Title :
Test results of a space-time adaptive processing system for airborne early warning radar
Author :
Fenner, David K. ; Hoover, William F., Jr.
Author_Institution :
Westinghouse Electr. Corp., Baltimore, MD, USA
Abstract :
Space-time adaptive processing (STAP) has the potential to improve the performance of an airborne early warning (AEW) radar without the costly antenna refinements normally needed to reduce array sidelobes and, correspondingly, clutter. This paper presents a brief STAP overview and describes a radar system testbed which has been flown to gather data suitable for STAP algorithm development. The testbed consists of a 32 column by 8 row L-band array which feeds both conventional sum and delta analog beamformers as well as 22 independent subapertures. This configuration allows for the direct comparison of conventional and STAP beamforming. Measured data is shown which compares state of the art conventional beamforming with STAP processing. Whereas conventional sidelobes of -30 dBi were measured on a ground range, STAP processing of in-the-air clutter data demonstrated cancellation of as much as -45 dBi
Keywords :
adaptive signal processing; interference suppression; microwave antenna arrays; military systems; radar antennas; radar applications; radar clutter; radar signal processing; spaceborne radar; L-band array; STAP beamforming; airborne early warning radar; array sidelobes; clutter cancellation; delta analog beamformers; ground range; in the air clutter data; measured data; performance; radar cross-sections; radar system testbed; space-time adaptive processing system; subapertures; sum analog beamformers; test results; Adaptive arrays; Adaptive systems; Airborne radar; Antenna arrays; Array signal processing; L-band; Radar antennas; Radar clutter; Spaceborne radar; System testing;
Conference_Titel :
Radar Conference, 1996., Proceedings of the 1996 IEEE National
Conference_Location :
Ann Arbor, MI
Print_ISBN :
0-7803-3145-1
DOI :
10.1109/NRC.1996.510662
