A fault diagnosis method for rolling bearings of wind turbine generators based on MCGAN data enhancement

被引:0
作者
Zhiyuan Jia
Baojun Yu
机构
[1] Railway Locomotive College,School of Mechanical Engineering
[2] Jilin Railway Technology College,undefined
[3] Changchun University of Technology,undefined
来源
SN Applied Sciences | 2023年 / 5卷
关键词
Adversarial neural network; Data enhancement; Rolling bearing; Fault diagnosis;
D O I
暂无
中图分类号
学科分类号
摘要
In view of the problems such as poor diagnostic capability and generalization ability of wind turbine generator bearing fault diagnosis methods caused by complex wind turbine generator bearing conditions and few fault samples under actual operating conditions, a wind turbine generator bearing vibration signal data enhancement method based on improved multiple fully convolutional generative adversarial neural networks (MCGAN) was proposed. Firstly, two-dimensional time-frequency features are extracted from the raw data using a Short-Time Fourier Transform (STFT). Secondly, by incorporating multiple CGANs of different scales and a hybrid loss function, the original GAN network was enhanced to learn the intrinsic distribution of bearing vibration signals and generate diverse vibration signals with distinct bearing fault characteristics, resulting in an expanded dataset. Finally, a comparative experiment was conducted using real wind turbine generator-bearing data. The results demonstrate that the augmented samples generated by MCGAN contain rolling bearing fault information while maintaining sample distribution and diversity. By utilizing the augmented dataset to train commonly used fault diagnostic classifiers, the diagnostic accuracy for the original vibration signals exceeds 80%, providing a theoretical basis for addressing the scarcity of fault samples in practical engineering scenarios.
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