Application of Improved Robust Local Mean Decomposition and Multiple Disturbance Multi-Verse Optimizer-Based MCKD in the Diagnosis of Multiple Rolling Element Bearing Faults

Lu, Xiang and Zhu, Ao and Song, Yaqi and Ma, Guoli and Bai, Xingzhen and Guo, Yinjing (2022) Application of Improved Robust Local Mean Decomposition and Multiple Disturbance Multi-Verse Optimizer-Based MCKD in the Diagnosis of Multiple Rolling Element Bearing Faults. Machines, 10 (10). p. 883. ISSN 2075-1702

[thumbnail of machines-10-00883-v4.pdf] Text
machines-10-00883-v4.pdf - Published Version

Download (32MB)

Abstract

Rolling element bearings are an important joint in mechanical equipment and have a high engineering application value. To solve the problem of the difficulty in extracting periodic fault pulses due to complex noise interference and the interference of transmission paths in rolling element bearing fault characteristic signals, a novel hybrid fault diagnosis method based on complementary complete ensemble robust local mean decomposition with adaptive noise (CCERLMDAN) combined with multiple disturbance multi-verse optimizer (MDMVO)-based Maximum correlated Kurtosis deconvolution (MCKD) is proposed in this paper, and applied in different rolling element bearing fault conditions. Firstly, the CCERLMDAN method adaptively decomposes the fault vibration signal into multiple product functions (PF), and then selects the PF with the most fault information through the sensitive index (SI). Finally, the MDMVO method adaptively selects the best parameter combination of the MCKD method and then uses MCKD to perform a deconvolution operation on the selected PF, highlighting the periodic fault pulse excited by the bearing fault. The field-measured vibration signals of rolling element bearing faults are applied to verify the proposed method. The final results show that the method effectively improves the fault diagnosis accuracy of rolling element bearings, and both CCERLMDAN and MDMVO methods achieve a better performance than the original method.

Item Type: Article
Uncontrolled Keywords: robust local mean decomposition; multiple disturbance multi-verse optimizer; maximum correlated kurtosis deconvolution; bearing
Subjects: STM Repository > Engineering
Depositing User: Managing Editor
Date Deposited: 12 Dec 2022 12:41
Last Modified: 19 Feb 2024 04:19
URI: http://classical.goforpromo.com/id/eprint/238

Actions (login required)

View Item
View Item