Paper
27 September 2024 Multiscale bearing fault diagnosis based on wavelet weight initialization and channel attention
Yutong Xu, Xianwen Zeng
Author Affiliations +
Proceedings Volume 13281, International Conference on Cloud Computing, Performance Computing, and Deep Learning (CCPCDL 2024); 132810D (2024) https://doi.org/10.1117/12.3051004
Event: International Conference on Cloud Computing, Performance Computing, and Deep Learning, 2024, Zhengzhou, China
Abstract
To address the issue of low diagnostic accuracy of convolutional networks for bearing faults under noisy conditions, a Convolutional Neural Network model (WMCNN) incorporating wavelet weight initialization and multi-scale attention is proposed. Firstly, considering the crucial role of the first convolutional layer in model robustness, a wavelet weight initialization layer is introduced to selectively filter features, imparting them with multi-scale characteristics. Subsequently, for extracting features at different scales, channel attention is employed to adaptively select channels containing fault features, thereby enhancing the model's noise resistance and suppressing noise interference. Additionally, adaptive one-dimensional convolution is utilized to adjust channel weights of features at different scales, facilitating adaptive fusion of multi-scale features. Finally, feature classification is performed through fully connected layers. Experimental results on bearing datasets demonstrate that, under varying signal-to-noise ratios and noise interference, WMCNN exhibits superior bearing fault diagnostic capability compared to other methods.
(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.
Yutong Xu and Xianwen Zeng "Multiscale bearing fault diagnosis based on wavelet weight initialization and channel attention", Proc. SPIE 13281, International Conference on Cloud Computing, Performance Computing, and Deep Learning (CCPCDL 2024), 132810D (27 September 2024); https://doi.org/10.1117/12.3051004
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KEYWORDS
Wavelets

Convolution

Signal to noise ratio

Feature extraction

Convolutional neural networks

Education and training

Feature fusion

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