6.2.1  ETWS  p. 140

6.2.2  CMAS |R9|  p. 140

6.2.3  KPAS |R10|  p. 140

6.2.4  EU-Alert |R11|  p. 140

6.3.1  MBMS Service Continuity |R11|  p. 140

6.3.2  MBMS reception with 256QAM |R12|  p. 140

6.3.3  PBCH repetition in CAS |R16|  p. 140

6.3.4  PDCCH AL16 for CAS in MBMS-dedicated cell |R16|  p. 141

6.3.5  Semi-static CFI indication in MIB |R16|  p. 141

6.3.6  MBMS reception using Receive Only Mode |R15|  p. 141

6.5.0  Void

6.5.1  Void

6.6.1  MMSE with IRC receiver  p. 141

6.6.2  MMSE with IRC receiver for PDSCH transmission mode 9  p. 141

6.6.3  Single-user MIMO interference mitigation advanced receiver for UEs with 2 receiver antenna ports |R14|  p. 141

6.6.4  Single-user MIMO interference mitigation advanced receiver for UEs with 4 receiver antenna ports |R14|  p. 141

6.6.5  MMSE-IRC DL Control Channel interference mitigation receiver for UEs with 4 receiver antenna ports |R14|  p. 142

6.7.1  RRC Connection Reject with deprioritisation  p. 142

6.7.2  RRC Connection Establishment Failure Temporary Qoffset |R12|  p. 142

6.7.3  mo-VoiceCall establishment cause for mobile originating MMTEL video |R14|  p. 142

6.7.4  mo-VoiceCall establishment cause for mobile originating MMTEL voice |R12|  p. 142

6.7.5  RRC Connection Re-establishment for the Control Plane CIoT EPS Optimization |R14|  p. 142

6.7.6  Void

6.8.1  System Information Block Type 16  p. 142

6.8.2  QCI1 indication in Radio Link Failure Report |R13|  p. 142

6.8.3  Enhanced random access power control |R14|  p. 142

6.8.4  MO-EDT for Control Plane CIoT EPS Optimization |R15|  p. 143

6.8.5  Void

6.8.6  Enhanced PHR |R15|  p. 143

6.8.7  Void

6.8.8  Resynchronization Signals |R15|  p. 143

6.8.9  Measurement gaps for higher UE velocity |R15|  p. 143

6.8.10  MT-EDT for Control Plane CIoT EPS Optimisation |R16|  p. 143

6.8.11  MT-EDT for User Plane CIoT EPS Optimisation |R16|  p. 143

6.8.12  Void

6.8.13  Reduced MIB/SIB1-BR acquisition time |R15|  p. 143

6.8.14  High speed dedicated network features |R15|  p. 143

6.8.15  Carrier specific NRSRP thresholds for NPRACH resource selection |R16|  p. 143

6.8.16  Protection against improper reselection to GERAN/UTRAN |R18|  p. 144

6.8.17  Inter-RAT cell reselection of an NR mobile IAB cell |R18|  p. 144

6.10.1  Radio Link Failure Report for inter-RAT MRO  p. 144

6.10.2  Radio Link Failure Report for NB-IoT |R16|  p. 144

6.10.3  Radio Link Failure Report for inter-RAT MRO NR |R16|  p. 144

6.10.4  LTE RLF report for voice fallback in LTE |R18|  p. 144

6.11.1  Mobility history information storage  p. 144

6.13.1  Sidelink Relay UE operation  p. 144

6.13.2  Sidelink Remote UE operation  p. 145

6.13.3  Sidelink discovery gap  p. 145

6.13.4  Enhanced sidelink resource selection |R15|  p. 145

6.13.5  Short-term time-scale TDM for in-device coexistence |R16|  p. 145

6.14.1  Extended DRX in RRC_IDLE  p. 145

6.15.1  Redistribution in RRC_IDLE  p. 145

6.16.1  SC-PTM in Idle mode  p. 145

6.16.2  Multiple TB scheduling for SC-PTM in Idle mode for NB-IoT |R16|  p. 145

6.16.3  Multiple TB scheduling for SC-PTM in Idle mode for CE Mode A |R16|  p. 145

6.16.4  Multiple TB scheduling for SC-PTM in Idle mode for CE Mode B |R16|  p. 146

6.17.1  Relaxed monitoring  p. 146

6.17.2  DL channel quality reporting in Msg3 for the anchor carrier  p. 146

6.17.3  Serving cell idle mode measurements reporting  p. 146

6.17.4  NSSS-Based RRM measurements |R15|  p. 146

6.17.5  NPBCH-Based RRM measurements |R15|  p. 146

6.17.6  RRM measurements on non-anchor paging carriers |R16|  p. 146

6.17.7  NRS presence on non-anchor paging carriers |R16|  p. 146

6.17.8  DL channel quality reporting in Msg3 for non-anchor carrier |R16|  p. 146

6.17.9  Assistance information for inter-RAT cell selection to/from NB-IoT |R16|  p. 146

6.17.10  DL channel quality reporting in Msg3 |R16|  p. 147

6.17.11  Relaxed RRM measurements |R16|  p. 147

6.17.12  RSS based measurement improvement |R16|  p. 147

6.17.13  RSS based measurement in paging MPDCCH narrowband |R16|  p. 147

6.18.1  Void

6.18.2  Void

6.18.3  RRC Connection Re-establishment for the Control Plane CIoT 5GS Optimisation  p. 147

6.18.4  NB-IoT/5GC  p. 147

6.18.5  MO-EDT for Control Plane CIoT 5GS Optimisation  p. 147

6.18.6  AS RAI  p. 147

6.18.7  Minimization of service interruption |R17|  p. 148

6.19.1  Cell reselection measurements triggering based on service time  p. 148

6.19.2  Discontinuous coverage  p. 148

6.19.3  Early RLF triggering based on service time |R18|  p. 148

6.19.4  Neighbour cell measurements based on service start time of the neighbour cell |R18|  p. 148

6.19.5  UE autonomous release based on service time |R18|  p. 148

6.19.6  Cell reselection measurements triggering based on location for (quasi-)fixed cell |R18|  p. 148

6.19.7  Cell reselection measurements triggering based on location for earth moving cell |R18|  p. 148

6.19.8  GNSS measurements during inactive time |R18|  p. 149