Chenhui Qian scite author profile

Mechanical intelligent fault diagnosis is an important method to accurately identify the health status of mechanical equipment. Traditional fault diagnosis methods perform poorly in the diagnosis of rolling bearings under complex conditions. In this paper, a feature transfer learning model based on improved DenseNet and joint distribution adaptation (FT-IDJ) is proposed. With this model, we apply it to implement rolling bearing fault diagnosis. A lightweight DenseNet model is firstly proposed to extract the transferable features of the raw vibration signal. Furthermore, the parameters in the DenseNet are constrained by the domain adaptive regularization term and pseudo label learning. The marginal distribution discrepancy and the conditional distribution discrepancy of the learned transferable features are reduced by this way. The proposed method is validated by the diagnosis experiments with CWRU and Jiangnan University rolling bearing datasets. The experimental results showed that the proposed FT-IDJ has higher classification accuracy than DAN and other eight methods, which demonstrated its effectively learning transferable features from auxiliary data.

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Application of recurrent neural network to mechanical fault diagnosis: a review

Zhu

Jiang

Shen

et al. 2022

J Mech Sci Technol

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New transfer learning fault diagnosis method of rolling bearing based on ADC-CNN and LATL under variable conditions

et al. 2022

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Deep Transfer Learning in Mechanical Intelligent Fault Diagnosis: Application and Challenge

Qian

Zhu

Shen

et al. 2022

Neural Process Lett

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A new compound algorithm study for Delaunay triangulation construction

Rui

Wang

Qian

et al. 2007

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Chenhui Qian

An intelligent fault diagnosis method for rolling bearings based on feature transfer with improved DenseNet and joint distribution adaptation

Application of recurrent neural network to mechanical fault diagnosis: a review

New transfer learning fault diagnosis method of rolling bearing based on ADC-CNN and LATL under variable conditions

Deep Transfer Learning in Mechanical Intelligent Fault Diagnosis: Application and Challenge

A new compound algorithm study for Delaunay triangulation construction

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