Rolling element bearing fault diagnosis using wavelet transform

This paper is focused on fault diagnosis of ball bearings having localized defects (spalls) on the various bearing components using wavelet-based feature extraction. The statistical features required for the training and testing of artificial intelligence techniques are calculated by the implementat...

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Bibliographic Details
Published in:Neurocomputing (Amsterdam) 2011-05, Vol.74 (10), p.1638-1645
Main Authors: Kankar, P.K., Sharma, Satish C., Harsha, S.P.
Format: Article
Language:English
Subjects:
Artificial intelligence
Bearing
Entropy
Expert systems
Faults
Learning vector quantization (LVQ)
Methodology
Self-organizing maps (SOM)
Shannon Entropy
Support vector machine (SVM)
Vector quantization
Wavelet
Wavelets
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Summary:This paper is focused on fault diagnosis of ball bearings having localized defects (spalls) on the various bearing components using wavelet-based feature extraction. The statistical features required for the training and testing of artificial intelligence techniques are calculated by the implementation of a wavelet based methodology developed using Minimum Shannon Entropy Criterion. Seven different base wavelets are considered for the study and Complex Morlet wavelet is selected based on minimum Shannon Entropy Criterion to extract statistical features from wavelet coefficients of raw vibration signals. In the methodology, firstly a wavelet theory based feature extraction methodology is developed that demonstrates the information of fault from the raw signals and then the potential of various artificial intelligence techniques to predict the type of defect in bearings is investigated. Three artificial intelligence techniques are used for faults classifications, out of which two are supervised machine learning techniques i.e. support vector machine, learning vector quantization and other one is an unsupervised machine learning technique i.e. self-organizing maps. The fault classification results show that the support vector machine identified the fault categories of rolling element bearing more accurately and has a better diagnosis performance as compared to the learning vector quantization and self-organizing maps.
ISSN:0925-2312
1872-8286
DOI:10.1016/j.neucom.2011.01.021