Content for TR 38.868 Word version: 17.0.0
5 Evaluation of link level simulation
6 Evaluation of Pulse shaping filters
7 SAR mitigation solutions
8 Feasibility analysis of power enhancement
9 Agreements, conclusion and recommendations
$ Change history
5 Evaluation of link level simulation Word‑p. 8
5.1 Qualcomm link level simulation results Word‑p. 8
5.2 Huawei link level simulation results Word‑p. 11
5.3 Nokia link level simulation results Word‑p. 12
5.3.1 Spectral shaping transparent to gNB receiver Word‑p. 12
5.3.2 Spectral shaping known to gNB receiver Word‑p. 14
5.4 IITH, IITM, CEWiT, Reliance Jio, Tejas Networks link level simulation results Word‑p. 15
5.5 Intel link level simulation results Word‑p. 17
5.6 Vivo link level simulation results Word‑p. 20
6 Evaluation of Pulse shaping filters Word‑p. 22
6.1 Pulse shaping filter simulation results Word‑p. 23
6.1.1 Huawei simulation results for pulse shaping filter Word‑p. 23
6.1.2 Nokia simulation results for pulse shaping filters Word‑p. 24
6.2 Net gain analysis of combined Tx and Rx impacts Word‑p. 25
6.2.1 Nokia simulation results for net gain analysis of combined Tx and Rx impacts (w.r.t 1+D) DMRS not shaped Word‑p. 25
6.2.1.1 Net gain simulation results for TDL-C300ns Word‑p. 26
6.2.1.2 Net gain simulation results for TDL-A 30ns Word‑p. 28
6.2.1.3 Net gain simulation results for TDL-D 30ns Word‑p. 30
6.2.2 Nokia simulation results for net gain analysis of combined Tx and Rx impacts (w.r.t [0.2 1 0.2]) Word‑p. 32
6.2.2.1 Net gain simulation results for TDL-C300ns Word‑p. 33
6.2.2.2 Net gain simulation results for TDL-A 30ns Word‑p. 35
6.2.2.3 Net gain simulation results for TDL-D 30ns Word‑p. 37
6.2.3 Intel Tx + Rx link margin analysis Word‑p. 39
6.2.3.1 Tx + Rx combined link margin Word‑p. 39
6.2.3.2 Tx + Rx combined link margin (relative to MPR0 and maximum SNR) Word‑p. 41
6.2.4 Qualcomm Net link margin analysis Word‑p. 44
7 SAR mitigation solutions Word‑p. 46
8 Feasibility analysis of power enhancement Word‑p. 46
8.1 Qualcomm results for power enhancement Word‑p. 46
8.2 Nokia results for power enhancement Word‑p. 47
8.2.1 Power enhancement with respect to [1+D] filter with DMRS shaped Word‑p. 48
8.2.2 Power enhancement with respect to [1+D] filter with DMRS not shaped Word‑p. 52
8.2.3 Best filters per channel bandwidth Word‑p. 57
8.2.4 Minimum MPR w.r.t 29 dBm Word‑p. 62
8.3 IITH, IITM, CEWiT, Reliance Jio, Tejas Networks results for power enhancement Word‑p. 65
8.4 Intel results for power enhancement Word‑p. 66
8.5 Huawei results for power enhancement Word‑p. 68
8.5.1 MPR comparison results Word‑p. 68
8.5.2 Optimization of RB regions for MPR specifications Word‑p. 70
8.6 Skyworks results for power enhancement Word‑p. 72
8.6.1 Power enhancement results1 Word‑p. 72
8.6.2 Power enhancement results2 Word‑p. 77
8.7 Apple results for power enhancement Word‑p. 81
8.7.1 Results for power boost >2dB Word‑p. 81
8.7.2 Results for power boost between 1dB to 2dB Word‑p. 86
9 Agreements, conclusion and recommendations Word‑p. 90
9.1 RAN4 and RAN agreements Word‑p. 90
9.2 Conclusions Word‑p. 90
$ Change history Word‑p. 92
