Weak target detection by multiscale space-time adaptive processing

Author

Olcer, Ibrahim ; Anarim, Emin ; Morgül, Avni

Author_Institution

Ulusal Elektron. ve Kriptoloji Aras. Enst., TUBITAK, Kocaeli, Turkey

fYear

2004

fDate

28-30 April 2004

Firstpage

595

Lastpage

598

Abstract

STAP is a recent popular research field in which a multichannel and multipulse radar system is utilized to enhance the performance of radar detection under severe clutter and jammer conditions. Real-time STAP requires an intelligent lower dimensional processor realizable from a computational point of view. Several "reduced-dimension (or partially adaptive) STAP" techniques have been introduced to represent the noise sub-space and reduce the dimension of the weight vector. Beside these approaches, we introduce a new technique which is based on modeling the radar clutter as a multiscale stochastic process. Our approach is shown to be capable of outperforming the popular partially adaptive STAP algorithms although the computational complexity is significantly reduced.

Keywords

adaptive radar; jamming; radar clutter; radar detection; space-time adaptive processing; stochastic processes; computational complexity reduction; intelligent lower dimensional processor; jammer; multichannel radar system; multipulse radar system; multiscale space-time adaptive processing; multiscale stochastic process; performance enhancement; radar clutter; radar detection; real-time STAP; weak target detection; Clutter; Computational complexity; Computational intelligence; Doppler radar; Jamming; Noise reduction; Object detection; Radar detection; Stochastic processes;

fLanguage

English

Publisher

ieee

Conference_Titel

Signal Processing and Communications Applications Conference, 2004. Proceedings of the IEEE 12th

Print_ISBN

0-7803-8318-4

Type

conf

DOI

10.1109/SIU.2004.1338599

Filename

1338599