Fault Diagnosis System of Induction Motors Using Feature Extraction, Feature Selection and Classification Algorithm

Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing Pub Date : 2006-09-15 DOI:10.1299/JSMEC.49.734

Bo-Suk Yang, Tian Han, Z. Yin

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引用次数: 39

Abstract

This paper proposes a fault diagnosis system for induction motor which integrates principal component analysis (PCA), genetic algorithm (GA) and artificial neural network (ANN). Vibration signals and stator current signals are measured as the fault diagnosis media. Many sensors result in many features to ANN. In order to avoid the curse of dimensionality phenomenon and improve the classification rate, PCA and GA are employed to reduce the feature dimensionality of the measured data. PCA removes the relative features. Then the irrelative features after PCA are selected by GA to find better feature subset as inputs to the network under a few population and generations. GA is also used to optimize the ANN structure in that the selected PCs feature subset is evaluated by it. The efficiency of the proposed system is validated by comparison of other three systems: ANN only, ANN with PCA and ANN with GA. The classification success rate for the ANN with PCA and GA was 100% for validation, while the rates of ANN only, ANN with PCA and ANN with GA were 83.33%, 86.67% and 98.89%, respectively.

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基于特征提取、特征选择和分类算法的异步电动机故障诊断系统

提出了一种将主成分分析(PCA)、遗传算法(GA)和人工神经网络(ANN)相结合的异步电动机故障诊断系统。测量振动信号和定子电流信号作为故障诊断介质。许多传感器会给人工神经网络带来许多特征。为了避免维数诅咒现象，提高分类率，采用主成分分析和遗传算法对测量数据的特征维数进行降维。PCA去除相关特征。然后通过遗传算法选择PCA后的不相关特征，在少量种群和代下找到更好的特征子集作为网络的输入。遗传算法还用于优化人工神经网络结构，对所选pc的特征子集进行评估。通过与纯人工神经网络、人工神经网络与PCA和人工神经网络与遗传算法的对比，验证了该系统的有效性。结合PCA和GA的人工神经网络的分类成功率为100%，而单纯人工神经网络、结合PCA的人工神经网络和结合GA的人工神经网络的分类成功率分别为83.33%、86.67%和98.89%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing

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