Gear fault diagnosis method based on wavelet-packet independent component analysis and support vector machine with kernel function fusion

Author:

Pan Lizheng12ORCID,Zhu Dashuai1,She Shigang1,Song Aiguo2,Shi Xianchuan1,Duan Suolin1

Affiliation:

1. School of Mechanical Engineering, Changzhou University, Changzhou, P.R. China

2. Remote Measurement and Control Key Lab of Jiangsu Province, School of Instrument Science and Engineering, Southeast University, Nanjing, P.R. China

Abstract

Aiming at the problem of gear fault diagnosis, in order to effectively extract the features and improve the accuracy of gear fault diagnosis, the method based on wavelet-packet independent component analysis and support vector machine with kernel function fusion is proposed in this research. The proposed wavelet-packet independent component analysis feature extraction method can effectively combine the advantages of wavelet packet and independent component analysis methods and acquire more comprehensive feature information. Besides, the proposed kernel-function-fusion support vector machine can well integrate the advantage characteristics of each kernel function. The energy features of wavelet packet coefficients are acquired with four-layer wavelet packet decomposition and then the extracted energy features are further optimized by the independent component analysis method. The kernel-function-fusion support vector machine method is adopted to realize the gear fault diagnosis. Two kernel function models with the best self-classification accuracy are employed to serve the gear fault diagnosis corporately. The test samples are primarily classified by the main kernel function model, and then some samples are selected to be reclassified with the other kernel function model. Finally, the two kernel function models cooperate to determine the type of test samples. The comparison investigations demonstrate that the proposed method based on wavelet-packet independent component analysis and support vector machine with kernel function fusion achieves very high diagnosis accuracy.

Funder

Open Foundation of Remote Measurement and Control Key Lab of Jiangsu Province

Industrial Technology Project Foundation of ChangZhou Government

National Natural Science Foundation of China

Publisher

SAGE Publications

Subject

Mechanical Engineering

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