Rolling Bearing Fault Feature Selection Method Based on a Clustering Hybrid Binary Cuckoo Search.

Sun, Lijun; Xin, Yan; Chen, Tianfei; Feng, Binbin

In order to solve the low accuracy in rolling bearing fault diagnosis caused by irrelevant and redundant features, a feature selection method based on a clustering hybrid binary cuckoo search is proposed. First, the measured motor signal is processed by Hilbert–Huang transform technology to extract fault features. Second, a clustering hybrid initialization technique is given for feature selection, combining the Louvain algorithm and the feature number. Third, a mutation strategy based on Levy flight is proposed, which effectively utilizes high-quality information to guide subsequent searches. In addition, a dynamic abandonment probability is proposed based on population sorting, which can effectively retain high-quality solutions and accelerate the convergence of the algorithm. Experimental results from nine UCI datasets show the effectiveness of the proposed improvement strategy. The open-source bearing dataset is used to compare the fault diagnosis accuracy of different algorithms. The experimental results show that the diagnostic error rate of this method is only 1.13%, which significantly improves classification accuracy and effectively realizes feature dimension reduction in fault datasets. Compared to similar methods, the proposed method has better comprehensive performance.

ROLLER bearings; FEATURE selection; FAULT diagnosis; HILBERT-Huang transform; CUCKOOS; DIAGNOSTIC errors

Electronics (2079-9292), 2023, Vol 12, Issue 2, p459

2079-9292

Academic Journal

10.3390/electronics12020459