Title :
Multidimensional feature extraction based on vibration signals of rolling bearings
Author :
Jianhui Xi ; Lin Lin
Author_Institution :
Sch. of Autom., Shenyang Aerosp. Univ., Shenyang, China
Abstract :
In order to reduce the wrong fault diagnosis probability of rolling bearing using single feature, this paper, being aimed at detecting three working states, which are normal running state, rolling element damage fault, and outer-race damage fault, uses two methods, Shannon entropy computation of wavelet coefficients, and wavelet packet combined with bi-spectrum analysis, to extract multidimensional features from bearing vibration signals. A group of feature variables totally reflecting the different working states of rolling bearing are searched for easy and effective fault diagnosis. Shannon entropy can show the inner uncertainty of system, and bi-spectrum analysis can reflect the nonlinear and non-Gaussian features of system. Simulation shows that combination of two methods can distinguish three working states more effectively, which helps to implement accurate fault diagnosis in time.
Keywords :
condition monitoring; fault diagnosis; feature extraction; mechanical engineering computing; rolling bearings; signal processing; vibrations; wavelet transforms; Shannon entropy computation; bispectrum analysis; damage; fault detection; fault diagnosis probability; multidimensional feature extraction; nonGaussian features; rolling bearings; vibration signals; wavelet coefficients; wavelet packet analysis; Entropy; Feature extraction; Rolling bearings; Vibrations; Wavelet analysis; Wavelet packets; Bi-spectrum Analysis; Feature Extraction; Rolling Bearing; Shannon Entropy; Wavelet Analysis;
Conference_Titel :
Control and Decision Conference (CCDC), 2013 25th Chinese
Conference_Location :
Guiyang
Print_ISBN :
978-1-4673-5533-9
DOI :
10.1109/CCDC.2013.6561087
