Detection and classification of underwater acoustic transients using neural networks

Author

Hemminger, Thomas L. ; Pao, Yoh-Han

Author_Institution

Dept. of Eng. & Eng. Technol., Pennsylvania Univ., Erie, PA, USA

Volume

5

Issue

5

fYear

1994

fDate

9/1/1994 12:00:00 AM

Firstpage

712

Lastpage

718

Abstract

Underwater acoustic transients can develop from a wide variety of sources. Accordingly, detection and classification of such transients by automated means can be exceedingly difficult. This paper describes a new approach to this problem based on adaptive pattern recognition employing neural networks and an alternative metric, the Hausdorff metric. The system uses self-organization to both generalize and provide rapid throughput while utilizing supervised learning for decision making, being based on a concept that temporally partitions acoustic transient signals, and as a result, studies their trajectories through power spectral density space. This method has exhibited encouraging results for a large set of simulated underwater transients contained in both quiet and noisy ocean environments, and requires from five to ten MFLOPS for the implementation described

Keywords

acoustic signal processing; neural nets; pattern recognition; signal detection; sonar; underwater sound; Hausdorff metric; acoustic transient signals; adaptive pattern recognition; classification; decision making; detection; neural networks; ocean environments; passive sonar; self-organization; supervised learning; underwater acoustic transients; Acoustic noise; Acoustic signal detection; Decision making; Neural networks; Pattern recognition; Supervised learning; Throughput; Underwater acoustics; Underwater tracking; Working environment noise;

fLanguage

English

Journal_Title

Neural Networks, IEEE Transactions on

Publisher

ieee

ISSN

1045-9227

Type

jour

DOI

10.1109/72.317723

Filename

317723