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Main Authors: Weng, Jinbao, Qi, Yubo, Yang, Yanming, Wen, Hongtao, Zhou, Hongtao, Chen, Benqing, Xu, Dewei, Xue, Ruichao, Zeng, Caigao
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.07157
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author Weng, Jinbao
Qi, Yubo
Yang, Yanming
Wen, Hongtao
Zhou, Hongtao
Chen, Benqing
Xu, Dewei
Xue, Ruichao
Zeng, Caigao
author_facet Weng, Jinbao
Qi, Yubo
Yang, Yanming
Wen, Hongtao
Zhou, Hongtao
Chen, Benqing
Xu, Dewei
Xue, Ruichao
Zeng, Caigao
contents Based on the normal mode and ray theory, this article discusses the characteristics of surface sound source and reception at the surface layer, and explores depth estimation methods based on normal modes and rays, and proposes a depth estimation method based on the upper limit of modal frequency. Data verification is conducted to discuss the applicability and limitations of different methods. For the surface refracted normal mode waveguide, modes can be separated through warping transformation. Based on the characteristics of normal mode amplitude variation with frequency and number, the sound source depth can be estimated by matching amplitude information. Based on the spatial variation characteristics of eigenfunctions with frequency, a sound source depth estimation method matching the cutoff frequency of normal modes is proposed. For the deep Arctic sea, the sound ray arrival structure at the receiving end is obtained through the analysis of deep inversion sound ray trajectories, and the sound source depth can be estimated by matching the time difference of ray arrivals. Experimental data is used to verify the sound field patterns and the effectiveness of the sound source depth estimation method.
format Preprint
id arxiv_https___arxiv_org_abs_2508_07157
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Acoustic source depth estimation method based on a single hydrophone in Arctic underwater
Weng, Jinbao
Qi, Yubo
Yang, Yanming
Wen, Hongtao
Zhou, Hongtao
Chen, Benqing
Xu, Dewei
Xue, Ruichao
Zeng, Caigao
Sound
Numerical Analysis
Audio and Speech Processing
Atmospheric and Oceanic Physics
Applied Physics
Based on the normal mode and ray theory, this article discusses the characteristics of surface sound source and reception at the surface layer, and explores depth estimation methods based on normal modes and rays, and proposes a depth estimation method based on the upper limit of modal frequency. Data verification is conducted to discuss the applicability and limitations of different methods. For the surface refracted normal mode waveguide, modes can be separated through warping transformation. Based on the characteristics of normal mode amplitude variation with frequency and number, the sound source depth can be estimated by matching amplitude information. Based on the spatial variation characteristics of eigenfunctions with frequency, a sound source depth estimation method matching the cutoff frequency of normal modes is proposed. For the deep Arctic sea, the sound ray arrival structure at the receiving end is obtained through the analysis of deep inversion sound ray trajectories, and the sound source depth can be estimated by matching the time difference of ray arrivals. Experimental data is used to verify the sound field patterns and the effectiveness of the sound source depth estimation method.
title Acoustic source depth estimation method based on a single hydrophone in Arctic underwater
topic Sound
Numerical Analysis
Audio and Speech Processing
Atmospheric and Oceanic Physics
Applied Physics
url https://arxiv.org/abs/2508.07157