基于多头自关注卷积神经网络的轴承智能故障诊断新方法

AI EDAM Pub Date : 2024-05-17 DOI:10.1017/s0890060423000197
Hang Ren, Shaogang Liu, Bo Qiu, Hong Guo, Dan Zhao
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引用次数: 0

摘要

深度学习(DL)已广泛应用于轴承故障诊断。其中,卷积神经网络(CNN)通过提取出色的故障特征来提高诊断精度。然而,CNN 缺乏明确的学习机制来区分输入信号中的不同故障特征,从而得出诊断结果。本文提出了一种用于轴承故障诊断的端到端深度框架,称为多头自注意卷积神经网络(MSA-CNN)。首先,我们采用了一种数据预处理方法,直接将一维(1D)原始信号转换为二维(2D)灰度图像,这种方法实现简单,且保留了原始信号的完整信息。其次,首先构建多头自注意(MSA)来聚合全局信息,并自适应地为输入信号的特征分配权重。第三,使用小尺度内核的 CNN 提取详细的局部特征。最后,将学习到的高级表征输入全连接(FC)层,用于故障诊断。在不同的数据集上验证了 MSA-CNN 的性能。结果表明,与其他最先进的方法相比,所提出的 MSA-CNN 能显著提高故障诊断的准确性,并具有出色的抗噪性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel intelligent fault diagnosis method of bearing based on multi-head self-attention convolutional neural network
Deep learning (DL) has been widely used in bearing fault diagnosis. In particular, convolutional neural networks (CNNs) improve diagnosis accuracy by extracting excellent fault features. However, CNN lacks an explicit learning mechanism to distinguish between different fault characteristics in the input signal to the diagnosis results. This article presents a new end-to-end depth framework called multi-head self-attention convolution neural network (MSA-CNN) for bearing fault diagnosis. Firstly, we adopt a data pre-processing method that directly converts one-dimensional (1D) original signals into two-dimensional (2D) grayscale images, which is simple to implement and preserves the complete information of the original signal. Secondly, multi-head self-attention (MSA) is first constructed to aggregate the global information and adaptively assign weights to the input signal's features. Thirdly, the CNN with small-scale kernels extracted detailed local features. Finally, the learned high-level representations are fed into the full connect (FC) layer for fault diagnosis. The performance of the MSA-CNN is validated on different datasets. The results show that the proposed MSA-CNN can significantly improve fault diagnosis accuracy compared with the other state-of-the-art methods and has excellent noise immunity performance.
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