Null broadening with snapshot-deficient covariance matrices in passive sonar

Author

Song, H. ; Kuperman, W.A. ; Hodgkiss, W.S. ; Gerstoft, Peter ; Kim, Jea Soo

Author_Institution

Marine Phys. Lab., Scripps Instn. of Oceanogr., La Jolla, CA, USA

Volume

28

Issue

2

fYear

2003

fDate

4/1/2003 12:00:00 AM

Firstpage

250

Lastpage

261

Abstract

Adaptive-array beamforming achieves high resolution and sidelobe suppression by producing sharp s in the adaptive beampattern. Large-aperture sonar arrays with many elements have small resolution cells; interferers may move through many resolution cells in the time required for accumulating a full-rank sample covariance matrix. This leads to "snapshot-deficient" processing. In this paper, the -broadening technique originally developed for an ideal stationary problem is extended to the snapshot-deficient problem combined with white-noise constraint (WNC) adaptive processing. Null broadening allows the strong interferers to move through resolution cells and increases the number of degrees of freedom, thereby improving the detection of weak stationary signals.

Keywords

array signal processing; covariance matrices; sonar signal processing; white noise; -broadening technique; adaptive beampattern; adaptive-array beamforming; broadening; full-rank sample covariance matrix; ideal stationary problem; large-aperture sonar arrays; passive sonar; resolution; sidelobe suppression; snapshot-deficient covariance matrices; weak stationary signals; white-noise constraint; Acoustic beams; Acoustic noise; Array signal processing; Covariance matrix; Interference constraints; Laboratories; Oceans; Robustness; Signal resolution; Sonar detection;

fLanguage

English

Journal_Title

Oceanic Engineering, IEEE Journal of

Publisher

ieee

ISSN

0364-9059

Type

jour

DOI

10.1109/JOE.2003.814055

Filename

1209624