included in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall use it as defined in TS 23.401 [11].
If the Subscription Based UE Differentiation Information IE is included in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall, if supported, store this information in the UE context for further use according to TS 23.401 [11].
If the UE Radio Capability ID IE is included in the INITIAL CONTEXT SETUP REQUEST message, the eNB shall, if supported, use it as defined in TS 23.401 [11].
The eNB shall report to the MME, in the INITIAL CONTEXT SETUP RESPONSE message, the successful establishment of the security procedures with the UE, and, the result for all the requested E-RABs in the following way:
-	A list of E-RABs which are successfully established shall be included in the E-RAB Setup List IE
-	A list of E-RABs which failed to be established shall be included in the E-RAB Failed to Setup List IE.
When the eNB reports the unsuccessful establishment of an E-RAB, the cause value should be precise enough to enable the MME to know the reason for the unsuccessful establishment, e.g., “Radio resources not available”, “Failure in the Radio Interface Procedure”.
After sending the INITIAL CONTEXT SETUP RESPONSE message, the procedure is terminated in the eNB.
8.3.1.3	Unsuccessful Operation

Figure 8.3.1.3-1: Initial Context Setup procedure. Unsuccessful operation.
If the eNB is not able to establish an S1 UE context, or cannot even establish one non GBR bearer it shall consider the procedure as failed and reply with the INITIAL CONTEXT SETUP FAILURE message.
8.3.1.4	Abnormal Conditions
If the eNB receives an INITIAL CONTEXT SETUP REQUEST message containing a E-RAB Level QoS Parameters IE which contains a QCI IE indicating a GBR bearer (as defined in TS 23.203 [13]), and which does not contain the GBR QoS Information IE, the eNB shall consider the establishment of the corresponding E-RAB as failed. 
If the eNB receives an INITIAL CONTEXT SETUP REQUEST message containing several E-RAB ID IEs (in the E-RAB to Be Setup List IE) set to the same value, the eNB shall consider the establishment of the corresponding E-RABs as failed.
If the supported algorithms for encryption defined in the Encryption Algorithms IE in the UE Security Capabilities IE, plus the mandated support of EEA0 in all UEs (TS 33.401 [15]), do not match any allowed algorithms defined in the configured list of allowed encryption algorithms in the eNB (TS 33.401 [15]), the eNB shall reject the procedure using the INITIAL CONTEXT SETUP FAILURE message.
If the supported algorithms for integrity defined in the Integrity Protection Algorithms IE in the UE Security Capabilities IE, plus the mandated support of the EIA0 algorithm in all UEs (TS 33.401 [15]), do not match any allowed algorithms defined in the configured list of allowed integrity protection algorithms in the eNB (TS 33.401 [15]), the eNB shall reject the procedure using the INITIAL CONTEXT SETUP FAILURE message.
If the CSG Membership Status IE is not included in the INITIAL CONTEXT SETUP REQUEST message and the cell accessed by the UE is a hybrid cell, the eNB shall reject the procedure using the INITIAL CONTEXT SETUP FAILURE message.
If the eNB receives an INITIAL CONTEXT SETUP REQUEST message containing both the Correlation ID and the SIPTO Correlation ID IEs for the same E-RAB, the eNB shall consider the establishment of the corresponding E-RAB as failed.
8.3.2	UE Context Release Request (eNB initiated)
8.3.2.1	General
The purpose of the UE Context Release Request procedure is to enable the eNB to request the MME to release the UE-associated logical S1-connection due to E-UTRAN generated reasons, e.g., “TX2RELOCOverall Expiry”. The procedure uses UE-associated signalling.
8.3.2.2	Successful Operation


Figure 8.3.2.2-1: UE Context Release Request procedure. Successful operation.
The eNB controlling a UE-associated logical S1-connection initiates the procedure by generating a UE CONTEXT RELEASE REQUEST message towards the affected MME node. 
The UE CONTEXT RELEASE REQUEST message shall indicate the appropriate cause value, e.g., “User Inactivity”, “Radio Connection With UE Lost”, “CSG Subscription Expiry”, “CS Fallback triggered”, “Redirection towards 1xRTT”, “Inter-RAT Redirection”, “UE Not Available for PS Service”, “Release due to pre-emption”, for the requested UE-associated logical S1-connection release. 
If the Secondary RAT Usage Report List IE is included in the UE CONTEXT RELEASE REQUEST message, the MME shall handle this information as specified in TS 23.401 [11].
Interactions with UE Context Release procedure:
The UE Context Release procedure should be initiated upon reception of a UE CONTEXT RELEASE REQUEST message. If the UE was configured with EN-DC radio resources at the time UE Context Release Request procedure was triggered, and the PSCell information was available, the eNB shall store the PSCell information in the UE context.
8.3.3	UE Context Release (MME initiated)
8.3.3.1	General
The purpose of the UE Context Release procedure is to enable the MME to order the release of the UE-associated logical connection due to various reasons, e.g., completion of a transaction between the UE and the EPC, or completion of successful handover, or completion of handover cancellation, or release of the old UE-associated logical S1-connection when two UE-associated logical S1-connections toward the same UE is detected after the UE has initiated the establishment of a new UE-associated logical S1-connection, or the UE is no longer allowed to access the CSG cell (i.e., the UE becomes a non-member of the currently used CSG cell). The procedure uses UE-associated S1 connection.
8.3.3.2	Successful Operation

Figure 8.3.3.2-1: UE Context Release procedure. Successful operation.
The MME initiates the procedure by sending the UE CONTEXT RELEASE COMMAND message to the eNB. 
The UE CONTEXT RELEASE COMMAND message shall contain the UE S1AP ID pair IE if available, otherwise the message shall contain the MME UE S1AP ID IE.
The MME provides the cause IE set to “Load Balancing TAU Required” in the UE CONTEXT RELEASE COMMAND message sent to the eNB for all load balancing and offload cases in the MME. 
Upon reception of the UE CONTEXT RELEASE COMMAND message, the eNB shall release all related signalling and user data transport resources and reply with the UE CONTEXT RELEASE COMPLETE message. In case of eNB supporting L-GW function for LIPA and/or SIPTO@LN operation, the eNB shall also release any related tunnel resources. In case of successful handover, the eNB using L-GW function for SIPTO@LN operation shall also request using intra-node signalling the collocated L-GW to release the SIPTO@LN PDN connection as defined in TS 23.401 [11].
The eNB shall, if supported, report in the UE CONTEXT RELEASE COMPLETE message location information of the UE in the User Location Information IE. If the PSCell Information IE is included in the User Location Information IE, it indicates the UE was configured with EN-DC radio resources at the eNB . Also, if the Time Since Secondary Node Release IE is included in the UE CONTEXT RELEASE COMPLETE message, it indicates the time elapsed since EN-DC operation in the eNB was stopped for the UE.
If the User Location Information IE is included in the UE CONTEXT RELEASE COMPLETE message, the MME shall handle this information as specified in TS 23.401 [11].
If the Information on Recommended Cells and eNBs for Paging IE is included in the UE CONTEXT RELEASE COMPLETE message, the MME shall, if supported, store it and may use it for subsequent paging. 
If the Cell Identifier and Coverage Enhancement Level IE is included in the UE CONTEXT RELEASE COMPLETE message, the MME shall, if supported, store it and use it for subsequent paging.
If the Secondary RAT Usage Report List IE is included in the UE CONTEXT RELEASE COMPLETE message, the MME shall handle this information as specified in TS 23.401 [11].
8.3.3.3	Abnormal Conditions
If the UE Context Release procedure is not initiated towards the eNB before the expiry of the timer TS1RELOCOverall, the eNB shall request the MME to release the UE context.
If the UE returns to the eNB before the reception of the UE CONTEXT RELEASE COMMAND message or the expiry of the timer TS1RELOCOverall, the eNB shall stop the TS1RELOCOverall and continue to serve the UE.
8.3.4	UE Context Modification
8.3.4.1	General
The purpose of the UE Context Modification procedure is to partly modify the established UE Context, e.g., with the Security Key or the Subscriber Profile ID for RAT/Frequency priority. The procedure uses UE-associated signalling.
8.3.4.2	Successful Operation

Figure 8.3.4.2-1: UE Context Modification procedure. Successful operation.
The UE CONTEXT MODIFICATION REQUEST message may contain.
-	the Security Key IE.
-	the Subscriber Profile ID for RAT/Frequency priority IE.
-	the Additional RRM Policy Index IE.
-	the UE Aggregate Maximum Bit Rate IE.
-	the CS Fallback Indicator IE.
-	the UE Security Capabilities IE. 
-	the CSG Membership Status IE.
-	the Registered LAI IE.
-	the Additional CS Fallback Indicator IE.
-	the ProSe Authorized IE.
-	the SRVCC Operation Possible IE.
-	the SRVCC Operation Not Possible IE.
-	the V2X Services Authorized IE.
-	the UE Sidelink Aggregate Maximum Bit Rate IE.
-	the NR UE Security Capabilities IE.
-	the Aerial UE subscription information IE.
-	the IAB Authorized IE.
-	the NR V2X Services Authorized IE.
-	the NR UE Sidelink Aggregate Maximum Bit Rate IE.
-	the PC5 QoS Parameters IE.
-	the UE Radio Capability ID IE.
Upon receipt of the UE CONTEXT MODIFICATION REQUEST message the eNB shall
-	store the received Security Key IE, take it into use and associate it with the initial value of NCC as defined in TS 33.401 [15]
-	store the UE Security Capabilities IE and take them into use together with the received keys according to TS 33.401 [15].
-	if supported, store the NR UE Security Capabilities IE and use it as defined in TS 33.401 [15]
-	store the Subscriber Profile ID for RAT/Frequency priority IE and use it as defined in TS 36.300 [14].
-	if supported, store the Additional RRM Policy Index IE and use it as defined in TS 36.300 [14].
-	store the received IAB Authorized IE, if supported, in the UE context.
If the UE Aggregate Maximum Bit Rate IE is included in the UE CONTEXT MODIFICATION REQUEST message the eNB shall:
-	replace the previously provided UE Aggregate Maximum Bit Rate by the received UE Aggregate Maximum Bit Rate in the UE context;
-	use the received UE Aggregate Maximum Bit Rate for non-GBR Bearers for the concerned UE.
If the CSG Membership Status IE is received in the UE CONTEXT MODIFICATION REQUEST message, the eNB shall take the following action:
-	If the cell that serves the UE is a hybrid cell, the eNB shall store the value contained in the CSG Membership Status IE and replace any previously stored membership status value by this new one. It shall then use it as defined in TS 36.300 [14].
-	If the cell that serves the UE is a CSG cell, and the CSG Membership Status IE is set to “not-member”, the eNB should initiate actions to ensure that the UE is no longer served by the CSG cell as defined in TS 36.300 [14].
-	If the UE is in dual connectivity operation and the cell configured as SCG is a hybrid cell, the eNB shall inform the eNB serving the SCG of the updated CSG membership status.
If the UE Aggregate Maximum Bit Rate IE is not contained in the UE CONTEXT MODIFICATION REQUEST message, the eNB shall use the previously provided UE Aggregate Maximum Bit Rate which is stored in the UE context. 
If the CS Fallback Indicator IE is included in the UE CONTEXT MODIFICATION REQUEST message, it indicates that the concerned UE Context is subject to CS Fallback. The eNB shall reply with the UE CONTEXT MODIFICATION RESPONSE message and then act as defined in TS 23.272 [17]. If the CS Fallback Indicator IE is set to “CS Fallback High Priority” and the Additional CS Fallback Indicator IE is not present and, in case the Handover Restriction List information that may exist in the UE context is applied, no suitable target is found, or if the CS Fallback Indicator IE is set to “CS Fallback High Priority” and the Additional CS Fallback Indicator IE is set to “no restriction”, the eNB shall consider that no roaming and no access restriction apply to the UE and process according to TS 23.272 [17].
If the Registered LAI IE is included in the UE CONTEXT MODIFICATION REQUEST message, it indicates that the eNB may take the Registered LAI IE into account when selecting the target cell or frequency and then act as defined in TS 23.272 [17].
If the ProSe Authorized IE is contained in the UE CONTEXT MODIFICATION REQUEST message, the eNB shall, if supported, update its ProSe authorization information for the UE accordingly. If the ProSe Authorized IE includes one or more IEs set to “not authorized”, the eNB shall, if supported, initiate actions to ensure that the UE is no longer accessing the relevant ProSe service(s).
If the SRVCC Operation Possible IE is included in UE CONTEXT MODIFICATION REQUEST message, the eNB shall store content of the received SRVCC Operation Possible IE in the UE context and, if supported, use it as defined in TS 23.216 [9].
If the SRVCC Operation Not Possible IE is included in UE CONTEXT MODIFICATION REQUEST message, the eNB shall, if supported, remove the SRVCC Operation Possible information from the UE context.
If the V2X Services Authorized IE is contained in the UE CONTEXT MODIFICATION REQUEST message, the eNB shall, if supported, update its V2X services authorization information for the UE accordingly. If the V2X Services Authorized IE includes one or more IEs set to “not authorized”, the eNB shall, if supported, initiate actions to ensure that the UE is no longer accessing the relevant service(s).
If the UE Sidelink Aggregate Maximum Bit Rate IE is included in the UE CONTEXT MODIFICATION REQUEST message, the eNB shall, if supported:
-	replace the previously provided UE Sidelink Aggregate Maximum Bit Rate, if available in the UE context, with the received value; 
-	use the received value for the concerned UE’s sidelink communication in network scheduled mode for V2X services.
If the Aerial UE subscription information IE is included in the UE CONTEXT MODIFICATION REQUEST message, the eNB shall, if supported, store this information in the UE context and use it as defined in TS 36.300 [14].
If the UE Radio Capability ID IE is included in the UE CONTEXT MODIFICATION REQUEST message, the eNB shall, if supported, use it as defined in TS 23.401 [11].
The eNB shall report, in the UE CONTEXT MODIFICATION RESPONSE message to the MME the successful update of the UE context.
After sending the UE CONTEXT MODIFICATION RESPONSE message, the procedure is terminated in the eNB.
If the NR V2X Services Authorized IE is contained in the UE CONTEXT MODIFICATION REQUEST message, the eNB shall, if supported, update its V2X services authorization information for the UE accordingly. If the NR V2X Services Authorized IE includes one or more IEs set to “not authorized”, the eNB shall, if supported, initiate actions to ensure that the UE is no longer accessing the relevant service(s).
If the NR UE Sidelink Aggregate Maximum Bit Rate IE is included in the UE CONTEXT MODIFICATION REQUEST message, the eNB shall, if supported:
-	replace the previously provided NR UE Sidelink Aggregate Maximum Bit Rate, if available in the UE context, with the received value; 
-	use the received value for the concerned UE’s sidelink communication in network scheduled mode for NR V2X services.
If the PC5 QoS Parameters IE is included in the UE CONTEXT MODIFICATION REQUEST message, the eNB shall, if supported, use it for the concerned UE’s NR sidelink communication as specified in TS 23.285 [49].
8.3.4.3	Unsuccessful Operation

Figure 8.3.4.3-1: UE Context Modification procedure. Unsuccessful operation.
In case the UE context update cannot be performed successfully the eNB shall respond with the UE CONTEXT MODIFICATION FAILURE message to the MME with an appropriate cause value in the Cause IE. 
8.3.4.4	Abnormal Conditions
If the eNB receives both the CS Fallback Indicator IE and one of the security IEs (either the Security Key IE or the UE Security Capabilities IE) in the UE Context Modification Request message, the eNB shall ignore both IEs and send back the UE CONTEXT MODIFICATION FAILURE message with an appropriate cause value.
8.3.5	UE Radio Capability Match
8.3.5.1	General
The purpose of the UE Radio Capability Match procedure is for the MME to request the eNB to derive and provide an indication to the MME whether the UE radio capabilities are compatible with the network configuration for voice continuity.
The procedure uses UE-associated signalling.
8.3.5.2	Successful Operation

Figure 8.3.5.2-1: UE Radio Capability Match. Successful operation
The MME initiates the procedure by sending a UE RADIO CAPABILITY MATCH REQUEST message. If the UE-associated logical S1-connection is not established, the MME shall allocate a unique MME UE S1AP ID to be used for the UE and include the MME UE S1AP ID IE in the UE RADIO CAPABILITY MATCH REQUEST message; by receiving the MME UE S1AP ID IE in the UE RADIO CAPABILITY MATCH REQUEST message, the eNB establishes the UE-associated logical S1-connection.
Upon receipt of the UE RADIO CAPABILITY MATCH REQUEST message, the eNB shall act as defined in the TS 23.401 [11] and respond with a UE RADIO CAPABILITY MATCH RESPONSE message.
If the UE Radio Capability IE is contained in the UE RADIO CAPABILITY MATCH REQUEST message, the eNB shall use it to determine the value of the Voice Support Match Indicator IE to be included in the UE RADIO CAPABILITY MATCH RESPONSE message.
If the UE Radio Capability ID IE is included in the UE RADIO CAPABILITY MATCH REQUEST message, the eNB shall, if supported, use it as defined in TS 23.401 [11].
8.3.5.3	Unsuccessful Operation
Not applicable.
8.3.5.4	Abnormal Conditions
Not applicable.
8.3.6	UE Context Modification Indication
8.3.6.1	General
The purpose of the UE Context Modification Indication procedure is for the eNB to request the modifications on the established UE Context.
The procedure uses UE-associated signalling.
In the current version of the specification, this procedure is only used for membership verification, as described in TS 36.300 [14].
8.3.6.2	Successful Operation

Figure 8.3.6.2-1: UE Context Modification Indication. Successful operation
If the CSG Membership Info IE is included in the UE CONTEXT MODIFICATION INDICATION message, the MME shall use the information for CSG membership verification as specified in TS 36.300 [14] and provide the result of the membership verification in the CSG Membership Status IE contained in the UE CONTEXT MODIFICATION CONFIRM message.
If no CSG Membership Info IE is received in the UE CONTEXT MODIFICATION INDICATION message and the UE was previously configured with resources from a hybrid cell, the MME shall consider that the UE has moved into an open access cell.
If PLMN Identity IE is received in the CSG Membership Info IE in the UE CONTEXT MODIFICATION INDICATION message, the MME shall use it for CSG membership verification as specified in TS 36.300 [14].
8.3.6.3	Unsuccessful Operation
Not applicable.
8.3.6.4	Abnormal Conditions
If the CSG Membership Info IE in the UE CONTEXT MODIFICATION message does not contain the Cell Access Mode IE set to "hybrid"the MME shall trigger the UE Context Release procedure.
8.3.7	UE Context Suspend
8.3.7.1	General
The purpose of the UE Context Suspend procedure is to suspend the UE context, the UE-associated logical S1-connection and the related bearer contexts in the E-UTRAN and the EPC.
8.3.7.2	Successful Operation

Figure 8.3.7.2-1: UE Context Suspend procedure. Successful operation.
The eNB initiates the procedure by sending the UE CONTEXT SUSPEND REQUEST message to the MME.
Upon receipt of the UE CONTEXT SUSPEND REQUEST the MME shall act as defined in TS 23.401 [11].
Upon receipt of the UE CONTEXT SUSPEND RESPONSE message the eNB shall suspend the UE context, the UE-associated logical S1-connection and the related bearer contexts and send the UE to RRC_IDLE.
If the Information on Recommended Cells and eNBs for Paging IE is included in the UE CONTEXT SUSPEND REQUEST message, the MME shall, if supported, store it and may use it for subsequent paging.
If the Cell Identifier and Coverage Enhancement Level IE is included in the UE CONTEXT SUSPEND REQUEST message, the MME shall, if supported, store it and use it for subsequent paging.
If the Secondary RAT Usage Report List IE is included in the UE CONTEXT SUSPEND REQUEST message, the MME shall handle this information as specified in TS 23.401 [11].
If the Security Context IE is included in the UE CONTEXT SUSPEND RESPONSE message, the eNB shall store the received Security Context IE in the UE context and remove any existing unused stored {NH, NCC} as specified in TS 33.401 [15].
The eNB shall, if supported, report in the UE CONTEXT SUSPEND REQUEST message location information of the UE in the User Location Information IE. If the PSCell Information IE is included in the User Location Information IE, it indicates the UE was configured with EN-DC radio resources at the eNB. Also, if the Time Since Secondary Node Release IE is included in the UE CONTEXT SUSPEND REQUEST message, it indicates the time elapsed since EN-DC operation in the eNB was stopped for the UE.
8.3.8	UE Context Resume
8.3.8.1	General
The purpose of the UE Context Resume procedure is to indicate to the MME that the UE has resumed the suspended RRC connection or accesses for early data transmission and to request the MME to resume the UE context, UE-associated logical S1-connection and the related bearer contexts in the EPC.
8.3.8.2	Successful Operation

Figure 8.3.8.2-1: UE Context Resume procedure. Successful operation.
The eNB initiates the procedure by sending the UE CONTEXT RESUME REQUEST message to the MME. If the eNB is not able to admit all suspended E-RABs the eNB shall indicate this in the E-RABs Failed To Resume List IE.
Upon receipt of the UE CONTEXT RESUME REQUEST message the MME shall act as defined in TS 23.401 [11] and respond with the UE CONTEXT RESUME RESPONSE. If the MME is not able to admit all suspended E-RABs the MME shall indicate this in the E-RABs Failed To Resume List IE.
The eNB shall release resources for each E-RAB failed to resume and shall assume that the EPC has released respective resources as well.
If the Security Context IE is included in the UE CONTEXT RESUME RESPONSE message, the eNB shall store the received Security Context IE in the UE context and the eNB shall use it for the next suspend/resume or X2 handover or Intra eNB handovers as specified in TS 33.401 [15].
If the Pending Data Indication IE is included in the UE CONTEXT RESUME RESPONSE message, the eNB shall use it as defined in TS 23.401 [11].
If the UE Context Resume procedure was initiated as a result of an EDT session as described in TS 36.300 [14] and the Pending Data Indication IE is received in the UE CONTEXT RESUME RESPONSE message, the eNB shall, if supported, use it to decide whether to proceed to set up an RRC connection for the UE.
8.3.8.3	Unsuccessful Operation

Figure 8.3.8.3-1: UE Context Resume procedure. Unsuccessful operation.
If the MME is not able to resume a single E-RAB it releases the UE-associated logical S1-connection by sending the UE CONTEXT RESUME FAILURE message to the eNB. Upon reception of the UE CONTEXT RESUME FAILURE message the eNB shall release the RRC connection as specified in TS 36.331 [16] and release all related signalling and user data transport resources.
8.3.9	Connection Establishment Indication
8.3.9.1	General
The purpose of the Connection Establishment Indication procedure is to enable the MME to complete the establishment of the UE-associated logical S1-connection, and/or trigger the eNB to obtain and report UE Radio Capability. The procedure uses UE-associated signalling.
8.3.9.2	Successful Operation

Figure 8.3.9.2-1: Connection Establishment Indication procedure. Successful operation.
The MME initiates the procedure by sending a CONNECTION ESTABLISHMENT INDICATION message to the eNB.
If the UE-associated logical S1-connection is not established, the MME shall allocate a unique MME UE S1AP ID to be used for the UE and include that in the CONNECTION ESTABLISHMENT INDICATION message.
If the UE Radio Capability IE is included in the CONNECTION ESTABLISHMENT INDICATION message, the eNB shall store this information in the UE context, use it as defined in TS 36.300 [14].
If the Enhanced Coverage Restricted IE is included in the CONNECTION ESTABLISHMENT INDICATION message, the eNB shall store this information in the UE context and use it as defined in TS 23.401 [11].
If the DL CP Security Information IE is included in the CONNECTION ESTABLISHMENT INDICATION message, the eNB shall forward this information to the UE as described in TS 36.300 [14].
If the CE-Mode-B Restricted IE is included in the CONNECTION ESTABLISHMENT INDICATION message and the Enhanced Coverage Restricted IE is not set to restricted and the Enhanced Coverage Restricted information stored in the UE context is not set to restricted, the eNB shall store this information in the UE context and use it as defined in TS 23.401 [11].
If the End Indication IE is included in the CONNECTION ESTABLISHMENT INDICATION message and set to "no further data", the eNB shall consider that there are no further NAS PDUs to be transmitted for this UE.
If the Subscription Based UE Differentiation Information IE is included in the CONNECTION ESTABLISHMENT INDICATION message, the eNB shall, if supported, store this information in the UE context for further use according to TS 23.401 [11].
If the UE Level QoS Parameters IE is contained in the CONNECTION ESTABLISHMENT INDICATION message, the eNB shall, if supported, store this information in the UE context, and use it as specified in TS 23.401 [11].
If the UE Radio Capability ID IE is contained in the CONNECTION ESTABLISHMENT INDICATION message, the eNB shall, if supported, use it as defined in TS 23.401 [11].
8.3.9.3	Unsuccessful Operation
Not applicable.
8.3.9.4	Abnormal Conditions
Not applicable.
8.3.10	Retrieve UE Information 
8.3.10.1	General
The purpose of the Retrieve UE information procedure is for the eNB to request the UE information including QoS Parameters and UE Radio capability from MME, for a NB-IoT UE using Control Plane CIoT EPS Optimisation.
8.3.10.2	Successful Operation 


Figure 8.3.10.1: Retrieve UE Information Procedure. Successful operation.
The eNB initiates the procedure by sending the RETRIEVE UE INFORMATION message to the MME.
8.3.10.3	Unsuccessful Operation
Not applicable.
8.3.10.4	Abnormal Conditions
Not applicable.
8.3.11	UE Information Transfer
8.3.11.1	General
The purpose of the UE information transfer procedure is for the MME to send the UE information including QoS Parameters and UE Radio capability to the eNB, for a NB-IoT UE using Control Plane CIoT EPS Optimisation.
8.3.11.2	Successful Operation 


Figure 8.3.11.1: UE Information Transfer Procedure. Successful operation.
The MME initiates the procedure by sending the UE INFORMATION TRANSFER message to the eNB.
If the UE Level QoS Parameters IE is contained in the UE INFORMATION TRANSFER message, the eNB shall store this information in the UE context, and use it as specified in TS 23.401 [11].
If the UE Radio Capability IE is contained in the UE INFORMATION TRANSFER message, the eNB shall store this information in the UE context, and use it as specified in TS 23.401 [11].
If the Subscription Based UE Differentiation Information IE is included in the UE INFORMATION TRANSFER message, the eNB shall, if supported, store this information in the UE context for further use according to TS 23.401 [11].
If the Pending Data Indication IE is contained in the UE INFORMATION TRANSFER message, the eNB shall store this information in the UE context, and use it as specified in TS 23.401 [11].
8.3.11.3	Unsuccessful Operation
Not applicable.
8.3.11.4	Abnormal Conditions
Not applicable.
8.3.12	eNB CP Relocation Indication
8.3.12.1	General
The purpose of the eNB CP Relocation Indication procedure is to request the MME to authenticate the UE’s re-establishment request as described in TS 36.300 [14], and trigger the establishment of the respective UE-associated logical S1-connection, for a NB-IoT UE using Control Plane CIoT EPS Optimisation.
The procedure uses UE-associated signalling.
8.3.12.2	Successful Operation

Figure 8.3.12.2-1: eNB CP Relocation Indication. Successful operation.
The eNB initiates the procedure by sending a eNB CP RELOCATION INDICATION message to the MME.
The eNB shall allocate a unique eNB UE S1AP ID to be used for the UE and the eNB shall include this identity in the eNB CP RELOCATION INDICATION message. 
8.3.12.3	Unsuccessful Operation
Not applicable.
8.3.12.4	Abnormal Conditions
Not applicable.
8.3.13	MME CP Relocation Indication
8.3.13.1	General
The purpose of the MME CP Relocation Indication procedure is to inform the eNB that the UE’s connection is to be relocated to another eNB as described in TS 36.300 [14], for a UE using Control Plane CIoT EPS Optimisation.
The procedure uses UE-associated signalling.
8.3.13.2	Successful Operation

Figure 8.3.13.2-1: MME CP Relocation Indication. Successful operation.
The MME initiates the procedure by sending a MME CP RELOCATION INDICATION message to the eNB.
Upon reception of the MME CP RELOCATION INDICATION message, the eNB shall terminate the delivery of NAS messages that have been received from the MME, and proceed as described in TS 36.300 [14]. 
8.3.13.3	Unsuccessful Operation
Not applicable.
8.3.13.4	Abnormal Conditions
Not applicable.
8.4	Handover Signalling
8.4.1	Handover Preparation
8.4.1.1	General
The purpose of the Handover Preparation procedure is to request the preparation of resources at the target side via the EPC. There is only one Handover Preparation procedure ongoing at the same time for a certain UE.
8.4.1.2	Successful Operation

Figure 8.4.1.2-1: Handover preparation: successful operation
The source eNB initiates the handover preparation by sending the HANDOVER REQUIRED message to the serving MME. When the source eNB sends the HANDOVER REQUIRED message, it shall start the timer TS1RELOCprep. The source eNB shall indicate the appropriate cause value for the handover in the Cause IE.
The source eNB shall include the Source to Target Transparent Container IE in the HANDOVER REQUIRED message.
In case of intra-system handover, the information in the Source to Target Transparent Container IE shall be encoded according to the definition of the Source eNB to Target eNB Transparent Container IE. In case of handover to UTRAN, the information in the Source to Target Transparent Container IE shall be encoded according to the Source RNC to Target RNC Transparent Container IE definition as specified in TS 25.413 [19] and the source eNB shall include the UE History Information IE in the Source RNC to Target RNC Transparent Container IE. If the handover is to GERAN A/Gb mode then the information in the Source to Target Transparent Container IE shall be encoded according to the definition of the Source BSS to Target BSS Transparent Container IE as described in TS 48.018 [18]. If the handover is to NG-RAN, the information in the Source to Target Transparent Container IE shall be encoded according to the Source NG-RAN Node to Target NG-RAN Node Transparent ContainerIE definition as specified in TS 38.413 [44].
When the preparation, including the reservation of resources at the target side is ready, the MME responds with the HANDOVER COMMAND message to the source eNB.
If the Target to Source Transparent Container IE has been received by the MME from the handover target then the transparent container shall be included in the HANDOVER COMMAND message.
Upon reception of the HANDOVER COMMAND message the source eNB shall stop the timer TS1RELOCprep and start the timer TS1RELOCOverall.
In case of intra-system handover, the information in the Target to Source Transparent Container IE shall be encoded according to the definition of the Target eNB to Source eNB Transparent Container IE. In case of inter-system handover to UTRAN, the information in the Target to Source Transparent Container IE shall be encoded according to the Target RNC to Source RNC Transparent Container IE definition as specified in TS 25.413 [19]. In case of inter-system handover to GERAN A/Gb mode, the information in the Target to Source Transparent Container IE shall be encoded according to the Target BSS to Source BSS Transparent Container IE definition as described in TS 48.018 [18]. In case of inter-system handover to NG-RAN, the information in the Target to Source Transparent Container IE shall be encoded according to the Target NG-RAN Node to Source NG-RAN Node Transparent Container IE definition as specified in TS 38.413 [44].
If the Direct Forwarding Path Availability IE is included in the Target NG-RAN Node to Source NG-RAN Node Transparent Container IE within the HANDOVER COMMAND message, the source eNB shall, if supported, use it for direct data forwarding between the source SN and the target NG-RAN node.
If there are any E-RABs that could not be admitted in the target, they shall be indicated in the E-RABs to Release List IE.
If the DL forwarding IE is included within the Source eNB to Target eNB Transparent Container IE of the HANDOVER REQUIRED message and it is set to “DL forwarding proposed”, it indicates that the source eNB proposes forwarding of downlink data.
If the MME receives the Direct Forwarding Path Availability IE in the HANDOVER REQUIRED message indicating that a direct data path is available, it shall handle it as specified in TS 23.401 [11].
If the CSG Id IE and no Cell Access Mode IE are received in the HANDOVER REQUIRED message, the MME shall perform the access control according to the CSG Subscription Data of that UE and, if the access control is successful or if at least one of the E-RABs has a particular ARP value (see TS 23.401 [11]), it shall continue the handover and propagate the CSG Id IE to the target side. If the access control is unsuccessful but at least one of the E-RABs has a particular ARP value (see TS 23.401 [11]) the MME shall also provide the CSG Membership Status IE set to “non member” to the target side.
If the CSG Id IE and the Cell Access Mode IE set to “hybrid” are received in the HANDOVER REQUIRED message, the MME shall provide the membership status of the UE and the CSG Id to the target side.
The source eNB shall include the SRVCC HO Indication IE in the HANDOVER REQUIRED message if the SRVCC operation is needed as defined in TS 23.216 [9]. The source eNB shall indicate to the MME in the SRVCC HO Indication IE if the handover shall be prepared for PS and CS domain or only for CS domain. The SRVCC HO Indication IE is set according to the target cell capability and UE capability. In case the target system is GERAN without DTM support or the UE is without DTM support, the source eNB shall indicate “CS only” in the SRVCC HO Indication IE and “PS service not available” in PS Service Not Available IE. In case the target system is either GERAN with DTM but without DTM HO support and the UE is supporting DTM or the target system is UTRAN without PS HO support, the source eNB shall indicate “CS only” in the SRVCC HO Indication IE. Otherwise, the source eNB shall indicate “PS and CS” in the SRVCC HO Indication IE.
In case of inter-system handover from E-UTRAN, the source eNB shall indicate in the Target ID IE, in case the target system is UTRAN, the Target RNC-ID of the RNC (including the Routing Area Code only in case the UTRAN PS domain is involved), in case the target system is GERAN the Cell Global Identity (including the Routing Area Code only in case the GERAN PS domain is involved) of the cell, and in case the target system is NG-RAN the Target NG-RAN Node ID of the NG-RAN node in the target system.
In case of inter-system handover from E-UTRAN to UTRAN, the source eNB shall, if supported, include the HO Cause Value IE in the UE History Information IE of the HANDOVER REQUIRED message.
In case the SRVCC operation is performed and the SRVCC HO Indication IE indicates that handover shall be prepared only for CS domain, and if
-	the target system is GERAN, then the source eNB
-	shall encode the information in the Source to Target Transparent Container IE within the HANDOVER REQUIRED message, according to the definition of the Old BSS to New BSS information IE as specified in TS 48.008 [23], and
-	shall not include the Source to Target Transparent Container Secondary IE in the HANDOVER REQUIRED message;
-	the target system is UTRAN, then the source eNB
-	shall encode the information in the Source to Target Transparent Container IE within the HANDOVER REQUIRED message according to the definition of the Source RNC to Target RNC Transparent Container IE as specified in TS 25.413 [19],
-	shall include the UE History Information IE in the Source RNC to Target RNC Transparent Container IE, and
-	shall not include the Source to Target Transparent Container Secondary IE in the HANDOVER REQUIRED message.
In case the SRVCC operation is performed, the SRVCC HO Indication IE in the HANDOVER REQUIRED message indicates that handover shall be prepared for PS and CS domain, and if
-	the target system is GERAN with DTM HO support, then the source eNB
-	shall encode the information in the Source to Target Transparent Container IE within the HANDOVER REQUIRED message according to the definition of the Source BSS to Target BSS Transparent Container IE as described in TS 48.018 [18],and
-	shall include the Source to Target Transparent Container Secondary IE in the HANDOVER REQUIRED message and encode information in it according to the definition of the Old BSS to New BSS information IE as specified in TS 48.008 [23];
-	the target system is UTRAN, then the source eNB
-	shall encode the information in the Source to Target Transparent Container IE within the HANDOVER REQUIRED message according to the definition of the Source RNC to Target RNC Transparent Container IE as specified in TS 25.413 [19],
-	shall include the UE History Information IE in the Source RNC to Target RNC Transparent Container IE, and
-	shall not include the Source to Target Transparent Container Secondary IE in the HANDOVER REQUIRED message.
In case the SRVCC operation is performed, the SRVCC HO Indication IE in the HANDOVER REQUIRED message indicates that handover shall be prepared only for CS domain, and if
-	the target system is GERAN, then the MME
-	shall encode the information in the Target to Source Transparent Container IE within the HANDOVER COMMAND message according to the definition of the Layer 3 Information IE as specified in TS 48.008 [23], and
-	shall not include the Target to Source Transparent Container Secondary IE in the HANDOVER COMMAND message;
-	the target system is UTRAN, then the MME
-	shall encode the information in the Target to Source Transparent Container IE within the HANDOVER COMMAND message according to the definition of the Target RNC to Source RNC Transparent Container IE as specified in TS 25.413 [19], and
-	shall not include the Target to Source Transparent Container Secondary IE in the HANDOVER COMMAND message.
In case the SRVCC operation is performed, the SRVCC HO Indication IE in the HANDOVER REQUIRED message indicates that handover shall be prepared for PS and CS domain,
-	the target system is GERAN with DTM HO support, and if
-	the Handover Preparation procedure has succeeded in the CS and PS domain, then the MME
-	shall encode the information in the Target to Source Transparent Container IE within the HANDOVER COMMAND message according to the definition of the Layer 3 Information IE as specified in TS 48.008 [23], and
-	shall include the Target to Source Transparent Container Secondary IE in the HANDOVER COMMAND message and encode information in it according to the definition of the Target BSS to Source BSS Transparent Container IE as specified in TS 48.018 [18];
-	the Handover Preparation procedure has succeeded in the CS domain only, then the MME
-	shall encode the information in the Target to Source Transparent Container IE within the HANDOVER COMMAND message according to the definition of the Layer 3 Information IE as specified in TS 48.008 [23], and 
-	shall not include the Target to Source Transparent Container Secondary IE in the HANDOVER COMMAND message;
-	the target system is UTRAN, then the Handover Preparation procedure shall be considered successful if the Handover Preparation procedure has succeeded in the CS domain, and the MME
-	shall encode the information in the Target to Source Transparent Container IE within the HANDOVER COMMAND message according to the definition of the Target RNC to Source RNC Transparent Container IE as specified in TS 25.413 [19], and
-	shall not include the Target to Source Transparent Container Secondary IE in the HANDOVER COMMAND message.
If the HANDOVER COMMAND message contains the DL GTP-TEID IE and the DL Transport Layer Address IE for a given bearer in the E-RABs Subject to Forwarding List IE, then the source eNB shall consider that the forwarding of downlink data for this given bearer is possible.
If the HANDOVER COMMAND message contains the UL GTP-TEID IE and the UL Transport Layer Address IE for a given bearer in the E-RABs Subject to Forwarding List IE, then it means the target eNB has requested the forwarding of uplink data for this given bearer.
If the DAPS Request Information IE is included for an E-RAB in the Source eNB to Target eNB Transparent Container IE within the HANDOVER REQUIRED message, it indicates that the request concerns a DAPS Handover for that E-RAB, as described in TS 36.300 [14].
If the Direct Forwarding Path Availability IE is included in the Target eNB to Source eNB Transparent Container IE, the source eNB shall, if supported, use it for direct data forwarding between the source SN and the target eNB as specified in TS 37.340 [32].
Interactions with E-RAB Management procedures:
If, after a HANDOVER REQUIRED message is sent and before the Handover Preparation procedure is terminated, the source eNB receives an MME initiated E-RAB Management procedure on the same UE associated signalling connection, the source eNB shall either:
1.	cancel the Handover Preparation procedure by executing the Handover Cancel procedure with an appropriate cause value. After successful completion of the Handover Cancel procedure, the source eNB shall continue the MME initiated E-RAB Management procedure
or
2.	terminate the MME initiated E-RAB Management procedure by sending the appropriate response message with an appropriate cause value, e.g., “S1 intra system Handover Triggered”, “S1 inter system Handover Triggered” to the MME and then the source eNB shall continue with the handover procedure.
8.4.1.3	Unsuccessful Operation

Figure 8.4.1.3-1: Handover preparation: unsuccessful operation
If the EPC or the target system is not able to accept any of the bearers or a failure occurs during the Handover Preparation, the MME sends the HANDOVER PREPARATION FAILURE message with an appropriate cause value to the source eNB.
If the CSG Id IE and no Cell Access Mode IE are received in the HANDOVER REQUIRED message and the access control is unsuccessful and none of the E-RABs has a particular ARP value (see TS 23.401 [11]) the MME shall send the HANDOVER PREPARATION FAILURE message with an appropriate cause value to the source eNB, except when one of the E-RABs has a particular ARP value (see TS 23.401 [11]). Upon reception, the source eNB may decide to prevent handover for that UE towards CSG (Closed Access Mode) cells with corresponding CSG Id.
Interaction with Handover Cancel procedure:
If there is no response from the EPC to the HANDOVER REQUIRED message before timer TS1RELOCprep expires in the source eNB, the source eNB should cancel the Handover Preparation procedure by initiating the Handover Cancel procedure with the appropriate value for the Cause IE. The source eNB shall ignore any HANDOVER COMMAND message or HANDOVER PREPARATION FAILURE message received after the initiation of the Handover Cancel procedure.
8.4.1.4	Abnormal Conditions
If the eNB receives at least one E-RAB ID included in the E-RABs Subject to Forwarding List IE without at least one valid associated tunnel address pair (in either UL or DL), then the eNB shall consider it as a logical error and act as described in subclause 10.4. A GTP tunnel address pair is considered valid if both the GTP-TEID IE and the Transport Layer Address IE are present.
8.4.2	Handover Resource Allocation
8.4.2.1	General
The purpose of the Handover Resource Allocation procedure is to reserve resources at the target eNB for the handover of a UE.
8.4.2.2	Successful Operation

Figure 8.4.2.2-1: Handover resource allocation: successful operation
The MME initiates the procedure by sending the HANDOVER REQUEST message to the target eNB. The HANDOVER REQUEST message may contain the Handover Restriction List IE, which contains roaming or access restrictions.
If the Handover Restriction List IE is contained in the HANDOVER REQUEST message, the target eNB shall store this information in the UE context. This information shall however not be considered whenever one of the handed over E-RABs has a particular ARP value (TS 23.401 [11]).
The target eNB shall use the information in Handover Restriction List IE if present in the HANDOVER REQUEST message to
-	determine a target for subsequent mobility action for which the eNB provides information about the target of the mobility action towards the UE;
-	select a proper SCG during dual connectivity operation.
If the Handover Restriction List IE is not contained in the HANDOVER REQUEST message, the target eNB shall consider that no roaming and no access restriction apply to the UE.
Upon reception of the HANDOVER REQUEST message the eNB shall store the received UE Security Capabilities IE in the UE context and use it to prepare the configuration of the AS security relation with the UE.
If the SRVCC Operation Possible IE is included in the HANDOVER REQUEST message, the target eNB shall store the content of the received SRVCC Operation Possible IE in the UE context and, if supported, use it as defined in TS 23.216 [9].
Upon reception of the HANDOVER REQUEST message the eNB shall store the received Security Context IE in the UE context and the eNB shall use it to derive the security configuration as specified in TS 33.401 [15].
If the Trace Activation IE is included in the HANDOVER REQUEST message, the target eNB shall if supported, initiate the requested trace function as described in TS 32.422 [10]. In particular, the eNB shall, if supported:
-	if the Trace Activation IE does not include the MDT Configuration IE, initiate the requested trace session as described in TS 32.422 [10];
-	if the Trace Activation IE includes the MDT Activation IE, within the MDT Configuration IE, set to “Immediate MDT and Trace”, initiate the requested trace session and MDT session as described in TS 32.422 [10];
-	if the Trace Activation IE includes the MDT Activation IE, within the MDT Configuration IE, set to “Immediate MDT Only”, “Logged MDT only” or “Logged MBSFN MDT”, initiate the requested MDT session as described in TS 32.422 [10] and the target eNB shall ignore Interfaces To Trace IE, and Trace Depth IE.
-	if the Trace Activation IE includes the MDT Location Information IE, within the MDT Configuration IE, store this information and take it into account in the requested MDT session.
-	if the Trace Activation IE includes the Signalling based MDT PLMN List IE, within the MDT Configuration IE, the eNB may use it to propagate the MDT Configuration as described in TS 37.320 [31].
-	if the Trace Activation IE includes the MBSFN-ResultToLog IE, within the MDT Configuration IE, take it into account for MDT Configuration as described in TS 37.320 [31].
-	if the Trace Activation IE includes the MBSFN-AreaId IE in the MBSFN-ResultToLog IE, within the MDT Configuration IE, take it into account for MDT Configuration as described in TS 37.320 [31].
-	if the Trace Activation IE includes the UE Application layer measurement configuration IE, initiate the requested trace session and QoE Measurement Collection function as described in TS 36.300 [14].
-	if the Trace Activation IE includes the Bluetooth Measurement Configuration IE, within the MDT Configuration IE, take it into account for MDT Configuration as described in TS 37.320 [31].
-	if the Trace Activation IE includes the WLAN Measurement Configuration IE, within the MDT Configuration IE, take it into account for MDT Configuration as described in TS 37.320 [31].
-	if the Trace Activation IE includes the MDT Configuration NR IE, store and forward the MDT Configuration NR IE to the SgNB, if the eNB has configured EN-DC for the UE.
If the CSG Id IE is received in the HANDOVER REQUEST message, the eNB shall compare the received value with the CSG Id broadcast by the target cell.
If the CSG Membership Status IE is received in the HANDOVER REQUEST message and the CSG Membership Status is set to “member”, the eNB may provide the QoS to the UE as for member provided that the CSG Id received in the HANDOVER REQUEST messages corresponds to the CSG Id broadcast by the target cell.
If the CSG Membership Status IE and the CSG Id IE are received in the HANDOVER REQUEST message and the CSG Id does not correspond to the CSG Id broadcast by the target cell, the eNB may provide the QoS to the UE as for a non member and shall send back in the HANDOVER REQUEST ACKNOWLEDGE message the actual CSG Id broadcast by the target cell.
If the target cell is CSG cell or hybrid cell, the target eNB shall include the CSG ID IE in the HANDOVER REQUEST ACKNOWLEDGE message.
If the target eNB receives the CSG Id IE and the CSG Membership Status IE is set to “non member” in the HANDOVER REQUEST message and the target cell is a closed cell and at least one of the E-RABs has a particular ARP value (see TS 23.401 [11]), the eNB shall send back the HANDOVER REQUEST ACKNOWLEDGE message to the MME accepting those E-RABs and failing the other E-RABs.
If the Subscriber Profile ID for RAT/Frequency priority IE is contained in the Source eNB to Target eNB Transparent Container IE, the target eNB shall store the content of the received Subscriber Profile ID for RAT/Frequency priority IE in the UE context and use it as defined in TS 36.300 [14].
If the Additional RRM Policy Index IE is contained in the Source eNB to Target eNB Transparent Container IE, the target eNB shall, if supported, store it and use it as defined in TS 36.300 [14].
Upon reception of the UE History Information IE, which is included within the Source eNB to Target eNB Transparent Container IE in the HANDOVER REQUEST message, the target eNB shall collect the information defined as mandatory in the UE History Information IE and shall, if supported, collect the information defined as optional in the UE History Information IE, for as long as the UE stays in one of its cells, and store the collected information to be used for future handover preparations.
Upon reception of the UE History Information from the UE IE, which is included within the Source eNB to Target eNB Transparent Container IE in the HANDOVER REQUEST message, the target eNB shall, if supported, store the collected information, to be used for future handover preparations.
If the Mobility Information IE is included within the Source eNB to Target eNB Transparent Container IE in the HANDOVER REQUEST message, the target eNB shall, if supported, store this information and use it as defined in TS 36.300 [14].
If the Emergency Indicator IE is included within the Source eNB to Target eNB Transparent Container IE in the HANDOVER REQUEST message, the target eNB shall, if supported, use it to allocate radio bearer resources as specified in TS 23.502 [51].
If the Expected UE Behaviour IE is included in the HANDOVER REQUEST message, the eNB shall, if supported, store this information and may use it to determine the RRC connection time. 
If the Bearer Type IE is included in the HANDOVER REQUEST message and is set to "non IP", then the eNB shall not perform IP header compression for the concerned E-RAB.
If the Ethernet Type IE is included in the HANDOVER REQUEST message and is set to "True", then the eNB shall, if supported, take this into account to perform header compression appropriately for the concerned E-RAB.
In case of inter-system handover from gNB with direct forwarding, if the target eNB receives the UE Context Reference at Source IE in the Source eNB to Target eNB Transparent Container IE, it may use it for internal forwarding as specified in TS 37.340 [47].
After all necessary resources for the admitted E-RABs have been allocated, the target eNB shall generate the HANDOVER REQUEST ACKNOWLEDGE message. The target eNB shall include in the E-RABs Admitted List IE the E-RABs for which resources have been prepared at the target cell. The E-RABs that have not been admitted in the target cell, if any, shall be included in the E-RABs Failed to Setup List IE.
If the HANDOVER REQUEST message contains the Data Forwarding Not Possible IE associated with a given E-RAB within the E-RABs To Be Setup List IE set to “Data forwarding not possible”, then the target eNB may decide not to include the DL Transport Layer Address IE and the DL GTP-TEID IE and for intra LTE handover the UL Transport Layer Address IE and the UL GTP-TEID IE within the E-RABs Admitted List IE of the HANDOVER REQUEST ACKNOWLEDGE message for that E-RAB.
For each bearer that target eNB has decided to admit and for which DL forwarding IE is set to “DL forwarding proposed”, the target eNB may include the DL GTP-TEID IE and the DL Transport Layer Address IE within the E-RABs Admitted List IE of the HANDOVER REQUEST ACKNOWLEDGE message indicating that it accepts the proposed forwarding of downlink data for this bearer.
If the HANDOVER REQUEST ACKNOWLEDGE message contains the UL GTP-TEID IE and the UL Transport Layer Address IE for a given bearer in the E-RABs Admitted List IE, then it means the target eNB has requested the forwarding of uplink data for this given bearer.
If the Request Type IE is included in the HANDOVER REQUEST message, then the target eNB should perform the requested location reporting functionality for the UE as described in subclause 8.11.
If the UE Security Capabilities IE included in the HANDOVER REQUEST message only contains the EIA0 algorithm as defined in TS 33.401 [15] and if this EIA0 algorithm is defined in the configured list of allowed integrity protection algorithms in the eNB (TS 33.401 [15]), the eNB shall take it into use and ignore the keys received in the Security Context IE.
The GUMMEI IE shall only be contained in the HANDOVER REQUEST message according to subclauses 4.6.2 and 4.7.6.6 of TS 36.300 [14]. If the GUMMEI IE is present, the target eNB shall store this information in the UE context and use it for subsequent X2 handovers.
The MME UE S1AP ID 2 IE shall only be contained in the HANDOVER REQUEST message according to subclause 4.6.2 of TS 36.300 [14].If the MME UE S1AP ID 2 IE is present, the target eNB shall store this information in the UE context and use it for subsequent X2 handovers.
If the Management Based MDT Allowed IE only or the Management Based MDT Allowed IE and the Management Based MDT PLMN List IE is contained in the HANDOVER REQUEST message, the target eNB shall, if supported, store the received information in the UE context, and use this information to allow subsequent selections of the UE for management based MDT defined in TS 32.422 [10].
If the Masked IMEISV IE is contained in the HANDOVER REQUEST message the target eNB shall, if supported, use it to determine the characteristics of the UE for subsequent handling. 
If the HANDOVER REQUEST contains a Target Cell ID IE, as part of the Source eNB to Target eNB Transparent Container IE, for a cell which is no longer active, the eNB may respond with an HANDOVER REQUEST ACKNOWLEDGE in case the PCI of the deactivated cell is in use by another active cell.
If the ProSe Authorized IE is contained in the HANDOVER REQUEST message and it contains one or more IEs set to “authorized”, the eNB shall, if supported, consider that the UE is authorized for the relevant ProSe service(s).
If the UE User Plane CIoT Support Indicator IE is included in the HANDOVER REQUEST message and is set to "supported", the eNB shall, if supported, consider that User Plane CIoT EPS Optimisation as specified in TS 23.401 [11] is supported for the UE.
If the CE-mode-B Support Indicator IE is included in the HANDOVER REQUEST ACKNOWLEDGE message and set to "supported", the MME shall, if supported, take this information into account when setting NAS timer values for the UE as specified in TS 24.301[24].
If the V2X Services Authorized IE is contained in the HANDOVER REQUEST message and it contains one or more IEs set to “authorized”, the eNB shall, if supported, consider that the UE is authorized for the relevant service(s).
If the UE Sidelink Aggregate Maximum Bit Rate IE is included in the HANDOVER REQUEST message, the eNB shall, if supported, use the received value for the concerned UE’s sidelink communication in network scheduled mode for V2X services. 
If the Enhanced Coverage Restricted IE is included in the HANDOVER REQUEST message, the eNB shall store this information in the UE context and use it as defined in TS 23.401 [11].
If the CE-Mode-B Restricted IE is included in the HANDOVER REQUEST message and the Enhanced Coverage Restricted IE is not set to restricted and the Enhanced Coverage Restricted information stored in the UE context is not set to restricted, the eNB shall store this information in the UE context and use it as defined in TS 23.401 [11].
If the NR UE Security Capabilities IE is included in the HANDOVER REQUEST message, the eNB shall, if supported, store this information in the UE context and use it as defined in TS 33.401 [15].
If the Aerial UE subscription information IE is included in the HANDOVER REQUEST message, the eNB shall, if supported, store this information in the UE context and use it as defined in TS 36.300 [14].
If the Pending Data Indication IE is included in the HANDOVER REQUEST message, the eNB shall use it as defined in TS 23.401 [11].
If the Subscription Based UE Differentiation Information IE is included in the HANDOVER REQUEST message, the eNB shall, if supported, store this information in the UE context for further use according to TS 23.401 [11].
If the Additional RRM Policy Index IE is contained in the HANDOVER REQUEST message, the eNB shall, if supported, store it and use it as defined in TS 36.300 [14].
If the HANDOVER REQUEST message is received for an handover originating from a source NG-RAN node, the list of E-RABs contained in the source eNB to target eNB Transparent Container which are not included in the HANDOVER REQUEST message shall be considered as not to be handed over and ignored.
If the IAB Authorized IE is contained in the HANDOVER REQUEST message, the target eNB shall, if supported, consider that the handover is for an IAB-node.
If the NR V2X Services Authorized IE is contained in the HANDOVER REQUEST message and it contains one or more IEs set to “authorized”, the eNB shall, if supported, consider that the UE is authorized for the relevant service(s).
If the NR UE Sidelink Aggregate Maximum Bit Rate IE is included in the HANDOVER REQUEST message, the eNB shall, if supported, use the received value for the concerned UE’s sidelink communication in network scheduled mode for NR V2X services. 
If the PC5 QoS Parameters IE is included in the HANDOVER REQUEST message, the eNB shall, if supported, use it for the concerned UE’s NR sidelink communication as specified in TS 23.285 [49].
If the Inter-system measurement Configuration IE is included within the Source eNB to Target eNB Transparent Container IE in the HANDOVER REQUEST message, the target eNB shall, if supported, use it as defined in TS 38.300 [45]. The Inter System Measurement Configuration IE shall contain at least one of the RSRP, RSRQ or SINR thresholds. If only one of the thresholds is present, the LTE eNB shall use the present threshold to compare against the measurement results received from the UE. If more than one thresholds are present, the received radio measurements must exceed all thresholds in order to satisfy the indicated radio conditions. The target eNB shall, if supported, report the measurement results to the source NR node by including the Inter-System Handover Report IE (defined in TS 38. 413 [44]) in the eNB CONFIGURATION TRANSFER message only if:
-	there is either a single source NR related cell whose measurement results exceed the threshold(s) for the whole measurement duration, or a group of source NR associated cells which together provide such coverage; and
-	the above is fulfilled for the whole measurement duration, in which case the Early IRAT HO IE contained in the Inter-System Handover Report IE (defined in TS 38. 413 [44]) shall be set to "false", or the above is fulfilled until the UE is handed over back to NR within the measurement duration, in which case the Early IRAT HO IE contained in the Inter-System Handover Report IE (defined in TS 38. 413 [44]) shall be set to "true".
The cells that exceed the threshold in the first UE measurement report are included in the Inter-system Handover Report.
If the UE Radio Capability ID IE is included in the HANDOVER REQUEST message, the eNB shall, if supported, use it as defined in TS 23.401 [11].
If the DAPS Request Information IE is included for an E-RAB in the Source eNB to Target eNB Transparent Container IE within the HANDOVER REQUEST message, the target eNB shall consider that the request concerns a DAPS Handover for that E-RAB, as described in TS 36.300 [14]. The target eNB shall include the DAPS Response information List IE in the Target eNB to Source eNB Transparent Container IE within the HANDOVER REQUEST ACKNOWLEDGE message, containing the DAPS Response Information IE for each E-RAB requested to be configured with DAPS Handover.
If the IMS voice EPS fallback from 5G IE is included in the Source eNB to Target eNB Transparent Container IE within the HANDOVER REQUEST message, the target eNB shall, if supported, store the information in the UE context and consider that the UE is handed over from NG-RAN to E-UTRAN due to an IMS voice fallback.
If for a given E-RAB the Source Transport Layer Address IE is included within the Source eNB to Target eNB Transparent Container IE in the HANDOVER REQUEST message, the target eNB shall, if supported, store this information and use it as part of its ACL functionality configuration actions for direct data forwarding, if such ACL functionality is deployed.
If for a given E-RAB the Source Node Transport Layer Address IE is included within the Source eNB to Target eNB Transparent Container IE in the HANDOVER REQUEST message, the target eNB shall, if supported, store this information and use it as part of its ACL functionality configuration actions for direct data forwarding, if such ACL functionality is deployed.
If the Direct Forwarding Path Availability IE is included in the Source eNB to Target eNB Transparent Container IE within the HANDOVER REQUEST message, the target eNB may use the information to assign tunnel endpoints in case of inter-system handover.
If the Source SN ID IE is included in the Source eNB to Target eNB Transparent Container IE within the HANDOVER REQUEST message, the target eNB shall, if supported, use it to decide whether direct forwarding path is available between the target eNB and this source RAN node. If the direct forwarding path is available, the target eNB shall include the Direct Forwarding Path Availability IE in the Target eNB to Source eNB Transparent Container IE within the HANDOVER REQUEST ACKNOWLEDGE message.
8.4.2.3	Unsuccessful Operation

Figure 8.4.2.3-1: Handover resource allocation: unsuccessful operation
If the target eNB does not admit at least one non-GBR E-RAB, or a failure occurs during the Handover Preparation, it shall send the HANDOVER FAILURE message to the MME with an appropriate cause value.
If the target eNB does not receive the CSG Membership Status IE but does receive the CSG Id IE in the HANDOVER REQUEST message and the CSG Id does not correspond to the CSG Id of the target cell, the target eNB shall send the HANDOVER FAILURE message to the MME with an appropriate cause value.
If the target eNB receives a HANDOVER REQUEST message containing RRC Container IE that does not include required information as specified in TS 36.331 [16], the target eNB shall send the HANDOVER FAILURE message to the MME.
8.4.2.4	Abnormal Conditions
If the target eNB receives a HANDOVER REQUEST message containing a E-RAB Level QoS Parameters IE which contains a QCI IE indicating a GBR bearer (as defined in TS 23.203 [13]), and which does not contain the GBR QoS Information IE, the target eNB shall not admit the corresponding E-RAB.
If the target eNB receives a HANDOVER REQUEST message containing several E-RAB ID IEs (in the E-RABs To Be Setup List IE) set to the same value, the target eNB shall not admit the corresponding E-RABs.
If the Subscriber Profile ID for RAT/Frequency priority IE is not contained in the Source eNB to Target eNB Transparent Container IE whereas available in the source eNB, the target eNB shall trigger a local error handling.
NOTE:	It is assumed that the information needed to verify this condition is visible within the system, see subclause 4.1.
If the supported algorithms for encryption defined in the Encryption Algorithms IE in the UE Security Capabilities IE, plus the mandated support of EEA0 in all UEs (TS 33.401 [15]), do not match any allowed algorithms defined in the configured list of allowed encryption algorithms in the eNB (TS 33.401 [15]), the target eNB shall reject the procedure using the HANDOVER FAILURE message.
If the supported algorithms for integrity defined in the Integrity Protection Algorithms IE in the UE Security Capabilities IE, plus the mandated support of the EIA0 algorithm in all UEs (TS 33.401 [15]), do not match any allowed algorithms defined in the configured list of allowed integrity protection algorithms in the eNB (TS 33.401 [15]), the target eNB shall reject the procedure using the HANDOVER FAILURE message.
If the target eNB receives a HANDOVER REQUEST message which does not contain the Handover Restriction List IE, and the serving PLMN cannot be determined otherwise by the eNB, the target eNB shall reject the procedure using the HANDOVER FAILURE message.
If the target eNB receives a HANDOVER REQUEST message containing the Handover Restriction List IE, and the serving PLMN indicated is not supported by the target cell, the target eNB shall reject the procedure using the HANDOVER FAILURE message.
8.4.3	Handover Notification
8.4.3.1	General
The purpose of the Handover Notification procedure is to indicate to the MME that the UE has arrived to the target cell and the S1 handover has been successfully completed.
8.4.3.2	Successful Operation

Figure 8.4.3.2-1: Handover notification
The target eNB shall send the HANDOVER NOTIFY message to the MME when the UE has been identified in the target cell and the S1 handover has been successfully completed.
If the Tunnel Information for BBF IE is received in the HANDOVER NOTIFY message, the MME shall, if supported, use it in the core network as specified in TS 23.139 [37].
If the LHN ID IE is included in the HANDOVER NOTIFY message, the MME shall, if supported, use it as specified in TS 23.401 [11].
If the UE is configured with EN-DC radio resources and the PSCell information is available, the PSCell Information IE shall be included in the HANDOVER NOTIFY message.
Interactions with Handover Success procedure:
If the Notify Source eNB IE is included in the HANDOVER NOTIFY message, the MME shall, if supported, notify the source eNB that the UE has successfully accessed the target eNB by sending the HANDOVER SUCCESS message.
8.4.3.3	Abnormal Conditions
Not applicable.
8.4.4	Path Switch Request
8.4.4.1	General
The purpose of the Path Switch Request procedure is to establish a UE associated signalling connection to the EPC and, if applicable, to request the switch of a downlink GTP tunnel towards a new GTP tunnel endpoint.
8.4.4.2	Successful Operation

Figure 8.4.4.2-1: Path switch request: successful operation
The eNB initiates the procedure by sending the PATH SWITCH REQUEST message to the MME.
If the ‎E-RAB To Be Switched in Downlink List IE in the PATH SWITCH REQUEST message does not include all E-RABs previously included in the UE Context, the MME shall consider the non included E-RABs as implicitly released by the eNB.
When the eNB has received from the radio interface the RRC Resume Cause IE, it shall include it in the PATH SWITCH REQUEST message.
After all necessary updates including the UP path switch have been successfully completed in the EPC for at least one of the E-RABs included in the PATH SWITCH REQUEST E-RAB To Be Switched in Downlink List IE, the MME shall send the PATH SWITCH REQUEST ACKNOWLEDGE message to the eNB and the procedure ends. The UE-associated logical S1-connection shall be established at reception of the PATH SWITCH REQUEST ACKNOWLEDGE message.
In case the EPC failed to perform the UP path switch for at least one, but not all, of the E-RABs included in the PATH SWITCH REQUEST E-RAB To Be Switched in Downlink List IE, the MME shall include the E-RABs it failed to perform UP path switch in the PATH SWITCH REQUEST ACKNOWLEDGE E-RAB To Be Released List IE. In this case, the eNB shall release the corresponding data radio bearers, and the eNB shall regard the E-RABs indicated in the E-RAB To Be Released List IE as being fully released.
If the CSG Id IE and no Cell Access Mode IE are received in the PATH SWITCH REQUEST message, the MME shall use it in the core network as specified in TS 23.401 [11]. If the CSG Id IE and the Cell Access Mode IE set to “hybrid” are received in the PATH SWITCH REQUEST message, the MME shall decide the membership status of the UE and use it in the core network as specified in TS 23.401 [11]. If no CSG Id IE and no Cell Access Mode IE are received in the PATH SWITCH REQUEST message and the UE was previously either in a CSG cell or in a hybrid cell, the MME shall consider that the UE has moved into a cell that is neither a CSG cell nor a hybrid cell and use this as specified in TS 23.401 [11].
If the GUMMEI of the MME currently serving the UE is available at the eNB (see TS 36.300 [14]) the eNB shall include the Source MME GUMMEI IE within the PATH SWITCH REQUEST message.
Upon reception of the PATH SWITCH REQUEST ACKNOWLEDGE message the eNB shall store the received Security Context IE in the UE context and the eNB shall use it for the next X2 handover or Intra eNB handovers as specified in TS 33.401 [15].
The PATH SWITCH REQUEST ACKNOWLEDGE message may contain
-	the UE Aggregate Maximum Bit Rate IE.
-	the MME UE S1AP ID 2 IE, which indicates the MME UE S1AP ID assigned by the MME.
If the UE Aggregate Maximum Bit Rate IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message the eNB shall
-	replace the previously provided UE Aggregate Maximum Bit Rate by the received UE Aggregate Maximum Bit Rate in the UE context; the eNB shall use the received UE Aggregate Maximum Bit Rate for non-GBR Bearers for the concerned UE. 
If the UE Aggregate Maximum Bit Rate IE is not contained in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall use the previously provided UE Aggregate Maximum Bit Rate which is stored in the UE context.
In case the EPC decides to change the uplink termination point of the tunnels, it may include the E-RAB To Be Switched in Uplink List IE in the PATH SWITCH REQUEST ACKNOWLEDGE message to specify a new uplink transport layer address and uplink GTP-TEID for each respective E-RAB for which it wants to change the uplink tunnel termination point. 
When the eNB receives the PATH SWITCH REQUEST ACKNOWLEDGE message and if this message includes the E-RAB To Be Switched in Uplink List IE, the eNB shall start delivering the uplink packets of the concerned E-RABs to the new uplink tunnel endpoints as indicated in the message.
When the eNB receives the PATH SWITCH REQUEST ACKNOWLEDGE message including the CSG Membership Status IE, and if the cell that serves the UE is a hybrid cell, the eNB shall use it as defined in TS 36.300 [14].
If the MME UE S1AP ID 2 IE is contained in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall store this information in the UE context and use it for subsequent X2 handovers.
If the Tunnel Information for BBF IE is received in the PATH SWITCH REQUEST message, the MME shall, if supported, use it in the core network as specified in TS 23.139 [37].
If the LHN ID IE is included in the PATH SWITCH REQUEST message, the MME shall, if supported, use it as specified in TS 23.401 [11].
If the ProSe Authorized IE is contained in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported, update its ProSe authorization information for the UE accordingly. If the ProSe Authorized IE includes one or more IEs set to “not authorized”, the eNB shall, if supported, initiate actions to ensure that the UE is no longer accessing the relevant ProSe service(s).
If the UE User Plane CIoT Support Indicator IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message and is set to "supported", the eNB shall, if supported, consider that User Plane CIoT EPS Optimisation as specified in TS 23.401 [11] is supported for the UE.
If the V2X Services Authorized IE is contained in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported, update its V2X services authorization information for the UE accordingly. If the V2X Services Authorized IE includes one or more IEs set to “not authorized”, the eNB shall, if supported, initiate actions to ensure that the UE is no longer accessing the relevant service(s).
If the UE Sidelink Aggregate Maximum Bit Rate IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported:
-	replace the previously provided UE Sidelink Aggregate Maximum Bit Rate, if available in the UE context, with the received value;
-	use the received value for the concerned UE’s sidelink communication in network scheduled mode for V2X services.
If the Enhanced Coverage Restricted IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall store this information in the UE context and use it as defined in TS 23.401 [11].
If the CE-Mode-B Restricted IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message and the Enhanced Coverage Restricted IE is not set to restricted and the Enhanced Coverage Restricted information stored in the UE context is not set to restricted, the eNB shall store this information in the UE context and use it as defined in TS 23.401 [11].
If information on the UE’s NR security capabilities is available at the eNB (see TS 33.401 [15]) the eNB shall include the NR UE Security Capabilities IE within the PATH SWITCH REQUEST message.
If the NR UE Security Capabilities IE is included in the PATH SWITCH REQUEST message, the MME shall, if supported, consider that the eNB has stored the respective information in the UE context, and proceed as defined in TS 33.401 [15].
If the NR UE Security Capabilities IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported, store this information in the UE context and use it as defined in TS 33.401 [15].
If the Aerial UE subscription information IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported, store this information in the UE context and use it as defined in TS 36.300 [14].
If the Pending Data Indication IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall use it as defined in TS 23.401 [11].
If the Subscription Based UE Differentiation Information IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported, store this information in the UE context for further use according to TS 23.401 [11].
If the Handover Restriction List IE is contained in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported, overwrite any previously stored handover restriction information in the UE context and use the information in the Handover Restriction List IE to:
-	determine a target for subsequent mobility action for which the eNB provides information about the target of the mobility action towards the UE;
-	select a proper SCG during dual connectivity operation;
The PATH SWITCH REQUEST ACKNOWLEDGE message may contain the Additional RRM Policy Index IE, if available in the MME for cases specified in TS 23.401 [11]. The eNB shall, if supported, store it and use it as specified in TS 36.300 [14].
If the UE Radio Capability ID IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported, use it as defined in TS 23.401 [11].
If the UE is configured with EN-DC radio resources and the PSCell information is available, the PSCell Information IE shall be included in the PATH SWITCH REQUEST message.
If the NR V2X Services Authorized IE is contained in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported, update its V2X services authorization information for the UE accordingly. If the NR V2X Services Authorized IE includes one or more IEs set to "not authorized", the eNB shall, if supported, initiate actions to ensure that the UE is no longer accessing the relevant service(s).
If the NR UE Sidelink Aggregate Maximum Bit Rate IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported:
-	replace the previously provided NR UE Sidelink Aggregate Maximum Bit Rate, if available in the UE context, with the received value; 
-	use the received value for the concerned UE’s sidelink communication in network scheduled mode for NR V2X services.
If the PC5 QoS Parameters IE is included in the PATH SWITCH REQUEST ACKNOWLEDGE message, the eNB shall, if supported, use it for the concerned UE’s NR sidelink communication as specified in TS 23.285 [49].
8.4.4.3	Unsuccessful Operation

Figure 8.4.4.3-1: Path switch request: unsuccessful operation
If the EPC fails to switch the downlink GTP tunnel endpoint towards a new GTP tunnel endpoint for all E-RABs included in the E-RAB To Be Switched in Downlink List IE during the execution of the Path Switch Request procedure, the MME shall send the PATH SWITCH REQUEST FAILURE message to the eNB with an appropriate cause value. In this case, the eNB should decide its subsequent actions and the MME should behave as described in TS 23.401 [11].
8.4.4.4	Abnormal Conditions
If the MME receives a PATH SWITCH REQUEST message containing several E-RAB ID IEs (in the E-RAB To Be Switched in Downlink List IE) set to the same value, the MME shall send the PATH SWITCH REQUEST FAILURE message to the eNB.
If the MME receives a PATH SWITCH REQUEST message without the CSG Membership Status IE, and the cell accessed by the UE is a hybrid cell with a different CSG from the source cell or the source cell does not have a CSG ID, the MME shall send the PATH SWITCH REQUEST FAILURE message to the eNB.
If the CSG Membership Status IE is not included in the PATH SWITCH REQUEST ACKNOWLEDGE message and the cell accessed by the UE is a hybrid cell with a different CSG from the source cell or the source cell does not have a CSG ID, the eNB shall consider the procedure as unsuccessfully terminated and initiate local error handling.
8.4.5	Handover Cancellation
8.4.5.1	General
The purpose of the Handover Cancel procedure is to enable a source eNB to cancel an ongoing handover preparation or an already prepared handover.
The procedure uses UE-associated signalling.
8.4.5.2	Successful Operation

Figure 8.4.5.2-1: Handover Cancel procedure. Successful operation.
The source eNB initiates the procedure by sending a HANDOVER CANCEL message to the EPC.
The HANDOVER CANCEL message shall indicate the reason for cancelling the handover with the appropriate value of the Cause IE.
Upon reception of a HANDOVER CANCEL message, the EPC shall terminate the ongoing Handover Preparation procedure, release any resources associated with the handover preparation and send a HANDOVER CANCEL ACKNOWLEDGE message to the source eNB.
Transmission and reception of a HANDOVER CANCEL ACKNOWLEDGE message terminate the procedure in the EPC and in the source eNB. After this, the source eNB does not have a prepared handover for that UE-associated logical S1-connection.
8.4.5.3	Unsuccessful Operation
Not applicable.
8.4.5.4	Abnormal Conditions
If the source eNB becomes aware of the fact that an expected HANDOVER CANCEL ACKNOWLEDGE message is missing, the source eNB shall consider the Handover Cancellation as successfully terminated.
8.4.6	eNB Status Transfer
8.4.6.1	General
The purpose of the eNB Status Transfer procedure is to transfer the uplink PDCP-SN and HFN receiver status and the downlink PDCP-SN and HFN transmitter status from the source to the target eNB via the MME during an intra LTE S1 handover for each respective E-RAB for which PDCP-SN and HFN status preservation applies.
8.4.6.2	Successful Operation

Figure 8.4.6.2-1: eNB Status Transfer procedure
The source eNB initiates the procedure by stopping assigning PDCP-SNs to downlink SDUs and sending the eNB STATUS TRANSFER message to the MME at the point in time when it considers the transmitter/receiver status to be frozen.
-	For each E-RAB for which PDCP-SN and HFN status preservation applies the source eNB shall include the E-RAB ID IE, the UL COUNT value IE and the DL COUNT value IE within the E-RABs Subject to Status Transfer Item IE in the eNB Status Transfer Transparent Container IE of the eNB STATUS TRANSFER message. 
-	In case of 15 bit long PDCP-SN, for each E-RAB for which PDCP-SN and HFN status preservation applies, the source eNB shall additionally include the UL COUNT Value Extended IE and the DL COUNT Value Extended IE within the E-RABs Subject to Status Transfer Item IE.
-	In case of 18 bit long PDCP-SN, for each E-RAB for which PDCP-SN and HFN status preservation applies, the source eNB shall additionally include the UL COUNT Value for PDCP SN Length 18 IE and the DL COUNT Value for PDCP SN Length 18 IE within the E-RABs Subject to Status Transfer Item IE.
The source eNB may also include in the eNB STATUS TRANSFER message the missing and the received uplink SDUs in the Receive Status Of UL PDCP SDUs IE, or in the Receive Status Of UL PDCP SDUs Extended IE in case of 15 bit long PDCP-SN, or in the Receive Status Of UL PDCP SDUs for PDCP SN Length 18 IE in case of 18 bit long PDCP-SN, for each bearer for which the source eNB has accepted the request from the target eNB for uplink forwarding.
8.4.6.3	Unsuccessful Operation
Not applicable.
8.4.6.4	Abnormal Conditions
Not applicable.
8.4.7	MME Status Transfer
8.4.7.1	General
The purpose of the MME Status Transfer procedure is to transfer the uplink PDCP-SN and HFN receiver status and the downlink PDCP-SN and HFN transmitter status from the source to the target eNB via the MME during an S1 handover for each respective E-RAB for which PDCP-SN and HFN status preservation applies.
8.4.7.2	Successful Operation

Figure 8.4.7.2-1: MME Status Transfer procedure
The MME initiates the procedure by sending the MME STATUS TRANSFER message to the eNB. The target eNB using Full Configuration for this handover as per TS 36.300 [14] shall ignore the information received in this message.
For each bearer within the E-RABs Subject to Status Transfer List IE within the eNB Status Transfer Transparent Container IE for which the UL COUNT value IE is received in the MME STATUS TRANSFER message, the target eNB shall apply the contained information and shall not deliver any uplink packet which has a PDCP-SN lower than the value contained in the PDCP-SN IE of this IE. If the UL COUNT Value Extended IE or UL COUNT Value for PDCP SN Length 18 IE is included in the E-RABs Subject to Status Transfer Item IE, the target eNB shall, if supported, use the value contained in the PDCP-SN Extended IE in the UL COUNT Value Extended IE or PDCP-SN Length 18 IE of the UL COUNT Value for PDCP SN Length 18 IE instead of the value contained in the PDCP-SN IE of the UL COUNT value IE.
For each bearer in E-RABs Subject to Status Transfer List IE within the eNB Status Transfer Transparent Container IE received in the MME STATUS TRANSFER message, the target eNB shall use DL COUNT value IE for the first downlink packet for which there is no PDCP-SN yet assigned. If the DL COUNT Value Extended IE or DL COUNT Value for PDCP SN Length 18 IE is included in the E-RABs Subject to Status Transfer Item IE, the target eNB shall, if supported, use the DL COUNT Value Extended IE or DL COUNT Value for PDCP SN Length 18 IE instead of the DL COUNT value IE.
If the Receive Status Of UL PDCP SDUs IE or the Receive Status Of UL PDCP SDUs Extended IE or the Receive Status Of UL PDCP SDUs for PDCP SN Length 18 IE is included for at least one bearer in the eNB Status Transfer Transparent Container IE of the MME STATUS TRANSFER message, the target eNB may use it in a Status Report message sent to the UE over the radio interface.
8.4.7.3	Unsuccessful Operation
Not applicable.
8.4.7.4	Abnormal Conditions
If the target eNB receives this message for a UE for which no prepared handover exists at the target eNB, the target eNB shall ignore the message.
8.4.8	Handover Success
8.4.8.1	General
The Handover Success procedure is used during a DAPS Handover, to inform the source eNB that the UE has successfully accessed the target eNB. The procedure uses UE-associated signalling.
8.4.8.2	Successful Operation

Figure 8.4.8.2-1: Handover Success
The MME initiates the procedure by sending the HANDOVER SUCCESS message to the source eNB.
8.4.8.3	Abnormal Conditions
If the HANDOVER SUCCESS message refers to a context that does not exist, the source eNB shall ignore the message.
8.4.9	eNB Early Status Transfer
8.4.9.1	General
The purpose of the eNB Early Status Transfer procedure is to transfer the COUNT of the first downlink SDU that the source eNB forwards to the target eNB, for each respective E-RAB for which DAPS Handover applies, from the source eNB to the target eNB via the MME during an intra LTE S1 handover.
8.4.9.2	Successful Operation

Figure 8.4.9.2-1: eNB Early Status Transfer procedure
The source eNB initiates the procedure by sending the eNB EARLY STATUS TRANSFER message to the MME at the point in time when it considers starting early data forwarding to the target eNB.
For each E-RAB for which DAPS Handover applies, the source eNB shall include the E-RAB ID IE and the COUNT of the first downlink SDU that the source eNB forwards to the target eNB within the E-RABs Subject to Early Status Transfer Item IE in the eNB Early Status Transfer Transparent Container IE of the eNB EARLY STATUS TRANSFER message. 
8.4.9.3	Unsuccessful Operation
Not applicable.
8.4.9.4	Abnormal Conditions
Not applicable.
8.4.10	MME Early Status Transfer
8.4.10.1	General
The purpose of the MME Early Status Transfer procedure is to transfer the COUNT of the first downlink SDU that the source eNB forwards to the target eNB, for each respective E-RAB for which DAPS Handover applies, from the source eNB to the target eNB via the MME during an S1 handover.
8.4.10.2	Successful Operation

Figure 8.4.10.2-1: MME Early Status Transfer procedure
The MME initiates the procedure by sending the MME EARLY STATUS TRANSFER message to the eNB.
The E-RABs Subject To Early Status Transfer List IE within the eNB Early Status Transfer Transparent Container IE included in the MME EARLY STATUS TRANSFER message contains the E-RAB ID(s) corresponding to the E-RAB(s) subject to be simultaneously served by the source eNB and the target eNB during DAPS Handover.
For each E-RAB in the E-RABs Subject to Early Status Transfer List IE, the target eNB shall use the information contained in the DL COUNT PDCP-SN length IE as the COUNT of the first downlink SDU that the source eNB forwards to the target eNB.
8.4.10.3	Unsuccessful Operation
Not applicable.
8.4.10.4	Abnormal Conditions
If the target eNB receives this message for a UE for which no prepared DAPS handover exists at the target eNB, the target eNB shall ignore the message.
8.5	Paging
8.5.1	General
The purpose of the Paging procedure is to enable the MME to page a UE in the specific eNB.
8.5.2	Successful Operation

Figure 8.5.2-1: Paging procedure
The MME initiates the paging procedure by sending the PAGING message to the eNB.
At the reception of the PAGING message, the eNB shall perform paging of the UE in cells which belong to tracking areas as indicated in the List of TAIs IE.
The CN Domain IE shall be transferred transparently to the UE.
The Paging DRX IE may be included in the PAGING message, and if present the eNB shall use it according to TS 36.304 [20].
A list of CSG IDs may be included in the PAGING message.
If included, the E-UTRAN may use the list of CSG IDs to avoid paging the UE at CSG cells whose CSG ID does not appear in the list.
For each cell that belongs to any of the TAs indicated in the List of TAIs IE, the eNB shall generate one page on the radio interface.
The Paging Priority IE may be included in the PAGING message, and if present the eNB may use it according to TS 23.401 [11] and TS 23.272 [17].
If the UE Radio Capability for Paging IE is included in the PAGING message, the eNB may use it to apply specific paging schemes. If the Enhanced Coverage Restricted IE is included in the PAGING message, the eNB shall, if supported, use it as defined in TS 23.401 [11].
If the Assistance Data for Recommended Cells IE is included in the Assistance Data for Paging IE it may be used, together with the Paging Attempt Information IE if also present according to TS 36.300 [14].
If the Assistance Data for CE capable UEs IE is included in the Assistance Data for Paging IE, it may be used for paging the indicated CE capable UE, together with the Paging Attempt Information IE according to TS 36.300 [14].
If the Next Paging Area Scope IE is included in the Paging Attempt Information IE it may be used for paging the UE according to TS 36.300 [14].
If the Paging eDRX Information IE is included in the PAGING message, the eNB shall, if supported, use it according to TS 36.304 [20]. If the Paging Time Window IE is included in the Paging eDRX Information IE, the eNB shall take this information into account to determine the UE’s paging occasion according to TS 36.304 [20]. The eNB should take into account the reception time of the PAGING message on the S1-MME interface to determine when to page the UE.
If the Extended UE Identity Index Value IE is included in the PAGING message, the eNB shall, if supported, use it to identify the paging resources to be used according to TS 36.304 [20]. The MME shall, if supported, include the Extended UE Identity Index Value IE in the PAGING message.
If the NB-IoT Paging eDRX Information IE is included in the PAGING message, the eNB shall, if supported, use it according to TS 36.304 [20]. If the NB-IoT Paging Time Window IE is included in the NB-IoT Paging eDRX Information IE, the eNB shall take this information into account to determine the UE’s paging occasion according to TS 36.304 [20]. The eNB should take into account the reception time of the PAGING message on the S1-MME interface to determine when to page the UE. 
If the NB-IoT UE Identity Index Value IE is included in the PAGING message, the eNB shall, if supported, use it to identify the paging resources to be used according to TS 36.304 [20].
If the CE-Mode-B Restricted IE is included in the PAGING message and the Enhanced Coverage Restricted IE is not set to restricted, the eNB shall use it as defined in TS 23.401 [11].
If the Data Size IE is included in the PAGING message, the eNB shall, if supported, use it to decide whether to initiate Mobile Terminated EDT procedures towards the UE as described in TS 36.300 [14].
If the WUS Assistance Information IE is included in the PAGING message, the eNB shall, if supported, use it to determine the WUS group for the UE, as specified in TS 36.304 [20].
If the NB-IoT Paging DRX IE is included in the PAGING message, the eNB shall use it according to TS 36.304 [20].
8.5.3	Unsuccessful Operation
Not applicable.
8.5.4	Abnormal Conditions
Not applicable.
8.6	NAS transport
8.6.1	General
The purpose of the NAS Transport procedure is to carry UE – MME signalling over the S1 Interface. The NAS messages are not interpreted by the eNB, and their content is outside the scope of this specification. The procedure may use an existing UE-associated logical S1-connection. If no UE-associated logical S1-connection exists, the establishment of the UE-associated logical S1-connection is initiated (and may be established) as part of the procedure.
The NAS messages are transported in an IE of the INITIAL UE MESSAGE, DOWNLINK NAS TRANSPORT, UPLINK NAS TRANSPORT or REROUTE NAS REQUEST messages.
8.6.2	Successful Operations
8.6.2.1	Initial UE Message

Figure 8.6.2.1-1: Initial UE Message procedure
When the eNB has received from the radio interface the first UL NAS message transmitted via RRC message to be forwarded to an MME, the eNB shall invoke the NAS Transport procedure and send the INITIAL UE MESSAGE message to the MME including the NAS message as a NAS-PDU IE. The eNB shall allocate a unique eNB UE S1AP ID to be used for the UE and the eNB shall include this identity in the INITIAL UE MESSAGE message. In case of network sharing, the selected PLMN is indicated by the PLMN Identity IE within the TAI IE included in the INITIAL UE MESSAGE message. When the eNB has received from the radio interface the S-TMSI IE, it shall include it in the INITIAL UE MESSAGE message. If the eNB does not support NNSF and the eNB has received from the radio interface the GUMMEI IE, the eNB may include it in the INITIAL UE MESSAGE message. If the eNB does not support NNSF and the eNB has received from the radio interface the GUMMEI Type IE, the eNB may include it in the INITIAL UE MESSAGE message.
If the establishment of the UE-associated logical S1-connection towards the CN is performed due to an RRC connection establishment originating from a CSG cell, the CSG Id IE shall be included in the INITIAL UE MESSAGE message.
If the establishment of the UE-associated logical S1-connection towards the CN is performed due to an RRC connection establishment originating from a Hybrid cell, the CSG Id IE and the Cell Access Mode IE shall be included in the INITIAL UE MESSAGE message.
If the establishment of the UE-associated logical S1-connection towards the CN is performed due to an RRC connection establishment triggered by a Relay Node as defined in TS 36.300 [14], the GW Transport Layer Address IE and the Relay Node Indicator IE shall be included in the INITIAL UE MESSAGE message.
If the eNB has a L-GW function for LIPA operation, it shall include the GW Transport Layer Address IE in the INITIAL UE MESSAGE message.
If the SIPTO L-GW Transport Layer Address IE is received in the INITIAL UE MESSAGE message, the MME shall, if supported, use it for SIPTO@LN operation as sepecified in TS 23.401 [11].
If the LHN ID IE is included in the INITIAL UE MESSAGE message, the MME shall, if supported, use it as specified in TS 23.401 [11].
If the Tunnel Information for BBF IE is received in the INITIAL UE MESSAGE message, the MME shall, if supported, use it in the core network as specified in TS 23.139 [37].
If the MME Group ID IE is included in the INITIAL UE MESSAGE message this indicates that the message is a rerouted message and the MME shall, if supported, use the IE as described in TS 23.401 [11].
If the UE Usage Type IE is included in the INITIAL UE MESSAGE message, then the selected MME in the DCN shall if supported, use it as defined in TS 23.401 [11].
If the DCN ID IE is included in the INITIAL UE MESSAGE message, the MME shall, if supported, use it as defined in TS 23.401 [11].
NOTE:	The first UL NAS message is always received in the RRC CONNECTION SETUP COMPLETE message, except that in cases of NB-IoT and MTC the first UL NAS message may be received in RRCEarlyDataRequest message.
If the CE-mode-B Support Indicator IE is included in the INITIAL UE MESSAGE message and set to "supported", the MME shall, if supported, use the extended NAS timer settings for the UE as specified in TS 24.301[24].
If the Coverage Level IE is included in the INITIAL UE MESSAGE message, the MME shall, if supported, use it as specified in TS 24.301[24].
If the UE Application Layer Measurement Capability IE is included in the INITIAL UE MESSAGE message, the MME shall, if supported, use it when initiating UE Application Layer Measurement.
If the EDT Session IE set to “true” is included in the INITIAL UE MESSAGE message, the MME shall, if supported, consider that the message has been received as a result of an EDT session as described in TS 36.300 [14].
If the IAB Node Indication IE is included in the INITIAL UE MESSAGE message, the MME shall consider that the message is related to an IAB-node.
8.6.2.2	DOWNLINK NAS TRANSPORT

Figure 8.6.2.2-1: DOWNLINK NAS Transport Procedure
If the MME only needs to send a NAS message transparently via the eNB to the UE and a UE-associated logical S1-connection exists for the UE or if the MME has received the eNB UE S1AP ID IE in an INITIAL UE MESSAGE message, the MME shall send a DOWNLINK NAS TRANSPORT message to the eNB including the NAS message as a NAS-PDU IE. If the UE-associated logical S1-connection is not established, the MME shall allocate a unique MME UE S1AP ID to be used for the UE and include that in the DOWNLINK NAS TRANSPORT message; by receiving the MME UE S1AP ID IE in the DOWNLINK NAS TRANSPORT, the eNB establishes the UE-associated logical S1-connection.
The NAS-PDU IE contains an MME – UE message that is transferred without interpretation in the eNB.
The DOWNLINK NAS TRANSPORT message may contain the Handover Restriction List IE, which may contain roaming or access restrictions.
If the Handover Restriction List IE is contained in the DOWNLINK NAS TRANSPORT message, the eNB shall store this information in the UE context.
The eNB shall use the information in Handover Restriction List IE if present in the DOWNLINK NAS TRANSPORT message to:
-	determine a target for subsequent mobility action for which the eNB provides information about the target of the mobility action towards the UE;
-	select a proper SCG during dual connectivity operation.
If the Handover Restriction List IE is not contained in the DOWNLINK NAS TRANSPORT message and there is no previously stored Handover restriction information, the eNB shall consider that no roaming and no access restriction apply to the UE.
If the Subscriber Profile ID for RAT/Frequency priority IE is included in DOWNLINK NAS TRANSPORT message, the eNB shall, if supported, use it as defined in TS 36.300 [14].
If the Additional RRM Policy Index IE is included in DOWNLINK NAS TRANSPORT message, the eNB shall, if supported, use it as defined in TS 36.300 [14].
If the SRVCC Operation Possible IE is included in DOWNLINK NAS TRANSPORT message, the eNB shall store it in the UE context and, if supported, use it as defined in TS 23.216 [9].
If the UE Radio Capability IE is included in the DOWNLINK NAS TRANSPORT message, the eNB shall store this information in the UE context, use it as defined in TS 36.300 [14].
If the Enhanced Coverage Restricted IE is included in the DOWNLINK NAS TRANSPORT message, the eNB shall store this information in the UE context and use it as defined in TS 23.401 [11].
If the CE-Mode-B Restricted IE is included in the DOWNLINK NAS TRANSPORT message and the Enhanced Coverage Restricted IE is not set to restricted and the Enhanced Coverage Restricted information stored in the UE context is not set to restricted, the eNB shall store this information in the UE context and use it as defined in TS 23.401 [11].
If the NR UE Security Capabilities IE is included in the DOWNLINK NAS TRANSPORT message, the eNB shall, if supported, store this information in the UE context and use it as defined in TS 33.401 [15].
If the End Indication IE is included in the DOWNLINK NAS TRANSPORT message and set to "no further data", the eNB shall consider that besides the included NAS PDU in this message, there are no further NAS PDUs to be transmitted for this UE.
If the Pending Data Indication IE is included in the DOWNLINK NAS TRANSPORT message, the eNB shall use it as defined in TS 23.401 [11].
If the Subscription Based UE Differentiation Information IE is included in the DOWNLINK NAS TRANSPORT message, the eNB shall, if supported, store this information in the UE context for further use according to TS 23.401 [11].
If the UE Radio Capability ID IE is included in the DOWNLINK NAS TRANSPORT message, the eNB shall, if supported, use it as defined in TS 23.401 [11].
Interaction with the NAS Delivery Indication procedure:
If the DL NAS PDU Delivery Acknowledgment Request IE set to "requested" was included in the DOWNLINK NAS TRANSPORT message (see 23.401 [11]), the eNB shall trigger the NAS Delivery Indication procedure, if the downlink NAS PDU was successfully delivered to the UE. 
Interaction with the UE Capability Info Indication procedure:
If the UE Capability Info Request IE set to “requested” is included in the DOWNLINK NAS TRANSPORT message, the eNB shall trigger the UE Capability Info Indication procedure if UE capability related information was successfully retrieved from the UE.

8.6.2.3	UPLINK NAS TRANSPORT

Figure 8.6.2.3-1: UPLINK NAS TRANSPORT Procedure
When the eNB has received from the radio interface a NAS message to be forwarded to the MME to which a UE-associated logical S1-connection for the UE exists, the eNB shall send the UPLINK NAS TRANSPORT message to the MME including the NAS message as a NAS-PDU IE. The eNB shall include the TAI and ECGI of the current cell in every S1-AP UPLINK NAS TRANSPORT message.
The NAS-PDU IE contains a UE – MME message that is transferred without interpretation in the eNB.
If the GW Transport Layer Address IE is received in the UPLINK NAS TRANSPORT message, the MME shall, if supported, use it for LIPA operation as specified in TS 23.401 [11].
If the SIPTO L-GW Transport Layer Address IE is received in the UPLINK NAS TRANSPORT message, the MME shall, if supported, use it for SIPTO@LN operation as specified in TS 23.401 [11]. 
If the LHN ID IE is included in the UPLINK NAS TRANSPORT message, the MME shall, if supported, use it as specified in TS 23.401 [11].
If the UE is configured with EN-DC radio resources and the PSCell information is available, the PSCell Information IE shall be included in the UPLINK NAS TRANSPORT message.
8.6.2.4	NAS NON DELIVERY INDICATION

Figure 8.6.2.4-1: NAS NON DELIVERY INDICATION Procedure
When the eNB decides not to start the delivery of a NAS message that has been received over a UE-associated logical S1-connection or the eNB is unable to ensure that the message has been received by the UE, it shall report the non-delivery of this NAS message by sending a NAS NON DELIVERY INDICATION message to the MME including the non-delivered NAS message within the NAS-PDU IE and an appropriate cause value within an appropriate Cause IE, e.g., “S1 intra system Handover Triggered”, “S1 inter system Handover Triggered” or “X2 Handover Triggered”.
8.6.2.4a	NAS DELIVERY INDICATION

Figure 8.6.2.4a-1: NAS DELIVERY INDICATION Procedure
If the eNB has been requested by the MME to provide an indication upon successful delivery of a downlink NAS PDU the eNB sends the NAS DELIVERY INDICATION message to the MME upon successful delivery of the downlink NAS PDU to the UE, see TS 23.401 [11].
8.6.2.5	Reroute NAS Request

Figure 8.6.2.5-1: Reroute NAS Request Procedure
The purpose of the Reroute NAS Request procedure is to enable the MME to request for a rerouting of the INITIAL UE MESSAGE message to the MME in the indicated DCN.
The MME initiates the procedure by sending a REROUTE NAS REQUEST message to the eNB. The eNB shall, if supported, reroute the INITIAL UE MESSAGE message to the MME in the DCN indicated by the MME Group ID IE as described in TS 23.401 [11].
If the Additional GUTI IE is included in the REROUTE NAS REQUEST message, then the eNB shall if supported, use it when selecting the MME in the DCN as defined in TS 23.401 [11].
If the UE Usage Type IE is included in the REROUTE NAS REQUEST message, then the eNB shall if supported, include it towards the selected MME in the DCN as defined in TS 23.401 [11].
8.6.3	Unsuccessful Operation
Not applicable.
8.6.4	Abnormal Conditions
If the S-TMSI is not received by the MME in the INITIAL UE MESSAGE message whereas expected, the MME shall consider the procedure as failed.
The behaviour of an eNB that has been requested by the MME to provide an indication upon successful delivery of a downlink NAS PDU to the UE and that receives a DOWNLINK NAS TRANSPORT message before it has reported to the MME either successful or unsuccessful delivery of the NAS PDU to the UE, is not specified.
8.7	Management procedures
8.7.1	Reset
8.7.1.1	General
The purpose of the Reset procedure is to initialise or re-initialise the E-UTRAN, or part of E-UTRAN S1AP UE-related contexts, in the event of a failure in the EPC or vice versa. This procedure does not affect the application level configuration data exchanged during, e.g., the S1 Setup procedure.
The procedure uses non-UE associated signalling.
8.7.1.2	Successful Operation
8.7.1.2.1	Reset Procedure Initiated from the MME

Figure 8.7.1.2.1-1: Reset procedure initiated from the MME. Successful operation.
In the event of a failure at the MME, which has resulted in the loss of some or all transaction reference information, a RESET message shall be sent to the eNB.
At reception of the RESET message the eNB shall release all allocated resources on S1 and Uu related to the UE association(s) indicated explicitly or implicitly in the RESET message and remove the indicated UE contexts including S1AP ID.
After the eNB has released all assigned S1 resources and the UE S1AP IDs for all indicated UE associations which can be used for new UE-associated logical S1-connections over the S1 interface, the eNB shall respond with the RESET ACKNOWLEDGE message. The eNB does not need to wait for the release of radio resources to be completed before returning the RESET ACKNOWLEDGE message.
If the RESET message contains the UE-associated logical S1-connection list IE, then:
-	The eNB shall use the MME UE S1AP ID IE and/or the eNB UE S1AP ID IE to explicitly identify the UE association(s) to be reset.
-	The eNB shall include in the RESET ACKNOWLEDGE message, for each UE association to be reset, the UE-associated logical S1-connection Item IE in the UE-associated logical S1-connection list IE. The UE-associated logical S1-connection Item IEs shall be in the same order as received in the RESET message and shall include also unknown UE-associated logical S1-connections. Empty UE-associated logical S1-connection Item IEs, received in the RESET message, may be omitted in the RESET ACKNOWLEDGE message.
-	If the MME UE S1AP ID IE is included in the UE-associated logical S1-connection Item IE for a UE association, the eNB shall include the MME UE S1AP ID IE in the corresponding UE-associated logical S1-connection Item IE in the RESET ACKNOWLEDGE message.
-	If the eNB UE S1AP ID IE is included in the UE-associated logical S1-connection Item IE for a UE association, the eNB shall include the eNB UE S1AP ID IE in the corresponding UE-associated logical S1-connection Item IE in the RESET ACKNOWLEDGE message.
Interactions with other procedures:
If the RESET message is received, any other ongoing procedure (except for another Reset procedure) on the same S1 interface related to a UE association, indicated explicitly or implicitly in the RESET message, shall be aborted.
8.7.1.2.2	Reset Procedure Initiated from the E-UTRAN

Figure 8.7.1.2.2-1: Reset procedure initiated from the E-UTRAN. Successful operation.
In the event of a failure at the eNB, which has resulted in the loss of some or all transaction reference information, a RESET message shall be sent to the MME.
At reception of the RESET message the MME shall release all allocated resources on S1 related to the UE association(s) indicated explicitly or implicitly in the RESET message and remove the S1AP ID for the indicated UE associations.
After the MME has released all assigned S1 resources and the UE S1AP IDs for all indicated UE associations which can be used for new UE-associated logical S1-connections over the S1 interface, the MME shall respond with the RESET ACKNOWLEDGE message.
If the RESET message contains the UE-associated logical S1-connection list IE, then:
-	The MME shall use the MME UE S1AP ID IE and/or the eNB UE S1AP ID IE to explicitly identify the UE association(s) to be reset.
-	The MME shall include in the RESET ACKNOWLEDGE message, for each UE association to be reset, the UE-associated logical S1-connection Item IE in the UE-associated logical S1-connection list IE. The UE-associated logical S1-connection Item IEs shall be in the same order as received in the RESET message and shall include also unknown UE-associated logical S1-connections. Empty UE-associated logical S1-connection Item IEs, received in the RESET message, may be omitted in the RESET ACKNOWLEDGE message.
-	If the MME UE S1AP ID IE is included in the UE-associated logical S1-connection Item IE for a UE association, the MME shall include the MME UE S1AP ID IE in the corresponding UE-associated logical S1-connection Item IE in the RESET ACKNOWLEDGE message.
-	If the eNB UE S1AP ID IE is included in a UE-associated logical S1-connection Item IE for a UE association, the MME shall include the eNB UE S1AP ID IE in the corresponding UE-associated logical S1-connection Item IE in the RESET ACKNOWLEDGE message.
Interactions with other procedures:
If the RESET message is received, any other ongoing procedure (except for another Reset procedure) on the same S1 interface related to a UE association, indicated explicitly or implicitly in the RESET message, shall be aborted.
8.7.1.3	Abnormal Conditions
8.7.1.3.1	Abnormal Condition at the EPC
If the RESET message includes the UE-associated logical S1-connection list IE, but neither the MME UE S1AP ID IE nor the eNB UE S1AP ID IE is present for a UE-associated logical S1-connection Item IE, then the MME shall ignore the UE-associated logical S1-connection Item IE. The MME may return the empty UE-associated logical S1-connection Item IE in the UE-associated logical S1-connection list IE in the RESET ACKNOWLEDGE message.
8.7.1.3.2	Abnormal Condition at the E-UTRAN
If the RESET message includes the UE-associated logical S1-connection list IE, but neither the MME UE S1AP ID IE nor the eNB UE S1AP ID IE is present for a UE-associated logical S1-connection Item IE, then the eNB shall ignore the UE-associated logical S1-connection Item IE. The eNB may return the empty UE-associated logical S1-connection Item IE in the UE-associated logical S1-connection list IE in the RESET ACKNOWLEDGE message.
8.7.1.3.3	Crossing of Reset Messages
If a Reset procedure is ongoing in the eNB and the eNB receives a RESET message from the peer entity on the same S1 interface related to one or several UE associations previously requested to be reset, indicated explicitly or implicitly in the received RESET message, the eNB shall respond with the RESET ACKNOWLEDGE message as described in 8.7.1.2.1.
If a Reset procedure is ongoing in the MME and the MME receives a RESET message from the peer entity on the same S1 interface related to one or several UE associations previously requested to be reset, indicated explicitly or implicitly in the received RESET message, the MME shall respond with the RESET ACKNOWLEDGE message as described in 8.7.1.2.2.
8.7.2	Error Indication
8.7.2.1	General
The Error Indication procedure is initiated by a node in order to report detected errors in one incoming message, provided they cannot be reported by an appropriate failure message.
If the error situation arises due to reception of a message utilising UE associated signalling, then the Error Indication procedure uses UE associated signalling. Otherwise the procedure uses non-UE associated signalling.
8.7.2.2	Successful Operation

Figure 8.7.2.2-1: Error Indication procedure, MME originated. Successful operation.

Figure 8.7.2.2-2: Error Indication procedure, eNB originated. 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.
The ERROR INDICATION message shall contain at least either the Cause IE or the Criticality Diagnostics IE. In case the Error Indication procedure is triggered by utilising UE associated signalling the MME UE S1AP ID IE and the eNB UE S1AP ID IE shall be included in the ERROR INDICATION message. If one or both of MME UE S1AP ID IE and the eNB UE S1AP ID IE are not correct, the cause shall be set to appropriate value, e.g., “Unknown or already allocated MME UE S1AP ID”, “Unknown or already allocated eNB UE S1AP ID” or “Unknown or inconsistent pair of UE S1AP ID”.
8.7.2.3	Abnormal Conditions 
Not applicable.
8.7.3	S1 Setup 
8.7.3.1	General
The purpose of the S1 Setup procedure is to exchange application level data needed for the eNB and the MME to correctly interoperate on the S1 interface. This procedure shall be the first S1AP procedure triggered after the TNL association has become operational. The procedure uses non-UE associated signalling.
This procedure erases any existing application level configuration data in the two nodes and replaces it by the one received and clears MME overload state information at the eNB. If the eNB and MME do not agree on retaining the UE Contexts this procedure also re-initialises the E-UTRAN S1AP UE-related contexts (if any) and erases all related signalling connections in the two nodes like a Reset procedure would do. If the eNB initiating the S1 Setup procedure supports a CSG cell, the procedure shall report the CSG ID(s) of the supported CSGs.
8.7.3.2	Successful Operation

Figure 8.7.3.2-1: S1 Setup procedure: Successful Operation.
The eNB initiates the procedure by sending a S1 SETUP REQUEST message including the appropriate data to the MME. The MME responds with a S1 SETUP RESPONSE message including the appropriate data.
The exchanged data shall be stored in respective node and used for the duration of the TNL association. When this procedure is finished, the S1 interface is operational and other S1 messages can be exchanged.
If the eNB initiating the S1 SETUP procedure supports one (or more) CSG cell(s), the S1 SETUP REQUEST message shall contain the CSG ID(s) of the supported CSG(s).
If the S1 SETUP REQUEST message contains the eNB Name IE the MME may use this IE as a human readable name of the eNB.
If the S1 SETUP RESPONSE message contains the MME Name IE the eNB may use this IE as a human readable name of the MME.
If the MME Relay Support Indicator IE is included in the S1 SETUP RESPONSE message, the eNB shall consider this information when selecting an appropriate MME for the Relay Node.
If the UE Retention Information IE set to “ues-retained“ was included in the S1 SETUP REQUEST message, then the MME may accept the proposal to retain the existing UE related contexts and signalling connections by including the UE Retention Information IE set to “ues-retained“ in the S1 SETUP RESPONSE message.
If the NB-IoT Default Paging DRX IE is included in the S1 SETUP REQUEST message, the MME will take it into account as specified in TS 36.300 [14].
If the Connected en-gNB List IE is included in the S1 SETUP REQUEST message, the MME shall take it into account as specified in TS 36.300 [14].
If the S1 SETUP RESPONSE message contains the ServedDCNs IE then the eNB shall, if supported, use it as defined in TS 23.401 [11].
If the S1 SETUP RESPONSE message contains the GUMMEI Type IE then the eNB shall, if supported, use it to route the UE to the correct MME as specified in TS 23.401 [11].
If the MME supports IAB, the MME shall include the IAB Supported IE in the S1 SETUP RESPONSE message.
8.7.3.3	Unsuccessful Operation

Figure 8.7.3.3-1: S1 Setup procedure: Unsuccessful Operation.
If the MME cannot accept the setup, it should respond with a S1 SETUP FAILURE and appropriate cause value.
If the S1 SETUP FAILURE message includes the Time To Wait IE, the eNB shall wait at least for the indicated time before reinitiating the S1 setup towards the same MME.
8.7.3.4	Abnormal Conditions
If the eNB initiates the procedure by sending a S1 SETUP REQUEST message including the PLMN Identity IEs and none of the PLMNs provided by the eNB is identified by the MME, then the MME shall reject the eNB S1 Setup Request procedure with the appropriate cause value, e.g., “Unknown PLMN”.
If none of the RATs indicated by the eNB in the S1 SETUP REQUEST message is supported by the MME, then the MME shall fail the S1 Setup procedure with an appropriate cause value.
8.7.4	eNB Configuration Update 
8.7.4.1	General
The purpose of the eNB Configuration Update procedure is to update application level configuration data needed for the eNB and the MME to interoperate correctly on the S1 interface. This procedure does not affect existing UE-related contexts, if any.
8.7.4.2	Successful Operation

Figure 8.7.4.2-1: ENB Configuration Update procedure: Successful Operation.
The eNB initiates the procedure by sending an ENB CONFIGURATION UPDATE message to the MME including an appropriate set of updated configuration data that it has just taken into operational use. The MME responds with ENB CONFIGURATION UPDATE ACKNOWLEDGE message to acknowledge that it successfully updated the configuration data. If information element(s) is/are not included in the ENB CONFIGURATION UPDATE message, the MME shall interpret that the corresponding configuration data is/are not changed and shall continue to operate the S1 with the existing related configuration data.
If the supported TA(s) is/are to be updated, the whole list of supported TAs, including those that are not to be updated, shall be included in the Supported TAs IE. The MME shall overwrite the whole list of TAs.
If the supported CSG ID(s) is/are to be updated, the whole list of supported CSG IDs, including those that are not to be updated, shall be included in the CSG Id List IE. The MME shall overwrite the whole list of CSG Ids.
If the ENB CONFIGURATION UPDATE message contains the eNB Name IE, the MME may use this IE as a human readable name of the eNB.
If the Default Paging DRX IE is included, the MME shall overwrite any previously stored default paging DRX value for the eNB.
If the NB-IoT Default Paging DRX IE is included in the ENB CONFIGURATION UPDATE message, the MME shall overwrite any previously stored NB-IoT default paging DRX value for the eNB.
If the Connected en-gNB to be Added List IE is included in the ENB CONFIGURATION UPDATE message, the MME shall replace, if applicable, any previously received information for the concerned en-gNBs and take it into account as specified in TS 36.300 [14].
If the Connected en-gNB to be Removed List IE is included in the ENB CONFIGURATION UPDATE message, the MME shall remove any stored information for the concerned en-gNBs.
The updated configuration data shall be stored in both the eNB and the MME and used for the duration of the TNL association or until any further update is triggered by the eNB.
The eNB may initiate a further eNB Configuration Update procedure only after a previous eNB Configuration Update procedure has been completed.
8.7.4.3	Unsuccessful Operation

Figure 8.7.4.3-1: ENB Configuration Update procedure: Unsuccessful Operation.
If the MME cannot accept the update, it shall respond with an ENB CONFIGURATION UPDATE FAILURE message and appropriate cause value.
If the ENB CONFIGURATION UPDATE FAILURE message includes the Time To Wait IE, the eNB shall wait at least for the indicated time before reinitiating the ENB Configuration Update procedure towards the same MME. Both nodes shall continue to operate the S1 with their respective configuration data. 
8.7.4.4	Abnormal Conditions
If the eNB after initiating eNB Configuration Update procedure receives neither an ENB CONFIGURATION UPDATE ACKOWLEDGE nor an ENB CONFIGURATION UPDATE FAILURE message, the eNB may reinitiate a further eNB Configuration Update procedure towards the same MME, provided that the content of the new ENB CONFIGURATION UPDATE message is identical to the content of the previously unacknowledged ENB CONFIGURATION UPDATE message.
8.7.5	MME Configuration Update 
8.7.5.1	General
The purpose of the MME Configuration Update procedure is to update application level configuration data needed for the eNB and MME to interoperate correctly on the S1 interface. This procedure does not affect existing UE-related contexts, if any.
8.7.5.2	Successful Operation

Figure 8.7.5.2-1: MME Configuration Update procedure: Successful Operation.
The MME initiates the procedure by sending an MME CONFIGURATION UPDATE message including the appropriate updated configuration data to the eNB. The eNB responds with an MME CONFIGURATION UPDATE ACKNOWLEDGE message to acknowledge that it successfully updated the configuration data. If information element(s) is/are not included in the MME CONFIGURATION UPDATE message, the eNB shall interpret that the corresponding configuration data is not changed and shall continue to operate the S1 with the existing related configuration data.
If the served PLMNs is/are to be updated, the eNB shall overwrite the whole list of PLMNs.
If the MME CONFIGURATION UPDATE message contains the MME Name IE, the eNB may use this IE as a human readable name of the MME.
The updated configuration data shall be stored in the respective node and used for the duration of the TNL association or until any further update is performed from the MME.
The MME may initiate a further MME Configuration Update procedure only after a previous MME Configuration Update procedure has been completed.
If the MME CONFIGURATION UPDATE message contains the ServedDCNs IE then the eNB shall, if supported, use it as defined in TS 23.401 [11].
If the MME CONFIGURATION UPDATE message contains the GUMMEI Type IE then the eNB shall, if supported, use it to route the UE to the correct MME as specified in TS 23.401 [11].
8.7.5.3	Unsuccessful Operation

Figure 8.7.5.3-1: MME Configuration Update: Unsuccessful Operation.
If the eNB cannot accept the update, it shall respond with an MME CONFIGURATION UPDATE FAILURE message and appropriate cause value.
If the MME CONFIGURATION UPDATE FAILURE message includes the Time To Wait IE the MME shall wait at least for the indicated time before reinitiating the MME Configuration Update procedure towards the same eNB. Both nodes shall continue to operate the S1 with the existing configuration data.
8.7.5.4	Abnormal Conditions
If the MME neither receives an MME CONFIGURATION UPDATE ACKOWLEDGE nor an MME CONFIGURATION UPDATE FAILURE message, the MME may reinitiate MME Configuration Update procedure towards the same eNB provided that the content of the new MME CONFIGURATION UPDATE message is identical to the content of the previously unacknowledged MME CONFIGURATION UPDATE message.
8.7.6	Overload Start
8.7.6.1	General
The purpose of the Overload Start procedure is to inform an eNB to reduce the signalling load towards the concerned MME.
The procedure uses non-UE associated signalling.
8.7.6.2	Successful Operation

Figure 8.7.6.2-1: Overload Start procedure
The eNB receiving the OVERLOAD START message shall assume the MME from which it receives the message as being in an overloaded state.
If the Overload Action IE in the Overload Response IE within the OVERLOAD START message is set to
-	"reject RRC connection establishments for non-emergency mobile originated data transfer" (i.e., reject traffic corresponding to RRC cause "mo-data", "mo-VoiceCall" and "delayTolerantAccess" in TS 36.331 [16]), or
-	"reject RRC connection establishments for signalling" (i.e., reject traffic corresponding to RRC cause "mo-data", "mo-signalling", "mo-VoiceCall" and "delayTolerantAccess" in TS 36.331 [16]), or
-	"only permit RRC connection establishments for emergency sessions and mobile terminated services" (i.e., only permit traffic corresponding to RRC cause "emergency" and "mt-Access" in TS 36.331 [16]), or
-	"only permit RRC connection establishments for high priority sessions and mobile terminated services" (i.e., only permit traffic corresponding to RRC cause "highPriorityAccess" and "mt-Access" in TS 36.331 [16]), or
-	"reject only RRC connection establishment for delay tolerant access" (i.e., only reject traffic corresponding to RRC cause "delayTolerantAccess" in TS 36.331 [16]), or
-	"not accept RRC connection requests for data transmission from UEs that only support Control Plane CIoT EPS Optimisation" (i.e. not accept traffic corresponding to RRC cause "mo-data" or "delayTolerantAccess" in TS 36.331 [16] for those UEs), or
-	"only permit RRC connection establishments for high priority sessions, exception reporting and mobile terminated services" (i.e., only permit traffic corresponding to RRC cause "highPriorityAccess", “mo-ExceptionData” and "mt-Access" in TS 36.331 [16]),
the eNB shall:
-	if the Traffic Load Reduction Indication IE is included in the OVERLOAD START message and, if supported, reduce the signalling traffic indicated as to be rejected by the indicated percentage,
-	otherwise ensure that only the signalling traffic not indicated as to be rejected/not accepted is sent to the MME.
NOTE:	When the Overload Action IE is set to "only permit RRC connection establishments for emergency sessions and mobile terminated services", emergency calls with RRC cause "highPriorityAccess" from high priority users are rejected (see TS 24.301 [24]).
If the GUMMEI List IE is present, the eNB shall, if supported, use this information to identify to which traffic the above defined rejections shall be applied.
If an overload action is ongoing and the eNB receives a further OVERLOAD START message, the eNB shall replace the ongoing overload action with the newly requested one. If the GUMMEI List IE is present, the eNB replaces applicable ongoing actions according to TS 36.300 [14], clauses 4.6.2, 4.7.4 and 19.2.2.12.
8.7.6.3	Unsuccessful Operation
Not applicable.
8.7.7	Overload Stop
8.7.7.1	General
The purpose of the Overload Stop procedure is to signal to an eNB the MME is connected to that the overload situation at the MME has ended and normal operation shall resume.
The procedure uses non-UE associated signalling.
8.7.7.2	Successful Operation

Figure 8.7.7.2.-1: Overload Stop procedure
The eNB receiving the OVERLOAD STOP message shall assume that the overload situation at the MME from which it receives the message has ended and shall resume normal operation for the applicable traffic towards this MME.
If the GUMMEI List IE is present, the eNB shall, if supported, use this information to identify which traffic to cease rejecting, and proceed according to TS 36.300 [14], clauses 4.6.2, 4.7.4 and 19.2.2.12. If no particular overload action is ongoing for a particular GUMMEI value, the eNB shall ignore this value.
8.7.7.3	Unsuccessful Operation
Not applicable.
8.8	S1 CDMA2000 Tunnelling Procedures
8.8.1	General
The purpose of S1 CDMA2000 Tunnelling procedures is to carry CDMA2000 signalling between UE and CDMA2000 RAT over the S1 Interface. This includes signalling for pre-registration of UE with CDMA2000 HRPD network, signalling for handover preparation for handover from E-UTRAN to CDMA2000 HRPD/1xRTT and pre-registration and paging of UE with CDMA2000 1xRTT CS system. The CDMA2000 messages are not interpreted by the eNB, and their content is outside the scope of this specification, however, additional information may be sent along with the tunnelled CDMA2000 message to assist the eNB and the MME in the tunnelling procedure. These procedures use an established UE-associated logical S1-connection.
The CDMA2000 messages are transported in an IE of the DOWNLINK S1 CDMA2000 TUNNELLING or UPLINK S1 CDMA2000 TUNNELLING messages.
8.8.2	Successful Operations
8.8.2.1	Downlink S1 CDMA2000 Tunnelling

Figure 8.8.2.1-1: Downlink S1 CDMA2000 Tunnelling Procedure
If a CDMA2000 message needs to be sent from the MME to a given UE and a UE-associated logical S1-connection exists for that given UE, the MME should send a DOWNLINK S1 CDMA2000 TUNNELLING message to the eNB including the CDMA2000 message in the CDMA2000-PDU IE. The eNB forwards the received CDMA2000-PDU IE to the UE along with an indication of the RAT Type associated with the CDMA2000-PDU IE based on the CDMA2000 RAT Type IE.
If the MME receives handover status information along with the tunnelled downlink CDMA2000 message, the MME should include the handover status information in the CDMA2000 HO Status IE in the DOWNLINK S1 CDMA2000 TUNNELLING message.
If the DOWNLINK S1 CDMA2000 TUNNELLING message contains the E-RABs Subject to Forwarding List IE, it indicates that DL forwarding is available for the indicated E-RABs towards the tunnel endpoint identified by the DL GTP-TEID IE for those E-RABs.
8.8.2.2	Uplink S1 CDMA2000 Tunnelling

Figure 8.8.2.2-1: Uplink S1 CDMA2000 Tunnelling Procedure
When the eNB has received from the radio interface a CDMA2000 message to be forwarded to the MME in which a UE-associated logical S1-connection for a given UE exists, the eNB shall send the UPLINK S1 CDMA2000 TUNNELLING message to the MME including the CDMA2000 message in the CDMA2000-PDU IE.
If the MME receives the CDMA2000 HO Required Indication IE set to “true” in UPLINK S1 CDMA2000 TUNNELLING message, the MME shall send the necessary handover preparation information to the CDMA2000 target RAT.
If the MME receives any of the CDMA2000 1xRTT SRVCC Info IE, or the CDMA2000 1xRTT RAND IE in the UPLINK S1 CDMA2000 TUNNELLING message, the MME shall forward the received information to the CDMA2000 1xRTT RAT.
If the MME receives the E-UTRAN Round Trip Delay Estimation Info IE in the UPLINK S1 CDMA2000 TUNNELLING message, the MME shall forward the received information to the target HRPD access. The MME shall forward the received CDMA2000 Sector ID IE and CDMA2000-PDU IE to the proper destination node in the CDMA2000 RAT.
Interactions with E-RAB Management procedures:
If, after an UPLINK S1 CDMA2000 TUNNELLING message with CDMA2000 HO Required Indication IE set to “true” is sent before the DOWNLINK S1 CDMA2000 TUNNELLING message with CDMA2000 HO Status IE is received, the source eNB receives an MME initiated E-RAB Management procedure on the same UE associated signalling connection, the source eNB shall terminate the MME initiated E-RAB Management procedure by sending the appropriate response message with an appropriate cause value, e.g., “S1 inter system Handover Triggered”, to the MME.
8.8.3	Unsuccessful Operation
Not applicable
8.8.4	Abnormal Conditions
If the eNB receives at least one E-RAB ID included in the E-RABs Subject to Forwarding Items IE without any associated DL GTP-TEID and DL Transport Layer Address pair in the DOWNLINK S1 CDMA2000 TUNNELLING message, the eNB shall consider it as a logical error and act as described in subclause 10.4.
The eNB shall ignore the UL GTP-TEID IE and/or UL Transport Layer Address IE in the E-RABs Subject to Forwarding Items IE, when the IEs are included in the DOWNLINK S1 CDMA2000 TUNNELLING message.
8.9	UE Capability Info Indication
8.9.1	General
The purpose of the UE Capability Info Indication procedure is to enable the eNB to provide to the MME UE capability-related information.
8.9.2	Successful Operation

Figure 8.9.2-1: UE Capability Info Indication procedure. Successful operation.
The eNB controlling a UE-associated logical S1-connection initiates the procedure by sending a UE CAPABILITY INFO INDICATION message to the MME including the UE capability information. The UE CAPABILITY INFO INDICATION message may also include paging specific UE capability information within the UE Radio Capability for Paging IE. The UE capability information received by the MME shall replace previously stored corresponding UE capability information in the MME for the UE, as described in TS 23.401 [11]. 
If UE CAPABILITY INFO INDICATION message contains the LTE-M indication IE, the MME shall, if supported, store this information in the UE context and use it according to TS 23.401 [11].
If the UE indicates the support for UE Application Layer Measurement, the eNB shall if supported include the UE Application Layer Measurement Capability IE in the UE CAPABILITY INFO INDICATION message. The MME shall, if supported, store and use thie information when initiating UE Application Layer Measurement.
If UE CAPABILITY INFO INDICATION message contains the UE Radio Capability – NR Format IE, the MME shall, if supported, use it according to TS 23.401 [11].
If the UE RADIO CAPABILITY INFO INDICATION message includes the UE Radio Capability for Paging IE and the UE Radio Capability for Paging – NR Format IE, the MME shall, if supported, use it according to TS 23.401 [11].
8.9.3	Abnormal Conditions
If the UE RADIO CAPABILITY INFO INDICATION message includes the UE Radio Capability for Paging – NR Format IE without the UE Radio Capability for Paging IE, the MME shall consider it as a logical error and act as described in subclause 10.4.
8.10	Trace Procedures
8.10.1	Trace Start
8.10.1.1	General
The purpose of the Trace Start procedure is to allow the MME to request the eNB to initiate a trace function for a UE. The procedure uses UE-associated signalling. If no UE-associated logical S1-connection exists, the UE-associated logical S1-connection shall be established as part of the procedure.
8.10.1.2	Successful Operation

Figure 8.10.1.2-1: Trace Start procedure.
The MME initiates the procedure by sending a TRACE START message. On receipt of a TRACE START message, the eNB shall initiate the requested trace function as described in TS 32.422 [10].
If the Trace Activation IE is included in the TRACE START message which includes the MDT Activation IE set to “Immediate MDT and Trace”, the eNB shall if supported, initiate the requested trace session and MDT session as described in TS 32.422 [10].
If the Trace Activation IE is included in the TRACE START message which includes the MDT Activation IE set to “Immediate MDT Only”, “Logged MDT only” or “Logged MBSFN MDT”, the target eNB shall, if supported, initiate the requested MDT session as described in TS 32.422 [10] and the target eNB shall ignore Interfaces To Trace IE, and Trace Depth IE.
If the Trace Activation IE includes the MDT Location Information IE, within the MDT Configuration IE, the eNB shall, if supported, store this information and take it into account in the requested MDT session.
If the Trace Activation IE is included in the TRACE START message which includes the MDT Activation IE set to “Immediate MDT Only”, “Logged MDT only” or “Logged MBSFN MDT” and if the Signalling based MDT PLMN List IE is included in the MDT Configuration IE, the eNB may use it to propagate the MDT Configuration as described in TS 37.320 [31].
If the Trace Activation IE includes the MBSFN-ResultToLog IE, within the MDT Configuration IE, the eNB shall, if supported, take it into account for MDT Configuration as described in TS 37.320 [31].
If the Trace Activation IE includes the MBSFN-AreaId IE in the MBSFN-ResultToLog IE, within the MDT Configuration IE, the eNB shall, if supported, take it into account for MDT Configuration as described in TS 37.320 [31].
If the Trace Activation IE includes the UE Application layer measurement configuration IE, the eNB shall, if supported, initiate the requested trace session and QoE Measurement Collection function as described in TS 36.300 [14].
If the Trace Activation IE includes the Bluetooth Measurement Configuration IE, within the MDT Configuration IE, the eNB shall, if supported, take it into account for MDT Configuration as described in TS 37.320 [31].
If the Trace Activation IE includes the WLAN Measurement Configuration IE, within the MDT Configuration IE, the eNB shall, if supported, take it into account for MDT Configuration as described in TS 37.320 [31].
If the Trace Activation IE includes the MDT Configuration NR IE, the eNB shall, if supported, store and forward MDT Configuration NR IE to the SgNB, if the eNB has configured EN-DC for the UE.
Interactions with other procedures:
If the eNB is not able to initiate the trace session due to ongoing handover of the UE to another eNB, the eNB shall initiate a Trace Failure Indication procedure with the appropriate cause value.
8.10.2	Trace Failure Indication
8.10.2.1	General
The purpose of the Trace Failure Indication procedure is to allow the eNB to inform the MME that a Trace Start procedure or a Deactivate Trace procedure has failed due to an interaction with a handover procedure. The procedure uses UE-associated signalling.
8.10.2.2	Successful Operation

Figure 8.10.2.2-1: Trace Failure Indication procedure.
The eNB initiates the procedure by sending a TRACE FAILURE INDICATION message. Upon reception of the TRACE FAILURE INDICATION message, the MME shall take appropriate actions based on the failure reason indicated by the Cause IE.
8.10.3	Deactivate Trace
8.10.3.1	General
The purpose of the Deactivate Trace procedure is to allow the MME to request the eNB to stop the trace session, for the indicated trace reference.
8.10.3.2	Successful Operation

Figure 8.10.3.2-1: Deactivate Trace procedure. Successful operation.
The MME invokes the Deactivate Trace procedure by sending a DEACTIVATE TRACE message to the eNB as described in TS 32.422 [10].
Upon reception of this message, the eNB shall stop the trace session for the indicated trace reference in the E-UTRAN Trace ID IE.
Interactions with other procedures:
If the eNB is not able to stop the trace session due to ongoing handover of the UE to another eNB, the eNB shall initiate a Trace Failure Indication procedure with the appropriate cause value.
8.10.4	Cell Traffic Trace
8.10.4.1	General
The purpose of the Cell Traffic Trace procedure is to send the allocated Trace Recording Session Reference and the Trace Reference to MME. The procedure uses UE-associated signalling.
8.10.4.2	Successful Operation

Figure 8.10.4.2-1: Cell Traffic Trace procedure. Successful operation.
The procedure is initiated with a CELL TRAFFIC TRACE message sent from the eNB to the MME. 
If the Privacy Indicator IE is included in the message, the MME shall take the information into account for anonymisation of MDT data (TS 32.422 [10]).
8.11	Location Reporting Procedures
8.11.1	Location Reporting Control
8.11.1.1	General
The purpose of Location Reporting Control procedure is to allow the MME to request the eNB to report where the UE is currently located. The procedure uses UE-associated signalling.
8.11.1.2	Successful Operation

Figure 8.11.1.2-1: Location Reporting Control procedure. Successful operation.
The MME initiates the procedure by sending a LOCATION REPORTING CONTROL message. On receipt of a LOCATION REPORTING CONTROL message the eNB shall perform the requested location reporting control action for the UE.
The Request Type IE indicates to the eNB whether:
-	to report directly;
-	to report upon change of serving cell, or
-	to stop reporting at change of serving cell.
If reporting upon change of serving cell is requested, the eNB shall report whenever the UE changes its serving cell to another cell belonging to the eNB.
If the Additional Location Information IE is included in the LOCATION REPORTING CONTROL message and set to "Include PSCell” then, if EN-DC is activated, the eNB shall include the current PSCell in the report. If a report upon change of serving cell is requested, the eNB shall provide the report also whenever the UE changes the PSCell, and when EN-DC is activated, as specified in TS 23.401 [11].
The Request Type IE also indicates what type of location information the eNB shall report. The location information is E-UTRAN CGI and TAI, or E-UTRAN CGI, PSCell and TAI.
8.11.1.3	Abnormal Conditions
Not applicable.
8.11.2	Location Report Failure Indication
8.11.2.1	General
The Location Report Failure Indication procedure is initiated by an eNB in order to inform the MME that a Location Reporting Control procedure has failed due to an interaction with a handover procedure. The procedure uses UE-associated signalling.
8.11.2.2	Successful Operation

Figure 8.11.2.2-1: Location Report Failure Indication procedure.
Upon reception of the LOCATION REPORT FAILURE INDICATION message the MME shall take appropriate actions based on the failure reason indicated by the Cause IE.
8.11.3	Location Report
8.11.3.1	General
The purpose of Location Report procedure is to provide the UE’s current location to the MME. The procedure uses UE-associated signalling.
8.11.3.2	Successful Operation

Figure 8.11.3.2-1: Location Report procedure. Successful operation.
The eNB initiates the procedure by generating a LOCATION REPORT message. The LOCATION REPORT message may be used as a response to a LOCATION REPORTING CONTROL message.
In case reporting at change of serving cell has been requested, the eNB shall send a LOCATION REPORT message whenever the information given to the EPC in any S1AP message is not anymore valid.
If the PSCell Information IE is included in the LOCATION REPORT message, then the MME may consider both E-UTRAN CGI IE and PSCell Information IE to determine the UE’s location.
8.11.3.3	Abnormal Conditions
Not applicable.
8.12	Warning Message Transmission Procedures
8.12.1	Write-Replace Warning
8.12.1.1	General
The purpose of Write-Replace Warning procedure is to start or overwrite the broadcasting of warning messages.
The procedure uses non UE-associated signalling.
8.12.1.2	Successful Operation

Figure 8.12.1.2-1: Write-Replace Warning procedure. Successful operation.
The MME initiates the procedure by sending a WRITE-REPLACE WARNING REQUEST message to the eNB.
Upon receipt of the WRITE-REPLACE WARNING REQUEST, eNB shall prioritise its resources to process the warning message.
If, in a certain area, broadcast of a warning message is already ongoing and the eNB receives a WRITE-REPLACE WARNING REQUEST message with Message Identifier IE and/or Serial Number IE which are different from those in the warning message being broadcast, and if the Concurrent Warning Message Indicator IE is not present, the eNB shall replace the warning message being broadcast with the newly received one for that area.
If the eNB receives a WRITE-REPLACE WARNING REQUEST message with a warning message identified by the Message Identifier IE and Serial Number IE and if there are no prior warning messages being broadcast in any of warning areas indicated in the Warning Area List IE, the eNB shall broadcast the received warning message for those area(s).
If, in a certain area, broadcast of one or more warning messages are already ongoing and the eNB receives a WRITE-REPLACE WARNING REQUEST message with a Message Identifier IE and/or Serial Number IE which are different from those in any of the warning messages being broadcast, and if the Concurrent Warning Message Indictor IE is present, the eNB shall schedule the received warning message for broadcast, for that area.
If the Concurrent Warning Message Indicator IE is present and if a value “0” is received in the Number of Broadcast Requested IE, the eNB shall broadcast the received warning message indefinitely until requested otherwise to stop broadcasting, except if the Repetition Period IE is set to “0”.
If, in a certain area, broadcast of one or more warning messages are already ongoing and the eNB receives a WRITE-REPLACE WARNING REQUEST message with Message Identifier IE and Serial Number IE which correspond to one of the warning messages already being broadcast in that area, the eNB shall not start a new broadcast or replace an existing one but it shall still reply by sending a WRITE-REPLACE WARNING RESPONSE message which includes the Broadcast Completed Area List IE set according to the ongoing broadcast.
If Warning Area List IE is not included in the WRITE-REPLACE WARNING REQUEST message, the eNB shall broadcast the indicated message in all of the cells within the eNB.
If Warning Type IE is included in WRITE-REPLACE WARNING REQUEST message, the eNB shall broadcast the Primary Notification irrespective of the setting of the Repetition Period IE and the Number of Broadcasts Requested IE, and process the Primary Notification according to TS 36.331 [16].
If the Warning Security Information IE is included in the WRITE-REPLACE WARNING REQUEST message, the eNB shall include this information together with the warning type in the Primary Notification.
If the Data Coding Scheme IE and the Warning Message Contents IE are both included in the WRITE-REPLACE WARNING REQUEST message, the eNB shall schedule a broadcast of the warning message according to the value of the Repetition Period IE and Number of Broadcasts Requested IE and process the warning message according to TS 36.331 [16].
If the Warning Area Coordinates IE is included in the WRITE-REPLACE WARNING REQUEST message, the eNB shall include this information together with the warning message being broadcast according to TS 36.331 [16].
The eNB acknowledges the WRITE-REPLACE WARNING REQUEST message by sending a WRITE-REPLACE WARNING RESPONSE message to the MME.
If the Broadcast Completed Area List IE is not included in the WRITE-REPLACE WARNING RESPONSE message, the MME shall consider that the broadcast is unsuccessful in all the cells within the eNB.
If the Extended Repetition Period IE is included in the WRITE-REPLACE WARNING REQUEST message, the eNB shall ignore the value in the Repetition Period IE.
8.12.1.3	Abnormal Conditions
If the Concurrent Warning Message Indicator IE is not present and if a value “0” is received in the Number of Broadcast Requested IE, the eNB shall not broadcast the received secondary notification.
If Concurrent Warning Message Indicator IE is included and if a value “0” is received in the Repetition Period IE, the eNB shall not broadcast the received warning message except if the Number of Broadcast Requested IE is set to “1”.
If Concurrent Warning Message Indicator IE is not included and if a value “0” is received in the Repetition Period IE, the eNB shall not broadcast the received secondary notification except if the Number of Broadcast Requested IE is set to “1”.
8.12.2	Kill
8.12.2.1	General
The purpose of Kill procedure is to cancel an already ongoing broadcast of a warning message.
The procedure uses non UE-associated signalling.
8.12.2.2	Successful Operation


Figure 8.12.2.2-1: Kill procedure. Successful operation.
The MME initiates the procedure by sending a KILL REQUEST message to the eNB.
If the eNB receives a KILL REQUEST message and broadcast of the warning message identified by the Message Identifier and Serial Number IE is ongoing in an area indicated within the Warning Area List IE, the eNB shall stop broadcasting the warning message within that area and discard the warning message for that area.
If the Warning Area List IE is not included in the KILL REQUEST message, the eNB shall stop broadcasting and discard the warning message identified by the Message Identifier IE and the Serial Number IE in all of the cells in the eNB.
The eNB shall acknowledge the KILL REQUEST message by sending the KILL RESPONSE message, with the Message Identifier IE and the Serial Number IE copied from the KILL REQUEST message and shall, if there is an area to report where an ongoing broadcast was stopped successfully, include the Broadcast Cancelled Area List IE.
If an area included in the Warning Area List IE in the KILL REQUEST message does not appear in the Broadcast Cancelled Area List IE, the MME shall consider that the eNB had no ongoing broadcast to stop for the same Message Identifier and Serial Number in that area.
If the Broadcast Cancelled Area List IE is not included in the KILL RESPONSE message, the MME shall consider that the eNB had no ongoing broadcast to stop for the same Message Identifier and Serial Number.
If the Kill-all Warning Messages Indicator IE is present in the KILL REQUEST message, then the eNB shall stop broadcasting and discard all warning messages for the area as indicated in the Warning Area List IE or in all the cells of the eNB if the Warning Area List IE is not included. The eNB shall acknowledge the KILL REQUEST message by sending the KILL RESPONSE message, with the Message Identifier IE and the Serial Number IE copied from the KILL REQUEST message and shall, if there is area to report where an ongoing broadcast was stopped successfully, include the Broadcast Cancelled Area List IE with the Number of Broadcasts IE set to 0.
8.12.3	PWS Restart Indication
8.12.3.1	General
The purpose of PWS Restart Indication procedure is to inform the MME that PWS information for some or all cells of the eNB are available for reloading from the CBC if needed. The procedure uses non UE-associated signalling.
8.12.3.2	Successful Operation

Figure 8.12.3.2-1: PWS Restart Indication procedure. Successful operation.
The eNB initiates the procedure by sending a PWS RESTART INDICATION message to the MME. On receipt of a PWS RESTART INDICATION message, the MME shall act as defined in TS 23.007 [38].
If the Emergency Area ID is available, the eNB shall also include it in the Emergency Area ID List for Restart IE.
8.12.4	PWS Failure Indication
8.12.4.1	General
The purpose of PWS Failure Indication procedure is to inform the MME that ongoing PWS operation for one or more cells of the eNB has failed. The procedure uses non UE-associated signalling.
8.12.4.2	Successful Operation

Figure 8.12.4.2-1: PWS Failure Indication procedure. Successful operation.
The eNB initiates the procedure by sending a PWS FAILURE INDICATION message to the MME. On receipt of a PWS FAILURE INDICATION message, the MME shall act as defined in TS 23.041 [29].
8.13	eNB Direct Information Transfer
8.13.1	General
The purpose of the eNB Direct Information Transfer procedure is to transfer RAN information from the eNB to the MME in unacknowledged mode. The MME does not interpret the transferred RAN information.
This procedure uses non-UE associated signalling.
8.13.2	Successful Operation
8.13.2.1	eNB Direct Information Transfer

Figure 8.13.1.2-1: ENB Direct Information Transfer procedure. Successful operation.
The procedure is initiated with an ENB DIRECT INFORMATION TRANSFER message sent from the eNB to the MME.
The RIM Transfer IE within the Inter-system Information Transfer Type IE shall contain the RIM Routing Address IE that identifies the final RAN destination node where the RIM information needs to be transferred to by the core network. In case of transfer to UTRAN the source eNB shall include the RAC IE in the Target RNC-ID IE within the RIM Routing Address IE.
8.13.3	Abnormal Conditions
Not applicable.
8.14	MME Direct Information Transfer
8.14.1	General
The purpose of the MME Direct Information Transfer procedure is to transfer RAN information from the MME to the eNB in unacknowledged mode.
This procedure uses non-UE associated signalling.
8.14.2	Successful Operation
8.14.2.1	MME Direct Information Transfer

Figure 8.14.1.2-1: MME Direct Information Transfer procedure. Successful operation.
The procedure is initiated with a MME DIRECT INFORMATION TRANSFER message sent from the MME to the eNB.
The Inter-system Information Transfer Type IE indicates the nature of the transferred information. When the transferred information is of RIM nature, the RIM Information IE within the RIM Transfer IE shall contain a BSSGP RIM PDU. The RIM Routing Address IE shall not be present since the eNB is the final destination node.
8.14.3	Abnormal Conditions
Not applicable.
8.15	eNB Configuration Transfer
8.15.1	General
The purpose of the eNB Configuration Transfer procedure is to transfer RAN configuration information from the eNB to the MME in unacknowledged mode. The MME does not interpret the transferred RAN configuration information.
This procedure uses non-UE associated signalling.
8.15.2	Successful Operation
8.15.2.1	eNB Configuration Transfer

Figure 8.15.2.1-1: eNB Configuration Transfer procedure. Successful operation.
The procedure is initiated with an ENB CONFIGURATION TRANSFER message sent from the eNB to the MME.
If the MME receives the SON Configuration Transfer IE, it shall transparently transfer the SON Configuration Transfer IE towards the eNB indicated in the Target eNB-ID IE which is included in the SON Configuration Transfer IE.
If the MME receives the EN-DC SON Configuration Transfer IE, it shall transparently transfer the EN-DC SON Configuration Transfer IE either towards the eNB indicated in the Target eNB-ID IE or towards an eNB connected to the en-gNB indicated in the Target en-gNB-ID IE which is included in the EN-DC SON Configuration Transfer IE. The EN-DC SON Configuration Transfer IE may also contain, if available, 
-	the Target eNB ID IE,
-	the Associated TAI IE,
-	the Broadcast 5GS TAI IE,
for purposes described in TS 36.300 [14].
If the MME receives the Inter-system SON Configuration Transfer IE, it shall transparently transfer the Inter-system SON Configuration Transfer IE towards the AMF serving the NG-RAN Node indicated in the Target gNB-ID IE which is included in the Inter-system SON Configuration Transfer IE.
8.15.3	Abnormal Conditions
Not applicable.
8.16	MME Configuration Transfer
8.16.1	General
The purpose of the MME Configuration Transfer procedure is to transfer RAN configuration information from the MME to the eNB in unacknowledged mode.
This procedure uses non-UE associated signalling.
8.16.2	Successful Operation
8.16.2.1	MME Configuration Transfer

Figure 8.16.2.1-1: MME Configuration Transfer procedure. Successful operation.
The procedure is initiated with an MME CONFIGURATION TRANSFER message sent from the MME to the eNB.
If the eNB receives, in the SON Configuration Transfer IE or the EN-DC SON Configuration Transfer IE, the SON Information IE containing the SON Information Request IE, it may transfer back the requested information either towards the eNB indicated in the Source eNB-ID IE of the SON Configuration Transfer IE or towards the eNB indicated in the Source eNB-ID IE of the EN-DC SON Configuration Transfer IE by initiating the eNB Configuration Transfer procedure. If the X2 TNL Configuration Info IE contains the eNB Indirect X2 Transport Layer Addresses IE, the eNB may use it for the X2 TNL establishment, and may transfer back the received eNB Indirect X2 Transport Layer Addresses towards the eNB indicated in the Source eNB-ID IE of the SON Configuration Transfer IE by initiating the eNB Configuration Transfer procedure or towards the eNB indicated in the Source eNB-ID IE of the EN-DC SON Configuration Transfer IE by initiating the eNB Configuration Transfer procedure.
If the eNB receives, in the SON Configuration Transfer IE, the X2 TNL Configuration Info IE containing the eNB X2 Extended Transport Layer Addresses IE, it may use it as part of its ACL functionality configuration actions, if such ACL functionality is deployed.
If the eNB receives, in the SON Configuration Transfer IE or the EN-DC SON Configuration Transfer IE, the SON Information IE containing the SON Information Reply IE including the X2 TNL Configuration Info IE as an answer to a former request, it may use it to initiate the X2 TNL establishment. If the X2 TNL Configuration Info IE contains the eNB Indirect X2 Transport Layer Addresses IE, the eNB may use it for the X2 TNL establishment.
In case the IP-Sec Transport Layer Address IE is present and the GTP Transport Layer Addresses IE within the eNB X2 Extended Transport Layer Addresses IE is not empty, GTP traffic is conveyed within an IP-Sec tunnel terminated at the IP-Sec tunnel end point given in by the IP-Sec Transport Layer Address IE.
In case the IP-Sec Transport Layer Address IE is not present, GTP traffic is terminated at the end points given by the list of addresses in eNB GTP Transport Layer Addresses IE within the eNB X2 Extended Transport Layer Addresses IE.
In case the eNB GTP Transport Layer Addresses IE is empty and the IP-Sec Transport Layer Address IE is present, SCTP traffic is conveyed within an IP-Sec tunnel terminated at the IP-Sec tunnel end point given in the IP-Sec Transport Layer Address IE, within the eNB X2 Extended Transport Layer Addresses IE.
If the eNB is configured to use one IPsec tunnel for all S1 and X2 traffic (IPsec star topology) then the traffic to the peer eNB shall be routed through this IPsec tunnel and the IP-Sec Transport Layer Address IE shall be ignored.
If the eNB receives the SON Information IE containing the SON Information Reply IE including the Time Synchronisation Info IE as an answer to a former request, it may use it for over-the-air synchronisation by means of network listening and for triggering muting activation request.
If the eNB receives the SON Information IE containing the SON Information Report IE, it may use it as specified in TS 36.300 [14].
If the eNB receives the Inter-system SON Configuration Transfer IE containing the Inter-system SON Information Report IE, it may use it as specified in TS 38.300 [45] or in TS 36.300 [14].
If the eNB receives the SON Information IE containing the SON Information Request IE set to “Activate Muting”, the eNB should consider activating for over-the-air synchronisation by means of network listening, taking into account information on the selected source of synchronisation cell and the cells as indicated by the Aggressor E-CGI List IE. In case the Aggressor E-CGI List IE is not present, the eNB may consider the request applicable to all cells.
If the eNB receives the SON Information IE containing the SON Information Reply IE including the Muting Pattern Information IE as an answer to a former request, it may use it for over-the-air synchronisation by means of network listening. The Muting Pattern Information IE may apply to all cells that were requested to mute.
If the eNB receives the SON Information IE containing the SON Information Request IE set to “Deactivate Muting”, the eNB may consider deactivating muting for over-the-air synchronisation that was activated by a former muting request from the corresponding eNB.
8.16.3	Abnormal Conditions
Not applicable.
8.17	LPPa transport
8.17.1	General
The purpose of the LPPa Transport procedure is to carry LPPa signalling (defined in TS 36.455 [34]) between eNB and E-SMLC over the S1 Interface as defined in TS 36.455 [34]. The procedure may use UE-associated signalling or non-UE associated signalling. The UE-associated signalling is used to support E-CID and UTDOA positioning of a specific UE. The non-UE associated signalling is used to obtain assistance data from an eNB to support OTDOA positioning for any UE.
8.17.2	Successful Operations
8.17.2.1	DOWNLINK UE ASSOCIATED LPPA TRANSPORT

Figure 8.17.2.1-1: DOWNLINK UE ASSOCIATED LPPA Transport Procedure
The MME initiates the procedure by sending the DOWNLINK UE ASSOCIATED LPPA TRANSPORT message to eNB.
8.17.2.2	UPLINK UE ASSOCIATED LPPA TRANSPORT

Figure 8.17.2.2-1: UPLINK UE ASSOCIATED LPPA TRANSPORT Procedure
The eNB initiates the procedure by sending the UPLINK UE ASSOCIATED LPPA TRANSPORT message to MME.
8.17.2.3	DOWNLINK NON UE ASSOCIATED LPPA TRANSPORT

Figure 8.17.2.3-1: DOWNLINK NON UE ASSOCIATED LPPA Transport Procedure
The MME initiates the procedure by sending the DOWNLINK NON UE ASSOCIATED LPPA TRANSPORT message to eNB.
8.17.2.4	UPLINK NON UE ASSOCIATED LPPA TRANSPORT

Figure 8.17.2.4-1: UPLINK NON UE ASSOCIATED LPPA TRANSPORT Procedure
The eNB initiates the procedure by sending the UPLINK NON UE ASSOCIATED LPPA TRANSPORT message to MME.
8.17.3	Unsuccessful Operation
Not applicable
8.17.4	Abnormal Conditions
If an MME receives an UPLINK UE ASSOCIATED LPPA TRANSPORT message with an unknown Routing ID for the UE, the MME shall ignore the message.
If an MME receives an UPLINK NON UE ASSOCIATED LPPA TRANSPORT message indicating an unknown or unreachable Routing ID, the MME shall ignore the message.
8.18	Secondary RAT Data Usage Report
8.18.1	General
The purpose of the Secondary RAT Data Usage Report procedure is to provides information on the used resources of the secondary RAT (e.g. NR resources during EN-DC operation) as specified in TS 23.401 [11].
8.18.2	Successful Operations
8.18.2.1	SECONDARY RAT DATA USAGE REPORT

Figure 8.18.2.1-1: Secondary RAT Data Usage Report Procedure
The eNB initiates the procedure by sending the SECONDARY RAT DATA USAGE REPORT message to MME.
If the PSCell Information IE is included in the SECONDARY RAT DATA USAGE REPORT message, then the MME may use it to determine the UE’s location. 
If the Time Since Secondary Node Release IE is included in the SECONDARY RAT DATA USAGE REPORT message, it indicates the time elapsed since EN-DC operation in the eNB was stopped for the UE.
8.18.3	Unsuccessful Operation
Not applicable
8.18.4	Abnormal Conditions
Not applicable
8.19	UE Radio Capability ID Mapping
8.19.1	General
The purpose of the UE Radio Capability ID Mapping procedure is to enable the eNB to request the MME to provide the UE Radio Capability information that maps to a specific UE Radio Capability ID. The procedure uses non UE-associated signalling.
8.19.2	Successful Operation

Figure 8.19.2-1: UE Radio Capability ID mapping Request procedure. Successful operation. 
The eNB initiates the procedure by sending a UE RADIO CAPABILITY ID MAPPING REQUEST message to the MME. 
Upon receipt of the UE RADIO CAPABILITY ID MAPPING REQUEST message, the MME shall include the UE Radio Capability information that maps to the UE Radio Capability ID indicated in the UE RADIO CAPABILITY ID MAPPING REQUEST message in the UE RADIO CAPABILITY ID MAPPING RESPONSE message.
8.19.3	Unsuccessful Operation
Not applicable.
8.19.4	Abnormal Conditions
Void.
9	Elements for S1AP Communication	
9.1	Message Functional Definition and Content
9.1.1	General
9.1.2	Message Contents
9.1.2.1	Presence
All information elements in the message descriptions below are marked mandatory, optional or conditional according to table 4.
Table 4: Meaning of abbreviations used in S1AP messages
Abbreviation
Meaning
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 (C) shall be included in a message only if the condition is satisfied. Otherwise the IE shall not be included.


9.1.2.2	Criticality
Each Information Element or Group of Information Elements may have criticality information applied to it.
Following cases are possible:
Table 5: Meaning of content within “Criticality” column
Abbreviation
Meaning

–
No criticality information is applied explicitly.
YES
Criticality information is applied. This is usable only for non-repeatable IEs 
GLOBAL
The IE and all its repetitions together have one common criticality information. This is usable only for repeatable IEs.
EACH
Each repetition of the IE has its own criticality information. It is not allowed to assign different criticality values to the repetitions. This is usable only for repeatable IEs.

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	E-RAB Management Messages
9.1.3.1	E-RAB SETUP REQUEST
This message is sent by the MME and is used to request the eNB to assign resources on Uu and S1 for one or several E-RABs.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
UE Aggregate Maximum Bit Rate
O

9.2.1.20

YES
reject
E-RAB to be Setup List

1


YES
reject
>E-RAB To Be Setup Item IEs

1 ..  <maxnoof E-RABs>


EACH
reject
>>E-RAB ID
M

9.2.1.2

-

>>E-RAB Level QoS Parameters 
M

9.2.1.15
Includes necessary QoS parameters.
-

>>Transport Layer Address 
M

9.2.2.1

-

>>GTP-TEID
M

9.2.2.2
EPC TEID.
-

>>NAS-PDU
M

9.2.3.5

-

>>Correlation ID
O

9.2.1.80

YES
ignore
>>SIPTO Correlation ID
O

Correlation ID
9.2.1.80

YES
ignore
>>Bearer Type
O

9.2.1.116

YES
reject
>>Ethernet Type
O

9.2.1.147

YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.1.3.2	E-RAB SETUP RESPONSE
This message is sent by the eNB and is used to report the outcome of the request from the E-RAB SETUP REQUEST message.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
E-RAB Setup List

0..1


YES
ignore
>E-RAB Setup Item IEs

1 .. <maxnoof E-RABs>


EACH
ignore
>>E-RAB ID
M



-

>>Transport Layer Address 
M

9.2.2.1

-

>>GTP-TEID
M

9.2.2.2
eNB TEID.
-

E-RAB Failed to Setup List 
O

E-RAB List 
9.2.1.36
A value for E-RAB ID shall only be present once in E-RAB Setup List IE and in E-RAB Failed to Setup List IE.
YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.1.3.3	E-RAB MODIFY REQUEST
This message is sent by the MME and is used to request the eNB to modify the Data Radio Bearers and the allocated resources on Uu and S1 for one or several E-RABs or to change the S-GW as defined in TS 23.401 [11].
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
UE Aggregate Maximum Bit Rate
O

9.2.1.20

YES
reject
E-RAB to be Modified List

1


YES
reject
>E-RAB To Be Modified Item IEs

1 .. <maxnoofE-RABs>


EACH
reject
>>E-RAB ID
M

9.2.1.2

-

>>E-RAB Level QoS Parameters 
M

9.2.1.15
Includes necessary QoS parameters.
-

>>NAS-PDU
M

9.2.3.5

-

>>Transport Information
O



YES
reject
>>>Transport Layer Address
M

9.2.2.1

-

>>>UL GTP TEID
M

GTP-TEID
9.2.2.2

-

Secondary RAT Data Usage Request
O

ENUMERATED (requested, …)

Yes
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.1.3.4	E-RAB MODIFY RESPONSE
This message is sent by the eNB and is used to report the outcome of the request from the E-RAB MODIFY REQUEST message.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
E-RAB Modify List

0..1


YES
ignore
>E-RAB Modify Item IEs

1 .. <maxnoofE-RABs>


EACH
ignore
>>E-RAB ID
M

9.2.1.2

-

E-RAB Failed to Modify List 
O

E-RAB List 
9.2.1.36
A value for E-RAB ID shall only be present once in E-RAB Modify List IE and E-RAB Failed to Modify List IE.
YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore
Secondary RAT Usage Report List
O

9.2.1.124

Yes
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.1.3.5	E-RAB RELEASE COMMAND
This message is sent by the MME and is used to request the eNB to release allocated resources on Uu and S1 for one or several E-RABs.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
UE Aggregate Maximum Bit Rate
O

9.2.1.20

YES
reject
E-RAB To Be Released List 
M

E-RAB List 
9.2.1.36
A value for E-RAB ID shall only be present once in E-RAB To Be Released List IE.
YES
ignore
NAS-PDU
O

9.2.3.5

YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.1.3.6	E-RAB RELEASE RESPONSE
This message is sent by the eNB and is used to report the outcome of the request from the E-RAB RELEASE COMMAND message.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
E-RAB Release List 

0..1


YES
ignore
>E-RAB Release Item IEs

1 .. <maxnoofE-RABs>


EACH
ignore
>>E-RAB ID
M

9.2.1.2

-

E-RAB Failed to Release List 
O

E-RAB List 
9.2.1.36
A value for E-RAB ID shall only be present once in E-RAB Release List IE and E-RAB Failed to Release List IE.
YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore
User Location Information
O

9.2.1.93

YES
ignore
Secondary RAT Usage Report List
O

9.2.1.124

Yes
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.1.3.7	E-RAB RELEASE INDICATION
This message is sent by the eNB and is used to indicate the MME to release one or several E-RABs for one UE.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
E-RAB Released List 
M

E-RAB List 
9.2.1.36
A value for E-RAB ID shall only be present once in E-RAB Released List IE.
YES
ignore
User Location Information
O

9.2.1.93

YES
ignore
Secondary RAT Usage Report List
O

9.2.1.124

Yes
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.1.3.8	E-RAB MODIFICATION INDICATION
This message is sent by the eNB and is used to request the MME to apply the indicated modification for one or several E-RABs.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
E-RAB to be Modified List

1


YES
reject
>E-RAB to Be Modified Item IEs

1 .. <maxnoofE-RABs>


EACH
reject
>>E-RAB ID
M

9.2.1.2

-

>>Transport Layer Address
M

9.2.2.1

-

>>DL GTP TEID
M

GTP-TEID
9.2.2.2

-

E-RAB not to be Modified List

0..1


YES
reject
>E-RAB not to Be Modified Item IEs

1 .. <maxnoofE-RABs>


EACH
reject
>>E-RAB ID
M

9.2.1.2

-

>>Transport Layer Address
M

9.2.2.1

-

>>DL GTP TEID
M

GTP-TEID
9.2.2.2

-

CSG Membership Info

0..1


YES
reject
>CSG Membership Status
M

9.2.1.73

-

>CSG Id
M

9.2.1.62

-

>Cell Access Mode 
O

9.2.1.74

-

>PLMN Identity
O

9.2.3.8

-

Tunnel Information for BBF
O

Tunnel Information 9.2.2.3
Indicating HeNB’s Local IP Address assigned by the broadband access provider, UDP port Number.
YES
ignore
Secondary RAT Usage Report List
O

9.2.1.124

Yes
ignore
User Location Information
O

9.2.1.93

Yes
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256.

9.1.3.9	E-RAB MODIFICATION CONFIRM
This message is sent by the MME and is used to report the outcome of the request from the E-RAB MODIFICATION INDICATION message.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
E-RAB Modify List

0..1


YES
ignore
>E-RAB Modify Item IEs

1 .. <maxnoofE-RABs>


EACH
ignore
>>E-RAB ID
M

9.2.1.2

-

E-RAB Failed to Modify List
O

E-RAB List
9.2.1.36
A value for E-RAB ID shall only be present once in the E-RAB MODIFICATION CONFIRM message.
YES
ignore
E-RAB To Be Released List
O

E-RAB List 
9.2.1.36
A value for E-RAB ID shall only be present once in the E-RAB MODIFICATION CONFIRM message.
YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore
CSG Membership Status
O

9.2.1.73

YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256.

9.1.4	Context Management Messages
9.1.4.1	INITIAL CONTEXT SETUP REQUEST
This message is sent by the MME to request the setup of a UE context.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
UE Aggregate Maximum Bit Rate
M

9.2.1.20

YES
reject
E-RAB to Be Setup List

1


YES
reject
>E-RAB to Be Setup Item IEs

1 .. <maxnoofE-RABs>


EACH
reject
>>E-RAB ID
M

9.2.1.2

-

>>E-RAB Level QoS Parameters
M

9.2.1.15
Includes necessary QoS parameters.
-

>>Transport Layer Address
M

9.2.2.1

-

>>GTP-TEID
M

9.2.2.2

-

>>NAS-PDU
O

9.2.3.5

-

>>Correlation ID
O

9.2.1.80

YES
ignore
>>SIPTO Correlation ID
O

Correlation ID
9.2.1.80

YES
ignore
>>Bearer Type
O

9.2.1.116

YES
reject
>>Ethernet Type
O

9.2.1.147

YES
ignore
UE Security Capabilities
M

9.2.1.40

YES
reject
Security Key
M

9.2.1.41
The KeNB is provided after the key-generation in the MME, see TS 33.401 [15].
YES
reject
Trace Activation
O

9.2.1.4

YES
ignore
Handover Restriction List
O

9.2.1.22


YES
ignore
UE Radio Capability
O

9.2.1.27

YES
ignore
Subscriber Profile ID for RAT/Frequency priority
O

9.2.1.39

YES
ignore
CS Fallback Indicator
O

9.2.3.21

YES
reject
SRVCC Operation Possible
O

9.2.1.58

YES
ignore
CSG Membership Status
O

9.2.1.73

YES
ignore
Registered LAI
O

9.2.3.1

YES
ignore
GUMMEI
O

9.2.3.9
This IE indicates the MME serving the UE.
YES
ignore
MME UE S1AP ID 2
O

9.2.3.3
This IE indicates the MME UE S1AP ID assigned by the MME.
YES
ignore
Management Based MDT Allowed
O

9.2.1.83

YES
ignore
Management Based MDT PLMN List
O

MDT PLMN List
9.2.1.89

YES
ignore
Additional CS Fallback Indicator
C-ifCSFBhighpriority

9.2.3.37

YES
ignore
Masked IMEISV
O

9.2.3.38

YES
ignore
Expected UE Behaviour
O

9.2.1.96

YES
ignore
ProSe Authorized
O

9.2.1.99

YES
ignore
UE User Plane CIoT Support Indicator
O

9.2.1.113

YES
ignore
V2X Services Authorized
O

9.2.1.120

YES
ignore
UE Sidelink Aggregate Maximum Bit Rate
O

9.2.1.122
This IE applies only if the UE is authorized for V2X services.
YES
ignore
Enhanced Coverage Restricted
O

9.2.1.123

YES
ignore
NR UE Security Capabilities
O

9.2.1.127

YES
ignore
CE-mode-B Restricted
O

9.2.1.129

YES
ignore
Aerial UE subscription information
O

9.2.1.136

YES
ignore
Pending Data Indication
O

9.2.3.55

YES
ignore
Subscription Based UE Differentiation Information
O

9.2.1.140

YES
ignore
Additional RRM Policy Index
O

9.2.1.39a

YES
ignore
IAB Authorized
O

9.2.1.146

YES
ignore
NR V2X Services Authorized
O

9.2.1.148

YES
ignore
NR UE Sidelink Aggregate Maximum Bit Rate
O

9.2.1.149
This IE applies only if the UE is authorized for NR V2X services.
YES
ignore
PC5 QoS Parameters
O

9.2.1.150
This IE applies only if the UE is authorized for NR V2X services.
YES
ignore
UE Radio Capability ID
O

9.2.1.153

YES
reject

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

Condition
Explanation
ifCSFBhighpriority
This IE shall be present if the CS Fallback Indicator IE is set to “CS Fallback High Priority”.

9.1.4.2	Void

9.1.4.3	INITIAL CONTEXT SETUP RESPONSE
This message is sent by the eNB to confirm the setup of a UE context.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
E-RAB Setup List

1


YES
ignore
>E-RAB Setup Item IEs

1 .. <maxnoofE-RABs>


EACH
ignore
>>E-RAB ID
M

9.2.1.2

-

>>Transport Layer Address
M

9.2.2.1

-

>>GTP-TEID
M

9.2.2.2

-

E-RAB Failed to Setup List
O

E-RAB List 
9.2.1.36
A value for E-RAB ID shall only be present once in E-RAB Setup List IE and E-RAB Failed to Setup List IE.
YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.1.4.4	INITIAL CONTEXT SETUP FAILURE
This message is sent by the eNB to indicate that the setup of the UE context was unsuccessful.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Cause
M

9.2.1.3

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.4.5	UE CONTEXT RELEASE REQUEST
This message is sent by the eNB to request the release of the UE-associated S1-logical connection over the S1 interface.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Cause
M

9.2.1.3

YES
ignore
GW Context Release Indication
O

9.2.1.84

YES
reject
Secondary RAT Usage Report List
O

9.2.1.124

Yes
ignore

9.1.4.6	UE CONTEXT RELEASE COMMAND
This message is sent by the MME to request the release of the UE-associated S1-logical connection over the S1 interface.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
CHOICE UE S1AP IDs
M



YES
reject
>UE S1AP ID pair






>>UE S1AP ID pair
M

9.2.3.18



>MME UE S1AP ID






>>MME UE S1AP ID
M

9.2.3.3



Cause
M

9.2.1.3

YES
ignore

9.1.4.7	UE CONTEXT RELEASE COMPLETE
This message is sent by the eNB to confirm the release of the UE-associated S1-logical connection over the S1 interface.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore
User Location Information
O

9.2.1.93

YES
ignore
Information on Recommended Cells and eNBs for Paging
O

9.2.1.105

YES
ignore
Cell Identifier and Coverage Enhancement Level
O

9.2.1.109

YES
ignore
Secondary RAT Usage Report List
O

9.2.1.124

Yes
ignore
Time Since Secondary Node Release
O

9.2.1.143

Yes
ignore

9.1.4.8	UE CONTEXT MODIFICATION REQUEST
This message is sent by the MME to provide UE Context information changes to the eNB.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Security Key
O

9.2.1.41
A fresh KeNB is provided after performing a key-change on the fly procedure in the MME, see TS 33.401 [15].
YES
reject
Subscriber Profile ID for RAT/Frequency priority
O

9.2.1.39

YES
ignore
UE Aggregate Maximum Bit Rate
O

9.2.1.20

YES
ignore
CS Fallback Indicator
O

9.2.3.21

YES
reject
UE Security Capabilities
O

9.2.1.40

YES
reject
CSG Membership Status
O

9.2.1.73

YES
ignore
Registered LAI
O

9.2.3.1

YES
ignore
Additional CS Fallback Indicator
C-ifCSFBhighpriority

9.2.3.37

YES
ignore
ProSe Authorized
O

9.2.1.99

YES
ignore
SRVCC Operation Possible
O

9.2.1.58

YES
ignore
SRVCC Operation Not Possible
O

9.2.1.119

YES
ignore
V2X Services Authorized
O

9.2.1.120

YES
ignore
UE Sidelink Aggregate Maximum Bit Rate
O

9.2.1.122
This IE applies only if the UE is authorized for V2X services.
YES
ignore
NR UE Security Capabilities
O

9.2.1.127

YES
ignore
Aerial UE subscription information
O

9.2.1.136

YES
ignore
Additional RRM Policy Index
O

9.2.1.39a

YES
ignore
IAB Authorized
O

9.2.1.146

YES
ignore
NR V2X Services Authorized
O

9.2.1.148

YES
ignore
NR UE Sidelink Aggregate Maximum Bit Rate
O

9.2.1.149
This IE applies only if the UE is authorized for NR V2X services.
YES
ignore
PC5 QoS Parameters
O

9.2.1.150
This IE applies only if the UE is authorized for NR V2X services.
YES
ignore
UE Radio Capability ID
O

9.2.1.153

YES
reject

Condition
Explanation
ifCSFBhighpriority
This IE shall be present if the CS Fallback Indicator IE is set to “CS Fallback High Priority”.

9.1.4.9	UE CONTEXT MODIFICATION RESPONSE
This message is sent by the eNB to confirm the performed UE context updates.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.4.10	UE CONTEXT MODIFICATION FAILURE
This message is sent by the eNB in case the performed UE context update is not successful.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Cause
M

9.2.1.3

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.4.11	UE RADIO CAPABILITY MATCH REQUEST
This message is sent by the MME to request the compatibility between the UE radio capabilities and network configuration.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
UE Radio Capability
O

9.2.1.27

YES
ignore
UE Radio Capability ID
O

9.2.1.153

YES
reject

9.1.4.12	UE RADIO CAPABILITY MATCH RESPONSE
This message is sent by the eNB to report the compatibility between the UE radio capabilities and network configuration.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Voice Support Match Indicator
M

9.2.1.85

YES
reject
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.4.13	UE CONTEXT MODIFICATION INDICATION
This message is sent by the eNB to request the MME to modify the UE Context information.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
CSG Membership Info

0..1


YES
reject
>CSG Membership Status
M

9.2.1.73

-

>CSG Id
M

9.2.1.62

-

>Cell Access Mode
O

9.2.1.74

-

>PLMN Identity
O

9.2.3.8

-


9.1.4.14	UE CONTEXT MODIFICATION CONFIRM
This message is sent by the MME to confirm the modification of the UE Context information.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
CSG Membership Status
O

9.2.1.73

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.4.15	UE CONTEXT SUSPEND REQUEST
This message is sent by the eNB to request the MME to suspend the UE context and the related bearer contexts.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Information on Recommended Cells and eNBs for Paging
O

9.2.1.105

YES
ignore
Cell Identifier and Coverage Enhancement Level 
O

9.2.1.109

YES
ignore
Secondary RAT Usage Report List
O

9.2.1.124

Yes
ignore
User Location Information
O

9.2.1.93

YES
ignore
Time Since Secondary Node Release
O

9.2.1.143

Yes
ignore

9.1.4.16	UE CONTEXT SUSPEND RESPONSE
This message is sent by the MME to indicate to the eNB the UE context and the related bearer contexts have been suspended.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore
Security Context
O

9.2.1.26

YES
reject

9.1.4.17	UE CONTEXT RESUME REQUEST
This message is sent by the eNB to request the MME to indicate that the suspended RRC connection has been resumed, or the UE accesses for early data transmission.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
E-RAB Failed To Resume List

0..1


YES
reject
>E-RAB Failed To Resume Item IEs

1 .. <maxnoofE-RABs>


EACH
reject
>>E-RAB ID
M

9.2.1.2

-

>>Cause
M

9.2.1.3

-

RRC Resume Cause
O

RRC Establishment Cause
9.2.1.3a

YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.1.4.18	UE CONTEXT RESUME RESPONSE
This message is sent by the MME to indicate to the eNB that the UE context and the related bearer contexts have been resumed in the EPC.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
E-RAB Failed To Resume List

0..1


YES
reject
>E-RAB Failed To Resume Item IEs

1 .. <maxnoofE-RABs>


EACH
reject
>>E-RAB ID
M

9.2.1.2

-

>>Cause
M

9.2.1.3

-

Criticality Diagnostics
O

9.2.1.21

YES
ignore
Security Context
O

9.2.1.26

YES
reject
Pending Data Indication
O

9.2.3.55

YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.1.4.19	UE CONTEXT RESUME FAILURE
This message is sent by the MME to indicate to the eNB that resumption of the UE context and the related bearer contexts has failed in the EPC.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Cause
M

9.2.1.3

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.4.20	CONNECTION ESTABLISHMENT INDICATION
This message is sent by the MME to complete the establishment of the UE-associated logical S1-connection.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
UE Radio Capability
O

9.2.1.27

YES
ignore
Enhanced Coverage Restricted
O

9.2.1.123

YES
ignore
DL CP Security Information
O

9.2.3.49

YES
ignore
CE-Mode-B Restricted
O

9.2.1.129

YES
ignore
End Indication
O

9.2.3.54

YES
ignore
Subscription Based UE Differentiation Information
O

9.2.1.140

YES
ignore
UE Level QoS Parameters
O

E-RAB Level QoS Parameters 9.2.1.15
Includes QoS parameters.
YES
ignore
UE Radio Capability ID
O

9.2.1.153

YES
reject

9.1.4.21	RETRIEVE UE INFORMATION 
The message is sent by the eNB to request UE information over the S1 interface.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
S-TMSI
M

9.2.3.6

YES
reject

9.1.4.22	UE INFORMATION TRANSFER
The message is sent by the MME to transfer UE information over the S1 interface.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
S-TMSI
M

9.2.3.6

YES
reject
UE Level QoS Parameters
O

E-RAB Level QoS Parameters 9.2.1.15
Includes QoS parameters.
YES
ignore
UE Radio Capability
O

9.2.1.27

YES
ignore
Subscription Based UE Differentiation Information
O

9.2.1.140

YES
ignore
Pending Data Indication
O

9.2.3.55

YES
ignore

9.1.4.23	eNB CP RELOCATION INDICATION
This message is sent by the eNB to initiate the establishment of a UE-associated logical S1-connection, following the reception of re-establishment request as described in TS. 36.300 [14].
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
S-TMSI
M

9.2.3.6

YES
reject
E-UTRAN CGI
M

9.2.1.38

YES
ignore
TAI
M

9.2.3.16

YES
ignore
UL CP Security Information
M

9.2.3.50

YES
reject

9.1.4.24	MME CP RELOCATION INDICATION
This message is sent by the MME to inform the eNB that the UE is to be relocated as described in TS. 36.300 [14].
Direction: MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject

9.1.5	Handover Signalling Messages
9.1.5.1	HANDOVER REQUIRED
This message is sent by the source eNB to the MME to request the preparation of resources at the target.
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Handover Type
M

9.2.1.13

YES
reject
Cause
M

9.2.1.3

YES
ignore
Target ID
M

9.2.1.6

YES
reject
Direct Forwarding Path Availability
O

9.2.3.15

YES
ignore
SRVCC HO Indication
O

9.2.1.59

YES
reject
Source to Target Transparent Container
M

9.2.1.56

YES
reject
Source to Target Transparent Container Secondary
O

Source to Target Transparent Container 9.2.1.56

YES
reject
MS Classmark 2
C-
ifSRVCCtoGERAN

9.2.1.64

YES
reject
MS Classmark 3
C-
ifSRVCCtoGERAN

9.2.1.65

YES
ignore
CSG Id
O

9.2.1.62

YES
reject
Cell Access Mode
O

9.2.1.74

YES
reject
PS Service Not Available
O

9.2.1.77

YES
ignore

Condition
Explanation
ifSRVCCtoGERAN
This IE shall be present if the Handover Type IE is set to the “Value” LTEtoGERAN and the SRVCC HO Indication IE is present.

9.1.5.2	HANDOVER COMMAND
This message is sent by the MME to inform the source eNB that resources for the handover have been prepared at the target side.
Direction: MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Handover Type
M

9.2.1.13

YES
reject
NAS Security Parameters from E-UTRAN
C-iftoUTRANGERAN

9.2.3.30
The eNB shall use this IE as specified in TS 33.401 [15].
YES
reject
E-RABs Subject to Forwarding List

0..1


YES
ignore
>E-RABs Subject to Forwarding Item IEs

1 .. <maxnoofE-RABs>


EACH
ignore
>>E-RAB ID
M

9.2.1.2

-

>>DL Transport Layer Address
O

9.2.2.1

-

>>DL GTP-TEID
O

9.2.2.2
To deliver forwarded DL PDCP SDUs.
-

>>UL Transport Layer Address
O

9.2.2.1

-

>>UL GTP-TEID
O

9.2.2.2
To deliver forwarded UL PDCP SDUs.
-

E-RABs to Release List
O

E-RAB List 
9.2.1.36

YES
ignore
Target to Source Transparent Container
M

9.2.1.57

YES
reject
Target to Source Transparent Container Secondary
O

Target to Source Transparent Container 9.2.1.57

YES
reject
Criticality Diagnostics
O

9.2.1.21

YES
ignore

Condition
Explanation
iftoUTRANGERAN
This IE shall be present if the Handover Type IE is set to the value “LTEtoUTRAN “ or “LTEtoGERAN”.

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.

9.1.5.3	HANDOVER PREPARATION FAILURE
This message is sent by the MME to inform the source eNB that the Handover Preparation has failed.
Direction: MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Cause
M

9.2.1.3

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.5.4	HANDOVER REQUEST
This message is sent by the MME to the target eNB to request the preparation of resources.
Direction: MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
Handover Type
M

9.2.1.13

YES
reject
Cause
M

9.2.1.3

YES
ignore
UE Aggregate Maximum Bit Rate
M

9.2.1.20

YES
reject
E-RABs To Be Setup List

1


YES
reject
>E-RABs To Be Setup Item IEs

1 .. <maxnoofE-RABs>


EACH
reject
>>E-RAB ID 
M

9.2.1.2

-

>>Transport Layer Address
M

9.2.2.1

-

>>GTP-TEID
M

9.2.2.2
To deliver UL PDUs.
-

>>E-RAB Level QoS Parameters
M

9.2.1.15
Includes necessary QoS parameters.
-

>>Data Forwarding Not Possible
O

9.2.1.76

YES
ignore
>>Bearer Type
O

9.2.1.116

YES
reject
>>Ethernet Type
O

9.2.1.147

YES
ignore
Source to Target Transparent Container
M

9.2.1.56

YES
reject
UE Security Capabilities
M

9.2.1.40

YES
reject
Handover Restriction List
O

9.2.1.22

YES
ignore
Trace Activation
O

9.2.1.4

YES
ignore
Request Type
O

9.2.1.34

YES
ignore
SRVCC Operation Possible
O

9.2.1.58

YES
ignore
Security Context
M

9.2.1.26

YES
reject
NAS Security Parameters to E-UTRAN
C-iffromUTRANGERAN

9.2.3.31
The eNB shall use this IE as specified in TS 33.401 [15].
YES
reject
CSG Id
O

9.2.1.62

YES
reject
CSG Membership Status
O

9.2.1.73

YES
ignore
GUMMEI
O

9.2.3.9
This IE indicates the MME serving the UE.
YES
ignore
MME UE S1AP ID 2
O

9.2.3.3
This IE indicates the MME UE S1AP ID assigned by the MME.
YES
ignore
Management Based MDT Allowed
O

9.2.1.83

YES
ignore
Management Based MDT PLMN List
O

MDT PLMN List
9.2.1.89

YES
ignore
Masked IMEISV
O

9.2.3.38

YES
ignore
Expected UE Behaviour
O

9.2.1.96

YES
ignore
ProSe Authorized
O

9.2.1.99

YES
ignore
UE User Plane CIoT Support Indicator
O

9.2.1.113

YES
ignore
V2X Services Authorized
O

9.2.1.120

YES
ignore
UE Sidelink Aggregate Maximum Bit Rate
O

9.2.1.122
This IE applies only if the UE is authorized for V2X services.
YES
ignore
Enhanced Coverage Restricted
O

9.2.1.123

YES
ignore
NR UE Security Capabilities
O

9.2.1.127

YES
ignore
CE-mode-B Restricted
O

9.2.1.129

YES
ignore
Aerial UE subscription information
O

9.2.1.136

YES
ignore
Pending Data Indication
O

9.2.3.55

YES
ignore
Subscription Based UE Differentiation Information
O

9.2.1.140

YES
ignore
Additional RRM Policy Index
O

9.2.1.39a

YES
ignore
IAB Authorized
O

9.2.1.146

YES
reject
NR V2X Services Authorized
O

9.2.1.148

YES
ignore
NR UE Sidelink Aggregate Maximum Bit Rate
O

9.2.1.149
This IE applies only if the UE is authorized for NR V2X services.
YES
ignore
PC5 QoS Parameters
O

9.2.1.150
This IE applies only if the UE is authorized for NR V2X services.
YES
ignore
UE Radio Capability ID
O

9.2.1.153

YES
reject

Condition
Explanation
C-iffromUTRANGERAN
This IE shall be present if the Handover Type IE is set to the value “UTRANtoLTE” or “GERANtoLTE”.

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.

9.1.5.5	HANDOVER REQUEST ACKNOWLEDGE
This message is sent by the target eNB to inform the MME about the prepared resources at the target.
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4
Allocated at the target eNB.
YES
ignore
E-RABs Admitted List

1


YES
ignore
>E-RABs Admitted Item IEs

1 .. <maxnoofE-RABs>


EACH
ignore
>>E-RAB ID 
M

9.2.1.2

-

>>Transport Layer Address
M

9.2.2.1

-

>>GTP-TEID
M

9.2.2.2
To deliver DL PDUs.
-

>>DL Transport Layer Address
O

9.2.2.1

-

>>DL GTP-TEID
O

9.2.2.2
To deliver forwarded DL PDCP SDUs.
-

>>UL Transport Layer Address
O

9.2.2.1

-

>>UL GTP-TEID
O

9.2.2.2
To deliver forwarded UL PDCP SDUs.
-

E-RABs Failed to Setup List
O

E-RAB List 
9.2.1.36
A value for E-RAB ID shall only be present once in E-RABs Admitted List IE and E-RABs Failed to Setup List IE.
YES
ignore
Target to Source Transparent Container
M

9.2.1.57

YES
reject
CSG Id
O

9.2.1.62

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore
Cell Access Mode
O

9.2.1.74

YES
ignore
CE-mode-B Support Indicator
O

9.2.1.118

YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.

9.1.5.6	HANDOVER FAILURE
This message is sent by the target eNB to inform the MME that the preparation of resources has failed.
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
Cause
M

9.2.1.3

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.5.7	HANDOVER NOTIFY
This message is sent by the target eNB to inform the MME that the UE has been identified in the target cell and the S1 handover has been completed.
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
E-UTRAN CGI
M

9.2.1.38

YES
ignore
TAI
M

9.2.3.16

YES
ignore
Tunnel Information for BBF
O

Tunnel Information 9.2.2.3
Indicating HeNB’s Local IP Address assigned by the broadband access provider, UDP port Number.
YES
ignore
LHN ID
O

9.2.1.92

YES
ignore
PSCell Information
O

9.2.1.141

YES
ignore
Notify Source eNB
O

ENUMERATED (NotifySource, …)

YES
ignore

9.1.5.8	PATH SWITCH REQUEST
This message is sent by the eNB to request the MME to switch DL GTP tunnel termination point(s) from one end-point to another.
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
E-RAB To Be Switched in Downlink List

1


YES
reject
>E-RABs Switched in Downlink Item IEs

1 .. <maxnoofE-RABs>


EACH
reject
>>E-RAB ID 
M

9.2.1.2

-

>>Transport Layer address
M

9.2.2.1

-

>>GTP-TEID
M

9.2.2.2
To deliver DL PDUs.
-

Source MME UE S1AP ID
M

9.2.3.3

YES
reject
E-UTRAN CGI
M

9.2.1.38

YES
ignore
TAI
M

9.2.3.16

YES
ignore
UE Security Capabilities
M

9.2.1.40

YES
ignore
CSG Id
O

9.2.1.62

YES
ignore
Cell Access Mode
O

9.2.1.74

YES
ignore
Source MME GUMMEI
O

9.2.3.9

YES
ignore
CSG Membership Status
O

9.2.1.73

YES
ignore
Tunnel Information for BBF
O

Tunnel Information 9.2.2.3
Indicating HeNB’s Local IP Address assigned by the broadband access provider, UDP port Number.
YES
ignore
LHN ID
O

9.2.1.92

YES
ignore
RRC Resume Cause
O

RRC Establishment Cause
9.2.1.3a

YES
ignore
NR UE Security Capabilities
O

9.2.1.127

YES
ignore
PSCell Information
O

9.2.1.141

YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.

9.1.5.9	PATH SWITCH REQUEST ACKNOWLEDGE
This message is sent by the MME to inform the eNB that the path switch has been successfully completed in the EPC.
Direction: MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
UE Aggregate Maximum Bit Rate
O

9.2.1.20

YES
ignore
E-RAB To Be Switched in Uplink List

0..1


YES
ignore
>E-RABs Switched in Uplink Item IEs

1 .. <maxnoofE-RABs>


EACH
ignore
>>E-RAB ID
M

9.2.1.2

-

>>Transport Layer Address
M

9.2.2.1

-

>>GTP-TEID
M

9.2.2.2

-

E-RAB To Be Released List
O

E-RAB List 
9.2.1.36
A value for E-RAB ID shall only be present once in E-RAB To Be Switched in Uplink List IE and E-RAB to Be Released List IE.
YES
ignore
Security Context
M

9.2.1.26
One pair of {NCC, NH} is provided.
YES
reject
Criticality Diagnostics
O

9.2.1.21

YES
ignore
MME UE S1AP ID 2
O

9.2.3.3
This IE indicates the MME UE S1AP ID assigned by the MME.
YES
ignore
CSG Membership Status
O

9.2.1.73

YES
ignore
ProSe Authorized
O

9.2.1.99

YES
ignore
UE User Plane CIoT Support Indicator
O

9.2.1.113

YES
ignore
V2X Services Authorized
O

9.2.1.120

YES
ignore
UE Sidelink Aggregate Maximum Bit Rate
O

9.2.1.122
This IE applies only if the UE is authorized for V2X services.
YES
ignore
Enhanced Coverage Restricted
O

9.2.1.123

YES
ignore
NR UE Security Capabilities
O

9.2.1.127

YES
ignore
CE-mode-B Restricted
O

9.2.1.129

YES
ignore
Aerial UE subscription information
O

9.2.1.136

YES
ignore
Pending Data Indication
O

9.2.3.55

YES
ignore
Subscription Based UE Differentiation Information
O

9.2.1.140

YES
ignore
Handover Restriction List
O

9.2.1.22

YES
ignore
Additional RRM Policy Index
O

9.2.1.39a

YES
ignore
NR V2X Services Authorized
O

9.2.1.148

YES
ignore
NR UE Sidelink Aggregate Maximum Bit Rate
O

9.2.1.149
This IE applies only if the UE is authorized for NR V2X services.
YES
ignore
PC5 QoS Parameters
O

9.2.1.150
This IE applies only if the UE is authorized for NR V2X services.
YES
ignore
UE Radio Capability ID
O

9.2.1.153

YES
reject

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.

9.1.5.10	PATH SWITCH REQUEST FAILURE
This message is sent by the MME to inform the eNB that a failure has occurred in the EPC during the Path switch request procedure.
Direction: MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Cause
M

9.2.1.3

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.5.11	HANDOVER CANCEL
This message is sent by the source eNB to the MME to request the cancellation of an ongoing handover.
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Cause
M

9.2.1.3

YES
ignore

9.1.5.12	HANDOVER CANCEL ACKNOWLEDGE
This message is sent by the MME to the source eNB to confirm that the ongoing handover was cancelled.
Direction: MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.5.13	eNB STATUS TRANSFER
This message is sent by the source eNB to transfer the PDCP SN receiver and transmitter status.
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
eNB Status Transfer Transparent Container
M

9.2.1.31

YES
reject

9.1.5.14	MME STATUS TRANSFER
This message is sent by the MME to transfer the PDCP-SN receiver and transmitter status.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
eNB Status Transfer Transparent Container
M

9.2.1.31

YES
reject

9.1.5.15	HANDOVER SUCCESS
This message is sent by the MME to the source eNB to indicate the successful access of the UE toward the target eNB.
Direction: MME source eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore 
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject

9.1.5.16	eNB EARLY STATUS TRANSFER
This message is sent by the source eNB to transfer the COUNT value(s) of the first forwarded downlink SDU(s) during S1 DAPS Handover.
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
eNB Early Status Transfer Transparent Container
M

9.2.1.157

YES
reject

9.1.5.17	MME EARLY STATUS TRANSFER
This message is sent by the MME to transfer the COUNT value(s) of the first forwarded downlink SDU(s) during S1 DAPS Handover.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
eNB Early Status Transfer Transparent Container
M

9.2.1.157

YES
reject

9.1.6	PAGING
This message is sent by the MME and is used to page a UE in one or several tracking areas.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
UE Identity Index value
M

9.2.3.10

YES
ignore
UE Paging Identity
M

9.2.3.13

YES
ignore
Paging DRX
O

9.2.1.16
If the NB-IoT Paging DRX IE is included, the Paging DRX IE is ignored.
YES
ignore
CN Domain
M

9.2.3.22

YES
ignore
List of TAIs

1


YES
ignore
>TAI List Item

1 .. <maxnoofTAIs>


EACH
ignore
>>TAI
M

9.2.3.16

-

CSG Id List

0..1


GLOBAL
ignore
>CSG Id

1 .. <maxnoofCSGId>
9.2.1.62

-

Paging Priority
O

9.2.1.78

YES
ignore
UE Radio Capability for Paging
O

9.2.1.98

YES
ignore
Assistance Data for Paging
O

9.2.1.103

YES
ignore
Paging eDRX Information
O

9.2.1.111

YES
ignore
Extended UE Identity Index Value
O

9.2.3.46

YES
ignore
NB-IoT Paging eDRX Information
O

9.2.1.115

YES
ignore
NB-IoT UE Identity Index value
O

9.2.3.47

YES
ignore
Enhanced Coverage Restricted
O

9.2.1.123

YES
ignore
CE-Mode-B Restricted
O

9.2.1.129

YES
ignore
Data size
O

INTEGER (1..4095, …) 
The unit is: bit
YES
ignore
WUS Assistance Information
O

9.2.1.158

YES
ignore
NB-IoT Paging DRX
O

9.2.1.159x

YES
ignore

Range bound
Explanation
maxnoofTAIs
Maximum no. of TAIs. Value is 256.
maxnoofCSGIds
Maximum no. of CSG Ids within the CSG Id List. Value is 256.

9.1.7	NAS Transport Messages
9.1.7.1	INITIAL UE MESSAGE
This message is sent by the eNB to transfer the initial layer 3 message to the MME over the S1 interface.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
reject
NAS-PDU
M

9.2.3.5

YES
reject
TAI
M

9.2.3.16
Indicating the Tracking Area from which the UE has sent the NAS message.
YES
reject
E-UTRAN CGI
M

9.2.1.38
Indicating the E-UTRAN CGI from which the UE has sent the NAS message.
YES
ignore
RRC Establishment Cause
M

9.2.1.3a

YES
ignore
S-TMSI
O

9.2.3.6

YES
reject
CSG Id
O

9.2.1.62

YES
reject
GUMMEI
O

9.2.3.9

YES
reject
Cell Access Mode
O

9.2.1.74

YES
reject
GW Transport Layer Address
O

Transport Layer Address 9.2.2.1
Indicating GW Transport Layer Address if the GW is collocated with eNB.
YES
ignore
Relay Node Indicator
O

9.2.1.79
Indicating a relay node.
YES
reject
GUMMEI Type
O

ENUMERATED (native, mapped, …, mappedFrom5G)

YES
ignore
Tunnel Information for BBF
O

Tunnel Information 9.2.2.3
Indicating HeNB’s Local IP Address assigned by the broadband access provider, UDP port Number.
YES
ignore
SIPTO L-GW Transport Layer Address
O

Transport Layer Address 9.2.2.1
Indicating SIPTO L-GW Transport Layer Address if the SIPTO L-GW is collocated with eNB.
YES
ignore
LHN ID
O

9.2.1.92

YES
ignore
MME Group ID
O

9.2.3.44

YES
ignore
UE Usage Type
O

INTEGER (0..255)

YES
ignore
CE-mode-B Support Indicator
O

9.2.1.118

YES
ignore
DCN ID
O

INTEGER (0..65535)

YES
ignore
Coverage Level
O

ENUMERATED (extendedcoverage, …)

YES
ignore
UE Application Layer Measurement Capability
O

BIT STRING (SIZE(8))
Each bit in the bitmap indicates an UE Application layer measurement capability, refer to TS 25.331[10].

Bit 0 = QoE Measurement for streaming service

Bit 1 = QoE Measurement for MTSI service

Value ‘1’ indicates “Capable” and value ‘0’ indicates “not Capable”.

Unused bits are reserved for future use.
YES
ignore
EDT Session
O

ENUMERATED (true, …)

YES

IAB Node Indication
O

ENUMERATED (true, ...)
Indication of an IAB-node.
YES
reject

9.1.7.2	DOWNLINK NAS TRANSPORT
This message is sent by the MME and is used for carrying NAS information over the S1 interface.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
NAS-PDU
M

9.2.3.5

YES
reject
Handover Restriction List
O

9.2.1.22

YES
ignore
Subscriber Profile ID for RAT/Frequency priority
O

9.2.1.39

YES
ignore
SRVCC Operation Possible
O

9.2.1.58

YES
ignore
UE Radio Capability
O

9.2.1.27

YES
ignore
DL NAS PDU Delivery Acknowledgment Request 
O

9.2.3.48

YES
ignore
Enhanced Coverage Restricted
O

9.2.1.123

YES
ignore
CE-mode-B Restricted
O

9.2.1.129

YES
ignore
NR UE Security Capabilities
O

9.2.1.127

YES
ignore
UE Capability Info Request
O

9.2.3.51

YES
ignore
End Indication
O

9.2.3.54

YES
ignore
Pending Data Indication
O

9.2.3.55

YES
ignore
Subscription Based UE Differentiation Information
O

9.2.1.140

YES
ignore
Additional RRM Policy Index
O

9.2.1.39a

YES
ignore
UE Radio Capability ID
O

9.2.1.153

YES
reject

9.1.7.3	UPLINK NAS TRANSPORT
This message is sent by the eNB and is used for carrying NAS information over the S1 interface.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
NAS-PDU
M

9.2.3.5

YES
reject
E-UTRAN CGI
M

9.2.1.38

YES
ignore
TAI
M

9.2.3.16

YES
ignore
GW Transport Layer Address
O

Transport Layer Address 9.2.2.1
Indicating GW Transport Layer Address if the GW is collocated with eNB.
YES
ignore
SIPTO L-GW Transport Layer Address
O

Transport Layer Address 9.2.2.1
Indicating SIPTO L-GW Transport Layer Address if the SIPTO L-GW is collocated with eNB.
YES
ignore
LHN ID
O

9.2.1.92

YES
ignore
PSCell Information
O

9.2.1.141

YES
ignore

9.1.7.4	NAS NON DELIVERY INDICATION
This message is sent by the eNB and is used for reporting the non delivery of a NAS PDU previously received within a DOWNLINK NAS TRANSPORT message over the S1 interface.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
NAS-PDU
M

9.2.3.5

YES
ignore
Cause
M

9.2.1.3

YES
ignore

9.1.7.4a	NAS DELIVERY INDICATION
This message is sent by the eNB and is used for reporting the successful delivery of a NAS PDU to the UE that was previously received within a DOWNLINK NAS TRANSPORT message.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject

9.1.7.5	REROUTE NAS REQUEST
This message is sent by the MME in order to request for a rerouting of the INITIAL UE MESSAGE to a DCN.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
MME UE S1AP ID
O

9.2.3.3

YES
ignore
S1 Message
M

OCTET STRING
Contains the INITIAL UE MESSAGE
YES
reject
MME Group ID
M

9.2.3.44

YES
reject
Additional GUTI
O

9.2.3.45

YES
ignore
UE Usage Type
O

INTEGER (0..255)

YES
ignore

9.1.8	Management messages
9.1.8.1	RESET
This message is sent by both the MME and the eNB and is used to request that the S1 interface, or parts of the S1 interface, to be reset.
Direction: MME  eNB and eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Cause
M

9.2.1.3

YES
ignore
CHOICE Reset Type
M



YES
reject
>S1 interface






>>Reset All
M

ENUMERATED (Reset all,…)

-

>Part of S1 interface






>>UE-associated logical S1-connection list

1


-

>>>UE-associated logical S1-connection Item

1 .. <maxnoofIndividualS1ConnectionsToReset>


EACH
reject
>>>>MME UE S1AP ID
O

9.2.3.3

-

>>>>eNB UE S1AP ID
O

9.2.3.4

-


Range bound
Explanation
maxnoofIndividualS1ConnectionsToReset
Maximum no. of UE-associated logical S1-connections allowed to reset in one message. Value is 256.

9.1.8.2	RESET ACKNOWLEDGE
This message is sent by both the MME and the eNB as a response to a RESET message.
Direction: eNB  MME and MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
UE-associated logical S1-connection list

0..1


YES
ignore
>UE-associated logical S1-connection Item

1 .. <maxnoofIndividualS1ConnectionsToReset>


EACH
ignore
>>MME UE S1AP ID
O

9.2.3.3

-

>>eNB UE S1AP ID
O

9.2.3.4

-

Criticality Diagnostics
O

9.2.1.21

YES
ignore

Range bound
Explanation
maxnoofIndividualS1ConnectionsToReset
Maximum no. of UE-associated logical S1-connections allowed to reset in one message. Value is 256.

9.1.8.3	ERROR INDICATION
This message is sent by both the MME and the eNB and is used to indicate that some error has been detected in the node.
Direction: MME  eNB and eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
O

9.2.3.3

YES
ignore
eNB UE S1AP ID
O

9.2.3.4

YES
ignore
Cause
O

9.2.1.3

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore
S-TMSI
O

9.2.3.6

YES
ignore

9.1.8.4	S1 SETUP REQUEST
This message is sent by the eNB to transfer information for a TNL association.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Global eNB ID
M

9.2.1.37

YES
reject
eNB Name
O

PrintableString(SIZE(1..150,…))

YES
ignore
Supported TAs

1..<maxnoofTACs>

Supported TAs in the eNB.
GLOBAL
reject
>TAC
M

9.2.3.7

Broadcast TAC.
-

>Broadcast PLMNs

1..<maxnoofBPLMNs>

Broadcast PLMNs.
-

>>PLMN Identity
M

9.2.3.8



>RAT-Type
O

9.2.1.117
RAT-Type associated with the TAC of the indicated PLMN(s).
YES
reject
Default Paging DRX
M

9.2.1.16

YES
ignore
CSG Id List

0..1


GLOBAL
reject
>CSG Id

1 .. <maxnoofCSGIds>
9.2.1.62



UE Retention Information
O

9.2.1.112

YES
ignore
NB-IoT Default Paging DRX
O

9.2.1.114

YES
ignore
Connected en-gNB List

<0.. maxnoofConnecteden-gNBs>


GLOBAL
ignore
>en-gNB ID
M

BIT STRING (SIZE(22..32))
The MME derives the Global en-gNB ID based on the en-gNB ID IE and the first PLMN Identity in the Supported TAs list for the en-gNB.


>Supported TAs

1..<maxnoofTACs>

Supported (EPS) TAs in the en-gNB.
-

>>Configured TAC
M

TAC
9.2.3.7
This information is used as specified in TS 36.300 [14].
-

>>Broadcast PLMNs

1..<maxnoofBPLMNs>

Broadcast PLMNs.
-

>>>PLMN Identity
M

9.2.3.8




Range bound
Explanation
maxnoofTACs
Maximum no. of TACs. Value is 256.
maxnoofBPLMNs
Maximum no. of Broadcast PLMNs. Value is 6.
maxnoofCSGIds
Maximum no. of CSG Ids within the CSG Id List. Value is 256.
maxnoofConnecteden-gNBs
Maximum no. of en-gNBs connected to the eNB. Value is 256.

9.1.8.5	S1 SETUP RESPONSE
This message is sent by the MME to transfer information for a TNL association.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME Name
O

PrintableString(SIZE(1..150,…))

YES
ignore
Served GUMMEIs

1..<maxnoofRATs>

The LTE related pool configuration is included on the first place in the list.
GLOBAL
reject
>Served PLMNs

1..<maxnoofPLMNsPerMME>


-

>>PLMN Identity
M

9.2.3.8

-

>Served GroupIDs

1..<maxnoofGroupIDs>


-

>>MME Group ID
M

OCTET STRING (SIZE(2))

-

>Served MMECs

1..<maxnoofMMECs>


-

>>MME Code
M

9.2.3.12

-

>GUMMEI Type
O

ENUMERATED (native, mapped, …, mappedFrom5G)

-
ignore
Relative MME Capacity
M

9.2.3.17

YES
ignore
MME Relay Support Indicator
O

9.2.1.82

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore
UE Retention Information
O

9.2.1.112

YES
ignore
Served DCNs

0..<maxnoofDCNs>


GLOBAL
ignore
>Served DCNs Items
M

9.2.1.121

-

IAB Supported
O

ENUMERATED (true, ...)
Indication of support for IAB.
YES
ignore

Range bound
Explanation
maxnoofPLMNsPerMME
Maximum no. of PLMNs per MME. Value is 32.
maxnoofRATs
Maximum no. of RATs. Value is 8.
maxnoofGroupIDs
Maximum no. of GroupIDs per node per RAT. Value is 65535.
maxnoofMMECs
Maximum no. of MMECs per node per RAT. Value is 256.
maxnoofDCNs
Maximum no. of DCNs servered by one MME. Value is 32. 

9.1.8.6	S1 SETUP FAILURE
This message is sent by the MME to indicate S1 Setup failure.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Cause
M

9.2.1.3

YES
ignore
Time to wait
O

9.2.1.61

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.8.7	ENB CONFIGURATION UPDATE
This message is sent by the eNB to transfer updated information for a TNL association.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
eNB Name
O

PrintableString(SIZE(1..150,…))

YES
ignore
Supported TAs

0..<maxnoofTACs>

Supported TAs in the eNB.
GLOBAL
reject
>TAC
M

9.2.3.7
Broadcast TAC.
-

>Broadcast PLMNs

1..<maxnoofBPLMNs>

Broadcast PLMNs.
-

>>PLMN Identity
M

9.2.3.8

-

>RAT-Type
O

9.2.1.117
RAT Type associated with the TAC of the indicated PLMN(s).
YES
reject
CSG Id List

0..1


GLOBAL
reject
>CSG Id

1 .. <maxnoofCSGId>
9.2.1.62

-

Default Paging DRX
O

9.2.1.16

YES
ignore
NB-IoT Default Paging DRX
O

9.2.1.114

YES
ignore
Connected en-gNB To Be Added List

<0.. maxnoofConnecteden-gNBs>


GLOBAL
ignore
>en-gNB ID
M

BIT STRING (SIZE(22..32))
The MME derives the Global en-gNB ID based on the en-gNB ID IE and the first PLMN Identity in the Supported TAs list of the added en-gNB.


>Supported TAs

1..<maxnoofTACs>

Supported TAs in the en-gNB.
-

>>Configured TAC
M

TAC
9.2.3.7


-

>>Broadcast PLMNs

1..<maxnoofBPLMNs>

Broadcast PLMNs.
-

>>>PLMN Identity
M

9.2.3.8



Connected en-gNB To Be Removed List

<0.. maxnoofConnecteden-gNBs>


GLOBAL
ignore
>en-gNB ID
M

BIT STRING (SIZE(22..32))
The MME derives the Global en-gNB ID based on the en-gNB ID IE and the first PLMN Identity in the Supported TAs list of the en-gNB to be removed.


>Supported TAs

1..<maxnoofTACs>

Supported TAs in the en-gNB.
-

>>Configured TAC
M

TAC
9.2.3.7


-

>>Broadcast PLMNs

1..<maxnoofBPLMNs>

Broadcast PLMNs.
-

>>>PLMN Identity
M

9.2.3.8




Range bound
Explanation
maxnoofTACs
Maximum no. of TACs. Value is 256.
maxnoofBPLMNs
Maximum no. of Broadcast PLMNs. Value is 6.
maxnoofCSGIds
Maximum no. of CSG Ids within the CSG Id List. Value is 256.
maxnoofConnecteden-gNBs
Maximum no. of en-gNBs connected to the eNB. Value is 256.

9.1.8.8	ENB CONFIGURATION UPDATE ACKNOWLEDGE
This message is sent by the MME to acknowledge the eNB transfer updated information for a TNL association.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.8.9	ENB CONFIGURATION UPDATE FAILURE
This message is sent by the MME to indicate S1 eNB Configuration Update failure.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Cause
M

9.2.1.3

YES
ignore
Time to wait
O

9.2.1.61

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.8.10	MME CONFIGURATION UPDATE 
This message is sent by the MME to transfer updated information for a TNL association.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
MME Name
O

PrintableString(SIZE(1..150,…))

YES
ignore
Served GUMMEIs

0..<maxnoofRATs>

The LTE related pool configuration is included on the first place in the list.
GLOBAL
reject
>Served PLMNs

1..<maxnoofPLMNsPerMME>


-

>>PLMN Identity
M

9.2.3.8

-

>Served GroupIDs

1..<maxnoofGroupIDs>


-

>>MME GroupID
M

OCTET STRING (SIZE(2))

-

>Served MMECs

1..<maxnoofMMECs>


-

>>MME Code
M

9.2.3.12

-

>GUMMEI Type
O

ENUMERATED (native, mapped, …, mappedFrom5G)

-
ignore
Relative MME Capacity
O

9.2.3.17

YES
reject
Served DCNs

0..<maxnoofDCNs>


GLOBAL
ignore
>Served DCNs Items
M

9.2.1.121

-


Range bound
Explanation
maxnoofPLMNsPerMME
Maximum no. of PLMNs per MME. Value is 32.
maxnoofRATs
Maximum no. of RATs. Value is 8.
maxnoofGroupIDs
Maximum no. of GroupIDs per node per RAT. Value is 65535.
maxnoofMMECs
Maximum no. of MMECs per node per RAT. Value is 256.
maxnoofDCNs
Maximum no. of DCNs servered by one MME. Value is 32.

9.1.8.11	MME CONFIGURATION UPDATE ACKNOWLEDGE
This message is sent by the eNB to acknowledge the MME transfer updated information for a TNL association.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.8.12	MME CONFIGURATION UPDATE FAILURE
This message is sent by the eNB to indicate S1 MME Configuration Update failure.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Cause 
M

9.2.1.3

YES
ignore
Time to wait
O

9.2.1.61

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.8.13	OVERLOAD START
This message is sent by the MME and is used to indicate to the eNB that the MME is overloaded.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
Overload Response
M

9.2.3.19

YES
reject
GUMMEI List

0..1


YES
ignore
>GUMMEI List Item

1..<maxnoofMMECs>


EACH
ignore
>>GUMMEI
M

9.2.3.9

-

Traffic Load Reduction Indication
O

9.2.3.36

YES
ignore

Range bound
Explanation
maxnoofMMECs
Maximum no. of MMECs per node per RAT. Value is 256.

9.1.8.14	OVERLOAD STOP
This message is sent by the MME and is used to indicate that the MME is no longer overloaded.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
GUMMEI List

0..1


YES
ignore
>GUMMEI List Item

1..<maxnoofMMECs>


EACH
ignore
>>GUMMEI
M

9.2.3.9

-


Range bound
Explanation
maxnoofMMECs
Maximum no. of MMECs per node per RAT. Value is 256.

9.1.9	S1 CDMA2000 Tunnelling Messages
9.1.9.1	DOWNLINK S1 CDMA2000 TUNNELLING
This message is sent by the MME and is used for carrying CDMA2000 information over the S1 interface.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
E-RABs Subject to Forwarding List

0..1


YES
ignore
>E-RABs Subject to Forwarding Item IEs

1 .. <maxnoof E-RABs>


EACH
ignore
>>E-RAB ID
M

9.2.1.2

-

>>DL Transport Layer Address
O

9.2.2.1

-

>>DL GTP-TEID
O

9.2.2.2
This IE indicates the tunnel endpoint for forwarding of DL data.
-

>>UL Transport Layer Address
O

9.2.2.1

-

>>UL GTP-TEID
O

9.2.2.2

-

CDMA2000 HO Status
O

9.2.1.28

YES
ignore
CDMA2000 RAT Type
M

9.2.1.24

YES
reject
CDMA2000-PDU
M

9.2.1.23

YES
reject

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.

9.1.9.2	UPLINK S1 CDMA2000 TUNNELLING
This message is sent by the eNB and is used for carrying CDMA2000 information over the S1 interface.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
CDMA2000 RAT Type
M

9.2.1.24

YES
reject
CDMA2000 Sector ID
M

9.2.1.25

YES
reject
CDMA2000 HO Required Indication
O

9.2.1.29

YES
ignore
CDMA2000 1xRTT SRVCC Info
O

9.2.1.35

YES
reject
CDMA2000 1xRTT RAND
O

9.2.1.33

YES
reject
CDMA2000-PDU
M

9.2.1.23

YES
reject
E-UTRAN Round Trip Delay Estimation Info
O

9.2.1.69

YES
ignore

9.1.10	UE CAPABILITY INFO INDICATION
This message is sent by the eNB to provide UE Radio Capability information to the MME.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
UE Radio Capability
M

9.2.1.27

YES
ignore
UE Radio Capability for Paging
O

9.2.1.98

YES
ignore
UE Application Layer Measurement Capability
O

BIT STRING (SIZE(8))
Each bit in the bitmap indicates an UE Application layer measurement capability, refer to TS 25.331[10].

Bit 0 = QoE Measurement for streaming service

Bit 1 = QoE Measurement for MTSI service

Value ‘1’ indicates “Capable” and value ‘0’ indicates “not Capable”.

Unused bits are reserved for future use.
YES
ignore
LTE-M Indication
O

9.2.1.135

YES
ignore
UE Radio Capability – NR Format
O

9.2.1.154

YES
ignore
UE Radio Capability for Paging – NR Format
O

9.2.1.160

YES
ignore

9.1.11	Trace Messages
9.1.11.1	TRACE START
This message is sent by the MME to initiate trace recording for a UE.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Trace Activation
M

9.2.1.4

YES
ignore

9.1.11.2	TRACE FAILURE INDICATION
This message is sent by the eNB to indicate that a Trace Start procedure or a Deactivate Trace procedure has failed for a UE.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
E-UTRAN Trace ID
M

OCTET STRING (SIZE(8))
As per E-UTRAN Trace ID IE in Trace Activation IE (9.2.1.4).
YES
ignore
Cause
M

9.2.1.3

YES
ignore

9.1.11.3	DEACTIVATE TRACE
This message is sent by the MME to deactivate trace.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
E-UTRAN Trace ID
M

OCTET STRING (SIZE(8))
As per E-UTRAN Trace ID IE in Trace Activation IE (9.2.1.4).
YES
ignore

9.1.12	Location Reporting Messages
9.1.12.1	LOCATION REPORTING CONTROL
This message is sent by the MME and is used to request the eNB to report where the UE is currently located.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Request Type
M

9.2.1.34

YES
ignore

9.1.12.2	LOCATION REPORT FAILURE INDICATION
This message is sent by the eNB and is used to indicate the failure of location report.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Cause
M

9.2.1.3

YES
ignore

9.1.12.3	LOCATION REPORT
This message is sent by the eNB and is used to provide the UE’s location to the MME.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
E-UTRAN CGI
M

9.2.1.38

YES
ignore
TAI
M

9.2.3.16

YES
ignore
Request Type
M

9.2.1.34
The Request Type IE is sent as it has been provided.
YES
ignore
PSCell Information
O

9.2.1.141

YES
ignore

9.1.13	Warning Message Transmission Messages
9.1.13.1	WRITE-REPLACE WARNING REQUEST
This message is sent by the MME to request the start or overwrite of the broadcast of a warning message.
Direction: MME  eNB 
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Message Identifier
M

9.2.1.44

YES
reject
Serial Number
M

9.2.1.45

YES
reject
Warning Area List
O

9.2.1.46

YES
ignore
Repetition Period
M

9.2.1.48

YES
reject
Extended Repetition Period
O

9.2.1.75

YES
reject
Number of Broadcasts Requested
M

9.2.1.49

YES
reject
Warning Type
O

9.2.1.50

YES
ignore
Warning Security Information
O

9.2.1.51
See TS 23.041 [29].
YES
ignore
Data Coding Scheme
O

9.2.1.52

YES
ignore
Warning Message Contents
O

9.2.1.53

YES
ignore
Concurrent Warning Message Indicator
O

9.2.1.72

YES
reject
Warning Area Coordinates
O

9.2.1.139

YES
ignore

9.1.13.2	WRITE-REPLACE WARNING RESPONSE
This message is sent by the eNB to acknowledge the MME on the start or overwrite request of a warning message.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Message Identifier
M

9.2.1.44

YES
reject
Serial Number
M

9.2.1.45

YES
reject
Broadcast Completed Area List
O

9.2.1.54

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.13.3	KILL REQUEST
This message is forwarded by the MME to eNB to cancel an already ongoing broadcast of a warning message
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Message Identifier
M

9.2.1.44

YES
reject
Serial Number
M

9.2.1.45

YES
reject
Warning Area List
O

9.2.1.46

YES
ignore
Kill-all Warning Messages Indicator
O

9.2.1.91

YES
reject

9.1.13.4	KILL RESPONSE
This message is sent by the eNB to indicate the list of warning areas where cancellation of the broadcast of the identified message was successful and unsuccessful.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
Message Identifier
M

9.2.1.44

YES
reject
Serial Number
M

9.2.1.45

YES
reject
Broadcast Cancelled Area List
O

9.2.1.70

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.1.13.5	PWS RESTART INDICATION
This message is sent by the eNB to inform the MME that PWS information for some or all cells of the eNB are available for reloading from the CBC if needed.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
E-CGI List for Restart

1..<maxnoofCellsforRestart>


EACH 
reject
>E-CGI
M

9.2.1.38

-
-
Global eNB ID
M

9.2.1.37

YES
reject
TAI List for Restart

1 .. <maxnoofRestartTAIs>


EACH
reject
>TAI
M

9.2.3.16

-
-
Emergency Area ID List for Restart

0 .. <maxnoofRestartEmergencyAreaIDs>


EACH
reject
>Emergency Area ID
M

9.2.1.47

-
-

Range bound
Explanation
maxnoofCellsforRestart
Maximum no. of Cell ID subject for reloading warning messages broadcast. Value is 256.
maxnoofRestartTAIs
Maximum no. of TAI subject for reloading warning message broadcast. Value is 2048.
maxnoofRestartEmergencyAreaID
Maximum no. of Emergency Area ID subject for reloading warning message broadcast. Value is 256.

9.1.13.6	PWS FAILURE INDICATION
This message is sent by the eNB to inform the MME that ongoing PWS operation for one or more cells of the eNB has failed.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
PWS failed E-CGI List

1..<maxnoofCellsineNB>


EACH 
reject
>E-CGI
M

9.2.1.38

-
-
Global eNB ID
M

9.2.1.37

YES
reject

Range bound
Explanation
maxnoofCellsineNB
Maximum no. of cells that can be served by an eNB. Value is 256.

9.1.14	eNB DIRECT INFORMATION TRANSFER
This message is sent by the eNB in order to transfer specific information.
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
Inter-system Information Transfer Type
M

9.2.1.55

YES
reject

9.1.15	MME DIRECT INFORMATION TRANSFER
This message is sent by the MME in order to transfer specific information.
Direction: MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
Inter-system Information Transfer Type
M

9.2.1.55

YES
reject

9.1.16	eNB CONFIGURATION TRANSFER
This message is sent by the eNB in order to transfer RAN configuration information.
Direction: eNB  MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
SON Configuration Transfer
O

9.2.3.26

YES
ignore
EN-DC SON Configuration Transfer
O

9.2.3.26a

YES
ignore
Inter-system SON Configuration Transfer
O

OCTET STRING
Contains the Inter-system SON Configuration Transfer IE as defined in TS 38.413 [44].
YES
ignore

9.1.17	MME CONFIGURATION TRANSFER
This message is sent by the MME in order to transfer RAN configuration information.
Direction: MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
SON Configuration Transfer
O

9.2.3.26

YES
ignore
EN-DC SON Configuration Transfer
O

9.2.3.26a

YES
ignore
Inter-system SON Configuration Transfer
O

OCTET STRING
Contains the Inter-system SON Configuration Transfer IE as defined in TS 38.413 [44].
YES
ignore

9.1.18	CELL TRAFFIC TRACE
This message is sent by eNB to transfer specific information.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
E-UTRAN Trace ID
M

OCTET STRING (SIZE(8))
The E-UTRAN Trace ID IE is composed of the following: Trace Reference defined in TS 32.422 [10] (leftmost 6 octets, with PLMN information coded as in 9.2.3.8), and
Trace Recording Session Reference defined in TS 32.422 [10] (last 2 octets).
YES
ignore
E-UTRAN CGI
M

9.2.1.38

YES
ignore
Trace Collection Entity IP Address
M

Transport Layer Address 9.2.2.1
Defined in TS 32.422 [10]
YES
ignore
Privacy Indicator
O

ENUMERATED (Immediate MDT, Logged MDT, ...)

YES
ignore

9.1.19	LPPa Transport Messages
9.1.19.1	DOWNLINK UE ASSOCIATED LPPA TRANSPORT
This message is sent by the MME and is used for carrying LPPa message over the S1 interface.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Routing ID
M

9.2.3.33

YES
reject
LPPa-PDU
M

9.2.3.32

YES
reject

9.1.19.2	UPLINK UE ASSOCIATED LPPA TRANSPORT
This message is sent by the eNB and is used for carrying LPPa message over the S1 interface.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
reject
eNB UE S1AP ID
M

9.2.3.4

YES
reject
Routing ID
M

9.2.3.33

YES
reject
LPPa-PDU
M

9.2.3.32

YES
reject

9.1.19.3	DOWNLINK NON UE ASSOCIATED LPPA TRANSPORT
This message is sent by the MME and is used for carrying LPPa message over the S1 interface.
Direction: MME  eNB
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
Routing ID
M

9.2.3.33

YES
reject
LPPa-PDU
M

9.2.3.32

YES
reject

9.1.19.4	UPLINK NON UE ASSOCIATED LPPA TRANSPORT
This message is sent by the eNB and is used for carrying LPPa message over the S1 interface.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
Routing ID
M

9.2.3.33

YES
reject
LPPa-PDU
M

9.2.3.32

YES
reject

9.1.20	Secondary RAT Report Data Usage Messages
9.1.20.1	SECONDARY RAT DATA USAGE REPORT
This message is sent by the eNB to report Secondary RAT data usage.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
ignore
MME UE S1AP ID
M

9.2.3.3

YES
ignore
eNB UE S1AP ID
M

9.2.3.4

YES
ignore
Secondary RAT Usage Report list
M

9.2.1.124

YES
ignore
Handover Flag
O

9.2.1.125

YES
ignore
User Location Information
O

9.2.1.93

YES
ignore
Time Since Secondary Node Release
O

9.2.1.143

Yes
ignore

9.1.21	UE Radio Capability ID Mapping Messages
9.1.21.1	UE RADIO CAPABILITY ID MAPPING REQUEST
This message is sent by the eNB and is used to request the UE Radio Capability information that maps to a specific UE Radio Capability ID.
Direction: eNB  MME
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
UE Radio Capability ID
M

9.2.1.153

YES
reject

9.1.21.2	UE RADIO CAPABILITY ID MAPPING RESPONSE
This message is sent by the MME and is used to provide the UE Radio Capability information that maps to a specific UE Radio Capability ID indicated in the UE RADIO CAPABILITY ID MAPPING REQUEST message.
Direction: MME  eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Message Type
M

9.2.1.1

YES
reject
UE Radio Capability ID
M

9.2.1.153

YES
reject
UE Radio Capability
M

9.2.1.27

YES
ignore
Criticality Diagnostics
O

9.2.1.21

YES
ignore

9.2	Information Element Definitions
9.2.0	General
Subclause 9.2 presents the S1AP IE definitions 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 9.2 and the ASN.1 definition, the ASN.1 shall take precedence, except for the definition of conditions for the presence of conditional elements, where the tabular format shall take precedence. 
The messages have been defined in accordance to the guidelines specified in TR 25.921 [40].
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	Radio Network Layer Related IEs
9.2.1.1	Message Type
The Message Type IE uniquely identifies the message being sent. It is mandatory for all messages.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Message Type




>Procedure Code
M

INTEGER (0..255)

>Type of Message
M

CHOICE (Initiating Message, Successful Outcome, Unsuccessful Outcome, …)


9.2.1.2	E-RAB ID
This element uniquely identifies a radio access bearer for a particular UE, which makes the E-RAB ID unique over one S1 connection. The E-RAB ID shall remain the same for the duration of the E-RAB even if the UE-associated logical S1-connection is released or moved using S1 handover.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
E-RAB ID
M

INTEGER (0..15, …)



9.2.1.3	Cause
The purpose of the Cause IE is to indicate the reason for a particular event for the S1AP 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
(Unspecified,
TX2RELOCOverall Expiry, 
Successful Handover,
Release due to E-UTRAN Generated Reason, 
Handover Cancelled, Partial Handover, Handover Failure In Target EPC/eNB Or Target System,
Handover Target not allowed,
TS1RELOCoverall Expiry,
TS1RELOCprep Expiry,
Cell not available,
Unknown Target ID,
No Radio Resources Available in Target Cell, Unknown or already allocated MME UE S1AP ID,
Unknown or already allocated eNB UE S1AP ID,
Unknown or inconsistent pair of UE S1AP ID, Handover desirable for radio reasons,
Time critical handover,
Resource optimisation handover,
Reduce load in serving cell, User inactivity,
Radio Connection With UE Lost, Load Balancing TAU Required, CS Fallback Triggered,
UE Not Available For PS Service, Radio resources not available,
Failure in the Radio Interface Procedure, 
Invalid QoS combination, Inter-RAT redirection,
Interaction with other procedure, Unknown E-RAB ID, Multiple E-RAB ID instances, Encryption and/or integrity protection algorithms not supported, S1 intra system Handover triggered, S1 inter system Handover triggered, X2 Handover triggered
…,
Redirection towards 1xRTT,
Not supported QCI value,
invalid CSG Id,
Release due to Pre-Emption,
N26 interface not available, Insufficient UE Capabilities, Maximum bearer pre-emption rate exceeded)

>Transport Layer




>>Transport Layer Cause
M

ENUMERATED
(Transport Resource Unavailable,
Unspecified,
…)

>NAS




>>NAS Cause
M

ENUMERATED (Normal Release,
Authentication failure,
Detach,
Unspecified, 
…,
CSG Subscription Expiry)

>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,
Abstract Syntax Error (Falsely Constructed Message), Unspecified, …)

>Misc




>>Miscellaneous Cause
M

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


The meaning of the different cause values is described in the following table. In general, “not supported” cause values indicate that the related capability is missing. On the other hand, “not available” cause values indicate that the related capability is present, but insufficient resources were available to perform the requested action.
Radio Network Layer cause
Meaning
Unspecified
Sent for radio network layer cause when none of the specified cause values applies.
TX2RELOCOverall Expiry 
The timer guarding the handover that takes place over X2 has abnormally expired.
Successful Handover
Successful handover.
Release due to E-UTRAN generated reason
Release is initiated due to E-UTRAN generated reason.
Handover Cancelled
The reason for the action is cancellation of Handover.
Partial Handover
Provides a reason for the handover cancellation. The HANDOVER COMMAND message from MME contained E-RABs to Release List IE and the source eNB estimated service continuity for the UE would be better by not proceeding with handover towards this particular target eNB.
Handover Failure In Target EPC/eNB Or Target System
The handover failed due to a failure in target EPC/eNB or target system.
Handover Target not allowed
Handover to the indicated target cell is not allowed for the UE in question.
TS1RELOCoverall Expiry
The reason for the action is expiry of timer TS1RELOCoverall.
TS1RELOCprep Expiry
Handover Preparation procedure is cancelled when timer TS1RELOCprep expires.
Cell not available
The concerned cell is not available.
Unknown Target ID
Handover rejected because the target ID is not known to the EPC.
No radio resources available in target cell
Load on target cell is too high.
Unknown or already allocated MME UE S1AP ID
The action failed because the MME UE S1AP ID is either unknown, or (for a first message received at the eNB) is known and already allocated to an existing context.
Unknown or already allocated eNB UE S1AP ID
The action failed because the eNB UE S1AP ID is either unknown, or (for a first message received at the MME) is known and already allocated to an existing context.
Unknown or inconsistent pair of UE S1AP ID
The action failed because both UE S1AP IDs are unknown, or are known but do not define a single UE context.
Handover Desirable for Radio Reasons
The reason for requesting handover is radio related.
Time Critical Handover
Handover 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 handover is not performed.
Resource Optimisation Handover
The reason for requesting handover is to improve the load distribution with the neighbour cells.
Reduce Load in Serving Cell
Load on serving cell needs to be reduced. When applied to handover preparation, it indicates the handover is triggered due to load balancing.
User Inactivity
The action is requested due to user inactivity on all E-RABs, e.g., S1 is requested to be released in order to optimise the radio resources.
Radio Connection With UE Lost
The action is requested due to losing the radio connection to the UE.
Load Balancing TAU Required
The action is requested for all load balancing and offload cases in the MME.
CS Fallback triggered
The action is due to a CS fallback that has been triggered. When it is included in UE CONTEXT RELEASE REQUEST message, it indicates the PS service suspension is not required in the EPC.
UE Not Available for PS Service
The action is requested due to a CS fallback to GERAN that has been triggered.
When it is included in the UE CONTEXT RELEASE REQUEST message, it indicates that the PS service suspension is required in the EPC due to the target GERAN cell or the UE has no DTM capability.
Radio resources not available
No requested radio resources are available.
Invalid QoS combination
The action was failed because of invalid QoS combination. 
Inter-RAT Redirection
The release is requested due to inter-RAT redirection or intra-LTE redirection. When it is included in UE CONTEXT RELEASE REQUEST message, the behaviour of the EPC is specified in TS 23.401 [11].
Failure in the Radio Interface Procedure
Radio interface procedure has failed.
Interaction with other procedure
The action is due to an ongoing interaction with another procedure.
Unknown E-RAB ID
The action failed because the E-RAB ID is unknown in the eNB.
Multiple E-RAB ID Instances
The action failed because multiple instance of the same E-RAB had been provided to the eNB.
Encryption and/or integrity protection algorithms not supported
The eNB is unable to support any of the encryption and/or integrity protection algorithms supported by the UE.
S1 Intra system Handover triggered
The action is due to a S1 intra system handover that has been triggered.
S1 Inter system Handover triggered
The action is due to a S1 inter system handover that has been triggered.
X2 Handover triggered
The action is due to an X2 handover that has been triggered.
Redirection towards 1xRTT
The release of the UE-associated logical S1 connection is requested due to redirection towards a 1xRTT system e.g., CS fallback to 1xRTT, or SRVCC to 1xRTT, when the PS service suspension is required in the EPC. During this procedure, the radio interface message might but need not include redirection information.
Not supported QCI Value
The E-RAB setup failed because the requested QCI is not supported.
Invalid CSG Id
The CSG ID provided to the target eNB was found invalid.
Release due to Pre-Emption
Release is initiated due to pre-emption.
N26 interface not available
The action failed due to a temporary failure of the N26 interface.
Insufficient UE Capabilities
The procedure can’t proceed due to insufficient UE capabilities.
Maximum bearer pre-emption rate exceeded 
The procedure can’t proceed because the number of requests exceed the maximum bearer pre-emption rate.

Transport 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.

NAS cause
Meaning
Normal Release
The release is normal.
Authentication Failure
The action is due to authentication failure.
Detach
The action is due to detach.
Unspecified
Sent when none of the above cause values applies but still the cause is NAS related.
CSG Subscription Expiry
The action is due to the UE becoming a non-member of the currently used CSG.

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

Miscellaneous cause
Meaning
Control Processing Overload
Control processing overload.
Not Enough User Plane Processing Resources Available
No enough resources are available related to user plane processing.
Hardware Failure
Action related to hardware failure.
O&M Intervention
The action is due to O&M intervention.
Unspecified Failure
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, NAS or Protocol.
Unknown PLMN
The MME does not identify any PLMN provided by the eNB.

9.2.1.3a	RRC Establishment Cause
The purpose of the RRC Establishment Cause IE is to indicate to the MME the reason for RRC Connection Establishment or RRC Connection Resume as received from the UE in the EstablishmentCause, EstablishmentCause-NB or ResumeCause defined in TS 36.331 [16].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
RRC Establishment Cause
M

ENUMERATED(emergency,
highPriorityAccess,
mt-Access,
mo-Signalling,
mo-Data, …,delayTolerantAccess, mo-VoiceCall, mo-ExceptionData)


9.2.1.4	Trace Activation
Defines parameters related to a trace activation.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
E-UTRAN Trace ID
M

OCTET STRING (SIZE(8))
The E-UTRAN Trace ID IE is composed of the following: Trace Reference defined in TS 32.422 [10] (leftmost 6 octets, with PLMN information coded as in 9.2.3.8), and
Trace Recording Session Reference defined in TS 32.422 [10] (last 2 octets).


Interfaces To Trace
M

BIT STRING (SIZE(8))
Each position in the bitmap represents an eNB or en-gNB interface:
first bit =S1-MME, second bit =X2, third bit =Uu, fourth bit =F1-C, fifth bit =E1:
other bits reserved for future use. Value ‘1’ indicates ‘should be traced’. Value ‘0’ indicates ‘should not be traced’.


Trace depth
M

ENUMERATED(
minimum, medium, maximum, MinimumWithoutVendorSpecificExtension,
MediumWithoutVendorSpecificExtension,
MaximumWithoutVendorSpecificExtension, …)
Defined in TS 32.422 [10].


Trace Collection Entity IP Address
M

Transport Layer Address 9.2.2.1
For File based Reporting.  Defined in TS 32.422 [10].
This IE is ignored if the Trace Collection Entity URI IE is present


MDT Configuration
O

9.2.1.81

YES
ignore
UE Application layer measurement configuration
O

9.2.1.128

YES
Ignore
MDT Configuration NR
O

OCTET STRING
Defined in TS 38.413 [44]. Only the immediate MDT configurations are included in the IE in this version of the specification.
YES
ignore
Trace Collection Entity URI
O

URI 
9.2.2.4
For Streaming based Reporting.
Defined in TS 32.422 [10]
Replaces Trace Collection Entity IP Address if present
YES
ignore

9.2.1.5	Source ID
Void.
9.2.1.6	Target ID
The Target ID IE identifies the target for the handover. The target ID may be, e.g., the target Global eNB-ID (for intra SAE/LTE), the RNC-ID (for SAE/LTE-UMTS handover) or the Cell Global ID of the handover target (in case of SAE/LTE to GERAN A/Gb mode handover).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
CHOICE Target ID
M



-
-
>Target eNB-ID




-
-
>>Global eNB ID
M

9.2.1.37

-
-
>>Selected TAI
M

TAI
9.2.3.16

-
-
>Target RNC-ID




-
-
>>LAI
M

9.2.3.1

-
-
>>RAC
O

9.2.3.2

-
-
>>RNC-ID
M

INTEGER (0..4095)
If the Extended RNC-ID IE is included in the Target ID IE, the RNC-ID IE shall be ignored.
-
-
>>Extended RNC-ID
O

9.2.1.14
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.
-
-
>CGI




-
-
>>PLMN Identity
M

9.2.3.8

-
-
>>LAC
M

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

OCTET STRING (SIZE(2))

-
-
>>RAC
O

9.2.3.2

-
-
>Target NG-RAN Node ID




-
-
>>Global RAN Node ID
M

9.2.1.131

-
-
>>Selected TAI
M

5GS TAI
9.2.3.52

-
-

9.2.1.7	Source eNB to Target eNB Transparent Container
The Source eNB to target eNB Transparent Container IE is an information element that is produced by the source eNB and is transmitted to the target eNB. For inter-system handovers to E-UTRAN, the IE is transmitted from the external handover source to the target eNB.
This IE is transparent to the EPC.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality

RRC Container
M

OCTET STRING
Includes the RRC Handover Preparation Information message as defined in subclause 10.2.2 of TS 36.331 [16].
-


E-RABs Information List

0..1


-


>E-RABs Information Item

1 .. <maxnoof E-RABs>


EACH
ignore

>>E-RAB ID
M

9.2.1.2

-


>>DL Forwarding
O

9.2.3.14

-


>>DAPS Request Information
O

9.2.1.155

YES
ignore

>>Source Transport Layer Address
O

9.2.2.1
Identifies the TNL address used by the sending node for direct data forwarding
towards the target eNB
YES
ignore

>>Source Node Transport Layer Address
O

9.2.2.1
Identifies the TNL address used by the source SN node for direct data forwarding
towards the target eNB
YES
ignore

Target Cell ID
M

E-UTRAN CGI
9.2.1.38

-


Subscriber Profile ID for RAT/Frequency priority
O

9.2.1.39

-


UE History Information
M

9.2.1.42

-


Mobility Information
O

BIT STRING (SIZE (32))
Information related to the handover; the external handover source provides it in order to enable later analysis of the conditions that led to a wrong HO.
YES
ignore

UE History Information from the UE
O

OCTET STRING
VisitedCellInfoList contained in the UEInformationResponse message (TS 36.331 [16])
YES
ignore

IMS voice EPS fallback from 5G
O

ENUMERATED (true, …)

YES
ignore

Additional RRM Policy Index
O

9.2.1.39a

YES
ignore

UE Context Reference at Source
O

9.2.1.144

YES
ignore


Inter-system measurement Configuration
O

9.2.1.151

YES
ignore

Source Node ID
O

9.2.1.152

YES
ignore

Emergency Indicator
O

ENUMERATED (true, …)
Indicates an emergency EPS voice fallback
YES
ignore

Direct Forwarding Path Availability
O

9.2.3.15
Indicates whether a direct forwarding path between the source RAN node and the target eNB is available
YES
ignore

Source SN ID
O

Global RAN Node ID
9.2.1.131

YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.

9.2.1.8	Target eNB to Source eNB Transparent Container
The Target eNB to Source eNB Transparent Container IE is an information element that is produced by the target eNB and is transmitted to the source eNB. For inter-system handovers to E-UTRAN, the IE is transmitted from the target eNB to the external relocation source.
This IE is transparent to EPC.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
RRC Container
M

OCTET STRING
Includes the RRC E-UTRA Handover Command message as defined in subclause 10.2.2 of TS 36.331 [16].
-

DAPS Response Information List

0..1


YES
ignore
>DAPS Response Information Item

1 .. <maxnoofE-RABs>


EACH
ignore
>>E-RAB ID
M

9.2.1.2

-

>>DAPS Response Information
M

9.2.1.156
Indicates the response to a requested DAPS Handover
-

Direct Forwarding Path Availability
O

9.2.3.15
Indicates whether a direct forwarding path between the source SN and the target eNB is available for intra-system and inter-system handover with 5GS
YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.

9.2.1.9	Source RNC to Target RNC Transparent Container
This IE is used to transparently pass radio related information between the handover source and the handover target through the EPC. This container is used for inter 3GPP RAT handovers from SAE/LTE to UTRAN.
This IE defined in TS 25.413 [19].
9.2.1.10	Target RNC to Source RNC Transparent Container
This container is used to transparently pass radio related information between the handover target and the handover source through the EPC. This container is used inter 3GPP RAT handovers from SAE/LTE to UTRAN.
This IE defined in TS 25.413 [19].
9.2.1.11	Source BSS to Target BSS Transparent Container
This container is used to transparently pass radio related information between the handover source and the handover target through the EPC. This container is used for inter 3GPP RAT handovers from SAE/LTE to GERAN A/Gb mode.
This IE is defined in TS 48.018 [18].
9.2.1.12	Target BSS to Source BSS Transparent Container
This container is used to transparently pass radio related information between the handover source and the handover target through the EPC. This container is used for inter 3GPP RAT handovers from SAE/LTE to GERAN A/Gb mode.
This IE is defined in TS 48.018 [18].
9.2.1.13	Handover Type
This IE indicates which kind of handover was triggered in the source side.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Handover Type
M

ENUMERATED (IntraLTE, LTEtoUTRAN, LTEtoGERAN, UTRANtoLTE, GERANtoLTE, 
EPSto5GS,
5GStoEPS
)


9.2.1.14	Extended RNC-ID
The Extended RNC-ID is used to identify an RNC.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Extended RNC-ID
M

INTEGER (4096..65535)
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.

9.2.1.15	E-RAB Level QoS Parameters
This IE defines the QoS to be applied to an E-RAB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
E-RAB Level QoS Parameters




>QCI
M

INTEGER (0..255)
QoS Class Identifier defined in TS 23.401 [11].
Coding specified in TS 23.203 [13].
>Allocation and Retention Priority
M

9.2.1.60

>GBR QoS Information
O

9.2.1.18
This IE applies to GBR bearers only and shall be ignored otherwise.
>Downlink Maximum Packet Loss Rate
O

Packet Loss Rate
9.2.1.130
This IE applies only to bearers with specific QCI (see TS 23.401 [11]) and indicates the maximum rate for lost packets that can be tolerated in the downlink direction as specified in TS 23.401 [11].
>Uplink Maximum Packet Loss Rate
O

Packet Loss Rate
9.2.1.130
This IE applies only to bearers with specific QCI (see TS 23.401 [11]) and indicates the maximum rate for lost packets that can be tolerated in the uplilnk direction as specified in TS 23.401 [11].

9.2.1.16	Paging DRX
This IE indicates the Paging DRX as defined in TS 36.304 [20].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Paging DRX
M

ENUMERATED(32, 64, 128, 256, …)

-


9.2.1.17	Paging Cause
Void.
9.2.1.18	GBR QoS Information
This IE indicates the maximum and guaranteed bit rates of a GBR bearer for downlink and uplink.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
E-RAB Maximum Bit Rate Downlink
M

Bit Rate 9.2.1.19
Desc.: This IE indicates the maximum downlink E-RAB Bit Rate as specified in TS 23.401 [11] for this bearer.
If the Extended E-RAB Maximum Bit Rate Downlink IE is included, the E-RAB Maximum Bit Rate Downlink IE shall be ignored.
E-RAB Maximum Bit Rate Uplink
M

Bit Rate 9.2.1.19
Desc.: This IE indicates the maximum uplink E-RAB Bit Rate as specified in TS 23.401 [11] for this bearer.
If the Extended E-RAB Maximum Bit Rate Uplink IE is included, the E-RAB Maximum Bit Rate Uplink IE shall be ignored.
E-RAB Guaranteed Bit Rate Downlink
M

Bit Rate 9.2.1.19
Desc.: This IE indicates the downlink guaranteed E-RAB Bit Rate as specified in TS 23.401 [11] (provided that there is data to deliver) for this bearer.
If the Extended E-RAB Guaranteed Bit Rate Downlink IE is included, the E-RAB Guaranteed Bit Rate Downlink IE shall be ignored.
E-RAB Guaranteed Bit Rate Uplink
M

Bit Rate 9.2.1.19
Desc.: This IE indicates the uplink guaranteed E-RAB Bit Rate as specified in TS 23.401 [11] (provided that there is data to deliver) for this bearer.
If the Extended E-RAB Guaranteed Bit Rate Uplink IE is included, the E-RAB Guaranteed Bit Rate Uplink IE shall be ignored.
Extended E-RAB Maximum Bit Rate Downlink
O

Extended Bit Rate 9.2.1.126
Desc.: This IE indicates the maximum downlink E-RAB Bit Rate as specified in TS 23.401 [11] for this bearer.
Extended E-RAB Maximum Bit Rate Uplink
O

Extended Bit Rate 9.2.1.126
Desc.: This IE indicates the maximum uplink E-RAB Bit Rate as specified in TS 23.401 [11] for this bearer.
Extended E-RAB Guaranteed Bit Rate Downlink
O

Extended Bit Rate 9.2.1.126
Desc.: This IE indicates the downlink guaranteed E-RAB Bit Rate as specified in TS 23.401 [11] (provided that there is data to deliver) for this bearer.
Extended E-RAB Guaranteed Bit Rate Uplink
O

Extended Bit Rate 9.2.1.126
Desc.: This IE indicates the uplink guaranteed E-RAB Bit Rate as specified in TS 23.401 [11] (provided that there is data to deliver) for this bearer.

9.2.1.19	Bit Rate
This IE indicates the number of bits delivered by E-UTRAN in UL or to E-UTRAN in DL or by UE in sidelink within a period of time, divided by the duration of the period. It is used, for example, to indicate the maximum or guaranteed bit rate for a GBR bearer, or an aggregated maximum bit rate.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Bit Rate


INTEGER (0..10,000,000,000)
The unit is: bit/s.

9.2.1.20	UE Aggregate Maximum Bit Rate
The UE Aggregate Maximum Bitrate is applicable for all Non-GBR bearers per UE which is defined for the Downlink and the Uplink direction and provided by the MME to the eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
UE Aggregate Maximum Bit Rate



Applicable for non-GBR E-RABs.
>UE Aggregate Maximum Bit Rate Downlink
M

Bit Rate 9.2.1.19
This IE indicates the UE Aggregate Maximum Bit Rate as specified in TS 23.401 [11] in the downlink direction.
If the Extended UE Aggregate Maximum Bit Rate Downlink IE is included, the UE Aggregate Maximum Bit Rate Downlink IE shall be ignored.
>UE Aggregate Maximum Bit Rate Uplink
M

Bit Rate 9.2.1.19
This IE indicates the UE Aggregate Maximum Bit Rate as specified in TS 23.401 [11] in the uplink direction. Receiving both the UE Aggregate Maximum Bit Rate Downlink IE and the UE Aggregate Maximum Bit Rate Uplink IE equal to value zero shall be considered as a logical error by the eNB.
If the Extended UE Aggregate Maximum Bit Rate Uplink IE is included, the UE Aggregate Maximum Bit Rate Uplink IE shall be ignored.
>Extended UE Aggregate Maximum Bit Rate Downlink
O

Extended Bit Rate 9.2.1.126
This IE indicates the UE Aggregate Maximum Bit Rate as specified in TS 23.401 [11] in the downlink direction.
>Extended UE Aggregate Maximum Bit Rate Uplink
O

Extended Bit Rate 9.2.1.126
This IE indicates the UE Aggregate Maximum Bit Rate as specified in TS 23.401 [11] in the uplink direction. 

9.2.1.21	Criticality Diagnostics
The Criticality Diagnostics IE is sent by the eNB or the MME 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 were not comprehended or were missing.
For further details on how to use the Criticality Diagnostics IE, (see clause 10).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Procedure Code
O

INTEGER (0..255)
Procedure Code 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.
Triggering Message
O

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

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

0 .. <maxnoof Errors>


>IE Criticality
M

ENUMERATED(reject, ignore, notify)
The IE Criticality is used for reporting the criticality of the triggering IE. The value ‘ignore’ shall not be used.
>IE ID
M

INTEGER (0..65535)
The IE ID of the not understood or missing IE.
>Type of Error
M

ENUMERATED(not understood, missing, …)


Range bound
Explanation
maxnoofErrors
Maximum no. of IE errors allowed to be reported with a single message. The value for maxnoofErrors is 256.

9.2.1.22	Handover Restriction List
This IE defines roaming or access restrictions for subsequent mobility action for which the eNB provides information about the target of the mobility action towards the UE, e.g., handover and CCO, or for SCG selection during dual connectivity operation. If the eNB receives the Handover Restriction List IE, it shall overwrite previously received restriction information.

IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality 
Serving PLMN
M

9.2.3.8



Equivalent PLMNs

0..<maxnoofEPLMNs>

Allowed PLMNs in addition to Serving PLMN.
This list corresponds to the list of “equivalent PLMNs” as defined in TS 24.301 [24].
This list is part of the roaming restriction information. Roaming restrictions apply to PLMNs other than the Serving PLMN and Equivalent PLMNs.


>PLMN Identity
M

9.2.3.8



Forbidden TAs

0..<maxnoofEPLMNsPlusOne>

Intra LTE roaming restrictions.


>PLMN Identity
M

9.2.3.8
The PLMN of forbidden TACs.


>Forbidden TACs

1..<maxnoofForbTACs>




>>TAC
M

9.2.3.7
The TAC of the forbidden TAI.


Forbidden LAs

0..<maxnoofEPLMNsPlusOne>

Inter-3GPP RAT roaming restrictions.


>PLMN Identity
M

9.2.3.8



>Forbidden LACs

1..<maxnoofForbLACs>




>>LAC
M

OCTET STRING (SIZE(2))



Forbidden inter RATs
O

ENUMERATED(ALL, GERAN, UTRAN, CDMA2000, …,
GERAN and UTRAN, CDMA2000 and UTRAN)
Inter-3GPP and 3GPP2 RAT access restrictions. “ALL” means that all RATs mentioned in the enumeration of this IE are restricted.


NR Restriction in EPS as Secondary RAT
O

ENUMERATED(NRrestrictedinEPSasSecondaryRAT, …)
Restriction to use NR when the NR is used as secondary RAT in EN-DC.
YES
ignore
Unlicensed Spectrum Restriction
O

ENUMERATED(UnlicensedRestricted, …)
Restriction to use unlicensed spectrum in the form of LAA or LWA/LWIP or NR-U as described in TS 23.401 [11].
YES
ignore
Core Network Type Restrictions

0..<maxnoofEPLMNsPlusOne>

Includes any of the Serving PLMN or any PLMN of the Equivalent PLMNs listed in the Mobility Restriction List IE for which Core network type restriction applies as specified in TS 23.501 [46].


>PLMN Identity
M

9.2.3.8



>Core Network Type
M

ENUMERATED(5GCForbidden, …,EPCForbidden)
Indicates whether the UE is restricted to connect to 5GC or to EPC for this PLMN.


NR Restriction in 5GS
O

ENUMERATED(NRrestrictedin5GS, …)
Restriction to use NR when the NR connects to 5GS.
YES
ignore
Last NG-RAN PLMN Identity
O

9.2.3.8
Indicates the NG-RAN PLMN ID from where the UE formerly handed over to EPS and which is preferred in case of subsequent mobility to 5GS.
YES
ignore

Range bound
Explanation
maxnoofEPLMNs
Maximum no. of equivalent PLMN Ids. Value is 15.
maxnoofEPLMNsPlusOne
Maximum no. of equivalent PLMN Ids plus one. Value is 16.
maxnoofForbTACs
Maximum no. of forbidden Tracking Area Codes. Value is 4096.
maxnoofForbLACs
Maximum no. of forbidden Location Area Codes. Value is 4096.

9.2.1.23	CDMA2000-PDU
This information element contains a CDMA2000 message between the UE and CDMA2000 RAT that is transferred without interpretation in the eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CDMA2000-PDU
M

OCTET STRING


9.2.1.24	CDMA2000 RAT Type
In the uplink, this information element, along with the CDMA2000 Sector ID IE is used for routing the tunnelled CDMA2000 message to the proper destination node in the CDMA2000 RAT and is set by the eNB to the CDMA2000 RAT type received from the UE.
NOTE:	In the downlink, this information element is used by the eNB to provide an indication of the RAT Type associated with the tunnelled CDMA2000 message to the UE to help it route the tunnelled downlink CDMA2000 message to the appropriate CDMA upper layer.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CDMA2000 RAT Type
M

ENUMERATED
(HRPD,
1xRTT, …)
This IE is used to identify which CDMA2000 RAT the tunnelled CDMA2000 signalling is associated with. The source of this information in the uplink is the UE and in the downlink it is the CDMA2000 system.

9.2.1.25	CDMA2000 Sector ID
This information element, along with the RAT Type IE is used for routing the tunnelled CDMA2000 message to the proper destination node in the CDMA2000 RAT.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CDMA2000 Sector ID
M

OCTET STRING
This IE is set to CDMA2000 Reference Cell ID corresponding to the HRPD/1xRTT sector under the HRPD AN/1xBS towards which the signalling is performed. The CDMA2000 Reference Cell ID is statically configured in the eNB. If the RAT type is HRPD, this IE contains the HRPD Sector ID as specified in 3GPP2 C.S0024-B [27]. If the RAT type is 1x RTT, this IE is encoded as the Reference Cell ID IE in 3GPP2 A.S0008-C [25].

9.2.1.26	Security Context
The purpose of the Security Context IE is to provide security related parameters to the eNB which are used to derive security keys for user plane traffic and RRC signalling messages and for security parameter generation for subsequent X2 or intra eNB Handovers, or for the security parameters for the current S1 Handover. For intra LTE S1 Handover one pair of {NCC, NH} is provided for 1-hop security, see TS 33.401 [15].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Next Hop Chaining Count
M

INTEGER (0..7)
Next Hop Chaining Counter (NCC) defined in TS 33.401 [15]. 
For handover from 5GS to EPS, Next Hop Chaining Count IE = “2” as defined in TS 33.501 [48].
For other inter-RAT Handover into LTE the Next Hop Chaining Count IE takes the value defined for NCC at initial setup, i.e., Next Hop Chaining Count IE = “0”.
Next-Hop NH
M

9.2.1.41
Security Key
The NH together with the NCC is used to derive the security configuration as defined in TS 33.401 [15]. For inter RAT Handover the Next-Hop NH IE is the KeNB to be used in the new configuration.

9.2.1.27	UE Radio Capability
This IE contains UE Radio Capability information.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Radio Capability 
M

OCTET STRING
Includes either the UERadioAccessCapabilityInformation message as defined in 10.2.2 of TS 36.331 [16], or the UERadioAccessCapabilityInformation-NB message as defined in 10.6.2 of TS 36.331 [16].

9.2.1.28	CDMA2000 HO Status
This IE is used to indicate to the eNB which initiated an inter-RAT HO towards CDMA2000 about the outcome of the handover preparation to CDMA2000.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CDMA2000 HO Status
M

ENUMERATED
(HO Success, HO Failure, …)
This IE indicates the status of the handover resource allocation in the CDMA2000 RAT.

9.2.1.29	CDMA2000 HO Required Indication
This information element is set by the eNB to provide an indication about whether the UE has initiated the handover preparation with the CDMA2000 RAT.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CDMA2000 HO Required Indication
M

ENUMERATED
(true, …)
This IE indicates to MME that handover preparation to CDMA2000 has been started. It helps MME to decide when to send certain handover preparation information for HRPD (TS 23.402 [8]) and 1xRTT (TS 23.216 [9]) to the CDMA2000 RAT.

9.2.1.30	1xRTT MEID
Void.
9.2.1.31	eNB Status Transfer Transparent Container
The eNB Status Transfer Transparent Container IE is an information element that is produced by the source eNB and is transmitted to the target eNB. This IE is used for the intra SAE/LTE S1 handover case.
This IE is transparent to the EPC.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
E-RABs Subject to Status Transfer List

1


-
-
>E-RABs Subject to Status Transfer Item

1 .. <maxnoof E-RABs>


EACH
ignore
>>E-RAB ID
M

9.2.1.2

-
-
>>UL COUNT value
M

COUNT Value 9.2.1.32 
PDCP-SN and HFN of first missing UL PDCP SDU in case of 12 bit long PDCP-SN.
-
-
>>DL COUNT value
M

COUNT Value 9.2.1.32 
PDCP-SN and HFN that the target eNB should assign for the next DL SDU not having an SN yet in case of 12 bit long PDCP-SN.
-
-
>>Receive Status Of UL PDCP SDUs
O

BIT STRING (SIZE(4096))
PDCP Sequence Number = (First Missing SDU Number + bit position) modulo 4096.

0: PDCP SDU has not been received.
1: PDCP SDU has been received correctly.


>>UL COUNT Value Extended
O

COUNT Value Extended 9.2.1.90
PDCP-SN and HFN of first missing UL PDCP SDU in case of 15 bit long PDCP-SN.
YES
ignore
>>DL COUNT Value Extended
O

COUNT Value Extended 9.2.1.90
PDCP-SN and HFN that the target eNB should assign for the next DL SDU not having an SN yet in case of 15 bit long PDCP-SN.
YES
ignore
>>Receive Status Of UL PDCP SDUs Extended
O

BIT STRING (SIZE(1..16384))
The IE is used in case of 15 bit long PDCP-SN in this release.
The first bit indicates the status of the SDU after the First Missing UL PDCP SDU.
The Nth bit indicates the status of the UL PDCP SDU in position (N + First Missing SDU Number) modulo (1 + the maximum value of the PDCP-SN).

0: PDCP SDU has not been received.
1: PDCP SDU has been received correctly.
YES
ignore
>>UL COUNT Value for PDCP SN Length 18
O

COUNT Value for PDCP SN Length 18 9.2.1.100
PDCP-SN and HFN of first missing UL PDCP SDU in case of 18 bit long PDCP-SN.
YES
ignore
>>DL COUNT Value for PDCP SN Length 18
O

COUNT Value for PDCP SN Length 18 9.2.1.100
PDCP-SN and HFN that the target eNB should assign for the next DL SDU not having an SN yet in case of 18 bit long PDCP-SN.
YES
ignore
>>Receive Status Of UL PDCP SDUs for PDCP SN Length 18
O

BIT STRING (SIZE(1..131072))
The IE is used in case of 18 bit long PDCP-SN.
The first bit indicates the status of the SDU after the First Missing UL PDCP SDU.
The Nth bit indicates the status of the UL PDCP SDU in position (N + First Missing SDU Number) modulo (1 + the maximum value of the PDCP-SN).

0: PDCP SDU has not been received.
1: PDCP SDU has been received correctly.
YES
ignore

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.

9.2.1.32	COUNT Value
This IE contains a PDCP sequence number and a hyper frame number in case of 12 bit long PDCP-SN.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
PDCP-SN
M

INTEGER (0..4095)

-
-
HFN
M

INTEGER (0..1048575)

-
-

9.2.1.33	CDMA2000 1xRTT RAND
This information element is a random number generated by the eNB and tunnelled to the 1xCS IWS (TS 23.402 [8]) and is transparent to MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CDMA2000 1xRTT RAND
M

OCTET STRING
This IE is a Random Challenge that is used for authentication of UE during 1xCS registration, eCSFB to 1xRTT or handover from E-UTRAN to CDMA2000 1xRTT RAT.

This IE is coded as the RAND (32bits) of the Authentication Challenge Parameter (RAND) in 3GPP2 A.S0008-C [25].

9.2.1.34	Request Type
The purpose of the Request Type IE is to indicate the type of location request to be handled by the eNB.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
Request Type






>Event Type
M

ENUMERATED(Direct, Change of service cell, Stop Change of service cell, …)



>Report Area
M

ENUMERATED (ECGI, …)



>Additional Location Information
O

ENUMERATED (Include PSCell, ...)

YES
ignore

9.2.1.35	CDMA2000 1xRTT SRVCC Info
This IE defines SRVCC related information elements that are assembled by the MME to be tunnelled transparently to the 1xCS IWS (TS 23.402 [8]) system.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CDMA2000 1xRTT SRVCC Info




>CDMA2000 1xRTT MEID
M

OCTET STRING
This information element is the Mobile Equipment Identifier or Hardware ID that is tunnelled from the UE and is transparent to the eNB. This IE is used to derive a MEID-based PLCM that is used for channelization in CDMA2000 1xRTT network.
>CDMA2000 1xRTT Mobile Subscription Information
M

OCTET STRING
This IE provides the list of UE supported 1x RTT Band classes and Band Subclasses. It is provided by the UE to the eNB as part of the UE capability. It is transparent to the eNB.
>CDMA2000 1xRTT Pilot List
M

OCTET STRING
This IE provides the measured pilot information. Encoded as the Pilot List IE from the A21-1x air interface signalling message in 3GPP2 A.S0008-C [25].

9.2.1.36	E-RAB List
This IE contains a list of E-RAB IDs with a cause value. It is used for example to indicate failed bearers or bearers to be released.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
E-RAB List Item

1 .. <maxnoofE-RABs>


EACH
ignore
>E-RAB ID
M

9.2.1.2

-
-
>Cause
M

9.2.1.3 

-
-

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RAB allowed towards one UE, the maximum value is 256. 

9.2.1.37	Global eNB ID
This information element is used to globally identify an eNB (see TS 36.401 [2]).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PLMN Identity
M

9.2.3.8

CHOICE eNB ID
M



>Macro eNB ID




>>Macro eNB ID
M

BIT STRING (SIZE(20))
Equal to the 20 leftmost bits of the Cell Identity IE contained in the E-UTRAN CGI IE (see subclause 9.2.1.38) of each cell served by the eNB.
>Home eNB ID




>>Home eNB ID
M

BIT STRING (SIZE(28))
Equal to the Cell Identity IE contained in the E-UTRAN CGI IE (see subclause 9.2.1.38) of the cell served by the eNB.
>Short Macro eNB ID




>> Short Macro eNB ID
M

BIT STRING (SIZE(18))
Equal to the 18 leftmost bits of the Cell Identity IE (see subclause 9.2.1.38) of each cell served by the eNB.
>Long Macro eNB ID




>> Long Macro eNB ID
M

BIT STRING (SIZE(21))
Equal to the 21 leftmost bits of the Cell Identity IE (see subclause 9.2.1.38) of each cell served by the eNB.

9.2.1.37a	Global en-gNB ID
This information element is used to globally identify an en-gNB (see TS 36.401 [2]).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PLMN Identity
M

9.2.3.8

en-gNB ID
M

BIT STRING (SIZE(22..32))


9.2.1.38	E-UTRAN CGI
This information element is used to globally identify a cell (see TS 36.401 [2]).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PLMN Identity
M

9.2.3.8

Cell Identity
M

BIT STRING (SIZE(28))
The leftmost bits of the Cell Identity correspond to the eNB ID (defined in subclause 9.2.1.37).

9.2.1.39	Subscriber Profile ID for RAT/Frequency priority
The Subscriber Profile ID IE for RAT/Frequency Selection Priority is used to define camp priorities in Idle mode and to control inter-RAT/inter-frequency handover in Active mode TS 36.300 [14].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Subscriber Profile ID for RAT/Frequency Priority
M

INTEGER (1..256)


9.2.1.39a	Additional RRM Policy Index
The Additional RRM Policy Index IE is used to provide additional information independent from the Subscriber Profile ID for RAT/Frequency priority as specified in TS 36.300 [14].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Additional RRM Policy Index
M

BIT STRING (32)


9.2.1.40	UE Security Capabilities
The UE Security Capabilities IE defines the supported algorithms for encryption and integrity protection in the UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Security Capabilities




>Encryption Algorithms
M

BIT STRING (SIZE(16, …))
Each position in the bitmap represents an encryption algorithm:
“all bits equal to 0” – UE supports no other algorithm than EEA0,
“first bit” – 128-EEA1,
“second bit” – 128-EEA2,
“third bit” – 128-EEA3,
other bits reserved for future use. Value ‘1’ indicates support and value ‘0’ indicates no support of the algorithm.
Algorithms are defined in TS 33.401 [15].
>Integrity Protection Algorithms
M

BIT STRING (SIZE(16, …))
Each position in the bitmap represents an integrity protection algorithm:
“all bits equal to 0” – UE supports no other algorithm than EIA0,
“first bit” – 128-EIA1,
“second bit” – 128-EIA2,
“third bit” – 128-EIA3,
other bits reserved for future use.
Value ‘1’ indicates support and value ‘0’ indicates no support of the algorithm.
Algorithms are defined in TS 33.401 [15].

9.2.1.41	Security Key
The Security Key IE is used to apply security in the eNB for different scenarios as defined in TS 33.401 [15].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Security Key
M

BIT STRING (SIZE(256))
Key material for KeNB or Next Hop Key as defined in TS 33.401 [15]

9.2.1.42	UE History Information
The UE History Information IE contains information about cells that a UE has been served by in active state prior to the target cell.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Last Visited Cell List

1 .. <maxnoOfCellsinUEHistoryInfo>

Most recent information is added to the top of this list.
-
-
>Last Visited Cell Information
M

9.2.1.43

-
-

Range bound
Explanation
maxnoOfCellsinUEHistoryInfo
Maximum length of the list. Value is 16.

9.2.1.43	Last Visited Cell Information
The Last Visited Cell Information may contain cell specific information.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
CHOICE Last Visited Cell Information
M



-
-
>E-UTRAN Cell






>>Last Visited E-UTRAN Cell Information
M

9.2.1.43a

-
-
>UTRAN Cell






>>Last Visited UTRAN Cell Information
M

OCTET STRING
Defined in TS 25.413 [19].
-
-
>GERAN Cell






>>Last Visited GERAN Cell Information
M

9.2.1.43b

-
-
>NG-RAN Cell




-
-
>>Last Visited NG-RAN Cell Information
M

OCTET STRING
Defined in TS 38.413 [44] (see subclause 9.3.1.97).



9.2.1.43a	Last Visited E-UTRAN Cell Information
The Last Visited E-UTRAN Cell Information contains information about a cell that is to be used for RRM purposes.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Global Cell ID
M

E-UTRAN
CGI
9.2.1.38

-

Cell Type
M

9.2.1.66

-

Time UE stayed in Cell
M

INTEGER (0..4095)
The duration of the time the UE stayed in the cell in seconds. If the UE stays in a cell more than 4095s, this IE is set to 4095.
-

Time UE stayed in Cell Enhanced Granularity
O

INTEGER (0..40950)
The duration of the time the UE stayed in the cell in 1/10 seconds. If the UE stays in a cell more than 4095s, this IE is set to 40950.
YES
ignore
HO Cause Value
O

9.2.1.3
The cause for the handover from the E-UTRAN cell.
YES
ignore

9.2.1.43b	Last Visited GERAN Cell Information
The Last Visited Cell Information for GERAN is currently undefined.
NOTE:	If in later Releases this is defined, the choice type may be extended with the actual GERAN specific information.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
CHOICE Last Visited GERAN Cell Information
M



-

>Undefined
M

NULL

-


9.2.1.44	Message Identifier
The purpose of the Message Identifier IE is to identify the warning message. Message Identifier IE is set by the EPC and transferred to the UE by the eNB
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Message Identifier
M

BIT STRING (SIZE(16))
This IE is set by the EPC, transferred to the UE by the eNB. The eNB shall treat it as an identifier of the message.

9.2.1.45	Serial Number
The Serial Number IE identifies a particular message from the source and type indicated by the Message Identifier and is altered every time the message with a given Message Identifier is changed.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Serial Number
M

BIT STRING (SIZE(16))


9.2.1.46	Warning Area List
The Warning Area List IE indicates the areas where the warning message needs to be broadcast or cancelled.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Warning Area
M



>Cell ID List

1 .. <maxnoofCellID>


>>E-CGI
M

9.2.1.38

>TAI List for Warning

1 .. <maxnoofTAIforWarning>


>>TAI
M

9.2.3.16

>Emergency Area ID List

1 .. <maxnoofEmergencyAreaID>


>>Emergency Area ID
M

9.2.1.47


Range bound
Explanation
maxnoofCellID
Maximum no. of Cell ID subject for warning message broadcast. Value is 65535.
maxnoofTAIforWarning
Maximum no. of TAI subject for warning message broadcast. Value is 65535.
maxnoofEmergencyAreaID
Maximum no. of Emergency Area ID subject for warning message broadcast. Value is 65535.

9.2.1.47	Emergency Area ID
The Emergency Area ID IE is used to indicate the area which has the emergency impact.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Emergency Area ID
M

OCTET STRING (SIZE(3))
Emergency Area ID may consist of several cells. Emergency Area ID is defined by the operator.

9.2.1.48	Repetition Period
The Repetition Period IE indicates the periodicity of the warning message to be broadcast.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Repetition Period
M

INTEGER (0..4095)
The unit of value 1 to 4095 is [second].

9.2.1.49	Number of Broadcasts Requested
The Number of Broadcast Requested IE indicates the number of times a message is to be broadcast.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Number of Broadcasts Requested
M

INTEGER (0..65535)


9.2.1.50	Warning Type
The Warning Type IE indicates types of the disaster. This IE also indicates that a Primary Notification is included. This IE can be used by the UE to differentiate the type of alert according to the type of disaster.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Warning Type
M

OCTET STRING (SIZE(2))


9.2.1.51	Warning Security Information
The Warning Security Information IE provides the security information needed for securing the Primary Notification.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Warning Security Information
M

OCTET STRING(SIZE(50))


9.2.1.52	Data Coding Scheme
The Data Coding Scheme IE identifies the alphabet or coding employed for the message characters and message handling at the UE (it is passed transparently from the EPC to the UE).
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Data Coding Scheme
M

BIT STRING (SIZE(8))


9.2.1.53	Warning Message Contents
The Warning Message Content IE contains user information, e.g., the message with warning contents, and will be broadcast over the radio interface.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Warning Message Contents
M

OCTET STRING (SIZE(1..9600))
The length of this IE varies between 1 to 9600 bytes.

9.2.1.54	Broadcast Completed Area List
The Broadcast Completed Area List IE indicates the areas where either resources are available to perform the broadcast or where broadcast is performed successfully.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Broadcast Completed Area
M



>Broadcast Completed Area




>>Cell ID Broadcast 

1 .. <maxnoofCellID>


>>>E-CGI
M

9.2.1.38

>TAI Broadcast




>>TAI Broadcast

1 .. <maxnoofTAIforWarning>


>>>TAI
M

9.2.3.16

>>>Completed Cell in TAI List

1 .. <maxnoofCellinTAI>


>>>>E-CGI
M



>Emergency Area ID




>>Emergency Area ID Broadcast

1 .. <maxnoofEmergencyAreaID>


>>>Emergency Area ID 
M

9.2.1.47

>>>Completed Cell in Emergency Area ID List

1 .. <maxnoofCellinEAI>


>>>>E-CGI
M




Range bound
Explanation
maxnoofCellID
Maximum no. of Cell ID subject for warning message broadcast. Value is 65535.
maxnoofTAIforWarning
Maximum no. of TAI subject for warning message broadcast. Value is 65535.
maxnoofEmergencyAreaID
Maximum no. of Emergency Area ID subject for warning message broadcast. Value is 65535.
maxnoofCellinTAI
Maximum no. of Cell ID within a TAI. Value is 65535.
maxnoofCellinEAI
Maximum no. of Cell ID within an Emergency Area. Value is 65535.

9.2.1.55	Inter-system Information Transfer Type
The Inter-system Information Type IE indicates the type of information that the eNB requests to transfer.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE Inter-system Information Transfer Type
M



>RIM




>>RIM Transfer 
M

9.2.3.23


9.2.1.56	Source To Target Transparent Container
The Source to Target Transparent Container IE is an information element that is used to transparently pass radio related information from the handover source to the handover target through the EPC; it is produced by the source RAN node and is transmitted to the target RAN node.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Source to Target Transparent Container
M

OCTET STRING
This IE includes a transparent container from the source RAN node to the target RAN node.
The octets of the OCTET STRING are encoded according to the specifications of the target system.
Note: in the current version of the specification, this IE may either carry the Source eNB to Target eNB Transparent Container IE or the Source RNC to Target RNC Transparent Container IE as defined in TS 25.413 [19] or the Source BSS to Target BSS Transparent Container Contents of the Source BSS to Target BSS Transparent Container IE as defined in TS 48.018 [18] or the Old BSS to New BSS information elements field of the Old BSS to New BSS information IE as defined in TS 48.008 [23], or the Source NG-RAN Node to Target NG-RAN Node Transparent Container IE as defined in TS 38.413 [44].

9.2.1.57	Target To Source Transparent Container
The Target to Source Transparent Container IE is an information element that is used to transparently pass radio related information from the handover target to the handover source through the EPC; it is produced by the target RAN node and is transmitted to the source RAN node.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Target to Source Transparent Container
M

OCTET STRING
This IE includes a transparent container from the target RAN node to the source RAN node. The octets of the OCTET STRING are coded according to the specifications of the target system.
Note: in the current version of the specification, this IE may either carry the Target eNB to Source eNB Transparent Container IE, or the Target RNC to Source RNC Transparent Container IE as defined in TS 25.413 [19] or the Target BSS to Source BSS Transparent Container Contents of the Target BSS to Source BSS Transparent Container IE as defined in TS 48.018 [18] or the Layer 3 Information field of the Layer 3 Information IE as defined in TS 48.008 [23], or the Target NG-RAN Node to Source NG-RAN Node Transparent Container IE as defined in TS 38.413 [44].

9.2.1.58	SRVCC Operation Possible
This element indicates that both UE and MME are SRVCC-capable. E-UTRAN behaviour on receipt of this IE is specified in TS 23.216 [9].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
SRVCC operation possible
M

ENUMERATED (Possible, …) 


9.2.1.59	SRVCC HO Indication
This information element is set by the source eNB to provide an indication that E-RAB may be subjected to handover via SRVCC means.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
SRVCC HO Indication
M

ENUMERATED
(PS and CS, CS only, …)


9.2.1.60	Allocation and Retention Priority
This IE specifies the relative importance compared to other E-RABs for allocation and retention of the E-UTRAN Radio Access Bearer.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Allocation/Retention Priority




>Priority Level
M

INTEGER (0..15)
Desc.: This IE should be understood as “priority of allocation and retention” (see TS 23.401 [11]).
Usage:
Value 15 means “no priority”.
Values between 1 and 14 are ordered in decreasing order of priority, i.e., 1 is the highest and 14 the lowest.
Value 0 shall be treated as a logical error if received.
>Pre-emption Capability
M

ENUMERATED(shall not trigger pre-emption, may trigger pre-emption)
Desc.: This IE indicates the pre-emption capability of the request on other E-RABs
Usage: 
The E-RAB shall not pre-empt other E-RABs or, the E-RAB may pre-empt other E-RABs
The Pre-emption Capability indicator applies to the allocation of resources for an E-RAB and as such it provides the trigger to the pre-emption procedures/processes of the eNB.
>Pre-emption Vulnerability
M

ENUMERATED(not pre-emptable, pre-emptable)
Desc.: This IE indicates the vulnerability of the E-RAB to preemption of other E-RABs.
Usage:
The E-RAB shall not be pre-empted by other E-RABs or the E-RAB may be pre-empted by other RABs.
Pre-emption Vulnerability indicator applies for the entire duration of the E-RAB, unless modified and as such indicates whether the E-RAB is a target of the pre-emption procedures/processes of the eNB.

9.2.1.61	Time to wait
This IE defines the minimum allowed waiting times.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Time to wait
M

ENUMERATED(1s, 2s, 5s, 10s, 20s, 60s)


9.2.1.62	CSG Id 
This information element indicates the identifier of the Closed Subscriber Group, as defined in TS 23.003 [21].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CSG Id
M

BIT STRING (SIZE (27))


9.2.1.63	CSG Id List
Void.
9.2.1.64	MS Classmark 2
The coding of this element is described in TS 48.008 [23].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MS Classmark 2
M

OCTET STRING
Coded as the value part of the Classmark Information Type 2 IE defined in TS 48.008 [23].

9.2.1.65	MS Classmark 3
The coding of this element is described in TS 48.008 [23].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MS Classmark 3
M

OCTET STRING
Coded as the value part of the Classmark Information Type 3 IE defined in TS 48.008 [23].

9.2.1.66	Cell Type
The cell type provides the cell coverage area.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Cell Size
M

ENUMERATED (verysmall, small, medium, large, …)

-
-

9.2.1.67	Old BSS to New BSS Information
This container is used to transparently pass radio related information between the handover source and the handover target through the EPC. This container is used for inter 3GPP RAT handovers from SAE/LTE to GERAN A/Gb mode.
This IE is defined in TS 48.008 [23].
9.2.1.68	Layer 3 Information
This container is used to transparently pass radio related information between the handover target and the handover source through the EPC. This container is used for inter 3GPP RAT handovers from SAE/LTE to GERAN A/Gb mode.
This IE is defined in TS 48.008 [23].
9.2.1.69	E-UTRAN Round Trip Delay Estimation Info
This IE contains the information to assist target HRPD access with the acquisition of the UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
E-UTRAN Round Trip Delay Estimation Info
M

INTEGER (0..2047)
Includes the Round Trip Delay between the eNB and the UE. The unit is 16Ts (see subclause 4.2.3 in TS 36.213 [26]).

9.2.1.70	Broadcast Cancelled Area List
The Broadcast Cancelled Area List IE indicates the areas where broadcast was stopped successfully.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
CHOICE Broadcast Cancelled Area
M



>CID Cancelled




>>Cell ID Cancelled

1 .. <maxnoofCellID>


>>>E-CGI
M

9.2.1.38

>>>Number of Broadcasts
M

9.2.1.71

>TAI Cancelled




>>TAI Cancelled

1 .. <maxnoofTAIforWarning >


>>>TAI
M

9.2.3.16

>>>Cancelled Cell in TAI List

1 .. <maxnoofCellinTAI>


>>>>E-CGI
M



>>>>Number of Broadcasts
M

9.2.1.71

>Emergency Area Cancelled




>>Emergency Area ID Cancelled

1 .. <maxnoofEmergencyAreaID>


>>>Emergency Area ID 
M

9.2.1.47

>>>Cancelled Cell in Emergency Area ID List

1 .. <maxnoofCellinEAI>


>>>>E-CGI
M



>>>>Number of Broadcasts
M

9.2.1.71


Range bound
Explanation
maxnoofCellID
Maximum no. of Cell ID subject for warning message broadcast. Value is 65535.
maxnoofTAIforWarning
Maximum no. of TAI subject for warning message broadcast. Value is 65535.
maxnoofEmergencyAreaID
Maximum no. of Emergency Area ID subject for warning message broadcast. Value is 65535.
maxnoofCellinTAI
Maximum no. of Cell ID within a TAI. Value is 65535.
maxnoofCellinEAI
Maximum no. of Cell ID within an Emergency Area. Value is 65535.

9.2.1.71	Number of Broadcasts
The Number of Broadcasts IE indicates the number of times that a particular message has been broadcast in a given warning area.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Number of Broadcasts
M

INTEGER(0..65535)
This IE is set to ‘0’ if valid results are not known or not available. It is set to 65535 if the counter results have overflown.

9.2.1.72	Concurrent Warning Message Indicator
The Concurrent Warning Message Indicator IE indicates to eNB that the received warning message is a new message to be scheduled for concurrent broadcast with any other ongoing broadcast of warning messages.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Concurrent Warning Message Indicator
M

ENUMERATED(true)
This IE is used to identify a PWS type warning system which allows the broadcast of multiple concurrent warning messages over the radio.

9.2.1.73	CSG Membership Status
This element indicates the membership status of the UE to a particular CSG.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CSG Membership Status
M

ENUMERATED (member, not-member)


9.2.1.74	Cell Access Mode
This element indicates the access mode of the cell accessed by the UE.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Cell Access Mode
M

ENUMERATED (hybrid, …)


9.2.1.75	Extended Repetition Period
The Extended Repetition Period IE indicates the periodicity of the warning message to be broadcast.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Extended Repetition Period
M

INTEGER (4096..217-1)
The Extended Repetition Period IE is used if the Repetition Period has a value larger than 4095.
Unit [second].

9.2.1.76	Data Forwarding Not Possible
This information element indicates that the MME decided that the corresponding E-RAB bearer will not be subject to data forwarding.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Data Forwarding Not Possible
M

ENUMERATED (Data forwarding not possible, …)


9.2.1.77	PS Service Not Available
This IE indicates that the UE is not available for the PS service in the target cell in case of SRVCC to GERAN.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PS Service Not Available
M

ENUMERATED (PS service not Available, …) 


9.2.1.78	Paging Priority
This element indicates the paging priority for paging a UE.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Paging Priority
M

ENUMERATED (PrioLevel1, PrioLevel2, PrioLevel3, PrioLevel4, PrioLevel5, PrioLevel6, PrioLevel7, PrioLevel8, …) 
Lower value codepoint indicates higher priority.

9.2.1.79	Relay Node Indicator
This element indicates a relay node.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Relay Node Indicator
M

ENUMERATED
(true, …)


9.2.1.80	Correlation ID
This information element is the GTP Tunnel Endpoint Identifier or GRE key to be used for the user plane transport between eNB and the L-GW described in TS 23.401 [11].

IE/Group Name
Presence
Range
IE type and reference
Semantics description
Correlation ID
M

OCTET STRING (SIZE(4))


9.2.1.81	MDT Configuration
The IE defines the MDT configuration parameters.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
MDT Activation
M

ENUMERATED(Immediate MDT only, Logged MDT only, Immediate MDT and Trace,…, Logged MBSFN MDT)

-
-
CHOICE Area Scope of MDT
M



-
-
>Cell based





-
>>Cell ID List for MDT

1 .. <maxnoofCellIDforMDT>



-
>>>E-CGI
M

9.2.1.38

-
-
>TA based





-
>>TA List for MDT

1 .. <maxnoofTAforMDT>



-
>>>TAC
M

9.2.3.7
The TAI is derived using the current serving PLMN.
-
-
>PLMN Wide


NULL

-
-
>TAI based




-
-
>>TAI List for MDT

1 .. <maxnoofTAforMDT>


-
-
>>>TAI
M

9.2.3.16

-
-
CHOICE MDT Mode
M



-
-
>Immediate MDT





-
>>Measurements to Activate
M

BITSTRING
(SIZE(8))
Each position in the bitmap indicates a MDT measurement, as defined in TS 37.320 [31]. 
First Bit = M1,
Second Bit= M2,
Third Bit = M3,
Fourth Bit = M4,
Fifth Bit = M5,
Sixth Bit = logging of M1 from event triggered measurement reports according to existing RRM configuration,
Seventh Bit = M6,
Eighth Bit = M7.
Value “1” indicates “activate” and value “0” indicates “do not activate”.
-
-
>>M1 Reporting Trigger
M

ENUMERATED (periodic, A2event-triggered, …, A2event-triggered periodic)
This IE shall be ignored if the Measurements to Activate IE has the first bit set to “0”.
-
-
>>M1 Threshold Event A2
C-ifM1A2trigger


Included in case of event-triggered or event-triggered periodic reporting for measurement M1.
-
-
>>>CHOICE Threshold
M



-
-
>>>>RSRP





-
>>>>>Threshold RSRP
M

INTEGER (0..97)
This IE is defined in TS 36.331 [16].
-
-
>>>>RSRQ





-
>>>>>Threshold RSRQ
M

INTEGER (0..34)
This IE is defined in TS 36.331 [16].
-
-
>>M1 Periodic reporting
C-ifperiodicMDT


Included in case of periodic or event-triggered periodic reporting for measurement M1.
-
-
>>>Report interval
M

ENUMERATED (ms120, ms240, ms480, ms640, ms1024, ms2048, ms5120, ms10240, min1, min6, min12, min30, min60)
This IE is defined in TS 36.331 [16].
-
-
>>>Report amount
M

ENUMERATED (1, 2, 4, 8, 16, 32, 64, infinity)
Number of reports.
-
-
>>M3 Configuration
C-ifM3

9.2.1.86

YES
ignore
>>M4 Configuration
C-ifM4

9.2.1.87

YES
ignore
>>M5 Configuration
C-ifM5

9.2.1.88

YES
ignore
>>MDT Location Information
O

BITSTRING(SIZE(8))
Each position in the bitmap represents requested location information as defined in TS 37.320 [31].
First Bit = GNSS
Second Bit = E-CID information.
Other bits are reserved for future use and are ignored if received.
Value “1” indicates “activate” and value “0” indicates “do not activate”.

The eNB shall ignore the first bit unless the Measurements to Activate IE has the first bit or the sixth bit set to “1”.
YES
ignore
>>M6 Configuration
C-ifM6

9.2.1.101

YES
ignore
>>M7 Configuration
C-ifM7

9.2.1.102

YES
ignore
>>Bluetooth Measurement Configuration
O

9.2.1.137

YES
Ignore
>>WLAN Measurement Configuration
O

9.2.1.138

YES
Ignore
>Logged MDT





-
>>Logging interval
M

ENUMERATED (1.28, 2.56, 5.12, 10.24, 20.48, 30.72, 40.96 and 61.44)
This IE is defined in TS 36.331 [16]. Unit: [second].
-
-
>>Logging duration
M

ENUMERATED (10, 20, 40, 60, 90 and 120)
This IE is defined in TS 36.331 [16]. Unit: [minute].
-
-
>>Bluetooth Measurement Configuration
O

9.2.1.137

YES
Ignore
>>WLAN Measurement Configuration
O

9.2.1.138

YES
Ignore
>Logged MBSFN MDT




YES
ignore
>>Logging interval
M

ENUMERATED (1.28, 2.56, 5.12, 10.24, 20.48, 30.72, 40.96 and 61.44)
This IE is defined in TS 36.331 [16]. Unit: [second].
-
-
>>Logging duration
M

ENUMERATED (10, 20, 40, 60, 90 and 120)
This IE is defined in TS 36.331 [16]. Unit: [minute].
-
-
>>MBSFN-ResultToLog
O

MBSFN-ResultToLog
9.2.1.94

-
-
Signalling based MDT PLMN List
O

MDT PLMN List
9.2.1.89

YES
ignore

Range bound
Explanation
maxnoofCellIDforMDT
Maximum no. of Cell ID subject for MDT scope. Value is 32.
maxnoofTAforMDT
Maximum no. of TA subject for MDT scope. Value is 8.

Condition
Explanation
ifM1A2trigger
This IE shall be present if the Measurements to Activate IE has the first bit set to “1” and the M1 Reporting Trigger IE is set to “A2event-triggered” or to “A2event-triggered periodic”.
ifperiodicMDT
This IE shall be present if the M1 Reporting Trigger IE is set to “periodic”, or to “A2event-triggered periodic”.
ifM3
This IE shall be present if the Measurements to Activate IE has the third bit set to “1”.
ifM4
This IE shall be present if the Measurements to Activate IE has the fourth bit set to “1”.
ifM5
This IE shall be present if the Measurements to Activate IE has the fifth bit set to “1”.
ifM6
This IE shall be present if the Measurements to Activate IE has the seventh bit set to “1”.
ifM7
This IE shall be present if the Measurements to Activate IE has the eighth bit set to “1”.

9.2.1.82	MME Relay Support Indicator
This element is set by the MME to advertise its support of Relay functionalities.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MME Relay Support Indicator
M

ENUMERATED (true, ...)


9.2.1.83	Management Based MDT Allowed
This information element is used by the eNB to allow selection of the UE for management based MDT as described in TS 32.422 [10].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Management Based MDT Allowed
M

ENUMERATED (Allowed, ...) 


9.2.1.84	GW Context Release Indication
This information element is set by the eNB to provide an indication that the MME may release any resources related to the signalled S1 UE context (see TS 36.300 [14]).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
GW Context Release Indication
M

ENUMERATED
(true, …)
This IE indicates to the MME that the eNB has successfully performed an X2 HO for the UE to a target eNB.

9.2.1.85	Voice Support Match Indicator
This information element is set by the eNB to provide an indication whether the UE radio capabilities are compatible with the network configuration for voice continuity.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Voice Support Match Indicator
M

ENUMERATED
(Supported, Not Supported …)


9.2.1.86	M3 Configuration
This IE defines the parameters for M3 measurement collection.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
M3 Collection Period
M

ENUMERATED (ms100, ms1000, ms10000, …, ms1024, ms1280, ms2048, ms2560, ms5120, ms10240, min1)


9.2.1.87	M4 Configuration
This IE defines the parameters for M4 measurement collection.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
M4 Collection Period
M

ENUMERATED (ms1024, ms2048, ms5120, ms10240, min1, …)

M4 Links to log
M

ENUMERATED(uplink, downlink, both-uplink-and-downlink, …)


9.2.1.88	M5 Configuration
This IE defines the parameters for M5 measurement collection.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
M5 Collection Period
M

ENUMERATED (ms1024, ms2048, ms5120, ms10240, min1, …)

M5 Links to log
M

ENUMERATED(uplink, downlink, both-uplink-and-downlink, …)


9.2.1.89	MDT PLMN List
The purpose of the MDT PLMN List IE is to provide the list of PLMN allowed for MDT.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MDT PLMN List

1..<maxnoofMDTPLMNs>


>PLMN Identity
M

9.2.3.8


Range bound
Explanation
maxnoofMDTPLMNs
Maximum no. of PLMNs in the MDT PLMN list. Value is 16.

9.2.1.90	COUNT Value Extended
This IE contains a PDCP sequence number and a hyper frame number in case of 15 bit long PDCP-SN.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
PDCP-SN Extended
M

INTEGER (0..32767)

-
-
HFN Modified
M

INTEGER (0..131071)

-
-

9.2.1.91	Kill-all Warning Messages Indicator
The Kill-all Warning Messages Indicator IE indicates to the eNB to stop all already ongoing broadcast of warning messages in the eNB or in an area.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Kill-all Warning Message Indicator
M

ENUMERATED(true)


9.2.1.92	LHN ID
The LHN ID IE is used to indicate the LHN ID of the eNB, as defined in TS 23.003 [21].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Local Home Network ID
M

OCTET STRING (SIZE (32..256))
Identifies the Local Home Network.

9.2.1.93	User Location Information
This IE provides location information of a UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Criticality
Assigned Criticality
User Location Information




–
–
>E-UTRAN CGI
M

9.2.1.38

–
–
>TAI
M

9.2.3.16

–
–
>PSCell Information
O

9.2.1.141

YES
ignore

9.2.1.94	MBSFN-ResultToLog
This IE provides information on the MBMS area in which the MBSFN MDT result is logged.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
MBSFN-ResultToLog

1..<maxnoofMBSFNAreaMDT >


>MBSFN-AreaId
O

INTEGER (0..255)

>CarrierFreq
M

EARFCN
9.2.1.95	



9.2.1.95	EARFCN
The E-UTRA Absolute Radio Frequency Channel Number defines the carrier frequency used in a cell for a given direction (UL or DL) in FDD or for both UL and DL directions in TDD.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
EARFCN
M

INTEGER (0 .. maxEARFCN, ...)
The relation between EARFCN and carrier frequency (in MHz) are defined in TS 36.104 [39].


9.2.1.96	Expected UE Behaviour
This IE defines the behaviour of a UE with predictable activity and/or mobility behaviour, to assist the eNB in determining the optimum RRC connection time.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Expected UE Activity Behaviour
O

9.2.1.97

Expected HO Interval
O

ENUMERATED (sec15, sec30, sec60, sec90, sec120, sec180, long-time, ...)
Indicates the expected time interval between inter-eNB handovers. 
If "long-time" is included, the interval between inter-eNB handovers is expected to be longer than 180 seconds.

9.2.1.97	Expected UE Activity Behaviour
Indicates information about the expected "UE activity behaviour" as defined in TS 23.401 [11].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Expected Activity Period
O

INTEGER (1..30|40|50|60|80| 100|120|150|180| 181, ...)
If this IE is set to "181" the expected activity time is longer than 180 seconds.
The remaining values indicate the expected activity time in [seconds].
Expected Idle Period
O

INTEGER (1..30|40|50|60|80| 100|120|150|180| 181, ...)
If this IE is set to "181" the expected idle time is longer than 180 seconds.
The remaining values indicate the expected idle time in [seconds].
Source of UE Activity Behaviour Information
O

ENUMERATED (subscription information, statistics, ...)
If "subscription information" is indicated, the information contained in the Expected Activity Period IE and the Expected Idle Period IE, if present, is derived from subscription information.
If "statistics" is indicated, the information contained in the Expected Activity Period IE and the Expected Idle Period IE, if present, is derived from statistical information.

9.2.1.98	UE Radio Capability for Paging
This IE contains paging specific UE Radio Capability information.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Radio Capability for Paging
M

OCTET STRING
Includes either the UERadioPagingInformation message as defined in 10.2.2 of TS 36.331 [16], or the UERadioPagingInformation-NB message as defined in 10.6.2 of TS 36.331 [16].

9.2.1.99	ProSe Authorized
This IE provides information on the authorization status of the UE for ProSe services.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
ProSe Direct Discovery
O

ENUMERATED (authorized, not authorized, ...)
Indicates whether the UE is authorized for ProSe Direct Discovery
-
-
ProSe Direct Communication
O

ENUMERATED (authorized, not authorized, ...)
Indicates whether the UE is authorized for ProSe Direct Communication
-
-
ProSe UE-to-Network Relaying
O

ENUMERATED (authorized, not authorized, ...)
Indicates whether the UE is authorized to act as ProSe UE-to-Network Relay
YES
ignore

9.2.1.100	COUNT Value for PDCP SN Length 18
This IE contains a PDCP sequence number and a hyper frame number in case of 18 bit long PDCP-SN.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
PDCP-SN Length 18
M

INTEGER (0..262143)

-
-
HFN for PDCP-SN Length 18
M

INTEGER (0..16383)

-
-

9.2.1.101	M6 Configuration
This IE defines the parameters for M6 measurement collection.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
M6 Report Interval
M

ENUMERATED (ms1024, ms2048, ms5120, ms10240, …)

M6 Delay Threshold
C-ifUL

ENUMERATED (ms30, ms40, ms50, ms60, ms70, ms80, ms90, ms100, ms150, ms300, ms500, ms750, …)

M6 Links to log
M

ENUMERATED(uplink, downlink, both-uplink-and-downlink, …)


Condition
Explanation
ifUL
This IE shall be present if the M6 Links to log IE is set to “uplink” or to “both-uplink-and-downlink”.

9.2.1.102	M7 Configuration
This IE defines the parameters for M7 measurement collection.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
M7 Collection Period
M

INTEGER (1..60, …)
Unit: minutes
M7 Links to log
M

ENUMERATED(uplink, downlink, both-uplink-and-downlink, …)


9.2.1.103	Assistance Data for Paging
This IE provides assistance information for paging optimisation.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Assistance Data for Recommended Cells
O

9.2.1.104

Assistance Data for CE capable UEs
O

9.2.1.108

Paging Attempt Information 
O

9.2.1.110


9.2.1.104	Assistance Data for Recommended Cells
This IE provides assistance information for paging in recommended cells.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Recommended Cells for Paging
M

9.2.1.106


9.2.1.105	Information on Recommended Cells and eNBs for Paging
This IE provides information on recommended cells and eNBs for paging.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Recommended Cells for Paging
M

9.2.1.106

Recommended eNBs for Paging
M

9.2.1.107


9.2.1.106	Recommended Cells for Paging
This IE contains the recommended cells for paging.
This IE is transparent to the EPC.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Recommended Cell List

1


>Recommended Cell Item IEs

1 .. <maxnoofRecommendedCells>

Includes visited and non-visited cells, where visited cells are listed in the order the UE visited them with the most recent cell being the first in the list. Non-visited cells are included immediately after the visited cell they are associated with.
>>E-UTRAN CGI
M

9.2.1.38

>>Time Stayed in Cell 
O

INTEGER (0..4095)
This is included for visited cells and indicates the time a UE stayed in a cell in seconds. If the UE stays in a cell more than 4095 seconds, this IE is set to 4095. 

Range bound
Explanation
maxnoofRecommendedCells
Maximum no. of recommended Cells, the maximum value is 16.

9.2.1.107	Recommended eNBs for Paging
This IE contains recommended targets for paging. 
 IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Recommended eNB List




>Recommended eNB Item IEs

1 .. <maxnoofRecommendedeNBs>

Includes visited and non-visited eNBs, where visited eNBs are listed in the order the UE visited them with the most recent eNB being the first in the list. Non-visited eNBs are included after the visited eNB they are associated with.
>>Choice MME Paging Target



The MME paging target is either an eNB identity or a TAI as specified in TS 36.300 [14].
>>>eNB




>>>>Global eNB ID
M

9.2.1.37

>>>TAI




>>>>TAI
M

9.2.3.16


Range bound
Explanation
maxnoofRecommendedeNBs
Maximum no. of recommended eNBs, the maximum value is 16. 

9.2.1.108	Assistance Data for CE capable UEs
This IE provides information for paging for CE capable UEs.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Cell Identifier and Coverage Enhancement Level
M

9.2.1.109


9.2.1.109	Cell Identifier and Coverage Enhancement Level
This IE provides information for paging CE capable UEs.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Global Cell ID
M

E-UTRAN CGI 9.2.1.38

Coverage Enhancement Level
M

OCTET STRING
Includes either the UEPagingCoverageInformation message as defined in 10.2.2 of TS 36.331 [16], or the UEPagingCoverageInformation-NB message as defined in 10.6.2 of TS 36.331 [16].

9.2.1.110	Paging Attempt Information
This IE includes information related to the paging count over S1.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Paging Attempt Count
M

INTEGER (1..16,...)
Shall be set as specified in TS 36.300 [14].
Intended Number of Paging Attempts
M

INTEGER (1..16,…)
Intended number of paging attempts (see TS 36.300 [14]).
Next Paging Area Scope
O 

ENUMERATED (same, changed, …) 
Indicates whether the paging area scope will change or not at next paging attempt. Usage specified in TS 36.300 [14].

9.2.1.111	Paging eDRX Information
This IE indicates the Paging eDRX parameters as defined in TS 36.304 [20].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Paging eDRX Cycle
M

ENUMERATED (hfhalf, hf1, hf2, hf4, hf6, hf8, hf10, hf12, hf14, hf16, hf32, hf64, hf128, hf256, …)
TeDRX defined in TS 36.304 [20]. Unit: [number of hyperframes].
Paging Time Window
O

ENUMERATED (s1, s2, s3, s4, s5, s6, s7, s8, s9, s10, s11, s12, s13, s14, s15, s16, …)
Unit: [1.28 second].

9.2.1.112	UE Retention Information
This information element allows the eNB and the MME to indicate whether prior UE related contexts and signalling connections are intended to be retained.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
UE Retention Information
M

ENUMERATED (ues-retained,…)


9.2.1.113	UE User Plane CIoT Support Indicator
This IE indicates whether User Plane CIoT EPS Optimisation as specified in TS 23.401 [11] is supported for the UE.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
UE User Plane CIoT Support Indicator
M

ENUMERATED
(supported, …)


9.2.1.114	NB-IoT Default Paging DRX
This IE indicates the NB-IoT Default Paging DRX as defined in TS 36.304 [20].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
NB-IoT Default Paging DRX
M

ENUMERATED(128, 256, 512, 1024, …)
Unit: [number of radioframes]

9.2.1.115	NB-IoT Paging eDRX Information
This IE indicates the NB-IoT Paging eDRX parameters as defined in TS 36.304 [20].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
NB-IoT Paging eDRX Cycle
M

ENUMERATED (hf2, hf4, hf6, hf8, hf10, hf12, hf14, hf16, hf32, hf64, hf128, hf256, hf512, hf1024, …)
TeDRX defined in TS 36.304 [20]. Unit: [number of hyperframes].
NB-IoT Paging Time Window
O

ENUMERATED (s1, s2, s3, s4, s5, s6, s7, s8, s9, s10, s11, s12, s13, s14, s15, s16, …) 
Unit: [2.56 seconds]

9.2.1.116	Bearer Type
This IE is used to support Non-IP data as specified in TS 23.401 [11].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Bearer Type
M

ENUMERATED
(non IP, …)


9.2.1.117	RAT Type
This element is provided by the eNB to inform about the RAT Type.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
RAT Type
M

ENUMERATED (NB-IOT, ...)


9.2.1.118	CE-mode-B Support Indicator
This IE indicates whether CE-mode-B as specified in TS 36.306[41] is supported for the UE.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CE-mode-B Support Indicator
M

ENUMERATED
(supported, …)


9.2.1.119	SRVCC Operation Not Possible
This element indicates that SRVCC operation is not possible any more.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
SRVCC Operation Not Possible
M

ENUMERATED (notPossible, …) 


9.2.1.120	V2X Services Authorized
This IE provides information on the authorization status of the UE to use the sidelink for V2X services.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Vehicle UE
O

ENUMERATED (authorized, not authorized, ...)
Indicates whether the UE is authorized as Vehicle UE
-
-
Pedestrian UE
O

ENUMERATED (authorized, not authorized, ...)
Indicates whether the UE is authorized as Pedestrian UE
-
-

9.2.1.121	Served DCNs Items
The Served DCNs Items indicates the relative processing capacity for a DCN-ID in the MME as defined in TS 23.401 [11].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Served DCNs Items




>DCN ID
M

INTEGER (0..65535)

>Relative DCN Capacity
M

Relative MME Capacity 9.2.3.17
Relatvie capacity per DCN in one MME

9.2.1.122	UE Sidelink Aggregate Maximum Bit Rate
This IE provides information on the Aggregate Maximum Bitrate of the UE’s sidelink communication for V2X services.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
 UE Sidelink Aggregate Maximum Bit Rate
M

Bit Rate 9.2.1.19
Value 0 shall be considered as a logical error by the receiving eNB.

9.2.1.123	Enhanced Coverage Restricted
This IE provides information on the restriction information of using Coverage Enhancement.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Enhanced Coverage Restricted
O

ENUMERATED (restricted, ...)
Indicates whether the UE is restricted to use coverage enhancement.
Value “restricted” indicates that the UE is not allowed to use coverage enhancement.
-
-

9.2.1.124	Secondary RAT Usage Report List
This IE provides information on the NR resources used with EN-DC. 
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Secondary RAT usage report Item

1 .. <maxnoofE-RABs>


EACH
ignore
>E-RAB ID
M

9.2.1.2

-
-
>Secondary RAT Type
M

ENUMERATED (nR, …, unlicensed)

-
-
>E-RAB Usage Report List

1


-
-
>>E-RAB Usage Report Item

1.. <maxnoof time periods>


EACH
ignore
>>>Start timestamp
M

OCTET STRING (SIZE(4))
UTC time encoded in the same format as the first four octets of the 64-bit timestamp format as defined in section 6 of IETF RFC 5905 [42]. It indicates the start time of the collecting period of the included Usage Count UL IE and Usage Count DL IE.
-
-
>>>End timestamp
M

OCTET STRING (SIZE(4))
UTC time encoded in the same format as the first four octets of the 64-bit timestamp format as defined in section 6 of IETF RFC 5905 [42]. It indicates the end time of the collecting period of the included Usage Count UL IE and Usage Count DL IE.
-
-
>>>Usage count UL
M

INTEGER (0..264-1)
The unit is: octets
-
-
>>>Usage count DL
M

INTEGER (0..264-1)
The unit is: octets
-
-

Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.
maxnoof time periods
Maximum no. of time reporting periods. Value is 2.

9.2.1.125	Handover Flag
This IE indicates that the MME should buffer the secondary RAT data usage report since the report is sent due to handover as defined in TS 23.401 [11]. 

IE/Group Name
Presence
Range
IE type and reference
Semantics description
Handover Flag
M

ENUMERATED (handover_preparation, …)


9.2.1.126	Extended Bit Rate
This IE indicates the number of bits delivered by E-UTRAN in UL or to E-UTRAN in DL within a period of time, divided by the duration of the period. It is used, for example, to indicate the maximum or guaranteed bit rate for a GBR bearer, or an aggregated maximum bit rate.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Extended Bit Rate


INTEGER (10,000,000,001..4,000,000,000,000, ...)
The unit is: bit/s


9.2.1.127	NR UE Security Capabilities
This IE defines the supported algorithms for encryption and integrity protection in NR as defined in TS 33.401 [15].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
NR Encryption Algorithms 
M

BIT STRING (SIZE(16, …))
Each position in the bitmap represents an encryption algorithm:
“all bits equal to 0” – UE supports no other NR algorithm than NEA0,
“first bit” – 128-NEA1,
“second bit” – 128-NEA2,
“third bit” – 128-NEA3,
other bits reserved for future use. Value ‘1’ indicates support and value ‘0’ indicates no support of the algorithm.
Algorithms are defined in TS 33.401 [15].
NR Integrity Protection Algorithms
M

BIT STRING (SIZE(16, …))
Each position in the bitmap represents an integrity protection algorithm:
“all bits equal to 0” – UE supports no other NR algorithm than NIA0,
“first bit” – 128-NIA1,
“second bit” – 128-NIA2,
“third bit” – 128-NIA3,
other bits reserved for future use.
Value ‘1’ indicates support and value ‘0’ indicates no support of the algorithm.
Algorithms are defined in TS 33.401 [15].

9.2.1.128	UE Application layer measurement configuration
The IE defines configuration information for the QoE Measurement Collection (QMC) function.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Container for application layer measurement configuration
M

Octet string (1..1000)
Indicates application layer measurement configuration, see Annex L in [43].
-
-
CHOICE Area Scope of QMC
M



-
-
>Cell based





-
>>Cell ID List for QMC

1 .. <maxnoofCellIDforQMC>



-
>>>E-CGI
M

9.2.1.38

-
-
>TA based





-
>>TA List for QMC

1 .. <maxnoofTAforQMC>



-
>>>TAC
M

9.2.3.7
The TAI is derived using the current serving PLMN.
-
-
>TAI based




-
-
>>TAI List for QMC

1 .. <maxnoofTAforQMC>


-
-
>>>TAI
M

9.2.3.16

-
-
>PLMN area based





-
>>PLMN List for QMC

1 .. <maxnoofPLMNforQMC>



-
>>>PLMN Identity
M

9.2.3.8

-
-
Service Type
M

ENUMERATED
(QMC for streaming service, QMC for MTSI service, ...)
This IE indicates the service type of UE application layer measurements.
-
-

Range bound
Explanation
maxnoofCellIDforQMC
Maximum no. of Cell ID subject for QMC scope. Value is 32.
maxnoofTAforQMC
Maximum no. of TA subject for QMC scope. Value is 8.
maxnoofPLMNforQMC
Maximum no. of PLMNs in the PLMN list for QMC scope. Value is 16.

9.2.1.129	CE-mode-B Restricted
This IE provides information on the restriction information of using Coverage Enhancement Mode B.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
CE-mode-B Restricted
O

ENUMERATED (restricted, not-restricted...)
Indicates whether the UE is restricted to use coverage enhancement.
Value “restricted” indicates that the UE is not allowed to use coverage enhancement mode B. Value “not-restricted” indicates that the UE is allowed to use coverage enhancement mode B.
-
-

9.2.1.130	Packet Loss Rate
This IE indicates the packet loss rate.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Packet Loss Rate
M

INTEGER(0..1000)
Ratio of lost packets per number of packets sent, expressed in tenth of percent.  
-
-

9.2.1.131 	Global RAN Node ID
This IE is used to globally identify an NG-RAN node.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE NG-RAN node
M



>gNB




>>Global gNB ID
M

9.2.1.132

>ng-eNB




>>Global ng-eNB ID
M

Global eNB ID
9.2.1.37


9.2.1.132	Global gNB ID
This IE is used to globally identify a gNB (see TS 38.300 [45]).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PLMN Identity
M

9.2.3.8

CHOICE gNB ID
M



>gNB ID




>>gNB ID
M

BIT STRING (SIZE(22..32))
Equal to the leftmost bits of the NR Cell Identity IE contained in the NR CGI IE of each cell served by the gNB.

9.2.1.133	Source NG-RAN Node To Target NG-RAN Node Transparent Container
This IE is used to transparently pass radio related information between the handover source and the handover target through the EPC. This container is used for inter 3GPP RAT handovers from EPS to 5GS.
This IE defined in TS 38.413 [44].

9.2.1.134	Target NG-RAN Node To Source NG-RAN Node Transparent Container
This container is used to transparently pass radio related information between the handover target and the handover source through the EPC. This container is used for inter 3GPP RAT handovers from EPS to 5GS.
This IE defined in TS 38.413 [44].
9.2.1.135	LTE-M Indication
This element is provided by the eNB to inform that the UE indicates category M1 or M2 in its UE Radio Capability.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
LTE-M Indication
M

ENUMERATED (LTE-M, ...)

9.2.1.136	Aerial UE subscription information
This information element is used by the eNB to know if the UE is allowed to use aerial UE function, refer to TS 23.401 [11].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Aerial UE subscription information
M

ENUMERATED (allowed, not allowed,…)


9.2.1.137	Bluetooth Measurement Configuration
This IE defines the parameters for Bluetooth measurement collection.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Bluetooth Measurement Configuration
M

ENUMERATED (Setup, …)

Bluetooth Measurement Configuration Name List

0..1

This IE is present if the Bluetooth Measurement Configuration IE is set to “Setup”.
>Bluetooth Measurement Configuration Name Item

1 .. <maxnoofBluetoothName>


>>Bluetooth Measurement Configuration Name
M

OCTET STRING (SIZE (1..248))

BT RSSI
O

ENUMERATED (True, …)
In case of Immediate MDT, it corresponds to M8 measurement as defined in 37.320 [31].

Range bound
Explanation
maxnoofBluetoothName
Maximum no. of Bluetooth local name used for Bluetooth measurement collection. Value is 4.

9.2.1.138	WLAN Measurement Configuration
This IE defines the parameters for WLAN measurement collection.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
WLAN Measurement Configuration
M

ENUMERATED (Setup, …)

WLAN Measurement Configuration Name List

0..1

This IE is present if the WLAN Measurement Configuration IE is set to “Setup”.
>WLAN Measurement Configuration Name Item

1 .. <maxnoofWLANName>


>>WLAN Measurement Configuration Name
M

OCTET STRING (SIZE (1..32))

WLAN RSSI
O

ENUMERATED (True, …)
In case of Immediate MDT, it corresponds to M8 as defined in 37.320 [31].
WLAN RTT
O

ENUMERATED (True, …)
In case of Immediate MDT, it corresponds to M9 as defined in 37.320 [31].

Range bound
Explanation
maxnoofWLANName
Maximum no. of WLAN SSID used for WLAN measurement collection. Value is 4.

9.2.1.139	Warning Area Coordinates
This IE contains the affected alert area coordinates of a warning message, and will be broadcast over the radio interface.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
Warning Area Coordinates
M

OCTET STRING (SIZE(1..1024))
The length of this IE varies between 1 to 1024 bytes.

9.2.1.140	Subscription Based UE Differentiation Information
This IE is generated by the MME based on the UE subscription information, it provides the Subscription Based UE differentiation Information.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Periodic Communication Indicator
O

ENUMERATED(periodically, on demand, …)
This IE indicates whether the UE communicates periodically or not, e.g. only on demand.
Periodic Time
O

INTEGER (1..3600, …)
This IE indicates the interval time of periodic communication, the unit is: second
Scheduled Communication Time

0..1

This IE indicates the time zone and day of the week when the UE is available for communication.
>>Day of Week
O

BIT STRING (SIZE(7))
If Day-Of-Week is not provided this shall be interpreted as every day of the week.
Each position in the bitmap represents a day of the week:
first bit = Mon, second bit =Tue, third bit =Wed, and so on. Value ‘1’ indicates ‘scheduled. Value ‘0’ indicates ‘not scheduled’.
>>Time of Day Start
O

INTEGER (0..86399, …)
This IE indicates the time to start of the day, each value represent the corresponding second since 00:00 of the day.
If Time-Of-Day-Start is not provided, starting time shall be set to start of the day(s) indicated by Day-Of-Week-Mask.
>>Time of Day End
O

INTEGER (0..86399, …)
This IE indicates the time to start of the day, each value represent the corresponding second since 00:00 of the day. The value of this IE should be bigger than the value of Time of Day Start IE.

If Time-Of-Day-End is not provided, ending time is end of the day(s) indicated by Day-Of-Week-Mask.
Stationary Indication
O

ENUMERATED(stationary, mobile, …)

Traffic Profile
O

ENUMERATED(single packet, dual packets, multiple packets, …)
“single packet” indicates single packet transmission (UL or DL),
“dual packets” indicates dual packet transmission (UL with subsequent DL, or DL with subsequent UL),
“multiple packets” indicates multiple packets transmission.
Battery Indication
O

ENUMERATED(battery powered, battery powered not rechargeable or replaceable, not battery powered, …)
“battery powered” indicates that the UE is battery powered and the battery is rechargeable/replaceable, “battery powered not rechargeable or replaceable” indicates that the UE is battery powered but the battery is not rechargeable/replaceable,, “not battery powered” indicates that the UE is not battery powered.

9.2.1.141	PSCell Information
This IE includes the information of the UE’s PSCell.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
NR Cell Identity
M

9.2.1.142


9.2.1.142	NR CGI
This IE is used to globally identify an NR cell (see TS 38.300 [45]).
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PLMN Identity
M

9.2.3.8

Cell Identity
M

BIT STRING (SIZE(36))


9.2.1.143	Time Since Secondary Node Release
This IE indicates the time elapsed since the completion of the EN-DC release procedure.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Time Since Secondary Node Release
O

OCTET STRING (SIZE(4))
Time in seconds. Max value indicates the elapsed time was equal or longer than the value.

9.2.1.144	UE Context Reference at Source
This IE uniquely identifies a UE association over an NG interface and the source NG-RAN node.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Source NG-RAN node
M

Global RAN Node ID
9.2.1.131

–

RAN UE NGAP ID
M

9.2.1.145
Allocated at the source (Master-)NG-RAN node.
–


NOTE:	This IE is used in case of inter-system handover to 4G to enable node-internal data forwarding in case of shared en-gNB/gNBs.
9.2.1.145	RAN UE NGAP ID
This IE uniquely identifies the UE association over the NG interface within the NG-RAN node.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
RAN UE NGAP ID
M

INTEGER (0..232 -1)


9.2.1.146	IAB Authorized
This IE provides information about the authorization status of the IAB-node.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
IAB Authorized
M

ENUMERATED (authorized, not authorized, ...)
Indicates the IAB-node authorization status.

9.2.1.147	Ethernet Type
This IE is used to indicate that Ethernet data is expected.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Ethernet Type
M

ENUMERATED
(True, …,)


9.2.1.148	NR V2X Services Authorized
This IE provides information on the authorization status of the UE to use the NR sidelink for V2X services.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Vehicle UE
O

ENUMERATED (authorized, not authorized, ...)
Indicates whether the UE is authorized as Vehicle UE.
Pedestrian UE
O

ENUMERATED (authorized, not authorized, ...)
Indicates whether the UE is authorized as Pedestrian UE.

9.2.1.149	NR UE Sidelink Aggregate Maximum Bit Rate
This IE provides information on the Aggregate Maximum Bitrate of the UE’s sidelink communication for NR V2X services.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
NR UE Sidelink Aggregate Maximum Bit Rate
M

Bit Rate 9.2.1.19
Value 0 shall be considered as a logical error by the receiving eNB.

9.2.1.150	PC5 QoS Parameters
This IE provides information on the PC5 QoS parameters of the UE’s sidelink communication for NR PC5.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PC5 QoS Flow List

1


>PC5 QoS Flow Item

1..<maxnoofPC5QoSFlows>


>>PQI 
M

INTEGER (0..255, …)
PQI is a special 5QI as specified in TS 23.501 [9].
>>PC5 Flow Bit Rates
O


Only applies for GBR QoS Flows.
>>>Guaranteed Flow Bit Rate
M

Bit Rate
9.2.1.19
Guaranteed Bit Rate for the PC5 QoS flow. Details in TS 23.501 [9].
>>>Maximum Flow Bit Rate
M

Bit Rate
9.2.1.19
Maximum Bit Rate for the PC5 QoS flow. Details in TS 23.501 [9].
>>Range
O

ENUMERATED (m50, m80, m180, m200, m350, m400, m500, m700, m1000, …)
Only applies for groupcast.
PC5 Link Aggregated Bit Rates
O

Bit Rate
9.2.1.19
Only applies for non-GBR QoS Flows.

Range bound
Explanation
maxnoofPC5QoSFlows
Maximum no. of PC5 QoS flows allowed towards one UE. Value is 2048.

9.2.1.151	Inter System Measurement Configuration
The Inter-System Measurement Configuration IE contains information for instructing the incoming UE to continue measuring the cells of the NR RAT after a successful inter-system handover to LTE network. 
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
RSRP
O

INTEGER (0.. 127)
Threshold of RSRP.
-
-
RSRQ
O

INTEGER (0.. 127)
Threshold of RSRQ.
-
-
SINR
O

INTEGER 
(0..127)
Threshold of SINR
-
-
Inter-System Measurement Parameters
M



-
-
>Measurement Duration
M

INTEGER
(1..100)
The period of time following the successful IRAT handover, during which the target RAT instructs the UE to measure cells of the source RAT. Unit: [second].
-
-
>Inter-System Measurement List

0..1


EACH
reject
>>Inter-System Measurement Item

1.. <maxnooffrequencies>

List of inter-system measurements configured
YES
reject
>>>FreqBandIndicatorNR
M

INTEGER (1..1024)
The frequency band in which the ssbFrequency is located and according to which the UE shall perform the RRC measurements.


>>>SSB frequencies
M

INTEGER (0..maxNARFCN)
Designates the specific SSB frequencies i.e., ARFCN-ValueNR which the target RAT may instruct the UE to measure. 
-
-
>>>SubcarrierSpacingSSB
M

ENUMERATED (kHz15, kHz30, kHz60, kHz120, kHz240, ...)
Subcarrier spacing of SSB according to TS 36.331 [16].


>>>maxRS-IndexCellQual
O

INTEGER (1..maxRS-IndexCellQual)
Indicates the maximum number of RS indices to be considered/ averaged to derive the cell quality for RRM.Also defined in TS 36.331 [16]


>>>SMTC
O

OCTET STRING
Contains the MTC-SSB-NR-15 as defined in TS 36.331 [16].


>>>threshRS-Index-r15
O

OCTET STRING
threshRS-Index-r15as defined in TS 36.331 [16]，List of thresholds for consolidation of L1 measurements per RS index


>>>SSB-ToMeasure
O

OCTET STRING
Contains the IE SSB-ToMeasure as defined in TS 36.331 [16].


>>>SS-RSSI-Measurements
O


OCTET STRING
Contains the IE SS-RSSI-Measurement as defined in TS 36.331 [16].


>>>quantityConfigNR-R15
O


OCTET STRING
Indicates the quantityConfigNR-R15 as defined in TS 36.331 [16].


>>>blackCellsToAddModList
O

OCTET STRING
List of cells to add/modify in the black list of cells. It applies only to SSB resources. As defined in TS 36.331 [16].



Range bound
Explanation
maxnooffrequencies
Maximum no. of frequencies. Value is 64.
maxNARFCN
Maximum value of NR carrier frequency, defined in TS 38.331 [50]. Value is 3279165
maxRS-IndexCellQual
Maximum number of RS indices averaged to derive cell quality for RRM, defined in TS 36.331 [16]. Value is 16 

9.2.1.152	Source Node ID
The Source Node ID IE identifies the source for the handover.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE Source Node ID
M



>Source NG-RAN Node ID




>>Global RAN Node ID
M

9.2.1.131

>>Selected TAI
M

5GS TAI
9.2.3.52


9.2.1.153	UE Radio Capability ID
This IE contains UE Radio Capability ID. 
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Radio Capability ID
M

OCTET STRING
Defined in TS 23.003 [21]. 

9.2.1.154	UE Radio Capability – NR Format
This IE contains UE Radio Capability information format encoded as specified in TS 38.331 [50] in order to support Mode of operation A as specified in TS 23.401 [11].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Radio Capability – NR Format
M

OCTET STRING
Includes UERadioAccessCapabilityInformation message as defined in TS 38.331 [50].

9.2.1.155	DAPS Request Information
The DAPS Indicator IE indicates that the source eNB requests a DAPS Handover for the concerned E-RAB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
DAPS Indicator
M

ENUMERATED (DAPS HO required, …)
Indicates that DAPS Handover is requested

9.2.1.156	DAPS Response Information
The DAPS Response Indicator IE indicates the response to a requested DAPS Handover for the concerned E-RAB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
DAPS Response Indicator
M

ENUMERATED (DAPS HO accepted, DAPS HO not accepted, …)
Indicates that DAPS Handover is accepted or not

9.2.1.157	eNB Early Status Transfer Transparent Container
The eNB Early Status Transfer Transparent Container IE is an information element that is produced by the source eNB and is transmitted to the target eNB. This IE is used for the intra SAE/LTE S1 DAPS handover case.
This IE is transparent to the EPC.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
E-RABs Subject to Early Status Transfer List

1


-
-
>E-RABs Subject to Early Status Transfer Item

1 .. <maxnoof E-RABs>


EACH
ignore
>>E-RAB ID
M

9.2.1.2

-
-
>>CHOICE DL COUNT PDCP-SN length
M



YES
reject
>>>12 bit PDCP-SN






>>>> DL COUNT Value for PDCP SN Length 12
M

COUNT Value 9.2.1.32 
PDCP-SN and Hyper frame number of the first DL SDU that the source eNB forwards to the target eNB in case of 12 bit long PDCP-SN.


>>>15 bit PDCP-SN






>>>>DL COUNT Value for PDCP SN Length 15
M

COUNT Value Extended 9.2.1.90
PDCP-SN and Hyper frame number of the first DL SDU that the source eNB forwards to the target eNB in case of 15 bit long PDCP-SN.


>>>18 bit PDCP-SN






>>>>DL COUNT Value for PDCP SN Length 18
M

COUNT Value for PDCP SN Length 18 9.2.1.100
PDCP-SN and Hyper frame number of the first DL SDU that the source eNB forwards to the target eNB in case of 18 bit long PDCP-SN.



Range bound
Explanation
maxnoofE-RABs
Maximum no. of E-RABs for one UE. Value is 256.

9.2.1.158	WUS Assistance Information
This IE provides WUS Assistance Information to be used by eNB for determining the WUS group for the UE.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Paging Probability Information
M

ENUMERATED(p00, p05, p10, p15, p20, p25, p30, p35, p40, p45, p50, p55, p60, p65, p70, p75, p80, p85, p90, p95, p100, …)
Unit: percentage

9.2.1.159	NB-IoT Paging DRX
This IE indicates the NB-IoT UE specific Paging DRX as defined in TS 36.304 [20].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
NB-IoT Paging DRX
M

ENUMERATED(32,64, 128, 256, 512, 1024, …)
Unit: [number of radioframes]
-
-

9.2.1.160	UE Radio Capability for Paging – NR Format
This IE contains paging specific UE Radio Capability information encoded as specified in TS 38.331 [50] in order to support Mode of operation A as specified in TS 23.401 [11].
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
UE Radio Capability for Paging – NR Format
M

OCTET STRING
Includes the RRC UERadioPagingInformation message as defined in TS 38.331 [50].

9.2.2	Transport Network Layer Related IEs
9.2.2.1	Transport Layer Address
This information element is an IP address.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Transport Layer Address
M

BIT STRING (SIZE(1..160, …))
The Radio Network Layer is not supposed to interpret the address information. It should pass it to the transport layer for interpretation.
For details on the Transport Layer Address, see TS 36.414 [12].

9.2.2.2	GTP-TEID
This information element is the GTP Tunnel Endpoint Identifier to be used for the user plane transport between eNB and the serving gateway.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
GTP-TEID
M

OCTET STRING (SIZE(4))
For details and range, see TS 29.281 [32].

9.2.2.3	Tunnel Information
The Tunnel Information IE indicates the transport layer address and UDP port number.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Transport Layer Address
M

9.2.2.1
HeNB’s Transport Layer Address.
UDP Port Numbers
O

OCTET STRING (SIZE(2))
UDP Port Numbers if NAT/NAPT is deployed in the BBF access network.

9.2.2.4	URI
This IE is a URI.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
URI
M

VisibleString
String representing URI (Uniform Resource Identifier)

9.2.3	NAS Related IEs
9.2.3.1	LAI
This information element is used to uniquely identify a Location Area.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
LAI




>PLMN Identity
M

9.2.3.8

>LAC
M

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

9.2.3.2	RAC
This information element is used to identify a Routing Area within a Location Area. It is used for PS services.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
RAC
M

OCTET STRING (SIZE(1))


9.2.3.3	MME UE S1AP ID
The MME UE S1AP ID uniquely identifies the UE association over the S1 interface within the MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MME UE S1AP ID
M

INTEGER (0 .. 232 -1)


9.2.3.4	eNB UE S1AP ID
The eNB UE S1AP ID uniquely identifies the UE association over the S1 interface within the eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
eNB UE S1AP ID
M

INTEGER (0 .. 224 -1)


9.2.3.5	NAS-PDU
This information element contains an EPC – UE or UE – EPC message that is transferred without interpretation in the eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
NAS-PDU
M

OCTET STRING


9.2.3.6	S-TMSI
The Temporary Mobile Subscriber Identity is used for security reasons, to hide the identity of a subscriber.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
MMEC
M

9.2.3.12



M-TMSI
M

OCTET STRING (SIZE (4))
M-TMSI is unique within MME that allocated it.



9.2.3.7	TAC
This information element is used to uniquely identify a Tracking Area Code.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
TAC
M

OCTET STRING (SIZE (2))


9.2.3.8	PLMN Identity
This information element indicates the PLMN Identity.
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).

9.2.3.9	GUMMEI
This information element indicates the globally unique MME identity.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
GUMMEI




>PLMN Identity
M

9.2.3.8

>MME Group ID
M

OCTET STRING (SIZE(2))

>MME code
M

9.2.3.12


9.2.3.10	UE Identity Index value
The UE Identity Index value IE is used by the eNB to calculate the Paging Frame TS 36.304 [20].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
UE Identity Index Value
M

BIT STRING (SIZE(10))
Coded as specified in TS 36.304 [20].

9.2.3.11	IMSI
This information element contains an International Mobile Subscriber Identity, which is commonly used to identify the UE in the CN.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
IMSI
M

OCTET STRING (SIZE (3..8))
- digits 0 to 9, encoded 0000 to 1001,
- 1111 used as filler digit,
two digits per octet,
- bit 4 to 1 of octet n encoding digit 2n-1
- bit 8 to 5 of octet n encoding digit 2n

-Number of decimal digits shall be from 6 to 15 starting with the digits from the PLMN identity.
When the IMSI is made of an odd number of digits, the filler digit shall be added at the end to make an even number of digits of length 2N. The filler digit shall then be consequently encoded as bit 8 to 5 of octet N.

9.2.3.12	MMEC
This information element represents the MME Code to uniquely identify an MME within an MME pool area.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MMEC
M

OCTET STRING (SIZE (1))


9.2.3.13	UE Paging Identity
This IE represents the Identity with which the UE is paged.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE UE Paging Identity
M



>S-TMSI




>>S-TMSI
M

9.2.3.6

>IMSI




>>IMSI
M

9.2.3.11


9.2.3.14	DL Forwarding
This information element indicates that the E-RAB is proposed for forwarding of downlink packets.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
DL Forwarding




>DL Forwarding
M

ENUMERATED (DL forwarding proposed, …) 


9.2.3.15	Direct Forwarding Path Availability
The availability of a direct forwarding path shall be determined by the source eNB. For inter-system handover to NG-RAN, the availability of a direct forwarding path between the source SN and the target NG-RAN node shall be determined by the target NG-RAN node. The EPC behaviour on receipt of this IE is specified in TS 23.401 [11].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Direct Forwarding Path Availability
M

ENUMERATED (Direct Path Available, …) 


9.2.3.16	TAI
This information element is used to uniquely identify a Tracking Area.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
TAI




>PLMN Identity
M

9.2.3.8

>TAC
M

9.2.3.7


9.2.3.17	Relative MME Capacity
This IE indicates the relative processing capacity of an MME with respect to the other MMEs in the pool in order to load-balance MMEs within a pool defined in TS 23.401 [11].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Relative MME Capacity
M

INTEGER (0..255)


9.2.3.18	UE S1AP ID pair
This IE contains a pair of UE S1AP identities.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
MME UE S1AP ID
M

9.2.3.3

-
-
eNB UE S1AP ID
M

9.2.3.4

-
-

9.2.3.19	Overload Response
The Overload Response IE indicates the required behaviour of the eNB in an overload situation.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE Overload Response
M



>Overload Action




>>Overload Action
M

9.2.3.20


9.2.3.20	Overload Action
The Overload Action IE indicates which signalling traffic is subject to rejection by the eNB in an MME overload situation as defined in TS 23.401 [11].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Overload Action
M

ENUMERATED
(Reject RRC connection establishments for non-emergency MO DT, Reject RRC connection establishments for Signalling, Permit Emergency Sessions and mobile terminated services only, …, Permit High Priority Sessions and mobile terminated services only, Reject delay tolerant access, Permit high priority sessions and exception reporting and mobile terminated services only, not accept mo-data or delay tolerant access from CP CIoT)


9.2.3.21	CS Fallback Indicator
The IE indicates that a fallback to the CS domain is needed.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CS Fallback Indicator
M

ENUMERATED(CS Fallback required, … ,
CS Fallback High Priority)


9.2.3.22	CN Domain
This IE indicates whether Paging is originated from the CS or PS domain.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CN Domain
M

ENUMERATED(PS, CS)


9.2.3.23	RIM Transfer
This IE contains the RIM Information (e.g. NACC information) and additionally in uplink transfers the RIM routing address of the destination of this RIM information.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
RIM Transfer




>RIM Information
M

9.2.3.24

>RIM Routing Address
O

9.2.3.25


9.2.3.24	RIM Information
This IE contains the RIM Information (e.g., NACC information) i.e., the BSSGP RIM PDU from the RIM application part contained in the eNB, or the BSSGP RIM PDU to be forwarded to the RIM application part in the eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
RIM Information




>RIM Information
M

OCTET STRING
Contains the BSSGP RIM PDU as defined in TS 48.018 [18].

9.2.3.25	RIM Routing Address
This IE identifies the destination node where the RIM Information needs to be routed by the CN.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
CHOICE RIM Routing Address
M





>GERAN-Cell-ID




-

>>LAI
M

9.2.3.1

-

>>RAC
M

9.2.3.2

-

>>CI
M

OCTET STRING (SIZE(2))

-

>Target RNC-ID




-

>>LAI
M

9.2.3.1

-

>>RAC
O

9.2.3.2

-

>>RNC-ID
M

INTEGER (0..4095)
If the Extended RNC-ID IE is included in the Target ID IE, the RNC-ID IE shall be ignored.
-

>>Extended RNC-ID
O

9.2.1.14
The Extended RNC-ID IE shall be used if the RNC identity has a value larger than 4095.
-

>eHRPD Sector ID




-

>>eHRPD Sector ID
M

OCTET STRING (SIZE(16))
Contains the eHRPD Sector ID as defined in 3GPP2 C.S0024-B [27] sub-section 13.9.
-


9.2.3.26	SON Configuration Transfer
This IE contains the configuration information, used by e.g., SON functionality, and additionally includes the eNB identifier of the destination of this configuration information and the eNB identifier of the source of this information.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
SON Configuration Transfer






>Target eNB-ID
M





>>Global eNB ID
M

9.2.1.37



>>Selected TAI
M

TAI
9.2.3.16



>Source eNB-ID
M





>>Global eNB ID
M

9.2.1.37



>>Selected TAI
M

TAI
9.2.3.16



>SON Information
M

9.2.3.27



>X2 TNL Configuration Info
C-ifSONInformationRequest

9.2.3.29
Source eNB X2 TNL Configuration Info.
YES
ignore
>Synchronisation Information
C-if Activate Muting 

9.2.3.42
Information on cell selected as source of synchronisation and aggressor cells. 
YES
ignore


9.2.3.26a	EN-DC SON Configuration Transfer
This IE contains the configuration information, used by SON functionality for EN-DC for communication between a destination (target) en-gNB and a source eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
EN-DC SON Configuration Transfer




>CHOICE Transfer Type
M



>>Request



NOTE: Used if the SON Information IE indicates a request.
>>>Source eNB-ID

1


>>>>Global eNB ID
M

9.2.1.37

>>>>Selected TAI
M

TAI
9.2.3.16

>>>Target en-gNB-ID

1


>>>>Global en-gNB ID
M

9.2.1.37a

>>>>Selected TAI
M

TAI
9.2.3.16
The MME may ignore this IE if any of the following IEs are present in the EN-DC SON Configuration Transfer IE:  Target eNB-ID, Associated TAI, Broadcast 5GS TAI.
NOTE: The Selected TAI is a 4G TAI and should, if available, correspond to the TAI configured at the en-gNB, however, this TAI is not broadcast by the respective NR cell and may not always be available from UE reporting TAIs of overlapping E-UTRA cells.
>>>Target eNB-ID

0..1


>>>>Global eNB ID
M

9.2.1.37

>>>>Selected TAI
M

TAI
9.2.3.16

>>>Associated TAI
O

TAI
9.2.3.16
A 4G TAI associated with the target en-gNB as specified in TS 36.300 [15].
>>>Broadcast 5GS TAI
O

5GS TAI
9.3.2.52
A Broadcast 5GS TAI of the en-gNB as specified in TS 36.300 [15].
>>Reply



NOTE: Used if the SON Information IE indicates a reply.
>>>Source en-gNB-ID

1


>>>>Global en-gNB ID
M

9.2.1.37a

>>>>Selected TAI
M

TAI
9.2.3.16
NOTE: The Selected TAI contains a configured TAC of the en-gNB.
>>>Target eNB-ID

1


>>>>Global eNB ID
M

9.2.1.37

>>>>Selected TAI
M

TAI
9.2.3.16

>SON Information
M

9.2.3.27

>X2 TNL Configuration Info
C-ifSONInformationRequest

9.2.3.29
Source eNB X2 TNL Configuration Info.

Condition
Explanation
ifSONInformationRequest
This IE shall be present if the SON Information IE contains the SON Information Request IE set to “X2 TNL Configuration Info”

9.2.3.27	SON Information
This IE identifies the nature of the configuration information transferred, i.e., a request, a reply or a report.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
CHOICE SON Information
M





>SON Information Request






>>SON Information Request
M

ENUMERATED(X2 TNL Configuration Info, …, Time synchronisation Info, Activate Muting, Deactivate Muting)
In the current version of the specification only "X2 NTL Configuration Info" is applicable for EN-DC.
-

>SON Information Reply






>>SON Information Reply
M

9.2.3.28

-

>SON Information Report






>>SON Information Report
M

9.2.3.39

YES
ignore

9.2.3.28	SON Information Reply
This IE contains the configuration information to be replied to the eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
SON Information Reply






>X2 TNL Configuration Info
O

9.2.3.29



>Time Synchronisation Info
O

9.2.3.34

YES
ignore
>Muting Pattern Information
O

9.2.3.41

YES
ignore

9.2.3.29	X2 TNL Configuration Info
The X2 TNL Configuration Info IE is used for signalling X2 TNL Configuration information for automatic X2 SCTP association establishment. It contains TNL addresses of either an eNB or, in the context of EN-DC, of an en-gNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
eNB X2 Transport Layer Addresses

1 .. <maxnoofeNBX2TLAs>




>Transport Layer Address
M

9.2.2.1
Transport Layer Addresses for X2 SCTP end-point.


eNB X2 Extended Transport Layer Addresses

0 .. <maxnoofeNBX2ExtTLAs>


YES
ignore
>IP-Sec Transport Layer Address
O

9.2.2.1
Transport Layer Addresses for IP-Sec end-point.
-
-
>eNB GTP Transport Layer Addresses

0 .. <maxnoofeNBX2GTPTLAs>


-
-
>>GTP Transport Layer Address
M

9.2.2.1
GTP Transport Layer Addresses for GTP end-points (used for data forwarding over X2 or for transport of X2-U user data for dual connectivity).
-
-
eNB Indirect X2 Transport Layer Addresses

0 .. <maxnoofeNBX2TLAs>


YES
ignore
>Transport Layer Address
O

9.2.2.1
Transport Layer Addresses for Indirect X2 SCTP end-point.



Range bound
Explanation
maxnoofeNBX2TLAs
Maximum no. of eNB X2 Transport Layer Addresses for an SCTP end-point. Value is 2.
maxnoofeNBX2ExtTLAs
Maximum no. of eNB X2 Extended Transport Layer Addresses in the message. Value is 16.
maxnoofeNBX2GTPTLAs
Maximum no. of eNB X2 GTP Transport Layer Addresses for an GTP end-point in the message. Value is 16.

9.2.3.30	NAS Security Parameters from E-UTRAN
The purpose of the NAS Security Parameters from E-UTRAN IE is to provide security related parameters for I-RAT handovers from E-UTRAN via the eNB to the UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
NAS Security Parameters from E-UTRAN
M

OCTET STRING
Coded as the value part of NAS security parameters from E-UTRA IE defined in TS 24.301 [24].

9.2.3.31	NAS Security Parameters to E-UTRAN
The purpose of the NAS Security Parameters to E-UTRAN IE is to provide security related parameters for I-RAT handovers to E-UTRAN via the RNC or BSS to the UE.
IE/Group Name
Presence
Range
IE Type and Reference
Semantics Description
NAS Security Parameters to E-UTRAN
M

OCTET STRING
Coded as the value part of NAS security parameters to E-UTRA IE defined in TS 24.301 [24].

9.2.3.32	LPPa-PDU
This information element contains an eNB – E-SMLC or E-SMLC – eNB message that is transferred without interpretation in the MME.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
LPPa-PDU
M

OCTET STRING


9.2.3.33	Routing ID
This information element is used to identify an E-SMLC within the EPC.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Routing ID
M

INTEGER (0..255) 


9.2.3.34	Time Synchronisation Info
The Time Synchronisation Info IE is used for signalling stratum level, synchronisation status and muting availability for over-the-air synchronisation using network listening.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Criticality
Assigned Criticality
Synchronisation Info






>Stratum Level
M

INTEGER (0..3, …)



>Synchronisation status
M

ENUMERATED(Synchronous, Asynchronous, …)



>Muting Availability Indication
O

ENUMERATED (Available, Unavailable, …)
Indicates availability of muting activation.
YES
ignore

9.2.3.35	Void
9.2.3.36	Traffic Load Reduction Indication
The Traffic Load Reduction Indication IE indicates the percentage of the type of traffic relative to the instantaneous incoming rate at the eNB, as indicated in the Overload Action IE, to be rejected.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Traffic Load Reduction Indication
M

INTEGER (1..99)


9.2.3.37	Additional CS Fallback Indicator
The IE indicates whether the restrictions contained in the Handover Restriction List IE apply or not to the CS Fallback High Priority call.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Additional CS Fallback Indicator
M

ENUMERATED(no restriction, restriction, ...)


9.2.3.38	Masked IMEISV
This information element contains the IMEISV value with a mask, to identify a terminal model without identifying an individual Mobile Equipment.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Masked IMEISV
M

BIT STRING (SIZE (64))
Coded as the International Mobile station Equipment Identity and Software Version Number (IMEISV) defined in TS 23.003 [21] with the last 4 digits of the SNR masked by setting the corresponding bits to 1.
The first to fourth bits correspond to the first digit of the IMEISV, the fifth to eighth bits correspond to the second digit of the IMEISV, and so on.

9.2.3.39	SON Information Report
This IE contains the configuration information to be transferred to the eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE SON Information Report 
M



>RLF Report Information




>>RLF Report Information
M

9.2.3.40


9.2.3.40	RLF Report Information 
This IE contains the RLF report information to be transferred to the eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description

UE RLF Report Container
M

OCTET STRING
rlf-Report-r9 contained in UEInformationResponse message as defined in TS 36.331 [16].

UE RLF Report Container for extended bands
O

OCTET STRING
rlf-Report-v9e0 contained in the UEInformationResponse message (TS 36.331 [16])


NB-IoT RLF Report Container
O

OCTET STRING
rlf-Report-NB-r16 contained in UEInformationResponse-NB message, as defined in TS 36.331 [16].

9.2.3.41	Muting Pattern Information
This information element contains muting pattern information that can be used for over-the-air synchronisation using network listening.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Muting Pattern Period
M

ENUMERATED (0, 1280, 2560, 5120, 10240, …)
Period for repetition of muted subframe in milliseconds. Value ‘0’ indicates that the muting request is not fulfilled.
Muting Pattern Offset
O

INTEGER (0..10239,…) 
Offset in number of subframes of the muting pattern starting from subframe 0 in a radio frame where SFN = 0.
If this IE is not present, the receiving eNB may consider the requested muting pattern offset in the former request has been accepted.

9.2.3.42	Synchronisation Information
This information element contains information concerning the cell selected as source of synchronisation signal by the sending eNB.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Source Stratum Level
O

INTEGER (0..3, …)
Stratum Level of cell selected as synchronisation source. The range of this IE is limited to 0..2.
Listening Subframe Pattern
O

9.2.3.43
Subframe pattern where the Reference Signals can be detected for synchronisation.
Aggressor Cell List

0..1

List of cells for which the muting pattern need to be activated.
>Aggressor E-CGI List 

1..<maxnoofCellsineNB>


>>E-CGI
M

9.2.1.38


Range bound
Explanation
maxnoofCellsineNB
Maximum no. cells that can be served by an eNB. Value is 256.

9.2.3.43	Listening Subframe Pattern
This information element contains information concerning the pattern of subframes where the reference signals can be detected for the purpose of over the air synchronisation via network listening.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Pattern Period
M

ENUMERATED (1280, 2560, 5120, 10240, …)
Period in milliseconds for repetition of the subframe where reference signals are available.
Pattern Offset
M

INTEGER (0..10239,…)
Offset in number of subframes of the reference signals starting from subframe 0 in a radio frame where SFN = 0.

9.2.3.44	MME Group ID
This information element contains information concerning the MME Group ID that identifies a group of MME’s.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
MME Group ID
M

OCTET STRING (SIZE(2))
The MME Group ID is defined in TS 23.003 [21]

9.2.3.45	Additional GUTI
This information element contains DCN related information to for identification of a CN node.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
GUMMEI
M

9.2.3.9

M-TMSI
M

OCTET STRING (SIZE (4))


9.2.3.46	Extended UE Identity Index Value
The Extended UE Identity Index Value IE is used by the eNB to calculate the paging resources to be used for the UE, as defined in TS 36.304 [20].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Extended UE Identity Index Value
M

BIT STRING (SIZE(14))
Corresponds to the UE_ID used to determine the Paging Narrowband and the NB-IoT paging carrier as specified in TS 36.304 [20].

9.2.3.47	NB-IoT UE Identity Index Value
The NB-IoT UE Identity Index Value IE is used by the eNB to calculate the paging resources to be used for the UE, as defined in TS 36.304 [20].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
NB-IoT UE Identity Index Value
M

BIT STRING (SIZE(12))
Coded as specified in TS 36.304 [20].

9.2.3.48	DL NAS PDU Delivey Request
This IE indicates the request to acknowledge the successful delivery of a downlink NAS PDU as specified in TS 23.401 [11].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
DL NAS PDU Delivery Request
M

ENUMERATED (requested, …) 


9.2.3.49	DL CP Security Information
The DL CP Security Information IE contains NAS level security information to be forwarded to the UE as described in TS 33.401 [15].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
DL NAS MAC
M

BIT STRING (SIZE(16))
Defined in TS 33.401 [15].

9.2.3.50	UL CP Security Information
The UL CP Security Information IE contains NAS level security information to enable UE authentication by the MME as described in TS 33.401 [15].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
UL NAS MAC
M

BIT STRING (SIZE(16))
Defined in TS 33.401 [15].
UL NAS Count
M

BIT STRING (SIZE(5))
Defined in TS 33.401 [15].
9.2.3.51	UE Capability Info Request
This IE indicates the request to provide to the MME the UE capability related information when retrieved from the UE.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
UE Capability Info Request
M

ENUMERATED (requested, …) 


9.2.3.52	5GS TAI
This information element is used to uniquely identify a 5GS Tracking Area.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
TAI




>PLMN Identity
M

9.2.3.8

>5GS TAC
M

9.2.3.53


9.2.3.53	5GS TAC
This information element is used to uniquely identify a 5GS Tracking Area Code.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
5GS TAC
M

OCTET STRING (SIZE (3))


9.2.3.54	End Indication
The End Indication IE indicates that there are no further NAS PDUs to be transmitted for this UE.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
End Indication
M

ENUMERATED (no further data, further data exists, …)


9.2.3.55	Pending Data Indication
This IE indicates that the MME is aware of pending signalling or data in the network for the UE, or that the MME expects a response from the UE.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Pending Data Indication
M

ENUMERATED (true, …)


9.3	Message and Information Element Abstract Syntax (with ASN.1)
9.3.0	General
S1AP ASN.1 definition conforms to ITU-T Rec. X.691 [4], ITU-T Rec. X.680 [5] and ITU-T Rec. X.681 [6].
The ASN.1 definition specifies the structure and content of S1AP messages. S1AP 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 S1AP 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 where 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 will have different IE IDs.
If a S1AP 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.
Subclause 9.3 presents the Abstract Syntax of S1AP 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, where the tabular format shall take precedence.
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 interoperability;
-	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
--
-- **************************************************************

S1AP-PDU-Descriptions  { 
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
eps-Access (21) modules (3) s1ap (1) version1 (1) s1ap-PDU-Descriptions (0)}

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

-- **************************************************************
--
-- IE parameter types from other modules.
--
-- **************************************************************

IMPORTS
	Criticality,
	ProcedureCode
FROM S1AP-CommonDataTypes

	CellTrafficTrace,
	DeactivateTrace,
	DownlinkUEAssociatedLPPaTransport,
	DownlinkNASTransport,
	DownlinkNonUEAssociatedLPPaTransport,
	DownlinkS1cdma2000tunnelling,
	ENBDirectInformationTransfer,
	ENBStatusTransfer,
	ENBConfigurationUpdate,
	ENBConfigurationUpdateAcknowledge,
	ENBConfigurationUpdateFailure,
	ErrorIndication,
	HandoverCancel,
	HandoverCancelAcknowledge,
	HandoverCommand,
	HandoverFailure,
	HandoverNotify,
	HandoverPreparationFailure,
	HandoverRequest,
	HandoverRequestAcknowledge,
	HandoverRequired,
	InitialContextSetupFailure,
	InitialContextSetupRequest,
	InitialContextSetupResponse,
	InitialUEMessage,
	KillRequest,
	KillResponse,
	LocationReportingControl,
	LocationReportingFailureIndication,
	LocationReport,
	MMEConfigurationUpdate,
	MMEConfigurationUpdateAcknowledge,
	MMEConfigurationUpdateFailure,
	MMEDirectInformationTransfer,
	MMEStatusTransfer,
	NASNonDeliveryIndication,
	OverloadStart,
	OverloadStop,
	Paging,
	PathSwitchRequest,
	PathSwitchRequestAcknowledge,
	PathSwitchRequestFailure,	
	PrivateMessage,
	Reset,
	ResetAcknowledge,
	S1SetupFailure,
	S1SetupRequest,
	S1SetupResponse,
	E-RABModifyRequest,
	E-RABModifyResponse,
	E-RABModificationIndication,
	E-RABModificationConfirm,
	E-RABReleaseCommand,
	E-RABReleaseResponse,
	E-RABReleaseIndication,
	E-RABSetupRequest,
	E-RABSetupResponse,
	TraceFailureIndication,
	TraceStart,
	UECapabilityInfoIndication,
	UEContextModificationFailure,
	UEContextModificationRequest,
	UEContextModificationResponse,
	UEContextReleaseCommand,
	UEContextReleaseComplete,
	UEContextReleaseRequest,
	UERadioCapabilityMatchRequest,
	UERadioCapabilityMatchResponse,
	UplinkUEAssociatedLPPaTransport,
	UplinkNASTransport,
	UplinkNonUEAssociatedLPPaTransport,
	UplinkS1cdma2000tunnelling,
	WriteReplaceWarningRequest,
	WriteReplaceWarningResponse,
	ENBConfigurationTransfer,
	MMEConfigurationTransfer,
	PWSRestartIndication,
	UEContextModificationIndication,
	UEContextModificationConfirm,
	RerouteNASRequest,
	PWSFailureIndication,
	UEContextSuspendRequest,
	UEContextSuspendResponse,
	UEContextResumeRequest,
	UEContextResumeResponse,
	UEContextResumeFailure,
	ConnectionEstablishmentIndication,
	NASDeliveryIndication,
	RetrieveUEInformation,
	UEInformationTransfer,
	ENBCPRelocationIndication,
	MMECPRelocationIndication,
	SecondaryRATDataUsageReport,
	UERadioCapabilityIDMappingRequest,
	UERadioCapabilityIDMappingResponse,
	HandoverSuccess,
	ENBEarlyStatusTransfer,
	MMEEarlyStatusTransfer


FROM S1AP-PDU-Contents
	
	id-CellTrafficTrace,
	id-DeactivateTrace,
	id-downlinkUEAssociatedLPPaTransport,
	id-downlinkNASTransport,
	id-downlinkNonUEAssociatedLPPaTransport,
	id-DownlinkS1cdma2000tunnelling,
	id-eNBStatusTransfer,
	id-ErrorIndication,
	id-HandoverCancel,
	id-HandoverNotification,
	id-HandoverPreparation,
	id-HandoverResourceAllocation,
	id-InitialContextSetup,
	id-initialUEMessage,
	id-ENBConfigurationUpdate,
	id-Kill,
	id-LocationReportingControl,
	id-LocationReportingFailureIndication,
	id-LocationReport,
	id-eNBDirectInformationTransfer,
	id-MMEConfigurationUpdate,
	id-MMEDirectInformationTransfer,
	id-MMEStatusTransfer,
	id-NASNonDeliveryIndication,
	id-OverloadStart,
	id-OverloadStop,
	id-Paging,
	id-PathSwitchRequest,
	id-PrivateMessage,
	id-Reset,
	id-S1Setup,
	id-E-RABModify,
	id-E-RABModificationIndication,
	id-E-RABRelease,
	id-E-RABReleaseIndication,
	id-E-RABSetup,
	id-TraceFailureIndication,
	id-TraceStart,
	id-UECapabilityInfoIndication,
	id-UEContextModification,
	id-UEContextRelease,
	id-UEContextReleaseRequest,
	id-UERadioCapabilityMatch,
	id-uplinkUEAssociatedLPPaTransport,
	id-uplinkNASTransport,
	id-uplinkNonUEAssociatedLPPaTransport,
	id-UplinkS1cdma2000tunnelling,
	id-WriteReplaceWarning,
	id-eNBConfigurationTransfer,
	id-MMEConfigurationTransfer,
	id-PWSRestartIndication,
	id-UEContextModificationIndication,
	id-RerouteNASRequest,
	id-PWSFailureIndication,
	id-UEContextSuspend,
	id-UEContextResume,
	id-ConnectionEstablishmentIndication,
	id-NASDeliveryIndication,
	id-RetrieveUEInformation,
	id-UEInformationTransfer,
	id-eNBCPRelocationIndication,
	id-MMECPRelocationIndication,
	id-SecondaryRATDataUsageReport,
	id-UERadioCapabilityIDMapping,
	id-HandoverSuccess,
	id-eNBEarlyStatusTransfer,
	id-MMEEarlyStatusTransfer


FROM S1AP-Constants;


-- **************************************************************
--
-- Interface Elementary Procedure Class
--
-- **************************************************************

S1AP-ELEMENTARY-PROCEDURE ::= CLASS {
	&InitiatingMessage				,
	&SuccessfulOutcome							OPTIONAL,
	&UnsuccessfulOutcome						OPTIONAL,
	&procedureCode				ProcedureCode 	UNIQUE,
	&criticality				Criticality 	DEFAULT ignore
}
WITH SYNTAX {
	INITIATING MESSAGE			&InitiatingMessage
	[SUCCESSFUL OUTCOME			&SuccessfulOutcome]
	[UNSUCCESSFUL OUTCOME		&UnsuccessfulOutcome]
	PROCEDURE CODE				&procedureCode
	[CRITICALITY				&criticality]
}

-- **************************************************************
--
-- Interface PDU Definition
--
-- **************************************************************

S1AP-PDU ::= CHOICE {
	initiatingMessage	InitiatingMessage,
	successfulOutcome	SuccessfulOutcome,
	unsuccessfulOutcome	UnsuccessfulOutcome,
	...
}

InitiatingMessage ::= SEQUENCE {
	procedureCode	S1AP-ELEMENTARY-PROCEDURE.&procedureCode		({S1AP-ELEMENTARY-PROCEDURES}),
	criticality		S1AP-ELEMENTARY-PROCEDURE.&criticality			({S1AP-ELEMENTARY-PROCEDURES}{@procedureCode}),
	value			S1AP-ELEMENTARY-PROCEDURE.&InitiatingMessage	({S1AP-ELEMENTARY-PROCEDURES}{@procedureCode})
}

SuccessfulOutcome ::= SEQUENCE {
	procedureCode	S1AP-ELEMENTARY-PROCEDURE.&procedureCode		({S1AP-ELEMENTARY-PROCEDURES}),
	criticality		S1AP-ELEMENTARY-PROCEDURE.&criticality			({S1AP-ELEMENTARY-PROCEDURES}{@procedureCode}),
	value			S1AP-ELEMENTARY-PROCEDURE.&SuccessfulOutcome	({S1AP-ELEMENTARY-PROCEDURES}{@procedureCode})
}

UnsuccessfulOutcome ::= SEQUENCE {
	procedureCode	S1AP-ELEMENTARY-PROCEDURE.&procedureCode		({S1AP-ELEMENTARY-PROCEDURES}),
	criticality		S1AP-ELEMENTARY-PROCEDURE.&criticality			({S1AP-ELEMENTARY-PROCEDURES}{@procedureCode}),
	value			S1AP-ELEMENTARY-PROCEDURE.&UnsuccessfulOutcome	({S1AP-ELEMENTARY-PROCEDURES}{@procedureCode})
}

-- **************************************************************
--
-- Interface Elementary Procedure List
--
-- **************************************************************

S1AP-ELEMENTARY-PROCEDURES S1AP-ELEMENTARY-PROCEDURE ::= {
	S1AP-ELEMENTARY-PROCEDURES-CLASS-1			|
	S1AP-ELEMENTARY-PROCEDURES-CLASS-2,	
	...
}


S1AP-ELEMENTARY-PROCEDURES-CLASS-1 S1AP-ELEMENTARY-PROCEDURE ::= {
	handoverPreparation				|
	handoverResourceAllocation		|
	pathSwitchRequest 				|
	e-RABSetup						|
	e-RABModify						|
	e-RABRelease					|
	initialContextSetup				|
	handoverCancel					|
	kill							|
	reset							|
	s1Setup							|
	uEContextModification			|
	uEContextRelease				|
	eNBConfigurationUpdate			|
	mMEConfigurationUpdate			|
	writeReplaceWarning				,
	...,
	uERadioCapabilityMatch						|
	e-RABModificationIndication					|
	uEContextModificationIndication				|
	uEContextSuspend							|
	uEContextResume								|
	uERadioCapabilityIDMapping
}

S1AP-ELEMENTARY-PROCEDURES-CLASS-2 S1AP-ELEMENTARY-PROCEDURE ::= {	
	handoverNotification			|
	e-RABReleaseIndication			|
	paging 							|
	downlinkNASTransport			|
	initialUEMessage				|
	uplinkNASTransport				|
	errorIndication					|
	nASNonDeliveryIndication		|
	uEContextReleaseRequest			|
	downlinkS1cdma2000tunnelling	|
	uplinkS1cdma2000tunnelling		|
	uECapabilityInfoIndication		|
	eNBStatusTransfer				|
	mMEStatusTransfer				|
	deactivateTrace					|
	traceStart						|
	traceFailureIndication			|
	cellTrafficTrace				|
	locationReportingControl		|
	locationReportingFailureIndication	|
	locationReport					|
	overloadStart					|
	overloadStop					|
	eNBDirectInformationTransfer	|
	mMEDirectInformationTransfer	|
	eNBConfigurationTransfer		|
	mMEConfigurationTransfer		|
	privateMessage					,
	...,
	downlinkUEAssociatedLPPaTransport	|
	uplinkUEAssociatedLPPaTransport	|
	downlinkNonUEAssociatedLPPaTransport	|
	uplinkNonUEAssociatedLPPaTransport	|
	pWSRestartIndication			|
	rerouteNASRequest				|
	pWSFailureIndication						|
	connectionEstablishmentIndication	|
	nASDeliveryIndication			|
	retrieveUEInformation			|
	uEInformationTransfer			|
	eNBCPRelocationIndication					|
	mMECPRelocationIndication		|
	secondaryRATDataUsageReport					|
	handoverSuccess								|
	eNBEarlyStatusTransfer						|
	mMEEarlyStatusTransfer
}

-- **************************************************************
--
-- Interface Elementary Procedures
--
-- **************************************************************

handoverPreparation S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		HandoverRequired
	SUCCESSFUL OUTCOME		HandoverCommand
	UNSUCCESSFUL OUTCOME	HandoverPreparationFailure
	PROCEDURE CODE			id-HandoverPreparation
	CRITICALITY				reject
}

handoverResourceAllocation S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		HandoverRequest
	SUCCESSFUL OUTCOME		HandoverRequestAcknowledge
	UNSUCCESSFUL OUTCOME	HandoverFailure
	PROCEDURE CODE			id-HandoverResourceAllocation
	CRITICALITY				reject
}

handoverNotification S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		HandoverNotify
	PROCEDURE CODE			id-HandoverNotification
	CRITICALITY				ignore
}

pathSwitchRequest S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		PathSwitchRequest
	SUCCESSFUL OUTCOME		PathSwitchRequestAcknowledge
	UNSUCCESSFUL OUTCOME	PathSwitchRequestFailure
	PROCEDURE CODE			id-PathSwitchRequest
	CRITICALITY				reject
}

e-RABSetup S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		E-RABSetupRequest
	SUCCESSFUL OUTCOME		E-RABSetupResponse
	PROCEDURE CODE			id-E-RABSetup
	CRITICALITY				reject
}

e-RABModify S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		E-RABModifyRequest
	SUCCESSFUL OUTCOME		E-RABModifyResponse
	PROCEDURE CODE			id-E-RABModify
	CRITICALITY				reject
}

e-RABRelease S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		E-RABReleaseCommand
	SUCCESSFUL OUTCOME		E-RABReleaseResponse
	PROCEDURE CODE			id-E-RABRelease
	CRITICALITY				reject
}

e-RABReleaseIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		E-RABReleaseIndication
	PROCEDURE CODE			id-E-RABReleaseIndication
	CRITICALITY				ignore
}

initialContextSetup S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		InitialContextSetupRequest
	SUCCESSFUL OUTCOME		InitialContextSetupResponse
	UNSUCCESSFUL OUTCOME 	InitialContextSetupFailure
	PROCEDURE CODE			id-InitialContextSetup
	CRITICALITY				reject
}

uEContextReleaseRequest S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UEContextReleaseRequest
	PROCEDURE CODE			id-UEContextReleaseRequest
	CRITICALITY				ignore
}

paging S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		Paging
	PROCEDURE CODE			id-Paging
	CRITICALITY				ignore
}

downlinkNASTransport S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		DownlinkNASTransport
	PROCEDURE CODE			id-downlinkNASTransport
	CRITICALITY				ignore
}

initialUEMessage S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		InitialUEMessage
	PROCEDURE CODE			id-initialUEMessage
	CRITICALITY				ignore
}

uplinkNASTransport S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UplinkNASTransport
	PROCEDURE CODE			id-uplinkNASTransport
	CRITICALITY				ignore
}
nASNonDeliveryIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		NASNonDeliveryIndication
	PROCEDURE CODE			id-NASNonDeliveryIndication
	CRITICALITY				ignore
}

handoverCancel S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		HandoverCancel
	SUCCESSFUL OUTCOME		HandoverCancelAcknowledge
	PROCEDURE CODE			id-HandoverCancel
	CRITICALITY				reject
}

reset S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		Reset
	SUCCESSFUL OUTCOME		ResetAcknowledge
	PROCEDURE CODE			id-Reset
	CRITICALITY				reject
}

errorIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		ErrorIndication
	PROCEDURE CODE			id-ErrorIndication
	CRITICALITY				ignore
}

s1Setup S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		S1SetupRequest
	SUCCESSFUL OUTCOME		S1SetupResponse
	UNSUCCESSFUL OUTCOME 	S1SetupFailure
	PROCEDURE CODE			id-S1Setup
	CRITICALITY				reject
}

eNBConfigurationUpdate S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		ENBConfigurationUpdate
	SUCCESSFUL OUTCOME		ENBConfigurationUpdateAcknowledge
	UNSUCCESSFUL OUTCOME 	ENBConfigurationUpdateFailure
	PROCEDURE CODE			id-ENBConfigurationUpdate
	CRITICALITY				reject
}

mMEConfigurationUpdate S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		MMEConfigurationUpdate
	SUCCESSFUL OUTCOME		MMEConfigurationUpdateAcknowledge
	UNSUCCESSFUL OUTCOME 	MMEConfigurationUpdateFailure
	PROCEDURE CODE			id-MMEConfigurationUpdate
	CRITICALITY				reject
}

downlinkS1cdma2000tunnelling S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		DownlinkS1cdma2000tunnelling
	PROCEDURE CODE			id-DownlinkS1cdma2000tunnelling
	CRITICALITY				ignore
}

uplinkS1cdma2000tunnelling S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UplinkS1cdma2000tunnelling
	PROCEDURE CODE			id-UplinkS1cdma2000tunnelling
	CRITICALITY				ignore
}

uEContextModification S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UEContextModificationRequest
	SUCCESSFUL OUTCOME		UEContextModificationResponse
	UNSUCCESSFUL OUTCOME 	UEContextModificationFailure
	PROCEDURE CODE			id-UEContextModification
	CRITICALITY				reject
}

uECapabilityInfoIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UECapabilityInfoIndication
	PROCEDURE CODE			id-UECapabilityInfoIndication
	CRITICALITY				ignore
}

uEContextRelease S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UEContextReleaseCommand
	SUCCESSFUL OUTCOME		UEContextReleaseComplete
	PROCEDURE CODE			id-UEContextRelease
	CRITICALITY				reject
}

eNBStatusTransfer S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		ENBStatusTransfer
	PROCEDURE CODE			id-eNBStatusTransfer
	CRITICALITY				ignore
}

mMEStatusTransfer S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		MMEStatusTransfer
	PROCEDURE CODE			id-MMEStatusTransfer
	CRITICALITY				ignore
}

deactivateTrace S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		DeactivateTrace
	PROCEDURE CODE			id-DeactivateTrace
	CRITICALITY				ignore
}

traceStart S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		TraceStart
	PROCEDURE CODE			id-TraceStart
	CRITICALITY				ignore
}

traceFailureIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		TraceFailureIndication
	PROCEDURE CODE			id-TraceFailureIndication
	CRITICALITY				ignore
}
cellTrafficTrace S1AP-ELEMENTARY-PROCEDURE ::={
INITIATING MESSAGE		CellTrafficTrace
PROCEDURE CODE			id-CellTrafficTrace
CRITICALITY				ignore
}

locationReportingControl S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		LocationReportingControl
	PROCEDURE CODE			id-LocationReportingControl
	CRITICALITY				ignore
}

locationReportingFailureIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		LocationReportingFailureIndication
	PROCEDURE CODE			id-LocationReportingFailureIndication
	CRITICALITY				ignore
}

locationReport S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		LocationReport
	PROCEDURE CODE			id-LocationReport
	CRITICALITY				ignore
}

overloadStart S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		OverloadStart
	PROCEDURE CODE			id-OverloadStart
	CRITICALITY				ignore
}

overloadStop S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		OverloadStop
	PROCEDURE CODE			id-OverloadStop
	CRITICALITY				reject
}

writeReplaceWarning S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		WriteReplaceWarningRequest
	SUCCESSFUL OUTCOME		WriteReplaceWarningResponse
	PROCEDURE CODE			id-WriteReplaceWarning
	CRITICALITY				reject
}

eNBDirectInformationTransfer S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		ENBDirectInformationTransfer
	PROCEDURE CODE			id-eNBDirectInformationTransfer
	CRITICALITY				ignore
}

mMEDirectInformationTransfer S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		MMEDirectInformationTransfer
	PROCEDURE CODE			id-MMEDirectInformationTransfer
	CRITICALITY				ignore
}

eNBConfigurationTransfer S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		ENBConfigurationTransfer
	PROCEDURE CODE			id-eNBConfigurationTransfer
	CRITICALITY				ignore
}

mMEConfigurationTransfer S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		MMEConfigurationTransfer
	PROCEDURE CODE			id-MMEConfigurationTransfer
	CRITICALITY				ignore
}


privateMessage S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		PrivateMessage
	PROCEDURE CODE			id-PrivateMessage
	CRITICALITY				ignore
}

pWSRestartIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		PWSRestartIndication
	PROCEDURE CODE			id-PWSRestartIndication
	CRITICALITY				ignore
}

kill S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		KillRequest
	SUCCESSFUL OUTCOME		KillResponse
	PROCEDURE CODE			id-Kill
	CRITICALITY				reject
}

downlinkUEAssociatedLPPaTransport S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		DownlinkUEAssociatedLPPaTransport
	PROCEDURE CODE			id-downlinkUEAssociatedLPPaTransport
	CRITICALITY				ignore
}

uplinkUEAssociatedLPPaTransport S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UplinkUEAssociatedLPPaTransport
	PROCEDURE CODE			id-uplinkUEAssociatedLPPaTransport
	CRITICALITY				ignore
}
downlinkNonUEAssociatedLPPaTransport S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		DownlinkNonUEAssociatedLPPaTransport
	PROCEDURE CODE			id-downlinkNonUEAssociatedLPPaTransport
	CRITICALITY				ignore
}

uplinkNonUEAssociatedLPPaTransport S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UplinkNonUEAssociatedLPPaTransport
	PROCEDURE CODE			id-uplinkNonUEAssociatedLPPaTransport
	CRITICALITY				ignore
}

uERadioCapabilityMatch S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UERadioCapabilityMatchRequest
	SUCCESSFUL OUTCOME		UERadioCapabilityMatchResponse
	PROCEDURE CODE			id-UERadioCapabilityMatch
	CRITICALITY				reject
}

e-RABModificationIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		E-RABModificationIndication
	SUCCESSFUL OUTCOME		E-RABModificationConfirm
	PROCEDURE CODE			id-E-RABModificationIndication
	CRITICALITY				reject
}

uEContextModificationIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UEContextModificationIndication
	SUCCESSFUL OUTCOME		UEContextModificationConfirm
	PROCEDURE CODE			id-UEContextModificationIndication
	CRITICALITY				reject
}

rerouteNASRequest S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		RerouteNASRequest
	PROCEDURE CODE			id-RerouteNASRequest
	CRITICALITY				reject
}

pWSFailureIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		PWSFailureIndication
	PROCEDURE CODE			id-PWSFailureIndication
	CRITICALITY				ignore
}

uEContextSuspend S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UEContextSuspendRequest
	SUCCESSFUL OUTCOME		UEContextSuspendResponse
	PROCEDURE CODE			id-UEContextSuspend
	CRITICALITY				reject
}

uEContextResume S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UEContextResumeRequest
	SUCCESSFUL OUTCOME		UEContextResumeResponse
	UNSUCCESSFUL OUTCOME 	UEContextResumeFailure
	PROCEDURE CODE			id-UEContextResume
	CRITICALITY				reject
}

connectionEstablishmentIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		ConnectionEstablishmentIndication
	PROCEDURE CODE			id-ConnectionEstablishmentIndication
	CRITICALITY				reject
}

nASDeliveryIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		NASDeliveryIndication
	PROCEDURE CODE			id-NASDeliveryIndication
	CRITICALITY				ignore
}

retrieveUEInformation S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		RetrieveUEInformation
	PROCEDURE CODE			id-RetrieveUEInformation
	CRITICALITY				reject
}

uEInformationTransfer S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UEInformationTransfer
	PROCEDURE CODE			id-UEInformationTransfer
	CRITICALITY				reject
}

eNBCPRelocationIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		ENBCPRelocationIndication
	PROCEDURE CODE			id-eNBCPRelocationIndication
	CRITICALITY				reject
}

mMECPRelocationIndication S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		MMECPRelocationIndication
	PROCEDURE CODE			id-MMECPRelocationIndication
	CRITICALITY				reject
}

secondaryRATDataUsageReport S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		SecondaryRATDataUsageReport
	PROCEDURE CODE			id-SecondaryRATDataUsageReport
	CRITICALITY			ignore
}

uERadioCapabilityIDMapping S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		UERadioCapabilityIDMappingRequest
	SUCCESSFUL OUTCOME		UERadioCapabilityIDMappingResponse
	PROCEDURE CODE			id-UERadioCapabilityIDMapping
	CRITICALITY				reject
}

handoverSuccess S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		HandoverSuccess
	PROCEDURE CODE			id-HandoverSuccess
	CRITICALITY				ignore
}

eNBEarlyStatusTransfer S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		ENBEarlyStatusTransfer
	PROCEDURE CODE			id-eNBEarlyStatusTransfer
	CRITICALITY				reject
}

mMEEarlyStatusTransfer S1AP-ELEMENTARY-PROCEDURE ::= {
	INITIATING MESSAGE		MMEEarlyStatusTransfer
	PROCEDURE CODE			id-MMEEarlyStatusTransfer
	CRITICALITY				ignore
}

END

9.3.3	PDU Definitions
-- **************************************************************
--
-- PDU definitions for S1AP.
--
-- **************************************************************

S1AP-PDU-Contents { 
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
eps-Access (21) modules (3) s1ap (1) version1 (1) s1ap-PDU-Contents (1) }

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

-- **************************************************************
--
-- IE parameter types from other modules.
--
-- **************************************************************

IMPORTS
	
	UEAggregateMaximumBitrate,
	BearerType,
	Cause,
	CellAccessMode,
	Cdma2000HORequiredIndication,
	Cdma2000HOStatus,
	Cdma2000OneXSRVCCInfo,
	Cdma2000OneXRAND,
	Cdma2000PDU,
	Cdma2000RATType,
	Cdma2000SectorID,
	EUTRANRoundTripDelayEstimationInfo,
	CNDomain,
	ConcurrentWarningMessageIndicator,
	CriticalityDiagnostics,
	CSFallbackIndicator,
	CSG-Id,
	CSG-IdList, 
	CSGMembershipStatus,
	Data-Forwarding-Not-Possible,
	Direct-Forwarding-Path-Availability,
	Global-ENB-ID,
	EUTRAN-CGI,
	ENBname,
	ENB-StatusTransfer-TransparentContainer,
	ENB-UE-S1AP-ID,
	ExtendedRepetitionPeriod,
	GTP-TEID,
	GUMMEI,
	GUMMEIType,
	HandoverRestrictionList,
	HandoverType,
	Masked-IMEISV,
	LAI,
	LPPa-PDU,
	ManagementBasedMDTAllowed,
	MDTPLMNList,
	MMEname,
	MMERelaySupportIndicator,
	MME-UE-S1AP-ID,
	MSClassmark2,
	MSClassmark3,
	NAS-PDU,
	NASSecurityParametersfromE-UTRAN,
	NASSecurityParameterstoE-UTRAN,
	OverloadResponse,
	PagingDRX,
	PagingPriority,
	PLMNidentity,
	ProSeAuthorized,
	RIMTransfer,
	RelativeMMECapacity,
	RequestType,
	E-RAB-ID,
	E-RABLevelQoSParameters,
	E-RABList,
	RelayNode-Indicator,
	Routing-ID,
	SecurityKey,
	SecurityContext,
	ServedGUMMEIs,
	SONConfigurationTransfer,
	Source-ToTarget-TransparentContainer,
	SourceBSS-ToTargetBSS-TransparentContainer,
	SourceeNB-ToTargeteNB-TransparentContainer,
	SourceRNC-ToTargetRNC-TransparentContainer,
	SubscriberProfileIDforRFP,
	SRVCCOperationNotPossible,
	SRVCCOperationPossible,
	SRVCCHOIndication,
	SupportedTAs,
	TAI,
	Target-ToSource-TransparentContainer,
	TargetBSS-ToSourceBSS-TransparentContainer,	
	TargeteNB-ToSourceeNB-TransparentContainer,
	TargetID,
	TargetRNC-ToSourceRNC-TransparentContainer,
	TimeToWait,
	TraceActivation,
	TrafficLoadReductionIndication,
	E-UTRAN-Trace-ID,
	TransportLayerAddress,
	UEIdentityIndexValue,
	UEPagingID,
	UERadioCapability,
	UERadioCapabilityForPaging,
	UE-RetentionInformation,
	UE-S1AP-IDs,
	UE-associatedLogicalS1-ConnectionItem,
	UESecurityCapabilities,
	S-TMSI,
	MessageIdentifier,
	SerialNumber,
	WarningAreaList,
	RepetitionPeriod,
	NumberofBroadcastRequest,
	WarningType,
	WarningSecurityInfo,
	DataCodingScheme,
	WarningMessageContents,
	BroadcastCompletedAreaList,
	RRC-Establishment-Cause,
	BroadcastCancelledAreaList,
	PS-ServiceNotAvailable,
	GUMMEIList,
	Correlation-ID,
	GWContextReleaseIndication,
	PrivacyIndicator,
	VoiceSupportMatchIndicator,
	TunnelInformation,
	KillAllWarningMessages,
	TransportInformation,
	LHN-ID,
	UserLocationInformation,
	AdditionalCSFallbackIndicator,
	ECGIListForRestart,
	TAIListForRestart,
	EmergencyAreaIDListForRestart,
	ExpectedUEBehaviour,
	Paging-eDRXInformation,
	Extended-UEIdentityIndexValue,
	MME-Group-ID,
	Additional-GUTI,
	PWSfailedECGIList,
	CellIdentifierAndCELevelForCECapableUEs,
	AssistanceDataForPaging,
	InformationOnRecommendedCellsAndENBsForPaging,
	UE-Usage-Type,
	UEUserPlaneCIoTSupportIndicator,
	NB-IoT-DefaultPagingDRX,
	NB-IoT-Paging-eDRXInformation,
	CE-mode-B-SupportIndicator,
	NB-IoT-UEIdentityIndexValue,
	V2XServicesAuthorized,
	DCN-ID,
	ServedDCNs,
	UESidelinkAggregateMaximumBitrate,
	DLNASPDUDeliveryAckRequest,
	Coverage-Level,
	EnhancedCoverageRestricted,
	DL-CP-SecurityInformation,
	UL-CP-SecurityInformation,
	SecondaryRATDataUsageRequest,
	SecondaryRATDataUsageReportList,
	HandoverFlag,
	NRUESecurityCapabilities,
	UE-Application-Layer-Measurement-Capability,
	CE-ModeBRestricted,
	Packet-LossRate,
 	UECapabilityInfoRequest,
	SourceNgRanNode-ToTargetNgRanNode-TransparentContainer,
	TargetNgRanNode-ToSourceNgRanNode-TransparentContainer,
	EndIndication,
	EDT-Session,
	LTE-M-Indication,
	AerialUEsubscriptionInformation,
	PendingDataIndication,
	WarningAreaCoordinates,
	Subscription-Based-UE-DifferentiationInfo,
	PSCellInformation,
	NR-CGI,
	ConnectedengNBList,
	EN-DCSONConfigurationTransfer,
	TimeSinceSecondaryNodeRelease,
	AdditionalRRMPriorityIndex,
	IAB-Authorized,
	IAB-Node-Indication,
	IAB-Supported,
	DataSize,
	Ethernet-Type,
	NRV2XServicesAuthorized,
	NRUESidelinkAggregateMaximumBitrate,
	PC5QoSParameters,
	IntersystemSONConfigurationTransfer,
	UERadioCapabilityID,
	NotifySourceeNB,
	ENB-EarlyStatusTransfer-TransparentContainer,
	WUS-Assistance-Information,
	NB-IoT-PagingDRX




FROM S1AP-IEs

	PrivateIE-Container{},
	ProtocolExtensionContainer{},
	ProtocolIE-Container{},
	ProtocolIE-ContainerList{},
	ProtocolIE-ContainerPair{},
	ProtocolIE-ContainerPairList{},
	ProtocolIE-SingleContainer{},
	S1AP-PRIVATE-IES,
	S1AP-PROTOCOL-EXTENSION,
	S1AP-PROTOCOL-IES,
	S1AP-PROTOCOL-IES-PAIR
FROM S1AP-Containers


	id-AssistanceDataForPaging,
	id-AerialUEsubscriptionInformation,
	id-uEaggregateMaximumBitrate,
	id-BearerType,
	id-Cause,
	id-CellAccessMode,
	id-CellIdentifierAndCELevelForCECapableUEs,
	id-cdma2000HORequiredIndication,
	id-cdma2000HOStatus,
	id-cdma2000OneXSRVCCInfo,
	id-cdma2000OneXRAND,
	id-cdma2000PDU,
	id-cdma2000RATType,
	id-cdma2000SectorID,
	id-EUTRANRoundTripDelayEstimationInfo,
	id-CNDomain,
	id-ConcurrentWarningMessageIndicator,
	id-CriticalityDiagnostics,
	id-CSFallbackIndicator,
	id-CSG-Id,
	id-CSG-IdList,
	id-CSGMembershipStatus,
	id-Data-Forwarding-Not-Possible,
	id-DefaultPagingDRX,
	id-Direct-Forwarding-Path-Availability,
	id-Global-ENB-ID,
	id-EUTRAN-CGI,
	id-eNBname,
	id-eNB-StatusTransfer-TransparentContainer,
	id-eNB-UE-S1AP-ID, 
	id-GERANtoLTEHOInformationRes,
	id-GUMMEI-ID,
	id-GUMMEIType,
	id-HandoverRestrictionList,
	id-HandoverType,
	id-Masked-IMEISV,
	id-InformationOnRecommendedCellsAndENBsForPaging,
	id-InitialContextSetup,
	id-Inter-SystemInformationTransferTypeEDT,
	id-Inter-SystemInformationTransferTypeMDT,
	id-LPPa-PDU,
	id-NAS-DownlinkCount,
	id-ManagementBasedMDTAllowed,
	id-ManagementBasedMDTPLMNList,
	id-MMEname,
	id-MME-UE-S1AP-ID,
	id-MSClassmark2,
	id-MSClassmark3,
	id-NAS-PDU,
	id-NASSecurityParametersfromE-UTRAN,
	id-NASSecurityParameterstoE-UTRAN,
	id-OverloadResponse,
	id-pagingDRX,
	id-PagingPriority,
	id-RelativeMMECapacity,
	id-RequestType,
	id-Routing-ID,
	id-E-RABAdmittedItem,
	id-E-RABAdmittedList,
	id-E-RABDataForwardingItem,
	id-E-RABFailedToModifyList,
	id-E-RABFailedToReleaseList,
	id-E-RABFailedtoSetupItemHOReqAck,
	id-E-RABFailedToSetupListBearerSURes,
	id-E-RABFailedToSetupListCtxtSURes,
	id-E-RABFailedToSetupListHOReqAck,
	id-E-RABFailedToBeReleasedList,
	id-E-RABFailedToResumeListResumeReq,
	id-E-RABFailedToResumeItemResumeReq,
	id-E-RABFailedToResumeListResumeRes,
	id-E-RABFailedToResumeItemResumeRes,
	id-E-RABModify,
	id-E-RABModifyItemBearerModRes,
	id-E-RABModifyListBearerModRes,
	id-E-RABRelease,
	id-E-RABReleaseItemBearerRelComp,
	id-E-RABReleaseItemHOCmd,
	id-E-RABReleaseListBearerRelComp,
	id-E-RABReleaseIndication,
	id-E-RABSetup,
	id-E-RABSetupItemBearerSURes,
	id-E-RABSetupItemCtxtSURes,
	id-E-RABSetupListBearerSURes,
	id-E-RABSetupListCtxtSURes,
	id-E-RABSubjecttoDataForwardingList,
	id-E-RABToBeModifiedItemBearerModReq,
	id-E-RABToBeModifiedListBearerModReq,
	id-E-RABToBeModifiedListBearerModInd,
	id-E-RABToBeModifiedItemBearerModInd,
	id-E-RABNotToBeModifiedListBearerModInd,
	id-E-RABNotToBeModifiedItemBearerModInd,
	id-E-RABModifyListBearerModConf,
	id-E-RABModifyItemBearerModConf,
	id-E-RABFailedToModifyListBearerModConf, 
	id-E-RABToBeReleasedListBearerModConf,
	id-E-RABToBeReleasedList,
	id-E-RABReleasedList,
	id-E-RABToBeSetupItemBearerSUReq,
	id-E-RABToBeSetupItemCtxtSUReq,
	id-E-RABToBeSetupItemHOReq,
	id-E-RABToBeSetupListBearerSUReq,
	id-E-RABToBeSetupListCtxtSUReq,
	id-E-RABToBeSetupListHOReq,
	id-E-RABToBeSwitchedDLItem,
	id-E-RABToBeSwitchedDLList,
	id-E-RABToBeSwitchedULList,
	id-E-RABToBeSwitchedULItem,
	id-E-RABtoReleaseListHOCmd,
	id-ProSeAuthorized,
	id-SecurityKey,
	id-SecurityContext,
	id-ServedGUMMEIs,
	id-SONConfigurationTransferECT,
	id-SONConfigurationTransferMCT,
	id-Source-ToTarget-TransparentContainer,
	id-Source-ToTarget-TransparentContainer-Secondary,
	id-SourceMME-UE-S1AP-ID,
	id-SRVCCOperationNotPossible,
	id-SRVCCOperationPossible,
	id-SRVCCHOIndication,
	id-SubscriberProfileIDforRFP,
	id-SupportedTAs,
	id-S-TMSI,
	id-TAI,
	id-TAIItem,
	id-TAIList,
	id-Target-ToSource-TransparentContainer,
	id-Target-ToSource-TransparentContainer-Secondary,
	id-TargetID,
	id-TimeToWait,
	id-TraceActivation,
	id-TrafficLoadReductionIndication,
	id-E-UTRAN-Trace-ID,
	id-UEIdentityIndexValue,
	id-UEPagingID,
	id-UERadioCapability,
	id-UERadioCapabilityForPaging,
	id-UTRANtoLTEHOInformationRes,
	id-UE-associatedLogicalS1-ConnectionListResAck,
	id-UE-associatedLogicalS1-ConnectionItem,
	id-UE-RetentionInformation,
	id-UESecurityCapabilities,
	id-UE-S1AP-IDs,
	id-V2XServicesAuthorized,
	id-ResetType,
	id-MessageIdentifier,
	id-SerialNumber,
	id-WarningAreaList,
	id-RepetitionPeriod,
	id-NumberofBroadcastRequest,
	id-WarningType,
	id-WarningSecurityInfo,
	id-DataCodingScheme,
	id-WarningMessageContents,
	id-BroadcastCompletedAreaList,
	id-BroadcastCancelledAreaList,
	id-RRC-Establishment-Cause,
	id-TraceCollectionEntityIPAddress,
	id-AdditionalRRMPriorityIndex,
	id-MDTConfigurationNR,
	maxnoofTAIs,
	maxnoofErrors,
	maxnoofE-RABs,
	maxnoofIndividualS1ConnectionsToReset,
	maxnoofEmergencyAreaID,
	maxnoofCellID,
	maxnoofTAIforWarning,
	maxnoofCellinTAI,
	maxnoofCellinEAI,
	id-ExtendedRepetitionPeriod,
	id-PS-ServiceNotAvailable,
	id-RegisteredLAI,
	id-GUMMEIList,
	id-SourceMME-GUMMEI,
	id-MME-UE-S1AP-ID-2,
	id-GW-TransportLayerAddress,
	id-RelayNode-Indicator,
	id-Correlation-ID,
	id-MMERelaySupportIndicator,
	id-GWContextReleaseIndication,
	id-PrivacyIndicator,
	id-VoiceSupportMatchIndicator,
	id-Tunnel-Information-for-BBF,
	id-SIPTO-Correlation-ID,
	id-SIPTO-L-GW-TransportLayerAddress,
	id-KillAllWarningMessages,
	id-TransportInformation,
	id-LHN-ID,
	id-UserLocationInformation,
	id-AdditionalCSFallbackIndicator,
	id-ECGIListForRestart,
	id-TAIListForRestart,
	id-EmergencyAreaIDListForRestart,
	id-ExpectedUEBehaviour,
	id-Paging-eDRXInformation,
	id-extended-UEIdentityIndexValue,
	id-CSGMembershipInfo,
	id-MME-Group-ID,
	id-Additional-GUTI,
	id-S1-Message,
	id-PWSfailedECGIList,
	id-PWSFailureIndication,
	id-UE-Usage-Type,
	id-UEUserPlaneCIoTSupportIndicator,
	id-NB-IoT-DefaultPagingDRX,
	id-NB-IoT-Paging-eDRXInformation,
	id-CE-mode-B-SupportIndicator,
	id-NB-IoT-UEIdentityIndexValue,
	id-RRC-Resume-Cause,
	id-DCN-ID,
	id-ServedDCNs,
	id-UESidelinkAggregateMaximumBitrate,
	id-DLNASPDUDeliveryAckRequest,
	id-Coverage-Level,
	id-EnhancedCoverageRestricted,
	id-UE-Level-QoS-Parameters,
	id-DL-CP-SecurityInformation,
	id-UL-CP-SecurityInformation,
	id-SecondaryRATDataUsageRequest,
	id-SecondaryRATDataUsageReportList,
	id-HandoverFlag,
	id-NRUESecurityCapabilities,
	id-UE-Application-Layer-Measurement-Capability,
	id-CE-ModeBRestricted,
	id-DownlinkPacketLossRate,
	id-UplinkPacketLossRate,
	id-UECapabilityInfoRequest,
	id-EndIndication,
	id-EDT-Session,
	id-LTE-M-Indication,
	id-PendingDataIndication,
	id-WarningAreaCoordinates,
	id-Subscription-Based-UE-DifferentiationInfo,
	id-PSCellInformation,
	id-ConnectedengNBList,
	id-ConnectedengNBToAddList,
	id-ConnectedengNBToRemoveList,
	id-EN-DCSONConfigurationTransfer-ECT,
	id-EN-DCSONConfigurationTransfer-MCT,
	id-TimeSinceSecondaryNodeRelease,
	id-IAB-Authorized,
	id-IAB-Node-Indication,
	id-IAB-Supported,
	id-DataSize,
	id-Ethernet-Type,
	id-NRV2XServicesAuthorized,
	id-NRUESidelinkAggregateMaximumBitrate,
	id-PC5QoSParameters,
	id-IntersystemSONConfigurationTransferMCT,
	id-IntersystemSONConfigurationTransferECT,
	id-UERadioCapabilityID,
	id-UERadioCapability-NR-Format,
	id-NotifySourceeNB,
	id-eNB-EarlyStatusTransfer-TransparentContainer,
	id-WUS-Assistance-Information,
	id-NB-IoT-PagingDRX,
	id-UERadioCapabilityForPaging-NR-Format



FROM S1AP-Constants;

-- **************************************************************
--
-- Common Container Lists
--
-- **************************************************************

E-RAB-IE-ContainerList			{ S1AP-PROTOCOL-IES      : IEsSetParam }	::= ProtocolIE-ContainerList     { 1, maxnoofE-RABs,   {IEsSetParam} }
E-RAB-IE-ContainerPairList		{ S1AP-PROTOCOL-IES-PAIR : IEsSetParam }	::= ProtocolIE-ContainerPairList { 1, maxnoofE-RABs,   {IEsSetParam} }
ProtocolError-IE-ContainerList	{ S1AP-PROTOCOL-IES      : IEsSetParam }	::= ProtocolIE-ContainerList     { 1, maxnoofE-RABs,   {IEsSetParam} }

-- **************************************************************
--
-- HANDOVER PREPARATION ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Handover Required
--
-- **************************************************************

HandoverRequired ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container		{ { HandoverRequiredIEs} },
	...
}

HandoverRequiredIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID							CRITICALITY reject	TYPE MME-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID							CRITICALITY reject	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-HandoverType							CRITICALITY reject	TYPE HandoverType						PRESENCE mandatory}|
	{ ID id-Cause									CRITICALITY ignore	TYPE Cause								PRESENCE mandatory}|
	{ ID id-TargetID								CRITICALITY reject	TYPE TargetID							PRESENCE mandatory}|
	{ ID id-Direct-Forwarding-Path-Availability		CRITICALITY ignore	TYPE Direct-Forwarding-Path-Availability		PRESENCE optional}|
	{ ID id-SRVCCHOIndication						CRITICALITY reject	TYPE SRVCCHOIndication					PRESENCE optional}|
	{ ID id-Source-ToTarget-TransparentContainer	CRITICALITY reject	TYPE Source-ToTarget-TransparentContainer	PRESENCE mandatory}|
	{ ID id-Source-ToTarget-TransparentContainer-Secondary	CRITICALITY reject	TYPE Source-ToTarget-TransparentContainer	PRESENCE optional}|
	{ ID id-MSClassmark2							CRITICALITY reject	TYPE MSClassmark2						PRESENCE conditional}|
	{ ID id-MSClassmark3							CRITICALITY ignore	TYPE MSClassmark3						PRESENCE conditional}|
	{ ID id-CSG-Id									CRITICALITY reject	TYPE CSG-Id								PRESENCE optional}|
	{ ID id-CellAccessMode							CRITICALITY reject	TYPE CellAccessMode						PRESENCE optional}|
	{ ID id-PS-ServiceNotAvailable					CRITICALITY ignore	TYPE PS-ServiceNotAvailable			PRESENCE optional},
	...
}


-- **************************************************************
--
-- Handover Command
--
-- **************************************************************

HandoverCommand ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container		{ { HandoverCommandIEs} },
	...
}

HandoverCommandIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID							CRITICALITY reject	TYPE MME-UE-S1AP-ID							PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID							CRITICALITY reject	TYPE ENB-UE-S1AP-ID							PRESENCE mandatory}|
	{ ID id-HandoverType							CRITICALITY reject	TYPE HandoverType							PRESENCE mandatory}|
	{ ID id-NASSecurityParametersfromE-UTRAN		CRITICALITY reject	TYPE NASSecurityParametersfromE-UTRAN			PRESENCE conditional
	-- This IE shall be present if HandoverType IE is set to value "LTEtoUTRAN" or "LTEtoGERAN" --}|
	{ ID id-E-RABSubjecttoDataForwardingList		CRITICALITY ignore	TYPE E-RABSubjecttoDataForwardingList			PRESENCE optional}|
	{ ID id-E-RABtoReleaseListHOCmd					CRITICALITY ignore	TYPE E-RABList								PRESENCE optional}|
	{ ID id-Target-ToSource-TransparentContainer	CRITICALITY reject	TYPE Target-ToSource-TransparentContainer		PRESENCE mandatory}|
	{ ID id-Target-ToSource-TransparentContainer-Secondary	CRITICALITY reject	TYPE Target-ToSource-TransparentContainer	PRESENCE optional}|
	{ ID id-CriticalityDiagnostics					CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional},
	...
}

E-RABSubjecttoDataForwardingList ::= E-RAB-IE-ContainerList { {E-RABDataForwardingItemIEs} }

E-RABDataForwardingItemIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABDataForwardingItem					CRITICALITY ignore	TYPE E-RABDataForwardingItem			PRESENCE mandatory	},
	...
}

E-RABDataForwardingItem ::= SEQUENCE {
	e-RAB-ID							E-RAB-ID,
	dL-transportLayerAddress			TransportLayerAddress 													OPTIONAL,
	dL-gTP-TEID							GTP-TEID 																OPTIONAL,
	uL-TransportLayerAddress			TransportLayerAddress													OPTIONAL,
	uL-GTP-TEID							GTP-TEID																OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { E-RABDataForwardingItem-ExtIEs} }			OPTIONAL,
	...
}

E-RABDataForwardingItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}



-- **************************************************************
--
-- Handover Preparation Failure
--
-- **************************************************************

HandoverPreparationFailure ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container		{ { HandoverPreparationFailureIEs} },
	...
}

HandoverPreparationFailureIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID					CRITICALITY ignore	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY ignore	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-Cause							CRITICALITY ignore	TYPE Cause							PRESENCE mandatory	}|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

-- **************************************************************
--
-- HANDOVER RESOURCE ALLOCATION ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Handover Request
--
-- **************************************************************

HandoverRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container		{ {HandoverRequestIEs} },
	...
}

HandoverRequestIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID							CRITICALITY reject	TYPE MME-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-HandoverType							CRITICALITY reject	TYPE HandoverType						PRESENCE mandatory}|
	{ ID id-Cause									CRITICALITY ignore	TYPE Cause								PRESENCE mandatory}|
	{ ID id-uEaggregateMaximumBitrate				CRITICALITY reject	TYPE UEAggregateMaximumBitrate			PRESENCE mandatory}|
	{ ID id-E-RABToBeSetupListHOReq					CRITICALITY reject	TYPE E-RABToBeSetupListHOReq			PRESENCE mandatory}|
	{ ID id-Source-ToTarget-TransparentContainer	CRITICALITY reject	TYPE Source-ToTarget-TransparentContainer	PRESENCE mandatory}|
	{ ID id-UESecurityCapabilities					CRITICALITY reject	TYPE UESecurityCapabilities			PRESENCE mandatory}|
	{ ID id-HandoverRestrictionList					CRITICALITY ignore	TYPE HandoverRestrictionList			PRESENCE optional}|
	{ ID id-TraceActivation							CRITICALITY ignore	TYPE TraceActivation					PRESENCE optional}|
	{ ID id-RequestType								CRITICALITY ignore	TYPE RequestType						PRESENCE optional}|
	{ ID id-SRVCCOperationPossible					CRITICALITY ignore	TYPE SRVCCOperationPossible			PRESENCE optional}|
	{ ID id-SecurityContext							CRITICALITY reject	TYPE SecurityContext					PRESENCE mandatory}|
	{ ID id-NASSecurityParameterstoE-UTRAN			CRITICALITY reject	TYPE NASSecurityParameterstoE-UTRAN		PRESENCE conditional
	-- This IE shall be present if the Handover Type IE is set to the value "UTRANtoLTE" or "GERANtoLTE" --				}|
	{ ID id-CSG-Id									CRITICALITY reject	TYPE CSG-Id								PRESENCE optional}|
	{ ID id-CSGMembershipStatus						CRITICALITY ignore	TYPE CSGMembershipStatus				PRESENCE optional}|
	{ ID id-GUMMEI-ID								CRITICALITY ignore	TYPE GUMMEI								PRESENCE optional}|
	{ ID id-MME-UE-S1AP-ID-2						CRITICALITY ignore	TYPE MME-UE-S1AP-ID						PRESENCE optional}|
	{ ID id-ManagementBasedMDTAllowed				CRITICALITY ignore	TYPE ManagementBasedMDTAllowed			PRESENCE optional}|
	{ ID id-ManagementBasedMDTPLMNList				CRITICALITY ignore	TYPE MDTPLMNList						PRESENCE optional}|
	{ ID id-Masked-IMEISV							CRITICALITY ignore	TYPE Masked-IMEISV						PRESENCE optional}|
	{ ID id-ExpectedUEBehaviour						CRITICALITY ignore	TYPE ExpectedUEBehaviour				PRESENCE optional}|
	{ ID id-ProSeAuthorized							CRITICALITY ignore	TYPE ProSeAuthorized					PRESENCE optional}|
	{ ID id-UEUserPlaneCIoTSupportIndicator			CRITICALITY ignore	TYPE UEUserPlaneCIoTSupportIndicator 		PRESENCE optional}|
	{ ID id-V2XServicesAuthorized					CRITICALITY ignore	TYPE V2XServicesAuthorized			PRESENCE optional}|
	{ ID id-UESidelinkAggregateMaximumBitrate		CRITICALITY ignore	TYPE UESidelinkAggregateMaximumBitrate		PRESENCE optional}|
	{ ID id-EnhancedCoverageRestricted				CRITICALITY ignore	TYPE EnhancedCoverageRestricted			PRESENCE optional}|
	{ ID id-NRUESecurityCapabilities				CRITICALITY ignore	TYPE NRUESecurityCapabilities			PRESENCE optional}|
	{ ID id-CE-ModeBRestricted						CRITICALITY ignore	TYPE CE-ModeBRestricted					PRESENCE optional}|
	{ ID id-AerialUEsubscriptionInformation			CRITICALITY ignore	TYPE AerialUEsubscriptionInformation				PRESENCE optional}|
	{ ID id-PendingDataIndication					CRITICALITY ignore	TYPE PendingDataIndication			PRESENCE optional}|
	{ ID id-Subscription-Based-UE-DifferentiationInfo		CRITICALITY ignore	TYPE Subscription-Based-UE-DifferentiationInfo		PRESENCE optional}|
	{ ID id-AdditionalRRMPriorityIndex			CRITICALITY ignore	TYPE AdditionalRRMPriorityIndex		PRESENCE optional }|
	{ ID id-IAB-Authorized		 				CRITICALITY reject	TYPE IAB-Authorized						PRESENCE optional}|
	{ ID id-NRV2XServicesAuthorized						CRITICALITY ignore	TYPE NRV2XServicesAuthorized							PRESENCE optional }|
	{ ID id-NRUESidelinkAggregateMaximumBitrate			CRITICALITY ignore	TYPE NRUESidelinkAggregateMaximumBitrate			PRESENCE optional }|
	{ ID id-PC5QoSParameters							CRITICALITY ignore	TYPE PC5QoSParameters									PRESENCE optional }|
	{ ID id-UERadioCapabilityID							CRITICALITY reject	TYPE UERadioCapabilityID								PRESENCE optional},	...
}

E-RABToBeSetupListHOReq 					::= E-RAB-IE-ContainerList { {E-RABToBeSetupItemHOReqIEs} }

E-RABToBeSetupItemHOReqIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABToBeSetupItemHOReq				CRITICALITY reject	TYPE E-RABToBeSetupItemHOReq			PRESENCE mandatory	},
	...
}

E-RABToBeSetupItemHOReq ::= SEQUENCE {
	e-RAB-ID							E-RAB-ID,
	transportLayerAddress				TransportLayerAddress,
	gTP-TEID							GTP-TEID,
	e-RABlevelQosParameters				E-RABLevelQoSParameters,
	iE-Extensions						ProtocolExtensionContainer { {E-RABToBeSetupItemHOReq-ExtIEs} }		OPTIONAL,
	...
}

E-RABToBeSetupItemHOReq-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-Data-Forwarding-Not-Possible		CRITICALITY ignore	EXTENSION Data-Forwarding-Not-Possible	PRESENCE optional}|
	{ ID id-BearerType							CRITICALITY reject	EXTENSION BearerType					PRESENCE optional}|
	{ ID id-Ethernet-Type						CRITICALITY ignore	EXTENSION Ethernet-Type					PRESENCE optional},
	...
}

-- **************************************************************
--
-- Handover Request Acknowledge
--
-- **************************************************************

HandoverRequestAcknowledge ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {HandoverRequestAcknowledgeIEs} },
	...
}

HandoverRequestAcknowledgeIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID							CRITICALITY ignore	TYPE MME-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID							CRITICALITY ignore	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-E-RABAdmittedList						CRITICALITY ignore	TYPE E-RABAdmittedList					PRESENCE mandatory}|
	{ ID id-E-RABFailedToSetupListHOReqAck			CRITICALITY ignore	TYPE E-RABFailedtoSetupListHOReqAck		PRESENCE optional}|
	{ ID id-Target-ToSource-TransparentContainer	CRITICALITY reject	TYPE Target-ToSource-TransparentContainer	PRESENCE mandatory}|
	{ ID id-CSG-Id									CRITICALITY ignore	TYPE CSG-Id								PRESENCE optional}|
	{ ID id-CriticalityDiagnostics					CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional}|
	{ ID id-CellAccessMode							CRITICALITY ignore	TYPE CellAccessMode						PRESENCE optional}|
	{ ID id-CE-mode-B-SupportIndicator				CRITICALITY ignore	TYPE CE-mode-B-SupportIndicator			PRESENCE optional},
	...
}

E-RABAdmittedList 					::= E-RAB-IE-ContainerList { {E-RABAdmittedItemIEs} }

E-RABAdmittedItemIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABAdmittedItem			CRITICALITY ignore	TYPE E-RABAdmittedItem			PRESENCE mandatory	},
	...
}

E-RABAdmittedItem ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	transportLayerAddress			TransportLayerAddress,
	gTP-TEID						GTP-TEID,
	dL-transportLayerAddress		TransportLayerAddress	OPTIONAL,
	dL-gTP-TEID						GTP-TEID				OPTIONAL,
	uL-TransportLayerAddress		TransportLayerAddress	OPTIONAL,
	uL-GTP-TEID						GTP-TEID				OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {E-RABAdmittedItem-ExtIEs} }	OPTIONAL,
	...
}

E-RABAdmittedItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

E-RABFailedtoSetupListHOReqAck 					::= E-RAB-IE-ContainerList { {E-RABFailedtoSetupItemHOReqAckIEs} }

E-RABFailedtoSetupItemHOReqAckIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABFailedtoSetupItemHOReqAck			CRITICALITY ignore	TYPE E-RABFailedToSetupItemHOReqAck			PRESENCE mandatory	},
	...
}

E-RABFailedToSetupItemHOReqAck ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	cause				Cause,
	iE-Extensions					ProtocolExtensionContainer { { E-RABFailedToSetupItemHOReqAckExtIEs} }			OPTIONAL,
	...
}

E-RABFailedToSetupItemHOReqAckExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


-- **************************************************************
--
-- Handover Failure
--
-- **************************************************************

HandoverFailure ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { HandoverFailureIEs} },
	...
}

HandoverFailureIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID				CRITICALITY ignore	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause							PRESENCE mandatory	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

-- **************************************************************
--
-- HANDOVER NOTIFICATION ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Handover Notify
--
-- **************************************************************

HandoverNotify ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { HandoverNotifyIEs} },
	...
}

HandoverNotifyIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID					CRITICALITY reject	TYPE MME-UE-S1AP-ID			PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY reject	TYPE ENB-UE-S1AP-ID			PRESENCE mandatory}|
	{ ID id-EUTRAN-CGI						CRITICALITY ignore	TYPE EUTRAN-CGI				PRESENCE mandatory}|
	{ ID id-TAI								CRITICALITY ignore	TYPE TAI					PRESENCE mandatory}|
-- Extension for Release 11 to support BBAI -- 
	{ ID id-Tunnel-Information-for-BBF		CRITICALITY ignore	TYPE TunnelInformation		PRESENCE optional}|
	{ ID id-LHN-ID							CRITICALITY ignore	TYPE LHN-ID					PRESENCE optional}|
	{ ID id-PSCellInformation				CRITICALITY ignore	TYPE PSCellInformation		PRESENCE optional }|
	{ ID id-NotifySourceeNB					CRITICALITY ignore	TYPE NotifySourceeNB		PRESENCE optional},
	...
}

-- **************************************************************
--
-- PATH SWITCH REQUEST ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Path Switch Request
--
-- **************************************************************

PathSwitchRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { PathSwitchRequestIEs} },
	...
}

PathSwitchRequestIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-E-RABToBeSwitchedDLList			CRITICALITY reject	TYPE E-RABToBeSwitchedDLList	PRESENCE mandatory}|
	{ ID id-SourceMME-UE-S1AP-ID			CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-EUTRAN-CGI						CRITICALITY ignore	TYPE EUTRAN-CGI					PRESENCE mandatory}|
	{ ID id-TAI								CRITICALITY ignore	TYPE TAI						PRESENCE mandatory}|
	{ ID id-UESecurityCapabilities			CRITICALITY ignore	TYPE UESecurityCapabilities		PRESENCE mandatory}|
	{ ID id-CSG-Id							CRITICALITY ignore	TYPE CSG-Id						PRESENCE optional}|
	{ ID id-CellAccessMode					CRITICALITY ignore	TYPE CellAccessMode				PRESENCE optional}|
	{ ID id-SourceMME-GUMMEI				CRITICALITY ignore	TYPE GUMMEI						PRESENCE optional}|
	{ ID id-CSGMembershipStatus				CRITICALITY ignore	TYPE CSGMembershipStatus		PRESENCE optional}|
-- Extension for Release 11 to support BBAI -- 
	{ ID id-Tunnel-Information-for-BBF		CRITICALITY ignore	TYPE TunnelInformation			PRESENCE optional}|
	{ ID id-LHN-ID							CRITICALITY ignore	TYPE LHN-ID						PRESENCE optional}|
	{ ID id-RRC-Resume-Cause				CRITICALITY ignore	TYPE RRC-Establishment-Cause	PRESENCE optional }|
	{ ID id-NRUESecurityCapabilities				CRITICALITY ignore	TYPE NRUESecurityCapabilities			PRESENCE optional}|
	{ ID id-PSCellInformation				CRITICALITY ignore	TYPE PSCellInformation			PRESENCE optional },
	...
}

E-RABToBeSwitchedDLList					::= E-RAB-IE-ContainerList { {E-RABToBeSwitchedDLItemIEs} }

E-RABToBeSwitchedDLItemIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABToBeSwitchedDLItem			CRITICALITY reject	TYPE E-RABToBeSwitchedDLItem			PRESENCE mandatory	},
	...
}

E-RABToBeSwitchedDLItem ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	transportLayerAddress			TransportLayerAddress,
	gTP-TEID						GTP-TEID,
	iE-Extensions					ProtocolExtensionContainer { { E-RABToBeSwitchedDLItem-ExtIEs} }			OPTIONAL,
	...
}

E-RABToBeSwitchedDLItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- Path Switch Request Acknowledge
--
-- **************************************************************

PathSwitchRequestAcknowledge ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { PathSwitchRequestAcknowledgeIEs} },
	...
}

PathSwitchRequestAcknowledgeIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID					CRITICALITY ignore	TYPE MME-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY ignore	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-uEaggregateMaximumBitrate		CRITICALITY ignore	TYPE UEAggregateMaximumBitrate			PRESENCE optional}|
	{ ID id-E-RABToBeSwitchedULList			CRITICALITY ignore	TYPE E-RABToBeSwitchedULList			PRESENCE optional}|
	{ ID id-E-RABToBeReleasedList			CRITICALITY ignore	TYPE E-RABList							PRESENCE optional}|
	{ ID id-SecurityContext					CRITICALITY reject	TYPE SecurityContext					PRESENCE mandatory}|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional}|
	{ ID id-MME-UE-S1AP-ID-2				CRITICALITY ignore	TYPE MME-UE-S1AP-ID						PRESENCE optional}|
	{ ID id-CSGMembershipStatus				CRITICALITY ignore	TYPE CSGMembershipStatus				PRESENCE optional}|
	{ ID id-ProSeAuthorized					CRITICALITY ignore	TYPE ProSeAuthorized					PRESENCE optional}|
	{ ID id-UEUserPlaneCIoTSupportIndicator	CRITICALITY ignore	TYPE UEUserPlaneCIoTSupportIndicator	PRESENCE optional}|
	{ ID id-V2XServicesAuthorized			CRITICALITY ignore	TYPE V2XServicesAuthorized				PRESENCE optional}|
	{ ID id-UESidelinkAggregateMaximumBitrate		CRITICALITY ignore	TYPE UESidelinkAggregateMaximumBitrate	PRESENCE optional}|
	{ ID id-EnhancedCoverageRestricted		CRITICALITY ignore	TYPE EnhancedCoverageRestricted			PRESENCE optional}|
	{ ID id-NRUESecurityCapabilities				CRITICALITY ignore	TYPE NRUESecurityCapabilities			PRESENCE optional}|
	{ ID id-CE-ModeBRestricted				CRITICALITY ignore	TYPE CE-ModeBRestricted			PRESENCE optional}|
	{ ID id-AerialUEsubscriptionInformation			CRITICALITY ignore	TYPE AerialUEsubscriptionInformation				PRESENCE optional}|
	{ ID id-PendingDataIndication			CRITICALITY ignore	TYPE PendingDataIndication				PRESENCE optional}|
	{ ID id-Subscription-Based-UE-DifferentiationInfo		CRITICALITY ignore	TYPE Subscription-Based-UE-DifferentiationInfo		PRESENCE optional}|
	{ ID id-HandoverRestrictionList			CRITICALITY ignore	TYPE HandoverRestrictionList			PRESENCE optional}|
	{ ID id-AdditionalRRMPriorityIndex		CRITICALITY ignore	TYPE AdditionalRRMPriorityIndex			PRESENCE optional }|
	{ ID id-NRV2XServicesAuthorized						CRITICALITY ignore	TYPE NRV2XServicesAuthorized							PRESENCE optional }|
	{ ID id-NRUESidelinkAggregateMaximumBitrate			CRITICALITY ignore	TYPE NRUESidelinkAggregateMaximumBitrate			PRESENCE optional }|
	{ ID id-PC5QoSParameters							CRITICALITY ignore	TYPE PC5QoSParameters									PRESENCE optional }|
	{ ID id-UERadioCapabilityID							CRITICALITY reject	TYPE UERadioCapabilityID								PRESENCE optional},
	...
}

E-RABToBeSwitchedULList ::= E-RAB-IE-ContainerList { {E-RABToBeSwitchedULItemIEs} }

E-RABToBeSwitchedULItemIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABToBeSwitchedULItem		CRITICALITY ignore	TYPE E-RABToBeSwitchedULItem		PRESENCE mandatory	},
	...
}

E-RABToBeSwitchedULItem ::= SEQUENCE {
	e-RAB-ID							E-RAB-ID,
	transportLayerAddress				TransportLayerAddress,
	gTP-TEID							GTP-TEID,
	iE-Extensions						ProtocolExtensionContainer { { E-RABToBeSwitchedULItem-ExtIEs} }	OPTIONAL,
	...
}

E-RABToBeSwitchedULItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


-- **************************************************************
--
-- Path Switch Request Failure
--
-- **************************************************************

PathSwitchRequestFailure ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { PathSwitchRequestFailureIEs} },
	...
}

PathSwitchRequestFailureIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID					CRITICALITY ignore	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY ignore	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-Cause							CRITICALITY ignore	TYPE Cause							PRESENCE mandatory	}|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

-- **************************************************************
--
-- HANDOVER CANCEL ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Handover Cancel
--
-- **************************************************************

HandoverCancel ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { HandoverCancelIEs} },
	...
}

HandoverCancelIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID					CRITICALITY reject	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY reject	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-Cause							CRITICALITY ignore	TYPE Cause							PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- Handover Cancel Request Acknowledge
--
-- **************************************************************

HandoverCancelAcknowledge ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { HandoverCancelAcknowledgeIEs} },
	...
}

HandoverCancelAcknowledgeIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID					CRITICALITY ignore	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY ignore	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

-- **************************************************************
--
-- HANDOVER SUCCESS ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Handover Success
--
-- **************************************************************

HandoverSuccess ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { HandoverSuccessIEs} },
	...
}

HandoverSuccessIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID					CRITICALITY reject	TYPE MME-UE-S1AP-ID			PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY reject	TYPE ENB-UE-S1AP-ID			PRESENCE mandatory},
	...
}

-- **************************************************************
--
-- eNB EARLY STATUS TRANSFER ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- eNB Early Status Transfer
--
-- **************************************************************

ENBEarlyStatusTransfer ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {ENBEarlyStatusTransferIEs} },
	...
}

ENBEarlyStatusTransferIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID								CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID									CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-EarlyStatusTransfer-TransparentContainer	CRITICALITY reject	TYPE ENB-EarlyStatusTransfer-TransparentContainer	PRESENCE mandatory},
	...
}

-- **************************************************************
--
-- MME EARLY STATUS TRANSFER ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- MME Early Status Transfer
--
-- **************************************************************

MMEEarlyStatusTransfer ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {MMEEarlyStatusTransferIEs} },
	...
}

MMEEarlyStatusTransferIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID								CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID								CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-EarlyStatusTransfer-TransparentContainer CRITICALITY reject	TYPE ENB-EarlyStatusTransfer-TransparentContainer	PRESENCE mandatory},
	...
}

-- **************************************************************
--
-- E-RAB SETUP ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- E-RAB Setup Request
--
-- **************************************************************

E-RABSetupRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {E-RABSetupRequestIEs} },
	...
}

E-RABSetupRequestIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID					CRITICALITY reject	TYPE MME-UE-S1AP-ID						PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY reject	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory	}|
	{ ID id-uEaggregateMaximumBitrate		CRITICALITY reject	TYPE UEAggregateMaximumBitrate			PRESENCE optional	}|
	{ ID id-E-RABToBeSetupListBearerSUReq	CRITICALITY reject	TYPE E-RABToBeSetupListBearerSUReq	PRESENCE mandatory	},
	...
}

E-RABToBeSetupListBearerSUReq ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { {E-RABToBeSetupItemBearerSUReqIEs} }

E-RABToBeSetupItemBearerSUReqIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABToBeSetupItemBearerSUReq	 CRITICALITY reject 	TYPE E-RABToBeSetupItemBearerSUReq 	PRESENCE mandatory },
	...
}

E-RABToBeSetupItemBearerSUReq ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	e-RABlevelQoSParameters			E-RABLevelQoSParameters,
	transportLayerAddress			TransportLayerAddress,
	gTP-TEID						GTP-TEID,
	nAS-PDU							NAS-PDU,
	iE-Extensions					ProtocolExtensionContainer { {E-RABToBeSetupItemBearerSUReqExtIEs} } OPTIONAL,
	...
}


E-RABToBeSetupItemBearerSUReqExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-Correlation-ID			CRITICALITY ignore	EXTENSION Correlation-ID		PRESENCE optional}|
	{ ID id-SIPTO-Correlation-ID	CRITICALITY ignore	EXTENSION Correlation-ID		PRESENCE optional}|
	{ ID id-BearerType				CRITICALITY reject	EXTENSION BearerType			PRESENCE optional}|
	{ ID id-Ethernet-Type			CRITICALITY ignore	EXTENSION Ethernet-Type			PRESENCE optional},
	...
}


-- **************************************************************
--
-- E-RAB Setup Response
--
-- **************************************************************

E-RABSetupResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {E-RABSetupResponseIEs} },
	...
}

E-RABSetupResponseIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID							CRITICALITY ignore	TYPE MME-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID							CRITICALITY ignore	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-E-RABSetupListBearerSURes				CRITICALITY ignore	TYPE E-RABSetupListBearerSURes	PRESENCE optional	}|
	{ ID id-E-RABFailedToSetupListBearerSURes		CRITICALITY ignore	TYPE E-RABList					PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics					CRITICALITY ignore	TYPE CriticalityDiagnostics	PRESENCE optional	},
	...
}


E-RABSetupListBearerSURes ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { {E-RABSetupItemBearerSUResIEs} }

E-RABSetupItemBearerSUResIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABSetupItemBearerSURes	 CRITICALITY ignore 	TYPE E-RABSetupItemBearerSURes 	PRESENCE mandatory },
	...
}

E-RABSetupItemBearerSURes ::= SEQUENCE {
	e-RAB-ID					E-RAB-ID,
	transportLayerAddress		TransportLayerAddress,
	gTP-TEID					GTP-TEID,
	iE-Extensions				ProtocolExtensionContainer { {E-RABSetupItemBearerSUResExtIEs} } OPTIONAL,
	...
}


E-RABSetupItemBearerSUResExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}



-- **************************************************************
--
-- E-RAB MODIFY ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- E-RAB Modify Request
--
-- **************************************************************

E-RABModifyRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {E-RABModifyRequestIEs} },
	...
}

E-RABModifyRequestIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID						CRITICALITY reject	TYPE MME-UE-S1AP-ID							PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID						CRITICALITY reject	TYPE ENB-UE-S1AP-ID							PRESENCE mandatory	}|
	{ ID id-uEaggregateMaximumBitrate			CRITICALITY reject	TYPE UEAggregateMaximumBitrate			PRESENCE optional	}|
	{ ID id-E-RABToBeModifiedListBearerModReq	CRITICALITY reject	TYPE E-RABToBeModifiedListBearerModReq		PRESENCE mandatory	}|
	{ ID id-SecondaryRATDataUsageRequest		CRITICALITY ignore	TYPE SecondaryRATDataUsageRequest		PRESENCE optional	},
	...
}

E-RABToBeModifiedListBearerModReq ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { {E-RABToBeModifiedItemBearerModReqIEs} }

E-RABToBeModifiedItemBearerModReqIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABToBeModifiedItemBearerModReq	 CRITICALITY reject 	TYPE E-RABToBeModifiedItemBearerModReq 	PRESENCE mandatory },
	...
}

E-RABToBeModifiedItemBearerModReq ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	e-RABLevelQoSParameters			E-RABLevelQoSParameters,
	nAS-PDU							NAS-PDU,
	iE-Extensions					ProtocolExtensionContainer { {E-RABToBeModifyItemBearerModReqExtIEs} } OPTIONAL,
	...
}


E-RABToBeModifyItemBearerModReqExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-TransportInformation	CRITICALITY reject	EXTENSION TransportInformation		PRESENCE optional},
	...
}



-- **************************************************************
--
-- E-RAB Modify Response
--
-- **************************************************************

E-RABModifyResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {E-RABModifyResponseIEs} },
	...
}

E-RABModifyResponseIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID					CRITICALITY ignore	TYPE MME-UE-S1AP-ID						PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY ignore	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory	}|
	{ ID id-E-RABModifyListBearerModRes		CRITICALITY ignore	TYPE E-RABModifyListBearerModRes		PRESENCE optional	}|
	{ ID id-E-RABFailedToModifyList			CRITICALITY ignore	TYPE E-RABList							PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional	}|
	{ ID id-SecondaryRATDataUsageReportList		CRITICALITY ignore	TYPE SecondaryRATDataUsageReportList			PRESENCE optional	},
	...
}


E-RABModifyListBearerModRes ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { {E-RABModifyItemBearerModResIEs} }

E-RABModifyItemBearerModResIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABModifyItemBearerModRes		CRITICALITY ignore	TYPE E-RABModifyItemBearerModRes		PRESENCE mandatory},
	...
}

E-RABModifyItemBearerModRes ::= SEQUENCE {
	e-RAB-ID					E-RAB-ID,
	iE-Extensions				ProtocolExtensionContainer { {E-RABModifyItemBearerModResExtIEs} } OPTIONAL,
	...
}


E-RABModifyItemBearerModResExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}




-- **************************************************************
--
-- E-RAB RELEASE ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- E-RAB Release Command
--
-- **************************************************************

E-RABReleaseCommand ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container		{ {E-RABReleaseCommandIEs} },
	...
}

E-RABReleaseCommandIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID					CRITICALITY reject	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY reject	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-uEaggregateMaximumBitrate		CRITICALITY reject	TYPE UEAggregateMaximumBitrate		PRESENCE optional	}|
	{ ID id-E-RABToBeReleasedList			CRITICALITY ignore	TYPE E-RABList						PRESENCE mandatory	}|
	{ ID id-NAS-PDU							CRITICALITY ignore	TYPE NAS-PDU						PRESENCE optional	},
	...
}


-- **************************************************************
--
-- E-RAB Release Response
--
-- **************************************************************

E-RABReleaseResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { E-RABReleaseResponseIEs } },
	...
}

E-RABReleaseResponseIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID					CRITICALITY ignore	TYPE MME-UE-S1AP-ID						PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY ignore	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory	}|
	{ ID id-E-RABReleaseListBearerRelComp	CRITICALITY ignore	TYPE E-RABReleaseListBearerRelComp	PRESENCE optional	}|
	{ ID id-E-RABFailedToReleaseList		CRITICALITY ignore	TYPE E-RABList							PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional	}|
-- Extension for Release 12 to support User Location Information -- 
	{ ID id-UserLocationInformation			CRITICALITY ignore	TYPE UserLocationInformation			PRESENCE optional	}|
	{ ID id-SecondaryRATDataUsageReportList		CRITICALITY ignore	TYPE SecondaryRATDataUsageReportList			PRESENCE optional	},
	...
}


E-RABReleaseListBearerRelComp ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { {E-RABReleaseItemBearerRelCompIEs} }

E-RABReleaseItemBearerRelCompIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABReleaseItemBearerRelComp	CRITICALITY ignore	TYPE E-RABReleaseItemBearerRelComp	PRESENCE mandatory },
	...
}

E-RABReleaseItemBearerRelComp ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	iE-Extensions					ProtocolExtensionContainer { {E-RABReleaseItemBearerRelCompExtIEs} } OPTIONAL,
	...
}


E-RABReleaseItemBearerRelCompExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}



-- **************************************************************
--
-- E-RAB RELEASE INDICATION ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- E-RAB Release Indication
--
-- **************************************************************

E-RABReleaseIndication ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {E-RABReleaseIndicationIEs} },
	...
}

E-RABReleaseIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID					CRITICALITY reject	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY reject	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-E-RABReleasedList				CRITICALITY ignore	TYPE E-RABList						PRESENCE mandatory	}|
-- Extension for Release 12 to support User Location Information -- 
	{ ID id-UserLocationInformation			CRITICALITY ignore	TYPE UserLocationInformation		PRESENCE optional	}|
	{ ID id-SecondaryRATDataUsageReportList		CRITICALITY ignore	TYPE SecondaryRATDataUsageReportList		PRESENCE optional	},
	...
}
-- **************************************************************
--
-- INITIAL CONTEXT SETUP ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Initial Context Setup Request
--
-- **************************************************************

InitialContextSetupRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {InitialContextSetupRequestIEs} },
	...
}

InitialContextSetupRequestIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID					CRITICALITY reject	TYPE MME-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY reject	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-uEaggregateMaximumBitrate		CRITICALITY reject	TYPE UEAggregateMaximumBitrate			PRESENCE mandatory}|
	{ ID id-E-RABToBeSetupListCtxtSUReq		CRITICALITY reject	TYPE E-RABToBeSetupListCtxtSUReq		PRESENCE mandatory}|
	{ ID id-UESecurityCapabilities			CRITICALITY reject	TYPE UESecurityCapabilities				PRESENCE mandatory}|
	{ ID id-SecurityKey						CRITICALITY reject	TYPE SecurityKey						PRESENCE mandatory}|
	{ ID id-TraceActivation					CRITICALITY ignore	TYPE TraceActivation					PRESENCE optional}|
	{ ID id-HandoverRestrictionList			CRITICALITY ignore	TYPE HandoverRestrictionList			PRESENCE optional}|
	{ ID id-UERadioCapability				CRITICALITY ignore	TYPE UERadioCapability					PRESENCE optional}|
	{ ID id-SubscriberProfileIDforRFP		CRITICALITY ignore	TYPE SubscriberProfileIDforRFP			PRESENCE optional}|
	{ ID id-CSFallbackIndicator				CRITICALITY reject	TYPE CSFallbackIndicator				PRESENCE optional}|
	{ ID id-SRVCCOperationPossible			CRITICALITY ignore	TYPE SRVCCOperationPossible				PRESENCE optional}|
	{ ID id-CSGMembershipStatus				CRITICALITY ignore	TYPE CSGMembershipStatus				PRESENCE optional}|
	{ ID id-RegisteredLAI					CRITICALITY ignore	TYPE LAI								PRESENCE optional}|
	{ ID id-GUMMEI-ID						CRITICALITY ignore	TYPE GUMMEI								PRESENCE optional}|
	{ ID id-MME-UE-S1AP-ID-2				CRITICALITY ignore	TYPE MME-UE-S1AP-ID						PRESENCE optional}|
	{ ID id-ManagementBasedMDTAllowed		CRITICALITY ignore	TYPE ManagementBasedMDTAllowed			PRESENCE optional}|
	{ ID id-ManagementBasedMDTPLMNList		CRITICALITY ignore	TYPE MDTPLMNList						PRESENCE optional}|
	{ ID id-AdditionalCSFallbackIndicator	CRITICALITY ignore	TYPE AdditionalCSFallbackIndicator	PRESENCE conditional}|
	{ ID id-Masked-IMEISV					CRITICALITY ignore	TYPE Masked-IMEISV						PRESENCE optional}|
	{ ID id-ExpectedUEBehaviour				CRITICALITY ignore	TYPE ExpectedUEBehaviour				PRESENCE optional}|
	{ ID id-ProSeAuthorized					CRITICALITY ignore	TYPE ProSeAuthorized					PRESENCE optional}|
	{ ID id-UEUserPlaneCIoTSupportIndicator	CRITICALITY ignore	TYPE UEUserPlaneCIoTSupportIndicator	PRESENCE optional}|
	{ ID id-V2XServicesAuthorized			CRITICALITY ignore	TYPE V2XServicesAuthorized				PRESENCE optional}|
	{ ID id-UESidelinkAggregateMaximumBitrate		CRITICALITY ignore	TYPE UESidelinkAggregateMaximumBitrate	PRESENCE optional}|
	{ ID id-EnhancedCoverageRestricted		CRITICALITY ignore	TYPE EnhancedCoverageRestricted			PRESENCE optional}|
	{ ID id-NRUESecurityCapabilities				CRITICALITY ignore	TYPE NRUESecurityCapabilities			PRESENCE optional}|
	{ ID id-CE-ModeBRestricted				CRITICALITY ignore	TYPE CE-ModeBRestricted			PRESENCE optional}|
	{ ID id-AerialUEsubscriptionInformation	CRITICALITY ignore	TYPE AerialUEsubscriptionInformation				PRESENCE optional}|
	{ ID id-PendingDataIndication			CRITICALITY ignore	TYPE PendingDataIndication				PRESENCE optional}|
	{ ID id-Subscription-Based-UE-DifferentiationInfo		CRITICALITY ignore	TYPE Subscription-Based-UE-DifferentiationInfo		PRESENCE optional}|
	{ ID id-AdditionalRRMPriorityIndex		CRITICALITY ignore	TYPE AdditionalRRMPriorityIndex			PRESENCE optional }|
	{ ID id-IAB-Authorized					CRITICALITY ignore	TYPE IAB-Authorized						PRESENCE optional}|
	{ ID id-NRV2XServicesAuthorized						CRITICALITY ignore	TYPE NRV2XServicesAuthorized							PRESENCE optional }|
	{ ID id-NRUESidelinkAggregateMaximumBitrate			CRITICALITY ignore	TYPE NRUESidelinkAggregateMaximumBitrate			PRESENCE optional }|
	{ ID id-PC5QoSParameters							CRITICALITY ignore	TYPE PC5QoSParameters									PRESENCE optional }|
	{ ID id-UERadioCapabilityID							CRITICALITY reject	TYPE UERadioCapabilityID								PRESENCE optional},
	...
}




E-RABToBeSetupListCtxtSUReq ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { {E-RABToBeSetupItemCtxtSUReqIEs} }

E-RABToBeSetupItemCtxtSUReqIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABToBeSetupItemCtxtSUReq	CRITICALITY reject	TYPE E-RABToBeSetupItemCtxtSUReq		PRESENCE mandatory	},
	...
}

E-RABToBeSetupItemCtxtSUReq ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	e-RABlevelQoSParameters			E-RABLevelQoSParameters,
	transportLayerAddress			TransportLayerAddress,
	gTP-TEID						GTP-TEID,
	nAS-PDU							NAS-PDU		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {E-RABToBeSetupItemCtxtSUReqExtIEs} } OPTIONAL,
	...
}


E-RABToBeSetupItemCtxtSUReqExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-Correlation-ID					CRITICALITY ignore	EXTENSION Correlation-ID			PRESENCE optional}|
	{ ID id-SIPTO-Correlation-ID			CRITICALITY ignore	EXTENSION Correlation-ID			PRESENCE optional}|
	{ ID id-BearerType						CRITICALITY reject	EXTENSION BearerType				PRESENCE optional}|
	{ ID id-Ethernet-Type					CRITICALITY ignore	EXTENSION Ethernet-Type				PRESENCE optional},
	...
}


-- **************************************************************
--
-- Initial Context Setup Response
--
-- **************************************************************

InitialContextSetupResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {InitialContextSetupResponseIEs} },
	...
}

InitialContextSetupResponseIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID						CRITICALITY ignore	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID						CRITICALITY ignore	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-E-RABSetupListCtxtSURes				CRITICALITY ignore	TYPE E-RABSetupListCtxtSURes		PRESENCE mandatory	}|
	{ ID id-E-RABFailedToSetupListCtxtSURes		CRITICALITY ignore	TYPE E-RABList						PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics				CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}


E-RABSetupListCtxtSURes ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { {E-RABSetupItemCtxtSUResIEs} }

E-RABSetupItemCtxtSUResIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABSetupItemCtxtSURes		CRITICALITY ignore	TYPE E-RABSetupItemCtxtSURes	PRESENCE mandatory	},
	...
}

E-RABSetupItemCtxtSURes ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	transportLayerAddress 			TransportLayerAddress,
	gTP-TEID						GTP-TEID,
	iE-Extensions					ProtocolExtensionContainer { {E-RABSetupItemCtxtSUResExtIEs} } OPTIONAL,
	...
}


E-RABSetupItemCtxtSUResExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


-- **************************************************************
--
-- Initial Context Setup Failure
--
-- **************************************************************

InitialContextSetupFailure ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {InitialContextSetupFailureIEs} },
	...
}

InitialContextSetupFailureIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY ignore	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY ignore	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause							PRESENCE mandatory	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

-- **************************************************************
--
-- PAGING ELEMENTARY PROCEDURE
--
-- **************************************************************


-- **************************************************************
--
-- Paging
--
-- **************************************************************

Paging ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{PagingIEs}},
	...
}

PagingIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-UEIdentityIndexValue			CRITICALITY ignore	TYPE UEIdentityIndexValue				PRESENCE mandatory}|
	{ ID id-UEPagingID						CRITICALITY ignore	TYPE UEPagingID							PRESENCE mandatory}|
	{ ID id-pagingDRX						CRITICALITY ignore	TYPE PagingDRX							PRESENCE optional}|
	{ ID id-CNDomain						CRITICALITY ignore	TYPE CNDomain							PRESENCE mandatory}|
	{ ID id-TAIList							CRITICALITY ignore	TYPE TAIList							PRESENCE mandatory}|
	{ ID id-CSG-IdList						CRITICALITY ignore	TYPE CSG-IdList							PRESENCE optional}|
	{ ID id-PagingPriority					CRITICALITY ignore	TYPE PagingPriority						PRESENCE optional}|
	{ ID id-UERadioCapabilityForPaging		CRITICALITY ignore	TYPE UERadioCapabilityForPaging			PRESENCE optional}|
-- Extension for Release 13 to support Paging Optimisation and Coverage Enhancement paging –-
	{ ID id-AssistanceDataForPaging			CRITICALITY ignore	TYPE AssistanceDataForPaging			PRESENCE optional}|
	{ ID id-Paging-eDRXInformation			CRITICALITY ignore	TYPE Paging-eDRXInformation				PRESENCE optional}|
	{ ID id-extended-UEIdentityIndexValue	CRITICALITY ignore	TYPE Extended-UEIdentityIndexValue	PRESENCE optional}|
	{ ID id-NB-IoT-Paging-eDRXInformation	CRITICALITY ignore	TYPE NB-IoT-Paging-eDRXInformation	PRESENCE optional}|
	{ ID id-NB-IoT-UEIdentityIndexValue		CRITICALITY ignore	TYPE NB-IoT-UEIdentityIndexValue		PRESENCE optional}|
	{ ID id-EnhancedCoverageRestricted		CRITICALITY ignore	TYPE EnhancedCoverageRestricted			PRESENCE optional}|
	{ ID id-CE-ModeBRestricted				CRITICALITY ignore	TYPE CE-ModeBRestricted					PRESENCE optional}|
	{ ID id-DataSize						CRITICALITY ignore	TYPE DataSize							PRESENCE optional}|
	{ ID id-WUS-Assistance-Information		CRITICALITY ignore	TYPE WUS-Assistance-Information			PRESENCE optional}|
	{ ID id-NB-IoT-PagingDRX				CRITICALITY ignore	TYPE NB-IoT-PagingDRX					PRESENCE optional},
	...
}

TAIList::= SEQUENCE (SIZE(1.. maxnoofTAIs)) OF ProtocolIE-SingleContainer {{TAIItemIEs}}

TAIItemIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-TAIItem	 CRITICALITY ignore		TYPE TAIItem	PRESENCE mandatory },
	...
}

TAIItem ::= SEQUENCE {
	tAI 							TAI,
	iE-Extensions					ProtocolExtensionContainer { {TAIItemExtIEs} } OPTIONAL,
	...
}


TAIItemExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- UE CONTEXT RELEASE ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- UE Context Release Request
--
-- **************************************************************

UEContextReleaseRequest ::= SEQUENCE {
	protocolIEs                     ProtocolIE-Container       {{UEContextReleaseRequest-IEs}},
	...
}

UEContextReleaseRequest-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID					CRITICALITY reject	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID					CRITICALITY reject	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-Cause							CRITICALITY ignore	TYPE Cause								PRESENCE mandatory	}|
	{ ID id-GWContextReleaseIndication		CRITICALITY reject	TYPE GWContextReleaseIndication		PRESENCE optional	}|
	{ ID id-SecondaryRATDataUsageReportList	CRITICALITY ignore	TYPE SecondaryRATDataUsageReportList	PRESENCE optional },
	...
}

-- **************************************************************
--
-- UE Context Release Command
--
-- **************************************************************

UEContextReleaseCommand ::= SEQUENCE {
	protocolIEs                     ProtocolIE-Container       {{UEContextReleaseCommand-IEs}},
	...
}

UEContextReleaseCommand-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-UE-S1AP-IDs					CRITICALITY reject	TYPE UE-S1AP-IDs					PRESENCE mandatory	}|
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause							PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- UE Context Release Complete
--
-- **************************************************************

UEContextReleaseComplete ::= SEQUENCE {
	protocolIEs                     ProtocolIE-Container       {{UEContextReleaseComplete-IEs}},
	...
}

UEContextReleaseComplete-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID								CRITICALITY ignore	TYPE MME-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID								CRITICALITY ignore	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-CriticalityDiagnostics						CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional}|
-- Extension for Release 12 to support User Location Information -- 
	{ ID id-UserLocationInformation						CRITICALITY ignore	TYPE UserLocationInformation				PRESENCE optional}|
-- Extension for Release 13 to support Paging Optimisation
	{ ID id-InformationOnRecommendedCellsAndENBsForPaging	CRITICALITY ignore	TYPE InformationOnRecommendedCellsAndENBsForPaging		PRESENCE optional}|
-- Extension for Release 13 to support coverage enhancement paging –
	{ ID id-CellIdentifierAndCELevelForCECapableUEs		CRITICALITY ignore	TYPE CellIdentifierAndCELevelForCECapableUEs	PRESENCE optional}|
	{ ID id-SecondaryRATDataUsageReportList				CRITICALITY ignore	TYPE SecondaryRATDataUsageReportList		PRESENCE optional }|
	{ ID id-TimeSinceSecondaryNodeRelease				CRITICALITY ignore	TYPE TimeSinceSecondaryNodeRelease				PRESENCE optional },
	...
}


-- **************************************************************
--
-- UE CONTEXT MODIFICATION ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- UE Context Modification Request
--
-- **************************************************************

UEContextModificationRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UEContextModificationRequestIEs} },
	...
}

UEContextModificationRequestIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID						CRITICALITY reject	TYPE MME-UE-S1AP-ID							PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID						CRITICALITY reject	TYPE ENB-UE-S1AP-ID							PRESENCE mandatory}|
	{ ID id-SecurityKey							CRITICALITY reject	TYPE SecurityKey							PRESENCE optional}|
	{ ID id-SubscriberProfileIDforRFP			CRITICALITY ignore	TYPE SubscriberProfileIDforRFP			PRESENCE optional}|
	{ ID id-uEaggregateMaximumBitrate			CRITICALITY ignore	TYPE UEAggregateMaximumBitrate			PRESENCE optional}|
	{ ID id-CSFallbackIndicator					CRITICALITY reject	TYPE CSFallbackIndicator					PRESENCE optional}|
	{ ID id-UESecurityCapabilities				CRITICALITY reject	TYPE UESecurityCapabilities					PRESENCE optional}|
	{ ID id-CSGMembershipStatus					CRITICALITY ignore	TYPE CSGMembershipStatus					PRESENCE optional}|
	{ ID id-RegisteredLAI						CRITICALITY ignore	TYPE LAI									PRESENCE optional}|
	{ ID id-AdditionalCSFallbackIndicator		CRITICALITY ignore	TYPE AdditionalCSFallbackIndicator		PRESENCE conditional}|
	{ ID id-ProSeAuthorized						CRITICALITY ignore	TYPE ProSeAuthorized						PRESENCE optional}|
	{ ID id-SRVCCOperationPossible				CRITICALITY ignore	TYPE SRVCCOperationPossible					PRESENCE optional}|
	{ ID id-SRVCCOperationNotPossible			CRITICALITY ignore	TYPE SRVCCOperationNotPossible			PRESENCE optional}|
	{ ID id-V2XServicesAuthorized				CRITICALITY ignore	TYPE V2XServicesAuthorized					PRESENCE optional}|
	{ ID id-UESidelinkAggregateMaximumBitrate	CRITICALITY ignore	TYPE UESidelinkAggregateMaximumBitrate	PRESENCE optional}|
	{ ID id-NRUESecurityCapabilities			CRITICALITY ignore	TYPE NRUESecurityCapabilities				PRESENCE optional}|
	{ ID id-AerialUEsubscriptionInformation		CRITICALITY ignore	TYPE AerialUEsubscriptionInformation	PRESENCE optional}|
	{ ID id-AdditionalRRMPriorityIndex			CRITICALITY ignore	TYPE AdditionalRRMPriorityIndex			PRESENCE optional}|
	{ ID id-IAB-Authorized						CRITICALITY ignore	TYPE IAB-Authorized							PRESENCE optional}|
	{ ID id-NRV2XServicesAuthorized						CRITICALITY ignore	TYPE NRV2XServicesAuthorized							PRESENCE optional }|
	{ ID id-NRUESidelinkAggregateMaximumBitrate			CRITICALITY ignore	TYPE NRUESidelinkAggregateMaximumBitrate			PRESENCE optional }|
	{ ID id-PC5QoSParameters							CRITICALITY ignore	TYPE PC5QoSParameters									PRESENCE optional }|
	{ ID id-UERadioCapabilityID							CRITICALITY reject	TYPE UERadioCapabilityID								PRESENCE optional},
	...
}
-- **************************************************************
--
-- UE Context Modification Response
--
-- **************************************************************

UEContextModificationResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UEContextModificationResponseIEs} },
	...
}

UEContextModificationResponseIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID				CRITICALITY ignore	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY ignore	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}
-- **************************************************************
--
-- UE Context Modification Failure
--
-- **************************************************************

UEContextModificationFailure ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UEContextModificationFailureIEs} },
	...
}

UEContextModificationFailureIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID				CRITICALITY ignore	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY ignore	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause							PRESENCE mandatory	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

-- **************************************************************
--
-- UE RADIO CAPABILITY MATCH ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- UE Radio Capability Match Request
--
-- **************************************************************

UERadioCapabilityMatchRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UERadioCapabilityMatchRequestIEs} },
	...
}

UERadioCapabilityMatchRequestIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID				CRITICALITY reject	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY reject	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-UERadioCapability			CRITICALITY ignore	TYPE UERadioCapability				PRESENCE optional	}|
	{ ID id-UERadioCapabilityID			CRITICALITY reject	TYPE UERadioCapabilityID			PRESENCE optional	},
	...
}

-- **************************************************************
--
-- UE Radio Capability Match Response
--
-- **************************************************************

UERadioCapabilityMatchResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UERadioCapabilityMatchResponseIEs} },
	...
}

UERadioCapabilityMatchResponseIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MME-UE-S1AP-ID				CRITICALITY ignore	TYPE MME-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY ignore	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory	}|
	{ ID id-VoiceSupportMatchIndicator	CRITICALITY reject	TYPE VoiceSupportMatchIndicator		PRESENCE mandatory	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

-- **************************************************************
--
-- NAS TRANSPORT ELEMENTARY PROCEDURES
--
-- **************************************************************

-- **************************************************************
--
-- DOWNLINK NAS TRANSPORT
--
-- **************************************************************

DownlinkNASTransport ::= SEQUENCE {
	protocolIEs                     ProtocolIE-Container       {{DownlinkNASTransport-IEs}},
	...
}

DownlinkNASTransport-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY reject	TYPE MME-UE-S1AP-ID					PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY reject	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory}|
	{ ID id-NAS-PDU						CRITICALITY reject	TYPE NAS-PDU						PRESENCE mandatory}|
	{ ID id-HandoverRestrictionList		CRITICALITY ignore	TYPE HandoverRestrictionList		PRESENCE optional}|
	{ ID id-SubscriberProfileIDforRFP	CRITICALITY ignore	TYPE SubscriberProfileIDforRFP		PRESENCE optional}|
	{ ID id-SRVCCOperationPossible		CRITICALITY ignore	TYPE SRVCCOperationPossible			PRESENCE optional}|
	{ ID id-UERadioCapability			CRITICALITY ignore	TYPE UERadioCapability				PRESENCE optional}|
	{ ID id-DLNASPDUDeliveryAckRequest	CRITICALITY ignore	TYPE DLNASPDUDeliveryAckRequest	PRESENCE optional}|
	{ ID id-EnhancedCoverageRestricted	CRITICALITY ignore	TYPE EnhancedCoverageRestricted		PRESENCE optional}|
	{ ID id-NRUESecurityCapabilities	CRITICALITY ignore	TYPE NRUESecurityCapabilities		PRESENCE optional}|
	{ ID id-CE-ModeBRestricted			CRITICALITY ignore	TYPE CE-ModeBRestricted				PRESENCE optional}|
	{ ID id-UECapabilityInfoRequest		CRITICALITY ignore	TYPE UECapabilityInfoRequest	PRESENCE optional}|
	{ ID id-EndIndication				CRITICALITY ignore	TYPE EndIndication					PRESENCE optional}|
	{ ID id-PendingDataIndication		CRITICALITY ignore	TYPE PendingDataIndication			PRESENCE optional}|
	{ ID id-Subscription-Based-UE-DifferentiationInfo		CRITICALITY ignore	TYPE Subscription-Based-UE-DifferentiationInfo		PRESENCE optional}|
	{ ID id-AdditionalRRMPriorityIndex	CRITICALITY ignore	TYPE AdditionalRRMPriorityIndex		PRESENCE optional}|
	{ ID id-UERadioCapabilityID			CRITICALITY reject	TYPE UERadioCapabilityID			PRESENCE optional},
	...
}


-- **************************************************************
--
-- INITIAL UE MESSAGE
--
-- **************************************************************

InitialUEMessage ::= SEQUENCE {
	protocolIEs                     ProtocolIE-Container       {{InitialUEMessage-IEs}},
	...
}

InitialUEMessage-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY reject	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory}|
	{ ID id-NAS-PDU						CRITICALITY reject	TYPE NAS-PDU						PRESENCE mandatory}|
	{ ID id-TAI							CRITICALITY reject	TYPE TAI							PRESENCE mandatory}|
	{ ID id-EUTRAN-CGI					CRITICALITY ignore	TYPE EUTRAN-CGI						PRESENCE mandatory}|
	{ ID id-RRC-Establishment-Cause		CRITICALITY ignore	TYPE RRC-Establishment-Cause		PRESENCE mandatory}|
	{ ID id-S-TMSI						CRITICALITY reject	TYPE S-TMSI							PRESENCE optional}|
	{ ID id-CSG-Id						CRITICALITY reject	TYPE CSG-Id							PRESENCE optional}|
	{ ID id-GUMMEI-ID					CRITICALITY reject	TYPE GUMMEI							PRESENCE optional}|
	{ ID id-CellAccessMode				CRITICALITY reject	TYPE CellAccessMode					PRESENCE optional}|
	{ ID id-GW-TransportLayerAddress	CRITICALITY ignore	TYPE TransportLayerAddress			PRESENCE optional}|
	{ ID id-RelayNode-Indicator			CRITICALITY reject	TYPE RelayNode-Indicator			PRESENCE optional}|
	{ ID id-GUMMEIType					CRITICALITY ignore	TYPE GUMMEIType						PRESENCE optional}|
-- Extension for Release 11 to support BBAI -- 
	{ ID id-Tunnel-Information-for-BBF	CRITICALITY ignore	TYPE TunnelInformation				PRESENCE optional}|
	{ ID id-SIPTO-L-GW-TransportLayerAddress	CRITICALITY ignore	TYPE TransportLayerAddress	PRESENCE optional}|
	{ ID id-LHN-ID						CRITICALITY ignore	TYPE LHN-ID							PRESENCE optional}|
	{ ID id-MME-Group-ID				CRITICALITY ignore	TYPE MME-Group-ID					PRESENCE optional}|
	{ ID id-UE-Usage-Type				CRITICALITY ignore	TYPE UE-Usage-Type					PRESENCE optional}|
	{ ID id-CE-mode-B-SupportIndicator	CRITICALITY ignore	TYPE CE-mode-B-SupportIndicator		PRESENCE optional}|
	{ ID id-DCN-ID						CRITICALITY ignore	TYPE DCN-ID							PRESENCE optional}|
	{ ID id-Coverage-Level           	CRITICALITY ignore	TYPE Coverage-Level				PRESENCE optional}|
	{ ID id-UE-Application-Layer-Measurement-Capability		CRITICALITY ignore	TYPE UE-Application-Layer-Measurement-Capability							PRESENCE optional}|
	{ ID id-EDT-Session					CRITICALITY ignore	TYPE EDT-Session					PRESENCE optional}|
	{ ID id-IAB-Node-Indication			CRITICALITY reject	TYPE IAB-Node-Indication			PRESENCE optional},
	...
}


-- **************************************************************
--
-- UPLINK NAS TRANSPORT
--
-- **************************************************************

UplinkNASTransport ::= SEQUENCE {
	protocolIEs                     ProtocolIE-Container       {{UplinkNASTransport-IEs}},
	...
}

UplinkNASTransport-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY reject	TYPE MME-UE-S1AP-ID					PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY reject	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory}|
	{ ID id-NAS-PDU						CRITICALITY reject	TYPE NAS-PDU						PRESENCE mandatory}|
	{ ID id-EUTRAN-CGI					CRITICALITY ignore	TYPE EUTRAN-CGI						PRESENCE mandatory}|
	{ ID id-TAI							CRITICALITY ignore	TYPE TAI							PRESENCE mandatory}|
	{ ID id-GW-TransportLayerAddress	CRITICALITY ignore	TYPE TransportLayerAddress			PRESENCE optional}|
	{ ID id-SIPTO-L-GW-TransportLayerAddress	CRITICALITY ignore	TYPE TransportLayerAddress	PRESENCE optional}|
	{ ID id-LHN-ID						CRITICALITY ignore	TYPE LHN-ID							PRESENCE optional}|
	{ ID id-PSCellInformation			CRITICALITY ignore	TYPE PSCellInformation				PRESENCE optional },
	...
}
-- **************************************************************
--
-- NAS NON DELIVERY INDICATION
--
-- **************************************************************

NASNonDeliveryIndication ::= SEQUENCE {
	protocolIEs                     ProtocolIE-Container       {{NASNonDeliveryIndication-IEs}},
	...
}

NASNonDeliveryIndication-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-NAS-PDU						CRITICALITY ignore	TYPE NAS-PDU					PRESENCE mandatory	}|
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- REROUTE NAS REQUEST
--
-- **************************************************************

RerouteNASRequest ::= SEQUENCE {
	protocolIEs                     ProtocolIE-Container       {{RerouteNASRequest-IEs}},
	...
}

RerouteNASRequest-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-eNB-UE-S1AP-ID			CRITICALITY reject	TYPE ENB-UE-S1AP-ID			PRESENCE mandatory}|
	{ ID id-MME-UE-S1AP-ID			CRITICALITY ignore	TYPE MME-UE-S1AP-ID			PRESENCE optional}|
	{ ID id-S1-Message				CRITICALITY reject	TYPE OCTET STRING			PRESENCE mandatory}|
	{ ID id-MME-Group-ID			CRITICALITY reject	TYPE MME-Group-ID			PRESENCE mandatory}|
	{ ID id-Additional-GUTI			CRITICALITY ignore	TYPE Additional-GUTI		PRESENCE optional}|
	{ ID id-UE-Usage-Type			CRITICALITY ignore	TYPE UE-Usage-Type			PRESENCE optional},
	...
}


-- **************************************************************
--
-- NAS DELIVERY INDICATION
--
-- **************************************************************

NASDeliveryIndication ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container { { NASDeliveryIndicationIEs} },
	...
}

NASDeliveryIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID							CRITICALITY reject	TYPE MME-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID							CRITICALITY reject	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory},
	...
}

-- **************************************************************
--
-- RESET ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Reset
--
-- **************************************************************

Reset ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {ResetIEs} },
	...
}

ResetIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE mandatory	}|
	{ ID id-ResetType					CRITICALITY reject	TYPE ResetType					PRESENCE mandatory	},
	...
}

ResetType ::= CHOICE {
	s1-Interface					ResetAll,
	partOfS1-Interface				UE-associatedLogicalS1-ConnectionListRes,
	...
}



ResetAll ::= ENUMERATED {
	reset-all,
	...
}

UE-associatedLogicalS1-ConnectionListRes ::= SEQUENCE (SIZE(1.. maxnoofIndividualS1ConnectionsToReset)) OF ProtocolIE-SingleContainer { { UE-associatedLogicalS1-ConnectionItemRes } }

UE-associatedLogicalS1-ConnectionItemRes S1AP-PROTOCOL-IES ::= {
	{ ID id-UE-associatedLogicalS1-ConnectionItem	CRITICALITY reject	TYPE UE-associatedLogicalS1-ConnectionItem	PRESENCE mandatory},
	...
}


-- **************************************************************
--
-- Reset Acknowledge
--
-- **************************************************************

ResetAcknowledge ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {ResetAcknowledgeIEs} },
	...
}

ResetAcknowledgeIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-UE-associatedLogicalS1-ConnectionListResAck		CRITICALITY ignore	TYPE UE-associatedLogicalS1-ConnectionListResAck			PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

UE-associatedLogicalS1-ConnectionListResAck ::= SEQUENCE (SIZE(1.. maxnoofIndividualS1ConnectionsToReset)) OF ProtocolIE-SingleContainer { { UE-associatedLogicalS1-ConnectionItemResAck } }

UE-associatedLogicalS1-ConnectionItemResAck 	S1AP-PROTOCOL-IES ::= {
	{ ID id-UE-associatedLogicalS1-ConnectionItem	 CRITICALITY ignore 	TYPE UE-associatedLogicalS1-ConnectionItem  	PRESENCE mandatory },
	...
}

-- **************************************************************
--
-- ERROR INDICATION ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Error Indication
--
-- **************************************************************

ErrorIndication ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{ErrorIndicationIEs}},
	...
}

ErrorIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY ignore	TYPE MME-UE-S1AP-ID				PRESENCE optional	}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY ignore	TYPE ENB-UE-S1AP-ID				PRESENCE optional	}|
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional	}|
	{ ID id-S-TMSI						CRITICALITY ignore	TYPE S-TMSI						PRESENCE optional	},
	...
}

-- **************************************************************
--
-- S1 SETUP ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- S1 Setup Request
--
-- **************************************************************

S1SetupRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {S1SetupRequestIEs} },
	...
}

S1SetupRequestIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Global-ENB-ID				CRITICALITY reject	TYPE Global-ENB-ID				PRESENCE mandatory}|
	{ ID id-eNBname						CRITICALITY ignore	TYPE ENBname					PRESENCE optional}|
	{ ID id-SupportedTAs				CRITICALITY reject	TYPE SupportedTAs				PRESENCE mandatory}|
	{ ID id-DefaultPagingDRX			CRITICALITY ignore	TYPE PagingDRX					PRESENCE mandatory}|
	{ ID id-CSG-IdList					CRITICALITY reject	TYPE CSG-IdList					PRESENCE optional}|
	{ ID id-UE-RetentionInformation		CRITICALITY ignore	TYPE UE-RetentionInformation	PRESENCE optional}|
	{ ID id-NB-IoT-DefaultPagingDRX		CRITICALITY ignore	TYPE NB-IoT-DefaultPagingDRX	PRESENCE optional}|
	{ ID id-ConnectedengNBList			CRITICALITY ignore	TYPE ConnectedengNBList			PRESENCE optional},
	...
}

-- **************************************************************
--
-- S1 Setup Response
--
-- **************************************************************

S1SetupResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {S1SetupResponseIEs} },
	...
}


S1SetupResponseIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MMEname						CRITICALITY ignore	TYPE MMEname					PRESENCE optional}|
	{ ID id-ServedGUMMEIs				CRITICALITY reject	TYPE ServedGUMMEIs				PRESENCE mandatory}|
	{ ID id-RelativeMMECapacity			CRITICALITY ignore	TYPE RelativeMMECapacity		PRESENCE mandatory}|
	{ ID id-MMERelaySupportIndicator	CRITICALITY ignore	TYPE MMERelaySupportIndicator	PRESENCE optional}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional}|
	{ ID id-UE-RetentionInformation		CRITICALITY ignore	TYPE UE-RetentionInformation	PRESENCE optional}|
	{ ID id-ServedDCNs					CRITICALITY ignore	TYPE ServedDCNs					PRESENCE optional}|
	{ ID id-IAB-Supported				CRITICALITY ignore	TYPE IAB-Supported				PRESENCE optional},
	...
}

-- **************************************************************
--
-- S1 Setup Failure
--
-- **************************************************************

S1SetupFailure ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {S1SetupFailureIEs} },
	...
}

S1SetupFailureIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE mandatory	}|
	{ ID id-TimeToWait					CRITICALITY ignore	TYPE TimeToWait					PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional	},
	...
}

-- **************************************************************
--
-- ENB CONFIGURATION UPDATE ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- eNB Configuration Update 
--
-- **************************************************************

ENBConfigurationUpdate ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {ENBConfigurationUpdateIEs} },
	...
}

ENBConfigurationUpdateIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-eNBname						CRITICALITY ignore	TYPE ENBname					PRESENCE optional}|
	{ ID id-SupportedTAs				CRITICALITY reject	TYPE SupportedTAs				PRESENCE optional}|
	{ ID id-CSG-IdList					CRITICALITY reject	TYPE CSG-IdList					PRESENCE optional}|
	{ ID id-DefaultPagingDRX			CRITICALITY ignore	TYPE PagingDRX					PRESENCE optional}|
	{ ID id-NB-IoT-DefaultPagingDRX		CRITICALITY ignore	TYPE NB-IoT-DefaultPagingDRX	PRESENCE optional}|
	{ ID id-ConnectedengNBToAddList		CRITICALITY ignore	TYPE ConnectedengNBList			PRESENCE optional}|
	{ ID id-ConnectedengNBToRemoveList	CRITICALITY ignore	TYPE ConnectedengNBList			PRESENCE optional},
	...
}

-- **************************************************************
--
-- eNB Configuration Update Acknowledge
--
-- **************************************************************

ENBConfigurationUpdateAcknowledge ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {ENBConfigurationUpdateAcknowledgeIEs} },
	...
}


ENBConfigurationUpdateAcknowledgeIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics	PRESENCE optional	},
	...
}

-- **************************************************************
--
-- eNB Configuration Update Failure
--
-- **************************************************************

ENBConfigurationUpdateFailure ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {ENBConfigurationUpdateFailureIEs} },
	...
}

ENBConfigurationUpdateFailureIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE mandatory	}|
	{ ID id-TimeToWait					CRITICALITY ignore	TYPE TimeToWait					PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional	},
...
}


-- **************************************************************
--
-- MME CONFIGURATION UPDATE ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- MME Configuration Update 
--
-- **************************************************************

MMEConfigurationUpdate ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {MMEConfigurationUpdateIEs} },
	...
}

MMEConfigurationUpdateIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MMEname					CRITICALITY ignore	TYPE MMEname				PRESENCE optional	}|
	{ ID id-ServedGUMMEIs			CRITICALITY reject	TYPE ServedGUMMEIs			PRESENCE optional	}|
	{ ID id-RelativeMMECapacity		CRITICALITY reject	TYPE RelativeMMECapacity	PRESENCE optional	}|
	{ ID id-ServedDCNs				CRITICALITY ignore	TYPE ServedDCNs				PRESENCE optional},
	...
}

-- **************************************************************
--
-- MME Configuration Update Acknowledge
--
-- **************************************************************

MMEConfigurationUpdateAcknowledge ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {MMEConfigurationUpdateAcknowledgeIEs} },
	...
}


MMEConfigurationUpdateAcknowledgeIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

-- **************************************************************
--
-- MME Configuration Update Failure
--
-- **************************************************************

MMEConfigurationUpdateFailure ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {MMEConfigurationUpdateFailureIEs} },
	...
}

MMEConfigurationUpdateFailureIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE mandatory	}|
	{ ID id-TimeToWait					CRITICALITY ignore	TYPE TimeToWait					PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional	},
	...
}

-- **************************************************************
--
-- DOWNLINK S1 CDMA2000 TUNNELLING ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Downlink S1 CDMA2000 Tunnelling
--
-- **************************************************************

DownlinkS1cdma2000tunnelling ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {DownlinkS1cdma2000tunnellingIEs} },
	...
}

DownlinkS1cdma2000tunnellingIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID						CRITICALITY reject	TYPE MME-UE-S1AP-ID						PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID						CRITICALITY reject	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory	}|
	{ ID id-E-RABSubjecttoDataForwardingList	CRITICALITY ignore	TYPE E-RABSubjecttoDataForwardingList	PRESENCE optional	}|
	{ ID id-cdma2000HOStatus					CRITICALITY ignore	TYPE Cdma2000HOStatus					PRESENCE optional	}|
	{ ID id-cdma2000RATType						CRITICALITY reject	TYPE Cdma2000RATType					PRESENCE mandatory	}|
	{ ID id-cdma2000PDU							CRITICALITY reject	TYPE Cdma2000PDU						PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- UPLINK S1 CDMA2000 TUNNELLING ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Uplink S1 CDMA2000 Tunnelling
--
-- **************************************************************

UplinkS1cdma2000tunnelling ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {UplinkS1cdma2000tunnellingIEs} },
	...
}

UplinkS1cdma2000tunnellingIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID							CRITICALITY reject	TYPE MME-UE-S1AP-ID						PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID							CRITICALITY reject	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory	}|
	{ ID id-cdma2000RATType							CRITICALITY reject	TYPE Cdma2000RATType					PRESENCE mandatory	}|
	{ ID id-cdma2000SectorID						CRITICALITY reject	TYPE Cdma2000SectorID					PRESENCE mandatory	}|
	{ ID id-cdma2000HORequiredIndication			CRITICALITY ignore	TYPE Cdma2000HORequiredIndication		PRESENCE optional	}|
	{ ID id-cdma2000OneXSRVCCInfo					CRITICALITY reject	TYPE Cdma2000OneXSRVCCInfo			PRESENCE optional	}|
	{ ID id-cdma2000OneXRAND						CRITICALITY reject	TYPE Cdma2000OneXRAND					PRESENCE optional	}|
	{ ID id-cdma2000PDU								CRITICALITY reject	TYPE Cdma2000PDU						PRESENCE mandatory	}|
	{ ID id-EUTRANRoundTripDelayEstimationInfo		CRITICALITY ignore	TYPE EUTRANRoundTripDelayEstimationInfo		PRESENCE optional	},
	-- Extension for Release 9 to assist target HRPD access with the acquisition of the UE --
	...
}


-- **************************************************************
--
-- UE CAPABILITY INFO INDICATION ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- UE Capability Info Indication
--
-- **************************************************************

UECapabilityInfoIndication ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UECapabilityInfoIndicationIEs} },
	...
}

UECapabilityInfoIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY reject	TYPE MME-UE-S1AP-ID					PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY reject	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory}|
	{ ID id-UERadioCapability			CRITICALITY ignore	TYPE UERadioCapability				PRESENCE mandatory}|
	{ ID id-UERadioCapabilityForPaging	CRITICALITY ignore	TYPE UERadioCapabilityForPaging		PRESENCE optional}|
	{ ID id-UE-Application-Layer-Measurement-Capability		CRITICALITY ignore	TYPE UE-Application-Layer-Measurement-Capability							PRESENCE optional}|
	{ ID id-LTE-M-Indication				CRITICALITY ignore	TYPE LTE-M-Indication				PRESENCE optional}|
	{ ID id-UERadioCapability-NR-Format	CRITICALITY ignore	TYPE UERadioCapability				PRESENCE optional}|
	{ ID id-UERadioCapabilityForPaging-NR-Format	CRITICALITY ignore	TYPE UERadioCapabilityForPaging				PRESENCE optional},
	...
}

-- **************************************************************
--
-- eNB STATUS TRANSFER ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- eNB Status Transfer
--
-- **************************************************************

ENBStatusTransfer ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {ENBStatusTransferIEs} },
	...
}

ENBStatusTransferIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID								CRITICALITY reject	TYPE MME-UE-S1AP-ID		PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID								CRITICALITY reject	TYPE ENB-UE-S1AP-ID		PRESENCE mandatory}|
	{ ID id-eNB-StatusTransfer-TransparentContainer		CRITICALITY reject	TYPE ENB-StatusTransfer-TransparentContainer	PRESENCE mandatory},
	...
}


-- **************************************************************
--
-- MME STATUS TRANSFER ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- MME Status Transfer
--
-- **************************************************************

MMEStatusTransfer ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {MMEStatusTransferIEs} },
	...
}

MMEStatusTransferIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID								CRITICALITY reject	TYPE MME-UE-S1AP-ID			PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID								CRITICALITY reject	TYPE ENB-UE-S1AP-ID			PRESENCE mandatory}|
	{ ID id-eNB-StatusTransfer-TransparentContainer		CRITICALITY reject	TYPE ENB-StatusTransfer-TransparentContainer		PRESENCE mandatory},
	...
}


-- **************************************************************
--
-- TRACE ELEMENTARY PROCEDURES
--
-- **************************************************************
-- **************************************************************
--
-- Trace Start
--
-- **************************************************************

TraceStart ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {TraceStartIEs} },
	...
}

TraceStartIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-TraceActivation				CRITICALITY ignore	TYPE TraceActivation			PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- Trace Failure Indication
--
-- **************************************************************

TraceFailureIndication ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {TraceFailureIndicationIEs} },
	...
}

TraceFailureIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-E-UTRAN-Trace-ID			CRITICALITY ignore	TYPE E-UTRAN-Trace-ID			PRESENCE mandatory	}|
	{ ID id-Cause						CRITICALITY ignore	TYPE Cause						PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- DEACTIVATE TRACE ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Deactivate Trace
--
-- **************************************************************

DeactivateTrace ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { DeactivateTraceIEs} },
	...
}

DeactivateTraceIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID		CRITICALITY reject	TYPE MME-UE-S1AP-ID		PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID		CRITICALITY reject	TYPE ENB-UE-S1AP-ID		PRESENCE mandatory	}|
	{ ID id-E-UTRAN-Trace-ID	CRITICALITY ignore	TYPE E-UTRAN-Trace-ID	PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- CELL TRAFFIC TRACE ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Cell Traffic Trace
--
-- **************************************************************

CellTrafficTrace ::= SEQUENCE {
protocolIEs		ProtocolIE-Container	{ { CellTrafficTraceIEs } },
...
}

CellTrafficTraceIEs S1AP-PROTOCOL-IES ::= {
	{ID id-MME-UE-S1AP-ID					CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory	}|
	{ID id-eNB-UE-S1AP-ID					CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory	}|
	{ID id-E-UTRAN-Trace-ID					CRITICALITY ignore	TYPE E-UTRAN-Trace-ID			PRESENCE mandatory	}|
	{ID id-EUTRAN-CGI						CRITICALITY ignore	TYPE EUTRAN-CGI					PRESENCE mandatory	}|
	{ID id-TraceCollectionEntityIPAddress	CRITICALITY ignore	TYPE TransportLayerAddress		PRESENCE mandatory	}|
	{ID id-PrivacyIndicator					CRITICALITY ignore	TYPE PrivacyIndicator			PRESENCE optional	},
	...
}

-- **************************************************************
--
-- LOCATION ELEMENTARY PROCEDURES
--
-- **************************************************************

-- **************************************************************
--
-- Location Reporting Control
--
-- **************************************************************

LocationReportingControl ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { LocationReportingControlIEs} },
	...
}

LocationReportingControlIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID			CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID			CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-RequestType				CRITICALITY ignore	TYPE RequestType				PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- Location Report Failure Indication
--
-- **************************************************************

LocationReportingFailureIndication ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { LocationReportingFailureIndicationIEs} },
	...
}

LocationReportingFailureIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID			CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID			CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-Cause					CRITICALITY ignore	TYPE Cause						PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- Location Report 
--
-- **************************************************************

LocationReport ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { LocationReportIEs} },
	...
}

LocationReportIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID			CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID			CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-EUTRAN-CGI				CRITICALITY ignore	TYPE EUTRAN-CGI					PRESENCE mandatory	}|
	{ ID id-TAI						CRITICALITY ignore	TYPE TAI						PRESENCE mandatory	}|
	{ ID id-RequestType				CRITICALITY ignore	TYPE RequestType				PRESENCE mandatory	}|
	{ ID id-PSCellInformation		CRITICALITY ignore	TYPE PSCellInformation			PRESENCE optional },
	...
}

-- **************************************************************
--
-- OVERLOAD ELEMENTARY PROCEDURES
--
-- **************************************************************

-- **************************************************************
--
-- Overload Start
--
-- **************************************************************

OverloadStart ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {OverloadStartIEs} },
	...
}

OverloadStartIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-OverloadResponse					CRITICALITY reject	TYPE OverloadResponse				PRESENCE mandatory	}|
	{ ID id-GUMMEIList							CRITICALITY ignore	TYPE GUMMEIList						PRESENCE optional	}|
	{ ID id-TrafficLoadReductionIndication		CRITICALITY ignore	TYPE TrafficLoadReductionIndication	PRESENCE optional	},
	...
}
-- **************************************************************
--
-- Overload Stop
--
-- **************************************************************

OverloadStop ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {OverloadStopIEs} },
	...
}

OverloadStopIEs S1AP-PROTOCOL-IES ::= {	
{ ID id-GUMMEIList								CRITICALITY ignore	TYPE GUMMEIList						PRESENCE optional	},
	...
}
-- **************************************************************
--
-- WRITE-REPLACE WARNING ELEMENTARY PROCEDURE 
--
-- **************************************************************

-- **************************************************************
--
-- Write-Replace Warning Request
--
-- **************************************************************


WriteReplaceWarningRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {WriteReplaceWarningRequestIEs} },
	...
}

WriteReplaceWarningRequestIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MessageIdentifier					CRITICALITY reject	TYPE MessageIdentifier					PRESENCE mandatory	}|
	{ ID id-SerialNumber						CRITICALITY reject	TYPE SerialNumber						PRESENCE mandatory	}|
	{ ID id-WarningAreaList						CRITICALITY ignore	TYPE WarningAreaList					PRESENCE optional	}|
	{ ID id-RepetitionPeriod					CRITICALITY reject	TYPE RepetitionPeriod					PRESENCE mandatory	}|
	{ ID id-ExtendedRepetitionPeriod			CRITICALITY reject	TYPE ExtendedRepetitionPeriod			PRESENCE optional	}|
	{ ID id-NumberofBroadcastRequest			CRITICALITY reject	TYPE NumberofBroadcastRequest			PRESENCE mandatory	}|
	{ ID id-WarningType							CRITICALITY ignore	TYPE WarningType						PRESENCE optional	}|
	{ ID id-WarningSecurityInfo					CRITICALITY ignore	TYPE WarningSecurityInfo				PRESENCE optional	}|
	{ ID id-DataCodingScheme					CRITICALITY ignore	TYPE DataCodingScheme					PRESENCE optional	}|
	{ ID id-WarningMessageContents				CRITICALITY ignore	TYPE WarningMessageContents				PRESENCE optional	}|
	{ ID id-ConcurrentWarningMessageIndicator	CRITICALITY reject	TYPE ConcurrentWarningMessageIndicator	PRESENCE optional	}|
	{ ID id-WarningAreaCoordinates				CRITICALITY ignore	TYPE WarningAreaCoordinates				PRESENCE optional	},
	...
}
-- **************************************************************
--
-- Write-Replace Warning Response
--
-- **************************************************************

WriteReplaceWarningResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container		{ {WriteReplaceWarningResponseIEs} },
	...
}

WriteReplaceWarningResponseIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MessageIdentifier				CRITICALITY reject	TYPE MessageIdentifier					PRESENCE mandatory	}|
	{ ID id-SerialNumber					CRITICALITY reject	TYPE SerialNumber						PRESENCE mandatory	}|
	{ ID id-BroadcastCompletedAreaList		CRITICALITY ignore	TYPE BroadcastCompletedAreaList			PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics			CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional	},
	...
}

-- **************************************************************
--
-- eNB DIRECT INFORMATION TRANSFER ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- eNB Direct Information Transfer
--
-- **************************************************************

ENBDirectInformationTransfer ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{ ENBDirectInformationTransferIEs}},
	...
}

ENBDirectInformationTransferIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Inter-SystemInformationTransferTypeEDT	CRITICALITY reject	TYPE Inter-SystemInformationTransferType		PRESENCE mandatory	},
	...
}

Inter-SystemInformationTransferType ::= CHOICE {
	rIMTransfer		RIMTransfer,
	...
}

-- **************************************************************
--
-- MME DIRECT INFORMATION TRANSFER ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- MME Direct Information Transfer
--
-- **************************************************************

MMEDirectInformationTransfer ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{ MMEDirectInformationTransferIEs}},
	...
}

MMEDirectInformationTransferIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Inter-SystemInformationTransferTypeMDT	CRITICALITY reject	TYPE Inter-SystemInformationTransferType	PRESENCE mandatory	},
	...
}
-- **************************************************************
--
-- eNB CONFIGURATION TRANSFER ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- eNB Configuration Transfer
--
-- **************************************************************

ENBConfigurationTransfer ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{ ENBConfigurationTransferIEs}},
	...
}

ENBConfigurationTransferIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-SONConfigurationTransferECT			CRITICALITY ignore	TYPE SONConfigurationTransfer			PRESENCE optional	}|
	{ ID id-EN-DCSONConfigurationTransfer-ECT	CRITICALITY ignore	TYPE EN-DCSONConfigurationTransfer	PRESENCE optional	}|
	{ ID id-IntersystemSONConfigurationTransferECT	CRITICALITY ignore	TYPE IntersystemSONConfigurationTransfer	PRESENCE optional	},
	...
}

-- **************************************************************
--
-- MME CONFIGURATION TRANSFER ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- MME Configuration Transfer
--
-- **************************************************************

MMEConfigurationTransfer ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{ MMEConfigurationTransferIEs}},
	...
}

MMEConfigurationTransferIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-SONConfigurationTransferMCT			CRITICALITY ignore	TYPE SONConfigurationTransfer			PRESENCE optional	}|
	{ ID id-EN-DCSONConfigurationTransfer-MCT	CRITICALITY ignore	TYPE EN-DCSONConfigurationTransfer	PRESENCE optional	}|
	{ ID id-IntersystemSONConfigurationTransferMCT	CRITICALITY ignore	TYPE IntersystemSONConfigurationTransfer	PRESENCE optional	},
	...
}

-- **************************************************************
--
-- PRIVATE MESSAGE ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Private Message
--
-- **************************************************************

PrivateMessage ::= SEQUENCE {
	privateIEs			PrivateIE-Container       {{PrivateMessageIEs}},
	...
}

PrivateMessageIEs S1AP-PRIVATE-IES ::= {
	...
}

-- **************************************************************
--
-- KILL PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- Kill Request
--
-- **************************************************************


KillRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {KillRequestIEs} },
	...
}

KillRequestIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-MessageIdentifier			CRITICALITY reject	TYPE MessageIdentifier		PRESENCE mandatory}|
	{ ID id-SerialNumber				CRITICALITY reject	TYPE SerialNumber			PRESENCE mandatory}|
	{ ID id-WarningAreaList				CRITICALITY ignore	TYPE WarningAreaList		PRESENCE optional}|
	{ ID id-KillAllWarningMessages		CRITICALITY reject	TYPE KillAllWarningMessages	PRESENCE optional},
	...
}

-- **************************************************************
--
-- Kill Response
--
-- **************************************************************

KillResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container		{ {KillResponseIEs} },
	...
}

KillResponseIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MessageIdentifier			CRITICALITY reject	TYPE MessageIdentifier					PRESENCE mandatory	}|
	{ ID id-SerialNumber				CRITICALITY reject	TYPE SerialNumber						PRESENCE mandatory	}|
	{ ID id-BroadcastCancelledAreaList	CRITICALITY ignore	TYPE BroadcastCancelledAreaList			PRESENCE optional	}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional	},
	...
}

-- **************************************************************
--
-- PWS RESTART INDICATION PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- PWS Restart Indication
--
-- **************************************************************

PWSRestartIndication::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{ PWSRestartIndicationIEs}},
	...
}

PWSRestartIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-ECGIListForRestart				CRITICALITY reject	TYPE ECGIListForRestart					PRESENCE mandatory}|
	{ ID id-Global-ENB-ID					CRITICALITY reject	TYPE Global-ENB-ID						PRESENCE mandatory}|
	{ ID id-TAIListForRestart				CRITICALITY reject	TYPE TAIListForRestart					PRESENCE mandatory}|
	{ ID id-EmergencyAreaIDListForRestart	CRITICALITY reject	TYPE EmergencyAreaIDListForRestart	PRESENCE optional},
	...
}

-- **************************************************************
--
-- PWS Failure Indication
--
-- **************************************************************

PWSFailureIndication::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{ PWSFailureIndicationIEs}},
	...
}

PWSFailureIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-PWSfailedECGIList		CRITICALITY reject	TYPE PWSfailedECGIList	PRESENCE mandatory}|
	{ ID id-Global-ENB-ID			CRITICALITY reject	TYPE Global-ENB-ID		PRESENCE mandatory},
	...
}

-- **************************************************************
--
-- LPPA TRANSPORT ELEMENTARY PROCEDURES
--
-- **************************************************************

-- **************************************************************
--
-- DOWNLINK UE ASSOCIATED LPPA TRANSPORT
--
-- **************************************************************

DownlinkUEAssociatedLPPaTransport ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{DownlinkUEAssociatedLPPaTransport-IEs}},
	...
}

DownlinkUEAssociatedLPPaTransport-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID			CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID			CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-Routing-ID				CRITICALITY reject	TYPE Routing-ID					PRESENCE mandatory	}|
	{ ID id-LPPa-PDU    			CRITICALITY reject	TYPE LPPa-PDU					PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- UPLINK UE ASSOCIATED LPPA TRANSPORT
--
-- **************************************************************

UplinkUEAssociatedLPPaTransport ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{UplinkUEAssociatedLPPaTransport-IEs}},
	...
}

UplinkUEAssociatedLPPaTransport-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID			CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-eNB-UE-S1AP-ID			CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory	}|
	{ ID id-Routing-ID				CRITICALITY reject	TYPE Routing-ID					PRESENCE mandatory	}|
	{ ID id-LPPa-PDU				CRITICALITY reject	TYPE LPPa-PDU					PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- DOWNLINK NON UE ASSOCIATED LPPA TRANSPORT
--
-- **************************************************************

DownlinkNonUEAssociatedLPPaTransport ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       {{DownlinkNonUEAssociatedLPPaTransport-IEs}},
	...
}

DownlinkNonUEAssociatedLPPaTransport-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Routing-ID				CRITICALITY reject	TYPE Routing-ID					PRESENCE mandatory	}|
	{ ID id-LPPa-PDU				CRITICALITY reject	TYPE LPPa-PDU					PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- UPLINK NON UE ASSOCIATED LPPA TRANSPORT
--
-- **************************************************************

UplinkNonUEAssociatedLPPaTransport ::= SEQUENCE {
	protocolIEs		ProtocolIE-Container       {{UplinkNonUEAssociatedLPPaTransport-IEs}},
	...
}

UplinkNonUEAssociatedLPPaTransport-IEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Routing-ID				CRITICALITY reject	TYPE Routing-ID					PRESENCE mandatory	}|
	{ ID id-LPPa-PDU				CRITICALITY reject	TYPE LPPa-PDU					PRESENCE mandatory	},
	...
}


-- **************************************************************
--
-- E-RAB MODIFICATION INDICATION ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- E-RAB Modification Indication
--
-- **************************************************************

E-RABModificationIndication ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { E-RABModificationIndicationIEs} },
	...
}

E-RABModificationIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID							CRITICALITY reject	TYPE MME-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID							CRITICALITY reject	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-E-RABToBeModifiedListBearerModInd		CRITICALITY reject	TYPE E-RABToBeModifiedListBearerModInd		PRESENCE mandatory}|
	{ ID id-E-RABNotToBeModifiedListBearerModInd	CRITICALITY reject	TYPE E-RABNotToBeModifiedListBearerModInd	PRESENCE optional}|
	{ ID id-CSGMembershipInfo						CRITICALITY reject	TYPE CSGMembershipInfo					PRESENCE optional}|
-- Extension for Release 11 to support BBAI -- 
	{ ID id-Tunnel-Information-for-BBF				CRITICALITY ignore	TYPE TunnelInformation					PRESENCE optional}|
	{ ID id-SecondaryRATDataUsageReportList			CRITICALITY ignore	TYPE SecondaryRATDataUsageReportList		PRESENCE optional }|
{ ID id-UserLocationInformation					CRITICALITY ignore	TYPE UserLocationInformation			PRESENCE optional },
	...
}

E-RABToBeModifiedListBearerModInd ::= E-RAB-IE-ContainerList { {E-RABToBeModifiedItemBearerModIndIEs} }

E-RABToBeModifiedItemBearerModIndIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABToBeModifiedItemBearerModInd		CRITICALITY reject	TYPE E-RABToBeModifiedItemBearerModInd		PRESENCE mandatory},
	...
}

E-RABToBeModifiedItemBearerModInd ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	transportLayerAddress			TransportLayerAddress,
	dL-GTP-TEID						GTP-TEID,
	iE-Extensions					ProtocolExtensionContainer { { E-RABToBeModifiedItemBearerModInd-ExtIEs} }			OPTIONAL,
	...
}

E-RABToBeModifiedItemBearerModInd-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

E-RABNotToBeModifiedListBearerModInd ::= E-RAB-IE-ContainerList { {E-RABNotToBeModifiedItemBearerModIndIEs} }

E-RABNotToBeModifiedItemBearerModIndIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABNotToBeModifiedItemBearerModInd		CRITICALITY reject	TYPE E-RABNotToBeModifiedItemBearerModInd		PRESENCE mandatory},
	...
}

E-RABNotToBeModifiedItemBearerModInd ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	transportLayerAddress			TransportLayerAddress,
	dL-GTP-TEID						GTP-TEID,
	iE-Extensions					ProtocolExtensionContainer { { E-RABNotToBeModifiedItemBearerModInd-ExtIEs} }		OPTIONAL,
	...
}

E-RABNotToBeModifiedItemBearerModInd-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CSGMembershipInfo ::= SEQUENCE {
	cSGMembershipStatus		CSGMembershipStatus,
	cSG-Id					CSG-Id,
	cellAccessMode			CellAccessMode	OPTIONAL,
	pLMNidentity			PLMNidentity	OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { CSGMembershipInfo-ExtIEs} }		OPTIONAL,
	...
}

CSGMembershipInfo-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- E-RAB Modification Confirm
--
-- **************************************************************

E-RABModificationConfirm ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container { {E-RABModificationConfirmIEs} },
	...
}

E-RABModificationConfirmIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID							CRITICALITY ignore	TYPE MME-UE-S1AP-ID					PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID							CRITICALITY ignore	TYPE ENB-UE-S1AP-ID					PRESENCE mandatory}|
	{ ID id-E-RABModifyListBearerModConf			CRITICALITY ignore	TYPE E-RABModifyListBearerModConf	PRESENCE optional}|
	{ ID id-E-RABFailedToModifyListBearerModConf	CRITICALITY ignore	TYPE E-RABList						PRESENCE optional}|
	{ ID id-E-RABToBeReleasedListBearerModConf		CRITICALITY ignore	TYPE E-RABList						PRESENCE optional}|
	{ ID id-CriticalityDiagnostics					CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional}|
	{ ID id-CSGMembershipStatus						CRITICALITY ignore	TYPE CSGMembershipStatus			PRESENCE optional},
	...
}

E-RABModifyListBearerModConf ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { {E-RABModifyItemBearerModConfIEs} }

E-RABModifyItemBearerModConfIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABModifyItemBearerModConf		CRITICALITY ignore	TYPE E-RABModifyItemBearerModConf		PRESENCE mandatory},
	...
}

E-RABModifyItemBearerModConf ::= SEQUENCE {
	e-RAB-ID					E-RAB-ID,
	iE-Extensions				ProtocolExtensionContainer { {E-RABModifyItemBearerModConfExtIEs} } OPTIONAL,
	...
}


E-RABModifyItemBearerModConfExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


-- **************************************************************
--
-- UE CONTEXT MODIFICATION INDICATION ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- UE Context Modification Indication
--
-- **************************************************************

UEContextModificationIndication ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UEContextModificationIndicationIEs} },
	...
}

UEContextModificationIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID			CRITICALITY reject	TYPE MME-UE-S1AP-ID			PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID			CRITICALITY reject	TYPE ENB-UE-S1AP-ID			PRESENCE mandatory}|
	{ ID id-CSGMembershipInfo		CRITICALITY reject	TYPE CSGMembershipInfo		PRESENCE optional},
	...
}


-- **************************************************************
--
-- UE Context Modification Confirm
--
-- **************************************************************

UEContextModificationConfirm ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container { {UEContextModificationConfirmIEs} },
	...
}

UEContextModificationConfirmIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY ignore	TYPE MME-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY ignore	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-CSGMembershipStatus			CRITICALITY ignore	TYPE CSGMembershipStatus		PRESENCE optional}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional},
	...
}

-- **************************************************************
--
-- UE CONTEXT SUSPEND ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- UE Context Suspend Request
--
-- **************************************************************

UEContextSuspendRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UEContextSuspendRequestIEs} },
	...
}

UEContextSuspendRequestIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID									CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID									CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-InformationOnRecommendedCellsAndENBsForPaging	CRITICALITY ignore	TYPE InformationOnRecommendedCellsAndENBsForPaging PRESENCE optional}|
	{ ID id-CellIdentifierAndCELevelForCECapableUEs			CRITICALITY ignore	TYPE CellIdentifierAndCELevelForCECapableUEs	PRESENCE optional}|
	{ ID id-SecondaryRATDataUsageReportList				CRITICALITY ignore	TYPE SecondaryRATDataUsageReportList		PRESENCE optional }|
	{ ID id-UserLocationInformation							CRITICALITY ignore	TYPE UserLocationInformation			PRESENCE optional }|
	{ ID id-TimeSinceSecondaryNodeRelease					CRITICALITY ignore	TYPE TimeSinceSecondaryNodeRelease	PRESENCE optional },
	...
}

-- **************************************************************
--
-- UE Context Suspend Response
--
-- **************************************************************

UEContextSuspendResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container { {UEContextSuspendResponseIEs} },
	...
}

UEContextSuspendResponseIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY ignore	TYPE MME-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY ignore	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-CriticalityDiagnostics		CRITICALITY ignore	TYPE CriticalityDiagnostics		PRESENCE optional}|
	{ ID id-SecurityContext				CRITICALITY reject	TYPE SecurityContext			PRESENCE optional},
	...
}

-- **************************************************************
--
-- UE CONTEXT RESUME ELEMENTARY PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- UE Context Resume Request
--
-- **************************************************************

UEContextResumeRequest ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UEContextResumeRequestIEs} },
	...
}

UEContextResumeRequestIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID										CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID									CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-E-RABFailedToResumeListResumeReq 				CRITICALITY reject	TYPE E-RABFailedToResumeListResumeReq		PRESENCE optional}|
	{ ID id-RRC-Resume-Cause								CRITICALITY ignore	TYPE RRC-Establishment-Cause	PRESENCE optional},
	...
}

E-RABFailedToResumeListResumeReq ::= E-RAB-IE-ContainerList { {E-RABFailedToResumeItemResumeReqIEs} }

E-RABFailedToResumeItemResumeReqIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABFailedToResumeItemResumeReq	CRITICALITY reject	TYPE E-RABFailedToResumeItemResumeReq	PRESENCE mandatory},
	...
}

E-RABFailedToResumeItemResumeReq ::= SEQUENCE {
	e-RAB-ID							E-RAB-ID,
	cause								Cause,
	iE-Extensions						ProtocolExtensionContainer { { E-RABFailedToResumeItemResumeReq-ExtIEs} }		OPTIONAL,
	...
}

E-RABFailedToResumeItemResumeReq-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- UE Context Resume Response
--
-- **************************************************************

UEContextResumeResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UEContextResumeResponseIEs} },
	...
}

UEContextResumeResponseIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID						CRITICALITY ignore	TYPE MME-UE-S1AP-ID							PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID						CRITICALITY ignore	TYPE ENB-UE-S1AP-ID							PRESENCE mandatory}|
	{ ID id-E-RABFailedToResumeListResumeRes	CRITICALITY reject	TYPE E-RABFailedToResumeListResumeRes		PRESENCE optional}|
	{ ID id-CriticalityDiagnostics				CRITICALITY ignore	TYPE CriticalityDiagnostics					PRESENCE optional}|
	{ ID id-SecurityContext						CRITICALITY reject	TYPE SecurityContext						PRESENCE optional}|
	{ ID id-PendingDataIndication				CRITICALITY ignore	TYPE PendingDataIndication					PRESENCE optional},
	...
}

E-RABFailedToResumeListResumeRes ::= E-RAB-IE-ContainerList { {E-RABFailedToResumeItemResumeResIEs} }

E-RABFailedToResumeItemResumeResIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABFailedToResumeItemResumeRes	CRITICALITY reject	TYPE E-RABFailedToResumeItemResumeRes	PRESENCE mandatory},
	...
}

E-RABFailedToResumeItemResumeRes ::= SEQUENCE {
	e-RAB-ID							E-RAB-ID,
	cause								Cause,
	iE-Extensions						ProtocolExtensionContainer { { E-RABFailedToResumeItemResumeRes-ExtIEs} }		OPTIONAL,
	...
}

E-RABFailedToResumeItemResumeRes-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- **************************************************************
--
-- UE Context Resume Failure
--
-- **************************************************************

UEContextResumeFailure ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UEContextResumeFailureIEs} },
	...
}

UEContextResumeFailureIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID						CRITICALITY ignore	TYPE MME-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID						CRITICALITY ignore	TYPE ENB-UE-S1AP-ID						PRESENCE mandatory}|
	{ ID id-Cause								CRITICALITY ignore	TYPE Cause								PRESENCE mandatory}|
	{ ID id-CriticalityDiagnostics				CRITICALITY ignore	TYPE CriticalityDiagnostics				PRESENCE optional},
	...
}

-- **************************************************************
--
-- Connection Establishment Indication
--
-- **************************************************************

ConnectionEstablishmentIndication::= SEQUENCE {
	protocolIEs			ProtocolIE-Container { {ConnectionEstablishmentIndicationIEs} },
	...
}

ConnectionEstablishmentIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY ignore	TYPE MME-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY ignore	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-UERadioCapability			CRITICALITY ignore	TYPE UERadioCapability			PRESENCE optional }|
	{ ID id-EnhancedCoverageRestricted	CRITICALITY ignore	TYPE EnhancedCoverageRestricted	PRESENCE optional }|
	{ ID id-DL-CP-SecurityInformation	CRITICALITY ignore	TYPE DL-CP-SecurityInformation	PRESENCE optional }|
	{ ID id-CE-ModeBRestricted			CRITICALITY ignore	TYPE CE-ModeBRestricted			PRESENCE optional}|
	{ ID id-EndIndication				CRITICALITY ignore	TYPE EndIndication				PRESENCE optional}|
	{ ID id-Subscription-Based-UE-DifferentiationInfo		CRITICALITY ignore	TYPE Subscription-Based-UE-DifferentiationInfo		PRESENCE optional}|
	{ ID id-UE-Level-QoS-Parameters		CRITICALITY ignore	TYPE E-RABLevelQoSParameters	PRESENCE optional}|
	{ ID id-UERadioCapabilityID			CRITICALITY reject	TYPE UERadioCapabilityID		PRESENCE optional}
,
	...
}

-- **************************************************************
--
-- Retrieve UE Information 
--
-- **************************************************************

RetrieveUEInformation ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { RetrieveUEInformationIEs} },
	...
}

RetrieveUEInformationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-S-TMSI						CRITICALITY reject	TYPE S-TMSI				PRESENCE mandatory},
...

}


-- **************************************************************

-- UE Information Transfer
--
-- **************************************************************
UEInformationTransfer ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { {  UEInformationTransferIEs} },
	...
}

UEInformationTransferIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-S-TMSI						CRITICALITY reject 	TYPE S-TMSI						PRESENCE mandatory}|
	{ ID id-UE-Level-QoS-Parameters		CRITICALITY ignore	TYPE E-RABLevelQoSParameters	PRESENCE optional}|
	{ ID id-UERadioCapability			CRITICALITY ignore	TYPE UERadioCapability			PRESENCE optional}|
	{ ID id-Subscription-Based-UE-DifferentiationInfo		CRITICALITY ignore	TYPE Subscription-Based-UE-DifferentiationInfo		PRESENCE optional}|
	{ ID id-PendingDataIndication		CRITICALITY ignore	TYPE PendingDataIndication		PRESENCE optional},
	...
}


-- **************************************************************
--
-- eNB CP Relocation Indication
--
-- **************************************************************

ENBCPRelocationIndication ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container { { ENBCPRelocationIndicationIEs} },
	...
}

ENBCPRelocationIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-S-TMSI						CRITICALITY reject	TYPE S-TMSI						PRESENCE mandatory}|
	{ ID id-EUTRAN-CGI					CRITICALITY ignore	TYPE EUTRAN-CGI					PRESENCE mandatory}|
	{ ID id-TAI							CRITICALITY ignore	TYPE TAI						PRESENCE mandatory}|
	{ ID id-UL-CP-SecurityInformation	CRITICALITY reject	TYPE UL-CP-SecurityInformation	PRESENCE mandatory},
	...
}


-- **************************************************************
--
-- MME CP Relocation Indication
--
-- **************************************************************

MMECPRelocationIndication ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container { { MMECPRelocationIndicationIEs} },
	...
}

MMECPRelocationIndicationIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID				CRITICALITY reject	TYPE MME-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID				CRITICALITY reject	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory},
	...
}


-- **************************************************************
--
-- Secondary RAT Data Usage Report
--
-- **************************************************************

SecondaryRATDataUsageReport ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { SecondaryRATDataUsageReportIEs} },
	...
}

SecondaryRATDataUsageReportIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-MME-UE-S1AP-ID							CRITICALITY ignore	TYPE MME-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-eNB-UE-S1AP-ID						CRITICALITY ignore	TYPE ENB-UE-S1AP-ID				PRESENCE mandatory}|
	{ ID id-SecondaryRATDataUsageReportList			CRITICALITY ignore	TYPE SecondaryRATDataUsageReportList	PRESENCE mandatory}|
	{ ID id-HandoverFlag							CRITICALITY ignore	TYPE HandoverFlag					PRESENCE optional}|
	{ ID id-UserLocationInformation				CRITICALITY ignore	TYPE UserLocationInformation			PRESENCE optional}|
	{ ID id-TimeSinceSecondaryNodeRelease		CRITICALITY ignore	TYPE TimeSinceSecondaryNodeRelease	PRESENCE optional },
	...
}


-- **************************************************************
--
-- UE RADIO CAPABILITY ID MAPPING PROCEDURE
--
-- **************************************************************

-- **************************************************************
--
-- UE Radio Capability ID Mapping Request
--
-- **************************************************************

UERadioCapabilityIDMappingRequest::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UERadioCapabilityIDMappingRequestIEs} },
	...
}

UERadioCapabilityIDMappingRequestIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-UERadioCapabilityID		CRITICALITY reject	TYPE UERadioCapabilityID		PRESENCE mandatory	},
	...
}

-- **************************************************************
--
-- UE Radio Capability ID Mapping Response 
--
-- **************************************************************

UERadioCapabilityIDMappingResponse ::= SEQUENCE {
	protocolIEs			ProtocolIE-Container       { { UERadioCapabilityIDMappingResponseIEs} },
	...
}

UERadioCapabilityIDMappingResponseIEs S1AP-PROTOCOL-IES ::= {	
	{ ID id-UERadioCapabilityID				CRITICALITY reject	TYPE UERadioCapabilityID				PRESENCE mandatory	}|
	{ ID id-UERadioCapability					CRITICALITY ignore	TYPE UERadioCapability				PRESENCE mandatory	}|
	{ ID id-CriticalityDiagnostics				CRITICALITY ignore	TYPE CriticalityDiagnostics			PRESENCE optional	},
	...
}

END
9.3.4	Information Element Definitions
-- **************************************************************
--
-- Information Element Definitions
--
-- **************************************************************

S1AP-IEs {
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
eps-Access (21) modules (3) s1ap (1) version1 (1) s1ap-IEs (2) }

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

IMPORTS
	id-E-RABInformationListItem,
	id-E-RABItem,
	id-GUMMEIType,
	id-Bearers-SubjectToStatusTransfer-Item,
	id-Time-Synchronisation-Info,
	id-x2TNLConfigurationInfo,
	id-eNBX2ExtendedTransportLayerAddresses,
	id-MDTConfiguration,
	id-Time-UE-StayedInCell-EnhancedGranularity,
	id-HO-Cause,
	id-M3Configuration,
	id-M4Configuration,
	id-M5Configuration,
	id-MDT-Location-Info,
	id-SignallingBasedMDTPLMNList,
	id-MobilityInformation,
	id-ULCOUNTValueExtended,
	id-DLCOUNTValueExtended,
	id-ReceiveStatusOfULPDCPSDUsExtended,
	id-eNBIndirectX2TransportLayerAddresses,
	id-Muting-Availability-Indication,
	id-Muting-Pattern-Information,
	id-NRrestrictioninEPSasSecondaryRAT,
	id-NRrestrictionin5GS,
	id-Synchronisation-Information,
	id-uE-HistoryInformationFromTheUE,
	id-LoggedMBSFNMDT,
	id-SON-Information-Report,
	id-RecommendedCellItem,
	id-RecommendedENBItem,
	id-ProSeUEtoNetworkRelaying,
	id-ULCOUNTValuePDCP-SNlength18,
	id-DLCOUNTValuePDCP-SNlength18,
	id-ReceiveStatusOfULPDCPSDUsPDCP-SNlength18,
	id-M6Configuration,
	id-M7Configuration,
	id-RAT-Type,
	id-extended-e-RAB-MaximumBitrateDL,
	id-extended-e-RAB-MaximumBitrateUL,
	id-extended-e-RAB-GuaranteedBitrateDL,
	id-extended-e-RAB-GuaranteedBitrateUL,
	id-extended-uEaggregateMaximumBitRateDL,
	id-extended-uEaggregateMaximumBitRateUL,
	id-SecondaryRATDataUsageReportItem,
	id-E-RABUsageReportItem,
	id-UEAppLayerMeasConfig,
	id-serviceType,
	id-UnlicensedSpectrumRestriction, 
	id-CNTypeRestrictions,
	id-DownlinkPacketLossRate,
	id-UplinkPacketLossRate,
	id-BluetoothMeasurementConfiguration,
	id-WLANMeasurementConfiguration,
	id-LastNG-RANPLMNIdentity,
	id-PSCellInformation,
	id-IMSvoiceEPSfallbackfrom5G,
	id-RequestTypeAdditionalInfo,
	id-AdditionalRRMPriorityIndex,
	id-ContextatSource,
	id-IntersystemMeasurementConfiguration,	
	id-SourceNodeID,
	id-NB-IoT-RLF-Report-Container,
	id-MDTConfigurationNR,
	id-DAPSRequestInfo,
	id-DAPSResponseInfoList,
	id-DAPSResponseInfoItem,
	id-Bearers-SubjectToEarlyStatusTransfer-Item,
	id-TraceCollectionEntityURI,
	id-EmergencyIndicator,
	id-SourceTransportLayerAddress,
	id-SourceNodeTransportLayerAddress,
	id-SourceSNID,
	id-Direct-Forwarding-Path-Availability,
	maxnoofCSGs,
	maxnoofE-RABs,
	maxnoofErrors,
	maxnoofBPLMNs,
	maxnoofPLMNsPerMME,
	maxnoofTACs,
	maxnoofEPLMNs,
	maxnoofEPLMNsPlusOne,
	maxnoofForbLACs,
	maxnoofForbTACs,
	maxnoofCellsinUEHistoryInfo,
	maxnoofCellID,
	maxnoofDCNs,
	maxnoofEmergencyAreaID,
	maxnoofTAIforWarning,
	maxnoofCellinTAI,
	maxnoofCellinEAI,
	maxnoofeNBX2TLAs,
	maxnoofeNBX2ExtTLAs,
	maxnoofeNBX2GTPTLAs,
	maxnoofRATs,
	maxnoofGroupIDs,
	maxnoofMMECs,
	maxnoofTAforMDT,
	maxnoofCellIDforMDT,
	maxnoofMDTPLMNs,
	maxnoofCellsforRestart,
	maxnoofRestartTAIs,
	maxnoofRestartEmergencyAreaIDs,
	maxnoofMBSFNAreaMDT,
	maxEARFCN,
	maxnoofCellsineNB,
	maxnoofRecommendedCells,
	maxnoofRecommendedENBs,
	maxnooftimeperiods,
	maxnoofCellIDforQMC,
	maxnoofTAforQMC,
	maxnoofPLMNforQMC,
	maxnoofBluetoothName,
	maxnoofWLANName,
	maxnoofConnectedengNBs,
	maxnoofPC5QoSFlows,
	maxnooffrequencies,
	maxNARFCN,
	maxRS-IndexCellQual




FROM S1AP-Constants

	Criticality,
	ProcedureCode,
	ProtocolIE-ID,
	TriggeringMessage
FROM S1AP-CommonDataTypes

	ProtocolExtensionContainer{},
	S1AP-PROTOCOL-EXTENSION,
	ProtocolIE-SingleContainer{},
	S1AP-PROTOCOL-IES

FROM S1AP-Containers;	

-- A

Additional-GUTI::= SEQUENCE {
	gUMMEI					GUMMEI,
	m-TMSI					M-TMSI,
	iE-Extensions			ProtocolExtensionContainer { {Additional-GUTI-ExtIEs} } OPTIONAL,
	...
}

Additional-GUTI-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

AdditionalRRMPriorityIndex ::= BIT STRING (SIZE(32))

AerialUEsubscriptionInformation ::= ENUMERATED { 
	allowed,
	not-allowed,
	...
}

AreaScopeOfMDT ::= CHOICE {	
	cellBased					CellBasedMDT,
	tABased						TABasedMDT,
	pLMNWide					NULL,
	...,
	tAIBased					TAIBasedMDT
}


AreaScopeOfQMC ::= CHOICE {	
	cellBased					CellBasedQMC,
	tABased						TABasedQMC,
	tAIBased						TAIBasedQMC,
	pLMNAreaBased				PLMNAreaBasedQMC,
	...
}

AllocationAndRetentionPriority ::= SEQUENCE {
	priorityLevel				PriorityLevel,
	pre-emptionCapability		Pre-emptionCapability,
	pre-emptionVulnerability	Pre-emptionVulnerability,
	iE-Extensions				ProtocolExtensionContainer { {AllocationAndRetentionPriority-ExtIEs} } OPTIONAL,
	...
}

AllocationAndRetentionPriority-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

AssistanceDataForCECapableUEs ::= SEQUENCE {
	cellIdentifierAndCELevelForCECapableUEs		CellIdentifierAndCELevelForCECapableUEs,
	iE-Extensions								ProtocolExtensionContainer { { InformationForCECapableUEs-ExtIEs} } OPTIONAL,
	...
}

InformationForCECapableUEs-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

AssistanceDataForPaging ::= SEQUENCE {
	assistanceDataForRecommendedCells	AssistanceDataForRecommendedCells		OPTIONAL,
	assistanceDataForCECapableUEs		AssistanceDataForCECapableUEs			OPTIONAL,
	pagingAttemptInformation			PagingAttemptInformation				OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { AssistanceDataForPaging-ExtIEs} }	OPTIONAL,
	...
}

AssistanceDataForPaging-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

AssistanceDataForRecommendedCells ::= SEQUENCE {
	recommendedCellsForPaging	RecommendedCellsForPaging, 
	iE-Extensions				ProtocolExtensionContainer { { AssistanceDataForRecommendedCells-ExtIEs} }	OPTIONAL,
	...
}

AssistanceDataForRecommendedCells-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- B

Bearers-SubjectToStatusTransferList ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { { Bearers-SubjectToStatusTransfer-ItemIEs } }

Bearers-SubjectToStatusTransfer-ItemIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Bearers-SubjectToStatusTransfer-Item	CRITICALITY ignore	TYPE Bearers-SubjectToStatusTransfer-Item 	PRESENCE mandatory	},
	...
}

Bearers-SubjectToStatusTransfer-Item ::= SEQUENCE {
	e-RAB-ID								E-RAB-ID,
	uL-COUNTvalue							COUNTvalue,
	dL-COUNTvalue							COUNTvalue,
	receiveStatusofULPDCPSDUs				ReceiveStatusofULPDCPSDUs			OPTIONAL,
	iE-Extensions							ProtocolExtensionContainer { {Bearers-SubjectToStatusTransfer-ItemExtIEs} } OPTIONAL,
	...
}

Bearers-SubjectToStatusTransfer-ItemExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-ULCOUNTValueExtended						CRITICALITY ignore	EXTENSION COUNTValueExtended				PRESENCE optional}|
	{ ID id-DLCOUNTValueExtended						CRITICALITY ignore	EXTENSION COUNTValueExtended				PRESENCE optional}|
	{ ID id-ReceiveStatusOfULPDCPSDUsExtended			CRITICALITY ignore	EXTENSION ReceiveStatusOfULPDCPSDUsExtended		PRESENCE optional}|
	{ ID id-ULCOUNTValuePDCP-SNlength18					CRITICALITY ignore	EXTENSION COUNTvaluePDCP-SNlength18			PRESENCE optional}|
	{ ID id-DLCOUNTValuePDCP-SNlength18					CRITICALITY ignore	EXTENSION COUNTvaluePDCP-SNlength18			PRESENCE optional}|
	{ ID id-ReceiveStatusOfULPDCPSDUsPDCP-SNlength18	CRITICALITY ignore	EXTENSION ReceiveStatusOfULPDCPSDUsPDCP-SNlength18	PRESENCE optional},
	...
}

Bearers-SubjectToEarlyStatusTransferList ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { { Bearers-SubjectToEarlyStatusTransfer-ItemIEs } }

Bearers-SubjectToEarlyStatusTransfer-ItemIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-Bearers-SubjectToEarlyStatusTransfer-Item	CRITICALITY ignore	TYPE Bearers-SubjectToEarlyStatusTransfer-Item 	PRESENCE mandatory},
	...
}

Bearers-SubjectToEarlyStatusTransfer-Item ::= SEQUENCE {
	e-RAB-ID								E-RAB-ID,
	dLCOUNT-PDCP-SNlength					DLCOUNT-PDCP-SNlength,
	iE-Extensions							ProtocolExtensionContainer { {Bearers-SubjectToEarlyStatusTransfer-ItemExtIEs} } OPTIONAL,
	...
}

Bearers-SubjectToEarlyStatusTransfer-ItemExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

BearerType ::= ENUMERATED {
	non-IP,
	...
}

BitRate	::= INTEGER (0..10000000000) 

BluetoothMeasurementConfiguration ::= SEQUENCE {
	bluetoothMeasConfig             BluetoothMeasConfig,
	bluetoothMeasConfigNameList		BluetoothMeasConfigNameList     OPTIONAL,
	bt-rssi                         ENUMERATED {true, ...}          OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { BluetoothMeasurementConfiguration-ExtIEs } } OPTIONAL,
	...
}

BluetoothMeasurementConfiguration-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

BluetoothMeasConfigNameList ::= SEQUENCE (SIZE(1..maxnoofBluetoothName)) OF BluetoothName

BluetoothMeasConfig::= ENUMERATED {setup,...}

BluetoothName ::= OCTET STRING (SIZE (1..248))

BPLMNs ::= SEQUENCE (SIZE(1.. maxnoofBPLMNs)) OF PLMNidentity

BroadcastCancelledAreaList ::= CHOICE {
	cellID-Cancelled				CellID-Cancelled,
	tAI-Cancelled					TAI-Cancelled,
	emergencyAreaID-Cancelled		EmergencyAreaID-Cancelled,
	...
}

BroadcastCompletedAreaList ::= CHOICE {
	cellID-Broadcast				CellID-Broadcast,
	tAI-Broadcast					TAI-Broadcast,
	emergencyAreaID-Broadcast		EmergencyAreaID-Broadcast,
	...
}


-- C

CancelledCellinEAI ::= SEQUENCE (SIZE(1..maxnoofCellinEAI)) OF CancelledCellinEAI-Item

CancelledCellinEAI-Item ::= SEQUENCE {
	eCGI					EUTRAN-CGI,
	numberOfBroadcasts		NumberOfBroadcasts,
	iE-Extensions			ProtocolExtensionContainer { {CancelledCellinEAI-Item-ExtIEs} } OPTIONAL,
	...
}

CancelledCellinEAI-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CancelledCellinTAI ::= SEQUENCE (SIZE(1..maxnoofCellinTAI)) OF CancelledCellinTAI-Item

CancelledCellinTAI-Item ::= SEQUENCE{
	eCGI				EUTRAN-CGI,
	numberOfBroadcasts	NumberOfBroadcasts,
	iE-Extensions		ProtocolExtensionContainer { {CancelledCellinTAI-Item-ExtIEs} } OPTIONAL,
	...
}

CancelledCellinTAI-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

Cause ::= CHOICE {
	radioNetwork		CauseRadioNetwork,
	transport			CauseTransport,
	nas					CauseNas,
	protocol			CauseProtocol,
	misc				CauseMisc,
	...
}

CauseMisc ::= ENUMERATED {
	control-processing-overload,
	not-enough-user-plane-processing-resources,
	hardware-failure,
	om-intervention,
	unspecified,
	unknown-PLMN,
...
}

CauseProtocol ::= ENUMERATED {
	transfer-syntax-error,
	abstract-syntax-error-reject,
	abstract-syntax-error-ignore-and-notify,
	message-not-compatible-with-receiver-state,
	semantic-error,
	abstract-syntax-error-falsely-constructed-message,
	unspecified,
	...
}

CauseRadioNetwork ::= ENUMERATED {
	unspecified,
	tx2relocoverall-expiry,
	successful-handover,
	release-due-to-eutran-generated-reason,
	handover-cancelled,	
	partial-handover,	
	ho-failure-in-target-EPC-eNB-or-target-system,
	ho-target-not-allowed,
	tS1relocoverall-expiry,
	tS1relocprep-expiry,
	cell-not-available,
	unknown-targetID,
	no-radio-resources-available-in-target-cell,
	unknown-mme-ue-s1ap-id,
	unknown-enb-ue-s1ap-id,
	unknown-pair-ue-s1ap-id,
	handover-desirable-for-radio-reason,
	time-critical-handover,
	resource-optimisation-handover,
	reduce-load-in-serving-cell,
	user-inactivity,
	radio-connection-with-ue-lost,
	load-balancing-tau-required,
	cs-fallback-triggered,
	ue-not-available-for-ps-service,
	radio-resources-not-available,
	failure-in-radio-interface-procedure,
	invalid-qos-combination,
	interrat-redirection,
	interaction-with-other-procedure,
	unknown-E-RAB-ID,
	multiple-E-RAB-ID-instances,
	encryption-and-or-integrity-protection-algorithms-not-supported,
	s1-intra-system-handover-triggered,
	s1-inter-system-handover-triggered,
	x2-handover-triggered,
	...,
	redirection-towards-1xRTT,
	not-supported-QCI-value,
	invalid-CSG-Id,
	release-due-to-pre-emption,
	n26-interface-not-available,
	insufficient-ue-capabilities,
	maximum-bearer-pre-emption-rate-exceeded

}

CauseTransport ::= ENUMERATED {
	transport-resource-unavailable,
	unspecified,
	...
}

CauseNas ::= ENUMERATED {
	normal-release,
	authentication-failure,
	detach,
	unspecified,
	...,
	csg-subscription-expiry
}

CellAccessMode ::= ENUMERATED {
	hybrid, 
	...
}

CellIdentifierAndCELevelForCECapableUEs ::= SEQUENCE {
	global-Cell-ID		EUTRAN-CGI,
	cELevel				CELevel,
	iE-Extensions		ProtocolExtensionContainer { { CellIdentifierAndCELevelForCECapableUEs-ExtIEs} } OPTIONAL,
	...
}

CellIdentifierAndCELevelForCECapableUEs-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- Coverage Enhancement level encoded according to TS 36.331 [16] --
CELevel ::= OCTET STRING

CE-mode-B-SupportIndicator ::= ENUMERATED {
	supported,
	...
}

CellIdentity ::= BIT STRING (SIZE (28))

CellID-Broadcast ::= SEQUENCE (SIZE(1..maxnoofCellID)) OF CellID-Broadcast-Item

CellID-Broadcast-Item ::= SEQUENCE {
	eCGI				EUTRAN-CGI,
	iE-Extensions		ProtocolExtensionContainer { {CellID-Broadcast-Item-ExtIEs} } OPTIONAL,
	...
}

CellID-Broadcast-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CellID-Cancelled::= SEQUENCE (SIZE(1..maxnoofCellID)) OF CellID-Cancelled-Item

CellID-Cancelled-Item ::= SEQUENCE {
	eCGI				EUTRAN-CGI,
	numberOfBroadcasts	NumberOfBroadcasts,
	iE-Extensions		ProtocolExtensionContainer { {CellID-Cancelled-Item-ExtIEs} } OPTIONAL,
	...
}

CellID-Cancelled-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CellBasedMDT::= SEQUENCE {
	cellIdListforMDT	CellIdListforMDT,
	iE-Extensions		ProtocolExtensionContainer { {CellBasedMDT-ExtIEs} } OPTIONAL,
	...
}

CellBasedMDT-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CellIdListforMDT ::= SEQUENCE (SIZE(1..maxnoofCellIDforMDT)) OF EUTRAN-CGI

CellBasedQMC::= SEQUENCE {
	cellIdListforQMC		CellIdListforQMC,
	iE-Extensions		ProtocolExtensionContainer { {CellBasedQMC-ExtIEs} } OPTIONAL,
	...
}

CellBasedQMC-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CellIdListforQMC ::= SEQUENCE (SIZE(1..maxnoofCellIDforQMC)) OF EUTRAN-CGI

Cdma2000PDU	::= OCTET STRING

Cdma2000RATType ::= ENUMERATED {
	hRPD,
	onexRTT,
	...
}

Cdma2000SectorID ::= OCTET STRING

Cdma2000HOStatus ::= ENUMERATED {
	hOSuccess,
	hOFailure,
	...
}

Cdma2000HORequiredIndication ::= ENUMERATED {
	true,
	...
}

Cdma2000OneXSRVCCInfo ::= SEQUENCE {
	cdma2000OneXMEID			Cdma2000OneXMEID,
	cdma2000OneXMSI				Cdma2000OneXMSI,
	cdma2000OneXPilot			Cdma2000OneXPilot,
	iE-Extensions				ProtocolExtensionContainer { {Cdma2000OneXSRVCCInfo-ExtIEs} } OPTIONAL,
	...
}

Cdma2000OneXSRVCCInfo-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

Cdma2000OneXMEID ::= OCTET STRING

Cdma2000OneXMSI ::= OCTET STRING

Cdma2000OneXPilot ::= OCTET STRING

Cdma2000OneXRAND ::= OCTET STRING


Cell-Size ::= ENUMERATED {verysmall, small, medium, large, ...}

CellType ::= SEQUENCE {
	cell-Size				Cell-Size,
	iE-Extensions			ProtocolExtensionContainer { { CellType-ExtIEs}}	OPTIONAL,
	...
}

CellType-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CGI ::= SEQUENCE {
	pLMNidentity	PLMNidentity,
	lAC				LAC,
	cI				CI,
	rAC				RAC												OPTIONAL,
	iE-Extensions	ProtocolExtensionContainer { {CGI-ExtIEs} }		OPTIONAL,
	...
	}

CGI-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CI					::= OCTET STRING (SIZE (2))

CNDomain ::= ENUMERATED {
	ps, 
	cs 
}

CNTypeRestrictions::= SEQUENCE (SIZE(1.. maxnoofEPLMNsPlusOne)) OF CNTypeRestrictions-Item

CNTypeRestrictions-Item ::= SEQUENCE {
	pLMN-Identity		PLMNidentity,
	cNType				CNType,
	iE-Extensions		ProtocolExtensionContainer { { CNTypeRestrictions-Item-ExtIEs} } OPTIONAL,
	...
}

CNTypeRestrictions-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CNType ::= ENUMERATED {
	fiveGCForbidden,
	...,
	epc-Forbiddden
}

ConcurrentWarningMessageIndicator ::= ENUMERATED {
	true
}

ConnectedengNBList ::= SEQUENCE (SIZE(1..maxnoofConnectedengNBs)) OF ConnectedengNBItem

ConnectedengNBItem ::= SEQUENCE {
	en-gNB-ID		En-gNB-ID,
	supportedTAs	SupportedTAs,
	iE-Extensions	ProtocolExtensionContainer { {ConnectedengNBItem-ExtIEs} }	OPTIONAL,
	...
}

ConnectedengNBItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

ContextatSource ::= SEQUENCE {
	sourceNG-RAN-node-ID				Global-RAN-NODE-ID,
	rAN-UE-NGAP-ID						RAN-UE-NGAP-ID,
	iE-Extensions		ProtocolExtensionContainer { {ContextatSource-ExtIEs} }	OPTIONAL,
	...
}

ContextatSource-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

Correlation-ID		::= OCTET STRING (SIZE (4))

CSFallbackIndicator ::= ENUMERATED { 
	cs-fallback-required,
	...,
	cs-fallback-high-priority 
}

AdditionalCSFallbackIndicator ::= ENUMERATED { 
	no-restriction,
	restriction,
	...
}

CSG-Id		::= BIT STRING (SIZE (27))


CSG-IdList ::= SEQUENCE (SIZE (1.. maxnoofCSGs)) OF CSG-IdList-Item

CSG-IdList-Item ::= SEQUENCE {
	cSG-Id			CSG-Id,
	iE-Extensions	ProtocolExtensionContainer { {CSG-IdList-Item-ExtIEs} }	OPTIONAL,
	...
}

CSG-IdList-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CSGMembershipStatus ::= ENUMERATED { 
	member, 
	not-member
}


COUNTvalue ::= SEQUENCE {
	pDCP-SN			PDCP-SN,
	hFN				HFN,
	iE-Extensions	ProtocolExtensionContainer { {COUNTvalue-ExtIEs} } OPTIONAL,
	...
}
COUNTvalue-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

COUNTValueExtended  ::= SEQUENCE {
	pDCP-SNExtended		PDCP-SNExtended,
	hFNModified			HFNModified,
	iE-Extensions		ProtocolExtensionContainer { {COUNTValueExtended-ExtIEs} } OPTIONAL,
	...
}

COUNTValueExtended-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

COUNTvaluePDCP-SNlength18 ::= SEQUENCE {
	pDCP-SNlength18				PDCP-SNlength18,
	hFNforPDCP-SNlength18		HFNforPDCP-SNlength18,
	iE-Extensions				ProtocolExtensionContainer { {COUNTvaluePDCP-SNlength18-ExtIEs} } OPTIONAL,
	...
}

COUNTvaluePDCP-SNlength18-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

Coverage-Level ::= ENUMERATED {
	extendedcoverage,
	...
}

CriticalityDiagnostics ::= SEQUENCE {
	procedureCode					ProcedureCode														OPTIONAL,
	triggeringMessage				TriggeringMessage													OPTIONAL,
	procedureCriticality			Criticality															OPTIONAL,
	iEsCriticalityDiagnostics		CriticalityDiagnostics-IE-List										OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer {{CriticalityDiagnostics-ExtIEs}}		OPTIONAL,
	...
}

CriticalityDiagnostics-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CriticalityDiagnostics-IE-List ::= SEQUENCE (SIZE (1.. maxnoofErrors)) OF CriticalityDiagnostics-IE-Item

CriticalityDiagnostics-IE-Item ::= SEQUENCE {
	iECriticality			Criticality,
	iE-ID					ProtocolIE-ID,
	typeOfError 			TypeOfError,
	iE-Extensions			ProtocolExtensionContainer {{CriticalityDiagnostics-IE-Item-ExtIEs}}	OPTIONAL,
	...
}

CriticalityDiagnostics-IE-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


-- D

DAPSRequestInfo ::= SEQUENCE {
	dAPSIndicator				ENUMERATED {dAPS-HO-required, ...},
	iE-Extensions				ProtocolExtensionContainer { {DAPSRequestInfo-ExtIEs} } OPTIONAL,
	...
}

DAPSRequestInfo-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

DAPSResponseInfoList ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { { DAPSResponseInfoListIEs } }

DAPSResponseInfoListIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-DAPSResponseInfoItem		CRITICALITY ignore	TYPE DAPSResponseInfoItem 	PRESENCE mandatory},
	...
}

DAPSResponseInfoItem ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	dAPSResponseInfo				DAPSResponseInfo,
	iE-Extensions					ProtocolExtensionContainer { {DAPSResponseInfoItem-ExtIEs} }			OPTIONAL,
	...
}

DAPSResponseInfoItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


DAPSResponseInfo ::= SEQUENCE {
	dapsresponseindicator		ENUMERATED {dAPS-HO-accepted,dAPS-HO-not-accepted,...},
	iE-Extensions				ProtocolExtensionContainer { { DAPSResponseInfo-ExtIEs} } OPTIONAL,
	...
}

DAPSResponseInfo-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

DataCodingScheme ::= BIT STRING (SIZE (8))

DataSize ::= INTEGER(1..4095, ...)

DCN-ID ::= INTEGER (0..65535)

ServedDCNs ::= SEQUENCE (SIZE(0..maxnoofDCNs)) OF ServedDCNsItem

ServedDCNsItem ::= SEQUENCE {
	dCN-ID						DCN-ID,
	relativeDCNCapacity			RelativeMMECapacity,
	iE-Extensions			ProtocolExtensionContainer { {ServedDCNsItem-ExtIEs} }	OPTIONAL,
	...
}

ServedDCNsItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

DL-CP-SecurityInformation ::= SEQUENCE {
	dl-NAS-MAC				DL-NAS-MAC,
	iE-Extensions			ProtocolExtensionContainer { { DL-CP-SecurityInformation-ExtIEs} }	OPTIONAL,
	...
}

DL-CP-SecurityInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

DL-Forwarding ::= ENUMERATED {
	dL-Forwarding-proposed,
	...
}

DL-NAS-MAC ::= BIT STRING (SIZE (16))

DLCOUNT-PDCP-SNlength ::= CHOICE {
	dLCOUNTValuePDCP-SNlength12						COUNTvalue,
	dLCOUNTValuePDCP-SNlength15						COUNTValueExtended,
	dLCOUNTValuePDCP-SNlength18						COUNTvaluePDCP-SNlength18,
	...
}

Direct-Forwarding-Path-Availability ::= ENUMERATED {
	directPathAvailable,
	...
}

Data-Forwarding-Not-Possible ::= ENUMERATED {
	data-Forwarding-not-Possible,
	...
}

DLNASPDUDeliveryAckRequest ::= ENUMERATED {
	requested,
	...
}

-- E

EARFCN ::= INTEGER(0..maxEARFCN, ...)

ECGIList ::= SEQUENCE (SIZE(1..maxnoofCellID)) OF EUTRAN-CGI

PWSfailedECGIList ::= SEQUENCE (SIZE(1..maxnoofCellsineNB)) OF EUTRAN-CGI

EDT-Session ::= ENUMERATED {
	true,
	...
}

EmergencyAreaIDList ::= SEQUENCE (SIZE(1..maxnoofEmergencyAreaID)) OF EmergencyAreaID

EmergencyAreaID ::= OCTET STRING (SIZE (3))

EmergencyAreaID-Broadcast ::= SEQUENCE (SIZE(1..maxnoofEmergencyAreaID)) OF EmergencyAreaID-Broadcast-Item

EmergencyAreaID-Broadcast-Item ::= SEQUENCE {
	emergencyAreaID			EmergencyAreaID,
	completedCellinEAI		CompletedCellinEAI,
	iE-Extensions			ProtocolExtensionContainer { {EmergencyAreaID-Broadcast-Item-ExtIEs} }	OPTIONAL,
	...
}

EmergencyAreaID-Broadcast-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

EmergencyAreaID-Cancelled ::= SEQUENCE (SIZE(1..maxnoofEmergencyAreaID)) OF EmergencyAreaID-Cancelled-Item

EmergencyAreaID-Cancelled-Item ::= SEQUENCE {
	emergencyAreaID			EmergencyAreaID,
	cancelledCellinEAI		CancelledCellinEAI,
	iE-Extensions			ProtocolExtensionContainer { {EmergencyAreaID-Cancelled-Item-ExtIEs} }	OPTIONAL,
	...
}

EmergencyAreaID-Cancelled-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

CompletedCellinEAI ::= SEQUENCE (SIZE(1..maxnoofCellinEAI)) OF CompletedCellinEAI-Item

CompletedCellinEAI-Item ::= SEQUENCE {
	eCGI					EUTRAN-CGI,
	iE-Extensions			ProtocolExtensionContainer { {CompletedCellinEAI-Item-ExtIEs} }	OPTIONAL,
	...
}

CompletedCellinEAI-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

ECGI-List ::= SEQUENCE (SIZE(1..maxnoofCellsineNB)) OF EUTRAN-CGI

EmergencyAreaIDListForRestart	::= SEQUENCE (SIZE(1..maxnoofRestartEmergencyAreaIDs)) OF EmergencyAreaID

EmergencyIndicator ::= ENUMERATED {
	true,
	...
}

ENB-EarlyStatusTransfer-TransparentContainer ::= SEQUENCE {
	bearers-SubjectToEarlyStatusTransferList		Bearers-SubjectToEarlyStatusTransferList,
	iE-Extensions									ProtocolExtensionContainer { {ENB-EarlyStatusTransfer-TransparentContainer-ExtIEs} }	OPTIONAL,
	...
}

ENB-EarlyStatusTransfer-TransparentContainer-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

ENB-ID ::= CHOICE {
	macroENB-ID			BIT STRING (SIZE(20)),
	homeENB-ID			BIT STRING (SIZE(28)),
	... ,
	short-macroENB-ID 	BIT STRING (SIZE(18)),
	long-macroENB-ID		BIT STRING (SIZE(21))
}

En-gNB-ID ::= BIT STRING (SIZE(22..32, ...))

GERAN-Cell-ID ::= SEQUENCE {
	lAI				LAI,
    rAC				RAC, 
	cI				CI,
	iE-Extensions			ProtocolExtensionContainer { { GERAN-Cell-ID-ExtIEs} }	OPTIONAL,
	...
}

GERAN-Cell-ID-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

Global-ENB-ID ::= SEQUENCE {
	pLMNidentity			PLMNidentity,
	eNB-ID					ENB-ID,
	iE-Extensions			ProtocolExtensionContainer { {GlobalENB-ID-ExtIEs} }		OPTIONAL,
	...
}

GlobalENB-ID-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

Global-en-gNB-ID ::= SEQUENCE {
	pLMNidentity			PLMNidentity,
	en-gNB-ID				En-gNB-ID,
	iE-Extensions			ProtocolExtensionContainer { {Global-en-gNB-ID-ExtIEs} }		OPTIONAL,
	...
}

Global-en-gNB-ID-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

GUMMEIList::= SEQUENCE (SIZE (1.. maxnoofMMECs)) OF GUMMEI

ENB-StatusTransfer-TransparentContainer		::= SEQUENCE {
	bearers-SubjectToStatusTransferList		Bearers-SubjectToStatusTransferList,
	iE-Extensions			ProtocolExtensionContainer { {ENB-StatusTransfer-TransparentContainer-ExtIEs} }	OPTIONAL,
	...
}

ENB-StatusTransfer-TransparentContainer-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

ENB-UE-S1AP-ID				::= INTEGER (0..16777215)

ENBname ::= PrintableString (SIZE (1..150,...))

ENBX2TLAs ::= SEQUENCE (SIZE(1.. maxnoofeNBX2TLAs)) OF TransportLayerAddress

EncryptionAlgorithms ::= BIT STRING (SIZE (16,...)) 

EN-DCSONConfigurationTransfer ::= SEQUENCE {
	transfertype				EN-DCSONTransferType,
	sONInformation					SONInformation,
	x2TNLConfigInfo					X2TNLConfigurationInfo 	OPTIONAL,
	-- This IE shall be present if the SON Information IE contains the SON Information Request IE and the SON Information Request IE is set to “X2TNL Configuration Info” --
	iE-Extensions			ProtocolExtensionContainer { {EN-DCSONConfigurationTransfer-ExtIEs} }			OPTIONAL,
...
}

EN-DCSONConfigurationTransfer-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

EN-DCSONTransferType ::= CHOICE {
	request				EN-DCTransferTypeRequest,
	reply				EN-DCTransferTypeReply,
	...
}

EN-DCTransferTypeRequest ::= SEQUENCE {
	sourceeNB 				EN-DCSONeNBIdentification,
	targetengNB				EN-DCSONengNBIdentification,
	targeteNB				EN-DCSONeNBIdentification													OPTIONAL,
	associatedTAI			TAI																			OPTIONAL,
	broadcast5GSTAI			FiveGSTAI																	OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { {EN-DCTransferTypeRequest-ExtIEs} }			OPTIONAL,
...
}

EN-DCTransferTypeRequest-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

EN-DCTransferTypeReply ::= SEQUENCE {
	sourceengNB				EN-DCSONengNBIdentification,
	targeteNB 				EN-DCSONeNBIdentification,
	iE-Extensions			ProtocolExtensionContainer { {EN-DCTransferTypeReply-ExtIEs} }			OPTIONAL,
...
}

EN-DCTransferTypeReply-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

EN-DCSONeNBIdentification ::= SEQUENCE {
	globaleNBID				Global-ENB-ID,
	selectedTAI				TAI,
	iE-Extensions			ProtocolExtensionContainer { {EN-DCSONeNBIdentification-ExtIEs} }			OPTIONAL,
...
}

EN-DCSONeNBIdentification-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

EN-DCSONengNBIdentification ::= SEQUENCE {
	globalengNBID			Global-en-gNB-ID,
	selectedTAI				TAI,
	iE-Extensions			ProtocolExtensionContainer { {EN-DCSONengNBIdentification-ExtIEs} }			OPTIONAL,
...
}

EN-DCSONengNBIdentification-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

EndIndication ::= ENUMERATED {
	no-further-data,
	further-data-exists,
	...
}

EnhancedCoverageRestricted ::= ENUMERATED {
	restricted,
	...
}

CE-ModeBRestricted ::= ENUMERATED {
	restricted,
	not-restricted,
	...
}

EPLMNs ::= SEQUENCE (SIZE(1..maxnoofEPLMNs)) OF PLMNidentity
EventType	::= ENUMERATED {
	direct,
	change-of-serve-cell,
	stop-change-of-serve-cell,
	...
}

E-RAB-ID		::= INTEGER (0..15, ...)

E-RABInformationList	::= SEQUENCE (SIZE (1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { { E-RABInformationListIEs } }

E-RABInformationListIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABInformationListItem			CRITICALITY ignore	TYPE E-RABInformationListItem			PRESENCE mandatory	},
	...
}

E-RABInformationListItem ::= SEQUENCE {
	e-RAB-ID						E-RAB-ID,
	dL-Forwarding					DL-Forwarding		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {E-RABInformationListItem-ExtIEs} }			OPTIONAL,
	...
}

E-RABInformationListItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-DAPSRequestInfo						CRITICALITY ignore	EXTENSION DAPSRequestInfo						PRESENCE optional }|
	{ ID id-SourceTransportLayerAddress			CRITICALITY ignore	EXTENSION TransportLayerAddress				PRESENCE optional}|
	{ ID id-SourceNodeTransportLayerAddress		CRITICALITY ignore	EXTENSION TransportLayerAddress				PRESENCE optional},
	...
}

E-RABList ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { {E-RABItemIEs} }

E-RABItemIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABItem	 CRITICALITY ignore 	TYPE E-RABItem 	PRESENCE mandatory },
	...
}

E-RABItem ::= SEQUENCE {
	e-RAB-ID					E-RAB-ID,
	cause						Cause,
	iE-Extensions				ProtocolExtensionContainer { {E-RABItem-ExtIEs} } OPTIONAL,
	...
}

E-RABItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


E-RABLevelQoSParameters ::= SEQUENCE {
	qCI			QCI,
	allocationRetentionPriority		AllocationAndRetentionPriority,
	gbrQosInformation					GBR-QosInformation												OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { {E-RABQoSParameters-ExtIEs} }	OPTIONAL,
	...
}

E-RABUsageReportList ::= SEQUENCE (SIZE(1..maxnooftimeperiods)) OF ProtocolIE-SingleContainer { {E-RABUsageReportItemIEs} }

E-RABUsageReportItemIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-E-RABUsageReportItem	 CRITICALITY ignore 	TYPE E-RABUsageReportItem 	PRESENCE mandatory },
	...
}

E-RABUsageReportItem ::= SEQUENCE {
	startTimestamp					OCTET STRING (SIZE(4)),
	endTimestamp					OCTET STRING (SIZE(4)),
	usageCountUL					INTEGER (0..18446744073709551615),
	usageCountDL					INTEGER (0..18446744073709551615),
	iE-Extensions				ProtocolExtensionContainer { { E-RABUsageReportItem-ExtIEs} } OPTIONAL,
	...
}

E-RABUsageReportItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

E-RABQoSParameters-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
-- Extended for introduction of downlink and uplink packet loss rate for enhanced Voice performance –-
	{ ID id-DownlinkPacketLossRate		CRITICALITY ignore	EXTENSION Packet-LossRate		PRESENCE optional}|
	{ ID id-UplinkPacketLossRate			CRITICALITY ignore	EXTENSION Packet-LossRate		PRESENCE optional},
	...
}

Ethernet-Type ::= ENUMERATED {
	true,
	...
}

EUTRAN-CGI ::= SEQUENCE {
	pLMNidentity			PLMNidentity,
	cell-ID					CellIdentity,
	iE-Extensions			ProtocolExtensionContainer { {EUTRAN-CGI-ExtIEs} } OPTIONAL,
	...
}

EUTRAN-CGI-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

EUTRANRoundTripDelayEstimationInfo ::= INTEGER (0..2047)

ExpectedUEBehaviour ::= SEQUENCE {
	expectedActivity		ExpectedUEActivityBehaviour OPTIONAL,
	expectedHOInterval		ExpectedHOInterval		 	OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { ExpectedUEBehaviour-ExtIEs} } OPTIONAL,
	...
}

ExpectedUEBehaviour-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

ExpectedUEActivityBehaviour ::= SEQUENCE {
	expectedActivityPeriod					ExpectedActivityPeriod					OPTIONAL,
	expectedIdlePeriod						ExpectedIdlePeriod						OPTIONAL,
	sourceofUEActivityBehaviourInformation	SourceOfUEActivityBehaviourInformation	OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { ExpectedUEActivityBehaviour-ExtIEs} } OPTIONAL,
	...
}

ExpectedUEActivityBehaviour-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

ExpectedActivityPeriod ::= INTEGER (1..30|40|50|60|80|100|120|150|180|181,...)

ExpectedIdlePeriod ::= INTEGER (1..30|40|50|60|80|100|120|150|180|181,...)

SourceOfUEActivityBehaviourInformation ::= ENUMERATED {
	subscription-information,
	statistics,
	...
}

ExpectedHOInterval ::= ENUMERATED {
	sec15, sec30, sec60, sec90, sec120, sec180, long-time,
	...
}

ExtendedBitRate	::= INTEGER (10000000001..4000000000000, ...) 

ExtendedRNC-ID					::= INTEGER (4096..65535)

ExtendedRepetitionPeriod ::= INTEGER (4096..131071) 

Extended-UEIdentityIndexValue ::= BIT STRING (SIZE (14))

-- F

FiveGSTAC ::= OCTET STRING (SIZE (3))

FiveGSTAI ::= SEQUENCE {
	pLMNidentity			PLMNidentity,
	fiveGSTAC				FiveGSTAC,
	iE-Extensions			ProtocolExtensionContainer { {FiveGSTAI-ExtIEs} } OPTIONAL,
	...
}

FiveGSTAI-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

FiveQI ::= INTEGER (0..255, ...)

ForbiddenInterRATs ::= ENUMERATED {
	all,
	geran,
	utran,
	cdma2000,
	...,
	geranandutran,
	cdma2000andutran

}

ForbiddenTAs ::= SEQUENCE (SIZE(1.. maxnoofEPLMNsPlusOne)) OF ForbiddenTAs-Item

ForbiddenTAs-Item ::= SEQUENCE {
	pLMN-Identity		PLMNidentity,
	forbiddenTACs		ForbiddenTACs,
	iE-Extensions		ProtocolExtensionContainer { {ForbiddenTAs-Item-ExtIEs} } OPTIONAL,
	...
}

ForbiddenTAs-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

ForbiddenTACs ::= SEQUENCE (SIZE(1..maxnoofForbTACs)) OF TAC

ForbiddenLAs ::= SEQUENCE (SIZE(1..maxnoofEPLMNsPlusOne)) OF ForbiddenLAs-Item

ForbiddenLAs-Item ::= SEQUENCE {
	pLMN-Identity		PLMNidentity,
	forbiddenLACs		ForbiddenLACs,
	iE-Extensions		ProtocolExtensionContainer { {ForbiddenLAs-Item-ExtIEs} } OPTIONAL,
	...
}

ForbiddenLAs-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

ForbiddenLACs ::= SEQUENCE (SIZE(1..maxnoofForbLACs)) OF LAC

-- G

GBR-QosInformation ::= SEQUENCE {
	e-RAB-MaximumBitrateDL			BitRate,
	e-RAB-MaximumBitrateUL			BitRate,
	e-RAB-GuaranteedBitrateDL		BitRate,
	e-RAB-GuaranteedBitrateUL		BitRate,
	iE-Extensions					ProtocolExtensionContainer { { GBR-QosInformation-ExtIEs} } OPTIONAL,
	...
}

GBR-QosInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
-- Extension for maximum bitrate > 10G bps --	
	{ ID id-extended-e-RAB-MaximumBitrateDL	CRITICALITY ignore	EXTENSION ExtendedBitRate	PRESENCE optional}|
	{ ID id-extended-e-RAB-MaximumBitrateUL	CRITICALITY ignore	EXTENSION ExtendedBitRate	PRESENCE optional}|
	{ ID id-extended-e-RAB-GuaranteedBitrateDL	CRITICALITY ignore	EXTENSION ExtendedBitRate	PRESENCE optional}|
	{ ID id-extended-e-RAB-GuaranteedBitrateUL	CRITICALITY ignore	EXTENSION ExtendedBitRate	PRESENCE optional},
	...}


GTP-TEID					::= OCTET STRING (SIZE (4))

GUMMEI			::= SEQUENCE {
	pLMN-Identity		PLMNidentity,
	mME-Group-ID		MME-Group-ID,
	mME-Code			MME-Code,
	iE-Extensions		ProtocolExtensionContainer { {GUMMEI-ExtIEs} } OPTIONAL,
	...
}

GUMMEI-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

GUMMEIType ::= ENUMERATED {
	native,
	mapped,
	...,
	mappedFrom5G
}

GWContextReleaseIndication ::= ENUMERATED {
	true,
	...
}

-- H

HandoverFlag ::= ENUMERATED {
	handoverPreparation,
	...
}


HandoverRestrictionList ::= SEQUENCE {
	servingPLMN					PLMNidentity,
	equivalentPLMNs				EPLMNs					OPTIONAL,
	forbiddenTAs				ForbiddenTAs			OPTIONAL,
	forbiddenLAs				ForbiddenLAs			OPTIONAL,
	forbiddenInterRATs			ForbiddenInterRATs		OPTIONAL, 
	iE-Extensions				ProtocolExtensionContainer { {HandoverRestrictionList-ExtIEs} }	OPTIONAL,
	...
}

HandoverRestrictionList-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-NRrestrictioninEPSasSecondaryRAT		CRITICALITY ignore	EXTENSION NRrestrictioninEPSasSecondaryRAT		PRESENCE optional}|
	{ ID id-UnlicensedSpectrumRestriction		CRITICALITY ignore	EXTENSION UnlicensedSpectrumRestriction	PRESENCE optional}|
	{ ID id-CNTypeRestrictions		CRITICALITY ignore	EXTENSION CNTypeRestrictions	PRESENCE optional}|
	{ ID id-NRrestrictionin5GS		CRITICALITY ignore	EXTENSION NRrestrictionin5GS 	PRESENCE optional}|
	{ ID id-LastNG-RANPLMNIdentity		CRITICALITY ignore	EXTENSION PLMNidentity			PRESENCE optional},
	...
}

HandoverType ::= ENUMERATED {
	intralte,
	ltetoutran,
	ltetogeran,
	utrantolte,
	gerantolte,
	...,
	eps-to-5gs,
	fivegs-to-eps
}

HFN ::= INTEGER (0..1048575)

HFNModified ::= INTEGER (0..131071)

HFNforPDCP-SNlength18 ::= INTEGER (0..16383)

-- I

Masked-IMEISV ::= BIT STRING (SIZE (64))

ImmediateMDT ::= SEQUENCE { 
	measurementsToActivate		MeasurementsToActivate,
	m1reportingTrigger			M1ReportingTrigger,
	m1thresholdeventA2			M1ThresholdEventA2				OPTIONAL,
-- Included in case of event-triggered, or event-triggered periodic reporting for measurement M1
	m1periodicReporting			M1PeriodicReporting				OPTIONAL,
-- Included in case of periodic or event-triggered periodic reporting
	iE-Extensions				ProtocolExtensionContainer { { ImmediateMDT-ExtIEs} } OPTIONAL,
	...
}

ImmediateMDT-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-M3Configuration		CRITICALITY ignore	EXTENSION M3Configuration		PRESENCE conditional}|
	{ ID id-M4Configuration		CRITICALITY ignore	EXTENSION M4Configuration		PRESENCE conditional}|
	{ ID id-M5Configuration		CRITICALITY ignore	EXTENSION M5Configuration		PRESENCE conditional}|
	{ ID id-MDT-Location-Info	CRITICALITY ignore	EXTENSION MDT-Location-Info		PRESENCE optional}|
	{ ID id-M6Configuration		CRITICALITY ignore	EXTENSION M6Configuration		PRESENCE conditional}|
	{ ID id-M7Configuration		CRITICALITY ignore	EXTENSION M7Configuration		PRESENCE conditional}|
	{ ID id-BluetoothMeasurementConfiguration		CRITICALITY ignore	EXTENSION BluetoothMeasurementConfiguration		PRESENCE optional}|
	{ ID id-WLANMeasurementConfiguration		CRITICALITY ignore	EXTENSION WLANMeasurementConfiguration		PRESENCE optional},
	...
}

IMSI	::=	OCTET STRING (SIZE (3..8))

InformationOnRecommendedCellsAndENBsForPaging ::= SEQUENCE {
	recommendedCellsForPaging	RecommendedCellsForPaging,
	recommendENBsForPaging		RecommendedENBsForPaging,
	iE-Extensions				ProtocolExtensionContainer { { InformationOnRecommendedCellsAndENBsForPaging-ExtIEs} }	OPTIONAL,
	...
}

InformationOnRecommendedCellsAndENBsForPaging-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

IntegrityProtectionAlgorithms ::= BIT STRING (SIZE (16,...))

IntendedNumberOfPagingAttempts ::= INTEGER (1..16, ...)

InterfacesToTrace ::= BIT STRING (SIZE (8))

IntersystemMeasurementConfiguration ::= SEQUENCE {
	rSRP								INTEGER (0.. 127)								OPTIONAL,
	rSRQ								INTEGER (0.. 127)								OPTIONAL,
	sINR								INTEGER (0.. 127)								OPTIONAL,
	interSystemMeasurementParameters	InterSystemMeasurementParameters,
	iE-Extensions					ProtocolExtensionContainer { { IntersystemMeasurementConfiguration-ExtIEs} } OPTIONAL,
	...
}
IntersystemMeasurementConfiguration-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

InterSystemMeasurementParameters ::= SEQUENCE {
	measurementDuration					INTEGER (1..100),
	interSystemMeasurementList			InterSystemMeasurementList			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { InterSystemMeasurementParameters-ExtIEs} } OPTIONAL,
	...
}
InterSystemMeasurementParameters-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

InterSystemMeasurementList ::= SEQUENCE (SIZE(1.. maxnooffrequencies)) OF InterSystemMeasurementItem

InterSystemMeasurementItem ::= SEQUENCE {
	freqBandIndicatorNR			INTEGER (1..1024),
	sSBfrequencies				INTEGER (0..maxNARFCN),
	subcarrierSpacingSSB		ENUMERATED {kHz15, kHz30, kHz60, kHz120, kHz240, ...},
	maxRSIndexCellQual			INTEGER (1..maxRS-IndexCellQual)  	OPTIONAL,
	sMTC						OCTET STRING 						OPTIONAL,
	threshRS-Index-r15			OCTET STRING 						OPTIONAL,
	sSBToMeasure				OCTET STRING						OPTIONAL,
	sSRSSIMeasurement			OCTET STRING						OPTIONAL,
	quantityConfigNR-R15		OCTET STRING						OPTIONAL,
	blackCellsToAddModList		OCTET STRING						OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { InterSystemMeasurementItem-ExtIEs} } OPTIONAL
}

InterSystemMeasurementItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

IntersystemSONConfigurationTransfer ::= OCTET STRING

IMSvoiceEPSfallbackfrom5G ::= ENUMERATED {
	true,
	...
}

IAB-Authorized ::= ENUMERATED {
	authorized,
	not-authorized,
	...
}

IAB-Node-Indication	::= ENUMERATED {
	true, 
	...
}

IAB-Supported ::= ENUMERATED {
	true,
	...
}

-- J
-- K

KillAllWarningMessages ::= ENUMERATED {true}

-- L


LAC	::= OCTET STRING (SIZE (2))

LAI ::= SEQUENCE {
	pLMNidentity				PLMNidentity,
	lAC				LAC,
	iE-Extensions			ProtocolExtensionContainer { {LAI-ExtIEs} } OPTIONAL,
	...
}

LAI-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

LastVisitedCell-Item ::= CHOICE {
	e-UTRAN-Cell					LastVisitedEUTRANCellInformation,
	uTRAN-Cell						LastVisitedUTRANCellInformation,
	gERAN-Cell						LastVisitedGERANCellInformation,
	...,
	nG-RAN-Cell						LastVisitedNGRANCellInformation
}
LastVisitedEUTRANCellInformation ::= SEQUENCE {
	global-Cell-ID					EUTRAN-CGI,
	cellType						CellType,
	time-UE-StayedInCell			Time-UE-StayedInCell,
	iE-Extensions					ProtocolExtensionContainer { { LastVisitedEUTRANCellInformation-ExtIEs} } OPTIONAL,
	...
}
LastVisitedEUTRANCellInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
-- Extension for Rel-11 to support enhanced granularity for time UE stayed in cell --
	{ ID id-Time-UE-StayedInCell-EnhancedGranularity	CRITICALITY ignore	EXTENSION Time-UE-StayedInCell-EnhancedGranularity	PRESENCE optional}|
	{ ID id-HO-Cause									CRITICALITY ignore	EXTENSION Cause							PRESENCE optional},
	...
}

LastVisitedNGRANCellInformation	::= OCTET STRING

LastVisitedUTRANCellInformation	::= OCTET STRING

LastVisitedGERANCellInformation ::= CHOICE {
	undefined						NULL,
	...
}

L3-Information				::= OCTET STRING
-- This is a dummy IE used only as a reference to the actual definition in relevant specification.

LPPa-PDU ::=  OCTET STRING

LHN-ID ::=  OCTET STRING(SIZE (32..256))

Links-to-log ::= ENUMERATED {uplink, downlink, both-uplink-and-downlink, ...} 

ListeningSubframePattern ::= SEQUENCE {
	pattern-period				ENUMERATED {ms1280, ms2560, ms5120, ms10240, ...},
	pattern-offset				INTEGER (0..10239, ...),
	iE-Extensions				ProtocolExtensionContainer { { ListeningSubframePattern-ExtIEs} } OPTIONAL,
	...
}

ListeningSubframePattern-ExtIEs	S1AP-PROTOCOL-EXTENSION ::= {
...
}

LoggedMDT ::= SEQUENCE {
	loggingInterval				LoggingInterval,
	loggingDuration				LoggingDuration,
	iE-Extensions				ProtocolExtensionContainer { {LoggedMDT-ExtIEs} } OPTIONAL,
	...
}

LoggedMDT-ExtIEs	S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-BluetoothMeasurementConfiguration		CRITICALITY ignore	EXTENSION BluetoothMeasurementConfiguration		PRESENCE optional}|
	{ ID id-WLANMeasurementConfiguration			CRITICALITY ignore	EXTENSION WLANMeasurementConfiguration				PRESENCE optional},
...
}

LoggingInterval ::= ENUMERATED {ms128, ms256, ms512, ms1024, ms2048, ms3072, ms4096, ms6144}

LoggingDuration ::= ENUMERATED {m10, m20, m40, m60, m90, m120}

LoggedMBSFNMDT ::= SEQUENCE {
	loggingInterval				LoggingInterval,
	loggingDuration				LoggingDuration,
	mBSFN-ResultToLog			MBSFN-ResultToLog		OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { LoggedMBSFNMDT-ExtIEs } } OPTIONAL,
	...
}

LoggedMBSFNMDT-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

LTE-M-Indication ::= ENUMERATED {lte-m, ... }

-- M

M3Configuration ::= SEQUENCE {
	m3period			M3period,
	iE-Extensions		ProtocolExtensionContainer { { M3Configuration-ExtIEs} } OPTIONAL,
	...
}

M3Configuration-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

M3period ::= ENUMERATED {ms100, ms1000, ms10000, ...,ms1024, ms1280, ms2048, ms2560, ms5120, ms10240, min1 } 

M4Configuration ::= SEQUENCE {
	m4period			M4period,
	m4-links-to-log		Links-to-log,
	iE-Extensions		ProtocolExtensionContainer { { M4Configuration-ExtIEs} } OPTIONAL,
	...
}

M4Configuration-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

M4period ::= ENUMERATED {ms1024, ms2048, ms5120, ms10240, min1, ... } 

M5Configuration ::= SEQUENCE {
	m5period			M5period,
	m5-links-to-log		Links-to-log,
	iE-Extensions		ProtocolExtensionContainer { { M5Configuration-ExtIEs} } OPTIONAL,
	...
}

M5Configuration-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

M5period ::= ENUMERATED {ms1024, ms2048, ms5120, ms10240, min1, ... } 

M6Configuration ::= SEQUENCE {
	m6report-Interval	M6report-Interval,
	m6delay-threshold	M6delay-threshold		OPTIONAL,
-- This IE shall be present if the M6 Links to log IE is set to “uplink” or to “both-uplink-and-downlink” --
	m6-links-to-log		Links-to-log,
	iE-Extensions		ProtocolExtensionContainer { { M6Configuration-ExtIEs} } OPTIONAL,
	...
}

M6Configuration-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

M6report-Interval ::= ENUMERATED { ms1024, ms2048, ms5120, ms10240, ... }

M6delay-threshold ::= ENUMERATED { ms30, ms40, ms50, ms60, ms70, ms80, ms90, ms100, ms150, ms300, ms500, ms750, ... }

M7Configuration ::= SEQUENCE {
	m7period			M7period,
	m7-links-to-log		Links-to-log,
	iE-Extensions		ProtocolExtensionContainer { { M7Configuration-ExtIEs} } OPTIONAL,
	...
}

M7Configuration-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

M7period ::= INTEGER(1..60, ...)

MDT-Activation 	::= ENUMERATED { 
	immediate-MDT-only,
	immediate-MDT-and-Trace,
	logged-MDT-only,
	...,
	logged-MBSFN-MDT
}

MDT-Location-Info ::= BIT STRING (SIZE (8))

MDT-Configuration ::= SEQUENCE {
	mdt-Activation		MDT-Activation,
	areaScopeOfMDT		AreaScopeOfMDT,
	mDTMode				MDTMode,
	iE-Extensions		ProtocolExtensionContainer { { MDT-Configuration-ExtIEs} } OPTIONAL,
	...
}
MDT-Configuration-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-SignallingBasedMDTPLMNList			CRITICALITY ignore	EXTENSION MDTPLMNList	PRESENCE optional	},
	...
}

ManagementBasedMDTAllowed ::= ENUMERATED {allowed, ...}

MBSFN-ResultToLog ::= SEQUENCE (SIZE(1..maxnoofMBSFNAreaMDT)) OF MBSFN-ResultToLogInfo

MBSFN-ResultToLogInfo ::= SEQUENCE {
	mBSFN-AreaId		INTEGER (0..255)		OPTIONAL,
	carrierFreq			EARFCN,	
	iE-Extensions		ProtocolExtensionContainer { { MBSFN-ResultToLogInfo-ExtIEs} } OPTIONAL,
	...
}

MBSFN-ResultToLogInfo-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

MDTPLMNList ::= SEQUENCE (SIZE(1..maxnoofMDTPLMNs)) OF PLMNidentity

PrivacyIndicator ::= ENUMERATED {
	immediate-MDT,
	logged-MDT,
	...
}

MDTMode ::= CHOICE {
	immediateMDT				ImmediateMDT,
	loggedMDT					LoggedMDT,
	...,
	mDTMode-Extension			MDTMode-Extension
}

MDTMode-Extension ::= ProtocolIE-SingleContainer {{ MDTMode-ExtensionIE }}

MDTMode-ExtensionIE S1AP-PROTOCOL-IES ::= {
	{ ID id-LoggedMBSFNMDT		CRITICALITY ignore	TYPE LoggedMBSFNMDT		PRESENCE mandatory}
}

MeasurementsToActivate ::= BIT STRING (SIZE (8))

MeasurementThresholdA2 ::= CHOICE { 
	threshold-RSRP				Threshold-RSRP,
	threshold-RSRQ				Threshold-RSRQ,
	...
}

MessageIdentifier	::= BIT STRING (SIZE (16))

MobilityInformation ::= BIT STRING (SIZE(32))

MMEname ::= PrintableString (SIZE (1..150,...))

MMEPagingTarget ::= CHOICE {
	global-ENB-ID		Global-ENB-ID,
	tAI					TAI,
	...
}

MMERelaySupportIndicator ::= ENUMERATED {true, ...}

MME-Group-ID	::= OCTET STRING (SIZE (2))

MME-Code		::= OCTET STRING (SIZE (1))

MME-UE-S1AP-ID	::= INTEGER (0..4294967295)
M-TMSI			::= OCTET STRING (SIZE (4))

MSClassmark2	::= OCTET STRING
MSClassmark3	::= OCTET STRING

MutingAvailabilityIndication ::= ENUMERATED {
	available,
	unavailable,
	...
}


MutingPatternInformation ::= SEQUENCE {
	muting-pattern-period				ENUMERATED {ms0, ms1280, ms2560, ms5120, ms10240, ...},
	muting-pattern-offset				INTEGER (0..10239, ...)		OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { {MutingPatternInformation-ExtIEs} } OPTIONAL,
	...
}

MutingPatternInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

MDT-ConfigurationNR ::= OCTET STRING

-- N

NAS-PDU ::=  OCTET STRING

NASSecurityParametersfromE-UTRAN ::= OCTET STRING

NASSecurityParameterstoE-UTRAN ::= OCTET STRING

NB-IoT-DefaultPagingDRX ::= ENUMERATED {
	v128,
	v256,
	v512,
	v1024,
	...
	}

NB-IoT-PagingDRX ::= ENUMERATED { v32, v64, v128, v256, v512, v1024,...}

NB-IoT-Paging-eDRXInformation ::= SEQUENCE { 
	nB-IoT-paging-eDRX-Cycle		NB-IoT-Paging-eDRX-Cycle,
	nB-IoT-pagingTimeWindow			NB-IoT-PagingTimeWindow			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { NB-IoT-Paging-eDRXInformation-ExtIEs} } OPTIONAL,
	...
}

NB-IoT-Paging-eDRXInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

NB-IoT-Paging-eDRX-Cycle ::= ENUMERATED{hf2, hf4, hf6, hf8, hf10, hf12, hf14, hf16, hf32, hf64, hf128, hf256, hf512, hf1024, ...}

NB-IoT-PagingTimeWindow ::= ENUMERATED{s1, s2, s3, s4, s5, s6, s7, s8, s9, s10, s11, s12, s13, s14, s15, s16, ...}

NB-IoT-RLF-Report-Container ::= OCTET STRING

NB-IoT-UEIdentityIndexValue ::= BIT STRING (SIZE (12))

NextPagingAreaScope ::= ENUMERATED {
	same,
	changed,
	...
}

NotifySourceeNB ::= ENUMERATED {
	notifySource,
	...
}

NRCellIdentity ::= BIT STRING (SIZE(36))

NR-CGI ::= SEQUENCE {
	pLMNIdentity		PLMNidentity,
	nRCellIdentity		NRCellIdentity,
	iE-Extensions		ProtocolExtensionContainer { {NR-CGI-ExtIEs} } OPTIONAL,
	...
}

NR-CGI-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


NRencryptionAlgorithms ::= BIT STRING (SIZE (16,...))
NRintegrityProtectionAlgorithms ::= BIT STRING (SIZE (16,...))

NRrestrictioninEPSasSecondaryRAT ::= ENUMERATED {
	nRrestrictedinEPSasSecondaryRAT,
	...
}

NRrestrictionin5GS ::= ENUMERATED {
	nRrestrictedin5GS,
	...
}

NRUESecurityCapabilities ::= SEQUENCE {
	nRencryptionAlgorithms				NRencryptionAlgorithms,
	nRintegrityProtectionAlgorithms		NRintegrityProtectionAlgorithms,
	iE-Extensions						ProtocolExtensionContainer { { NRUESecurityCapabilities-ExtIEs} }	OPTIONAL,
...
}

NRUESecurityCapabilities-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

NumberofBroadcastRequest ::= INTEGER (0..65535)

NumberOfBroadcasts ::= INTEGER (0..65535)

NRV2XServicesAuthorized ::= SEQUENCE {
	vehicleUE			VehicleUE							OPTIONAL,
	pedestrianUE 		PedestrianUE							OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { {NRV2XServicesAuthorized-ExtIEs} }	OPTIONAL,
	...
}

NRV2XServicesAuthorized-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

NRUESidelinkAggregateMaximumBitrate ::= SEQUENCE {
	uEaggregateMaximumBitRate		BitRate,
	iE-Extensions					ProtocolExtensionContainer { {NRUESidelinkAggregateMaximumBitrate-ExtIEs} } OPTIONAL,
	...
}

NRUESidelinkAggregateMaximumBitrate-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- O
OldBSS-ToNewBSS-Information		::= OCTET STRING
-- This is a dummy IE used only as a reference to the actual definition in relevant specification.

OverloadAction ::= ENUMERATED {
	reject-non-emergency-mo-dt,
	reject-rrc-cr-signalling,
	permit-emergency-sessions-and-mobile-terminated-services-only,
	...,
	permit-high-priority-sessions-and-mobile-terminated-services-only,
	reject-delay-tolerant-access,
	permit-high-priority-sessions-and-exception-reporting-and-mobile-terminated-services-only,
	not-accept-mo-data-or-delay-tolerant-access-from-CP-CIoT

}

OverloadResponse ::= CHOICE {
	overloadAction					OverloadAction,
	...
}


-- P

Packet-LossRate	::= INTEGER(0..1000)

PagingAttemptInformation ::= SEQUENCE {
	pagingAttemptCount					PagingAttemptCount,
	intendedNumberOfPagingAttempts		IntendedNumberOfPagingAttempts,
	nextPagingAreaScope					NextPagingAreaScope		OPTIONAL,
	iE-Extensions						ProtocolExtensionContainer { { PagingAttemptInformation-ExtIEs} } OPTIONAL,
	...
}

PagingAttemptInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

PagingAttemptCount ::= INTEGER (1..16, ...)

Paging-eDRXInformation ::= SEQUENCE { 
	paging-eDRX-Cycle			Paging-eDRX-Cycle,
	pagingTimeWindow			PagingTimeWindow			OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { Paging-eDRXInformation-ExtIEs} } OPTIONAL,
	...
}

Paging-eDRXInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

Paging-eDRX-Cycle ::= ENUMERATED{hfhalf, hf1, hf2, hf4, hf6, hf8, hf10, hf12, hf14, hf16, hf32, hf64, hf128, hf256, ...}

PagingTimeWindow ::= ENUMERATED{s1, s2, s3, s4, s5, s6, s7, s8, s9, s10, s11, s12, s13, s14, s15, s16, ...}

PagingDRX ::= ENUMERATED {
	v32,
	v64,
	v128,
	v256,
	...
	}

PagingPriority ::= ENUMERATED {
	priolevel1,
	priolevel2,
	priolevel3,
	priolevel4,
	priolevel5,
	priolevel6,
	priolevel7,
	priolevel8,
	...
}

PagingProbabilityInformation ::= ENUMERATED {p00, p05, p10, p15, p20, p25, p30, p35, p40, p45, p50, p55, p60, p65, p70, p75, p80, p85, p90, p95, p100, ...}

PC5QoSParameters ::= SEQUENCE {
	pc5QoSFlowList				PC5QoSFlowList,
	pc5LinkAggregatedBitRates	BitRate				OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { PC5QoSParameters-ExtIEs} }	OPTIONAL,
	...
}

PC5QoSParameters-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

PC5QoSFlowList ::= SEQUENCE (SIZE(1..maxnoofPC5QoSFlows)) OF PC5QoSFlowItem

PC5QoSFlowItem::= SEQUENCE {
	pQI							FiveQI,
	pc5FlowBitRates				PC5FlowBitRates				OPTIONAL,
	range						Range						OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { PC5QoSFlowItem-ExtIEs} }	OPTIONAL,
	...
}

PC5QoSFlowItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


PC5FlowBitRates ::= SEQUENCE {
	guaranteedFlowBitRate		BitRate,
	maximumFlowBitRate			BitRate,
	iE-Extensions		ProtocolExtensionContainer { { PC5FlowBitRates-ExtIEs} }	OPTIONAL,
	...
}

PC5FlowBitRates-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
...
}
PDCP-SN ::= INTEGER (0..4095)

PDCP-SNExtended ::= INTEGER (0..32767)

PDCP-SNlength18 ::= INTEGER (0..262143)

PendingDataIndication ::= ENUMERATED {
	true,
	...
}

M1PeriodicReporting ::= SEQUENCE { 
	reportInterval				ReportIntervalMDT,
	reportAmount				ReportAmountMDT,
	iE-Extensions				ProtocolExtensionContainer { { M1PeriodicReporting-ExtIEs} } OPTIONAL,
	...
}

M1PeriodicReporting-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

PLMNidentity 				::= TBCD-STRING 

PLMNAreaBasedQMC ::= SEQUENCE {
	plmnListforQMC		PLMNListforQMC,
	iE-Extensions		ProtocolExtensionContainer { {PLMNAreaBasedQMC-ExtIEs} } OPTIONAL,
	...
}

PLMNAreaBasedQMC-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

PLMNListforQMC ::= SEQUENCE (SIZE(1..maxnoofPLMNforQMC)) OF PLMNidentity

Port-Number		::= OCTET STRING (SIZE (2))

Pre-emptionCapability ::= ENUMERATED {
	shall-not-trigger-pre-emption,
	may-trigger-pre-emption
}

Pre-emptionVulnerability ::= ENUMERATED {
	not-pre-emptable,
	pre-emptable
}

PriorityLevel				::= INTEGER { spare (0), highest (1), lowest (14), no-priority (15) } (0..15)

ProSeAuthorized ::= SEQUENCE {
	proSeDirectDiscovery		ProSeDirectDiscovery									OPTIONAL,
	proSeDirectCommunication	ProSeDirectCommunication								OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { {ProSeAuthorized-ExtIEs} }	OPTIONAL,
	...
}

ProSeAuthorized-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-ProSeUEtoNetworkRelaying	CRITICALITY ignore	EXTENSION ProSeUEtoNetworkRelaying		PRESENCE optional},
	...
}

ProSeDirectDiscovery ::= ENUMERATED { 
	authorized,
	not-authorized,
	...
}

ProSeUEtoNetworkRelaying ::= ENUMERATED {
	authorized,
	not-authorized,
	...
}

ProSeDirectCommunication ::= ENUMERATED { 
	authorized,
	not-authorized,
	...
}

PS-ServiceNotAvailable ::= ENUMERATED {
	ps-service-not-available,
	...
}

PSCellInformation ::= SEQUENCE {
	nCGI						NR-CGI,
	iE-Extensions				ProtocolExtensionContainer { { PSCellInformation-ExtIEs} }	OPTIONAL,
	...
}

PSCellInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- Q

QCI						::= INTEGER (0..255)

-- R

RAN-UE-NGAP-ID ::= INTEGER (0..4294967295)

Range ::= ENUMERATED {m50, m80, m180, m200, m350, m400, m500, m700, m1000, ...}

ReceiveStatusofULPDCPSDUs ::= BIT STRING (SIZE(4096))

ReceiveStatusOfULPDCPSDUsExtended ::= BIT STRING (SIZE(1..16384))

ReceiveStatusOfULPDCPSDUsPDCP-SNlength18 ::= BIT STRING (SIZE(1..131072))

RecommendedCellsForPaging ::= SEQUENCE {
	recommendedCellList			RecommendedCellList,
	iE-Extensions				ProtocolExtensionContainer { { RecommendedCellsForPaging-ExtIEs} }	OPTIONAL,
	...
}

RecommendedCellsForPaging-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

RecommendedCellList ::= SEQUENCE (SIZE(1.. maxnoofRecommendedCells)) OF ProtocolIE-SingleContainer { { RecommendedCellItemIEs } }

RecommendedCellItemIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-RecommendedCellItem	CRITICALITY ignore 	TYPE RecommendedCellItem		PRESENCE mandatory },
	...
}

RecommendedCellItem::= SEQUENCE {
	eUTRAN-CGI				EUTRAN-CGI,
	timeStayedInCell		INTEGER (0..4095)		OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { RecommendedCellsForPagingItem-ExtIEs} }	OPTIONAL,
	...
}

RecommendedCellsForPagingItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

RecommendedENBsForPaging ::= SEQUENCE {
	recommendedENBList		RecommendedENBList,
	iE-Extensions			ProtocolExtensionContainer { { RecommendedENBsForPaging-ExtIEs} }	OPTIONAL,
	...
}

RecommendedENBsForPaging-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

RecommendedENBList::= SEQUENCE (SIZE(1.. maxnoofRecommendedENBs)) OF ProtocolIE-SingleContainer { { RecommendedENBItemIEs } }

RecommendedENBItemIEs S1AP-PROTOCOL-IES ::= {
	{ ID id-RecommendedENBItem	CRITICALITY ignore	TYPE RecommendedENBItem		PRESENCE mandatory },
	...
}

RecommendedENBItem ::= SEQUENCE {
	mMEPagingTarget			MMEPagingTarget,
	iE-Extensions			ProtocolExtensionContainer { { RecommendedENBItem-ExtIEs} }	OPTIONAL,
	...
}

RecommendedENBItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

RelativeMMECapacity				::= INTEGER (0..255)

RelayNode-Indicator ::= ENUMERATED {
	true,
	...
}

RAC					::= OCTET STRING (SIZE (1))

RAT-Type ::= ENUMERATED {
	nbiot,
	...
}

ReportAmountMDT ::= ENUMERATED{r1, r2, r4, r8, r16, r32, r64, rinfinity}

ReportIntervalMDT ::= ENUMERATED {ms120, ms240, ms480, ms640, ms1024, ms2048, ms5120, ms10240, min1, min6, min12, min30, min60} 

M1ReportingTrigger ::= ENUMERATED{
	periodic,
	a2eventtriggered,
	...,
	a2eventtriggered-periodic
}

RequestType	::= SEQUENCE {
	eventType 				EventType,
	reportArea 				ReportArea,
	iE-Extensions			ProtocolExtensionContainer { { RequestType-ExtIEs} }	OPTIONAL,
	...
}


RequestType-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-RequestTypeAdditionalInfo	CRITICALITY ignore	EXTENSION RequestTypeAdditionalInfo		PRESENCE optional },
	...
}

RequestTypeAdditionalInfo ::= ENUMERATED {
	includePSCell,
	...
}

RIMTransfer ::= SEQUENCE {
	rIMInformation			RIMInformation,
	rIMRoutingAddress		RIMRoutingAddress		OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { RIMTransfer-ExtIEs} }	OPTIONAL,
	...
}

RIMTransfer-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

RIMInformation ::= OCTET STRING

RIMRoutingAddress ::= CHOICE {
	gERAN-Cell-ID			GERAN-Cell-ID,
	...,
	targetRNC-ID			TargetRNC-ID,
	eHRPD-Sector-ID			OCTET STRING (SIZE(16))
}

ReportArea ::= ENUMERATED {
	ecgi,
	...
}

RepetitionPeriod ::= INTEGER (0..4095)

RLFReportInformation ::= SEQUENCE {
	uE-RLF-Report-Container							UE-RLF-Report-Container,
	uE-RLF-Report-Container-for-extended-bands		UE-RLF-Report-Container-for-extended-bands		OPTIONAL,
	iE-Extensions									ProtocolExtensionContainer {{ RLFReportInformation-ExtIEs}} OPTIONAL,
	...
}

RLFReportInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ID id-NB-IoT-RLF-Report-Container		CRITICALITY ignore	EXTENSION NB-IoT-RLF-Report-Container	PRESENCE optional},
	...
}

RNC-ID ::= INTEGER (0..4095)

RRC-Container ::= OCTET STRING

RRC-Establishment-Cause ::= ENUMERATED {
	emergency,
	highPriorityAccess,
	mt-Access,
	mo-Signalling,
	mo-Data,
	...,
	delay-TolerantAccess,
	mo-VoiceCall,
	mo-ExceptionData
}

ECGIListForRestart ::= SEQUENCE (SIZE(1..maxnoofCellsforRestart)) OF EUTRAN-CGI

Routing-ID ::= INTEGER (0..255)

-- S


SecurityKey	::= BIT STRING (SIZE(256))



SecurityContext ::= SEQUENCE {
	nextHopChainingCount		INTEGER (0..7),
	nextHopParameter			SecurityKey,
	iE-Extensions				ProtocolExtensionContainer { { SecurityContext-ExtIEs} }	OPTIONAL,
	...
}


SecurityContext-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

SecondaryRATType ::= ENUMERATED {
	nR,
	...,
	unlicensed
}


SecondaryRATDataUsageRequest ::= ENUMERATED {
	requested,
	...
}

SecondaryRATDataUsageReportList ::= SEQUENCE (SIZE(1.. maxnoofE-RABs)) OF ProtocolIE-SingleContainer { {SecondaryRATDataUsageReportItemIEs} }

SecondaryRATDataUsageReportItemIEs 	S1AP-PROTOCOL-IES ::= {
	{ ID id-SecondaryRATDataUsageReportItem	 CRITICALITY ignore 	TYPE SecondaryRATDataUsageReportItem 	PRESENCE mandatory },
	...
}

SecondaryRATDataUsageReportItem ::= SEQUENCE {
	e-RAB-ID					E-RAB-ID,
	secondaryRATType			SecondaryRATType,
	e-RABUsageReportList		E-RABUsageReportList,
	iE-Extensions				ProtocolExtensionContainer { { SecondaryRATDataUsageReportItem-ExtIEs} } OPTIONAL,
	...
}

SecondaryRATDataUsageReportItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

SerialNumber ::= BIT STRING (SIZE (16))

ServiceType ::= ENUMERATED{
	qMC-for-streaming-service,
	qMC-for-MTSI-service,
	...
}

SONInformation ::= CHOICE{
	sONInformationRequest		SONInformationRequest,
	sONInformationReply			SONInformationReply,
	...,
	sONInformation-Extension	SONInformation-Extension
}

SONInformation-Extension ::= ProtocolIE-SingleContainer {{ SONInformation-ExtensionIE }}

SONInformation-ExtensionIE S1AP-PROTOCOL-IES ::= {
	{ ID id-SON-Information-Report	CRITICALITY ignore	TYPE SONInformationReport	PRESENCE mandatory}
}

SONInformationRequest ::= ENUMERATED { 
	x2TNL-Configuration-Info,
	...,
	time-Synchronisation-Info,
	activate-Muting,
	deactivate-Muting}

SONInformationReply ::= SEQUENCE {
	x2TNLConfigurationInfo			X2TNLConfigurationInfo			OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer {{SONInformationReply-ExtIEs}} OPTIONAL,
	...
}

SONInformationReply-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
-- Extension for Release 9 to transfer Time synchronisation information --
	{ID id-Time-Synchronisation-Info		CRITICALITY ignore	EXTENSION TimeSynchronisationInfo		PRESENCE optional},
	...,
	{ID id-Muting-Pattern-Information		CRITICALITY ignore	EXTENSION MutingPatternInformation	PRESENCE optional}
}

SONInformationReport ::= CHOICE{
	rLFReportInformation		RLFReportInformation,
	...
}

SONConfigurationTransfer ::= SEQUENCE {
	targeteNB-ID					TargeteNB-ID,
	sourceeNB-ID					SourceeNB-ID,
	sONInformation					SONInformation,
	iE-Extensions			ProtocolExtensionContainer { { SONConfigurationTransfer-ExtIEs} }			OPTIONAL,
...
}

SONConfigurationTransfer-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
-- Extension for Release 10 to transfer the IP addresses of the eNB initiating the ANR action --
	{ID id-x2TNLConfigurationInfo		CRITICALITY ignore	EXTENSION X2TNLConfigurationInfo				PRESENCE conditional
	-- This IE shall be present if the SON Information IE contains the SON Information Request IE and the SON Information Request IE is set to “X2TNL Configuration Info” --}|
-- Extension for Release 12 to transfer information concerning the source cell of synchronisation and the aggressor cell --
	{ID id-Synchronisation-Information	CRITICALITY ignore	EXTENSION SynchronisationInformation			PRESENCE conditional
	-- This IE shall be present if the SON Information IE contains the SON Information Request IE set to “ Activate Muting ” --},
	...
}


SynchronisationInformation ::= SEQUENCE {
	sourceStratumLevel				StratumLevel				OPTIONAL,
	listeningSubframePattern		ListeningSubframePattern	OPTIONAL,
	aggressoreCGI-List				ECGI-List					OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { {SynchronisationInformation-ExtIEs} } OPTIONAL,
	...
}

SynchronisationInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


Source-ToTarget-TransparentContainer ::= OCTET STRING
-- This IE includes a transparent container from the source RAN node to the target RAN node. 
-- The octets of the OCTET STRING are encoded according to the specifications of the target system.

SourceBSS-ToTargetBSS-TransparentContainer		::= OCTET STRING
-- This is a dummy IE used only as a reference to the actual definition in relevant specification.

SourceeNB-ID ::= SEQUENCE {
	global-ENB-ID	Global-ENB-ID,
	selected-TAI	TAI,
	iE-Extensions	ProtocolExtensionContainer { {SourceeNB-ID-ExtIEs} } OPTIONAL
}

SourceeNB-ID-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

SRVCCOperationNotPossible ::= ENUMERATED {
	notPossible,
	...
}

SRVCCOperationPossible ::= ENUMERATED {
	possible,
	...
}

SRVCCHOIndication ::= ENUMERATED {
	pSandCS,
	cSonly,
	...
}

SourceNodeID ::= CHOICE {
	sourceNgRanNode-ID		SourceNgRanNode-ID,
	sourceNodeID-Extension			SourceNodeID-Extension
}

SourceNodeID-Extension ::= ProtocolIE-SingleContainer {{ SourceNodeID-ExtensionIE }}

SourceNodeID-ExtensionIE S1AP-PROTOCOL-IES ::= {
...
}

SourceeNB-ToTargeteNB-TransparentContainer		::= SEQUENCE {
	rRC-Container				RRC-Container,
	e-RABInformationList		E-RABInformationList			OPTIONAL,
	targetCell-ID				EUTRAN-CGI,
	subscriberProfileIDforRFP	SubscriberProfileIDforRFP		OPTIONAL,
	uE-HistoryInformation		UE-HistoryInformation,
	iE-Extensions				ProtocolExtensionContainer { {SourceeNB-ToTargeteNB-TransparentContainer-ExtIEs} } OPTIONAL,
	...
}

SourceeNB-ToTargeteNB-TransparentContainer-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ID id-MobilityInformation					CRITICALITY ignore	EXTENSION MobilityInformation								PRESENCE optional}|
	{ID id-uE-HistoryInformationFromTheUE		CRITICALITY ignore	EXTENSION UE-HistoryInformationFromTheUE				PRESENCE optional}|
	{ID id-IMSvoiceEPSfallbackfrom5G			CRITICALITY ignore	EXTENSION IMSvoiceEPSfallbackfrom5G						PRESENCE optional}|
	{ID id-AdditionalRRMPriorityIndex			CRITICALITY ignore	EXTENSION AdditionalRRMPriorityIndex					PRESENCE optional}|
	{ID id-ContextatSource						CRITICALITY ignore	EXTENSION ContextatSource									PRESENCE optional}|
	{ID id-IntersystemMeasurementConfiguration	CRITICALITY ignore	EXTENSION IntersystemMeasurementConfiguration		PRESENCE optional}|
	{ID id-SourceNodeID							CRITICALITY ignore	EXTENSION SourceNodeID										PRESENCE optional}|
	{ID id-EmergencyIndicator					CRITICALITY ignore	EXTENSION EmergencyIndicator								PRESENCE optional}|
	{ID id-Direct-Forwarding-Path-Availability		CRITICALITY ignore	EXTENSION Direct-Forwarding-Path-Availability			PRESENCE optional}|
	{ID id-SourceSNID							CRITICALITY ignore	EXTENSION Global-RAN-NODE-ID								PRESENCE optional},
	...
}

SourceNgRanNode-ID ::= SEQUENCE {
	global-RAN-NODE-ID		Global-RAN-NODE-ID,
	selected-TAI		FiveGSTAI,
	iE-Extensions		ProtocolExtensionContainer { { SourceNgRanNode-ID-ExtIEs} } OPTIONAL,
	...
}

SourceNgRanNode-ID-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

SourceRNC-ToTargetRNC-TransparentContainer		::= OCTET STRING
-- This is a dummy IE used only as a reference to the actual definition in relevant specification.

SourceNgRanNode-ToTargetNgRanNode-TransparentContainer		::= OCTET STRING
-- This is a dummy IE used only as a reference to the actual definition in relevant specification.

ServedGUMMEIs ::= SEQUENCE (SIZE (1.. maxnoofRATs)) OF ServedGUMMEIsItem

ServedGUMMEIsItem ::= SEQUENCE {
	servedPLMNs				ServedPLMNs,
	servedGroupIDs			ServedGroupIDs,
	servedMMECs				ServedMMECs,
	iE-Extensions			ProtocolExtensionContainer { {ServedGUMMEIsItem-ExtIEs} }	OPTIONAL,
	...
}

ServedGUMMEIsItem-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ID id-GUMMEIType		CRITICALITY ignore	EXTENSION GUMMEIType		PRESENCE optional},
	...
}

ServedGroupIDs ::= SEQUENCE (SIZE(1.. maxnoofGroupIDs)) OF MME-Group-ID
ServedMMECs ::= SEQUENCE (SIZE(1.. maxnoofMMECs)) OF MME-Code

ServedPLMNs ::= SEQUENCE (SIZE(1.. maxnoofPLMNsPerMME)) OF PLMNidentity

SubscriberProfileIDforRFP ::= INTEGER (1..256) 

Subscription-Based-UE-DifferentiationInfo ::= SEQUENCE {
	periodicCommunicationIndicator	ENUMERATED {periodically, ondemand, ...} 	OPTIONAL,
	periodicTime						INTEGER (1..3600, ...) 						OPTIONAL,
	scheduledCommunicationTime		ScheduledCommunicationTime 					OPTIONAL,
	stationaryIndication				ENUMERATED {stationary, mobile, ...}			OPTIONAL,
	trafficProfile 					ENUMERATED {single-packet, dual-packets, multiple-packets, ...} 			OPTIONAL,
	batteryIndication				ENUMERATED {battery-powered, battery-powered-not-rechargeable-or-replaceable, not-battery-powered, ...}		OPTIONAL,
	iE-Extensions					ProtocolExtensionContainer { { Subscription-Based-UE-DifferentiationInfo-ExtIEs} } OPTIONAL,
	...
}

Subscription-Based-UE-DifferentiationInfo-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

ScheduledCommunicationTime ::= SEQUENCE {
	dayofWeek				BIT STRING (SIZE(7))									OPTIONAL,
	timeofDayStart			INTEGER (0..86399, ...) 								OPTIONAL,
	timeofDayEnd				INTEGER (0..86399, ...) 								OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { { ScheduledCommunicationTime-ExtIEs}}	OPTIONAL,
	...
}

ScheduledCommunicationTime-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

SupportedTAs ::= SEQUENCE (SIZE(1.. maxnoofTACs)) OF SupportedTAs-Item

SupportedTAs-Item ::=	SEQUENCE  {
	tAC					TAC,
	broadcastPLMNs		BPLMNs,
	iE-Extensions		ProtocolExtensionContainer { {SupportedTAs-Item-ExtIEs} } OPTIONAL,
	...
}

SupportedTAs-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	-- Extension for Release 13 to transfer RAT-Type per TAC --
	{ID id-RAT-Type		CRITICALITY reject	EXTENSION RAT-Type		PRESENCE optional},
	...
}

StratumLevel ::= INTEGER (0..3, ...)

SynchronisationStatus ::= ENUMERATED { synchronous, asynchronous, ... }

TimeSynchronisationInfo ::= SEQUENCE {
	stratumLevel					StratumLevel,
	synchronisationStatus			SynchronisationStatus,
	iE-Extensions					ProtocolExtensionContainer { { TimeSynchronisationInfo-ExtIEs} } OPTIONAL,
	...
}

TimeSynchronisationInfo-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	-- Extension for Release 12 to transfer Muting Availability Indication --
	{ID id-Muting-Availability-Indication		CRITICALITY ignore	EXTENSION MutingAvailabilityIndication	PRESENCE optional},
	...
}

S-TMSI ::= SEQUENCE {
	mMEC	MME-Code,
	m-TMSI	M-TMSI,
	iE-Extensions		ProtocolExtensionContainer { {S-TMSI-ExtIEs} } OPTIONAL,
	...
}

S-TMSI-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- T

TAC ::= OCTET STRING (SIZE (2))

TAIBasedMDT ::= SEQUENCE {
	tAIListforMDT			TAIListforMDT,
	iE-Extensions			ProtocolExtensionContainer { {TAIBasedMDT-ExtIEs} } OPTIONAL,
	...
}

TAIBasedMDT-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TAIListforMDT ::= SEQUENCE (SIZE(1..maxnoofTAforMDT)) OF TAI

TAIListforWarning ::= SEQUENCE (SIZE(1..maxnoofTAIforWarning)) OF TAI

TAI ::= SEQUENCE {
	pLMNidentity			PLMNidentity,
	tAC						TAC,
	iE-Extensions			ProtocolExtensionContainer { {TAI-ExtIEs} } OPTIONAL,
	...
}

TAI-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TAI-Broadcast ::= SEQUENCE (SIZE(1..maxnoofTAIforWarning)) OF TAI-Broadcast-Item

TAI-Broadcast-Item ::= SEQUENCE {
	tAI					TAI,
	completedCellinTAI	CompletedCellinTAI,
	iE-Extensions		ProtocolExtensionContainer { {TAI-Broadcast-Item-ExtIEs} } OPTIONAL,
	...
}

TAI-Broadcast-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TAI-Cancelled ::= SEQUENCE (SIZE(1..maxnoofTAIforWarning)) OF TAI-Cancelled-Item

TAI-Cancelled-Item ::= SEQUENCE {
	tAI					TAI,
	cancelledCellinTAI	CancelledCellinTAI,
	iE-Extensions		ProtocolExtensionContainer { {TAI-Cancelled-Item-ExtIEs} } OPTIONAL,
	...
}

TAI-Cancelled-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TABasedMDT ::= SEQUENCE {
	tAListforMDT		TAListforMDT,
	iE-Extensions		ProtocolExtensionContainer { {TABasedMDT-ExtIEs} } OPTIONAL,
	...
}

TABasedMDT-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TAListforMDT ::= SEQUENCE (SIZE(1..maxnoofTAforMDT)) OF TAC

TABasedQMC ::= SEQUENCE {
	tAListforQMC		TAListforQMC,
	iE-Extensions		ProtocolExtensionContainer { {TABasedQMC-ExtIEs} } OPTIONAL,
	...
}

TABasedQMC-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TAListforQMC ::= SEQUENCE (SIZE(1..maxnoofTAforQMC)) OF TAC

TAIBasedQMC ::= SEQUENCE {
	tAIListforQMC		TAIListforQMC,
	iE-Extensions		ProtocolExtensionContainer { {TAIBasedQMC-ExtIEs} } OPTIONAL,
	...
}

TAIBasedQMC-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TAIListforQMC ::= SEQUENCE (SIZE(1..maxnoofTAforQMC)) OF TAI

CompletedCellinTAI ::= SEQUENCE (SIZE(1..maxnoofCellinTAI)) OF CompletedCellinTAI-Item

CompletedCellinTAI-Item ::= SEQUENCE{
	eCGI				EUTRAN-CGI,
	iE-Extensions		ProtocolExtensionContainer { {CompletedCellinTAI-Item-ExtIEs} } OPTIONAL,
	...
}

CompletedCellinTAI-Item-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TBCD-STRING ::= OCTET STRING (SIZE (3))

TargetID ::= CHOICE {
	targeteNB-ID		TargeteNB-ID,
	targetRNC-ID		TargetRNC-ID,
	cGI					CGI,
	...,
	targetgNgRanNode-ID		TargetNgRanNode-ID
}

TargeteNB-ID ::= SEQUENCE {
	global-ENB-ID		Global-ENB-ID,
	selected-TAI		TAI,
	iE-Extensions		ProtocolExtensionContainer { {TargeteNB-ID-ExtIEs} } OPTIONAL,
	...
}

TargeteNB-ID-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TargetRNC-ID ::= SEQUENCE {
	lAI					LAI,
	rAC					RAC 		OPTIONAL,
	rNC-ID				RNC-ID,
	extendedRNC-ID		ExtendedRNC-ID		OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { {TargetRNC-ID-ExtIEs} } OPTIONAL,
	...
	}


TargetRNC-ID-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TargetNgRanNode-ID ::= SEQUENCE {
	global-RAN-NODE-ID		Global-RAN-NODE-ID,
	selected-TAI		FiveGSTAI,
	iE-Extensions		ProtocolExtensionContainer { { TargetNgRanNode-ID-ExtIEs} } OPTIONAL,
	...
}

TargetNgRanNode-ID-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

Global-RAN-NODE-ID::= CHOICE {
	gNB		GNB,
	ng-eNB		NG-eNB,
	...
}

GNB ::= SEQUENCE {
	global-gNB-ID		Global-GNB-ID,
	iE-Extensions		ProtocolExtensionContainer { {GNB-ExtIEs} } OPTIONAL,
	...
}

GNB-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

Global-GNB-ID ::= SEQUENCE {
	pLMN-Identity		PLMNidentity,
	gNB-ID				GNB-Identity,
	iE-Extensions		ProtocolExtensionContainer { { Global-GNB-ID-ExtIEs} } OPTIONAL,
	...
}

Global-GNB-ID-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

GNB-Identity ::= CHOICE {
	gNB-ID		GNB-ID,
	...
}

NG-eNB ::= SEQUENCE {
	global-ng-eNB-ID		Global-ENB-ID,
	iE-Extensions		ProtocolExtensionContainer { { NG-eNB-ExtIEs} } OPTIONAL,
	...
}

NG-eNB-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

GNB-ID ::= BIT STRING (SIZE(22..32))

TargeteNB-ToSourceeNB-TransparentContainer		::= SEQUENCE {
	rRC-Container		RRC-Container,
	iE-Extensions		ProtocolExtensionContainer { {TargeteNB-ToSourceeNB-TransparentContainer-ExtIEs} } OPTIONAL,
	...
}

TargeteNB-ToSourceeNB-TransparentContainer-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-DAPSResponseInfoList					CRITICALITY ignore	EXTENSION DAPSResponseInfoList							PRESENCE optional}|
	{ ID id-Direct-Forwarding-Path-Availability		CRITICALITY ignore	EXTENSION Direct-Forwarding-Path-Availability			PRESENCE optional},
	...
}

Target-ToSource-TransparentContainer ::= OCTET STRING
-- This IE includes a transparent container from the target RAN node to the source RAN node. 
-- The octets of the OCTET STRING are coded according to the specifications of the target system.

TargetRNC-ToSourceRNC-TransparentContainer		::= OCTET STRING
-- This is a dummy IE used only as a reference to the actual definition in relevant specification.

TargetBSS-ToSourceBSS-TransparentContainer		::= OCTET STRING
-- This is a dummy IE used only as a reference to the actual definition in relevant specification.

TargetNgRanNode-ToSourceNgRanNode-TransparentContainer		::= OCTET STRING
-- This is a dummy IE used only as a reference to the actual definition in relevant specification.

M1ThresholdEventA2 ::= SEQUENCE { 
	measurementThreshold	MeasurementThresholdA2,
	iE-Extensions			ProtocolExtensionContainer { { M1ThresholdEventA2-ExtIEs} } OPTIONAL,
	...
}

M1ThresholdEventA2-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

Threshold-RSRP ::= INTEGER(0..97)

Threshold-RSRQ ::= INTEGER(0..34)

TimeToWait ::= ENUMERATED {v1s, v2s, v5s, v10s, v20s, v60s, ...}

Time-UE-StayedInCell ::= INTEGER (0..4095)

Time-UE-StayedInCell-EnhancedGranularity ::= INTEGER (0..40950)

TimeSinceSecondaryNodeRelease ::= OCTET STRING (SIZE(4))

TransportInformation ::= SEQUENCE {
	transportLayerAddress				TransportLayerAddress,
	uL-GTP-TEID							GTP-TEID,
	...
}

TransportLayerAddress		::= BIT STRING (SIZE(1..160, ...))

TraceActivation ::= SEQUENCE {
	e-UTRAN-Trace-ID					E-UTRAN-Trace-ID,
	interfacesToTrace					InterfacesToTrace,
traceDepth							TraceDepth,
traceCollectionEntityIPAddress		TransportLayerAddress,
	iE-Extensions						ProtocolExtensionContainer { { TraceActivation-ExtIEs} }	OPTIONAL,
	...
}

TraceActivation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
-- Extension for Rel-10 to support MDT --
	{ ID id-MDTConfiguration	CRITICALITY ignore	EXTENSION MDT-Configuration		PRESENCE optional }|
-- Extension for Rel-15 to support QMC –
	{ ID id-UEAppLayerMeasConfig	CRITICALITY ignore	EXTENSION UEAppLayerMeasConfig		PRESENCE optional }|
	{ ID id-MDTConfigurationNR		CRITICALITY ignore	EXTENSION MDT-ConfigurationNR		PRESENCE optional }|
	{ ID id-TraceCollectionEntityURI	CRITICALITY ignore	EXTENSION URI-Address			PRESENCE optional	},
	...
}

TraceDepth ::= ENUMERATED { 
	minimum,
	medium,
	maximum,
	minimumWithoutVendorSpecificExtension,
	mediumWithoutVendorSpecificExtension,
	maximumWithoutVendorSpecificExtension,
	...
}

E-UTRAN-Trace-ID ::=  OCTET STRING (SIZE (8))

TrafficLoadReductionIndication ::= INTEGER (1..99)

TunnelInformation ::= SEQUENCE {
	transportLayerAddress	TransportLayerAddress,
	uDP-Port-Number			Port-Number			OPTIONAL,
	iE-Extensions			ProtocolExtensionContainer { {Tunnel-Information-ExtIEs} } OPTIONAL,
	...
}

Tunnel-Information-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

TypeOfError ::= ENUMERATED {
	not-understood,
	missing,
	...
}

TAIListForRestart ::= SEQUENCE (SIZE(1..maxnoofRestartTAIs)) OF TAI

-- U

UEAggregateMaximumBitrate ::= SEQUENCE {
	uEaggregateMaximumBitRateDL		BitRate,
	uEaggregateMaximumBitRateUL		BitRate,
	iE-Extensions					ProtocolExtensionContainer { {UEAggregate-MaximumBitrates-ExtIEs} } OPTIONAL,
	...
}

UEAggregate-MaximumBitrates-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
-- Extension for maximum bitrate > 10G bps --
	{ ID id-extended-uEaggregateMaximumBitRateDL 	CRITICALITY ignore	EXTENSION ExtendedBitRate	PRESENCE optional}|
	{ ID id-extended-uEaggregateMaximumBitRateUL		CRITICALITY ignore	EXTENSION ExtendedBitRate	PRESENCE optional},
	...
}

UEAppLayerMeasConfig ::= SEQUENCE {
	containerForAppLayerMeasConfig			OCTET STRING (SIZE(1..1000)),
	areaScopeOfQMC		AreaScopeOfQMC,
	iE-Extensions		ProtocolExtensionContainer { {UEAppLayerMeasConfig-ExtIEs} } OPTIONAL,
	...
}

UEAppLayerMeasConfig-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ID id-serviceType	CRITICALITY ignore	EXTENSION ServiceType	PRESENCE optional},
	...
}

UECapabilityInfoRequest ::= ENUMERATED {
	requested,
	...
}

UE-RetentionInformation ::= ENUMERATED {
	ues-retained,
	...}

UE-S1AP-IDs ::= CHOICE{
	uE-S1AP-ID-pair		UE-S1AP-ID-pair,
	mME-UE-S1AP-ID		MME-UE-S1AP-ID,
	...
}

UE-S1AP-ID-pair ::= SEQUENCE{
	mME-UE-S1AP-ID		MME-UE-S1AP-ID,
	eNB-UE-S1AP-ID		ENB-UE-S1AP-ID,
	iE-Extensions		ProtocolExtensionContainer { {UE-S1AP-ID-pair-ExtIEs} } OPTIONAL,
	...
}
UE-S1AP-ID-pair-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}


UE-associatedLogicalS1-ConnectionItem ::= SEQUENCE {
	mME-UE-S1AP-ID		MME-UE-S1AP-ID OPTIONAL,
	eNB-UE-S1AP-ID		ENB-UE-S1AP-ID OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { UE-associatedLogicalS1-ConnectionItemExtIEs} } OPTIONAL,
	...
}


UE-associatedLogicalS1-ConnectionItemExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

UEIdentityIndexValue	::=	BIT STRING (SIZE (10))

UE-HistoryInformation ::= SEQUENCE (SIZE(1..maxnoofCellsinUEHistoryInfo)) OF LastVisitedCell-Item

UE-HistoryInformationFromTheUE ::= OCTET STRING
-- This IE is a transparent container and shall be encoded as the VisitedCellInfoList field contained in the UEInformationResponse message as defined in TS 36.331 [16]

UEPagingID ::= CHOICE {
	s-TMSI		S-TMSI,
	iMSI		IMSI,
	...
	}

UERadioCapability ::= OCTET STRING

UERadioCapabilityForPaging ::= OCTET STRING

UERadioCapabilityID ::= OCTET STRING

UE-RLF-Report-Container ::= OCTET STRING
-- This IE is a transparent container and shall be encoded as the rlf-Report-r9 field contained in the UEInformationResponse message as defined in TS 36.331 [16]

UE-RLF-Report-Container-for-extended-bands ::= OCTET STRING
-- This IE is a transparent container and shall be encoded as the rlf-Report-v9e0 contained in the UEInformationResponse message as defined in TS 36.331 [16]

UESecurityCapabilities ::= SEQUENCE {
	encryptionAlgorithms			EncryptionAlgorithms,
	integrityProtectionAlgorithms	IntegrityProtectionAlgorithms,
	iE-Extensions					ProtocolExtensionContainer { { UESecurityCapabilities-ExtIEs} }	OPTIONAL,
...
}

UESecurityCapabilities-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

UESidelinkAggregateMaximumBitrate ::= SEQUENCE {
	uESidelinkAggregateMaximumBitRate		BitRate,
	iE-Extensions					ProtocolExtensionContainer { {UE-Sidelink-Aggregate-MaximumBitrates-ExtIEs} } OPTIONAL,
	...
}

UE-Sidelink-Aggregate-MaximumBitrates-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

UE-Usage-Type ::= INTEGER (0..255) 

UL-CP-SecurityInformation ::= SEQUENCE {
	ul-NAS-MAC				UL-NAS-MAC,
	ul-NAS-Count			UL-NAS-Count,
	iE-Extensions			ProtocolExtensionContainer { { UL-CP-SecurityInformation-ExtIEs} }	OPTIONAL,
	...
}

UL-CP-SecurityInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

UL-NAS-MAC ::= BIT STRING (SIZE (16))

UL-NAS-Count ::= BIT STRING (SIZE (5))

UnlicensedSpectrumRestriction ::= ENUMERATED {
	unlicensed-restricted,
	...
}


URI-Address ::= VisibleString

UserLocationInformation ::= SEQUENCE {
	eutran-cgi 				EUTRAN-CGI,
	tai						TAI,
	iE-Extensions			ProtocolExtensionContainer { { UserLocationInformation-ExtIEs} }	OPTIONAL,
	...
}

UserLocationInformation-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	{ ID id-PSCellInformation	CRITICALITY ignore	EXTENSION PSCellInformation			PRESENCE optional},
	...
}

UEUserPlaneCIoTSupportIndicator ::= ENUMERATED {
	supported,
	...
}

UE-Application-Layer-Measurement-Capability ::= BIT STRING (SIZE (8))

-- First bit: QoE Measurement for streaming service
-- Second bit: QoE Measurement for MTSI service

-- 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.

-- V

VoiceSupportMatchIndicator ::= ENUMERATED { 
	supported,
	not-supported,
	...
}

V2XServicesAuthorized ::= SEQUENCE {
	vehicleUE			VehicleUE											OPTIONAL,
	pedestrianUE 		PedestrianUE						OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { {V2XServicesAuthorized-ExtIEs} }	OPTIONAL,
	...
}

V2XServicesAuthorized-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

VehicleUE ::= ENUMERATED { 
	authorized,
	not-authorized,
	...
}

PedestrianUE ::= ENUMERATED { 
	authorized,
	not-authorized,
	...
}

-- W

WarningAreaCoordinates ::= OCTET STRING (SIZE(1..1024))

WarningAreaList ::= CHOICE {
	cellIDList						ECGIList,
	trackingAreaListforWarning		TAIListforWarning,
	emergencyAreaIDList				EmergencyAreaIDList,
	...
}


WarningType ::= OCTET STRING (SIZE (2))

WarningSecurityInfo ::= OCTET STRING (SIZE (50))


WarningMessageContents ::= OCTET STRING (SIZE(1..9600))

WLANMeasurementConfiguration ::= SEQUENCE {
	wlanMeasConfig             WLANMeasConfig,
	wlanMeasConfigNameList		WLANMeasConfigNameList            OPTIONAL,
	wlan-rssi                  ENUMERATED {true, ...}            OPTIONAL,
	wlan-rtt                   ENUMERATED {true, ...}            OPTIONAL,
	iE-Extensions		ProtocolExtensionContainer { { WLANMeasurementConfiguration-ExtIEs } } OPTIONAL,
	...
}

WLANMeasurementConfiguration-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

WLANMeasConfigNameList ::= SEQUENCE (SIZE(1..maxnoofWLANName)) OF WLANName

WLANMeasConfig::= ENUMERATED {setup,...}

WLANName ::= OCTET STRING (SIZE (1..32))   

WUS-Assistance-Information  ::= SEQUENCE {
	pagingProbabilityInformation             PagingProbabilityInformation,
	iE-Extensions		ProtocolExtensionContainer { { WUS-Assistance-Information-ExtIEs } } OPTIONAL,
	...
}

WUS-Assistance-Information-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

-- X


X2TNLConfigurationInfo ::= SEQUENCE {
	eNBX2TransportLayerAddresses	ENBX2TLAs,
	iE-Extensions					ProtocolExtensionContainer { { X2TNLConfigurationInfo-ExtIEs} } OPTIONAL,
	...
}

X2TNLConfigurationInfo-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
-- Extension for Release 10 to transfer the IPsec and U-plane addresses during ANR action --
	{ID id-eNBX2ExtendedTransportLayerAddresses		CRITICALITY ignore	EXTENSION ENBX2ExtTLAs	PRESENCE optional}|
-- Extension for Release 12 to transfer the IP addresses of the X2 GW --
	{ID id-eNBIndirectX2TransportLayerAddresses	CRITICALITY ignore	EXTENSION ENBIndirectX2TransportLayerAddresses	PRESENCE optional},
	...
}

ENBX2ExtTLAs ::= SEQUENCE (SIZE(1.. maxnoofeNBX2ExtTLAs)) OF ENBX2ExtTLA

ENBX2ExtTLA ::= SEQUENCE {
	iPsecTLA					TransportLayerAddress		OPTIONAL,
	gTPTLAa						ENBX2GTPTLAs				OPTIONAL,
	iE-Extensions				ProtocolExtensionContainer { { ENBX2ExtTLA-ExtIEs} } OPTIONAL,
	...
}

ENBX2ExtTLA-ExtIEs S1AP-PROTOCOL-EXTENSION ::= {
	...
}

ENBX2GTPTLAs ::= SEQUENCE (SIZE(1.. maxnoofeNBX2GTPTLAs)) OF TransportLayerAddress

ENBIndirectX2TransportLayerAddresses ::= SEQUENCE (SIZE(1..maxnoofeNBX2TLAs)) OF TransportLayerAddress

-- Y
-- Z

END

9.3.5	Common Definitions
-- **************************************************************
--
-- Common definitions
--
-- **************************************************************

S1AP-CommonDataTypes {
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
eps-Access (21) modules (3) s1ap (1) version1 (1) s1ap-CommonDataTypes (3) }

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

Criticality		::= ENUMERATED { reject, ignore, notify }

Presence		::= ENUMERATED { optional, conditional, mandatory }

PrivateIE-ID	::= CHOICE {
	local				INTEGER (0..65535),
	global				OBJECT IDENTIFIER
}

ProcedureCode		::= INTEGER (0..255)

ProtocolExtensionID	::= INTEGER (0..65535)

ProtocolIE-ID		::= INTEGER (0..65535)

TriggeringMessage	::= ENUMERATED { initiating-message, successful-outcome, unsuccessfull-outcome }

END

9.3.6	Constant Definitions
-- **************************************************************
--
-- Constant definitions
--
-- **************************************************************

S1AP-Constants { 
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
eps-Access (21) modules (3) s1ap (1) version1 (1) s1ap-Constants (4) } 

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

-- **************************************************************
--
-- IE parameter types from other modules.
--
-- **************************************************************

IMPORTS
	ProcedureCode,
	ProtocolIE-ID

FROM S1AP-CommonDataTypes;


-- **************************************************************
--
-- Elementary Procedures
--
-- **************************************************************

id-HandoverPreparation						ProcedureCode ::= 0
id-HandoverResourceAllocation				ProcedureCode ::= 1
id-HandoverNotification						ProcedureCode ::= 2
id-PathSwitchRequest						ProcedureCode ::= 3
id-HandoverCancel							ProcedureCode ::= 4
id-E-RABSetup								ProcedureCode ::= 5
id-E-RABModify								ProcedureCode ::= 6
id-E-RABRelease								ProcedureCode ::= 7
id-E-RABReleaseIndication					ProcedureCode ::= 8
id-InitialContextSetup						ProcedureCode ::= 9
id-Paging									ProcedureCode ::= 10
id-downlinkNASTransport						ProcedureCode ::= 11
id-initialUEMessage							ProcedureCode ::= 12
id-uplinkNASTransport						ProcedureCode ::= 13
id-Reset									ProcedureCode ::= 14
id-ErrorIndication							ProcedureCode ::= 15
id-NASNonDeliveryIndication					ProcedureCode ::= 16
id-S1Setup									ProcedureCode ::= 17
id-UEContextReleaseRequest					ProcedureCode ::= 18
id-DownlinkS1cdma2000tunnelling				ProcedureCode ::= 19
id-UplinkS1cdma2000tunnelling				ProcedureCode ::= 20
id-UEContextModification					ProcedureCode ::= 21
id-UECapabilityInfoIndication				ProcedureCode ::= 22
id-UEContextRelease							ProcedureCode ::= 23
id-eNBStatusTransfer						ProcedureCode ::= 24
id-MMEStatusTransfer						ProcedureCode ::= 25
id-DeactivateTrace							ProcedureCode ::= 26
id-TraceStart								ProcedureCode ::= 27
id-TraceFailureIndication					ProcedureCode ::= 28
id-ENBConfigurationUpdate					ProcedureCode ::= 29
id-MMEConfigurationUpdate					ProcedureCode ::= 30
id-LocationReportingControl					ProcedureCode ::= 31
id-LocationReportingFailureIndication		ProcedureCode ::= 32
id-LocationReport							ProcedureCode ::= 33
id-OverloadStart							ProcedureCode ::= 34
id-OverloadStop								ProcedureCode ::= 35
id-WriteReplaceWarning						ProcedureCode ::= 36
id-eNBDirectInformationTransfer				ProcedureCode ::= 37
id-MMEDirectInformationTransfer				ProcedureCode ::= 38
id-PrivateMessage							ProcedureCode ::= 39
id-eNBConfigurationTransfer					ProcedureCode ::= 40
id-MMEConfigurationTransfer					ProcedureCode ::= 41
id-CellTrafficTrace							ProcedureCode ::= 42
id-Kill										ProcedureCode ::= 43
id-downlinkUEAssociatedLPPaTransport		ProcedureCode ::= 44
id-uplinkUEAssociatedLPPaTransport			ProcedureCode ::= 45
id-downlinkNonUEAssociatedLPPaTransport		ProcedureCode ::= 46
id-uplinkNonUEAssociatedLPPaTransport		ProcedureCode ::= 47
id-UERadioCapabilityMatch					ProcedureCode ::= 48
id-PWSRestartIndication						ProcedureCode ::= 49
id-E-RABModificationIndication				ProcedureCode ::= 50
id-PWSFailureIndication						ProcedureCode ::= 51
id-RerouteNASRequest						ProcedureCode ::= 52
id-UEContextModificationIndication			ProcedureCode ::= 53
id-ConnectionEstablishmentIndication		ProcedureCode ::= 54
id-UEContextSuspend							ProcedureCode ::= 55
id-UEContextResume							ProcedureCode ::= 56
id-NASDeliveryIndication					ProcedureCode ::= 57
id-RetrieveUEInformation					ProcedureCode ::= 58
id-UEInformationTransfer					ProcedureCode ::= 59
id-eNBCPRelocationIndication				ProcedureCode ::= 60
id-MMECPRelocationIndication				ProcedureCode ::= 61
id-SecondaryRATDataUsageReport				ProcedureCode ::= 62
id-UERadioCapabilityIDMapping				ProcedureCode ::= 63
id-HandoverSuccess							ProcedureCode ::= 64
id-eNBEarlyStatusTransfer					ProcedureCode ::= 65
id-MMEEarlyStatusTransfer					ProcedureCode ::= 66

-- **************************************************************
--
-- Extension constants
--
-- **************************************************************

maxPrivateIEs							INTEGER ::= 65535
maxProtocolExtensions					INTEGER ::= 65535
maxProtocolIEs							INTEGER ::= 65535
-- **************************************************************
--
-- Lists
--
-- **************************************************************

maxnoofCSGs								INTEGER ::= 256
maxnoofE-RABs							INTEGER ::= 256
maxnoofTAIs								INTEGER ::= 256
maxnoofTACs								INTEGER ::= 256
maxnoofErrors							INTEGER ::= 256
maxnoofBPLMNs							INTEGER ::= 6
maxnoofPLMNsPerMME						INTEGER ::= 32
maxnoofEPLMNs							INTEGER ::= 15
maxnoofEPLMNsPlusOne					INTEGER ::= 16
maxnoofForbLACs							INTEGER ::= 4096
maxnoofForbTACs							INTEGER ::= 4096
maxnoofIndividualS1ConnectionsToReset	INTEGER ::= 256
maxnoofCellsinUEHistoryInfo				INTEGER ::= 16
maxnoofCellsineNB						INTEGER ::= 256
maxnoofTAIforWarning					INTEGER ::= 65535 
maxnoofCellID							INTEGER ::= 65535 
maxnoofDCNs								INTEGER ::= 32 
maxnoofEmergencyAreaID					INTEGER ::= 65535 
maxnoofCellinTAI						INTEGER ::= 65535 
maxnoofCellinEAI						INTEGER ::= 65535 
maxnoofeNBX2TLAs						INTEGER ::= 2
maxnoofeNBX2ExtTLAs						INTEGER ::= 16
maxnoofeNBX2GTPTLAs						INTEGER ::= 16
maxnoofRATs								INTEGER ::= 8
maxnoofGroupIDs							INTEGER ::= 65535
maxnoofMMECs							INTEGER ::= 256
maxnoofCellIDforMDT						INTEGER ::= 32
maxnoofTAforMDT							INTEGER ::= 8
maxnoofMDTPLMNs							INTEGER ::= 16
maxnoofCellsforRestart					INTEGER ::= 256
maxnoofRestartTAIs						INTEGER ::= 2048
maxnoofRestartEmergencyAreaIDs			INTEGER ::= 256
maxEARFCN								INTEGER ::= 262143
maxnoofMBSFNAreaMDT						INTEGER ::= 8
maxnoofRecommendedCells					INTEGER ::= 16
maxnoofRecommendedENBs					INTEGER ::= 16
maxnooftimeperiods						INTEGER ::= 2 
maxnoofCellIDforQMC						INTEGER ::= 32
maxnoofTAforQMC							INTEGER ::= 8
maxnoofPLMNforQMC						INTEGER ::= 16
maxnoofBluetoothName					INTEGER ::= 4
maxnoofWLANName							INTEGER ::= 4
maxnoofConnectedengNBs					INTEGER ::= 256
maxnoofPC5QoSFlows 						INTEGER ::= 2048
maxnooffrequencies						INTEGER ::= 64
maxNARFCN								INTEGER ::= 3279165
maxRS-IndexCellQual						INTEGER ::= 16


-- **************************************************************
--
-- IEs
--
-- **************************************************************

id-MME-UE-S1AP-ID									ProtocolIE-ID ::= 0
id-HandoverType										ProtocolIE-ID ::= 1
id-Cause											ProtocolIE-ID ::= 2
id-SourceID											ProtocolIE-ID ::= 3
id-TargetID											ProtocolIE-ID ::= 4
id-eNB-UE-S1AP-ID									ProtocolIE-ID ::= 8
id-E-RABSubjecttoDataForwardingList					ProtocolIE-ID ::= 12
id-E-RABtoReleaseListHOCmd							ProtocolIE-ID ::= 13
id-E-RABDataForwardingItem							ProtocolIE-ID ::= 14
id-E-RABReleaseItemBearerRelComp					ProtocolIE-ID ::= 15
id-E-RABToBeSetupListBearerSUReq					ProtocolIE-ID ::= 16
id-E-RABToBeSetupItemBearerSUReq					ProtocolIE-ID ::= 17
id-E-RABAdmittedList								ProtocolIE-ID ::= 18
id-E-RABFailedToSetupListHOReqAck					ProtocolIE-ID ::= 19
id-E-RABAdmittedItem								ProtocolIE-ID ::= 20
id-E-RABFailedtoSetupItemHOReqAck					ProtocolIE-ID ::= 21
id-E-RABToBeSwitchedDLList							ProtocolIE-ID ::= 22
id-E-RABToBeSwitchedDLItem							ProtocolIE-ID ::= 23
id-E-RABToBeSetupListCtxtSUReq						ProtocolIE-ID ::= 24
id-TraceActivation									ProtocolIE-ID ::= 25
id-NAS-PDU											ProtocolIE-ID ::= 26
id-E-RABToBeSetupItemHOReq							ProtocolIE-ID ::= 27
id-E-RABSetupListBearerSURes						ProtocolIE-ID ::= 28
id-E-RABFailedToSetupListBearerSURes				ProtocolIE-ID ::= 29
id-E-RABToBeModifiedListBearerModReq				ProtocolIE-ID ::= 30
id-E-RABModifyListBearerModRes						ProtocolIE-ID ::= 31
id-E-RABFailedToModifyList							ProtocolIE-ID ::= 32
id-E-RABToBeReleasedList							ProtocolIE-ID ::= 33
id-E-RABFailedToReleaseList							ProtocolIE-ID ::= 34
id-E-RABItem										ProtocolIE-ID ::= 35
id-E-RABToBeModifiedItemBearerModReq				ProtocolIE-ID ::= 36
id-E-RABModifyItemBearerModRes						ProtocolIE-ID ::= 37
id-E-RABReleaseItem									ProtocolIE-ID ::= 38
id-E-RABSetupItemBearerSURes						ProtocolIE-ID ::= 39
id-SecurityContext									ProtocolIE-ID ::= 40
id-HandoverRestrictionList							ProtocolIE-ID ::= 41
id-UEPagingID										ProtocolIE-ID ::= 43
id-pagingDRX										ProtocolIE-ID ::= 44
id-TAIList											ProtocolIE-ID ::= 46
id-TAIItem											ProtocolIE-ID ::= 47
id-E-RABFailedToSetupListCtxtSURes					ProtocolIE-ID ::= 48
id-E-RABReleaseItemHOCmd							ProtocolIE-ID ::= 49
id-E-RABSetupItemCtxtSURes							ProtocolIE-ID ::= 50
id-E-RABSetupListCtxtSURes							ProtocolIE-ID ::= 51
id-E-RABToBeSetupItemCtxtSUReq						ProtocolIE-ID ::= 52
id-E-RABToBeSetupListHOReq							ProtocolIE-ID ::= 53
id-GERANtoLTEHOInformationRes						ProtocolIE-ID ::= 55
id-UTRANtoLTEHOInformationRes						ProtocolIE-ID ::= 57
id-CriticalityDiagnostics 							ProtocolIE-ID ::= 58
id-Global-ENB-ID									ProtocolIE-ID ::= 59
id-eNBname											ProtocolIE-ID ::= 60
id-MMEname											ProtocolIE-ID ::= 61
id-ServedPLMNs										ProtocolIE-ID ::= 63
id-SupportedTAs										ProtocolIE-ID ::= 64
id-TimeToWait										ProtocolIE-ID ::= 65
id-uEaggregateMaximumBitrate						ProtocolIE-ID ::= 66
id-TAI												ProtocolIE-ID ::= 67
id-E-RABReleaseListBearerRelComp					ProtocolIE-ID ::= 69
id-cdma2000PDU										ProtocolIE-ID ::= 70
id-cdma2000RATType									ProtocolIE-ID ::= 71
id-cdma2000SectorID									ProtocolIE-ID ::= 72
id-SecurityKey										ProtocolIE-ID ::= 73
id-UERadioCapability								ProtocolIE-ID ::= 74
id-GUMMEI-ID										ProtocolIE-ID ::= 75
id-E-RABInformationListItem							ProtocolIE-ID ::= 78
id-Direct-Forwarding-Path-Availability				ProtocolIE-ID ::= 79
id-UEIdentityIndexValue								ProtocolIE-ID ::= 80
id-cdma2000HOStatus									ProtocolIE-ID ::= 83
id-cdma2000HORequiredIndication						ProtocolIE-ID ::= 84
id-E-UTRAN-Trace-ID									ProtocolIE-ID ::= 86
id-RelativeMMECapacity								ProtocolIE-ID ::= 87
id-SourceMME-UE-S1AP-ID								ProtocolIE-ID ::= 88
id-Bearers-SubjectToStatusTransfer-Item				ProtocolIE-ID ::= 89
id-eNB-StatusTransfer-TransparentContainer			ProtocolIE-ID ::= 90
id-UE-associatedLogicalS1-ConnectionItem			ProtocolIE-ID ::= 91
id-ResetType										ProtocolIE-ID ::= 92
id-UE-associatedLogicalS1-ConnectionListResAck		ProtocolIE-ID ::= 93
id-E-RABToBeSwitchedULItem							ProtocolIE-ID ::= 94
id-E-RABToBeSwitchedULList							ProtocolIE-ID ::= 95
id-S-TMSI											ProtocolIE-ID ::= 96
id-cdma2000OneXRAND									ProtocolIE-ID ::= 97
id-RequestType										ProtocolIE-ID ::= 98
id-UE-S1AP-IDs										ProtocolIE-ID ::= 99
id-EUTRAN-CGI										ProtocolIE-ID ::= 100
id-OverloadResponse									ProtocolIE-ID ::= 101
id-cdma2000OneXSRVCCInfo							ProtocolIE-ID ::= 102
id-E-RABFailedToBeReleasedList						ProtocolIE-ID ::= 103
id-Source-ToTarget-TransparentContainer				ProtocolIE-ID ::= 104
id-ServedGUMMEIs									ProtocolIE-ID ::= 105
id-SubscriberProfileIDforRFP						ProtocolIE-ID ::= 106
id-UESecurityCapabilities							ProtocolIE-ID ::= 107
id-CSFallbackIndicator								ProtocolIE-ID ::= 108
id-CNDomain											ProtocolIE-ID ::= 109
id-E-RABReleasedList								ProtocolIE-ID ::= 110
id-MessageIdentifier								ProtocolIE-ID ::= 111
id-SerialNumber										ProtocolIE-ID ::= 112
id-WarningAreaList									ProtocolIE-ID ::= 113
id-RepetitionPeriod									ProtocolIE-ID ::= 114
id-NumberofBroadcastRequest							ProtocolIE-ID ::= 115
id-WarningType										ProtocolIE-ID ::= 116
id-WarningSecurityInfo								ProtocolIE-ID ::= 117
id-DataCodingScheme									ProtocolIE-ID ::= 118
id-WarningMessageContents							ProtocolIE-ID ::= 119
id-BroadcastCompletedAreaList						ProtocolIE-ID ::= 120
id-Inter-SystemInformationTransferTypeEDT			ProtocolIE-ID ::= 121
id-Inter-SystemInformationTransferTypeMDT			ProtocolIE-ID ::= 122
id-Target-ToSource-TransparentContainer				ProtocolIE-ID ::= 123
id-SRVCCOperationPossible							ProtocolIE-ID ::= 124
id-SRVCCHOIndication								ProtocolIE-ID ::= 125
id-NAS-DownlinkCount								ProtocolIE-ID ::= 126
id-CSG-Id											ProtocolIE-ID ::= 127
id-CSG-IdList										ProtocolIE-ID ::= 128
id-SONConfigurationTransferECT						ProtocolIE-ID ::= 129
id-SONConfigurationTransferMCT						ProtocolIE-ID ::= 130
id-TraceCollectionEntityIPAddress					ProtocolIE-ID ::= 131
id-MSClassmark2										ProtocolIE-ID ::= 132
id-MSClassmark3										ProtocolIE-ID ::= 133
id-RRC-Establishment-Cause							ProtocolIE-ID ::= 134
id-NASSecurityParametersfromE-UTRAN					ProtocolIE-ID ::= 135
id-NASSecurityParameterstoE-UTRAN					ProtocolIE-ID ::= 136
id-DefaultPagingDRX									ProtocolIE-ID ::= 137
id-Source-ToTarget-TransparentContainer-Secondary	ProtocolIE-ID ::= 138
id-Target-ToSource-TransparentContainer-Secondary	ProtocolIE-ID ::= 139
id-EUTRANRoundTripDelayEstimationInfo				ProtocolIE-ID ::= 140
id-BroadcastCancelledAreaList						ProtocolIE-ID ::= 141
id-ConcurrentWarningMessageIndicator				ProtocolIE-ID ::= 142
id-Data-Forwarding-Not-Possible						ProtocolIE-ID ::= 143
id-ExtendedRepetitionPeriod							ProtocolIE-ID ::= 144
id-CellAccessMode									ProtocolIE-ID ::= 145
id-CSGMembershipStatus 								ProtocolIE-ID ::= 146
id-LPPa-PDU											ProtocolIE-ID ::= 147
id-Routing-ID										ProtocolIE-ID ::= 148
id-Time-Synchronisation-Info							ProtocolIE-ID ::= 149
id-PS-ServiceNotAvailable							ProtocolIE-ID ::= 150
id-PagingPriority									ProtocolIE-ID ::= 151
id-x2TNLConfigurationInfo							ProtocolIE-ID ::= 152
id-eNBX2ExtendedTransportLayerAddresses				ProtocolIE-ID ::= 153
id-GUMMEIList										ProtocolIE-ID ::= 154
id-GW-TransportLayerAddress							ProtocolIE-ID ::= 155
id-Correlation-ID									ProtocolIE-ID ::= 156
id-SourceMME-GUMMEI									ProtocolIE-ID ::= 157
id-MME-UE-S1AP-ID-2									ProtocolIE-ID ::= 158
id-RegisteredLAI									ProtocolIE-ID ::= 159
id-RelayNode-Indicator								ProtocolIE-ID ::= 160
id-TrafficLoadReductionIndication					ProtocolIE-ID ::= 161
id-MDTConfiguration									ProtocolIE-ID ::= 162
id-MMERelaySupportIndicator							ProtocolIE-ID ::= 163
id-GWContextReleaseIndication						ProtocolIE-ID ::= 164
id-ManagementBasedMDTAllowed						ProtocolIE-ID ::= 165
id-PrivacyIndicator									ProtocolIE-ID ::= 166
id-Time-UE-StayedInCell-EnhancedGranularity			ProtocolIE-ID ::= 167
id-HO-Cause											ProtocolIE-ID ::= 168
id-VoiceSupportMatchIndicator						ProtocolIE-ID ::= 169
id-GUMMEIType										ProtocolIE-ID ::= 170
id-M3Configuration									ProtocolIE-ID ::= 171
id-M4Configuration									ProtocolIE-ID ::= 172
id-M5Configuration									ProtocolIE-ID ::= 173
id-MDT-Location-Info								ProtocolIE-ID ::= 174
id-MobilityInformation								ProtocolIE-ID ::= 175
id-Tunnel-Information-for-BBF						ProtocolIE-ID ::= 176
id-ManagementBasedMDTPLMNList						ProtocolIE-ID ::= 177
id-SignallingBasedMDTPLMNList						ProtocolIE-ID ::= 178
id-ULCOUNTValueExtended								ProtocolIE-ID ::= 179
id-DLCOUNTValueExtended								ProtocolIE-ID ::= 180
id-ReceiveStatusOfULPDCPSDUsExtended				ProtocolIE-ID ::= 181
id-ECGIListForRestart								ProtocolIE-ID ::= 182
id-SIPTO-Correlation-ID								ProtocolIE-ID ::= 183
id-SIPTO-L-GW-TransportLayerAddress					ProtocolIE-ID ::= 184
id-TransportInformation								ProtocolIE-ID ::= 185
id-LHN-ID											ProtocolIE-ID ::= 186
id-AdditionalCSFallbackIndicator					ProtocolIE-ID ::= 187
id-TAIListForRestart								ProtocolIE-ID ::= 188
id-UserLocationInformation							ProtocolIE-ID ::= 189
id-EmergencyAreaIDListForRestart					ProtocolIE-ID ::= 190
id-KillAllWarningMessages							ProtocolIE-ID ::= 191
id-Masked-IMEISV									ProtocolIE-ID ::= 192
id-eNBIndirectX2TransportLayerAddresses				ProtocolIE-ID ::= 193
id-uE-HistoryInformationFromTheUE					ProtocolIE-ID ::= 194
id-ProSeAuthorized									ProtocolIE-ID ::= 195
id-ExpectedUEBehaviour								ProtocolIE-ID ::= 196
id-LoggedMBSFNMDT									ProtocolIE-ID ::= 197
id-UERadioCapabilityForPaging						ProtocolIE-ID ::= 198
id-E-RABToBeModifiedListBearerModInd				ProtocolIE-ID ::= 199
id-E-RABToBeModifiedItemBearerModInd				ProtocolIE-ID ::= 200
id-E-RABNotToBeModifiedListBearerModInd				ProtocolIE-ID ::= 201
id-E-RABNotToBeModifiedItemBearerModInd				ProtocolIE-ID ::= 202
id-E-RABModifyListBearerModConf						ProtocolIE-ID ::= 203
id-E-RABModifyItemBearerModConf						ProtocolIE-ID ::= 204
id-E-RABFailedToModifyListBearerModConf				ProtocolIE-ID ::= 205
id-SON-Information-Report							ProtocolIE-ID ::= 206
id-Muting-Availability-Indication					ProtocolIE-ID ::= 207
id-Muting-Pattern-Information						ProtocolIE-ID ::= 208
id-Synchronisation-Information						ProtocolIE-ID ::= 209
id-E-RABToBeReleasedListBearerModConf				ProtocolIE-ID ::= 210
id-AssistanceDataForPaging							ProtocolIE-ID ::= 211
id-CellIdentifierAndCELevelForCECapableUEs			ProtocolIE-ID ::= 212
id-InformationOnRecommendedCellsAndENBsForPaging	ProtocolIE-ID ::= 213
id-RecommendedCellItem								ProtocolIE-ID ::= 214
id-RecommendedENBItem								ProtocolIE-ID ::= 215
id-ProSeUEtoNetworkRelaying							ProtocolIE-ID ::= 216
id-ULCOUNTValuePDCP-SNlength18						ProtocolIE-ID ::= 217
id-DLCOUNTValuePDCP-SNlength18						ProtocolIE-ID ::= 218
id-ReceiveStatusOfULPDCPSDUsPDCP-SNlength18			ProtocolIE-ID ::= 219
id-M6Configuration									ProtocolIE-ID ::= 220
id-M7Configuration									ProtocolIE-ID ::= 221
id-PWSfailedECGIList								ProtocolIE-ID ::= 222
id-MME-Group-ID										ProtocolIE-ID ::= 223
id-Additional-GUTI									ProtocolIE-ID ::= 224
id-S1-Message										ProtocolIE-ID ::= 225
id-CSGMembershipInfo								ProtocolIE-ID ::= 226
id-Paging-eDRXInformation							ProtocolIE-ID ::= 227
id-UE-RetentionInformation							ProtocolIE-ID ::= 228
id-UE-Usage-Type									ProtocolIE-ID ::= 230
id-extended-UEIdentityIndexValue					ProtocolIE-ID ::= 231
id-RAT-Type											ProtocolIE-ID ::= 232
id-BearerType										ProtocolIE-ID ::= 233
id-NB-IoT-DefaultPagingDRX							ProtocolIE-ID ::= 234
id-E-RABFailedToResumeListResumeReq					ProtocolIE-ID ::= 235
id-E-RABFailedToResumeItemResumeReq					ProtocolIE-ID ::= 236
id-E-RABFailedToResumeListResumeRes					ProtocolIE-ID ::= 237
id-E-RABFailedToResumeItemResumeRes					ProtocolIE-ID ::= 238
id-NB-IoT-Paging-eDRXInformation					ProtocolIE-ID ::= 239
id-V2XServicesAuthorized							ProtocolIE-ID ::= 240
id-UEUserPlaneCIoTSupportIndicator 					ProtocolIE-ID ::= 241
id-CE-mode-B-SupportIndicator 						ProtocolIE-ID ::= 242
id-SRVCCOperationNotPossible						ProtocolIE-ID ::= 243
id-NB-IoT-UEIdentityIndexValue 						ProtocolIE-ID ::= 244
id-RRC-Resume-Cause									ProtocolIE-ID ::= 245
id-DCN-ID											ProtocolIE-ID ::= 246
id-ServedDCNs					 					ProtocolIE-ID ::= 247
id-UESidelinkAggregateMaximumBitrate 				ProtocolIE-ID ::= 248
id-DLNASPDUDeliveryAckRequest						ProtocolIE-ID ::= 249
id-Coverage-Level 									ProtocolIE-ID ::= 250
id-EnhancedCoverageRestricted						ProtocolIE-ID ::= 251
id-UE-Level-QoS-Parameters							ProtocolIE-ID ::= 252
id-DL-CP-SecurityInformation						ProtocolIE-ID ::= 253
id-UL-CP-SecurityInformation						ProtocolIE-ID ::= 254
id-extended-e-RAB-MaximumBitrateDL					ProtocolIE-ID ::= 255
id-extended-e-RAB-MaximumBitrateUL					ProtocolIE-ID ::= 256
id-extended-e-RAB-GuaranteedBitrateDL				ProtocolIE-ID ::= 257
id-extended-e-RAB-GuaranteedBitrateUL				ProtocolIE-ID ::= 258
id-extended-uEaggregateMaximumBitRateDL				ProtocolIE-ID ::= 259
id-extended-uEaggregateMaximumBitRateUL				ProtocolIE-ID ::= 260
id-NRrestrictioninEPSasSecondaryRAT					ProtocolIE-ID ::= 261
id-UEAppLayerMeasConfig								ProtocolIE-ID ::= 262
id-UE-Application-Layer-Measurement-Capability		ProtocolIE-ID ::= 263
id-SecondaryRATDataUsageReportList					ProtocolIE-ID ::= 264
id-SecondaryRATDataUsageReportItem					ProtocolIE-ID ::= 265
id-HandoverFlag										ProtocolIE-ID ::= 266
id-E-RABUsageReportItem								ProtocolIE-ID ::= 267
id-SecondaryRATDataUsageRequest						ProtocolIE-ID ::= 268
id-NRUESecurityCapabilities							ProtocolIE-ID ::= 269
id-UnlicensedSpectrumRestriction					ProtocolIE-ID ::= 270
id-CE-ModeBRestricted								ProtocolIE-ID ::= 271
id-LTE-M-Indication									ProtocolIE-ID ::= 272
id-DownlinkPacketLossRate							ProtocolIE-ID ::= 273
id-UplinkPacketLossRate								ProtocolIE-ID ::= 274
id-UECapabilityInfoRequest							ProtocolIE-ID ::= 275
id-serviceType										ProtocolIE-ID ::= 276
id-AerialUEsubscriptionInformation					ProtocolIE-ID ::= 277
id-Subscription-Based-UE-DifferentiationInfo		ProtocolIE-ID ::= 278
id-EndIndication									ProtocolIE-ID ::= 280
id-EDT-Session										ProtocolIE-ID ::= 281
id-CNTypeRestrictions								ProtocolIE-ID ::= 282
id-PendingDataIndication							ProtocolIE-ID ::= 283
id-BluetoothMeasurementConfiguration				ProtocolIE-ID ::= 284
id-WLANMeasurementConfiguration						ProtocolIE-ID ::= 285
id-WarningAreaCoordinates							ProtocolIE-ID ::= 286
id-NRrestrictionin5GS								ProtocolIE-ID ::= 287
id-PSCellInformation								ProtocolIE-ID ::= 288
id-LastNG-RANPLMNIdentity							ProtocolIE-ID ::= 290
id-ConnectedengNBList								ProtocolIE-ID ::= 291
id-ConnectedengNBToAddList							ProtocolIE-ID ::= 292
id-ConnectedengNBToRemoveList						ProtocolIE-ID ::= 293
id-EN-DCSONConfigurationTransfer-ECT				ProtocolIE-ID ::= 294
id-EN-DCSONConfigurationTransfer-MCT				ProtocolIE-ID ::= 295
id-IMSvoiceEPSfallbackfrom5G						ProtocolIE-ID ::= 296
id-TimeSinceSecondaryNodeRelease					ProtocolIE-ID ::= 297
id-RequestTypeAdditionalInfo						ProtocolIE-ID ::= 298
id-AdditionalRRMPriorityIndex						ProtocolIE-ID ::= 299
id-ContextatSource									ProtocolIE-ID ::= 300
id-IAB-Authorized									ProtocolIE-ID ::= 301
id-IAB-Node-Indication								ProtocolIE-ID ::= 302
id-IAB-Supported									ProtocolIE-ID ::= 303
id-DataSize											ProtocolIE-ID ::= 304
id-Ethernet-Type									ProtocolIE-ID ::= 305
id-NRV2XServicesAuthorized							ProtocolIE-ID ::= 306
id-NRUESidelinkAggregateMaximumBitrate				ProtocolIE-ID ::= 307
id-PC5QoSParameters									ProtocolIE-ID ::= 308
id-IntersystemSONConfigurationTransferMCT			ProtocolIE-ID ::= 309
id-IntersystemSONConfigurationTransferECT			ProtocolIE-ID ::= 310
id-IntersystemMeasurementConfiguration				ProtocolIE-ID ::= 311
id-SourceNodeID										ProtocolIE-ID ::= 312
id-NB-IoT-RLF-Report-Container						ProtocolIE-ID ::= 313
id-UERadioCapabilityID								ProtocolIE-ID ::= 314
id-UERadioCapability-NR-Format						ProtocolIE-ID ::= 315
id-MDTConfigurationNR								ProtocolIE-ID ::= 316
id-DAPSRequestInfo									ProtocolIE-ID ::= 317
id-DAPSResponseInfoList								ProtocolIE-ID ::= 318
id-DAPSResponseInfoItem								ProtocolIE-ID ::= 319
id-NotifySourceeNB									ProtocolIE-ID ::= 320
id-eNB-EarlyStatusTransfer-TransparentContainer		ProtocolIE-ID ::= 321
id-Bearers-SubjectToEarlyStatusTransfer-Item		ProtocolIE-ID ::= 322
id-WUS-Assistance-Information						ProtocolIE-ID ::= 323
id-NB-IoT-PagingDRX									ProtocolIE-ID ::= 324
id-TraceCollectionEntityURI							ProtocolIE-ID ::= 325
id-EmergencyIndicator								ProtocolIE-ID ::= 326
id-UERadioCapabilityForPaging-NR-Format 			ProtocolIE-ID ::= 327
id-SourceTransportLayerAddress						ProtocolIE-ID ::= 328
id-SourceNodeTransportLayerAddress					ProtocolIE-ID ::= 340
id-SourceSNID										ProtocolIE-ID ::= 343

END

9.3.7	Container Definitions
-- **************************************************************
--
-- Container definitions
--
-- **************************************************************

S1AP-Containers {
itu-t (0) identified-organization (4) etsi (0) mobileDomain (0) 
eps-Access (21) modules (3) s1ap (1) version1 (1) s1ap-Containers (5) }

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

-- **************************************************************
--
-- IE parameter types from other modules.
--
-- **************************************************************

IMPORTS
	Criticality,
	Presence,
	PrivateIE-ID,
	ProtocolExtensionID,
	ProtocolIE-ID
FROM S1AP-CommonDataTypes

	maxPrivateIEs,
	maxProtocolExtensions,
	maxProtocolIEs
FROM S1AP-Constants;

-- **************************************************************
--
-- Class Definition for Protocol IEs
--
-- **************************************************************

S1AP-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 IEs
--
-- **************************************************************

S1AP-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
--
-- **************************************************************

S1AP-PROTOCOL-EXTENSION ::= CLASS {
	&id				ProtocolExtensionID			UNIQUE,
	&criticality	Criticality,
	&Extension,
	&presence		Presence
}
WITH SYNTAX {
	ID				&id
	CRITICALITY		&criticality
	EXTENSION		&Extension
	PRESENCE		&presence
}

-- **************************************************************
--
-- Class Definition for Private IEs
--
-- **************************************************************

S1AP-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 {S1AP-PROTOCOL-IES : IEsSetParam} ::= 
	SEQUENCE (SIZE (0..maxProtocolIEs)) OF
	ProtocolIE-Field {{IEsSetParam}}

ProtocolIE-SingleContainer {S1AP-PROTOCOL-IES : IEsSetParam} ::= 
	ProtocolIE-Field {{IEsSetParam}}

ProtocolIE-Field {S1AP-PROTOCOL-IES : IEsSetParam} ::= SEQUENCE {
	id				S1AP-PROTOCOL-IES.&id				({IEsSetParam}),
	criticality		S1AP-PROTOCOL-IES.&criticality		({IEsSetParam}{@id}),
	value			S1AP-PROTOCOL-IES.&Value			({IEsSetParam}{@id})
}

-- **************************************************************
--
-- Container for Protocol IE Pairs
--
-- **************************************************************

ProtocolIE-ContainerPair {S1AP-PROTOCOL-IES-PAIR : IEsSetParam} ::= 
	SEQUENCE (SIZE (0..maxProtocolIEs)) OF
	ProtocolIE-FieldPair {{IEsSetParam}}

ProtocolIE-FieldPair {S1AP-PROTOCOL-IES-PAIR : IEsSetParam} ::= SEQUENCE {
	id					S1AP-PROTOCOL-IES-PAIR.&id					({IEsSetParam}),
	firstCriticality	S1AP-PROTOCOL-IES-PAIR.&firstCriticality	({IEsSetParam}{@id}),
	firstValue			S1AP-PROTOCOL-IES-PAIR.&FirstValue			({IEsSetParam}{@id}),
	secondCriticality	S1AP-PROTOCOL-IES-PAIR.&secondCriticality	({IEsSetParam}{@id}),
	secondValue			S1AP-PROTOCOL-IES-PAIR.&SecondValue		({IEsSetParam}{@id})
}

-- **************************************************************
--
-- Container Lists for Protocol IE Containers
--
-- **************************************************************

ProtocolIE-ContainerList {INTEGER : lowerBound, INTEGER : upperBound, S1AP-PROTOCOL-IES : IEsSetParam} ::=
	SEQUENCE (SIZE (lowerBound..upperBound)) OF
	ProtocolIE-SingleContainer {{IEsSetParam}}

ProtocolIE-ContainerPairList {INTEGER : lowerBound, INTEGER : upperBound, S1AP-PROTOCOL-IES-PAIR : IEsSetParam} ::=
	SEQUENCE (SIZE (lowerBound..upperBound)) OF
	ProtocolIE-ContainerPair {{IEsSetParam}}

-- **************************************************************
--
-- Container for Protocol Extensions
--
-- **************************************************************

ProtocolExtensionContainer {S1AP-PROTOCOL-EXTENSION : ExtensionSetParam} ::= 
	SEQUENCE (SIZE (1..maxProtocolExtensions)) OF
	ProtocolExtensionField {{ExtensionSetParam}}

ProtocolExtensionField {S1AP-PROTOCOL-EXTENSION : ExtensionSetParam} ::= SEQUENCE {
	id					S1AP-PROTOCOL-EXTENSION.&id				({ExtensionSetParam}),
	criticality			S1AP-PROTOCOL-EXTENSION.&criticality	({ExtensionSetParam}{@id}),
	extensionValue		S1AP-PROTOCOL-EXTENSION.&Extension		({ExtensionSetParam}{@id})
}

-- **************************************************************
--
-- Container for Private IEs
--
-- **************************************************************

PrivateIE-Container {S1AP-PRIVATE-IES : IEsSetParam } ::= 
	SEQUENCE (SIZE (1.. maxPrivateIEs)) OF
	PrivateIE-Field {{IEsSetParam}}

PrivateIE-Field {S1AP-PRIVATE-IES : IEsSetParam} ::= SEQUENCE {
	id					S1AP-PRIVATE-IES.&id				({IEsSetParam}),
	criticality			S1AP-PRIVATE-IES.&criticality		({IEsSetParam}{@id}),
	value				S1AP-PRIVATE-IES.&Value				({IEsSetParam}{@id})
}

END
9.4	Message Transfer Syntax
S1AP shall use the ASN.1 Basic Packed Encoding Rules (BASIC-PER) Aligned Variant as transfer syntax as specified in ITU-T Rec. X.691 [4].
9.5	Timers
TS1RELOCprep
-	Specifies the maximum time for the Handover Preparation procedure in the source eNB.
TS1RELOCoverall
-	Specifies the maximum time for the protection of the overall handover procedure in the source eNB.
TX2RELOCOverall
-	it is specified in reference TS 36.423 [22].
10	Handling of Unknown, Unforeseen and Erroneous Protocol Data
10.1	General
Protocol Error cases can be divided into three classes:
-	Transfer Syntax Error.
-	Abstract Syntax Error.
-	Logical Error.
Protocol errors can occur in the following functions within a receiving node:

Figure 10.1-1: Protocol Errors in S1AP.
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 S1AP 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, while 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 concerning 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 concerning 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 S1AP 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:
-	Reject IE.
-	Ignore IE and Notify Sender.
-	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, S1AP 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 of the concerning object of class S1AP-PROTOCOL-IES, S1AP-PROTOCOL-IES-PAIR, S1AP-PROTOCOL-EXTENSION or S1AP-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 Code
The receiving node shall treat the different types of received criticality information of the Procedure Code IE according to the following:
Reject IE:
-	If a message is received with a Procedure Code IE 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 Code IE 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 Code IE 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 Code 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 Code 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 Code 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 group 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 group 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 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. 
When reporting not comprehended IEs/IE groups marked with “Reject IE” or “Ignore IE and Notify Sender” using the Error Indication procedure, the Procedure Code IE, the Triggering Message IE, Procedure Criticality IE, and the Information Element Criticality Diagnostics IE shall be included in the Criticality Diagnostics IE for each reported IE/IE group. 
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. 
When reporting missing IEs/IE groups with specified criticality “Reject IE” or “Ignore IE and Notify Sender” using the Error Indication procedure, the Procedure Code IE, the Triggering Message IE, Procedure Criticality IE, and the Information Element Criticality Diagnostics IE shall be included in the Criticality Diagnostics IE for each reported IE/IE group. 
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 shall 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:
-	Semantic Error.
-	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 Code IE and the Triggering Message 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 Code IE and the Triggering Message 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.
-	If an AP ID error is detected, the error handling as described in subclause 10.6 shall be applied. 
10.6	Handling of AP ID
NOTE:	The “first message”, the “first returned message” and the “last message” as used below correspond to messages for a UE-associated logical connection. The “first message” has a new AP ID from the sending node and the “first returned message” is the first response message, which has a new APID from the node sending the “first returned message”. Thereafter the two APIDs are included in all messages over the UE-associated logical connection unless otherwise allowed by the specification. The “last message” is a message sent by a node in order to complete the termination of a given UE-associated logical connection, such that no other messages for the same connection are expected in either direction.
If a node receives a first message that includes a remote AP ID which is erroneous, e.g., an AP ID which has been stored previously for another UE-associated logical connection for the same peer node, the receiving node shall initiate an Error Indication procedure with inclusion of only the previously received AP ID from the peer node and an appropriate cause value. In this case, both nodes shall initiate a local release of any established UE-associated logical connection having the erroneous AP ID as local or remote identifier. 
If a node receives a first returned message that includes a remote AP ID which has been stored previously for another UE-associated logical connection for the same peer node, or that includes an AP ID pair which is inconsistent (e.g., the local AP ID is unknown or already allocated to another UE-associated logical connection), the receiving node shall initiate an Error Indication procedure with inclusion of the received AP IDs from the peer node and an appropriate cause value. Both nodes shall initiate a local release of any established UE-associated logical connection (for the same S1 interface) having these AP IDs as local or remote identifier.
If a node receives a message (other than the first or first returned messages) that includes AP ID(s) identifying a logical connection which is unknown to the node (for the same S1 interface): 
-	if this message is not the last message for this UE-associated logical connection, the node shall initiate an Error Indication procedure with inclusion of the received AP ID(s) from the peer node and an appropriate cause value. Both nodes shall initiate a local release of any established UE-associated logical connection (for the same S1 interface) having the erroneous AP ID(s) as local or remote identifier.
-	if this message is the last message for this UE-associated logical connection, the receiving node shall initiate a local release of any established UE-associated logical connection (for the same S1 interface) that have either the local or remote AP ID(s) as identifiers.
Annex A (informative):
S1AP Transparent containers content
Transparent containers are used in order to transfer information from one RAN node to another RAN node. Depending on the particular scenario the behaviour of both involved RAN nodes may be either specified according to the same radio system or according to different radio systems. During an inter-system handover the source RAN node has to adopt to the target RAN node and its requirements. Therefore the container content is encoded according to the rules which are specified for the target radio system. 
In S1AP, there is a single transparent container defined for transporting information from the source to the target RAN node and a single transparent container for transporting information from the target to the source RAN node during handover preparation: the Source to Target Transparent Container IE and the Target to Source Transparent Container IE, which may carry either NG-RAN, E-UTRAN, UTRAN or GERAN specific information.
NOTE:	The definition of generic transparent containers for handover purposes allows to transport them through the core network in a RAT-agnostic way.
In subclause 8.4.1.2, it is described how the transparent container shall be encoded with respect to the scenario in which it is used.
The table below is showing all possible scenarios and definitions according to which the content of the transparent container shall be encoded. Additionally the reference to the specification defining particular IE is given.
Table A.1. Specification of Transparent Containers referenced in S1AP.
Scenario
Source to Target Transparent Container IE in S1AP: HANDOVER REQUIRED message
Target to Source Transparent Container IE in S1AP: HANDOVER COMMAND message

Name of the IE
Definition in specification
Name of the IE
Definition in specification
Intra E-UTRAN handover
Source eNB to Target eNB Transparent Container
36.413
Target eNB to Source eNB Transparent Container
36.413
Inter-system handover to UTRAN or SRVCC operation to UTRAN
Source RNC to Target RNC Transparent Container
25.413
Target RNC to Source RNC Transparent Container
25.413
Inter-system handover to GERAN (PS domain only)
Source BSS to Target BSS Transparent Container Contents of the Source BSS to Target BSS Transparent Container
48.018
Target BSS to Source BSS Transparent Container Contents of the Target BSS to Source BSS Transparent Container
48.018
SRVCC operation to GERAN without DTM support or SRVCC operation to GERAN with DTM but without DTM HO support
Old BSS to New BSS information elements field of the Old BSS to New BSS information
48.008
Layer 3 Information field of the Layer 3 Information
48.008
SRVCC operation to GERAN with DTM HO support
Source BSS to Target BSS Transparent Container Contents of the Source BSS to Target BSS Transparent Container (in the Source to Target Transparent Container IE);

Old BSS to New BSS information elements field of the Old BSS to New BSS information (in the Source to Target Transparent Container Secondary IE)
48.018







48.008
Layer 3 Information field of the Layer 3 Information (in the Target to Source Transparent Container IE);

Target BSS to Source BSS Transparent Container Contents of the Target BSS to Source BSS Transparent Container (in the Target to Source Transparent Container Secondary IE)
48.008




48.018
Inter-system handover to NG-RAN
Source NG-RAN Node to Target NG-RAN Node Transparent Container
38.413
Target NG-RAN Node to Source NG-RAN Node Transparent Container
38.413

Annex B (normative):
IEs for SON Transfer
This annex defines IEs used by the SON Transfer RIM application (TS 48.018 [18]).
B.1	Tabular definition
B.1.1	SON Transfer Application Identity
This IE indicates the application identity within the SON Transfer application.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
SON Transfer Application Identity
M

ENUMERATED
(Cell Load Reporting, 
…, Multi-Cell Load Reporting, Event-Triggered Cell Load Reporting, HO Reporting, E-UTRAN Cell Activation, Energy Savings Indication, Failure Event Reporting)
The receiving RAN node, including the eHRPD eAN, shall discard any RAN-INFORMATION-REQUEST/Multiple Report PDU containing this IE with value set to “Cell Load Reporting”, "Multi-Cell Load Reporting", “HO Reporting”, “E-UTRAN Cell Activation”, “Energy Savings Indication” or 
"Failure Event Reporting".

The receiving eHRPD eAN shall discard any RAN-INFORMATION-REQUEST/Single Report PDU containing this IE with value set to “Cell Load Reporting”, “HO Reporting”, “E-UTRAN Cell Activation”, “Energy Savings Indication” or 
"Failure Event Reporting".

B.1.2	SON Transfer Request Container
This container transfers request information for the SON Transfer application.
NOTE:	The length of the SON Transfer Request Container IE shall remain compatible with the maximum message size on the Gb interface, this maximum size being determined depending on the lower layers used on the interface and on their configuration, a typical (default) limitation being 1600 octets for a Frame Relay sub-network as stated in TS 48.016 [30].

IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE SON Transfer Application
M



>Cell Load Reporting


NULL

>Multi-Cell Load Reporting




>>Multi-Cell Load Reporting Request
M

B.1.7

>Event-Triggered Cell Load Reporting




>>Event-Triggered Cell Load Reporting Request
M

B.1.11

>HO Reporting




>>HO Report
M

B.1.13

>E-UTRAN Cell Activation




>>Cell Activation Request
M

B.1.14

>Energy Savings Indication




>>Cell State Indication
M

B.1.16

>Failure Event Reporting




>>Failure Event Report
M

B.1.17


B.1.3	SON Transfer Response Container
This container transfers response information for the SON Transfer application.
NOTE:	The length of the SON Transfer Response Container IE shall remain compatible with the maximum message size on the Gb interface, this maximum size being determined depending on the lower layers used on the interface and on their configuration, a typical (default) limitation being 1600 octets for a Frame Relay sub-network as stated in TS 48.016 [30].
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE SON Transfer Application
M



>Cell Load Reporting




>>Cell Load Reporting Response
M

B.1.5

>Multi-Cell Load Reporting




>>Multi-Cell Load Reporting Response
M

B.1.9

>Event-Triggered Cell Load Reporting




>>Event-triggered Cell Load Reporting Response
M

B.1.12

>HO Reporting


NULL

>E-UTRAN Cell Activation




>>Cell Activation Response
M

B.1.15

>Energy Savings Indication


NULL
The Reporting Cell Identifier field in the RAN-INFORMATION Application Container for SON Transfer (TS 48.018 [18]) shall be the same as received in the RAN-INFORMATION-REQUEST Application Container. The RAT Discriminator field shall be set to 'E-UTRAN'.
>Failure Event Reporting


NULL
The Reporting Cell Identifier field in the RAN-INFORMATION Application Container for SON Transfer (TS 48.018 [18]) shall be the same as received in the RAN-INFORMATION-REQUEST Application Container. The RAT Discriminator field shall be set to 'E-UTRAN'.

B.1.4	SON Transfer Cause
This container indicates the cause why the Application Error Container IE for the SON Transfer application defined in TS 48.018 [18] is sent.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE SON Transfer Application
M



>Cell Load Reporting




>>Cell Load Reporting Cause
M

B.1.10

>Multi-Cell Load Reporting




>>Cell Load Reporting Cause
M

B.1.10

>Event-Triggered Cell Load Reporting




>>Cell Load Reporting Cause
M

B.1.10

>HO Reporting




>>HO Reporting Cause
M

ENUMERATED 
(Application Container Syntax Error,
Inconsistent Reporting Cell Identifier,
Unspecified,
…)

>E-UTRAN Cell  Activation




>>Cell Activation Cause
M

ENUMERATED 
(Application Container Syntax Error,
Inconsistent Reporting Cell Identifier,
Unspecified,
…)

>Energy Savings Indication




>>Cell State Indication Cause
M

ENUMERATED 
(Application Container Syntax Error,
Inconsistent Reporting Cell Identifier,
Unspecified,
…)

>Failure Event Reporting




>>Failure Event Reporting Cause
M

ENUMERATED 
(Application Container Syntax Error,
Inconsistent Reporting Cell Identifier,
Unspecified,
…)


HO Reporting Cause
Meaning
Application Container Syntax Error
The Application Container IE is syntactically incorrect.
Inconsistent Reporting Cell Identifier
- In case the reporting RAT is GERAN: the Reporting Cell Identifier in the Application Container IE does not match with the Destination Cell Identifier IE value (in the case of a RAN-INFORMATION-REQUEST PDU) or with the Source Cell Identifier IE value (in the case of a RAN-INFORMATION PDU) of the RIM header.
- In case the reporting RAT is UTRAN or E-UTRAN: the cell identified by Reporting Cell Identifier in the Application Container IE is unknown in the RNC (UTRAN case) or in the eNodeB (E-UTRAN case) identified by the Destination Cell Identifier IE value in the RAN-INFORMATION-REQUEST PDU.
Unspecified
Sent when none of the above cause values applies.

Cell Activation Cause
Meaning
Application Container Syntax Error
The Application Container IE is syntactically incorrect.
Inconsistent Reporting Cell Identifier
- In case the reporting RAT is E-UTRAN: The Reporting Cell Identifier in the Application Container IE is unknown in the eNB identified by the Destination Cell Identifier IE value of the RIM header of a RAN-INFORMATION-REQUEST PDU or the reporting cell identifier in the Application Container IE does not match with the Source Cell Identifier IE value of the RIM header of a RAN-INFORMATION PDU.
Unspecified
Sent when none of the above cause values applies.

Cell State Indication Cause
Meaning
Application Container Syntax Error
The Application Container IE is syntactically incorrect.
Inconsistent Reporting Cell Identifier
- In case the reporting RAT is E-UTRAN: The Reporting Cell Identifier in the Application Container IE does not match with the Source Cell Identifier IE value of the RIM header of a RAN-INFORMATION-REQUEST PDU or the reporting cell identifier in the Application Container IE does not match with the Destination Cell Identifier IE value of the RIM header of a RAN-INFORMATION PDU.
Unspecified
Sent when none of the above cause values applies.

Failure Event Reporting Cause
Meaning
Application Container Syntax Error
The Application Container IE is syntactically incorrect.
Inconsistent Reporting Cell Identifier
- In case the reporting RAT is E-UTRAN: The Reporting Cell Identifier in the Application Container IE does not match with the Source Cell Identifier IE value of the RIM header of a RAN-INFORMATION-REQUEST PDU or the reporting cell identifier in the Application Container IE does not match with the Destination Cell Identifier IE value of the RIM header of a RAN-INFORMATION PDU.
Unspecified
Sent when none of the above cause values applies

B.1.5	Cell Load Reporting Response
This IE contains response information for inter-RAT cell load reporting.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE Reporting RAT
M



>E-UTRAN




>>E-UTRAN Response
M

E-UTRAN Cell Load Reporting Response B.1.6

>UTRAN




>>UTRAN Response
M

OCTET STRING
Contains the Cell Load Information Group IE as defined in TS 25.413. The receiver shall ignore the value of the Source Cell Identifier IE within the Cell Load Information Group IE.
>GERAN




>>GERAN Response
M

OCTET STRING
Contains the Cell Load Information Group IE as defined in TS 48.008. The receiver shall ignore the value of the Cell Identifier IE within the Cell Load Information Group IE.
>eHRPD




>>eHRPD Response
M

eHRPD Sector Load Reporting Response B.1.19


B.1.6	E-UTRAN Cell Load Reporting Response
This IE contains response information for inter-RAT cell load reporting.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Composite Available Capacity Group
M

OCTET STRING
Contains the Composite Available Capacity Group IE as defined in TS 36.423.

B.1.7	Multi-Cell Load Reporting Request
This IE contains request information for inter-RAT multi-cell load reporting.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Requested Cell List

1 .. <maxnoofIRATReportingCells>

One of the IRAT Cell IDs contained in this list shall be carried in the Reporting Cell Identifier field in the RAN-INFORMATION-REQUEST Application Container for SON Transfer (TS 48.018).
>IRAT Cell ID
M

B.1.8


Range bound
Explanation
maxnoofIRATReportingCells
Maximum no. cells to be included. Value is 128.

B.1.8	IRAT Cell ID

IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE Reporting RAT
M



>E-UTRAN




>>Cell Identifier
M

OCTET STRING
Contains the E-UTRAN CGI IE as defined in 9.2.1.38.
>UTRAN




>>Cell Identifier
M

OCTET STRING
Contains the Source Cell Identifier IE as defined in TS 25.413.
>GERAN




>>Cell Identifier
M

OCTET STRING
Contains the Cell Identifier IE as defined in TS 48.018.
>eHRPD




>>eHRPD Sector ID
M

B.1.18


B.1.9	Multi-Cell Load Reporting Response
This IE contains response information for inter-RAT multi-cell load reporting.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Reporting Cell List

1 .. <maxnoofIRATReportingCells>


>CHOICE Reporting RAT
M



>>E-UTRAN




>>>E-UTRAN Response
M



>>>>Cell Identifier
M

OCTET STRING
Contains the E-UTRAN CGI IE as defined in 9.2.1.38.
>>>>E-UTRAN Cell Load Reporting Response
M

B.1.6

>>UTRAN




>>>UTRAN Response
M

OCTET STRING
Contains the Cell Load Information Group IE as defined in TS 25.413. 
>>GERAN




>>>GERAN Response
M

OCTET STRING
Contains the Cell Load Information Group IE as defined in TS 48.008. 
>>eHRPD




>>>eHRPD Sector ID
M

B.1.18

>>>eHRPD Sector Load Reporting Response
M

B.1.19


B.1.10	Cell Load Reporting Cause
This IE contains request information for inter-RAT cell load reporting.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Cell Load Reporting Cause
M

ENUMERATED 
(Application Container Syntax Error,
Inconsistent Reporting Cell Identifier,
Unspecified,
…)


The meaning of the different cause values is described in the following table.
Cell Load Reporting Cause
Meaning
Application Container Syntax Error
The Application Container IE is syntactically incorrect.
Inconsistent Reporting Cell Identifier
- In case the reporting RAT is GERAN or eHRPD: the Reporting Cell Identifier in the Application Container IE does not match with the Destination Cell Identifier IE value (in the case of a RAN-INFORMATION-REQUEST PDU) or with the Source Cell Identifier IE value (in the case of a RAN-INFORMATION PDU) of the RIM header.
- In case the reporting RAT is UTRAN or E-UTRAN: the cell identified by Reporting Cell Identifier in the Application Container IE is unknown in the RNC (UTRAN case) or in the eNodeB (E-UTRAN case) identified by the Destination Cell Identifier IE value in the RAN-INFORMATION-REQUEST PDU.
Unspecified
Sent when none of the above cause values applies

B.1.11	Event-Triggered Cell Load Reporting Request
This IE contains request  information for inter-RAT cell load reporting.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Number Of Measurement Reporting Levels
M

ENUMERATED (2, 3, 4, 5, 10, ...)
The reporting node divides the cell load scale into the indicated number of reporting levels, evenly distributed on a linear scale below the reporting node's threshold for overload. The reporting node sends a report each time the cell load changes from one reporting level to another, and when the cell load enters and exits overload state.
If the reporting RAT is eHRPD, triggering is based on sector load.

B.1.12	Event-triggered Cell Load Reporting Response
This IE contains response information for event-triggered inter-RAT cell load reporting.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Cell Load
M

Cell Load Reporting Response 
B.1.5

Overload Flag
O

ENUMERATED (Overload, ...)
If the reporting RAT is eHRPD, when this IE is present the sector load exceeds the threshold for overload.
For other reporting RATs, when this IE is present the cell load exceeds the threshold for overload.

B.1.13	HO Report
This IE contains information for too early inter-RAT HO without connection failure.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
HO Type
M

ENUMERATED (LTE to UTRAN, LTE to GERAN, …)

HO Report Type
M

ENUMERATED (Unnecessary HO to another RAT, …, Early IRAT Handover)
The "Early IRAT Handover" code-point shall be used by the RNC according to TS 25.413 [19].
HO Source ID
M

IRAT Cell ID
B.1.8
Contains the cell ID of the source cell for the HO. This IE shall contain an E-UTRAN CGI, and shall be set to the same value as the Reporting Cell Identifier IE in TS 48.018 [18] 
HO Target ID
M

IRAT Cell ID
B.1.8
Contains the cell ID of the target cell for the HO. This IE shall contain either a UTRAN Cell ID or a GERAN Cell ID.
Candidate Cell List

1 .. <maxnoofCandidateCells>


>Candidate Cell ID
M

IRAT Cell ID
B.1.8
This IE contains an E-UTRAN CGI.
Candidate PCI List

0..1


>Candidate PCIs

1 .. <maxnoofCandidateCells>


>>Candidate PCI
M

B.1.23
This IE includes the Primary Cell Identifier and the EARFCN of detected cells not included in the Candidate Cell List IE and for which an E-UTRAN CGI could not be derived.

Range bound
Explanation
maxnoofCandidateCells
Maximum no. of candidate cells.

B.1.14	Cell Activation Request
This IE contains request information for inter-RAT Cell Activation.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Cells to Activate List

1 .. <maxnoofCellineNB>

One of the cell IDs contained in this list shall be carried in the Reporting Cell Identifier field in the RAN-INFORMATION-REQUEST Application Container for SON Transfer (TS 48.018 [18]).
>Cell Identifier 
M

OCTET STRING
Contains the E-UTRAN CGI IE as defined in 9.2.1.38.
Minimum Activation Time
O

INTEGER (1..60)
Seconds

Range bound
Explanation
maxnoofCellineNB
Maximum no. cells that can be served by an eNB. Value is 256.

B.1.15	Cell Activation Response
This IE contains response information for inter-RAT Cell Activation.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Activated Cells List

0 .. <maxnoofCellineNB>


>Cell Identifier 
M

OCTET STRING
Contains the E-UTRAN CGI IE as defined in 9.2.1.38.

Range bound
Explanation
maxnoofCellineNB
Maximum no. cells that can be served by an eNB. Value is 256.

B.1.16	Cell State Indication
This IE contains notification information for inter-RAT Cell Activation and Deactivation
IE/Group Name
Presence
Range
IE type and reference
Semantics description
Notification Cell List

1 .. <maxnoofCellineNB>

One of the cell IDs contained in this list shall be carried in the Reporting Cell Identifier field in the RAN-INFORMATION-REQUEST Application Container for SON Transfer (TS 48.018 [18]).
>Cell Identifier 
M

OCTET STRING
Contains the E-UTRAN CGI IE as defined in 9.2.1.38.
>Notify Flag
M 

ENUMERATED (Activated, Deactivated, ...)


Range bound
Explanation
maxnoofCellineNB
Maximum no. cells that can be served by an eNB. Value is 256.

B.1.17	Failure Event Report
This IE contains information for inter-RAT handover with connection failure.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
CHOICE Failure Event Report Type
M



>Too Early inter-RAT HO report from E-UTRAN



The Reporting Cell Identifier field in the RAN-INFORMATION Application Container for SON Transfer (TS 48.018 [18]) shall be the same as the Last Serving Cell Identity in the UE RLF Report.
>>UE RLF Report Container
M

OCTET STRING
RLF Report contained in the UEInformationResponse message (TS 36.331 [16])
>>Mobility Information
O

BIT STRING (SIZE (32))
Information related to the handover; the external handover source provides it in the Source eNB to target eNB Transparent Container in order to enable later analysis of the conditions that led to a wrong HO.

B.1.18	eHRPD Sector ID
This IE contains the eHRPD Sector ID.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
eHRPD Sector ID
M

OCTET STRING (SIZE(16))
Defined in 3GPP2 C.S0024-B [27] sub-section 13.9

B.1.19	eHRPD Sector Load Reporting Response
This IE indicates the overall available resource level in the eHRPD sector in downlink and uplink.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
eHRPD Composite Available Capacity Downlink
M

eHRPD Composite Available Capacity B.1.20
For the downlink 
eHRPD Composite Available Capacity Uplink
M

eHRPD Composite Available Capacity B.1.20
For the uplink 

B.1.20	eHRPD Composite Available Capacity
This IE indicates the overall available resource level in the eHRPD sector in either Downlink or Uplink.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
eHRPD Sector Capacity Class Value
M

B.1.21

eHRPD Capacity Value 
M

B.1.22
‘0’ indicates no resource is available, Measured on a linear scale. 

B.1.21	eHRPD Sector Capacity Class Value
This IE indicates the value that classifies the eHRPD sector capacity with regards to cells in other RATs. The IE only indicates resources that are configured for traffic purposes. 
IE/Group Name
Presence
Range
IE type and reference
Semantics description
eHRPD Sector Capacity Class Value
M

INTEGER (1..100,...)
Value 1 indicates the minimum sector capacity, and 100 indicates the maximum sector capacity. There should be a linear relation between sector capacity and eHRPD Sector Capacity Class Value.

B.1.22	eHRPD Capacity Value
This IE indicates the amount of resources that are available for load balancing relative to the total eHRPD resources. A sector is expected to accept traffic corresponding to the indicated available capacity.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
eHRPD Capacity Value
M

INTEGER (0..100)
Value 0 indicates no available capacity, and 100 indicates maximum available capacity . Capacity Value should be measured on a linear scale.

B.1.23	Candidate PCI
This IE contains the Primary Cell Identity and the frequency of a detected LTE cell.
IE/Group Name
Presence
Range
IE type and reference
Semantics description
PCI
M

INTEGER (0..503)
Physical Cell Identifier of the detected cell
EARFCN
M

OCTET STRING
Contains the EARFCN IE as defined in 9.2.1.95.

B.2	ASN.1 definition
-- **************************************************************
--
-- IE definitions for the SON Transfer application
-- The IEs in this ASN.1 module shall be defined and encoded
-- using the same rules as applicable for the S1AP-IEs module.
-- 
-- **************************************************************
SonTransfer-IEs

DEFINITIONS AUTOMATIC TAGS ::= 

BEGIN

--
-- Generic IEs for the SON Transfer application
--

SONtransferApplicationIdentity ::= ENUMERATED {
	cell-load-reporting,
	...,
	multi-cell-load-reporting,
	event-triggered-cell-load-reporting,
	ho-reporting,
	eutran-cell-activation,
	energy-savings-indication,
	failure-event-reporting
}

SONtransferRequestContainer ::= CHOICE{
	cellLoadReporting					NULL,
	...,
	multiCellLoadReporting				MultiCellLoadReportingRequest,
	eventTriggeredCellLoadReporting		EventTriggeredCellLoadReportingRequest,
	hOReporting							HOReport,
	eutranCellActivation				CellActivationRequest,
	energySavingsIndication				CellStateIndication,
	failureEventReporting				FailureEventReport
}

SONtransferResponseContainer ::= CHOICE{
	cellLoadReporting					CellLoadReportingResponse,
	...,
	multiCellLoadReporting				MultiCellLoadReportingResponse,
	eventTriggeredCellLoadReporting	EventTriggeredCellLoadReportingResponse,
	hOReporting							NULL,
	eutranCellActivation				CellActivationResponse,
	energySavingsIndication				NULL,
	failureEventReporting				NULL
}

SONtransferCause ::= CHOICE {
	cellLoadReporting					CellLoadReportingCause,
	...,
	multiCellLoadReporting				CellLoadReportingCause,
	eventTriggeredCellLoadReporting		CellLoadReportingCause,
	hOReporting							HOReportingCause,
	eutranCellActivation				CellActivationCause,
	energySavingsIndication				CellStateIndicationCause,
	failureEventReporting				FailureEventReportingCause
}


CellLoadReportingCause ::= ENUMERATED {
	application-container-syntax-error,
	inconsistent-reporting-cell-identifier,
	unspecified,
	...
}

HOReportingCause ::= ENUMERATED {
	application-container-syntax-error,
	inconsistent-reporting-cell-identifier,
	unspecified,
	...
}

CellActivationCause ::= ENUMERATED {
	application-container-syntax-error,
	inconsistent-reporting-cell-identifier,
	unspecified,
	...
}

CellStateIndicationCause ::= ENUMERATED {
	application-container-syntax-error,
	inconsistent-reporting-cell-identifier,
	unspecified,
	...
}

FailureEventReportingCause ::= ENUMERATED {
	application-container-syntax-error,
	inconsistent-reporting-cell-identifier,
	unspecified,
	...
}

--
-- IEs for Cell Load Reporting application
--

CellLoadReportingResponse::= CHOICE{
	eUTRAN			EUTRANcellLoadReportingResponse,
	uTRAN			OCTET STRING,
	gERAN			OCTET STRING,
	...,
	eHRPD			EHRPDSectorLoadReportingResponse
}

CompositeAvailableCapacityGroup ::= OCTET STRING

EUTRANcellLoadReportingResponse ::= SEQUENCE {
	compositeAvailableCapacityGroup		CompositeAvailableCapacityGroup,
	...
}

--
-- IEs for Multi-Cell Load Reporting application
--

EUTRANResponse::= SEQUENCE {
	cell-ID			OCTET STRING,
	eUTRANcellLoadReportingResponse		EUTRANcellLoadReportingResponse,
	...
}

EHRPD-Sector-ID ::= OCTET STRING (SIZE (16))

IRAT-Cell-ID ::= CHOICE{
	eUTRAN			OCTET STRING,
	uTRAN			OCTET STRING,
	gERAN			OCTET STRING,
	...,
	eHRPD			EHRPD-Sector-ID
}

RequestedCellList ::= SEQUENCE (SIZE(1.. maxnoofIRATReportingCells)) OF IRAT-Cell-ID

MultiCellLoadReportingRequest::= SEQUENCE {
	requestedCellList						RequestedCellList,
	...
}

ReportingCellList-Item ::= SEQUENCE {
	cell-ID									IRAT-Cell-ID,
	...
}

ReportingCellList ::= SEQUENCE (SIZE(1.. maxnoofIRATReportingCells)) OF ReportingCellList-Item

MultiCellLoadReportingResponse ::= SEQUENCE (SIZE(1.. maxnoofIRATReportingCells)) OF MultiCellLoadReportingResponse-Item

MultiCellLoadReportingResponse-Item ::= CHOICE{ 
	eUTRANResponse							EUTRANResponse,
	uTRANResponse							OCTET STRING,
	gERANResponse							OCTET STRING,
	...,
	eHRPD									EHRPDMultiSectorLoadReportingResponseItem
}


--
-- IEs for Event-triggered Cell Load Reporting application
--

NumberOfMeasurementReportingLevels ::= ENUMERATED {
	rl2,
	rl3,
	rl4,
	rl5,
	rl10,
	...
}

EventTriggeredCellLoadReportingRequest ::= SEQUENCE {
	numberOfMeasurementReportingLevels		NumberOfMeasurementReportingLevels,
	...
}

OverloadFlag ::= ENUMERATED {
	overload,
	...
}

EventTriggeredCellLoadReportingResponse ::= SEQUENCE {
	cellLoadReportingResponse				CellLoadReportingResponse,
	overloadFlag							OverloadFlag						OPTIONAL,
	...
}

--
-- IEs for HO Reporting application
--



HOReport::= SEQUENCE {
	hoType					HoType,
	hoReportType			HoReportType,
	hosourceID				IRAT-Cell-ID,
	hoTargetID				IRAT-Cell-ID,
	candidateCellList		CandidateCellList,
	...,
	candidatePCIList		CandidatePCIList	OPTIONAL
}

HoType ::= ENUMERATED {
	ltetoutran,
	ltetogeran,
	...
}

HoReportType ::= ENUMERATED {
	unnecessaryhotoanotherrat,
	...,
	earlyirathandover
}

CandidateCellList ::= SEQUENCE (SIZE(1..maxnoofcandidateCells)) OF IRAT-Cell-ID

CandidatePCIList ::= SEQUENCE (SIZE(1..maxnoofcandidateCells)) OF CandidatePCI

CandidatePCI ::= SEQUENCE {
	pCI			INTEGER (0..503),
	eARFCN		OCTET STRING,
	...
}

--
-- IEs for E-UTRAN Cell Activation application
--

CellActivationRequest ::= SEQUENCE {
	cellsToActivateList		CellsToActivateList,
	minimumActivationTime	INTEGER (1..60)		OPTIONAL,
...
}

CellsToActivateList ::= SEQUENCE (SIZE(1.. maxnoofCellineNB)) OF CellsToActivateList-Item

CellsToActivateList-Item ::= SEQUENCE {
	cell-ID					OCTET STRING,
	...
}

CellActivationResponse ::= SEQUENCE {
	activatedCellsList		ActivatedCellsList,
	...
}

ActivatedCellsList ::= SEQUENCE (SIZE(0.. maxnoofCellineNB)) OF ActivatedCellsList-Item

ActivatedCellsList-Item ::= SEQUENCE {
	cell-ID					OCTET STRING,
	...
}

--
-- IEs for Energy Savings Indication application
--

CellStateIndication ::= SEQUENCE {
	notificationCellList			NotificationCellList,
	...
}

NotificationCellList ::= SEQUENCE (SIZE(1.. maxnoofCellineNB)) OF NotificationCellList-Item

NotificationCellList-Item ::= SEQUENCE {
	cell-ID					OCTET STRING,
	notifyFlag				NotifyFlag,
	...
}

NotifyFlag ::= ENUMERATED {
	activated,
	deactivated,
	...
}

FailureEventReport::= CHOICE {
	tooEarlyInterRATHOReportFromEUTRAN			TooEarlyInterRATHOReportReportFromEUTRAN,
	...
}

TooEarlyInterRATHOReportReportFromEUTRAN ::= SEQUENCE {
	uERLFReportContainer	OCTET STRING, -- as defined in TS 36.331 [16] --
	mobilityInformation		MobilityInformation		OPTIONAL,
	...
}

MobilityInformation ::= BIT STRING (SIZE(32))


--
-- IEs for reporting of eHRPD load
--

EHRPDCapacityValue ::= INTEGER (0..100)

EHRPDSectorCapacityClassValue ::= INTEGER (1..100, ...)

EHRPDSectorLoadReportingResponse ::= SEQUENCE {
	dL-EHRPD-CompositeAvailableCapacity			EHRPDCompositeAvailableCapacity,
	uL-EHRPD-CompositeAvailableCapacity			EHRPDCompositeAvailableCapacity,
	...
}

EHRPDCompositeAvailableCapacity ::= SEQUENCE {
	eHRPDSectorCapacityClassValue				EHRPDSectorCapacityClassValue,
	eHRPDCapacityValue							EHRPDCapacityValue,
	...
}

EHRPDMultiSectorLoadReportingResponseItem ::= SEQUENCE {
	eHRPD-Sector-ID							EHRPD-Sector-ID,
	eHRPDSectorLoadReportingResponse		EHRPDSectorLoadReportingResponse,
	...
}


-- **************************************************************
--
-- Constants
--
-- **************************************************************

maxnoofIRATReportingCells					INTEGER ::= 128
maxnoofcandidateCells						INTEGER ::= 16
maxnoofCellineNB							INTEGER ::= 256

END

Annex C (informative):
Processing of Transparent Containers at the MME
The encoding of the Source to Target Transparent Container and Target to Source Transparent Container IEs in this specification is different from the one specified in TS 25.413 [19].
Irrespective of the mobility scenario (inter-RAT or intra-LTE), the MME always processes these IEs in the following way:
-	The MME shall convey to the eNodeB the information received within
-	the GTPv1-C "UTRAN transparent field" of the "UTRAN Transparent Container" IE across the Gn-interface (see subclause 7.7.38 of TS 29.060 [35]), or
-	the GTPv1-C "BSS Container" (value part octets 4-n) of the "BSS Container" IE across the Gn- interface (see subclause 7.7.72 of TS 29.060 [35]), or
-	the GTPv2 "F-container field" of the "F-Container" IE across the S3/S10- interface (see subclause 8.48 of TS 29.274 [36]).
by including it in the octets of the OCTET STRING of the Source to Target Transparent Container IE, the Target to Source Transparent Container IE or the Target to Source Transparent Container Secondary IE of the corresponding S1AP message.
-	The MME shall convey to the GTP peer the information received within the octets of the OCTET STRING of the Source to Target Transparent Container IE, the Target to Source Transparent Container IE or the Target to Source Transparent Container Secondary IE by including it in
-	the GTPv1-C "UTRAN transparent field" of the "UTRAN Transparent Container" IE across the Gn- interface (see subclause 7.7.38 of TS 29.060 [35]), or
-	the GTPv1-C "BSS Container" (value part octets 4-n) of the "BSS Container" IE across the Gn- interface (see subclause 7.7.72 of TS 29.060 [35]), or
-	the GTPv2 "F-container field" of the "F-Container" IE across the S3/S10- interface (see subclause 8.48 of TS 29.274 [36]).
Annex D (informative):
Change history
TSG #
TSG Doc.
CR
Rev
Subject/Comment
New
38



Specification approved at TSG-RAN and placed under change control
8.0.0
39
RP-080080
0058

RAN3 agreed changes for TS 36.413
8.1.0
40
RP-080304
0059
1
RAN3 agreed changes for TS 36.413
8.2.0
41
RP-080584
0223

changes to TS 36.413 agreed in RAN3#61
8.3.0
42
RP-080846
0325
1
changes to TS 36.413 agreed in RAN3#62
8.4.0
43
RP-090083
0327

Adding extension container in SEQUENCE type for forward compatibility
8.5.0
43
RP-090091
0331
1
Corrections on S1AP: eNB configuration update procedure
8.5.0
43
RP-090086
0332
1
Corrections on S1AP: Paging procedure
8.5.0
43
RP-090089
0333
1
Handling detection of two S1 connections towards one UE
8.5.0
43
RP-090089
0334
1
Interaction between UE Context Release Request and UE Context Release procedure
8.5.0
43
RP-090246
0337
2
IP address retrieval for ANRF
8.5.0
43
RP-090083
0340

Modification of RRC context indexing
8.5.0
43
RP-090086
0342
1
Completion of LTE cause values
8.5.0
43
RP-090090
0345
1
Correction of served GUMMEIs
8.5.0
43
RP-090086
0346
1
Correction of Initial Context Setup
8.5.0
43
RP-090086
0349
1
Clarification of path switch failure
8.5.0
43
RP-090091
0350
2
Correction of eNB Status Transfer
8.5.0
43
RP-090083
0356

Addition of the description of Timer TX2RELOCOverall
8.5.0
43
RP-090089
0357
1
New cause value “Interaction with other procedure”
8.5.0
43
RP-090087
0359
1
S1AP Review on Location Reporting procedures
8.5.0
43
RP-090089
0366
1
Definition on parameters related to a trace activation
8.5.0
43
RP-090090
0368
2
Adding EUTRAN CELL TRAFFIC TRACE message over S1 interfaces
8.5.0
43
RP-090091
0369
2
Adding MS Classmark 2 and MS Clssmark 3 IEs over S1 interface
8.5.0
43
RP-090086
0370
1
New Invalid E-RAB Id causes
8.5.0
43
RP-090091
0371
2
S1AP Review: S1 Handover Cancel procedure
8.5.0
43
RP-090158
0372
2
S1AP Review: Write-Replace Warning procedure
8.5.0
43
RP-090246
0374
1
Definition of Cell Type
8.5.0
43
RP-090085
0375
1
Abnormal condition related to UE Security Capabilities
8.5.0
43
RP-090245
0376

Removal of UE Security Capabilities IE from HANDOVER NOTIFY message
8.5.0
43
RP-090086
0378
1
Corrections for the procedure concurrency
8.5.0
43
RP-090091
0380
2
Clarification of eNB Name and MME Name IE’s
8.5.0
43
RP-090083
0392

Clarifications on access control at handover
8.5.0
43
RP-090087
0393
1
Paging response
8.5.0
43
RP-090077
0394

Correction on usage of UE History Information
8.5.0
43
RP-090086
0395
1
Delete the UDP port in the note for GTP-TEID
8.5.0
43
RP-090245
0396

S1AP CR on CDMA2000 RAT Type
8.5.0
43
RP-090246
0397
1
Editorial Updates TS 36.413
8.5.0
43
RP-090091
0398
3
NAS Security Parameters for to/from E-UTRAN/UTRAN handovers
8.5.0
43
RP-090085
0399
1
Updates for Next Hop Chaining Count
8.5.0
43
RP-090245
0401

Transparent Container content – informative annex
8.5.0
43
RP-090093
0404
1
Transparent container handling in case of SRVCC operation to GERAN
8.5.0
43
RP-090090
0405
2
Changes to S1AP to support paging optimization
8.5.0
43
RP-090245
0406
3
S1 handover Clean up
8.5.0
43
RP-090087
0407
1
Support blocking 3GPP2 handover
8.5.0
43
RP-090091
0410
2
Inclusion of eNB default paging DRX in S1 setup and configuration update
8.5.0
43
RP-090087
0412
1
Explicit resetting of overload state information on S1 Setup
8.5.0
43
RP-090090
0413
2
Clarify Security Context IE description
8.5.0
43
RP-090091
0414
2
Criticality corrections in 36.413
8.5.0
43
RP-090245
0415

Add abnormal conditions section to UE Context Release and fix tabular error
8.5.0
43
RP-090245
0419

Consistent references to S1AP
8.5.0
43
RP-090090
0424
2
Two new cause values in the Cause IE
8.5.0
43
RP-090089
0425

Alignment of QCI range
8.5.0
43
RP-090089
0426

Remove the Handover Type IE from the HANDOVER REQUEST ACKNOWLEDGE message
8.5.0
43
RP-090090
0427
1
Correction of the trace procedural text and trace related IEs
8.5.0
March 2009
-
-
-
Minor corrections before freezing of ASN.1
8.5.1
44
RP-090637
0504
2
Editorial Updates
8.6.0
44
RP-090637
0512

Correction of RAN#43 CR implementation
8.6.0
44
RP-090637
0510

Explicitly allow TRACE START to be the first UE-associated message received at the eNB
8.6.0
44
RP-090637
0507
1
Clarification of UE Capability Info Indication
8.6.0
44
RP-090637
0500
1
Mandatory UE History Information IE in HANDOVER REQUIRED For Inter-RAT HO from E-UTRAN to UMTS
8.6.0
44
RP-090637
0482
1
Clarify eNB may send Release msg rather than RRC Reject msg on receiving OVERLOAD Start msg
8.6.0
44
RP-090637
0480
1
Clarify reporting of duplicate E-RABs in E-RAB RESPONSE
8.6.0
44
RP-090637
0468

Correction of security parameters
8.6.0
44
RP-090637
0463
1
Emergency call Indicator during CS Fallback
8.6.0
44
RP-090638
0438
2
Correction on Path Switch Request procedure
8.6.0
44
RP-090644
0443
2
Removing ‘outcome’ element  from the Triggering Message IE
8.6.0
44
RP-090644
0448
1
Missing S1AP functions
8.6.0
44
RP-090644
0451
1
Correction of abnormal conditions in UE Context Release
8.6.0
44
RP-090644
0452
1
Clarification of E-UTRAN Trace ID in Cell Traffice Trace message
8.6.0
44
RP-090644
0453

Removal of duplication description of MME UE S1AP ID and eNB UE S1AP ID
8.6.0
44
RP-090644
0455
1
Abnormal condition for Handover Cancellation
8.6.0
44
RP-090640
0458
3
NNSF for HeNB GW deployment scenario
8.6.0
44
RP-090640
0503
1
Transparent Container Coding
8.6.0
44
RP-090640
0471
2
Some Editorial Corrections on ASN.1
8.6.0
44
RP-090640
0492

Failure of the eNB Configuration Update procedure
8.6.0
44
RP-090640
0484

Rephrasing of abnormal conditions for S1 setup
8.6.0
44
RP-090640
0494

Cause value for inter-RAT Redirection
8.6.0
44
RP-090628
0464
2
NAS PDU in E-RAB Release Command
8.6.0
44
RP-090636
0491

Alignment of eNB configuration update procedure
8.6.0
44
RP-090636
0476
2
Add that a non-GBR must be received and admitted on S1-HO
8.6.0
44
RP-090636
0461
1
Clarification of Security Context to be used in HANDOVER REQUEST message
8.6.0
44
RP-090636
0459

Correction the text about the Handover Resource Allocation procedure
8.6.0
44
RP-090636
0502

Clarification for RAT list in S1 Setup Response and MME configuration Update
8.6.0
44
RP-090636
0501
1
Range bound for maximal number of PLMNs per MME and GUMMEIs
8.6.0
June 2009



Correction of an ASN.1 implementation error of  CR0463r1 in RP-090637 (R3-091456)
8.6.1
45
RP-090767
0515
1
Corrections for 36.413
8.7.0
45
RP-090964
0522

SRVCC to GERAN/UTRAN
8.7.0
45
RP-090964
0531

Clean up the Terminology of home eNB in S1AP
8.7.0
45
RP-090964
0534

Specify how report dup E-RAB ID in Tabular and replace MME with EPC in  8.3.1.2
8.7.0
45
RP-090964
0536
1
Indirect path use by the MME
8.7.0
45
RP-090767
0537
1
Handling of not supported QCI values
8.7.0
45
RP-090964
0538
1
E-RABs subject to forwarding
8.7.0
45
RP-090767
0540
1
Mandatory NAS PDU in E-RAB Release Command
8.7.0
45
RP-090767
0542
1
Missing reference and specification for encoding the CDMA2000 Pilot List
8.7.0
45
RP-090767
0547
1
CR on Repetition Period IE
8.7.0
45
RP-090767
0551

Miscellaneous correction to 36.413v8.6.1
8.7.0
45
RP-090768
0553

ASN1 object identified correction
8.7.0
45
RP-090767
0554

Interaction between Initial Context Setup/UE Context Modification and Handover Preparation/Redirection procedures during CS Fallback
8.7.0
09/2009



Rel-9 version is created based on v.8.7.0
9.0.0
45
RP-090767
0521
3
Adding the RTD information in UPLINK CDMA2000 TUNNELING
9.0.0
45
RP-090787
0543
1
Handling of Emergency Calls in Limited Service Mode
9.0.0
45
RP-090787
0544
1
Emergency Calls Mobility Handling
9.0.0
45
RP-090776
0548
1
S1AP Kill procedure for cancellation of PWS warning messages
9.0.0
45
RP-090776
0549
1
S1AP Write-Replace Warning procedure for PWS/CMAS
9.0.0
46
RP-091191
0513
4
Support for paging optimization with CSG membership changes
9.1.0
46
RP-091191
0550
3
Inclusion of Access Mode and Subscription Status for UE prioritisation in LTE hybrid cells
9.1.0
46
RP-091194
0557

Handling of Multiple concurrent CMAS Warning Notifications
9.1.0
46
RP-091189
0563
2
CR for Transportation support for LPPa
9.1.0
46
RP-091195
0567
3
Introducing the “Data Forwarding Not Possible” indication to HANDOVER REQUEST
9.1.0
46
RP-091183
0569

ASN.1 correction for BroadcastCompleteAreaList
9.1.0
46
RP-091183
0571
1
Correction on abnormal handling of  Subscriber Profile ID for RAT/Frequency priority IE
9.1.0
46
RP-091368
0580

Align IE’s in Tabular for two messages with their ASN.1 for R9
9.1.0
46
RP-091183
0589
2
Rejection Criteria for Overload
9.1.0
46
RP-091369
0592
2
Introduction of inbound LTE mobility
9.1.0
46
RP-091194
0605
1
Repetition Period for CMAS
9.1.0
46
RP-091183
0607

Correction of E-RAB Modify
9.1.0
46
RP-091183
0616
1
Clarification on handover restriction
9.1.0
46
RP-091183
0618
2
Correction of Transport Layer Address
9.1.0
46
RP-091183
0621
1
Missing reference and unclear handling of the CDMA2000 Sector ID
9.1.0
47
RP-100214
0623
1
Correction of RTD range
9.2.0
47
RP-100214
0625
1
Correction of path switch failure
9.2.0
47
RP-100213
0626

Fix for Mobile terminated calls rejection in eNodeB
9.2.0
47
RP-100229
0627

Introduction of PLMN-related abnormal conditions during HO in network sharing scenarios
9.2.0
47
RP-100222
0628

Correction of CSG Cell and Hybrid Cell Definition
9.2.0
47
RP-100214
0629
3
NCC Initialization in eNB at the Initial Connection Setup
9.2.0
47
RP-100228
0631

Inter RAT Mobility Load Balance on S1
9.2.0
47
RP-100213
0634

Crrection in DOWNLIN S1 CDMA2000 TUNNELING Procedure
9.2.0
47
RP-100222
0639
3
CSG expiry Handling
9.2.0
47
RP-100229
0641
1
CMAS and ETWS action if  Number of Broadcasts Requested IE set to 0
9.2.0
47
RP-100229
0645
1
Description of Transparent Container Encoding
9.2.0
47
RP-100230
0647
2
Rapporteur’s update for S1AP protocol
9.2.0
47
RP-100213
0649

Removing the restriction for Primary Notification
9.2.0
47
RP-100214
0651
1
CDMA2000 1xRTT RAND format
9.2.0
47
RP-100213
0659
1
Handling of the CDMA2000 RAT and Sector ID
9.2.0
47
RP-100214
0661
2
Handling of CSG ID check failure in LTE hybrid cells
9.2.0
47
RP-100225
0664
1
Transfer Encoding of LPPa PDUs over S1
9.2.0
47
RP-100214
0666
1
Correction of connection establishment
9.2.0
47
RP-100214
0667
1
Correction of S1 Release
9.2.0
47
RP-100228
0678

Creation of annex for SON Transfer and Cell Load Reporting RIM application.
9.2.0
47
RP-100230
0679

Support of time and frequency synchronization using network listening
9.2.0
04/2010



ToC updated
9.2.1
04/2010



Corrupted headers and ASN.1 fixed
9.2.2
48
RP-100592
0682
1
E-UTRAN Trace ID Abnormal Conditions
9.3.0
48
RP-100599
0683
2
Clarification on DTM and PS Handover
9.3.0
48
RP-100599
0687

Correction on UE Security Capability handling in UE Context Modification procedure
9.3.0
48
RP-100599
0693

Clarification on processing Extended Repetition Period IE
9.3.0
48
RP-100599
0694
1
List more apt cause in Interactions with E-RAB Management procedures section
9.3.0
48
RP-100596
0695
1
Missing ETWS action if Repetition period set to 0
9.3.0
48
RP-100599
0701
2
Correction of shall to shall if supported
9.3.0
48
RP-100599
0710

Correction of no DTM support
9.3.0
48
RP-100599
0711
2
Correction of forbidden inter-RAT
9.3.0
48
RP-100599
0716
1
Rapporteur’s update for S1AP protocol
9.3.0
48
RP-100599
0717
1
S1AP Transparent containers compatible maximum message size
9.3.0
49
RP-100908
0726
1
Explicit PLMN coding in Trace IEs
9.4.0
49
RP-100908
0731
3
Cause value for UE context release during CSFB
9.4.0
49
RP-100906
0738
1
CS Fallback Indication and Handover Restriction List
9.4.0
49
RP-100908
0741
1
Correction of Repetition Period
9.4.0
49
RP-100908
0742
1
Notification of Location Reporting Failure
9.4.0
49
RP-100908
0743
1
Correction of UE AMBR
9.4.0
49
RP-100908
0745

Simultaneous Rekeying and CSFB
9.4.0
49
RP-100908
0751

Delete references to 23.041 in Tabular
9.4.0
50
RP-101271
0753

Handling of CDMA2000 HO Required Indication
9.5.0
50
RP-101270
0755

Correction of E-RAB Data Forwarding in HANDOVER COMMAND and DOWNLINK S1 CDMA2000 TUNNELING
9.5.0
50
RP-101271
0756

Clarification on Handover Restriction List
9.5.0
50
RP-101271
0761
4
Multiple PLMNs Selection in eNodeB for CS fallback
9.5.0
50
RP-101271
0780
2
Clarification on SRVCC procedure in case of PS handover failure
9.5.0
50
RP-101271
0783
1
Correction of GBR and MBR
9.5.0
50
RP-101271
0799

Clarification on the overload action only accepting emergency and MT sessions
9.5.0
12/2010



Rel-10 version created based on v 9.5.0
10.0.0
50
RP-101272
0752
2
Prioritised handling of MPS session in S1-AP PAGING message
10.0.0
50
RP-101272
0754
2
Alignment of tabular with ASN.1 for S1 Setup message
10.0.0
50
RP-101272
0764
2
Enhancement of the IP address exchange mechanism for ANR purposes
10.0.0
50
RP-101304
0768
1
Inter-RAT cell load reporting for multiple cells
10.0.0
50
RP-101304
0769
2
Event-triggered inter-RAT cell load reporting
10.0.0
50
RP-101272
0776
3
Introduction of a new overload action IE to permit high priority access
10.0.0
50
RP-101304
0791
2
Inter-RAT MRO for Detection of too early inter-RAT handover with no RLF
10.0.0
50
RP-101281
0794
2
Adding List of GUMMEIs to Overload related messages
10.0.0
50
RP-101272
0797
1
Incorrect causes in the Error Indication msg
10.0.0
50
RP-101279
0798
4
X2 handover support
10.0.0
50
RP-101272
0800
1
Clarification on the overload action only accepting emergency and MT sessions
10.0.0
01/2011



Editorial change: highlighting removed
10.0.1
SP-49
SP-100629


Clarification on the use of References (TS 21.801 CR#0030)
10.1.0
51
RP-110231
0801

Correct the criticality for two new IEs to support X2 HO for HeNB
10.1.0
51
RP-110239
0802

Clean-up for Rel-10 enhancements of SON Transfer application
10.1.0
51
RP-110226
0803

Clarification containers for CS only SRVCC towards UTRAN without PS HO support
10.1.0
51
RP-110225
0804

Correction to the editor notes
10.1.0
51
RP-110225
0805

Correction on CSG Subcription List
10.1.0
51
RP-110222
0808

Correction of CSFB related Cause Values
10.1.0
51
RP-110236
0809
2
Relay Node indication to MME
10.1.0
51
RP-110236
0810

GUMMEI List in Overload Start and Overload Stop message
10.1.0
51
RP-110222
0812

ASN.1 Correction for  the Broadcast Cancelled Area List IE
10.1.0
51
RP-110227
0813
2
LIPA Impact In RAN3
10.1.0
51
RP-110227
0814

S1 Release for LIPA Bearer
10.1.0
51
RP-110230
0815
2
Support for MDT
10.1.0
51
RP-110236
0820
1
Advertising support to RNs at the MME
10.1.0
51
RP-110225
0823
1
Introduction of SPID into DOWNLINK NAS TRANSPORT message
10.1.0
51
RP-110226
0824
2
NNSF Abbreviation and other Editorials
10.1.0
51
RP-110226
0827
2
Clarification on TEID value range for S1AP
10.1.0
51
RP-110222
0833
2
Correction of Write Replace Warning abnormal condition
10.1.0
51
RP-110226
0839

Correction of the name for Time Synchronization Info IE
10.1.0
51
RP-110226
0840
1
Typo correction in Message Type IE table
10.1.0
51
RP-110231
0848
1
Correction of Source MME GUMMEI IE criticality in PATH SWITCH REQUEST message
10.1.0
51
RP-110226
0852
1
Correction of Duplicated Warning Messages
10.1.0
51
RP-110234
0854
1
Introduction of MTC Overload Support
10.1.0
51
RP-110231
0857
3
Correction of Mobility to Open HeNBs
10.1.0
51
RP-110226
0860

S1AP Procedure Text General Clean-up
10.1.0
51
RP-110225
0863

Correction to the Semantics Description of TAC
10.1.0
51
RP-110226
0864

Introduction of a Stepwise Load Reduction Indication for the Overload procedure in Stage 3
10.1.0
52
RP-110695
0865
1
MDT correction for TAI
10.2.0
52
RP-110688
0870
1
Usage of the transparent containers for SRVCC
10.2.0
52
RP-110688
0871
1
Removal of DTM capability for UTRAN PS HO
10.2.0
52
RP-110687
0874
1
UE context release correction
10.2.0
52
RP-110700
0878

Correction to the semantic description of Cell Load Reporting Cause IE
10.2.0
52
RP-110682
0885
1
Correction of Target ID
10.2.0
52
RP-110689
0886
2
Review of Initial Context Setup
10.2.0
52
RP-110689
0887

Correction of SPID
10.2.0
52
RP-110689
0889
1
Overload Consistency Handling
10.2.0
52
RP-110689
0892
2
Clarification of “Redirection towards 1xRTT” cause code
10.2.0
52
RP-110695
0900
3
Support for MDT user consent
10.2.0
52
RP-110684
0903

Correction of References
10.2.0
52
RP-110686
0904
2
General clean-up before Rel-10 ASN.1 closure
10.2.0
52
RP-110698
0905
1
Clarification of MME,HeNB GW and Relay Node functions
10.2.0
52
RP-110687
0910
3
Error Handling for LIPA
10.2.0
52
RP-110695
0911
2
MDT amendments
10.2.0
52
RP-110695
0912
1
Correction of trace function and trace session
10.2.0
52
RP-110714
0913
2
Remove the UE context in the source HeNB-GW after HeNB-HeNB X2 HO
10.2.0
53
RP-111197
0914

Correction on the Order of Transparent Containers
10.3.0
53
RP-111196
0919
1
Correction of an ASN.1 typo regarding ManagementBasedMDTAllowed
10.3.0
53
RP-111197
0923
1
Data Forwarding correction
10.3.0
53
RP-111195
0924
2
Definition of value of bit in Measurements to Activate
10.3.0
53
RP-111195
0927
1
Correction of RIM function decsription
10.3.0
53
RP-111196
0928
-
Missing procedure code for “Kill”
10.3.0
53
RP-111196
0930
1
Correction of Emergency Call
10.3.0
53
RP-111198
0933
2
Container Issue
10.3.0
53
RP-111196
0935
1
Correction of SRVCC
10.3.0
53
RP-111197
0940
-
Clarification on  PLMN Identity
10.3.0
54
RP-111648
0941

Definition of Maximum no. of candidate cells
10.4.0
54
RP-111651
0943

Correction of Emergency Call
10.4.0
54
RP-111651
0944

Correction of the annex on the processing of transparent containers at MME
10.4.0
54
RP-111648
0945
1
GW Context Release Indication correction
10.4.0
54
RP-111649
0954
3
Alignment on privacy requirements for MDT
10.4.0
55
RP-120233
0956
1
Corrections for SON Transfer RIM application
10.5.0
55
RP-120234
0969
2
Correct of reset
10.5.0
55
RP-120234
0978
2
Octet String for E-CGI
10.5.0
56
RP-120744
0980
-
Correction on ETWS and CMAS
10.6.0
06/2012



Rel-11 version created based on v 10.6.0
11.0.0
56
RP-120751
0981
-
Introduction of the Security Algorithm (ZUC)
11.0.0
56
RP-120752
0998
2
Correction on Emergency ARP Value
11.0.0
56
RP-120752
1007
1
Improved granularity for the time UE stayed in cell
11.0.0
56
RP-120747
1010
-
SON Transfer application for IRAT Network Energy Savings
11.0.0
57
RP-121140
1011
2
UE Radio Capability Match Indicator for Voice Continuity
11.1.0
57
RP-121140
1018

Correction of GUMMEI
11.1.0
57
RP-121138
1034
1
Corrections for IRAT Network Energy Savings
11.1.0
57
RP-121135
1041
2
Addition of HO cause value to the UE history information in S1AP
11.1.0
57
RP-121138
1044
1
Energy Saving UE Measurement (“Probing”)
11.1.0
58
RP-121730
1048
3
Introduction of new MDT measurements
11.2.0
58
RP-121736
1049

Verification of HeNB
11.2.0
58
RP-121732
1052
2
Membership verification during Path Switch Request procedure (Option A)
11.2.0
58
RP-121737
1056
1
Rapporteur editorial corrections
11.2.0
58
RP-121737
1057

Rapporteur correction of constants’ names
11.2.0
58
RP-121730
1061
2
Multi-PLMN MDT
11.2.0
58
RP-121736
1062

Correction of Capability Match Request
11.2.0
58
RP-121731
1068
2
Introduce support for Inter-RAT MRO
11.2.0
58
RP-121739
1074
2
New Information for BBF access
11.2.0
58
RP-121736
1075
1
Establishment of UE-associated logical S1-connection in eNB
11.2.0
02/2013



History table update
11.2.1
59
RP-130211
1095
-
Correction of GUMMEI Type Criticality
11.3.0
59
RP-130211
1097
2
ASN.1 review for S1AP
11.3.0
59
RP-130211
1100
1
Clarification of Warning Area List IE
11.3.0
59
RP-130212
1106
2
Invalidation of ETWS with security feature
11.3.0
59
RP-130211
1108
3
Correction of Classmark Encoding
11.3.0
59
RP-130210
1109
1
S1AP modification for PDCP SN extension
11.3.0
60
RP-130641
1110
1
Correction for the MDT Location Information IE
11.4.0
60
RP-130643
1111

Correction of the presence of the X2 TNL Configuration Info IE inside the SON Configuration Transfer IE tabular definition
11.4.0
60
RP-130643
1116
1
Correction of Kill
11.4.0
61
RP-131182
1127
1
Correction on LPPa Signalling Transport Function to support UTDOA
11.5.0
61
RP-131183
1140
2
Correction of terminology concerning the mobility restriction function
11.5.0
62
RP-131902
1147
3
Correction of Handover Restriction List
11.6.0
62
RP-131902
1150
1
Correction for Load Balancing Related cause value CR for 36413
11.6.0
62
RP-131901
1153
4
Correction on CSFB high priority indication
11.6.0
62
RP-131902
1164
1
Correction of UE Radio Capability Match
11.6.0
62
RP-131909
1128
4
Introduction of Collocated L-GW for SIPTO@LN
12.0.0
62
RP-131910
1143
3
Kill All Warning Messages
12.0.0
62
RP-131979
1166
1
Update of reference to 3GPP2 specification
12.0.0
62
RP-131909
1171
1
Introduction of SIPTO@LN Stand-Alone in S1AP
12.0.0
63
RP-140296
1151
6
Introduce support for load reporting between LTE and eHRPD
12.1.0
63
RP-140297
1163
3
Reporting of User Location Information at E-RAB release
12.1.0
63
RP-140297
1180
1
New CSFB high priority indication for eMPS and emergency call
12.1.0
63
RP-140298
1181
1
Introduction of Restart Indication for PWS
12.1.0
63
RP-140295
1196
2
Correction of contradictions for kill-all functionality
12.1.0
64
RP-140906
1179
3
Provide IMEISV to eNB to identify UE characteristics
12.2.0
64
RP-140897
1185
4
Enhance TNL Address Discovery procedure for X2 GW
12.2.0
64
RP-140894
1191
4
Correction of SRVCC to GERAN
12.2.0
64
RP-140902
1200
1
Correction on Kill-all Warning Messages Indicator
12.2.0
64
RP-140903
1208
1
Correction of OCTET STRING for eHRPD Sector ID
12.2.0
64
RP-140905
1215
1
Correction of MME STATUS TRANSFER
12.2.0
64
RP-140905
1220
-
Correction on Inter-RAT Cell ID in SON Transfer
12.2.0
65
RP-141520
1216
2
Introduction of the UE history reported from the UE
12.3.0
65
RP-141522
1219
5
Introduction of MBMS MDT
12.3.0
65
RP-141518
1231
2
Introduction of an indication of the expected UE behaviour
12.3.0
65
RP-141513
1243
2
Correction of Transparent Container encoding for PS Handover to GERAN
12.3.0
65
RP-141514
1246
2
Correction of Transparent Containers usage in annex C
12.3.0
65
RP-141521
1255
1
Paging enhancements for Low Complexity UE
12.3.0
66
RP-142082
1198
9
Addition of RLF reporting over S1
12.4.0
66
RP-142089
1214
8
Introduction of Dual Connectivity
12.4.0
66
RP-142093
1238
2
Rapporteur Review
12.4.0
66
RP-142088
1257
8
Enabling Radio Interface based Synchronisation via S1 Signalling
12.4.0
66
RP-142095
1274
2
HO Report Enhancements to reduce IRAT configuration
12.4.0
67
RP-150353
1230
6
ProSe UE Authorization in S1AP
12.5.0
67
RP-150356
1276
1
Corrections of SON configuration transfer
12.5.0
67
RP-150356
1281
2
Rapporteur Review-ASN.1 consistency check
12.5.0
67
RP-150352
1285
2
Correction of reloading PWS Alerts
12.5.0
68
RP-150943
1289
2
Add indication in the E-RAB MODIFICATION CONFIRM for E-RAB(s) that shall be released
12.6.0
68
RP-150943
1293

Adding Criticality Diagnostics in E-RAB Modification Confirm message
12.6.0
68
RP-150944
1305
3
Masked IMEISV IE correction
12.6.0
68
RP-150943
1310
1
Correction of Muting procedure
12.6.0
68
RP-150944
1311
2
Correction of PWS Broadcast Completed Area List
12.6.0
68
RP-150944
1312
1
Updating SRVCC Operation Possible in EUTRAN
12.6.0
06/2015



Rel-13 version created based on v 12.6.0
13.0.0
68
RP-150945
1303
2
eNB behaviour for IRAT handovers in AAS
13.0.0
70
RP-152100
1315
6
ProSe UE Relaying Support in S1AP
13.1.0
70
RP-152099
1345
2
Extension of PDCP SN
13.1.0
70
RP-152102
1348
4
Adding CSG support to DC
13.1.0
70
RP-152096
1362
4
Introduction of Dedicated Core Network (DCN) feature
13.1.0
70
RP-152102
1368
1
Support of SIPTO and LIPA for DC
13.1.0
70
RP-152103
1369
3
Introduction of feMDT
13.1.0
70
RP-152102
1372
-
Tunnel Information of BBAI in Dual Connectivity
13.1.0
70
RP-152108
1373
2
Introduction of PWS Failure Indication message
13.1.0
71
RP-160442
1377
2
Introduction of Paging Optimisation and Paging for Coverage Enhancement capable UEs
13.2.0
71
RP-160447
1387
1
Addition of new RRC establishment cause to S1AP for VoLTE
13.2.0
71
RP-160443
1388
2
Introduction of eDRX parameters in the paging message
13.2.0
71
RP-160449
1398

Rapporteur Review on 36.413
13.2.0
71
RP-160449
1401
2
UE context retention at SCTP recovery
13.2.0
71
RP-160448
1403
1
Providing UE Usage Type in Dedicated Core Network Reroute NAS Request procedure
13.2.0
71
RP-160451
1408
2
Correction on CSG support in DC enhancement
13.2.0
71
RP-160442
1411
2
Introduction of new UE Identity in the paging message
13.2.0
72
RP-161042
1383
11
Introduction of the UE Context Resume function
13.3.0
72
RP-161042
1393
7
Introduction of common impacts of NB-IoT solutions
13.3.0
72
RP-161042
1410
5
Introduction Control Plane CIoT EPS Optimization
13.3.0
72
RP-161043
1415
3
Indication of Bearer Type over S1 for cIOT
13.3.0
72
RP-161042
1420
4
Indication of RAT Type
13.3.0
72
RP-160959
1426
1
Additional eDRX cycle value
13.3.0
72
RP-161047
1428
2
Handling of GUMMEI in overload procedures
13.3.0
72
RP-161047
1429
2
On Paging Time Window unit
13.3.0
73
RP-161549
1435
1
Correction on CSG support in Dual Connectivity
13.4.0
73
RP-161550
1438
1
Introduction of CE mode B support indicator
13.4.0
73
RP-161551
1439
1
Correction on NB-IoT inter node RRC containers
13.4.0
73
RP-161551
1440
1
Introduction of NB-IoT UE Identity Index Value in Paging
13.4.0
73
RP-161550
1458
1
Correction to enable update of SRVCC capability for emergency call
13.4.0
09/2016



Rel-14 version created based on v 13.4.0
14.0.0
73
RP-161552
1418
5
Vehicular Authorization Signaling over S1
14.0.0
74
RP-162337
1470
-
Clarification on V2X Services Authorized IE
14.1.0
74
RP-162340
1481
1
Correction to UE Context Resume Request
14.1.0

Change history
Date
Meeting
TDoc
CR
Rev
Cat
Subject/Comment
New version
2017-03
75
RP-170544
1480
5
B
Introduction of eDECOR in RAN
14.2.0
2017-03
75
RP-170540
1490
1
B
Overload control for CP CIoT EPS optimization
14.2.0
2017-03
75
RP-170539
1495
-
C
Handling of NB-IOT UE capabilities
14.2.0
2017-03
75
RP-170540
1499
1
B
Reliable DL NAS delivery based on hop-by-hop acknowledgements
14.2.0
2017-03
75
RP-170541
1500
-
B
Support of Redirection for VoLTE
14.2.0
2017-03
75
RP-170538
1501
-
B
Support of V2X over S1
14.2.0
2017-03
75
RP-170542
1502
-
B
Introduction of New types of eNB ID
14.2.0
2017-03
75
RP-170539
1505
-
B
Introduction of coverage level for location service
14.2.0
2017-03
75
RP-170539
1506

B
Introduction of Coverage Enhancement Authorization
14.2.0
2017-03
75
RP-170319
1507
1
B
Introduction of S1 UE information retrieve procedure
14.2.0
2017-06
76
RP-171329
1504
3
A
Correction on the presence of Extended UE Identity Index Value
14.3.0
2017-06
76
RP-171329
1509
2
A
Correction on Overload action for exception reporting
14.3.0
2017-06
76
RP-171323
1510

F
Impact on paging from NB-IoT enhancements
14.3.0
2017-06
76
RP-171329
1515

A
Correction of missing security information in Suspend and Resume messages
14.3.0
2017-06
76
RP-171323
1517
2
F
Correction on UE-AMBR for NB-IoT UE using CP solution
14.3.0
2017-06
76
RP-171329
1520

A
Correction to Path Switch Request for RRC Resume Cause
14.3.0
2017-06
76
RP-171323
1521
3
B
Support of RLF for CP CIoT Optimisation
14.3.0
2017-09
77
RP-171974
1523
-
F
Correction of the mismatched code points of overload action
14.4.0
2017-09
77
RP-171975
1530
1
F
Remove the description of Inter RAT Redirection value for MMTEL
14.4.0
2017-09
77
RP-171974
1534
-
F
S1AP Cause for E-UTRAN Pre-emption operations
14.4.0
2017-12
78
RP-172672
1524
6
B
Baseline CR to TS 36.413 covering agreements of RAN3 #98
15.0.0
2017-12
78
RP-172674
1543
2
B
Introduction of QoE Measurement Collection for LTE
15.0.0
2018-03
79
RP-180468
1558
-
F
Add NR UE Security Capabilities to DL NAS Transport message
15.1.0
2018-03
79
RP-180468
1559
1
F
Clarification and correction on S1 for EN-DC
15.1.0
2018-03
79
RP-180473
1562
-
A
Correct ASN.1 error for NAS DELIVERY INDICATION
15.1.0
2018-03
79
RP-180472
1563
2
B
Support for unlicensed access as secondary RAT in S1AP
15.1.0
2018-03
79
RP-180473
1567
1
A
Stage-3 impacts to support "voice centric" UE in CE mode B
15.1.0
2018-03
79
RP-180473
1569
-
A
Enhanced Coverage Restricted Indication for Paging
15.1.0
2018-03
79
RP-180472
1571
2
F
MDT correction
15.1.0
2018-03
79
RP-180468
1575
-
F
Add missing range for secondary RAT data volume
15.1.0
2018-06
80
RP-181241
1547
6
B
Support of Enhanced VoLTE Performance
15.2.0
2018-06
80
RP-181241
1572
3
C
Introduction of QMC for MTSI in EUTRAN
15.2.0
2018-06
80
RP-181241
1574
3
B
Triggering UE capability info retrieval using DL NAS TRANSPORT
15.2.0
2018-06
80
RP-181237
1576
4
B
Introduction of SA NR (36.413 Baseline CR covering RAN3 agreements)
15.2.0
2018-06
80
RP-181242
1578
4
B
Introduction of early data transmission
15.2.0
2018-06
80
RP-181241
1580
2
B
Introduction of LTE-M (eMTC) traffic Differentiation
15.2.0
2018-06
80
RP-181243
1587
3
B
Baseline CR: Introduction of the Aerial Usage Indication
15.2.0
2018-06
80
RP-181244
1590
-
A
Clarification on Connection Establishment Indication procedure scenarios
15.2.0
2018-06
80
RP-181241
1594
1
F
Correction of applicability of Secondary RAT Data Usage report for LAA, LWA and LWIP
15.2.0
2018-09
81
RP-181920
1600
2
F
Correction of Secondary RAT Data Usage Report
15.3.0
2018-09
81
RP-181922
1601
2
F
NR Corrections (36.413 Baseline CR covering RAN3-101 agreements)
15.3.0
2018-09
81
RP-181923
1608
1
F
Introduction of Warning Area Coordinates in S1AP: WRITE-REPLACE WARNING REQUEST
15.3.0
2018-09
81
RP-181923
1611
-
F
Correction on target NG-RAN Node ID
15.3.0
2018-09
81
RP-181921
1612
1
F
Access Restriction Data for NR in EPC
15.3.0
2018-09
81
RP-181926
1616
1
A
Pending Data Indication
15.3.0
2018-09
81
RP-181924
1617
1
B
CR to S1AP to introduce Bluetooth and WLAN measurement in MDT
15.3.0
2018-09
81
RP-182115
1619
3
B
Introduction of Subscription based UE differentiation
15.3.0
2018-12
RP-82
RP-182446
1630
1
F
Correction on Handover Type
15.4.0
2018-12
RP-82
RP-182451
1641
1
A
Pending Data Indication
15.4.0
2019-03
RP-83
RP-190556
1644
2
F
Extending GUMMEI Type
15.5.0
2019-03
RP-83
RP-190556
1647
2
F
Correction of EPC interworking
15.5.0
2019-03
RP-83
RP-190555
1649
2
F
Transfer of the PSCell information to Core Network
15.5.0
2019-03
RP-83
RP-190559
1651
-
F
Correction on Initial UE Message to include EDT for MTC
15.5.0
2019-03
RP-83
RP-190556
1652
-
F
Change of Interfaces to Trace IE in S1AP
15.5.0
2019-03
RP-83
RP-190558
1659
1

Addition of procedural text for Warning Area Coordinates IE
15.5.0
2019-03
RP-83
RP-190561
1662
-
F
Introduction of TNL Address discovery for EN-DC (using new container)
15.5.0
2019-07
RP-84
RP-191397
1664
1
F
Correction of Core Network Type Restrictions
15.6.0
2019-07
RP-84
RP-191397
1665
1
F
5G to 4G Handover with non eligible PDU sessions
15.6.0
2019-07
RP-84
RP-191394
1680
1
F
Adding PSCell to the User Location Information
15.6.0
2019-07
RP-84
RP-191400
1686


A
NB-IoT Correction: inconsistent between tabular and ASN.1
15.6.0
2019-09
RP-85
RP-192166
1688
1
F
CR for addressing Race condition between X2 and S1
15.7.0
2019-09
RP-85
RP-192169
1694
1
F
S1AP Introduction of New Indicator for EPS Fallback
15.7.0
2019-09
RP-85
RP-192167
1700
2
F
Update of TNL Address discovery for EN-DC (using new container)
15.7.0
2019-09
RP-85
RP-192167
1703
2
F
Enabling additional PSCell reporting and time since EN-DC was deconfigured
15.7.0
2019-09
RP-85
RP-192166
1707
2
 F
Correction to EN-DC TNL address discovery
15.7.0
2019-10





Editorial Correction to ASN1: Adding a missing comma after "id-IMSvoiceEPSfallbackfrom5G"
15.7.1
2019-12
RP-86
RP-192916
1734
2
F
Addition of Handover Restriction List to PATH SWITCH REQUEST ACKNOWLEDGE message
15.8.0
2019-12
RP-86
RP-192916
1737

F
CR for Clarification on purpose of  path switch request
15.8.0
2019-12
RP-86
RP-192913
1643
8
B
Temporary Identifier usage at interworking
16.0.0
2019-12
RP-86
RP-192913
1669
5
B
Introduction of Additional RRM Policy Index (ARPI)
16.0.0
2019-12
RP-86
RP-192913
1670
5
F
ERROR INDICATION Message in S1AP 
16.0.0
2019-12
RP-86
RP-192913
1690
3
F
Introduction of inter UE QoS in CP relocation scenario
16.0.0
2020-03
RP-87-e
RP-200422
1730
2
B
Introduction of NR-U
16.1.0
2020-03
RP-87-e
RP-200419
1738
1
B
SA to EN DC handover and direct forwarding with shared SgNB/gNB
16.1.0
2020-03
RP-87-e
RP-200425
1745
1
F
PSCell information report for EN-DC
16.1.0
2020-03
RP-87-e
RP-200423
1746
1
B
Signalling UE capability identity
(The CR is not implemented. The CR was marked agreed by mistake while the WI is not yet complete)
16.1.0
2020-07
RP-88-e
RP-201077
1661
13
B
BL CR to 36.413: Support for IAB
16.2.0
2020-07
RP-88-e
RP-201086
1682
13
B
Introduction of MT Early Data Transmission
16.2.0
2020-07
RP-88-e
RP-201079
1691
9
B
Support of Ethernet Type Bearer
16.2.0
2020-07
RP-88-e
RP-201074
1709
10
B
Support of NR V2X over S1
16.2.0
2020-07
RP-88-e
RP-201082
1710
10
B
Addition of SON features
16.2.0
2020-07
RP-88-e
RP-201088
1741
4
B
Support of RLF in NB-IoT
16.2.0
2020-07
RP-88-e
RP-201078
1746
5
B
Signalling UE capability identity
16.2.0
2020-07
RP-88-e
RP-201082
1747
4
B
MDT support for EN-DC
16.2.0
2020-07
RP-88-e
RP-201089
1760
5
B
Baseline CR for introducing Rel-16 LTE further mobility enhancements 
16.2.0
2020-07
RP-88-e
RP-201086
1762
3
B
Support of WUS Group
16.2.0
2020-07
RP-88-e
RP-201088
1765
3
B
Support NB-IoT UE Specific DRX
16.2.0
2020-07
RP-88-e
RP-201092
1767
2
A
Correction of connected en-gNBs
16.2.0
2020-07
RP-88-e
RP-201091
1769
2
A
Corrected handling of Selected TAI for TNL discovery for EN-DC
16.2.0
2020-07
RP-88-e
RP-201092
1774
3
A
Correction the NCC for 5G to 4G handover
16.2.0
2020-09
RP-89-e
RP-201951
1786

 F
 Correction of LTE-M Indication
16.3.0
2020-09
RP-89-e
RP-201948
1787
-
F
Correction the NR Sidelink AMBR in ASN.1 definition
16.3.0
2020-09
RP-89-e
RP-201954
1792
1
A
No N26 interface cause value
16.3.0
2020-09
RP-89-e
RP-201948
1793
-
D
Rapporteur cleanup of S1AP
16.3.0
2020-12
RP-90-e
RP-202312
1796
1
F
Introducing UE radio capability ID in Connection Establishment Indication
16.4.0
2020-12
RP-90-e
RP-202312
1799

F
Enabling URI configuration within Trace Activation over S1
16.4.0
2021-03
RP-91-e
RP-210238
1801
1
F
Correction of IMS Voice Emergency Indicator
16.5.0
2021-03
RP-91-e
RP-210237
1802
2
F
Correction on RAT Type Handling
16.5.0
2021-06
RP-92-e
RP-211333
1816
1
F
Cause value on S1AP for insufficient UE capabilities CR 36.413
16.6.0
2021-06
RP-92-e
RP-211332
1819
1
F
Correction of IMS voice EPS fallback from 5G
16.6.0
2021-09
RP-93-e
RP-211874
1817
3
F
Correcting assigned criticality for IEs in transparent handover containers
16.7.0
2021-12
RP-94-e
RP-212862
1824
2
F
S1AP Cause value for exceeding the bearer pre-emption rate limitation 
16.8.0
2021-12
RP-94-e
RP-212868
1840
1
F
(S1AP CR) support the UE Radio Capability for Paging in RACS context 
16.8.0
2022-03
RP-95-e
RP-220278
1838
1
F
Dynamic ACL over S1 CR 36.413
16.9.0
2022-03
RP-95-e
RP-220283
1866
1
F
Clarification of the usage of an IE in case of DAPS HO
16.9.0
2022-03
RP-95-e
RP-220243
1868
2
F
Direct data forwarding for mobility between DC and SA
16.9.0
2022-03
RP-95-e
RP-220284
1870
1
A
Misalignment on M8 and M9 measurement configurations
16.9.0
2022-03
RP-95-e
RP-220280
1871

F
Correction of maxNARFCN in ASN.1
16.9.0
2022-06
RP-96
RP-221150
1879
1
F
Dynamic ACL over S1 CR 36.413
16.10.0
2022-06
RP-96
RP-221157
1889
1
F
Data forwarding address allocation for handover to EN-DC
16.10.0
2022-06
RP-96
RP-221157
1890
1
F
Direct data forwarding for mobility from MR-DC to eNB
16.10.0

