Intelligent fault diagnosis of rolling bearings based on continuous wavelet transform-multiscale feature fusion and improved channel attention mechanism

Eksploatacja i Niezawodność – Maintenance and Reliability Pub Date : 2023-01-27 DOI:10.17531/ein.2023.1.16

Jiqiang Zhang, Xiangwei Kong, Liu Cheng, Haochen Qi, Mingzhu Yu

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引用次数: 2

Abstract

Accurate fault diagnosis is critical to operating rotating machinery safely and efficiently. Traditional fault information description methods rely on experts to extract statistical features, which inevitably leads to the problem of information loss. As a result, this paper proposes an intelligent fault diagnosis of rolling bearings based on a continuous wavelet transform(CWT)-multiscale feature fusion and an improved channel attention mechanism. Different from traditional CNNs, CWT can convert the 1-D signals into 2-D images, and extract the wavelet power spectrum, which is conducive to model recognition. In this case, the multiscale feature fusion was implemented by the parallel 2-D convolutional neural networks to accomplish deeper feature fusion. Meanwhile, the channel attention mechanism is improved by converting from compressed to extended ways in the excitation block to better obtain the evaluation score of the channel. The proposed model has been validated using two bearing datasets, and the results show that it has excellent accuracy compared to existing methods.

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基于连续小波变换-多尺度特征融合和改进通道关注机制的滚动轴承故障智能诊断

准确的故障诊断是保证旋转机械安全高效运行的关键。传统的故障信息描述方法依赖于专家提取统计特征，这不可避免地导致信息丢失的问题。为此，本文提出了一种基于连续小波变换-多尺度特征融合和改进通道关注机制的滚动轴承故障智能诊断方法。与传统cnn不同的是，cwt可以将一维信号转换为二维图像，并提取小波功率谱，有利于模型识别。在这种情况下，采用并行2-卷积神经网络实现多尺度特征融合，实现更深层次的特征融合。同时，改进了通道注意机制，在激励块中由压缩方式转换为扩展方式，以更好地获得通道的评价分数。利用两个轴承数据集对该模型进行了验证，结果表明，与现有方法相比，该模型具有较好的精度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Eksploatacja i Niezawodność – Maintenance and Reliability

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