Abstract
Bearing fault diagnosis of a rotating machine plays an important role in reliable operation. A novel intelligent fault diagnosis method for roller bearings has been developed based on a proposed hybrid classifier ensemble approach and the improved Dempster-Shafer theory. The improved Dempster-Shafer theory well considered the combination of unreliable evidence sources, the uncertainty information of basic probability assignment, and the relative credibility of the evidence on the weights in the process of decision making under the framework of fuzzy preference relations, which can effectively deal with conflicts of the evidences and then well improve the diagnostic accuracy for the hybrid classifier ensemble. The effectiveness of the improved Dempster-Shafer theory has been verified via a numerical example. In addition, deep neural networks, a support vector machine, and extreme learning machine techniques have been utilized in the single-stage classification based on singular spectrum entropy, power spectrum entropy, time-frequency entropy, and wavelet packet energy spectrum entropy in this work. Performances of the proposed hybrid ensemble classifier has been demonstrated on a bearing test-rig, compared with the original Dempster-Shafer theory. It can be found that the overall error rate can be greatly reduced with the hybrid ensemble classifier and the improved Dempster-Shafer theory.
Highlights
Rolling element bearings are the key components widely used in rotating machines
Variational mode decomposition (VMD) [27] is as a self-adaptive decomposition method lately proposed with a solid theory [28]
The hybrid classifier ensemble (HCE) approach combined with the improved Dempster-Shafer theory (DST) has been the process of information fusion
Summary
Rolling element bearings are the key components widely used in rotating machines. A sudden breakdown of the mechanical system or even a severe catastrophe, may be caused due to an unexpected failure of the rolling element bearings. A novel hybrid classifier ensemble (HCE) algorithm has been developed in this work, which can perform fault diagnosis under an improved framework of information fusion. A new improved DST approach is proposed in this paper inspired by reference [26], which well considers the combination of unreliable evidence in the group decision making under the framework of FPR. A new hybrid classifier ensemble (HCE) method is proposed based on entropy features to improve the performance and accuracy of fault diagnosis. An improved DST has been proposed to perform information fusion of classification decisions obtained by HCE, which considers the combination of unreliable and conflictive evidence sources, the uncertainty information of basic probability assignment (BPA) and the relative credibility of the evidence on the weights under the framework of FPR.
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