Content for TR 37.910 Word version: 18.0.0
3 Definitions, symbols and abbreviations
4 Introduction
5 Self evaluation of eMBB technical performance
6 Self evaluation of URLLC technical performance
7 Self evaluation of mMTC technical performance
8 Self evaluation of generic requirements
9 Conclusion
A Calibration for self evaluation
B Simulation models and assumptions
C ITU-R Submission Templates for IMT-2020
$ Change history
3 Definitions, symbols and abbreviations p. 9
4 Introduction p. 10
5 Self evaluation of eMBB technical performance p. 10
5.1 Peak spectral efficiency p. 11
5.2 Peak data rate p. 16
5.2.1 NR p. 16
5.2.1.1 DL peak data rate p. 16
5.2.1.2 UL peak data rate p. 17
5.2.2 LTE p. 18
5.2.2.1 DL peak data rate p. 18
5.2.2.2 UL peak data rate p. 18
5.3 5th percentile user spectral efficiency p. 18
5.4 Average spectral efficiency p. 18
5.4.1 NR p. 18
5.4.1.1 Indoor Hotspot - eMBB p. 19
5.4.1.1.1 Evaluation configuration A (CF = 4 GHz) p. 19
5.4.1.1.2 Evaluation configuration B (CF = 30 GHz) p. 25
5.4.1.2 Dense Urban - eMBB p. 29
5.4.1.2.1 Evaluation configuration A (CF = 4 GHz) p. 29
5.4.1.2.2 Evaluation configuration B (CF=30 GHz) p. 35
5.4.1.3 Rural - eMBB p. 36
5.4.2 LTE p. 48
5.5 User experienced data rate p. 54
5.6 Area traffic capacity p. 63
5.7 Latency p. 69
5.7.1 User plane latency p. 69
5.7.1.1 NR p. 69
5.7.1.1.1 Downlink p. 70
5.7.1.1.2 Uplink p. 73
5.7.1.2 LTE p. 77
5.7.1.2.1 Downlink p. 77
5.7.1.2.2 Uplink p. 78
5.7.2 Control plane latency p. 80
5.7.2.1 NR p. 80
5.7.2.2 LTE p. 85
5.8 Energy efficiency p. 89
5.9 Mobility p. 97
5.9.1 NR p. 97
5.9.1.1 Indoor Hotspot - eMBB p. 97
5.9.1.1.1 Evaluation configuration A (CF = 4 GHz) p. 97
5.9.1.1.2 Evaluation configuration B (CF = 30 GHz) p. 98
5.9.1.2 Dense Urban - eMBB p. 99
5.9.1.2.1 Evaluation configuration A (CF = 4 GHz) p. 99
5.9.1.2.2 Evaluation configuration B (CF = 30 GHz) p. 100
5.9.1.3 Rural - eMBB p. 101
5.9.2 LTE p. 103
5.10 Mobility interruption time p. 106
5.10.1 NR p. 106
5.10.2 LTE p. 106
6 Self evaluation of URLLC technical performance p. 109
6.1 Reliability p. 109
6.1.1 NR p. 109
6.1.1.1 DL reliability p. 109
6.1.1.2 UL reliability p. 111
6.2 Latency p. 115
6.2.1 User plane latency p. 115
6.2.1.1 NR p. 115
6.2.1.2 LTE p. 115
6.2.2 Control plane latency p. 115
6.3 Mobility interruption time p. 115
7 Self evaluation of mMTC technical performance p. 116
7.1 Connection density p. 116
8 Self evaluation of generic requirements p. 119
9 Conclusion p. 125
A Calibration for self evaluation p. 126
B Simulation models and assumptions p. 129
B.1 Calculation of pre-processing SINR p. 129
B.2 Link level assumption for mobility evaluation p. 131
B.2.1 Scaling factor for link level channel model p. 131
B.2.2 TXRU pattern and inter-port spacing in link level simulation p. 134
B.3 Evaluation assumption for peak spectral efficiency and peak data rate p. 135
B.3.1 Evaluation assumption for NR p. 135
B.3.1.1 NR downlink p. 135
B.3.1.2 NR uplink p. 136
B.3.2 Evaluation assumption for LTE p. 137
B.3.2.1 LTE downlink p. 137
B.3.2.2 LTE uplink p. 138
B.4 Detailed assumptions and evaluation results for simulation related technical performance requirements p. 139
B.4.1 Detailed assumptions and results for average and 5th percentile user spectral efficiency p. 139
B.4.2 Detailed assumptions and results for mobility p. 139
B.4.3 Detailed assumptions and results for user experienced data rate p. 139
B.4.4 Detailed assumptions and results for reliability p. 139
B.4.5 Detailed assumptions and results for connection density p. 139
B.5 Simulation results of spectral efficiency for Configuration B in Dense Urban - eMBB with modified ITU-R assumptions (for information only) p. 140
B.6 Simulation results of Configuration C for Indoor Hotspot - eMBB test environment (for information only) p. 142
C ITU-R Submission Templates for IMT-2020 p. 145
C.1 Description template - characteristics p. 145
C.2 Description template - link budget p. 145
C.3 Compliance templates for services, for spectrum, for technical performance p. 145
$ Change history p. 146
