Low cost underwater acoustic localization

Eduardo Alexander Iscar Ruland, Atulya Shree, Nicholas Goumas, and Matthew Johnson-Roberson

Conference Paper, Proceedings of 173rd Meeting of Acoustical Society of America and 8th Forum Acusticum (Acoustics '17), Vol. 30, No. 1, June, 2017

Abstract

Over the course of the last decade, the cost of marine robotic platforms has significantly decreased. In part this has lowered the barriers to entry of exploring and monitoring larger areas of the earth's oceans. However, these advances have been mostly focused on autonomous surface vehicles (ASVs) or shallow water autonomous underwater vehicles (AUVs). One of the main drivers for high cost in the deep water domain is the challenge of localizing such vehicles using acoustics. A low cost one-way travel time underwater ranging system is proposed to assist in localizing deep water submersibles. The system consists of location aware anchor buoys at the surface and underwater nodes. This paper presents a comparison of methods together with details on the physical implementation to allow its integration into a deep sea micro AUV currently in development. Additional simulation results show error reductions by a factor of three.

BibTeX

@conference{Iscar-2017-130172,
author = {Eduardo Alexander Iscar Ruland and Atulya Shree and Nicholas Goumas and Matthew Johnson-Roberson},
title = {Low cost underwater acoustic localization},
booktitle = {Proceedings of 173rd Meeting of Acoustical Society of America and 8th Forum Acusticum (Acoustics '17)},
year = {2017},
month = {June},
volume = {30},
}

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