Content for TS 36.133 Word version: 18.6.0
A Test Cases
A.1 Purpose of annex
A.2 Requirement classification for statistical testing
A.3 RRM test configurations
...
...
A (Normative) Test Cases p. 983
A.1 Purpose of annex p. 983
A.2 Requirement classification for statistical testing p. 983
A.3 RRM test configurations p. 985
A.3.1 Reference Measurement Channels p. 985
A.3.1.1 PDSCH p. 985
A.3.1.1.1 FDD p. 985
A.3.1.1.2 TDD p. 990
A.3.1.1.3 FDD for UE category 0 p. 993
A.3.1.1.4 HD-FDD for UE category 0 p. 994
A.3.1.1.5 TDD for UE category 0 p. 995
A.3.1.1.6 Frame Structure 3 p. 996
A.3.1.2 PCFICH/PDCCH/PHICH p. 997
A.3.1.2.1 FDD p. 997
A.3.1.2.2 TDD p. 997
A.3.1.2.3 HD-FDD for UE category 0 p. 998
A.3.1.2.4 FS 3 p. 998
A.3.1.3 MPDCCH Reference Channels for Cat-M1 UEs p. 998
A.3.1.3.1 FDD in CEModeA p. 999
A.3.1.3.2 HD-FDD in CEModeA p. 999
A.3.1.3.3 TDD in CEModeA p. 1000
A.3.1.3.4 FDD in CEModeB p. 1000
A.3.1.3.5 HD-FDD in CEModeB p. 1001
A.3.1.3.6 TDD in CEModeB p. 1001
A.3.1.4 PDSCH Reference Channel for Cat-M1 UEs p. 1002
A.3.1.4.1 FDD in CEModeA p. 1002
A.3.1.4.2 HD-FDD in CEModeA p. 1003
A.3.1.4.3 TDD in CEModeA p. 1004
A.3.1.4.4 FDD in CEModeB p. 1005
A.3.1.4.5 HD-FDD in CEModeB p. 1006
A.3.1.4.6 TDD in CEModeB p. 1006
A.3.1.5 NPDSCH Reference Channel for UE category NB1 p. 1007
A.3.1.5.1 HD-FDD in-band operation p. 1007
A.3.1.5.2 Void
A.3.1.5.3 HD-FDD standalone operation p. 1008
A.3.1.5.4 Void
A.3.1.5.5 HD-FDD guard band operation p. 1009
A.3.1.5.6 Void
A.3.1.5.7 TDD in-band operation p. 1010
A.3.1.5.8 TDD standalone operation p. 1010
A.3.1.5.9 TDD guard band operation p. 1011
A.3.1.6 NPDCCH Reference Channel for UE category NB1 p. 1011
A.3.2 OFDMA Channel Noise Generator (OCNG) p. 1013
A.3.2.1 OCNG Patterns for FDD p. 1013
A.3.2.1.1 OCNG FDD pattern 1: outer resource blocks allocation in 10 MHz p. 1014
A.3.2.1.2 OCNG FDD pattern 2: full bandwidth allocation in 10 MHz p. 1014
A.3.2.1.3 OCNG FDD pattern 3: outer resource blocks allocation in 1.4 MHz p. 1015
A.3.2.1.4 OCNG FDD pattern 4: full bandwidth allocation in 1.4 MHz p. 1016
A.3.2.1.5 OCNG FDD pattern 5: outer resource blocks allocation in 10 MHz (without MBSFN) p. 1016
A.3.2.1.6 OCNG FDD pattern 6: full bandwidth allocation in 10 MHz (without MBSFN) p. 1017
A.3.2.1.7 OCNG FDD pattern 7: full bandwidth allocation in 1.4 MHz (without MBSFN) p. 1017
A.3.2.1.8 OCNG FDD pattern 8: outer resource blocks allocation in 10 MHz for MBSFN ABS p. 1017
A.3.2.1.9 OCNG FDD pattern 9: full bandwidth allocation in 10 MHz for MBSFN ABS p. 1018
A.3.2.1.10 OCNG FDD pattern 10: outer resource blocks allocation in 10 MHz with user data in every subframe (without MBSFN) p. 1019
A.3.2.1.11 OCNG FDD pattern 11: outer resource blocks allocation in 20 MHz p. 1019
A.3.2.1.12 OCNG FDD pattern 12: full bandwidth allocation in 20 MHz p. 1020
A.3.2.1.13 OCNG FDD pattern 13: outer resource blocks allocation in 20 MHz (without MBSFN) p. 1020
A.3.2.1.14 OCNG FDD pattern 14: full bandwidth allocation in 20 MHz (without MBSFN) p. 1021
A.3.2.1.15 OCNG FDD pattern 15: outer resource blocks allocation in 5 MHz p. 1021
A.3.2.1.16 OCNG FDD pattern 16: full bandwidth allocation in 5 MHz p. 1022
A.3.2.1.17 OCNG FDD pattern 17: outer resource blocks allocation in 20 MHz with user data in every subframe (without MBSFN) p. 1022
A.3.2.1.18 OCNG FDD pattern 18: outer resource blocks allocation in 5 MHz (without MBSFN) p. 1023
A.3.2.1.19 OCNG FDD pattern 19: full bandwidth allocation in 5 MHz (without MBSFN) p. 1023
A.3.2.1.20 OCNG FDD pattern 20: outer resource blocks allocation in 5 MHz with user data in every subframe (without MBSFN) p. 1024
A.3.2.1.21 OCNG FDD pattern 21: Generic resource blocks allocation (without MBSFN) p. 1024
A.3.2.1.22 OCNG FDD pattern 22: Generic resource blocks allocation in 5MHz (without MBSFN) p. 1025
A.3.2.2 OCNG Patterns for TDD p. 1025
A.3.2.2.1 OCNG TDD pattern 1: outer resource blocks allocation in 10 MHz p. 1026
A.3.2.2.2 OCNG TDD pattern 2: full bandwidth allocation in 10 MHz p. 1026
A.3.2.2.3 OCNG TDD pattern 3: outer resource blocks allocation in 1.4 MHz p. 1027
A.3.2.2.4 OCNG TDD pattern 4: full bandwidth allocation in 1.4 MHz p. 1027
A.3.2.2.5 OCNG TDD pattern 5: outer resource blocks allocation in 10 MHz for MBSFN ABS p. 1028
A.3.2.2.6 OCNG TDD pattern 6: full bandwidth allocation in 10 MHz for MBSFN ABS p. 1029
A.3.2.2.7 OCNG TDD pattern 7: outer resource blocks allocation in 20 MHz p. 1030
A.3.2.2.8 OCNG TDD pattern 8: full bandwidth allocation in 20 MHz p. 1031
A.3.2.2.9 OCNG TDD pattern 9: outer resource blocks allocation in 5 MHz p. 1031
A.3.2.2.10 OCNG TDD pattern 10: full bandwidth allocation in 5 MHz p. 1032
A.3.2.2.11 OCNG TDD pattern 11: Generic resource blocks allocation (without MBSFN) p. 1033
A.3.2.3 OCNG Patterns for Narrowband IoT p. 1033
A.3.2.3.1 Narrowband IoT OCNG FDD pattern 1: In-band NB-IoT in 10 MHz EUTRAN cell p. 1035
A.3.2.3.2 Narrowband IoT OCNG FDD pattern 2: guard band NB-IoT in 10 MHz EUTRAN cell p. 1036
A.3.2.3.3 Narrowband IoT OCNG FDD pattern 3: standalone NB-IoT p. 1036
A.3.2.3.4 Narrowband IoT OCNG FDD pattern 4: In-band NB-IoT in 5 MHz EUTRAN cell p. 1037
A.3.2.3.5 Narrowband IoT OCNG FDD pattern 5: guard band NB-IoT in 5 MHz EUTRAN cell p. 1038
A.3.2.3.6 Narrowband IoT OCNG TDD pattern 1: In-band NB-IoT in 10 MHz EUTRAN cell p. 1039
A.3.2.3.7 Narrowband IoT OCNG TDD pattern 2: guard band NB-IoT in 10 MHz EUTRAN cell p. 1040
A.3.2.3.8 Narrowband IoT OCNG TDD pattern 3: standalone NB-IoT p. 1041
A.3.2.4 OCNG Patterns for V2X sidelink p. 1042
A.3.3 Reference DRX Configurations p. 1043
A.3.4 ABS Transmission Configurations p. 1044
A.3.4.1 Non-MBSFN ABS Transmission Configurations p. 1044
A.3.4.1.1 Non-MBSFN ABS Transmission, 1x2 antenna with PBCH p. 1044
A.3.4.1.2 Non-MBSFN ABS Transmission, 2x2 antenna without PBCH p. 1044
A.3.4.2 MBSFN ABS Transmission Configurations p. 1045
A.3.5 Impact of Reference Sensitivity Degradation with Carrier Aggregation on Test Cases p. 1046
A.3.6 Carrier Aggregation Test Cases with Different Channel Bandwidth Combinations p. 1047
A.3.6.1 Introduction p. 1047
A.3.7 Test Cases with Different Channel Bandwidths p. 1047
A.3.7.1 Introduction p. 1047
A.3.7.2 Principle of testing p. 1047
A.3.8 Antenna Configuration p. 1047
A.3.8.1 Antenna connection for 4 Rx capable UEs p. 1047
A.3.8.1.1 Introduction p. 1047
A.3.8.1.2 Principle of testing p. 1047
A.3.8.2 Antenna connection for 8 Rx capable UEs p. 1049
A.3.8.2.1 Introduction p. 1049
A.3.8.2.2 Principle of testing p. 1049
A.3.8.2.2.1 Single carrier tests p. 1049
A.3.8.2.2.2 Carrier aggregation and Dual connectivity tests p. 1050
A.3.8.2.2.3 Antenna connection for bands where 2RX is supported p. 1050
A.3.8.2.2.4 Antenna connection for bands where 4RX is supported p. 1050
A.3.8.2.2.5 Antenna connection for bands where 8RX is supported p. 1050
A.3.9 Carrier Aggregation Test Cases with Different Duplex Modes p. 1050
A.3.9.1 Introduction p. 1050
A.3.9.2 Principle of testing p. 1050
A.3.10 Carrier Aggregation Test Cases with Different CA Configurations p. 1051
A.3.10.1 Introduction p. 1051
A.3.10.2 Principle of testing p. 1051
A.3.11 Test Cases for Synchronous and Asynchronous Dual Connectivity p. 1051
A.3.11.1 Introduction p. 1051
A.3.11.2 Principle of Testing p. 1051
A.3.12 Proximity-based Services p. 1051
A.3.12.1 Introduction p. 1051
A.3.12.2 Reference DRX configurations for ProSe tests p. 1051
A.3.12.3 Test Cases with Different Channel Bandwidths p. 1052
A.3.12.3.1 Introduction p. 1052
A.3.12.3.2 Principle of testing p. 1052
A.3.12.4 Reference resource pool configurations for ProSe Direct Discovery p. 1052
A.3.12.5 Reference resource pool configurations for ProSe Direct Communication p. 1059
A.3.12.6 Reference Measurement Channels for ProSe Direct Discovery p. 1062
A.3.12.6.1 FDD p. 1062
A.3.12.7 Reference measurement channels for ProSe Direct Communication p. 1062
A.3.12.7.1 FDD p. 1062
A.3.12.8 ProSe Receive Traffic Generator p. 1063
A.3.13 Time Offset between Cells p. 1064
A.3.13.1 Introduction p. 1064
A.3.13.2 Definition p. 1064
A.3.14 Carrier Aggregation under operation with Frame Structure 3 Test Cases with Different Duplex Modes p. 1064
A.3.14.1 Introduction p. 1064
A.3.14.2 Principle of testing p. 1064
A.3.15 Dual connectivity test cases with different combination of duplex mode p. 1064
A.3.15.1 Introduction p. 1064
A.3.15.2 Principle of testing p. 1064
A.3.16 Reference PRACH Configurations p. 1065
A.3.17 Listen before talk model p. 1065
A.3.17.1 Introduction p. 1065
A.3.17.2 Definition p. 1065
A.3.18 Reference NPRACH Configurations p. 1066
A.3.19 Dual connectivity test cases with different bandwidth combinations p. 1067
A.3.19.1 Introduction p. 1067
A.3.19.2 Principle of testing p. 1067
A.3.20 Category M1 UE Test Cases p. 1068
A.3.20.1 Introduction p. 1068
A.3.20.2 Principle of Cat-M1 UE Testing p. 1068
A.3.20.3 Principle of Cat-M1 UE testing for inter-frequency RSTD measurement period requirements with measurement gaps p. 1069
A.3.21 V2V Sidelink Communication on Dedicated V2V Carrier p. 1070
A.3.21.1 Introduction p. 1070
A.3.21.2 Reference resource pool configurations for V2V Sidelink Communication p. 1070
A.3.21.3 Reference measurement channels for V2V Sidelink Communication p. 1071
A.3.22 Category 1bis UE Test Cases p. 1072
A.3.22.1 Introduction p. 1072
A.3.22.2 Principle of Category 1bis UE Testing p. 1072
A.3.23 Category NB2 UE Test Cases p. 1076
A.3.23.1 Introduction p. 1076
A.3.23.2 Principle of Category NB2 UE Testing p. 1076
A.3.24 V2X sidelink communication p. 1079
A.3.24.1 Introduction p. 1079
A.3.24.2 Reference resource pool configurations for V2X Sidelink Communication p. 1080
A.3.24.3 Reference measurement channels for V2X Sidelink Communication p. 1084
A.3.25 Category M2 UE Test Cases p. 1085
A.3.25.1 Introduction p. 1085
A.3.25.2 Principle of Cat-M2 UE Testing p. 1085
A.3.25.3 Principle of Cat-M2 UE testing for inter-frequency RSTD measurement period requirements with measurement gaps p. 1086
A.3.26 sTTI and processing time reduction test cases with different sTTI/processing time reduction scheme p. 1087
A.3.26.1 Introduction p. 1087
A.3.26.2 Principle of testing p. 1087
A.3.27 LTE INACTIVE Cell Re-selection Test Cases p. 1087
A.3.28 Reference configurations for satellites p. 1087
