Title :
Motor Bearing Fault Diagnosis Using Trace Ratio Linear Discriminant Analysis
Author :
Xiaohang Jin ; Mingbo Zhao ; Chow, Tommy W. S. ; Pecht, Michael
Author_Institution :
Dept. of Electron. Eng., City Univ. of Hong Kong, Kowloon, China
Abstract :
Bearings are critical components in induction motors and brushless direct current motors. Bearing failure is the most common failure mode in these motors. By implementing health monitoring and fault diagnosis of bearings, unscheduled maintenance and economic losses caused by bearing failures can be avoided. This paper introduces trace ratio linear discriminant analysis (TR-LDA) to deal with high-dimensional non-Gaussian fault data for dimension reduction and fault classification. Motor bearing data with single-point faults and generalized-roughness faults are used to validate the effectiveness of the proposed method for fault diagnosis. Comparisons with other conventional methods, such as principal component analysis, local preserving projection, canonical correction analysis, maximum margin criterion, LDA, and marginal Fisher analysis, show the superiority of TR-LDA in fault diagnosis.
Keywords :
brushless DC motors; failure analysis; fault diagnosis; induction motors; machine bearings; statistical analysis; LDA; TR-LDA; bearing failure; brushless direct current motors; canonical correction analysis; common failure mode; dimension reduction; economic losses; fault classification; generalized-roughness faults; health monitoring; high-dimensional nonGaussian fault data; induction motors; local preserving projection; marginal Fisher analysis; maximum margin criterion; motor bearing data; motor bearing fault diagnosis; principal component analysis; single-point faults; trace ratio linear discriminant analysis; unscheduled maintenance; Educational institutions; Fault diagnosis; Induction motors; Linear discriminant analysis; Principal component analysis; Time-domain analysis; Vibrations; Bearing; fault diagnosis; linear discriminant analysis (LDA); pattern recognition; trace ratio (TR) criterion; vibrations;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2013.2273471
