Enhanced generative adversarial networks for bearing imbalanced fault diagnosis of rotating machinery

IF 3.4 2区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Applied Intelligence Pub Date : 2023-08-07 DOI:10.1007/s10489-023-04870-4

Yandong Hou, Jiulong Ma, Jinjin Wang, Tianzhi Li, Zhengquan Chen

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Abstract

Traditional rolling bearing fault diagnosis approaches require a large amount of fault data in advance, while some specific fault data is difficult to obtain in engineering scenarios. This imbalanced fault data problem seriously affects the accuracy of fault diagnosis. To improve the accuracy under imbalanced data conditions, we propose a novel data augmentation method of Enhanced Generative Adversarial Networks with Data Selection Module (EGAN-DSM). Firstly, a network enhancement module is designed, which quantifies antagonism between the generator and discriminator through loss value. And the module determines whether to iteratively enhance the networks with weak adversarial ability. Secondly, a Data Selected Module (DSM) is constructed using Hilbert space distance for screening generated data, and the screened data is mixed with original imbalanced data to reconstruct balanced data sets. Then, Deep Convolutional Neural Networks with Wide First-layer Kernels (WDCNN) is used for fault diagnosis. Finally, the method is verified by data measured on a rotating machine experimental platform. The results show that our method has high fault diagnosis accuracy under the condition of imbalanced data.

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旋转机械轴承不平衡故障诊断的增强生成对抗性网络

传统的滚动轴承故障诊断方法需要预先获得大量的故障数据，而一些特定的故障数据在工程场景中很难获得。这种不平衡的故障数据问题严重影响了故障诊断的准确性。为了提高在不平衡数据条件下的准确性，我们提出了一种新的带有数据选择模块的增强型生成对抗性网络的数据扩充方法（EGAN-DSM）。首先，设计了一个网络增强模块，通过损失值来量化生成器和鉴别器之间的对抗性。该模块确定是否迭代增强对抗能力较弱的网络。其次，利用希尔伯特空间距离构建数据选择模块（DSM），对生成的数据进行筛选，并将筛选后的数据与原始不平衡数据混合，重构平衡数据集。然后，将具有宽第一层核的深度卷积神经网络（WDCNN）用于故障诊断。最后，通过在旋转机械实验平台上测量的数据对该方法进行了验证。结果表明，在数据不平衡的情况下，该方法具有较高的故障诊断精度。

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来源期刊

Applied Intelligence 工程技术-计算机：人工智能

CiteScore

6.60

自引率

20.80%

发文量

1361

审稿时长

5.9 months

期刊介绍： With a focus on research in artificial intelligence and neural networks, this journal addresses issues involving solutions of real-life manufacturing, defense, management, government and industrial problems which are too complex to be solved through conventional approaches and require the simulation of intelligent thought processes, heuristics, applications of knowledge, and distributed and parallel processing. The integration of these multiple approaches in solving complex problems is of particular importance. The journal presents new and original research and technological developments, addressing real and complex issues applicable to difficult problems. It provides a medium for exchanging scientific research and technological achievements accomplished by the international community.