Title :
Localized three-dimensional adaptive spatial-temporal processing for airborne radar
Author :
Hale, T.B. ; Temple, M.A. ; Raquet, J.F. ; Oxley, M.E. ; Wicks, M.C.
Abstract :
Radar space-time adaptive processing (STAP) techniques have classically focused on azimuth-Doppler adaptivity while placing minimal emphasis on elevation. Elevation adaptivity offers significant clutter suppression improvement, allowing further suppression of interference sources having identical Doppler and azimuth as the expected target. This work incorporates elevation adaptivity using two approaches: (1) a factored approach and (2) a joint domain approach, both greatly improving clutter suppression performance. The proposed concepts are validated using results based on simulated range ambiguous airborne radar data. Target detection improvements on the order of 8 dB and 10 dB (as compared to standard 2D-JDL processing) are demonstrated for the factored and joint domain approaches, respectively, using an 8 /spl times/ 8 non-uniform rectangular array.
Keywords :
Doppler effect; airborne radar; interference suppression; radar clutter; radar detection; radar signal processing; airborne radar; azimuth-Doppler adaptivity; clutter suppression; detection probability; elevation adaptivity; factored approach; interference sources; joint domain approach; localized 3D adaptive spatial-temporal processing; nonuniform rectangular array; output SINR; radar signal processing; simulated range ambiguous airborne radar data; space-time adaptive processing; target detection; three-dimensional STAP; Airborne radar; Azimuth; Clutter; Doppler radar; Interference suppression; Matched filters; Military computing; Space technology; Spaceborne radar; Veins;
Conference_Titel :
RADAR 2002
Conference_Location :
Edinburgh, UK
Print_ISBN :
0-85296-750-0
DOI :
10.1109/RADAR.2002.1174680
