1 DEFINE{ query_name 'addreq_pdf_nr_cell';
2 max_lfta_disorder '1'; max_hfta_disorder '1';
3 comment 'histogram of neighboring cell RSRP, aggregated by gnb_id / cell id';
6 // rsrp, rsrq, sinr ranges are 0 .. 127
7 // for now divide into 5 bins.
9 select ($window*(tb+1))/1000 as TS, $window/1000.0 as measurementInterval,
10 physCellId as CELL_ID, GNB_ID,
12 sum( GEQ(rsrp, 0) & LEQ(rsrp,37) ) as rsrp_vbad,
13 sum( GEQ(rsrp,38) & LEQ(rsrp,52) ) as rsrp_bad,
14 sum( GEQ(rsrp,52) & LEQ(rsrp,67) ) as rsrp_medium,
15 sum( GEQ(rsrp,68) & LEQ(rsrp,82) ) as rsrp_good,
16 sum( GEQ(rsrp,83) & LEQ(rsrp,127) ) as rsrp_vgood
17 from SGNB_ADDITION_REQ.sgnb_addreq_for_ue_mn_neigh_ssb
18 group by timestamp_ms/$window as tb, physCellId, gnb_id as GNB_ID
21 DEFINE{ query_name 'addreq_pdf_nr_gnb';
22 max_lfta_disorder '1'; max_hfta_disorder '1';
23 comment 'histogram of neighboring cell RSRP, aggregated by GNB, as computed from addition request events.';
26 // rsrp, rsrq, sinr ranges are 0 .. 127
27 // for now divide into 5 bins.
29 select ($window*(tb+1))/1000 as TS, $window/1000.0 as measurementInterval,
32 sum( GEQ(rsrp, 0) & LEQ(rsrp,37) ) as rsrp_vbad,
33 sum( GEQ(rsrp,38) & LEQ(rsrp,52) ) as rsrp_bad,
34 sum( GEQ(rsrp,52) & LEQ(rsrp,67) ) as rsrp_medium,
35 sum( GEQ(rsrp,68) & LEQ(rsrp,82) ) as rsrp_good,
36 sum( GEQ(rsrp,83) & LEQ(rsrp,127) ) as rsrp_vgood
37 from SGNB_ADDITION_REQ.sgnb_addreq_for_ue_mn_neigh_ssb
38 group by timestamp_ms/$window as tb, gnb_id