An improved and affordable space-time adaptive processing approach

Author

Wang, H. ; Zhang, Y. ; Zhang, Q. ; Brown, R.D. ; Wicks, M.C.

Author_Institution

Dept. of Electr. & Comput. Eng., Syracuse Univ., NY, USA

fYear

1996

fDate

8-10 Oct 1996

Firstpage

72

Lastpage

77

Abstract

A space-time adaptive processing (STAP) method is described which uses only the main-beam or sum (Σ) and difference (Δ) channels of an airborne radar for adaptive suppression of clutter in the joint angle-Doppler domain. This method, called ΣΔ-STAP, dramatically reduces system implementation cost, as it requires only two digitized channels, and is also applicable as an upgrade to both phased array and continuous aperture airborne radar systems. It is shown that ΣΔ-STAP offers near optimal performance and requires much smaller sample support than other approaches, which is critical for successful operation in severely nonhomogeneous clutter. Other advantages of ΣΔ-STAP identified include significantly simplified system calibration and well-behaved response patterns

Keywords

Doppler effect; adaptive signal processing; airborne radar; calibration; interference suppression; radar clutter; radar signal processing; ΣΔ-STAP; STAP method; adaptive clutter suppression; airborne early warning radar; continuous aperture airborne radar systems; difference channel; digitized channels; joint angle-Doppler domain; main-beam; near optimal performance; nonhomogeneous clutter; phased array radar; response patterns; space-time adaptive processing; sum channels; system calibration; system implementation cost reduction; Airborne radar; Calibration; Clutter; Costs; Covariance matrix; Phased arrays; Photonics; Production; Spaceborne radar; Surveillance;

fLanguage

English

Publisher

ieee

Conference_Titel

Radar, 1996. Proceedings., CIE International Conference of

Conference_Location

Beijing

Print_ISBN

0-7803-2914-7

Type

conf

DOI

10.1109/ICR.1996.573775

Filename

573775