Blind separation of sources applied to convolutive mixtures in shallow water

Author

Gaeta, M. ; Briolle, F. ; Esparcieux, Ph

Author_Institution

Vibria, Ollioules, France

fYear

1997

fDate

21-23 Jul 1997

Firstpage

340

Lastpage

343

Abstract

In underwater acoustics, the signal received by sensors is a mixture of different elementary sources, filtered by the environment. In blind separation of sources, we can isolate each source from different mixtures of sources without any a priori information, except for assuming statistical independence of the different sources. Jutten and Herault (1991) proposed a neuromimetic solution to the problem. In our work, we use this solution to separate convolutive mixtures of simulated complex underwater signals in a shallow water environment. To allow multipath identification a whitening step has to be introduced. We propose a local whitening procedure that does not impact the separated signal output and preserves the signal characteristics. This promising technique can be improved using non causal whitening filters more adapted to the target environment

Keywords

acoustic convolution; array signal processing; identification; sonar arrays; sonar signal processing; underwater sound; white noise; blind separation; convolutive mixtures; multipath identification; neuromimetic solution; noncausal whitening filters; shallow water; signal characteristics; statistical independence; target environment; underwater acoustics; whitening step; Acoustic propagation; Acoustic sensors; Nonlinear filters; Optical filters; Optical noise; Optical sensors; Sensor phenomena and characterization; Sonar equipment; Underwater acoustics; Water resources;

fLanguage

English

Publisher

ieee

Conference_Titel

Higher-Order Statistics, 1997., Proceedings of the IEEE Signal Processing Workshop on

Conference_Location

Banff, Alta.

Print_ISBN

0-8186-8005-9

Type

conf

DOI

10.1109/HOST.1997.613543

Filename

613543