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Compound fault diagnosis of rolling bearings with few-shot based on DCGAN-RepLKNet

Hongze Zhu, Ting Fang

2024Measurement Science and Technology15 citationsDOIOpen Access PDF

Abstract

Abstract To guarantee the security of personnel on-site, diagnosing the malfunction of mechanical apparatus is imperative. The accomplishments within the domain of fault diagnosis have been partly attributed to the advancements in deep learning technology, which excels in feature extraction through extensive datasets. However, it is difficult to collect sufficient data to train high-precision fault diagnosis models in practice. A novel method called deep convolution generative adversarial network (DCGAN)-RepLKNet is proposed to address the challenge of gathering enough data to train high-precision fault diagnosis models in practice. This technique involves transforming a one-dimensional time series vibration signal into a two-dimensional (2D) time-frequency map via wavelet transform technology. Subsequently, DCGAN expands the 2D time–frequency map samples produced. Finally, RepLKNet is used to classify the fault samples. The proposed method has been verified in the PU compound fault data set and bearing real damage data set. The results show that the accuracy of this method has been improved by 5.70%, 6.34%, 9.08%, and 16.35% compared to 2D-CNN under different sizes datasets in case 1, and by 24.5% compared to 2D-CNN in case 2.

Topics & Concepts

Fault (geology)Shot (pellet)Forensic engineeringMaterials scienceStructural engineeringEngineeringMetallurgyGeologySeismologyMachine Fault Diagnosis TechniquesEngineering Diagnostics and ReliabilityFault Detection and Control Systems
Compound fault diagnosis of rolling bearings with few-shot based on DCGAN-RepLKNet | Litcius