A Deep Transfer Learning Based Source Ranging Method in Deep-Sea Environment
Authors: 
Tong Wang, Lin Su, Wenbo Wang, He Li, Qunyan Ren, Li MaAuthors Info & Claims
Tong Wang, Lin Su, Wenbo Wang, He Li, Qunyan Ren, Li MaAuthors Info & ClaimsArticle No.: 20, Pages 1 - 5
Abstract
When employing the conventional beamforming (CBF) for the estimation of the direction of arrival of the Direct rays, one can observe a corresponding relationship between the arrival angle and the source distance, which can be used for range estimation. In the actual deep ocean environment, the arrival angle matched location method performs effectively in solving range estimation problems, although its performance is susceptible to the signal-to-noise ratio (SNR). To enhance the environmental adaptability and expand the application range of the source ranging method using the arrival structures in the beam do-main received by a vertical line array (VLA), we introduce a deep transfer learning (DTL) based source ranging method. Initially, a pre-trained model is established using simulation data generated under various SNRs through an ocean ambient noise model. Then high SNR experimental data is employed for DTL of the pre-trained model to fine tune the parameters. Finally, the experimental datasets are used to test the performance of the proposed method, and results suggest that the performance of the deep transferred model is much better than those of the traditional arrival angle matched location method and the model trained on noise-free data.
References
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Lin Su, Li Ma, Wenhua Song, Shengming Guo, and Licheng Lu. 2015. Influences of sound speed profile on the source localization of different depths. Acta Physica Sinica 64, 2 (2015), 024302.
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Li Deng. 2014. Deep learning: Methods and applications (2014).
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Haiqiang Niu, Emma Reeves, and Peter Gerstoft. 2017. Source localization in an ocean waveguide using supervised machine learning. The Journal of the Acoustical Society of America 142, 3 (2017), 1176–1188.
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Haiqiang Niu, Emma Ozanich, and Peter Gerstoft. 2017. Ship localization in Santa Barbara Channel using Machine Learning Classifiers. The Journal of the Acoustical Society of America 142, 5 (2017).
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Haiqiang Niu, Zaixiao Gong, Emma Ozanich, Peter Gerstoft, Haibin Wang, and Zhenglin Li. 2019. Deep-learning source localization using multi-frequency magnitude-only data. The Journal of the Acoustical Society of America 146, 1 (2019), 211–222.
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Information
Published In
November 2023
239 pages
ISBN:9798400716744
DOI:10.1145/3631726
Copyright © 2023 Owner/Author.
This work is licensed under a Creative Commons Attribution International 4.0 License.
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Association for Computing Machinery
New York, NY, United States
Publication History
Published: 12 June 2024
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WUWNet 2023
WUWNet 2023: The 17th International Conference on Underwater Networks & Systems
November 24 - 26, 2023
Shenzhen, China
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Overall Acceptance Rate 84 of 180 submissions, 47%
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