基于脉冲响应小波稀疏编码收缩去噪算法的滚动轴承缺陷检测增强技术

2013 8th International Workshop on Systems, Signal Processing and their Applications (WoSSPA) Pub Date : 2013-05-12 DOI:10.1109/WOSSPA.2013.6602400

M. Boufenar, S. Rechak

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引用次数: 1

摘要

早期发现缺陷是故障预测的关键。周期性脉冲指示滚子轴承故障的发生。然而，由于初始缺陷的脉冲很弱，并且经常被淹没在大噪声中，因此很难检测到它们。现有的小波阈值去噪方法使用的是正交小波，不能正确匹配脉冲，也没有利用脉冲的先验信息，因而效率不高。在此基础上，提出了一种基于极大似然估计的稀疏码缩(SCS)阈值分割方法。该方法基于SCS去噪，即使在很低的信噪比(SNR)下也能对被检测信号进行深入分析。

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An enhanced technique for roller bearing defect detection using an impulse response wavelet based sparse code shrinkage de-noising algorithm

Detection of defects at early stage is crucial to fault prognostics. Periodic impulses indicate the occurrence of faults in roller bearings. However, it is difficult to detect the impulses of initiating defects because they are rather weak and are often immersed in heavy noise. Existing wavelet threshold de-noising methods are not efficient because they use orthogonal wavelets, which do not match correctly the impulse and do not utilize prior information on the impulses. Hence, a Sparse Code Shrinkage (SCS) method based on maximum likelihood estimation (MLE) for thresholding using an adapted wavelet is developed. Based on SCS de-noising, the present method gives an in-depth analysis of the inspected signal even at very low signal to noise ratio (SNR).

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2013 8th International Workshop on Systems, Signal Processing and their Applications (WoSSPA)

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