Underwater Signal Detection Using Non-Parametric Classifiers

Authors

Kaushallya Adhikari, University of Rhode Island
Bo Tang, Worcester Polytechnic Institute
Steven Kay, University of Rhode Island
Christopher J. Bell, University of Rhode Island

Document Type

Conference Proceeding

Date of Original Version

1-1-2023

Abstract

Detecting signals of interest amidst additive noise and reverberation is an important problem in sonar. Model-based parametric classifiers have been widely used to discriminate between alternative and null hypotheses. However, underwater signals exhibit dynamic and non-stationary characteristics, necessitating the use of complex and often infeasible models to accurately replicate them. While model-free data-driven algorithms offer an alternative, existing methods do not fully exploit the statistical properties of the data and may converge only to local solutions. To address these limitations, we introduce a novel model-free and non-parametric classifier, the Cumulant Generating Function Classifier (CGFC), designed to harness the underlying statistical properties of available data sets and employ convex optimization to converge to global solutions. We apply the CGFC to underwater detection problems and conduct a comparative analysis against convolutional neural networks (CNNs). The results demonstrate the CGFC's superiority over CNNs, presenting it as a promising alternative for effective detection and classification tasks in sonar applications.

Publication Title, e.g., Journal

Oceans Conference Record IEEE

Citation/Publisher Attribution

Adhikari, Kaushallya, Bo Tang, Steven Kay, and Christopher J. Bell. "Underwater Signal Detection Using Non-Parametric Classifiers." Oceans Conference Record IEEE (2023). doi: 10.23919/OCEANS52994.2023.10337144.