An amended grey wolf optimization with mutation strategy to diagnose bucket defects in Pelton wheel

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NSTL
Elsevier

外文摘要：A deep learning-based defect identification scheme for the Pelton wheel has been developed. Initially, the raw vibration signal is passed through a time-varying filter based empirical mode decomposition (TVF-EMD). Filter parameters of TVF-EMD are optimized by a newly developed optimization algorithm i.e., amended grey wolf optimization (AGWO) with Kernel estimate for mutual information (KEMI) as its fitness function. The prominent IMF obtained is used to construct scalogram and prepare dataset. The training dataset trains the convolutional neural network (CNN) model whose accuracy was evaluated by the test dataset and founds to be 100%. The proposed AGWO algorithm was evaluated on twenty-three classical benchmark functions and the Wilcoxon test. Results obtained at benchmark functions and the Wilcoxon test validate the efficiency and superiority of the proposed method as compared to other techniques. A CNN classifier is compared with other learning models which suggested that CNN outperforms all learning models.

外文关键词：

Amended grey wolf optimization (AGWO)Time-varying filter based empirical modedecomposition (TVF-EMD)Pelton wheelKernel estimates for mutual information (KEMI)VibrationEMPIRICAL MODE DECOMPOSITIONFAULT-DIAGNOSISEVOLUTIONARY ALGORITHMSVIBRATION SIGNALHILBERTEMD

作者：

Vashishtha, Govind、Kumar, Rajesh

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作者单位：

St Longowal Inst Engn & Technol

出版年：

2022

DOI：

10.1016/j.measurement.2021.110272

Measurement

SCI

ISSN：0263-2241

年,卷(期)：2022.187

被引量36
参考文献量67