Rolling Element Bearing Condition Monitoring Based on Vibration Analysis Using Statistical Parameters of Discrete Wavelet Coefficients and Neural Networks

Q4 Computer Science

International Journal of Automation and Smart Technology Pub Date : 2017-06-01 DOI:10.5875/AUSMT.V7I2.1201

Vahid Kazemi Golbaghi, M. Shahbazian, B. Moslemi, G. Rashed

引用次数: 2

Abstract

There are several techniques that can be used to determine the condition of a rolling element bearing. In this paper, vibration analysis is used to conduct fault diagnosis of a bearing. Vibration signal noise was eliminated using hard thresholding wavelet analysis. The best mother wavelet for the denoising process was selected using the minimum Shannon entropy criterion. Statistical parameters and other signal properties such as energy and entropy are powerful tools for analyzing vibration signals. These features were calculated in the time and wavelet domains and applied to Artificial Neural Networks (ANNs) as the feature vector to classify the condition of a bearing into one healthy and three faulty conditions. The ANN parameters were separately optimized using three optimization algorithms. The comparison of the results shows that if the ANN parameters are properly optimized, the statistical parameters in the time-frequency domain can optimize accuracy.

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基于离散小波系数统计参数和神经网络振动分析的滚动轴承状态监测

有几种技术可用于确定滚动轴承的状态。本文采用振动分析方法对轴承进行故障诊断。采用硬阈值小波分析消除振动信号噪声。利用最小香农熵准则选择最佳母小波进行去噪。统计参数和其他信号特性如能量和熵是分析振动信号的有力工具。在时间域和小波域计算这些特征，并将其作为特征向量应用于人工神经网络(ann)，将轴承状态分为1个健康状态和3个故障状态。分别采用三种优化算法对神经网络参数进行优化。结果表明，如果对人工神经网络参数进行适当的优化，则时频域的统计参数可以优化精度。

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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来源期刊

International Journal of Automation and Smart Technology Engineering-Electrical and Electronic Engineering

CiteScore

0.70

自引率

0.00%

发文量

审稿时长

16 weeks

期刊介绍： International Journal of Automation and Smart Technology (AUSMT) is a peer-reviewed, open-access journal devoted to publishing research papers in the fields of automation and smart technology. Currently, the journal is abstracted in Scopus, INSPEC and DOAJ (Directory of Open Access Journals). The research areas of the journal include but are not limited to the fields of mechatronics, automation, ambient Intelligence, sensor networks, human-computer interfaces, and robotics. These technologies should be developed with the major purpose to increase the quality of life as well as to work towards environmental, economic and social sustainability for future generations. AUSMT endeavors to provide a worldwide forum for the dynamic exchange of ideas and findings from research of different disciplines from around the world. Also, AUSMT actively seeks to encourage interaction and cooperation between academia and industry along the fields of automation and smart technology. For the aforementioned purposes, AUSMT maps out 5 areas of interests. Each of them represents a pillar for better future life: - Intelligent Automation Technology. - Ambient Intelligence, Context Awareness, and Sensor Networks. - Human-Computer Interface. - Optomechatronic Modules and Systems. - Robotics, Intelligent Devices and Systems.