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Temporal-Spatio Graph Based Spectrum Analysis for Bearing Fault Detection and Diagnosis | IEEE Journals & Magazine | IEEE Xplore

Temporal-Spatio Graph Based Spectrum Analysis for Bearing Fault Detection and Diagnosis


Abstract:

This article suggests that the correlation information, hidden in spatial configuration and temporal dynamic of frequencies, is an important indication for bearing health...Show More

Abstract:

This article suggests that the correlation information, hidden in spatial configuration and temporal dynamic of frequencies, is an important indication for bearing health condition. To consider this information, we extend graph-modeling strategy, and introduce a bearing fault detection and diagnosis technique based on temporal-spatio graph. First, short-time periodogram is extracted from vibration signal, and, then, modeled by a temporal-spatio graph. In fault detection phase, the spectrum of temporal channel graph is used to map short-time periodogram to acquire the so-called graph-mapped spectrum (GMS). The principal frequency in resulting GMS is found highly related with the health condition of monitored bearing. Thus, any change of health condition can be detected by checking this principal frequency over time. Once a fault is detected, the spatio channel graph is fed to K-nearest neighbor classifier, coupled with a specific graph distance metric, for fault type identification. Comprehensive experiments on two benchmarking datasets along with theoretical interpretation demonstrate the superiority of proposed method over state of the arts. The proposed temporal-spatio graph provides a significant extension of existing spectrum analysis for fault detection and diagnosis.
Published in: IEEE Transactions on Industrial Electronics ( Volume: 68, Issue: 3, March 2021)
Page(s): 2598 - 2607
Date of Publication: 26 February 2020

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