Stochastic-constraints method in nonstationary hot-clutter cancellation. I. Fundamentals and supervised training applications

Author

Abramovich, Wri I. ; Spencer, Nicholas K. ; Anderson, Stuart J. ; Gorokhov, Alexei Y.

Author_Institution

Cooperative Res. Centre for Sensor Signal & Inf. Process., Mawson Lakes, SA, Australia

Volume

34

Issue

4

fYear

1998

fDate

10/1/1998 12:00:00 AM

Firstpage

1271

Lastpage

1292

Abstract

This paper considers the use of spatio-temporal adaptive array processing in over-the-horizon radar (OTHR) and airborne radar applications in order to remove nonstationary multipath interference, known as “hot clutter”. Since the spatio-temporal properties of hot clutter cannot be assumed constant over the coherent processing interval (CPI), conventional adaptive techniques fail to provide effective hot-clutter mitigation without simultaneously degrading the properties of the backscattered radar signals, known as “cold clutter”. The approach presented incorporates multiple “stochastic” (data-dependent) constraints to achieve effective hot-clutter suppression, while maintaining distortionless output cold-clutter post-processing stationarity

Keywords

adaptive signal processing; airborne radar; array signal processing; military systems; radar clutter; radar signal processing; airborne radar applications; backscattered radar signals; coherent processing interval; distortionless output; nonstationary hot-clutter cancellation; nonstationary multipath interference; over-the-horizon radar; spatio-temporal adaptive array processing; stochastic-constraints method; supervised training applications; Airborne radar; Antenna arrays; Australia; Clutter; Covariance matrix; Directive antennas; Jamming; Nonlinear filters; Receiving antennas; Sensor arrays;

fLanguage

English

Journal_Title

Aerospace and Electronic Systems, IEEE Transactions on

Publisher

ieee

ISSN

0018-9251

Type

jour

DOI

10.1109/7.722714

Filename

722714