Lines Matching refs:distance_m

273 	double distance_m = SGGeodesy::distanceM(own_pos, sender_pos);  in ITM_calculate_attenuation()  local
276 	if (distance_m > 300000)  in ITM_calculate_attenuation()
280 		dbloss = 20 * log10(distance_m) +20 * log10(frq_mhz) -27.55;  in ITM_calculate_attenuation()
289 	int max_points = (int)floor(distance_m / point_distance);  in ITM_calculate_attenuation()
316 	_root_node->setDoubleValue("station[0]/distance", distance_m / 1000);  in ITM_calculate_attenuation()
430 …ansmitter_height - itm_elev[(int)itm_elev[0] + 2] + receiver_height) / distance_m) * SGD_RADIANS_T…  in ITM_calculate_attenuation()
473 	double distance_m = itm_elev[0] * itm_elev[1]; // only consider elevation points  in calculate_clutter_loss()  local
488 …(itm_elev[2] + transmitter_height - itm_elev[(int)itm_elev[0] + 2] + receiver_height) / distance_m;  in calculate_clutter_loss()
490 …rt( (j * itm_elev[1] * (itm_elev[0] - j) * itm_elev[1] / 1000000) / (  distance_m * freq / 1000) );  in calculate_clutter_loss()
528 			int num_points_1st = (int)floor( horizons[0] * itm_elev[0]/ distance_m );   in calculate_clutter_loss()
529 			int num_points_2nd = (int)ceil( (distance_m - horizons[0]) * itm_elev[0] / distance_m );   in calculate_clutter_loss()
547 …abs(itm_elev[2] + transmitter_height - itm_elev[num_points_1st + 2] + clutter_height) / distance_m;  in calculate_clutter_loss()
599 …itm_elev[last+1] + clutter_height - itm_elev[(int)itm_elev[0] + 2] + receiver_height) / distance_m;  in calculate_clutter_loss()
638 			int num_points_1st = (int)floor( horizons[0] * itm_elev[0] / distance_m );   in calculate_clutter_loss()
639 			int num_points_2nd = (int)floor(horizons[1] * itm_elev[0] / distance_m );   in calculate_clutter_loss()
658 …abs(itm_elev[2] + transmitter_height - itm_elev[num_points_1st + 2] + clutter_height) / distance_m;  in calculate_clutter_loss()
709 …1] + clutter_height - itm_elev[num_points_1st + num_points_2nd + 2] + clutter_height) / distance_m;  in calculate_clutter_loss()
760 …tm_elev[last2+1] + clutter_height - itm_elev[(int)itm_elev[0] + 2] + receiver_height) / distance_m;  in calculate_clutter_loss()
953 	double distance_m = SGGeodesy::distanceM(own_pos, sender_pos);  in LOS_calculate_attenuation()  local
965 	if (distance_m > total_horizon) {  in LOS_calculate_attenuation()
973 	dbloss = 20 * log10(distance_m) +20 * log10(frq_mhz) -27.55;  in LOS_calculate_attenuation()