Content for TR 38.828 Word version: 16.1.0
A Detailed simulation results for non-zero grid shift
A.1 FR1
A.2 FR2
B Detailed analysis for zero grid shift
C Change history
A Detailed simulation results for non-zero grid shift p. 43
A.1 FR1 p. 43
A.1.1 Scenario 1: 4GHz Macro → Macro (DL) p. 43
A.1.2 Scenario 2: 4GHz Macro → Macro (UL) p. 48
A.1.2.1 Ericsson p. 48
A.1.2.1.1 100% grid shift p. 48
A.1.2.1.1.1 100% utilization p. 48
A.1.2.1.1.2 50% utilization p. 49
A.1.2.1.1.3 10% utilization p. 49
A.1.2.1.2 Other grid shifts p. 49
A.1.2.2 Huawei p. 50
A.1.2.3 LGE p. 51
A.1.3 Scenario 3: 4GHz Macro → Indoor (UL) p. 51
A.1.3.1 Huawei p. 51
A.1.3.2 Nokia p. 52
A.1.3.2.1 Full buffer p. 52
A.1.3.2.2 FTP3 with 10% load p. 53
A.1.4 Scenario 4: 4GHz Macro → Indoor (DL) p. 54
A.1.4.1 Huawei p. 54
A.1.4.2 Nokia p. 55
A.1.4.2.1 Full buffer p. 55
A.1.4.2.2 FTP3 with 10% load p. 56
A.1.4.3 Qualcomm p. 56
A.1.5 Scenario 5: 4GHz Indoor → Macro (UL) p. 57
A.1.5.1 Huawei p. 57
A.1.5.2 LGE p. 57
A.1.5.3 Nokia p. 59
A.1.5.3.1 Full buffer p. 59
A.1.5.3.2 FTP3 with 10% load p. 60
A.1.6 Scenario 6: 4GHz Indoor → Macro (DL) p. 61
A.1.6.1 Huawei p. 61
A.1.6.2 LGE p. 61
A.1.6.3 Nokia p. 63
A.1.6.3.1 Full buffer p. 63
A.1.6.3.2 FTP3 with 10% load p. 64
A.1.7 Scenario 7: 4GHz Indoor → Indoor (UL) p. 65
A.1.7.1 Ericsson p. 65
A.1.7.2 Huawei p. 66
A.1.7.3 LGE p. 67
A.1.7.4 Nokia p. 68
A.1.7.4.1 Full buffer p. 68
A.1.7.4.2 FTP3 with 10% load p. 69
A.1.8 Scenario 8: 4GHz Indoor → Indoor (DL) p. 70
A.1.8.1 Ericsson p. 70
A.1.8.2 Huawei p. 72
A.1.8.3 LGE p. 73
A.1.8.4 Nokia p. 74
A.1.8.4.1 Full buffer p. 74
A.1.8.4.2 FTP3 with 10% load p. 75
A.1.8.5 Qualcomm p. 75
A.2 FR2 p. 76
A.2.1 Scenario 9: 30 GHz Macro → Macro (DL) p. 76
A.2.1.1 Ericsson p. 76
A.2.1.2 Huawei p. 76
A.2.1.3 LGE p. 77
A.2.1.4 Nokia p. 77
A.2.1.4.1 Full buffer p. 77
A.2.1.4.2 FTP3 with 10% load p. 78
A.2.1.5 Qualcomm p. 78
A.2.2 Scenario 10: 30 GHz Macro → Macro (UL) p. 79
A.2.2.1 Ericsson p. 79
A.2.2.1.1 100% grid shift p. 79
A.2.2.1.1.1 100% Utilization p. 79
A.2.2.1.1.2 50% Utilization p. 79
A.2.2.1.1.3 10% Utilization p. 80
A.2.2.1.2 50% grid shift p. 80
A.2.2.2 Huawei p. 81
A.2.2.3 LGE p. 82
A.2.3 Scenario 11: 30 GHz Micro → Micro (UL) p. 82
A.2.3.1 Ericsson p. 82
A.2.3.2 Huawei p. 83
A.2.4 Scenario 12: 30 GHz Micro → Micro (DL) p. 83
A.2.5 Scenario 13: 30 GHz Indoor → Macro (UL) p. 85
A.2.5.1 Huawei p. 85
A.2.5.2 LGE p. 85
A.2.6 Scenario 14: 30 GHz Indoor → Macro (DL) p. 86
A.2.6.1 Huawei p. 86
A.2.6.2 LGE p. 86
A.2.7 Scenario 15: 30 GHz Indoor → Indoor (UL) p. 87
A.2.7.1 Ericsson p. 87
A.2.7.2 Huawei p. 88
A.2.7.3 LGE p. 88
A.2.7.4 Nokia p. 89
A.2.7.4.1 Full buffer p. 89
A.2.7.4.2 FTP3 with 10% load p. 90
A.2.8 Scenario 16: 30 GHz Indoor → Indoor (DL) p. 91
A.2.8.1 Ericsson p. 91
A.2.8.2 Huawei p. 91
A.2.8.3 LGE p. 92
A.2.8.4 Nokia p. 93
A.2.8.4.1 Full buffer p. 93
A.2.8.4.2 FTP3 with 10% load p. 94
A.2.8.5 Qualcomm p. 94
B Detailed analysis for zero grid shift p. 95
C Change history p. 96
