A computational Bayesian approach for localizing an acoustic scatterer in a stratified ocean environment

A computational Bayesian approach for localizing an acoustic scatterer in a stratified ocean environment

A computational Bayesian method is presented for inference regarding the state of a submerged mobile object. The approach addresses the challenge of closely spaced multipath arrivals in refractive environments with uncertainty in ambient acoustic noise power. Vertical angles and Doppler frequencies...

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Bibliographic Details
Main Authors: Barros, A.C (Author), Gendron, P.J (Author)
Format: Article
Language:English
Published: Acoustical Society of America 2019
Subjects:
Acoustic noise
article
Bayesian approaches
Bayesian methods
Bayesian networks
Doppler frequency
Mobile objects
Multipath
noise
ocean environment
Sound speed profiles
Stratified ocean
uncertainty
Underwater acoustics
velocity
Online Access:View Fulltext in Publisher
Description
Summary:A computational Bayesian method is presented for inference regarding the state of a submerged mobile object. The approach addresses the challenge of closely spaced multipath arrivals in refractive environments with uncertainty in ambient acoustic noise power. Vertical angles and Doppler frequencies of the arrival returns are jointly inferred and their posterior density is mapped to the object's range, depth, and speed through acoustic ray interpolation. The object is localized under the challenging constraint of a small receive vertical aperture. A case study with the classic Munk sound speed profile is presented to lend credence to the approach. © 2019 Acoustical Society of America.
ISBN:00014966 (ISSN)
DOI:10.1121/1.5126351

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