Application of Multiscale Learning Neural Network Based on CNN in Bearing Fault Diagnosis

With the application of intelligent manufacturing becoming more and more widely, the losses caused by mechanical faults of equipment increase. Identifying and troubleshooting faults in an early stage are important. The process of traditional data-driven fault diagnosis method includes data acquisiti...

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Veröffentlicht in:	Journal of signal processing systems 2019-10, Vol.91 (10), p.1205-1217
Hauptverfasser:	Wang, Daichao, Guo, Qingwen, Song, Yan, Gao, Shengyao, Li, Yibin
Format:	Artikel
Sprache:	eng
Schlagworte:	Accuracy Artificial neural networks Circuits and Systems Classification Computer Imaging Convolution Electrical Engineering Engineering Fault detection Fault diagnosis Feature extraction Image Processing and Computer Vision Intelligent manufacturing systems Machine learning Multiscale analysis Neural networks Object recognition Pattern Recognition Pattern Recognition and Graphics Signal,Image and Speech Processing Support vector machines Troubleshooting Vision
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container_title	Journal of signal processing systems
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creator	Wang, Daichao Guo, Qingwen Song, Yan Gao, Shengyao Li, Yibin
description	With the application of intelligent manufacturing becoming more and more widely, the losses caused by mechanical faults of equipment increase. Identifying and troubleshooting faults in an early stage are important. The process of traditional data-driven fault diagnosis method includes data acquisition, fault classification, and feature extraction, in which classification accuracy is directly affected by the result of feature extraction. As a common deep learning method in image recognition, the convolutional neural network (CNN) demonstrates good performance in fault diagnosis. CNN can adaptively extract features from original signals and eliminate the effect of conventional handcrafted features. In this study, a multiscale learning neural network that contains one-dimension (1D) and two-dimension (2D) convolution channels is proposed. The network can learn the local correlation of adjacent and nonadjacent intervals in periodic signals, such as vibration data. The Paderborn data set is came into use to demonstrate the classification accuracy of the method which is brought forward, which includes three conditions of healthy, outer ring (OR) damage and inner ring (IR) damage. The classification accuracy of the method which is put forward is up to 98.58%. The same dataset was applied to test the classification accuracy of support vector machine (SVM) for comparison. And the proposed multiscale learning neural network demonstrates considerable improvements.
doi_str_mv	10.1007/s11265-019-01461-w
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Identifying and troubleshooting faults in an early stage are important. The process of traditional data-driven fault diagnosis method includes data acquisition, fault classification, and feature extraction, in which classification accuracy is directly affected by the result of feature extraction. As a common deep learning method in image recognition, the convolutional neural network (CNN) demonstrates good performance in fault diagnosis. CNN can adaptively extract features from original signals and eliminate the effect of conventional handcrafted features. In this study, a multiscale learning neural network that contains one-dimension (1D) and two-dimension (2D) convolution channels is proposed. The network can learn the local correlation of adjacent and nonadjacent intervals in periodic signals, such as vibration data. 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subjects	Accuracy Artificial neural networks Circuits and Systems Classification Computer Imaging Convolution Electrical Engineering Engineering Fault detection Fault diagnosis Feature extraction Image Processing and Computer Vision Intelligent manufacturing systems Machine learning Multiscale analysis Neural networks Object recognition Pattern Recognition Pattern Recognition and Graphics Signal,Image and Speech Processing Support vector machines Troubleshooting Vision
title	Application of Multiscale Learning Neural Network Based on CNN in Bearing Fault Diagnosis
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