Simplifying the computational aspects of STAP

Author

Bojanczyk, Adam W. ; Melvin, William L.

Author_Institution

Dept. of Electr. Eng., Cornell Univ., Ithaca, NY, USA

fYear

1998

Firstpage

123

Lastpage

128

Abstract

Space-time adaptive processing (STAP) holds the potential to improve weak target detection from airborne radar platforms. However, the computational load and nonhomogeneous environments are two issues seriously limiting practical STAR implementation. We address the former issue by considering approximate numerical techniques appropriate for airborne radar STAP. Reduced computational load makes greater weight update rates possible, thereby allowing localized STAP processing in range and application of improved weight training strategies to mitigate difficulties associated with the latter issue. We verify the utility of our approach using computer simulation and measured data from the Multichannel Airborne Radar Measurements (MCARM) program

Keywords

adaptive signal processing; airborne radar; approximation theory; array signal processing; computational complexity; conjugate gradient methods; covariance matrices; direction-of-arrival estimation; phased array radar; radar applications; radar detection; radar interference; radar signal processing; MCARM program; Multichannel Airborne Radar Measurements; adaptive radar; airborne radar platforms; antenna array; approximate numerical techniques; computational load; computer simulation; conjugate gradient method; interference covariance matrix; localized STAP processing; measured data; nonhomogeneous environments; range; space-time adaptive processing; weak target detection; weight training; weight update rates; Additive noise; Airborne radar; Covariance matrix; Force measurement; Interference; Laboratories; Least squares approximation; Pulse measurements; Radar measurements; Spaceborne radar;

fLanguage

English

Publisher

ieee

Conference_Titel

Radar Conference, 1998. RADARCON 98. Proceedings of the 1998 IEEE

Conference_Location

Dallas, TX

Print_ISBN

0-7803-4492-8

Type

conf

DOI

10.1109/NRC.1998.677988

Filename

677988