Feature extraction for rolling element bearing fault diagnosis utilizing generalized S transform and two-dimensional non-negative matrix factorization

This paper presents a novel feature extraction scheme for roller bearing fault diagnosis utilizing generalized S transform and two-dimensional non-negative matrix factorization (2DNMF). The generalized S transform, which can make up the poor energy concentration of the standard S transform, is intro...

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Bibliographic Details
Published in:Journal of sound and vibration 2011-05, Vol.330 (10), p.2388-2399
Main Authors: Li, Bing, Zhang, Pei-lin, Liu, Dong-sheng, Mi, Shuang-shan, Ren, Guo-quan, Tian, Hao
Format: Article
Language:English
Subjects:
Applied sciences
Bearing
Bearings, bushings, rolling bearings
Classification
Drives
Exact sciences and technology
Factorization
Fault diagnosis
Faults
Feature extraction
Industrial metrology. Testing
Mechanical engineering. Machine design
Transforms
Two dimensional
Vibration
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Summary:This paper presents a novel feature extraction scheme for roller bearing fault diagnosis utilizing generalized S transform and two-dimensional non-negative matrix factorization (2DNMF). The generalized S transform, which can make up the poor energy concentration of the standard S transform, is introduced to generate the time–frequency representation (TFR). Experiment results on simulated signal and vibration signals measured from rolling element bearings have revealed that the generalized S transform can obtain a more satisfactory TFR than other similar techniques. Furthermore, a new technique called two-dimensional non-negative matrix factorization (2DNMF), which can reduce the computation cost and preserve more structure information hiding in original 2D matrices compared to the NMF, is developed to extract more informative features from the time–frequency matrixes for accurate fault classification. Experimental results on bearing faults classification have demonstrated that the proposed feature extraction scheme has an advantage over other similar feature extraction approaches.
ISSN:0022-460X
1095-8568
DOI:10.1016/j.jsv.2010.11.019