Title :
Space-time adaptive processing bistatic airborne radar
Author :
Sanyal, Probal K. ; Brown, Russell D. ; Little, Michael O. ; Schneible, Richard A. ; Wicks, Michael C.
Author_Institution :
Air Force Res. Lab., Rome, NY, USA
Abstract :
In 1996, the United States Air Force initiated the Advanced Airborne Surveillance Program (AASP) to develop and demonstrate the detection performance of state-of-the-art multi-channel bistatic airborne radar technology. The AASP sensor utilizes a multi-channel, phased-array receiver, mounted on a BAC1-11 to collect and process bistatic radar returns from moving targets, clutter and jammers. The bistatic multi-channel airborne radar measurements (MCARM) data provides a good starting point in developing STAP algorithms for the AASP system. The steady exploitation of the MCARM data has yielded much insight into the performance of several STAP algorithms in various monostatic as well as bistatic scenarios. This paper describes the bistatic experiments and presents several results attesting to the applicability of STAP algorithms to the bistatic scenarios
Keywords :
adaptive radar; airborne radar; antenna phased arrays; interference suppression; jamming; military radar; radar applications; radar clutter; radar detection; radar receivers; radar signal processing; search radar; space-time adaptive processing; AASP sensor; Advanced Airborne Surveillance Program; BAC1-11; MCARM data; STAP algorithms; United States Air Force; bistatic airborne radar; bistatic experiments; bistatic radar returns; detection performance; ground clutter suppression; jammer; moving targets; multi-channel airborne radar measurements; multi-channel phased-array receiver; performance; space-time adaptive processing; Airborne radar; Bistatic radar; Clutter; Force measurement; Force sensors; Radar detection; Surveillance; Testing; Transmitters; Unmanned aerial vehicles;
Conference_Titel :
Radar Conference, 1999. The Record of the 1999 IEEE
Conference_Location :
Waltham, MA
Print_ISBN :
0-7803-4977-6
DOI :
10.1109/NRC.1999.767286
