Fault diagnosis method based on a new manifold learning framework

This study presents a new manifold learning framework for machinery fault diagnosis, in order to further improve fault diagnosis accuracy. The new manifold learning framework contains two stages: unsupervised manifold learning for nonlinear denoising and supervised manifold learning for feature extr...

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Bibliographic Details
Published in:Journal of intelligent & fuzzy systems 2018-01, Vol.34 (6), p.3413-3427
Main Authors: Su, Zuqiang, Xu, Haitao, Luo, Jiufei, Zheng, Kai, Zhang, Yi
Format: Article
Language:English
Subjects:
Fault diagnosis
Feature extraction
Feature recognition
Frequency spectrum
Machine learning
Manifolds (mathematics)
Noise reduction
Pattern recognition
Spatial distribution
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Summary:This study presents a new manifold learning framework for machinery fault diagnosis, in order to further improve fault diagnosis accuracy. The new manifold learning framework contains two stages: unsupervised manifold learning for nonlinear denoising and supervised manifold learning for feature extraction. Firstly, the nonlinear denoising method with unsupervised manifold learning was introduced, which combined advantages of manifold learning in revealing nonlinear manifold structure as well as advantages of phase space reconstruction in representing spatial distribution of signal and noise. Then, fault feature extraction was carried out according to the frequency spectrum of vibration signals after denoising. In order to reduce the high dimension and remove redundant information of frequency spectrum, an improved supervised local tangent space alignment (ISLTSA) was proposed to further enlarge diversity of the fault samples and thus increase separability. Finally, the extracted low-dimensional fault features were inputted into a pattern recognition method for fault identification. The effectiveness of the proposed method was verified by studying the fault diagnosis of bearings.
ISSN:1064-1246
1875-8967
DOI:10.3233/JIFS-169522