期刊
ISA TRANSACTIONS
卷 114, 期 -, 页码 470-484出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.isatra.2020.12.054
关键词
Fault diagnosis; Rolling bearing; Multiscale weighted permutation entropy; Supervised Isomap; Marine predators algorithm; Support vector machine
资金
- National Natural Science Foundation of China [51775114, 51875105, 51275092]
- Fujian Provincial Industrial Robot Basic Components Technology Research and Development Center, PR China [2014H21010011]
- Natural Science Foundation of Fujian Province, PR China [2019J01822]
This paper proposes a novel intelligent fault-diagnosis method for rolling bearing fault diagnosis, utilizing generalized composite multiscale weighted permutation entropy and supervised Isomap algorithm for feature extraction and dimensionality reduction, and employing a support vector machine for diagnosis and identification, confirming the effectiveness of the proposed method through experiments.
The rolling bearing vibration signals are complex, non-linear, and non-stationary, it is difficult to extract the sensitive features and diagnose faults by conventional signal processing methods. This paper focuses on the sensitive features extraction and pattern recognition for rolling bearing fault diagnosis and proposes a novel intelligent fault-diagnosis method based on generalized composite multiscale weighted permutation entropy (GCMWPE), supervised Isomap (S-Iso), and marine predators algorithm-based support vector machine (MPA-SVM). Firstly, a novel non-linear technology named GCMWPE was presented, allowing the extraction of bearing features from multiple scales and enabling the construction of a high-dimensional feature set. The GCMWPE uses the generalized composite coarse-grained structure to overcome the shortcomings of the original structure in multiscale weighted permutation entropy and obtain more stable entropy values. Subsequently, the S-Iso algorithm was introduced to obtain the main features and reduce the GCMWPE set dimensionality. Finally, a combination of GCMWPE and S-Iso set was input to the MPA-SVM for diagnosis and identification. The marine predators algorithm (MPA) was used to obtain the optimal SVM parameters. The effectiveness of the proposed fault diagnosis method was confirmed through two bearing fault diagnosis experiments. The results have shown that the proposed method can be used to correctly diagnose bearing states with high diagnostic accuracy. (C) 2021 ISA. Published by Elsevier Ltd. All rights reserved.
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