A fine-grained ship-radiated noise recognition system using deep hybrid neural networks with multi-scale features
Fine-grained ship-radiated noise recognition methods of different specific ships are in demand for maritime traffic safety and general security. Due to the high background noise and complex transmission channels in the marine environment, the accurate identification of ship radiation noise becomes q...
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sg-ntu-dr.10356-1694712023-07-23T15:30:30Z A fine-grained ship-radiated noise recognition system using deep hybrid neural networks with multi-scale features Liu, Shuai Fu, Xiaomei Xu, Hong Zhang, Jiali Zhang, Anmin Zhou, Qingji Zhang, Hao School of Social Sciences Engineering::Maritime studies Ship-Radiated Noise Recognition Underwater Acoustics Fine-grained ship-radiated noise recognition methods of different specific ships are in demand for maritime traffic safety and general security. Due to the high background noise and complex transmission channels in the marine environment, the accurate identification of ship radiation noise becomes quite complicated. Existing ship-radiated noise-based recognition systems still have some shortcomings, such as the imperfection of ship-radiated noise feature extraction and recognition algorithms, which lead to distinguishing only the type of ships rather than identifying the specific vessel. To address these issues, we propose a fine-grained ship-radiated noise recognition system that utilizes multi-scale features from the amplitude–frequency–time domain and incorporates a multi-scale feature adaptive generalized network (MFAGNet). In the feature extraction process, to cope with highly non-stationary and non-linear noise signals, the improved Hilbert–Huang transform algorithm applies the permutation entropy-based signal decomposition to perform effective decomposition analysis. Subsequently, six learnable amplitude–time–frequency features are extracted by using six-order decomposed signals, which contain more comprehensive information on the original ship-radiated noise. In the recognition process, MFAGNet is designed by applying unique combinations of one-dimensional convolutional neural networks (1D CNN) and long short-term memory (LSTM) networks. This architecture obtains regional high-level information and aggregate temporal characteristics to enhance the capability to focus on time–frequency information. The experimental results show that MFAGNet is better than other baseline methods and achieves a total accuracy of 98.89% in recognizing 12 different specific noises from ShipsEar. Additionally, other datasets are utilized to validate the universality of the method, which achieves the classification accuracy of 98.90% in four common types of ships. Therefore, the proposed method can efficiently and accurately extract the features of ship-radiated noises. These results suggest that our proposed method, as a novel underwater acoustic recognition technology, is effective for different underwater acoustic signals. Published version This project was partially supported by the Key Program of Marine Economy Development Special Foundation of Department of Natural Resources of Guangdong Province, China Project (GDNRC [2022]19), and National Natural Science Foundation of China (Grant No. 52201414). 2023-07-19T07:47:25Z 2023-07-19T07:47:25Z 2023 Journal Article Liu, S., Fu, X., Xu, H., Zhang, J., Zhang, A., Zhou, Q. & Zhang, H. (2023). A fine-grained ship-radiated noise recognition system using deep hybrid neural networks with multi-scale features. Remote Sensing, 15(8), 2068-. https://dx.doi.org/10.3390/rs15082068 2072-4292 https://hdl.handle.net/10356/169471 10.3390/rs15082068 2-s2.0-85156110427 8 15 2068 en Remote Sensing © 2023 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Maritime studies Ship-Radiated Noise Recognition Underwater Acoustics Liu, Shuai Fu, Xiaomei Xu, Hong Zhang, Jiali Zhang, Anmin Zhou, Qingji Zhang, Hao A fine-grained ship-radiated noise recognition system using deep hybrid neural networks with multi-scale features |
| description |
Fine-grained ship-radiated noise recognition methods of different specific ships are in demand for maritime traffic safety and general security. Due to the high background noise and complex transmission channels in the marine environment, the accurate identification of ship radiation noise becomes quite complicated. Existing ship-radiated noise-based recognition systems still have some shortcomings, such as the imperfection of ship-radiated noise feature extraction and recognition algorithms, which lead to distinguishing only the type of ships rather than identifying the specific vessel. To address these issues, we propose a fine-grained ship-radiated noise recognition system that utilizes multi-scale features from the amplitude–frequency–time domain and incorporates a multi-scale feature adaptive generalized network (MFAGNet). In the feature extraction process, to cope with highly non-stationary and non-linear noise signals, the improved Hilbert–Huang transform algorithm applies the permutation entropy-based signal decomposition to perform effective decomposition analysis. Subsequently, six learnable amplitude–time–frequency features are extracted by using six-order decomposed signals, which contain more comprehensive information on the original ship-radiated noise. In the recognition process, MFAGNet is designed by applying unique combinations of one-dimensional convolutional neural networks (1D CNN) and long short-term memory (LSTM) networks. This architecture obtains regional high-level information and aggregate temporal characteristics to enhance the capability to focus on time–frequency information. The experimental results show that MFAGNet is better than other baseline methods and achieves a total accuracy of 98.89% in recognizing 12 different specific noises from ShipsEar. Additionally, other datasets are utilized to validate the universality of the method, which achieves the classification accuracy of 98.90% in four common types of ships. Therefore, the proposed method can efficiently and accurately extract the features of ship-radiated noises. These results suggest that our proposed method, as a novel underwater acoustic recognition technology, is effective for different underwater acoustic signals. |
| author2 |
School of Social Sciences |
| author_facet |
School of Social Sciences Liu, Shuai Fu, Xiaomei Xu, Hong Zhang, Jiali Zhang, Anmin Zhou, Qingji Zhang, Hao |
| format |
Article |
| author |
Liu, Shuai Fu, Xiaomei Xu, Hong Zhang, Jiali Zhang, Anmin Zhou, Qingji Zhang, Hao |
| author_sort |
Liu, Shuai |
| title |
A fine-grained ship-radiated noise recognition system using deep hybrid neural networks with multi-scale features |
| title_short |
A fine-grained ship-radiated noise recognition system using deep hybrid neural networks with multi-scale features |
| title_full |
A fine-grained ship-radiated noise recognition system using deep hybrid neural networks with multi-scale features |
| title_fullStr |
A fine-grained ship-radiated noise recognition system using deep hybrid neural networks with multi-scale features |
| title_full_unstemmed |
A fine-grained ship-radiated noise recognition system using deep hybrid neural networks with multi-scale features |
| title_sort |
fine-grained ship-radiated noise recognition system using deep hybrid neural networks with multi-scale features |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169471 |
| _version_ |
1773551388766240768 |