Title :
Plastic Bearing Fault Diagnosis Based on a Two-Step Data Mining Approach
Author :
He, Dawei ; Ruoyu Li ; Junda Zhu
Author_Institution :
Dept. of Mech. & Ind. Eng., Univ. of Illinois-Chicago, Chicago, IL, USA
Abstract :
Plastic bearings are widely used in medical applications, food processing industries, and semiconductor industries. However, no research on plastic bearing fault diagnostics using vibration sensors has been reported. In this paper, a two-step data mining-based approach for plastic bearing fault diagnostics using vibration sensors is presented. The two-step approach utilizes envelope analysis and empirical mode decomposition (EMD) to preprocess vibration signals and extract frequency domain and time domain fault features as condition indicators (CIs) for plastic bearing fault diagnosis. In the first step, the frequency domain CIs are used by a statistical classification model to identify bearing outer race faults. In the second step, the time domain CIs extracted using EMD are developed to build a k-nearest neighbor algorithm-based fault classifier to identify other types of bearing faults. Seeded fault tests on plastic bearing outer race, inner race, balls, and cage are conducted on a bearing diagnostic test rig and real vibration signals are collected. The effectiveness of the presented fault diagnostic approach is validated using the plastic bearing seeded fault testing data.
Keywords :
computerised instrumentation; condition monitoring; data mining; fault diagnosis; feature extraction; machine bearings; plasticity; sensors; signal classification; singular value decomposition; statistical analysis; time-frequency analysis; vibrations; CI extraction; EMD; bearing diagnostic test rig; bearing outer race faults; condition indicator; data mining approach; empirical mode decomposition; envelope analysis; frequency domain analysis; frequency domain extraction; k-nearest neighbor algorithm-based fault classifier; plastic bearing fault diagnosis; statistical classification model; time domain fault feature; vibration sensor; vibration signal preprocessing; Data mining; Fault detection; Fault diagnosis; Plastics; Steel; Time frequency analysis; Vibrations; Ball bearing; condition monitoring; data mining; fault detection; fault diagnostics; pattern recognition; vibration;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2012.2192894
