Title :
Four Dimensional System Engineering Demands on Radar Operating in a Coastal Sub-refractive Environment
Author :
Marshall, Robert E. ; Haack, Tracy
Author_Institution :
Naval Surface Warfare Center, Dahlgren
Abstract :
Surface sub-refraction in the littorals reduces radio frequency (RF) horizon and introduces an expensive ameliorating system margin requirement. Along coastal Virginia, sub-refractive events are driven by synoptic scale meteorological features with three day time scales. Air/land/sea interactions introduce diurnal and mesoscale variations. This paper describes these inhomogeneities in terms of range dependent propagation factor loss relative to a standard atmosphere. Four dimensional thermodynamic profiles supporting the refractivity field calculation are provided by the Coupled Ocean Atmosphere Mesoscale Prediction System (COAMPS). The Advanced Refractivity Effects Prediction System (AREPS) is employed to predict the performance of notional S and X band radars operating 24 nm offshore.
Keywords :
atmospheric boundary layer; meteorological radar; ocean temperature; oceanographic techniques; refractive index; thermodynamics; AREPS; COAMPS; S band radars; X band radars; advanced refractivity effects prediction system; air-land-sea interactions; coastal Virginia; coastal surface sub-refractive environment; coupled ocean atmosphere mesoscale prediction system; diurnal variations; four-dimensional thermodynamic profiles; mesoscale variations; propagation factor loss; radio frequency horizon; refractivity field calculation; synoptic scale meteorological features; Atmosphere; Meteorological radar; Meteorology; Ocean temperature; Propagation losses; Radio frequency; Refractive index; Sea measurements; Sea surface; Systems engineering and theory;
Conference_Titel :
Radar Conference, 2007 IEEE
Conference_Location :
Boston, MA
Print_ISBN :
1-4244-0284-0
Electronic_ISBN :
1097-5659
DOI :
10.1109/RADAR.2007.374340
