This research carried out 5G network planning using the 2.6 GHz frequency in
Ngaliyan District, using Automatic Cell Planning with Atoll 3.4 software.
Research focuses on SS-RSRP, SS-SINR parameters. Urban Macro Propagation.
There are four scenarios in this research, where the largest number of sites are
in the downlink scenario, both in Outdoor to Outdoor and Outdoor to Indoor
conditions. The number of sites in scenario 1 is 36 sites, scenario 2 is 23 sites,
scenario 3 is 40 sites, scenario 4 is 25 sites. Signal quality is not always
influenced by the number of sites, if the number of sites does not match the area
covered then interference and noise will occur. The simulation results from the
four scenarios show a good average SS-RSRP in scenario 3 Downlink Outdoor
to Indoor, and a good average SS-SINR in scenario 2 Uplink Outdoor to
Outdoor. The average SS-RSRP in scenario 1 is -61.17 dBm, the average SS-
SINR parameter is -1.66 dB. Scenario 2 the average SS-RSRP is -62.35 dBm,
and for the average SS-SINR it is -0.22 dB. In scenario 3 the average SS-RSRP
parameter is -60.81 dBm, the average SS-SINR is -1.88 dB. In scenario 4 the
average value for the SS-RSRP parameter produces -62.28 dBm, and the
average value for the SS-SINR parameter is -0.64 dB.
Keywords : 5G NR, COVERAGE PLANNING, SS-RSRP, SS-SINR.