DEFINE{ query_name 'rrcx_stats_neigh_cell'; 
	max_lfta_disorder '1'; max_hfta_disorder '1';
	comment 'statistics on ssb RSRP on the beams of nrighboring cells, aggregated by cell ID, computed using rrc transfer';
}
PARAM{ window uint;}
//	rsrp, rsrq, sinr ranges are 0 .. 127
//	to convert rsrp to dbm, subtract 157

select ($window*(tb+1))/1000 as TS, $window/1000.0 as measurementInterval,
	physCellId as CELL_ID,
	count(*) as cnt,
	INT(min(rsrp))-INT(157) as min_rsrp,
	INT(quantile_of(rsrp, .05)) - INT(157) as pctl_05_rsrp,
	INT(median_of(rsrp)) - INT(157) as median_rsrp,
	INT(quantile_of(rsrp, .95)) - INT(157) as pctl_95_rsrp,
	sqrt(
		sum( (FLOAT(rsrp)-157)*(FLOAT(rsrp)-157))  -
		sum( (FLOAT(rsrp)-157) )*sum( (FLOAT(rsrp)-157) )/count(*)
	) / count(*) as stddev_rsrp,
	INT(max(rsrp))-INT(157) as max_rsrp
from RRCXFER.neighbor_beam_ssb
//where schemaId = 6 and rsrp<128
where  rsrp<128
group by timestamp_ms/$window as tb, physCellId
;

DEFINE{ query_name 'rrcx_stats_neigh_gnb'; 
	max_lfta_disorder '1'; max_hfta_disorder '1';
	comment 'statistics on ssb RSRP on the beams of nrighboring cells, aggregated by gNB, computed using rrc transfer';
}
PARAM{ window uint;}
//	rsrp, rsrq, sinr ranges are 0 .. 127
//	to convert rsrp to dbm, subtract 157

select ($window*(tb+1))/1000 as TS, $window/1000.0 as measurementInterval,
	gnb_id as GNB_ID,
	count(*) as cnt,
	INT(min(rsrp))-INT(157) as min_rsrp,
	INT(quantile_of(rsrp, .05)) - INT(157) as pctl_05_rsrp,
	INT(median_of(rsrp)) - INT(157) as median_rsrp,
	INT(quantile_of(rsrp, .95)) - INT(157) as pctl_95_rsrp,
	sqrt(
		sum( (FLOAT(rsrp)-157)*(FLOAT(rsrp)-157))  -
		sum( (FLOAT(rsrp)-157) )*sum( (FLOAT(rsrp)-157) )/count(*)
	) / count(*) as stddev_rsrp,
	INT(max(rsrp))-INT(157) as max_rsrp
from RRCXFER.neighbor_beam_ssb
where  rsrp<128
//where schemaId = 6 and rsrp<128
group by timestamp_ms/$window as tb, gnb_id
;


DEFINE{ query_name 'rrcx_stats_serv_cell'; 
	max_lfta_disorder '1'; max_hfta_disorder '1';
	comment 'statistics on the ssb rsrp of the serving cell, aggregated by cell id, computed using rrc transfer';
}
PARAM{ window uint;}
//	rsrp, rsrq, sinr ranges are 0 .. 127
//	to convert rsrp to dbm, subtract 157

select ($window*(tb+1))/1000 as TS, $window/1000.0 as measurementInterval,
	physCellId as CELL_ID,
	count(*) as cnt,
	INT(min(rsrp))-INT(157) as min_rsrp,
	INT(quantile_of(rsrp, .05)) - INT(157) as pctl_05_rsrp,
	INT(median_of(rsrp)) - INT(157) as median_rsrp,
	INT(quantile_of(rsrp, .95)) - INT(157) as pctl_95_rsrp,
	sqrt(
		sum( (FLOAT(rsrp)-157)*(FLOAT(rsrp)-157))  -
		sum( (FLOAT(rsrp)-157) )*sum( (FLOAT(rsrp)-157) )/count(*)
	) / count(*) as stddev_rsrp,
	INT(max(rsrp))-INT(157) as max_rsrp
from RRCXFER.serv_nr_cell
where rsrp<128
//where schemaId = 1 and rsrp<128
group by timestamp_ms/$window as tb, physCellId
;

DEFINE{ query_name 'rrcx_stats_neighbor_cell'; 
	max_lfta_disorder '1'; max_hfta_disorder '1';
	comment 'statistics on the ssb rsrp of the neighbor cells, aggregated by cell id, computed using rrc transfer';
}
PARAM{ window uint;}
//	rsrp, rsrq, sinr ranges are 0 .. 127
//	to convert rsrp to dbm, subtract 157

select ($window*(tb+1))/1000 as TS, $window/1000.0 as measurementInterval,
	physCellId as CELL_ID,
	count(*) as cnt,
	INT(min(rsrp))-INT(157) as min_rsrp,
	INT(quantile_of(rsrp, .05)) - INT(157) as pctl_05_rsrp,
	INT(median_of(rsrp)) - INT(157) as median_rsrp,
	INT(quantile_of(rsrp, .95)) - INT(157) as pctl_95_rsrp,
	sqrt(
		sum( (FLOAT(rsrp)-157)*(FLOAT(rsrp)-157))  -
		sum( (FLOAT(rsrp)-157) )*sum( (FLOAT(rsrp)-157) )/count(*)
	) / count(*) as stddev_rsrp,
	INT(max(rsrp))-INT(157) as max_rsrp
from RRCXFER.nr_neighbor
//where schemaId = 4 and rsrp<128
where  rsrp<128
group by timestamp_ms/$window as tb, physCellId
;


DEFINE{ query_name 'rrcx_stats_serv_gnb'; 
	max_lfta_disorder '1'; max_hfta_disorder '1';
	comment 'statistics on the ssb srp of the serving cell, aggregated by gNB, computed using rrc transfer';
}
PARAM{ window uint;}
//	rsrp, rsrq, sinr ranges are 0 .. 127
//	to convert rsrp to dbm, subtract 157

select ($window*(tb+1))/1000 as TS, $window/1000.0 as measurementInterval,
	gnb_id as GNB_ID,
	count(*) as cnt,
	INT(min(rsrp))-INT(157) as min_rsrp,
	INT(quantile_of(rsrp, .05)) - INT(157) as pctl_05_rsrp,
	INT(median_of(rsrp)) - INT(157) as median_rsrp,
	INT(quantile_of(rsrp, .95)) - INT(157) as pctl_95_rsrp,
	sqrt(
		sum( (FLOAT(rsrp)-157)*(FLOAT(rsrp)-157))  -
		sum( (FLOAT(rsrp)-157) )*sum( (FLOAT(rsrp)-157) )/count(*)
	) / count(*) as stddev_rsrp,
	INT(max(rsrp))-INT(157) as max_rsrp
from RRCXFER.serv_nr_cell
//where schemaId = 1 and rsrp<128
where  rsrp<128
group by timestamp_ms/$window as tb, gnb_id
;

DEFINE{ query_name 'rrcx_stats_neighbor_gnb'; 
	max_lfta_disorder '1'; max_hfta_disorder '1';
	comment 'statistics on the ssb rsrp of the neighbor cells, aggregated by gNB, computed using rrc transfer';
}
PARAM{ window uint;}
//	rsrp, rsrq, sinr ranges are 0 .. 127
//	to convert rsrp to dbm, subtract 157

select ($window*(tb+1))/1000 as TS, $window/1000.0 as measurementInterval,
	gnb_id as GNB_ID,
	count(*) as cnt,
	INT(min(rsrp))-INT(157) as min_rsrp,
	INT(quantile_of(rsrp, .05)) - INT(157) as pctl_05_rsrp,
	INT(median_of(rsrp)) - INT(157) as median_rsrp,
	INT(quantile_of(rsrp, .95)) - INT(157) as pctl_95_rsrp,
	sqrt(
		sum( (FLOAT(rsrp)-157)*(FLOAT(rsrp)-157))  -
		sum( (FLOAT(rsrp)-157) )*sum( (FLOAT(rsrp)-157) )/count(*)
	) / count(*) as stddev_rsrp,
	INT(max(rsrp))-INT(157) as max_rsrp
from RRCXFER.nr_neighbor
//where schemaId = 4 and rsrp<128
where  rsrp<128
group by timestamp_ms/$window as tb, gnb_id